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-rw-r--r--cc3200/hal/adc.c692
-rw-r--r--cc3200/hal/adc.h117
-rw-r--r--cc3200/hal/aes.c1330
-rw-r--r--cc3200/hal/aes.h217
-rw-r--r--cc3200/hal/cc3200_asm.h82
-rw-r--r--cc3200/hal/cc3200_hal.c165
-rw-r--r--cc3200/hal/cc3200_hal.h66
-rw-r--r--cc3200/hal/cc_types.h58
-rw-r--r--cc3200/hal/cpu.c412
-rw-r--r--cc3200/hal/cpu.h75
-rw-r--r--cc3200/hal/crc.c305
-rw-r--r--cc3200/hal/crc.h98
-rw-r--r--cc3200/hal/debug.h63
-rw-r--r--cc3200/hal/des.c887
-rw-r--r--cc3200/hal/des.h143
-rw-r--r--cc3200/hal/fault_registers.h73
-rw-r--r--cc3200/hal/gpio.c706
-rw-r--r--cc3200/hal/gpio.h139
-rw-r--r--cc3200/hal/i2c.c2057
-rw-r--r--cc3200/hal/i2c.h361
-rw-r--r--cc3200/hal/i2s.c922
-rw-r--r--cc3200/hal/i2s.h202
-rw-r--r--cc3200/hal/inc/asmdefs.h229
-rw-r--r--cc3200/hal/inc/hw_adc.h888
-rw-r--r--cc3200/hal/inc/hw_aes.h802
-rw-r--r--cc3200/hal/inc/hw_apps_config.h747
-rw-r--r--cc3200/hal/inc/hw_apps_rcm.h1506
-rw-r--r--cc3200/hal/inc/hw_camera.h519
-rw-r--r--cc3200/hal/inc/hw_common_reg.h1117
-rw-r--r--cc3200/hal/inc/hw_des.h339
-rw-r--r--cc3200/hal/inc/hw_dthe.h392
-rw-r--r--cc3200/hal/inc/hw_flash_ctrl.h1862
-rw-r--r--cc3200/hal/inc/hw_gpio.h1349
-rw-r--r--cc3200/hal/inc/hw_gprcm.h3322
-rw-r--r--cc3200/hal/inc/hw_hib1p2.h1750
-rw-r--r--cc3200/hal/inc/hw_hib3p3.h1138
-rw-r--r--cc3200/hal/inc/hw_i2c.h503
-rw-r--r--cc3200/hal/inc/hw_ints.h117
-rw-r--r--cc3200/hal/inc/hw_mcasp.h1706
-rw-r--r--cc3200/hal/inc/hw_mcspi.h1745
-rw-r--r--cc3200/hal/inc/hw_memmap.h84
-rw-r--r--cc3200/hal/inc/hw_mmchs.h1919
-rw-r--r--cc3200/hal/inc/hw_nvic.h1710
-rw-r--r--cc3200/hal/inc/hw_ocp_shared.h3445
-rw-r--r--cc3200/hal/inc/hw_shamd5.h1242
-rw-r--r--cc3200/hal/inc/hw_stack_die_ctrl.h764
-rw-r--r--cc3200/hal/inc/hw_timer.h778
-rw-r--r--cc3200/hal/inc/hw_types.h76
-rw-r--r--cc3200/hal/inc/hw_uart.h417
-rw-r--r--cc3200/hal/inc/hw_udma.h336
-rw-r--r--cc3200/hal/inc/hw_wdt.h131
-rw-r--r--cc3200/hal/interrupt.c769
-rw-r--r--cc3200/hal/interrupt.h120
-rw-r--r--cc3200/hal/pin.c667
-rw-r--r--cc3200/hal/pin.h176
-rw-r--r--cc3200/hal/prcm.c1778
-rw-r--r--cc3200/hal/prcm.h272
-rw-r--r--cc3200/hal/rom.h2237
-rw-r--r--cc3200/hal/rom_map.h3177
-rw-r--r--cc3200/hal/rom_patch.h87
-rw-r--r--cc3200/hal/sdhost.c744
-rw-r--r--cc3200/hal/sdhost.h204
-rw-r--r--cc3200/hal/shamd5.c1085
-rw-r--r--cc3200/hal/shamd5.h121
-rw-r--r--cc3200/hal/spi.c1527
-rw-r--r--cc3200/hal/spi.h163
-rw-r--r--cc3200/hal/startup_gcc.c418
-rw-r--r--cc3200/hal/systick.c275
-rw-r--r--cc3200/hal/systick.h78
-rw-r--r--cc3200/hal/timer.c1067
-rw-r--r--cc3200/hal/timer.h208
-rw-r--r--cc3200/hal/uart.c1518
-rw-r--r--cc3200/hal/uart.h234
-rw-r--r--cc3200/hal/utils.c104
-rw-r--r--cc3200/hal/utils.h71
-rw-r--r--cc3200/hal/wdt.c491
-rw-r--r--cc3200/hal/wdt.h82
77 files changed, 57776 insertions, 0 deletions
diff --git a/cc3200/hal/adc.c b/cc3200/hal/adc.c
new file mode 100644
index 000000000..23d219e1d
--- /dev/null
+++ b/cc3200/hal/adc.c
@@ -0,0 +1,692 @@
+//*****************************************************************************
+//
+// adc.c
+//
+// Driver for the ADC module.
+//
+// Copyright (C) 2014 Texas Instruments Incorporated - http://www.ti.com/
+//
+//
+// Redistribution and use in source and binary forms, with or without
+// modification, are permitted provided that the following conditions
+// are met:
+//
+// Redistributions of source code must retain the above copyright
+// notice, this list of conditions and the following disclaimer.
+//
+// Redistributions in binary form must reproduce the above copyright
+// notice, this list of conditions and the following disclaimer in the
+// documentation and/or other materials provided with the
+// distribution.
+//
+// Neither the name of Texas Instruments Incorporated nor the names of
+// its contributors may be used to endorse or promote products derived
+// from this software without specific prior written permission.
+//
+// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
+// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
+// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
+// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
+// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
+// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
+// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
+// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
+// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
+// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
+// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+//
+//*****************************************************************************
+
+//*****************************************************************************
+//
+//! \addtogroup ADC_Analog_to_Digital_Converter_api
+//! @{
+//
+//*****************************************************************************
+#include "inc/hw_types.h"
+#include "inc/hw_memmap.h"
+#include "inc/hw_ints.h"
+#include "inc/hw_adc.h"
+#include "inc/hw_apps_config.h"
+#include "interrupt.h"
+#include "adc.h"
+
+
+//*****************************************************************************
+//
+//! Enables the ADC
+//!
+//! \param ulBase is the base address of the ADC
+//!
+//! This function sets the ADC global enable
+//!
+//! \return None.
+//
+//*****************************************************************************
+void ADCEnable(unsigned long ulBase)
+{
+ //
+ // Set the global enable bit in the control register.
+ //
+ HWREG(ulBase + ADC_O_ADC_CTRL) |= 0x1;
+}
+
+//*****************************************************************************
+//
+//! Disable the ADC
+//!
+//! \param ulBase is the base address of the ADC
+//!
+//! This function clears the ADC global enable
+//!
+//! \return None.
+//
+//*****************************************************************************
+void ADCDisable(unsigned long ulBase)
+{
+ //
+ // Clear the global enable bit in the control register.
+ //
+ HWREG(ulBase + ADC_O_ADC_CTRL) &= ~0x1 ;
+}
+
+//*****************************************************************************
+//
+//! Enables specified ADC channel
+//!
+//! \param ulBase is the base address of the ADC
+//! \param ulChannel is one of the valid ADC channels
+//!
+//! This function enables specified ADC channel and configures the
+//! pin as analog pin.
+//!
+//! \return None.
+//
+//*****************************************************************************
+void ADCChannelEnable(unsigned long ulBase, unsigned long ulChannel)
+{
+ unsigned long ulCh;
+
+ ulCh = (ulChannel == ADC_CH_0)? 0x02 :
+ (ulChannel == ADC_CH_1)? 0x04 :
+ (ulChannel == ADC_CH_2)? 0x08 : 0x10;
+
+ HWREG(ulBase + ADC_O_ADC_CH_ENABLE) |= ulCh;
+}
+
+//*****************************************************************************
+//
+//! Disables specified ADC channel
+//!
+//! \param ulBase is the base address of the ADC
+//! \param ulChannel is one of the valid ADC channelsber
+//!
+//! This function disables specified ADC channel.
+//!
+//! \return None.
+//
+//*****************************************************************************
+void ADCChannelDisable(unsigned long ulBase, unsigned long ulChannel)
+{
+ unsigned long ulCh;
+
+ ulCh = (ulChannel == ADC_CH_0)? 0x02 :
+ (ulChannel == ADC_CH_1)? 0x04 :
+ (ulChannel == ADC_CH_2)? 0x08 : 0x10;
+
+ HWREG(ulBase + ADC_O_ADC_CH_ENABLE) &= ~ulCh;
+}
+
+//*****************************************************************************
+//
+//! Enables and registers ADC interrupt handler for specified channel
+//!
+//! \param ulBase is the base address of the ADC
+//! \param ulChannel is one of the valid ADC channels
+//! \param pfnHandler is a pointer to the function to be called when the
+//! ADC channel interrupt occurs.
+//!
+//! This function enables and registers ADC interrupt handler for specified
+//! channel. Individual interrupt for each channel should be enabled using
+//! \sa ADCIntEnable(). It is the interrupt handler's responsibility to clear
+//! the interrupt source.
+//!
+//! The parameter \e ulChannel should be one of the following
+//!
+//! - \b ADC_CH_0 for channel 0
+//! - \b ADC_CH_1 for channel 1
+//! - \b ADC_CH_2 for channel 2
+//! - \b ADC_CH_3 for channel 3
+//!
+//! \return None.
+//
+//*****************************************************************************
+void ADCIntRegister(unsigned long ulBase, unsigned long ulChannel,
+ void (*pfnHandler)(void))
+{
+ unsigned long ulIntNo;
+
+ //
+ // Get the interrupt number associted with the specified channel
+ //
+ ulIntNo = (ulChannel == ADC_CH_0)? INT_ADCCH0 :
+ (ulChannel == ADC_CH_1)? INT_ADCCH1 :
+ (ulChannel == ADC_CH_2)? INT_ADCCH2 : INT_ADCCH3;
+
+ //
+ // Register the interrupt handler
+ //
+ IntRegister(ulIntNo,pfnHandler);
+
+ //
+ // Enable ADC interrupt
+ //
+ IntEnable(ulIntNo);
+}
+
+
+//*****************************************************************************
+//
+//! Disables and unregisters ADC interrupt handler for specified channel
+//!
+//! \param ulBase is the base address of the ADC
+//! \param ulChannel is one of the valid ADC channels
+//!
+//! This function disables and unregisters ADC interrupt handler for specified
+//! channel. This function also masks off the interrupt in the interrupt
+//! controller so that the interrupt handler no longer is called.
+//!
+//! The parameter \e ulChannel should be one of the following
+//!
+//! - \b ADC_CH_0 for channel 0
+//! - \b ADC_CH_1 for channel 1
+//! - \b ADC_CH_2 for channel 2
+//! - \b ADC_CH_3 for channel 3
+//!
+//! \return None.
+//
+//*****************************************************************************
+void ADCIntUnregister(unsigned long ulBase, unsigned long ulChannel)
+{
+ unsigned long ulIntNo;
+
+ //
+ // Get the interrupt number associted with the specified channel
+ //
+ ulIntNo = (ulChannel == ADC_CH_0)? INT_ADCCH0 :
+ (ulChannel == ADC_CH_1)? INT_ADCCH1 :
+ (ulChannel == ADC_CH_2)? INT_ADCCH2 : INT_ADCCH3;
+
+ //
+ // Disable ADC interrupt
+ //
+ IntDisable(ulIntNo);
+
+ //
+ // Unregister the interrupt handler
+ //
+ IntUnregister(ulIntNo);
+}
+
+//*****************************************************************************
+//
+//! Enables individual interrupt sources for specified channel
+//!
+//!
+//! \param ulBase is the base address of the ADC
+//! \param ulChannel is one of the valid ADC channels
+//! \param ulIntFlags is the bit mask of the interrupt sources to be enabled.
+//!
+//! This function enables the indicated ADC interrupt sources. Only the
+//! sources that are enabled can be reflected to the processor interrupt;
+//! disabled sources have no effect on the processor.
+//!
+//! The parameter \e ulChannel should be one of the following
+//!
+//! - \b ADC_CH_0 for channel 0
+//! - \b ADC_CH_1 for channel 1
+//! - \b ADC_CH_2 for channel 2
+//! - \b ADC_CH_3 for channel 3
+//!
+//! The \e ulIntFlags parameter is the logical OR of any of the following:
+//! - \b ADC_DMA_DONE for DMA done
+//! - \b ADC_FIFO_OVERFLOW for FIFO over flow
+//! - \b ADC_FIFO_UNDERFLOW for FIFO under flow
+//! - \b ADC_FIFO_EMPTY for FIFO empty
+//! - \b ADC_FIFO_FULL for FIFO full
+//!
+//! \return None.
+//
+//*****************************************************************************
+void ADCIntEnable(unsigned long ulBase, unsigned long ulChannel,
+ unsigned long ulIntFlags)
+{
+ unsigned long ulOffset;
+ unsigned long ulDmaMsk;
+
+ //
+ // Enable DMA Done interrupt
+ //
+ if(ulIntFlags & ADC_DMA_DONE)
+ {
+ ulDmaMsk = (ulChannel == ADC_CH_0)?0x00001000:
+ (ulChannel == ADC_CH_1)?0x00002000:
+ (ulChannel == ADC_CH_2)?0x00004000:0x00008000;
+
+ HWREG(APPS_CONFIG_BASE + APPS_CONFIG_O_DMA_DONE_INT_MASK_CLR) = ulDmaMsk;
+ }
+
+ ulIntFlags = ulIntFlags & 0x0F;
+ //
+ // Get the interrupt enable register offset for specified channel
+ //
+ ulOffset = ADC_O_adc_ch0_irq_en + ulChannel;
+
+ //
+ // Unmask the specified interrupts
+ //
+ HWREG(ulBase + ulOffset) |= (ulIntFlags & 0xf);
+}
+
+
+//*****************************************************************************
+//
+//! Disables individual interrupt sources for specified channel
+//!
+//!
+//! \param ulBase is the base address of the ADC.
+//! \param ulChannel is one of the valid ADC channels
+//! \param ulIntFlags is the bit mask of the interrupt sources to be enabled.
+//!
+//! This function disables the indicated ADC interrupt sources. Only the
+//! sources that are enabled can be reflected to the processor interrupt;
+//! disabled sources have no effect on the processor.
+//!
+//! The parameters\e ulIntFlags and \e ulChannel should be as explained in
+//! ADCIntEnable().
+//!
+//! \return None.
+//
+//*****************************************************************************
+void ADCIntDisable(unsigned long ulBase, unsigned long ulChannel,
+ unsigned long ulIntFlags)
+{
+ unsigned long ulOffset;
+ unsigned long ulDmaMsk;
+
+ //
+ // Disable DMA Done interrupt
+ //
+ if(ulIntFlags & ADC_DMA_DONE)
+ {
+ ulDmaMsk = (ulChannel == ADC_CH_0)?0x00001000:
+ (ulChannel == ADC_CH_1)?0x00002000:
+ (ulChannel == ADC_CH_2)?0x00004000:0x00008000;
+
+ HWREG(APPS_CONFIG_BASE + APPS_CONFIG_O_DMA_DONE_INT_MASK_SET) = ulDmaMsk;
+ }
+
+ //
+ // Get the interrupt enable register offset for specified channel
+ //
+ ulOffset = ADC_O_adc_ch0_irq_en + ulChannel;
+
+ //
+ // Unmask the specified interrupts
+ //
+ HWREG(ulBase + ulOffset) &= ~ulIntFlags;
+}
+
+
+//*****************************************************************************
+//
+//! Gets the current channel interrupt status
+//!
+//! \param ulBase is the base address of the ADC
+//! \param ulChannel is one of the valid ADC channels
+//!
+//! This function returns the interrupt status of the specified ADC channel.
+//!
+//! The parameter \e ulChannel should be as explained in \sa ADCIntEnable().
+//!
+//! \return Return the ADC channel interrupt status, enumerated as a bit
+//! field of values described in ADCIntEnable()
+//
+//*****************************************************************************
+unsigned long ADCIntStatus(unsigned long ulBase, unsigned long ulChannel)
+{
+ unsigned long ulOffset;
+ unsigned long ulDmaMsk;
+ unsigned long ulIntStatus;
+
+ //
+ // Get DMA Done interrupt status
+ //
+ ulDmaMsk = (ulChannel == ADC_CH_0)?0x00001000:
+ (ulChannel == ADC_CH_1)?0x00002000:
+ (ulChannel == ADC_CH_2)?0x00004000:0x00008000;
+
+ ulIntStatus = HWREG(APPS_CONFIG_BASE +
+ APPS_CONFIG_O_DMA_DONE_INT_STS_MASKED)& ulDmaMsk;
+
+
+ //
+ // Get the interrupt enable register offset for specified channel
+ //
+ ulOffset = ADC_O_adc_ch0_irq_status + ulChannel;
+
+ //
+ // Read ADC interrupt status
+ //
+ ulIntStatus |= HWREG(ulBase + ulOffset) & 0xf;
+
+ //
+ // Return the current interrupt status
+ //
+ return(ulIntStatus);
+}
+
+
+//*****************************************************************************
+//
+//! Clears the current channel interrupt sources
+//!
+//! \param ulBase is the base address of the ADC
+//! \param ulChannel is one of the valid ADC channels
+//! \param ulIntFlags is the bit mask of the interrupt sources to be cleared.
+//!
+//! This function clears individual interrupt source for the specified
+//! ADC channel.
+//!
+//! The parameter \e ulChannel should be as explained in \sa ADCIntEnable().
+//!
+//! \return None.
+//
+//*****************************************************************************
+void ADCIntClear(unsigned long ulBase, unsigned long ulChannel,
+ unsigned long ulIntFlags)
+{
+ unsigned long ulOffset;
+ unsigned long ulDmaMsk;
+
+ //
+ // Clear DMA Done interrupt
+ //
+ if(ulIntFlags & ADC_DMA_DONE)
+ {
+ ulDmaMsk = (ulChannel == ADC_CH_0)?0x00001000:
+ (ulChannel == ADC_CH_1)?0x00002000:
+ (ulChannel == ADC_CH_2)?0x00004000:0x00008000;
+
+ HWREG(APPS_CONFIG_BASE + APPS_CONFIG_O_DMA_DONE_INT_ACK) = ulDmaMsk;
+ }
+
+ //
+ // Get the interrupt enable register offset for specified channel
+ //
+ ulOffset = ADC_O_adc_ch0_irq_status + ulChannel;
+
+ //
+ // Clear the specified interrupts
+ //
+ HWREG(ulBase + ulOffset) = (ulIntFlags & ~(ADC_DMA_DONE));
+}
+
+//*****************************************************************************
+//
+//! Enables the ADC DMA operation for specified channel
+//!
+//! \param ulBase is the base address of the ADC
+//! \param ulChannel is one of the valid ADC channels
+//!
+//! This function enables the DMA operation for specified ADC channel
+//!
+//! The parameter \e ulChannel should be one of the following
+//!
+//! - \b ADC_CH_0 for channel 0
+//! - \b ADC_CH_1 for channel 1
+//! - \b ADC_CH_2 for channel 2
+//! - \b ADC_CH_3 for channel 3
+//!
+//! \return None.
+//
+//*****************************************************************************
+void ADCDMAEnable(unsigned long ulBase, unsigned long ulChannel)
+{
+ unsigned long ulBitMask;
+
+ //
+ // Get the bit mask for enabling DMA for specified channel
+ //
+ ulBitMask = (ulChannel == ADC_CH_0)?0x01:
+ (ulChannel == ADC_CH_1)?0x04:
+ (ulChannel == ADC_CH_2)?0x10:0x40;
+
+ //
+ // Enable DMA request for the specified channel
+ //
+ HWREG(ulBase + ADC_O_adc_dma_mode_en) |= ulBitMask;
+}
+
+//*****************************************************************************
+//
+//! Disables the ADC DMA operation for specified channel
+//!
+//! \param ulBase is the base address of the ADC
+//! \param ulChannel is one of the valid ADC channels
+//!
+//! This function disables the DMA operation for specified ADC channel
+//!
+//! The parameter \e ulChannel should be one of the following
+//!
+//! - \b ADC_CH_0 for channel 0
+//! - \b ADC_CH_1 for channel 1
+//! - \b ADC_CH_2 for channel 2
+//! - \b ADC_CH_3 for channel 3
+//!
+//! \return None.
+//
+//*****************************************************************************
+void ADCDMADisable(unsigned long ulBase, unsigned long ulChannel)
+{
+ unsigned long ulBitMask;
+
+ //
+ // Get the bit mask for disabling DMA for specified channel
+ //
+ ulBitMask = (ulChannel == ADC_CH_0)?0x01:
+ (ulChannel == ADC_CH_1)?0x04:
+ (ulChannel == ADC_CH_2)?0x10:0x40;
+
+ //
+ // Disable DMA request for the specified channel
+ //
+ HWREG(ulBase + ADC_O_adc_dma_mode_en) &= ~ulBitMask;
+}
+
+//*****************************************************************************
+//
+//! Configures the ADC internal timer
+//!
+//! \param ulBase is the base address of the ADC
+//! \param ulValue is wrap arround value of the timer
+//!
+//! This function Configures the ADC internal timer. The ADC timer is a 17 bit
+//! used to timestamp the ADC data samples internally.
+//! User can read the timestamp along with the sample from the FIFO register(s).
+//! Each sample in the FIFO contains 14 bit actual data and 18 bit timestamp
+//!
+//! The parameter \e ulValue can take any value between 0 - 2^17
+//!
+//! \returns None.
+//
+//*****************************************************************************
+void ADCTimerConfig(unsigned long ulBase, unsigned long ulValue)
+{
+ unsigned long ulReg;
+
+ //
+ // Read the currrent config
+ //
+ ulReg = HWREG(ulBase + ADC_O_adc_timer_configuration);
+
+ //
+ // Mask and set timer count field
+ //
+ ulReg = ((ulReg & ~0x1FFFF) | (ulValue & 0x1FFFF));
+
+ //
+ // Set the timer count value
+ //
+ HWREG(ulBase + ADC_O_adc_timer_configuration) = ulReg;
+}
+
+//*****************************************************************************
+//
+//! Resets ADC internal timer
+//!
+//! \param ulBase is the base address of the ADC
+//!
+//! This function resets 17-bit ADC internal timer
+//!
+//! \returns None.
+//
+//*****************************************************************************
+void ADCTimerReset(unsigned long ulBase)
+{
+ //
+ // Reset the timer
+ //
+ HWREG(ulBase + ADC_O_adc_timer_configuration) |= (1 << 24);
+}
+
+//*****************************************************************************
+//
+//! Enables ADC internal timer
+//!
+//! \param ulBase is the base address of the ADC
+//!
+//! This function enables 17-bit ADC internal timer
+//!
+//! \returns None.
+//
+//*****************************************************************************
+void ADCTimerEnable(unsigned long ulBase)
+{
+ //
+ // Enable the timer
+ //
+ HWREG(ulBase + ADC_O_adc_timer_configuration) |= (1 << 25);
+}
+
+//*****************************************************************************
+//
+//! Disables ADC internal timer
+//!
+//! \param ulBase is the base address of the ADC
+//!
+//! This function disables 17-bit ADC internal timer
+//!
+//! \returns None.
+//
+//*****************************************************************************
+void ADCTimerDisable(unsigned long ulBase)
+{
+ //
+ // Disable the timer
+ //
+ HWREG(ulBase + ADC_O_adc_timer_configuration) &= ~(1 << 25);
+}
+
+//*****************************************************************************
+//
+//! Gets the current value of ADC internal timer
+//!
+//! \param ulBase is the base address of the ADC
+//!
+//! This function the current value of 17-bit ADC internal timer
+//!
+//! \returns Return the current value of ADC internal timer.
+//
+//*****************************************************************************
+unsigned long ADCTimerValueGet(unsigned long ulBase)
+{
+ return(HWREG(ulBase + ADC_O_adc_timer_current_count));
+}
+
+//*****************************************************************************
+//
+//! Gets the current FIFO level for specified ADC channel
+//!
+//! \param ulBase is the base address of the ADC
+//! \param ulChannel is one of the valid ADC channels.
+//!
+//! This function returns the current FIFO level for specified ADC channel.
+//!
+//! The parameter \e ulChannel should be one of the following
+//!
+//! - \b ADC_CH_0 for channel 0
+//! - \b ADC_CH_1 for channel 1
+//! - \b ADC_CH_2 for channel 2
+//! - \b ADC_CH_3 for channel 3
+//!
+//! \returns Return the current FIFO level for specified channel
+//
+//*****************************************************************************
+unsigned char ADCFIFOLvlGet(unsigned long ulBase, unsigned long ulChannel)
+{
+ unsigned long ulOffset;
+
+ //
+ // Get the fifo level register offset for specified channel
+ //
+ ulOffset = ADC_O_adc_ch0_fifo_lvl + ulChannel;
+
+ //
+ // Return FIFO level
+ //
+ return(HWREG(ulBase + ulOffset) & 0x7);
+}
+
+//*****************************************************************************
+//
+//! Reads FIFO for specified ADC channel
+//!
+//! \param ulBase is the base address of the ADC
+//! \param ulChannel is one of the valid ADC channels.
+//!
+//! This function returns one data sample from the channel fifo as specified by
+//! \e ulChannel parameter.
+//!
+//! The parameter \e ulChannel should be one of the following
+//!
+//! - \b ADC_CH_0 for channel 0
+//! - \b ADC_CH_1 for channel 1
+//! - \b ADC_CH_2 for channel 2
+//! - \b ADC_CH_3 for channel 3
+//!
+//! \returns Return one data sample from the channel fifo.
+//
+//*****************************************************************************
+unsigned long ADCFIFORead(unsigned long ulBase, unsigned long ulChannel)
+{
+ unsigned long ulOffset;
+
+ //
+ // Get the fifo register offset for specified channel
+ //
+ ulOffset = ADC_O_channel0FIFODATA + ulChannel;
+
+ //
+ // Return FIFO level
+ //
+ return(HWREG(ulBase + ulOffset));
+}
+
+
+//*****************************************************************************
+//
+// Close the Doxygen group.
+//! @}
+//
+//*****************************************************************************
diff --git a/cc3200/hal/adc.h b/cc3200/hal/adc.h
new file mode 100644
index 000000000..fce1a7305
--- /dev/null
+++ b/cc3200/hal/adc.h
@@ -0,0 +1,117 @@
+//*****************************************************************************
+//
+// adc.h
+//
+// Defines and Macros for the ADC.
+//
+// Copyright (C) 2014 Texas Instruments Incorporated - http://www.ti.com/
+//
+//
+// Redistribution and use in source and binary forms, with or without
+// modification, are permitted provided that the following conditions
+// are met:
+//
+// Redistributions of source code must retain the above copyright
+// notice, this list of conditions and the following disclaimer.
+//
+// Redistributions in binary form must reproduce the above copyright
+// notice, this list of conditions and the following disclaimer in the
+// documentation and/or other materials provided with the
+// distribution.
+//
+// Neither the name of Texas Instruments Incorporated nor the names of
+// its contributors may be used to endorse or promote products derived
+// from this software without specific prior written permission.
+//
+// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
+// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
+// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
+// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
+// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
+// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
+// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
+// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
+// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
+// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
+// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+//
+//*****************************************************************************
+
+#ifndef __ADC_H__
+#define __ADC_H__
+
+//*****************************************************************************
+//
+// If building with a C++ compiler, make all of the definitions in this header
+// have a C binding.
+//
+//*****************************************************************************
+#ifdef __cplusplus
+extern "C"
+//{
+#endif
+
+//*****************************************************************************
+// Values that can be passed to APIs as ulChannel parameter
+//*****************************************************************************
+#define ADC_CH_0 0x00000000
+#define ADC_CH_1 0x00000008
+#define ADC_CH_2 0x00000010
+#define ADC_CH_3 0x00000018
+
+
+//*****************************************************************************
+//
+// Values that can be passed to ADCIntEnable(), ADCIntDisable()
+// and ADCIntClear() as ulIntFlags, and returned from ADCIntStatus()
+//
+//*****************************************************************************
+#define ADC_DMA_DONE 0x00000010
+#define ADC_FIFO_OVERFLOW 0x00000008
+#define ADC_FIFO_UNDERFLOW 0x00000004
+#define ADC_FIFO_EMPTY 0x00000002
+#define ADC_FIFO_FULL 0x00000001
+
+
+//*****************************************************************************
+//
+// API Function prototypes
+//
+//*****************************************************************************
+extern void ADCEnable(unsigned long ulBase);
+extern void ADCDisable(unsigned long ulBase);
+extern void ADCChannelEnable(unsigned long ulBase,unsigned long ulChannel);
+extern void ADCChannelDisable(unsigned long ulBase,unsigned long ulChannel);
+extern void ADCIntRegister(unsigned long ulBase, unsigned long ulChannel,
+ void (*pfnHandler)(void));
+extern void ADCIntUnregister(unsigned long ulBase, unsigned long ulChannel);
+extern void ADCIntEnable(unsigned long ulBase, unsigned long ulChannel,
+ unsigned long ulIntFlags);
+extern void ADCIntDisable(unsigned long ulBase, unsigned long ulChannel,
+ unsigned long ulIntFlags);
+extern unsigned long ADCIntStatus(unsigned long ulBase,unsigned long ulChannel);
+extern void ADCIntClear(unsigned long ulBase, unsigned long ulChannel,
+ unsigned long ulIntFlags);
+extern void ADCDMAEnable(unsigned long ulBase, unsigned long ulChannel);
+extern void ADCDMADisable(unsigned long ulBase, unsigned long ulChannel);
+extern void ADCTimerConfig(unsigned long ulBase, unsigned long ulValue);
+extern void ADCTimerEnable(unsigned long ulBase);
+extern void ADCTimerDisable(unsigned long ulBase);
+extern void ADCTimerReset(unsigned long ulBase);
+extern unsigned long ADCTimerValueGet(unsigned long ulBase);
+extern unsigned char ADCFIFOLvlGet(unsigned long ulBase,
+ unsigned long ulChannel);
+extern unsigned long ADCFIFORead(unsigned long ulBase,
+ unsigned long ulChannel);
+
+//*****************************************************************************
+//
+// Mark the end of the C bindings section for C++ compilers.
+//
+//*****************************************************************************
+#ifdef __cplusplus
+}
+#endif
+
+#endif // __ADC_H__
+
diff --git a/cc3200/hal/aes.c b/cc3200/hal/aes.c
new file mode 100644
index 000000000..9f3175ec2
--- /dev/null
+++ b/cc3200/hal/aes.c
@@ -0,0 +1,1330 @@
+//*****************************************************************************
+//
+// aes.c
+//
+// Driver for the AES module.
+//
+// Copyright (C) 2014 Texas Instruments Incorporated - http://www.ti.com/
+//
+//
+// Redistribution and use in source and binary forms, with or without
+// modification, are permitted provided that the following conditions
+// are met:
+//
+// Redistributions of source code must retain the above copyright
+// notice, this list of conditions and the following disclaimer.
+//
+// Redistributions in binary form must reproduce the above copyright
+// notice, this list of conditions and the following disclaimer in the
+// documentation and/or other materials provided with the
+// distribution.
+//
+// Neither the name of Texas Instruments Incorporated nor the names of
+// its contributors may be used to endorse or promote products derived
+// from this software without specific prior written permission.
+//
+// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
+// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
+// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
+// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
+// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
+// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
+// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
+// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
+// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
+// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
+// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+//
+//*****************************************************************************
+
+//*****************************************************************************
+//
+//! \addtogroup AES_Advanced_Encryption_Standard_api
+//! @{
+//
+//*****************************************************************************
+
+#include <stdbool.h>
+#include <stdint.h>
+#include "inc/hw_aes.h"
+#include "inc/hw_dthe.h"
+#include "inc/hw_ints.h"
+#include "inc/hw_memmap.h"
+#include "inc/hw_nvic.h"
+#include "inc/hw_types.h"
+#include "aes.h"
+#include "debug.h"
+#include "interrupt.h"
+
+#define AES_BLOCK_SIZE_IN_BYTES 16
+
+//*****************************************************************************
+//
+//! Configures the AES module.
+//!
+//! \param ui32Base is the base address of the AES module.
+//! \param ui32Config is the configuration of the AES module.
+//!
+//! This function configures the AES module based on the specified parameters.
+//! It does not change any DMA- or interrupt-related parameters.
+//!
+//! The ui32Config parameter is a bit-wise OR of a number of configuration
+//! flags. The valid flags are grouped based on their function.
+//!
+//! The direction of the operation is specified with only of following flags:
+//!
+//! - \b AES_CFG_DIR_ENCRYPT - Encryption mode
+//! - \b AES_CFG_DIR_DECRYPT - Decryption mode
+//!
+//! The key size is specified with only one of the following flags:
+//!
+//! - \b AES_CFG_KEY_SIZE_128BIT - Key size of 128 bits
+//! - \b AES_CFG_KEY_SIZE_192BIT - Key size of 192 bits
+//! - \b AES_CFG_KEY_SIZE_256BIT - Key size of 256 bits
+//!
+//! The mode of operation is specified with only one of the following flags.
+//!
+//! - \b AES_CFG_MODE_ECB - Electronic codebook mode
+//! - \b AES_CFG_MODE_CBC - Cipher-block chaining mode
+//! - \b AES_CFG_MODE_CFB - Cipher feedback mode
+//! - \b AES_CFG_MODE_CTR - Counter mode
+//! - \b AES_CFG_MODE_ICM - Integer counter mode
+//! - \b AES_CFG_MODE_XTS - Ciphertext stealing mode
+//! - \b AES_CFG_MODE_XTS_TWEAKJL - XEX-based tweaked-codebook mode with
+//! ciphertext stealing with previous/intermediate tweak value and j loaded
+//! - \b AES_CFG_MODE_XTS_K2IJL - XEX-based tweaked-codebook mode with
+//! ciphertext stealing with key2, i and j loaded
+//! - \b AES_CFG_MODE_XTS_K2ILJ0 - XEX-based tweaked-codebook mode with
+//! ciphertext stealing with key2 and i loaded, j = 0
+//! - \b AES_CFG_MODE_F8 - F8 mode
+//! - \b AES_CFG_MODE_F9 - F9 mode
+//! - \b AES_CFG_MODE_CBCMAC - Cipher block chaining message authentication
+//! code mode
+//! - \b AES_CFG_MODE_GCM - Galois/counter mode
+//! - \b AES_CFG_MODE_GCM_HLY0ZERO - Galois/counter mode with GHASH with H
+//! loaded and Y0-encrypted forced to zero
+//! - \b AES_CFG_MODE_GCM_HLY0CALC - Galois/counter mode with GHASH with H
+//! loaded and Y0-encrypted calculated internally
+//! - \b AES_CFG_MODE_GCM_HY0CALC - Galois/Counter mode with autonomous GHASH
+//! (both H and Y0-encrypted calculated internally)
+//! - \b AES_CFG_MODE_CCM - Counter with CBC-MAC mode
+//!
+//! The following defines are used to specify the counter width. It is only
+//! required to be defined when using CTR, CCM, or GCM modes, only one of the
+//! following defines must be used to specify the counter width length:
+//!
+//! - \b AES_CFG_CTR_WIDTH_32 - Counter is 32 bits
+//! - \b AES_CFG_CTR_WIDTH_64 - Counter is 64 bits
+//! - \b AES_CFG_CTR_WIDTH_96 - Counter is 96 bits
+//! - \b AES_CFG_CTR_WIDTH_128 - Counter is 128 bits
+//!
+//! Only one of the following defines must be used to specify the length field
+//! for CCM operations (L):
+//!
+//! - \b AES_CFG_CCM_L_2 - 2 bytes
+//! - \b AES_CFG_CCM_L_4 - 4 bytes
+//! - \b AES_CFG_CCM_L_8 - 8 bytes
+//!
+//! Only one of the following defines must be used to specify the length of the
+//! authentication field for CCM operations (M) through the \e ui32Config
+//! argument in the AESConfigSet() function:
+//!
+//! - \b AES_CFG_CCM_M_4 - 4 bytes
+//! - \b AES_CFG_CCM_M_6 - 6 bytes
+//! - \b AES_CFG_CCM_M_8 - 8 bytes
+//! - \b AES_CFG_CCM_M_10 - 10 bytes
+//! - \b AES_CFG_CCM_M_12 - 12 bytes
+//! - \b AES_CFG_CCM_M_14 - 14 bytes
+//! - \b AES_CFG_CCM_M_16 - 16 bytes
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+AESConfigSet(uint32_t ui32Base, uint32_t ui32Config)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT(ui32Base == AES_BASE);
+ ASSERT((ui32Config & AES_CFG_DIR_ENCRYPT) ||
+ (ui32Config & AES_CFG_DIR_DECRYPT));
+ ASSERT((ui32Config & AES_CFG_KEY_SIZE_128BIT) ||
+ (ui32Config & AES_CFG_KEY_SIZE_192BIT) ||
+ (ui32Config & AES_CFG_KEY_SIZE_256BIT));
+ ASSERT((ui32Config & AES_CFG_MODE_ECB) ||
+ (ui32Config & AES_CFG_MODE_CBC) ||
+ (ui32Config & AES_CFG_MODE_CTR) ||
+ (ui32Config & AES_CFG_MODE_ICM) ||
+ (ui32Config & AES_CFG_MODE_CFB) ||
+ (ui32Config & AES_CFG_MODE_XTS_TWEAKJL) ||
+ (ui32Config & AES_CFG_MODE_XTS_K2IJL) ||
+ (ui32Config & AES_CFG_MODE_XTS_K2ILJ0) ||
+ (ui32Config & AES_CFG_MODE_F8) ||
+ (ui32Config & AES_CFG_MODE_F9) ||
+ (ui32Config & AES_CFG_MODE_CTR) ||
+ (ui32Config & AES_CFG_MODE_CBCMAC) ||
+ (ui32Config & AES_CFG_MODE_GCM_HLY0ZERO) ||
+ (ui32Config & AES_CFG_MODE_GCM_HLY0CALC) ||
+ (ui32Config & AES_CFG_MODE_GCM_HY0CALC) ||
+ (ui32Config & AES_CFG_MODE_CCM));
+ ASSERT(((ui32Config & AES_CFG_MODE_CTR) ||
+ (ui32Config & AES_CFG_MODE_GCM_HLY0ZERO) ||
+ (ui32Config & AES_CFG_MODE_GCM_HLY0CALC) ||
+ (ui32Config & AES_CFG_MODE_GCM_HY0CALC) ||
+ (ui32Config & AES_CFG_MODE_CCM)) &&
+ ((ui32Config & AES_CFG_CTR_WIDTH_32) ||
+ (ui32Config & AES_CFG_CTR_WIDTH_64) ||
+ (ui32Config & AES_CFG_CTR_WIDTH_96) ||
+ (ui32Config & AES_CFG_CTR_WIDTH_128)));
+ ASSERT((ui32Config & AES_CFG_MODE_CCM) &&
+ ((ui32Config & AES_CFG_CCM_L_2) ||
+ (ui32Config & AES_CFG_CCM_L_4) ||
+ (ui32Config & AES_CFG_CCM_L_8)) &&
+ ((ui32Config & AES_CFG_CCM_M_4) ||
+ (ui32Config & AES_CFG_CCM_M_6) ||
+ (ui32Config & AES_CFG_CCM_M_8) ||
+ (ui32Config & AES_CFG_CCM_M_10) ||
+ (ui32Config & AES_CFG_CCM_M_12) ||
+ (ui32Config & AES_CFG_CCM_M_14) ||
+ (ui32Config & AES_CFG_CCM_M_16)));
+
+ //
+ // Backup the save context field before updating the register.
+ //
+ if(HWREG(ui32Base + AES_O_CTRL) & AES_CTRL_SAVE_CONTEXT)
+ {
+ ui32Config |= AES_CTRL_SAVE_CONTEXT;
+ }
+
+ //
+ // Write the CTRL register with the new value
+ //
+ HWREG(ui32Base + AES_O_CTRL) = ui32Config;
+}
+
+//*****************************************************************************
+//
+//! Writes the key 1 configuration registers, which are used for encryption or
+//! decryption.
+//!
+//! \param ui32Base is the base address for the AES module.
+//! \param pui8Key is an array of bytes, containing the key to be
+//! configured. The least significant word in the 0th index.
+//! \param ui32Keysize is the size of the key, which must be one of the
+//! following values: \b AES_CFG_KEY_SIZE_128, \b AES_CFG_KEY_SIZE_192, or
+//! \b AES_CFG_KEY_SIZE_256.
+//!
+//! This function writes key 1 configuration registers based on the key
+//! size. This function is used in all modes.
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+AESKey1Set(uint32_t ui32Base, uint8_t *pui8Key, uint32_t ui32Keysize)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT(ui32Base == AES_BASE);
+ ASSERT((ui32Keysize == AES_CFG_KEY_SIZE_128BIT) ||
+ (ui32Keysize == AES_CFG_KEY_SIZE_192BIT) ||
+ (ui32Keysize == AES_CFG_KEY_SIZE_256BIT));
+
+ //
+ // With all key sizes, the first 4 words are written.
+ //
+ HWREG(ui32Base + AES_O_KEY1_0) = * ((uint32_t *)(pui8Key + 0));
+ HWREG(ui32Base + AES_O_KEY1_1) = * ((uint32_t *)(pui8Key + 4));
+ HWREG(ui32Base + AES_O_KEY1_2) = * ((uint32_t *)(pui8Key + 8));
+ HWREG(ui32Base + AES_O_KEY1_3) = * ((uint32_t *)(pui8Key + 12));
+
+ //
+ // The key is 192 or 256 bits. Write the next 2 words.
+ //
+ if(ui32Keysize != AES_CFG_KEY_SIZE_128BIT)
+ {
+ HWREG(ui32Base + AES_O_KEY1_4) = * ((uint32_t *)(pui8Key + 16));
+ HWREG(ui32Base + AES_O_KEY1_5) = * ((uint32_t *)(pui8Key + 20));
+ }
+
+ //
+ // The key is 256 bits. Write the last 2 words.
+ //
+ if(ui32Keysize == AES_CFG_KEY_SIZE_256BIT)
+ {
+ HWREG(ui32Base + AES_O_KEY1_6) = * ((uint32_t *)(pui8Key + 24));
+ HWREG(ui32Base + AES_O_KEY1_7) = * ((uint32_t *)(pui8Key + 28));
+ }
+}
+
+//*****************************************************************************
+//
+//! Writes the key 2 configuration registers, which are used for encryption or
+//! decryption.
+//!
+//! \param ui32Base is the base address for the AES module.
+//! \param pui8Key is an array of bytes, containing the key to be
+//! configured. The least significant word in the 0th index.
+//! \param ui32Keysize is the size of the key, which must be one of the
+//! following values: \b AES_CFG_KEY_SIZE_128, \b AES_CFG_KEY_SIZE_192, or
+//! \b AES_CFG_KEY_SIZE_256.
+//!
+//! This function writes the key 2 configuration registers based on the key
+//! size. This function is used in the F8, F9, XTS, CCM, and CBC-MAC modes.
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+AESKey2Set(uint32_t ui32Base, uint8_t *pui8Key, uint32_t ui32Keysize)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT(ui32Base == AES_BASE);
+ ASSERT((ui32Keysize == AES_CFG_KEY_SIZE_128BIT) ||
+ (ui32Keysize == AES_CFG_KEY_SIZE_192BIT) ||
+ (ui32Keysize == AES_CFG_KEY_SIZE_256BIT));
+
+ //
+ // With all key sizes, the first 4 words are written.
+ //
+ HWREG(ui32Base + AES_O_KEY2_0) = * ((uint32_t *)(pui8Key + 0));
+ HWREG(ui32Base + AES_O_KEY2_1) = * ((uint32_t *)(pui8Key + 4));
+ HWREG(ui32Base + AES_O_KEY2_2) = * ((uint32_t *)(pui8Key + 8));
+ HWREG(ui32Base + AES_O_KEY2_3) = * ((uint32_t *)(pui8Key + 12));
+
+ //
+ // The key is 192 or 256 bits. Write the next 2 words.
+ //
+ if(ui32Keysize != AES_CFG_KEY_SIZE_128BIT)
+ {
+ HWREG(ui32Base + AES_O_KEY2_4) = * ((uint32_t *)(pui8Key + 16));
+ HWREG(ui32Base + AES_O_KEY2_5) = * ((uint32_t *)(pui8Key + 20));
+ }
+
+ //
+ // The key is 256 bits. Write the last 2 words.
+ //
+ if(ui32Keysize == AES_CFG_KEY_SIZE_256BIT)
+ {
+ HWREG(ui32Base + AES_O_KEY2_6) = * ((uint32_t *)(pui8Key + 24));
+ HWREG(ui32Base + AES_O_KEY2_7) = * ((uint32_t *)(pui8Key + 28));
+ }
+}
+
+//*****************************************************************************
+//
+//! Writes key 3 configuration registers, which are used for encryption or
+//! decryption.
+//!
+//! \param ui32Base is the base address for the AES module.
+//! \param pui8Key is a pointer to an array bytes, containing
+//! the key to be configured. The least significant word is in the 0th index.
+//!
+//! This function writes the key 2 configuration registers with key 3 data
+//! used in CBC-MAC and F8 modes. This key is always 128 bits.
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+AESKey3Set(uint32_t ui32Base, uint8_t *pui8Key)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT(ui32Base == AES_BASE);
+
+ //
+ // Write the key into the upper 4 key registers
+ //
+ HWREG(ui32Base + AES_O_KEY2_4) = * ((uint32_t *)(pui8Key + 0));
+ HWREG(ui32Base + AES_O_KEY2_5) = * ((uint32_t *)(pui8Key + 4));
+ HWREG(ui32Base + AES_O_KEY2_6) = * ((uint32_t *)(pui8Key + 8));
+ HWREG(ui32Base + AES_O_KEY2_7) = * ((uint32_t *)(pui8Key + 12));
+}
+
+//*****************************************************************************
+//
+//! Writes the Initial Vector (IV) register, needed in some of the AES Modes.
+//!
+//! \param ui32Base is the base address of the AES module.
+//! \param pui8IVdata is an array of 16 bytes (128 bits), containing the IV
+//! value to be configured. The least significant word is in the 0th index.
+//!
+//! This functions writes the initial vector registers in the AES module.
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+AESIVSet(uint32_t ui32Base, uint8_t *pui8IVdata)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT(ui32Base == AES_BASE);
+
+ //
+ // Write the initial vector registers.
+ //
+ HWREG(ui32Base + AES_O_IV_IN_0) = *((uint32_t *)(pui8IVdata+0));
+ HWREG(ui32Base + AES_O_IV_IN_1) = *((uint32_t *)(pui8IVdata+4));
+ HWREG(ui32Base + AES_O_IV_IN_2) = *((uint32_t *)(pui8IVdata+8));
+ HWREG(ui32Base + AES_O_IV_IN_3) = *((uint32_t *)(pui8IVdata+12));
+}
+
+//*****************************************************************************
+//
+//! Saves the tag registers to a user-defined location.
+//!
+//! \param ui32Base is the base address of the AES module.
+//! \param pui8TagData is pointer to the location that stores the tag data.
+//!
+//! This function stores the tag data for use authenticated encryption and
+//! decryption operations.
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+AESTagRead(uint32_t ui32Base, uint8_t *pui8TagData)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT(ui32Base == AES_BASE);
+
+ //
+ // Read the tag data.
+ //
+ *((uint32_t *)(pui8TagData+0)) = HWREG((ui32Base + AES_O_TAG_OUT_0));
+ *((uint32_t *)(pui8TagData+4)) = HWREG((ui32Base + AES_O_TAG_OUT_1));
+ *((uint32_t *)(pui8TagData+8)) = HWREG((ui32Base + AES_O_TAG_OUT_2));
+ *((uint32_t *)(pui8TagData+12)) = HWREG((ui32Base + AES_O_TAG_OUT_3));
+}
+
+//*****************************************************************************
+//
+//! Used to set the write crypto data length in the AES module.
+//!
+//! \param ui32Base is the base address of the AES module.
+//! \param ui64Length is the crypto data length in bytes.
+//!
+//! This function stores the cryptographic data length in blocks for all modes.
+//! Data lengths up to (2^61 - 1) bytes are allowed. For GCM, any value up
+//! to (2^36 - 2) bytes are allowed because a 32-bit block counter is used. For
+//! basic modes (ECB/CBC/CTR/ICM/CFB128), zero can be programmed into the
+//! length field, indicating that the length is infinite.
+//!
+//! When this function is called, the engine is triggered to start using
+//! this context.
+//!
+//! \note This length does not include the authentication-only data used in
+//! some modes. Use the AESAuthLengthSet() function to specify the
+//! authentication data length.
+//!
+//! \return None
+//
+//*****************************************************************************
+void
+AESDataLengthSet(uint32_t ui32Base, uint64_t ui64Length)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT(ui32Base == AES_BASE);
+
+ //
+ // Write the length register by shifting the 64-bit ui64Length.
+ //
+ HWREG(ui32Base + AES_O_C_LENGTH_0) = (uint32_t)(ui64Length);
+ HWREG(ui32Base + AES_O_C_LENGTH_1) = (uint32_t)(ui64Length >> 32);
+}
+
+//*****************************************************************************
+//
+//! Sets the optional additional authentication data (AAD) length.
+//!
+//! \param ui32Base is the base address of the AES module.
+//! \param ui32Length is the length in bytes.
+//!
+//! This function is only used to write the authentication data length in the
+//! combined modes (GCM or CCM) and XTS mode. Supported AAD lengths for CCM
+//! are from 0 to (2^16 - 28) bytes. For GCM, any value up to (2^32 - 1) can
+//! be used. For XTS mode, this register is used to load j. Loading of j is
+//! only required if j != 0. j represents the sequential number of the 128-bit
+//! blocks inside the data unit. Consequently, j must be multiplied by 16
+//! when passed to this function, thereby placing the block number in
+//! bits [31:4] of the register.
+//!
+//! When this function is called, the engine is triggered to start using
+//! this context for GCM and CCM.
+//!
+//! \return None
+//
+//*****************************************************************************
+void
+AESAuthDataLengthSet(uint32_t ui32Base, uint32_t ui32Length)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT(ui32Base == AES_BASE);
+
+ //
+ // Write the length into the register.
+ //
+ HWREG(ui32Base + AES_O_AUTH_LENGTH) = ui32Length;
+}
+
+//*****************************************************************************
+//
+//! Reads plaintext/ciphertext from data registers without blocking.
+//! This api writes data in blocks
+//!
+//! \param ui32Base is the base address of the AES module.
+//! \param pui8Dest is a pointer to an array of words of data.
+//! \param ui8Length the length can be from 1 to 16
+//!
+//! This function reads a block of either plaintext or ciphertext out of the
+//! AES module. If the output data is not ready, the function returns
+//! false. If the read completed successfully, the function returns true.
+//! A block is 16 bytes or 4 words.
+//!
+//! \return true or false.
+//
+//*****************************************************************************
+bool
+AESDataReadNonBlocking(uint32_t ui32Base, uint8_t *pui8Dest, uint8_t ui8Length)
+{
+ volatile uint32_t pui32Dest[4];
+ uint8_t ui8BytCnt;
+ uint8_t *pui8DestTemp;
+ //
+ // Check the arguments.
+ //
+ ASSERT(ui32Base == AES_BASE);
+ if((ui8Length == 0)||(ui8Length>16))
+ {
+ return(false);
+ }
+
+ //
+ // Check if the output is ready before reading the data. If it not ready,
+ // return false.
+ //
+ if((AES_CTRL_OUTPUT_READY & (HWREG(ui32Base + AES_O_CTRL))) == 0)
+ {
+ return(false);
+ }
+
+ //
+ // Read a block of data from the data registers
+ //
+ pui32Dest[0] = HWREG(ui32Base + AES_O_DATA_IN_3);
+ pui32Dest[1] = HWREG(ui32Base + AES_O_DATA_IN_2);
+ pui32Dest[2] = HWREG(ui32Base + AES_O_DATA_IN_1);
+ pui32Dest[3] = HWREG(ui32Base + AES_O_DATA_IN_0);
+
+ //
+ //Copy the data to a block memory
+ //
+ pui8DestTemp = (uint8_t *)pui32Dest;
+ for(ui8BytCnt = 0; ui8BytCnt < ui8Length ; ui8BytCnt++)
+ {
+ *(pui8Dest+ui8BytCnt) = *(pui8DestTemp+ui8BytCnt);
+ }
+ //
+ // Read successful, return true.
+ //
+ return(true);
+}
+
+
+//*****************************************************************************
+//
+//! Reads plaintext/ciphertext from data registers with blocking.
+//! This api writes data in blocks
+//!
+//! \param ui32Base is the base address of the AES module.
+//! \param pui8Dest is a pointer to an array of words.
+//! \param ui8Length is the length of data in bytes to be read.
+//! ui8Length can be from 1 to 16
+//!
+//! This function reads a block of either plaintext or ciphertext out of the
+//! AES module. If the output is not ready, the function waits until it
+//! is ready. A block is 16 bytes or 4 words.
+//!
+//! \return None.
+//
+//*****************************************************************************
+
+void
+AESDataRead(uint32_t ui32Base, uint8_t *pui8Dest, uint8_t ui8Length)
+{
+ volatile uint32_t pui32Dest[4];
+ uint8_t ui8BytCnt;
+ uint8_t *pui8DestTemp;
+
+ //
+ // Check the arguments.
+ //
+ ASSERT(ui32Base == AES_BASE);
+ if((ui8Length == 0)||(ui8Length>16))
+ {
+ return;
+ }
+
+
+ //
+ // Wait for the output to be ready before reading the data.
+ //
+ while((AES_CTRL_OUTPUT_READY & (HWREG(ui32Base + AES_O_CTRL))) == 0)
+ {
+ }
+
+ //
+ // Read a block of data from the data registers
+ //
+ pui32Dest[0] = HWREG(ui32Base + AES_O_DATA_IN_3);
+ pui32Dest[1] = HWREG(ui32Base + AES_O_DATA_IN_2);
+ pui32Dest[2] = HWREG(ui32Base + AES_O_DATA_IN_1);
+ pui32Dest[3] = HWREG(ui32Base + AES_O_DATA_IN_0);
+ //
+ //Copy the data to a block memory
+ //
+ pui8DestTemp = (uint8_t *)pui32Dest;
+ for(ui8BytCnt = 0; ui8BytCnt < ui8Length ; ui8BytCnt++)
+ {
+ *(pui8Dest+ui8BytCnt) = *(pui8DestTemp+ui8BytCnt);
+ }
+
+ return;
+}
+
+//*****************************************************************************
+//
+//! Writes plaintext/ciphertext to data registers without blocking.
+//!
+//! \param ui32Base is the base address of the AES module.
+//! \param pui8Src is a pointer to an array of words of data.
+//! \param ui8Length the length can be from 1 to 16
+//!
+//! This function writes a block of either plaintext or ciphertext into the
+//! AES module. If the input is not ready, the function returns false
+//! If the write completed successfully, the function returns true.
+//!
+//! \return True or false.
+//
+//*****************************************************************************
+bool
+AESDataWriteNonBlocking(uint32_t ui32Base, uint8_t *pui8Src, uint8_t ui8Length)
+{
+ volatile uint32_t pui32Src[4]={0,0,0,0};
+ uint8_t ui8BytCnt;
+ uint8_t *pui8SrcTemp;
+
+ //
+ // Check the arguments.
+ //
+ ASSERT(ui32Base == AES_BASE);
+ if((ui8Length == 0)||(ui8Length>16))
+ {
+ return(false);
+ }
+
+ //
+ // Check if the input is ready. If not, then return false.
+ //
+ if(!(AES_CTRL_INPUT_READY & (HWREG(ui32Base + AES_O_CTRL))))
+ {
+ return(false);
+ }
+
+
+ //
+ //Copy the data to a block memory
+ //
+ pui8SrcTemp = (uint8_t *)pui32Src;
+ for(ui8BytCnt = 0; ui8BytCnt < ui8Length ; ui8BytCnt++)
+ {
+ *(pui8SrcTemp+ui8BytCnt) = *(pui8Src+ui8BytCnt);
+ }
+ //
+ // Write a block of data into the data registers.
+ //
+ HWREG(ui32Base + AES_O_DATA_IN_3) = pui32Src[0];
+ HWREG(ui32Base + AES_O_DATA_IN_2) = pui32Src[1];
+ HWREG(ui32Base + AES_O_DATA_IN_1) = pui32Src[2];
+ HWREG(ui32Base + AES_O_DATA_IN_0) = pui32Src[3];
+
+ //
+ // Write successful, return true.
+ //
+ return(true);
+}
+
+
+//*****************************************************************************
+//
+//! Writes plaintext/ciphertext to data registers with blocking.
+//!
+//! \param ui32Base is the base address of the AES module.
+//! \param pui8Src is a pointer to an array of bytes.
+//! \param ui8Length the length can be from 1 to 16
+//!
+//! This function writes a block of either plaintext or ciphertext into the
+//! AES module. If the input is not ready, the function waits until it is
+//! ready before performing the write.
+//!
+//! \return None.
+//
+//*****************************************************************************
+
+void
+AESDataWrite(uint32_t ui32Base, uint8_t *pui8Src, uint8_t ui8Length)
+{
+ volatile uint32_t pui32Src[4]={0,0,0,0};
+ uint8_t ui8BytCnt;
+ uint8_t *pui8SrcTemp;
+ //
+ // Check the arguments.
+ //
+ ASSERT(ui32Base == AES_BASE);
+ if((ui8Length == 0)||(ui8Length>16))
+ {
+ return;
+ }
+ //
+ // Wait for input ready.
+ //
+ while((AES_CTRL_INPUT_READY & (HWREG(ui32Base + AES_O_CTRL))) == 0)
+ {
+ }
+
+ //
+ //Copy the data to a block memory
+ //
+ pui8SrcTemp = (uint8_t *)pui32Src;
+ for(ui8BytCnt = 0; ui8BytCnt < ui8Length ; ui8BytCnt++)
+ {
+ *(pui8SrcTemp+ui8BytCnt) = *(pui8Src+ui8BytCnt);
+ }
+
+ //
+ // Write a block of data into the data registers.
+ //
+ HWREG(ui32Base + AES_O_DATA_IN_3) = pui32Src[0];
+ HWREG(ui32Base + AES_O_DATA_IN_2) = pui32Src[1];
+ HWREG(ui32Base + AES_O_DATA_IN_1) = pui32Src[2];
+ HWREG(ui32Base + AES_O_DATA_IN_0) = pui32Src[3];
+}
+
+
+//*****************************************************************************
+//
+//! Used to process(transform) blocks of data, either encrypt or decrypt it.
+//!
+//! \param ui32Base is the base address of the AES module.
+//! \param pui8Src is a pointer to the memory location where the input data
+//! is stored.
+//! \param pui8Dest is a pointer to the memory location output is written.
+//! \param ui32Length is the length of the cryptographic data in bytes.
+//!
+//! This function iterates the encryption or decryption mechanism number over
+//! the data length. Before calling this function, ensure that the AES
+//! module is properly configured the key, data size, mode, etc. Only ECB,
+//! CBC, CTR, ICM, CFB, XTS and F8 operating modes should be used. The data
+//! is processed in 4-word (16-byte) blocks.
+//!
+//! \note This function only supports values of \e ui32Length less than 2^32,
+//! because the memory size is restricted to between 0 to 2^32 bytes.
+//!
+//! \return Returns true if data was processed successfully. Returns false
+//! if data processing failed.
+//
+//*****************************************************************************
+bool
+AESDataProcess(uint32_t ui32Base, uint8_t *pui8Src, uint8_t *pui8Dest,
+ uint32_t ui32Length)
+{
+ uint32_t ui32Count, ui32BlkCount, ui32ByteCount;
+
+ //
+ // Check the arguments.
+ //
+ ASSERT(ui32Base == AES_BASE);
+
+ //
+ // Write the length register first, which triggers the engine to start
+ // using this context.
+ //
+ AESDataLengthSet(AES_BASE, (uint64_t) ui32Length);
+
+ //
+ // Now loop until the blocks are written.
+ //
+ ui32BlkCount = ui32Length/16;
+ for(ui32Count = 0; ui32Count < ui32BlkCount; ui32Count += 1)
+ {
+ //
+ // Write the data registers.
+ //
+ AESDataWrite(ui32Base, pui8Src + (ui32Count*16) ,16);
+
+ //
+ // Read the data registers.
+ //
+ AESDataRead(ui32Base, pui8Dest + (ui32Count*16) ,16);
+
+ }
+
+ //
+ //Now handle the residue bytes
+ //
+ ui32ByteCount = ui32Length%16;
+ if(ui32ByteCount)
+ {
+ //
+ // Write the data registers.
+ //
+ AESDataWrite(ui32Base, pui8Src + (ui32Count*ui32BlkCount) ,ui32ByteCount);
+
+ //
+ // Read the data registers.
+ //
+ AESDataRead(ui32Base, pui8Dest + (ui32Count*ui32BlkCount) ,ui32ByteCount);
+ }
+
+
+
+ //
+ // Return true to indicate successful completion of the function.
+ //
+ return(true);
+}
+//*****************************************************************************
+//
+//! Used to generate message authentication code (MAC) using CBC-MAC and F9 mode.
+//!
+//! \param ui32Base is the base address of the AES module.
+//! \param pui8Src is a pointer to the memory location where the input data
+//! is stored.
+//! \param ui32Length is the length of the cryptographic data in bytes.
+//! \param pui8Tag is a pointer to a 4-word array where the hash tag is
+//! written.
+//!
+//! This function processes data to produce a hash tag that can be used tor
+//! authentication. Before calling this function, ensure that the AES
+//! module is properly configured the key, data size, mode, etc. Only
+//! CBC-MAC and F9 modes should be used.
+//!
+//! \return Returns true if data was processed successfully. Returns false
+//! if data processing failed.
+//
+//*****************************************************************************
+bool
+AESDataMAC(uint32_t ui32Base, uint8_t *pui8Src, uint32_t ui32Length,
+ uint8_t *pui8Tag)
+{
+ uint32_t ui32Count, ui32BlkCount, ui32ByteCount;
+ //
+ // Check the arguments.
+ //
+ ASSERT(ui32Base == AES_BASE);
+
+ //
+ // Write the length register first, which triggers the engine to start
+ // using this context.
+ //
+ AESDataLengthSet(AES_BASE, (uint64_t) ui32Length);
+
+ //
+ // Write the data registers.
+ //
+
+ //
+ // Now loop until the blocks are written.
+ //
+ ui32BlkCount = ui32Length/16;
+ for(ui32Count = 0; ui32Count < ui32BlkCount; ui32Count += 1)
+ {
+ //
+ // Write the data registers.
+ //
+ AESDataWrite(ui32Base, pui8Src + ui32Count*16 ,16);
+ }
+
+ //
+ //Now handle the residue bytes
+ //
+ ui32ByteCount = ui32Length%16;
+ if(ui32ByteCount)
+ {
+ //
+ // Write the data registers.
+ //
+ AESDataWrite(ui32Base, pui8Src + (ui32Count*ui32BlkCount) ,ui32ByteCount);
+ }
+
+ //
+ // Wait for the context data regsiters to be ready.
+ //
+ while((AES_CTRL_SVCTXTRDY & (HWREG(AES_BASE + AES_O_CTRL))) == 0)
+ {
+ }
+
+ //
+ // Read the hash tag value.
+ //
+ AESTagRead(AES_BASE, pui8Tag);
+
+ //
+ // Return true to indicate successful completion of the function.
+ //
+ return(true);
+}
+
+//*****************************************************************************
+//
+//! Used for Authenticated encryption (AE) of the data. Processes and authenticates blocks of data,
+//! either encrypt the data or decrypt the data.
+//!
+//! \param ui32Base is the base address of the AES module.
+//! \param pui8Src is a pointer to the memory location where the input data
+//! is stored. The data must be padded to the 16-byte boundary.
+//! \param pui8Dest is a pointer to the memory location output is written.
+//! The space for written data must be rounded up to the 16-byte boundary.
+//! \param ui32Length is the length of the cryptographic data in bytes.
+//! \param pui8AuthSrc is a pointer to the memory location where the
+//! additional authentication data is stored. The data must be padded to the
+//! 16-byte boundary.
+//! \param ui32AuthLength is the length of the additional authentication
+//! data in bytes.
+//! \param pui8Tag is a pointer to a 4-word array where the hash tag is
+//! written.
+//!
+//! This function encrypts or decrypts blocks of data in addition to
+//! authentication data. A hash tag is also produced. Before calling this
+//! function, ensure that the AES module is properly configured the key,
+//! data size, mode, etc. Only CCM and GCM modes should be used.
+//!
+//! \return Returns true if data was processed successfully. Returns false
+//! if data processing failed.
+//
+//*****************************************************************************
+bool
+AESDataProcessAE(uint32_t ui32Base, uint8_t *pui8Src, uint8_t *pui8Dest,
+ uint32_t ui32Length, uint8_t *pui8AuthSrc,
+ uint32_t ui32AuthLength, uint8_t *pui8Tag)
+{
+ uint32_t ui32Count;
+
+ //
+ // Check the arguments.
+ //
+ ASSERT(ui32Base == AES_BASE);
+
+ //
+ // Set the data length.
+ //
+ AESDataLengthSet(AES_BASE, (uint64_t) ui32Length);
+
+ //
+ // Set the additional authentication data length.
+ //
+ AESAuthDataLengthSet(AES_BASE, ui32AuthLength);
+
+ //
+ // Now loop until the authentication data blocks are written.
+ //
+ for(ui32Count = 0; ui32Count < ui32AuthLength; ui32Count += 16)
+ {
+ //
+ // Write the data registers.
+ //
+ AESDataWrite(ui32Base, pui8AuthSrc + (ui32Count),16);
+ }
+
+ //
+ // Now loop until the data blocks are written.
+ //
+ for(ui32Count = 0; ui32Count < ui32Length; ui32Count += 16)
+ {
+ //
+ // Write the data registers.
+ //
+ AESDataWrite(ui32Base, pui8Src + (ui32Count),16);
+
+ //
+ //
+ // Read the data registers.
+ //
+ AESDataRead(ui32Base, pui8Dest + (ui32Count),16);
+ }
+
+ //
+ // Wait for the context data regsiters to be ready.
+ //
+ while((AES_CTRL_SVCTXTRDY & (HWREG(AES_BASE + AES_O_CTRL))) == 0)
+ {
+ }
+
+ //
+ // Read the hash tag value.
+ //
+ AESTagRead(AES_BASE, pui8Tag);
+
+ //
+ // Return true to indicate successful completion of the function.
+ //
+ return(true);
+}
+
+//*****************************************************************************
+//
+//! Returns the current AES module interrupt status.
+//!
+//! \param ui32Base is the base address of the AES module.
+//! \param bMasked is \b false if the raw interrupt status is required and
+//! \b true if the masked interrupt status is required.
+//!
+//! \return Returns a bit mask of the interrupt sources, which is a logical OR
+//! of any of the following:
+//!
+//! - \b AES_INT_CONTEXT_IN - Context interrupt
+//! - \b AES_INT_CONTEXT_OUT - Authentication tag (and IV) interrupt.
+//! - \b AES_INT_DATA_IN - Data input interrupt
+//! - \b AES_INT_DATA_OUT - Data output interrupt
+//! - \b AES_INT_DMA_CONTEXT_IN - Context DMA done interrupt
+//! - \b AES_INT_DMA_CONTEXT_OUT - Authentication tag (and IV) DMA done
+//! interrupt
+//! - \b AES_INT_DMA_DATA_IN - Data input DMA done interrupt
+//! - \b AES_INT_DMA_DATA_OUT - Data output DMA done interrupt
+//
+//*****************************************************************************
+uint32_t
+AESIntStatus(uint32_t ui32Base, bool bMasked)
+{
+ uint32_t ui32Temp;
+ uint32_t ui32IrqEnable;
+
+ //
+ // Check the arguments.
+ //
+ ASSERT(ui32Base == AES_BASE);
+
+ //
+ // Read the IRQ status register and return the value.
+ //
+ if(bMasked)
+ {
+ ui32Temp = HWREG(DTHE_BASE + DTHE_O_AES_MIS);
+ ui32IrqEnable = HWREG(ui32Base + AES_O_IRQENABLE);
+ return((HWREG(ui32Base + AES_O_IRQSTATUS) &
+ ui32IrqEnable) | ((ui32Temp & 0x0000000F) << 16));
+ }
+ else
+ {
+ ui32Temp = HWREG(DTHE_BASE + DTHE_O_AES_RIS);
+ return(HWREG(ui32Base + AES_O_IRQSTATUS) |
+ ((ui32Temp & 0x0000000F) << 16));
+ }
+}
+
+//*****************************************************************************
+//
+//! Enables AES module interrupts.
+//!
+//! \param ui32Base is the base address of the AES module.
+//! \param ui32IntFlags is a bit mask of the interrupt sources to enable.
+//!
+//! This function enables the interrupts in the AES module. The \e ui32IntFlags
+//! parameter is the logical OR of any of the following:
+//!
+//! - \b AES_INT_CONTEXT_IN - Context interrupt
+//! - \b AES_INT_CONTEXT_OUT - Authentication tag (and IV) interrupt
+//! - \b AES_INT_DATA_IN - Data input interrupt
+//! - \b AES_INT_DATA_OUT - Data output interrupt
+//! - \b AES_INT_DMA_CONTEXT_IN - Context DMA done interrupt
+//! - \b AES_INT_DMA_CONTEXT_OUT - Authentication tag (and IV) DMA done
+//! interrupt
+//! - \b AES_INT_DMA_DATA_IN - Data input DMA done interrupt
+//! - \b AES_INT_DMA_DATA_OUT - Data output DMA done interrupt
+//!
+//! \note Interrupts that have been previously been enabled are not disabled
+//! when this function is called.
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+AESIntEnable(uint32_t ui32Base, uint32_t ui32IntFlags)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT(ui32Base == AES_BASE);
+ ASSERT((ui32IntFlags == AES_INT_CONTEXT_IN) ||
+ (ui32IntFlags == AES_INT_CONTEXT_OUT) ||
+ (ui32IntFlags == AES_INT_DATA_IN) ||
+ (ui32IntFlags == AES_INT_DATA_OUT) ||
+ (ui32IntFlags == AES_INT_DMA_CONTEXT_IN) ||
+ (ui32IntFlags == AES_INT_DMA_CONTEXT_OUT) ||
+ (ui32IntFlags == AES_INT_DMA_DATA_IN) ||
+ (ui32IntFlags == AES_INT_DMA_DATA_OUT));
+
+ //
+ // Set the flags.
+ //
+ HWREG(DTHE_BASE + DTHE_O_AES_IM) &= ~((ui32IntFlags & 0x000F0000) >> 16);
+ HWREG(ui32Base + AES_O_IRQENABLE) |= ui32IntFlags & 0x0000ffff;
+}
+
+//*****************************************************************************
+//
+//! Disables AES module interrupts.
+//!
+//! \param ui32Base is the base address of the AES module.
+//! \param ui32IntFlags is a bit mask of the interrupt sources to disable.
+//!
+//! This function disables the interrupt sources in the AES module. The
+//! \e ui32IntFlags parameter is the logical OR of any of the following:
+//!
+//! - \b AES_INT_CONTEXT_IN - Context interrupt
+//! - \b AES_INT_CONTEXT_OUT - Authentication tag (and IV) interrupt
+//! - \b AES_INT_DATA_IN - Data input interrupt
+//! - \b AES_INT_DATA_OUT - Data output interrupt
+//! - \b AES_INT_DMA_CONTEXT_IN - Context DMA done interrupt
+//! - \b AES_INT_DMA_CONTEXT_OUT - Authentication tag (and IV) DMA done
+//! interrupt
+//! - \b AES_INT_DMA_DATA_IN - Data input DMA done interrupt
+//! - \b AES_INT_DMA_DATA_OUT - Data output DMA done interrupt
+//!
+//! \note The DMA done interrupts are the only interrupts that can be cleared.
+//! The remaining interrupts can be disabled instead using AESIntDisable().
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+AESIntDisable(uint32_t ui32Base, uint32_t ui32IntFlags)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT(ui32Base == AES_BASE);
+ ASSERT((ui32IntFlags == AES_INT_CONTEXT_IN) ||
+ (ui32IntFlags == AES_INT_CONTEXT_OUT) ||
+ (ui32IntFlags == AES_INT_DATA_IN) ||
+ (ui32IntFlags == AES_INT_DATA_OUT) ||
+ (ui32IntFlags == AES_INT_DMA_CONTEXT_IN) ||
+ (ui32IntFlags == AES_INT_DMA_CONTEXT_OUT) ||
+ (ui32IntFlags == AES_INT_DMA_DATA_IN) ||
+ (ui32IntFlags == AES_INT_DMA_DATA_OUT));
+
+ //
+ // Clear the flags.
+ //
+ HWREG(DTHE_BASE + DTHE_O_AES_IM) |= ((ui32IntFlags & 0x000F0000) >> 16);
+ HWREG(ui32Base + AES_O_IRQENABLE) &= ~(ui32IntFlags & 0x0000ffff);
+}
+
+//*****************************************************************************
+//
+//! Clears AES module interrupts.
+//!
+//! \param ui32Base is the base address of the AES module.
+//! \param ui32IntFlags is a bit mask of the interrupt sources to disable.
+//!
+//! This function clears the interrupt sources in the AES module. The
+//! \e ui32IntFlags parameter is the logical OR of any of the following:
+//!
+//! - \b AES_INT_DMA_CONTEXT_IN - Context DMA done interrupt
+//! - \b AES_INT_DMA_CONTEXT_OUT - Authentication tag (and IV) DMA done
+//! interrupt
+//! - \b AES_INT_DMA_DATA_IN - Data input DMA done interrupt
+//! - \b AES_INT_DMA_DATA_OUT - Data output DMA done interrupt
+//!
+//! \note Only the DMA done interrupts can be cleared. The remaining
+//! interrupts should be disabled with AESIntDisable().
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+AESIntClear(uint32_t ui32Base, uint32_t ui32IntFlags)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT(ui32Base == AES_BASE);
+ ASSERT((ui32IntFlags == AES_INT_DMA_CONTEXT_IN) ||
+ (ui32IntFlags == AES_INT_DMA_CONTEXT_OUT) ||
+ (ui32IntFlags == AES_INT_DMA_DATA_IN) ||
+ (ui32IntFlags == AES_INT_DMA_DATA_OUT));
+
+ HWREG(DTHE_BASE + DTHE_O_AES_IC) = ((ui32IntFlags >> 16) & 0x0000000F);
+}
+
+//*****************************************************************************
+//
+//! Registers an interrupt handler for the AES module.
+//!
+//! \param ui32Base is the base address of the AES module.
+//! \param pfnHandler is a pointer to the function to be called when the
+//! enabled AES interrupts occur.
+//!
+//! This function registers the interrupt handler in the interrupt vector
+//! table, and enables AES interrupts on the interrupt controller; specific AES
+//! interrupt sources must be enabled using AESIntEnable(). The interrupt
+//! handler being registered must clear the source of the interrupt using
+//! AESIntClear().
+//!
+//! If the application is using a static interrupt vector table stored in
+//! flash, then it is not necessary to register the interrupt handler this way.
+//! Instead, IntEnable() is used to enable AES interrupts on the
+//! interrupt controller.
+//!
+//! \sa IntRegister() for important information about registering interrupt
+//! handlers.
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+AESIntRegister(uint32_t ui32Base, void(*pfnHandler)(void))
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT(ui32Base == AES_BASE);
+
+ //
+ // Register the interrupt handler.
+ //
+ IntRegister(INT_AES, pfnHandler);
+
+ //
+ // Enable the interrupt
+ //
+ IntEnable(INT_AES);
+}
+
+//*****************************************************************************
+//
+//! Unregisters an interrupt handler for the AES module.
+//!
+//! \param ui32Base is the base address of the AES module.
+//!
+//! This function unregisters the previously registered interrupt handler and
+//! disables the interrupt in the interrupt controller.
+//!
+//! \sa IntRegister() for important information about registering interrupt
+//! handlers.
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+AESIntUnregister(uint32_t ui32Base)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT(ui32Base == AES_BASE);
+
+ //
+ // Disable the interrupt.
+ //
+ IntDisable(INT_AES);
+
+ //
+ // Unregister the interrupt handler.
+ //
+ IntUnregister(INT_AES);
+}
+
+//*****************************************************************************
+//
+//! Enables uDMA requests for the AES module.
+//!
+//! \param ui32Base is the base address of the AES module.
+//! \param ui32Flags is a bit mask of the uDMA requests to be enabled.
+//!
+//! This function enables the uDMA request sources in the AES module.
+//! The \e ui32Flags parameter is the logical OR of any of the following:
+//!
+//! - \b AES_DMA_DATA_IN
+//! - \b AES_DMA_DATA_OUT
+//! - \b AES_DMA_CONTEXT_IN
+//! - \b AES_DMA_CONTEXT_OUT
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+AESDMAEnable(uint32_t ui32Base, uint32_t ui32Flags)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT(ui32Base == AES_BASE);
+ ASSERT((ui32Flags == AES_DMA_DATA_IN) ||
+ (ui32Flags == AES_DMA_DATA_OUT) ||
+ (ui32Flags == AES_DMA_CONTEXT_IN) ||
+ (ui32Flags == AES_DMA_CONTEXT_OUT));
+
+ //
+ // Set the flags in the current register value.
+ //
+ HWREG(ui32Base + AES_O_SYSCONFIG) |= ui32Flags;
+}
+
+//*****************************************************************************
+//
+//! Disables uDMA requests for the AES module.
+//!
+//! \param ui32Base is the base address of the AES module.
+//! \param ui32Flags is a bit mask of the uDMA requests to be disabled.
+//!
+//! This function disables the uDMA request sources in the AES module.
+//! The \e ui32Flags parameter is the logical OR of any of the
+//! following:
+//!
+//! - \b AES_DMA_DATA_IN
+//! - \b AES_DMA_DATA_OUT
+//! - \b AES_DMA_CONTEXT_IN
+//! - \b AES_DMA_CONTEXT_OUT
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+AESDMADisable(uint32_t ui32Base, uint32_t ui32Flags)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT(ui32Base == AES_BASE);
+ ASSERT((ui32Flags == AES_DMA_DATA_IN) ||
+ (ui32Flags == AES_DMA_DATA_OUT) ||
+ (ui32Flags == AES_DMA_CONTEXT_IN) ||
+ (ui32Flags == AES_DMA_CONTEXT_OUT));
+
+ //
+ // Clear the flags in the current register value.
+ //
+ HWREG(ui32Base + AES_O_SYSCONFIG) &= ~ui32Flags;
+}
+
+//*****************************************************************************
+//
+// Close the Doxygen group.
+//! @}
+//
+//*****************************************************************************
diff --git a/cc3200/hal/aes.h b/cc3200/hal/aes.h
new file mode 100644
index 000000000..e3213e610
--- /dev/null
+++ b/cc3200/hal/aes.h
@@ -0,0 +1,217 @@
+//*****************************************************************************
+//
+// aes.h
+//
+// Defines and Macros for the AES module.
+//
+// Copyright (C) 2014 Texas Instruments Incorporated - http://www.ti.com/
+//
+//
+// Redistribution and use in source and binary forms, with or without
+// modification, are permitted provided that the following conditions
+// are met:
+//
+// Redistributions of source code must retain the above copyright
+// notice, this list of conditions and the following disclaimer.
+//
+// Redistributions in binary form must reproduce the above copyright
+// notice, this list of conditions and the following disclaimer in the
+// documentation and/or other materials provided with the
+// distribution.
+//
+// Neither the name of Texas Instruments Incorporated nor the names of
+// its contributors may be used to endorse or promote products derived
+// from this software without specific prior written permission.
+//
+// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
+// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
+// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
+// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
+// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
+// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
+// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
+// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
+// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
+// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
+// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+//
+//*****************************************************************************
+
+#ifndef __DRIVERLIB_AES_H__
+#define __DRIVERLIB_AES_H__
+
+//*****************************************************************************
+//
+// If building with a C++ compiler, make all of the definitions in this header
+// have a C binding.
+//
+//*****************************************************************************
+#ifdef __cplusplus
+extern "C"
+{
+#endif
+
+//*****************************************************************************
+//
+// The following defines are used to specify the operation direction in the
+// ui32Config argument in the AESConfig function. Only one is permitted.
+//
+//*****************************************************************************
+#define AES_CFG_DIR_ENCRYPT 0x00000004
+#define AES_CFG_DIR_DECRYPT 0x00000000
+
+//*****************************************************************************
+//
+// The following defines are used to specify the key size in the ui32Config
+// argument in the AESConfig function. Only one is permitted.
+//
+//*****************************************************************************
+#define AES_CFG_KEY_SIZE_128BIT 0x00000008
+#define AES_CFG_KEY_SIZE_192BIT 0x00000010
+#define AES_CFG_KEY_SIZE_256BIT 0x00000018
+
+//*****************************************************************************
+//
+// The following defines are used to specify the mode of operation in the
+// ui32Config argument in the AESConfig function. Only one is permitted.
+//
+//*****************************************************************************
+#define AES_CFG_MODE_M 0x2007fe60
+#define AES_CFG_MODE_ECB 0x00000000
+#define AES_CFG_MODE_CBC 0x00000020
+#define AES_CFG_MODE_CTR 0x00000040
+#define AES_CFG_MODE_ICM 0x00000200
+#define AES_CFG_MODE_CFB 0x00000400
+#define AES_CFG_MODE_XTS_TWEAKJL \
+ 0x00000800
+#define AES_CFG_MODE_XTS_K2IJL \
+ 0x00001000
+#define AES_CFG_MODE_XTS_K2ILJ0 \
+ 0x00001800
+#define AES_CFG_MODE_F8 0x00002000
+#define AES_CFG_MODE_F9 0x20004000
+#define AES_CFG_MODE_CBCMAC 0x20008000
+#define AES_CFG_MODE_GCM_HLY0ZERO \
+ 0x20010040
+#define AES_CFG_MODE_GCM_HLY0CALC \
+ 0x20020040
+#define AES_CFG_MODE_GCM_HY0CALC \
+ 0x20030040
+#define AES_CFG_MODE_CCM 0x20040040
+
+//*****************************************************************************
+//
+// The following defines are used to specify the counter width in the
+// ui32Config argument in the AESConfig function. It is only required to
+// be defined when using CTR, CCM, or GCM modes. Only one length is permitted.
+//
+//*****************************************************************************
+#define AES_CFG_CTR_WIDTH_32 0x00000000
+#define AES_CFG_CTR_WIDTH_64 0x00000080
+#define AES_CFG_CTR_WIDTH_96 0x00000100
+#define AES_CFG_CTR_WIDTH_128 0x00000180
+
+//*****************************************************************************
+//
+// The following defines are used to define the width of the length field for
+// CCM operation through the ui32Config argument in the AESConfig function.
+// This value is also known as L. Only one is permitted.
+//
+//*****************************************************************************
+#define AES_CFG_CCM_L_2 0x00080000
+#define AES_CFG_CCM_L_4 0x00180000
+#define AES_CFG_CCM_L_8 0x00380000
+
+//*****************************************************************************
+//
+// The following defines are used to define the length of the authentication
+// field for CCM operations through the ui32Config argument in the AESConfig
+// function. This value is also known as M. Only one is permitted.
+//
+//*****************************************************************************
+#define AES_CFG_CCM_M_4 0x00400000
+#define AES_CFG_CCM_M_6 0x00800000
+#define AES_CFG_CCM_M_8 0x00c00000
+#define AES_CFG_CCM_M_10 0x01000000
+#define AES_CFG_CCM_M_12 0x01400000
+#define AES_CFG_CCM_M_14 0x01800000
+#define AES_CFG_CCM_M_16 0x01c00000
+
+//*****************************************************************************
+//
+// Interrupt flags for use with the AESIntEnable, AESIntDisable, and
+// AESIntStatus functions.
+//
+//*****************************************************************************
+#define AES_INT_CONTEXT_IN 0x00000001
+#define AES_INT_CONTEXT_OUT 0x00000008
+#define AES_INT_DATA_IN 0x00000002
+#define AES_INT_DATA_OUT 0x00000004
+#define AES_INT_DMA_CONTEXT_IN 0x00010000
+#define AES_INT_DMA_CONTEXT_OUT 0x00020000
+#define AES_INT_DMA_DATA_IN 0x00040000
+#define AES_INT_DMA_DATA_OUT 0x00080000
+
+//*****************************************************************************
+//
+// Defines used when enabling and disabling DMA requests in the
+// AESEnableDMA and AESDisableDMA functions.
+//
+//*****************************************************************************
+#define AES_DMA_DATA_IN 0x00000040
+#define AES_DMA_DATA_OUT 0x00000020
+#define AES_DMA_CONTEXT_IN 0x00000080
+#define AES_DMA_CONTEXT_OUT 0x00000100
+
+//*****************************************************************************
+//
+// Function prototypes.
+//
+//*****************************************************************************
+extern void AESConfigSet(uint32_t ui32Base, uint32_t ui32Config);
+extern void AESKey1Set(uint32_t ui32Base, uint8_t *pui8Key,
+ uint32_t ui32Keysize);
+extern void AESKey2Set(uint32_t ui32Base, uint8_t *pui8Key,
+ uint32_t ui32Keysize);
+extern void AESKey3Set(uint32_t ui32Base, uint8_t *pui8Key);
+extern void AESIVSet(uint32_t ui32Base, uint8_t *pui8IVdata);
+extern void AESTagRead(uint32_t ui32Base, uint8_t *pui8TagData);
+extern void AESDataLengthSet(uint32_t ui32Base, uint64_t ui64Length);
+extern void AESAuthDataLengthSet(uint32_t ui32Base, uint32_t ui32Length);
+extern bool AESDataReadNonBlocking(uint32_t ui32Base, uint8_t *pui8Dest,
+ uint8_t ui8Length);
+extern void AESDataRead(uint32_t ui32Base, uint8_t *pui8Dest,
+ uint8_t ui8Length);
+extern bool AESDataWriteNonBlocking(uint32_t ui32Base, uint8_t *pui8Src,
+ uint8_t ui8Length);
+extern void AESDataWrite(uint32_t ui32Base, uint8_t *pui8Src,
+ uint8_t ui8Length);
+extern bool AESDataProcess(uint32_t ui32Base, uint8_t *pui8Src,
+ uint8_t *pui8Dest,
+ uint32_t ui32Length);
+extern bool AESDataMAC(uint32_t ui32Base, uint8_t *pui8Src,
+ uint32_t ui32Length,
+ uint8_t *pui8Tag);
+extern bool AESDataProcessAE(uint32_t ui32Base, uint8_t *pui8Src,
+ uint8_t *pui8Dest, uint32_t ui32Length,
+ uint8_t *pui8AuthSrc, uint32_t ui32AuthLength,
+ uint8_t *pui8Tag);
+extern uint32_t AESIntStatus(uint32_t ui32Base, bool bMasked);
+extern void AESIntEnable(uint32_t ui32Base, uint32_t ui32IntFlags);
+extern void AESIntDisable(uint32_t ui32Base, uint32_t ui32IntFlags);
+extern void AESIntClear(uint32_t ui32Base, uint32_t ui32IntFlags);
+extern void AESIntRegister(uint32_t ui32Base, void(*pfnHandler)(void));
+extern void AESIntUnregister(uint32_t ui32Base);
+extern void AESDMAEnable(uint32_t ui32Base, uint32_t ui32Flags);
+extern void AESDMADisable(uint32_t ui32Base, uint32_t ui32Flags);
+
+//*****************************************************************************
+//
+// Mark the end of the C bindings section for C++ compilers.
+//
+//*****************************************************************************
+#ifdef __cplusplus
+}
+#endif
+
+#endif // __DRIVERLIB_AES_H__
diff --git a/cc3200/hal/cc3200_asm.h b/cc3200/hal/cc3200_asm.h
new file mode 100644
index 000000000..37e828c83
--- /dev/null
+++ b/cc3200/hal/cc3200_asm.h
@@ -0,0 +1,82 @@
+/*
+ * This file is part of the Micro Python project, http://micropython.org/
+ *
+ * The MIT License (MIT)
+ *
+ * Copyright (c) 2015 Daniel Campora
+ *
+ * Permission is hereby granted, free of charge, to any person obtaining a copy
+ * of this software and associated documentation files (the "Software"), to deal
+ * in the Software without restriction, including without limitation the rights
+ * to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
+ * copies of the Software, and to permit persons to whom the Software is
+ * furnished to do so, subject to the following conditions:
+ *
+ * The above copyright notice and this permission notice shall be included in
+ * all copies or substantial portions of the Software.
+ *
+ * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
+ * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
+ * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
+ * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
+ * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
+ * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
+ * THE SOFTWARE.
+ */
+
+#ifndef CC3200_ASM_H_
+#define CC3200_ASM_H_
+
+// We have inlined IRQ functions for efficiency (they are generally
+// 1 machine instruction).
+//
+// Note on IRQ state: you should not need to know the specific
+// value of the state variable, but rather just pass the return
+// value from disable_irq back to enable_irq. If you really need
+// to know the machine-specific values, see irq.h.
+
+#ifndef __disable_irq
+#define __disable_irq() __asm__ volatile ("cpsid i");
+#endif
+
+#ifndef DEBUG
+__attribute__(( always_inline ))
+static inline void __WFI(void) {
+ __asm volatile (" dsb \n"
+ " isb \n"
+ " wfi \n");
+}
+#else
+// For some reason the debugger gets disconnected when entering any of the sleep modes
+__attribute__(( always_inline ))
+static inline void __WFI(void) {
+ __asm volatile (" dsb \n"
+ " isb \n");
+}
+#endif
+
+__attribute__(( always_inline ))
+static inline uint32_t __get_PRIMASK(void) {
+ uint32_t result;
+ __asm volatile ("mrs %0, primask" : "=r" (result));
+ return(result);
+}
+
+__attribute__(( always_inline ))
+static inline void __set_PRIMASK(uint32_t priMask) {
+ __asm volatile ("msr primask, %0" : : "r" (priMask) : "memory");
+}
+
+__attribute__(( always_inline ))
+static inline void enable_irq(mp_uint_t state) {
+ __set_PRIMASK(state);
+}
+
+__attribute__(( always_inline ))
+static inline mp_uint_t disable_irq(void) {
+ mp_uint_t state = __get_PRIMASK();
+ __disable_irq();
+ return state;
+}
+
+#endif /* CC3200_ASM_H_ */
diff --git a/cc3200/hal/cc3200_hal.c b/cc3200/hal/cc3200_hal.c
new file mode 100644
index 000000000..8424065c5
--- /dev/null
+++ b/cc3200/hal/cc3200_hal.c
@@ -0,0 +1,165 @@
+/*
+ * This file is part of the Micro Python project, http://micropython.org/
+ *
+ * The MIT License (MIT)
+ *
+ * Copyright (c) 2015 Daniel Campora
+ *
+ * Permission is hereby granted, free of charge, to any person obtaining a copy
+ * of this software and associated documentation files (the "Software"), to deal
+ * in the Software without restriction, including without limitation the rights
+ * to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
+ * copies of the Software, and to permit persons to whom the Software is
+ * furnished to do so, subject to the following conditions:
+ *
+ * The above copyright notice and this permission notice shall be included in
+ * all copies or substantial portions of the Software.
+ *
+ * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
+ * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
+ * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
+ * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
+ * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
+ * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
+ * THE SOFTWARE.
+ */
+
+
+ /******************************************************************************
+ IMPORTS
+ ******************************************************************************/
+#include <stdio.h>
+#include <stdint.h>
+#include "inc/hw_types.h"
+#include "inc/hw_ints.h"
+#include "inc/hw_nvic.h"
+#include "hw_memmap.h"
+#include "mpconfig.h"
+#include MICROPY_HAL_H
+#include "rom_map.h"
+#include "interrupt.h"
+#include "systick.h"
+#include "prcm.h"
+#include "sdhost.h"
+#include "pin.h"
+#include "mpexception.h"
+
+#ifdef USE_FREERTOS
+#include "FreeRTOS.h"
+#include "task.h"
+#include "semphr.h"
+#endif
+
+
+/******************************************************************************
+ DECLARE CONSTANTS
+ ******************************************************************************/
+#define HAL_SDCARD_FREQUENCY_HZ 15000000 // 15MHz
+
+/******************************************************************************
+ DECLARE PRIVATE FUNCTIONS
+ ******************************************************************************/
+#ifndef USE_FREERTOS
+static void hal_TickInit (void);
+#endif
+#if MICROPY_HW_HAS_SDCARD
+static void hal_EnableSdCard (void);
+#endif
+
+/******************************************************************************
+ DECLARE LOCAL VARIABLES
+ ******************************************************************************/
+static volatile uint32_t HAL_tickCount;
+
+/******************************************************************************
+ DECLARE IMPORTED DATA
+ ******************************************************************************/
+extern void (* const g_pfnVectors[256])(void);
+
+/******************************************************************************
+ DEFINE PUBLIC FUNCTIONS
+ ******************************************************************************/
+
+void HAL_SystemInit (void) {
+ MAP_IntVTableBaseSet((unsigned long)&g_pfnVectors[0]);
+
+ // in the case of a release image, these steps are already performed by
+ // the bootloader so we can skip it and gain some code space
+#ifndef NDEBUG
+ MAP_IntMasterEnable();
+ PRCMCC3200MCUInit();
+#endif
+
+#ifndef USE_FREERTOS
+ hal_TickInit();
+#endif
+#if MICROPY_HW_HAS_SDCARD
+ hal_EnableSdCard();
+#endif
+}
+
+void HAL_SystemDeInit (void) {
+}
+
+void HAL_IncrementTick(void) {
+ HAL_tickCount++;
+}
+
+uint32_t HAL_GetTick(void) {
+ return HAL_tickCount;
+}
+
+void HAL_Delay(uint32_t delay) {
+#ifdef USE_FREERTOS
+ vTaskDelay (delay / portTICK_PERIOD_MS);
+#else
+ uint32_t start = HAL_tickCount;
+ // Wraparound of tick is taken care of by 2's complement arithmetic.
+ while (HAL_tickCount - start < delay) {
+ // Enter sleep mode, waiting for (at least) the SysTick interrupt.
+ __WFI();
+ }
+#endif
+}
+
+void mp_hal_set_interrupt_char (int c) {
+ mpexception_set_interrupt_char (c);
+}
+
+/******************************************************************************
+ DEFINE PRIVATE FUNCTIONS
+ ******************************************************************************/
+
+#ifndef USE_FREERTOS
+static void hal_TickInit (void) {
+ HAL_tickCount = 0;
+ MAP_SysTickIntRegister(HAL_IncrementTick);
+ MAP_IntEnable(FAULT_SYSTICK);
+ MAP_SysTickIntEnable();
+ MAP_SysTickPeriodSet(HAL_FCPU_HZ / HAL_SYSTICK_PERIOD_US);
+ // Force a reload of the SysTick counter register
+ HWREG(NVIC_ST_CURRENT) = 0;
+ MAP_SysTickEnable();
+}
+#endif
+
+#if MICROPY_HW_HAS_SDCARD
+static void hal_EnableSdCard (void) {
+ // Configure PIN_06 for SDHOST0 SDHost_D0
+ MAP_PinTypeSDHost(PIN_06, PIN_MODE_8);
+ // Configure PIN_07 for SDHOST0 SDHost_CLK
+ MAP_PinTypeSDHost(PIN_07, PIN_MODE_8);
+ // Configure PIN_08 for SDHOST0 SDHost_CMD
+ MAP_PinTypeSDHost(PIN_08, PIN_MODE_8);
+ // Set the SD card clock as an output pin
+ MAP_PinDirModeSet(PIN_07, PIN_DIR_MODE_OUT);
+ // Enable SD peripheral clock
+ MAP_PRCMPeripheralClkEnable(PRCM_SDHOST, PRCM_RUN_MODE_CLK | PRCM_SLP_MODE_CLK);
+ // Reset MMCHS
+ MAP_PRCMPeripheralReset(PRCM_SDHOST);
+ // Configure MMCHS
+ MAP_SDHostInit(SDHOST_BASE);
+ // Configure the card clock
+ MAP_SDHostSetExpClk(SDHOST_BASE, MAP_PRCMPeripheralClockGet(PRCM_SDHOST), HAL_SDCARD_FREQUENCY_HZ);
+}
+#endif
diff --git a/cc3200/hal/cc3200_hal.h b/cc3200/hal/cc3200_hal.h
new file mode 100644
index 000000000..9562c827e
--- /dev/null
+++ b/cc3200/hal/cc3200_hal.h
@@ -0,0 +1,66 @@
+/*
+ * This file is part of the Micro Python project, http://micropython.org/
+ *
+ * The MIT License (MIT)
+ *
+ * Copyright (c) 2015 Daniel Campora
+ *
+ * Permission is hereby granted, free of charge, to any person obtaining a copy
+ * of this software and associated documentation files (the "Software"), to deal
+ * in the Software without restriction, including without limitation the rights
+ * to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
+ * copies of the Software, and to permit persons to whom the Software is
+ * furnished to do so, subject to the following conditions:
+ *
+ * The above copyright notice and this permission notice shall be included in
+ * all copies or substantial portions of the Software.
+ *
+ * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
+ * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
+ * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
+ * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
+ * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
+ * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
+ * THE SOFTWARE.
+ */
+
+#ifndef CC3200_LAUNCHXL_HAL_CC3200_HAL_H_
+#define CC3200_LAUNCHXL_HAL_CC3200_HAL_H_
+
+#include <stdint.h>
+#include <stdbool.h>
+
+/******************************************************************************
+ DEFINE CONSTANTS
+ ******************************************************************************/
+
+#define HAL_FCPU_MHZ 80U
+#define HAL_FCPU_HZ (1000000U * HAL_FCPU_MHZ)
+#define HAL_SYSTICK_PERIOD_US 1000U
+#define UTILS_DELAY_US_TO_COUNT(us) (((us) * HAL_FCPU_MHZ) / 3)
+
+/******************************************************************************
+ DEFINE TYPES
+ ******************************************************************************/
+
+/******************************************************************************
+ DEFINE FUNCTION-LIKE MACROS
+ ******************************************************************************/
+
+#define HAL_INTRODUCE_SYNC_BARRIER() { \
+ __asm(" dsb \n" \
+ " isb \n"); \
+ }
+
+/******************************************************************************
+ DECLARE PUBLIC FUNCTIONS
+ ******************************************************************************/
+
+extern void HAL_SystemInit (void);
+extern void HAL_SystemDeInit (void);
+extern void HAL_IncrementTick(void);
+extern uint32_t HAL_GetTick(void);
+extern void HAL_Delay(uint32_t delay);
+extern void mp_hal_set_interrupt_char (int c);
+
+#endif /* CC3200_LAUNCHXL_HAL_CC3200_HAL_H_ */
diff --git a/cc3200/hal/cc_types.h b/cc3200/hal/cc_types.h
new file mode 100644
index 000000000..40a94a6d9
--- /dev/null
+++ b/cc3200/hal/cc_types.h
@@ -0,0 +1,58 @@
+//*****************************************************************************
+//
+// Copyright (C) 2014 Texas Instruments Incorporated - http://www.ti.com/
+//
+//
+// Redistribution and use in source and binary forms, with or without
+// modification, are permitted provided that the following conditions
+// are met:
+//
+// Redistributions of source code must retain the above copyright
+// notice, this list of conditions and the following disclaimer.
+//
+// Redistributions in binary form must reproduce the above copyright
+// notice, this list of conditions and the following disclaimer in the
+// documentation and/or other materials provided with the
+// distribution.
+//
+// Neither the name of Texas Instruments Incorporated nor the names of
+// its contributors may be used to endorse or promote products derived
+// from this software without specific prior written permission.
+//
+// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
+// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
+// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
+// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
+// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
+// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
+// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
+// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
+// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
+// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
+// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+//
+//*****************************************************************************
+
+#ifndef __CC_TYPES_H__
+#define __CC_TYPES_H__
+
+typedef unsigned long long u64;
+typedef unsigned long u32;
+typedef int i32;
+typedef unsigned short u16;
+typedef short i16;
+typedef unsigned char u8;
+typedef char i8;
+
+typedef void * cc_hndl;
+
+typedef u32 (*sys_irq_dsbl)();
+typedef void (*sys_irq_enbl)(u32 mask);
+#define UNUSED(x) ((x) = (x))
+
+#define INTRODUCE_SYNC_BARRIER() { \
+ __asm(" dsb \n" \
+ " isb \n"); \
+ }
+
+#endif //__CC_TYPES_H__
diff --git a/cc3200/hal/cpu.c b/cc3200/hal/cpu.c
new file mode 100644
index 000000000..29d10afb2
--- /dev/null
+++ b/cc3200/hal/cpu.c
@@ -0,0 +1,412 @@
+//*****************************************************************************
+//
+// cpu.c
+//
+// Instruction wrappers for special CPU instructions needed by the
+// drivers.
+//
+// Copyright (C) 2014 Texas Instruments Incorporated - http://www.ti.com/
+//
+//
+// Redistribution and use in source and binary forms, with or without
+// modification, are permitted provided that the following conditions
+// are met:
+//
+// Redistributions of source code must retain the above copyright
+// notice, this list of conditions and the following disclaimer.
+//
+// Redistributions in binary form must reproduce the above copyright
+// notice, this list of conditions and the following disclaimer in the
+// documentation and/or other materials provided with the
+// distribution.
+//
+// Neither the name of Texas Instruments Incorporated nor the names of
+// its contributors may be used to endorse or promote products derived
+// from this software without specific prior written permission.
+//
+// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
+// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
+// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
+// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
+// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
+// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
+// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
+// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
+// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
+// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
+// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+//
+//*****************************************************************************
+#include "cpu.h"
+
+//*****************************************************************************
+//
+// Wrapper function for the CPSID instruction. Returns the state of PRIMASK
+// on entry.
+//
+//*****************************************************************************
+#if defined(gcc)
+unsigned long __attribute__((naked))
+CPUcpsid(void)
+{
+ unsigned long ulRet;
+
+ //
+ // Read PRIMASK and disable interrupts.
+ //
+ __asm(" mrs r0, PRIMASK\n"
+ " cpsid i\n"
+ " dsb \n"
+ " isb \n"
+ " bx lr\n"
+ : "=r" (ulRet));
+
+ //
+ // The return is handled in the inline assembly, but the compiler will
+ // still complain if there is not an explicit return here (despite the fact
+ // that this does not result in any code being produced because of the
+ // naked attribute).
+ //
+ return(ulRet);
+}
+#endif
+#if defined(ewarm)
+unsigned long
+CPUcpsid(void)
+{
+ //
+ // Read PRIMASK and disable interrupts.
+ //
+ __asm(" mrs r0, PRIMASK\n"
+ " cpsid i\n"
+ " dsb \n"
+ " isb \n");
+
+ //
+ // "Warning[Pe940]: missing return statement at end of non-void function"
+ // is suppressed here to avoid putting a "bx lr" in the inline assembly
+ // above and a superfluous return statement here.
+ //
+#pragma diag_suppress=Pe940
+}
+#pragma diag_default=Pe940
+#endif
+#if defined(ccs)
+unsigned long
+CPUcpsid(void)
+{
+ //
+ // Read PRIMASK and disable interrupts.
+ //
+ __asm(" mrs r0, PRIMASK\n"
+ " cpsid i\n"
+ " dsb \n"
+ " isb \n"
+ " bx lr\n");
+
+ //
+ // The following keeps the compiler happy, because it wants to see a
+ // return value from this function. It will generate code to return
+ // a zero. However, the real return is the "bx lr" above, so the
+ // return(0) is never executed and the function returns with the value
+ // you expect in R0.
+ //
+ return(0);
+}
+#endif
+
+//*****************************************************************************
+//
+// Wrapper function returning the state of PRIMASK (indicating whether
+// interrupts are enabled or disabled).
+//
+//*****************************************************************************
+#if defined(gcc)
+unsigned long __attribute__((naked))
+CPUprimask(void)
+{
+ unsigned long ulRet;
+
+ //
+ // Read PRIMASK and disable interrupts.
+ //
+ __asm(" mrs r0, PRIMASK\n"
+ " bx lr\n"
+ : "=r" (ulRet));
+
+ //
+ // The return is handled in the inline assembly, but the compiler will
+ // still complain if there is not an explicit return here (despite the fact
+ // that this does not result in any code being produced because of the
+ // naked attribute).
+ //
+ return(ulRet);
+}
+#endif
+#if defined(ewarm)
+unsigned long
+CPUprimask(void)
+{
+ //
+ // Read PRIMASK and disable interrupts.
+ //
+ __asm(" mrs r0, PRIMASK\n");
+
+ //
+ // "Warning[Pe940]: missing return statement at end of non-void function"
+ // is suppressed here to avoid putting a "bx lr" in the inline assembly
+ // above and a superfluous return statement here.
+ //
+#pragma diag_suppress=Pe940
+}
+#pragma diag_default=Pe940
+#endif
+#if defined(ccs)
+unsigned long
+CPUprimask(void)
+{
+ //
+ // Read PRIMASK and disable interrupts.
+ //
+ __asm(" mrs r0, PRIMASK\n"
+ " bx lr\n");
+
+ //
+ // The following keeps the compiler happy, because it wants to see a
+ // return value from this function. It will generate code to return
+ // a zero. However, the real return is the "bx lr" above, so the
+ // return(0) is never executed and the function returns with the value
+ // you expect in R0.
+ //
+ return(0);
+}
+#endif
+
+//*****************************************************************************
+//
+// Wrapper function for the CPSIE instruction. Returns the state of PRIMASK
+// on entry.
+//
+//*****************************************************************************
+#if defined(gcc)
+unsigned long __attribute__((naked))
+CPUcpsie(void)
+{
+ unsigned long ulRet;
+
+ //
+ // Read PRIMASK and enable interrupts.
+ //
+ __asm(" mrs r0, PRIMASK\n"
+ " cpsie i\n"
+ " dsb \n"
+ " isb \n"
+ " bx lr\n"
+ : "=r" (ulRet));
+
+ //
+ // The return is handled in the inline assembly, but the compiler will
+ // still complain if there is not an explicit return here (despite the fact
+ // that this does not result in any code being produced because of the
+ // naked attribute).
+ //
+ return(ulRet);
+}
+#endif
+#if defined(ewarm)
+unsigned long
+CPUcpsie(void)
+{
+ //
+ // Read PRIMASK and enable interrupts.
+ //
+ __asm(" mrs r0, PRIMASK\n"
+ " cpsie i\n"
+ " dsb \n"
+ " isb \n");
+
+ //
+ // "Warning[Pe940]: missing return statement at end of non-void function"
+ // is suppressed here to avoid putting a "bx lr" in the inline assembly
+ // above and a superfluous return statement here.
+ //
+#pragma diag_suppress=Pe940
+}
+#pragma diag_default=Pe940
+#endif
+#if defined(ccs)
+unsigned long
+CPUcpsie(void)
+{
+ //
+ // Read PRIMASK and enable interrupts.
+ //
+ __asm(" mrs r0, PRIMASK\n"
+ " cpsie i\n"
+ " dsb \n"
+ " isb \n"
+ " bx lr\n");
+
+ //
+ // The following keeps the compiler happy, because it wants to see a
+ // return value from this function. It will generate code to return
+ // a zero. However, the real return is the "bx lr" above, so the
+ // return(0) is never executed and the function returns with the value
+ // you expect in R0.
+ //
+ return(0);
+}
+#endif
+
+//*****************************************************************************
+//
+// Wrapper function for the WFI instruction.
+//
+//*****************************************************************************
+#if defined(gcc)
+void __attribute__((naked))
+CPUwfi(void)
+{
+ //
+ // Wait for the next interrupt.
+ //
+ __asm(" dsb \n"
+ " isb \n"
+ " wfi \n"
+ " bx lr\n");
+}
+#endif
+#if defined(ewarm)
+void
+CPUwfi(void)
+{
+ //
+ // Wait for the next interrupt.
+ //
+ __asm(" dsb \n"
+ " isb \n"
+ " wfi \n");
+}
+#endif
+#if defined(ccs)
+void
+CPUwfi(void)
+{
+ //
+ // Wait for the next interrupt.
+ //
+ __asm(" dsb \n"
+ " isb \n"
+ " wfi \n");
+}
+#endif
+
+//*****************************************************************************
+//
+// Wrapper function for writing the BASEPRI register.
+//
+//*****************************************************************************
+#if defined(gcc)
+void __attribute__((naked))
+CPUbasepriSet(unsigned long ulNewBasepri)
+{
+
+ //
+ // Set the BASEPRI register
+ //
+ __asm(" msr BASEPRI, r0\n"
+ " dsb \n"
+ " isb \n"
+ " bx lr\n");
+}
+#endif
+#if defined(ewarm)
+void
+CPUbasepriSet(unsigned long ulNewBasepri)
+{
+ //
+ // Set the BASEPRI register
+ //
+ __asm(" msr BASEPRI, r0\n"
+ " dsb \n"
+ " isb \n");
+}
+#endif
+#if defined(ccs)
+void
+CPUbasepriSet(unsigned long ulNewBasepri)
+{
+ //
+ // Set the BASEPRI register
+ //
+ __asm(" msr BASEPRI, r0\n"
+ " dsb \n"
+ " isb \n");
+}
+#endif
+
+//*****************************************************************************
+//
+// Wrapper function for reading the BASEPRI register.
+//
+//*****************************************************************************
+#if defined(gcc)
+unsigned long __attribute__((naked))
+CPUbasepriGet(void)
+{
+ unsigned long ulRet;
+
+ //
+ // Read BASEPRI
+ //
+ __asm(" mrs r0, BASEPRI\n"
+ " bx lr\n"
+ : "=r" (ulRet));
+
+ //
+ // The return is handled in the inline assembly, but the compiler will
+ // still complain if there is not an explicit return here (despite the fact
+ // that this does not result in any code being produced because of the
+ // naked attribute).
+ //
+ return(ulRet);
+}
+#endif
+#if defined(ewarm)
+unsigned long
+CPUbasepriGet(void)
+{
+ //
+ // Read BASEPRI
+ //
+ __asm(" mrs r0, BASEPRI\n");
+
+ //
+ // "Warning[Pe940]: missing return statement at end of non-void function"
+ // is suppressed here to avoid putting a "bx lr" in the inline assembly
+ // above and a superfluous return statement here.
+ //
+#pragma diag_suppress=Pe940
+}
+#pragma diag_default=Pe940
+#endif
+#if defined(ccs)
+unsigned long
+CPUbasepriGet(void)
+{
+ //
+ // Read BASEPRI
+ //
+ __asm(" mrs r0, BASEPRI\n"
+ " bx lr\n");
+
+ //
+ // The following keeps the compiler happy, because it wants to see a
+ // return value from this function. It will generate code to return
+ // a zero. However, the real return is the "bx lr" above, so the
+ // return(0) is never executed and the function returns with the value
+ // you expect in R0.
+ //
+ return(0);
+}
+#endif
diff --git a/cc3200/hal/cpu.h b/cc3200/hal/cpu.h
new file mode 100644
index 000000000..4a0fc0dcc
--- /dev/null
+++ b/cc3200/hal/cpu.h
@@ -0,0 +1,75 @@
+//*****************************************************************************
+//
+// cpu.h
+//
+// Prototypes for the CPU instruction wrapper functions.
+//
+// Copyright (C) 2014 Texas Instruments Incorporated - http://www.ti.com/
+//
+//
+// Redistribution and use in source and binary forms, with or without
+// modification, are permitted provided that the following conditions
+// are met:
+//
+// Redistributions of source code must retain the above copyright
+// notice, this list of conditions and the following disclaimer.
+//
+// Redistributions in binary form must reproduce the above copyright
+// notice, this list of conditions and the following disclaimer in the
+// documentation and/or other materials provided with the
+// distribution.
+//
+// Neither the name of Texas Instruments Incorporated nor the names of
+// its contributors may be used to endorse or promote products derived
+// from this software without specific prior written permission.
+//
+// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
+// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
+// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
+// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
+// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
+// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
+// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
+// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
+// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
+// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
+// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+//
+//*****************************************************************************
+
+#ifndef __CPU_H__
+#define __CPU_H__
+
+//*****************************************************************************
+//
+// If building with a C++ compiler, make all of the definitions in this header
+// have a C binding.
+//
+//*****************************************************************************
+#ifdef __cplusplus
+extern "C"
+{
+#endif
+
+//*****************************************************************************
+//
+// Prototypes.
+//
+//*****************************************************************************
+extern unsigned long CPUcpsid(void);
+extern unsigned long CPUcpsie(void);
+extern unsigned long CPUprimask(void);
+extern void CPUwfi(void);
+extern unsigned long CPUbasepriGet(void);
+extern void CPUbasepriSet(unsigned long ulNewBasepri);
+
+//*****************************************************************************
+//
+// Mark the end of the C bindings section for C++ compilers.
+//
+//*****************************************************************************
+#ifdef __cplusplus
+}
+#endif
+
+#endif // __CPU_H__
diff --git a/cc3200/hal/crc.c b/cc3200/hal/crc.c
new file mode 100644
index 000000000..9ccb92c38
--- /dev/null
+++ b/cc3200/hal/crc.c
@@ -0,0 +1,305 @@
+//*****************************************************************************
+//
+// crc.c
+//
+// Driver for the CRC module.
+//
+// Copyright (C) 2014 Texas Instruments Incorporated - http://www.ti.com/
+//
+//
+// Redistribution and use in source and binary forms, with or without
+// modification, are permitted provided that the following conditions
+// are met:
+//
+// Redistributions of source code must retain the above copyright
+// notice, this list of conditions and the following disclaimer.
+//
+// Redistributions in binary form must reproduce the above copyright
+// notice, this list of conditions and the following disclaimer in the
+// documentation and/or other materials provided with the
+// distribution.
+//
+// Neither the name of Texas Instruments Incorporated nor the names of
+// its contributors may be used to endorse or promote products derived
+// from this software without specific prior written permission.
+//
+// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
+// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
+// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
+// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
+// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
+// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
+// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
+// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
+// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
+// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
+// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+//
+//*****************************************************************************
+
+//*****************************************************************************
+//
+//! \addtogroup CRC_Cyclic_Redundancy_Check_api
+//! @{
+//
+//*****************************************************************************
+
+#include <stdbool.h>
+#include <stdint.h>
+#include "inc/hw_dthe.h"
+#include "inc/hw_memmap.h"
+#include "inc/hw_types.h"
+#include "crc.h"
+#include "debug.h"
+
+//*****************************************************************************
+//
+//! Set the configuration of CRC functionality with the EC module.
+//!
+//! \param ui32Base is the base address of the EC module.
+//! \param ui32CRCConfig is the configuration of the CRC engine.
+//!
+//! This function configures the operation of the CRC engine within the EC
+//! module. The configuration is specified with the \e ui32CRCConfig argument.
+//! It is the logical OR of any of the following options:
+//!
+//! CRC Initialization Value
+//! - \b EC_CRC_CFG_INIT_SEED - Initialize with seed value
+//! - \b EC_CRC_CFG_INIT_0 - Initialize to all '0s'
+//! - \b EC_CRC_CFG_INIT_1 - Initialize to all '1s'
+//!
+//! Input Data Size
+//! - \b EC_CRC_CFG_SIZE_8BIT - Input data size of 8 bits
+//! - \b EC_CRC_CFG_SIZE_32BIT - Input data size of 32 bits
+//!
+//! Post Process Reverse/Inverse
+//! - \b EC_CRC_CFG_RESINV - Result inverse enable
+//! - \b EC_CRC_CFG_OBR - Output reverse enable
+//!
+//! Input Bit Reverse
+//! - \b EC_CRC_CFG_IBR - Bit reverse enable
+//!
+//! Endian Control
+//! - \b EC_CRC_CFG_ENDIAN_SBHW - Swap byte in half-word
+//! - \b EC_CRC_CFG_ENDIAN_SHW - Swap half-word
+//!
+//! Operation Type
+//! - \b EC_CRC_CFG_TYPE_P8005 - Polynomial 0x8005
+//! - \b EC_CRC_CFG_TYPE_P1021 - Polynomial 0x1021
+//! - \b EC_CRC_CFG_TYPE_P4C11DB7 - Polynomial 0x4C11DB7
+//! - \b EC_CRC_CFG_TYPE_P1EDC6F41 - Polynomial 0x1EDC6F41
+//! - \b EC_CRC_CFG_TYPE_TCPCHKSUM - TCP checksum
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+CRCConfigSet(uint32_t ui32Base, uint32_t ui32CRCConfig)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT(ui32Base == DTHE_BASE);
+ ASSERT((ui32CRCConfig & CRC_CFG_INIT_SEED) ||
+ (ui32CRCConfig & CRC_CFG_INIT_0) ||
+ (ui32CRCConfig & CRC_CFG_INIT_1) ||
+ (ui32CRCConfig & CRC_CFG_SIZE_8BIT) ||
+ (ui32CRCConfig & CRC_CFG_SIZE_32BIT) ||
+ (ui32CRCConfig & CRC_CFG_RESINV) ||
+ (ui32CRCConfig & CRC_CFG_OBR) ||
+ (ui32CRCConfig & CRC_CFG_IBR) ||
+ (ui32CRCConfig & CRC_CFG_ENDIAN_SBHW) ||
+ (ui32CRCConfig & CRC_CFG_ENDIAN_SHW) ||
+ (ui32CRCConfig & CRC_CFG_TYPE_P8005) ||
+ (ui32CRCConfig & CRC_CFG_TYPE_P1021) ||
+ (ui32CRCConfig & CRC_CFG_TYPE_P4C11DB7) ||
+ (ui32CRCConfig & CRC_CFG_TYPE_P1EDC6F41) ||
+ (ui32CRCConfig & CRC_CFG_TYPE_TCPCHKSUM));
+
+ //
+ // Write the control register with the configuration.
+ //
+ HWREG(ui32Base + DTHE_O_CRC_CTRL) = ui32CRCConfig;
+}
+
+//*****************************************************************************
+//
+//! Write the seed value for CRC operations in the EC module.
+//!
+//! \param ui32Base is the base address of the EC module.
+//! \param ui32Seed is the seed value.
+//!
+//! This function writes the seed value for use with CRC operations in the
+//! EC module. This value is the start value for CRC operations. If this
+//! value is not written, then the residual seed from the previous operation
+//! is used as the starting value.
+//!
+//! \note The seed must be written only if \b EC_CRC_CFG_INIT_SEED is
+//! set with the CRCConfigSet() function.
+//
+//*****************************************************************************
+void
+CRCSeedSet(uint32_t ui32Base, uint32_t ui32Seed)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT(ui32Base == DTHE_BASE);
+
+ //
+ // Write the seed value to the seed register.
+ //
+ HWREG(ui32Base + DTHE_O_CRC_SEED) = ui32Seed;
+}
+
+//*****************************************************************************
+//
+//! Write data into the EC module for CRC operations.
+//!
+//! \param ui32Base is the base address of the EC module.
+//! \param ui32Data is the data to be written.
+//!
+//! This function writes either 8 or 32 bits of data into the EC module for
+//! CRC operations. The distinction between 8 and 32 bits of data is made
+//! when the \b EC_CRC_CFG_SIZE_8BIT or \b EC_CRC_CFG_SIZE_32BIT flag
+//! is set using the CRCConfigSet() function.
+//!
+//! When writing 8 bits of data, ensure the data is in the least signficant
+//! byte position. The remaining bytes should be written with zero. For
+//! example, when writing 0xAB, \e ui32Data should be 0x000000AB.
+//!
+//! \return None
+//
+//*****************************************************************************
+void
+CRCDataWrite(uint32_t ui32Base, uint32_t ui32Data)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT(ui32Base == DTHE_BASE);
+
+ //
+ // Write the data
+ //
+ HWREG(DTHE_BASE + DTHE_O_CRC_DIN) = ui32Data;
+}
+
+//*****************************************************************************
+//
+//! Reads the result of a CRC operation in the EC module.
+//!
+//! \param ui32Base is the base address of the EC module.
+//!
+//! This function reads either the unmodified CRC result or the post
+//! processed CRC result from the EC module. The post-processing options
+//! are selectable through \b EC_CRC_CFG_RESINV and \b EC_CRC_CFG_OBR
+//! parameters in the CRCConfigSet() function.
+//!
+//! \return The CRC result.
+//
+//*****************************************************************************
+uint32_t
+CRCResultRead(uint32_t ui32Base)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT(ui32Base == DTHE_BASE);
+
+ //
+ // return value.
+ //
+ return(HWREG(DTHE_BASE + DTHE_O_CRC_RSLT_PP));
+
+}
+
+//*****************************************************************************
+//
+//! Process data to generate a CRC with the EC module.
+//!
+//! \param ui32Base is the base address of the EC module.
+//! \param puiDataIn is a pointer to an array of data that is processed.
+//! \param ui32DataLength is the number of data items that are processed
+//! to produce the CRC.
+//! \param ui32Config the config parameter to determine the CRC mode
+//!
+//! This function processes an array of data to produce a CRC result.
+//! This function takes the CRC mode as the parameter.
+//!
+//! The data in the array pointed to be \e pui32DataIn is either an array
+//! of bytes or an array or words depending on the selection of the input
+//! data size options \b EC_CRC_CFG_SIZE_8BIT and
+//! \b EC_CRC_CFG_SIZE_32BIT.
+//!
+//! This function returns either the unmodified CRC result or the
+//! post- processed CRC result from the EC module. The post-processing
+//! options are selectable through \b EC_CRC_CFG_RESINV and
+//! \b EC_CRC_CFG_OBR parameters.
+//!
+//! \return The CRC result.
+//
+//*****************************************************************************
+uint32_t
+CRCDataProcess(uint32_t ui32Base, void *puiDataIn,
+ uint32_t ui32DataLength, uint32_t ui32Config)
+{
+ uint8_t *pui8DataIn;
+ uint32_t *pui32DataIn;
+
+ //
+ // Check the arguments.
+ //
+ ASSERT(ui32Base == DTHE_BASE);
+
+ //
+ // See if the CRC is operating in 8-bit or 32-bit mode.
+ //
+ if(ui32Config & DTHE_CRC_CTRL_SIZE)
+ {
+ //
+ // The CRC is operating in 8-bit mode, so create an 8-bit pointer to
+ // the data.
+ //
+ pui8DataIn = (uint8_t *)puiDataIn;
+
+ //
+ // Loop through the input data.
+ //
+ while(ui32DataLength--)
+ {
+ //
+ // Write the next data byte.
+ //
+ HWREG(ui32Base + DTHE_O_CRC_DIN) = *pui8DataIn++;
+ }
+ }
+ else
+ {
+ //
+ // The CRC is operating in 32-bit mode, so loop through the input data.
+ //
+ pui32DataIn = (uint32_t *)puiDataIn;
+ while(ui32DataLength--)
+ {
+ //
+ // Write the next data word.
+ //
+ HWREG(ui32Base + DTHE_O_CRC_DIN) = *pui32DataIn++;
+ }
+ }
+
+ //
+ // Return the result.
+ //
+ return(CRCResultRead(ui32Base));
+}
+
+
+
+//*****************************************************************************
+//
+// Close the Doxygen group.
+//! @}
+//
+//*****************************************************************************
diff --git a/cc3200/hal/crc.h b/cc3200/hal/crc.h
new file mode 100644
index 000000000..c0858bb1b
--- /dev/null
+++ b/cc3200/hal/crc.h
@@ -0,0 +1,98 @@
+//*****************************************************************************
+//
+// crc.h
+//
+// Defines and Macros for CRC module.
+//
+// Copyright (C) 2014 Texas Instruments Incorporated - http://www.ti.com/
+//
+//
+// Redistribution and use in source and binary forms, with or without
+// modification, are permitted provided that the following conditions
+// are met:
+//
+// Redistributions of source code must retain the above copyright
+// notice, this list of conditions and the following disclaimer.
+//
+// Redistributions in binary form must reproduce the above copyright
+// notice, this list of conditions and the following disclaimer in the
+// documentation and/or other materials provided with the
+// distribution.
+//
+// Neither the name of Texas Instruments Incorporated nor the names of
+// its contributors may be used to endorse or promote products derived
+// from this software without specific prior written permission.
+//
+// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
+// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
+// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
+// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
+// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
+// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
+// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
+// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
+// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
+// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
+// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+//
+//*****************************************************************************
+
+#ifndef __DRIVERLIB_CRC_H__
+#define __DRIVERLIB_CRC_H__
+
+//*****************************************************************************
+//
+// If building with a C++ compiler, make all of the definitions in this header
+// have a C binding.
+//
+//*****************************************************************************
+#ifdef __cplusplus
+extern "C"
+{
+#endif
+
+//*****************************************************************************
+//
+// The following defines are used in the ui32Config argument of the
+// ECConfig function.
+//
+//*****************************************************************************
+#define CRC_CFG_INIT_SEED 0x00000000 // Initialize with seed
+#define CRC_CFG_INIT_0 0x00004000 // Initialize to all '0s'
+#define CRC_CFG_INIT_1 0x00006000 // Initialize to all '1s'
+#define CRC_CFG_SIZE_8BIT 0x00001000 // Input Data Size
+#define CRC_CFG_SIZE_32BIT 0x00000000 // Input Data Size
+#define CRC_CFG_RESINV 0x00000200 // Result Inverse Enable
+#define CRC_CFG_OBR 0x00000100 // Output Reverse Enable
+#define CRC_CFG_IBR 0x00000080 // Bit reverse enable
+#define CRC_CFG_ENDIAN_SBHW 0x00000000 // Swap byte in half-word
+#define CRC_CFG_ENDIAN_SHW 0x00000010 // Swap half-word
+#define CRC_CFG_TYPE_P8005 0x00000000 // Polynomial 0x8005
+#define CRC_CFG_TYPE_P1021 0x00000001 // Polynomial 0x1021
+#define CRC_CFG_TYPE_P4C11DB7 0x00000002 // Polynomial 0x4C11DB7
+#define CRC_CFG_TYPE_P1EDC6F41 0x00000003 // Polynomial 0x1EDC6F41
+#define CRC_CFG_TYPE_TCPCHKSUM 0x00000008 // TCP checksum
+
+//*****************************************************************************
+//
+// Function prototypes.
+//
+//*****************************************************************************
+extern void CRCConfigSet(uint32_t ui32Base, uint32_t ui32CRCConfig);
+extern uint32_t CRCDataProcess(uint32_t ui32Base, void *puiDataIn,
+ uint32_t ui32DataLength, uint32_t ui32Config);
+extern void CRCDataWrite(uint32_t ui32Base, uint32_t ui32Data);
+extern uint32_t CRCResultRead(uint32_t ui32Base);
+extern void CRCSeedSet(uint32_t ui32Base, uint32_t ui32Seed);
+
+
+//*****************************************************************************
+//
+// Mark the end of the C bindings section for C++ compilers.
+//
+//*****************************************************************************
+#ifdef __cplusplus
+}
+#endif
+
+#endif // __DRIVERLIB_CRC_H__
diff --git a/cc3200/hal/debug.h b/cc3200/hal/debug.h
new file mode 100644
index 000000000..1f6556704
--- /dev/null
+++ b/cc3200/hal/debug.h
@@ -0,0 +1,63 @@
+//*****************************************************************************
+//
+// debug.h
+//
+// Macros for assisting debug of the driver library.
+//
+// Copyright (C) 2014 Texas Instruments Incorporated - http://www.ti.com/
+//
+//
+// Redistribution and use in source and binary forms, with or without
+// modification, are permitted provided that the following conditions
+// are met:
+//
+// Redistributions of source code must retain the above copyright
+// notice, this list of conditions and the following disclaimer.
+//
+// Redistributions in binary form must reproduce the above copyright
+// notice, this list of conditions and the following disclaimer in the
+// documentation and/or other materials provided with the
+// distribution.
+//
+// Neither the name of Texas Instruments Incorporated nor the names of
+// its contributors may be used to endorse or promote products derived
+// from this software without specific prior written permission.
+//
+// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
+// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
+// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
+// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
+// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
+// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
+// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
+// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
+// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
+// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
+// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+//
+//*****************************************************************************
+#ifndef __DEBUG_H__
+#define __DEBUG_H__
+
+#include "assert.h"
+
+//*****************************************************************************
+//
+// Prototype for the function that is called when an invalid argument is passed
+// to an API. This is only used when doing a DEBUG build.
+//
+//*****************************************************************************
+
+//*****************************************************************************
+//
+// The ASSERT macro, which does the actual assertion checking. Typically, this
+// will be for procedure arguments.
+//
+//*****************************************************************************
+#if defined(DEBUG) && !defined(BOOTLOADER)
+#define ASSERT(expr) assert(expr)
+#else
+#define ASSERT(expr) (void)(expr)
+#endif
+
+#endif // __DEBUG_H__
diff --git a/cc3200/hal/des.c b/cc3200/hal/des.c
new file mode 100644
index 000000000..ad8de1cc3
--- /dev/null
+++ b/cc3200/hal/des.c
@@ -0,0 +1,887 @@
+//*****************************************************************************
+//
+// des.c
+//
+// Driver for the DES data transformation.
+//
+// Copyright (C) 2014 Texas Instruments Incorporated - http://www.ti.com/
+//
+//
+// Redistribution and use in source and binary forms, with or without
+// modification, are permitted provided that the following conditions
+// are met:
+//
+// Redistributions of source code must retain the above copyright
+// notice, this list of conditions and the following disclaimer.
+//
+// Redistributions in binary form must reproduce the above copyright
+// notice, this list of conditions and the following disclaimer in the
+// documentation and/or other materials provided with the
+// distribution.
+//
+// Neither the name of Texas Instruments Incorporated nor the names of
+// its contributors may be used to endorse or promote products derived
+// from this software without specific prior written permission.
+//
+// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
+// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
+// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
+// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
+// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
+// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
+// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
+// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
+// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
+// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
+// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+//
+//*****************************************************************************
+
+//*****************************************************************************
+//
+//! \addtogroup DES_Data_Encryption_Standard_api
+//! @{
+//
+//*****************************************************************************
+
+#include <stdbool.h>
+#include <stdint.h>
+#include "inc/hw_des.h"
+#include "inc/hw_dthe.h"
+#include "inc/hw_ints.h"
+#include "inc/hw_memmap.h"
+#include "inc/hw_types.h"
+#include "debug.h"
+#include "des.h"
+#include "interrupt.h"
+
+
+//*****************************************************************************
+//
+//! Configures the DES module for operation.
+//!
+//! \param ui32Base is the base address of the DES module.
+//! \param ui32Config is the configuration of the DES module.
+//!
+//! This function configures the DES module for operation.
+//!
+//! The \e ui32Config parameter is a bit-wise OR of a number of configuration
+//! flags. The valid flags are grouped below based on their function.
+//!
+//! The direction of the operation is specified with one of the following two
+//! flags. Only one is permitted.
+//!
+//! - \b DES_CFG_DIR_ENCRYPT - Encryption
+//! - \b DES_CFG_DIR_DECRYPT - Decryption
+//!
+//! The operational mode of the DES engine is specified with one of the
+//! following flags. Only one is permitted.
+//!
+//! - \b DES_CFG_MODE_ECB - Electronic Codebook Mode
+//! - \b DES_CFG_MODE_CBC - Cipher-Block Chaining Mode
+//! - \b DES_CFG_MODE_CFB - Cipher Feedback Mode
+//!
+//! The selection of single DES or triple DES is specified with one of the
+//! following two flags. Only one is permitted.
+//!
+//! - \b DES_CFG_SINGLE - Single DES
+//! - \b DES_CFG_TRIPLE - Triple DES
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+DESConfigSet(uint32_t ui32Base, uint32_t ui32Config)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT(ui32Base == DES_BASE);
+
+ //
+ // Backup the save context field.
+ //
+ ui32Config |= (HWREG(ui32Base + DES_O_CTRL) & DES_CTRL_CONTEXT);
+
+ //
+ // Write the control register.
+ //
+ HWREG(ui32Base + DES_O_CTRL) = ui32Config;
+}
+
+//*****************************************************************************
+//
+//! Sets the key used for DES operations.
+//!
+//! \param ui32Base is the base address of the DES module.
+//! \param pui8Key is a pointer to an array that holds the key
+//!
+//! This function sets the key used for DES operations.
+//!
+//! \e pui8Key should be 64 bits long (2 words) if single DES is being used or
+//! 192 bits (6 words) if triple DES is being used.
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+DESKeySet(uint32_t ui32Base, uint8_t *pui8Key)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT(ui32Base == DES_BASE);
+
+ //
+ // Write the first part of the key.
+ //
+ HWREG(ui32Base + DES_O_KEY1_L) = * ((uint32_t *)(pui8Key + 0));
+ HWREG(ui32Base + DES_O_KEY1_H) = * ((uint32_t *)(pui8Key + 4));
+
+ //
+ // If we are performing triple DES, then write the key registers for
+ // the second and third rounds.
+ //
+ if(HWREG(ui32Base + DES_O_CTRL) & DES_CFG_TRIPLE)
+ {
+ HWREG(ui32Base + DES_O_KEY2_L) = * ((uint32_t *)(pui8Key + 8));
+ HWREG(ui32Base + DES_O_KEY2_H) = * ((uint32_t *)(pui8Key + 12));
+ HWREG(ui32Base + DES_O_KEY3_L) = * ((uint32_t *)(pui8Key + 16));
+ HWREG(ui32Base + DES_O_KEY3_H) = * ((uint32_t *)(pui8Key + 20));
+ }
+}
+
+//*****************************************************************************
+//
+//! Sets the initialization vector in the DES module.
+//!
+//! \param ui32Base is the base address of the DES module.
+//! \param pui8IVdata is a pointer to an array of 64 bits (2 words) of data to
+//! be written into the initialization vectors registers.
+//!
+//! This function sets the initialization vector in the DES module. It returns
+//! true if the registers were successfully written. If the context registers
+//! cannot be written at the time the function was called, then false is
+//! returned.
+//!
+//! \return True or false.
+//
+//*****************************************************************************
+bool
+DESIVSet(uint32_t ui32Base, uint8_t *pui8IVdata)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT(ui32Base == DES_BASE);
+
+ //
+ // Check to see if context registers can be overwritten. If not, return
+ // false.
+ //
+ if((HWREG(ui32Base + DES_O_CTRL) & DES_CTRL_CONTEXT) == 0)
+ {
+ return(false);
+ }
+
+ //
+ // Write the initialization vector registers.
+ //
+ HWREG(ui32Base + DES_O_IV_L) = *((uint32_t *) (pui8IVdata + 0));
+ HWREG(ui32Base + DES_O_IV_H) = *((uint32_t *) (pui8IVdata + 4));
+
+ //
+ // Return true to indicate the write was successful.
+ //
+ return(true);
+}
+
+//*****************************************************************************
+//
+//! Sets the crytographic data length in the DES module.
+//!
+//! \param ui32Base is the base address of the DES module.
+//! \param ui32Length is the length of the data in bytes.
+//!
+//! This function writes the cryptographic data length into the DES module.
+//! When this register is written, the engine is triggersed to start using
+//! this context.
+//!
+//! \note Data lengths up to (2^32 - 1) bytes are allowed.
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+DESDataLengthSet(uint32_t ui32Base, uint32_t ui32Length)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT(ui32Base == DES_BASE);
+
+ //
+ // Write the length register.
+ //
+ HWREG(ui32Base + DES_O_LENGTH) = ui32Length;
+}
+
+//*****************************************************************************
+//
+//! Reads plaintext/ciphertext from data registers without blocking
+//!
+//! \param ui32Base is the base address of the DES module.
+//! \param pui8Dest is a pointer to an array of 2 words.
+//! \param ui8Length the length can be from 1 to 8
+//!
+//! This function returns true if the data was ready when the function was
+//! called. If the data was not ready, false is returned.
+//!
+//! \return True or false.
+//
+//*****************************************************************************
+bool
+DESDataReadNonBlocking(uint32_t ui32Base, uint8_t *pui8Dest, uint8_t ui8Length)
+{
+ volatile uint32_t pui32Dest[2];
+ uint8_t ui8BytCnt;
+ uint8_t *pui8DestTemp;
+
+ //
+ // Check the arguments.
+ //
+ ASSERT(ui32Base == DES_BASE);
+ if((ui8Length == 0)||(ui8Length>8))
+ {
+ return(false);
+ }
+
+ //
+ // Check to see if the data is ready to be read.
+ //
+ if((DES_CTRL_OUTPUT_READY & (HWREG(ui32Base + DES_O_CTRL))) == 0)
+ {
+ return(false);
+ }
+
+ //
+ // Read two words of data from the data registers.
+ //
+ pui32Dest[0] = HWREG(DES_BASE + DES_O_DATA_L);
+ pui32Dest[1] = HWREG(DES_BASE + DES_O_DATA_H);
+
+ //
+ //Copy the data to a block memory
+ //
+ pui8DestTemp = (uint8_t *)pui32Dest;
+ for(ui8BytCnt = 0; ui8BytCnt < ui8Length ; ui8BytCnt++)
+ {
+ *(pui8Dest+ui8BytCnt) = *(pui8DestTemp+ui8BytCnt);
+ }
+
+ //
+ // Return true to indicate a successful write.
+ //
+ return(true);
+}
+
+//*****************************************************************************
+//
+//! Reads plaintext/ciphertext from data registers with blocking.
+//!
+//! \param ui32Base is the base address of the DES module.
+//! \param pui8Dest is a pointer to an array of bytes.
+//! \param ui8Length the length can be from 1 to 8
+//!
+//! This function waits until the DES module is finished and encrypted or
+//! decrypted data is ready. The output data is then stored in the pui8Dest
+//! array.
+//!
+//! \return None
+//
+//*****************************************************************************
+void
+DESDataRead(uint32_t ui32Base, uint8_t *pui8Dest, uint8_t ui8Length)
+{
+ volatile uint32_t pui32Dest[2];
+ uint8_t ui8BytCnt;
+ uint8_t *pui8DestTemp;
+
+ //
+ // Check the arguments.
+ //
+ ASSERT(ui32Base == DES_BASE);
+ if((ui8Length == 0)||(ui8Length>8))
+ {
+ return;
+ }
+ //
+ // Wait for data output to be ready.
+ //
+ while((HWREG(ui32Base + DES_O_CTRL) & DES_CTRL_OUTPUT_READY) == 0)
+ {
+ }
+
+ //
+ // Read two words of data from the data registers.
+ //
+ pui32Dest[0] = HWREG(DES_BASE + DES_O_DATA_L);
+ pui32Dest[1] = HWREG(DES_BASE + DES_O_DATA_H);
+
+ //
+ //Copy the data to a block memory
+ //
+ pui8DestTemp = (uint8_t *)pui32Dest;
+ for(ui8BytCnt = 0; ui8BytCnt < ui8Length ; ui8BytCnt++)
+ {
+ *(pui8Dest+ui8BytCnt) = *(pui8DestTemp+ui8BytCnt);
+ }
+}
+
+//*****************************************************************************
+//
+//! Writes plaintext/ciphertext to data registers without blocking
+//!
+//! \param ui32Base is the base address of the DES module.
+//! \param pui8Src is a pointer to an array of 2 words.
+//! \param ui8Length the length can be from 1 to 8
+//!
+//! This function returns false if the DES module is not ready to accept
+//! data. It returns true if the data was written successfully.
+//!
+//! \return true or false.
+//
+//*****************************************************************************
+bool
+DESDataWriteNonBlocking(uint32_t ui32Base, uint8_t *pui8Src, uint8_t ui8Length)
+{
+
+ volatile uint32_t pui32Src[2]={0,0};
+ uint8_t ui8BytCnt;
+ uint8_t *pui8SrcTemp;
+
+ //
+ // Check the arguments.
+ //
+ ASSERT(ui32Base == DES_BASE);
+
+ if((ui8Length == 0)||(ui8Length>8))
+ {
+ return(false);
+ }
+
+ //
+ // Check if the DES module is ready to encrypt or decrypt data. If it
+ // is not, return false.
+ //
+ if(!(DES_CTRL_INPUT_READY & (HWREG(ui32Base + DES_O_CTRL))))
+ {
+ return(false);
+ }
+
+ //
+ // Copy the data to a block memory
+ //
+ pui8SrcTemp = (uint8_t *)pui32Src;
+ for(ui8BytCnt = 0; ui8BytCnt < ui8Length ; ui8BytCnt++)
+ {
+ *(pui8SrcTemp+ui8BytCnt) = *(pui8Src+ui8BytCnt);
+ }
+
+ //
+ // Write the data.
+ //
+ HWREG(DES_BASE + DES_O_DATA_L) = pui32Src[0];
+ HWREG(DES_BASE + DES_O_DATA_H) = pui32Src[1];
+
+ //
+ // Return true to indicate a successful write.
+ //
+ return(true);
+}
+
+//*****************************************************************************
+//
+//! Writes plaintext/ciphertext to data registers without blocking
+//!
+//! \param ui32Base is the base address of the DES module.
+//! \param pui8Src is a pointer to an array of bytes.
+//! \param ui8Length the length can be from 1 to 8
+//!
+//! This function waits until the DES module is ready before writing the
+//! data contained in the pui8Src array.
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+DESDataWrite(uint32_t ui32Base, uint8_t *pui8Src, uint8_t ui8Length)
+{
+ volatile uint32_t pui32Src[2]={0,0};
+ uint8_t ui8BytCnt;
+ uint8_t *pui8SrcTemp;
+
+ //
+ // Check the arguments.
+ //
+ ASSERT(ui32Base == DES_BASE);
+
+ if((ui8Length == 0)||(ui8Length>8))
+ {
+ return;
+ }
+
+ //
+ // Wait for the input ready bit to go high.
+ //
+ while(((HWREG(ui32Base + DES_O_CTRL) & DES_CTRL_INPUT_READY)) == 0)
+ {
+ }
+
+ //
+ //Copy the data to a block memory
+ //
+ pui8SrcTemp = (uint8_t *)pui32Src;
+ for(ui8BytCnt = 0; ui8BytCnt < ui8Length ; ui8BytCnt++)
+ {
+ *(pui8SrcTemp+ui8BytCnt) = *(pui8Src+ui8BytCnt);
+ }
+
+ //
+ // Write the data.
+ //
+ HWREG(DES_BASE + DES_O_DATA_L) = pui32Src[0];
+ HWREG(DES_BASE + DES_O_DATA_H) = pui32Src[1];
+}
+
+//*****************************************************************************
+//
+//! Processes blocks of data through the DES module.
+//!
+//! \param ui32Base is the base address of the DES module.
+//! \param pui8Src is a pointer to an array of words that contains the
+//! source data for processing.
+//! \param pui8Dest is a pointer to an array of words consisting of the
+//! processed data.
+//! \param ui32Length is the length of the cryptographic data in bytes.
+//! It must be a multiple of eight.
+//!
+//! This function takes the data contained in the pui8Src array and processes
+//! it using the DES engine. The resulting data is stored in the
+//! pui8Dest array. The function blocks until all of the data has been
+//! processed. If processing is successful, the function returns true.
+//!
+//! \note This functions assumes that the DES module has been configured,
+//! and initialization values and keys have been written.
+//!
+//! \return true or false.
+//
+//*****************************************************************************
+bool
+DESDataProcess(uint32_t ui32Base, uint8_t *pui8Src, uint8_t *pui8Dest,
+ uint32_t ui32Length)
+{
+ uint32_t ui32Count, ui32BlkCount, ui32ByteCount;
+
+ //
+ // Check the arguments.
+ //
+ ASSERT(ui32Base == DES_BASE);
+ ASSERT((ui32Length % 8) == 0);
+
+ //
+ // Write the length register first. This triggers the engine to start
+ // using this context.
+ //
+ HWREG(ui32Base + DES_O_LENGTH) = ui32Length;
+
+
+ //
+ // Now loop until the blocks are written.
+ //
+ ui32BlkCount = ui32Length/8;
+ for(ui32Count = 0; ui32Count <ui32BlkCount; ui32Count ++)
+ {
+ //
+ // Check if the input ready is fine
+ //
+ while((DES_CTRL_INPUT_READY & (HWREG(ui32Base + DES_O_CTRL))) == 0)
+ {
+ }
+
+ //
+ // Write the data registers.
+ //
+ DESDataWriteNonBlocking(ui32Base, pui8Src + ui32Count*8 ,8);
+
+ //
+ // Wait for the output ready
+ //
+ while((DES_CTRL_OUTPUT_READY & (HWREG(ui32Base + DES_O_CTRL))) == 0)
+ {
+ }
+
+ //
+ // Read the data registers.
+ //
+ DESDataReadNonBlocking(ui32Base, pui8Dest + ui32Count*8 ,8);
+ }
+
+ //
+ //Now handle the residue bytes
+ //
+ ui32ByteCount = ui32Length%8;
+ if(ui32ByteCount)
+ {
+ //
+ // Check if the input ready is fine
+ //
+ while((DES_CTRL_INPUT_READY & (HWREG(ui32Base + DES_O_CTRL))) == 0)
+ {
+ }
+ //
+ // Write the data registers.
+ //
+ DESDataWriteNonBlocking(ui32Base, pui8Src + (ui32Count*ui32BlkCount) ,
+ ui32ByteCount);
+ //
+ // Wait for the output ready
+ //
+ while((DES_CTRL_OUTPUT_READY & (HWREG(ui32Base + DES_O_CTRL))) == 0)
+ {
+ }
+
+ //
+ // Read the data registers.
+ //
+ DESDataReadNonBlocking(ui32Base, pui8Dest + (ui32Count*ui32BlkCount) ,
+ ui32ByteCount);
+ }
+
+
+
+ //
+ // Return true to indicate the process was successful.
+ //
+ return(true);
+}
+
+//*****************************************************************************
+//
+//! Returns the current interrupt status of the DES module.
+//!
+//! \param ui32Base is the base address of the DES module.
+//! \param bMasked is \b false if the raw interrupt status is required and
+//! \b true if the masked interrupt status is required.
+//!
+//! This function gets the current interrupt status of the DES module.
+//! The value returned is a logical OR of the following values:
+//!
+//! - \b DES_INT_CONTEXT_IN - Context interrupt
+//! - \b DES_INT_DATA_IN - Data input interrupt
+//! - \b DES_INT_DATA_OUT_INT - Data output interrupt
+//! - \b DES_INT_DMA_CONTEXT_IN - Context DMA done interrupt
+//! - \b DES_INT_DMA_DATA_IN - Data input DMA done interrupt
+//! - \b DES_INT_DMA_DATA_OUT - Data output DMA done interrupt
+//!
+//! \return A bit mask of the current interrupt status.
+//
+//*****************************************************************************
+uint32_t
+DESIntStatus(uint32_t ui32Base, bool bMasked)
+{
+ uint32_t ui32IntStatus;
+ //
+ // Check the arguments.
+ //
+ ASSERT(ui32Base == DES_BASE);
+
+ //
+ // Read the status register and return the value.
+ //
+ if(bMasked)
+ {
+ ui32IntStatus = HWREG(ui32Base + DES_O_IRQSTATUS);
+ ui32IntStatus &= HWREG(ui32Base + DES_O_IRQENABLE);
+ ui32IntStatus |= ((HWREG(DTHE_BASE + DTHE_O_DES_MIS) & 0x7) << 16);
+
+ return(ui32IntStatus);
+ }
+ else
+ {
+ ui32IntStatus = HWREG(ui32Base + DES_O_IRQSTATUS);
+ ui32IntStatus |= ((HWREG(DTHE_BASE + DTHE_O_DES_MIS) & 0xD) << 16);
+ return(ui32IntStatus);
+ }
+}
+
+//*****************************************************************************
+//
+//! Enables interrupts in the DES module.
+//!
+//! \param ui32Base is the base address of the DES module.
+//! \param ui32IntFlags is a bit mask of the interrupts to be enabled.
+//!
+//! \e ui32IntFlags should be a logical OR of one or more of the following
+//! values:
+//!
+//! - \b DES_INT_CONTEXT_IN - Context interrupt
+//! - \b DES_INT_DATA_IN - Data input interrupt
+//! - \b DES_INT_DATA_OUT - Data output interrupt
+//! - \b DES_INT_DMA_CONTEXT_IN - Context DMA done interrupt
+//! - \b DES_INT_DMA_DATA_IN - Data input DMA done interrupt
+//! - \b DES_INT_DMA_DATA_OUT - Data output DMA done interrupt
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+DESIntEnable(uint32_t ui32Base, uint32_t ui32IntFlags)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT(ui32Base == DES_BASE);
+ ASSERT((ui32IntFlags & DES_INT_CONTEXT_IN) ||
+ (ui32IntFlags & DES_INT_DATA_IN) ||
+ (ui32IntFlags & DES_INT_DATA_OUT) ||
+ (ui32IntFlags & DES_INT_DMA_CONTEXT_IN) ||
+ (ui32IntFlags & DES_INT_DMA_DATA_IN) ||
+ (ui32IntFlags & DES_INT_DMA_DATA_OUT));
+
+ //
+ // Enable the interrupts from the flags.
+ //
+ HWREG(DTHE_BASE + DTHE_O_DES_IM) &= ~((ui32IntFlags & 0x00070000) >> 16);
+ HWREG(ui32Base + DES_O_IRQENABLE) |= ui32IntFlags & 0x0000ffff;
+}
+
+//*****************************************************************************
+//
+//! Disables interrupts in the DES module.
+//!
+//! \param ui32Base is the base address of the DES module.
+//! \param ui32IntFlags is a bit mask of the interrupts to be disabled.
+//!
+//! This function disables interrupt sources in the DES module.
+//! \e ui32IntFlags should be a logical OR of one or more of the following
+//! values:
+//!
+//! - \b DES_INT_CONTEXT_IN - Context interrupt
+//! - \b DES_INT_DATA_IN - Data input interrupt
+//! - \b DES_INT_DATA_OUT - Data output interrupt
+//! - \b DES_INT_DMA_CONTEXT_IN - Context DMA done interrupt
+//! - \b DES_INT_DMA_DATA_IN - Data input DMA done interrupt
+//! - \b DES_INT_DMA_DATA_OUT - Data output DMA done interrupt
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+DESIntDisable(uint32_t ui32Base, uint32_t ui32IntFlags)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT(ui32Base == DES_BASE);
+ ASSERT((ui32IntFlags & DES_INT_CONTEXT_IN) ||
+ (ui32IntFlags & DES_INT_DATA_IN) ||
+ (ui32IntFlags & DES_INT_DATA_OUT) ||
+ (ui32IntFlags & DES_INT_DMA_CONTEXT_IN) ||
+ (ui32IntFlags & DES_INT_DMA_DATA_IN) ||
+ (ui32IntFlags & DES_INT_DMA_DATA_OUT));
+
+ //
+ // Clear the interrupts from the flags.
+ //
+ HWREG(DTHE_BASE + DTHE_O_AES_IM) |= ((ui32IntFlags & 0x00070000) >> 16);
+ HWREG(ui32Base + DES_O_IRQENABLE) &= ~(ui32IntFlags & 0x0000ffff);
+}
+
+//*****************************************************************************
+//
+//! Clears interrupts in the DES module.
+//!
+//! \param ui32Base is the base address of the DES module.
+//! \param ui32IntFlags is a bit mask of the interrupts to be disabled.
+//!
+//! This function disables interrupt sources in the DES module.
+//! \e ui32IntFlags should be a logical OR of one or more of the following
+//! values:
+//!
+//! - \b DES_INT_DMA_CONTEXT_IN - Context interrupt
+//! - \b DES_INT_DMA_DATA_IN - Data input interrupt
+//! - \b DES_INT_DMA_DATA_OUT - Data output interrupt
+//!
+//! \note The DMA done interrupts are the only interrupts that can be cleared.
+//! The remaining interrupts can be disabled instead using DESIntDisable().
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+DESIntClear(uint32_t ui32Base, uint32_t ui32IntFlags)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT(ui32Base == DES_BASE);
+ ASSERT((ui32IntFlags & DES_INT_DMA_CONTEXT_IN) ||
+ (ui32IntFlags & DES_INT_DMA_DATA_IN) ||
+ (ui32IntFlags & DES_INT_DMA_DATA_OUT));
+
+ HWREG(DTHE_BASE + DTHE_O_DES_IC) = ((ui32IntFlags & 0x00070000) >> 16);
+}
+
+//*****************************************************************************
+//
+//! Registers an interrupt handler for the DES module.
+//!
+//! \param ui32Base is the base address of the DES module.
+//! \param pfnHandler is a pointer to the function to be called when the
+//! enabled DES interrupts occur.
+//!
+//! This function registers the interrupt handler in the interrupt vector
+//! table, and enables DES interrupts on the interrupt controller; specific DES
+//! interrupt sources must be enabled using DESIntEnable(). The interrupt
+//! handler being registered must clear the source of the interrupt using
+//! DESIntClear().
+//!
+//! If the application is using a static interrupt vector table stored in
+//! flash, then it is not necessary to register the interrupt handler this way.
+//! Instead, IntEnable() should be used to enable DES interrupts on the
+//! interrupt controller.
+//!
+//! \sa IntRegister() for important information about registering interrupt
+//! handlers.
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+DESIntRegister(uint32_t ui32Base, void(*pfnHandler)(void))
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT(ui32Base == DES_BASE);
+
+ //
+ // Register the interrupt handler.
+ //
+ IntRegister(INT_DES, pfnHandler);
+
+ //
+ // Enable the interrupt.
+ //
+ IntEnable(INT_DES);
+}
+
+//*****************************************************************************
+//
+//! Unregisters an interrupt handler for the DES module.
+//!
+//! \param ui32Base is the base address of the DES module.
+//!
+//! This function unregisters the previously registered interrupt handler and
+//! disables the interrupt in the interrupt controller.
+//!
+//! \sa IntRegister() for important information about registering interrupt
+//! handlers.
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+DESIntUnregister(uint32_t ui32Base)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT(ui32Base == DES_BASE);
+
+ //
+ // Disable the interrupt.
+ //
+ IntDisable(INT_DES);
+
+ //
+ // Unregister the interrupt handler.
+ //
+ IntUnregister(INT_DES);
+}
+
+//*****************************************************************************
+//
+//! Enables DMA request sources in the DES module.
+//!
+//! \param ui32Base is the base address of the DES module.
+//! \param ui32Flags is a bit mask of the DMA requests to be enabled.
+//!
+//! This function enables DMA request sources in the DES module. The
+//! \e ui32Flags parameter should be the logical OR of any of the following:
+//!
+//! - \b DES_DMA_CONTEXT_IN - Context In
+//! - \b DES_DMA_DATA_OUT - Data Out
+//! - \b DES_DMA_DATA_IN - Data In
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+DESDMAEnable(uint32_t ui32Base, uint32_t ui32Flags)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT(ui32Base == DES_BASE);
+ ASSERT((ui32Flags & DES_DMA_CONTEXT_IN) ||
+ (ui32Flags & DES_DMA_DATA_OUT) ||
+ (ui32Flags & DES_DMA_DATA_IN));
+
+ //
+ // Set the data in and data out DMA request enable bits.
+ //
+ HWREG(ui32Base + DES_O_SYSCONFIG) |= ui32Flags;
+}
+
+//*****************************************************************************
+//
+//! Disables DMA request sources in the DES module.
+//!
+//! \param ui32Base is the base address of the DES module.
+//! \param ui32Flags is a bit mask of the DMA requests to be disabled.
+//!
+//! This function disables DMA request sources in the DES module. The
+//! \e ui32Flags parameter should be the logical OR of any of the following:
+//!
+//! - \b DES_DMA_CONTEXT_IN - Context In
+//! - \b DES_DMA_DATA_OUT - Data Out
+//! - \b DES_DMA_DATA_IN - Data In
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+DESDMADisable(uint32_t ui32Base, uint32_t ui32Flags)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT(ui32Base == DES_BASE);
+ ASSERT((ui32Flags & DES_DMA_CONTEXT_IN) ||
+ (ui32Flags & DES_DMA_DATA_OUT) ||
+ (ui32Flags & DES_DMA_DATA_IN));
+
+ //
+ // Disable the DMA sources.
+ //
+ HWREG(ui32Base + DES_O_SYSCONFIG) &= ~ui32Flags;
+}
+
+//*****************************************************************************
+//
+// Close the Doxygen group.
+//! @}
+//
+//*****************************************************************************
diff --git a/cc3200/hal/des.h b/cc3200/hal/des.h
new file mode 100644
index 000000000..3bee5e6c9
--- /dev/null
+++ b/cc3200/hal/des.h
@@ -0,0 +1,143 @@
+//*****************************************************************************
+//
+// des.h
+//
+// Defines and Macros for the DES module.
+//
+// Copyright (C) 2014 Texas Instruments Incorporated - http://www.ti.com/
+//
+//
+// Redistribution and use in source and binary forms, with or without
+// modification, are permitted provided that the following conditions
+// are met:
+//
+// Redistributions of source code must retain the above copyright
+// notice, this list of conditions and the following disclaimer.
+//
+// Redistributions in binary form must reproduce the above copyright
+// notice, this list of conditions and the following disclaimer in the
+// documentation and/or other materials provided with the
+// distribution.
+//
+// Neither the name of Texas Instruments Incorporated nor the names of
+// its contributors may be used to endorse or promote products derived
+// from this software without specific prior written permission.
+//
+// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
+// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
+// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
+// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
+// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
+// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
+// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
+// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
+// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
+// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
+// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+//
+//*****************************************************************************
+
+#ifndef __DRIVERLIB_DES_H__
+#define __DRIVERLIB_DES_H__
+
+//*****************************************************************************
+//
+// If building with a C++ compiler, make all of the definitions in this header
+// have a C binding.
+//
+//*****************************************************************************
+#ifdef __cplusplus
+extern "C"
+{
+#endif
+
+//*****************************************************************************
+//
+// The following defines are used to specify the direction with the
+// ui32Config argument in the DESConfig() function. Only one is permitted.
+//
+//*****************************************************************************
+#define DES_CFG_DIR_DECRYPT 0x00000000
+#define DES_CFG_DIR_ENCRYPT 0x00000004
+
+//*****************************************************************************
+//
+// The following defines are used to specify the operational with the
+// ui32Config argument in the DESConfig() function. Only one is permitted.
+//
+//*****************************************************************************
+#define DES_CFG_MODE_ECB 0x00000000
+#define DES_CFG_MODE_CBC 0x00000010
+#define DES_CFG_MODE_CFB 0x00000020
+
+//*****************************************************************************
+//
+// The following defines are used to select between single DES and triple DES
+// with the ui32Config argument in the DESConfig() function. Only one is
+// permitted.
+//
+//*****************************************************************************
+#define DES_CFG_SINGLE 0x00000000
+#define DES_CFG_TRIPLE 0x00000008
+
+//*****************************************************************************
+//
+// The following defines are used with the DESIntEnable(), DESIntDisable() and
+// DESIntStatus() functions.
+//
+//*****************************************************************************
+#define DES_INT_CONTEXT_IN 0x00000001
+#define DES_INT_DATA_IN 0x00000002
+#define DES_INT_DATA_OUT 0x00000004
+#define DES_INT_DMA_CONTEXT_IN 0x00010000
+#define DES_INT_DMA_DATA_IN 0x00020000
+#define DES_INT_DMA_DATA_OUT 0x00040000
+
+//*****************************************************************************
+//
+// The following defines are used with the DESEnableDMA() and DESDisableDMA()
+// functions.
+//
+//*****************************************************************************
+#define DES_DMA_CONTEXT_IN 0x00000080
+#define DES_DMA_DATA_OUT 0x00000040
+#define DES_DMA_DATA_IN 0x00000020
+
+//*****************************************************************************
+//
+// API Function prototypes
+//
+//*****************************************************************************
+extern void DESConfigSet(uint32_t ui32Base, uint32_t ui32Config);
+extern void DESDataRead(uint32_t ui32Base, uint8_t *pui8Dest,
+ uint8_t ui8Length);
+extern bool DESDataReadNonBlocking(uint32_t ui32Base, uint8_t *pui8Dest,
+ uint8_t ui8Length);
+extern bool DESDataProcess(uint32_t ui32Base, uint8_t *pui8Src,
+ uint8_t *pui8Dest, uint32_t ui32Length);
+extern void DESDataWrite(uint32_t ui32Base, uint8_t *pui8Src,
+ uint8_t ui8Length);
+extern bool DESDataWriteNonBlocking(uint32_t ui32Base, uint8_t *pui8Src,
+ uint8_t ui8Length);
+extern void DESDMADisable(uint32_t ui32Base, uint32_t ui32Flags);
+extern void DESDMAEnable(uint32_t ui32Base, uint32_t ui32Flags);
+extern void DESIntClear(uint32_t ui32Base, uint32_t ui32IntFlags);
+extern void DESIntDisable(uint32_t ui32Base, uint32_t ui32IntFlags);
+extern void DESIntEnable(uint32_t ui32Base, uint32_t ui32IntFlags);
+extern void DESIntRegister(uint32_t ui32Base, void(*pfnHandler)(void));
+extern uint32_t DESIntStatus(uint32_t ui32Base, bool bMasked);
+extern void DESIntUnregister(uint32_t ui32Base);
+extern bool DESIVSet(uint32_t ui32Base, uint8_t *pui8IVdata);
+extern void DESKeySet(uint32_t ui32Base, uint8_t *pui8Key);
+extern void DESDataLengthSet(uint32_t ui32Base, uint32_t ui32Length);
+
+//*****************************************************************************
+//
+// Mark the end of the C bindings section for C++ compilers.
+//
+//*****************************************************************************
+#ifdef __cplusplus
+}
+#endif
+
+#endif // __DRIVERLIB_DES_H__
diff --git a/cc3200/hal/fault_registers.h b/cc3200/hal/fault_registers.h
new file mode 100644
index 000000000..739745e92
--- /dev/null
+++ b/cc3200/hal/fault_registers.h
@@ -0,0 +1,73 @@
+/*
+ * This file is part of the Micro Python project, http://micropython.org/
+ *
+ * The MIT License (MIT)
+ *
+ * Copyright (c) 2015 Daniel Campora
+ *
+ * Permission is hereby granted, free of charge, to any person obtaining a copy
+ * of this software and associated documentation files (the "Software"), to deal
+ * in the Software without restriction, including without limitation the rights
+ * to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
+ * copies of the Software, and to permit persons to whom the Software is
+ * furnished to do so, subject to the following conditions:
+ *
+ * The above copyright notice and this permission notice shall be included in
+ * all copies or substantial portions of the Software.
+ *
+ * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
+ * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
+ * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
+ * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
+ * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
+ * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
+ * THE SOFTWARE.
+ */
+
+#ifndef FAULT_REGISTERS_H_
+#define FAULT_REGISTERS_H_
+
+
+typedef struct
+{
+ uint32_t IERR :1;
+ uint32_t DERR :1;
+ uint32_t :1;
+ uint32_t MUSTKE :1;
+ uint32_t MSTKE :1;
+ uint32_t MLSPERR :1;
+ uint32_t :1;
+ uint32_t MMARV :1;
+ uint32_t IBUS :1;
+ uint32_t PRECISE :1;
+ uint32_t IMPRE :1;
+ uint32_t BUSTKE :1;
+ uint32_t BSTKE :1;
+ uint32_t BLSPERR :1;
+ uint32_t :1;
+ uint32_t BFARV :1;
+ uint32_t UNDEF :1;
+ uint32_t INVSTAT :1;
+ uint32_t INVCP :1;
+ uint32_t NOCP :1;
+ uint32_t :4;
+ uint32_t UNALIGN :1;
+ uint32_t DIVO0 :1;
+ uint32_t :6;
+
+}_CFSR_t;
+
+
+typedef struct
+{
+
+ uint32_t DBG :1;
+ uint32_t FORCED :1;
+ uint32_t :28;
+ uint32_t VECT :1;
+ uint32_t :1;
+
+}_HFSR_t;
+
+
+#endif /* FAULT_REGISTERS_H_ */
diff --git a/cc3200/hal/gpio.c b/cc3200/hal/gpio.c
new file mode 100644
index 000000000..59aa71aa5
--- /dev/null
+++ b/cc3200/hal/gpio.c
@@ -0,0 +1,706 @@
+//*****************************************************************************
+//
+// gpio.c
+//
+// Driver for the GPIO module.
+//
+// Copyright (C) 2014 Texas Instruments Incorporated - http://www.ti.com/
+//
+//
+// Redistribution and use in source and binary forms, with or without
+// modification, are permitted provided that the following conditions
+// are met:
+//
+// Redistributions of source code must retain the above copyright
+// notice, this list of conditions and the following disclaimer.
+//
+// Redistributions in binary form must reproduce the above copyright
+// notice, this list of conditions and the following disclaimer in the
+// documentation and/or other materials provided with the
+// distribution.
+//
+// Neither the name of Texas Instruments Incorporated nor the names of
+// its contributors may be used to endorse or promote products derived
+// from this software without specific prior written permission.
+//
+// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
+// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
+// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
+// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
+// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
+// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
+// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
+// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
+// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
+// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
+// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+//
+//*****************************************************************************
+
+//*****************************************************************************
+//
+//! \addtogroup GPIO_General_Purpose_InputOutput_api
+//! @{
+//
+//*****************************************************************************
+
+#include "inc/hw_types.h"
+#include "inc/hw_gpio.h"
+#include "inc/hw_ints.h"
+#include "inc/hw_memmap.h"
+#include "inc/hw_common_reg.h"
+#include "debug.h"
+#include "gpio.h"
+#include "interrupt.h"
+
+
+//*****************************************************************************
+//
+//! \internal
+//! Checks a GPIO base address.
+//!
+//! \param ulPort is the base address of the GPIO port.
+//!
+//! This function determines if a GPIO port base address is valid.
+//!
+//! \return Returns \b true if the base address is valid and \b false
+//! otherwise.
+//
+//*****************************************************************************
+#if defined(DEBUG) && !defined(BOOTLOADER)
+static tBoolean
+GPIOBaseValid(unsigned long ulPort)
+{
+ return((ulPort == GPIOA0_BASE) ||
+ (ulPort == GPIOA1_BASE) ||
+ (ulPort == GPIOA2_BASE) ||
+ (ulPort == GPIOA3_BASE) ||
+ (ulPort == GPIOA4_BASE));
+}
+#else
+#define GPIOBaseValid(ulPort) (ulPort)
+#endif
+
+//*****************************************************************************
+//
+//! \internal
+//! Gets the GPIO interrupt number.
+//!
+//! \param ulPort is the base address of the GPIO port.
+//!
+//! Given a GPIO base address, returns the corresponding interrupt number.
+//!
+//! \return Returns a GPIO interrupt number, or -1 if \e ulPort is invalid.
+//
+//*****************************************************************************
+static long
+GPIOGetIntNumber(unsigned long ulPort)
+{
+ unsigned int ulInt;
+
+ //
+ // Determine the GPIO interrupt number for the given module.
+ //
+ switch(ulPort)
+ {
+ case GPIOA0_BASE:
+ {
+ ulInt = INT_GPIOA0;
+ break;
+ }
+
+ case GPIOA1_BASE:
+ {
+ ulInt = INT_GPIOA1;
+ break;
+ }
+
+ case GPIOA2_BASE:
+ {
+ ulInt = INT_GPIOA2;
+ break;
+ }
+
+ case GPIOA3_BASE:
+ {
+ ulInt = INT_GPIOA3;
+ break;
+ }
+
+ default:
+ {
+ return(-1);
+ }
+ }
+
+ //
+ // Return GPIO interrupt number.
+ //
+ return(ulInt);
+}
+
+//*****************************************************************************
+//
+//! Sets the direction and mode of the specified pin(s).
+//!
+//! \param ulPort is the base address of the GPIO port
+//! \param ucPins is the bit-packed representation of the pin(s).
+//! \param ulPinIO is the pin direction and/or mode.
+//!
+//! This function will set the specified pin(s) on the selected GPIO port
+//! as either an input or output under software control, or it will set the
+//! pin to be under hardware control.
+//!
+//! The parameter \e ulPinIO is an enumerated data type that can be one of
+//! the following values:
+//!
+//! - \b GPIO_DIR_MODE_IN
+//! - \b GPIO_DIR_MODE_OUT
+//!
+//! where \b GPIO_DIR_MODE_IN specifies that the pin will be programmed as
+//! a software controlled input, \b GPIO_DIR_MODE_OUT specifies that the pin
+//! will be programmed as a software controlled output.
+//!
+//! The pin(s) are specified using a bit-packed byte, where each bit that is
+//! set identifies the pin to be accessed, and where bit 0 of the byte
+//! represents GPIO port pin 0, bit 1 represents GPIO port pin 1, and so on.
+//!
+//! \note GPIOPadConfigSet() must also be used to configure the corresponding
+//! pad(s) in order for them to propagate the signal to/from the GPIO.
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+GPIODirModeSet(unsigned long ulPort, unsigned char ucPins,
+ unsigned long ulPinIO)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT(GPIOBaseValid(ulPort));
+ ASSERT((ulPinIO == GPIO_DIR_MODE_IN) || (ulPinIO == GPIO_DIR_MODE_OUT));
+
+ //
+ // Set the pin direction and mode.
+ //
+ HWREG(ulPort + GPIO_O_GPIO_DIR) = ((ulPinIO & 1) ?
+ (HWREG(ulPort + GPIO_O_GPIO_DIR) | ucPins) :
+ (HWREG(ulPort + GPIO_O_GPIO_DIR) & ~(ucPins)));
+}
+
+//*****************************************************************************
+//
+//! Gets the direction and mode of a pin.
+//!
+//! \param ulPort is the base address of the GPIO port.
+//! \param ucPin is the pin number.
+//!
+//! This function gets the direction and control mode for a specified pin on
+//! the selected GPIO port. The pin can be configured as either an input or
+//! output under software control, or it can be under hardware control. The
+//! type of control and direction are returned as an enumerated data type.
+//!
+//! \return Returns one of the enumerated data types described for
+//! GPIODirModeSet().
+//
+//*****************************************************************************
+unsigned long
+GPIODirModeGet(unsigned long ulPort, unsigned char ucPin)
+{
+ unsigned long ulDir;
+
+ //
+ // Check the arguments.
+ //
+ ASSERT(GPIOBaseValid(ulPort));
+
+ //
+ // Return the pin direction
+ //
+ ulDir = HWREG(ulPort + GPIO_O_GPIO_DIR);
+ return(((ulDir & ucPin) ? 1 : 0));
+}
+
+//*****************************************************************************
+//
+//! Sets the interrupt type for the specified pin(s).
+//!
+//! \param ulPort is the base address of the GPIO port.
+//! \param ucPins is the bit-packed representation of the pin(s).
+//! \param ulIntType specifies the type of interrupt trigger mechanism.
+//!
+//! This function sets up the various interrupt trigger mechanisms for the
+//! specified pin(s) on the selected GPIO port.
+//!
+//! The parameter \e ulIntType is an enumerated data type that can be one of
+//! the following values:
+//!
+//! - \b GPIO_FALLING_EDGE
+//! - \b GPIO_RISING_EDGE
+//! - \b GPIO_BOTH_EDGES
+//! - \b GPIO_LOW_LEVEL
+//! - \b GPIO_HIGH_LEVEL
+//!
+//! The pin(s) are specified using a bit-packed byte, where each bit that is
+//! set identifies the pin to be accessed, and where bit 0 of the byte
+//! represents GPIO port pin 0, bit 1 represents GPIO port pin 1, and so on.
+//!
+//! \note In order to avoid any spurious interrupts, the user must
+//! ensure that the GPIO inputs remain stable for the duration of
+//! this function.
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+GPIOIntTypeSet(unsigned long ulPort, unsigned char ucPins,
+ unsigned long ulIntType)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT(GPIOBaseValid(ulPort));
+ ASSERT((ulIntType == GPIO_FALLING_EDGE) ||
+ (ulIntType == GPIO_RISING_EDGE) || (ulIntType == GPIO_BOTH_EDGES) ||
+ (ulIntType == GPIO_LOW_LEVEL) || (ulIntType == GPIO_HIGH_LEVEL));
+
+ //
+ // Set the pin interrupt type.
+ //
+ HWREG(ulPort + GPIO_O_GPIO_IBE) = ((ulIntType & 1) ?
+ (HWREG(ulPort + GPIO_O_GPIO_IBE) | ucPins) :
+ (HWREG(ulPort + GPIO_O_GPIO_IBE) & ~(ucPins)));
+ HWREG(ulPort + GPIO_O_GPIO_IS) = ((ulIntType & 2) ?
+ (HWREG(ulPort + GPIO_O_GPIO_IS) | ucPins) :
+ (HWREG(ulPort + GPIO_O_GPIO_IS) & ~(ucPins)));
+ HWREG(ulPort + GPIO_O_GPIO_IEV) = ((ulIntType & 4) ?
+ (HWREG(ulPort + GPIO_O_GPIO_IEV) | ucPins) :
+ (HWREG(ulPort + GPIO_O_GPIO_IEV) & ~(ucPins)));
+}
+
+//*****************************************************************************
+//
+//! Gets the interrupt type for a pin.
+//!
+//! \param ulPort is the base address of the GPIO port.
+//! \param ucPin is the pin number.
+//!
+//! This function gets the interrupt type for a specified pin on the selected
+//! GPIO port. The pin can be configured as a falling edge, rising edge, or
+//! both edge detected interrupt, or it can be configured as a low level or
+//! high level detected interrupt. The type of interrupt detection mechanism
+//! is returned as an enumerated data type.
+//!
+//! \return Returns one of the enumerated data types described for
+//! GPIOIntTypeSet().
+//
+//*****************************************************************************
+unsigned long
+GPIOIntTypeGet(unsigned long ulPort, unsigned char ucPin)
+{
+ unsigned long ulIBE, ulIS, ulIEV;
+
+ //
+ // Check the arguments.
+ //
+ ASSERT(GPIOBaseValid(ulPort));
+
+ //
+ // Return the pin interrupt type.
+ //
+ ulIBE = HWREG(ulPort + GPIO_O_GPIO_IBE);
+ ulIS = HWREG(ulPort + GPIO_O_GPIO_IS);
+ ulIEV = HWREG(ulPort + GPIO_O_GPIO_IEV);
+ return(((ulIBE & ucPin) ? 1 : 0) | ((ulIS & ucPin) ? 2 : 0) |
+ ((ulIEV & ucPin) ? 4 : 0));
+}
+
+//*****************************************************************************
+//
+//! Enables the specified GPIO interrupts.
+//!
+//! \param ulPort is the base address of the GPIO port.
+//! \param ulIntFlags is the bit mask of the interrupt sources to enable.
+//!
+//! This function enables the indicated GPIO interrupt sources. Only the
+//! sources that are enabled can be reflected to the processor interrupt;
+//! disabled sources have no effect on the processor.
+//!
+//! The \e ulIntFlags parameter is the logical OR of any of the following:
+//!
+//! - \b GPIO_INT_DMA - interrupt due to GPIO triggered DMA Done
+//! - \b GPIO_INT_PIN_0 - interrupt due to activity on Pin 0.
+//! - \b GPIO_INT_PIN_1 - interrupt due to activity on Pin 1.
+//! - \b GPIO_INT_PIN_2 - interrupt due to activity on Pin 2.
+//! - \b GPIO_INT_PIN_3 - interrupt due to activity on Pin 3.
+//! - \b GPIO_INT_PIN_4 - interrupt due to activity on Pin 4.
+//! - \b GPIO_INT_PIN_5 - interrupt due to activity on Pin 5.
+//! - \b GPIO_INT_PIN_6 - interrupt due to activity on Pin 6.
+//! - \b GPIO_INT_PIN_7 - interrupt due to activity on Pin 7.
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+GPIOIntEnable(unsigned long ulPort, unsigned long ulIntFlags)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT(GPIOBaseValid(ulPort));
+
+ //
+ // Enable the interrupts.
+ //
+ HWREG(ulPort + GPIO_O_GPIO_IM) |= ulIntFlags;
+}
+
+//*****************************************************************************
+//
+//! Disables the specified GPIO interrupts.
+//!
+//! \param ulPort is the base address of the GPIO port.
+//! \param ulIntFlags is the bit mask of the interrupt sources to disable.
+//!
+//! This function disables the indicated GPIO interrupt sources. Only the
+//! sources that are enabled can be reflected to the processor interrupt;
+//! disabled sources have no effect on the processor.
+//!
+//! The \e ulIntFlags parameter is the logical OR of any of the following:
+//!
+//! - \b GPIO_INT_DMA - interrupt due to GPIO triggered DMA Done
+//! - \b GPIO_INT_PIN_0 - interrupt due to activity on Pin 0.
+//! - \b GPIO_INT_PIN_1 - interrupt due to activity on Pin 1.
+//! - \b GPIO_INT_PIN_2 - interrupt due to activity on Pin 2.
+//! - \b GPIO_INT_PIN_3 - interrupt due to activity on Pin 3.
+//! - \b GPIO_INT_PIN_4 - interrupt due to activity on Pin 4.
+//! - \b GPIO_INT_PIN_5 - interrupt due to activity on Pin 5.
+//! - \b GPIO_INT_PIN_6 - interrupt due to activity on Pin 6.
+//! - \b GPIO_INT_PIN_7 - interrupt due to activity on Pin 7.
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+GPIOIntDisable(unsigned long ulPort, unsigned long ulIntFlags)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT(GPIOBaseValid(ulPort));
+
+ //
+ // Disable the interrupts.
+ //
+ HWREG(ulPort + GPIO_O_GPIO_IM) &= ~(ulIntFlags);
+}
+
+//*****************************************************************************
+//
+//! Gets interrupt status for the specified GPIO port.
+//!
+//! \param ulPort is the base address of the GPIO port.
+//! \param bMasked specifies whether masked or raw interrupt status is
+//! returned.
+//!
+//! If \e bMasked is set as \b true, then the masked interrupt status is
+//! returned; otherwise, the raw interrupt status will be returned.
+//!
+//! \return Returns the current interrupt status, enumerated as a bit field of
+//! values described in GPIOIntEnable().
+//
+//*****************************************************************************
+long
+GPIOIntStatus(unsigned long ulPort, tBoolean bMasked)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT(GPIOBaseValid(ulPort));
+
+ //
+ // Return the interrupt status.
+ //
+ if(bMasked)
+ {
+ return(HWREG(ulPort + GPIO_O_GPIO_MIS));
+ }
+ else
+ {
+ return(HWREG(ulPort + GPIO_O_GPIO_RIS));
+ }
+}
+
+//*****************************************************************************
+//
+//! Clears the interrupt for the specified pin(s).
+//!
+//! \param ulPort is the base address of the GPIO port.
+//! \param ulIntFlags is a bit mask of the interrupt sources to be cleared.
+//!
+//! Clears the interrupt for the specified pin(s).
+//!
+//! The \e ulIntFlags parameter has the same definition as the \e ulIntFlags
+//! parameter to GPIOIntEnable().
+//!
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+GPIOIntClear(unsigned long ulPort, unsigned long ulIntFlags)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT(GPIOBaseValid(ulPort));
+
+ //
+ // Clear the interrupts.
+ //
+ HWREG(ulPort + GPIO_O_GPIO_ICR) = ulIntFlags;
+}
+
+//*****************************************************************************
+//
+//! Registers an interrupt handler for a GPIO port.
+//!
+//! \param ulPort is the base address of the GPIO port.
+//! \param pfnIntHandler is a pointer to the GPIO port interrupt handling
+//! function.
+//!
+//! This function will ensure that the interrupt handler specified by
+//! \e pfnIntHandler is called when an interrupt is detected from the selected
+//! GPIO port. This function will also enable the corresponding GPIO interrupt
+//! in the interrupt controller; individual pin interrupts and interrupt
+//! sources must be enabled with GPIOIntEnable().
+//!
+//! \sa IntRegister() for important information about registering interrupt
+//! handlers.
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+GPIOIntRegister(unsigned long ulPort, void (*pfnIntHandler)(void))
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT(GPIOBaseValid(ulPort));
+
+ //
+ // Get the interrupt number associated with the specified GPIO.
+ //
+ ulPort = GPIOGetIntNumber(ulPort);
+
+ //
+ // Register the interrupt handler.
+ //
+ IntRegister(ulPort, pfnIntHandler);
+
+ //
+ // Enable the GPIO interrupt.
+ //
+ IntEnable(ulPort);
+}
+
+//*****************************************************************************
+//
+//! Removes an interrupt handler for a GPIO port.
+//!
+//! \param ulPort is the base address of the GPIO port.
+//!
+//! This function will unregister the interrupt handler for the specified
+//! GPIO port. This function will also disable the corresponding
+//! GPIO port interrupt in the interrupt controller; individual GPIO interrupts
+//! and interrupt sources must be disabled with GPIOIntDisable().
+//!
+//! \sa IntRegister() for important information about registering interrupt
+//! handlers.
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+GPIOIntUnregister(unsigned long ulPort)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT(GPIOBaseValid(ulPort));
+
+ //
+ // Get the interrupt number associated with the specified GPIO.
+ //
+ ulPort = GPIOGetIntNumber(ulPort);
+
+ //
+ // Disable the GPIO interrupt.
+ //
+ IntDisable(ulPort);
+
+ //
+ // Unregister the interrupt handler.
+ //
+ IntUnregister(ulPort);
+}
+
+//*****************************************************************************
+//
+//! Reads the values present of the specified pin(s).
+//!
+//! \param ulPort is the base address of the GPIO port.
+//! \param ucPins is the bit-packed representation of the pin(s).
+//!
+//! The values at the specified pin(s) are read, as specified by \e ucPins.
+//! Values are returned for both input and output pin(s), and the value
+//! for pin(s) that are not specified by \e ucPins are set to 0.
+//!
+//! The pin(s) are specified using a bit-packed byte, where each bit that is
+//! set identifies the pin to be accessed, and where bit 0 of the byte
+//! represents GPIO port pin 0, bit 1 represents GPIO port pin 1, and so on.
+//!
+//! \return Returns a bit-packed byte providing the state of the specified
+//! pin, where bit 0 of the byte represents GPIO port pin 0, bit 1 represents
+//! GPIO port pin 1, and so on. Any bit that is not specified by \e ucPins
+//! is returned as a 0. Bits 31:8 should be ignored.
+//
+//*****************************************************************************
+long
+GPIOPinRead(unsigned long ulPort, unsigned char ucPins)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT(GPIOBaseValid(ulPort));
+
+ //
+ // Return the pin value(s).
+ //
+ return(HWREG(ulPort + (GPIO_O_GPIO_DATA + (ucPins << 2))));
+}
+
+//*****************************************************************************
+//
+//! Writes a value to the specified pin(s).
+//!
+//! \param ulPort is the base address of the GPIO port.
+//! \param ucPins is the bit-packed representation of the pin(s).
+//! \param ucVal is the value to write to the pin(s).
+//!
+//! Writes the corresponding bit values to the output pin(s) specified by
+//! \e ucPins. Writing to a pin configured as an input pin has no effect.
+//!
+//! The pin(s) are specified using a bit-packed byte, where each bit that is
+//! set identifies the pin to be accessed, and where bit 0 of the byte
+//! represents GPIO port pin 0, bit 1 represents GPIO port pin 1, and so on.
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+GPIOPinWrite(unsigned long ulPort, unsigned char ucPins, unsigned char ucVal)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT(GPIOBaseValid(ulPort));
+
+ //
+ // Write the pins.
+ //
+ HWREG(ulPort + (GPIO_O_GPIO_DATA + (ucPins << 2))) = ucVal;
+}
+
+//*****************************************************************************
+//
+//! Enables a GPIO port as a trigger to start a DMA transaction.
+//!
+//! \param ulPort is the base address of the GPIO port.
+//!
+//! This function enables a GPIO port to be used as a trigger to start a uDMA
+//! transaction. The GPIO pin will still generate interrupts if the interrupt is
+//! enabled for the selected pin.
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+GPIODMATriggerEnable(unsigned long ulPort)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT(GPIOBaseValid(ulPort));
+
+ //
+ // Set the pin as a DMA trigger.
+ //
+ if(ulPort == GPIOA0_BASE)
+ {
+ HWREG(COMMON_REG_BASE + COMMON_REG_O_APPS_GPIO_TRIG_EN) |= 0x1;
+ }
+ else if(ulPort == GPIOA1_BASE)
+ {
+ HWREG(COMMON_REG_BASE + COMMON_REG_O_APPS_GPIO_TRIG_EN) |= 0x2;
+ }
+ else if(ulPort == GPIOA2_BASE)
+ {
+ HWREG(COMMON_REG_BASE + COMMON_REG_O_APPS_GPIO_TRIG_EN) |= 0x4;
+ }
+ else if(ulPort == GPIOA3_BASE)
+ {
+ HWREG(COMMON_REG_BASE + COMMON_REG_O_APPS_GPIO_TRIG_EN) |= 0x8;
+ }
+}
+
+//*****************************************************************************
+//
+//! Disables a GPIO port as a trigger to start a DMA transaction.
+//!
+//! \param ulPort is the base address of the GPIO port.
+//!
+//! This function disables a GPIO port to be used as a trigger to start a uDMA
+//! transaction. This function can be used to disable this feature if it was
+//! enabled via a call to GPIODMATriggerEnable().
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+GPIODMATriggerDisable(unsigned long ulPort)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT(GPIOBaseValid(ulPort));
+
+ //
+ // Set the pin as a DMA trigger.
+ //
+ if(ulPort == GPIOA0_BASE)
+ {
+ HWREG(COMMON_REG_BASE + COMMON_REG_O_APPS_GPIO_TRIG_EN) &= ~0x1;
+ }
+ else if(ulPort == GPIOA1_BASE)
+ {
+ HWREG(COMMON_REG_BASE + COMMON_REG_O_APPS_GPIO_TRIG_EN) &= ~0x2;
+ }
+ else if(ulPort == GPIOA2_BASE)
+ {
+ HWREG(COMMON_REG_BASE + COMMON_REG_O_APPS_GPIO_TRIG_EN) &= ~0x4;
+ }
+ else if(ulPort == GPIOA3_BASE)
+ {
+ HWREG(COMMON_REG_BASE + COMMON_REG_O_APPS_GPIO_TRIG_EN) &= ~0x8;
+ }
+}
+
+
+//
+// Close the Doxygen group.
+//! @}
+//
+//*****************************************************************************
diff --git a/cc3200/hal/gpio.h b/cc3200/hal/gpio.h
new file mode 100644
index 000000000..35acf79a6
--- /dev/null
+++ b/cc3200/hal/gpio.h
@@ -0,0 +1,139 @@
+//*****************************************************************************
+//
+// gpio.h
+//
+// Defines and Macros for GPIO API.
+//
+// Copyright (C) 2014 Texas Instruments Incorporated - http://www.ti.com/
+//
+//
+// Redistribution and use in source and binary forms, with or without
+// modification, are permitted provided that the following conditions
+// are met:
+//
+// Redistributions of source code must retain the above copyright
+// notice, this list of conditions and the following disclaimer.
+//
+// Redistributions in binary form must reproduce the above copyright
+// notice, this list of conditions and the following disclaimer in the
+// documentation and/or other materials provided with the
+// distribution.
+//
+// Neither the name of Texas Instruments Incorporated nor the names of
+// its contributors may be used to endorse or promote products derived
+// from this software without specific prior written permission.
+//
+// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
+// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
+// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
+// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
+// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
+// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
+// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
+// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
+// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
+// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
+// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+//
+//*****************************************************************************
+
+#ifndef __GPIO_H__
+#define __GPIO_H__
+
+//*****************************************************************************
+//
+// If building with a C++ compiler, make all of the definitions in this header
+// have a C binding.
+//
+//*****************************************************************************
+#ifdef __cplusplus
+extern "C"
+{
+#endif
+
+//*****************************************************************************
+//
+// The following values define the bit field for the ucPins argument to several
+// of the APIs.
+//
+//*****************************************************************************
+#define GPIO_PIN_0 0x00000001 // GPIO pin 0
+#define GPIO_PIN_1 0x00000002 // GPIO pin 1
+#define GPIO_PIN_2 0x00000004 // GPIO pin 2
+#define GPIO_PIN_3 0x00000008 // GPIO pin 3
+#define GPIO_PIN_4 0x00000010 // GPIO pin 4
+#define GPIO_PIN_5 0x00000020 // GPIO pin 5
+#define GPIO_PIN_6 0x00000040 // GPIO pin 6
+#define GPIO_PIN_7 0x00000080 // GPIO pin 7
+
+//*****************************************************************************
+//
+// Values that can be passed to GPIODirModeSet as the ulPinIO parameter, and
+// returned from GPIODirModeGet.
+//
+//*****************************************************************************
+#define GPIO_DIR_MODE_IN 0x00000000 // Pin is a GPIO input
+#define GPIO_DIR_MODE_OUT 0x00000001 // Pin is a GPIO output
+
+//*****************************************************************************
+//
+// Values that can be passed to GPIOIntTypeSet as the ulIntType parameter, and
+// returned from GPIOIntTypeGet.
+//
+//*****************************************************************************
+#define GPIO_FALLING_EDGE 0x00000000 // Interrupt on falling edge
+#define GPIO_RISING_EDGE 0x00000004 // Interrupt on rising edge
+#define GPIO_BOTH_EDGES 0x00000001 // Interrupt on both edges
+#define GPIO_LOW_LEVEL 0x00000002 // Interrupt on low level
+#define GPIO_HIGH_LEVEL 0x00000006 // Interrupt on high level
+
+//*****************************************************************************
+//
+// Values that can be passed to GPIOIntEnable() and GPIOIntDisable() functions
+// in the ulIntFlags parameter.
+//
+//*****************************************************************************
+#define GPIO_INT_DMA 0x00000100
+#define GPIO_INT_PIN_0 0x00000001
+#define GPIO_INT_PIN_1 0x00000002
+#define GPIO_INT_PIN_2 0x00000004
+#define GPIO_INT_PIN_3 0x00000008
+#define GPIO_INT_PIN_4 0x00000010
+#define GPIO_INT_PIN_5 0x00000020
+#define GPIO_INT_PIN_6 0x00000040
+#define GPIO_INT_PIN_7 0x00000080
+
+//*****************************************************************************
+//
+// Prototypes for the APIs.
+//
+//*****************************************************************************
+extern void GPIODirModeSet(unsigned long ulPort, unsigned char ucPins,
+ unsigned long ulPinIO);
+extern unsigned long GPIODirModeGet(unsigned long ulPort, unsigned char ucPin);
+extern void GPIOIntTypeSet(unsigned long ulPort, unsigned char ucPins,
+ unsigned long ulIntType);
+extern void GPIODMATriggerEnable(unsigned long ulPort);
+extern void GPIODMATriggerDisable(unsigned long ulPort);
+extern unsigned long GPIOIntTypeGet(unsigned long ulPort, unsigned char ucPin);
+extern void GPIOIntEnable(unsigned long ulPort, unsigned long ulIntFlags);
+extern void GPIOIntDisable(unsigned long ulPort, unsigned long ulIntFlags);
+extern long GPIOIntStatus(unsigned long ulPort, tBoolean bMasked);
+extern void GPIOIntClear(unsigned long ulPort, unsigned long ulIntFlags);
+extern void GPIOIntRegister(unsigned long ulPort,
+ void (*pfnIntHandler)(void));
+extern void GPIOIntUnregister(unsigned long ulPort);
+extern long GPIOPinRead(unsigned long ulPort, unsigned char ucPins);
+extern void GPIOPinWrite(unsigned long ulPort, unsigned char ucPins,
+ unsigned char ucVal);
+
+//*****************************************************************************
+//
+// Mark the end of the C bindings section for C++ compilers.
+//
+//*****************************************************************************
+#ifdef __cplusplus
+}
+#endif
+
+#endif // __GPIO_H__
diff --git a/cc3200/hal/i2c.c b/cc3200/hal/i2c.c
new file mode 100644
index 000000000..520868767
--- /dev/null
+++ b/cc3200/hal/i2c.c
@@ -0,0 +1,2057 @@
+//*****************************************************************************
+//
+// i2c.c
+//
+// Driver for Inter-IC (I2C) bus block.
+//
+// Copyright (C) 2014 Texas Instruments Incorporated - http://www.ti.com/
+//
+//
+// Redistribution and use in source and binary forms, with or without
+// modification, are permitted provided that the following conditions
+// are met:
+//
+// Redistributions of source code must retain the above copyright
+// notice, this list of conditions and the following disclaimer.
+//
+// Redistributions in binary form must reproduce the above copyright
+// notice, this list of conditions and the following disclaimer in the
+// documentation and/or other materials provided with the
+// distribution.
+//
+// Neither the name of Texas Instruments Incorporated nor the names of
+// its contributors may be used to endorse or promote products derived
+// from this software without specific prior written permission.
+//
+// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
+// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
+// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
+// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
+// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
+// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
+// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
+// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
+// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
+// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
+// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+//
+//*****************************************************************************
+
+//*****************************************************************************
+//
+//! \addtogroup I2C_api
+//! @{
+//
+//*****************************************************************************
+
+#include <stdbool.h>
+#include <stdint.h>
+#include "inc/hw_i2c.h"
+#include "inc/hw_ints.h"
+#include "inc/hw_memmap.h"
+#include "inc/hw_types.h"
+#include "debug.h"
+#include "i2c.h"
+#include "interrupt.h"
+
+//*****************************************************************************
+//
+// A mapping of I2C base address to interrupt number.
+//
+//*****************************************************************************
+static const uint32_t g_ppui32I2CIntMap[][2] =
+{
+ { I2CA0_BASE, INT_I2CA0},
+};
+
+static const int_fast8_t g_i8I2CIntMapRows =
+ sizeof(g_ppui32I2CIntMap) / sizeof(g_ppui32I2CIntMap[0]);
+
+//*****************************************************************************
+//
+//! \internal
+//! Checks an I2C base address.
+//!
+//! \param ui32Base is the base address of the I2C module.
+//!
+//! This function determines if a I2C module base address is valid.
+//!
+//! \return Returns \b true if the base address is valid and \b false
+//! otherwise.
+//
+//*****************************************************************************
+#ifdef DEBUG
+static bool
+_I2CBaseValid(uint32_t ui32Base)
+{
+ return((ui32Base == I2CA0_BASE));
+}
+#else
+#define _I2CBaseValid(ui32Base) (ui32Base)
+#endif
+
+//*****************************************************************************
+//
+//! \internal
+//! Gets the I2C interrupt number.
+//!
+//! \param ui32Base is the base address of the I2C Master module.
+//!
+//! Given a I2C base address, this function returns the corresponding
+//! interrupt number.
+//!
+//! \return Returns an I2C interrupt number, or 0 if \e ui32Base is invalid.
+//
+//*****************************************************************************
+static uint32_t
+_I2CIntNumberGet(uint32_t ui32Base)
+{
+ int_fast8_t i8Idx, i8Rows;
+ const uint32_t (*ppui32I2CIntMap)[2];
+
+ //
+ // Check the arguments.
+ //
+ ASSERT(_I2CBaseValid(ui32Base));
+
+ ppui32I2CIntMap = g_ppui32I2CIntMap;
+ i8Rows = g_i8I2CIntMapRows;
+
+ //
+ // Loop through the table that maps I2C base addresses to interrupt
+ // numbers.
+ //
+ for(i8Idx = 0; i8Idx < i8Rows; i8Idx++)
+ {
+ //
+ // See if this base address matches.
+ //
+ if(ppui32I2CIntMap[i8Idx][0] == ui32Base)
+ {
+ //
+ // Return the corresponding interrupt number.
+ //
+ return(ppui32I2CIntMap[i8Idx][1]);
+ }
+ }
+
+ //
+ // The base address could not be found, so return an error.
+ //
+ return(0);
+}
+
+//*****************************************************************************
+//
+//! Initializes the I2C Master block.
+//!
+//! \param ui32Base is the base address of the I2C Master module.
+//! \param ui32I2CClk is the rate of the clock supplied to the I2C module.
+//! \param bFast set up for fast data transfers.
+//!
+//! This function initializes operation of the I2C Master block by configuring
+//! the bus speed for the master and enabling the I2C Master block.
+//!
+//! If the parameter \e bFast is \b true, then the master block is set up to
+//! transfer data at 400 Kbps; otherwise, it is set up to transfer data at
+//! 100 Kbps. If Fast Mode Plus (1 Mbps) is desired, software should manually
+//! write the I2CMTPR after calling this function. For High Speed (3.4 Mbps)
+//! mode, a specific command is used to switch to the faster clocks after the
+//! initial communication with the slave is done at either 100 Kbps or
+//! 400 Kbps.
+//!
+//! The peripheral clock is the same as the processor clock. This value is
+//! returned by SysCtlClockGet(), or it can be explicitly hard coded if it is
+//! constant and known (to save the code/execution overhead of a call to
+//! SysCtlClockGet()).
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+I2CMasterInitExpClk(uint32_t ui32Base, uint32_t ui32I2CClk,
+ bool bFast)
+{
+ uint32_t ui32SCLFreq;
+ uint32_t ui32TPR;
+
+ //
+ // Check the arguments.
+ //
+ ASSERT(_I2CBaseValid(ui32Base));
+
+ //
+ // Must enable the device before doing anything else.
+ //
+ I2CMasterEnable(ui32Base);
+
+ //
+ // Get the desired SCL speed.
+ //
+ if(bFast == true)
+ {
+ ui32SCLFreq = 400000;
+ }
+ else
+ {
+ ui32SCLFreq = 100000;
+ }
+
+ //
+ // Compute the clock divider that achieves the fastest speed less than or
+ // equal to the desired speed. The numerator is biased to favor a larger
+ // clock divider so that the resulting clock is always less than or equal
+ // to the desired clock, never greater.
+ //
+ ui32TPR = ((ui32I2CClk + (2 * 10 * ui32SCLFreq) - 1) /
+ (2 * 10 * ui32SCLFreq)) - 1;
+ HWREG(ui32Base + I2C_O_MTPR) = ui32TPR;
+
+ //
+ // Check to see if this I2C peripheral is High-Speed enabled. If yes, also
+ // choose the fastest speed that is less than or equal to 3.4 Mbps.
+ //
+ if(HWREG(ui32Base + I2C_O_PP) & I2C_PP_HS)
+ {
+ ui32TPR = ((ui32I2CClk + (2 * 3 * 3400000) - 1) /
+ (2 * 3 * 3400000)) - 1;
+ HWREG(ui32Base + I2C_O_MTPR) = I2C_MTPR_HS | ui32TPR;
+ }
+}
+
+//*****************************************************************************
+//
+//! Initializes the I2C Slave block.
+//!
+//! \param ui32Base is the base address of the I2C Slave module.
+//! \param ui8SlaveAddr 7-bit slave address
+//!
+//! This function initializes operation of the I2C Slave block by configuring
+//! the slave address and enabling the I2C Slave block.
+//!
+//! The parameter \e ui8SlaveAddr is the value that is compared against the
+//! slave address sent by an I2C master.
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+I2CSlaveInit(uint32_t ui32Base, uint8_t ui8SlaveAddr)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT(_I2CBaseValid(ui32Base));
+ ASSERT(!(ui8SlaveAddr & 0x80));
+
+ //
+ // Must enable the device before doing anything else.
+ //
+ I2CSlaveEnable(ui32Base);
+
+ //
+ // Set up the slave address.
+ //
+ HWREG(ui32Base + I2C_O_SOAR) = ui8SlaveAddr;
+}
+
+//*****************************************************************************
+//
+//! Sets the I2C slave address.
+//!
+//! \param ui32Base is the base address of the I2C Slave module.
+//! \param ui8AddrNum determines which slave address is set.
+//! \param ui8SlaveAddr is the 7-bit slave address
+//!
+//! This function writes the specified slave address. The \e ui32AddrNum field
+//! dictates which slave address is configured. For example, a value of 0
+//! configures the primary address and a value of 1 configures the secondary.
+//!
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+I2CSlaveAddressSet(uint32_t ui32Base, uint8_t ui8AddrNum, uint8_t ui8SlaveAddr)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT(_I2CBaseValid(ui32Base));
+ ASSERT(!(ui8AddrNum > 1));
+ ASSERT(!(ui8SlaveAddr & 0x80));
+
+ //
+ // Determine which slave address is being set.
+ //
+ switch(ui8AddrNum)
+ {
+ //
+ // Set up the primary slave address.
+ //
+ case 0:
+ {
+ HWREG(ui32Base + I2C_O_SOAR) = ui8SlaveAddr;
+ break;
+ }
+
+ //
+ // Set up and enable the secondary slave address.
+ //
+ case 1:
+ {
+ HWREG(ui32Base + I2C_O_SOAR2) = I2C_SOAR2_OAR2EN | ui8SlaveAddr;
+ break;
+ }
+ }
+}
+
+//*****************************************************************************
+//
+//! Enables the I2C Master block.
+//!
+//! \param ui32Base is the base address of the I2C Master module.
+//!
+//! This function enables operation of the I2C Master block.
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+I2CMasterEnable(uint32_t ui32Base)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT(_I2CBaseValid(ui32Base));
+
+ //
+ // Enable the master block.
+ //
+ HWREG(ui32Base + I2C_O_MCR) |= I2C_MCR_MFE;
+}
+
+//*****************************************************************************
+//
+//! Enables the I2C Slave block.
+//!
+//! \param ui32Base is the base address of the I2C Slave module.
+//!
+//! This fucntion enables operation of the I2C Slave block.
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+I2CSlaveEnable(uint32_t ui32Base)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT(_I2CBaseValid(ui32Base));
+
+ //
+ // Enable the clock to the slave block.
+ //
+ HWREG(ui32Base + I2C_O_MCR) |= I2C_MCR_SFE;
+
+ //
+ // Enable the slave.
+ //
+ HWREG(ui32Base + I2C_O_SCSR) = I2C_SCSR_DA;
+}
+
+//*****************************************************************************
+//
+//! Disables the I2C master block.
+//!
+//! \param ui32Base is the base address of the I2C Master module.
+//!
+//! This function disables operation of the I2C master block.
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+I2CMasterDisable(uint32_t ui32Base)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT(_I2CBaseValid(ui32Base));
+
+ //
+ // Disable the master block.
+ //
+ HWREG(ui32Base + I2C_O_MCR) &= ~(I2C_MCR_MFE);
+}
+
+//*****************************************************************************
+//
+//! Disables the I2C slave block.
+//!
+//! \param ui32Base is the base address of the I2C Slave module.
+//!
+//! This function disables operation of the I2C slave block.
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+I2CSlaveDisable(uint32_t ui32Base)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT(_I2CBaseValid(ui32Base));
+
+ //
+ // Disable the slave.
+ //
+ HWREG(ui32Base + I2C_O_SCSR) = 0;
+
+ //
+ // Disable the clock to the slave block.
+ //
+ HWREG(ui32Base + I2C_O_MCR) &= ~(I2C_MCR_SFE);
+}
+
+//*****************************************************************************
+//
+//! Registers an interrupt handler for the I2C module.
+//!
+//! \param ui32Base is the base address of the I2C Master module.
+//! \param pfnHandler is a pointer to the function to be called when the
+//! I2C interrupt occurs.
+//!
+//! This function sets the handler to be called when an I2C interrupt occurs.
+//! This function enables the global interrupt in the interrupt controller;
+//! specific I2C interrupts must be enabled via I2CMasterIntEnable() and
+//! I2CSlaveIntEnable(). If necessary, it is the interrupt handler's
+//! responsibility to clear the interrupt source via I2CMasterIntClear() and
+//! I2CSlaveIntClear().
+//!
+//! \sa IntRegister() for important information about registering interrupt
+//! handlers.
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+I2CIntRegister(uint32_t ui32Base, void (*pfnHandler)(void))
+{
+ uint32_t ui32Int;
+
+ //
+ // Check the arguments.
+ //
+ ASSERT(_I2CBaseValid(ui32Base));
+
+ //
+ // Determine the interrupt number based on the I2C port.
+ //
+ ui32Int = _I2CIntNumberGet(ui32Base);
+
+ ASSERT(ui32Int != 0);
+
+ //
+ // Register the interrupt handler, returning an error if an error occurs.
+ //
+ IntRegister(ui32Int, pfnHandler);
+
+ //
+ // Enable the I2C interrupt.
+ //
+ IntEnable(ui32Int);
+}
+
+//*****************************************************************************
+//
+//! Unregisters an interrupt handler for the I2C module.
+//!
+//! \param ui32Base is the base address of the I2C Master module.
+//!
+//! This function clears the handler to be called when an I2C interrupt
+//! occurs. This function also masks off the interrupt in the interrupt r
+//! controller so that the interrupt handler no longer is called.
+//!
+//! \sa IntRegister() for important information about registering interrupt
+//! handlers.
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+I2CIntUnregister(uint32_t ui32Base)
+{
+ uint32_t ui32Int;
+
+ //
+ // Check the arguments.
+ //
+ ASSERT(_I2CBaseValid(ui32Base));
+
+ //
+ // Determine the interrupt number based on the I2C port.
+ //
+ ui32Int = _I2CIntNumberGet(ui32Base);
+
+ ASSERT(ui32Int != 0);
+
+ //
+ // Disable the interrupt.
+ //
+ IntDisable(ui32Int);
+
+ //
+ // Unregister the interrupt handler.
+ //
+ IntUnregister(ui32Int);
+}
+
+//*****************************************************************************
+//
+//! Enables the I2C Master interrupt.
+//!
+//! \param ui32Base is the base address of the I2C Master module.
+//!
+//! This function enables the I2C Master interrupt source.
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+I2CMasterIntEnable(uint32_t ui32Base)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT(_I2CBaseValid(ui32Base));
+
+ //
+ // Enable the master interrupt.
+ //
+ HWREG(ui32Base + I2C_O_MIMR) = 1;
+}
+
+//*****************************************************************************
+//
+//! Enables individual I2C Master interrupt sources.
+//!
+//! \param ui32Base is the base address of the I2C Master module.
+//! \param ui32IntFlags is the bit mask of the interrupt sources to be enabled.
+//!
+//! This function enables the indicated I2C Master interrupt sources. Only the
+//! sources that are enabled can be reflected to the processor interrupt;
+//! disabled sources have no effect on the processor.
+//!
+//! The \e ui32IntFlags parameter is the logical OR of any of the following:
+//!
+//! - \b I2C_MASTER_INT_RX_FIFO_FULL - RX FIFO Full interrupt
+//! - \b I2C_MASTER_INT_TX_FIFO_EMPTY - TX FIFO Empty interrupt
+//! - \b I2C_MASTER_INT_RX_FIFO_REQ - RX FIFO Request interrupt
+//! - \b I2C_MASTER_INT_TX_FIFO_REQ - TX FIFO Request interrupt
+//! - \b I2C_MASTER_INT_ARB_LOST - Arbitration Lost interrupt
+//! - \b I2C_MASTER_INT_STOP - Stop Condition interrupt
+//! - \b I2C_MASTER_INT_START - Start Condition interrupt
+//! - \b I2C_MASTER_INT_NACK - Address/Data NACK interrupt
+//! - \b I2C_MASTER_INT_TX_DMA_DONE - TX DMA Complete interrupt
+//! - \b I2C_MASTER_INT_RX_DMA_DONE - RX DMA Complete interrupt
+//! - \b I2C_MASTER_INT_TIMEOUT - Clock Timeout interrupt
+//! - \b I2C_MASTER_INT_DATA - Data interrupt
+//!
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+I2CMasterIntEnableEx(uint32_t ui32Base, uint32_t ui32IntFlags)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT(_I2CBaseValid(ui32Base));
+
+ //
+ // Enable the master interrupt.
+ //
+ HWREG(ui32Base + I2C_O_MIMR) |= ui32IntFlags;
+}
+
+//*****************************************************************************
+//
+//! Enables the I2C Slave interrupt.
+//!
+//! \param ui32Base is the base address of the I2C Slave module.
+//!
+//! This function enables the I2C Slave interrupt source.
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+I2CSlaveIntEnable(uint32_t ui32Base)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT(_I2CBaseValid(ui32Base));
+
+ //
+ // Enable the slave interrupt.
+ //
+ HWREG(ui32Base + I2C_O_SIMR) |= I2C_SLAVE_INT_DATA;
+}
+
+//*****************************************************************************
+//
+//! Enables individual I2C Slave interrupt sources.
+//!
+//! \param ui32Base is the base address of the I2C Slave module.
+//! \param ui32IntFlags is the bit mask of the interrupt sources to be enabled.
+//!
+//! This function enables the indicated I2C Slave interrupt sources. Only the
+//! sources that are enabled can be reflected to the processor interrupt;
+//! disabled sources have no effect on the processor.
+//!
+//! The \e ui32IntFlags parameter is the logical OR of any of the following:
+//!
+//! - \b I2C_SLAVE_INT_RX_FIFO_FULL - RX FIFO Full interrupt
+//! - \b I2C_SLAVE_INT_TX_FIFO_EMPTY - TX FIFO Empty interrupt
+//! - \b I2C_SLAVE_INT_RX_FIFO_REQ - RX FIFO Request interrupt
+//! - \b I2C_SLAVE_INT_TX_FIFO_REQ - TX FIFO Request interrupt
+//! - \b I2C_SLAVE_INT_TX_DMA_DONE - TX DMA Complete interrupt
+//! - \b I2C_SLAVE_INT_RX_DMA_DONE - RX DMA Complete interrupt
+//! - \b I2C_SLAVE_INT_STOP - Stop condition detected interrupt
+//! - \b I2C_SLAVE_INT_START - Start condition detected interrupt
+//! - \b I2C_SLAVE_INT_DATA - Data interrupt
+//!
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+I2CSlaveIntEnableEx(uint32_t ui32Base, uint32_t ui32IntFlags)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT(_I2CBaseValid(ui32Base));
+
+ //
+ // Enable the slave interrupt.
+ //
+ HWREG(ui32Base + I2C_O_SIMR) |= ui32IntFlags;
+}
+
+//*****************************************************************************
+//
+//! Disables the I2C Master interrupt.
+//!
+//! \param ui32Base is the base address of the I2C Master module.
+//!
+//! This function disables the I2C Master interrupt source.
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+I2CMasterIntDisable(uint32_t ui32Base)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT(_I2CBaseValid(ui32Base));
+
+ //
+ // Disable the master interrupt.
+ //
+ HWREG(ui32Base + I2C_O_MIMR) = 0;
+}
+
+//*****************************************************************************
+//
+//! Disables individual I2C Master interrupt sources.
+//!
+//! \param ui32Base is the base address of the I2C Master module.
+//! \param ui32IntFlags is the bit mask of the interrupt sources to be
+//! disabled.
+//!
+//! This function disables the indicated I2C Master interrupt sources. Only
+//! the sources that are enabled can be reflected to the processor interrupt;
+//! disabled sources have no effect on the processor.
+//!
+//! The \e ui32IntFlags parameter has the same definition as the
+//! \e ui32IntFlags parameter to I2CMasterIntEnableEx().
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+I2CMasterIntDisableEx(uint32_t ui32Base, uint32_t ui32IntFlags)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT(_I2CBaseValid(ui32Base));
+
+ //
+ // Disable the master interrupt.
+ //
+ HWREG(ui32Base + I2C_O_MIMR) &= ~ui32IntFlags;
+}
+
+//*****************************************************************************
+//
+//! Disables the I2C Slave interrupt.
+//!
+//! \param ui32Base is the base address of the I2C Slave module.
+//!
+//! This function disables the I2C Slave interrupt source.
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+I2CSlaveIntDisable(uint32_t ui32Base)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT(_I2CBaseValid(ui32Base));
+
+ //
+ // Disable the slave interrupt.
+ //
+ HWREG(ui32Base + I2C_O_SIMR) &= ~I2C_SLAVE_INT_DATA;
+}
+
+//*****************************************************************************
+//
+//! Disables individual I2C Slave interrupt sources.
+//!
+//! \param ui32Base is the base address of the I2C Slave module.
+//! \param ui32IntFlags is the bit mask of the interrupt sources to be
+//! disabled.
+//!
+//! This function disables the indicated I2C Slave interrupt sources. Only
+//! the sources that are enabled can be reflected to the processor interrupt;
+//! disabled sources have no effect on the processor.
+//!
+//! The \e ui32IntFlags parameter has the same definition as the
+//! \e ui32IntFlags parameter to I2CSlaveIntEnableEx().
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+I2CSlaveIntDisableEx(uint32_t ui32Base, uint32_t ui32IntFlags)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT(_I2CBaseValid(ui32Base));
+
+ //
+ // Disable the slave interrupt.
+ //
+ HWREG(ui32Base + I2C_O_SIMR) &= ~ui32IntFlags;
+}
+
+//*****************************************************************************
+//
+//! Gets the current I2C Master interrupt status.
+//!
+//! \param ui32Base is the base address of the I2C Master module.
+//! \param bMasked is false if the raw interrupt status is requested and
+//! true if the masked interrupt status is requested.
+//!
+//! This function returns the interrupt status for the I2C Master module.
+//! Either the raw interrupt status or the status of interrupts that are
+//! allowed to reflect to the processor can be returned.
+//!
+//! \return The current interrupt status, returned as \b true if active
+//! or \b false if not active.
+//
+//*****************************************************************************
+bool
+I2CMasterIntStatus(uint32_t ui32Base, bool bMasked)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT(_I2CBaseValid(ui32Base));
+
+ //
+ // Return either the interrupt status or the raw interrupt status as
+ // requested.
+ //
+ if(bMasked)
+ {
+ return((HWREG(ui32Base + I2C_O_MMIS)) ? true : false);
+ }
+ else
+ {
+ return((HWREG(ui32Base + I2C_O_MRIS)) ? true : false);
+ }
+}
+
+//*****************************************************************************
+//
+//! Gets the current I2C Master interrupt status.
+//!
+//! \param ui32Base is the base address of the I2C Master module.
+//! \param bMasked is false if the raw interrupt status is requested and
+//! true if the masked interrupt status is requested.
+//!
+//! This function returns the interrupt status for the I2C Master module.
+//! Either the raw interrupt status or the status of interrupts that are
+//! allowed to reflect to the processor can be returned.
+//!
+//! \return Returns the current interrupt status, enumerated as a bit field of
+//! values described in I2CMasterIntEnableEx().
+//
+//*****************************************************************************
+uint32_t
+I2CMasterIntStatusEx(uint32_t ui32Base, bool bMasked)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT(_I2CBaseValid(ui32Base));
+
+ //
+ // Return either the interrupt status or the raw interrupt status as
+ // requested.
+ //
+ if(bMasked)
+ {
+ return(HWREG(ui32Base + I2C_O_MMIS));
+ }
+ else
+ {
+ return(HWREG(ui32Base + I2C_O_MRIS));
+ }
+}
+
+//*****************************************************************************
+//
+//! Gets the current I2C Slave interrupt status.
+//!
+//! \param ui32Base is the base address of the I2C Slave module.
+//! \param bMasked is false if the raw interrupt status is requested and
+//! true if the masked interrupt status is requested.
+//!
+//! This function returns the interrupt status for the I2C Slave module.
+//! Either the raw interrupt status or the status of interrupts that are
+//! allowed to reflect to the processor can be returned.
+//!
+//! \return The current interrupt status, returned as \b true if active
+//! or \b false if not active.
+//
+//*****************************************************************************
+bool
+I2CSlaveIntStatus(uint32_t ui32Base, bool bMasked)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT(_I2CBaseValid(ui32Base));
+
+ //
+ // Return either the interrupt status or the raw interrupt status as
+ // requested.
+ //
+ if(bMasked)
+ {
+ return((HWREG(ui32Base + I2C_O_SMIS)) ? true : false);
+ }
+ else
+ {
+ return((HWREG(ui32Base + I2C_O_SRIS)) ? true : false);
+ }
+}
+
+//*****************************************************************************
+//
+//! Gets the current I2C Slave interrupt status.
+//!
+//! \param ui32Base is the base address of the I2C Slave module.
+//! \param bMasked is false if the raw interrupt status is requested and
+//! true if the masked interrupt status is requested.
+//!
+//! This function returns the interrupt status for the I2C Slave module.
+//! Either the raw interrupt status or the status of interrupts that are
+//! allowed to reflect to the processor can be returned.
+//!
+//! \return Returns the current interrupt status, enumerated as a bit field of
+//! values described in I2CSlaveIntEnableEx().
+//
+//*****************************************************************************
+uint32_t
+I2CSlaveIntStatusEx(uint32_t ui32Base, bool bMasked)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT(_I2CBaseValid(ui32Base));
+
+ //
+ // Return either the interrupt status or the raw interrupt status as
+ // requested.
+ //
+ if(bMasked)
+ {
+ return(HWREG(ui32Base + I2C_O_SMIS));
+ }
+ else
+ {
+ return(HWREG(ui32Base + I2C_O_SRIS));
+ }
+}
+
+//*****************************************************************************
+//
+//! Clears I2C Master interrupt sources.
+//!
+//! \param ui32Base is the base address of the I2C Master module.
+//!
+//! The I2C Master interrupt source is cleared, so that it no longer
+//! asserts. This function must be called in the interrupt handler to keep the
+//! interrupt from being triggered again immediately upon exit.
+//!
+//! \note Because there is a write buffer in the Cortex-M processor, it may
+//! take several clock cycles before the interrupt source is actually cleared.
+//! Therefore, it is recommended that the interrupt source be cleared early in
+//! the interrupt handler (as opposed to the very last action) to avoid
+//! returning from the interrupt handler before the interrupt source is
+//! actually cleared. Failure to do so may result in the interrupt handler
+//! being immediately reentered (because the interrupt controller still sees
+//! the interrupt source asserted).
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+I2CMasterIntClear(uint32_t ui32Base)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT(_I2CBaseValid(ui32Base));
+
+ //
+ // Clear the I2C master interrupt source.
+ //
+ HWREG(ui32Base + I2C_O_MICR) = I2C_MICR_IC;
+
+ //
+ // Workaround for I2C master interrupt clear errata for some
+ // devices. For later devices, this write is ignored and therefore
+ // harmless (other than the slight performance hit).
+ //
+ HWREG(ui32Base + I2C_O_MMIS) = I2C_MICR_IC;
+}
+
+//*****************************************************************************
+//
+//! Clears I2C Master interrupt sources.
+//!
+//! \param ui32Base is the base address of the I2C Master module.
+//! \param ui32IntFlags is a bit mask of the interrupt sources to be cleared.
+//!
+//! The specified I2C Master interrupt sources are cleared, so that they no
+//! longer assert. This function must be called in the interrupt handler to
+//! keep the interrupt from being triggered again immediately upon exit.
+//!
+//! The \e ui32IntFlags parameter has the same definition as the
+//! \e ui32IntFlags parameter to I2CMasterIntEnableEx().
+//!
+//! \note Because there is a write buffer in the Cortex-M processor, it may
+//! take several clock cycles before the interrupt source is actually cleared.
+//! Therefore, it is recommended that the interrupt source be cleared early in
+//! the interrupt handler (as opposed to the very last action) to avoid
+//! returning from the interrupt handler before the interrupt source is
+//! actually cleared. Failure to do so may result in the interrupt handler
+//! being immediately reentered (because the interrupt controller still sees
+//! the interrupt source asserted).
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+I2CMasterIntClearEx(uint32_t ui32Base, uint32_t ui32IntFlags)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT(_I2CBaseValid(ui32Base));
+
+ //
+ // Clear the I2C master interrupt source.
+ //
+ HWREG(ui32Base + I2C_O_MICR) = ui32IntFlags;
+}
+
+//*****************************************************************************
+//
+//! Clears I2C Slave interrupt sources.
+//!
+//! \param ui32Base is the base address of the I2C Slave module.
+//!
+//! The I2C Slave interrupt source is cleared, so that it no longer asserts.
+//! This function must be called in the interrupt handler to keep the interrupt
+//! from being triggered again immediately upon exit.
+//!
+//! \note Because there is a write buffer in the Cortex-M processor, it may
+//! take several clock cycles before the interrupt source is actually cleared.
+//! Therefore, it is recommended that the interrupt source be cleared early in
+//! the interrupt handler (as opposed to the very last action) to avoid
+//! returning from the interrupt handler before the interrupt source is
+//! actually cleared. Failure to do so may result in the interrupt handler
+//! being immediately reentered (because the interrupt controller still sees
+//! the interrupt source asserted).
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+I2CSlaveIntClear(uint32_t ui32Base)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT(_I2CBaseValid(ui32Base));
+
+ //
+ // Clear the I2C slave interrupt source.
+ //
+ HWREG(ui32Base + I2C_O_SICR) = I2C_SICR_DATAIC;
+}
+
+//*****************************************************************************
+//
+//! Clears I2C Slave interrupt sources.
+//!
+//! \param ui32Base is the base address of the I2C Slave module.
+//! \param ui32IntFlags is a bit mask of the interrupt sources to be cleared.
+//!
+//! The specified I2C Slave interrupt sources are cleared, so that they no
+//! longer assert. This function must be called in the interrupt handler to
+//! keep the interrupt from being triggered again immediately upon exit.
+//!
+//! The \e ui32IntFlags parameter has the same definition as the
+//! \e ui32IntFlags parameter to I2CSlaveIntEnableEx().
+//!
+//! \note Because there is a write buffer in the Cortex-M processor, it may
+//! take several clock cycles before the interrupt source is actually cleared.
+//! Therefore, it is recommended that the interrupt source be cleared early in
+//! the interrupt handler (as opposed to the very last action) to avoid
+//! returning from the interrupt handler before the interrupt source is
+//! actually cleared. Failure to do so may result in the interrupt handler
+//! being immediately reentered (because the interrupt controller still sees
+//! the interrupt source asserted).
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+I2CSlaveIntClearEx(uint32_t ui32Base, uint32_t ui32IntFlags)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT(_I2CBaseValid(ui32Base));
+
+ //
+ // Clear the I2C slave interrupt source.
+ //
+ HWREG(ui32Base + I2C_O_SICR) = ui32IntFlags;
+}
+
+//*****************************************************************************
+//
+//! Sets the address that the I2C Master places on the bus.
+//!
+//! \param ui32Base is the base address of the I2C Master module.
+//! \param ui8SlaveAddr 7-bit slave address
+//! \param bReceive flag indicating the type of communication with the slave
+//!
+//! This function configures the address that the I2C Master places on the
+//! bus when initiating a transaction. When the \e bReceive parameter is set
+//! to \b true, the address indicates that the I2C Master is initiating a
+//! read from the slave; otherwise the address indicates that the I2C
+//! Master is initiating a write to the slave.
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+I2CMasterSlaveAddrSet(uint32_t ui32Base, uint8_t ui8SlaveAddr,
+ bool bReceive)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT(_I2CBaseValid(ui32Base));
+ ASSERT(!(ui8SlaveAddr & 0x80));
+
+ //
+ // Set the address of the slave with which the master will communicate.
+ //
+ HWREG(ui32Base + I2C_O_MSA) = (ui8SlaveAddr << 1) | bReceive;
+}
+
+//*****************************************************************************
+//
+//! Reads the state of the SDA and SCL pins.
+//!
+//! \param ui32Base is the base address of the I2C Master module.
+//!
+//! This function returns the state of the I2C bus by providing the real time
+//! values of the SDA and SCL pins.
+//!
+//!
+//! \return Returns the state of the bus with SDA in bit position 1 and SCL in
+//! bit position 0.
+//
+//*****************************************************************************
+uint32_t
+I2CMasterLineStateGet(uint32_t ui32Base)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT(_I2CBaseValid(ui32Base));
+
+ //
+ // Return the line state.
+ //
+ return(HWREG(ui32Base + I2C_O_MBMON));
+}
+
+//*****************************************************************************
+//
+//! Indicates whether or not the I2C Master is busy.
+//!
+//! \param ui32Base is the base address of the I2C Master module.
+//!
+//! This function returns an indication of whether or not the I2C Master is
+//! busy transmitting or receiving data.
+//!
+//! \return Returns \b true if the I2C Master is busy; otherwise, returns
+//! \b false.
+//
+//*****************************************************************************
+bool
+I2CMasterBusy(uint32_t ui32Base)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT(_I2CBaseValid(ui32Base));
+
+ //
+ // Return the busy status.
+ //
+ if(HWREG(ui32Base + I2C_O_MCS) & I2C_MCS_BUSY)
+ {
+ return(true);
+ }
+ else
+ {
+ return(false);
+ }
+}
+
+//*****************************************************************************
+//
+//! Indicates whether or not the I2C bus is busy.
+//!
+//! \param ui32Base is the base address of the I2C Master module.
+//!
+//! This function returns an indication of whether or not the I2C bus is busy.
+//! This function can be used in a multi-master environment to determine if
+//! another master is currently using the bus.
+//!
+//! \return Returns \b true if the I2C bus is busy; otherwise, returns
+//! \b false.
+//
+//*****************************************************************************
+bool
+I2CMasterBusBusy(uint32_t ui32Base)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT(_I2CBaseValid(ui32Base));
+
+ //
+ // Return the bus busy status.
+ //
+ if(HWREG(ui32Base + I2C_O_MCS) & I2C_MCS_BUSBSY)
+ {
+ return(true);
+ }
+ else
+ {
+ return(false);
+ }
+}
+
+//*****************************************************************************
+//
+//! Controls the state of the I2C Master module.
+//!
+//! \param ui32Base is the base address of the I2C Master module.
+//! \param ui32Cmd command to be issued to the I2C Master module.
+//!
+//! This function is used to control the state of the Master module send and
+//! receive operations. The \e ui8Cmd parameter can be one of the following
+//! values:
+//!
+//! - \b I2C_MASTER_CMD_SINGLE_SEND
+//! - \b I2C_MASTER_CMD_SINGLE_RECEIVE
+//! - \b I2C_MASTER_CMD_BURST_SEND_START
+//! - \b I2C_MASTER_CMD_BURST_SEND_CONT
+//! - \b I2C_MASTER_CMD_BURST_SEND_FINISH
+//! - \b I2C_MASTER_CMD_BURST_SEND_ERROR_STOP
+//! - \b I2C_MASTER_CMD_BURST_RECEIVE_START
+//! - \b I2C_MASTER_CMD_BURST_RECEIVE_CONT
+//! - \b I2C_MASTER_CMD_BURST_RECEIVE_FINISH
+//! - \b I2C_MASTER_CMD_BURST_RECEIVE_ERROR_STOP
+//! - \b I2C_MASTER_CMD_QUICK_COMMAND
+//! - \b I2C_MASTER_CMD_HS_MASTER_CODE_SEND
+//! - \b I2C_MASTER_CMD_FIFO_SINGLE_SEND
+//! - \b I2C_MASTER_CMD_FIFO_SINGLE_RECEIVE
+//! - \b I2C_MASTER_CMD_FIFO_BURST_SEND_START
+//! - \b I2C_MASTER_CMD_FIFO_BURST_SEND_CONT
+//! - \b I2C_MASTER_CMD_FIFO_BURST_SEND_FINISH
+//! - \b I2C_MASTER_CMD_FIFO_BURST_SEND_ERROR_STOP
+//! - \b I2C_MASTER_CMD_FIFO_BURST_RECEIVE_START
+//! - \b I2C_MASTER_CMD_FIFO_BURST_RECEIVE_CONT
+//! - \b I2C_MASTER_CMD_FIFO_BURST_RECEIVE_FINISH
+//! - \b I2C_MASTER_CMD_FIFO_BURST_RECEIVE_ERROR_STOP
+//!
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+I2CMasterControl(uint32_t ui32Base, uint32_t ui32Cmd)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT(_I2CBaseValid(ui32Base));
+ ASSERT((ui32Cmd == I2C_MASTER_CMD_SINGLE_SEND) ||
+ (ui32Cmd == I2C_MASTER_CMD_SINGLE_RECEIVE) ||
+ (ui32Cmd == I2C_MASTER_CMD_BURST_SEND_START) ||
+ (ui32Cmd == I2C_MASTER_CMD_BURST_SEND_CONT) ||
+ (ui32Cmd == I2C_MASTER_CMD_BURST_SEND_FINISH) ||
+ (ui32Cmd == I2C_MASTER_CMD_BURST_SEND_ERROR_STOP) ||
+ (ui32Cmd == I2C_MASTER_CMD_BURST_RECEIVE_START) ||
+ (ui32Cmd == I2C_MASTER_CMD_BURST_RECEIVE_CONT) ||
+ (ui32Cmd == I2C_MASTER_CMD_BURST_RECEIVE_FINISH) ||
+ (ui32Cmd == I2C_MASTER_CMD_BURST_RECEIVE_ERROR_STOP) ||
+ (ui32Cmd == I2C_MASTER_CMD_QUICK_COMMAND) ||
+ (ui32Cmd == I2C_MASTER_CMD_FIFO_SINGLE_SEND) ||
+ (ui32Cmd == I2C_MASTER_CMD_FIFO_SINGLE_RECEIVE) ||
+ (ui32Cmd == I2C_MASTER_CMD_FIFO_BURST_SEND_START) ||
+ (ui32Cmd == I2C_MASTER_CMD_FIFO_BURST_SEND_CONT) ||
+ (ui32Cmd == I2C_MASTER_CMD_FIFO_BURST_SEND_FINISH) ||
+ (ui32Cmd == I2C_MASTER_CMD_FIFO_BURST_SEND_ERROR_STOP) ||
+ (ui32Cmd == I2C_MASTER_CMD_FIFO_BURST_RECEIVE_START) ||
+ (ui32Cmd == I2C_MASTER_CMD_FIFO_BURST_RECEIVE_CONT) ||
+ (ui32Cmd == I2C_MASTER_CMD_FIFO_BURST_RECEIVE_FINISH) ||
+ (ui32Cmd == I2C_MASTER_CMD_FIFO_BURST_RECEIVE_ERROR_STOP) ||
+ (ui32Cmd == I2C_MASTER_CMD_HS_MASTER_CODE_SEND));
+
+ //
+ // Send the command.
+ //
+ HWREG(ui32Base + I2C_O_MCS) = ui32Cmd;
+}
+
+//*****************************************************************************
+//
+//! Gets the error status of the I2C Master module.
+//!
+//! \param ui32Base is the base address of the I2C Master module.
+//!
+//! This function is used to obtain the error status of the Master module send
+//! and receive operations.
+//!
+//! \return Returns the error status, as one of \b I2C_MASTER_ERR_NONE,
+//! \b I2C_MASTER_ERR_ADDR_ACK, \b I2C_MASTER_ERR_DATA_ACK, or
+//! \b I2C_MASTER_ERR_ARB_LOST.
+//
+//*****************************************************************************
+uint32_t
+I2CMasterErr(uint32_t ui32Base)
+{
+ uint32_t ui32Err;
+
+ //
+ // Check the arguments.
+ //
+ ASSERT(_I2CBaseValid(ui32Base));
+
+ //
+ // Get the raw error state
+ //
+ ui32Err = HWREG(ui32Base + I2C_O_MCS);
+
+ //
+ // If the I2C master is busy, then all the other bit are invalid, and
+ // don't have an error to report.
+ //
+ if(ui32Err & I2C_MCS_BUSY)
+ {
+ return(I2C_MASTER_ERR_NONE);
+ }
+
+ //
+ // Check for errors.
+ //
+ if(ui32Err & (I2C_MCS_ERROR | I2C_MCS_ARBLST))
+ {
+ return(ui32Err & (I2C_MCS_ARBLST | I2C_MCS_ACK | I2C_MCS_ADRACK));
+ }
+ else
+ {
+ return(I2C_MASTER_ERR_NONE);
+ }
+}
+
+//*****************************************************************************
+//
+//! Transmits a byte from the I2C Master.
+//!
+//! \param ui32Base is the base address of the I2C Master module.
+//! \param ui8Data data to be transmitted from the I2C Master.
+//!
+//! This function places the supplied data into I2C Master Data Register.
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+I2CMasterDataPut(uint32_t ui32Base, uint8_t ui8Data)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT(_I2CBaseValid(ui32Base));
+
+ //
+ // Write the byte.
+ //
+ HWREG(ui32Base + I2C_O_MDR) = ui8Data;
+}
+
+//*****************************************************************************
+//
+//! Receives a byte that has been sent to the I2C Master.
+//!
+//! \param ui32Base is the base address of the I2C Master module.
+//!
+//! This function reads a byte of data from the I2C Master Data Register.
+//!
+//! \return Returns the byte received from by the I2C Master, cast as an
+//! uint32_t.
+//
+//*****************************************************************************
+uint32_t
+I2CMasterDataGet(uint32_t ui32Base)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT(_I2CBaseValid(ui32Base));
+
+ //
+ // Read a byte.
+ //
+ return(HWREG(ui32Base + I2C_O_MDR));
+}
+
+//*****************************************************************************
+//
+//! Sets the Master clock timeout value.
+//!
+//! \param ui32Base is the base address of the I2C Master module.
+//! \param ui32Value is the number of I2C clocks before the timeout is
+//! asserted.
+//!
+//! This function enables and configures the clock low timeout feature in the
+//! I2C peripheral. This feature is implemented as a 12-bit counter, with the
+//! upper 8-bits being programmable. For example, to program a timeout of 20ms
+//! with a 100kHz SCL frequency, \e ui32Value would be 0x7d.
+//!
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+I2CMasterTimeoutSet(uint32_t ui32Base, uint32_t ui32Value)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT(_I2CBaseValid(ui32Base));
+
+ //
+ // Write the timeout value.
+ //
+ HWREG(ui32Base + I2C_O_MCLKOCNT) = ui32Value;
+}
+
+//*****************************************************************************
+//
+//! Configures ACK override behavior of the I2C Slave.
+//!
+//! \param ui32Base is the base address of the I2C Slave module.
+//! \param bEnable enables or disables ACK override.
+//!
+//! This function enables or disables ACK override, allowing the user
+//! application to drive the value on SDA during the ACK cycle.
+//!
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+I2CSlaveACKOverride(uint32_t ui32Base, bool bEnable)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT(_I2CBaseValid(ui32Base));
+
+ //
+ // Enable or disable based on bEnable.
+ //
+ if(bEnable)
+ {
+ HWREG(ui32Base + I2C_O_SACKCTL) |= I2C_SACKCTL_ACKOEN;
+ }
+ else
+ {
+ HWREG(ui32Base + I2C_O_SACKCTL) &= ~I2C_SACKCTL_ACKOEN;
+ }
+}
+
+//*****************************************************************************
+//
+//! Writes the ACK value.
+//!
+//! \param ui32Base is the base address of the I2C Slave module.
+//! \param bACK chooses whether to ACK (true) or NACK (false) the transfer.
+//!
+//! This function puts the desired ACK value on SDA during the ACK cycle. The
+//! value written is only valid when ACK override is enabled using
+//! I2CSlaveACKOverride().
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+I2CSlaveACKValueSet(uint32_t ui32Base, bool bACK)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT(_I2CBaseValid(ui32Base));
+
+ //
+ // ACK or NACK based on the value of bACK.
+ //
+ if(bACK)
+ {
+ HWREG(ui32Base + I2C_O_SACKCTL) &= ~I2C_SACKCTL_ACKOVAL;
+ }
+ else
+ {
+ HWREG(ui32Base + I2C_O_SACKCTL) |= I2C_SACKCTL_ACKOVAL;
+ }
+}
+
+//*****************************************************************************
+//
+//! Gets the I2C Slave module status
+//!
+//! \param ui32Base is the base address of the I2C Slave module.
+//!
+//! This function returns the action requested from a master, if any.
+//! Possible values are:
+//!
+//! - \b I2C_SLAVE_ACT_NONE
+//! - \b I2C_SLAVE_ACT_RREQ
+//! - \b I2C_SLAVE_ACT_TREQ
+//! - \b I2C_SLAVE_ACT_RREQ_FBR
+//! - \b I2C_SLAVE_ACT_OWN2SEL
+//! - \b I2C_SLAVE_ACT_QCMD
+//! - \b I2C_SLAVE_ACT_QCMD_DATA
+//!
+//! \note Not all devices support the second I2C slave's own address
+//! or the quick command function. Please consult the device data sheet to
+//! determine if these features are supported.
+//!
+//! \return Returns \b I2C_SLAVE_ACT_NONE to indicate that no action has been
+//! requested of the I2C Slave module, \b I2C_SLAVE_ACT_RREQ to indicate that
+//! an I2C master has sent data to the I2C Slave module, \b I2C_SLAVE_ACT_TREQ
+//! to indicate that an I2C master has requested that the I2C Slave module send
+//! data, \b I2C_SLAVE_ACT_RREQ_FBR to indicate that an I2C master has sent
+//! data to the I2C slave and the first byte following the slave's own address
+//! has been received, \b I2C_SLAVE_ACT_OWN2SEL to indicate that the second I2C
+//! slave address was matched, \b I2C_SLAVE_ACT_QCMD to indicate that a quick
+//! command was received, and \b I2C_SLAVE_ACT_QCMD_DATA to indicate that the
+//! data bit was set when the quick command was received.
+//
+//*****************************************************************************
+uint32_t
+I2CSlaveStatus(uint32_t ui32Base)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT(_I2CBaseValid(ui32Base));
+
+ //
+ // Return the slave status.
+ //
+ return(HWREG(ui32Base + I2C_O_SCSR));
+}
+
+//*****************************************************************************
+//
+//! Transmits a byte from the I2C Slave.
+//!
+//! \param ui32Base is the base address of the I2C Slave module.
+//! \param ui8Data is the data to be transmitted from the I2C Slave
+//!
+//! This function places the supplied data into I2C Slave Data Register.
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+I2CSlaveDataPut(uint32_t ui32Base, uint8_t ui8Data)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT(_I2CBaseValid(ui32Base));
+
+ //
+ // Write the byte.
+ //
+ HWREG(ui32Base + I2C_O_SDR) = ui8Data;
+}
+
+//*****************************************************************************
+//
+//! Receives a byte that has been sent to the I2C Slave.
+//!
+//! \param ui32Base is the base address of the I2C Slave module.
+//!
+//! This function reads a byte of data from the I2C Slave Data Register.
+//!
+//! \return Returns the byte received from by the I2C Slave, cast as an
+//! uint32_t.
+//
+//*****************************************************************************
+uint32_t
+I2CSlaveDataGet(uint32_t ui32Base)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT(_I2CBaseValid(ui32Base));
+
+ //
+ // Read a byte.
+ //
+ return(HWREG(ui32Base + I2C_O_SDR));
+}
+
+//*****************************************************************************
+//
+//! Configures the I2C transmit (TX) FIFO.
+//!
+//! \param ui32Base is the base address of the I2C Master or Slave module.
+//! \param ui32Config is the configuration of the FIFO using specified macros.
+//!
+//! This configures the I2C peripheral's transmit FIFO. The transmit FIFO can
+//! be used by the master or slave, but not both. The following macros are
+//! used to configure the TX FIFO behavior for master or slave, with or without
+//! DMA:
+//!
+//! \b I2C_FIFO_CFG_TX_MASTER, \b I2C_FIFO_CFG_TX_SLAVE,
+//! \b I2C_FIFO_CFG_TX_MASTER_DMA, \b I2C_FIFO_CFG_TX_SLAVE_DMA
+//!
+//! To select the trigger level, one of the following macros should be used:
+//!
+//! \b I2C_FIFO_CFG_TX_TRIG_1, \b I2C_FIFO_CFG_TX_TRIG_2,
+//! \b I2C_FIFO_CFG_TX_TRIG_3, \b I2C_FIFO_CFG_TX_TRIG_4,
+//! \b I2C_FIFO_CFG_TX_TRIG_5, \b I2C_FIFO_CFG_TX_TRIG_6,
+//! \b I2C_FIFO_CFG_TX_TRIG_7, \b I2C_FIFO_CFG_TX_TRIG_8
+//!
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+I2CTxFIFOConfigSet(uint32_t ui32Base, uint32_t ui32Config)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT(_I2CBaseValid(ui32Base));
+
+ //
+ // Clear transmit configuration data.
+ //
+ HWREG(ui32Base + I2C_O_FIFOCTL) &= 0xffff0000;
+
+ //
+ // Store new transmit configuration data.
+ //
+ HWREG(ui32Base + I2C_O_FIFOCTL) |= ui32Config;
+}
+
+//*****************************************************************************
+//
+//! Flushes the transmit (TX) FIFO.
+//!
+//! \param ui32Base is the base address of the I2C Master or Slave module.
+//!
+//! This function flushes the I2C transmit FIFO.
+//!
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+I2CTxFIFOFlush(uint32_t ui32Base)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT(_I2CBaseValid(ui32Base));
+
+ //
+ // Flush the TX FIFO.
+ //
+ HWREG(ui32Base + I2C_O_FIFOCTL) |= I2C_FIFOCTL_TXFLUSH;
+}
+
+//*****************************************************************************
+//
+//! Configures the I2C receive (RX) FIFO.
+//!
+//! \param ui32Base is the base address of the I2C Master or Slave module.
+//! \param ui32Config is the configuration of the FIFO using specified macros.
+//!
+//! This configures the I2C peripheral's receive FIFO. The receive FIFO can be
+//! used by the master or slave, but not both. The following macros are used
+//! to configure the RX FIFO behavior for master or slave, with or without DMA:
+//!
+//! \b I2C_FIFO_CFG_RX_MASTER, \b I2C_FIFO_CFG_RX_SLAVE,
+//! \b I2C_FIFO_CFG_RX_MASTER_DMA, \b I2C_FIFO_CFG_RX_SLAVE_DMA
+//!
+//! To select the trigger level, one of the following macros should be used:
+//!
+//! \b I2C_FIFO_CFG_RX_TRIG_1, \b I2C_FIFO_CFG_RX_TRIG_2,
+//! \b I2C_FIFO_CFG_RX_TRIG_3, \b I2C_FIFO_CFG_RX_TRIG_4,
+//! \b I2C_FIFO_CFG_RX_TRIG_5, \b I2C_FIFO_CFG_RX_TRIG_6,
+//! \b I2C_FIFO_CFG_RX_TRIG_7, \b I2C_FIFO_CFG_RX_TRIG_8
+//!
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+I2CRxFIFOConfigSet(uint32_t ui32Base, uint32_t ui32Config)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT(_I2CBaseValid(ui32Base));
+
+ //
+ // Clear receive configuration data.
+ //
+ HWREG(ui32Base + I2C_O_FIFOCTL) &= 0x0000ffff;
+
+ //
+ // Store new receive configuration data.
+ //
+ HWREG(ui32Base + I2C_O_FIFOCTL) |= ui32Config;
+}
+
+//*****************************************************************************
+//
+//! Flushes the receive (RX) FIFO.
+//!
+//! \param ui32Base is the base address of the I2C Master or Slave module.
+//!
+//! This function flushes the I2C receive FIFO.
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+I2CRxFIFOFlush(uint32_t ui32Base)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT(_I2CBaseValid(ui32Base));
+
+ //
+ // Flush the TX FIFO.
+ //
+ HWREG(ui32Base + I2C_O_FIFOCTL) |= I2C_FIFOCTL_RXFLUSH;
+}
+
+//*****************************************************************************
+//
+//! Gets the current FIFO status.
+//!
+//! \param ui32Base is the base address of the I2C Master or Slave module.
+//!
+//! This function retrieves the status for both the transmit (TX) and receive
+//! (RX) FIFOs. The trigger level for the transmit FIFO is set using
+//! I2CTxFIFOConfigSet() and for the receive FIFO using I2CTxFIFOConfigSet().
+//!
+//! \return Returns the FIFO status, enumerated as a bit field containing
+//! \b I2C_FIFO_RX_BELOW_TRIG_LEVEL, \b I2C_FIFO_RX_FULL, \b I2C_FIFO_RX_EMPTY,
+//! \b I2C_FIFO_TX_BELOW_TRIG_LEVEL, \b I2C_FIFO_TX_FULL, and
+//! \b I2C_FIFO_TX_EMPTY.
+//
+//*****************************************************************************
+uint32_t
+I2CFIFOStatus(uint32_t ui32Base)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT(_I2CBaseValid(ui32Base));
+
+ //
+ // Return the contents of the FIFO status register.
+ //
+ return(HWREG(ui32Base + I2C_O_FIFOSTATUS));
+}
+
+//*****************************************************************************
+//
+//! Writes a data byte to the I2C transmit FIFO.
+//!
+//! \param ui32Base is the base address of the I2C Master or Slave module.
+//! \param ui8Data is the data to be placed into the transmit FIFO.
+//!
+//! This function adds a byte of data to the I2C transmit FIFO. If there is
+//! no space available in the FIFO, this function waits for space to become
+//! available before returning.
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+I2CFIFODataPut(uint32_t ui32Base, uint8_t ui8Data)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT(_I2CBaseValid(ui32Base));
+
+ //
+ // Wait until there is space.
+ //
+ while(HWREG(ui32Base + I2C_O_FIFOSTATUS) & I2C_FIFOSTATUS_TXFF)
+ {
+ }
+
+ //
+ // Place data into the FIFO.
+ //
+ HWREG(ui32Base + I2C_O_FIFODATA) = ui8Data;
+}
+
+//*****************************************************************************
+//
+//! Writes a data byte to the I2C transmit FIFO.
+//!
+//! \param ui32Base is the base address of the I2C Master or Slave module.
+//! \param ui8Data is the data to be placed into the transmit FIFO.
+//!
+//! This function adds a byte of data to the I2C transmit FIFO. If there is
+//! no space available in the FIFO, this function returns a zero.
+//!
+//! \return The number of elements added to the I2C transmit FIFO.
+//
+//*****************************************************************************
+uint32_t
+I2CFIFODataPutNonBlocking(uint32_t ui32Base, uint8_t ui8Data)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT(_I2CBaseValid(ui32Base));
+
+ //
+ // If FIFO is full, return zero.
+ //
+ if(HWREG(ui32Base + I2C_O_FIFOSTATUS) & I2C_FIFOSTATUS_TXFF)
+ {
+ return(0);
+ }
+ else
+ {
+ HWREG(ui32Base + I2C_O_FIFODATA) = ui8Data;
+ return(1);
+ }
+}
+
+//*****************************************************************************
+//
+//! Reads a byte from the I2C receive FIFO.
+//!
+//! \param ui32Base is the base address of the I2C Master or Slave module.
+//!
+//! This function reads a byte of data from I2C receive FIFO and places it in
+//! the location specified by the \e pui8Data parameter. If there is no data
+//! available, this function waits until data is received before returning.
+//!
+//! \return The data byte.
+//
+//*****************************************************************************
+uint32_t
+I2CFIFODataGet(uint32_t ui32Base)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT(_I2CBaseValid(ui32Base));
+
+ //
+ // Wait until there is data to read.
+ //
+ while(HWREG(ui32Base + I2C_O_FIFOSTATUS) & I2C_FIFOSTATUS_RXFE)
+ {
+ }
+
+ //
+ // Read a byte.
+ //
+ return(HWREG(ui32Base + I2C_O_FIFODATA));
+}
+
+//*****************************************************************************
+//
+//! Reads a byte from the I2C receive FIFO.
+//!
+//! \param ui32Base is the base address of the I2C Master or Slave module.
+//! \param pui8Data is a pointer where the read data is stored.
+//!
+//! This function reads a byte of data from I2C receive FIFO and places it in
+//! the location specified by the \e pui8Data parameter. If there is no data
+//! available, this functions returns 0.
+//!
+//! \return The number of elements read from the I2C receive FIFO.
+//
+//*****************************************************************************
+uint32_t
+I2CFIFODataGetNonBlocking(uint32_t ui32Base, uint8_t *pui8Data)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT(_I2CBaseValid(ui32Base));
+
+ //
+ // If nothing in the FIFO, return zero.
+ //
+ if(HWREG(ui32Base + I2C_O_FIFOSTATUS) & I2C_FIFOSTATUS_RXFE)
+ {
+ return(0);
+ }
+ else
+ {
+ *pui8Data = HWREG(ui32Base + I2C_O_FIFODATA);
+ return(1);
+ }
+}
+
+//*****************************************************************************
+//
+//! Set the burst length for a I2C master FIFO operation.
+//!
+//! \param ui32Base is the base address of the I2C Master module.
+//! \param ui8Length is the length of the burst transfer.
+//!
+//! This function configures the burst length for a I2C Master FIFO operation.
+//! The burst field is limited to 8 bits or 256 bytes. The burst length
+//! applies to a single I2CMCS BURST operation meaning that it specifies the
+//! burst length for only the current operation (can be TX or RX). Each burst
+//! operation must configure the burst length prior to writing the BURST bit
+//! in the I2CMCS using I2CMasterControl().
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+I2CMasterBurstLengthSet(uint32_t ui32Base, uint8_t ui8Length)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT(_I2CBaseValid(ui32Base) && (ui8Length < 255));
+
+ //
+ // Set the burst length.
+ //
+ HWREG(ui32Base + I2C_O_MBLEN) = ui8Length;
+}
+
+//*****************************************************************************
+//
+//! Returns the current value of the burst transfer counter.
+//!
+//! \param ui32Base is the base address of the I2C Master module.
+//!
+//! This function returns the current value of the burst transfer counter that
+//! is used by the FIFO mechanism. Software can use this value to determine
+//! how many bytes remain in a transfer, or where in the transfer the burst
+//! operation was if an error has occurred.
+//!
+//! \return None.
+//
+//*****************************************************************************
+uint32_t
+I2CMasterBurstCountGet(uint32_t ui32Base)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT(_I2CBaseValid(ui32Base));
+
+ //
+ // Get burst count.
+ //
+ return(HWREG(ui32Base + I2C_O_MBCNT));
+}
+
+//*****************************************************************************
+//
+//! Configures the I2C Master glitch filter.
+//!
+//! \param ui32Base is the base address of the I2C Master module.
+//! \param ui32Config is the glitch filter configuration.
+//!
+//! This function configures the I2C Master glitch filter. The value passed in
+//! to \e ui32Config determines the sampling range of the glitch filter, which
+//! is configurable between 1 and 32 system clock cycles. The default
+//! configuration of the glitch filter is 0 system clock cycles, which means
+//! that it's disabled.
+//!
+//! The \e ui32Config field should be any of the following values:
+//!
+//! - \b I2C_MASTER_GLITCH_FILTER_DISABLED
+//! - \b I2C_MASTER_GLITCH_FILTER_1
+//! - \b I2C_MASTER_GLITCH_FILTER_2
+//! - \b I2C_MASTER_GLITCH_FILTER_3
+//! - \b I2C_MASTER_GLITCH_FILTER_4
+//! - \b I2C_MASTER_GLITCH_FILTER_8
+//! - \b I2C_MASTER_GLITCH_FILTER_16
+//! - \b I2C_MASTER_GLITCH_FILTER_32
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+I2CMasterGlitchFilterConfigSet(uint32_t ui32Base, uint32_t ui32Config)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT(_I2CBaseValid(ui32Base));
+
+ //
+ // Configure the glitch filter field of MTPR.
+ //
+ HWREG(ui32Base + I2C_O_MTPR) |= ui32Config;
+}
+
+//*****************************************************************************
+//
+//! Enables FIFO usage for the I2C Slave module.
+//!
+//! \param ui32Base is the base address of the I2C Slave module.
+//! \param ui32Config is the desired FIFO configuration of the I2C Slave.
+//!
+//! This function configures the I2C Slave module to use the FIFO(s). This
+//! function should be used in combination with I2CTxFIFOConfigSet() and/or
+//! I2CRxFIFOConfigSet(), which configure the FIFO trigger level and tell
+//! the FIFO hardware whether to interact with the I2C Master or Slave. The
+//! application appropriate combination of \b I2C_SLAVE_TX_FIFO_ENABLE and
+//! \b I2C_SLAVE_RX_FIFO_ENABLE should be passed in to the \e ui32Config
+//! field.
+//!
+//! The Slave I2CSCSR register is write-only, so any call to I2CSlaveEnable(),
+//! I2CSlaveDisable or I2CSlaveFIFOEnable() overwrites the slave configuration.
+//! Therefore, application software should call I2CSlaveEnable() followed by
+//! I2CSlaveFIFOEnable() with the desired FIFO configuration.
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+I2CSlaveFIFOEnable(uint32_t ui32Base, uint32_t ui32Config)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT(_I2CBaseValid(ui32Base));
+
+ //
+ // Enable the FIFOs for the slave.
+ //
+ HWREG(ui32Base + I2C_O_SCSR) = ui32Config | I2C_SCSR_DA;
+}
+
+//*****************************************************************************
+//
+//! Disable FIFO usage for the I2C Slave module.
+//!
+//! \param ui32Base is the base address of the I2C Slave module.
+//!
+//! This function disables the FIFOs for the I2C Slave. After calling this
+//! this function, the FIFOs are disabled, but the Slave remains active.
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+I2CSlaveFIFODisable(uint32_t ui32Base)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT(_I2CBaseValid(ui32Base));
+
+ //
+ // Disable slave FIFOs.
+ //
+ HWREG(ui32Base + I2C_O_SCSR) = I2C_SCSR_DA;
+}
+
+//*****************************************************************************
+//
+// Close the Doxygen group.
+//! @}
+//
+//*****************************************************************************
diff --git a/cc3200/hal/i2c.h b/cc3200/hal/i2c.h
new file mode 100644
index 000000000..67f77fa9a
--- /dev/null
+++ b/cc3200/hal/i2c.h
@@ -0,0 +1,361 @@
+//*****************************************************************************
+//
+// i2c.h
+//
+// Prototypes for the I2C Driver.
+//
+// Copyright (C) 2014 Texas Instruments Incorporated - http://www.ti.com/
+//
+//
+// Redistribution and use in source and binary forms, with or without
+// modification, are permitted provided that the following conditions
+// are met:
+//
+// Redistributions of source code must retain the above copyright
+// notice, this list of conditions and the following disclaimer.
+//
+// Redistributions in binary form must reproduce the above copyright
+// notice, this list of conditions and the following disclaimer in the
+// documentation and/or other materials provided with the
+// distribution.
+//
+// Neither the name of Texas Instruments Incorporated nor the names of
+// its contributors may be used to endorse or promote products derived
+// from this software without specific prior written permission.
+//
+// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
+// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
+// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
+// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
+// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
+// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
+// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
+// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
+// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
+// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
+// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+//
+//*****************************************************************************
+
+#ifndef __DRIVERLIB_I2C_H__
+#define __DRIVERLIB_I2C_H__
+
+//*****************************************************************************
+//
+// If building with a C++ compiler, make all of the definitions in this header
+// have a C binding.
+//
+//*****************************************************************************
+#ifdef __cplusplus
+extern "C"
+{
+#endif
+
+//*****************************************************************************
+//
+// Defines for the API.
+//
+//*****************************************************************************
+
+//*****************************************************************************
+//
+// Interrupt defines.
+//
+//*****************************************************************************
+#define I2C_INT_MASTER 0x00000001
+#define I2C_INT_SLAVE 0x00000002
+
+//*****************************************************************************
+//
+// I2C Master commands.
+//
+//*****************************************************************************
+#define I2C_MASTER_CMD_SINGLE_SEND \
+ 0x00000007
+#define I2C_MASTER_CMD_SINGLE_RECEIVE \
+ 0x00000007
+#define I2C_MASTER_CMD_BURST_SEND_START \
+ 0x00000003
+#define I2C_MASTER_CMD_BURST_SEND_CONT \
+ 0x00000001
+#define I2C_MASTER_CMD_BURST_SEND_FINISH \
+ 0x00000005
+#define I2C_MASTER_CMD_BURST_SEND_STOP \
+ 0x00000004
+#define I2C_MASTER_CMD_BURST_SEND_ERROR_STOP \
+ 0x00000004
+#define I2C_MASTER_CMD_BURST_RECEIVE_START \
+ 0x0000000b
+#define I2C_MASTER_CMD_BURST_RECEIVE_CONT \
+ 0x00000009
+#define I2C_MASTER_CMD_BURST_RECEIVE_FINISH \
+ 0x00000005
+#define I2C_MASTER_CMD_BURST_RECEIVE_ERROR_STOP \
+ 0x00000004
+#define I2C_MASTER_CMD_QUICK_COMMAND \
+ 0x00000027
+#define I2C_MASTER_CMD_HS_MASTER_CODE_SEND \
+ 0x00000013
+#define I2C_MASTER_CMD_FIFO_SINGLE_SEND \
+ 0x00000046
+#define I2C_MASTER_CMD_FIFO_SINGLE_RECEIVE \
+ 0x00000046
+#define I2C_MASTER_CMD_FIFO_BURST_SEND_START \
+ 0x00000042
+#define I2C_MASTER_CMD_FIFO_BURST_SEND_CONT \
+ 0x00000040
+#define I2C_MASTER_CMD_FIFO_BURST_SEND_FINISH \
+ 0x00000044
+#define I2C_MASTER_CMD_FIFO_BURST_SEND_ERROR_STOP \
+ 0x00000004
+#define I2C_MASTER_CMD_FIFO_BURST_RECEIVE_START \
+ 0x0000004a
+#define I2C_MASTER_CMD_FIFO_BURST_RECEIVE_CONT \
+ 0x00000048
+#define I2C_MASTER_CMD_FIFO_BURST_RECEIVE_FINISH \
+ 0x00000044
+#define I2C_MASTER_CMD_FIFO_BURST_RECEIVE_ERROR_STOP \
+ 0x00000004
+
+//*****************************************************************************
+//
+// I2C Master glitch filter configuration.
+//
+//*****************************************************************************
+#define I2C_MASTER_GLITCH_FILTER_DISABLED \
+ 0
+#define I2C_MASTER_GLITCH_FILTER_1 \
+ 0x00010000
+#define I2C_MASTER_GLITCH_FILTER_2 \
+ 0x00020000
+#define I2C_MASTER_GLITCH_FILTER_3 \
+ 0x00030000
+#define I2C_MASTER_GLITCH_FILTER_4 \
+ 0x00040000
+#define I2C_MASTER_GLITCH_FILTER_8 \
+ 0x00050000
+#define I2C_MASTER_GLITCH_FILTER_16 \
+ 0x00060000
+#define I2C_MASTER_GLITCH_FILTER_32 \
+ 0x00070000
+
+//*****************************************************************************
+//
+// I2C Master error status.
+//
+//*****************************************************************************
+#define I2C_MASTER_ERR_NONE 0
+#define I2C_MASTER_ERR_ADDR_ACK 0x00000004
+#define I2C_MASTER_ERR_DATA_ACK 0x00000008
+#define I2C_MASTER_ERR_ARB_LOST 0x00000010
+#define I2C_MASTER_ERR_CLK_TOUT 0x00000080
+
+//*****************************************************************************
+//
+// I2C Slave action requests
+//
+//*****************************************************************************
+#define I2C_SLAVE_ACT_NONE 0
+#define I2C_SLAVE_ACT_RREQ 0x00000001 // Master has sent data
+#define I2C_SLAVE_ACT_TREQ 0x00000002 // Master has requested data
+#define I2C_SLAVE_ACT_RREQ_FBR 0x00000005 // Master has sent first byte
+#define I2C_SLAVE_ACT_OWN2SEL 0x00000008 // Master requested secondary slave
+#define I2C_SLAVE_ACT_QCMD 0x00000010 // Master has sent a Quick Command
+#define I2C_SLAVE_ACT_QCMD_DATA 0x00000020 // Master Quick Command value
+
+//*****************************************************************************
+//
+// Miscellaneous I2C driver definitions.
+//
+//*****************************************************************************
+#define I2C_MASTER_MAX_RETRIES 1000 // Number of retries
+
+//*****************************************************************************
+//
+// I2C Master interrupts.
+//
+//*****************************************************************************
+#define I2C_MASTER_INT_RX_FIFO_FULL \
+ 0x00000800 // RX FIFO Full Interrupt
+#define I2C_MASTER_INT_TX_FIFO_EMPTY \
+ 0x00000400 // TX FIFO Empty Interrupt
+#define I2C_MASTER_INT_RX_FIFO_REQ \
+ 0x00000200 // RX FIFO Request Interrupt
+#define I2C_MASTER_INT_TX_FIFO_REQ \
+ 0x00000100 // TX FIFO Request Interrupt
+#define I2C_MASTER_INT_ARB_LOST \
+ 0x00000080 // Arb Lost Interrupt
+#define I2C_MASTER_INT_STOP 0x00000040 // Stop Condition Interrupt
+#define I2C_MASTER_INT_START 0x00000020 // Start Condition Interrupt
+#define I2C_MASTER_INT_NACK 0x00000010 // Addr/Data NACK Interrupt
+#define I2C_MASTER_INT_TX_DMA_DONE \
+ 0x00000008 // TX DMA Complete Interrupt
+#define I2C_MASTER_INT_RX_DMA_DONE \
+ 0x00000004 // RX DMA Complete Interrupt
+#define I2C_MASTER_INT_TIMEOUT 0x00000002 // Clock Timeout Interrupt
+#define I2C_MASTER_INT_DATA 0x00000001 // Data Interrupt
+
+//*****************************************************************************
+//
+// I2C Slave interrupts.
+//
+//*****************************************************************************
+#define I2C_SLAVE_INT_RX_FIFO_FULL \
+ 0x00000100 // RX FIFO Full Interrupt
+#define I2C_SLAVE_INT_TX_FIFO_EMPTY \
+ 0x00000080 // TX FIFO Empty Interrupt
+#define I2C_SLAVE_INT_RX_FIFO_REQ \
+ 0x00000040 // RX FIFO Request Interrupt
+#define I2C_SLAVE_INT_TX_FIFO_REQ \
+ 0x00000020 // TX FIFO Request Interrupt
+#define I2C_SLAVE_INT_TX_DMA_DONE \
+ 0x00000010 // TX DMA Complete Interrupt
+#define I2C_SLAVE_INT_RX_DMA_DONE \
+ 0x00000008 // RX DMA Complete Interrupt
+#define I2C_SLAVE_INT_STOP 0x00000004 // Stop Condition Interrupt
+#define I2C_SLAVE_INT_START 0x00000002 // Start Condition Interrupt
+#define I2C_SLAVE_INT_DATA 0x00000001 // Data Interrupt
+
+//*****************************************************************************
+//
+// I2C Slave FIFO configuration macros.
+//
+//*****************************************************************************
+#define I2C_SLAVE_TX_FIFO_ENABLE \
+ 0x00000002
+#define I2C_SLAVE_RX_FIFO_ENABLE \
+ 0x00000004
+
+//*****************************************************************************
+//
+// I2C FIFO configuration macros.
+//
+//*****************************************************************************
+#define I2C_FIFO_CFG_TX_MASTER 0x00000000
+#define I2C_FIFO_CFG_TX_SLAVE 0x00008000
+#define I2C_FIFO_CFG_RX_MASTER 0x00000000
+#define I2C_FIFO_CFG_RX_SLAVE 0x80000000
+#define I2C_FIFO_CFG_TX_MASTER_DMA \
+ 0x00002000
+#define I2C_FIFO_CFG_TX_SLAVE_DMA \
+ 0x0000a000
+#define I2C_FIFO_CFG_RX_MASTER_DMA \
+ 0x20000000
+#define I2C_FIFO_CFG_RX_SLAVE_DMA \
+ 0xa0000000
+#define I2C_FIFO_CFG_TX_NO_TRIG 0x00000000
+#define I2C_FIFO_CFG_TX_TRIG_1 0x00000001
+#define I2C_FIFO_CFG_TX_TRIG_2 0x00000002
+#define I2C_FIFO_CFG_TX_TRIG_3 0x00000003
+#define I2C_FIFO_CFG_TX_TRIG_4 0x00000004
+#define I2C_FIFO_CFG_TX_TRIG_5 0x00000005
+#define I2C_FIFO_CFG_TX_TRIG_6 0x00000006
+#define I2C_FIFO_CFG_TX_TRIG_7 0x00000007
+#define I2C_FIFO_CFG_TX_TRIG_8 0x00000008
+#define I2C_FIFO_CFG_RX_NO_TRIG 0x00000000
+#define I2C_FIFO_CFG_RX_TRIG_1 0x00010000
+#define I2C_FIFO_CFG_RX_TRIG_2 0x00020000
+#define I2C_FIFO_CFG_RX_TRIG_3 0x00030000
+#define I2C_FIFO_CFG_RX_TRIG_4 0x00040000
+#define I2C_FIFO_CFG_RX_TRIG_5 0x00050000
+#define I2C_FIFO_CFG_RX_TRIG_6 0x00060000
+#define I2C_FIFO_CFG_RX_TRIG_7 0x00070000
+#define I2C_FIFO_CFG_RX_TRIG_8 0x00080000
+
+//*****************************************************************************
+//
+// I2C FIFO status.
+//
+//*****************************************************************************
+#define I2C_FIFO_RX_BELOW_TRIG_LEVEL \
+ 0x00040000
+#define I2C_FIFO_RX_FULL 0x00020000
+#define I2C_FIFO_RX_EMPTY 0x00010000
+#define I2C_FIFO_TX_BELOW_TRIG_LEVEL \
+ 0x00000004
+#define I2C_FIFO_TX_FULL 0x00000002
+#define I2C_FIFO_TX_EMPTY 0x00000001
+
+//*****************************************************************************
+//
+// Prototypes for the APIs.
+//
+//*****************************************************************************
+extern void I2CIntRegister(uint32_t ui32Base, void(pfnHandler)(void));
+extern void I2CIntUnregister(uint32_t ui32Base);
+extern void I2CTxFIFOConfigSet(uint32_t ui32Base, uint32_t ui32Config);
+extern void I2CTxFIFOFlush(uint32_t ui32Base);
+extern void I2CRxFIFOConfigSet(uint32_t ui32Base, uint32_t ui32Config);
+extern void I2CRxFIFOFlush(uint32_t ui32Base);
+extern uint32_t I2CFIFOStatus(uint32_t ui32Base);
+extern void I2CFIFODataPut(uint32_t ui32Base, uint8_t ui8Data);
+extern uint32_t I2CFIFODataPutNonBlocking(uint32_t ui32Base,
+ uint8_t ui8Data);
+extern uint32_t I2CFIFODataGet(uint32_t ui32Base);
+extern uint32_t I2CFIFODataGetNonBlocking(uint32_t ui32Base,
+ uint8_t *pui8Data);
+extern void I2CMasterBurstLengthSet(uint32_t ui32Base,
+ uint8_t ui8Length);
+extern uint32_t I2CMasterBurstCountGet(uint32_t ui32Base);
+extern void I2CMasterGlitchFilterConfigSet(uint32_t ui32Base,
+ uint32_t ui32Config);
+extern void I2CSlaveFIFOEnable(uint32_t ui32Base, uint32_t ui32Config);
+extern void I2CSlaveFIFODisable(uint32_t ui32Base);
+extern bool I2CMasterBusBusy(uint32_t ui32Base);
+extern bool I2CMasterBusy(uint32_t ui32Base);
+extern void I2CMasterControl(uint32_t ui32Base, uint32_t ui32Cmd);
+extern uint32_t I2CMasterDataGet(uint32_t ui32Base);
+extern void I2CMasterDataPut(uint32_t ui32Base, uint8_t ui8Data);
+extern void I2CMasterDisable(uint32_t ui32Base);
+extern void I2CMasterEnable(uint32_t ui32Base);
+extern uint32_t I2CMasterErr(uint32_t ui32Base);
+extern void I2CMasterInitExpClk(uint32_t ui32Base, uint32_t ui32I2CClk,
+ bool bFast);
+extern void I2CMasterIntClear(uint32_t ui32Base);
+extern void I2CMasterIntDisable(uint32_t ui32Base);
+extern void I2CMasterIntEnable(uint32_t ui32Base);
+extern bool I2CMasterIntStatus(uint32_t ui32Base, bool bMasked);
+extern void I2CMasterIntEnableEx(uint32_t ui32Base,
+ uint32_t ui32IntFlags);
+extern void I2CMasterIntDisableEx(uint32_t ui32Base,
+ uint32_t ui32IntFlags);
+extern uint32_t I2CMasterIntStatusEx(uint32_t ui32Base,
+ bool bMasked);
+extern void I2CMasterIntClearEx(uint32_t ui32Base,
+ uint32_t ui32IntFlags);
+extern void I2CMasterTimeoutSet(uint32_t ui32Base, uint32_t ui32Value);
+extern void I2CSlaveACKOverride(uint32_t ui32Base, bool bEnable);
+extern void I2CSlaveACKValueSet(uint32_t ui32Base, bool bACK);
+extern uint32_t I2CMasterLineStateGet(uint32_t ui32Base);
+extern void I2CMasterSlaveAddrSet(uint32_t ui32Base,
+ uint8_t ui8SlaveAddr,
+ bool bReceive);
+extern uint32_t I2CSlaveDataGet(uint32_t ui32Base);
+extern void I2CSlaveDataPut(uint32_t ui32Base, uint8_t ui8Data);
+extern void I2CSlaveDisable(uint32_t ui32Base);
+extern void I2CSlaveEnable(uint32_t ui32Base);
+extern void I2CSlaveInit(uint32_t ui32Base, uint8_t ui8SlaveAddr);
+extern void I2CSlaveAddressSet(uint32_t ui32Base, uint8_t ui8AddrNum,
+ uint8_t ui8SlaveAddr);
+extern void I2CSlaveIntClear(uint32_t ui32Base);
+extern void I2CSlaveIntDisable(uint32_t ui32Base);
+extern void I2CSlaveIntEnable(uint32_t ui32Base);
+extern void I2CSlaveIntClearEx(uint32_t ui32Base, uint32_t ui32IntFlags);
+extern void I2CSlaveIntDisableEx(uint32_t ui32Base,
+ uint32_t ui32IntFlags);
+extern void I2CSlaveIntEnableEx(uint32_t ui32Base, uint32_t ui32IntFlags);
+extern bool I2CSlaveIntStatus(uint32_t ui32Base, bool bMasked);
+extern uint32_t I2CSlaveIntStatusEx(uint32_t ui32Base,
+ bool bMasked);
+extern uint32_t I2CSlaveStatus(uint32_t ui32Base);
+
+//*****************************************************************************
+//
+// Mark the end of the C bindings section for C++ compilers.
+//
+//*****************************************************************************
+#ifdef __cplusplus
+}
+#endif
+
+#endif // __DRIVERLIB_I2C_H__
diff --git a/cc3200/hal/i2s.c b/cc3200/hal/i2s.c
new file mode 100644
index 000000000..36ff45b22
--- /dev/null
+++ b/cc3200/hal/i2s.c
@@ -0,0 +1,922 @@
+//*****************************************************************************
+//
+// i2s.c
+//
+// Driver for the I2S interface.
+//
+// Copyright (C) 2014 Texas Instruments Incorporated - http://www.ti.com/
+//
+//
+// Redistribution and use in source and binary forms, with or without
+// modification, are permitted provided that the following conditions
+// are met:
+//
+// Redistributions of source code must retain the above copyright
+// notice, this list of conditions and the following disclaimer.
+//
+// Redistributions in binary form must reproduce the above copyright
+// notice, this list of conditions and the following disclaimer in the
+// documentation and/or other materials provided with the
+// distribution.
+//
+// Neither the name of Texas Instruments Incorporated nor the names of
+// its contributors may be used to endorse or promote products derived
+// from this software without specific prior written permission.
+//
+// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
+// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
+// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
+// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
+// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
+// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
+// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
+// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
+// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
+// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
+// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+//
+//*****************************************************************************
+
+//*****************************************************************************
+//
+//! \addtogroup I2S_api
+//! @{
+//
+//*****************************************************************************
+#include "inc/hw_types.h"
+#include "inc/hw_ints.h"
+#include "inc/hw_memmap.h"
+#include "inc/hw_mcasp.h"
+#include "inc/hw_apps_config.h"
+#include "interrupt.h"
+#include "i2s.h"
+
+//*****************************************************************************
+// Macros
+//*****************************************************************************
+#define MCASP_GBL_RCLK 0x00000001
+#define MCASP_GBL_RHCLK 0x00000002
+#define MCASP_GBL_RSER 0x00000004
+#define MCASP_GBL_RSM 0x00000008
+#define MCASP_GBL_RFSYNC 0x00000010
+#define MCASP_GBL_XCLK 0x00000100
+#define MCASP_GBL_XHCLK 0x00000200
+#define MCASP_GBL_XSER 0x00000400
+#define MCASP_GBL_XSM 0x00000800
+#define MCASP_GBL_XFSYNC 0x00001000
+
+
+//*****************************************************************************
+//
+//! \internal
+//! Releases the specifed submodule out of reset.
+//!
+//! \param ulBase is the base address of the I2S module.
+//! \param ulFlag is one of the valid sub module.
+//!
+//! This function Releases the specifed submodule out of reset.
+//!
+//! \return None.
+//
+//*****************************************************************************
+static void I2SGBLEnable(unsigned long ulBase, unsigned long ulFlag)
+{
+ unsigned long ulReg;
+
+ //
+ // Read global control register
+ //
+ ulReg = HWREG(ulBase + MCASP_O_GBLCTL);
+
+ //
+ // Remove the sub modules reset as specified by ulFlag parameter
+ //
+ ulReg |= ulFlag;
+
+ //
+ // Write the configuration
+ //
+ HWREG(ulBase + MCASP_O_GBLCTL) = ulReg;
+
+ //
+ // Wait for write completeion
+ //
+ while(HWREG(ulBase + MCASP_O_GBLCTL) != ulReg)
+ {
+
+ }
+
+}
+
+//*****************************************************************************
+//
+//! Enables transmit and/or receive.
+//!
+//! \param ulBase is the base address of the I2S module.
+//! \param ulMode is one of the valid modes.
+//!
+//! This function enables the I2S module in specified mode. The parameter
+//! \e ulMode should be one of the following
+//!
+//! -\b I2S_MODE_TX_ONLY
+//! -\b I2S_MODE_TX_RX_SYNC
+//!
+//! \return None.
+//
+//*****************************************************************************
+void I2SEnable(unsigned long ulBase, unsigned long ulMode)
+{
+ //
+ // Set FSYNC anc BitClk as output
+ //
+ HWREG(ulBase + MCASP_O_PDIR) |= 0x14000000;
+
+ if(ulMode & 0x2)
+ {
+ //
+ // Remove Rx HCLK reset
+ //
+ I2SGBLEnable(ulBase, MCASP_GBL_RHCLK);
+
+ //
+ // Remove Rx XCLK reset
+ //
+ I2SGBLEnable(ulBase, MCASP_GBL_RCLK);
+
+ //
+ // Enable Rx SERDES(s)
+ //
+ I2SGBLEnable(ulBase, MCASP_GBL_RSER);
+
+ //
+ // Enable Rx state machine
+ //
+ I2SGBLEnable(ulBase, MCASP_GBL_RSM);
+
+ //
+ // Enable FSync generator
+ //
+ I2SGBLEnable(ulBase, MCASP_GBL_RFSYNC);
+ }
+
+ if(ulMode & 0x1)
+ {
+ //
+ // Remove Tx HCLK reset
+ //
+ I2SGBLEnable(ulBase, MCASP_GBL_XHCLK);
+
+ //
+ // Remove Tx XCLK reset
+ //
+ I2SGBLEnable(ulBase, MCASP_GBL_XCLK);
+
+ //
+ // Enable Tx SERDES(s)
+ //
+ I2SGBLEnable(ulBase, MCASP_GBL_XSER);
+
+ //
+ // Enable Tx state machine
+ //
+ I2SGBLEnable(ulBase, MCASP_GBL_XSM);
+
+ //
+ // Enable FSync generator
+ //
+ I2SGBLEnable(ulBase, MCASP_GBL_XFSYNC);
+ }
+}
+
+//*****************************************************************************
+//
+//! Disables transmit and/or receive.
+//!
+//! \param ulBase is the base address of the I2S module.
+//!
+//! This function disables transmit and/or receive from I2S module.
+//!
+//! \return None.
+//
+//*****************************************************************************
+void I2SDisable(unsigned long ulBase)
+{
+ //
+ // Reset all sub modules
+ //
+ HWREG(ulBase + MCASP_O_GBLCTL) = 0;
+
+ //
+ // Wait for write to complete
+ //
+ while( HWREG(ulBase + MCASP_O_GBLCTL) != 0)
+ {
+
+ }
+}
+
+//*****************************************************************************
+//
+//! Waits to send data over the specified data line
+//!
+//! \param ulBase is the base address of the I2S module.
+//! \param ulDataLine is one of the valid data lines.
+//! \param ulData is the data to be transmitted.
+//!
+//! This function sends the \e ucData to the transmit register for the
+//! specified data line. If there is no space available, this
+//! function waits until there is space available before returning.
+//!
+//! \return None.
+//
+//*****************************************************************************
+void I2SDataPut(unsigned long ulBase, unsigned long ulDataLine,
+ unsigned long ulData)
+{
+ //
+ // Compute register the offeset
+ //
+ ulDataLine = (ulDataLine-1) << 2;
+
+ //
+ // Wait for free space in fifo
+ //
+ while(!( HWREG(ulBase + MCASP_O_TXSTAT) & MCASP_TXSTAT_XDATA))
+ {
+
+ }
+
+ //
+ // Write Data into the FIFO
+ //
+ HWREG(ulBase + MCASP_O_TXBUF0 + ulDataLine) = ulData;
+}
+
+//*****************************************************************************
+//
+//! Sends data over the specified data line
+//!
+//! \param ulBase is the base address of the I2S module.
+//! \param ulDataLine is one of the valid data lines.
+//! \param ulData is the data to be transmitted.
+//!
+//! This function writes the \e ucData to the transmit register for
+//! the specified data line. This function does not block, so if there is no
+//! space available, then \b -1 is returned, and the application must retry the
+//! function later.
+//!
+//! \return Returns 0 on success, -1 otherwise.
+//
+//*****************************************************************************
+long I2SDataPutNonBlocking(unsigned long ulBase, unsigned long ulDataLine,
+ unsigned long ulData)
+{
+
+ //
+ // Compute register the offeset
+ //
+ ulDataLine = (ulDataLine-1) << 2;
+
+ //
+ // Send Data if fifo has free space
+ //
+ if( HWREG(ulBase + MCASP_O_TXSTAT) & MCASP_TXSTAT_XDATA)
+ {
+ //
+ // Write data into the FIFO
+ //
+ HWREG(ulBase + MCASP_O_TXBUF0 + ulDataLine) = ulData;
+ return 0;
+ }
+
+ //
+ // FIFO is full
+ //
+ return(-1);
+}
+
+//*****************************************************************************
+//
+//! Waits for data from the specified data line.
+//!
+//! \param ulBase is the base address of the I2S module.
+//! \param ulDataLine is one of the valid data lines.
+//! \param pulData is pointer to receive data variable.
+//!
+//! This function gets data from the receive register for the specified
+//! data line. If there are no data available, this function waits until a
+//! receive before returning.
+//!
+//! \return None.
+//
+//*****************************************************************************
+void I2SDataGet(unsigned long ulBase, unsigned long ulDataLine,
+ unsigned long *pulData)
+{
+
+ //
+ // Compute register the offeset
+ //
+ ulDataLine = (ulDataLine-1) << 2;
+
+ //
+ // Wait for atleat on word in FIFO
+ //
+ while(!(HWREG(ulBase + MCASP_O_RXSTAT) & MCASP_RXSTAT_RDATA))
+ {
+
+ }
+
+ //
+ // Read the Data
+ //
+ *pulData = HWREG(ulBase + MCASP_O_RXBUF0 + ulDataLine);
+}
+
+
+//*****************************************************************************
+//
+//! Receives data from the specified data line.
+//!
+//! \param ulBase is the base address of the I2S module.
+//! \param ulDataLine is one of the valid data lines.
+//! \param pulData is pointer to receive data variable.
+//!
+//! This function gets data from the receive register for the specified
+//! data line.
+//!
+//!
+//! \return Returns 0 on success, -1 otherwise.
+//
+//*****************************************************************************
+long I2SDataGetNonBlocking(unsigned long ulBase, unsigned long ulDataLine,
+ unsigned long *pulData)
+{
+
+ //
+ // Compute register the offeset
+ //
+ ulDataLine = (ulDataLine-1) << 2;
+
+ //
+ // Check if data is available in FIFO
+ //
+ if(HWREG(ulBase + MCASP_O_RXSTAT) & MCASP_RXSTAT_RDATA)
+ {
+ //
+ // Read the Data
+ //
+ *pulData = HWREG(ulBase + MCASP_O_RXBUF0 + ulDataLine);
+ return 0;
+ }
+
+ //
+ // FIFO is empty
+ //
+ return -1;
+}
+
+
+//*****************************************************************************
+//
+//! Sets the configuration of the I2S module.
+//!
+//! \param ulBase is the base address of the I2S module.
+//! \param ulI2SClk is the rate of the clock supplied to the I2S module.
+//! \param ulBitClk is the desired bit rate.
+//! \param ulConfig is the data format.
+//!
+//! This function configures the I2S for operation in the specified data
+//! format. The bit rate is provided in the \e ulBitClk parameter and the data
+//! format in the \e ulConfig parameter.
+//!
+//! The \e ulConfig parameter is the logical OR of two values: the slot size
+//! and the data read/write port select.
+//!
+//! Following selects the slot size:
+//! -\b I2S_SLOT_SIZE_24
+//! -\b I2S_SLOT_SIZE_16
+//!
+//! Following selects the data read/write port:
+//! -\b I2S_PORT_DMA
+//! -\b I2S_PORT_CPU
+//!
+//! \return None.
+//
+//*****************************************************************************
+void I2SConfigSetExpClk(unsigned long ulBase, unsigned long ulI2SClk,
+ unsigned long ulBitClk, unsigned long ulConfig)
+{
+ unsigned long ulHClkDiv;
+ unsigned long ulClkDiv;
+
+ //
+ // Calculate clock dividers
+ //
+ ulHClkDiv = ((ulI2SClk/ulBitClk)-1);
+ ulClkDiv = 0;
+
+ //
+ // Check if HCLK divider is overflowing
+ //
+ if(ulHClkDiv > 0xFFF)
+ {
+ ulHClkDiv = 0xFFF;
+
+ //
+ // Calculate clock divider
+ //
+ ulClkDiv = ((ulI2SClk/(ulBitClk * (ulHClkDiv + 1))) & 0x1F);
+ }
+
+ HWREG(ulBase + MCASP_O_ACLKXCTL) = (0xA0|ulClkDiv);
+
+ HWREG(ulBase + MCASP_O_AHCLKXCTL) = (0x8000|ulHClkDiv);
+
+ //
+ // Write the Tx format register
+ //
+ HWREG(ulBase + MCASP_O_TXFMT) = (0x18000 | (ulConfig & 0xFFFF));
+
+ //
+ // Write the Rx format register
+ //
+ HWREG(ulBase + MCASP_O_RXFMT) = (0x18000 | ((ulConfig >> 16) &0xFFFF));
+
+ //
+ // Configure Tx FSync generator in I2S mode
+ //
+ HWREG(ulBase + MCASP_O_TXFMCTL) = 0x113;
+
+ //
+ // Configure Rx FSync generator in I2S mode
+ //
+ HWREG(ulBase + MCASP_O_RXFMCTL) = 0x113;
+
+ //
+ // Set Tx bit valid mask
+ //
+ HWREG(ulBase + MCASP_O_TXMASK) = 0xFFFFFFFF;
+
+ //
+ // Set Rx bit valid mask
+ //
+ HWREG(ulBase + MCASP_O_RXMASK) = 0xFFFFFFFF;
+
+ //
+ // Set Tx slot valid mask
+ //
+ HWREG(ulBase + MCASP_O_TXTDM) = 0x3;
+
+ //
+ // Set Rx slot valid mask
+ //
+ HWREG(ulBase + MCASP_O_RXTDM) = 0x3;
+}
+
+//*****************************************************************************
+//
+//! Configure and enable transmit FIFO.
+//!
+//! \param ulBase is the base address of the I2S module.
+//! \param ulTxLevel is the transmit FIFO DMA request level.
+//! \param ulWordsPerTransfer is the nuber of words transferred from the FIFO.
+//!
+//! This function configures and enable I2S transmit FIFO.
+//!
+//! The parameter \e ulTxLevel sets the level at which transmit DMA requests
+//! are generated. This should be non-zero integer multiple of number of
+//! serializers enabled as transmitters
+//!
+//! The parameter \e ulWordsPerTransfer sets the number of words that are
+//! transferred from the transmit FIFO to the data line(s). This value must
+//! equal the number of serializers used as transmitters.
+//!
+//! \return None.
+//
+//*****************************************************************************
+void I2STxFIFOEnable(unsigned long ulBase, unsigned long ulTxLevel,
+ unsigned long ulWordsPerTransfer)
+{
+ //
+ // Set transmit FIFO configuration and
+ // enable it
+ //
+ HWREG(ulBase + MCASP_0_WFIFOCTL) = ((1 <<16) | ((ulTxLevel & 0xFF) << 8)
+ | (ulWordsPerTransfer & 0x1F));
+
+}
+
+//*****************************************************************************
+//
+//! Disables transmit FIFO.
+//!
+//! \param ulBase is the base address of the I2S module.
+//!
+//! This function disables the I2S transmit FIFO.
+//!
+//! \return None.
+//
+//*****************************************************************************
+void I2STxFIFODisable(unsigned long ulBase)
+{
+ //
+ // Disable transmit FIFO.
+ //
+ HWREG(ulBase + MCASP_0_WFIFOCTL) = 0;
+}
+
+//*****************************************************************************
+//
+//! Configure and enable receive FIFO.
+//!
+//! \param ulBase is the base address of the I2S module.
+//! \param ulRxLevel is the receive FIFO DMA request level.
+//! \param ulWordsPerTransfer is the nuber of words transferred from the FIFO.
+//!
+//! This function configures and enable I2S receive FIFO.
+//!
+//! The parameter \e ulRxLevel sets the level at which receive DMA requests
+//! are generated. This should be non-zero integer multiple of number of
+//! serializers enabled as receivers.
+//!
+//! The parameter \e ulWordsPerTransfer sets the number of words that are
+//! transferred to the receive FIFO from the data line(s). This value must
+//! equal the number of serializers used as receivers.
+//!
+//! \return None.
+//
+//*****************************************************************************
+void I2SRxFIFOEnable(unsigned long ulBase, unsigned long ulRxLevel,
+ unsigned long ulWordsPerTransfer)
+{
+ //
+ // Set FIFO configuration
+ //
+ HWREG(ulBase + MCASP_0_RFIFOCTL) = ( (1 <<16) | ((ulRxLevel & 0xFF) << 8)
+ | (ulWordsPerTransfer & 0x1F));
+
+}
+
+//*****************************************************************************
+//
+//! Disables receive FIFO.
+//!
+//! \param ulBase is the base address of the I2S module.
+//!
+//! This function disables the I2S receive FIFO.
+//!
+//! \return None.
+//
+//*****************************************************************************
+void I2SRxFIFODisable(unsigned long ulBase)
+{
+ //
+ // Disable receive FIFO.
+ //
+ HWREG(ulBase + MCASP_0_RFIFOCTL) = 0;
+}
+
+//*****************************************************************************
+//
+//! Get the transmit FIFO status.
+//!
+//! \param ulBase is the base address of the I2S module.
+//!
+//! This function gets the number of 32-bit words currently in the transmit
+//! FIFO.
+//!
+//! \return Returns transmit FIFO status.
+//
+//*****************************************************************************
+unsigned long I2STxFIFOStatusGet(unsigned long ulBase)
+{
+ //
+ // Return transmit FIFO level
+ //
+ return HWREG(ulBase + MCASP_0_WFIFOSTS);
+}
+
+//*****************************************************************************
+//
+//! Get the receive FIFO status.
+//!
+//! \param ulBase is the base address of the I2S module.
+//!
+//! This function gets the number of 32-bit words currently in the receive
+//! FIFO.
+//!
+//! \return Returns receive FIFO status.
+//
+//*****************************************************************************
+unsigned long I2SRxFIFOStatusGet(unsigned long ulBase)
+{
+ //
+ // Return receive FIFO level
+ //
+ return HWREG(ulBase + MCASP_0_RFIFOSTS);
+}
+
+//*****************************************************************************
+//
+//! Configure the serializer in specified mode.
+//!
+//! \param ulBase is the base address of the I2S module.
+//! \param ulDataLine is the data line (serilizer) to be configured.
+//! \param ulSerMode is the required serializer mode.
+//! \param ulInActState sets the inactive state of the data line.
+//!
+//! This function configure and enable the serializer associated with the given
+//! data line in specified mode.
+//!
+//! The paramenter \e ulDataLine selects to data line to be configured and
+//! can be one of the following:
+//! -\b I2S_DATA_LINE_0
+//! -\b I2S_DATA_LINE_1
+//!
+//! The parameter \e ulSerMode can be one of the following:
+//! -\b I2S_SER_MODE_TX
+//! -\b I2S_SER_MODE_RX
+//! -\b I2S_SER_MODE_DISABLE
+//!
+//! The parameter \e ulInActState can be one of the following
+//! -\b I2S_INACT_TRI_STATE
+//! -\b I2S_INACT_LOW_LEVEL
+//! -\b I2S_INACT_LOW_HIGH
+//!
+//! \return Returns receive FIFO status.
+//
+//*****************************************************************************
+void I2SSerializerConfig(unsigned long ulBase, unsigned long ulDataLine,
+ unsigned long ulSerMode, unsigned long ulInActState)
+{
+ if( ulSerMode == I2S_SER_MODE_TX)
+ {
+ //
+ // Set the data line in output mode
+ //
+ HWREG(ulBase + MCASP_O_PDIR) |= ulDataLine;
+ }
+ else
+ {
+ //
+ // Set the data line in input mode
+ //
+ HWREG(ulBase + MCASP_O_PDIR) &= ~ulDataLine;
+ }
+
+ //
+ // Set the serializer configuration.
+ //
+ HWREG(ulBase + MCASP_O_XRSRCTL0 + ((ulDataLine-1) << 2))
+ = (ulSerMode | ulInActState);
+}
+
+//*****************************************************************************
+//
+//! Enables individual I2S interrupt sources.
+//!
+//! \param ulBase is the base address of the I2S module.
+//! \param ulIntFlags is the bit mask of the interrupt sources to be enabled.
+//!
+//! This function enables the indicated I2S interrupt sources. Only the
+//! sources that are enabled can be reflected to the processor interrupt;
+//! disabled sources have no effect on the processor.
+//!
+//! The \e ulIntFlags parameter is the logical OR of any of the following:
+//!
+//! -\b I2S_INT_XUNDRN
+//! -\b I2S_INT_XSYNCERR
+//! -\b I2S_INT_XLAST
+//! -\b I2S_INT_XDATA
+//! -\b I2S_INT_XSTAFRM
+//! -\b I2S_INT_XDMA
+//! -\b I2S_INT_ROVRN
+//! -\b I2S_INT_RSYNCERR
+//! -\b I2S_INT_RLAST
+//! -\b I2S_INT_RDATA
+//! -\b I2S_INT_RSTAFRM
+//! -\b I2S_INT_RDMA
+//!
+//! \return None.
+//
+//*****************************************************************************
+void I2SIntEnable(unsigned long ulBase, unsigned long ulIntFlags)
+{
+
+ //
+ // Enable DMA done interrupts
+ //
+ HWREG(APPS_CONFIG_BASE + APPS_CONFIG_O_DMA_DONE_INT_MASK_CLR )
+ |= ((ulIntFlags &0xC0000000) >> 20);
+
+ //
+ // Enable specific Tx Interrupts
+ //
+ HWREG(ulBase + MCASP_O_EVTCTLX) |= (ulIntFlags & 0xFF);
+
+ //
+ // Enable specific Rx Interrupts
+ //
+ HWREG(ulBase + MCASP_O_EVTCTLR) |= ((ulIntFlags >> 16) & 0xFF);
+}
+
+//*****************************************************************************
+//
+//! Disables individual I2S interrupt sources.
+//!
+//! \param ulBase is the base address of the I2S module.
+//! \param ulIntFlags is the bit mask of the interrupt sources to be disabled.
+//!
+//! This function disables the indicated I2S interrupt sources. Only the
+//! sources that are enabled can be reflected to the processor interrupt;
+//! disabled sources have no effect on the processor.
+//!
+//! The \e ulIntFlags parameter has the same definition as the \e ulIntFlags
+//! parameter to I2SIntEnable().
+//!
+//! \return None.
+//
+//*****************************************************************************
+void I2SIntDisable(unsigned long ulBase, unsigned long ulIntFlags)
+{
+ //
+ // Disable DMA done interrupts
+ //
+ HWREG(APPS_CONFIG_BASE + APPS_CONFIG_O_DMA_DONE_INT_MASK_SET)
+ |= ((ulIntFlags &0xC0000000) >> 20);
+
+ //
+ // Disable specific Tx Interrupts
+ //
+ HWREG(ulBase + MCASP_O_EVTCTLX) &= ~(ulIntFlags & 0xFF);
+
+ //
+ // Disable specific Rx Interrupts
+ //
+ HWREG(ulBase + MCASP_O_EVTCTLR) &= ~((ulIntFlags >> 16) & 0xFF);
+}
+
+
+//*****************************************************************************
+//
+//! Gets the current interrupt status.
+//!
+//! \param ulBase is the base address of the I2S module.
+//!
+//! This function returns the raw interrupt status for I2S enumerated
+//! as a bit field of values:
+//! -\b I2S_STS_XERR
+//! -\b I2S_STS_XDMAERR
+//! -\b I2S_STS_XSTAFRM
+//! -\b I2S_STS_XDATA
+//! -\b I2S_STS_XLAST
+//! -\b I2S_STS_XSYNCERR
+//! -\b I2S_STS_XUNDRN
+//! -\b I2S_STS_XDMA
+//! -\b I2S_STS_RERR
+//! -\b I2S_STS_RDMAERR
+//! -\b I2S_STS_RSTAFRM
+//! -\b I2S_STS_RDATA
+//! -\b I2S_STS_RLAST
+//! -\b I2S_STS_RSYNCERR
+//! -\b I2S_STS_ROVERN
+//! -\b I2S_STS_RDMA
+//!
+//! \return Returns the current interrupt status, enumerated as a bit field of
+//! values described above.
+//
+//*****************************************************************************
+unsigned long I2SIntStatus(unsigned long ulBase)
+{
+ unsigned long ulStatus;
+
+ //
+ // Get DMA interrupt status
+ //
+ ulStatus =
+ HWREG(APPS_CONFIG_BASE + APPS_CONFIG_O_DMA_DONE_INT_STS_RAW) << 20;
+
+ ulStatus &= 0xC0000000;
+
+ //
+ // Read Tx Interrupt status
+ //
+ ulStatus |= HWREG(ulBase + MCASP_O_TXSTAT);
+
+ //
+ // Read Rx Interrupt status
+ //
+ ulStatus |= HWREG(ulBase + MCASP_O_RXSTAT) << 16;
+
+ //
+ // Return the status
+ //
+ return ulStatus;
+}
+
+//*****************************************************************************
+//
+//! Clears I2S interrupt sources.
+//!
+//! \param ulBase is the base address of the I2S module.
+//! \param ulStatFlags is a bit mask of the interrupt sources to be cleared.
+//!
+//! The specified I2S interrupt sources are cleared, so that they no longer
+//! assert. This function must be called in the interrupt handler to keep the
+//! interrupt from being recognized again immediately upon exit.
+//!
+//! The \e ulIntFlags parameter is the logical OR of any of the value
+//! describe in I2SIntStatus().
+//!
+//! \return None.
+//
+//*****************************************************************************
+void I2SIntClear(unsigned long ulBase, unsigned long ulStatFlags)
+{
+ //
+ // Clear DMA done interrupts
+ //
+ HWREG(APPS_CONFIG_BASE + APPS_CONFIG_O_DMA_DONE_INT_ACK)
+ |= ((ulStatFlags &0xC0000000) >> 20);
+
+ //
+ // Clear Tx Interrupt
+ //
+ HWREG(ulBase + MCASP_O_TXSTAT) = ulStatFlags & 0x1FF ;
+
+ //
+ // Clear Rx Interrupt
+ //
+ HWREG(ulBase + MCASP_O_RXSTAT) = (ulStatFlags >> 16) & 0x1FF;
+}
+
+//*****************************************************************************
+//
+//! Registers an interrupt handler for a I2S interrupt.
+//!
+//! \param ulBase is the base address of the I2S module.
+//! \param pfnHandler is a pointer to the function to be called when the
+//! I2S interrupt occurs.
+//!
+//! This function does the actual registering of the interrupt handler. This
+//! function enables the global interrupt in the interrupt controller; specific
+//! I2S interrupts must be enabled via I2SIntEnable(). It is the interrupt
+//! handler's responsibility to clear the interrupt source.
+//!
+//! \sa IntRegister() for important information about registering interrupt
+//! handlers.
+//!
+//! \return None.
+//
+//*****************************************************************************
+void I2SIntRegister(unsigned long ulBase, void (*pfnHandler)(void))
+{
+ //
+ // Register the interrupt handler
+ //
+ IntRegister(INT_I2S,pfnHandler);
+
+ //
+ // Enable the interrupt
+ //
+ IntEnable(INT_I2S);
+}
+
+//*****************************************************************************
+//
+//! Unregisters an interrupt handler for a I2S interrupt.
+//!
+//! \param ulBase is the base address of the I2S module.
+//!
+//! This function does the actual unregistering of the interrupt handler. It
+//! clears the handler to be called when a I2S interrupt occurs. This
+//! function also masks off the interrupt in the interrupt controller so that
+//! the interrupt handler no longer is called.
+//!
+//! \sa IntRegister() for important information about registering interrupt
+//! handlers.
+//!
+//! \return None.
+//
+//*****************************************************************************
+void I2SIntUnregister(unsigned long ulBase)
+{
+ //
+ // Disable interrupt
+ //
+ IntDisable(INT_I2S);
+
+ //
+ // Unregister the handler
+ //
+ IntUnregister(INT_I2S);
+
+}
+
+//*****************************************************************************
+//
+// Close the Doxygen group.
+//! @}
+//
+//*****************************************************************************
diff --git a/cc3200/hal/i2s.h b/cc3200/hal/i2s.h
new file mode 100644
index 000000000..b4d58ff1a
--- /dev/null
+++ b/cc3200/hal/i2s.h
@@ -0,0 +1,202 @@
+//*****************************************************************************
+//
+// i2s.h
+//
+// Defines and Macros for the I2S.
+//
+// Copyright (C) 2014 Texas Instruments Incorporated - http://www.ti.com/
+//
+//
+// Redistribution and use in source and binary forms, with or without
+// modification, are permitted provided that the following conditions
+// are met:
+//
+// Redistributions of source code must retain the above copyright
+// notice, this list of conditions and the following disclaimer.
+//
+// Redistributions in binary form must reproduce the above copyright
+// notice, this list of conditions and the following disclaimer in the
+// documentation and/or other materials provided with the
+// distribution.
+//
+// Neither the name of Texas Instruments Incorporated nor the names of
+// its contributors may be used to endorse or promote products derived
+// from this software without specific prior written permission.
+//
+// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
+// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
+// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
+// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
+// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
+// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
+// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
+// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
+// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
+// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
+// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+//
+//*****************************************************************************
+
+#ifndef __I2S_H__
+#define __I2S_H__
+
+//*****************************************************************************
+//
+// If building with a C++ compiler, make all of the definitions in this header
+// have a C binding.
+//
+//*****************************************************************************
+#ifdef __cplusplus
+extern "C"
+{
+#endif
+
+//*****************************************************************************
+//
+// I2S DMA ports.
+//
+//*****************************************************************************
+#define I2S_TX_DMA_PORT 0x4401E200
+#define I2S_RX_DMA_PORT 0x4401E280
+
+//*****************************************************************************
+//
+// Values that can be passed to I2SConfigSetExpClk() as the ulConfig parameter.
+//
+//*****************************************************************************
+#define I2S_SLOT_SIZE_24 0x00B200B4
+#define I2S_SLOT_SIZE_16 0x00700074
+
+#define I2S_PORT_CPU 0x00000008
+#define I2S_PORT_DMA 0x00000000
+
+//*****************************************************************************
+//
+// Values that can be passed as ulDataLine parameter.
+//
+//*****************************************************************************
+#define I2S_DATA_LINE_0 0x00000001
+#define I2S_DATA_LINE_1 0x00000002
+
+//*****************************************************************************
+//
+// Values that can be passed to I2SSerializerConfig() as the ulSerMode
+// parameter.
+//
+//*****************************************************************************
+#define I2S_SER_MODE_TX 0x00000001
+#define I2S_SER_MODE_RX 0x00000002
+#define I2S_SER_MODE_DISABLE 0x00000000
+
+//*****************************************************************************
+//
+// Values that can be passed to I2SSerializerConfig() as the ulInActState
+// parameter.
+//
+//*****************************************************************************
+#define I2S_INACT_TRI_STATE 0x00000000
+#define I2S_INACT_LOW_LEVEL 0x00000008
+#define I2S_INACT_HIGH_LEVEL 0x0000000C
+
+//*****************************************************************************
+//
+// Values that can be passed to I2SIntEnable() and I2SIntDisable() as the
+// ulIntFlags parameter.
+//
+//*****************************************************************************
+#define I2S_INT_XUNDRN 0x00000001
+#define I2S_INT_XSYNCERR 0x00000002
+#define I2S_INT_XLAST 0x00000010
+#define I2S_INT_XDATA 0x00000020
+#define I2S_INT_XSTAFRM 0x00000080
+#define I2S_INT_XDMA 0x80000000
+#define I2S_INT_ROVRN 0x00010000
+#define I2S_INT_RSYNCERR 0x00020000
+#define I2S_INT_RLAST 0x00100000
+#define I2S_INT_RDATA 0x00200000
+#define I2S_INT_RSTAFRM 0x00800000
+#define I2S_INT_RDMA 0x40000000
+
+//*****************************************************************************
+//
+// Values that can be passed to I2SIntClear() as the
+// ulIntFlags parameter and returned from I2SIntStatus().
+//
+//*****************************************************************************
+#define I2S_STS_XERR 0x00000100
+#define I2S_STS_XDMAERR 0x00000080
+#define I2S_STS_XSTAFRM 0x00000040
+#define I2S_STS_XDATA 0x00000020
+#define I2S_STS_XLAST 0x00000010
+#define I2S_STS_XSYNCERR 0x00000002
+#define I2S_STS_XUNDRN 0x00000001
+#define I2S_STS_XDMA 0x80000000
+#define I2S_STS_RERR 0x01000000
+#define I2S_STS_RDMAERR 0x00800000
+#define I2S_STS_RSTAFRM 0x00400000
+#define I2S_STS_RDATA 0x00200000
+#define I2S_STS_RLAST 0x00100000
+#define I2S_STS_RSYNCERR 0x00020000
+#define I2S_STS_ROVERN 0x00010000
+#define I2S_STS_RDMA 0x40000000
+
+//*****************************************************************************
+//
+// Values that can be passed to I2SEnable() as the ulMode parameter.
+//
+//*****************************************************************************
+#define I2S_MODE_TX_ONLY 0x00000001
+#define I2S_MODE_TX_RX_SYNC 0x00000003
+
+
+//*****************************************************************************
+//
+// API Function prototypes
+//
+//*****************************************************************************
+extern void I2SEnable(unsigned long ulBase, unsigned long ulMode);
+extern void I2SDisable(unsigned long ulBase);
+
+extern void I2SDataPut(unsigned long ulBase, unsigned long ulDataLine,
+ unsigned long ulData);
+extern long I2SDataPutNonBlocking(unsigned long ulBase,
+ unsigned long ulDataLine, unsigned long ulData);
+
+extern void I2SDataGet(unsigned long ulBase, unsigned long ulDataLine,
+ unsigned long *pulData);
+extern long I2SDataGetNonBlocking(unsigned long ulBase,
+ unsigned long ulDataLine, unsigned long *pulData);
+
+extern void I2SConfigSetExpClk(unsigned long ulBase, unsigned long ulI2SClk,
+ unsigned long ulBitClk, unsigned long ulConfig);
+
+extern void I2STxFIFOEnable(unsigned long ulBase, unsigned long ulTxLevel,
+ unsigned long ulWordsPerTransfer);
+extern void I2STxFIFODisable(unsigned long ulBase);
+extern void I2SRxFIFOEnable(unsigned long ulBase, unsigned long ulRxLevel,
+ unsigned long ulWordsPerTransfer);
+extern void I2SRxFIFODisable(unsigned long ulBase);
+extern unsigned long I2STxFIFOStatusGet(unsigned long ulBase);
+extern unsigned long I2SRxFIFOStatusGet(unsigned long ulBase);
+
+extern void I2SSerializerConfig(unsigned long ulBase, unsigned long ulDataLine,
+ unsigned long ulSerMode, unsigned long ulInActState);
+
+extern void I2SIntEnable(unsigned long ulBase, unsigned long ulIntFlags);
+extern void I2SIntDisable(unsigned long ulBase, unsigned long ulIntFlags);
+extern unsigned long I2SIntStatus(unsigned long ulBase);
+extern void I2SIntClear(unsigned long ulBase, unsigned long ulIntFlags);
+extern void I2SIntRegister(unsigned long ulBase, void (*pfnHandler)(void));
+extern void I2SIntUnregister(unsigned long ulBase);
+
+//*****************************************************************************
+//
+// Mark the end of the C bindings section for C++ compilers.
+//
+//*****************************************************************************
+#ifdef __cplusplus
+}
+#endif
+
+#endif //__I2S_H__
+
diff --git a/cc3200/hal/inc/asmdefs.h b/cc3200/hal/inc/asmdefs.h
new file mode 100644
index 000000000..c2a6f9734
--- /dev/null
+++ b/cc3200/hal/inc/asmdefs.h
@@ -0,0 +1,229 @@
+//*****************************************************************************
+//
+// Copyright (C) 2014 Texas Instruments Incorporated - http://www.ti.com/
+//
+//
+// Redistribution and use in source and binary forms, with or without
+// modification, are permitted provided that the following conditions
+// are met:
+//
+// Redistributions of source code must retain the above copyright
+// notice, this list of conditions and the following disclaimer.
+//
+// Redistributions in binary form must reproduce the above copyright
+// notice, this list of conditions and the following disclaimer in the
+// documentation and/or other materials provided with the
+// distribution.
+//
+// Neither the name of Texas Instruments Incorporated nor the names of
+// its contributors may be used to endorse or promote products derived
+// from this software without specific prior written permission.
+//
+// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
+// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
+// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
+// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
+// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
+// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
+// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
+// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
+// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
+// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
+// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+//
+//*****************************************************************************
+
+//*****************************************************************************
+//
+// asmdefs.h - Macros to allow assembly code be portable among toolchains.
+//
+//*****************************************************************************
+
+#ifndef __ASMDEFS_H__
+#define __ASMDEFS_H__
+
+//*****************************************************************************
+//
+// The defines required for code_red.
+//
+//*****************************************************************************
+#ifdef codered
+
+//
+// The assembly code preamble required to put the assembler into the correct
+// configuration.
+//
+ .syntax unified
+ .thumb
+
+//
+// Section headers.
+//
+#define __LIBRARY__ @
+#define __TEXT__ .text
+#define __DATA__ .data
+#define __BSS__ .bss
+#define __TEXT_NOROOT__ .text
+
+//
+// Assembler nmenonics.
+//
+#define __ALIGN__ .balign 4
+#define __END__ .end
+#define __EXPORT__ .globl
+#define __IMPORT__ .extern
+#define __LABEL__ :
+#define __STR__ .ascii
+#define __THUMB_LABEL__ .thumb_func
+#define __WORD__ .word
+#define __INLINE_DATA__
+
+#endif // codered
+
+//*****************************************************************************
+//
+// The defines required for EW-ARM.
+//
+//*****************************************************************************
+#ifdef ewarm
+
+//
+// Section headers.
+//
+#define __LIBRARY__ module
+#define __TEXT__ rseg CODE:CODE(2)
+#define __DATA__ rseg DATA:DATA(2)
+#define __BSS__ rseg DATA:DATA(2)
+#define __TEXT_NOROOT__ rseg CODE:CODE:NOROOT(2)
+
+//
+// Assembler nmenonics.
+//
+#define __ALIGN__ alignrom 2
+#define __END__ end
+#define __EXPORT__ export
+#define __IMPORT__ import
+#define __LABEL__
+#define __STR__ dcb
+#define __THUMB_LABEL__ thumb
+#define __WORD__ dcd
+#define __INLINE_DATA__ data
+
+#endif // ewarm
+
+//*****************************************************************************
+//
+// The defines required for GCC.
+//
+//*****************************************************************************
+#if defined(gcc)
+
+//
+// The assembly code preamble required to put the assembler into the correct
+// configuration.
+//
+ .syntax unified
+ .thumb
+
+//
+// Section headers.
+//
+#define __LIBRARY__ @
+#define __TEXT__ .text
+#define __DATA__ .data
+#define __BSS__ .bss
+#define __TEXT_NOROOT__ .text
+
+//
+// Assembler nmenonics.
+//
+#define __ALIGN__ .balign 4
+#define __END__ .end
+#define __EXPORT__ .globl
+#define __IMPORT__ .extern
+#define __LABEL__ :
+#define __STR__ .ascii
+#define __THUMB_LABEL__ .thumb_func
+#define __WORD__ .word
+#define __INLINE_DATA__
+
+#endif // gcc
+
+//*****************************************************************************
+//
+// The defines required for RV-MDK.
+//
+//*****************************************************************************
+#ifdef rvmdk
+
+//
+// The assembly code preamble required to put the assembler into the correct
+// configuration.
+//
+ thumb
+ require8
+ preserve8
+
+//
+// Section headers.
+//
+#define __LIBRARY__ ;
+#define __TEXT__ area ||.text||, code, readonly, align=2
+#define __DATA__ area ||.data||, data, align=2
+#define __BSS__ area ||.bss||, noinit, align=2
+#define __TEXT_NOROOT__ area ||.text||, code, readonly, align=2
+
+//
+// Assembler nmenonics.
+//
+#define __ALIGN__ align 4
+#define __END__ end
+#define __EXPORT__ export
+#define __IMPORT__ import
+#define __LABEL__
+#define __STR__ dcb
+#define __THUMB_LABEL__
+#define __WORD__ dcd
+#define __INLINE_DATA__
+
+#endif // rvmdk
+
+//*****************************************************************************
+//
+// The defines required for Sourcery G++.
+//
+//*****************************************************************************
+#if defined(sourcerygxx)
+
+//
+// The assembly code preamble required to put the assembler into the correct
+// configuration.
+//
+ .syntax unified
+ .thumb
+
+//
+// Section headers.
+//
+#define __LIBRARY__ @
+#define __TEXT__ .text
+#define __DATA__ .data
+#define __BSS__ .bss
+#define __TEXT_NOROOT__ .text
+
+//
+// Assembler nmenonics.
+//
+#define __ALIGN__ .balign 4
+#define __END__ .end
+#define __EXPORT__ .globl
+#define __IMPORT__ .extern
+#define __LABEL__ :
+#define __STR__ .ascii
+#define __THUMB_LABEL__ .thumb_func
+#define __WORD__ .word
+#define __INLINE_DATA__
+
+#endif // sourcerygxx
+
+#endif // __ASMDEF_H__
diff --git a/cc3200/hal/inc/hw_adc.h b/cc3200/hal/inc/hw_adc.h
new file mode 100644
index 000000000..525ce905c
--- /dev/null
+++ b/cc3200/hal/inc/hw_adc.h
@@ -0,0 +1,888 @@
+//*****************************************************************************
+//
+// Copyright (C) 2014 Texas Instruments Incorporated - http://www.ti.com/
+//
+//
+// Redistribution and use in source and binary forms, with or without
+// modification, are permitted provided that the following conditions
+// are met:
+//
+// Redistributions of source code must retain the above copyright
+// notice, this list of conditions and the following disclaimer.
+//
+// Redistributions in binary form must reproduce the above copyright
+// notice, this list of conditions and the following disclaimer in the
+// documentation and/or other materials provided with the
+// distribution.
+//
+// Neither the name of Texas Instruments Incorporated nor the names of
+// its contributors may be used to endorse or promote products derived
+// from this software without specific prior written permission.
+//
+// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
+// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
+// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
+// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
+// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
+// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
+// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
+// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
+// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
+// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
+// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+//
+//*****************************************************************************
+
+#ifndef __HW_ADC_H__
+#define __HW_ADC_H__
+
+//*****************************************************************************
+//
+// The following are defines for the ADC register offsets.
+//
+//*****************************************************************************
+#define ADC_O_ADC_CTRL 0x00000000 // ADC control register.
+#define ADC_O_adc_ch0_gain 0x00000004 // Channel 0 gain setting
+#define ADC_O_adc_ch1_gain 0x00000008 // Channel 1 gain setting
+#define ADC_O_adc_ch2_gain 0x0000000C // Channel 2 gain setting
+#define ADC_O_adc_ch3_gain 0x00000010 // Channel 3 gain setting
+#define ADC_O_adc_ch4_gain 0x00000014 // Channel 4 gain setting
+#define ADC_O_adc_ch5_gain 0x00000018 // Channel 5 gain setting
+#define ADC_O_adc_ch6_gain 0x0000001C // Channel 6 gain setting
+#define ADC_O_adc_ch7_gain 0x00000020 // Channel 7 gain setting
+#define ADC_O_adc_ch0_irq_en 0x00000024 // Channel 0 interrupt enable
+ // register
+#define ADC_O_adc_ch1_irq_en 0x00000028 // Channel 1 interrupt enable
+ // register
+#define ADC_O_adc_ch2_irq_en 0x0000002C // Channel 2 interrupt enable
+ // register
+#define ADC_O_adc_ch3_irq_en 0x00000030 // Channel 3 interrupt enable
+ // register
+#define ADC_O_adc_ch4_irq_en 0x00000034 // Channel 4 interrupt enable
+ // register
+#define ADC_O_adc_ch5_irq_en 0x00000038 // Channel 5 interrupt enable
+ // register
+#define ADC_O_adc_ch6_irq_en 0x0000003C // Channel 6 interrupt enable
+ // register
+#define ADC_O_adc_ch7_irq_en 0x00000040 // Channel 7 interrupt enable
+ // register
+#define ADC_O_adc_ch0_irq_status \
+ 0x00000044 // Channel 0 interrupt status
+ // register
+
+#define ADC_O_adc_ch1_irq_status \
+ 0x00000048 // Channel 1 interrupt status
+ // register
+
+#define ADC_O_adc_ch2_irq_status \
+ 0x0000004C
+
+#define ADC_O_adc_ch3_irq_status \
+ 0x00000050 // Channel 3 interrupt status
+ // register
+
+#define ADC_O_adc_ch4_irq_status \
+ 0x00000054 // Channel 4 interrupt status
+ // register
+
+#define ADC_O_adc_ch5_irq_status \
+ 0x00000058
+
+#define ADC_O_adc_ch6_irq_status \
+ 0x0000005C // Channel 6 interrupt status
+ // register
+
+#define ADC_O_adc_ch7_irq_status \
+ 0x00000060 // Channel 7 interrupt status
+ // register
+
+#define ADC_O_adc_dma_mode_en 0x00000064 // DMA mode enable register
+#define ADC_O_adc_timer_configuration \
+ 0x00000068 // ADC timer configuration register
+
+#define ADC_O_adc_timer_current_count \
+ 0x00000070 // ADC timer current count register
+
+#define ADC_O_channel0FIFODATA 0x00000074 // CH0 FIFO DATA register
+#define ADC_O_channel1FIFODATA 0x00000078 // CH1 FIFO DATA register
+#define ADC_O_channel2FIFODATA 0x0000007C // CH2 FIFO DATA register
+#define ADC_O_channel3FIFODATA 0x00000080 // CH3 FIFO DATA register
+#define ADC_O_channel4FIFODATA 0x00000084 // CH4 FIFO DATA register
+#define ADC_O_channel5FIFODATA 0x00000088 // CH5 FIFO DATA register
+#define ADC_O_channel6FIFODATA 0x0000008C // CH6 FIFO DATA register
+#define ADC_O_channel7FIFODATA 0x00000090 // CH7 FIFO DATA register
+#define ADC_O_adc_ch0_fifo_lvl 0x00000094 // channel 0 FIFO Level register
+#define ADC_O_adc_ch1_fifo_lvl 0x00000098 // Channel 1 interrupt status
+ // register
+#define ADC_O_adc_ch2_fifo_lvl 0x0000009C
+#define ADC_O_adc_ch3_fifo_lvl 0x000000A0 // Channel 3 interrupt status
+ // register
+#define ADC_O_adc_ch4_fifo_lvl 0x000000A4 // Channel 4 interrupt status
+ // register
+#define ADC_O_adc_ch5_fifo_lvl 0x000000A8
+#define ADC_O_adc_ch6_fifo_lvl 0x000000AC // Channel 6 interrupt status
+ // register
+#define ADC_O_adc_ch7_fifo_lvl 0x000000B0 // Channel 7 interrupt status
+ // register
+
+#define ADC_O_ADC_CH_ENABLE 0x000000B8
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the ADC_O_ADC_CTRL register.
+//
+//******************************************************************************
+#define ADC_ADC_CTRL_adc_cap_scale \
+ 0x00000020 // ADC CAP SCALE.
+
+#define ADC_ADC_CTRL_adc_buf_bypass \
+ 0x00000010 // ADC ANA CIO buffer bypass.
+ // Signal is modelled in ANA TOP.
+ // When '1': ADC buffer is bypassed.
+
+#define ADC_ADC_CTRL_adc_buf_en 0x00000008 // ADC ANA buffer enable. When 1:
+ // ADC buffer is enabled.
+#define ADC_ADC_CTRL_adc_core_en \
+ 0x00000004 // ANA ADC core en. This signal act
+ // as glbal enable to ADC CIO. When
+ // 1: ADC core is enabled.
+
+#define ADC_ADC_CTRL_adc_soft_reset \
+ 0x00000002 // ADC soft reset. When '1' : reset
+ // ADC internal logic.
+
+#define ADC_ADC_CTRL_adc_en 0x00000001 // ADC global enable. When set ADC
+ // module is enabled
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// ADC_O_adc_ch0_gain register.
+//
+//******************************************************************************
+#define ADC_adc_ch0_gain_adc_channel0_gain_M \
+ 0x00000003 // gain setting for ADC channel 0.
+ // when "00": 1x when "01: 2x when
+ // "10":3x when "11" 4x
+
+#define ADC_adc_ch0_gain_adc_channel0_gain_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// ADC_O_adc_ch1_gain register.
+//
+//******************************************************************************
+#define ADC_adc_ch1_gain_adc_channel1_gain_M \
+ 0x00000003 // gain setting for ADC channel 1.
+ // when "00": 1x when "01: 2x when
+ // "10":3x when "11" 4x
+
+#define ADC_adc_ch1_gain_adc_channel1_gain_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// ADC_O_adc_ch2_gain register.
+//
+//******************************************************************************
+#define ADC_adc_ch2_gain_adc_channel2_gain_M \
+ 0x00000003 // gain setting for ADC channel 2.
+ // when "00": 1x when "01: 2x when
+ // "10":3x when "11" 4x
+
+#define ADC_adc_ch2_gain_adc_channel2_gain_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// ADC_O_adc_ch3_gain register.
+//
+//******************************************************************************
+#define ADC_adc_ch3_gain_adc_channel3_gain_M \
+ 0x00000003 // gain setting for ADC channel 3.
+ // when "00": 1x when "01: 2x when
+ // "10":3x when "11" 4x
+
+#define ADC_adc_ch3_gain_adc_channel3_gain_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// ADC_O_adc_ch4_gain register.
+//
+//******************************************************************************
+#define ADC_adc_ch4_gain_adc_channel4_gain_M \
+ 0x00000003 // gain setting for ADC channel 4
+ // when "00": 1x when "01: 2x when
+ // "10":3x when "11" 4x
+
+#define ADC_adc_ch4_gain_adc_channel4_gain_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// ADC_O_adc_ch5_gain register.
+//
+//******************************************************************************
+#define ADC_adc_ch5_gain_adc_channel5_gain_M \
+ 0x00000003 // gain setting for ADC channel 5.
+ // when "00": 1x when "01: 2x when
+ // "10":3x when "11" 4x
+
+#define ADC_adc_ch5_gain_adc_channel5_gain_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// ADC_O_adc_ch6_gain register.
+//
+//******************************************************************************
+#define ADC_adc_ch6_gain_adc_channel6_gain_M \
+ 0x00000003 // gain setting for ADC channel 6
+ // when "00": 1x when "01: 2x when
+ // "10":3x when "11" 4x
+
+#define ADC_adc_ch6_gain_adc_channel6_gain_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// ADC_O_adc_ch7_gain register.
+//
+//******************************************************************************
+#define ADC_adc_ch7_gain_adc_channel7_gain_M \
+ 0x00000003 // gain setting for ADC channel 7.
+ // when "00": 1x when "01: 2x when
+ // "10":3x when "11" 4x
+
+#define ADC_adc_ch7_gain_adc_channel7_gain_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// ADC_O_adc_ch0_irq_en register.
+//
+//******************************************************************************
+#define ADC_adc_ch0_irq_en_adc_channel0_irq_en_M \
+ 0x0000000F // interrupt enable register for
+ // per ADC channel bit 3: when '1'
+ // -> enable FIFO overflow interrupt
+ // bit 2: when '1' -> enable FIFO
+ // underflow interrupt bit 1: when
+ // "1' -> enable FIFO empty
+ // interrupt bit 0: when "1" ->
+ // enable FIFO full interrupt
+
+#define ADC_adc_ch0_irq_en_adc_channel0_irq_en_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// ADC_O_adc_ch1_irq_en register.
+//
+//******************************************************************************
+#define ADC_adc_ch1_irq_en_adc_channel1_irq_en_M \
+ 0x0000000F // interrupt enable register for
+ // per ADC channel bit 3: when '1'
+ // -> enable FIFO overflow interrupt
+ // bit 2: when '1' -> enable FIFO
+ // underflow interrupt bit 1: when
+ // "1' -> enable FIFO empty
+ // interrupt bit 0: when "1" ->
+ // enable FIFO full interrupt
+
+#define ADC_adc_ch1_irq_en_adc_channel1_irq_en_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// ADC_O_adc_ch2_irq_en register.
+//
+//******************************************************************************
+#define ADC_adc_ch2_irq_en_adc_channel2_irq_en_M \
+ 0x0000000F // interrupt enable register for
+ // per ADC channel bit 3: when '1'
+ // -> enable FIFO overflow interrupt
+ // bit 2: when '1' -> enable FIFO
+ // underflow interrupt bit 1: when
+ // "1' -> enable FIFO empty
+ // interrupt bit 0: when "1" ->
+ // enable FIFO full interrupt
+
+#define ADC_adc_ch2_irq_en_adc_channel2_irq_en_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// ADC_O_adc_ch3_irq_en register.
+//
+//******************************************************************************
+#define ADC_adc_ch3_irq_en_adc_channel3_irq_en_M \
+ 0x0000000F // interrupt enable register for
+ // per ADC channel bit 3: when '1'
+ // -> enable FIFO overflow interrupt
+ // bit 2: when '1' -> enable FIFO
+ // underflow interrupt bit 1: when
+ // "1' -> enable FIFO empty
+ // interrupt bit 0: when "1" ->
+ // enable FIFO full interrupt
+
+#define ADC_adc_ch3_irq_en_adc_channel3_irq_en_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// ADC_O_adc_ch4_irq_en register.
+//
+//******************************************************************************
+#define ADC_adc_ch4_irq_en_adc_channel4_irq_en_M \
+ 0x0000000F // interrupt enable register for
+ // per ADC channel bit 3: when '1'
+ // -> enable FIFO overflow interrupt
+ // bit 2: when '1' -> enable FIFO
+ // underflow interrupt bit 1: when
+ // "1' -> enable FIFO empty
+ // interrupt bit 0: when "1" ->
+ // enable FIFO full interrupt
+
+#define ADC_adc_ch4_irq_en_adc_channel4_irq_en_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// ADC_O_adc_ch5_irq_en register.
+//
+//******************************************************************************
+#define ADC_adc_ch5_irq_en_adc_channel5_irq_en_M \
+ 0x0000000F // interrupt enable register for
+ // per ADC channel bit 3: when '1'
+ // -> enable FIFO overflow interrupt
+ // bit 2: when '1' -> enable FIFO
+ // underflow interrupt bit 1: when
+ // "1' -> enable FIFO empty
+ // interrupt bit 0: when "1" ->
+ // enable FIFO full interrupt
+
+#define ADC_adc_ch5_irq_en_adc_channel5_irq_en_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// ADC_O_adc_ch6_irq_en register.
+//
+//******************************************************************************
+#define ADC_adc_ch6_irq_en_adc_channel6_irq_en_M \
+ 0x0000000F // interrupt enable register for
+ // per ADC channel bit 3: when '1'
+ // -> enable FIFO overflow interrupt
+ // bit 2: when '1' -> enable FIFO
+ // underflow interrupt bit 1: when
+ // "1' -> enable FIFO empty
+ // interrupt bit 0: when "1" ->
+ // enable FIFO full interrupt
+
+#define ADC_adc_ch6_irq_en_adc_channel6_irq_en_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// ADC_O_adc_ch7_irq_en register.
+//
+//******************************************************************************
+#define ADC_adc_ch7_irq_en_adc_channel7_irq_en_M \
+ 0x0000000F // interrupt enable register for
+ // per ADC channel bit 3: when '1'
+ // -> enable FIFO overflow interrupt
+ // bit 2: when '1' -> enable FIFO
+ // underflow interrupt bit 1: when
+ // "1' -> enable FIFO empty
+ // interrupt bit 0: when "1" ->
+ // enable FIFO full interrupt
+
+#define ADC_adc_ch7_irq_en_adc_channel7_irq_en_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// ADC_O_adc_ch0_irq_status register.
+//
+//******************************************************************************
+#define ADC_adc_ch0_irq_status_adc_channel0_irq_status_M \
+ 0x0000000F // interrupt status register for
+ // per ADC channel. Interrupt status
+ // can be cleared on write. bit 3:
+ // when value '1' is written ->
+ // would clear FIFO overflow
+ // interrupt status in the next
+ // cycle. if same interrupt is set
+ // in the same cycle then interurpt
+ // would be set and clear command
+ // will be ignored. bit 2: when
+ // value '1' is written -> would
+ // clear FIFO underflow interrupt
+ // status in the next cycle. bit 1:
+ // when value '1' is written ->
+ // would clear FIFO empty interrupt
+ // status in the next cycle. bit 0:
+ // when value '1' is written ->
+ // would clear FIFO full interrupt
+ // status in the next cycle.
+
+#define ADC_adc_ch0_irq_status_adc_channel0_irq_status_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// ADC_O_adc_ch1_irq_status register.
+//
+//******************************************************************************
+#define ADC_adc_ch1_irq_status_adc_channel1_irq_status_M \
+ 0x0000000F // interrupt status register for
+ // per ADC channel. Interrupt status
+ // can be cleared on write. bit 3:
+ // when value '1' is written ->
+ // would clear FIFO overflow
+ // interrupt status in the next
+ // cycle. if same interrupt is set
+ // in the same cycle then interurpt
+ // would be set and clear command
+ // will be ignored. bit 2: when
+ // value '1' is written -> would
+ // clear FIFO underflow interrupt
+ // status in the next cycle. bit 1:
+ // when value '1' is written ->
+ // would clear FIFO empty interrupt
+ // status in the next cycle. bit 0:
+ // when value '1' is written ->
+ // would clear FIFO full interrupt
+ // status in the next cycle.
+
+#define ADC_adc_ch1_irq_status_adc_channel1_irq_status_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// ADC_O_adc_ch2_irq_status register.
+//
+//******************************************************************************
+#define ADC_adc_ch2_irq_status_adc_channel2_irq_status_M \
+ 0x0000000F // interrupt status register for
+ // per ADC channel. Interrupt status
+ // can be cleared on write. bit 3:
+ // when value '1' is written ->
+ // would clear FIFO overflow
+ // interrupt status in the next
+ // cycle. if same interrupt is set
+ // in the same cycle then interurpt
+ // would be set and clear command
+ // will be ignored. bit 2: when
+ // value '1' is written -> would
+ // clear FIFO underflow interrupt
+ // status in the next cycle. bit 1:
+ // when value '1' is written ->
+ // would clear FIFO empty interrupt
+ // status in the next cycle. bit 0:
+ // when value '1' is written ->
+ // would clear FIFO full interrupt
+ // status in the next cycle.
+
+#define ADC_adc_ch2_irq_status_adc_channel2_irq_status_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// ADC_O_adc_ch3_irq_status register.
+//
+//******************************************************************************
+#define ADC_adc_ch3_irq_status_adc_channel3_irq_status_M \
+ 0x0000000F // interrupt status register for
+ // per ADC channel. Interrupt status
+ // can be cleared on write. bit 3:
+ // when value '1' is written ->
+ // would clear FIFO overflow
+ // interrupt status in the next
+ // cycle. if same interrupt is set
+ // in the same cycle then interurpt
+ // would be set and clear command
+ // will be ignored. bit 2: when
+ // value '1' is written -> would
+ // clear FIFO underflow interrupt
+ // status in the next cycle. bit 1:
+ // when value '1' is written ->
+ // would clear FIFO empty interrupt
+ // status in the next cycle. bit 0:
+ // when value '1' is written ->
+ // would clear FIFO full interrupt
+ // status in the next cycle.
+
+#define ADC_adc_ch3_irq_status_adc_channel3_irq_status_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// ADC_O_adc_ch4_irq_status register.
+//
+//******************************************************************************
+#define ADC_adc_ch4_irq_status_adc_channel4_irq_status_M \
+ 0x0000000F // interrupt status register for
+ // per ADC channel. Interrupt status
+ // can be cleared on write. bit 3:
+ // when value '1' is written ->
+ // would clear FIFO overflow
+ // interrupt status in the next
+ // cycle. if same interrupt is set
+ // in the same cycle then interurpt
+ // would be set and clear command
+ // will be ignored. bit 2: when
+ // value '1' is written -> would
+ // clear FIFO underflow interrupt
+ // status in the next cycle. bit 1:
+ // when value '1' is written ->
+ // would clear FIFO empty interrupt
+ // status in the next cycle. bit 0:
+ // when value '1' is written ->
+ // would clear FIFO full interrupt
+ // status in the next cycle.
+
+#define ADC_adc_ch4_irq_status_adc_channel4_irq_status_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// ADC_O_adc_ch5_irq_status register.
+//
+//******************************************************************************
+#define ADC_adc_ch5_irq_status_adc_channel5_irq_status_M \
+ 0x0000000F // interrupt status register for
+ // per ADC channel. Interrupt status
+ // can be cleared on write. bit 3:
+ // when value '1' is written ->
+ // would clear FIFO overflow
+ // interrupt status in the next
+ // cycle. if same interrupt is set
+ // in the same cycle then interurpt
+ // would be set and clear command
+ // will be ignored. bit 2: when
+ // value '1' is written -> would
+ // clear FIFO underflow interrupt
+ // status in the next cycle. bit 1:
+ // when value '1' is written ->
+ // would clear FIFO empty interrupt
+ // status in the next cycle. bit 0:
+ // when value '1' is written ->
+ // would clear FIFO full interrupt
+ // status in the next cycle.
+
+#define ADC_adc_ch5_irq_status_adc_channel5_irq_status_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// ADC_O_adc_ch6_irq_status register.
+//
+//******************************************************************************
+#define ADC_adc_ch6_irq_status_adc_channel6_irq_status_M \
+ 0x0000000F // interrupt status register for
+ // per ADC channel. Interrupt status
+ // can be cleared on write. bit 3:
+ // when value '1' is written ->
+ // would clear FIFO overflow
+ // interrupt status in the next
+ // cycle. if same interrupt is set
+ // in the same cycle then interurpt
+ // would be set and clear command
+ // will be ignored. bit 2: when
+ // value '1' is written -> would
+ // clear FIFO underflow interrupt
+ // status in the next cycle. bit 1:
+ // when value '1' is written ->
+ // would clear FIFO empty interrupt
+ // status in the next cycle. bit 0:
+ // when value '1' is written ->
+ // would clear FIFO full interrupt
+ // status in the next cycle.
+
+#define ADC_adc_ch6_irq_status_adc_channel6_irq_status_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// ADC_O_adc_ch7_irq_status register.
+//
+//******************************************************************************
+#define ADC_adc_ch7_irq_status_adc_channel7_irq_status_M \
+ 0x0000000F // interrupt status register for
+ // per ADC channel. Interrupt status
+ // can be cleared on write. bit 3:
+ // when value '1' is written ->
+ // would clear FIFO overflow
+ // interrupt status in the next
+ // cycle. if same interrupt is set
+ // in the same cycle then interurpt
+ // would be set and clear command
+ // will be ignored. bit 2: when
+ // value '1' is written -> would
+ // clear FIFO underflow interrupt
+ // status in the next cycle. bit 1:
+ // when value '1' is written ->
+ // would clear FIFO empty interrupt
+ // status in the next cycle. bit 0:
+ // when value '1' is written ->
+ // would clear FIFO full interrupt
+ // status in the next cycle.
+
+#define ADC_adc_ch7_irq_status_adc_channel7_irq_status_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// ADC_O_adc_dma_mode_en register.
+//
+//******************************************************************************
+#define ADC_adc_dma_mode_en_DMA_MODEenable_M \
+ 0x000000FF // this register enable DMA mode.
+ // when '1' respective ADC channel
+ // is enabled for DMA. When '0' only
+ // interrupt mode is enabled. Bit 0:
+ // channel 0 DMA mode enable. Bit 1:
+ // channel 1 DMA mode enable. Bit 2:
+ // channel 2 DMA mode enable. Bit 3:
+ // channel 3 DMA mode enable. bit 4:
+ // channel 4 DMA mode enable. bit 5:
+ // channel 5 DMA mode enable. bit 6:
+ // channel 6 DMA mode enable. bit 7:
+ // channel 7 DMA mode enable.
+
+#define ADC_adc_dma_mode_en_DMA_MODEenable_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// ADC_O_adc_timer_configuration register.
+//
+//******************************************************************************
+#define ADC_adc_timer_configuration_timeren \
+ 0x02000000 // when '1' timer is enabled.
+
+#define ADC_adc_timer_configuration_timerreset \
+ 0x01000000 // when '1' reset timer.
+
+#define ADC_adc_timer_configuration_timercount_M \
+ 0x00FFFFFF // Timer count configuration. 17
+ // bit counter is supported. Other
+ // MSB's are redundent.
+
+#define ADC_adc_timer_configuration_timercount_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// ADC_O_adc_timer_current_count register.
+//
+//******************************************************************************
+#define ADC_adc_timer_current_count_timercurrentcount_M \
+ 0x0001FFFF // Timer count configuration
+
+#define ADC_adc_timer_current_count_timercurrentcount_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// ADC_O_channel0FIFODATA register.
+//
+//******************************************************************************
+#define ADC_channel0FIFODATA_FIFO_RD_DATA_M \
+ 0xFFFFFFFF // read to this register would
+ // return ADC data along with time
+ // stamp information in following
+ // format: bits [13:0] : ADC sample
+ // bits [31:14]: : time stamp per
+ // ADC sample
+
+#define ADC_channel0FIFODATA_FIFO_RD_DATA_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// ADC_O_channel1FIFODATA register.
+//
+//******************************************************************************
+#define ADC_channel1FIFODATA_FIFO_RD_DATA_M \
+ 0xFFFFFFFF // read to this register would
+ // return ADC data along with time
+ // stamp information in following
+ // format: bits [13:0] : ADC sample
+ // bits [31:14]: : time stamp per
+ // ADC sample
+
+#define ADC_channel1FIFODATA_FIFO_RD_DATA_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// ADC_O_channel2FIFODATA register.
+//
+//******************************************************************************
+#define ADC_channel2FIFODATA_FIFO_RD_DATA_M \
+ 0xFFFFFFFF // read to this register would
+ // return ADC data along with time
+ // stamp information in following
+ // format: bits [13:0] : ADC sample
+ // bits [31:14]: : time stamp per
+ // ADC sample
+
+#define ADC_channel2FIFODATA_FIFO_RD_DATA_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// ADC_O_channel3FIFODATA register.
+//
+//******************************************************************************
+#define ADC_channel3FIFODATA_FIFO_RD_DATA_M \
+ 0xFFFFFFFF // read to this register would
+ // return ADC data along with time
+ // stamp information in following
+ // format: bits [13:0] : ADC sample
+ // bits [31:14]: : time stamp per
+ // ADC sample
+
+#define ADC_channel3FIFODATA_FIFO_RD_DATA_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// ADC_O_channel4FIFODATA register.
+//
+//******************************************************************************
+#define ADC_channel4FIFODATA_FIFO_RD_DATA_M \
+ 0xFFFFFFFF // read to this register would
+ // return ADC data along with time
+ // stamp information in following
+ // format: bits [13:0] : ADC sample
+ // bits [31:14]: : time stamp per
+ // ADC sample
+
+#define ADC_channel4FIFODATA_FIFO_RD_DATA_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// ADC_O_channel5FIFODATA register.
+//
+//******************************************************************************
+#define ADC_channel5FIFODATA_FIFO_RD_DATA_M \
+ 0xFFFFFFFF // read to this register would
+ // return ADC data along with time
+ // stamp information in following
+ // format: bits [13:0] : ADC sample
+ // bits [31:14]: : time stamp per
+ // ADC sample
+
+#define ADC_channel5FIFODATA_FIFO_RD_DATA_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// ADC_O_channel6FIFODATA register.
+//
+//******************************************************************************
+#define ADC_channel6FIFODATA_FIFO_RD_DATA_M \
+ 0xFFFFFFFF // read to this register would
+ // return ADC data along with time
+ // stamp information in following
+ // format: bits [13:0] : ADC sample
+ // bits [31:14]: : time stamp per
+ // ADC sample
+
+#define ADC_channel6FIFODATA_FIFO_RD_DATA_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// ADC_O_channel7FIFODATA register.
+//
+//******************************************************************************
+#define ADC_channel7FIFODATA_FIFO_RD_DATA_M \
+ 0xFFFFFFFF // read to this register would
+ // return ADC data along with time
+ // stamp information in following
+ // format: bits [13:0] : ADC sample
+ // bits [31:14]: : time stamp per
+ // ADC sample
+
+#define ADC_channel7FIFODATA_FIFO_RD_DATA_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// ADC_O_adc_ch0_fifo_lvl register.
+//
+//******************************************************************************
+#define ADC_adc_ch0_fifo_lvl_adc_channel0_fifo_lvl_M \
+ 0x00000007 // This register shows current FIFO
+ // level. FIFO is 4 word wide.
+ // Possible supported levels are :
+ // 0x0 to 0x3
+
+#define ADC_adc_ch0_fifo_lvl_adc_channel0_fifo_lvl_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// ADC_O_adc_ch1_fifo_lvl register.
+//
+//******************************************************************************
+#define ADC_adc_ch1_fifo_lvl_adc_channel1_fifo_lvl_M \
+ 0x00000007 // This register shows current FIFO
+ // level. FIFO is 4 word wide.
+ // Possible supported levels are :
+ // 0x0 to 0x3
+
+#define ADC_adc_ch1_fifo_lvl_adc_channel1_fifo_lvl_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// ADC_O_adc_ch2_fifo_lvl register.
+//
+//******************************************************************************
+#define ADC_adc_ch2_fifo_lvl_adc_channel2_fifo_lvl_M \
+ 0x00000007 // This register shows current FIFO
+ // level. FIFO is 4 word wide.
+ // Possible supported levels are :
+ // 0x0 to 0x3
+
+#define ADC_adc_ch2_fifo_lvl_adc_channel2_fifo_lvl_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// ADC_O_adc_ch3_fifo_lvl register.
+//
+//******************************************************************************
+#define ADC_adc_ch3_fifo_lvl_adc_channel3_fifo_lvl_M \
+ 0x00000007 // This register shows current FIFO
+ // level. FIFO is 4 word wide.
+ // Possible supported levels are :
+ // 0x0 to 0x3
+
+#define ADC_adc_ch3_fifo_lvl_adc_channel3_fifo_lvl_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// ADC_O_adc_ch4_fifo_lvl register.
+//
+//******************************************************************************
+#define ADC_adc_ch4_fifo_lvl_adc_channel4_fifo_lvl_M \
+ 0x00000007 // This register shows current FIFO
+ // level. FIFO is 4 word wide.
+ // Possible supported levels are :
+ // 0x0 to 0x3
+
+#define ADC_adc_ch4_fifo_lvl_adc_channel4_fifo_lvl_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// ADC_O_adc_ch5_fifo_lvl register.
+//
+//******************************************************************************
+#define ADC_adc_ch5_fifo_lvl_adc_channel5_fifo_lvl_M \
+ 0x00000007 // This register shows current FIFO
+ // level. FIFO is 4 word wide.
+ // Possible supported levels are :
+ // 0x0 to 0x3
+
+#define ADC_adc_ch5_fifo_lvl_adc_channel5_fifo_lvl_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// ADC_O_adc_ch6_fifo_lvl register.
+//
+//******************************************************************************
+#define ADC_adc_ch6_fifo_lvl_adc_channel6_fifo_lvl_M \
+ 0x00000007 // This register shows current FIFO
+ // level. FIFO is 4 word wide.
+ // Possible supported levels are :
+ // 0x0 to 0x3
+
+#define ADC_adc_ch6_fifo_lvl_adc_channel6_fifo_lvl_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// ADC_O_adc_ch7_fifo_lvl register.
+//
+//******************************************************************************
+#define ADC_adc_ch7_fifo_lvl_adc_channel7_fifo_lvl_M \
+ 0x00000007 // This register shows current FIFO
+ // level. FIFO is 4 word wide.
+ // Possible supported levels are :
+ // 0x0 to 0x3
+
+#define ADC_adc_ch7_fifo_lvl_adc_channel7_fifo_lvl_S 0
+
+
+
+#endif // __HW_ADC_H__
diff --git a/cc3200/hal/inc/hw_aes.h b/cc3200/hal/inc/hw_aes.h
new file mode 100644
index 000000000..3ab0398b3
--- /dev/null
+++ b/cc3200/hal/inc/hw_aes.h
@@ -0,0 +1,802 @@
+//*****************************************************************************
+//
+// Copyright (C) 2014 Texas Instruments Incorporated - http://www.ti.com/
+//
+//
+// Redistribution and use in source and binary forms, with or without
+// modification, are permitted provided that the following conditions
+// are met:
+//
+// Redistributions of source code must retain the above copyright
+// notice, this list of conditions and the following disclaimer.
+//
+// Redistributions in binary form must reproduce the above copyright
+// notice, this list of conditions and the following disclaimer in the
+// documentation and/or other materials provided with the
+// distribution.
+//
+// Neither the name of Texas Instruments Incorporated nor the names of
+// its contributors may be used to endorse or promote products derived
+// from this software without specific prior written permission.
+//
+// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
+// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
+// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
+// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
+// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
+// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
+// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
+// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
+// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
+// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
+// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+//
+//*****************************************************************************
+
+#ifndef __HW_AES_H__
+#define __HW_AES_H__
+
+//*****************************************************************************
+//
+// The following are defines for the AES_P register offsets.
+//
+//*****************************************************************************
+#define AES_O_KEY2_6 0x00000000 // XTS second key / CBC-MAC third
+ // key
+#define AES_O_KEY2_7 0x00000004 // XTS second key (MSW for 256-bit
+ // key) / CBC-MAC third key (MSW)
+#define AES_O_KEY2_4 0x00000008 // XTS / CCM second key / CBC-MAC
+ // third key (LSW)
+#define AES_O_KEY2_5 0x0000000C // XTS second key (MSW for 192-bit
+ // key) / CBC-MAC third key
+#define AES_O_KEY2_2 0x00000010 // XTS / CCM / CBC-MAC second key /
+ // Hash Key input
+#define AES_O_KEY2_3 0x00000014 // XTS second key (MSW for 128-bit
+ // key) + CCM/CBC-MAC second key
+ // (MSW) / Hash Key input (MSW)
+#define AES_O_KEY2_0 0x00000018 // XTS / CCM / CBC-MAC second key
+ // (LSW) / Hash Key input (LSW)
+#define AES_O_KEY2_1 0x0000001C // XTS / CCM / CBC-MAC second key /
+ // Hash Key input
+#define AES_O_KEY1_6 0x00000020 // Key (LSW for 256-bit key)
+#define AES_O_KEY1_7 0x00000024 // Key (MSW for 256-bit key)
+#define AES_O_KEY1_4 0x00000028 // Key (LSW for 192-bit key)
+#define AES_O_KEY1_5 0x0000002C // Key (MSW for 192-bit key)
+#define AES_O_KEY1_2 0x00000030 // Key
+#define AES_O_KEY1_3 0x00000034 // Key (MSW for 128-bit key)
+#define AES_O_KEY1_0 0x00000038 // Key (LSW for 128-bit key)
+#define AES_O_KEY1_1 0x0000003C // Key
+#define AES_O_IV_IN_0 0x00000040 // Initialization Vector input
+ // (LSW)
+#define AES_O_IV_IN_1 0x00000044 // Initialization vector input
+#define AES_O_IV_IN_2 0x00000048 // Initialization vector input
+#define AES_O_IV_IN_3 0x0000004C // Initialization Vector input
+ // (MSW)
+#define AES_O_CTRL 0x00000050 // register determines the mode of
+ // operation of the AES Engine
+#define AES_O_C_LENGTH_0 0x00000054 // Crypto data length registers
+ // (LSW and MSW) store the
+ // cryptographic data length in
+ // bytes for all modes. Once
+ // processing with this context is
+ // started@@ this length decrements
+ // to zero. Data lengths up to (2^61
+ // – 1) bytes are allowed. For GCM@@
+ // any value up to 2^36 - 32 bytes
+ // can be used. This is because a
+ // 32-bit counter mode is used; the
+ // maximum number of 128-bit blocks
+ // is 2^32 – 2@@ resulting in a
+ // maximum number of bytes of 2^36 -
+ // 32. A write to this register
+ // triggers the engine to start
+ // using this context. This is valid
+ // for all modes except GCM and CCM.
+ // Note that for the combined
+ // modes@@ this length does not
+ // include the authentication only
+ // data; the authentication length
+ // is specified in the
+ // AES_AUTH_LENGTH register below.
+ // All modes must have a length > 0.
+ // For the combined modes@@ it is
+ // allowed to have one of the
+ // lengths equal to zero. For the
+ // basic encryption modes
+ // (ECB/CBC/CTR/ICM/CFB128) it is
+ // allowed to program zero to the
+ // length field; in that case the
+ // length is assumed infinite. All
+ // data must be byte (8-bit)
+ // aligned; bit aligned data streams
+ // are not supported by the AES
+ // Engine. For a Host read
+ // operation@@ these registers
+ // return all-zeroes.
+#define AES_O_C_LENGTH_1 0x00000058 // Crypto data length registers
+ // (LSW and MSW) store the
+ // cryptographic data length in
+ // bytes for all modes. Once
+ // processing with this context is
+ // started@@ this length decrements
+ // to zero. Data lengths up to (2^61
+ // – 1) bytes are allowed. For GCM@@
+ // any value up to 2^36 - 32 bytes
+ // can be used. This is because a
+ // 32-bit counter mode is used; the
+ // maximum number of 128-bit blocks
+ // is 2^32 – 2@@ resulting in a
+ // maximum number of bytes of 2^36 -
+ // 32. A write to this register
+ // triggers the engine to start
+ // using this context. This is valid
+ // for all modes except GCM and CCM.
+ // Note that for the combined
+ // modes@@ this length does not
+ // include the authentication only
+ // data; the authentication length
+ // is specified in the
+ // AES_AUTH_LENGTH register below.
+ // All modes must have a length > 0.
+ // For the combined modes@@ it is
+ // allowed to have one of the
+ // lengths equal to zero. For the
+ // basic encryption modes
+ // (ECB/CBC/CTR/ICM/CFB128) it is
+ // allowed to program zero to the
+ // length field; in that case the
+ // length is assumed infinite. All
+ // data must be byte (8-bit)
+ // aligned; bit aligned data streams
+ // are not supported by the AES
+ // Engine. For a Host read
+ // operation@@ these registers
+ // return all-zeroes.
+#define AES_O_AUTH_LENGTH 0x0000005C // AAD data length. The
+ // authentication length register
+ // store the authentication data
+ // length in bytes for combined
+ // modes only (GCM or CCM) Supported
+ // AAD-lengths for CCM are from 0 to
+ // (2^16 - 2^8) bytes. For GCM any
+ // value up to (2^32 - 1) bytes can
+ // be used. Once processing with
+ // this context is started@@ this
+ // length decrements to zero. A
+ // write to this register triggers
+ // the engine to start using this
+ // context for GCM and CCM. For XTS
+ // this register is optionally used
+ // to load ‘j’. Loading of ‘j’ is
+ // only required if ‘j’ != 0. ‘j’ is
+ // a 28-bit value and must be
+ // written to bits [31-4] of this
+ // register. ‘j’ represents the
+ // sequential number of the 128-bit
+ // block inside the data unit. For
+ // the first block in a unit@@ this
+ // value is zero. It is not required
+ // to provide a ‘j’ for each new
+ // data block within a unit. Note
+ // that it is possible to start with
+ // a ‘j’ unequal to zero; refer to
+ // Table 4 for more details. For a
+ // Host read operation@@ these
+ // registers return all-zeroes.
+#define AES_O_DATA_IN_0 0x00000060 // Data register to read and write
+ // plaintext/ciphertext (MSW)
+#define AES_O_DATA_IN_1 0x00000064 // Data register to read and write
+ // plaintext/ciphertext
+#define AES_O_DATA_IN_2 0x00000068 // Data register to read and write
+ // plaintext/ciphertext
+#define AES_O_DATA_IN_3 0x0000006C // Data register to read and write
+ // plaintext/ciphertext (LSW)
+#define AES_O_TAG_OUT_0 0x00000070
+#define AES_O_TAG_OUT_1 0x00000074
+#define AES_O_TAG_OUT_2 0x00000078
+#define AES_O_TAG_OUT_3 0x0000007C
+#define AES_O_REVISION 0x00000080 // Register AES_REVISION
+#define AES_O_SYSCONFIG 0x00000084 // Register AES_SYSCONFIG.This
+ // register configures the DMA
+ // signals and controls the IDLE and
+ // reset logic
+#define AES_O_SYSSTATUS 0x00000088
+#define AES_O_IRQSTATUS 0x0000008C // This register indicates the
+ // interrupt status. If one of the
+ // interrupt bits is set the
+ // interrupt output will be asserted
+#define AES_O_IRQENABLE 0x00000090 // This register contains an enable
+ // bit for each unique interrupt
+ // generated by the module. It
+ // matches the layout of
+ // AES_IRQSTATUS register. An
+ // interrupt is enabled when the bit
+ // in this register is set to ‘1’.
+ // An interrupt that is enabled is
+ // propagated to the SINTREQUEST_x
+ // output. All interrupts need to be
+ // enabled explicitly by writing
+ // this register.
+
+
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the AES_O_KEY2_6 register.
+//
+//******************************************************************************
+#define AES_KEY2_6_KEY_M 0xFFFFFFFF // key data
+#define AES_KEY2_6_KEY_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the AES_O_KEY2_7 register.
+//
+//******************************************************************************
+#define AES_KEY2_7_KEY_M 0xFFFFFFFF // key data
+#define AES_KEY2_7_KEY_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the AES_O_KEY2_4 register.
+//
+//******************************************************************************
+#define AES_KEY2_4_KEY_M 0xFFFFFFFF // key data
+#define AES_KEY2_4_KEY_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the AES_O_KEY2_5 register.
+//
+//******************************************************************************
+#define AES_KEY2_5_KEY_M 0xFFFFFFFF // key data
+#define AES_KEY2_5_KEY_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the AES_O_KEY2_2 register.
+//
+//******************************************************************************
+#define AES_KEY2_2_KEY_M 0xFFFFFFFF // key data
+#define AES_KEY2_2_KEY_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the AES_O_KEY2_3 register.
+//
+//******************************************************************************
+#define AES_KEY2_3_KEY_M 0xFFFFFFFF // key data
+#define AES_KEY2_3_KEY_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the AES_O_KEY2_0 register.
+//
+//******************************************************************************
+#define AES_KEY2_0_KEY_M 0xFFFFFFFF // key data
+#define AES_KEY2_0_KEY_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the AES_O_KEY2_1 register.
+//
+//******************************************************************************
+#define AES_KEY2_1_KEY_M 0xFFFFFFFF // key data
+#define AES_KEY2_1_KEY_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the AES_O_KEY1_6 register.
+//
+//******************************************************************************
+#define AES_KEY1_6_KEY_M 0xFFFFFFFF // key data
+#define AES_KEY1_6_KEY_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the AES_O_KEY1_7 register.
+//
+//******************************************************************************
+#define AES_KEY1_7_KEY_M 0xFFFFFFFF // key data
+#define AES_KEY1_7_KEY_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the AES_O_KEY1_4 register.
+//
+//******************************************************************************
+#define AES_KEY1_4_KEY_M 0xFFFFFFFF // key data
+#define AES_KEY1_4_KEY_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the AES_O_KEY1_5 register.
+//
+//******************************************************************************
+#define AES_KEY1_5_KEY_M 0xFFFFFFFF // key data
+#define AES_KEY1_5_KEY_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the AES_O_KEY1_2 register.
+//
+//******************************************************************************
+#define AES_KEY1_2_KEY_M 0xFFFFFFFF // key data
+#define AES_KEY1_2_KEY_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the AES_O_KEY1_3 register.
+//
+//******************************************************************************
+#define AES_KEY1_3_KEY_M 0xFFFFFFFF // key data
+#define AES_KEY1_3_KEY_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the AES_O_KEY1_0 register.
+//
+//******************************************************************************
+#define AES_KEY1_0_KEY_M 0xFFFFFFFF // key data
+#define AES_KEY1_0_KEY_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the AES_O_KEY1_1 register.
+//
+//******************************************************************************
+#define AES_KEY1_1_KEY_M 0xFFFFFFFF // key data
+#define AES_KEY1_1_KEY_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the AES_O_IV_IN_0 register.
+//
+//******************************************************************************
+#define AES_IV_IN_0_DATA_M 0xFFFFFFFF // IV data
+#define AES_IV_IN_0_DATA_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the AES_O_IV_IN_1 register.
+//
+//******************************************************************************
+#define AES_IV_IN_1_DATA_M 0xFFFFFFFF // IV data
+#define AES_IV_IN_1_DATA_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the AES_O_IV_IN_2 register.
+//
+//******************************************************************************
+#define AES_IV_IN_2_DATA_M 0xFFFFFFFF // IV data
+#define AES_IV_IN_2_DATA_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the AES_O_IV_IN_3 register.
+//
+//******************************************************************************
+#define AES_IV_IN_3_DATA_M 0xFFFFFFFF // IV data
+#define AES_IV_IN_3_DATA_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the AES_O_CTRL register.
+//
+//******************************************************************************
+#define AES_CTRL_CONTEXT_READY \
+ 0x80000000 // If ‘1’@@ this read-only status
+ // bit indicates that the context
+ // data registers can be overwritten
+ // and the host is permitted to
+ // write the next context.
+
+#define AES_CTRL_SVCTXTRDY \
+ 0x40000000 // If ‘1’@@ this read-only status
+ // bit indicates that an AES
+ // authentication TAG and/or IV
+ // block(s) is/are available for the
+ // host to retrieve. This bit is
+ // only asserted if the
+ // ‘save_context’ bit is set to ‘1’.
+ // The bit is mutual exclusive with
+ // the ‘context_ready’ bit.
+
+#define AES_CTRL_SAVE_CONTEXT 0x20000000 // This bit is used to indicate
+ // that an authentication TAG or
+ // result IV needs to be stored as a
+ // result context. If this bit is
+ // set@@ context output DMA and/or
+ // interrupt will be asserted if the
+ // operation is finished and related
+ // signals are enabled.
+#define AES_CTRL_CCM_M 0x01C00000 // Defines “M” that indicated the
+ // length of the authentication
+ // field for CCM operations; the
+ // authentication field length
+ // equals two times (the value of
+ // CCM-M plus one). Note that the
+ // AES Engine always returns a
+ // 128-bit authentication field@@ of
+ // which the M least significant
+ // bytes are valid. All values are
+ // supported.
+#define AES_CTRL_CCM_S 22
+#define AES_CTRL_CCM_L_M 0x00380000 // Defines “L” that indicated the
+ // width of the length field for CCM
+ // operations; the length field in
+ // bytes equals the value of CMM-L
+ // plus one. Supported values for L
+ // are (programmed value): 2 (1)@@ 4
+ // (3) and 8 (7).
+#define AES_CTRL_CCM_L_S 19
+#define AES_CTRL_CCM 0x00040000 // AES-CCM is selected@@ this is a
+ // combined mode@@ using AES for
+ // both authentication and
+ // encryption. No additional mode
+ // selection is required. 0 Other
+ // mode selected 1 ccm mode selected
+#define AES_CTRL_GCM_M 0x00030000 // AES-GCM mode is selected.this is
+ // a combined mode@@ using the
+ // Galois field multiplier GF(2^128)
+ // for authentication and AES-CTR
+ // mode for encryption@@ the bits
+ // specify the GCM mode. 0x0 No
+ // operation 0x1 GHASH with H loaded
+ // and Y0-encrypted forced to zero
+ // 0x2 GHASH with H loaded and
+ // Y0-encrypted calculated
+ // internally 0x3 Autonomous GHASH
+ // (both H and Y0-encrypted
+ // calculated internally)
+#define AES_CTRL_GCM_S 16
+#define AES_CTRL_CBCMAC 0x00008000 // AES-CBC MAC is selected@@ the
+ // Direction bit must be set to ‘1’
+ // for this mode. 0 Other mode
+ // selected 1 cbcmac mode selected
+#define AES_CTRL_F9 0x00004000 // AES f9 mode is selected@@ the
+ // AES key size must be set to
+ // 128-bit for this mode. 0 Other
+ // mode selected 1 f9 selected
+#define AES_CTRL_F8 0x00002000 // AES f8 mode is selected@@ the
+ // AES key size must be set to
+ // 128-bit for this mode. 0 Other
+ // mode selected 1 f8 selected
+#define AES_CTRL_XTS_M 0x00001800 // AES-XTS operation is selected;
+ // the bits specify the XTS mode.01
+ // = Previous/intermediate tweak
+ // value and ‘j’ loaded (value is
+ // loaded via IV@@ j is loaded via
+ // the AAD length register) 0x0 No
+ // operation 0x1
+ // Previous/intermediate tweak value
+ // and ‘j’ loaded (value is loaded
+ // via IV@@ j is loaded via the AAD
+ // length register) 0x2 Key2@@ i and
+ // j loaded (i is loaded via IV@@ j
+ // is loaded via the AAD length
+ // register) 0x3 Key2 and i loaded@@
+ // j=0 (i is loaded via IV)
+#define AES_CTRL_XTS_S 11
+#define AES_CTRL_CFB 0x00000400 // full block AES cipher feedback
+ // mode (CFB128) is selected. 0
+ // other mode selected 1 cfb
+ // selected
+#define AES_CTRL_ICM 0x00000200 // AES integer counter mode (ICM)
+ // is selected@@ this is a counter
+ // mode with a 16-bit wide counter.
+ // 0 Other mode selected. 1 ICM mode
+ // selected
+#define AES_CTRL_CTR_WIDTH_M 0x00000180 // Specifies the counter width for
+ // AES-CTR mode 0x0 Counter is 32
+ // bits 0x1 Counter is 64 bits 0x2
+ // Counter is 128 bits 0x3 Counter
+ // is 192 bits
+#define AES_CTRL_CTR_WIDTH_S 7
+#define AES_CTRL_CTR 0x00000040 // Tthis bit must also be set for
+ // GCM and CCM@@ when
+ // encryption/decryption is
+ // required. 0 Other mode selected 1
+ // Counter mode
+#define AES_CTRL_MODE 0x00000020 // ecb/cbc mode 0 ecb mode 1 cbc
+ // mode
+#define AES_CTRL_KEY_SIZE_M 0x00000018 // key size 0x0 reserved 0x1 Key is
+ // 128 bits. 0x2 Key is 192 bits 0x3
+ // Key is 256
+#define AES_CTRL_KEY_SIZE_S 3
+#define AES_CTRL_DIRECTION 0x00000004 // If set to ‘1’ an encrypt
+ // operation is performed. If set to
+ // ‘0’ a decrypt operation is
+ // performed. Read 0 decryption is
+ // selected Read 1 Encryption is
+ // selected
+#define AES_CTRL_INPUT_READY 0x00000002 // If ‘1’@@ this read-only status
+ // bit indicates that the 16-byte
+ // input buffer is empty@@ and the
+ // host is permitted to write the
+ // next block of data.
+#define AES_CTRL_OUTPUT_READY 0x00000001 // If ‘1’@@ this read-only status
+ // bit indicates that an AES output
+ // block is available for the host
+ // to retrieve.
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// AES_O_C_LENGTH_0 register.
+//
+//******************************************************************************
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// AES_O_C_LENGTH_1 register.
+//
+//******************************************************************************
+#define AES_C_LENGTH_1_LENGTH_M \
+ 0x1FFFFFFF // Data length (MSW) length
+ // registers (LSW and MSW) store the
+ // cryptographic data length in
+ // bytes for all modes. Once
+ // processing with this context is
+ // started@@ this length decrements
+ // to zero. Data lengths up to (2^61
+ // – 1) bytes are allowed. For GCM@@
+ // any value up to 2^36 - 32 bytes
+ // can be used. This is because a
+ // 32-bit counter mode is used; the
+ // maximum number of 128-bit blocks
+ // is 2^32 – 2@@ resulting in a
+ // maximum number of bytes of 2^36 -
+ // 32. A write to this register
+ // triggers the engine to start
+ // using this context. This is valid
+ // for all modes except GCM and CCM.
+ // Note that for the combined
+ // modes@@ this length does not
+ // include the authentication only
+ // data; the authentication length
+ // is specified in the
+ // AES_AUTH_LENGTH register below.
+ // All modes must have a length > 0.
+ // For the combined modes@@ it is
+ // allowed to have one of the
+ // lengths equal to zero. For the
+ // basic encryption modes
+ // (ECB/CBC/CTR/ICM/CFB128) it is
+ // allowed to program zero to the
+ // length field; in that case the
+ // length is assumed infinite. All
+ // data must be byte (8-bit)
+ // aligned; bit aligned data streams
+ // are not supported by the AES
+ // Engine. For a Host read
+ // operation@@ these registers
+ // return all-zeroes.
+
+#define AES_C_LENGTH_1_LENGTH_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// AES_O_AUTH_LENGTH register.
+//
+//******************************************************************************
+#define AES_AUTH_LENGTH_AUTH_M \
+ 0xFFFFFFFF // data
+
+#define AES_AUTH_LENGTH_AUTH_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the AES_O_DATA_IN_0 register.
+//
+//******************************************************************************
+#define AES_DATA_IN_0_DATA_M 0xFFFFFFFF // Data to encrypt/decrypt
+#define AES_DATA_IN_0_DATA_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the AES_O_DATA_IN_1 register.
+//
+//******************************************************************************
+#define AES_DATA_IN_1_DATA_M 0xFFFFFFFF // Data to encrypt/decrypt
+#define AES_DATA_IN_1_DATA_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the AES_O_DATA_IN_2 register.
+//
+//******************************************************************************
+#define AES_DATA_IN_2_DATA_M 0xFFFFFFFF // Data to encrypt/decrypt
+#define AES_DATA_IN_2_DATA_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the AES_O_DATA_IN_3 register.
+//
+//******************************************************************************
+#define AES_DATA_IN_3_DATA_M 0xFFFFFFFF // Data to encrypt/decrypt
+#define AES_DATA_IN_3_DATA_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the AES_O_TAG_OUT_0 register.
+//
+//******************************************************************************
+#define AES_TAG_OUT_0_HASH_M 0xFFFFFFFF // Hash result (MSW)
+#define AES_TAG_OUT_0_HASH_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the AES_O_TAG_OUT_1 register.
+//
+//******************************************************************************
+#define AES_TAG_OUT_1_HASH_M 0xFFFFFFFF // Hash result (MSW)
+#define AES_TAG_OUT_1_HASH_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the AES_O_TAG_OUT_2 register.
+//
+//******************************************************************************
+#define AES_TAG_OUT_2_HASH_M 0xFFFFFFFF // Hash result (MSW)
+#define AES_TAG_OUT_2_HASH_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the AES_O_TAG_OUT_3 register.
+//
+//******************************************************************************
+#define AES_TAG_OUT_3_HASH_M 0xFFFFFFFF // Hash result (LSW)
+#define AES_TAG_OUT_3_HASH_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the AES_O_REVISION register.
+//
+//******************************************************************************
+#define AES_REVISION_SCHEME_M 0xC0000000
+#define AES_REVISION_SCHEME_S 30
+#define AES_REVISION_FUNC_M 0x0FFF0000 // Function indicates a software
+ // compatible module family. If
+ // there is no level of software
+ // compatibility a new Func number
+ // (and hence REVISION) should be
+ // assigned.
+#define AES_REVISION_FUNC_S 16
+#define AES_REVISION_R_RTL_M 0x0000F800 // RTL Version (R)@@ maintained by
+ // IP design owner. RTL follows a
+ // numbering such as X.Y.R.Z which
+ // are explained in this table. R
+ // changes ONLY when: (1) PDS
+ // uploads occur which may have been
+ // due to spec changes (2) Bug fixes
+ // occur (3) Resets to '0' when X or
+ // Y changes. Design team has an
+ // internal 'Z' (customer invisible)
+ // number which increments on every
+ // drop that happens due to DV and
+ // RTL updates. Z resets to 0 when R
+ // increments.
+#define AES_REVISION_R_RTL_S 11
+#define AES_REVISION_X_MAJOR_M \
+ 0x00000700 // Major Revision (X)@@ maintained
+ // by IP specification owner. X
+ // changes ONLY when: (1) There is a
+ // major feature addition. An
+ // example would be adding Master
+ // Mode to Utopia Level2. The Func
+ // field (or Class/Type in old PID
+ // format) will remain the same. X
+ // does NOT change due to: (1) Bug
+ // fixes (2) Change in feature
+ // parameters.
+
+#define AES_REVISION_X_MAJOR_S 8
+#define AES_REVISION_CUSTOM_M 0x000000C0
+#define AES_REVISION_CUSTOM_S 6
+#define AES_REVISION_Y_MINOR_M \
+ 0x0000003F // Minor Revision (Y)@@ maintained
+ // by IP specification owner. Y
+ // changes ONLY when: (1) Features
+ // are scaled (up or down).
+ // Flexibility exists in that this
+ // feature scalability may either be
+ // represented in the Y change or a
+ // specific register in the IP that
+ // indicates which features are
+ // exactly available. (2) When
+ // feature creeps from Is-Not list
+ // to Is list. But this may not be
+ // the case once it sees silicon; in
+ // which case X will change. Y does
+ // NOT change due to: (1) Bug fixes
+ // (2) Typos or clarifications (3)
+ // major functional/feature
+ // change/addition/deletion. Instead
+ // these changes may be reflected
+ // via R@@ S@@ X as applicable. Spec
+ // owner maintains a
+ // customer-invisible number 'S'
+ // which changes due to: (1)
+ // Typos/clarifications (2) Bug
+ // documentation. Note that this bug
+ // is not due to a spec change but
+ // due to implementation.
+ // Nevertheless@@ the spec tracks
+ // the IP bugs. An RTL release (say
+ // for silicon PG1.1) that occurs
+ // due to bug fix should document
+ // the corresponding spec number
+ // (X.Y.S) in its release notes.
+
+#define AES_REVISION_Y_MINOR_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the AES_O_SYSCONFIG register.
+//
+//******************************************************************************
+#define AES_SYSCONFIG_MACONTEXT_OUT_ON_DATA_OUT \
+ 0x00000200 // If set to '1' the two context
+ // out requests
+ // (dma_req_context_out_en@@ Bit [8]
+ // above@@ and context_out interrupt
+ // enable@@ Bit [3] of AES_IRQENABLE
+ // register) are mapped on the
+ // corresponding data output request
+ // bit. In this case@@ the original
+ // ‘context out’ bit values are
+ // ignored.
+
+#define AES_SYSCONFIG_DMA_REQ_CONTEXT_OUT_EN \
+ 0x00000100 // If set to ‘1’@@ the DMA context
+ // output request is enabled (for
+ // context data out@@ e.g. TAG for
+ // authentication modes). 0 Dma
+ // disabled 1 Dma enabled
+
+#define AES_SYSCONFIG_DMA_REQ_CONTEXT_IN_EN \
+ 0x00000080 // If set to ‘1’@@ the DMA context
+ // request is enabled. 0 Dma
+ // disabled 1 Dma enabled
+
+#define AES_SYSCONFIG_DMA_REQ_DATA_OUT_EN \
+ 0x00000040 // If set to ‘1’@@ the DMA output
+ // request is enabled. 0 Dma
+ // disabled 1 Dma enabled
+
+#define AES_SYSCONFIG_DMA_REQ_DATA_IN_EN \
+ 0x00000020 // If set to ‘1’@@ the DMA input
+ // request is enabled. 0 Dma
+ // disabled 1 Dma enabled
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the AES_O_SYSSTATUS register.
+//
+//******************************************************************************
+#define AES_SYSSTATUS_RESETDONE \
+ 0x00000001
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the AES_O_IRQSTATUS register.
+//
+//******************************************************************************
+#define AES_IRQSTATUS_CONTEXT_OUT \
+ 0x00000008 // This bit indicates
+ // authentication tag (and IV)
+ // interrupt(s) is/are active and
+ // triggers the interrupt output.
+
+#define AES_IRQSTATUS_DATA_OUT \
+ 0x00000004 // This bit indicates data output
+ // interrupt is active and triggers
+ // the interrupt output.
+
+#define AES_IRQSTATUS_DATA_IN 0x00000002 // This bit indicates data input
+ // interrupt is active and triggers
+ // the interrupt output.
+#define AES_IRQSTATUS_CONTEX_IN \
+ 0x00000001 // This bit indicates context
+ // interrupt is active and triggers
+ // the interrupt output.
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the AES_O_IRQENABLE register.
+//
+//******************************************************************************
+#define AES_IRQENABLE_CONTEXT_OUT \
+ 0x00000008 // This bit indicates
+ // authentication tag (and IV)
+ // interrupt(s) is/are active and
+ // triggers the interrupt output.
+
+#define AES_IRQENABLE_DATA_OUT \
+ 0x00000004 // This bit indicates data output
+ // interrupt is active and triggers
+ // the interrupt output.
+
+#define AES_IRQENABLE_DATA_IN 0x00000002 // This bit indicates data input
+ // interrupt is active and triggers
+ // the interrupt output.
+#define AES_IRQENABLE_CONTEX_IN \
+ 0x00000001 // This bit indicates context
+ // interrupt is active and triggers
+ // the interrupt output.
+
+
+
+
+#endif // __HW_AES_H__
diff --git a/cc3200/hal/inc/hw_apps_config.h b/cc3200/hal/inc/hw_apps_config.h
new file mode 100644
index 000000000..b8789b980
--- /dev/null
+++ b/cc3200/hal/inc/hw_apps_config.h
@@ -0,0 +1,747 @@
+//*****************************************************************************
+//
+// Copyright (C) 2014 Texas Instruments Incorporated - http://www.ti.com/
+//
+//
+// Redistribution and use in source and binary forms, with or without
+// modification, are permitted provided that the following conditions
+// are met:
+//
+// Redistributions of source code must retain the above copyright
+// notice, this list of conditions and the following disclaimer.
+//
+// Redistributions in binary form must reproduce the above copyright
+// notice, this list of conditions and the following disclaimer in the
+// documentation and/or other materials provided with the
+// distribution.
+//
+// Neither the name of Texas Instruments Incorporated nor the names of
+// its contributors may be used to endorse or promote products derived
+// from this software without specific prior written permission.
+//
+// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
+// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
+// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
+// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
+// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
+// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
+// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
+// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
+// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
+// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
+// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+//
+//*****************************************************************************
+
+
+#ifndef __HW_APPS_CONFIG_H__
+#define __HW_APPS_CONFIG_H__
+
+//*****************************************************************************
+//
+// The following are defines for the APPS_CONFIG register offsets.
+//
+//*****************************************************************************
+#define APPS_CONFIG_O_PATCH_TRAP_ADDR_REG \
+ 0x00000000 // Patch trap address Register
+ // array
+
+#define APPS_CONFIG_O_PATCH_TRAP_EN_REG \
+ 0x00000078
+
+#define APPS_CONFIG_O_FAULT_STATUS_REG \
+ 0x0000007C
+
+#define APPS_CONFIG_O_MEMSS_WR_ERR_CLR_REG \
+ 0x00000080
+
+#define APPS_CONFIG_O_MEMSS_WR_ERR_ADDR_REG \
+ 0x00000084
+
+#define APPS_CONFIG_O_DMA_DONE_INT_MASK \
+ 0x0000008C
+
+#define APPS_CONFIG_O_DMA_DONE_INT_MASK_SET \
+ 0x00000090
+
+#define APPS_CONFIG_O_DMA_DONE_INT_MASK_CLR \
+ 0x00000094
+
+#define APPS_CONFIG_O_DMA_DONE_INT_STS_CLR \
+ 0x00000098
+
+#define APPS_CONFIG_O_DMA_DONE_INT_ACK \
+ 0x0000009C
+
+#define APPS_CONFIG_O_DMA_DONE_INT_STS_MASKED \
+ 0x000000A0
+
+#define APPS_CONFIG_O_DMA_DONE_INT_STS_RAW \
+ 0x000000A4
+
+#define APPS_CONFIG_O_FAULT_STATUS_CLR_REG \
+ 0x000000A8
+
+#define APPS_CONFIG_O_RESERVD_REG_0 \
+ 0x000000AC
+
+#define APPS_CONFIG_O_GPT_TRIG_SEL \
+ 0x000000B0
+
+#define APPS_CONFIG_O_TOP_DIE_SPARE_DIN_REG \
+ 0x000000B4
+
+#define APPS_CONFIG_O_TOP_DIE_SPARE_DOUT_REG \
+ 0x000000B8
+
+
+
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// APPS_CONFIG_O_PATCH_TRAP_ADDR_REG register.
+//
+//******************************************************************************
+#define APPS_CONFIG_PATCH_TRAP_ADDR_REG_PATCH_TRAP_ADDR_M \
+ 0xFFFFFFFF // When PATCH_TRAP_EN[n] is set bus
+ // fault is generated for the
+ // address
+ // PATCH_TRAP_ADDR_REG[n][31:0] from
+ // Idcode bus. The exception routine
+ // should take care to jump to the
+ // location where the patch
+ // correspond to this address is
+ // kept.
+
+#define APPS_CONFIG_PATCH_TRAP_ADDR_REG_PATCH_TRAP_ADDR_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// APPS_CONFIG_O_PATCH_TRAP_EN_REG register.
+//
+//******************************************************************************
+#define APPS_CONFIG_PATCH_TRAP_EN_REG_PATCH_TRAP_EN_M \
+ 0x3FFFFFFF // When PATCH_TRAP_EN[n] is set bus
+ // fault is generated for the
+ // address PATCH_TRAP_ADD[n][31:0]
+ // from Idcode bus. The exception
+ // routine should take care to jump
+ // to the location where the patch
+ // correspond to this address is
+ // kept.
+
+#define APPS_CONFIG_PATCH_TRAP_EN_REG_PATCH_TRAP_EN_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// APPS_CONFIG_O_FAULT_STATUS_REG register.
+//
+//******************************************************************************
+#define APPS_CONFIG_FAULT_STATUS_REG_PATCH_ERR_INDEX_M \
+ 0x0000003E // This field shows because of
+ // which patch trap address the
+ // bus_fault is generated. If the
+ // PATCH_ERR bit is set, then it
+ // means the bus fault is generated
+ // because of
+ // PATCH_TRAP_ADDR_REG[2^PATCH_ERR_INDEX]
+
+#define APPS_CONFIG_FAULT_STATUS_REG_PATCH_ERR_INDEX_S 1
+#define APPS_CONFIG_FAULT_STATUS_REG_PATCH_ERR \
+ 0x00000001 // This bit is set when there is a
+ // bus fault because of patched
+ // address access to the Apps boot
+ // rom. Write 0 to clear this
+ // register.
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// APPS_CONFIG_O_MEMSS_WR_ERR_CLR_REG register.
+//
+//******************************************************************************
+#define APPS_CONFIG_MEMSS_WR_ERR_CLR_REG_MEMSS_WR_ERR_CLR \
+ 0x00000001 // This bit is set when there is a
+ // an error in memss write access.
+ // And the address causing this
+ // error is captured in
+ // MEMSS_ERR_ADDR_REG. To capture
+ // the next error address one have
+ // to clear this bit.
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// APPS_CONFIG_O_MEMSS_WR_ERR_ADDR_REG register.
+//
+//******************************************************************************
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// APPS_CONFIG_O_DMA_DONE_INT_MASK register.
+//
+//******************************************************************************
+#define APPS_CONFIG_DMA_DONE_INT_MASK_ADC_WR_DMA_DONE_INT_MASK_M \
+ 0x0000F000 // 1= disable corresponding
+ // interrupt;0 = interrupt enabled
+ // bit 14: ADC channel 7 interrupt
+ // enable/disable bit 13: ADC
+ // channel 5 interrupt
+ // enable/disable bit 12: ADC
+ // channel 3 interrupt
+ // enable/disable bit 11: ADC
+ // channel 1 interrupt
+ // enable/disable
+
+#define APPS_CONFIG_DMA_DONE_INT_MASK_ADC_WR_DMA_DONE_INT_MASK_S 12
+#define APPS_CONFIG_DMA_DONE_INT_MASK_MCASP_WR_DMA_DONE_INT_MASK \
+ 0x00000800 // 1= disable corresponding
+ // interrupt;0 = interrupt enabled
+
+#define APPS_CONFIG_DMA_DONE_INT_MASK_MCASP_RD_DMA_DONE_INT_MASK \
+ 0x00000400 // 1= disable corresponding
+ // interrupt;0 = interrupt enabled
+
+#define APPS_CONFIG_DMA_DONE_INT_MASK_CAM_FIFO_EMPTY_DMA_DONE_INT_MASK \
+ 0x00000200 // 1= disable corresponding
+ // interrupt;0 = interrupt enabled
+
+#define APPS_CONFIG_DMA_DONE_INT_MASK_CAM_THRESHHOLD_DMA_DONE_INT_MASK \
+ 0x00000100 // 1= disable corresponding
+ // interrupt;0 = interrupt enabled
+
+#define APPS_CONFIG_DMA_DONE_INT_MASK_SHSPI_WR_DMA_DONE_INT_MASK \
+ 0x00000080 // 1= disable corresponding
+ // interrupt;0 = interrupt enabled
+
+#define APPS_CONFIG_DMA_DONE_INT_MASK_SHSPI_RD_DMA_DONE_INT_MASK \
+ 0x00000040 // 1= disable corresponding
+ // interrupt;0 = interrupt enabled
+
+#define APPS_CONFIG_DMA_DONE_INT_MASK_HOSTSPI_WR_DMA_DONE_INT_MASK \
+ 0x00000020 // 1= disable corresponding
+ // interrupt;0 = interrupt enabled
+
+#define APPS_CONFIG_DMA_DONE_INT_MASK_HOSTSPI_RD_DMA_DONE_INT_MASK \
+ 0x00000010 // 1= disable corresponding
+ // interrupt;0 = interrupt enabled
+
+#define APPS_CONFIG_DMA_DONE_INT_MASK_APPS_SPI_WR_DMA_DONE_INT_MASK \
+ 0x00000008 // 1= disable corresponding
+ // interrupt;0 = interrupt enabled
+
+#define APPS_CONFIG_DMA_DONE_INT_MASK_APPS_SPI_RD_DMA_DONE_INT_MASK \
+ 0x00000004 // 1= disable corresponding
+ // interrupt;0 = interrupt enabled
+
+#define APPS_CONFIG_DMA_DONE_INT_MASK_SDIOM_WR_DMA_DONE_INT_MASK \
+ 0x00000002 // 1= disable corresponding
+ // interrupt;0 = interrupt enabled
+
+#define APPS_CONFIG_DMA_DONE_INT_MASK_SDIOM_RD_DMA_DONE_INT_MASK \
+ 0x00000001 // 1= disable corresponding
+ // interrupt;0 = interrupt enabled
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// APPS_CONFIG_O_DMA_DONE_INT_MASK_SET register.
+//
+//******************************************************************************
+#define APPS_CONFIG_DMA_DONE_INT_MASK_SET_ADC_WR_DMA_DONE_INT_MASK_SET_M \
+ 0x0000F000 // write 1 to set mask of the
+ // corresponding DMA DONE IRQ;0 = no
+ // effect bit 14: ADC channel 7 DMA
+ // Done IRQ bit 13: ADC channel 5
+ // DMA Done IRQ bit 12: ADC channel
+ // 3 DMA Done IRQ bit 11: ADC
+ // channel 1 DMA Done IRQ
+
+#define APPS_CONFIG_DMA_DONE_INT_MASK_SET_ADC_WR_DMA_DONE_INT_MASK_SET_S 12
+#define APPS_CONFIG_DMA_DONE_INT_MASK_SET_MCASP_WR_DMA_DONE_INT_MASK_SET \
+ 0x00000800 // write 1 to set mask of the
+ // corresponding DMA DONE IRQ;0 = no
+ // effect
+
+#define APPS_CONFIG_DMA_DONE_INT_MASK_SET_MCASP_RD_DMA_DONE_INT_MASK_SET \
+ 0x00000400 // write 1 to set mask of the
+ // corresponding DMA DONE IRQ;0 = no
+ // effect
+
+#define APPS_CONFIG_DMA_DONE_INT_MASK_SET_CAM_FIFO_EMPTY_DMA_DONE_INT_MASK_SET \
+ 0x00000200 // write 1 to set mask of the
+ // corresponding DMA DONE IRQ;0 = no
+ // effect
+
+#define APPS_CONFIG_DMA_DONE_INT_MASK_SET_CAM_THRESHHOLD_DMA_DONE_INT_MASK_SET \
+ 0x00000100 // write 1 to set mask of the
+ // corresponding DMA DONE IRQ;0 = no
+ // effect
+
+#define APPS_CONFIG_DMA_DONE_INT_MASK_SET_SHSPI_WR_DMA_DONE_INT_MASK_SET \
+ 0x00000080 // write 1 to set mask of the
+ // corresponding DMA DONE IRQ;0 = no
+ // effect
+
+#define APPS_CONFIG_DMA_DONE_INT_MASK_SET_SHSPI_RD_DMA_DONE_INT_MASK_SET \
+ 0x00000040 // write 1 to set mask of the
+ // corresponding DMA DONE IRQ;0 = no
+ // effect
+
+#define APPS_CONFIG_DMA_DONE_INT_MASK_SET_HOSTSPI_WR_DMA_DONE_INT_MASK_SET \
+ 0x00000020 // write 1 to set mask of the
+ // corresponding DMA DONE IRQ;0 = no
+ // effect
+
+#define APPS_CONFIG_DMA_DONE_INT_MASK_SET_HOSTSPI_RD_DMA_DONE_INT_MASK_SET \
+ 0x00000010 // write 1 to set mask of the
+ // corresponding DMA DONE IRQ;0 = no
+ // effect
+
+#define APPS_CONFIG_DMA_DONE_INT_MASK_SET_APPS_SPI_WR_DMA_DONE_INT_MASK_SET \
+ 0x00000008 // write 1 to set mask of the
+ // corresponding DMA DONE IRQ;0 = no
+ // effect
+
+#define APPS_CONFIG_DMA_DONE_INT_MASK_SET_APPS_SPI_RD_DMA_DONE_INT_MASK_SET \
+ 0x00000004 // write 1 to set mask of the
+ // corresponding DMA DONE IRQ;0 = no
+ // effect
+
+#define APPS_CONFIG_DMA_DONE_INT_MASK_SET_SDIOM_WR_DMA_DONE_INT_MASK_SET \
+ 0x00000002 // write 1 to set mask of the
+ // corresponding DMA DONE IRQ;0 = no
+ // effect
+
+#define APPS_CONFIG_DMA_DONE_INT_MASK_SET_SDIOM_RD_DMA_DONE_INT_MASK_SET \
+ 0x00000001 // write 1 to set mask of the
+ // corresponding DMA DONE IRQ;0 = no
+ // effect
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// APPS_CONFIG_O_DMA_DONE_INT_MASK_CLR register.
+//
+//******************************************************************************
+#define APPS_CONFIG_DMA_DONE_INT_MASK_CLR_ADC_WR_DMA_DONE_INT_MASK_CLR_M \
+ 0x0000F000 // write 1 to clear mask of the
+ // corresponding DMA DONE IRQ;0 = no
+ // effect bit 14: ADC channel 7 DMA
+ // Done IRQ mask bit 13: ADC channel
+ // 5 DMA Done IRQ mask bit 12: ADC
+ // channel 3 DMA Done IRQ mask bit
+ // 11: ADC channel 1 DMA Done IRQ
+ // mask
+
+#define APPS_CONFIG_DMA_DONE_INT_MASK_CLR_ADC_WR_DMA_DONE_INT_MASK_CLR_S 12
+#define APPS_CONFIG_DMA_DONE_INT_MASK_CLR_MACASP_WR_DMA_DONE_INT_MASK_CLR \
+ 0x00000800 // write 1 to clear mask of the
+ // corresponding DMA DONE IRQ;0 = no
+ // effect
+
+#define APPS_CONFIG_DMA_DONE_INT_MASK_CLR_MCASP_RD_DMA_DONE_INT_MASK_CLR \
+ 0x00000400 // write 1 to clear mask of the
+ // corresponding DMA DONE IRQ;0 = no
+ // effect
+
+#define APPS_CONFIG_DMA_DONE_INT_MASK_CLR_CAM_FIFO_EMPTY_DMA_DONE_INT_MASK_CLR \
+ 0x00000200 // write 1 to clear mask of the
+ // corresponding DMA DONE IRQ;0 = no
+ // effect
+
+#define APPS_CONFIG_DMA_DONE_INT_MASK_CLR_CAM_THRESHHOLD_DMA_DONE_INT_MASK_CLR \
+ 0x00000100 // write 1 to clear mask of the
+ // corresponding DMA DONE IRQ;0 = no
+ // effect
+
+#define APPS_CONFIG_DMA_DONE_INT_MASK_CLR_SHSPI_WR_DMA_DONE_INT_MASK_CLR \
+ 0x00000080 // write 1 to clear mask of the
+ // corresponding DMA DONE IRQ;0 = no
+ // effect
+
+#define APPS_CONFIG_DMA_DONE_INT_MASK_CLR_SHSPI_RD_DMA_DONE_INT_MASK_CLR \
+ 0x00000040 // write 1 to clear mask of the
+ // corresponding DMA DONE IRQ;0 = no
+ // effect
+
+#define APPS_CONFIG_DMA_DONE_INT_MASK_CLR_HOSTSPI_WR_DMA_DONE_INT_MASK_CLR \
+ 0x00000020 // write 1 to clear mask of the
+ // corresponding DMA DONE IRQ;0 = no
+ // effect
+
+#define APPS_CONFIG_DMA_DONE_INT_MASK_CLR_HOSTSPI_RD_DMA_DONE_INT_MASK_CLR \
+ 0x00000010 // write 1 to clear mask of the
+ // corresponding DMA DONE IRQ;0 = no
+ // effect
+
+#define APPS_CONFIG_DMA_DONE_INT_MASK_CLR_APPS_SPI_WR_DMA_DONE_INT_MASK_CLR \
+ 0x00000008 // write 1 to clear mask of the
+ // corresponding DMA DONE IRQ;0 = no
+ // effect
+
+#define APPS_CONFIG_DMA_DONE_INT_MASK_CLR_APPS_SPI_RD_DMA_DONE_INT_MASK_CLR \
+ 0x00000004 // write 1 to clear mask of the
+ // corresponding DMA DONE IRQ;0 = no
+ // effect
+
+#define APPS_CONFIG_DMA_DONE_INT_MASK_CLR_SDIOM_WR_DMA_DONE_INT_MASK_CLR \
+ 0x00000002 // write 1 to clear mask of the
+ // corresponding DMA DONE IRQ;0 = no
+ // effect
+
+#define APPS_CONFIG_DMA_DONE_INT_MASK_CLR_SDIOM_RD_DMA_DONE_INT_MASK_CLR \
+ 0x00000001 // write 1 to clear mask of the
+ // corresponding DMA DONE IRQ;0 = no
+ // effect
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// APPS_CONFIG_O_DMA_DONE_INT_STS_CLR register.
+//
+//******************************************************************************
+#define APPS_CONFIG_DMA_DONE_INT_STS_CLR_DMA_INT_STS_CLR_M \
+ 0xFFFFFFFF // write 1 or 0 to clear all
+ // DMA_DONE interrupt;
+
+#define APPS_CONFIG_DMA_DONE_INT_STS_CLR_DMA_INT_STS_CLR_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// APPS_CONFIG_O_DMA_DONE_INT_ACK register.
+//
+//******************************************************************************
+#define APPS_CONFIG_DMA_DONE_INT_ACK_ADC_WR_DMA_DONE_INT_ACK_M \
+ 0x0000F000 // write 1 to clear corresponding
+ // interrupt; 0 = no effect; bit 14:
+ // ADC channel 7 DMA Done IRQ bit
+ // 13: ADC channel 5 DMA Done IRQ
+ // bit 12: ADC channel 3 DMA Done
+ // IRQ bit 11: ADC channel 1 DMA
+ // Done IRQ
+
+#define APPS_CONFIG_DMA_DONE_INT_ACK_ADC_WR_DMA_DONE_INT_ACK_S 12
+#define APPS_CONFIG_DMA_DONE_INT_ACK_MCASP_WR_DMA_DONE_INT_ACK \
+ 0x00000800 // write 1 to clear corresponding
+ // interrupt; 0 = no effect;
+
+#define APPS_CONFIG_DMA_DONE_INT_ACK_MCASP_RD_DMA_DONE_INT_ACK \
+ 0x00000400 // write 1 to clear corresponding
+ // interrupt; 0 = no effect;
+
+#define APPS_CONFIG_DMA_DONE_INT_ACK_CAM_FIFO_EMPTY_DMA_DONE_INT_ACK \
+ 0x00000200 // write 1 to clear corresponding
+ // interrupt; 0 = no effect;
+
+#define APPS_CONFIG_DMA_DONE_INT_ACK_CAM_THRESHHOLD_DMA_DONE_INT_ACK \
+ 0x00000100 // write 1 to clear corresponding
+ // interrupt; 0 = no effect;
+
+#define APPS_CONFIG_DMA_DONE_INT_ACK_SHSPI_WR_DMA_DONE_INT_ACK \
+ 0x00000080 // write 1 to clear corresponding
+ // interrupt; 0 = no effect;
+
+#define APPS_CONFIG_DMA_DONE_INT_ACK_SHSPI_RD_DMA_DONE_INT_ACK \
+ 0x00000040 // write 1 to clear corresponding
+ // interrupt; 0 = no effect;
+
+#define APPS_CONFIG_DMA_DONE_INT_ACK_HOSTSPI_WR_DMA_DONE_INT_ACK \
+ 0x00000020 // write 1 to clear corresponding
+ // interrupt; 0 = no effect;
+
+#define APPS_CONFIG_DMA_DONE_INT_ACK_HOSTSPI_RD_DMA_DONE_INT_ACK \
+ 0x00000010 // write 1 to clear corresponding
+ // interrupt; 0 = no effect;
+
+#define APPS_CONFIG_DMA_DONE_INT_ACK_APPS_SPI_WR_DMA_DONE_INT_ACK \
+ 0x00000008 // write 1 to clear corresponding
+ // interrupt; 0 = no effect;
+
+#define APPS_CONFIG_DMA_DONE_INT_ACK_APPS_SPI_RD_DMA_DONE_INT_ACK \
+ 0x00000004 // write 1 to clear corresponding
+ // interrupt; 0 = no effect;
+
+#define APPS_CONFIG_DMA_DONE_INT_ACK_SDIOM_WR_DMA_DONE_INT_ACK \
+ 0x00000002 // write 1 to clear corresponding
+ // interrupt; 0 = no effect;
+
+#define APPS_CONFIG_DMA_DONE_INT_ACK_SDIOM_RD_DMA_DONE_INT_ACK \
+ 0x00000001 // write 1 to clear corresponding
+ // interrupt; 0 = no effect;
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// APPS_CONFIG_O_DMA_DONE_INT_STS_MASKED register.
+//
+//******************************************************************************
+#define APPS_CONFIG_DMA_DONE_INT_STS_MASKED_ADC_WR_DMA_DONE_INT_STS_MASKED_M \
+ 0x0000F000 // 1= corresponding interrupt is
+ // active and not masked. read is
+ // non-destructive;0 = corresponding
+ // interrupt is inactive or masked
+ // by DMA_DONE_INT mask bit 14: ADC
+ // channel 7 DMA Done IRQ bit 13:
+ // ADC channel 5 DMA Done IRQ bit
+ // 12: ADC channel 3 DMA Done IRQ
+ // bit 11: ADC channel 1 DMA Done
+ // IRQ
+
+#define APPS_CONFIG_DMA_DONE_INT_STS_MASKED_ADC_WR_DMA_DONE_INT_STS_MASKED_S 12
+#define APPS_CONFIG_DMA_DONE_INT_STS_MASKED_MCASP_WR_DMA_DONE_INT_STS_MASKED \
+ 0x00000800 // 1= corresponding interrupt is
+ // active and not masked. read is
+ // non-destructive;0 = corresponding
+ // interrupt is inactive or masked
+ // by DMA_DONE_INT mask
+
+#define APPS_CONFIG_DMA_DONE_INT_STS_MASKED_MCASP_RD_DMA_DONE_INT_STS_MASKED \
+ 0x00000400 // 1= corresponding interrupt is
+ // active and not masked. read is
+ // non-destructive;0 = corresponding
+ // interrupt is inactive or masked
+ // by DMA_DONE_INT mask
+
+#define APPS_CONFIG_DMA_DONE_INT_STS_MASKED_CAM_FIFO_EMPTY_DMA_DONE_INT_STS_MASKED \
+ 0x00000200 // 1= corresponding interrupt is
+ // active and not masked. read is
+ // non-destructive;0 = corresponding
+ // interrupt is inactive or masked
+ // by DMA_DONE_INT mask
+
+#define APPS_CONFIG_DMA_DONE_INT_STS_MASKED_CAM_THRESHHOLD_DMA_DONE_INT_STS_MASKED \
+ 0x00000100 // 1= corresponding interrupt is
+ // active and not masked. read is
+ // non-destructive;0 = corresponding
+ // interrupt is inactive or masked
+ // by DMA_DONE_INT mask
+
+#define APPS_CONFIG_DMA_DONE_INT_STS_MASKED_SHSPI_WR_DMA_DONE_INT_STS_MASKED \
+ 0x00000080 // 1= corresponding interrupt is
+ // active and not masked. read is
+ // non-destructive;0 = corresponding
+ // interrupt is inactive or masked
+ // by DMA_DONE_INT mask
+
+#define APPS_CONFIG_DMA_DONE_INT_STS_MASKED_SHSPI_RD_DMA_DONE_INT_STS_MASKED \
+ 0x00000040 // 1= corresponding interrupt is
+ // active and not masked. read is
+ // non-destructive;0 = corresponding
+ // interrupt is inactive or masked
+ // by DMA_DONE_INT mask
+
+#define APPS_CONFIG_DMA_DONE_INT_STS_MASKED_HOSTSPI_WR_DMA_DONE_INT_STS_MASKED \
+ 0x00000020 // 1= corresponding interrupt is
+ // active and not masked. read is
+ // non-destructive;0 = corresponding
+ // interrupt is inactive or masked
+ // by DMA_DONE_INT mask
+
+#define APPS_CONFIG_DMA_DONE_INT_STS_MASKED_HOSTSPI_RD_DMA_DONE_INT_STS_MASKED \
+ 0x00000010 // 1= corresponding interrupt is
+ // active and not masked. read is
+ // non-destructive;0 = corresponding
+ // interrupt is inactive or masked
+ // by DMA_DONE_INT mask
+
+#define APPS_CONFIG_DMA_DONE_INT_STS_MASKED_APPS_SPI_WR_DMA_DONE_INT_STS_MASKED \
+ 0x00000008 // 1= corresponding interrupt is
+ // active and not masked. read is
+ // non-destructive;0 = corresponding
+ // interrupt is inactive or masked
+ // by DMA_DONE_INT mask
+
+#define APPS_CONFIG_DMA_DONE_INT_STS_MASKED_APPS_SPI_RD_DMA_DONE_INT_STS_MASKED \
+ 0x00000004 // 1= corresponding interrupt is
+ // active and not masked. read is
+ // non-destructive;0 = corresponding
+ // interrupt is inactive or masked
+ // by DMA_DONE_INT mask
+
+#define APPS_CONFIG_DMA_DONE_INT_STS_MASKED_SDIOM_WR_DMA_DONE_INT_STS_MASKED \
+ 0x00000002 // 1= corresponding interrupt is
+ // active and not masked. read is
+ // non-destructive;0 = corresponding
+ // interrupt is inactive or masked
+ // by DMA_DONE_INT mask
+
+#define APPS_CONFIG_DMA_DONE_INT_STS_MASKED_SDIOM_RD_DMA_DONE_INT_STS_MASKED \
+ 0x00000001 // 1= corresponding interrupt is
+ // active and not masked. read is
+ // non-destructive;0 = corresponding
+ // interrupt is inactive or masked
+ // by DMA_DONE_INT mask
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// APPS_CONFIG_O_DMA_DONE_INT_STS_RAW register.
+//
+//******************************************************************************
+#define APPS_CONFIG_DMA_DONE_INT_STS_RAW_ADC_WR_DMA_DONE_INT_STS_RAW_M \
+ 0x0000F000 // 1= corresponding interrupt is
+ // active. read is non-destructive;0
+ // = corresponding interrupt is
+ // inactive bit 14: ADC channel 7
+ // DMA Done IRQ bit 13: ADC channel
+ // 5 DMA Done IRQ bit 12: ADC
+ // channel 3 DMA Done IRQ bit 11:
+ // ADC channel 1 DMA Done IRQ
+
+#define APPS_CONFIG_DMA_DONE_INT_STS_RAW_ADC_WR_DMA_DONE_INT_STS_RAW_S 12
+#define APPS_CONFIG_DMA_DONE_INT_STS_RAW_MCASP_WR_DMA_DONE_INT_STS_RAW \
+ 0x00000800 // 1= corresponding interrupt is
+ // active. read is non-destructive;0
+ // = corresponding interrupt is
+ // inactive
+
+#define APPS_CONFIG_DMA_DONE_INT_STS_RAW_MCASP_RD_DMA_DONE_INT_STS_RAW \
+ 0x00000400 // 1= corresponding interrupt is
+ // active. read is non-destructive;0
+ // = corresponding interrupt is
+ // inactive
+
+#define APPS_CONFIG_DMA_DONE_INT_STS_RAW_CAM_EPMTY_FIFO_DMA_DONE_INT_STS_RAW \
+ 0x00000200 // 1= corresponding interrupt is
+ // active. read is non-destructive;0
+ // = corresponding interrupt is
+ // inactive
+
+#define APPS_CONFIG_DMA_DONE_INT_STS_RAW_CAM_THRESHHOLD_DMA_DONE_INT_STS_RAW \
+ 0x00000100 // 1= corresponding interrupt is
+ // active. read is non-destructive;0
+ // = corresponding interrupt is
+ // inactive
+
+#define APPS_CONFIG_DMA_DONE_INT_STS_RAW_SHSPI_WR_DMA_DONE_INT_STS_RAW \
+ 0x00000080 // 1= corresponding interrupt is
+ // active. read is non-destructive;0
+ // = corresponding interrupt is
+ // inactive
+
+#define APPS_CONFIG_DMA_DONE_INT_STS_RAW_SHSPI_RD_DMA_DONE_INT_STS_RAW \
+ 0x00000040 // 1= corresponding interrupt is
+ // active. read is non-destructive;0
+ // = corresponding interrupt is
+ // inactive
+
+#define APPS_CONFIG_DMA_DONE_INT_STS_RAW_HOSTSPI_WR_DMA_DONE_INT_STS_RAW \
+ 0x00000020 // 1= corresponding interrupt is
+ // active. read is non-destructive;0
+ // = corresponding interrupt is
+ // inactive
+
+#define APPS_CONFIG_DMA_DONE_INT_STS_RAW_HOSTSPI_RD_DMA_DONE_INT_STS_RAW \
+ 0x00000010 // 1= corresponding interrupt is
+ // active. read is non-destructive;0
+ // = corresponding interrupt is
+ // inactive
+
+#define APPS_CONFIG_DMA_DONE_INT_STS_RAW_APPS_SPI_WR_DMA_DONE_INT_STS_RAW \
+ 0x00000008 // 1= corresponding interrupt is
+ // active. read is non-destructive;0
+ // = corresponding interrupt is
+ // inactive
+
+#define APPS_CONFIG_DMA_DONE_INT_STS_RAW_APPS_SPI_RD_DMA_DONE_INT_STS_RAW \
+ 0x00000004 // 1= corresponding interrupt is
+ // active. read is non-destructive;0
+ // = corresponding interrupt is
+ // inactive
+
+#define APPS_CONFIG_DMA_DONE_INT_STS_RAW_SDIOM_WR_DMA_DONE_INT_STS_RAW \
+ 0x00000002 // 1= corresponding interrupt is
+ // active. read is non-destructive;0
+ // = corresponding interrupt is
+ // inactive
+
+#define APPS_CONFIG_DMA_DONE_INT_STS_RAW_SDIOM_RD_DMA_DONE_INT_STS_RAW \
+ 0x00000001 // 1= corresponding interrupt is
+ // active. read is non-destructive;0
+ // = corresponding interrupt is
+ // inactive
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// APPS_CONFIG_O_FAULT_STATUS_CLR_REG register.
+//
+//******************************************************************************
+#define APPS_CONFIG_FAULT_STATUS_CLR_REG_PATCH_ERR_CLR \
+ 0x00000001 // Write 1 to clear the LSB of
+ // FAULT_STATUS_REG
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// APPS_CONFIG_O_RESERVD_REG_0 register.
+//
+//******************************************************************************
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// APPS_CONFIG_O_GPT_TRIG_SEL register.
+//
+//******************************************************************************
+#define APPS_CONFIG_GPT_TRIG_SEL_GPT_TRIG_SEL_M \
+ 0x000000FF // This bit is implemented for GPT
+ // trigger mode select. GPT IP
+ // support 2 modes: RTC mode and
+ // external trigger. When this bit
+ // is set to logic '1': enable
+ // external trigger mode for APPS
+ // GPT CP0 and CP1 pin. bit 0: when
+ // set '1' enable external GPT
+ // trigger 0 on GPIO0 CP0 pin else
+ // RTC mode is selected. bit 1: when
+ // set '1' enable external GPT
+ // trigger 1 on GPIO0 CP1 pin else
+ // RTC mode is selected. bit 2: when
+ // set '1' enable external GPT
+ // trigger 2 on GPIO1 CP0 pin else
+ // RTC mode is selected. bit 3: when
+ // set '1' enable external GPT
+ // trigger 3 on GPIO1 CP1 pin else
+ // RTC mode is selected. bit 4: when
+ // set '1' enable external GPT
+ // trigger 4 on GPIO2 CP0 pin else
+ // RTC mode is selected. bit 5: when
+ // set '1' enable external GPT
+ // trigger 5 on GPIO2 CP1 pin else
+ // RTC mode is selected. bit 6: when
+ // set '1' enable external GPT
+ // trigger 6 on GPIO3 CP0 pin else
+ // RTC mode is selected. bit 7: when
+ // set '1' enable external GPT
+ // trigger 7 on GPIO3 CP1 pin else
+ // RTC mode is selected.
+
+#define APPS_CONFIG_GPT_TRIG_SEL_GPT_TRIG_SEL_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// APPS_CONFIG_O_TOP_DIE_SPARE_DIN_REG register.
+//
+//******************************************************************************
+#define APPS_CONFIG_TOP_DIE_SPARE_DIN_REG_D2D_SPARE_DIN_M \
+ 0x00000007 // Capture data from d2d_spare pads
+
+#define APPS_CONFIG_TOP_DIE_SPARE_DIN_REG_D2D_SPARE_DIN_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// APPS_CONFIG_O_TOP_DIE_SPARE_DOUT_REG register.
+//
+//******************************************************************************
+#define APPS_CONFIG_TOP_DIE_SPARE_DOUT_REG_D2D_SPARE_DOUT_M \
+ 0x00000007 // Send data to d2d_spare pads -
+ // eventually this will get
+ // registered in top die
+
+#define APPS_CONFIG_TOP_DIE_SPARE_DOUT_REG_D2D_SPARE_DOUT_S 0
+
+
+
+#endif // __HW_APPS_CONFIG_H__
diff --git a/cc3200/hal/inc/hw_apps_rcm.h b/cc3200/hal/inc/hw_apps_rcm.h
new file mode 100644
index 000000000..edb52d26b
--- /dev/null
+++ b/cc3200/hal/inc/hw_apps_rcm.h
@@ -0,0 +1,1506 @@
+//*****************************************************************************
+//
+// Copyright (C) 2014 Texas Instruments Incorporated - http://www.ti.com/
+//
+//
+// Redistribution and use in source and binary forms, with or without
+// modification, are permitted provided that the following conditions
+// are met:
+//
+// Redistributions of source code must retain the above copyright
+// notice, this list of conditions and the following disclaimer.
+//
+// Redistributions in binary form must reproduce the above copyright
+// notice, this list of conditions and the following disclaimer in the
+// documentation and/or other materials provided with the
+// distribution.
+//
+// Neither the name of Texas Instruments Incorporated nor the names of
+// its contributors may be used to endorse or promote products derived
+// from this software without specific prior written permission.
+//
+// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
+// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
+// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
+// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
+// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
+// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
+// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
+// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
+// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
+// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
+// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+//
+//*****************************************************************************
+
+#ifndef __HW_APPS_RCM_H__
+#define __HW_APPS_RCM_H__
+
+//*****************************************************************************
+//
+// The following are defines for the APPS_RCM register offsets.
+//
+//*****************************************************************************
+#define APPS_RCM_O_CAMERA_CLK_GEN \
+ 0x00000000
+
+#define APPS_RCM_O_CAMERA_CLK_GATING \
+ 0x00000004
+
+#define APPS_RCM_O_CAMERA_SOFT_RESET \
+ 0x00000008
+
+#define APPS_RCM_O_MCASP_CLK_GATING \
+ 0x00000014
+
+#define APPS_RCM_O_MCASP_SOFT_RESET \
+ 0x00000018
+
+#define APPS_RCM_O_MMCHS_CLK_GEN \
+ 0x00000020
+
+#define APPS_RCM_O_MMCHS_CLK_GATING \
+ 0x00000024
+
+#define APPS_RCM_O_MMCHS_SOFT_RESET \
+ 0x00000028
+
+#define APPS_RCM_O_MCSPI_A1_CLK_GEN \
+ 0x0000002C
+
+#define APPS_RCM_O_MCSPI_A1_CLK_GATING \
+ 0x00000030
+
+#define APPS_RCM_O_MCSPI_A1_SOFT_RESET \
+ 0x00000034
+
+#define APPS_RCM_O_MCSPI_A2_CLK_GEN \
+ 0x00000038
+
+#define APPS_RCM_O_MCSPI_A2_CLK_GATING \
+ 0x00000040
+
+#define APPS_RCM_O_MCSPI_A2_SOFT_RESET \
+ 0x00000044
+
+#define APPS_RCM_O_UDMA_A_CLK_GATING \
+ 0x00000048
+
+#define APPS_RCM_O_UDMA_A_SOFT_RESET \
+ 0x0000004C
+
+#define APPS_RCM_O_GPIO_A_CLK_GATING \
+ 0x00000050
+
+#define APPS_RCM_O_GPIO_A_SOFT_RESET \
+ 0x00000054
+
+#define APPS_RCM_O_GPIO_B_CLK_GATING \
+ 0x00000058
+
+#define APPS_RCM_O_GPIO_B_SOFT_RESET \
+ 0x0000005C
+
+#define APPS_RCM_O_GPIO_C_CLK_GATING \
+ 0x00000060
+
+#define APPS_RCM_O_GPIO_C_SOFT_RESET \
+ 0x00000064
+
+#define APPS_RCM_O_GPIO_D_CLK_GATING \
+ 0x00000068
+
+#define APPS_RCM_O_GPIO_D_SOFT_RESET \
+ 0x0000006C
+
+#define APPS_RCM_O_GPIO_E_CLK_GATING \
+ 0x00000070
+
+#define APPS_RCM_O_GPIO_E_SOFT_RESET \
+ 0x00000074
+
+#define APPS_RCM_O_WDOG_A_CLK_GATING \
+ 0x00000078
+
+#define APPS_RCM_O_WDOG_A_SOFT_RESET \
+ 0x0000007C
+
+#define APPS_RCM_O_UART_A0_CLK_GATING \
+ 0x00000080
+
+#define APPS_RCM_O_UART_A0_SOFT_RESET \
+ 0x00000084
+
+#define APPS_RCM_O_UART_A1_CLK_GATING \
+ 0x00000088
+
+#define APPS_RCM_O_UART_A1_SOFT_RESET \
+ 0x0000008C
+
+#define APPS_RCM_O_GPT_A0_CLK_GATING \
+ 0x00000090
+
+#define APPS_RCM_O_GPT_A0_SOFT_RESET \
+ 0x00000094
+
+#define APPS_RCM_O_GPT_A1_CLK_GATING \
+ 0x00000098
+
+#define APPS_RCM_O_GPT_A1_SOFT_RESET \
+ 0x0000009C
+
+#define APPS_RCM_O_GPT_A2_CLK_GATING \
+ 0x000000A0
+
+#define APPS_RCM_O_GPT_A2_SOFT_RESET \
+ 0x000000A4
+
+#define APPS_RCM_O_GPT_A3_CLK_GATING \
+ 0x000000A8
+
+#define APPS_RCM_O_GPT_A3_SOFT_RESET \
+ 0x000000AC
+
+#define APPS_RCM_O_MCASP_FRAC_CLK_CONFIG0 \
+ 0x000000B0
+
+#define APPS_RCM_O_MCASP_FRAC_CLK_CONFIG1 \
+ 0x000000B4
+
+#define APPS_RCM_O_CRYPTO_CLK_GATING \
+ 0x000000B8
+
+#define APPS_RCM_O_CRYPTO_SOFT_RESET \
+ 0x000000BC
+
+#define APPS_RCM_O_MCSPI_S0_CLK_GATING \
+ 0x000000C8
+
+#define APPS_RCM_O_MCSPI_S0_SOFT_RESET \
+ 0x000000CC
+
+#define APPS_RCM_O_MCSPI_S0_CLKDIV_CFG \
+ 0x000000D0
+
+#define APPS_RCM_O_I2C_CLK_GATING \
+ 0x000000D8
+
+#define APPS_RCM_O_I2C_SOFT_RESET \
+ 0x000000DC
+
+#define APPS_RCM_O_APPS_LPDS_REQ \
+ 0x000000E4
+
+#define APPS_RCM_O_APPS_TURBO_REQ \
+ 0x000000EC
+
+#define APPS_RCM_O_APPS_DSLP_WAKE_CONFIG \
+ 0x00000108
+
+#define APPS_RCM_O_APPS_DSLP_WAKE_TIMER_CFG \
+ 0x0000010C
+
+#define APPS_RCM_O_APPS_RCM_SLP_WAKE_ENABLE \
+ 0x00000110
+
+#define APPS_RCM_O_APPS_SLP_WAKETIMER_CFG \
+ 0x00000114
+
+#define APPS_RCM_O_APPS_TO_NWP_WAKE_REQUEST \
+ 0x00000118
+
+#define APPS_RCM_O_APPS_RCM_INTERRUPT_STATUS \
+ 0x00000120
+
+#define APPS_RCM_O_APPS_RCM_INTERRUPT_ENABLE \
+ 0x00000124
+
+
+
+
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// APPS_RCM_O_CAMERA_CLK_GEN register.
+//
+//******************************************************************************
+#define APPS_RCM_CAMERA_CLK_GEN_CAMERA_PLLCKDIV_OFF_TIME_M \
+ 0x00000700 // Configuration of OFF-TIME for
+ // dividing PLL clk (240 MHz) in
+ // generation of Camera func-clk :
+ // "000" - 1 "001" - 2 "010" - 3
+ // "011" - 4 "100" - 5 "101" - 6
+ // "110" - 7 "111" - 8
+
+#define APPS_RCM_CAMERA_CLK_GEN_CAMERA_PLLCKDIV_OFF_TIME_S 8
+#define APPS_RCM_CAMERA_CLK_GEN_NU1_M \
+ 0x000000F8
+
+#define APPS_RCM_CAMERA_CLK_GEN_NU1_S 3
+#define APPS_RCM_CAMERA_CLK_GEN_CAMERA_PLLCKDIV_ON_TIME_M \
+ 0x00000007 // Configuration of ON-TIME for
+ // dividing PLL clk (240 MHz) in
+ // generation of Camera func-clk :
+ // "000" - 1 "001" - 2 "010" - 3
+ // "011" - 4 "100" - 5 "101" - 6
+ // "110" - 7 "111" - 8
+
+#define APPS_RCM_CAMERA_CLK_GEN_CAMERA_PLLCKDIV_ON_TIME_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// APPS_RCM_O_CAMERA_CLK_GATING register.
+//
+//******************************************************************************
+#define APPS_RCM_CAMERA_CLK_GATING_NU1_M \
+ 0x00FE0000
+
+#define APPS_RCM_CAMERA_CLK_GATING_NU1_S 17
+#define APPS_RCM_CAMERA_CLK_GATING_CAMERA_DSLP_CLK_ENABLE \
+ 0x00010000 // 0 - Disable camera clk during
+ // deep-sleep mode
+
+#define APPS_RCM_CAMERA_CLK_GATING_NU2_M \
+ 0x0000FE00
+
+#define APPS_RCM_CAMERA_CLK_GATING_NU2_S 9
+#define APPS_RCM_CAMERA_CLK_GATING_CAMERA_SLP_CLK_ENABLE \
+ 0x00000100 // 1- Enable camera clk during
+ // sleep mode ; 0- Disable camera
+ // clk during sleep mode
+
+#define APPS_RCM_CAMERA_CLK_GATING_NU3_M \
+ 0x000000FE
+
+#define APPS_RCM_CAMERA_CLK_GATING_NU3_S 1
+#define APPS_RCM_CAMERA_CLK_GATING_CAMERA_RUN_CLK_ENABLE \
+ 0x00000001 // 1- Enable camera clk during run
+ // mode ; 0- Disable camera clk
+ // during run mode
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// APPS_RCM_O_CAMERA_SOFT_RESET register.
+//
+//******************************************************************************
+#define APPS_RCM_CAMERA_SOFT_RESET_CAMERA_ENABLED_STATUS \
+ 0x00000002 // 1 - Camera clocks/resets are
+ // enabled ; 0 - Camera
+ // clocks/resets are disabled
+
+#define APPS_RCM_CAMERA_SOFT_RESET_CAMERA_SOFT_RESET \
+ 0x00000001 // 1 - Assert reset for Camera-core
+ // ; 0 - De-assert reset for
+ // Camera-core
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// APPS_RCM_O_MCASP_CLK_GATING register.
+//
+//******************************************************************************
+#define APPS_RCM_MCASP_CLK_GATING_NU1_M \
+ 0x00FE0000
+
+#define APPS_RCM_MCASP_CLK_GATING_NU1_S 17
+#define APPS_RCM_MCASP_CLK_GATING_MCASP_DSLP_CLK_ENABLE \
+ 0x00010000 // 0 - Disable MCASP clk during
+ // deep-sleep mode
+
+#define APPS_RCM_MCASP_CLK_GATING_NU2_M \
+ 0x0000FE00
+
+#define APPS_RCM_MCASP_CLK_GATING_NU2_S 9
+#define APPS_RCM_MCASP_CLK_GATING_MCASP_SLP_CLK_ENABLE \
+ 0x00000100 // 1- Enable MCASP clk during sleep
+ // mode ; 0- Disable MCASP clk
+ // during sleep mode
+
+#define APPS_RCM_MCASP_CLK_GATING_NU3_M \
+ 0x000000FE
+
+#define APPS_RCM_MCASP_CLK_GATING_NU3_S 1
+#define APPS_RCM_MCASP_CLK_GATING_MCASP_RUN_CLK_ENABLE \
+ 0x00000001 // 1- Enable MCASP clk during run
+ // mode ; 0- Disable MCASP clk
+ // during run mode
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// APPS_RCM_O_MCASP_SOFT_RESET register.
+//
+//******************************************************************************
+#define APPS_RCM_MCASP_SOFT_RESET_MCASP_ENABLED_STATUS \
+ 0x00000002 // 1 - MCASP Clocks/resets are
+ // enabled ; 0 - MCASP Clocks/resets
+ // are disabled
+
+#define APPS_RCM_MCASP_SOFT_RESET_MCASP_SOFT_RESET \
+ 0x00000001 // 1 - Assert reset for MCASP-core
+ // ; 0 - De-assert reset for
+ // MCASP-core
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// APPS_RCM_O_MMCHS_CLK_GEN register.
+//
+//******************************************************************************
+#define APPS_RCM_MMCHS_CLK_GEN_MMCHS_PLLCKDIV_OFF_TIME_M \
+ 0x00000700 // Configuration of OFF-TIME for
+ // dividing PLL clk (240 MHz) in
+ // generation of MMCHS func-clk :
+ // "000" - 1 "001" - 2 "010" - 3
+ // "011" - 4 "100" - 5 "101" - 6
+ // "110" - 7 "111" - 8
+
+#define APPS_RCM_MMCHS_CLK_GEN_MMCHS_PLLCKDIV_OFF_TIME_S 8
+#define APPS_RCM_MMCHS_CLK_GEN_NU1_M \
+ 0x000000F8
+
+#define APPS_RCM_MMCHS_CLK_GEN_NU1_S 3
+#define APPS_RCM_MMCHS_CLK_GEN_MMCHS_PLLCKDIV_ON_TIME_M \
+ 0x00000007 // Configuration of ON-TIME for
+ // dividing PLL clk (240 MHz) in
+ // generation of MMCHS func-clk :
+ // "000" - 1 "001" - 2 "010" - 3
+ // "011" - 4 "100" - 5 "101" - 6
+ // "110" - 7 "111" - 8
+
+#define APPS_RCM_MMCHS_CLK_GEN_MMCHS_PLLCKDIV_ON_TIME_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// APPS_RCM_O_MMCHS_CLK_GATING register.
+//
+//******************************************************************************
+#define APPS_RCM_MMCHS_CLK_GATING_NU1_M \
+ 0x00FE0000
+
+#define APPS_RCM_MMCHS_CLK_GATING_NU1_S 17
+#define APPS_RCM_MMCHS_CLK_GATING_MMCHS_DSLP_CLK_ENABLE \
+ 0x00010000 // 0 - Disable MMCHS clk during
+ // deep-sleep mode
+
+#define APPS_RCM_MMCHS_CLK_GATING_NU2_M \
+ 0x0000FE00
+
+#define APPS_RCM_MMCHS_CLK_GATING_NU2_S 9
+#define APPS_RCM_MMCHS_CLK_GATING_MMCHS_SLP_CLK_ENABLE \
+ 0x00000100 // 1- Enable MMCHS clk during sleep
+ // mode ; 0- Disable MMCHS clk
+ // during sleep mode
+
+#define APPS_RCM_MMCHS_CLK_GATING_NU3_M \
+ 0x000000FE
+
+#define APPS_RCM_MMCHS_CLK_GATING_NU3_S 1
+#define APPS_RCM_MMCHS_CLK_GATING_MMCHS_RUN_CLK_ENABLE \
+ 0x00000001 // 1- Enable MMCHS clk during run
+ // mode ; 0- Disable MMCHS clk
+ // during run mode
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// APPS_RCM_O_MMCHS_SOFT_RESET register.
+//
+//******************************************************************************
+#define APPS_RCM_MMCHS_SOFT_RESET_MMCHS_ENABLED_STATUS \
+ 0x00000002 // 1 - MMCHS Clocks/resets are
+ // enabled ; 0 - MMCHS Clocks/resets
+ // are disabled
+
+#define APPS_RCM_MMCHS_SOFT_RESET_MMCHS_SOFT_RESET \
+ 0x00000001 // 1 - Assert reset for MMCHS-core
+ // ; 0 - De-assert reset for
+ // MMCHS-core
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// APPS_RCM_O_MCSPI_A1_CLK_GEN register.
+//
+//******************************************************************************
+#define APPS_RCM_MCSPI_A1_CLK_GEN_MCSPI_A1_BAUD_CLK_SEL \
+ 0x00010000 // 0 - XTAL clk is used as baud clk
+ // for MCSPI_A1 ; 1 - PLL divclk is
+ // used as baud clk for MCSPI_A1.
+
+#define APPS_RCM_MCSPI_A1_CLK_GEN_NU1_M \
+ 0x0000F800
+
+#define APPS_RCM_MCSPI_A1_CLK_GEN_NU1_S 11
+#define APPS_RCM_MCSPI_A1_CLK_GEN_MCSPI_A1_PLLCLKDIV_OFF_TIME_M \
+ 0x00000700 // Configuration of OFF-TIME for
+ // dividing PLL clk (240 MHz) in
+ // generation of MCSPI_A1 func-clk :
+ // "000" - 1 "001" - 2 "010" - 3
+ // "011" - 4 "100" - 5 "101" - 6
+ // "110" - 7 "111" - 8
+
+#define APPS_RCM_MCSPI_A1_CLK_GEN_MCSPI_A1_PLLCLKDIV_OFF_TIME_S 8
+#define APPS_RCM_MCSPI_A1_CLK_GEN_NU2_M \
+ 0x000000F8
+
+#define APPS_RCM_MCSPI_A1_CLK_GEN_NU2_S 3
+#define APPS_RCM_MCSPI_A1_CLK_GEN_MCSPI_A1_PLLCLKDIV_ON_TIME_M \
+ 0x00000007 // Configuration of ON-TIME for
+ // dividing PLL clk (240 MHz) in
+ // generation of MCSPI_A1 func-clk :
+ // "000" - 1 "001" - 2 "010" - 3
+ // "011" - 4 "100" - 5 "101" - 6
+ // "110" - 7 "111" - 8
+
+#define APPS_RCM_MCSPI_A1_CLK_GEN_MCSPI_A1_PLLCLKDIV_ON_TIME_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// APPS_RCM_O_MCSPI_A1_CLK_GATING register.
+//
+//******************************************************************************
+#define APPS_RCM_MCSPI_A1_CLK_GATING_NU1_M \
+ 0x00FE0000
+
+#define APPS_RCM_MCSPI_A1_CLK_GATING_NU1_S 17
+#define APPS_RCM_MCSPI_A1_CLK_GATING_MCSPI_A1_DSLP_CLK_ENABLE \
+ 0x00010000 // 0 - Disable MCSPI_A1 clk during
+ // deep-sleep mode
+
+#define APPS_RCM_MCSPI_A1_CLK_GATING_NU2_M \
+ 0x0000FE00
+
+#define APPS_RCM_MCSPI_A1_CLK_GATING_NU2_S 9
+#define APPS_RCM_MCSPI_A1_CLK_GATING_MCSPI_A1_SLP_CLK_ENABLE \
+ 0x00000100 // 1- Enable MCSPI_A1 clk during
+ // sleep mode ; 0- Disable MCSPI_A1
+ // clk during sleep mode
+
+#define APPS_RCM_MCSPI_A1_CLK_GATING_NU3_M \
+ 0x000000FE
+
+#define APPS_RCM_MCSPI_A1_CLK_GATING_NU3_S 1
+#define APPS_RCM_MCSPI_A1_CLK_GATING_MCSPI_A1_RUN_CLK_ENABLE \
+ 0x00000001 // 1- Enable MCSPI_A1 clk during
+ // run mode ; 0- Disable MCSPI_A1
+ // clk during run mode
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// APPS_RCM_O_MCSPI_A1_SOFT_RESET register.
+//
+//******************************************************************************
+#define APPS_RCM_MCSPI_A1_SOFT_RESET_MCSPI_A1_ENABLED_STATUS \
+ 0x00000002 // 1 - MCSPI_A1 Clocks/Resets are
+ // enabled ; 0 - MCSPI_A1
+ // Clocks/Resets are disabled
+
+#define APPS_RCM_MCSPI_A1_SOFT_RESET_MCSPI_A1_SOFT_RESET \
+ 0x00000001 // 1 - Assert reset for
+ // MCSPI_A1-core ; 0 - De-assert
+ // reset for MCSPI_A1-core
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// APPS_RCM_O_MCSPI_A2_CLK_GEN register.
+//
+//******************************************************************************
+#define APPS_RCM_MCSPI_A2_CLK_GEN_MCSPI_A2_BAUD_CLK_SEL \
+ 0x00010000 // 0 - XTAL clk is used as baud-clk
+ // for MCSPI_A2 ; 1 - PLL divclk is
+ // used as baud-clk for MCSPI_A2
+
+#define APPS_RCM_MCSPI_A2_CLK_GEN_NU1_M \
+ 0x0000F800
+
+#define APPS_RCM_MCSPI_A2_CLK_GEN_NU1_S 11
+#define APPS_RCM_MCSPI_A2_CLK_GEN_MCSPI_A2_PLLCKDIV_OFF_TIME_M \
+ 0x00000700 // Configuration of OFF-TIME for
+ // dividing PLL clk (240 MHz) in
+ // generation of MCSPI_A2 func-clk :
+ // "000" - 1 "001" - 2 "010" - 3
+ // "011" - 4 "100" - 5 "101" - 6
+ // "110" - 7 "111" - 8
+
+#define APPS_RCM_MCSPI_A2_CLK_GEN_MCSPI_A2_PLLCKDIV_OFF_TIME_S 8
+#define APPS_RCM_MCSPI_A2_CLK_GEN_NU2_M \
+ 0x000000F8
+
+#define APPS_RCM_MCSPI_A2_CLK_GEN_NU2_S 3
+#define APPS_RCM_MCSPI_A2_CLK_GEN_MCSPI_A2_PLLCKDIV_ON_TIME_M \
+ 0x00000007 // Configuration of OFF-TIME for
+ // dividing PLL clk (240 MHz) in
+ // generation of MCSPI_A2 func-clk :
+ // "000" - 1 "001" - 2 "010" - 3
+ // "011" - 4 "100" - 5 "101" - 6
+ // "110" - 7 "111" - 8
+
+#define APPS_RCM_MCSPI_A2_CLK_GEN_MCSPI_A2_PLLCKDIV_ON_TIME_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// APPS_RCM_O_MCSPI_A2_CLK_GATING register.
+//
+//******************************************************************************
+#define APPS_RCM_MCSPI_A2_CLK_GATING_NU1_M \
+ 0x00FE0000
+
+#define APPS_RCM_MCSPI_A2_CLK_GATING_NU1_S 17
+#define APPS_RCM_MCSPI_A2_CLK_GATING_MCSPI_A2_DSLP_CLK_ENABLE \
+ 0x00010000 // 0 - Disable MCSPI_A2 clk during
+ // deep-sleep mode
+
+#define APPS_RCM_MCSPI_A2_CLK_GATING_NU2_M \
+ 0x0000FE00
+
+#define APPS_RCM_MCSPI_A2_CLK_GATING_NU2_S 9
+#define APPS_RCM_MCSPI_A2_CLK_GATING_MCSPI_A2_SLP_CLK_ENABLE \
+ 0x00000100 // 1- Enable MCSPI_A2 clk during
+ // sleep mode ; 0- Disable MCSPI_A2
+ // clk during sleep mode
+
+#define APPS_RCM_MCSPI_A2_CLK_GATING_NU3_M \
+ 0x000000FE
+
+#define APPS_RCM_MCSPI_A2_CLK_GATING_NU3_S 1
+#define APPS_RCM_MCSPI_A2_CLK_GATING_MCSPI_A2_RUN_CLK_ENABLE \
+ 0x00000001 // 1- Enable MCSPI_A2 clk during
+ // run mode ; 0- Disable MCSPI_A2
+ // clk during run mode
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// APPS_RCM_O_MCSPI_A2_SOFT_RESET register.
+//
+//******************************************************************************
+#define APPS_RCM_MCSPI_A2_SOFT_RESET_MCSPI_A2_ENABLED_STATUS \
+ 0x00000002 // 1 - MCSPI_A2 Clocks/Resets are
+ // enabled ; 0 - MCSPI_A2
+ // Clocks/Resets are disabled
+
+#define APPS_RCM_MCSPI_A2_SOFT_RESET_MCSPI_A2_SOFT_RESET \
+ 0x00000001 // 1 - Assert reset for
+ // MCSPI_A2-core ; 0 - De-assert
+ // reset for MCSPI_A2-core
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// APPS_RCM_O_UDMA_A_CLK_GATING register.
+//
+//******************************************************************************
+#define APPS_RCM_UDMA_A_CLK_GATING_UDMA_A_DSLP_CLK_ENABLE \
+ 0x00010000 // 1 - Enable UDMA_A clk during
+ // deep-sleep mode 0 - Disable
+ // UDMA_A clk during deep-sleep mode
+ // ;
+
+#define APPS_RCM_UDMA_A_CLK_GATING_NU1_M \
+ 0x0000FE00
+
+#define APPS_RCM_UDMA_A_CLK_GATING_NU1_S 9
+#define APPS_RCM_UDMA_A_CLK_GATING_UDMA_A_SLP_CLK_ENABLE \
+ 0x00000100 // 1 - Enable UDMA_A clk during
+ // sleep mode 0 - Disable UDMA_A clk
+ // during sleep mode ;
+
+#define APPS_RCM_UDMA_A_CLK_GATING_NU2_M \
+ 0x000000FE
+
+#define APPS_RCM_UDMA_A_CLK_GATING_NU2_S 1
+#define APPS_RCM_UDMA_A_CLK_GATING_UDMA_A_RUN_CLK_ENABLE \
+ 0x00000001 // 1 - Enable UDMA_A clk during run
+ // mode 0 - Disable UDMA_A clk
+ // during run mode ;
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// APPS_RCM_O_UDMA_A_SOFT_RESET register.
+//
+//******************************************************************************
+#define APPS_RCM_UDMA_A_SOFT_RESET_UDMA_A_ENABLED_STATUS \
+ 0x00000002 // 1 - UDMA_A Clocks/Resets are
+ // enabled ; 0 - UDMA_A
+ // Clocks/Resets are disabled
+
+#define APPS_RCM_UDMA_A_SOFT_RESET_UDMA_A_SOFT_RESET \
+ 0x00000001 // 1 - Assert reset for DMA_A ; 0 -
+ // De-assert reset for DMA_A
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// APPS_RCM_O_GPIO_A_CLK_GATING register.
+//
+//******************************************************************************
+#define APPS_RCM_GPIO_A_CLK_GATING_GPIO_A_DSLP_CLK_ENABLE \
+ 0x00010000 // 1 - Enable GPIO_A clk during
+ // deep-sleep mode 0 - Disable
+ // GPIO_A clk during deep-sleep mode
+ // ;
+
+#define APPS_RCM_GPIO_A_CLK_GATING_NU1_M \
+ 0x0000FE00
+
+#define APPS_RCM_GPIO_A_CLK_GATING_NU1_S 9
+#define APPS_RCM_GPIO_A_CLK_GATING_GPIO_A_SLP_CLK_ENABLE \
+ 0x00000100 // 1 - Enable GPIO_A clk during
+ // sleep mode 0 - Disable GPIO_A clk
+ // during sleep mode ;
+
+#define APPS_RCM_GPIO_A_CLK_GATING_NU2_M \
+ 0x000000FE
+
+#define APPS_RCM_GPIO_A_CLK_GATING_NU2_S 1
+#define APPS_RCM_GPIO_A_CLK_GATING_GPIO_A_RUN_CLK_ENABLE \
+ 0x00000001 // 1 - Enable GPIO_A clk during run
+ // mode 0 - Disable GPIO_A clk
+ // during run mode ;
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// APPS_RCM_O_GPIO_A_SOFT_RESET register.
+//
+//******************************************************************************
+#define APPS_RCM_GPIO_A_SOFT_RESET_GPIO_A_ENABLED_STATUS \
+ 0x00000002 // 1 - GPIO_A Clocks/Resets are
+ // enabled ; 0 - GPIO_A
+ // Clocks/Resets are disabled
+
+#define APPS_RCM_GPIO_A_SOFT_RESET_GPIO_A_SOFT_RESET \
+ 0x00000001 // 1 - Assert reset for GPIO_A ; 0
+ // - De-assert reset for GPIO_A
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// APPS_RCM_O_GPIO_B_CLK_GATING register.
+//
+//******************************************************************************
+#define APPS_RCM_GPIO_B_CLK_GATING_GPIO_B_DSLP_CLK_ENABLE \
+ 0x00010000 // 1 - Enable GPIO_B clk during
+ // deep-sleep mode 0 - Disable
+ // GPIO_B clk during deep-sleep mode
+ // ;
+
+#define APPS_RCM_GPIO_B_CLK_GATING_NU1_M \
+ 0x0000FE00
+
+#define APPS_RCM_GPIO_B_CLK_GATING_NU1_S 9
+#define APPS_RCM_GPIO_B_CLK_GATING_GPIO_B_SLP_CLK_ENABLE \
+ 0x00000100 // 1 - Enable GPIO_B clk during
+ // sleep mode 0 - Disable GPIO_B clk
+ // during sleep mode ;
+
+#define APPS_RCM_GPIO_B_CLK_GATING_NU2_M \
+ 0x000000FE
+
+#define APPS_RCM_GPIO_B_CLK_GATING_NU2_S 1
+#define APPS_RCM_GPIO_B_CLK_GATING_GPIO_B_RUN_CLK_ENABLE \
+ 0x00000001 // 1 - Enable GPIO_B clk during run
+ // mode 0 - Disable GPIO_B clk
+ // during run mode ;
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// APPS_RCM_O_GPIO_B_SOFT_RESET register.
+//
+//******************************************************************************
+#define APPS_RCM_GPIO_B_SOFT_RESET_GPIO_B_ENABLED_STATUS \
+ 0x00000002 // 1 - GPIO_B Clocks/Resets are
+ // enabled ; 0 - GPIO_B
+ // Clocks/Resets are disabled
+
+#define APPS_RCM_GPIO_B_SOFT_RESET_GPIO_B_SOFT_RESET \
+ 0x00000001 // 1 - Assert reset for GPIO_B ; 0
+ // - De-assert reset for GPIO_B
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// APPS_RCM_O_GPIO_C_CLK_GATING register.
+//
+//******************************************************************************
+#define APPS_RCM_GPIO_C_CLK_GATING_GPIO_C_DSLP_CLK_ENABLE \
+ 0x00010000 // 1 - Enable GPIO_C clk during
+ // deep-sleep mode 0 - Disable
+ // GPIO_C clk during deep-sleep mode
+ // ;
+
+#define APPS_RCM_GPIO_C_CLK_GATING_NU1_M \
+ 0x0000FE00
+
+#define APPS_RCM_GPIO_C_CLK_GATING_NU1_S 9
+#define APPS_RCM_GPIO_C_CLK_GATING_GPIO_C_SLP_CLK_ENABLE \
+ 0x00000100 // 1 - Enable GPIO_C clk during
+ // sleep mode 0 - Disable GPIO_C clk
+ // during sleep mode ;
+
+#define APPS_RCM_GPIO_C_CLK_GATING_NU2_M \
+ 0x000000FE
+
+#define APPS_RCM_GPIO_C_CLK_GATING_NU2_S 1
+#define APPS_RCM_GPIO_C_CLK_GATING_GPIO_C_RUN_CLK_ENABLE \
+ 0x00000001 // 1 - Enable GPIO_C clk during run
+ // mode 0 - Disable GPIO_C clk
+ // during run mode ;
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// APPS_RCM_O_GPIO_C_SOFT_RESET register.
+//
+//******************************************************************************
+#define APPS_RCM_GPIO_C_SOFT_RESET_GPIO_C_ENABLED_STATUS \
+ 0x00000002 // 1 - GPIO_C Clocks/Resets are
+ // enabled ; 0 - GPIO_C
+ // Clocks/Resets are disabled
+
+#define APPS_RCM_GPIO_C_SOFT_RESET_GPIO_C_SOFT_RESET \
+ 0x00000001 // 1 - Assert reset for GPIO_C ; 0
+ // - De-assert reset for GPIO_C
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// APPS_RCM_O_GPIO_D_CLK_GATING register.
+//
+//******************************************************************************
+#define APPS_RCM_GPIO_D_CLK_GATING_GPIO_D_DSLP_CLK_ENABLE \
+ 0x00010000 // 1 - Enable GPIO_D clk during
+ // deep-sleep mode 0 - Disable
+ // GPIO_D clk during deep-sleep mode
+ // ;
+
+#define APPS_RCM_GPIO_D_CLK_GATING_NU1_M \
+ 0x0000FE00
+
+#define APPS_RCM_GPIO_D_CLK_GATING_NU1_S 9
+#define APPS_RCM_GPIO_D_CLK_GATING_GPIO_D_SLP_CLK_ENABLE \
+ 0x00000100 // 1 - Enable GPIO_D clk during
+ // sleep mode 0 - Disable GPIO_D clk
+ // during sleep mode ;
+
+#define APPS_RCM_GPIO_D_CLK_GATING_NU2_M \
+ 0x000000FE
+
+#define APPS_RCM_GPIO_D_CLK_GATING_NU2_S 1
+#define APPS_RCM_GPIO_D_CLK_GATING_GPIO_D_RUN_CLK_ENABLE \
+ 0x00000001 // 1 - Enable GPIO_D clk during run
+ // mode 0 - Disable GPIO_D clk
+ // during run mode ;
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// APPS_RCM_O_GPIO_D_SOFT_RESET register.
+//
+//******************************************************************************
+#define APPS_RCM_GPIO_D_SOFT_RESET_GPIO_D_ENABLED_STATUS \
+ 0x00000002 // 1 - GPIO_D Clocks/Resets are
+ // enabled ; 0 - GPIO_D
+ // Clocks/Resets are disabled
+
+#define APPS_RCM_GPIO_D_SOFT_RESET_GPIO_D_SOFT_RESET \
+ 0x00000001 // 1 - Assert reset for GPIO_D ; 0
+ // - De-assert reset for GPIO_D
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// APPS_RCM_O_GPIO_E_CLK_GATING register.
+//
+//******************************************************************************
+#define APPS_RCM_GPIO_E_CLK_GATING_GPIO_E_DSLP_CLK_ENABLE \
+ 0x00010000 // 1 - Enable GPIO_E clk during
+ // deep-sleep mode 0 - Disable
+ // GPIO_E clk during deep-sleep mode
+ // ;
+
+#define APPS_RCM_GPIO_E_CLK_GATING_NU1_M \
+ 0x0000FE00
+
+#define APPS_RCM_GPIO_E_CLK_GATING_NU1_S 9
+#define APPS_RCM_GPIO_E_CLK_GATING_GPIO_E_SLP_CLK_ENABLE \
+ 0x00000100 // 1 - Enable GPIO_E clk during
+ // sleep mode 0 - Disable GPIO_E clk
+ // during sleep mode ;
+
+#define APPS_RCM_GPIO_E_CLK_GATING_NU2_M \
+ 0x000000FE
+
+#define APPS_RCM_GPIO_E_CLK_GATING_NU2_S 1
+#define APPS_RCM_GPIO_E_CLK_GATING_GPIO_E_RUN_CLK_ENABLE \
+ 0x00000001 // 1 - Enable GPIO_E clk during run
+ // mode 0 - Disable GPIO_E clk
+ // during run mode ;
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// APPS_RCM_O_GPIO_E_SOFT_RESET register.
+//
+//******************************************************************************
+#define APPS_RCM_GPIO_E_SOFT_RESET_GPIO_E_ENABLED_STATUS \
+ 0x00000002 // 1 - GPIO_E Clocks/Resets are
+ // enabled ; 0 - GPIO_E
+ // Clocks/Resets are disabled
+
+#define APPS_RCM_GPIO_E_SOFT_RESET_GPIO_E_SOFT_RESET \
+ 0x00000001 // 1 - Assert reset for GPIO_E ; 0
+ // - De-assert reset for GPIO_E
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// APPS_RCM_O_WDOG_A_CLK_GATING register.
+//
+//******************************************************************************
+#define APPS_RCM_WDOG_A_CLK_GATING_WDOG_A_BAUD_CLK_SEL_M \
+ 0x03000000 // "00" - Sysclk ; "01" - REF_CLK
+ // (38.4 MHz) ; "10/11" - Slow_clk
+
+#define APPS_RCM_WDOG_A_CLK_GATING_WDOG_A_BAUD_CLK_SEL_S 24
+#define APPS_RCM_WDOG_A_CLK_GATING_WDOG_A_DSLP_CLK_ENABLE \
+ 0x00010000 // 1 - Enable WDOG_A clk during
+ // deep-sleep mode 0 - Disable
+ // WDOG_A clk during deep-sleep mode
+ // ;
+
+#define APPS_RCM_WDOG_A_CLK_GATING_NU1_M \
+ 0x0000FE00
+
+#define APPS_RCM_WDOG_A_CLK_GATING_NU1_S 9
+#define APPS_RCM_WDOG_A_CLK_GATING_WDOG_A_SLP_CLK_ENABLE \
+ 0x00000100 // 1 - Enable WDOG_A clk during
+ // sleep mode 0 - Disable WDOG_A clk
+ // during sleep mode ;
+
+#define APPS_RCM_WDOG_A_CLK_GATING_NU2_M \
+ 0x000000FE
+
+#define APPS_RCM_WDOG_A_CLK_GATING_NU2_S 1
+#define APPS_RCM_WDOG_A_CLK_GATING_WDOG_A_RUN_CLK_ENABLE \
+ 0x00000001 // 1 - Enable WDOG_A clk during run
+ // mode 0 - Disable WDOG_A clk
+ // during run mode ;
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// APPS_RCM_O_WDOG_A_SOFT_RESET register.
+//
+//******************************************************************************
+#define APPS_RCM_WDOG_A_SOFT_RESET_WDOG_A_ENABLED_STATUS \
+ 0x00000002 // 1 - WDOG_A Clocks/Resets are
+ // enabled ; 0 - WDOG_A
+ // Clocks/Resets are disabled
+
+#define APPS_RCM_WDOG_A_SOFT_RESET_WDOG_A_SOFT_RESET \
+ 0x00000001 // 1 - Assert reset for WDOG_A ; 0
+ // - De-assert reset for WDOG_A
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// APPS_RCM_O_UART_A0_CLK_GATING register.
+//
+//******************************************************************************
+#define APPS_RCM_UART_A0_CLK_GATING_UART_A0_DSLP_CLK_ENABLE \
+ 0x00010000 // 1 - Enable UART_A0 clk during
+ // deep-sleep mode 0 - Disable
+ // UART_A0 clk during deep-sleep
+ // mode ;
+
+#define APPS_RCM_UART_A0_CLK_GATING_NU1_M \
+ 0x0000FE00
+
+#define APPS_RCM_UART_A0_CLK_GATING_NU1_S 9
+#define APPS_RCM_UART_A0_CLK_GATING_UART_A0_SLP_CLK_ENABLE \
+ 0x00000100 // 1 - Enable UART_A0 clk during
+ // sleep mode 0 - Disable UART_A0
+ // clk during sleep mode ;
+
+#define APPS_RCM_UART_A0_CLK_GATING_NU2_M \
+ 0x000000FE
+
+#define APPS_RCM_UART_A0_CLK_GATING_NU2_S 1
+#define APPS_RCM_UART_A0_CLK_GATING_UART_A0_RUN_CLK_ENABLE \
+ 0x00000001 // 1 - Enable UART_A0 clk during
+ // run mode 0 - Disable UART_A0 clk
+ // during run mode ;
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// APPS_RCM_O_UART_A0_SOFT_RESET register.
+//
+//******************************************************************************
+#define APPS_RCM_UART_A0_SOFT_RESET_UART_A0_ENABLED_STATUS \
+ 0x00000002 // 1 - UART_A0 Clocks/Resets are
+ // enabled ; 0 - UART_A0
+ // Clocks/Resets are disabled
+
+#define APPS_RCM_UART_A0_SOFT_RESET_UART_A0_SOFT_RESET \
+ 0x00000001 // 1 - Assert reset for UART_A0 ; 0
+ // - De-assert reset for UART_A0
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// APPS_RCM_O_UART_A1_CLK_GATING register.
+//
+//******************************************************************************
+#define APPS_RCM_UART_A1_CLK_GATING_UART_A1_DSLP_CLK_ENABLE \
+ 0x00010000 // 1 - Enable UART_A1 clk during
+ // deep-sleep mode 0 - Disable
+ // UART_A1 clk during deep-sleep
+ // mode ;
+
+#define APPS_RCM_UART_A1_CLK_GATING_NU1_M \
+ 0x0000FE00
+
+#define APPS_RCM_UART_A1_CLK_GATING_NU1_S 9
+#define APPS_RCM_UART_A1_CLK_GATING_UART_A1_SLP_CLK_ENABLE \
+ 0x00000100 // 1 - Enable UART_A1 clk during
+ // sleep mode 0 - Disable UART_A1
+ // clk during sleep mode ;
+
+#define APPS_RCM_UART_A1_CLK_GATING_NU2_M \
+ 0x000000FE
+
+#define APPS_RCM_UART_A1_CLK_GATING_NU2_S 1
+#define APPS_RCM_UART_A1_CLK_GATING_UART_A1_RUN_CLK_ENABLE \
+ 0x00000001 // 1 - Enable UART_A1 clk during
+ // run mode 0 - Disable UART_A1 clk
+ // during run mode ;
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// APPS_RCM_O_UART_A1_SOFT_RESET register.
+//
+//******************************************************************************
+#define APPS_RCM_UART_A1_SOFT_RESET_UART_A1_ENABLED_STATUS \
+ 0x00000002 // 1 - UART_A1 Clocks/Resets are
+ // enabled ; 0 - UART_A1
+ // Clocks/Resets are disabled
+
+#define APPS_RCM_UART_A1_SOFT_RESET_UART_A1_SOFT_RESET \
+ 0x00000001 // 1 - Assert the soft reset for
+ // UART_A1 ; 0 - De-assert the soft
+ // reset for UART_A1
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// APPS_RCM_O_GPT_A0_CLK_GATING register.
+//
+//******************************************************************************
+#define APPS_RCM_GPT_A0_CLK_GATING_GPT_A0_DSLP_CLK_ENABLE \
+ 0x00010000 // 1 - Enable the GPT_A0 clock
+ // during deep-sleep ; 0 - Disable
+ // the GPT_A0 clock during
+ // deep-sleep
+
+#define APPS_RCM_GPT_A0_CLK_GATING_NU1_M \
+ 0x0000FE00
+
+#define APPS_RCM_GPT_A0_CLK_GATING_NU1_S 9
+#define APPS_RCM_GPT_A0_CLK_GATING_GPT_A0_SLP_CLK_ENABLE \
+ 0x00000100 // 1 - Enable the GPT_A0 clock
+ // during sleep ; 0 - Disable the
+ // GPT_A0 clock during sleep
+
+#define APPS_RCM_GPT_A0_CLK_GATING_NU2_M \
+ 0x000000FE
+
+#define APPS_RCM_GPT_A0_CLK_GATING_NU2_S 1
+#define APPS_RCM_GPT_A0_CLK_GATING_GPT_A0_RUN_CLK_ENABLE \
+ 0x00000001 // 1 - Enable the GPT_A0 clock
+ // during run ; 0 - Disable the
+ // GPT_A0 clock during run
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// APPS_RCM_O_GPT_A0_SOFT_RESET register.
+//
+//******************************************************************************
+#define APPS_RCM_GPT_A0_SOFT_RESET_GPT_A0_ENABLED_STATUS \
+ 0x00000002 // 1 - GPT_A0 clocks/resets are
+ // enabled ; 0 - GPT_A0
+ // clocks/resets are disabled
+
+#define APPS_RCM_GPT_A0_SOFT_RESET_GPT_A0_SOFT_RESET \
+ 0x00000001 // 1 - Assert the soft reset for
+ // GPT_A0 ; 0 - De-assert the soft
+ // reset for GPT_A0
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// APPS_RCM_O_GPT_A1_CLK_GATING register.
+//
+//******************************************************************************
+#define APPS_RCM_GPT_A1_CLK_GATING_GPT_A1_DSLP_CLK_ENABLE \
+ 0x00010000 // 1 - Enable the GPT_A1 clock
+ // during deep-sleep ; 0 - Disable
+ // the GPT_A1 clock during
+ // deep-sleep
+
+#define APPS_RCM_GPT_A1_CLK_GATING_NU1_M \
+ 0x0000FE00
+
+#define APPS_RCM_GPT_A1_CLK_GATING_NU1_S 9
+#define APPS_RCM_GPT_A1_CLK_GATING_GPT_A1_SLP_CLK_ENABLE \
+ 0x00000100 // 1 - Enable the GPT_A1 clock
+ // during sleep ; 0 - Disable the
+ // GPT_A1 clock during sleep
+
+#define APPS_RCM_GPT_A1_CLK_GATING_NU2_M \
+ 0x000000FE
+
+#define APPS_RCM_GPT_A1_CLK_GATING_NU2_S 1
+#define APPS_RCM_GPT_A1_CLK_GATING_GPT_A1_RUN_CLK_ENABLE \
+ 0x00000001 // 1 - Enable the GPT_A1 clock
+ // during run ; 0 - Disable the
+ // GPT_A1 clock during run
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// APPS_RCM_O_GPT_A1_SOFT_RESET register.
+//
+//******************************************************************************
+#define APPS_RCM_GPT_A1_SOFT_RESET_GPT_A1_ENABLED_STATUS \
+ 0x00000002 // 1 - GPT_A1 clocks/resets are
+ // enabled ; 0 - GPT_A1
+ // clocks/resets are disabled
+
+#define APPS_RCM_GPT_A1_SOFT_RESET_GPT_A1_SOFT_RESET \
+ 0x00000001 // 1 - Assert the soft reset for
+ // GPT_A1 ; 0 - De-assert the soft
+ // reset for GPT_A1
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// APPS_RCM_O_GPT_A2_CLK_GATING register.
+//
+//******************************************************************************
+#define APPS_RCM_GPT_A2_CLK_GATING_GPT_A2_DSLP_CLK_ENABLE \
+ 0x00010000 // 1 - Enable the GPT_A2 clock
+ // during deep-sleep ; 0 - Disable
+ // the GPT_A2 clock during
+ // deep-sleep
+
+#define APPS_RCM_GPT_A2_CLK_GATING_NU1_M \
+ 0x0000FE00
+
+#define APPS_RCM_GPT_A2_CLK_GATING_NU1_S 9
+#define APPS_RCM_GPT_A2_CLK_GATING_GPT_A2_SLP_CLK_ENABLE \
+ 0x00000100 // 1 - Enable the GPT_A2 clock
+ // during sleep ; 0 - Disable the
+ // GPT_A2 clock during sleep
+
+#define APPS_RCM_GPT_A2_CLK_GATING_NU2_M \
+ 0x000000FE
+
+#define APPS_RCM_GPT_A2_CLK_GATING_NU2_S 1
+#define APPS_RCM_GPT_A2_CLK_GATING_GPT_A2_RUN_CLK_ENABLE \
+ 0x00000001 // 1 - Enable the GPT_A2 clock
+ // during run ; 0 - Disable the
+ // GPT_A2 clock during run
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// APPS_RCM_O_GPT_A2_SOFT_RESET register.
+//
+//******************************************************************************
+#define APPS_RCM_GPT_A2_SOFT_RESET_GPT_A2_ENABLED_STATUS \
+ 0x00000002 // 1 - GPT_A2 clocks/resets are
+ // enabled ; 0 - GPT_A2
+ // clocks/resets are disabled
+
+#define APPS_RCM_GPT_A2_SOFT_RESET_GPT_A2_SOFT_RESET \
+ 0x00000001 // 1 - Assert the soft reset for
+ // GPT_A2 ; 0 - De-assert the soft
+ // reset for GPT_A2
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// APPS_RCM_O_GPT_A3_CLK_GATING register.
+//
+//******************************************************************************
+#define APPS_RCM_GPT_A3_CLK_GATING_GPT_A3_DSLP_CLK_ENABLE \
+ 0x00010000 // 1 - Enable the GPT_A3 clock
+ // during deep-sleep ; 0 - Disable
+ // the GPT_A3 clock during
+ // deep-sleep
+
+#define APPS_RCM_GPT_A3_CLK_GATING_NU1_M \
+ 0x0000FE00
+
+#define APPS_RCM_GPT_A3_CLK_GATING_NU1_S 9
+#define APPS_RCM_GPT_A3_CLK_GATING_GPT_A3_SLP_CLK_ENABLE \
+ 0x00000100 // 1 - Enable the GPT_A3 clock
+ // during sleep ; 0 - Disable the
+ // GPT_A3 clock during sleep
+
+#define APPS_RCM_GPT_A3_CLK_GATING_NU2_M \
+ 0x000000FE
+
+#define APPS_RCM_GPT_A3_CLK_GATING_NU2_S 1
+#define APPS_RCM_GPT_A3_CLK_GATING_GPT_A3_RUN_CLK_ENABLE \
+ 0x00000001 // 1 - Enable the GPT_A3 clock
+ // during run ; 0 - Disable the
+ // GPT_A3 clock during run
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// APPS_RCM_O_GPT_A3_SOFT_RESET register.
+//
+//******************************************************************************
+#define APPS_RCM_GPT_A3_SOFT_RESET_GPT_A3_ENABLED_STATUS \
+ 0x00000002 // 1 - GPT_A3 Clocks/resets are
+ // enabled ; 0 - GPT_A3
+ // Clocks/resets are disabled
+
+#define APPS_RCM_GPT_A3_SOFT_RESET_GPT_A3_SOFT_RESET \
+ 0x00000001 // 1 - Assert the soft reset for
+ // GPT_A3 ; 0 - De-assert the soft
+ // reset for GPT_A3
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// APPS_RCM_O_MCASP_FRAC_CLK_CONFIG0 register.
+//
+//******************************************************************************
+#define APPS_RCM_MCASP_FRAC_CLK_CONFIG0_MCASP_FRAC_DIV_DIVISOR_M \
+ 0x03FF0000
+
+#define APPS_RCM_MCASP_FRAC_CLK_CONFIG0_MCASP_FRAC_DIV_DIVISOR_S 16
+#define APPS_RCM_MCASP_FRAC_CLK_CONFIG0_MCASP_FRAC_DIV_FRACTION_M \
+ 0x0000FFFF
+
+#define APPS_RCM_MCASP_FRAC_CLK_CONFIG0_MCASP_FRAC_DIV_FRACTION_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// APPS_RCM_O_MCASP_FRAC_CLK_CONFIG1 register.
+//
+//******************************************************************************
+#define APPS_RCM_MCASP_FRAC_CLK_CONFIG1_MCASP_FRAC_DIV_SOFT_RESET \
+ 0x00010000 // 1 - Assert the reset for MCASP
+ // Frac-clk div; 0 - Donot assert
+ // the reset for MCASP frac clk-div
+
+#define APPS_RCM_MCASP_FRAC_CLK_CONFIG1_MCASP_FRAC_DIV_PERIOD_M \
+ 0x000003FF
+
+#define APPS_RCM_MCASP_FRAC_CLK_CONFIG1_MCASP_FRAC_DIV_PERIOD_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// APPS_RCM_O_CRYPTO_CLK_GATING register.
+//
+//******************************************************************************
+#define APPS_RCM_CRYPTO_CLK_GATING_CRYPTO_DSLP_CLK_ENABLE \
+ 0x00010000 // 0 - Disable the Crypto clock
+ // during deep-sleep
+
+#define APPS_RCM_CRYPTO_CLK_GATING_NU1_M \
+ 0x0000FE00
+
+#define APPS_RCM_CRYPTO_CLK_GATING_NU1_S 9
+#define APPS_RCM_CRYPTO_CLK_GATING_CRYPTO_SLP_CLK_ENABLE \
+ 0x00000100 // 1 - Enable the Crypto clock
+ // during sleep ; 0 - Disable the
+ // Crypto clock during sleep
+
+#define APPS_RCM_CRYPTO_CLK_GATING_NU2_M \
+ 0x000000FE
+
+#define APPS_RCM_CRYPTO_CLK_GATING_NU2_S 1
+#define APPS_RCM_CRYPTO_CLK_GATING_CRYPTO_RUN_CLK_ENABLE \
+ 0x00000001 // 1 - Enable the Crypto clock
+ // during run ; 0 - Disable the
+ // Crypto clock during run
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// APPS_RCM_O_CRYPTO_SOFT_RESET register.
+//
+//******************************************************************************
+#define APPS_RCM_CRYPTO_SOFT_RESET_CRYPTO_ENABLED_STATUS \
+ 0x00000002 // 1 - Crypto clocks/resets are
+ // enabled ; 0 - Crypto
+ // clocks/resets are disabled
+
+#define APPS_RCM_CRYPTO_SOFT_RESET_CRYPTO_SOFT_RESET \
+ 0x00000001 // 1 - Assert the soft reset for
+ // Crypto ; 0 - De-assert the soft
+ // reset for Crypto
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// APPS_RCM_O_MCSPI_S0_CLK_GATING register.
+//
+//******************************************************************************
+#define APPS_RCM_MCSPI_S0_CLK_GATING_MCSPI_S0_DSLP_CLK_ENABLE \
+ 0x00010000 // 0 - Disable the MCSPI_S0 clock
+ // during deep-sleep
+
+#define APPS_RCM_MCSPI_S0_CLK_GATING_NU1_M \
+ 0x0000FE00
+
+#define APPS_RCM_MCSPI_S0_CLK_GATING_NU1_S 9
+#define APPS_RCM_MCSPI_S0_CLK_GATING_MCSPI_S0_SLP_CLK_ENABLE \
+ 0x00000100 // 1 - Enable the MCSPI_S0 clock
+ // during sleep ; 0 - Disable the
+ // MCSPI_S0 clock during sleep
+
+#define APPS_RCM_MCSPI_S0_CLK_GATING_NU2_M \
+ 0x000000FE
+
+#define APPS_RCM_MCSPI_S0_CLK_GATING_NU2_S 1
+#define APPS_RCM_MCSPI_S0_CLK_GATING_MCSPI_S0_RUN_CLK_ENABLE \
+ 0x00000001 // 1 - Enable the MCSPI_S0 clock
+ // during run ; 0 - Disable the
+ // MCSPI_S0 clock during run
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// APPS_RCM_O_MCSPI_S0_SOFT_RESET register.
+//
+//******************************************************************************
+#define APPS_RCM_MCSPI_S0_SOFT_RESET_MCSPI_S0_ENABLED_STATUS \
+ 0x00000002 // 1 - MCSPI_S0 Clocks/Resets are
+ // enabled ; 0 - MCSPI_S0
+ // Clocks/resets are disabled
+
+#define APPS_RCM_MCSPI_S0_SOFT_RESET_MCSPI_S0_SOFT_RESET \
+ 0x00000001 // 1 - Assert the soft reset for
+ // MCSPI_S0 ; 0 - De-assert the soft
+ // reset for MCSPI_S0
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// APPS_RCM_O_MCSPI_S0_CLKDIV_CFG register.
+//
+//******************************************************************************
+#define APPS_RCM_MCSPI_S0_CLKDIV_CFG_MCSPI_S0_BAUD_CLK_SEL \
+ 0x00010000 // 0 - XTAL clk is used as baud-clk
+ // for MCSPI_S0 ; 1 - PLL divclk is
+ // used as buad-clk for MCSPI_S0
+
+#define APPS_RCM_MCSPI_S0_CLKDIV_CFG_NU1_M \
+ 0x0000F800
+
+#define APPS_RCM_MCSPI_S0_CLKDIV_CFG_NU1_S 11
+#define APPS_RCM_MCSPI_S0_CLKDIV_CFG_MCSPI_S0_PLLCLKDIV_OFF_TIME_M \
+ 0x00000700 // Configuration of OFF-TIME for
+ // dividing PLL clk (240 MHz) in
+ // generation of MCSPI_S0 func-clk :
+ // "000" - 1 "001" - 2 "010" - 3
+ // "011" - 4 "100" - 5 "101" - 6
+ // "110" - 7 "111" - 8
+
+#define APPS_RCM_MCSPI_S0_CLKDIV_CFG_MCSPI_S0_PLLCLKDIV_OFF_TIME_S 8
+#define APPS_RCM_MCSPI_S0_CLKDIV_CFG_NU2_M \
+ 0x000000F8
+
+#define APPS_RCM_MCSPI_S0_CLKDIV_CFG_NU2_S 3
+#define APPS_RCM_MCSPI_S0_CLKDIV_CFG_MCSPI_S0_PLLCLKDIV_ON_TIME_M \
+ 0x00000007 // Configuration of ON-TIME for
+ // dividing PLL clk (240 MHz) in
+ // generation of MCSPI_S0 func-clk :
+ // "000" - 1 "001" - 2 "010" - 3
+ // "011" - 4 "100" - 5 "101" - 6
+ // "110" - 7 "111" - 8
+
+#define APPS_RCM_MCSPI_S0_CLKDIV_CFG_MCSPI_S0_PLLCLKDIV_ON_TIME_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// APPS_RCM_O_I2C_CLK_GATING register.
+//
+//******************************************************************************
+#define APPS_RCM_I2C_CLK_GATING_I2C_DSLP_CLK_ENABLE \
+ 0x00010000 // 1 - Enable the I2C Clock during
+ // deep-sleep 0 - Disable the I2C
+ // clock during deep-sleep
+
+#define APPS_RCM_I2C_CLK_GATING_NU1_M \
+ 0x0000FE00
+
+#define APPS_RCM_I2C_CLK_GATING_NU1_S 9
+#define APPS_RCM_I2C_CLK_GATING_I2C_SLP_CLK_ENABLE \
+ 0x00000100 // 1 - Enable the I2C clock during
+ // sleep ; 0 - Disable the I2C clock
+ // during sleep
+
+#define APPS_RCM_I2C_CLK_GATING_NU2_M \
+ 0x000000FE
+
+#define APPS_RCM_I2C_CLK_GATING_NU2_S 1
+#define APPS_RCM_I2C_CLK_GATING_I2C_RUN_CLK_ENABLE \
+ 0x00000001 // 1 - Enable the I2C clock during
+ // run ; 0 - Disable the I2C clock
+ // during run
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// APPS_RCM_O_I2C_SOFT_RESET register.
+//
+//******************************************************************************
+#define APPS_RCM_I2C_SOFT_RESET_I2C_ENABLED_STATUS \
+ 0x00000002 // 1 - I2C Clocks/Resets are
+ // enabled ; 0 - I2C clocks/resets
+ // are disabled
+
+#define APPS_RCM_I2C_SOFT_RESET_I2C_SOFT_RESET \
+ 0x00000001 // 1 - Assert the soft reset for
+ // Shared-I2C ; 0 - De-assert the
+ // soft reset for Shared-I2C
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// APPS_RCM_O_APPS_LPDS_REQ register.
+//
+//******************************************************************************
+#define APPS_RCM_APPS_LPDS_REQ_APPS_LPDS_REQ \
+ 0x00000001 // 1 - Request for LPDS
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// APPS_RCM_O_APPS_TURBO_REQ register.
+//
+//******************************************************************************
+#define APPS_RCM_APPS_TURBO_REQ_APPS_TURBO_REQ \
+ 0x00000001 // 1 - Request for TURBO
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// APPS_RCM_O_APPS_DSLP_WAKE_CONFIG register.
+//
+//******************************************************************************
+#define APPS_RCM_APPS_DSLP_WAKE_CONFIG_DSLP_WAKE_FROM_NWP_ENABLE \
+ 0x00000002 // 1 - Enable the NWP to wake APPS
+ // from deep-sleep ; 0 - Disable NWP
+ // to wake APPS from deep-sleep
+
+#define APPS_RCM_APPS_DSLP_WAKE_CONFIG_DSLP_WAKE_TIMER_ENABLE \
+ 0x00000001 // 1 - Enable deep-sleep wake timer
+ // in APPS RCM for deep-sleep; 0 -
+ // Disable deep-sleep wake timer in
+ // APPS RCM
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// APPS_RCM_O_APPS_DSLP_WAKE_TIMER_CFG register.
+//
+//******************************************************************************
+#define APPS_RCM_APPS_DSLP_WAKE_TIMER_CFG_DSLP_WAKE_TIMER_OPP_CFG_M \
+ 0xFFFF0000 // Configuration (in slow_clks)
+ // which says when to request for
+ // OPP during deep-sleep exit
+
+#define APPS_RCM_APPS_DSLP_WAKE_TIMER_CFG_DSLP_WAKE_TIMER_OPP_CFG_S 16
+#define APPS_RCM_APPS_DSLP_WAKE_TIMER_CFG_DSLP_WAKE_TIMER_WAKE_CFG_M \
+ 0x0000FFFF // Configuration (in slow_clks)
+ // which says when to request for
+ // WAKE during deep-sleep exit
+
+#define APPS_RCM_APPS_DSLP_WAKE_TIMER_CFG_DSLP_WAKE_TIMER_WAKE_CFG_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// APPS_RCM_O_APPS_RCM_SLP_WAKE_ENABLE register.
+//
+//******************************************************************************
+#define APPS_RCM_APPS_RCM_SLP_WAKE_ENABLE_SLP_WAKE_FROM_NWP_ENABLE \
+ 0x00000002 // 1- Enable the sleep wakeup due
+ // to NWP request. 0- Disable the
+ // sleep wakeup due to NWP request
+
+#define APPS_RCM_APPS_RCM_SLP_WAKE_ENABLE_SLP_WAKE_TIMER_ENABLE \
+ 0x00000001 // 1- Enable the sleep wakeup due
+ // to sleep-timer; 0-Disable the
+ // sleep wakeup due to sleep-timer
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// APPS_RCM_O_APPS_SLP_WAKETIMER_CFG register.
+//
+//******************************************************************************
+#define APPS_RCM_APPS_SLP_WAKETIMER_CFG_SLP_WAKE_TIMER_CFG_M \
+ 0xFFFFFFFF // Configuration (number of
+ // sysclks-80MHz) for the Sleep
+ // wakeup timer
+
+#define APPS_RCM_APPS_SLP_WAKETIMER_CFG_SLP_WAKE_TIMER_CFG_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// APPS_RCM_O_APPS_TO_NWP_WAKE_REQUEST register.
+//
+//******************************************************************************
+#define APPS_RCM_APPS_TO_NWP_WAKE_REQUEST_APPS_TO_NWP_WAKEUP_REQUEST \
+ 0x00000001 // When 1 => APPS generated a wake
+ // request to NWP (When NWP is in
+ // any of its low-power modes :
+ // SLP/DSLP/LPDS)
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// APPS_RCM_O_APPS_RCM_INTERRUPT_STATUS register.
+//
+//******************************************************************************
+#define APPS_RCM_APPS_RCM_INTERRUPT_STATUS_apps_deep_sleep_timer_wake \
+ 0x00000008 // 1 - Indicates that deep-sleep
+ // timer expiry had caused the
+ // wakeup from deep-sleep
+
+#define APPS_RCM_APPS_RCM_INTERRUPT_STATUS_apps_sleep_timer_wake \
+ 0x00000004 // 1 - Indicates that sleep timer
+ // expiry had caused the wakeup from
+ // sleep
+
+#define APPS_RCM_APPS_RCM_INTERRUPT_STATUS_apps_deep_sleep_wake_from_nwp \
+ 0x00000002 // 1 - Indicates that NWP had
+ // caused the wakeup from deep-sleep
+
+#define APPS_RCM_APPS_RCM_INTERRUPT_STATUS_apps_sleep_wake_from_nwp \
+ 0x00000001 // 1 - Indicates that NWP had
+ // caused the wakeup from Sleep
+
+
+
+
+#endif // __HW_APPS_RCM_H__
diff --git a/cc3200/hal/inc/hw_camera.h b/cc3200/hal/inc/hw_camera.h
new file mode 100644
index 000000000..4461a2846
--- /dev/null
+++ b/cc3200/hal/inc/hw_camera.h
@@ -0,0 +1,519 @@
+//*****************************************************************************
+//
+// Copyright (C) 2014 Texas Instruments Incorporated - http://www.ti.com/
+//
+//
+// Redistribution and use in source and binary forms, with or without
+// modification, are permitted provided that the following conditions
+// are met:
+//
+// Redistributions of source code must retain the above copyright
+// notice, this list of conditions and the following disclaimer.
+//
+// Redistributions in binary form must reproduce the above copyright
+// notice, this list of conditions and the following disclaimer in the
+// documentation and/or other materials provided with the
+// distribution.
+//
+// Neither the name of Texas Instruments Incorporated nor the names of
+// its contributors may be used to endorse or promote products derived
+// from this software without specific prior written permission.
+//
+// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
+// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
+// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
+// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
+// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
+// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
+// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
+// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
+// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
+// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
+// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+//
+//*****************************************************************************
+
+#ifndef __HW_CAMERA_H__
+#define __HW_CAMERA_H__
+
+//*****************************************************************************
+//
+// The following are defines for the CAMERA register offsets.
+//
+//*****************************************************************************
+#define CAMERA_O_CC_REVISION 0x00000000 // This register contains the IP
+ // revision code ( Parallel Mode)
+#define CAMERA_O_CC_SYSCONFIG 0x00000010 // This register controls the
+ // various parameters of the OCP
+ // interface (CCP and Parallel Mode)
+#define CAMERA_O_CC_SYSSTATUS 0x00000014 // This register provides status
+ // information about the module
+ // excluding the interrupt status
+ // information (CCP and Parallel
+ // Mode)
+#define CAMERA_O_CC_IRQSTATUS 0x00000018 // The interrupt status regroups
+ // all the status of the module
+ // internal events that can generate
+ // an interrupt (CCP & Parallel
+ // Mode)
+#define CAMERA_O_CC_IRQENABLE 0x0000001C // The interrupt enable register
+ // allows to enable/disable the
+ // module internal sources of
+ // interrupt on an event-by-event
+ // basis (CCP & Parallel Mode)
+#define CAMERA_O_CC_CTRL 0x00000040 // This register controls the
+ // various parameters of the Camera
+ // Core block (CCP & Parallel Mode)
+#define CAMERA_O_CC_CTRL_DMA 0x00000044 // This register controls the DMA
+ // interface of the Camera Core
+ // block (CCP & Parallel Mode)
+#define CAMERA_O_CC_CTRL_XCLK 0x00000048 // This register control the value
+ // of the clock divisor used to
+ // generate the external clock
+ // (Parallel Mode)
+#define CAMERA_O_CC_FIFO_DATA 0x0000004C // This register allows to write to
+ // the FIFO and read from the FIFO
+ // (CCP & Parallel Mode)
+#define CAMERA_O_CC_TEST 0x00000050 // This register shows the status
+ // of some important variables of
+ // the camera core module (CCP &
+ // Parallel Mode)
+#define CAMERA_O_CC_GEN_PAR 0x00000054 // This register shows the values
+ // of the generic parameters of the
+ // module
+
+
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// CAMERA_O_CC_REVISION register.
+//
+//******************************************************************************
+#define CAMERA_CC_REVISION_REV_M \
+ 0x000000FF // IP revision [7:4] Major revision
+ // [3:0] Minor revision Examples:
+ // 0x10 for 1.0 0x21 for 2.1
+
+#define CAMERA_CC_REVISION_REV_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// CAMERA_O_CC_SYSCONFIG register.
+//
+//******************************************************************************
+#define CAMERA_CC_SYSCONFIG_S_IDLE_MODE_M \
+ 0x00000018 // Slave interface power management
+ // req/ack control """00""
+ // Force-idle. An idle request is
+ // acknoledged unconditionally"
+ // """01"" No-idle. An idle request
+ // is never acknowledged" """10""
+ // reserved (Smart-idle not
+ // implemented)"
+
+#define CAMERA_CC_SYSCONFIG_S_IDLE_MODE_S 3
+#define CAMERA_CC_SYSCONFIG_SOFT_RESET \
+ 0x00000002 // Software reset. Set this bit to
+ // 1 to trigger a module reset. The
+ // bit is automatically reset by the
+ // hardware. During reset it always
+ // returns 0. 0 Normal mode 1 The
+ // module is reset
+
+#define CAMERA_CC_SYSCONFIG_AUTO_IDLE \
+ 0x00000001 // Internal OCP clock gating
+ // strategy 0 OCP clock is
+ // free-running 1 Automatic OCP
+ // clock gating strategy is applied
+ // based on the OCP interface
+ // activity
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// CAMERA_O_CC_SYSSTATUS register.
+//
+//******************************************************************************
+#define CAMERA_CC_SYSSTATUS_RESET_DONE2 \
+ 0x00000001 // Internal Reset Monitoring 0
+ // Internal module reset is on-going
+ // 1 Reset completed
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// CAMERA_O_CC_IRQSTATUS register.
+//
+//******************************************************************************
+#define CAMERA_CC_IRQSTATUS_FS_IRQ \
+ 0x00080000 // Frame Start has occurred 0 Event
+ // false "1 Event is true
+ // (""pending"")" 0 Event status bit
+ // unchanged 1 Event status bit is
+ // reset
+
+#define CAMERA_CC_IRQSTATUS_LE_IRQ \
+ 0x00040000 // Line End has occurred 0 Event
+ // false "1 Event is true
+ // (""pending"")" 0 Event status bit
+ // unchanged 1 Event status bit is
+ // reset
+
+#define CAMERA_CC_IRQSTATUS_LS_IRQ \
+ 0x00020000 // Line Start has occurred 0 Event
+ // false "1 Event is true
+ // (""pending"")" 0 Event status bit
+ // unchanged 1 Event status bit is
+ // reset
+
+#define CAMERA_CC_IRQSTATUS_FE_IRQ \
+ 0x00010000 // Frame End has occurred 0 Event
+ // false "1 Event is true
+ // (""pending"")" 0 Event status bit
+ // unchanged 1 Event status bit is
+ // reset
+
+#define CAMERA_CC_IRQSTATUS_FSP_ERR_IRQ \
+ 0x00000800 // FSP code error 0 Event false "1
+ // Event is true (""pending"")" 0
+ // Event status bit unchanged 1
+ // Event status bit is reset
+
+#define CAMERA_CC_IRQSTATUS_FW_ERR_IRQ \
+ 0x00000400 // Frame Height Error 0 Event false
+ // "1 Event is true (""pending"")" 0
+ // Event status bit unchanged 1
+ // Event status bit is reset
+
+#define CAMERA_CC_IRQSTATUS_FSC_ERR_IRQ \
+ 0x00000200 // False Synchronization Code 0
+ // Event false "1 Event is true
+ // (""pending"")" 0 Event status bit
+ // unchanged 1 Event status bit is
+ // reset
+
+#define CAMERA_CC_IRQSTATUS_SSC_ERR_IRQ \
+ 0x00000100 // Shifted Synchronization Code 0
+ // Event false "1 Event is true
+ // (""pending"")" 0 Event status bit
+ // unchanged 1 Event status bit is
+ // reset
+
+#define CAMERA_CC_IRQSTATUS_FIFO_NONEMPTY_IRQ \
+ 0x00000010 // FIFO is not empty 0 Event false
+ // "1 Event is true (""pending"")" 0
+ // Event status bit unchanged 1
+ // Event status bit is reset
+
+#define CAMERA_CC_IRQSTATUS_FIFO_FULL_IRQ \
+ 0x00000008 // FIFO is full 0 Event false "1
+ // Event is true (""pending"")" 0
+ // Event status bit unchanged 1
+ // Event status bit is reset
+
+#define CAMERA_CC_IRQSTATUS_FIFO_THR_IRQ \
+ 0x00000004 // FIFO threshold has been reached
+ // 0 Event false "1 Event is true
+ // (""pending"")" 0 Event status bit
+ // unchanged 1 Event status bit is
+ // reset
+
+#define CAMERA_CC_IRQSTATUS_FIFO_OF_IRQ \
+ 0x00000002 // FIFO overflow has occurred 0
+ // Event false "1 Event is true
+ // (""pending"")" 0 Event status bit
+ // unchanged 1 Event status bit is
+ // reset
+
+#define CAMERA_CC_IRQSTATUS_FIFO_UF_IRQ \
+ 0x00000001 // FIFO underflow has occurred 0
+ // Event false "1 Event is true
+ // (""pending"")" 0 Event status bit
+ // unchanged 1 Event status bit is
+ // reset
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// CAMERA_O_CC_IRQENABLE register.
+//
+//******************************************************************************
+#define CAMERA_CC_IRQENABLE_FS_IRQ_EN \
+ 0x00080000 // Frame Start Interrupt Enable 0
+ // Event is masked 1 Event generates
+ // an interrupt when it occurs
+
+#define CAMERA_CC_IRQENABLE_LE_IRQ_EN \
+ 0x00040000 // Line End Interrupt Enable 0
+ // Event is masked 1 Event generates
+ // an interrupt when it occurs
+
+#define CAMERA_CC_IRQENABLE_LS_IRQ_EN \
+ 0x00020000 // Line Start Interrupt Enable 0
+ // Event is masked 1 Event generates
+ // an interrupt when it occurs
+
+#define CAMERA_CC_IRQENABLE_FE_IRQ_EN \
+ 0x00010000 // Frame End Interrupt Enable 0
+ // Event is masked 1 Event generates
+ // an interrupt when it occurs
+
+#define CAMERA_CC_IRQENABLE_FSP_IRQ_EN \
+ 0x00000800 // FSP code Interrupt Enable 0
+ // Event is masked 1 Event generates
+ // an interrupt when it occurs
+
+#define CAMERA_CC_IRQENABLE_FW_ERR_IRQ_EN \
+ 0x00000400 // Frame Height Error Interrupt
+ // Enable 0 Event is masked 1 Event
+ // generates an interrupt when it
+ // occurs
+
+#define CAMERA_CC_IRQENABLE_FSC_ERR_IRQ_EN \
+ 0x00000200 // False Synchronization Code
+ // Interrupt Enable 0 Event is
+ // masked 1 Event generates an
+ // interrupt when it occurs
+
+#define CAMERA_CC_IRQENABLE_SSC_ERR_IRQ_EN \
+ 0x00000100 // False Synchronization Code
+ // Interrupt Enable 0 Event is
+ // masked 1 Event generates an
+ // interrupt when it occurs
+
+#define CAMERA_CC_IRQENABLE_FIFO_NONEMPTY_IRQ_EN \
+ 0x00000010 // FIFO Threshold Interrupt Enable
+ // 0 Event is masked 1 Event
+ // generates an interrupt when it
+ // occurs
+
+#define CAMERA_CC_IRQENABLE_FIFO_FULL_IRQ_EN \
+ 0x00000008 // FIFO Threshold Interrupt Enable
+ // 0 Event is masked 1 Event
+ // generates an interrupt when it
+ // occurs
+
+#define CAMERA_CC_IRQENABLE_FIFO_THR_IRQ_EN \
+ 0x00000004 // FIFO Threshold Interrupt Enable
+ // 0 Event is masked 1 Event
+ // generates an interrupt when it
+ // occurs
+
+#define CAMERA_CC_IRQENABLE_FIFO_OF_IRQ_EN \
+ 0x00000002 // FIFO Overflow Interrupt Enable 0
+ // Event is masked 1 Event generates
+ // an interrupt when it occurs
+
+#define CAMERA_CC_IRQENABLE_FIFO_UF_IRQ_EN \
+ 0x00000001 // FIFO Underflow Interrupt Enable
+ // 0 Event is masked 1 Event
+ // generates an interrupt when it
+ // occurs
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the CAMERA_O_CC_CTRL register.
+//
+//******************************************************************************
+#define CAMERA_CC_CTRL_CC_IF_SYNCHRO \
+ 0x00080000 // Synchronize all camera sensor
+ // inputs This must be set during
+ // the configuration phase before
+ // CC_EN set to '1'. This can be
+ // used in very high frequency to
+ // avoid dependancy to the IO
+ // timings. 0 No synchro (most of
+ // applications) 1 Synchro enabled
+ // (should never be required)
+
+#define CAMERA_CC_CTRL_CC_RST 0x00040000 // Resets all the internal finite
+ // states machines of the camera
+ // core module - by writing a 1 to
+ // this bit. must be applied when
+ // CC_EN = 0 Reads returns 0
+#define CAMERA_CC_CTRL_CC_FRAME_TRIG \
+ 0x00020000 // Set the modality in which CC_EN
+ // works when a disabling of the
+ // sensor camera core is wanted "If
+ // CC_FRAME_TRIG = 1 by writing
+ // ""0"" to CC_EN" the module is
+ // disabled at the end of the frame
+ // "If CC_FRAME_TRIG = 0 by writing
+ // ""0"" to CC_EN" the module is
+ // disabled immediately
+
+#define CAMERA_CC_CTRL_CC_EN 0x00010000 // Enables the sensor interface of
+ // the camera core module "By
+ // writing ""1"" to this field the
+ // module is enabled." "By writing
+ // ""0"" to this field the module is
+ // disabled at" the end of the frame
+ // if CC_FRAM_TRIG =1 and is
+ // disabled immediately if
+ // CC_FRAM_TRIG = 0
+#define CAMERA_CC_CTRL_NOBT_SYNCHRO \
+ 0x00002000 // Enables to start at the
+ // beginning of the frame or not in
+ // NoBT 0 Acquisition starts when
+ // Vertical synchro is high 1
+ // Acquisition starts when Vertical
+ // synchro goes from low to high
+ // (beginning of the frame) -
+ // Recommended.
+
+#define CAMERA_CC_CTRL_BT_CORRECT \
+ 0x00001000 // Enables the correction within
+ // the sync codes in BT mode 0
+ // correction is not enabled 1
+ // correction is enabled
+
+#define CAMERA_CC_CTRL_PAR_ORDERCAM \
+ 0x00000800 // Enables swap between image-data
+ // in parallel mode 0 swap is not
+ // enabled 1 swap is enabled
+
+#define CAMERA_CC_CTRL_PAR_CLK_POL \
+ 0x00000400 // Inverts the clock coming from
+ // the sensor in parallel mode 0
+ // clock not inverted - data sampled
+ // on rising edge 1 clock inverted -
+ // data sampled on falling edge
+
+#define CAMERA_CC_CTRL_NOBT_HS_POL \
+ 0x00000200 // Sets the polarity of the
+ // synchronization signals in NOBT
+ // parallel mode 0 CAM_P_HS is
+ // active high 1 CAM_P_HS is active
+ // low
+
+#define CAMERA_CC_CTRL_NOBT_VS_POL \
+ 0x00000100 // Sets the polarity of the
+ // synchronization signals in NOBT
+ // parallel mode 0 CAM_P_VS is
+ // active high 1 CAM_P_VS is active
+ // low
+
+#define CAMERA_CC_CTRL_PAR_MODE_M \
+ 0x0000000E // Sets the Protocol Mode of the
+ // Camera Core module in parallel
+ // mode (when CCP_MODE = 0) """000""
+ // Parallel NOBT 8-bit" """001""
+ // Parallel NOBT 10-bit" """010""
+ // Parallel NOBT 12-bit" """011""
+ // reserved" """100"" Parallet BT
+ // 8-bit" """101"" Parallel BT
+ // 10-bit" """110"" reserved"
+ // """111"" FIFO test mode. Refer to
+ // Table 12 - FIFO Write and Read
+ // access"
+
+#define CAMERA_CC_CTRL_PAR_MODE_S 1
+#define CAMERA_CC_CTRL_CCP_MODE 0x00000001 // Set the Camera Core in CCP mode
+ // 0 CCP mode disabled 1 CCP mode
+ // enabled
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// CAMERA_O_CC_CTRL_DMA register.
+//
+//******************************************************************************
+#define CAMERA_CC_CTRL_DMA_DMA_EN \
+ 0x00000100 // Sets the number of dma request
+ // lines 0 DMA interface disabled
+ // The DMA request line stays
+ // inactive 1 DMA interface enabled
+ // The DMA request line is
+ // operational
+
+#define CAMERA_CC_CTRL_DMA_FIFO_THRESHOLD_M \
+ 0x0000007F // Sets the threshold of the FIFO
+ // the assertion of the dmarequest
+ // line takes place when the
+ // threshold is reached.
+ // """0000000"" threshold set to 1"
+ // """0000001"" threshold set to 2"
+ // … """1111111"" threshold set to
+ // 128"
+
+#define CAMERA_CC_CTRL_DMA_FIFO_THRESHOLD_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// CAMERA_O_CC_CTRL_XCLK register.
+//
+//******************************************************************************
+#define CAMERA_CC_CTRL_XCLK_XCLK_DIV_M \
+ 0x0000001F // Sets the clock divisor value for
+ // CAM_XCLK generation. based on
+ // CAM_MCK (value of CAM_MCLK is
+ // 96MHz) """00000"" CAM_XCLK Stable
+ // Low Level" Divider not enabled
+ // """00001"" CAM_XCLK Stable High
+ // Level" Divider not enabled from 2
+ // to 30 CAM_XCLK = CAM_MCLK /
+ // XCLK_DIV """11111"" Bypass -
+ // CAM_XCLK = CAM_MCLK"
+
+#define CAMERA_CC_CTRL_XCLK_XCLK_DIV_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// CAMERA_O_CC_FIFO_DATA register.
+//
+//******************************************************************************
+#define CAMERA_CC_FIFO_DATA_FIFO_DATA_M \
+ 0xFFFFFFFF // Writes the 32-bit word into the
+ // FIFO Reads the 32-bit word from
+ // the FIFO
+
+#define CAMERA_CC_FIFO_DATA_FIFO_DATA_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the CAMERA_O_CC_TEST register.
+//
+//******************************************************************************
+#define CAMERA_CC_TEST_FIFO_RD_POINTER_M \
+ 0xFF000000 // FIFO READ Pointer This field
+ // shows the value of the FIFO read
+ // pointer Expected value ranges
+ // from 0 to 127
+
+#define CAMERA_CC_TEST_FIFO_RD_POINTER_S 24
+#define CAMERA_CC_TEST_FIFO_WR_POINTER_M \
+ 0x00FF0000 // FIFO WRITE pointer This field
+ // shows the value of the FIFO write
+ // pointer Expected value ranges
+ // from 0 to 127
+
+#define CAMERA_CC_TEST_FIFO_WR_POINTER_S 16
+#define CAMERA_CC_TEST_FIFO_LEVEL_M \
+ 0x0000FF00 // FIFO level (how many 32-bit
+ // words the FIFO contains) This
+ // field shows the value of the FIFO
+ // level and can assume values from
+ // 0 to 128
+
+#define CAMERA_CC_TEST_FIFO_LEVEL_S 8
+#define CAMERA_CC_TEST_FIFO_LEVEL_PEAK_M \
+ 0x000000FF // FIFO level peak This field shows
+ // the max value of the FIFO level
+ // and can assume values from 0 to
+ // 128
+
+#define CAMERA_CC_TEST_FIFO_LEVEL_PEAK_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// CAMERA_O_CC_GEN_PAR register.
+//
+//******************************************************************************
+#define CAMERA_CC_GEN_PAR_CC_FIFO_DEPTH_M \
+ 0x00000007 // Camera Core FIFO DEPTH generic
+ // parameter
+
+#define CAMERA_CC_GEN_PAR_CC_FIFO_DEPTH_S 0
+
+
+
+#endif // __HW_CAMERA_H__
diff --git a/cc3200/hal/inc/hw_common_reg.h b/cc3200/hal/inc/hw_common_reg.h
new file mode 100644
index 000000000..417544ad4
--- /dev/null
+++ b/cc3200/hal/inc/hw_common_reg.h
@@ -0,0 +1,1117 @@
+//*****************************************************************************
+//
+// Copyright (C) 2014 Texas Instruments Incorporated - http://www.ti.com/
+//
+//
+// Redistribution and use in source and binary forms, with or without
+// modification, are permitted provided that the following conditions
+// are met:
+//
+// Redistributions of source code must retain the above copyright
+// notice, this list of conditions and the following disclaimer.
+//
+// Redistributions in binary form must reproduce the above copyright
+// notice, this list of conditions and the following disclaimer in the
+// documentation and/or other materials provided with the
+// distribution.
+//
+// Neither the name of Texas Instruments Incorporated nor the names of
+// its contributors may be used to endorse or promote products derived
+// from this software without specific prior written permission.
+//
+// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
+// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
+// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
+// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
+// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
+// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
+// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
+// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
+// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
+// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
+// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+//
+//*****************************************************************************
+
+#ifndef __HW_COMMON_REG_H__
+#define __HW_COMMON_REG_H__
+
+//*****************************************************************************
+//
+// The following are defines for the COMMON_REG register offsets.
+//
+//*****************************************************************************
+#define COMMON_REG_O_I2C_Properties_Register \
+ 0x00000000
+
+#define COMMON_REG_O_SPI_Properties_Register \
+ 0x00000004
+
+#define COMMON_REG_O_APPS_sh_resource_Interrupt_enable \
+ 0x0000000C
+
+#define COMMON_REG_O_APPS_sh_resource_Interrupt_status \
+ 0x00000010
+
+#define COMMON_REG_O_NWP_sh_resource_Interrupt_enable \
+ 0x00000014
+
+#define COMMON_REG_O_NWP_sh_resource_Interrupt_status \
+ 0x00000018
+
+#define COMMON_REG_O_Flash_ctrl_reg \
+ 0x0000001C
+
+#define COMMON_REG_O_Bus_matrix_M0_segment_access_config \
+ 0x00000024
+
+#define COMMON_REG_O_Bus_matrix_M1_segment_access_config \
+ 0x00000028
+
+#define COMMON_REG_O_Bus_matrix_M2_segment_access_config \
+ 0x0000002C
+
+#define COMMON_REG_O_Bus_matrix_M3_segment_access_config \
+ 0x00000030
+
+#define COMMON_REG_O_Bus_matrix_M4_segment_access_config \
+ 0x00000034
+
+#define COMMON_REG_O_Bus_matrix_M5_segment_access_config \
+ 0x00000038
+
+#define COMMON_REG_O_GPIO_properties_register \
+ 0x0000003C
+
+#define COMMON_REG_O_APPS_NW_SEMAPHORE1 \
+ 0x00000040
+
+#define COMMON_REG_O_APPS_NW_SEMAPHORE2 \
+ 0x00000044
+
+#define COMMON_REG_O_APPS_NW_SEMAPHORE3 \
+ 0x00000048
+
+#define COMMON_REG_O_APPS_NW_SEMAPHORE4 \
+ 0x0000004C
+
+#define COMMON_REG_O_APPS_NW_SEMAPHORE5 \
+ 0x00000050
+
+#define COMMON_REG_O_APPS_NW_SEMAPHORE6 \
+ 0x00000054
+
+#define COMMON_REG_O_APPS_NW_SEMAPHORE7 \
+ 0x00000058
+
+#define COMMON_REG_O_APPS_NW_SEMAPHORE8 \
+ 0x0000005C
+
+#define COMMON_REG_O_APPS_NW_SEMAPHORE9 \
+ 0x00000060
+
+#define COMMON_REG_O_APPS_NW_SEMAPHORE10 \
+ 0x00000064
+
+#define COMMON_REG_O_APPS_NW_SEMAPHORE11 \
+ 0x00000068
+
+#define COMMON_REG_O_APPS_NW_SEMAPHORE12 \
+ 0x0000006C
+
+#define COMMON_REG_O_APPS_SEMAPPHORE_PEND \
+ 0x00000070
+
+#define COMMON_REG_O_NW_SEMAPPHORE_PEND \
+ 0x00000074
+
+#define COMMON_REG_O_SEMAPHORE_STATUS \
+ 0x00000078
+
+#define COMMON_REG_O_IDMEM_TIM_Update \
+ 0x0000007C
+
+#define COMMON_REG_O_FPGA_ROM_WR_EN \
+ 0x00000080
+
+#define COMMON_REG_O_NW_INT_MASK \
+ 0x00000084
+
+#define COMMON_REG_O_NW_INT_MASK_SET \
+ 0x00000088
+
+#define COMMON_REG_O_NW_INT_MASK_CLR \
+ 0x0000008C
+
+#define COMMON_REG_O_NW_INT_STS_CLR \
+ 0x00000090
+
+#define COMMON_REG_O_NW_INT_ACK 0x00000094
+#define COMMON_REG_O_NW_INT_TRIG \
+ 0x00000098
+
+#define COMMON_REG_O_NW_INT_STS_MASKED \
+ 0x0000009C
+
+#define COMMON_REG_O_NW_INT_STS_RAW \
+ 0x000000A0
+
+#define COMMON_REG_O_APPS_INT_MASK \
+ 0x000000A4
+
+#define COMMON_REG_O_APPS_INT_MASK_SET \
+ 0x000000A8
+
+#define COMMON_REG_O_APPS_INT_MASK_CLR \
+ 0x000000AC
+
+#define COMMON_REG_O_APPS_INT_STS_CLR \
+ 0x000000B0
+
+#define COMMON_REG_O_APPS_INT_ACK \
+ 0x000000B4
+
+#define COMMON_REG_O_APPS_INT_TRIG \
+ 0x000000B8
+
+#define COMMON_REG_O_APPS_INT_STS_MASKED \
+ 0x000000BC
+
+#define COMMON_REG_O_APPS_INT_STS_RAW \
+ 0x000000C0
+
+#define COMMON_REG_O_IDMEM_TIM_Updated \
+ 0x000000C4
+
+#define COMMON_REG_O_APPS_GPIO_TRIG_EN \
+ 0x000000C8
+
+#define COMMON_REG_O_EMU_DEBUG_REG \
+ 0x000000CC
+
+#define COMMON_REG_O_SEMAPHORE_STATUS2 \
+ 0x000000D0
+
+#define COMMON_REG_O_SEMAPHORE_PREV_OWNER1 \
+ 0x000000D4
+
+#define COMMON_REG_O_SEMAPHORE_PREV_OWNER2 \
+ 0x000000D8
+
+
+
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// COMMON_REG_O_I2C_Properties_Register register.
+//
+//******************************************************************************
+#define COMMON_REG_I2C_Properties_Register_I2C_Properties_Register_M \
+ 0x00000003 // • Each semaphore register is of
+ // 2 bit. • When this register is
+ // set to 2’b01 – Apps have access
+ // and when set to 2’b10 – NW have
+ // access. • Ideally both the master
+ // can modify any of this 2 bit, but
+ // assumption apps will write only
+ // 2’b01 or 2’b00 to this register
+ // and nw will write only 2’b10 or
+ // 2’b00. • Implementation is when
+ // any of the bit of this register
+ // is set, only next write
+ // allowedvis 2’b00 – Again
+ // assumption is one master will not
+ // write 2’b00 if other is already
+ // holding the semaphore.
+
+#define COMMON_REG_I2C_Properties_Register_I2C_Properties_Register_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// COMMON_REG_O_SPI_Properties_Register register.
+//
+//******************************************************************************
+#define COMMON_REG_SPI_Properties_Register_SPI_Properties_Register_M \
+ 0x00000003 // • Each semaphore register is of
+ // 2 bit. • When this register is
+ // set to 2’b01 – Apps have access
+ // and when set to 2’b10 – NW have
+ // access. • Ideally both the master
+ // can modify any of this 2 bit, but
+ // assumption apps will write only
+ // 2’b01 or 2’b00 to this register
+ // and nw will write only 2’b10 or
+ // 2’b00. • Implementation is when
+ // any of the bit of this register
+ // is set, only next write
+ // allowedvis 2’b00 – Again
+ // assumption is one master will not
+ // write 2’b00 if other is already
+ // holding the semaphore.
+
+#define COMMON_REG_SPI_Properties_Register_SPI_Properties_Register_S 0
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// COMMON_REG_O_APPS_sh_resource_Interrupt_enable register.
+//
+//******************************************************************************
+#define COMMON_REG_APPS_sh_resource_Interrupt_enable_APPS_sh_resource_Interrupt_enable_M \
+ 0x0000000F // Interrupt enable APPS bit 0 ->
+ // when '1' enable I2C interrupt bit
+ // 1 -> when '1' enable SPI
+ // interrupt bit 3 ->
+ // when '1' enable GPIO interrupt
+
+#define COMMON_REG_APPS_sh_resource_Interrupt_enable_APPS_sh_resource_Interrupt_enable_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// COMMON_REG_O_APPS_sh_resource_Interrupt_status register.
+//
+//******************************************************************************
+#define COMMON_REG_APPS_sh_resource_Interrupt_status_APPS_sh_resource_Interrupt_status_M \
+ 0x0000000F // Interrupt enable APPS bit 0 ->
+ // when '1' enable I2C interrupt bit
+ // 1 -> when '1' enable SPI
+ // interrupt bit 3 ->
+ // when '1' enable GPIO interrupt
+
+#define COMMON_REG_APPS_sh_resource_Interrupt_status_APPS_sh_resource_Interrupt_status_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// COMMON_REG_O_NWP_sh_resource_Interrupt_enable register.
+//
+//******************************************************************************
+#define COMMON_REG_NWP_sh_resource_Interrupt_enable_NWP_sh_resource_Interrupt_enable_M \
+ 0x0000000F // Interrupt enable NWP bit 0 ->
+ // when '1' enable I2C interrupt bit
+ // 1 -> when '1' enable SPI
+ // interrupt bit 3 ->
+ // when '1' enable GPIO interrupt
+
+#define COMMON_REG_NWP_sh_resource_Interrupt_enable_NWP_sh_resource_Interrupt_enable_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// COMMON_REG_O_NWP_sh_resource_Interrupt_status register.
+//
+//******************************************************************************
+#define COMMON_REG_NWP_sh_resource_Interrupt_status_NWP_sh_resource_Interrupt_status_M \
+ 0x0000000F // Interrupt enable NWP bit 0 ->
+ // when '1' enable I2C interrupt bit
+ // 1 -> when '1' enable SPI
+ // interrupt bit 3 ->
+ // when '1' enable GPIO interrupt
+
+#define COMMON_REG_NWP_sh_resource_Interrupt_status_NWP_sh_resource_Interrupt_status_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// COMMON_REG_O_Flash_ctrl_reg register.
+//
+//******************************************************************************
+#define COMMON_REG_Flash_ctrl_reg_Flash_ctrl_reg_M \
+ 0x00000003 // • Each semaphore register is of
+ // 2 bit. • When this register is
+ // set to 2’b01 – Apps have access
+ // and when set to 2’b10 – NW have
+ // access. • Ideally both the master
+ // can modify any of this 2 bit, but
+ // assumption apps will write only
+ // 2’b01 or 2’b00 to this register
+ // and nw will write only 2’b10 or
+ // 2’b00. • Implementation is when
+ // any of the bit of this register
+ // is set, only next write
+ // allowedvis 2’b00 – Again
+ // assumption is one master will not
+ // write 2’b00 if other is already
+ // holding the semaphore.
+
+#define COMMON_REG_Flash_ctrl_reg_Flash_ctrl_reg_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// COMMON_REG_O_Bus_matrix_M0_segment_access_config register.
+//
+//******************************************************************************
+#define COMMON_REG_Bus_matrix_M0_segment_access_config_Bus_matrix_M0_segment_access_config_M \
+ 0x0003FFFF // Master 0 control word matrix to
+ // each segment. Tieoff. Bit value 1
+ // indicates segment is accesable.
+
+#define COMMON_REG_Bus_matrix_M0_segment_access_config_Bus_matrix_M0_segment_access_config_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// COMMON_REG_O_Bus_matrix_M1_segment_access_config register.
+//
+//******************************************************************************
+#define COMMON_REG_Bus_matrix_M1_segment_access_config_Bus_matrix_M1_segment_access_config_M \
+ 0x0003FFFF // Master 1 control word matrix to
+ // each segment. Tieoff. Bit value 1
+ // indicates segment is accesable.
+
+#define COMMON_REG_Bus_matrix_M1_segment_access_config_Bus_matrix_M1_segment_access_config_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// COMMON_REG_O_Bus_matrix_M2_segment_access_config register.
+//
+//******************************************************************************
+#define COMMON_REG_Bus_matrix_M2_segment_access_config_Bus_matrix_M2_segment_access_config_M \
+ 0x0003FFFF // Master 2 control word matrix to
+ // each segment. Tieoff. Bit value 1
+ // indicates segment is accesable.
+
+#define COMMON_REG_Bus_matrix_M2_segment_access_config_Bus_matrix_M2_segment_access_config_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// COMMON_REG_O_Bus_matrix_M3_segment_access_config register.
+//
+//******************************************************************************
+#define COMMON_REG_Bus_matrix_M3_segment_access_config_Bus_matrix_M3_segment_access_config_M \
+ 0x0003FFFF // Master 3 control word matrix to
+ // each segment. Tieoff. Bit value 1
+ // indicates segment is accesable.
+
+#define COMMON_REG_Bus_matrix_M3_segment_access_config_Bus_matrix_M3_segment_access_config_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// COMMON_REG_O_Bus_matrix_M4_segment_access_config register.
+//
+//******************************************************************************
+#define COMMON_REG_Bus_matrix_M4_segment_access_config_Bus_matrix_M4_segment_access_config_M \
+ 0x0003FFFF // Master 4 control word matrix to
+ // each segment. Tieoff. Bit value 1
+ // indicates segment is accesable.
+
+#define COMMON_REG_Bus_matrix_M4_segment_access_config_Bus_matrix_M4_segment_access_config_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// COMMON_REG_O_Bus_matrix_M5_segment_access_config register.
+//
+//******************************************************************************
+#define COMMON_REG_Bus_matrix_M5_segment_access_config_Bus_matrix_M5_segment_access_config_M \
+ 0x0003FFFF // Master 5 control word matrix to
+ // each segment. Tieoff. Bit value 1
+ // indicates segment is accesable.
+
+#define COMMON_REG_Bus_matrix_M5_segment_access_config_Bus_matrix_M5_segment_access_config_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// COMMON_REG_O_GPIO_properties_register register.
+//
+//******************************************************************************
+#define COMMON_REG_GPIO_properties_register_GPIO_properties_register_M \
+ 0x000003FF // Shared GPIO configuration
+ // register. Bit [1:0] to configure
+ // GPIO0 Bit [3:2] to configure
+ // GPIO1 Bit [5:4] to configure
+ // GPIO2 Bit [7:6] to configure
+ // GPIO3 Bit [9:8] to configure
+ // GPIO4 each GPIO can be
+ // individully selected. When “00”
+ // GPIO is free resource. When “01”
+ // GPIO is APPS resource. When “10”
+ // GPIO is NWP resource. Writing 11
+ // doesnt have any affect, i.e. If
+ // one write only relevant gpio
+ // semaphore and other bits are 1s,
+ // it'll not disturb the other
+ // semaphore bits. For example : Say
+ // If NW wants to take control of
+ // gpio-1, one should write
+ // 10'b11_1111_1011 and if one wants
+ // to release it write
+ // 10'b11_1111_0011.
+
+#define COMMON_REG_GPIO_properties_register_GPIO_properties_register_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// COMMON_REG_O_APPS_NW_SEMAPHORE1 register.
+//
+//******************************************************************************
+#define COMMON_REG_APPS_NW_SEMAPHORE1_APPS_NW_SEMAPHORE1_M \
+ 0xFFFFFFFF // • Each semaphore register is of
+ // 2 bit. • When this register is
+ // set to 2’b01 – Apps have access
+ // and when set to 2’b10 – NW have
+ // access. • Ideally both the master
+ // can modify any of this 2 bit, but
+ // assumption apps will write only
+ // 2’b01 or 2’b00 to this register
+ // and nw will write only 2’b10 or
+ // 2’b00. • Implementation is when
+ // any of the bit of this register
+ // is set, only next write
+ // allowedvis 2’b00 – Again
+ // assumption is one master will not
+ // write 2’b00 if other is already
+ // holding the semaphore.
+
+#define COMMON_REG_APPS_NW_SEMAPHORE1_APPS_NW_SEMAPHORE1_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// COMMON_REG_O_APPS_NW_SEMAPHORE2 register.
+//
+//******************************************************************************
+#define COMMON_REG_APPS_NW_SEMAPHORE2_APPS_NW_SEMAPHORE2_M \
+ 0xFFFFFFFF // • Each semaphore register is of
+ // 2 bit. • When this register is
+ // set to 2’b01 – Apps have access
+ // and when set to 2’b10 – NW have
+ // access. • Ideally both the master
+ // can modify any of this 2 bit, but
+ // assumption apps will write only
+ // 2’b01 or 2’b00 to this register
+ // and nw will write only 2’b10 or
+ // 2’b00. • Implementation is when
+ // any of the bit of this register
+ // is set, only next write
+ // allowedvis 2’b00 – Again
+ // assumption is one master will not
+ // write 2’b00 if other is already
+ // holding the semaphore.
+
+#define COMMON_REG_APPS_NW_SEMAPHORE2_APPS_NW_SEMAPHORE2_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// COMMON_REG_O_APPS_NW_SEMAPHORE3 register.
+//
+//******************************************************************************
+#define COMMON_REG_APPS_NW_SEMAPHORE3_APPS_NW_SEMAPHORE3_M \
+ 0xFFFFFFFF // • Each semaphore register is of
+ // 2 bit. • When this register is
+ // set to 2’b01 – Apps have access
+ // and when set to 2’b10 – NW have
+ // access. • Ideally both the master
+ // can modify any of this 2 bit, but
+ // assumption apps will write only
+ // 2’b01 or 2’b00 to this register
+ // and nw will write only 2’b10 or
+ // 2’b00. • Implementation is when
+ // any of the bit of this register
+ // is set, only next write
+ // allowedvis 2’b00 – Again
+ // assumption is one master will not
+ // write 2’b00 if other is already
+ // holding the semaphore.
+
+#define COMMON_REG_APPS_NW_SEMAPHORE3_APPS_NW_SEMAPHORE3_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// COMMON_REG_O_APPS_NW_SEMAPHORE4 register.
+//
+//******************************************************************************
+#define COMMON_REG_APPS_NW_SEMAPHORE4_APPS_NW_SEMAPHORE4_M \
+ 0xFFFFFFFF // • Each semaphore register is of
+ // 2 bit. • When this register is
+ // set to 2’b01 – Apps have access
+ // and when set to 2’b10 – NW have
+ // access. • Ideally both the master
+ // can modify any of this 2 bit, but
+ // assumption apps will write only
+ // 2’b01 or 2’b00 to this register
+ // and nw will write only 2’b10 or
+ // 2’b00. • Implementation is when
+ // any of the bit of this register
+ // is set, only next write
+ // allowedvis 2’b00 – Again
+ // assumption is one master will not
+ // write 2’b00 if other is already
+ // holding the semaphore.
+
+#define COMMON_REG_APPS_NW_SEMAPHORE4_APPS_NW_SEMAPHORE4_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// COMMON_REG_O_APPS_NW_SEMAPHORE5 register.
+//
+//******************************************************************************
+#define COMMON_REG_APPS_NW_SEMAPHORE5_APPS_NW_SEMAPHORE5_M \
+ 0xFFFFFFFF // • Each semaphore register is of
+ // 2 bit. • When this register is
+ // set to 2’b01 – Apps have access
+ // and when set to 2’b10 – NW have
+ // access. • Ideally both the master
+ // can modify any of this 2 bit, but
+ // assumption apps will write only
+ // 2’b01 or 2’b00 to this register
+ // and nw will write only 2’b10 or
+ // 2’b00. • Implementation is when
+ // any of the bit of this register
+ // is set, only next write
+ // allowedvis 2’b00 – Again
+ // assumption is one master will not
+ // write 2’b00 if other is already
+ // holding the semaphore.
+
+#define COMMON_REG_APPS_NW_SEMAPHORE5_APPS_NW_SEMAPHORE5_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// COMMON_REG_O_APPS_NW_SEMAPHORE6 register.
+//
+//******************************************************************************
+#define COMMON_REG_APPS_NW_SEMAPHORE6_APPS_NW_SEMAPHORE6_M \
+ 0xFFFFFFFF // • Each semaphore register is of
+ // 2 bit. • When this register is
+ // set to 2’b01 – Apps have access
+ // and when set to 2’b10 – NW have
+ // access. • Ideally both the master
+ // can modify any of this 2 bit, but
+ // assumption apps will write only
+ // 2’b01 or 2’b00 to this register
+ // and nw will write only 2’b10 or
+ // 2’b00. • Implementation is when
+ // any of the bit of this register
+ // is set, only next write
+ // allowedvis 2’b00 – Again
+ // assumption is one master will not
+ // write 2’b00 if other is already
+ // holding the semaphore.
+
+#define COMMON_REG_APPS_NW_SEMAPHORE6_APPS_NW_SEMAPHORE6_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// COMMON_REG_O_APPS_NW_SEMAPHORE7 register.
+//
+//******************************************************************************
+#define COMMON_REG_APPS_NW_SEMAPHORE7_APPS_NW_SEMAPHORE7_M \
+ 0xFFFFFFFF // • Each semaphore register is of
+ // 2 bit. • When this register is
+ // set to 2’b01 – Apps have access
+ // and when set to 2’b10 – NW have
+ // access. • Ideally both the master
+ // can modify any of this 2 bit, but
+ // assumption apps will write only
+ // 2’b01 or 2’b00 to this register
+ // and nw will write only 2’b10 or
+ // 2’b00. • Implementation is when
+ // any of the bit of this register
+ // is set, only next write
+ // allowedvis 2’b00 – Again
+ // assumption is one master will not
+ // write 2’b00 if other is already
+ // holding the semaphore.
+
+#define COMMON_REG_APPS_NW_SEMAPHORE7_APPS_NW_SEMAPHORE7_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// COMMON_REG_O_APPS_NW_SEMAPHORE8 register.
+//
+//******************************************************************************
+#define COMMON_REG_APPS_NW_SEMAPHORE8_APPS_NW_SEMAPHORE8_M \
+ 0xFFFFFFFF // • Each semaphore register is of
+ // 2 bit. • When this register is
+ // set to 2’b01 – Apps have access
+ // and when set to 2’b10 – NW have
+ // access. • Ideally both the master
+ // can modify any of this 2 bit, but
+ // assumption apps will write only
+ // 2’b01 or 2’b00 to this register
+ // and nw will write only 2’b10 or
+ // 2’b00. • Implementation is when
+ // any of the bit of this register
+ // is set, only next write
+ // allowedvis 2’b00 – Again
+ // assumption is one master will not
+ // write 2’b00 if other is already
+ // holding the semaphore.
+
+#define COMMON_REG_APPS_NW_SEMAPHORE8_APPS_NW_SEMAPHORE8_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// COMMON_REG_O_APPS_NW_SEMAPHORE9 register.
+//
+//******************************************************************************
+#define COMMON_REG_APPS_NW_SEMAPHORE9_APPS_NW_SEMAPHORE9_M \
+ 0xFFFFFFFF // • Each semaphore register is of
+ // 2 bit. • When this register is
+ // set to 2’b01 – Apps have access
+ // and when set to 2’b10 – NW have
+ // access. • Ideally both the master
+ // can modify any of this 2 bit, but
+ // assumption apps will write only
+ // 2’b01 or 2’b00 to this register
+ // and nw will write only 2’b10 or
+ // 2’b00. • Implementation is when
+ // any of the bit of this register
+ // is set, only next write
+ // allowedvis 2’b00 – Again
+ // assumption is one master will not
+ // write 2’b00 if other is already
+ // holding the semaphore.
+
+#define COMMON_REG_APPS_NW_SEMAPHORE9_APPS_NW_SEMAPHORE9_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// COMMON_REG_O_APPS_NW_SEMAPHORE10 register.
+//
+//******************************************************************************
+#define COMMON_REG_APPS_NW_SEMAPHORE10_APPS_NW_SEMAPHORE10_M \
+ 0xFFFFFFFF // • Each semaphore register is of
+ // 2 bit. • When this register is
+ // set to 2’b01 – Apps have access
+ // and when set to 2’b10 – NW have
+ // access. • Ideally both the master
+ // can modify any of this 2 bit, but
+ // assumption apps will write only
+ // 2’b01 or 2’b00 to this register
+ // and nw will write only 2’b10 or
+ // 2’b00. • Implementation is when
+ // any of the bit of this register
+ // is set, only next write
+ // allowedvis 2’b00 – Again
+ // assumption is one master will not
+ // write 2’b00 if other is already
+ // holding the semaphore.
+
+#define COMMON_REG_APPS_NW_SEMAPHORE10_APPS_NW_SEMAPHORE10_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// COMMON_REG_O_APPS_NW_SEMAPHORE11 register.
+//
+//******************************************************************************
+#define COMMON_REG_APPS_NW_SEMAPHORE11_APPS_NW_SEMAPHORE11_M \
+ 0xFFFFFFFF // • Each semaphore register is of
+ // 2 bit. • When this register is
+ // set to 2’b01 – Apps have access
+ // and when set to 2’b10 – NW have
+ // access. • Ideally both the master
+ // can modify any of this 2 bit, but
+ // assumption apps will write only
+ // 2’b01 or 2’b00 to this register
+ // and nw will write only 2’b10 or
+ // 2’b00. • Implementation is when
+ // any of the bit of this register
+ // is set, only next write
+ // allowedvis 2’b00 – Again
+ // assumption is one master will not
+ // write 2’b00 if other is already
+ // holding the semaphore.
+
+#define COMMON_REG_APPS_NW_SEMAPHORE11_APPS_NW_SEMAPHORE11_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// COMMON_REG_O_APPS_NW_SEMAPHORE12 register.
+//
+//******************************************************************************
+#define COMMON_REG_APPS_NW_SEMAPHORE12_APPS_NW_SEMAPHORE12_M \
+ 0xFFFFFFFF // APPS NW semaphore register - not
+ // reflected in status.
+
+#define COMMON_REG_APPS_NW_SEMAPHORE12_APPS_NW_SEMAPHORE12_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// COMMON_REG_O_APPS_SEMAPPHORE_PEND register.
+//
+//******************************************************************************
+#define COMMON_REG_APPS_SEMAPPHORE_PEND_APPS_SEMAPPHORE_PEND_M \
+ 0xFFFFFFFF // APPS SEMAPOHORE STATUS
+
+#define COMMON_REG_APPS_SEMAPPHORE_PEND_APPS_SEMAPPHORE_PEND_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// COMMON_REG_O_NW_SEMAPPHORE_PEND register.
+//
+//******************************************************************************
+#define COMMON_REG_NW_SEMAPPHORE_PEND_NW_SEMAPPHORE_PEND_M \
+ 0xFFFFFFFF // NW SEMAPHORE STATUS
+
+#define COMMON_REG_NW_SEMAPPHORE_PEND_NW_SEMAPPHORE_PEND_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// COMMON_REG_O_SEMAPHORE_STATUS register.
+//
+//******************************************************************************
+#define COMMON_REG_SEMAPHORE_STATUS_SEMAPHORE_STATUS_M \
+ 0xFFFFFFFF // SEMAPHORE STATUS 9:8 :semaphore
+ // status of flash_control 7:6
+ // :semaphore status of
+ // gpio_properties 5:4
+ // :semaphore status of
+ // spi_propertie 1:0 :semaphore
+ // status of i2c_propertie
+
+#define COMMON_REG_SEMAPHORE_STATUS_SEMAPHORE_STATUS_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// COMMON_REG_O_IDMEM_TIM_Update register.
+//
+//******************************************************************************
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// COMMON_REG_O_FPGA_ROM_WR_EN register.
+//
+//******************************************************************************
+#define COMMON_REG_FPGA_ROM_WR_EN_FPGA_ROM_WR_EN \
+ 0x00000001 // when '1' enables Write into
+ // IDMEM CORE ROM, APPS ROM, NWP ROM
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// COMMON_REG_O_NW_INT_MASK register.
+//
+//******************************************************************************
+#define COMMON_REG_NW_INT_MASK_NW_INT_MASK_M \
+ 0xFFFFFFFF // 1= disable corresponding
+ // interrupt;0 = interrupt enabled
+
+#define COMMON_REG_NW_INT_MASK_NW_INT_MASK_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// COMMON_REG_O_NW_INT_MASK_SET register.
+//
+//******************************************************************************
+#define COMMON_REG_NW_INT_MASK_SET_NW_INT_MASK_SET_M \
+ 0xFFFFFFFF // write 1 to set corresponding bit
+ // in NW_INT_MASK;0 = no effect
+
+#define COMMON_REG_NW_INT_MASK_SET_NW_INT_MASK_SET_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// COMMON_REG_O_NW_INT_MASK_CLR register.
+//
+//******************************************************************************
+#define COMMON_REG_NW_INT_MASK_CLR_NW_INT_MASK_CLR_M \
+ 0xFFFFFFFF // write 1 to clear corresponding
+ // bit in NW_INT_MASK;0 = no effect
+
+#define COMMON_REG_NW_INT_MASK_CLR_NW_INT_MASK_CLR_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// COMMON_REG_O_NW_INT_STS_CLR register.
+//
+//******************************************************************************
+#define COMMON_REG_NW_INT_STS_CLR_NW_INT_STS_CLR_M \
+ 0xFFFFFFFF // write 1 to clear corresponding
+ // interrupt; 0 = no effect;
+ // interrupt is not lost if coincide
+ // with write operation
+
+#define COMMON_REG_NW_INT_STS_CLR_NW_INT_STS_CLR_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// COMMON_REG_O_NW_INT_ACK register.
+//
+//******************************************************************************
+#define COMMON_REG_NW_INT_ACK_NW_INT_ACK_M \
+ 0xFFFFFFFF // write 1 to clear corresponding
+ // interrupt;0 = no effect
+
+#define COMMON_REG_NW_INT_ACK_NW_INT_ACK_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// COMMON_REG_O_NW_INT_TRIG register.
+//
+//******************************************************************************
+#define COMMON_REG_NW_INT_TRIG_NW_INT_TRIG_M \
+ 0xFFFFFFFF // Writing a 1 to a bit in this
+ // register causes the the Host CPU
+ // if enabled (not masked). This
+ // register is self-clearing.
+ // Writing 0 has no effect
+
+#define COMMON_REG_NW_INT_TRIG_NW_INT_TRIG_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// COMMON_REG_O_NW_INT_STS_MASKED register.
+//
+//******************************************************************************
+#define COMMON_REG_NW_INT_STS_MASKED_NW_INT_STS_MASKED_M \
+ 0xFFFFFFFF // 1= corresponding interrupt is
+ // active and not masked. read is
+ // non-destructive;0 = corresponding
+ // interrupt is inactive or masked
+ // by NW_INT mask
+
+#define COMMON_REG_NW_INT_STS_MASKED_NW_INT_STS_MASKED_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// COMMON_REG_O_NW_INT_STS_RAW register.
+//
+//******************************************************************************
+#define COMMON_REG_NW_INT_STS_RAW_NW_INT_STS_RAW_M \
+ 0xFFFFFFFF // 1= corresponding interrupt is
+ // active. read is non-destructive;0
+ // = corresponding interrupt is
+ // inactive
+
+#define COMMON_REG_NW_INT_STS_RAW_NW_INT_STS_RAW_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// COMMON_REG_O_APPS_INT_MASK register.
+//
+//******************************************************************************
+#define COMMON_REG_APPS_INT_MASK_APPS_INT_MASK_M \
+ 0xFFFFFFFF // 1= disable corresponding
+ // interrupt;0 = interrupt enabled
+
+#define COMMON_REG_APPS_INT_MASK_APPS_INT_MASK_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// COMMON_REG_O_APPS_INT_MASK_SET register.
+//
+//******************************************************************************
+#define COMMON_REG_APPS_INT_MASK_SET_APPS_INT_MASK_SET_M \
+ 0xFFFFFFFF // write 1 to set corresponding bit
+ // in APPS_INT_MASK;0 = no effect
+
+#define COMMON_REG_APPS_INT_MASK_SET_APPS_INT_MASK_SET_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// COMMON_REG_O_APPS_INT_MASK_CLR register.
+//
+//******************************************************************************
+#define COMMON_REG_APPS_INT_MASK_CLR_APPS_INT_MASK_CLR_M \
+ 0xFFFFFFFF // write 1 to clear corresponding
+ // bit in APPS_INT_MASK;0 = no
+ // effect
+
+#define COMMON_REG_APPS_INT_MASK_CLR_APPS_INT_MASK_CLR_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// COMMON_REG_O_APPS_INT_STS_CLR register.
+//
+//******************************************************************************
+#define COMMON_REG_APPS_INT_STS_CLR_APPS_INT_STS_CLR_M \
+ 0xFFFFFFFF // write 1 to clear corresponding
+ // interrupt; 0 = no effect;
+ // interrupt is not lost if coincide
+ // with write operation
+
+#define COMMON_REG_APPS_INT_STS_CLR_APPS_INT_STS_CLR_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// COMMON_REG_O_APPS_INT_ACK register.
+//
+//******************************************************************************
+#define COMMON_REG_APPS_INT_ACK_APPS_INT_ACK_M \
+ 0xFFFFFFFF // write 1 to clear corresponding
+ // interrupt;0 = no effect
+
+#define COMMON_REG_APPS_INT_ACK_APPS_INT_ACK_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// COMMON_REG_O_APPS_INT_TRIG register.
+//
+//******************************************************************************
+#define COMMON_REG_APPS_INT_TRIG_APPS_INT_TRIG_M \
+ 0xFFFFFFFF // Writing a 1 to a bit in this
+ // register causes the the Host CPU
+ // if enabled (not masked). This
+ // register is self-clearing.
+ // Writing 0 has no effect
+
+#define COMMON_REG_APPS_INT_TRIG_APPS_INT_TRIG_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// COMMON_REG_O_APPS_INT_STS_MASKED register.
+//
+//******************************************************************************
+#define COMMON_REG_APPS_INT_STS_MASKED_APPS_INT_STS_MASKED_M \
+ 0xFFFFFFFF // 1= corresponding interrupt is
+ // active and not masked. read is
+ // non-destructive;0 = corresponding
+ // interrupt is inactive or masked
+ // by APPS_INT mask
+
+#define COMMON_REG_APPS_INT_STS_MASKED_APPS_INT_STS_MASKED_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// COMMON_REG_O_APPS_INT_STS_RAW register.
+//
+//******************************************************************************
+#define COMMON_REG_APPS_INT_STS_RAW_APPS_INT_STS_RAW_M \
+ 0xFFFFFFFF // 1= corresponding interrupt is
+ // active. read is non-destructive;0
+ // = corresponding interrupt is
+ // inactive
+
+#define COMMON_REG_APPS_INT_STS_RAW_APPS_INT_STS_RAW_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// COMMON_REG_O_IDMEM_TIM_Updated register.
+//
+//******************************************************************************
+#define COMMON_REG_IDMEM_TIM_Updated_TIM_UPDATED \
+ 0x00000001 // toggle in this signal
+ // indicatesIDMEM_TIM_UPDATE
+ // register mentioned above is
+ // updated.
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// COMMON_REG_O_APPS_GPIO_TRIG_EN register.
+//
+//******************************************************************************
+#define COMMON_REG_APPS_GPIO_TRIG_EN_APPS_GPIO_TRIG_EN_M \
+ 0x0000001F // APPS GPIO Trigger EN control.
+ // Bit 0: when '1' enable GPIO 0
+ // trigger. This bit enables trigger
+ // for all GPIO 0 pins (GPIO 0 to
+ // GPIO7). Bit 1: when '1' enable
+ // GPIO 1 trigger. This bit enables
+ // trigger for all GPIO 1 pins (
+ // GPIO8 to GPIO15). Bit 2: when '1'
+ // enable GPIO 2 trigger. This bit
+ // enables trigger for all GPIO 2
+ // pins (GPIO16 to GPIO23). Bit 3:
+ // when '1' enable GPIO 3 trigger.
+ // This bit enables trigger for all
+ // GPIO 3 pins (GPIO24 to GPIO31).
+ // Bit 4: when '1' enable GPIO 4
+ // trigger. This bit enables trigger
+ // for all GPIO 4 pins.(GPIO32 to
+ // GPIO39)
+
+#define COMMON_REG_APPS_GPIO_TRIG_EN_APPS_GPIO_TRIG_EN_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// COMMON_REG_O_EMU_DEBUG_REG register.
+//
+//******************************************************************************
+#define COMMON_REG_EMU_DEBUG_REG_EMU_DEBUG_REG_M \
+ 0xFFFFFFFF // 0 th bit used for stalling APPS
+ // DMA and 1st bit is used for
+ // stalling NWP DMA for debug
+ // purpose. Other bits are unused.
+
+#define COMMON_REG_EMU_DEBUG_REG_EMU_DEBUG_REG_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// COMMON_REG_O_SEMAPHORE_STATUS2 register.
+//
+//******************************************************************************
+#define COMMON_REG_SEMAPHORE_STATUS2_SEMPAPHORE_STATUS2_M \
+ 0x00FFFFFF // SEMAPHORE STATUS 23:22
+ // :semaphore status of
+ // apps_nw_semaphore11 21:20
+ // :semaphore status of
+ // apps_nw_semaphore11 19:18
+ // :semaphore status of
+ // apps_nw_semaphore10 17:16
+ // :semaphore status of
+ // apps_nw_semaphore9 15:14
+ // :semaphore status of
+ // apps_nw_semaphore8 13:12
+ // :semaphore status of
+ // apps_nw_semaphore7 11:10
+ // :semaphore status of
+ // apps_nw_semaphore6 9:8 :semaphore
+ // status of apps_nw_semaphore5 7:6
+ // :semaphore status of
+ // apps_nw_semaphore4 5:4 :semaphore
+ // status of apps_nw_semaphore3 3:2
+ // :semaphore status of
+ // apps_nw_semaphore2 1:0 :semaphore
+ // status of apps_nw_semaphore1
+
+#define COMMON_REG_SEMAPHORE_STATUS2_SEMPAPHORE_STATUS2_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// COMMON_REG_O_SEMAPHORE_PREV_OWNER1 register.
+//
+//******************************************************************************
+#define COMMON_REG_SEMAPHORE_PREV_OWNER1_SEMAPHORE_PREV_OWNER1_M \
+ 0x0003FFFF // 1:0 : prvious owner of
+ // i2c_properties_reg[1:0] 3:2 :
+ // prvious owner of
+ // spi_properties_reg[1:0] 5:4 :
+ // prvious owner of
+ // gpio_properties_reg[1:0] 9:8 :
+ // prvious owner of
+ // gpio_properties_reg[3:2] 11:10 :
+ // prvious owner of
+ // gpio_properties_reg[5:4] 13:12 :
+ // prvious owner of
+ // gpio_properties_reg[7:6] 15:14 :
+ // prvious owner of
+ // gpio_properties_reg[9:8] 17:16 :
+ // prvious owner of
+ // flash_control_reg[1:0]
+
+#define COMMON_REG_SEMAPHORE_PREV_OWNER1_SEMAPHORE_PREV_OWNER1_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// COMMON_REG_O_SEMAPHORE_PREV_OWNER2 register.
+//
+//******************************************************************************
+#define COMMON_REG_SEMAPHORE_PREV_OWNER2_SEMAPHORE_PREV_OWNER2_M \
+ 0x00FFFFFF // 1:0 : previous owner of
+ // apps_nw_semaphore1_reg[1:0] 3:2 :
+ // previous owner of
+ // apps_nw_semaphore2_reg[1:0] 5:4 :
+ // previous owner of
+ // apps_nw_semaphore3_reg[1:0] 7:6 :
+ // previous owner of
+ // apps_nw_semaphore4_reg[1:0] 9:8 :
+ // previous owner of
+ // apps_nw_semaphore5_reg[1:0] 11:10
+ // : previous owner of
+ // apps_nw_semaphore6_reg[1:0] 13:12
+ // : previous owner of
+ // apps_nw_semaphore7_reg[1:0] 15:14
+ // : previous owner of
+ // apps_nw_semaphore8_reg[1:0] 17:16
+ // : previous owner of
+ // apps_nw_semaphore9_reg[1:0] 19:18
+ // : previous owner of
+ // apps_nw_semaphore10_reg[1:0]
+ // 21:20 : previous owner of
+ // apps_nw_semaphore11_reg[1:0]
+ // 23:22 : previous owner of
+ // apps_nw_semaphore12_reg[1:0]
+
+#define COMMON_REG_SEMAPHORE_PREV_OWNER2_SEMAPHORE_PREV_OWNER2_S 0
+
+
+
+#endif // __HW_COMMON_REG_H__
diff --git a/cc3200/hal/inc/hw_des.h b/cc3200/hal/inc/hw_des.h
new file mode 100644
index 000000000..c3aed6562
--- /dev/null
+++ b/cc3200/hal/inc/hw_des.h
@@ -0,0 +1,339 @@
+//*****************************************************************************
+//
+// Copyright (C) 2014 Texas Instruments Incorporated - http://www.ti.com/
+//
+//
+// Redistribution and use in source and binary forms, with or without
+// modification, are permitted provided that the following conditions
+// are met:
+//
+// Redistributions of source code must retain the above copyright
+// notice, this list of conditions and the following disclaimer.
+//
+// Redistributions in binary form must reproduce the above copyright
+// notice, this list of conditions and the following disclaimer in the
+// documentation and/or other materials provided with the
+// distribution.
+//
+// Neither the name of Texas Instruments Incorporated nor the names of
+// its contributors may be used to endorse or promote products derived
+// from this software without specific prior written permission.
+//
+// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
+// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
+// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
+// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
+// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
+// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
+// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
+// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
+// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
+// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
+// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+//
+//*****************************************************************************
+
+#ifndef __HW_DES_H__
+#define __HW_DES_H__
+
+//*****************************************************************************
+//
+// The following are defines for the DES_P register offsets.
+//
+//*****************************************************************************
+#define DES_O_KEY3_L 0x00000000 // KEY3 (LSW) for 192-bit key
+#define DES_O_KEY3_H 0x00000004 // KEY3 (MSW) for 192-bit key
+#define DES_O_KEY2_L 0x00000008 // KEY2 (LSW) for 192-bit key
+#define DES_O_KEY2_H 0x0000000C // KEY2 (MSW) for 192-bit key
+#define DES_O_KEY1_L 0x00000010 // KEY1 (LSW) for 128-bit
+ // key/192-bit key
+#define DES_O_KEY1_H 0x00000014 // KEY1 (LSW) for 128-bit
+ // key/192-bit key
+#define DES_O_IV_L 0x00000018 // Initialization vector LSW
+#define DES_O_IV_H 0x0000001C // Initialization vector MSW
+#define DES_O_CTRL 0x00000020
+#define DES_O_LENGTH 0x00000024 // Indicates the cryptographic data
+ // length in bytes for all modes.
+ // Once processing is started with
+ // this context this length
+ // decrements to zero. Data lengths
+ // up to (2^32 – 1) bytes are
+ // allowed. A write to this register
+ // triggers the engine to start
+ // using this context. For a Host
+ // read operation these registers
+ // return all-zeroes.
+#define DES_O_DATA_L 0x00000028 // Data register(LSW) to read/write
+ // encrypted/decrypted data.
+#define DES_O_DATA_H 0x0000002C // Data register(MSW) to read/write
+ // encrypted/decrypted data.
+#define DES_O_REVISION 0x00000030
+#define DES_O_SYSCONFIG 0x00000034
+#define DES_O_SYSSTATUS 0x00000038
+#define DES_O_IRQSTATUS 0x0000003C // This register indicates the
+ // interrupt status. If one of the
+ // interrupt bits is set the
+ // interrupt output will be asserted
+#define DES_O_IRQENABLE 0x00000040 // This register contains an enable
+ // bit for each unique interrupt
+ // generated by the module. It
+ // matches the layout of
+ // DES_IRQSTATUS register. An
+ // interrupt is enabled when the bit
+ // in this register is set to 1
+
+
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the DES_O_KEY3_L register.
+//
+//******************************************************************************
+#define DES_KEY3_L_KEY3_L_M 0xFFFFFFFF // data for key3
+#define DES_KEY3_L_KEY3_L_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the DES_O_KEY3_H register.
+//
+//******************************************************************************
+#define DES_KEY3_H_KEY3_H_M 0xFFFFFFFF // data for key3
+#define DES_KEY3_H_KEY3_H_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the DES_O_KEY2_L register.
+//
+//******************************************************************************
+#define DES_KEY2_L_KEY2_L_M 0xFFFFFFFF // data for key2
+#define DES_KEY2_L_KEY2_L_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the DES_O_KEY2_H register.
+//
+//******************************************************************************
+#define DES_KEY2_H_KEY2_H_M 0xFFFFFFFF // data for key2
+#define DES_KEY2_H_KEY2_H_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the DES_O_KEY1_L register.
+//
+//******************************************************************************
+#define DES_KEY1_L_KEY1_L_M 0xFFFFFFFF // data for key1
+#define DES_KEY1_L_KEY1_L_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the DES_O_KEY1_H register.
+//
+//******************************************************************************
+#define DES_KEY1_H_KEY1_H_M 0xFFFFFFFF // data for key1
+#define DES_KEY1_H_KEY1_H_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the DES_O_IV_L register.
+//
+//******************************************************************************
+#define DES_IV_L_IV_L_M 0xFFFFFFFF // initialization vector for CBC
+ // CFB modes
+#define DES_IV_L_IV_L_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the DES_O_IV_H register.
+//
+//******************************************************************************
+#define DES_IV_H_IV_H_M 0xFFFFFFFF // initialization vector for CBC
+ // CFB modes
+#define DES_IV_H_IV_H_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the DES_O_CTRL register.
+//
+//******************************************************************************
+#define DES_CTRL_CONTEXT 0x80000000 // If ‘1’ this read-only status bit
+ // indicates that the context data
+ // registers can be overwritten and
+ // the host is permitted to write
+ // the next context.
+#define DES_CTRL_MODE_M 0x00000030 // Select CBC ECB or CFB mode 0x0
+ // ecb mode 0x1 cbc mode 0x2 cfb
+ // mode 0x3 reserved
+#define DES_CTRL_MODE_S 4
+#define DES_CTRL_TDES 0x00000008 // Select DES or triple DES
+ // encryption/decryption. 0 des mode
+ // 1 tdes mode
+#define DES_CTRL_DIRECTION 0x00000004 // select encryption/decryption 0
+ // decryption is selected 1
+ // Encryption is selected
+#define DES_CTRL_INPUT_READY 0x00000002 // When '1' ready to
+ // encrypt/decrypt data
+#define DES_CTRL_OUTPUT_READY 0x00000001 // When '1' Data
+ // decrypted/encrypted ready
+//******************************************************************************
+//
+// The following are defines for the bit fields in the DES_O_LENGTH register.
+//
+//******************************************************************************
+#define DES_LENGTH_LENGTH_M 0xFFFFFFFF
+#define DES_LENGTH_LENGTH_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the DES_O_DATA_L register.
+//
+//******************************************************************************
+#define DES_DATA_L_DATA_L_M 0xFFFFFFFF // data for encryption/decryption
+#define DES_DATA_L_DATA_L_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the DES_O_DATA_H register.
+//
+//******************************************************************************
+#define DES_DATA_H_DATA_H_M 0xFFFFFFFF // data for encryption/decryption
+#define DES_DATA_H_DATA_H_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the DES_O_REVISION register.
+//
+//******************************************************************************
+#define DES_REVISION_SCHEME_M 0xC0000000
+#define DES_REVISION_SCHEME_S 30
+#define DES_REVISION_FUNC_M 0x0FFF0000 // Function indicates a software
+ // compatible module family. If
+ // there is no level of software
+ // compatibility a new Func number
+ // (and hence REVISION) should be
+ // assigned.
+#define DES_REVISION_FUNC_S 16
+#define DES_REVISION_R_RTL_M 0x0000F800 // RTL Version (R) maintained by IP
+ // design owner. RTL follows a
+ // numbering such as X.Y.R.Z which
+ // are explained in this table. R
+ // changes ONLY when: (1) PDS
+ // uploads occur which may have been
+ // due to spec changes (2) Bug fixes
+ // occur (3) Resets to '0' when X or
+ // Y changes. Design team has an
+ // internal 'Z' (customer invisible)
+ // number which increments on every
+ // drop that happens due to DV and
+ // RTL updates. Z resets to 0 when R
+ // increments.
+#define DES_REVISION_R_RTL_S 11
+#define DES_REVISION_X_MAJOR_M \
+ 0x00000700 // Major Revision (X) maintained by
+ // IP specification owner. X changes
+ // ONLY when: (1) There is a major
+ // feature addition. An example
+ // would be adding Master Mode to
+ // Utopia Level2. The Func field (or
+ // Class/Type in old PID format)
+ // will remain the same. X does NOT
+ // change due to: (1) Bug fixes (2)
+ // Change in feature parameters.
+
+#define DES_REVISION_X_MAJOR_S 8
+#define DES_REVISION_CUSTOM_M 0x000000C0
+#define DES_REVISION_CUSTOM_S 6
+#define DES_REVISION_Y_MINOR_M \
+ 0x0000003F // Minor Revision (Y) maintained by
+ // IP specification owner. Y changes
+ // ONLY when: (1) Features are
+ // scaled (up or down). Flexibility
+ // exists in that this feature
+ // scalability may either be
+ // represented in the Y change or a
+ // specific register in the IP that
+ // indicates which features are
+ // exactly available. (2) When
+ // feature creeps from Is-Not list
+ // to Is list. But this may not be
+ // the case once it sees silicon; in
+ // which case X will change. Y does
+ // NOT change due to: (1) Bug fixes
+ // (2) Typos or clarifications (3)
+ // major functional/feature
+ // change/addition/deletion. Instead
+ // these changes may be reflected
+ // via R S X as applicable. Spec
+ // owner maintains a
+ // customer-invisible number 'S'
+ // which changes due to: (1)
+ // Typos/clarifications (2) Bug
+ // documentation. Note that this bug
+ // is not due to a spec change but
+ // due to implementation.
+ // Nevertheless the spec tracks the
+ // IP bugs. An RTL release (say for
+ // silicon PG1.1) that occurs due to
+ // bug fix should document the
+ // corresponding spec number (X.Y.S)
+ // in its release notes.
+
+#define DES_REVISION_Y_MINOR_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the DES_O_SYSCONFIG register.
+//
+//******************************************************************************
+#define DES_SYSCONFIG_DMA_REQ_CONTEXT_IN_EN \
+ 0x00000080 // If set to ‘1’ the DMA context
+ // request is enabled. 0 Dma
+ // disabled 1 Dma enabled
+
+#define DES_SYSCONFIG_DMA_REQ_DATA_OUT_EN \
+ 0x00000040 // If set to ‘1’ the DMA output
+ // request is enabled. 0 Dma
+ // disabled 1 Dma enabled
+
+#define DES_SYSCONFIG_DMA_REQ_DATA_IN_EN \
+ 0x00000020 // If set to ‘1’ the DMA input
+ // request is enabled. 0 Dma
+ // disabled 1 Dma enabled
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the DES_O_SYSSTATUS register.
+//
+//******************************************************************************
+#define DES_SYSSTATUS_RESETDONE \
+ 0x00000001
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the DES_O_IRQSTATUS register.
+//
+//******************************************************************************
+#define DES_IRQSTATUS_DATA_OUT \
+ 0x00000004 // This bit indicates data output
+ // interrupt is active and triggers
+ // the interrupt output.
+
+#define DES_IRQSTATUS_DATA_IN 0x00000002 // This bit indicates data input
+ // interrupt is active and triggers
+ // the interrupt output.
+#define DES_IRQSTATUS_CONTEX_IN \
+ 0x00000001 // This bit indicates context
+ // interrupt is active and triggers
+ // the interrupt output.
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the DES_O_IRQENABLE register.
+//
+//******************************************************************************
+#define DES_IRQENABLE_M_DATA_OUT \
+ 0x00000004 // If this bit is set to ‘1’ the
+ // secure data output interrupt is
+ // enabled.
+
+#define DES_IRQENABLE_M_DATA_IN \
+ 0x00000002 // If this bit is set to ‘1’ the
+ // secure data input interrupt is
+ // enabled.
+
+#define DES_IRQENABLE_M_CONTEX_IN \
+ 0x00000001 // If this bit is set to ‘1’ the
+ // secure context interrupt is
+ // enabled.
+
+
+
+
+#endif // __HW_DES_H__
diff --git a/cc3200/hal/inc/hw_dthe.h b/cc3200/hal/inc/hw_dthe.h
new file mode 100644
index 000000000..1d302f426
--- /dev/null
+++ b/cc3200/hal/inc/hw_dthe.h
@@ -0,0 +1,392 @@
+//*****************************************************************************
+//
+// Copyright (C) 2014 Texas Instruments Incorporated - http://www.ti.com/
+//
+//
+// Redistribution and use in source and binary forms, with or without
+// modification, are permitted provided that the following conditions
+// are met:
+//
+// Redistributions of source code must retain the above copyright
+// notice, this list of conditions and the following disclaimer.
+//
+// Redistributions in binary form must reproduce the above copyright
+// notice, this list of conditions and the following disclaimer in the
+// documentation and/or other materials provided with the
+// distribution.
+//
+// Neither the name of Texas Instruments Incorporated nor the names of
+// its contributors may be used to endorse or promote products derived
+// from this software without specific prior written permission.
+//
+// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
+// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
+// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
+// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
+// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
+// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
+// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
+// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
+// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
+// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
+// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+//
+//*****************************************************************************
+//*****************************************************************************
+
+#ifndef __HW_DTHE_H__
+#define __HW_DTHE_H__
+
+//*****************************************************************************
+//
+// The following are defines for the DTHE register offsets.
+//
+//*****************************************************************************
+#define DTHE_O_SHA_IM 0x00000810
+#define DTHE_O_SHA_RIS 0x00000814
+#define DTHE_O_SHA_MIS 0x00000818
+#define DTHE_O_SHA_IC 0x0000081C
+#define DTHE_O_AES_IM 0x00000820
+#define DTHE_O_AES_RIS 0x00000824
+#define DTHE_O_AES_MIS 0x00000828
+#define DTHE_O_AES_IC 0x0000082C
+#define DTHE_O_DES_IM 0x00000830
+#define DTHE_O_DES_RIS 0x00000834
+#define DTHE_O_DES_MIS 0x00000838
+#define DTHE_O_DES_IC 0x0000083C
+#define DTHE_O_EIP_CGCFG 0x00000A00
+#define DTHE_O_EIP_CGREQ 0x00000A04
+#define DTHE_O_CRC_CTRL 0x00000C00
+#define DTHE_O_CRC_SEED 0x00000C10
+#define DTHE_O_CRC_DIN 0x00000C14
+#define DTHE_O_CRC_RSLT_PP 0x00000C18
+#define DTHE_O_RAND_KEY0 0x00000F00
+#define DTHE_O_RAND_KEY1 0x00000F04
+#define DTHE_O_RAND_KEY2 0x00000F08
+#define DTHE_O_RAND_KEY3 0x00000F0C
+
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// DTHE_O_SHAMD5_IMST register.
+//
+//******************************************************************************
+#define DTHE_SHAMD5_IMST_DIN 0x00000004 // Data in: this interrupt is
+ // raised when DMA writes last word
+ // of input data to internal FIFO of
+ // the engine
+#define DTHE_SHAMD5_IMST_COUT 0x00000002 // Context out: this interrupt is
+ // raised when DMA complets the
+ // output context movement from
+ // internal register
+#define DTHE_SHAMD5_IMST_CIN 0x00000001 // context in: this interrupt is
+ // raised when DMA complets Context
+ // write to internal register
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// DTHE_O_SHAMD5_IRIS register.
+//
+//******************************************************************************
+#define DTHE_SHAMD5_IRIS_DIN 0x00000004 // input Data movement is done
+#define DTHE_SHAMD5_IRIS_COUT 0x00000002 // Context output is done
+#define DTHE_SHAMD5_IRIS_CIN 0x00000001 // context input is done
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// DTHE_O_SHAMD5_IMIS register.
+//
+//******************************************************************************
+#define DTHE_SHAMD5_IMIS_DIN 0x00000004 // input Data movement is done
+#define DTHE_SHAMD5_IMIS_COUT 0x00000002 // Context output is done
+#define DTHE_SHAMD5_IMIS_CIN 0x00000001 // context input is done
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// DTHE_O_SHAMD5_ICIS register.
+//
+//******************************************************************************
+#define DTHE_SHAMD5_ICIS_DIN 0x00000004 // Clear “input Data movement done”
+ // flag
+#define DTHE_SHAMD5_ICIS_COUT 0x00000002 // Clear “Context output done” flag
+#define DTHE_SHAMD5_ICIS_CIN 0x00000001 // Clear “context input done” flag
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// DTHE_O_AES_IMST register.
+//
+//******************************************************************************
+#define DTHE_AES_IMST_DOUT 0x00000008 // Data out: this interrupt is
+ // raised when DMA finishes writing
+ // last word of the process result
+#define DTHE_AES_IMST_DIN 0x00000004 // Data in: this interrupt is
+ // raised when DMA writes last word
+ // of input data to internal FIFO of
+ // the engine
+#define DTHE_AES_IMST_COUT 0x00000002 // Context out: this interrupt is
+ // raised when DMA complets the
+ // output context movement from
+ // internal register
+#define DTHE_AES_IMST_CIN 0x00000001 // context in: this interrupt is
+ // raised when DMA complets Context
+ // write to internal register
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// DTHE_O_AES_IRIS register.
+//
+//******************************************************************************
+#define DTHE_AES_IRIS_DOUT 0x00000008 // Output Data movement is done
+#define DTHE_AES_IRIS_DIN 0x00000004 // input Data movement is done
+#define DTHE_AES_IRIS_COUT 0x00000002 // Context output is done
+#define DTHE_AES_IRIS_CIN 0x00000001 // context input is done
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// DTHE_O_AES_IMIS register.
+//
+//******************************************************************************
+#define DTHE_AES_IMIS_DOUT 0x00000008 // Output Data movement is done
+#define DTHE_AES_IMIS_DIN 0x00000004 // input Data movement is done
+#define DTHE_AES_IMIS_COUT 0x00000002 // Context output is done
+#define DTHE_AES_IMIS_CIN 0x00000001 // context input is done
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// DTHE_O_AES_ICIS register.
+//
+//******************************************************************************
+#define DTHE_AES_ICIS_DOUT 0x00000008 // Clear “output Data movement
+ // done” flag
+#define DTHE_AES_ICIS_DIN 0x00000004 // Clear “input Data movement done”
+ // flag
+#define DTHE_AES_ICIS_COUT 0x00000002 // Clear “Context output done” flag
+#define DTHE_AES_ICIS_CIN 0x00000001 // Clear “context input done” flag
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// DTHE_O_DES_IMST register.
+//
+//******************************************************************************
+#define DTHE_DES_IMST_DOUT 0x00000008 // Data out: this interrupt is
+ // raised when DMA finishes writing
+ // last word of the process result
+#define DTHE_DES_IMST_DIN 0x00000004 // Data in: this interrupt is
+ // raised when DMA writes last word
+ // of input data to internal FIFO of
+ // the engine
+#define DTHE_DES_IMST_CIN 0x00000001 // context in: this interrupt is
+ // raised when DMA complets Context
+ // write to internal register
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// DTHE_O_DES_IRIS register.
+//
+//******************************************************************************
+#define DTHE_DES_IRIS_DOUT 0x00000008 // Output Data movement is done
+#define DTHE_DES_IRIS_DIN 0x00000004 // input Data movement is done
+#define DTHE_DES_IRIS_CIN 0x00000001 // context input is done
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// DTHE_O_DES_IMIS register.
+//
+//******************************************************************************
+#define DTHE_DES_IMIS_DOUT 0x00000008 // Output Data movement is done
+#define DTHE_DES_IMIS_DIN 0x00000004 // input Data movement is done
+#define DTHE_DES_IMIS_CIN 0x00000001 // context input is done
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// DTHE_O_DES_ICIS register.
+//
+//******************************************************************************
+#define DTHE_DES_ICIS_DOUT 0x00000008 // Clear “output Data movement
+ // done” flag
+#define DTHE_DES_ICIS_DIN 0x00000004 // Clear “input Data movement done”
+ // flag
+#define DTHE_DES_ICIS_CIN 0x00000001 // Clear "context input done” flag
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// DTHE_O_EIP_CGCFG register.
+//
+//******************************************************************************
+#define DTHE_EIP_CGCFG_EIP29_CFG \
+ 0x00000010 // Clock gating protocol setting
+ // for EIP29T. 0 – Follow direct
+ // protocol 1 – Follow idle_req/ack
+ // protocol.
+
+#define DTHE_EIP_CGCFG_EIP75_CFG \
+ 0x00000008 // Clock gating protocol setting
+ // for EIP75T. 0 – Follow direct
+ // protocol 1 – Follow idle_req/ack
+ // protocol.
+
+#define DTHE_EIP_CGCFG_EIP16_CFG \
+ 0x00000004 // Clock gating protocol setting
+ // for DES. 0 – Follow direct
+ // protocol 1 – Follow idle_req/ack
+ // protocol.
+
+#define DTHE_EIP_CGCFG_EIP36_CFG \
+ 0x00000002 // Clock gating protocol setting
+ // for AES. 0 – Follow direct
+ // protocol 1 – Follow idle_req/ack
+ // protocol.
+
+#define DTHE_EIP_CGCFG_EIP57_CFG \
+ 0x00000001 // Clock gating protocol setting
+ // for SHAMD5. 0 – Follow direct
+ // protocol 1 – Follow idle_req/ack
+ // protocol.
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// DTHE_O_EIP_CGREQ register.
+//
+//******************************************************************************
+#define DTHE_EIP_CGREQ_Key_M 0xF0000000 // When “0x5” write “1” to lower
+ // bits [4:0] will set the bit.
+ // Write “0” will be ignored When
+ // “0x2” write “1” to lower bit
+ // [4:0] will clear the bit. Write
+ // “0” will be ignored for other key
+ // value, regular read write
+ // operation
+#define DTHE_EIP_CGREQ_Key_S 28
+#define DTHE_EIP_CGREQ_EIP29_REQ \
+ 0x00000010 // 0 – request clock gating 1 –
+ // request to un-gate the clock.
+
+#define DTHE_EIP_CGREQ_EIP75_REQ \
+ 0x00000008 // 0 – request clock gating 1 –
+ // request to un-gate the clock.
+
+#define DTHE_EIP_CGREQ_EIP16_REQ \
+ 0x00000004 // 0 – request clock gating 1 –
+ // request to un-gate the clock.
+
+#define DTHE_EIP_CGREQ_EIP36_REQ \
+ 0x00000002 // 0 – request clock gating 1 –
+ // request to un-gate the clock.
+
+#define DTHE_EIP_CGREQ_EIP57_REQ \
+ 0x00000001 // 0 – request clock gating 1 –
+ // request to un-gate the clock.
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the DTHE_O_CRC_CTRL register.
+//
+//******************************************************************************
+#define DTHE_CRC_CTRL_INIT_M 0x00006000 // Initialize the CRC 00 – use SEED
+ // register context as starting
+ // value 10 – all “zero” 11 – all
+ // “one” This is self clearing. With
+ // first write to data register this
+ // value clears to zero and remain
+ // zero for rest of the operation
+ // unless written again
+#define DTHE_CRC_CTRL_INIT_S 13
+#define DTHE_CRC_CTRL_SIZE 0x00001000 // Input data size 0 – 32 bit 1 – 8
+ // bit
+#define DTHE_CRC_CTRL_OINV 0x00000200 // Inverse the bits of result
+ // before storing to CRC_RSLT_PP0
+#define DTHE_CRC_CTRL_OBR 0x00000100 // Bit reverse the output result
+ // byte before storing to
+ // CRC_RSLT_PP0. applicable for all
+ // bytes in word
+#define DTHE_CRC_CTRL_IBR 0x00000080 // Bit reverse the input byte. For
+ // all bytes in word
+#define DTHE_CRC_CTRL_ENDIAN_M \
+ 0x00000030 // Endian control [0] – swap byte
+ // in half-word [1] – swap half word
+
+#define DTHE_CRC_CTRL_ENDIAN_S 4
+#define DTHE_CRC_CTRL_TYPE_M 0x0000000F // Type of operation 0000 –
+ // polynomial 0x8005 0001 –
+ // polynomial 0x1021 0010 –
+ // polynomial 0x4C11DB7 0011 –
+ // polynomial 0x1EDC6F41 1000 – TCP
+ // checksum TYPE in DTHE_S_CRC_CTRL
+ // & DTHE_S_CRC_CTRL should be
+ // exclusive
+#define DTHE_CRC_CTRL_TYPE_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the DTHE_O_CRC_SEED register.
+//
+//******************************************************************************
+#define DTHE_CRC_SEED_SEED_M 0xFFFFFFFF // Starting seed of CRC and
+ // checksum operation. Please see
+ // CTRL register for more detail.
+ // This resister also holds the
+ // latest result of CRC or checksum
+ // operation
+#define DTHE_CRC_SEED_SEED_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the DTHE_O_CRC_DIN register.
+//
+//******************************************************************************
+#define DTHE_CRC_DIN_DATA_IN_M \
+ 0xFFFFFFFF // Input data for CRC or checksum
+ // operation
+
+#define DTHE_CRC_DIN_DATA_IN_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// DTHE_O_CRC_RSLT_PP register.
+//
+//******************************************************************************
+#define DTHE_CRC_RSLT_PP_RSLT_PP_M \
+ 0xFFFFFFFF // Input data for CRC or checksum
+ // operation
+
+#define DTHE_CRC_RSLT_PP_RSLT_PP_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// DTHE_O_RAND_KEY0 register.
+//
+//******************************************************************************
+#define DTHE_RAND_KEY0_KEY_M 0xFFFFFFFF // Device Specific Randon key
+ // [31:0]
+#define DTHE_RAND_KEY0_KEY_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// DTHE_O_RAND_KEY1 register.
+//
+//******************************************************************************
+#define DTHE_RAND_KEY1_KEY_M 0xFFFFFFFF // Device Specific Randon key
+ // [63:32]
+#define DTHE_RAND_KEY1_KEY_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// DTHE_O_RAND_KEY2 register.
+//
+//******************************************************************************
+#define DTHE_RAND_KEY2_KEY_M 0xFFFFFFFF // Device Specific Randon key
+ // [95:34]
+#define DTHE_RAND_KEY2_KEY_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// DTHE_O_RAND_KEY3 register.
+//
+//******************************************************************************
+#define DTHE_RAND_KEY3_KEY_M 0xFFFFFFFF // Device Specific Randon key
+ // [127:96]
+#define DTHE_RAND_KEY3_KEY_S 0
+
+
+
+#endif // __HW_DTHE_H__
diff --git a/cc3200/hal/inc/hw_flash_ctrl.h b/cc3200/hal/inc/hw_flash_ctrl.h
new file mode 100644
index 000000000..b57044aa1
--- /dev/null
+++ b/cc3200/hal/inc/hw_flash_ctrl.h
@@ -0,0 +1,1862 @@
+//*****************************************************************************
+//
+// Copyright (C) 2014 Texas Instruments Incorporated - http://www.ti.com/
+//
+//
+// Redistribution and use in source and binary forms, with or without
+// modification, are permitted provided that the following conditions
+// are met:
+//
+// Redistributions of source code must retain the above copyright
+// notice, this list of conditions and the following disclaimer.
+//
+// Redistributions in binary form must reproduce the above copyright
+// notice, this list of conditions and the following disclaimer in the
+// documentation and/or other materials provided with the
+// distribution.
+//
+// Neither the name of Texas Instruments Incorporated nor the names of
+// its contributors may be used to endorse or promote products derived
+// from this software without specific prior written permission.
+//
+// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
+// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
+// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
+// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
+// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
+// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
+// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
+// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
+// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
+// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
+// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+//
+//*****************************************************************************
+
+#ifndef __HW_FLASH_CTRL_H__
+#define __HW_FLASH_CTRL_H__
+
+//*****************************************************************************
+//
+// The following are defines for the FLASH_CTRL register offsets.
+//
+//*****************************************************************************
+#define FLASH_CTRL_O_FMA 0x00000000 // Flash Memory Address (FMA)
+ // offset 0x000 During a write
+ // operation this register contains
+ // a 4-byte-aligned address and
+ // specifies where the data is
+ // written. During erase operations
+ // this register contains a 1
+ // KB-aligned CPU byte address and
+ // specifies which block is erased.
+ // Note that the alignment
+ // requirements must be met by
+ // software or the results of the
+ // operation are unpredictable.
+#define FLASH_CTRL_O_FMD 0x00000004 // Flash Memory Data (FMD) offset
+ // 0x004 This register contains the
+ // data to be written during the
+ // programming cycle or read during
+ // the read cycle. Note that the
+ // contents of this register are
+ // undefined for a read access of an
+ // execute-only block. This register
+ // is not used during erase cycles.
+#define FLASH_CTRL_O_FMC 0x00000008 // Flash Memory Control (FMC)
+ // offset 0x008 When this register
+ // is written the Flash memory
+ // controller initiates the
+ // appropriate access cycle for the
+ // location specified by the Flash
+ // Memory Address (FMA) register .
+ // If the access is a write access
+ // the data contained in the Flash
+ // Memory Data (FMD) register is
+ // written to the specified address.
+ // This register must be the final
+ // register written and initiates
+ // the memory operation. The four
+ // control bits in the lower byte of
+ // this register are used to
+ // initiate memory operations.
+#define FLASH_CTRL_O_FCRIS 0x0000000C // Flash Controller Raw Interrupt
+ // Status (FCRIS) offset 0x00C This
+ // register indicates that the Flash
+ // memory controller has an
+ // interrupt condition. An interrupt
+ // is sent to the interrupt
+ // controller only if the
+ // corresponding FCIM register bit
+ // is set.
+#define FLASH_CTRL_O_FCIM 0x00000010 // Flash Controller Interrupt Mask
+ // (FCIM) offset 0x010 This register
+ // controls whether the Flash memory
+ // controller generates interrupts
+ // to the controller.
+#define FLASH_CTRL_O_FCMISC 0x00000014 // Flash Controller Masked
+ // Interrupt Status and Clear
+ // (FCMISC) offset 0x014 This
+ // register provides two functions.
+ // First it reports the cause of an
+ // interrupt by indicating which
+ // interrupt source or sources are
+ // signalling the interrupt. Second
+ // it serves as the method to clear
+ // the interrupt reporting.
+#define FLASH_CTRL_O_FMC2 0x00000020 // Flash Memory Control 2 (FMC2)
+ // offset 0x020 When this register
+ // is written the Flash memory
+ // controller initiates the
+ // appropriate access cycle for the
+ // location specified by the Flash
+ // Memory Address (FMA) register .
+ // If the access is a write access
+ // the data contained in the Flash
+ // Write Buffer (FWB) registers is
+ // written. This register must be
+ // the final register written as it
+ // initiates the memory operation.
+#define FLASH_CTRL_O_FWBVAL 0x00000030 // Flash Write Buffer Valid
+ // (FWBVAL) offset 0x030 This
+ // register provides a bitwise
+ // status of which FWBn registers
+ // have been written by the
+ // processor since the last write of
+ // the Flash memory write buffer.
+ // The entries with a 1 are written
+ // on the next write of the Flash
+ // memory write buffer. This
+ // register is cleared after the
+ // write operation by hardware. A
+ // protection violation on the write
+ // operation also clears this
+ // status. Software can program the
+ // same 32 words to various Flash
+ // memory locations by setting the
+ // FWB[n] bits after they are
+ // cleared by the write operation.
+ // The next write operation then
+ // uses the same data as the
+ // previous one. In addition if a
+ // FWBn register change should not
+ // be written to Flash memory
+ // software can clear the
+ // corresponding FWB[n] bit to
+ // preserve the existing data when
+ // the next write operation occurs.
+#define FLASH_CTRL_O_FWB1 0x00000100 // Flash Write Buffer n (FWBn)
+ // offset 0x100 - 0x17C These 32
+ // registers hold the contents of
+ // the data to be written into the
+ // Flash memory on a buffered Flash
+ // memory write operation. The
+ // offset selects one of the 32-bit
+ // registers. Only FWBn registers
+ // that have been updated since the
+ // preceding buffered Flash memory
+ // write operation are written into
+ // the Flash memory so it is not
+ // necessary to write the entire
+ // bank of registers in order to
+ // write 1 or 2 words. The FWBn
+ // registers are written into the
+ // Flash memory with the FWB0
+ // register corresponding to the
+ // address contained in FMA. FWB1 is
+ // written to the address FMA+0x4
+ // etc. Note that only data bits
+ // that are 0 result in the Flash
+ // memory being modified. A data bit
+ // that is 1 leaves the content of
+ // the Flash memory bit at its
+ // previous value.
+#define FLASH_CTRL_O_FWB2 0x00000104 // Flash Write Buffer n (FWBn)
+ // offset 0x100 - 0x17C These 32
+ // registers hold the contents of
+ // the data to be written into the
+ // Flash memory on a buffered Flash
+ // memory write operation. The
+ // offset selects one of the 32-bit
+ // registers. Only FWBn registers
+ // that have been updated since the
+ // preceding buffered Flash memory
+ // write operation are written into
+ // the Flash memory so it is not
+ // necessary to write the entire
+ // bank of registers in order to
+ // write 1 or 2 words. The FWBn
+ // registers are written into the
+ // Flash memory with the FWB0
+ // register corresponding to the
+ // address contained in FMA. FWB1 is
+ // written to the address FMA+0x4
+ // etc. Note that only data bits
+ // that are 0 result in the Flash
+ // memory being modified. A data bit
+ // that is 1 leaves the content of
+ // the Flash memory bit at its
+ // previous value.
+#define FLASH_CTRL_O_FWB3 0x00000108 // Flash Write Buffer n (FWBn)
+ // offset 0x100 - 0x17C These 32
+ // registers hold the contents of
+ // the data to be written into the
+ // Flash memory on a buffered Flash
+ // memory write operation. The
+ // offset selects one of the 32-bit
+ // registers. Only FWBn registers
+ // that have been updated since the
+ // preceding buffered Flash memory
+ // write operation are written into
+ // the Flash memory so it is not
+ // necessary to write the entire
+ // bank of registers in order to
+ // write 1 or 2 words. The FWBn
+ // registers are written into the
+ // Flash memory with the FWB0
+ // register corresponding to the
+ // address contained in FMA. FWB1 is
+ // written to the address FMA+0x4
+ // etc. Note that only data bits
+ // that are 0 result in the Flash
+ // memory being modified. A data bit
+ // that is 1 leaves the content of
+ // the Flash memory bit at its
+ // previous value.
+#define FLASH_CTRL_O_FWB4 0x0000010C // Flash Write Buffer n (FWBn)
+ // offset 0x100 - 0x17C These 32
+ // registers hold the contents of
+ // the data to be written into the
+ // Flash memory on a buffered Flash
+ // memory write operation. The
+ // offset selects one of the 32-bit
+ // registers. Only FWBn registers
+ // that have been updated since the
+ // preceding buffered Flash memory
+ // write operation are written into
+ // the Flash memory so it is not
+ // necessary to write the entire
+ // bank of registers in order to
+ // write 1 or 2 words. The FWBn
+ // registers are written into the
+ // Flash memory with the FWB0
+ // register corresponding to the
+ // address contained in FMA. FWB1 is
+ // written to the address FMA+0x4
+ // etc. Note that only data bits
+ // that are 0 result in the Flash
+ // memory being modified. A data bit
+ // that is 1 leaves the content of
+ // the Flash memory bit at its
+ // previous value.
+#define FLASH_CTRL_O_FWB5 0x00000110 // Flash Write Buffer n (FWBn)
+ // offset 0x100 - 0x17C These 32
+ // registers hold the contents of
+ // the data to be written into the
+ // Flash memory on a buffered Flash
+ // memory write operation. The
+ // offset selects one of the 32-bit
+ // registers. Only FWBn registers
+ // that have been updated since the
+ // preceding buffered Flash memory
+ // write operation are written into
+ // the Flash memory so it is not
+ // necessary to write the entire
+ // bank of registers in order to
+ // write 1 or 2 words. The FWBn
+ // registers are written into the
+ // Flash memory with the FWB0
+ // register corresponding to the
+ // address contained in FMA. FWB1 is
+ // written to the address FMA+0x4
+ // etc. Note that only data bits
+ // that are 0 result in the Flash
+ // memory being modified. A data bit
+ // that is 1 leaves the content of
+ // the Flash memory bit at its
+ // previous value.
+#define FLASH_CTRL_O_FWB6 0x00000114 // Flash Write Buffer n (FWBn)
+ // offset 0x100 - 0x17C These 32
+ // registers hold the contents of
+ // the data to be written into the
+ // Flash memory on a buffered Flash
+ // memory write operation. The
+ // offset selects one of the 32-bit
+ // registers. Only FWBn registers
+ // that have been updated since the
+ // preceding buffered Flash memory
+ // write operation are written into
+ // the Flash memory so it is not
+ // necessary to write the entire
+ // bank of registers in order to
+ // write 1 or 2 words. The FWBn
+ // registers are written into the
+ // Flash memory with the FWB0
+ // register corresponding to the
+ // address contained in FMA. FWB1 is
+ // written to the address FMA+0x4
+ // etc. Note that only data bits
+ // that are 0 result in the Flash
+ // memory being modified. A data bit
+ // that is 1 leaves the content of
+ // the Flash memory bit at its
+ // previous value.
+#define FLASH_CTRL_O_FWB7 0x00000118 // Flash Write Buffer n (FWBn)
+ // offset 0x100 - 0x17C These 32
+ // registers hold the contents of
+ // the data to be written into the
+ // Flash memory on a buffered Flash
+ // memory write operation. The
+ // offset selects one of the 32-bit
+ // registers. Only FWBn registers
+ // that have been updated since the
+ // preceding buffered Flash memory
+ // write operation are written into
+ // the Flash memory so it is not
+ // necessary to write the entire
+ // bank of registers in order to
+ // write 1 or 2 words. The FWBn
+ // registers are written into the
+ // Flash memory with the FWB0
+ // register corresponding to the
+ // address contained in FMA. FWB1 is
+ // written to the address FMA+0x4
+ // etc. Note that only data bits
+ // that are 0 result in the Flash
+ // memory being modified. A data bit
+ // that is 1 leaves the content of
+ // the Flash memory bit at its
+ // previous value.
+#define FLASH_CTRL_O_FWB8 0x0000011C // Flash Write Buffer n (FWBn)
+ // offset 0x100 - 0x17C These 32
+ // registers hold the contents of
+ // the data to be written into the
+ // Flash memory on a buffered Flash
+ // memory write operation. The
+ // offset selects one of the 32-bit
+ // registers. Only FWBn registers
+ // that have been updated since the
+ // preceding buffered Flash memory
+ // write operation are written into
+ // the Flash memory so it is not
+ // necessary to write the entire
+ // bank of registers in order to
+ // write 1 or 2 words. The FWBn
+ // registers are written into the
+ // Flash memory with the FWB0
+ // register corresponding to the
+ // address contained in FMA. FWB1 is
+ // written to the address FMA+0x4
+ // etc. Note that only data bits
+ // that are 0 result in the Flash
+ // memory being modified. A data bit
+ // that is 1 leaves the content of
+ // the Flash memory bit at its
+ // previous value.
+#define FLASH_CTRL_O_FWB9 0x00000120 // Flash Write Buffer n (FWBn)
+ // offset 0x100 - 0x17C These 32
+ // registers hold the contents of
+ // the data to be written into the
+ // Flash memory on a buffered Flash
+ // memory write operation. The
+ // offset selects one of the 32-bit
+ // registers. Only FWBn registers
+ // that have been updated since the
+ // preceding buffered Flash memory
+ // write operation are written into
+ // the Flash memory so it is not
+ // necessary to write the entire
+ // bank of registers in order to
+ // write 1 or 2 words. The FWBn
+ // registers are written into the
+ // Flash memory with the FWB0
+ // register corresponding to the
+ // address contained in FMA. FWB1 is
+ // written to the address FMA+0x4
+ // etc. Note that only data bits
+ // that are 0 result in the Flash
+ // memory being modified. A data bit
+ // that is 1 leaves the content of
+ // the Flash memory bit at its
+ // previous value.
+#define FLASH_CTRL_O_FWB10 0x00000124 // Flash Write Buffer n (FWBn)
+ // offset 0x100 - 0x17C These 32
+ // registers hold the contents of
+ // the data to be written into the
+ // Flash memory on a buffered Flash
+ // memory write operation. The
+ // offset selects one of the 32-bit
+ // registers. Only FWBn registers
+ // that have been updated since the
+ // preceding buffered Flash memory
+ // write operation are written into
+ // the Flash memory so it is not
+ // necessary to write the entire
+ // bank of registers in order to
+ // write 1 or 2 words. The FWBn
+ // registers are written into the
+ // Flash memory with the FWB0
+ // register corresponding to the
+ // address contained in FMA. FWB1 is
+ // written to the address FMA+0x4
+ // etc. Note that only data bits
+ // that are 0 result in the Flash
+ // memory being modified. A data bit
+ // that is 1 leaves the content of
+ // the Flash memory bit at its
+ // previous value.
+#define FLASH_CTRL_O_FWB11 0x00000128 // Flash Write Buffer n (FWBn)
+ // offset 0x100 - 0x17C These 32
+ // registers hold the contents of
+ // the data to be written into the
+ // Flash memory on a buffered Flash
+ // memory write operation. The
+ // offset selects one of the 32-bit
+ // registers. Only FWBn registers
+ // that have been updated since the
+ // preceding buffered Flash memory
+ // write operation are written into
+ // the Flash memory so it is not
+ // necessary to write the entire
+ // bank of registers in order to
+ // write 1 or 2 words. The FWBn
+ // registers are written into the
+ // Flash memory with the FWB0
+ // register corresponding to the
+ // address contained in FMA. FWB1 is
+ // written to the address FMA+0x4
+ // etc. Note that only data bits
+ // that are 0 result in the Flash
+ // memory being modified. A data bit
+ // that is 1 leaves the content of
+ // the Flash memory bit at its
+ // previous value.
+#define FLASH_CTRL_O_FWB12 0x0000012C // Flash Write Buffer n (FWBn)
+ // offset 0x100 - 0x17C These 32
+ // registers hold the contents of
+ // the data to be written into the
+ // Flash memory on a buffered Flash
+ // memory write operation. The
+ // offset selects one of the 32-bit
+ // registers. Only FWBn registers
+ // that have been updated since the
+ // preceding buffered Flash memory
+ // write operation are written into
+ // the Flash memory so it is not
+ // necessary to write the entire
+ // bank of registers in order to
+ // write 1 or 2 words. The FWBn
+ // registers are written into the
+ // Flash memory with the FWB0
+ // register corresponding to the
+ // address contained in FMA. FWB1 is
+ // written to the address FMA+0x4
+ // etc. Note that only data bits
+ // that are 0 result in the Flash
+ // memory being modified. A data bit
+ // that is 1 leaves the content of
+ // the Flash memory bit at its
+ // previous value.
+#define FLASH_CTRL_O_FWB13 0x00000130 // Flash Write Buffer n (FWBn)
+ // offset 0x100 - 0x17C These 32
+ // registers hold the contents of
+ // the data to be written into the
+ // Flash memory on a buffered Flash
+ // memory write operation. The
+ // offset selects one of the 32-bit
+ // registers. Only FWBn registers
+ // that have been updated since the
+ // preceding buffered Flash memory
+ // write operation are written into
+ // the Flash memory so it is not
+ // necessary to write the entire
+ // bank of registers in order to
+ // write 1 or 2 words. The FWBn
+ // registers are written into the
+ // Flash memory with the FWB0
+ // register corresponding to the
+ // address contained in FMA. FWB1 is
+ // written to the address FMA+0x4
+ // etc. Note that only data bits
+ // that are 0 result in the Flash
+ // memory being modified. A data bit
+ // that is 1 leaves the content of
+ // the Flash memory bit at its
+ // previous value.
+#define FLASH_CTRL_O_FWB14 0x00000134 // Flash Write Buffer n (FWBn)
+ // offset 0x100 - 0x17C These 32
+ // registers hold the contents of
+ // the data to be written into the
+ // Flash memory on a buffered Flash
+ // memory write operation. The
+ // offset selects one of the 32-bit
+ // registers. Only FWBn registers
+ // that have been updated since the
+ // preceding buffered Flash memory
+ // write operation are written into
+ // the Flash memory so it is not
+ // necessary to write the entire
+ // bank of registers in order to
+ // write 1 or 2 words. The FWBn
+ // registers are written into the
+ // Flash memory with the FWB0
+ // register corresponding to the
+ // address contained in FMA. FWB1 is
+ // written to the address FMA+0x4
+ // etc. Note that only data bits
+ // that are 0 result in the Flash
+ // memory being modified. A data bit
+ // that is 1 leaves the content of
+ // the Flash memory bit at its
+ // previous value.
+#define FLASH_CTRL_O_FWB15 0x00000138 // Flash Write Buffer n (FWBn)
+ // offset 0x100 - 0x17C These 32
+ // registers hold the contents of
+ // the data to be written into the
+ // Flash memory on a buffered Flash
+ // memory write operation. The
+ // offset selects one of the 32-bit
+ // registers. Only FWBn registers
+ // that have been updated since the
+ // preceding buffered Flash memory
+ // write operation are written into
+ // the Flash memory so it is not
+ // necessary to write the entire
+ // bank of registers in order to
+ // write 1 or 2 words. The FWBn
+ // registers are written into the
+ // Flash memory with the FWB0
+ // register corresponding to the
+ // address contained in FMA. FWB1 is
+ // written to the address FMA+0x4
+ // etc. Note that only data bits
+ // that are 0 result in the Flash
+ // memory being modified. A data bit
+ // that is 1 leaves the content of
+ // the Flash memory bit at its
+ // previous value.
+#define FLASH_CTRL_O_FWB16 0x0000013C // Flash Write Buffer n (FWBn)
+ // offset 0x100 - 0x17C These 32
+ // registers hold the contents of
+ // the data to be written into the
+ // Flash memory on a buffered Flash
+ // memory write operation. The
+ // offset selects one of the 32-bit
+ // registers. Only FWBn registers
+ // that have been updated since the
+ // preceding buffered Flash memory
+ // write operation are written into
+ // the Flash memory so it is not
+ // necessary to write the entire
+ // bank of registers in order to
+ // write 1 or 2 words. The FWBn
+ // registers are written into the
+ // Flash memory with the FWB0
+ // register corresponding to the
+ // address contained in FMA. FWB1 is
+ // written to the address FMA+0x4
+ // etc. Note that only data bits
+ // that are 0 result in the Flash
+ // memory being modified. A data bit
+ // that is 1 leaves the content of
+ // the Flash memory bit at its
+ // previous value.
+#define FLASH_CTRL_O_FWB17 0x00000140 // Flash Write Buffer n (FWBn)
+ // offset 0x100 - 0x17C These 32
+ // registers hold the contents of
+ // the data to be written into the
+ // Flash memory on a buffered Flash
+ // memory write operation. The
+ // offset selects one of the 32-bit
+ // registers. Only FWBn registers
+ // that have been updated since the
+ // preceding buffered Flash memory
+ // write operation are written into
+ // the Flash memory so it is not
+ // necessary to write the entire
+ // bank of registers in order to
+ // write 1 or 2 words. The FWBn
+ // registers are written into the
+ // Flash memory with the FWB0
+ // register corresponding to the
+ // address contained in FMA. FWB1 is
+ // written to the address FMA+0x4
+ // etc. Note that only data bits
+ // that are 0 result in the Flash
+ // memory being modified. A data bit
+ // that is 1 leaves the content of
+ // the Flash memory bit at its
+ // previous value.
+#define FLASH_CTRL_O_FWB18 0x00000144 // Flash Write Buffer n (FWBn)
+ // offset 0x100 - 0x17C These 32
+ // registers hold the contents of
+ // the data to be written into the
+ // Flash memory on a buffered Flash
+ // memory write operation. The
+ // offset selects one of the 32-bit
+ // registers. Only FWBn registers
+ // that have been updated since the
+ // preceding buffered Flash memory
+ // write operation are written into
+ // the Flash memory so it is not
+ // necessary to write the entire
+ // bank of registers in order to
+ // write 1 or 2 words. The FWBn
+ // registers are written into the
+ // Flash memory with the FWB0
+ // register corresponding to the
+ // address contained in FMA. FWB1 is
+ // written to the address FMA+0x4
+ // etc. Note that only data bits
+ // that are 0 result in the Flash
+ // memory being modified. A data bit
+ // that is 1 leaves the content of
+ // the Flash memory bit at its
+ // previous value.
+#define FLASH_CTRL_O_FWB19 0x00000148 // Flash Write Buffer n (FWBn)
+ // offset 0x100 - 0x17C These 32
+ // registers hold the contents of
+ // the data to be written into the
+ // Flash memory on a buffered Flash
+ // memory write operation. The
+ // offset selects one of the 32-bit
+ // registers. Only FWBn registers
+ // that have been updated since the
+ // preceding buffered Flash memory
+ // write operation are written into
+ // the Flash memory so it is not
+ // necessary to write the entire
+ // bank of registers in order to
+ // write 1 or 2 words. The FWBn
+ // registers are written into the
+ // Flash memory with the FWB0
+ // register corresponding to the
+ // address contained in FMA. FWB1 is
+ // written to the address FMA+0x4
+ // etc. Note that only data bits
+ // that are 0 result in the Flash
+ // memory being modified. A data bit
+ // that is 1 leaves the content of
+ // the Flash memory bit at its
+ // previous value.
+#define FLASH_CTRL_O_FWB20 0x0000014C // Flash Write Buffer n (FWBn)
+ // offset 0x100 - 0x17C These 32
+ // registers hold the contents of
+ // the data to be written into the
+ // Flash memory on a buffered Flash
+ // memory write operation. The
+ // offset selects one of the 32-bit
+ // registers. Only FWBn registers
+ // that have been updated since the
+ // preceding buffered Flash memory
+ // write operation are written into
+ // the Flash memory so it is not
+ // necessary to write the entire
+ // bank of registers in order to
+ // write 1 or 2 words. The FWBn
+ // registers are written into the
+ // Flash memory with the FWB0
+ // register corresponding to the
+ // address contained in FMA. FWB1 is
+ // written to the address FMA+0x4
+ // etc. Note that only data bits
+ // that are 0 result in the Flash
+ // memory being modified. A data bit
+ // that is 1 leaves the content of
+ // the Flash memory bit at its
+ // previous value.
+#define FLASH_CTRL_O_FWB21 0x00000150 // Flash Write Buffer n (FWBn)
+ // offset 0x100 - 0x17C These 32
+ // registers hold the contents of
+ // the data to be written into the
+ // Flash memory on a buffered Flash
+ // memory write operation. The
+ // offset selects one of the 32-bit
+ // registers. Only FWBn registers
+ // that have been updated since the
+ // preceding buffered Flash memory
+ // write operation are written into
+ // the Flash memory so it is not
+ // necessary to write the entire
+ // bank of registers in order to
+ // write 1 or 2 words. The FWBn
+ // registers are written into the
+ // Flash memory with the FWB0
+ // register corresponding to the
+ // address contained in FMA. FWB1 is
+ // written to the address FMA+0x4
+ // etc. Note that only data bits
+ // that are 0 result in the Flash
+ // memory being modified. A data bit
+ // that is 1 leaves the content of
+ // the Flash memory bit at its
+ // previous value.
+#define FLASH_CTRL_O_FWB22 0x00000154 // Flash Write Buffer n (FWBn)
+ // offset 0x100 - 0x17C These 32
+ // registers hold the contents of
+ // the data to be written into the
+ // Flash memory on a buffered Flash
+ // memory write operation. The
+ // offset selects one of the 32-bit
+ // registers. Only FWBn registers
+ // that have been updated since the
+ // preceding buffered Flash memory
+ // write operation are written into
+ // the Flash memory so it is not
+ // necessary to write the entire
+ // bank of registers in order to
+ // write 1 or 2 words. The FWBn
+ // registers are written into the
+ // Flash memory with the FWB0
+ // register corresponding to the
+ // address contained in FMA. FWB1 is
+ // written to the address FMA+0x4
+ // etc. Note that only data bits
+ // that are 0 result in the Flash
+ // memory being modified. A data bit
+ // that is 1 leaves the content of
+ // the Flash memory bit at its
+ // previous value.
+#define FLASH_CTRL_O_FWB23 0x00000158 // Flash Write Buffer n (FWBn)
+ // offset 0x100 - 0x17C These 32
+ // registers hold the contents of
+ // the data to be written into the
+ // Flash memory on a buffered Flash
+ // memory write operation. The
+ // offset selects one of the 32-bit
+ // registers. Only FWBn registers
+ // that have been updated since the
+ // preceding buffered Flash memory
+ // write operation are written into
+ // the Flash memory so it is not
+ // necessary to write the entire
+ // bank of registers in order to
+ // write 1 or 2 words. The FWBn
+ // registers are written into the
+ // Flash memory with the FWB0
+ // register corresponding to the
+ // address contained in FMA. FWB1 is
+ // written to the address FMA+0x4
+ // etc. Note that only data bits
+ // that are 0 result in the Flash
+ // memory being modified. A data bit
+ // that is 1 leaves the content of
+ // the Flash memory bit at its
+ // previous value.
+#define FLASH_CTRL_O_FWB24 0x0000015C // Flash Write Buffer n (FWBn)
+ // offset 0x100 - 0x17C These 32
+ // registers hold the contents of
+ // the data to be written into the
+ // Flash memory on a buffered Flash
+ // memory write operation. The
+ // offset selects one of the 32-bit
+ // registers. Only FWBn registers
+ // that have been updated since the
+ // preceding buffered Flash memory
+ // write operation are written into
+ // the Flash memory so it is not
+ // necessary to write the entire
+ // bank of registers in order to
+ // write 1 or 2 words. The FWBn
+ // registers are written into the
+ // Flash memory with the FWB0
+ // register corresponding to the
+ // address contained in FMA. FWB1 is
+ // written to the address FMA+0x4
+ // etc. Note that only data bits
+ // that are 0 result in the Flash
+ // memory being modified. A data bit
+ // that is 1 leaves the content of
+ // the Flash memory bit at its
+ // previous value.
+#define FLASH_CTRL_O_FWB25 0x00000160 // Flash Write Buffer n (FWBn)
+ // offset 0x100 - 0x17C These 32
+ // registers hold the contents of
+ // the data to be written into the
+ // Flash memory on a buffered Flash
+ // memory write operation. The
+ // offset selects one of the 32-bit
+ // registers. Only FWBn registers
+ // that have been updated since the
+ // preceding buffered Flash memory
+ // write operation are written into
+ // the Flash memory so it is not
+ // necessary to write the entire
+ // bank of registers in order to
+ // write 1 or 2 words. The FWBn
+ // registers are written into the
+ // Flash memory with the FWB0
+ // register corresponding to the
+ // address contained in FMA. FWB1 is
+ // written to the address FMA+0x4
+ // etc. Note that only data bits
+ // that are 0 result in the Flash
+ // memory being modified. A data bit
+ // that is 1 leaves the content of
+ // the Flash memory bit at its
+ // previous value.
+#define FLASH_CTRL_O_FWB26 0x00000164 // Flash Write Buffer n (FWBn)
+ // offset 0x100 - 0x17C These 32
+ // registers hold the contents of
+ // the data to be written into the
+ // Flash memory on a buffered Flash
+ // memory write operation. The
+ // offset selects one of the 32-bit
+ // registers. Only FWBn registers
+ // that have been updated since the
+ // preceding buffered Flash memory
+ // write operation are written into
+ // the Flash memory so it is not
+ // necessary to write the entire
+ // bank of registers in order to
+ // write 1 or 2 words. The FWBn
+ // registers are written into the
+ // Flash memory with the FWB0
+ // register corresponding to the
+ // address contained in FMA. FWB1 is
+ // written to the address FMA+0x4
+ // etc. Note that only data bits
+ // that are 0 result in the Flash
+ // memory being modified. A data bit
+ // that is 1 leaves the content of
+ // the Flash memory bit at its
+ // previous value.
+#define FLASH_CTRL_O_FWB27 0x00000168 // Flash Write Buffer n (FWBn)
+ // offset 0x100 - 0x17C These 32
+ // registers hold the contents of
+ // the data to be written into the
+ // Flash memory on a buffered Flash
+ // memory write operation. The
+ // offset selects one of the 32-bit
+ // registers. Only FWBn registers
+ // that have been updated since the
+ // preceding buffered Flash memory
+ // write operation are written into
+ // the Flash memory so it is not
+ // necessary to write the entire
+ // bank of registers in order to
+ // write 1 or 2 words. The FWBn
+ // registers are written into the
+ // Flash memory with the FWB0
+ // register corresponding to the
+ // address contained in FMA. FWB1 is
+ // written to the address FMA+0x4
+ // etc. Note that only data bits
+ // that are 0 result in the Flash
+ // memory being modified. A data bit
+ // that is 1 leaves the content of
+ // the Flash memory bit at its
+ // previous value.
+#define FLASH_CTRL_O_FWB28 0x0000016C // Flash Write Buffer n (FWBn)
+ // offset 0x100 - 0x17C These 32
+ // registers hold the contents of
+ // the data to be written into the
+ // Flash memory on a buffered Flash
+ // memory write operation. The
+ // offset selects one of the 32-bit
+ // registers. Only FWBn registers
+ // that have been updated since the
+ // preceding buffered Flash memory
+ // write operation are written into
+ // the Flash memory so it is not
+ // necessary to write the entire
+ // bank of registers in order to
+ // write 1 or 2 words. The FWBn
+ // registers are written into the
+ // Flash memory with the FWB0
+ // register corresponding to the
+ // address contained in FMA. FWB1 is
+ // written to the address FMA+0x4
+ // etc. Note that only data bits
+ // that are 0 result in the Flash
+ // memory being modified. A data bit
+ // that is 1 leaves the content of
+ // the Flash memory bit at its
+ // previous value.
+#define FLASH_CTRL_O_FWB29 0x00000170 // Flash Write Buffer n (FWBn)
+ // offset 0x100 - 0x17C These 32
+ // registers hold the contents of
+ // the data to be written into the
+ // Flash memory on a buffered Flash
+ // memory write operation. The
+ // offset selects one of the 32-bit
+ // registers. Only FWBn registers
+ // that have been updated since the
+ // preceding buffered Flash memory
+ // write operation are written into
+ // the Flash memory so it is not
+ // necessary to write the entire
+ // bank of registers in order to
+ // write 1 or 2 words. The FWBn
+ // registers are written into the
+ // Flash memory with the FWB0
+ // register corresponding to the
+ // address contained in FMA. FWB1 is
+ // written to the address FMA+0x4
+ // etc. Note that only data bits
+ // that are 0 result in the Flash
+ // memory being modified. A data bit
+ // that is 1 leaves the content of
+ // the Flash memory bit at its
+ // previous value.
+#define FLASH_CTRL_O_FWB30 0x00000174 // Flash Write Buffer n (FWBn)
+ // offset 0x100 - 0x17C These 32
+ // registers hold the contents of
+ // the data to be written into the
+ // Flash memory on a buffered Flash
+ // memory write operation. The
+ // offset selects one of the 32-bit
+ // registers. Only FWBn registers
+ // that have been updated since the
+ // preceding buffered Flash memory
+ // write operation are written into
+ // the Flash memory so it is not
+ // necessary to write the entire
+ // bank of registers in order to
+ // write 1 or 2 words. The FWBn
+ // registers are written into the
+ // Flash memory with the FWB0
+ // register corresponding to the
+ // address contained in FMA. FWB1 is
+ // written to the address FMA+0x4
+ // etc. Note that only data bits
+ // that are 0 result in the Flash
+ // memory being modified. A data bit
+ // that is 1 leaves the content of
+ // the Flash memory bit at its
+ // previous value.
+#define FLASH_CTRL_O_FWB31 0x00000178 // Flash Write Buffer n (FWBn)
+ // offset 0x100 - 0x17C These 32
+ // registers hold the contents of
+ // the data to be written into the
+ // Flash memory on a buffered Flash
+ // memory write operation. The
+ // offset selects one of the 32-bit
+ // registers. Only FWBn registers
+ // that have been updated since the
+ // preceding buffered Flash memory
+ // write operation are written into
+ // the Flash memory so it is not
+ // necessary to write the entire
+ // bank of registers in order to
+ // write 1 or 2 words. The FWBn
+ // registers are written into the
+ // Flash memory with the FWB0
+ // register corresponding to the
+ // address contained in FMA. FWB1 is
+ // written to the address FMA+0x4
+ // etc. Note that only data bits
+ // that are 0 result in the Flash
+ // memory being modified. A data bit
+ // that is 1 leaves the content of
+ // the Flash memory bit at its
+ // previous value.
+#define FLASH_CTRL_O_FWB32 0x0000017C // Flash Write Buffer n (FWBn)
+ // offset 0x100 - 0x17C These 32
+ // registers hold the contents of
+ // the data to be written into the
+ // Flash memory on a buffered Flash
+ // memory write operation. The
+ // offset selects one of the 32-bit
+ // registers. Only FWBn registers
+ // that have been updated since the
+ // preceding buffered Flash memory
+ // write operation are written into
+ // the Flash memory so it is not
+ // necessary to write the entire
+ // bank of registers in order to
+ // write 1 or 2 words. The FWBn
+ // registers are written into the
+ // Flash memory with the FWB0
+ // register corresponding to the
+ // address contained in FMA. FWB1 is
+ // written to the address FMA+0x4
+ // etc. Note that only data bits
+ // that are 0 result in the Flash
+ // memory being modified. A data bit
+ // that is 1 leaves the content of
+ // the Flash memory bit at its
+ // previous value.
+#define FLASH_CTRL_O_FSIZE 0x00000FC0 // Flash Size (FSIZE) offset 0xFC0
+ // This register indicates the size
+ // of the on-chip Flash memory.
+ // Important: This register should
+ // be used to determine the size of
+ // the Flash memory that is
+ // implemented on this
+ // microcontroller. However to
+ // support legacy software the DC0
+ // register is available. A read of
+ // the DC0 register correctly
+ // identifies legacy memory sizes.
+ // Software must use the FSIZE
+ // register for memory sizes that
+ // are not listed in the DC0
+ // register description.
+#define FLASH_CTRL_O_SSIZE 0x00000FC4 // SRAM Size (SSIZE) offset 0xFC4
+ // This register indicates the size
+ // of the on-chip SRAM. Important:
+ // This register should be used to
+ // determine the size of the SRAM
+ // that is implemented on this
+ // microcontroller. However to
+ // support legacy software the DC0
+ // register is available. A read of
+ // the DC0 register correctly
+ // identifies legacy memory sizes.
+ // Software must use the SSIZE
+ // register for memory sizes that
+ // are not listed in the DC0
+ // register description.
+
+
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the FLASH_CTRL_O_FMA register.
+//
+//******************************************************************************
+#define FLASH_CTRL_FMA_OFFSET_M 0x0003FFFF // Address Offset Address offset in
+ // Flash memory where operation is
+ // performed except for nonvolatile
+ // registers
+#define FLASH_CTRL_FMA_OFFSET_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the FLASH_CTRL_O_FMD register.
+//
+//******************************************************************************
+#define FLASH_CTRL_FMD_DATA_M 0xFFFFFFFF // Data Value Data value for write
+ // operation.
+#define FLASH_CTRL_FMD_DATA_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the FLASH_CTRL_O_FMC register.
+//
+//******************************************************************************
+#define FLASH_CTRL_FMC_WRKEY_M 0xFFFF0000 // Flash Memory Write Key This
+ // field contains a write key which
+ // is used to minimize the incidence
+ // of accidental Flash memory
+ // writes. The value 0xA442 must be
+ // written into this field for a
+ // Flash memory write to occur.
+ // Writes to the FMC register
+ // without this WRKEY value are
+ // ignored. A read of this field
+ // returns the value 0.
+#define FLASH_CTRL_FMC_WRKEY_S 16
+#define FLASH_CTRL_FMC_COMT 0x00000008 // Commit Register Value This bit
+ // is used to commit writes to
+ // Flash-memory-resident registers
+ // and to monitor the progress of
+ // that process. Value Description 1
+ // Set this bit to commit (write)
+ // the register value to a
+ // Flash-memory-resident register.
+ // When read a 1 indicates that the
+ // previous commit access is not
+ // complete. 0 A write of 0 has no
+ // effect on the state of this bit.
+ // When read a 0 indicates that the
+ // previous commit access is
+ // complete.
+#define FLASH_CTRL_FMC_MERASE1 0x00000004 // Mass Erase Flash Memory This bit
+ // is used to mass erase the Flash
+ // main memory and to monitor the
+ // progress of that process. Value
+ // Description 1 Set this bit to
+ // erase the Flash main memory. When
+ // read a 1 indicates that the
+ // previous mass erase access is not
+ // complete. 0 A write of 0 has no
+ // effect on the state of this bit.
+ // When read a 0 indicates that the
+ // previous mass erase access is
+ // complete.
+#define FLASH_CTRL_FMC_ERASE 0x00000002 // Erase a Page of Flash Memory
+ // This bit is used to erase a page
+ // of Flash memory and to monitor
+ // the progress of that process.
+ // Value Description 1 Set this bit
+ // to erase the Flash memory page
+ // specified by the contents of the
+ // FMA register. When read a 1
+ // indicates that the previous page
+ // erase access is not complete. 0 A
+ // write of 0 has no effect on the
+ // state of this bit. When read a 0
+ // indicates that the previous page
+ // erase access is complete.
+#define FLASH_CTRL_FMC_WRITE 0x00000001 // Write a Word into Flash Memory
+ // This bit is used to write a word
+ // into Flash memory and to monitor
+ // the progress of that process.
+ // Value Description 1 Set this bit
+ // to write the data stored in the
+ // FMD register into the Flash
+ // memory location specified by the
+ // contents of the FMA register.
+ // When read a 1 indicates that the
+ // write update access is not
+ // complete. 0 A write of 0 has no
+ // effect on the state of this bit.
+ // When read a 0 indicates that the
+ // previous write update access is
+ // complete.
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// FLASH_CTRL_O_FCRIS register.
+//
+//******************************************************************************
+#define FLASH_CTRL_FCRIS_PROGRIS \
+ 0x00002000 // Program Verify Error Raw
+ // Interrupt Status Value
+ // Description 1 An interrupt is
+ // pending because the verify of a
+ // PROGRAM operation failed. 0 An
+ // interrupt has not occurred. This
+ // bit is cleared by writing a 1 to
+ // the PROGMISC bit in the FCMISC
+ // register.
+
+#define FLASH_CTRL_FCRIS_ERRIS 0x00000800 // Erase Verify Error Raw Interrupt
+ // Status Value Description 1 An
+ // interrupt is pending because the
+ // verify of an ERASE operation
+ // failed. 0 An interrupt has not
+ // occurred. This bit is cleared by
+ // writing a 1 to the ERMISC bit in
+ // the FCMISC register.
+#define FLASH_CTRL_FCRIS_INVDRIS \
+ 0x00000400 // Invalid Data Raw Interrupt
+ // Status Value Description 1 An
+ // interrupt is pending because a
+ // bit that was previously
+ // programmed as a 0 is now being
+ // requested to be programmed as a
+ // 1. 0 An interrupt has not
+ // occurred. This bit is cleared by
+ // writing a 1 to the INVMISC bit in
+ // the FCMISC register.
+
+#define FLASH_CTRL_FCRIS_VOLTRIS \
+ 0x00000200 // Pump Voltage Raw Interrupt
+ // Status Value Description 1 An
+ // interrupt is pending because the
+ // regulated voltage of the pump
+ // went out of spec during the Flash
+ // operation and the operation was
+ // terminated. 0 An interrupt has
+ // not occurred. This bit is cleared
+ // by writing a 1 to the VOLTMISC
+ // bit in the FCMISC register.
+
+#define FLASH_CTRL_FCRIS_ERIS 0x00000004 // EEPROM Raw Interrupt Status This
+ // bit provides status EEPROM
+ // operation. Value Description 1 An
+ // EEPROM interrupt has occurred. 0
+ // An EEPROM interrupt has not
+ // occurred. This bit is cleared by
+ // writing a 1 to the EMISC bit in
+ // the FCMISC register.
+#define FLASH_CTRL_FCRIS_PRIS 0x00000002 // Programming Raw Interrupt Status
+ // This bit provides status on
+ // programming cycles which are
+ // write or erase actions generated
+ // through the FMC or FMC2 register
+ // bits (see page 537 and page 549).
+ // Value Description 1 The
+ // programming or erase cycle has
+ // completed. 0 The programming or
+ // erase cycle has not completed.
+ // This status is sent to the
+ // interrupt controller when the
+ // PMASK bit in the FCIM register is
+ // set. This bit is cleared by
+ // writing a 1 to the PMISC bit in
+ // the FCMISC register.
+#define FLASH_CTRL_FCRIS_ARIS 0x00000001 // Access Raw Interrupt Status
+ // Value Description 1 A program or
+ // erase action was attempted on a
+ // block of Flash memory that
+ // contradicts the protection policy
+ // for that block as set in the
+ // FMPPEn registers. 0 No access has
+ // tried to improperly program or
+ // erase the Flash memory. This
+ // status is sent to the interrupt
+ // controller when the AMASK bit in
+ // the FCIM register is set. This
+ // bit is cleared by writing a 1 to
+ // the AMISC bit in the FCMISC
+ // register.
+//******************************************************************************
+//
+// The following are defines for the bit fields in the FLASH_CTRL_O_FCIM register.
+//
+//******************************************************************************
+#define FLASH_CTRL_FCIM_ILLMASK 0x00004000 // Illegal Address Interrupt Mask
+ // Value Description 1 An interrupt
+ // is sent to the interrupt
+ // controller when the ILLARIS bit
+ // is set. 0 The ILLARIS interrupt
+ // is suppressed and not sent to the
+ // interrupt controller.
+#define FLASH_CTRL_FCIM_PROGMASK \
+ 0x00002000 // PROGVER Interrupt Mask Value
+ // Description 1 An interrupt is
+ // sent to the interrupt controller
+ // when the PROGRIS bit is set. 0
+ // The PROGRIS interrupt is
+ // suppressed and not sent to the
+ // interrupt controller.
+
+#define FLASH_CTRL_FCIM_PREMASK 0x00001000 // PREVER Interrupt Mask Value
+ // Description 1 An interrupt is
+ // sent to the interrupt controller
+ // when the PRERIS bit is set. 0 The
+ // PRERIS interrupt is suppressed
+ // and not sent to the interrupt
+ // controller.
+#define FLASH_CTRL_FCIM_ERMASK 0x00000800 // ERVER Interrupt Mask Value
+ // Description 1 An interrupt is
+ // sent to the interrupt controller
+ // when the ERRIS bit is set. 0 The
+ // ERRIS interrupt is suppressed and
+ // not sent to the interrupt
+ // controller.
+#define FLASH_CTRL_FCIM_INVDMASK \
+ 0x00000400 // Invalid Data Interrupt Mask
+ // Value Description 1 An interrupt
+ // is sent to the interrupt
+ // controller when the INVDRIS bit
+ // is set. 0 The INVDRIS interrupt
+ // is suppressed and not sent to the
+ // interrupt controller.
+
+#define FLASH_CTRL_FCIM_VOLTMASK \
+ 0x00000200 // VOLT Interrupt Mask Value
+ // Description 1 An interrupt is
+ // sent to the interrupt controller
+ // when the VOLTRIS bit is set. 0
+ // The VOLTRIS interrupt is
+ // suppressed and not sent to the
+ // interrupt controller.
+
+#define FLASH_CTRL_FCIM_LOCKMASK \
+ 0x00000100 // LOCK Interrupt Mask Value
+ // Description 1 An interrupt is
+ // sent to the interrupt controller
+ // when the LOCKRIS bit is set. 0
+ // The LOCKRIS interrupt is
+ // suppressed and not sent to the
+ // interrupt controller.
+
+#define FLASH_CTRL_FCIM_EMASK 0x00000004 // EEPROM Interrupt Mask Value
+ // Description 1 An interrupt is
+ // sent to the interrupt controller
+ // when the ERIS bit is set. 0 The
+ // ERIS interrupt is suppressed and
+ // not sent to the interrupt
+ // controller.
+#define FLASH_CTRL_FCIM_PMASK 0x00000002 // Programming Interrupt Mask This
+ // bit controls the reporting of the
+ // programming raw interrupt status
+ // to the interrupt controller.
+ // Value Description 1 An interrupt
+ // is sent to the interrupt
+ // controller when the PRIS bit is
+ // set. 0 The PRIS interrupt is
+ // suppressed and not sent to the
+ // interrupt controller.
+#define FLASH_CTRL_FCIM_AMASK 0x00000001 // Access Interrupt Mask This bit
+ // controls the reporting of the
+ // access raw interrupt status to
+ // the interrupt controller. Value
+ // Description 1 An interrupt is
+ // sent to the interrupt controller
+ // when the ARIS bit is set. 0 The
+ // ARIS interrupt is suppressed and
+ // not sent to the interrupt
+ // controller.
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// FLASH_CTRL_O_FCMISC register.
+//
+//******************************************************************************
+#define FLASH_CTRL_FCMISC_ILLMISC \
+ 0x00004000 // Illegal Address Masked Interrupt
+ // Status and Clear Value
+ // Description 1 When read a 1
+ // indicates that an unmasked
+ // interrupt was signaled. Writing a
+ // 1 to this bit clears ILLAMISC and
+ // also the ILLARIS bit in the FCRIS
+ // register (see page 540). 0 When
+ // read a 0 indicates that an
+ // interrupt has not occurred. A
+ // write of 0 has no effect on the
+ // state of this bit.
+
+#define FLASH_CTRL_FCMISC_PROGMISC \
+ 0x00002000 // PROGVER Masked Interrupt Status
+ // and Clear Value Description 1
+ // When read a 1 indicates that an
+ // unmasked interrupt was signaled.
+ // Writing a 1 to this bit clears
+ // PROGMISC and also the PROGRIS bit
+ // in the FCRIS register (see page
+ // 540). 0 When read a 0 indicates
+ // that an interrupt has not
+ // occurred. A write of 0 has no
+ // effect on the state of this bit.
+
+#define FLASH_CTRL_FCMISC_PREMISC \
+ 0x00001000 // PREVER Masked Interrupt Status
+ // and Clear Value Description 1
+ // When read a 1 indicates that an
+ // unmasked interrupt was signaled.
+ // Writing a 1 to this bit clears
+ // PREMISC and also the PRERIS bit
+ // in the FCRIS register . 0 When
+ // read a 0 indicates that an
+ // interrupt has not occurred. A
+ // write of 0 has no effect on the
+ // state of this bit.
+
+#define FLASH_CTRL_FCMISC_ERMISC \
+ 0x00000800 // ERVER Masked Interrupt Status
+ // and Clear Value Description 1
+ // When read a 1 indicates that an
+ // unmasked interrupt was signaled.
+ // Writing a 1 to this bit clears
+ // ERMISC and also the ERRIS bit in
+ // the FCRIS register 0 When read a
+ // 0 indicates that an interrupt has
+ // not occurred. A write of 0 has no
+ // effect on the state of this bit.
+
+#define FLASH_CTRL_FCMISC_INVDMISC \
+ 0x00000400 // Invalid Data Masked Interrupt
+ // Status and Clear Value
+ // Description 1 When read a 1
+ // indicates that an unmasked
+ // interrupt was signaled. Writing a
+ // 1 to this bit clears INVDMISC and
+ // also the INVDRIS bit in the FCRIS
+ // register (see page 540). 0 When
+ // read a 0 indicates that an
+ // interrupt has not occurred. A
+ // write of 0 has no effect on the
+ // state of this bit.
+
+#define FLASH_CTRL_FCMISC_VOLTMISC \
+ 0x00000200 // VOLT Masked Interrupt Status and
+ // Clear Value Description 1 When
+ // read a 1 indicates that an
+ // unmasked interrupt was signaled.
+ // Writing a 1 to this bit clears
+ // VOLTMISC and also the VOLTRIS bit
+ // in the FCRIS register (see page
+ // 540). 0 When read a 0 indicates
+ // that an interrupt has not
+ // occurred. A write of 0 has no
+ // effect on the state of this bit.
+
+#define FLASH_CTRL_FCMISC_LOCKMISC \
+ 0x00000100 // LOCK Masked Interrupt Status and
+ // Clear Value Description 1 When
+ // read a 1 indicates that an
+ // unmasked interrupt was signaled.
+ // Writing a 1 to this bit clears
+ // LOCKMISC and also the LOCKRIS bit
+ // in the FCRIS register (see page
+ // 540). 0 When read a 0 indicates
+ // that an interrupt has not
+ // occurred. A write of 0 has no
+ // effect on the state of this bit.
+
+#define FLASH_CTRL_FCMISC_EMISC 0x00000004 // EEPROM Masked Interrupt Status
+ // and Clear Value Description 1
+ // When read a 1 indicates that an
+ // unmasked interrupt was signaled.
+ // Writing a 1 to this bit clears
+ // EMISC and also the ERIS bit in
+ // the FCRIS register 0 When read a
+ // 0 indicates that an interrupt has
+ // not occurred. A write of 0 has no
+ // effect on the state of this bit.
+#define FLASH_CTRL_FCMISC_PMISC 0x00000002 // Programming Masked Interrupt
+ // Status and Clear Value
+ // Description 1 When read a 1
+ // indicates that an unmasked
+ // interrupt was signaled because a
+ // programming cycle completed.
+ // Writing a 1 to this bit clears
+ // PMISC and also the PRIS bit in
+ // the FCRIS register 0 When read a
+ // 0 indicates that a programming
+ // cycle complete interrupt has not
+ // occurred. A write of 0 has no
+ // effect on the state of this bit.
+#define FLASH_CTRL_FCMISC_AMISC 0x00000001 // Access Masked Interrupt Status
+ // and Clear Value Description 1
+ // When read a 1 indicates that an
+ // unmasked interrupt was signaled
+ // because a program or erase action
+ // was attempted on a block of Flash
+ // memory that contradicts the
+ // protection policy for that block
+ // as set in the FMPPEn registers.
+ // Writing a 1 to this bit clears
+ // AMISC and also the ARIS bit in
+ // the FCRIS register 0 When read a
+ // 0 indicates that no improper
+ // accesses have occurred. A write
+ // of 0 has no effect on the state
+ // of this bit.
+//******************************************************************************
+//
+// The following are defines for the bit fields in the FLASH_CTRL_O_FMC2 register.
+//
+//******************************************************************************
+#define FLASH_CTRL_FMC2_WRKEY_M 0xFFFF0000 // Flash Memory Write Key This
+ // field contains a write key which
+ // is used to minimize the incidence
+ // of accidental Flash memory
+ // writes. The value 0xA442 must be
+ // written into this field for a
+ // write to occur. Writes to the
+ // FMC2 register without this WRKEY
+ // value are ignored. A read of this
+ // field returns the value 0.
+#define FLASH_CTRL_FMC2_WRKEY_S 16
+#define FLASH_CTRL_FMC2_WRBUF 0x00000001 // Buffered Flash Memory Write This
+ // bit is used to start a buffered
+ // write to Flash memory. Value
+ // Description 1 Set this bit to
+ // write the data stored in the FWBn
+ // registers to the location
+ // specified by the contents of the
+ // FMA register. When read a 1
+ // indicates that the previous
+ // buffered Flash memory write
+ // access is not complete. 0 A write
+ // of 0 has no effect on the state
+ // of this bit. When read a 0
+ // indicates that the previous
+ // buffered Flash memory write
+ // access is complete.
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// FLASH_CTRL_O_FWBVAL register.
+//
+//******************************************************************************
+#define FLASH_CTRL_FWBVAL_FWBN_M \
+ 0xFFFFFFFF // Flash Memory Write Buffer Value
+ // Description 1 The corresponding
+ // FWBn register has been updated
+ // since the last buffer write
+ // operation and is ready to be
+ // written to Flash memory. 0 The
+ // corresponding FWBn register has
+ // no new data to be written. Bit 0
+ // corresponds to FWB0 offset 0x100
+ // and bit 31 corresponds to FWB31
+ // offset 0x13C.
+
+#define FLASH_CTRL_FWBVAL_FWBN_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the FLASH_CTRL_O_FWB1 register.
+//
+//******************************************************************************
+#define FLASH_CTRL_FWB1_DATA_M 0xFFFFFFFF // Data Data to be written into the
+ // Flash memory.
+#define FLASH_CTRL_FWB1_DATA_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the FLASH_CTRL_O_FWB2 register.
+//
+//******************************************************************************
+#define FLASH_CTRL_FWB2_DATA_M 0xFFFFFFFF // Data Data to be written into the
+ // Flash memory.
+#define FLASH_CTRL_FWB2_DATA_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the FLASH_CTRL_O_FWB3 register.
+//
+//******************************************************************************
+#define FLASH_CTRL_FWB3_DATA_M 0xFFFFFFFF // Data Data to be written into the
+ // Flash memory.
+#define FLASH_CTRL_FWB3_DATA_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the FLASH_CTRL_O_FWB4 register.
+//
+//******************************************************************************
+#define FLASH_CTRL_FWB4_DATA_M 0xFFFFFFFF // Data Data to be written into the
+ // Flash memory.
+#define FLASH_CTRL_FWB4_DATA_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the FLASH_CTRL_O_FWB5 register.
+//
+//******************************************************************************
+#define FLASH_CTRL_FWB5_DATA_M 0xFFFFFFFF // Data Data to be written into the
+ // Flash memory.
+#define FLASH_CTRL_FWB5_DATA_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the FLASH_CTRL_O_FWB6 register.
+//
+//******************************************************************************
+#define FLASH_CTRL_FWB6_DATA_M 0xFFFFFFFF // Data Data to be written into the
+ // Flash memory.
+#define FLASH_CTRL_FWB6_DATA_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the FLASH_CTRL_O_FWB7 register.
+//
+//******************************************************************************
+#define FLASH_CTRL_FWB7_DATA_M 0xFFFFFFFF // Data Data to be written into the
+ // Flash memory.
+#define FLASH_CTRL_FWB7_DATA_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the FLASH_CTRL_O_FWB8 register.
+//
+//******************************************************************************
+#define FLASH_CTRL_FWB8_DATA_M 0xFFFFFFFF // Data Data to be written into the
+ // Flash memory.
+#define FLASH_CTRL_FWB8_DATA_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the FLASH_CTRL_O_FWB9 register.
+//
+//******************************************************************************
+#define FLASH_CTRL_FWB9_DATA_M 0xFFFFFFFF // Data Data to be written into the
+ // Flash memory.
+#define FLASH_CTRL_FWB9_DATA_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// FLASH_CTRL_O_FWB10 register.
+//
+//******************************************************************************
+#define FLASH_CTRL_FWB10_DATA_M 0xFFFFFFFF // Data Data to be written into the
+ // Flash memory.
+#define FLASH_CTRL_FWB10_DATA_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// FLASH_CTRL_O_FWB11 register.
+//
+//******************************************************************************
+#define FLASH_CTRL_FWB11_DATA_M 0xFFFFFFFF // Data Data to be written into the
+ // Flash memory.
+#define FLASH_CTRL_FWB11_DATA_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// FLASH_CTRL_O_FWB12 register.
+//
+//******************************************************************************
+#define FLASH_CTRL_FWB12_DATA_M 0xFFFFFFFF // Data Data to be written into the
+ // Flash memory.
+#define FLASH_CTRL_FWB12_DATA_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// FLASH_CTRL_O_FWB13 register.
+//
+//******************************************************************************
+#define FLASH_CTRL_FWB13_DATA_M 0xFFFFFFFF // Data Data to be written into the
+ // Flash memory.
+#define FLASH_CTRL_FWB13_DATA_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// FLASH_CTRL_O_FWB14 register.
+//
+//******************************************************************************
+#define FLASH_CTRL_FWB14_DATA_M 0xFFFFFFFF // Data Data to be written into the
+ // Flash memory.
+#define FLASH_CTRL_FWB14_DATA_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// FLASH_CTRL_O_FWB15 register.
+//
+//******************************************************************************
+#define FLASH_CTRL_FWB15_DATA_M 0xFFFFFFFF // Data Data to be written into the
+ // Flash memory.
+#define FLASH_CTRL_FWB15_DATA_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// FLASH_CTRL_O_FWB16 register.
+//
+//******************************************************************************
+#define FLASH_CTRL_FWB16_DATA_M 0xFFFFFFFF // Data Data to be written into the
+ // Flash memory.
+#define FLASH_CTRL_FWB16_DATA_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// FLASH_CTRL_O_FWB17 register.
+//
+//******************************************************************************
+#define FLASH_CTRL_FWB17_DATA_M 0xFFFFFFFF // Data Data to be written into the
+ // Flash memory.
+#define FLASH_CTRL_FWB17_DATA_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// FLASH_CTRL_O_FWB18 register.
+//
+//******************************************************************************
+#define FLASH_CTRL_FWB18_DATA_M 0xFFFFFFFF // Data Data to be written into the
+ // Flash memory.
+#define FLASH_CTRL_FWB18_DATA_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// FLASH_CTRL_O_FWB19 register.
+//
+//******************************************************************************
+#define FLASH_CTRL_FWB19_DATA_M 0xFFFFFFFF // Data Data to be written into the
+ // Flash memory.
+#define FLASH_CTRL_FWB19_DATA_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// FLASH_CTRL_O_FWB20 register.
+//
+//******************************************************************************
+#define FLASH_CTRL_FWB20_DATA_M 0xFFFFFFFF // Data Data to be written into the
+ // Flash memory.
+#define FLASH_CTRL_FWB20_DATA_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// FLASH_CTRL_O_FWB21 register.
+//
+//******************************************************************************
+#define FLASH_CTRL_FWB21_DATA_M 0xFFFFFFFF // Data Data to be written into the
+ // Flash memory.
+#define FLASH_CTRL_FWB21_DATA_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// FLASH_CTRL_O_FWB22 register.
+//
+//******************************************************************************
+#define FLASH_CTRL_FWB22_DATA_M 0xFFFFFFFF // Data Data to be written into the
+ // Flash memory.
+#define FLASH_CTRL_FWB22_DATA_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// FLASH_CTRL_O_FWB23 register.
+//
+//******************************************************************************
+#define FLASH_CTRL_FWB23_DATA_M 0xFFFFFFFF // Data Data to be written into the
+ // Flash memory.
+#define FLASH_CTRL_FWB23_DATA_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// FLASH_CTRL_O_FWB24 register.
+//
+//******************************************************************************
+#define FLASH_CTRL_FWB24_DATA_M 0xFFFFFFFF // Data Data to be written into the
+ // Flash memory.
+#define FLASH_CTRL_FWB24_DATA_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// FLASH_CTRL_O_FWB25 register.
+//
+//******************************************************************************
+#define FLASH_CTRL_FWB25_DATA_M 0xFFFFFFFF // Data Data to be written into the
+ // Flash memory.
+#define FLASH_CTRL_FWB25_DATA_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// FLASH_CTRL_O_FWB26 register.
+//
+//******************************************************************************
+#define FLASH_CTRL_FWB26_DATA_M 0xFFFFFFFF // Data Data to be written into the
+ // Flash memory.
+#define FLASH_CTRL_FWB26_DATA_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// FLASH_CTRL_O_FWB27 register.
+//
+//******************************************************************************
+#define FLASH_CTRL_FWB27_DATA_M 0xFFFFFFFF // Data Data to be written into the
+ // Flash memory.
+#define FLASH_CTRL_FWB27_DATA_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// FLASH_CTRL_O_FWB28 register.
+//
+//******************************************************************************
+#define FLASH_CTRL_FWB28_DATA_M 0xFFFFFFFF // Data Data to be written into the
+ // Flash memory.
+#define FLASH_CTRL_FWB28_DATA_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// FLASH_CTRL_O_FWB29 register.
+//
+//******************************************************************************
+#define FLASH_CTRL_FWB29_DATA_M 0xFFFFFFFF // Data Data to be written into the
+ // Flash memory.
+#define FLASH_CTRL_FWB29_DATA_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// FLASH_CTRL_O_FWB30 register.
+//
+//******************************************************************************
+#define FLASH_CTRL_FWB30_DATA_M 0xFFFFFFFF // Data Data to be written into the
+ // Flash memory.
+#define FLASH_CTRL_FWB30_DATA_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// FLASH_CTRL_O_FWB31 register.
+//
+//******************************************************************************
+#define FLASH_CTRL_FWB31_DATA_M 0xFFFFFFFF // Data Data to be written into the
+ // Flash memory.
+#define FLASH_CTRL_FWB31_DATA_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// FLASH_CTRL_O_FWB32 register.
+//
+//******************************************************************************
+#define FLASH_CTRL_FWB32_DATA_M 0xFFFFFFFF // Data Data to be written into the
+ // Flash memory.
+#define FLASH_CTRL_FWB32_DATA_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// FLASH_CTRL_O_FSIZE register.
+//
+//******************************************************************************
+#define FLASH_CTRL_FSIZE_SIZE_M 0x0000FFFF // Flash Size Indicates the size of
+ // the on-chip Flash memory. Value
+ // Description 0x0003 8 KB of Flash
+ // 0x0007 16 KB of Flash 0x000F 32
+ // KB of Flash 0x001F 64 KB of Flash
+ // 0x002F 96 KB of Flash 0x003F 128
+ // KB of Flash 0x005F 192 KB of
+ // Flash 0x007F 256 KB of Flash
+#define FLASH_CTRL_FSIZE_SIZE_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// FLASH_CTRL_O_SSIZE register.
+//
+//******************************************************************************
+#define FLASH_CTRL_SSIZE_SRAM_SIZE_M \
+ 0x0000FFFF // SRAM Size Indicates the size of
+ // the on-chip SRAM. Value
+ // Description 0x0007 2 KB of SRAM
+ // 0x000F 4 KB of SRAM 0x0017 6 KB
+ // of SRAM 0x001F 8 KB of SRAM
+ // 0x002F 12 KB of SRAM 0x003F 16 KB
+ // of SRAM 0x004F 20 KB of SRAM
+ // 0x005F 24 KB of SRAM 0x007F 32 KB
+ // of SRAM
+
+#define FLASH_CTRL_SSIZE_SRAM_SIZE_S 0
+#define FLASH_CTRL_FMC_WRKEY 0xA4420000 // FLASH write key
+#define FLASH_CTRL_FMC2_WRKEY 0xA4420000 // FLASH write key
+#define FLASH_CTRL_O_FWBN FLASH_CTRL_O_FWB1
+#define FLASH_ERASE_SIZE 0x00000400
+#define FLASH_PROTECT_SIZE 0x00000800
+#define FLASH_FMP_BLOCK_0 0x00000001 // Enable for block 0
+
+#define FLASH_FMPRE0 0x400FE200 // Flash Memory Protection Read
+ // Enable 0
+#define FLASH_FMPRE1 0x400FE204 // Flash Memory Protection Read
+ // Enable 1
+#define FLASH_FMPRE2 0x400FE208 // Flash Memory Protection Read
+ // Enable 2
+#define FLASH_FMPRE3 0x400FE20C // Flash Memory Protection Read
+ // Enable 3
+#define FLASH_FMPRE4 0x400FE210 // Flash Memory Protection Read
+ // Enable 4
+#define FLASH_FMPRE5 0x400FE214 // Flash Memory Protection Read
+ // Enable 5
+#define FLASH_FMPRE6 0x400FE218 // Flash Memory Protection Read
+ // Enable 6
+#define FLASH_FMPRE7 0x400FE21C // Flash Memory Protection Read
+ // Enable 7
+#define FLASH_FMPRE8 0x400FE220 // Flash Memory Protection Read
+ // Enable 8
+#define FLASH_FMPRE9 0x400FE224 // Flash Memory Protection Read
+ // Enable 9
+#define FLASH_FMPRE10 0x400FE228 // Flash Memory Protection Read
+ // Enable 10
+#define FLASH_FMPRE11 0x400FE22C // Flash Memory Protection Read
+ // Enable 11
+#define FLASH_FMPRE12 0x400FE230 // Flash Memory Protection Read
+ // Enable 12
+#define FLASH_FMPRE13 0x400FE234 // Flash Memory Protection Read
+ // Enable 13
+#define FLASH_FMPRE14 0x400FE238 // Flash Memory Protection Read
+ // Enable 14
+#define FLASH_FMPRE15 0x400FE23C // Flash Memory Protection Read
+ // Enable 15
+
+#define FLASH_FMPPE0 0x400FE400 // Flash Memory Protection Program
+ // Enable 0
+#define FLASH_FMPPE1 0x400FE404 // Flash Memory Protection Program
+ // Enable 1
+#define FLASH_FMPPE2 0x400FE408 // Flash Memory Protection Program
+ // Enable 2
+#define FLASH_FMPPE3 0x400FE40C // Flash Memory Protection Program
+ // Enable 3
+#define FLASH_FMPPE4 0x400FE410 // Flash Memory Protection Program
+ // Enable 4
+#define FLASH_FMPPE5 0x400FE414 // Flash Memory Protection Program
+ // Enable 5
+#define FLASH_FMPPE6 0x400FE418 // Flash Memory Protection Program
+ // Enable 6
+#define FLASH_FMPPE7 0x400FE41C // Flash Memory Protection Program
+ // Enable 7
+#define FLASH_FMPPE8 0x400FE420 // Flash Memory Protection Program
+ // Enable 8
+#define FLASH_FMPPE9 0x400FE424 // Flash Memory Protection Program
+ // Enable 9
+#define FLASH_FMPPE10 0x400FE428 // Flash Memory Protection Program
+ // Enable 10
+#define FLASH_FMPPE11 0x400FE42C // Flash Memory Protection Program
+ // Enable 11
+#define FLASH_FMPPE12 0x400FE430 // Flash Memory Protection Program
+ // Enable 12
+#define FLASH_FMPPE13 0x400FE434 // Flash Memory Protection Program
+ // Enable 13
+#define FLASH_FMPPE14 0x400FE438 // Flash Memory Protection Program
+ // Enable 14
+#define FLASH_FMPPE15 0x400FE43C // Flash Memory Protection Program
+ // Enable 15
+
+#define FLASH_USECRL 0x400FE140 // USec Reload
+#define FLASH_CTRL_ERASE_SIZE 0x00000400
+
+
+#endif // __HW_FLASH_CTRL_H__
diff --git a/cc3200/hal/inc/hw_gpio.h b/cc3200/hal/inc/hw_gpio.h
new file mode 100644
index 000000000..2bd6e0f3a
--- /dev/null
+++ b/cc3200/hal/inc/hw_gpio.h
@@ -0,0 +1,1349 @@
+//*****************************************************************************
+//
+// Copyright (C) 2014 Texas Instruments Incorporated - http://www.ti.com/
+//
+//
+// Redistribution and use in source and binary forms, with or without
+// modification, are permitted provided that the following conditions
+// are met:
+//
+// Redistributions of source code must retain the above copyright
+// notice, this list of conditions and the following disclaimer.
+//
+// Redistributions in binary form must reproduce the above copyright
+// notice, this list of conditions and the following disclaimer in the
+// documentation and/or other materials provided with the
+// distribution.
+//
+// Neither the name of Texas Instruments Incorporated nor the names of
+// its contributors may be used to endorse or promote products derived
+// from this software without specific prior written permission.
+//
+// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
+// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
+// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
+// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
+// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
+// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
+// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
+// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
+// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
+// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
+// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+//
+//*****************************************************************************
+
+#ifndef __HW_GPIO_H__
+#define __HW_GPIO_H__
+
+//*****************************************************************************
+//
+// The following are defines for the GPIO register offsets.
+//
+//*****************************************************************************
+#define GPIO_O_GPIO_DATA 0x00000000 // 0x4000 5000 0x4000 6000 0x4000
+ // 7000 0x4002 4000 GPIO Data
+ // (GPIODATA)@@ offset 0x000 The
+ // GPIODATA register is the data
+ // register. In software control
+ // mode@@ values written in the
+ // GPIODATA register are transferred
+ // onto the GPIO port pins if the
+ // respective pins have been
+ // configured as outputs through the
+ // GPIO Direction (GPIODIR) register
+ // (see page 653). In order to write
+ // to GPIODATA@@ the corresponding
+ // bits in the mask@@ resulting from
+ // the address bus bits [9:2]@@ must
+ // be set. Otherwise@@ the bit
+ // values remain unchanged by the
+ // write. Similarly@@ the values
+ // read from this register are
+ // determined for each bit by the
+ // mask bit derived from the address
+ // used to access the data
+ // register@@ bits [9:2]. Bits that
+ // are set in the address mask cause
+ // the corresponding bits in
+ // GPIODATA to be read@@ and bits
+ // that are clear in the address
+ // mask cause the corresponding bits
+ // in GPIODATA to be read as 0@@
+ // regardless of their value. A read
+ // from GPIODATA returns the last
+ // bit value written if the
+ // respective pins are configured as
+ // outputs@@ or it returns the value
+ // on the corresponding input pin
+ // when these are configured as
+ // inputs. All bits are cleared by a
+ // reset.
+#define GPIO_O_GPIO_DIR 0x00000400 // 0x4000 5400 0x4000 6400 0x4000
+ // 7400 0x4002 4400 GPIO Direction
+ // (GPIODIR)@@ offset 0x400 The
+ // GPIODIR register is the data
+ // direction register. Setting a bit
+ // in the GPIODIR register
+ // configures the corresponding pin
+ // to be an output@@ while clearing
+ // a bit configures the
+ // corresponding pin to be an input.
+ // All bits are cleared by a reset@@
+ // meaning all GPIO pins are inputs
+ // by default.
+#define GPIO_O_GPIO_IS 0x00000404 // 0x4000 5404 0x4000 6404 0x4000
+ // 7404 0x4002 4404 GPIO Interrupt
+ // Sense (GPIOIS)@@ offset 0x404 The
+ // GPIOIS register is the interrupt
+ // sense register. Setting a bit in
+ // the GPIOIS register configures
+ // the corresponding pin to detect
+ // levels@@ while clearing a bit
+ // configures the corresponding pin
+ // to detect edges. All bits are
+ // cleared by a reset.
+#define GPIO_O_GPIO_IBE 0x00000408 // 0x4000 5408 0x4000 6408 0x4000
+ // 7408 0x4002 4408 GPIO Interrupt
+ // Both Edges (GPIOIBE)@@ offset
+ // 0x408 The GPIOIBE register allows
+ // both edges to cause interrupts.
+ // When the corresponding bit in the
+ // GPIO Interrupt Sense (GPIOIS)
+ // register is set to detect edges@@
+ // setting a bit in the GPIOIBE
+ // register configures the
+ // corresponding pin to detect both
+ // rising and falling edges@@
+ // regardless of the corresponding
+ // bit in the GPIO Interrupt Event
+ // (GPIOIEV) register . Clearing a
+ // bit configures the pin to be
+ // controlled by the GPIOIEV
+ // register. All bits are cleared by
+ // a reset.
+#define GPIO_O_GPIO_IEV 0x0000040C // 0x4000 540C 0x4000 640C 0x4000
+ // 740C 0x4002 440C GPIO Interrupt
+ // Event (GPIOIEV)@@ offset 0x40C
+ // The GPIOIEV register is the
+ // interrupt event register. Setting
+ // a bit in the GPIOIEV register
+ // configures the corresponding pin
+ // to detect rising edges or high
+ // levels@@ depending on the
+ // corresponding bit value in the
+ // GPIO Interrupt Sense (GPIOIS)
+ // register . Clearing a bit
+ // configures the pin to detect
+ // falling edges or low levels@@
+ // depending on the corresponding
+ // bit value in the GPIOIS register.
+ // All bits are cleared by a reset.
+#define GPIO_O_GPIO_IM 0x00000410 // 0x4000 5410 0x4000 6410 0x4000
+ // 7410 0x4002 4410 GPIO Interrupt
+ // Mask (GPIOIM)@@ offset 0x410 The
+ // GPIOIM register is the interrupt
+ // mask register. Setting a bit in
+ // the GPIOIM register allows
+ // interrupts that are generated by
+ // the corresponding pin to be sent
+ // to the interrupt controller on
+ // the combined interrupt signal.
+ // Clearing a bit prevents an
+ // interrupt on the corresponding
+ // pin from being sent to the
+ // interrupt controller. All bits
+ // are cleared by a reset.
+#define GPIO_O_GPIO_RIS 0x00000414 // 0x4000 5414 0x4000 6414 0x4000
+ // 7414 0x4002 4414 GPIO Raw
+ // Interrupt Status (GPIORIS)@@
+ // offset 0x414 The GPIORIS register
+ // is the raw interrupt status
+ // register. A bit in this register
+ // is set when an interrupt
+ // condition occurs on the
+ // corresponding GPIO pin. If the
+ // corresponding bit in the GPIO
+ // Interrupt Mask (GPIOIM) register
+ // is set@@ the interrupt is sent to
+ // the interrupt controller. Bits
+ // read as zero indicate that
+ // corresponding input pins have not
+ // initiated an interrupt. A bit in
+ // this register can be cleared by
+ // writing a 1 to the corresponding
+ // bit in the GPIO Interrupt Clear
+ // (GPIOICR) register.
+#define GPIO_O_GPIO_MIS 0x00000418 // 0x4000 5418 0x4000 6418 0x4000
+ // 7418 0x4002 4418 GPIO Masked
+ // Interrupt Status (GPIOMIS)@@
+ // offset 0x418 The GPIOMIS register
+ // is the masked interrupt status
+ // register. If a bit is set in this
+ // register@@ the corresponding
+ // interrupt has triggered an
+ // interrupt to the interrupt
+ // controller. If a bit is clear@@
+ // either no interrupt has been
+ // generated@@ or the interrupt is
+ // masked. If no port pin@@ other
+ // than the one that is being used
+ // as an ADC trigger@@ is being used
+ // to generate interrupts@@ the
+ // appropriate Interrupt Set Enable
+ // (ENn) register can disable the
+ // interrupts for the port@@ and the
+ // ADC interrupt can be used to read
+ // back the converted data.
+ // Otherwise@@ the port interrupt
+ // handler must ignore and clear
+ // interrupts on the port pin and
+ // wait for the ADC interrupt@@ or
+ // the ADC interrupt must be
+ // disabled in the EN0 register and
+ // the port interrupt handler must
+ // poll the ADC registers until the
+ // conversion is completed. If no
+ // port pin@@ other than the one
+ // that is being used as an ADC
+ // trigger@@ is being used to
+ // generate interrupts@@ the
+ // appropriate Interrupt Set Enable
+ // (ENn) register can disable the
+ // interrupts for the port@@ and the
+ // ADC interrupt can be used to read
+ // back the converted data.
+ // Otherwise@@ the port interrupt
+ // handler must ignore and clear
+ // interrupts on the port pin and
+ // wait for the ADC interrupt@@ or
+ // the ADC interrupt must be
+ // disabled in the EN0 register and
+ // the port interrupt handler must
+ // poll the ADC registers until the
+ // conversion is completed. Note
+ // that if the Port B GPIOADCCTL
+ // register is cleared@@ PB4 can
+ // still be used as an external
+ // trigger for the ADC. This is a
+ // legacy mode which allows code
+ // written for previous Stellaris
+ // devices to operate on this
+ // microcontroller. GPIOMIS is the
+ // state of the interrupt after
+ // masking.
+#define GPIO_O_GPIO_ICR 0x0000041C // 0x4000 541C 0x4000 641C 0x4000
+ // 741C 0x4002 441C GPIO Interrupt
+ // Clear (GPIOICR)@@ offset 0x41C
+ // The GPIOICR register is the
+ // interrupt clear register. Writing
+ // a 1 to a bit in this register
+ // clears the corresponding
+ // interrupt bit in the GPIORIS and
+ // GPIOMIS registers. Writing a 0
+ // has no effect.
+#define GPIO_O_GPIO_AFSEL 0x00000420 // 0x4000 5420 0x4000 6420 0x4000
+ // 7420 0x4002 4420 GPIO Alternate
+ // Function Select (GPIOAFSEL)@@
+ // offset 0x420 The GPIOAFSEL
+ // register is the mode control
+ // select register. If a bit is
+ // clear@@ the pin is used as a GPIO
+ // and is controlled by the GPIO
+ // registers. Setting a bit in this
+ // register configures the
+ // corresponding GPIO line to be
+ // controlled by an associated
+ // peripheral. Several possible
+ // peripheral functions are
+ // multiplexed on each GPIO. The
+ // GPIO Port Control (GPIOPCTL)
+ // register is used to select one of
+ // the possible functions.
+#define GPIO_O_GPIO_DR2R 0x00000500 // 0x4000 5500 0x4000 6500 0x4000
+ // 7500 0x4002 4500 GPIO 2-mA Drive
+ // Select (GPIODR2R)@@ offset 0x500
+ // The GPIODR2R register is the 2-mA
+ // drive control register. Each GPIO
+ // signal in the port can be
+ // individually configured without
+ // affecting the other pads. When
+ // setting the DRV2 bit for a GPIO
+ // signal@@ the corresponding DRV4
+ // bit in the GPIODR4R register and
+ // DRV8 bit in the GPIODR8R register
+ // are automatically cleared by
+ // hardware. By default@@ all GPIO
+ // pins have 2-mA drive.
+#define GPIO_O_GPIO_DR4R 0x00000504 // 0x4000 5504 0x4000 6504 0x4000
+ // 7504 0x4002 4504 GPIO 4-mA Drive
+ // Select (GPIODR4R)@@ offset 0x504
+ // The GPIODR4R register is the 4-mA
+ // drive control register. Each GPIO
+ // signal in the port can be
+ // individually configured without
+ // affecting the other pads. When
+ // setting the DRV4 bit for a GPIO
+ // signal@@ the corresponding DRV2
+ // bit in the GPIODR2R register and
+ // DRV8 bit in the GPIODR8R register
+ // are automatically cleared by
+ // hardware.
+#define GPIO_O_GPIO_DR8R 0x00000508 // 0x4000 5508 0x4000 6508 0x4000
+ // 7508 0x4002 4508 GPIO 8-mA Drive
+ // Select (GPIODR8R)@@ offset 0x508
+ // The GPIODR8R register is the 8-mA
+ // drive control register. Each GPIO
+ // signal in the port can be
+ // individually configured without
+ // affecting the other pads. When
+ // setting the DRV8 bit for a GPIO
+ // signal@@ the corresponding DRV2
+ // bit in the GPIODR2R register and
+ // DRV4 bit in the GPIODR4R register
+ // are automatically cleared by
+ // hardware. The 8-mA setting is
+ // also used for high-current
+ // operation. Note: There is no
+ // configuration difference between
+ // 8-mA and high-current operation.
+ // The additional current capacity
+ // results from a shift in the
+ // VOH/VOL levels.
+#define GPIO_O_GPIO_ODR 0x0000050C // 0x4000 550C 0x4000 650C 0x4000
+ // 750C 0x4002 450C GPIO Open Drain
+ // Select (GPIOODR)@@ offset 0x50C
+ // The GPIOODR register is the open
+ // drain control register. Setting a
+ // bit in this register enables the
+ // open-drain configuration of the
+ // corresponding GPIO pad. When
+ // open-drain mode is enabled@@ the
+ // corresponding bit should also be
+ // set in the GPIO Digital Input
+ // Enable (GPIODEN) register .
+ // Corresponding bits in the drive
+ // strength and slew rate control
+ // registers (GPIODR2R@@ GPIODR4R@@
+ // GPIODR8R@@ and GPIOSLR) can be
+ // set to achieve the desired rise
+ // and fall times. The GPIO acts as
+ // an open-drain input if the
+ // corresponding bit in the GPIODIR
+ // register is cleared. If open
+ // drain is selected while the GPIO
+ // is configured as an input@@ the
+ // GPIO will remain an input and the
+ // open-drain selection has no
+ // effect until the GPIO is changed
+ // to an output. When using the I2C
+ // module@@ in addition to
+ // configuring the pin to open
+ // drain@@ the GPIO Alternate
+ // Function Select (GPIOAFSEL)
+ // register bits for the I2C clock
+ // and data pins should be set
+#define GPIO_O_GPIO_PUR 0x00000510 // 0x4000 5510 0x4000 6510 0x4000
+ // 7510 0x4002 4510 GPIO Pull-Up
+ // Select (GPIOPUR)@@ offset 0x510
+ // The GPIOPUR register is the
+ // pull-up control register. When a
+ // bit is set@@ a weak pull-up
+ // resistor on the corresponding
+ // GPIO signal is enabled. Setting a
+ // bit in GPIOPUR automatically
+ // clears the corresponding bit in
+ // the GPIO Pull-Down Select
+ // (GPIOPDR) register . Write access
+ // to this register is protected
+ // with the GPIOCR register. Bits in
+ // GPIOCR that are cleared prevent
+ // writes to the equivalent bit in
+ // this register.
+#define GPIO_O_GPIO_PDR 0x00000514 // 0x4000 5514 0x4000 6514 0x4000
+ // 7514 0x4002 4514 GPIO Pull-Down
+ // Select (GPIOPDR)@@ offset 0x514
+ // The GPIOPDR register is the
+ // pull-down control register. When
+ // a bit is set@@ a weak pull-down
+ // resistor on the corresponding
+ // GPIO signal is enabled. Setting a
+ // bit in GPIOPDR automatically
+ // clears the corresponding bit in
+ // the GPIO Pull-Up Select (GPIOPUR)
+ // register
+#define GPIO_O_GPIO_SLR 0x00000518 // 0x4000 5518 0x4000 6518 0x4000
+ // 7518 0x4002 4518 The GPIOSLR
+ // register is the slew rate control
+ // register. Slew rate control is
+ // only available when using the
+ // 8-mA drive strength option via
+ // the GPIO 8-mA Drive Select
+ // (GPIODR8R) register
+#define GPIO_O_GPIO_DEN 0x0000051C // 0x4000 551C 0x4000 651C 0x4000
+ // 751C 0x4002 451C GPIO Digital
+ // Enable (GPIODEN)@@ offset 0x51C
+ // Note: Pins configured as digital
+ // inputs are Schmitt-triggered. The
+ // GPIODEN register is the digital
+ // enable register. By default@@ all
+ // GPIO signals except those listed
+ // below are configured out of reset
+ // to be undriven (tristate). Their
+ // digital function is disabled;
+ // they do not drive a logic value
+ // on the pin and they do not allow
+ // the pin voltage into the GPIO
+ // receiver. To use the pin as a
+ // digital input or output (either
+ // GPIO or alternate function)@@ the
+ // corresponding GPIODEN bit must be
+ // set.
+#define GPIO_O_GPIO_LOCK 0x00000520 // 0x4000 5520 0x4000 6520 0x4000
+ // 7520 0x4002 4520 GPIO Lock
+ // (GPIOLOCK)@@ offset 0x520 The
+ // GPIOLOCK register enables write
+ // access to the GPIOCR register .
+ // Writing 0x4C4F.434B to the
+ // GPIOLOCK register unlocks the
+ // GPIOCR register. Writing any
+ // other value to the GPIOLOCK
+ // register re-enables the locked
+ // state. Reading the GPIOLOCK
+ // register returns the lock status
+ // rather than the 32-bit value that
+ // was previously written.
+ // Therefore@@ when write accesses
+ // are disabled@@ or locked@@
+ // reading the GPIOLOCK register
+ // returns 0x0000.0001. When write
+ // accesses are enabled@@ or
+ // unlocked@@ reading the GPIOLOCK
+ // register returns 0x0000.0000.
+#define GPIO_O_GPIO_CR 0x00000524 // 0x4000 5524 0x4000 6524 0x4000
+ // 7524 0x4002 4524 GPIO Commit
+ // (GPIOCR)@@ offset 0x524 The
+ // GPIOCR register is the commit
+ // register. The value of the GPIOCR
+ // register determines which bits of
+ // the GPIOAFSEL@@ GPIOPUR@@
+ // GPIOPDR@@ and GPIODEN registers
+ // are committed when a write to
+ // these registers is performed. If
+ // a bit in the GPIOCR register is
+ // cleared@@ the data being written
+ // to the corresponding bit in the
+ // GPIOAFSEL@@ GPIOPUR@@ GPIOPDR@@
+ // or GPIODEN registers cannot be
+ // committed and retains its
+ // previous value. If a bit in the
+ // GPIOCR register is set@@ the data
+ // being written to the
+ // corresponding bit of the
+ // GPIOAFSEL@@ GPIOPUR@@ GPIOPDR@@
+ // or GPIODEN registers is committed
+ // to the register and reflects the
+ // new value. The contents of the
+ // GPIOCR register can only be
+ // modified if the status in the
+ // GPIOLOCK register is unlocked.
+ // Writes to the GPIOCR register are
+ // ignored if the status in the
+ // GPIOLOCK register is locked.
+#define GPIO_O_GPIO_AMSEL 0x00000528 // 0x4000 5528 0x4000 6528 0x4000
+ // 7528 0x4002 4528 The GPIOAMSEL
+ // register controls isolation
+ // circuits to the analog side of a
+ // unified I/O pad. Because the
+ // GPIOs may be driven by a 5-V
+ // source and affect analog
+ // operation@@ analog circuitry
+ // requires isolation from the pins
+ // when they are not used in their
+ // analog function. Each bit of this
+ // register controls the isolation
+ // circuitry for the corresponding
+ // GPIO signal.
+#define GPIO_O_GPIO_PCTL 0x0000052C // This register is not used in
+ // cc3xx. equivalant register exsist
+ // outside GPIO IP (refer
+ // PAD*_config register in the
+ // shared comn space) 0x4000 552C
+ // 0x4000 652C 0x4000 752C 0x4002
+ // 452C GPIO Port Control
+ // (GPIOPCTL)@@ offset 0x52C The
+ // GPIOPCTL register is used in
+ // conjunction with the GPIOAFSEL
+ // register and selects the specific
+ // peripheral signal for each GPIO
+ // pin when using the alternate
+ // function mode. Most bits in the
+ // GPIOAFSEL register are cleared on
+ // reset@@ therefore most GPIO pins
+ // are configured as GPIOs by
+ // default. When a bit is set in the
+ // GPIOAFSEL register@@ the
+ // corresponding GPIO signal is
+ // controlled by an associated
+ // peripheral. The GPIOPCTL register
+ // selects one out of a set of
+ // peripheral functions for each
+ // GPIO@@ providing additional
+ // flexibility in signal definition.
+#define GPIO_O_GPIO_ADCCTL 0x00000530 // This register is not used in
+ // cc3xx. ADC trigger via GPIO is
+ // not supported. 0x4000 5530 0x4000
+ // 6530 0x4000 7530 0x4002 4530 GPIO
+ // ADC Control (GPIOADCCTL)@@ offset
+ // 0x530 This register is used to
+ // configure a GPIO pin as a source
+ // for the ADC trigger. Note that if
+ // the Port B GPIOADCCTL register is
+ // cleared@@ PB4 can still be used
+ // as an external trigger for the
+ // ADC. This is a legacy mode which
+ // allows code written for previous
+ // Stellaris devices to operate on
+ // this microcontroller.
+#define GPIO_O_GPIO_DMACTL 0x00000534 // 0x4000 5534 0x4000 6534 0x4000
+ // 7534 0x4002 4534 GPIO DMA Control
+ // (GPIODMACTL)@@ offset 0x534 This
+ // register is used to configure a
+ // GPIO pin as a source for the ?DMA
+ // trigger.
+#define GPIO_O_GPIO_SI 0x00000538 // 0x4000 5538 0x4000 6538 0x4000
+ // 7538 0x4002 4538 GPIO Select
+ // Interrupt (GPIOSI)@@ offset 0x538
+ // This register is used to enable
+ // individual interrupts for each
+ // pin. Note: This register is only
+ // available on Port P and Port Q.
+#define GPIO_O_GPIO_PERIPHID4 0x00000FD0 // 0x4000 5FD0 0x4000 6FD0 0x4000
+ // 7FD0 0x4002 4FD0 GPIO Peripheral
+ // Identification 4
+ // (GPIOPeriphID4)@@ offset 0xFD0
+ // The GPIOPeriphID4@@
+ // GPIOPeriphID5@@ GPIOPeriphID6@@
+ // and GPIOPeriphID7 registers can
+ // conceptually be treated as one
+ // 32-bit register; each register
+ // contains eight bits of the 32-bit
+ // register@@ used by software to
+ // identify the peripheral.
+#define GPIO_O_GPIO_PERIPHID5 0x00000FD4 // 0x4000 5FD4 0x4000 6FD4 0x4000
+ // 7FD4 0x4002 4FD4 GPIO Peripheral
+ // Identification 5
+ // (GPIOPeriphID5)@@ offset 0xFD4
+ // The GPIOPeriphID4@@
+ // GPIOPeriphID5@@ GPIOPeriphID6@@
+ // and GPIOPeriphID7 registers can
+ // conceptually be treated as one
+ // 32-bit register; each register
+ // contains eight bits of the 32-bit
+ // register@@ used by software to
+ // identify the peripheral.
+#define GPIO_O_GPIO_PERIPHID6 0x00000FD8 // 0x4000 5FD8 0x4000 6FD8 0x4000
+ // 7FD8 0x4002 4FD8 GPIO Peripheral
+ // Identification 6
+ // (GPIOPeriphID6)@@ offset 0xFD8
+ // The GPIOPeriphID4@@
+ // GPIOPeriphID5@@ GPIOPeriphID6@@
+ // and GPIOPeriphID7 registers can
+ // conceptually be treated as one
+ // 32-bit register; each register
+ // contains eight bits of the 32-bit
+ // register@@ used by software to
+ // identify the peripheral.
+#define GPIO_O_GPIO_PERIPHID7 0x00000FDC // 0x4000 5FDC 0x4000 6FDC 0x4000
+ // 7FDC 0x4002 4FDC GPIO Peripheral
+ // Identification 7
+ // (GPIOPeriphID7)@@ offset 0xFDC
+ // The GPIOPeriphID4@@
+ // GPIOPeriphID5@@ GPIOPeriphID6@@
+ // and GPIOPeriphID7 registers can
+ // conceptually be treated as one
+ // 32-bit register; each register
+ // contains eight bits of the 32-bit
+ // register@@ used by software to
+ // identify the peripheral.
+#define GPIO_O_GPIO_PERIPHID0 0x00000FE0 // 0x4000 5FE0 0x4000 6FE0 0x4000
+ // 7FE0 0x4002 4FE0 GPIO Peripheral
+ // Identification 0
+ // (GPIOPeriphID0)@@ offset 0xFE0
+ // The GPIOPeriphID0@@
+ // GPIOPeriphID1@@ GPIOPeriphID2@@
+ // and GPIOPeriphID3 registers can
+ // conceptually be treated as one
+ // 32-bit register; each register
+ // contains eight bits of the 32-bit
+ // register@@ used by software to
+ // identify the peripheral.
+#define GPIO_O_GPIO_PERIPHID1 0x00000FE4 // 0x4000 5FE4 0x4000 6FE4 0x4000
+ // 7FE4 0x4002 4FE4 GPIO Peripheral
+ // Identification 1
+ // (GPIOPeriphID1)@@ offset 0xFE4
+ // The GPIOPeriphID0@@
+ // GPIOPeriphID1@@ GPIOPeriphID2@@
+ // and GPIOPeriphID3 registers can
+ // conceptually be treated as one
+ // 32-bit register; each register
+ // contains eight bits of the 32-bit
+ // register@@ used by software to
+ // identify the peripheral.
+#define GPIO_O_GPIO_PERIPHID2 0x00000FE8 // 0x4000 5FE8 0x4000 6FE8 0x4000
+ // 7FE8 0x4002 4FE8 GPIO Peripheral
+ // Identification 2
+ // (GPIOPeriphID2)@@ offset 0xFE8
+ // The GPIOPeriphID0@@
+ // GPIOPeriphID1@@ GPIOPeriphID2@@
+ // and GPIOPeriphID3 registers can
+ // conceptually be treated as one
+ // 32-bit register; each register
+ // contains eight bits of the 32-bit
+ // register@@ used by software to
+ // identify the peripheral.
+#define GPIO_O_GPIO_PERIPHID3 0x00000FEC // 0x4000 5FEC 0x4000 6FEC 0x4000
+ // 7FEC 0x4002 4FEC GPIO Peripheral
+ // Identification 3
+ // (GPIOPeriphID3)@@ offset 0xFEC
+ // The GPIOPeriphID0@@
+ // GPIOPeriphID1@@ GPIOPeriphID2@@
+ // and GPIOPeriphID3 registers can
+ // conceptually be treated as one
+ // 32-bit register; each register
+ // contains eight bits of the 32-bit
+ // register@@ used by software to
+ // identify the peripheral.
+#define GPIO_O_GPIO_PCELLID0 0x00000FF0 // 0x4000 5FF0 0x4000 6FF0 0x4000
+ // 7FF0 0x4002 4FF0 GPIO PrimeCell
+ // Identification 0 (GPIOPCellID0)@@
+ // offset 0xFF0 The GPIOPCellID0@@
+ // GPIOPCellID1@@ GPIOPCellID2@@ and
+ // GPIOPCellID3 registers are four
+ // 8-bit wide registers@@ that can
+ // conceptually be treated as one
+ // 32-bit register. The register is
+ // used as a standard
+ // cross-peripheral identification
+ // system.
+#define GPIO_O_GPIO_PCELLID1 0x00000FF4 // 0x4000 5FF4 0x4000 6FF4 0x4000
+ // 7FF4 0x4002 4FF4 GPIO PrimeCell
+ // Identification 1 (GPIOPCellID1)@@
+ // offset 0xFF4 The GPIOPCellID0@@
+ // GPIOPCellID1@@ GPIOPCellID2@@ and
+ // GPIOPCellID3 registers are four
+ // 8-bit wide registers@@ that can
+ // conceptually be treated as one
+ // 32-bit register. The register is
+ // used as a standard
+ // cross-peripheral identification
+ // system.
+#define GPIO_O_GPIO_PCELLID2 0x00000FF8 // 0x4000 5FF8 0x4000 6FF8 0x4000
+ // 7FF8 0x4002 4FF8 GPIO PrimeCell
+ // Identification 2 (GPIOPCellID2)@@
+ // offset 0xFF8 The GPIOPCellID0@@
+ // GPIOPCellID1@@ GPIOPCellID2@@ and
+ // GPIOPCellID3 registers are four
+ // 8-bit wide registers@@ that can
+ // conceptually be treated as one
+ // 32-bit register. The register is
+ // used as a standard
+ // cross-peripheral identification
+ // system.
+#define GPIO_O_GPIO_PCELLID3 0x00000FFC // 0x4000 5FFC 0x4000 6FFC 0x4000
+ // 7FFC 0x4002 4FFC GPIO PrimeCell
+ // Identification 3 (GPIOPCellID3)@@
+ // offset 0xFFC The GPIOPCellID0@@
+ // GPIOPCellID1@@ GPIOPCellID2@@ and
+ // GPIOPCellID3 registers are four
+ // 8-bit wide registers@@ that can
+ // conceptually be treated as one
+ // 32-bit register. The register is
+ // used as a standard
+ // cross-peripheral identification
+ // system.0xb1
+
+
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the GPIO_O_GPIO_DATA register.
+//
+//******************************************************************************
+#define GPIO_GPIO_DATA_DATA_M 0x000000FF // GPIO Data This register is
+ // virtually mapped to 256 locations
+ // in the address space. To
+ // facilitate the reading and
+ // writing of data to these
+ // registers by independent
+ // drivers@@ the data read from and
+ // written to the registers are
+ // masked by the eight address lines
+ // [9:2]. Reads from this register
+ // return its current state. Writes
+ // to this register only affect bits
+ // that are not masked by ADDR[9:2]
+ // and are configured as outputs.
+#define GPIO_GPIO_DATA_DATA_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the GPIO_O_GPIO_DIR register.
+//
+//******************************************************************************
+#define GPIO_GPIO_DIR_DIR_M 0x000000FF // GPIO Data Direction Value
+ // Description 0 Corresponding pin
+ // is an input. 1 Corresponding pins
+ // is an output.
+#define GPIO_GPIO_DIR_DIR_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the GPIO_O_GPIO_IS register.
+//
+//******************************************************************************
+#define GPIO_GPIO_IS_IS_M 0x000000FF // GPIO Interrupt Sense Value
+ // Description 0 The edge on the
+ // corresponding pin is detected
+ // (edge-sensitive). 1 The level on
+ // the corresponding pin is detected
+ // (level-sensitive).
+#define GPIO_GPIO_IS_IS_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the GPIO_O_GPIO_IBE register.
+//
+//******************************************************************************
+#define GPIO_GPIO_IBE_IBE_M 0x000000FF // GPIO Interrupt Both Edges Value
+ // Description 0 Interrupt
+ // generation is controlled by the
+ // GPIO Interrupt Event (GPIOIEV)
+ // register. 1 Both edges on the
+ // corresponding pin trigger an
+ // interrupt.
+#define GPIO_GPIO_IBE_IBE_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the GPIO_O_GPIO_IEV register.
+//
+//******************************************************************************
+#define GPIO_GPIO_IEV_IEV_M 0x000000FF // GPIO Interrupt Event Value
+ // Description 1 A falling edge or a
+ // Low level on the corresponding
+ // pin triggers an interrupt. 0 A
+ // rising edge or a High level on
+ // the corresponding pin triggers an
+ // interrupt.
+#define GPIO_GPIO_IEV_IEV_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the GPIO_O_GPIO_IM register.
+//
+//******************************************************************************
+#define GPIO_GPIO_IM_IME_M 0x000000FF // GPIO Interrupt Mask Enable Value
+ // Description 0 The interrupt from
+ // the corresponding pin is masked.
+ // 1 The interrupt from the
+ // corresponding pin is sent to the
+ // interrupt controller.
+#define GPIO_GPIO_IM_IME_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the GPIO_O_GPIO_RIS register.
+//
+//******************************************************************************
+#define GPIO_GPIO_RIS_RIS_M 0x000000FF // GPIO Interrupt Raw Status Value
+ // Description 1 An interrupt
+ // condition has occurred on the
+ // corresponding pin. 0 interrupt
+ // condition has not occurred on the
+ // corresponding pin. A bit is
+ // cleared by writing a 1 to the
+ // corresponding bit in the GPIOICR
+ // register.
+#define GPIO_GPIO_RIS_RIS_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the GPIO_O_GPIO_MIS register.
+//
+//******************************************************************************
+#define GPIO_GPIO_MIS_MIS_M 0x000000FF // GPIO Masked Interrupt Status
+ // Value Description 1 An interrupt
+ // condition on the corresponding
+ // pin has triggered an interrupt to
+ // the interrupt controller. 0 An
+ // interrupt condition on the
+ // corresponding pin is masked or
+ // has not occurred. A bit is
+ // cleared by writing a 1 to the
+ // corresponding bit in the GPIOICR
+ // register.
+#define GPIO_GPIO_MIS_MIS_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the GPIO_O_GPIO_ICR register.
+//
+//******************************************************************************
+#define GPIO_GPIO_ICR_IC_M 0x000000FF // GPIO Interrupt Clear Value
+ // Description 1 The corresponding
+ // interrupt is cleared. 0 The
+ // corresponding interrupt is
+ // unaffected.
+#define GPIO_GPIO_ICR_IC_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the GPIO_O_GPIO_AFSEL register.
+//
+//******************************************************************************
+//******************************************************************************
+//
+// The following are defines for the bit fields in the GPIO_O_GPIO_DR2R register.
+//
+//******************************************************************************
+#define GPIO_GPIO_DR2R_DRV2_M 0x000000FF // This register is not used in
+ // cc3xx. equivalant register exsist
+ // outside GPIO IP (refer
+ // PAD*_config register in the
+ // shared comn space) Output Pad
+ // 2-mA Drive Enable Value
+ // Description 1 The corresponding
+ // GPIO pin has 2-mA drive. The
+ // drive for the corresponding GPIO
+ // pin is controlled by the GPIODR4R
+ // or GPIODR8R register. 0 Setting a
+ // bit in either the GPIODR4
+ // register or the GPIODR8 register
+ // clears the corresponding 2-mA
+ // enable bit. The change is
+ // effective on the second clock
+ // cycle after the write if
+ // accessing GPIO via the APB memory
+ // aperture. If using AHB access@@
+ // the change is effective on the
+ // next clock cycle.
+#define GPIO_GPIO_DR2R_DRV2_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the GPIO_O_GPIO_DR4R register.
+//
+//******************************************************************************
+#define GPIO_GPIO_DR4R_DRV4_M 0x000000FF // This register is not used in
+ // cc3xx. equivalant register exsist
+ // outside GPIO IP (refer
+ // PAD*_config register in the
+ // shared comn space) Output Pad
+ // 4-mA Drive Enable Value
+ // Description 1 The corresponding
+ // GPIO pin has 4-mA drive. The
+ // drive for the corresponding GPIO
+ // pin is controlled by the GPIODR2R
+ // or GPIODR8R register. 0 Setting a
+ // bit in either the GPIODR2
+ // register or the GPIODR8 register
+ // clears the corresponding 4-mA
+ // enable bit. The change is
+ // effective on the second clock
+ // cycle after the write if
+ // accessing GPIO via the APB memory
+ // aperture. If using AHB access@@
+ // the change is effective on the
+ // next clock cycle.
+#define GPIO_GPIO_DR4R_DRV4_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the GPIO_O_GPIO_DR8R register.
+//
+//******************************************************************************
+#define GPIO_GPIO_DR8R_DRV8_M 0x000000FF // This register is not used in
+ // cc3xx. equivalant register exsist
+ // outside GPIO IP (refer
+ // PAD*_config register in the
+ // shared comn space) Output Pad
+ // 8-mA Drive Enable Value
+ // Description 1 The corresponding
+ // GPIO pin has 8-mA drive. The
+ // drive for the corresponding GPIO
+ // pin is controlled by the GPIODR2R
+ // or GPIODR4R register. 0 Setting a
+ // bit in either the GPIODR2
+ // register or the GPIODR4 register
+ // clears the corresponding 8-mA
+ // enable bit. The change is
+ // effective on the second clock
+ // cycle after the write if
+ // accessing GPIO via the APB memory
+ // aperture. If using AHB access@@
+ // the change is effective on the
+ // next clock cycle.
+#define GPIO_GPIO_DR8R_DRV8_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the GPIO_O_GPIO_ODR register.
+//
+//******************************************************************************
+#define GPIO_GPIO_ODR_ODE_M 0x000000FF // This register is not used in
+ // cc3xx. equivalant register exsist
+ // outside GPIO IP (refer
+ // PAD*_config register in the
+ // shared comn space) Output Pad
+ // Open Drain Enable Value
+ // Description 1 The corresponding
+ // pin is configured as open drain.
+ // 0 The corresponding pin is not
+ // configured as open drain.
+#define GPIO_GPIO_ODR_ODE_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the GPIO_O_GPIO_PUR register.
+//
+//******************************************************************************
+#define GPIO_GPIO_PUR_PUE_M 0x000000FF // This register is not used in
+ // cc3xx. equivalant register exsist
+ // outside GPIO IP (refer
+ // PAD*_config register in the
+ // shared comn space) Pad Weak
+ // Pull-Up Enable Value Description
+ // 1 The corresponding pin has a
+ // weak pull-up resistor. 0 The
+ // corresponding pin is not
+ // affected. Setting a bit in the
+ // GPIOPDR register clears the
+ // corresponding bit in the GPIOPUR
+ // register. The change is effective
+ // on the second clock cycle after
+ // the write if accessing GPIO via
+ // the APB memory aperture. If using
+ // AHB access@@ the change is
+ // effective on the next clock
+ // cycle.
+#define GPIO_GPIO_PUR_PUE_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the GPIO_O_GPIO_PDR register.
+//
+//******************************************************************************
+#define GPIO_GPIO_PDR_PDE_M 0x000000FF // This register is not used in
+ // cc3xx. equivalant register exsist
+ // outside GPIO IP (refer
+ // PAD*_config register in the
+ // shared comn space) Pad Weak
+ // Pull-Down Enable Value
+ // Description 1 The corresponding
+ // pin has a weak pull-down
+ // resistor. 0 The corresponding pin
+ // is not affected. Setting a bit in
+ // the GPIOPUR register clears the
+ // corresponding bit in the GPIOPDR
+ // register. The change is effective
+ // on the second clock cycle after
+ // the write if accessing GPIO via
+ // the APB memory aperture. If using
+ // AHB access@@ the change is
+ // effective on the next clock
+ // cycle.
+#define GPIO_GPIO_PDR_PDE_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the GPIO_O_GPIO_SLR register.
+//
+//******************************************************************************
+#define GPIO_GPIO_SLR_SRL_M 0x000000FF // This register is not used in
+ // cc3xx. equivalant register exsist
+ // outside GPIO IP (refer
+ // PAD*_config register in the
+ // shared comn space) Slew Rate
+ // Limit Enable (8-mA drive only)
+ // Value Description 1 Slew rate
+ // control is enabled for the
+ // corresponding pin. 0 Slew rate
+ // control is disabled for the
+ // corresponding pin.
+#define GPIO_GPIO_SLR_SRL_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the GPIO_O_GPIO_DEN register.
+//
+//******************************************************************************
+#define GPIO_GPIO_DEN_DEN_M 0x000000FF // This register is not used in
+ // cc3xx. equivalant register exsist
+ // outside GPIO IP (refer
+ // PAD*_config register in the
+ // shared comn space) Digital Enable
+ // Value Description 0 The digital
+ // functions for the corresponding
+ // pin are disabled. 1 The digital
+ // functions for the corresponding
+ // pin are enabled.
+#define GPIO_GPIO_DEN_DEN_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the GPIO_O_GPIO_LOCK register.
+//
+//******************************************************************************
+#define GPIO_GPIO_LOCK_LOCK_M 0xFFFFFFFF // This register is not used in
+ // cc3xx. GPIO Lock A write of the
+ // value 0x4C4F.434B unlocks the
+ // GPIO Commit (GPIOCR) register for
+ // write access.A write of any other
+ // value or a write to the GPIOCR
+ // register reapplies the lock@@
+ // preventing any register updates.
+ // A read of this register returns
+ // the following values: Value
+ // Description 0x1 The GPIOCR
+ // register is locked and may not be
+ // modified. 0x0 The GPIOCR register
+ // is unlocked and may be modified.
+#define GPIO_GPIO_LOCK_LOCK_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the GPIO_O_GPIO_CR register.
+//
+//******************************************************************************
+#define GPIO_GPIO_CR_CR_M 0x000000FF // This register is not used in
+ // cc3xx. equivalant register exsist
+ // outside GPIO IP (refer
+ // PAD*_config register in the
+ // shared comn space) GPIO Commit
+ // Value Description The
+ // corresponding GPIOAFSEL@@
+ // GPIOPUR@@ GPIOPDR@@ or GPIODEN
+ // bits can be written. 1 The
+ // corresponding GPIOAFSEL@@
+ // GPIOPUR@@ GPIOPDR@@ or GPIODEN
+ // bits cannot be written. 0 Note:
+ // The default register type for the
+ // GPIOCR register is RO for all
+ // GPIO pins with the exception of
+ // the NMI pin and the four JTAG/SWD
+ // pins (PD7@@ PF0@@ and PC[3:0]).
+ // These six pins are the only GPIOs
+ // that are protected by the GPIOCR
+ // register. Because of this@@ the
+ // register type for GPIO Port D7@@
+ // GPIO Port F0@@ and GPIO Port
+ // C[3:0] is R/W. The default reset
+ // value for the GPIOCR register is
+ // 0x0000.00FF for all GPIO pins@@
+ // with the exception of the NMI pin
+ // and the four JTAG/SWD pins (PD7@@
+ // PF0@@ and PC[3:0]). To ensure
+ // that the JTAG port is not
+ // accidentally programmed as GPIO
+ // pins@@ the PC[3:0] pins default
+ // to non-committable. Similarly@@
+ // to ensure that the NMI pin is not
+ // accidentally programmed as a GPIO
+ // pin@@ the PD7 and PF0 pins
+ // default to non-committable.
+ // Because of this@@ the default
+ // reset value of GPIOCR for GPIO
+ // Port C is 0x0000.00F0@@ for GPIO
+ // Port D is 0x0000.007F@@ and for
+ // GPIO Port F is 0x0000.00FE.
+#define GPIO_GPIO_CR_CR_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the GPIO_O_GPIO_AMSEL register.
+//
+//******************************************************************************
+#define GPIO_GPIO_AMSEL_GPIO_AMSEL_M \
+ 0x000000FF // This register is not used in
+ // cc3xx. equivalant register exsist
+ // outside GPIO IP (refer
+ // PAD*_config register in the
+ // shared comn space) GPIO Analog
+ // Mode Select Value Description 1
+ // The analog function of the pin is
+ // enabled@@ the isolation is
+ // disabled@@ and the pin is capable
+ // of analog functions. 0 The analog
+ // function of the pin is disabled@@
+ // the isolation is enabled@@ and
+ // the pin is capable of digital
+ // functions as specified by the
+ // other GPIO configuration
+ // registers. Note: This register
+ // and bits are only valid for GPIO
+ // signals that share analog
+ // function through a unified I/O
+ // pad. The reset state of this
+ // register is 0 for all signals.
+
+#define GPIO_GPIO_AMSEL_GPIO_AMSEL_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the GPIO_O_GPIO_PCTL register.
+//
+//******************************************************************************
+#define GPIO_GPIO_PCTL_PMC7_M 0xF0000000 // This register is not used in
+ // cc3xx. equivalant register exsist
+ // outside GPIO IP (refer
+ // PAD*_config register in the
+ // shared comn space) Port Mux
+ // Control 7 This field controls the
+ // configuration for GPIO pin 7.
+#define GPIO_GPIO_PCTL_PMC7_S 28
+#define GPIO_GPIO_PCTL_PMC6_M 0x0F000000 // This register is not used in
+ // cc3xx. equivalant register exsist
+ // outside GPIO IP (refer
+ // PAD*_config register in the
+ // shared comn space) Port Mux
+ // Control 6 This field controls the
+ // configuration for GPIO pin 6.
+#define GPIO_GPIO_PCTL_PMC6_S 24
+#define GPIO_GPIO_PCTL_PMC5_M 0x00F00000 // This register is not used in
+ // cc3xx. equivalant register exsist
+ // outside GPIO IP (refer
+ // PAD*_config register in the
+ // shared comn space) Port Mux
+ // Control 5 This field controls the
+ // configuration for GPIO pin 5.
+#define GPIO_GPIO_PCTL_PMC5_S 20
+#define GPIO_GPIO_PCTL_PMC4_M 0x000F0000 // This register is not used in
+ // cc3xx. equivalant register exsist
+ // outside GPIO IP (refer
+ // PAD*_config register in the
+ // shared comn space) Port Mux
+ // Control 4 This field controls the
+ // configuration for GPIO pin 4.
+#define GPIO_GPIO_PCTL_PMC4_S 16
+#define GPIO_GPIO_PCTL_PMC3_M 0x0000F000 // This register is not used in
+ // cc3xx. equivalant register exsist
+ // outside GPIO IP (refer
+ // PAD*_config register in the
+ // shared comn space) Port Mux
+ // Control 43 This field controls
+ // the configuration for GPIO pin 3.
+#define GPIO_GPIO_PCTL_PMC3_S 12
+#define GPIO_GPIO_PCTL_PMC1_M 0x00000F00 // This register is not used in
+ // cc3xx. equivalant register exsist
+ // outside GPIO IP (refer
+ // PAD*_config register in the
+ // shared comn space) Port Mux
+ // Control 1 This field controls the
+ // configuration for GPIO pin 1.
+#define GPIO_GPIO_PCTL_PMC1_S 8
+#define GPIO_GPIO_PCTL_PMC2_M 0x000000F0 // This register is not used in
+ // cc3xx. equivalant register exsist
+ // outside GPIO IP (refer
+ // PAD*_config register in the
+ // shared comn space) Port Mux
+ // Control 2 This field controls the
+ // configuration for GPIO pin 2.
+#define GPIO_GPIO_PCTL_PMC2_S 4
+#define GPIO_GPIO_PCTL_PMC0_M 0x0000000F // This register is not used in
+ // cc3xx. equivalant register exsist
+ // outside GPIO IP (refer
+ // PAD*_config register in the
+ // shared comn space) Port Mux
+ // Control 0 This field controls the
+ // configuration for GPIO pin 0.
+#define GPIO_GPIO_PCTL_PMC0_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// GPIO_O_GPIO_ADCCTL register.
+//
+//******************************************************************************
+#define GPIO_GPIO_ADCCTL_ADCEN_M \
+ 0x000000FF // This register is not used in
+ // cc3xx. ADC trigger via GPIO is
+ // not supported. ADC Trigger Enable
+ // Value Description 1 The
+ // corresponding pin is used to
+ // trigger the ADC. 0 The
+ // corresponding pin is not used to
+ // trigger the ADC.
+
+#define GPIO_GPIO_ADCCTL_ADCEN_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// GPIO_O_GPIO_DMACTL register.
+//
+//******************************************************************************
+#define GPIO_GPIO_DMACTL_DMAEN_M \
+ 0x000000FF // This register is not used in the
+ // cc3xx. Alternate register to
+ // support this feature is coded in
+ // the APPS_NWP_CMN space. refer
+ // register as offset 0x400F70D8
+ // ?DMA Trigger Enable Value
+ // Description 1 The corresponding
+ // pin is used to trigger the ?DMA.
+ // 0 The corresponding pin is not
+ // used to trigger the ?DMA.
+
+#define GPIO_GPIO_DMACTL_DMAEN_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the GPIO_O_GPIO_SI register.
+//
+//******************************************************************************
+#define GPIO_GPIO_SI_SUM 0x00000001 // Summary Interrupt Value
+ // Description 1 Each pin has its
+ // own interrupt vector. 0 All port
+ // pin interrupts are OR'ed together
+ // to produce a summary interrupt.
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// GPIO_O_GPIO_PERIPHID4 register.
+//
+//******************************************************************************
+#define GPIO_GPIO_PERIPHID4_PID4_M \
+ 0x000000FF // This register is not used in
+ // CC3XX. GPIO Peripheral ID
+ // Register [7:0]
+
+#define GPIO_GPIO_PERIPHID4_PID4_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// GPIO_O_GPIO_PERIPHID5 register.
+//
+//******************************************************************************
+#define GPIO_GPIO_PERIPHID5_PID5_M \
+ 0x000000FF // This register is not used in
+ // CC3XX. GPIO Peripheral ID
+ // Register [15:8]
+
+#define GPIO_GPIO_PERIPHID5_PID5_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// GPIO_O_GPIO_PERIPHID6 register.
+//
+//******************************************************************************
+#define GPIO_GPIO_PERIPHID6_PID6_M \
+ 0x000000FF // This register is not used in
+ // CC3XX. GPIO Peripheral ID
+ // Register [23:16]
+
+#define GPIO_GPIO_PERIPHID6_PID6_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// GPIO_O_GPIO_PERIPHID7 register.
+//
+//******************************************************************************
+#define GPIO_GPIO_PERIPHID7_PID7_M \
+ 0x000000FF // This register is not used in
+ // CC3XX. GPIO Peripheral ID
+ // Register [31:24]
+
+#define GPIO_GPIO_PERIPHID7_PID7_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// GPIO_O_GPIO_PERIPHID0 register.
+//
+//******************************************************************************
+#define GPIO_GPIO_PERIPHID0_PID0_M \
+ 0x000000FF // This register is not used in
+ // CC3XX. GPIO Peripheral ID
+ // Register [7:0] Can be used by
+ // software to identify the presence
+ // of this peripheral.
+
+#define GPIO_GPIO_PERIPHID0_PID0_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// GPIO_O_GPIO_PERIPHID1 register.
+//
+//******************************************************************************
+#define GPIO_GPIO_PERIPHID1_PID1_M \
+ 0x000000FF // GPIO Peripheral ID Register
+ // [15:8] Can be used by software to
+ // identify the presence of this
+ // peripheral.
+
+#define GPIO_GPIO_PERIPHID1_PID1_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// GPIO_O_GPIO_PERIPHID2 register.
+//
+//******************************************************************************
+#define GPIO_GPIO_PERIPHID2_PID2_M \
+ 0x000000FF // This register is not used in
+ // CC3XX.v GPIO Peripheral ID
+ // Register [23:16] Can be used by
+ // software to identify the presence
+ // of this peripheral.
+
+#define GPIO_GPIO_PERIPHID2_PID2_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// GPIO_O_GPIO_PERIPHID3 register.
+//
+//******************************************************************************
+#define GPIO_GPIO_PERIPHID3_PID3_M \
+ 0x000000FF // This register is not used in
+ // CC3XX. GPIO Peripheral ID
+ // Register [31:24] Can be used by
+ // software to identify the presence
+ // of this peripheral.
+
+#define GPIO_GPIO_PERIPHID3_PID3_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// GPIO_O_GPIO_PCELLID0 register.
+//
+//******************************************************************************
+#define GPIO_GPIO_PCELLID0_CID0_M \
+ 0x000000FF // This register is not used in
+ // CC3XX. GPIO PrimeCell ID Register
+ // [7:0] Provides software a
+ // standard cross-peripheral
+ // identification system.
+
+#define GPIO_GPIO_PCELLID0_CID0_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// GPIO_O_GPIO_PCELLID1 register.
+//
+//******************************************************************************
+#define GPIO_GPIO_PCELLID1_CID1_M \
+ 0x000000FF // This register is not used in
+ // CC3XX. GPIO PrimeCell ID Register
+ // [15:8] Provides software a
+ // standard cross-peripheral
+ // identification system.
+
+#define GPIO_GPIO_PCELLID1_CID1_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// GPIO_O_GPIO_PCELLID2 register.
+//
+//******************************************************************************
+#define GPIO_GPIO_PCELLID2_CID2_M \
+ 0x000000FF // This register is not used in
+ // CC3XX. GPIO PrimeCell ID Register
+ // [23:16] Provides software a
+ // standard cross-peripheral
+ // identification system.
+
+#define GPIO_GPIO_PCELLID2_CID2_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// GPIO_O_GPIO_PCELLID3 register.
+//
+//******************************************************************************
+#define GPIO_GPIO_PCELLID3_CID3_M \
+ 0x000000FF // This register is not used in
+ // CC3XX. GPIO PrimeCell ID Register
+ // [31:24] Provides software a
+ // standard cross-peripheral
+ // identification system.
+
+#define GPIO_GPIO_PCELLID3_CID3_S 0
+
+
+
+#endif // __HW_GPIO_H__
diff --git a/cc3200/hal/inc/hw_gprcm.h b/cc3200/hal/inc/hw_gprcm.h
new file mode 100644
index 000000000..43628f4ab
--- /dev/null
+++ b/cc3200/hal/inc/hw_gprcm.h
@@ -0,0 +1,3322 @@
+//*****************************************************************************
+//
+// Copyright (C) 2014 Texas Instruments Incorporated - http://www.ti.com/
+//
+//
+// Redistribution and use in source and binary forms, with or without
+// modification, are permitted provided that the following conditions
+// are met:
+//
+// Redistributions of source code must retain the above copyright
+// notice, this list of conditions and the following disclaimer.
+//
+// Redistributions in binary form must reproduce the above copyright
+// notice, this list of conditions and the following disclaimer in the
+// documentation and/or other materials provided with the
+// distribution.
+//
+// Neither the name of Texas Instruments Incorporated nor the names of
+// its contributors may be used to endorse or promote products derived
+// from this software without specific prior written permission.
+//
+// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
+// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
+// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
+// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
+// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
+// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
+// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
+// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
+// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
+// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
+// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+//
+//*****************************************************************************
+
+#ifndef __HW_GPRCM_H__
+#define __HW_GPRCM_H__
+
+//*****************************************************************************
+//
+// The following are defines for the GPRCM register offsets.
+//
+//*****************************************************************************
+#define GPRCM_O_APPS_SOFT_RESET 0x00000000
+#define GPRCM_O_APPS_LPDS_WAKEUP_CFG \
+ 0x00000004
+
+#define GPRCM_O_APPS_LPDS_WAKEUP_SRC \
+ 0x00000008
+
+#define GPRCM_O_APPS_RESET_CAUSE \
+ 0x0000000C
+
+#define GPRCM_O_APPS_LPDS_WAKETIME_OPP_CFG \
+ 0x00000010
+
+#define GPRCM_O_APPS_SRAM_DSLP_CFG \
+ 0x00000018
+
+#define GPRCM_O_APPS_SRAM_LPDS_CFG \
+ 0x0000001C
+
+#define GPRCM_O_APPS_LPDS_WAKETIME_WAKE_CFG \
+ 0x00000020
+
+#define GPRCM_O_TOP_DIE_ENABLE 0x00000100
+#define GPRCM_O_TOP_DIE_ENABLE_PARAMETERS \
+ 0x00000104
+
+#define GPRCM_O_MCU_GLOBAL_SOFT_RESET \
+ 0x00000108
+
+#define GPRCM_O_ADC_CLK_CONFIG 0x0000010C
+#define GPRCM_O_APPS_GPIO_WAKE_CONF \
+ 0x00000110
+
+#define GPRCM_O_EN_NWP_BOOT_WO_DEVINIT \
+ 0x00000114
+
+#define GPRCM_O_MEM_HCLK_DIV_CFG \
+ 0x00000118
+
+#define GPRCM_O_MEM_SYSCLK_DIV_CFG \
+ 0x0000011C
+
+#define GPRCM_O_APLLMCS_LOCK_TIME_CONF \
+ 0x00000120
+
+#define GPRCM_O_NWP_SOFT_RESET 0x00000400
+#define GPRCM_O_NWP_LPDS_WAKEUP_CFG \
+ 0x00000404
+
+#define GPRCM_O_NWP_LPDS_WAKEUP_SRC \
+ 0x00000408
+
+#define GPRCM_O_NWP_RESET_CAUSE 0x0000040C
+#define GPRCM_O_NWP_LPDS_WAKETIME_OPP_CFG \
+ 0x00000410
+
+#define GPRCM_O_NWP_SRAM_DSLP_CFG \
+ 0x00000418
+
+#define GPRCM_O_NWP_SRAM_LPDS_CFG \
+ 0x0000041C
+
+#define GPRCM_O_NWP_LPDS_WAKETIME_WAKE_CFG \
+ 0x00000420
+
+#define GPRCM_O_NWP_AUTONMS_SPI_MASTER_SEL \
+ 0x00000424
+
+#define GPRCM_O_NWP_AUTONMS_SPI_IDLE_REQ \
+ 0x00000428
+
+#define GPRCM_O_WLAN_TO_NWP_WAKE_REQUEST \
+ 0x0000042C
+
+#define GPRCM_O_NWP_TO_WLAN_WAKE_REQUEST \
+ 0x00000430
+
+#define GPRCM_O_NWP_GPIO_WAKE_CONF \
+ 0x00000434
+
+#define GPRCM_O_GPRCM_EFUSE_READ_REG12 \
+ 0x00000438
+
+#define GPRCM_O_GPRCM_DIEID_READ_REG5 \
+ 0x00000448
+
+#define GPRCM_O_GPRCM_DIEID_READ_REG6 \
+ 0x0000044C
+
+#define GPRCM_O_REF_FSM_CFG0 0x00000800
+#define GPRCM_O_REF_FSM_CFG1 0x00000804
+#define GPRCM_O_APLLMCS_WLAN_CONFIG0_40 \
+ 0x00000808
+
+#define GPRCM_O_APLLMCS_WLAN_CONFIG1_40 \
+ 0x0000080C
+
+#define GPRCM_O_APLLMCS_WLAN_CONFIG0_26 \
+ 0x00000810
+
+#define GPRCM_O_APLLMCS_WLAN_CONFIG1_26 \
+ 0x00000814
+
+#define GPRCM_O_APLLMCS_WLAN_OVERRIDES \
+ 0x00000818
+
+#define GPRCM_O_APLLMCS_MCU_RUN_CONFIG0_38P4 \
+ 0x0000081C
+
+#define GPRCM_O_APLLMCS_MCU_RUN_CONFIG1_38P4 \
+ 0x00000820
+
+#define GPRCM_O_APLLMCS_MCU_RUN_CONFIG0_26 \
+ 0x00000824
+
+#define GPRCM_O_APLLMCS_MCU_RUN_CONFIG1_26 \
+ 0x00000828
+
+#define GPRCM_O_SPARE_RW0 0x0000082C
+#define GPRCM_O_SPARE_RW1 0x00000830
+#define GPRCM_O_APLLMCS_MCU_OVERRIDES \
+ 0x00000834
+
+#define GPRCM_O_SYSCLK_SWITCH_STATUS \
+ 0x00000838
+
+#define GPRCM_O_REF_LDO_CONTROLS \
+ 0x0000083C
+
+#define GPRCM_O_REF_RTRIM_CONTROL \
+ 0x00000840
+
+#define GPRCM_O_REF_SLICER_CONTROLS0 \
+ 0x00000844
+
+#define GPRCM_O_REF_SLICER_CONTROLS1 \
+ 0x00000848
+
+#define GPRCM_O_REF_ANA_BGAP_CONTROLS0 \
+ 0x0000084C
+
+#define GPRCM_O_REF_ANA_BGAP_CONTROLS1 \
+ 0x00000850
+
+#define GPRCM_O_REF_ANA_SPARE_CONTROLS0 \
+ 0x00000854
+
+#define GPRCM_O_REF_ANA_SPARE_CONTROLS1 \
+ 0x00000858
+
+#define GPRCM_O_MEMSS_PSCON_OVERRIDES0 \
+ 0x0000085C
+
+#define GPRCM_O_MEMSS_PSCON_OVERRIDES1 \
+ 0x00000860
+
+#define GPRCM_O_PLL_REF_LOCK_OVERRIDES \
+ 0x00000864
+
+#define GPRCM_O_MCU_PSCON_DEBUG 0x00000868
+#define GPRCM_O_MEMSS_PWR_PS 0x0000086C
+#define GPRCM_O_REF_FSM_DEBUG 0x00000870
+#define GPRCM_O_MEM_SYS_OPP_REQ_OVERRIDE \
+ 0x00000874
+
+#define GPRCM_O_MEM_TESTCTRL_PD_OPP_CONFIG \
+ 0x00000878
+
+#define GPRCM_O_MEM_WL_FAST_CLK_REQ_OVERRIDES \
+ 0x0000087C
+
+#define GPRCM_O_MEM_MCU_PD_MODE_REQ_OVERRIDES \
+ 0x00000880
+
+#define GPRCM_O_MEM_MCSPI_SRAM_OFF_REQ_OVERRIDES \
+ 0x00000884
+
+#define GPRCM_O_MEM_WLAN_APLLMCS_OVERRIDES \
+ 0x00000888
+
+#define GPRCM_O_MEM_REF_FSM_CFG2 \
+ 0x0000088C
+
+#define GPRCM_O_TESTCTRL_POWER_CTRL \
+ 0x00000C10
+
+#define GPRCM_O_SSDIO_POWER_CTRL \
+ 0x00000C14
+
+#define GPRCM_O_MCSPI_N1_POWER_CTRL \
+ 0x00000C18
+
+#define GPRCM_O_WELP_POWER_CTRL 0x00000C1C
+#define GPRCM_O_WL_SDIO_POWER_CTRL \
+ 0x00000C20
+
+#define GPRCM_O_WLAN_SRAM_ACTIVE_PWR_CFG \
+ 0x00000C24
+
+#define GPRCM_O_WLAN_SRAM_SLEEP_PWR_CFG \
+ 0x00000C28
+
+#define GPRCM_O_APPS_SECURE_INIT_DONE \
+ 0x00000C30
+
+#define GPRCM_O_APPS_DEV_MODE_INIT_DONE \
+ 0x00000C34
+
+#define GPRCM_O_EN_APPS_REBOOT 0x00000C38
+#define GPRCM_O_MEM_APPS_PERIPH_PRESENT \
+ 0x00000C3C
+
+#define GPRCM_O_MEM_NWP_PERIPH_PRESENT \
+ 0x00000C40
+
+#define GPRCM_O_MEM_SHARED_PERIPH_PRESENT \
+ 0x00000C44
+
+#define GPRCM_O_NWP_PWR_STATE 0x00000C48
+#define GPRCM_O_APPS_PWR_STATE 0x00000C4C
+#define GPRCM_O_MCU_PWR_STATE 0x00000C50
+#define GPRCM_O_WTOP_PM_PS 0x00000C54
+#define GPRCM_O_WTOP_PD_RESETZ_OVERRIDE_REG \
+ 0x00000C58
+
+#define GPRCM_O_WELP_PD_RESETZ_OVERRIDE_REG \
+ 0x00000C5C
+
+#define GPRCM_O_WL_SDIO_PD_RESETZ_OVERRIDE_REG \
+ 0x00000C60
+
+#define GPRCM_O_SSDIO_PD_RESETZ_OVERRIDE_REG \
+ 0x00000C64
+
+#define GPRCM_O_MCSPI_N1_PD_RESETZ_OVERRIDE_REG \
+ 0x00000C68
+
+#define GPRCM_O_TESTCTRL_PD_RESETZ_OVERRIDE_REG \
+ 0x00000C6C
+
+#define GPRCM_O_MCU_PD_RESETZ_OVERRIDE_REG \
+ 0x00000C70
+
+#define GPRCM_O_GPRCM_EFUSE_READ_REG0 \
+ 0x00000C78
+
+#define GPRCM_O_GPRCM_EFUSE_READ_REG1 \
+ 0x00000C7C
+
+#define GPRCM_O_GPRCM_EFUSE_READ_REG2 \
+ 0x00000C80
+
+#define GPRCM_O_GPRCM_EFUSE_READ_REG3 \
+ 0x00000C84
+
+#define GPRCM_O_WTOP_MEM_RET_CFG \
+ 0x00000C88
+
+#define GPRCM_O_COEX_CLK_SWALLOW_CFG0 \
+ 0x00000C8C
+
+#define GPRCM_O_COEX_CLK_SWALLOW_CFG1 \
+ 0x00000C90
+
+#define GPRCM_O_COEX_CLK_SWALLOW_CFG2 \
+ 0x00000C94
+
+#define GPRCM_O_COEX_CLK_SWALLOW_ENABLE \
+ 0x00000C98
+
+#define GPRCM_O_DCDC_CLK_GEN_CONFIG \
+ 0x00000C9C
+
+#define GPRCM_O_GPRCM_EFUSE_READ_REG4 \
+ 0x00000CA0
+
+#define GPRCM_O_GPRCM_EFUSE_READ_REG5 \
+ 0x00000CA4
+
+#define GPRCM_O_GPRCM_EFUSE_READ_REG6 \
+ 0x00000CA8
+
+#define GPRCM_O_GPRCM_EFUSE_READ_REG7 \
+ 0x00000CAC
+
+#define GPRCM_O_GPRCM_EFUSE_READ_REG8 \
+ 0x00000CB0
+
+#define GPRCM_O_GPRCM_EFUSE_READ_REG9 \
+ 0x00000CB4
+
+#define GPRCM_O_GPRCM_EFUSE_READ_REG10 \
+ 0x00000CB8
+
+#define GPRCM_O_GPRCM_EFUSE_READ_REG11 \
+ 0x00000CBC
+
+#define GPRCM_O_GPRCM_DIEID_READ_REG0 \
+ 0x00000CC0
+
+#define GPRCM_O_GPRCM_DIEID_READ_REG1 \
+ 0x00000CC4
+
+#define GPRCM_O_GPRCM_DIEID_READ_REG2 \
+ 0x00000CC8
+
+#define GPRCM_O_GPRCM_DIEID_READ_REG3 \
+ 0x00000CCC
+
+#define GPRCM_O_GPRCM_DIEID_READ_REG4 \
+ 0x00000CD0
+
+#define GPRCM_O_APPS_SS_OVERRIDES \
+ 0x00000CD4
+
+#define GPRCM_O_NWP_SS_OVERRIDES \
+ 0x00000CD8
+
+#define GPRCM_O_SHARED_SS_OVERRIDES \
+ 0x00000CDC
+
+#define GPRCM_O_IDMEM_CORE_RST_OVERRIDES \
+ 0x00000CE0
+
+#define GPRCM_O_TOP_DIE_FSM_OVERRIDES \
+ 0x00000CE4
+
+#define GPRCM_O_MCU_PSCON_OVERRIDES \
+ 0x00000CE8
+
+#define GPRCM_O_WTOP_PSCON_OVERRIDES \
+ 0x00000CEC
+
+#define GPRCM_O_WELP_PSCON_OVERRIDES \
+ 0x00000CF0
+
+#define GPRCM_O_WL_SDIO_PSCON_OVERRIDES \
+ 0x00000CF4
+
+#define GPRCM_O_MCSPI_PSCON_OVERRIDES \
+ 0x00000CF8
+
+#define GPRCM_O_SSDIO_PSCON_OVERRIDES \
+ 0x00000CFC
+
+
+
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// GPRCM_O_APPS_SOFT_RESET register.
+//
+//******************************************************************************
+#define GPRCM_APPS_SOFT_RESET_APPS_SOFT_RESET1 \
+ 0x00000002 // Soft-reset1 for APPS : Cortex
+ // sysrstn is asserted and in
+ // addition to that the associated
+ // APPS Peripherals are also reset.
+ // This is an auto-clear bit.
+
+#define GPRCM_APPS_SOFT_RESET_APPS_SOFT_RESET0 \
+ 0x00000001 // Soft-reset0 for APPS : Only
+ // sys-resetn for Cortex will be
+ // asserted. This is an auto-clear
+ // bit.
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// GPRCM_O_APPS_LPDS_WAKEUP_CFG register.
+//
+//******************************************************************************
+#define GPRCM_APPS_LPDS_WAKEUP_CFG_APPS_LPDS_WAKEUP_CFG_M \
+ 0x000000FF // Mask for LPDS Wakeup interrupt :
+ // [7] - Host IRQ from NWP [6] -
+ // NWP_LPDS_Wake_irq (TRUE_LPDS) [5]
+ // - NWP Wake-request to APPS [4] -
+ // GPIO [3:1] - Reserved [0] - LPDS
+ // Wakeup-timer
+
+#define GPRCM_APPS_LPDS_WAKEUP_CFG_APPS_LPDS_WAKEUP_CFG_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// GPRCM_O_APPS_LPDS_WAKEUP_SRC register.
+//
+//******************************************************************************
+#define GPRCM_APPS_LPDS_WAKEUP_SRC_APPS_LPDS_WAKEUP_SRC_M \
+ 0x000000FF // Indicates the cause for wakeup
+ // from LPDS : [7] - Host IRQ from
+ // NWP [6] - NWP_LPDS_Wake_irq
+ // (TRUE_LPDS) [5] - NWP
+ // Wake-request to APPS [4] - GPIO
+ // [3:1] - Reserved [0] - LPDS
+ // Wakeup-timer
+
+#define GPRCM_APPS_LPDS_WAKEUP_SRC_APPS_LPDS_WAKEUP_SRC_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// GPRCM_O_APPS_RESET_CAUSE register.
+//
+//******************************************************************************
+#define GPRCM_APPS_RESET_CAUSE_APPS_RESET_CAUSE_M \
+ 0x000000FF // Indicates the reset cause for
+ // APPS : "0000" - Wake from HIB/OFF
+ // mode; "0001" - Wake from LPDS ;
+ // "0010" - Reserved ; "0011" -
+ // Soft-reset0 (Only APPS
+ // Cortex-sysrstn is asserted);
+ // "0100" - Soft-reset1 (APPS
+ // Cortex-sysrstn and APPS
+ // peripherals are reset); "0101" -
+ // WDOG0 (APPS Cortex-sysrstn and
+ // APPS peripherals are reset);
+ // "0110" - MCU Soft-reset (APPS +
+ // NWP Cortex-sysrstn + Peripherals
+ // are reset); "0111" - Secure Init
+ // done (Indication that reset has
+ // happened after DevInit); "1000" -
+ // Dev Mode Patch Init done (During
+ // development mode, patch
+ // downloading and Cortex
+ // re-vectoring is completed)
+
+#define GPRCM_APPS_RESET_CAUSE_APPS_RESET_CAUSE_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// GPRCM_O_APPS_LPDS_WAKETIME_OPP_CFG register.
+//
+//******************************************************************************
+#define GPRCM_APPS_LPDS_WAKETIME_OPP_CFG_APPS_LPDS_WAKETIME_OPP_CFG_M \
+ 0xFFFFFFFF // OPP Request Configuration
+ // (Number of slow-clk cycles) for
+ // LPDS Wake-timer : This
+ // configuration implies the RTC
+ // time-stamp, which must be few
+ // slow-clks prior to
+ // APPS_LPDS_WAKETIME_WAKE_CFG, such
+ // that by the time actual wakeup is
+ // given, OPP is already switched to
+ // ACTIVE (RUN).
+
+#define GPRCM_APPS_LPDS_WAKETIME_OPP_CFG_APPS_LPDS_WAKETIME_OPP_CFG_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// GPRCM_O_APPS_SRAM_DSLP_CFG register.
+//
+//******************************************************************************
+#define GPRCM_APPS_SRAM_DSLP_CFG_APPS_SRAM_DSLP_CFG_M \
+ 0x000FFFFF // Configuration of APPS Memories
+ // during Deep-sleep : 0 - SRAMs are
+ // OFF ; 1 - SRAMs are Retained.
+ // APPS SRAM Cluster information :
+ // [0] - 1st column in MEMSS
+ // (Applicable only when owned by
+ // APPS); [1] - 2nd column in MEMSS
+ // (Applicable only when owned by
+ // APPS); [2] - 3rd column in MEMSS
+ // (Applicable only when owned by
+ // APPS) ; [3] - 4th column in MEMSS
+ // (Applicable only when owned by
+ // APPS) ; [16] - MCU-PD - Apps
+ // cluster 0 (TBD); [19:18] -
+ // Reserved.
+
+#define GPRCM_APPS_SRAM_DSLP_CFG_APPS_SRAM_DSLP_CFG_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// GPRCM_O_APPS_SRAM_LPDS_CFG register.
+//
+//******************************************************************************
+#define GPRCM_APPS_SRAM_LPDS_CFG_APPS_SRAM_LPDS_CFG_M \
+ 0x000FFFFF // Configuration of APPS Memories
+ // during LPDS : 0 - SRAMs are OFF ;
+ // 1 - SRAMs are Retained. APPS SRAM
+ // Cluster information : [0] - 1st
+ // column in MEMSS (Applicable only
+ // when owned by APPS); [1] - 2nd
+ // column in MEMSS (Applicable only
+ // when owned by APPS); [2] - 3rd
+ // column in MEMSS (Applicable only
+ // when owned by APPS) ; [3] - 4th
+ // column in MEMSS (Applicable only
+ // when owned by APPS) ; [16] -
+ // MCU-PD - Apps cluster 0 (TBD);
+ // [19:18] - Reserved.
+
+#define GPRCM_APPS_SRAM_LPDS_CFG_APPS_SRAM_LPDS_CFG_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// GPRCM_O_APPS_LPDS_WAKETIME_WAKE_CFG register.
+//
+//******************************************************************************
+#define GPRCM_APPS_LPDS_WAKETIME_WAKE_CFG_APPS_LPDS_WAKETIME_WAKE_CFG_M \
+ 0xFFFFFFFF // Configuration (in no of
+ // slow_clks) which says when the
+ // actual wakeup request for
+ // removing the PD-reset be given.
+
+#define GPRCM_APPS_LPDS_WAKETIME_WAKE_CFG_APPS_LPDS_WAKETIME_WAKE_CFG_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// GPRCM_O_TOP_DIE_ENABLE register.
+//
+//******************************************************************************
+#define GPRCM_TOP_DIE_ENABLE_FLASH_BUSY \
+ 0x00001000
+
+#define GPRCM_TOP_DIE_ENABLE_TOP_DIE_PWR_PS_M \
+ 0x00000F00
+
+#define GPRCM_TOP_DIE_ENABLE_TOP_DIE_PWR_PS_S 8
+#define GPRCM_TOP_DIE_ENABLE_TOP_DIE_ENABLE_STATUS \
+ 0x00000002 // 1 - Top-die is enabled ;
+
+#define GPRCM_TOP_DIE_ENABLE_TOP_DIE_ENABLE \
+ 0x00000001 // 1 - Enable the top-die ; 0 -
+ // Disable the top-die
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// GPRCM_O_TOP_DIE_ENABLE_PARAMETERS register.
+//
+//******************************************************************************
+#define GPRCM_TOP_DIE_ENABLE_PARAMETERS_FLASH_3P3_RSTN2D2D_POR_RSTN_M \
+ 0xF0000000 // Configuration (in slow_clks) for
+ // number of clks between
+ // Flash-3p3-rstn to D2D POR Resetn.
+
+#define GPRCM_TOP_DIE_ENABLE_PARAMETERS_FLASH_3P3_RSTN2D2D_POR_RSTN_S 28
+#define GPRCM_TOP_DIE_ENABLE_PARAMETERS_TOP_DIE_SW_EN2TOP_DIE_FLASH_3P3_RSTN_M \
+ 0x00FF0000 // Configuration (in slow_clks) for
+ // number of clks between Top-die
+ // Switch-Enable and Top-die Flash
+ // 3p3 Reset removal
+
+#define GPRCM_TOP_DIE_ENABLE_PARAMETERS_TOP_DIE_SW_EN2TOP_DIE_FLASH_3P3_RSTN_S 16
+#define GPRCM_TOP_DIE_ENABLE_PARAMETERS_TOP_DIE_POR_RSTN2BOTT_DIE_FMC_RSTN_M \
+ 0x000000FF // Configuration (in slow_clks) for
+ // number of clks between D2D POR
+ // Reset removal and bottom die FMC
+ // reset removal
+
+#define GPRCM_TOP_DIE_ENABLE_PARAMETERS_TOP_DIE_POR_RSTN2BOTT_DIE_FMC_RSTN_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// GPRCM_O_MCU_GLOBAL_SOFT_RESET register.
+//
+//******************************************************************************
+#define GPRCM_MCU_GLOBAL_SOFT_RESET_MCU_GLOBAL_SOFT_RESET \
+ 0x00000001 // 1 - Assert the global reset for
+ // MCU (APPS + NWP) ; Asserts both
+ // Cortex sysrstn and its
+ // peripherals 0 - Deassert the
+ // global reset for MCU (APPS + NWP)
+ // ; Asserts both Cortex sysrstn and
+ // its peripherals Note : Reset for
+ // shared peripherals is not
+ // affected here.
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// GPRCM_O_ADC_CLK_CONFIG register.
+//
+//******************************************************************************
+#define GPRCM_ADC_CLK_CONFIG_ADC_CLKGEN_OFF_TIME_M \
+ 0x000007C0 // Configuration (in number of 38.4
+ // MHz clks) for the OFF-Time in
+ // generation of ADC_CLK
+
+#define GPRCM_ADC_CLK_CONFIG_ADC_CLKGEN_OFF_TIME_S 6
+#define GPRCM_ADC_CLK_CONFIG_ADC_CLKGEN_ON_TIME_M \
+ 0x0000003E // Configuration (in number of 38.4
+ // MHz clks) for the ON-Time in
+ // generation of ADC_CLK
+
+#define GPRCM_ADC_CLK_CONFIG_ADC_CLKGEN_ON_TIME_S 1
+#define GPRCM_ADC_CLK_CONFIG_ADC_CLK_ENABLE \
+ 0x00000001 // 1 - Enable the ADC_CLK ; 0 -
+ // Disable the ADC_CLK
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// GPRCM_O_APPS_GPIO_WAKE_CONF register.
+//
+//******************************************************************************
+#define GPRCM_APPS_GPIO_WAKE_CONF_APPS_GPIO_WAKE_CONF_M \
+ 0x00000003 // "00" - Wake on Level0 on
+ // selected GPIO pin (GPIO is
+ // selected inside the HIB3p3
+ // module); "01" - Wakeup on
+ // fall-edge of GPIO pin.
+
+#define GPRCM_APPS_GPIO_WAKE_CONF_APPS_GPIO_WAKE_CONF_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// GPRCM_O_EN_NWP_BOOT_WO_DEVINIT register.
+//
+//******************************************************************************
+#define GPRCM_EN_NWP_BOOT_WO_DEVINIT_reserved_M \
+ 0xFFFFFFFE
+
+#define GPRCM_EN_NWP_BOOT_WO_DEVINIT_reserved_S 1
+#define GPRCM_EN_NWP_BOOT_WO_DEVINIT_mem_en_nwp_boot_wo_devinit \
+ 0x00000001 // 1 - Override the secure-mode
+ // done for booting up NWP (Wakeup
+ // NWP on its event independent of
+ // CM4 state) ; 0 - Donot override
+ // the secure-mode done for NWP boot
+ // (NWP must be enabled by CM4 only)
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// GPRCM_O_MEM_HCLK_DIV_CFG register.
+//
+//******************************************************************************
+#define GPRCM_MEM_HCLK_DIV_CFG_mem_hclk_div_cfg_M \
+ 0x00000007 // Division configuration for
+ // HCLKDIVOUT : "000" - Divide by 1
+ // ; "001" - Divide by 2 ; "010" -
+ // Divide by 3 ; "011" - Divide by 4
+ // ; "100" - Divide by 5 ; "101" -
+ // Divide by 6 ; "110" - Divide by 7
+ // ; "111" - Divide by 8
+
+#define GPRCM_MEM_HCLK_DIV_CFG_mem_hclk_div_cfg_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// GPRCM_O_MEM_SYSCLK_DIV_CFG register.
+//
+//******************************************************************************
+#define GPRCM_MEM_SYSCLK_DIV_CFG_mem_sysclk_div_off_time_M \
+ 0x00000038
+
+#define GPRCM_MEM_SYSCLK_DIV_CFG_mem_sysclk_div_off_time_S 3
+#define GPRCM_MEM_SYSCLK_DIV_CFG_mem_sysclk_div_on_time_M \
+ 0x00000007
+
+#define GPRCM_MEM_SYSCLK_DIV_CFG_mem_sysclk_div_on_time_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// GPRCM_O_APLLMCS_LOCK_TIME_CONF register.
+//
+//******************************************************************************
+#define GPRCM_APLLMCS_LOCK_TIME_CONF_mem_apllmcs_wlan_lock_time_M \
+ 0x0000FF00
+
+#define GPRCM_APLLMCS_LOCK_TIME_CONF_mem_apllmcs_wlan_lock_time_S 8
+#define GPRCM_APLLMCS_LOCK_TIME_CONF_mem_apllmcs_mcu_lock_time_M \
+ 0x000000FF
+
+#define GPRCM_APLLMCS_LOCK_TIME_CONF_mem_apllmcs_mcu_lock_time_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// GPRCM_O_NWP_SOFT_RESET register.
+//
+//******************************************************************************
+#define GPRCM_NWP_SOFT_RESET_NWP_SOFT_RESET1 \
+ 0x00000002 // Soft-reset1 for NWP - Cortex
+ // sysrstn and NWP associated
+ // peripherals are - This is an
+ // auto-clr bit.
+
+#define GPRCM_NWP_SOFT_RESET_NWP_SOFT_RESET0 \
+ 0x00000001 // Soft-reset0 for NWP - Only
+ // Cortex-sysrstn is asserted - This
+ // is an auto-clear bit.
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// GPRCM_O_NWP_LPDS_WAKEUP_CFG register.
+//
+//******************************************************************************
+#define GPRCM_NWP_LPDS_WAKEUP_CFG_NWP_LPDS_WAKEUP_CFG_M \
+ 0x000000FF // Mask for LPDS Wakeup interrupt :
+ // 7 - WLAN Host Interrupt ; 6 -
+ // WLAN to NWP Wake request ; 5 -
+ // APPS to NWP Wake request; 4 -
+ // GPIO Wakeup ; 3 - Autonomous UART
+ // Wakeup ; 2 - SSDIO Wakeup ; 1 -
+ // Autonomous SPI Wakeup ; 0 - LPDS
+ // Wakeup-timer
+
+#define GPRCM_NWP_LPDS_WAKEUP_CFG_NWP_LPDS_WAKEUP_CFG_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// GPRCM_O_NWP_LPDS_WAKEUP_SRC register.
+//
+//******************************************************************************
+#define GPRCM_NWP_LPDS_WAKEUP_SRC_NWP_LPDS_WAKEUP_SRC_M \
+ 0x000000FF // Indicates the cause for NWP
+ // LPDS-Wakeup : 7 - WLAN Host
+ // Interrupt ; 6 - WLAN to NWP Wake
+ // request ; 5 - APPS to NWP Wake
+ // request; 4 - GPIO Wakeup ; 3 -
+ // Autonomous UART Wakeup ; 2 -
+ // SSDIO Wakeup ; 1 - Autonomous SPI
+ // Wakeup ; 0 - LPDS Wakeup-timer
+
+#define GPRCM_NWP_LPDS_WAKEUP_SRC_NWP_LPDS_WAKEUP_SRC_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// GPRCM_O_NWP_RESET_CAUSE register.
+//
+//******************************************************************************
+#define GPRCM_NWP_RESET_CAUSE_NWP_RESET_CAUSE_M \
+ 0x000000FF // Indicates the reset cause for
+ // NWP : "0000" - Wake from HIB/OFF
+ // mode; "0001" - Wake from LPDS ;
+ // "0010" - Reserved ; "0011" -
+ // Soft-reset0 (Only NWP
+ // Cortex-sysrstn is asserted);
+ // "0100" - Soft-reset1 (NWP
+ // Cortex-sysrstn and NWP
+ // peripherals are reset); "0101" -
+ // WDOG0 (NWP Cortex-sysrstn and NWP
+ // peripherals are reset); "0110" -
+ // MCU Soft-reset (APPS + NWP
+ // Cortex-sysrstn + Peripherals are
+ // reset); "0111" - SSDIO Function2
+ // reset (Only Cortex-sysrstn is
+ // asserted) ; "1000" - Reset due to
+ // WDOG of APPS (NWP Cortex-sysrstn
+ // and NWP peripherals are reset);
+
+#define GPRCM_NWP_RESET_CAUSE_NWP_RESET_CAUSE_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// GPRCM_O_NWP_LPDS_WAKETIME_OPP_CFG register.
+//
+//******************************************************************************
+#define GPRCM_NWP_LPDS_WAKETIME_OPP_CFG_NWP_LPDS_WAKETIME_OPP_CFG_M \
+ 0xFFFFFFFF // OPP Request Configuration
+ // (Number of slow-clk cycles) for
+ // LPDS Wake-timer
+
+#define GPRCM_NWP_LPDS_WAKETIME_OPP_CFG_NWP_LPDS_WAKETIME_OPP_CFG_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// GPRCM_O_NWP_SRAM_DSLP_CFG register.
+//
+//******************************************************************************
+#define GPRCM_NWP_SRAM_DSLP_CFG_NWP_SRAM_DSLP_CFG_M \
+ 0x000FFFFF // Configuration of NWP Memories
+ // during DSLP : 0 - SRAMs are OFF ;
+ // 1 - SRAMs are Retained. NWP SRAM
+ // Cluster information : [2] - 3rd
+ // column in MEMSS (Applicable only
+ // when owned by NWP) ; [3] - 4th
+ // column in MEMSS (Applicable only
+ // when owned by NWP) ; [4] - 5th
+ // column in MEMSS (Applicable only
+ // when owned by NWP) ; [5] - 6th
+ // column in MEMSS (Applicable only
+ // when owned by NWP) ; [6] - 7th
+ // column in MEMSS (Applicable only
+ // when owned by NWP) ; [7] - 8th
+ // column in MEMSS (Applicable only
+ // when owned by NWP) ; [8] - 9th
+ // column in MEMSS (Applicable only
+ // when owned by NWP) ; [9] - 10th
+ // column in MEMSS (Applicable only
+ // when owned by NWP) ; [10] - 11th
+ // column in MEMSS (Applicable only
+ // when owned by NWP) ; [11] - 12th
+ // column in MEMSS (Applicable only
+ // when owned by NWP) ; [12] - 13th
+ // column in MEMSS (Applicable only
+ // when owned by NWP) ; [13] - 14th
+ // column in MEMSS (Applicable only
+ // when owned by NWP) ; [14] - 15th
+ // column in MEMSS (Applicable only
+ // when owned by NWP) ; [19:18] -
+ // Reserved.
+
+#define GPRCM_NWP_SRAM_DSLP_CFG_NWP_SRAM_DSLP_CFG_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// GPRCM_O_NWP_SRAM_LPDS_CFG register.
+//
+//******************************************************************************
+#define GPRCM_NWP_SRAM_LPDS_CFG_NWP_SRAM_LPDS_CFG_M \
+ 0x000FFFFF // Configuration of NWP Memories
+ // during LPDS : 0 - SRAMs are OFF ;
+ // 1 - SRAMs are Retained. NWP SRAM
+ // Cluster information : [2] - 3rd
+ // column in MEMSS (Applicable only
+ // when owned by NWP) ; [3] - 4th
+ // column in MEMSS (Applicable only
+ // when owned by NWP) ; [4] - 5th
+ // column in MEMSS (Applicable only
+ // when owned by NWP) ; [5] - 6th
+ // column in MEMSS (Applicable only
+ // when owned by NWP) ; [6] - 7th
+ // column in MEMSS (Applicable only
+ // when owned by NWP) ; [7] - 8th
+ // column in MEMSS (Applicable only
+ // when owned by NWP) ; [8] - 9th
+ // column in MEMSS (Applicable only
+ // when owned by NWP) ; [9] - 10th
+ // column in MEMSS (Applicable only
+ // when owned by NWP) ; [10] - 11th
+ // column in MEMSS (Applicable only
+ // when owned by NWP) ; [11] - 12th
+ // column in MEMSS (Applicable only
+ // when owned by NWP) ; [12] - 13th
+ // column in MEMSS (Applicable only
+ // when owned by NWP) ; [13] - 14th
+ // column in MEMSS (Applicable only
+ // when owned by NWP) ; [14] - 15th
+ // column in MEMSS (Applicable only
+ // when owned by NWP) ; [19:18] -
+ // Reserved.
+
+#define GPRCM_NWP_SRAM_LPDS_CFG_NWP_SRAM_LPDS_CFG_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// GPRCM_O_NWP_LPDS_WAKETIME_WAKE_CFG register.
+//
+//******************************************************************************
+#define GPRCM_NWP_LPDS_WAKETIME_WAKE_CFG_NWP_LPDS_WAKETIME_WAKE_CFG_M \
+ 0xFFFFFFFF // Wake time configuration (no of
+ // slow clks) for NWP wake from
+ // LPDS.
+
+#define GPRCM_NWP_LPDS_WAKETIME_WAKE_CFG_NWP_LPDS_WAKETIME_WAKE_CFG_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// GPRCM_O_NWP_AUTONMS_SPI_MASTER_SEL register.
+//
+//******************************************************************************
+#define GPRCM_NWP_AUTONMS_SPI_MASTER_SEL_F_M \
+ 0xFFFE0000
+
+#define GPRCM_NWP_AUTONMS_SPI_MASTER_SEL_F_S 17
+#define GPRCM_NWP_AUTONMS_SPI_MASTER_SEL_MEM_AUTONMS_SPI_MASTER_SEL \
+ 0x00010000 // 0 - APPS is selected as host for
+ // Autonms SPI ; 1 - External host
+ // is selected as host for Autonms
+ // SPI
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// GPRCM_O_NWP_AUTONMS_SPI_IDLE_REQ register.
+//
+//******************************************************************************
+#define GPRCM_NWP_AUTONMS_SPI_IDLE_REQ_NWP_AUTONMS_SPI_IDLE_WAKEUP \
+ 0x00010000
+
+#define GPRCM_NWP_AUTONMS_SPI_IDLE_REQ_NWP_AUTONMS_SPI_IDLE_ACK \
+ 0x00000002 // When 1 => IDLE-mode is
+ // acknowledged by the SPI-IP. (This
+ // is for MCSPI_N1)
+
+#define GPRCM_NWP_AUTONMS_SPI_IDLE_REQ_NWP_AUTONMS_SPI_IDLE_REQ \
+ 0x00000001 // When 1 => Request for IDLE-mode
+ // for autonomous SPI. (This is for
+ // MCSPI_N1)
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// GPRCM_O_WLAN_TO_NWP_WAKE_REQUEST register.
+//
+//******************************************************************************
+#define GPRCM_WLAN_TO_NWP_WAKE_REQUEST_WLAN_TO_NWP_WAKE_REQUEST \
+ 0x00000001 // 1 - Request for waking up NWP
+ // from any of its low-power modes
+ // (SLP/DSLP/LPDS)
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// GPRCM_O_NWP_TO_WLAN_WAKE_REQUEST register.
+//
+//******************************************************************************
+#define GPRCM_NWP_TO_WLAN_WAKE_REQUEST_NWP_TO_WLAN_WAKE_REQUEST \
+ 0x00000001 // 1 - Request for wakinp up WLAN
+ // from its ELP Mode (This gets
+ // triggered to ELP-logic of WLAN)
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// GPRCM_O_NWP_GPIO_WAKE_CONF register.
+//
+//******************************************************************************
+#define GPRCM_NWP_GPIO_WAKE_CONF_NWP_GPIO_WAKE_CONF_M \
+ 0x00000003 // "00" - Wakeup on level0 of the
+ // selected GPIO (GPIO gets selected
+ // inside HIB3P3-module); "01" -
+ // Wakeup on fall-edge of selected
+ // GPIO.
+
+#define GPRCM_NWP_GPIO_WAKE_CONF_NWP_GPIO_WAKE_CONF_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// GPRCM_O_GPRCM_EFUSE_READ_REG12 register.
+//
+//******************************************************************************
+#define GPRCM_GPRCM_EFUSE_READ_REG12_FUSEFARM_ROW_32_MSW_M \
+ 0x0000FFFF // This corrsponds to ROW_32
+ // [31:16] of the FUSEFARM. SPARE
+
+#define GPRCM_GPRCM_EFUSE_READ_REG12_FUSEFARM_ROW_32_MSW_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// GPRCM_O_GPRCM_DIEID_READ_REG5 register.
+//
+//******************************************************************************
+#define GPRCM_GPRCM_DIEID_READ_REG5_FUSEFARM_ROW_10_M \
+ 0xFFFFFFFF // Corresponds to ROW10 of FUSEFARM
+ // : [5:0] - ADC OFFSET ; [13:6] -
+ // TEMP_SENSE ; [14:14] - DFT_GSG ;
+ // [15:15] - FMC_DISABLE ; [31:16] -
+ // WLAN_MAC ID
+
+#define GPRCM_GPRCM_DIEID_READ_REG5_FUSEFARM_ROW_10_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// GPRCM_O_GPRCM_DIEID_READ_REG6 register.
+//
+//******************************************************************************
+#define GPRCM_GPRCM_DIEID_READ_REG6_FUSEFARM_ROW_11_M \
+ 0xFFFFFFFF // Corresponds to ROW11 of FUSEFARM
+ // : [31:0] : WLAN MAC ID
+
+#define GPRCM_GPRCM_DIEID_READ_REG6_FUSEFARM_ROW_11_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// GPRCM_O_REF_FSM_CFG0 register.
+//
+//******************************************************************************
+#define GPRCM_REF_FSM_CFG0_BGAP_SETTLING_TIME_M \
+ 0x00FF0000 // ANA-BGAP Settling time (In
+ // number of slow_clks)
+
+#define GPRCM_REF_FSM_CFG0_BGAP_SETTLING_TIME_S 16
+#define GPRCM_REF_FSM_CFG0_FREF_LDO_SETTLING_TIME_M \
+ 0x0000FF00 // Slicer LDO settling time (In
+ // number of slow clks)
+
+#define GPRCM_REF_FSM_CFG0_FREF_LDO_SETTLING_TIME_S 8
+#define GPRCM_REF_FSM_CFG0_DIG_BUF_SETTLING_TIME_M \
+ 0x000000FF // Dig-buffer settling time (In
+ // number of slow clks)
+
+#define GPRCM_REF_FSM_CFG0_DIG_BUF_SETTLING_TIME_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// GPRCM_O_REF_FSM_CFG1 register.
+//
+//******************************************************************************
+#define GPRCM_REF_FSM_CFG1_XTAL_SETTLING_TIME_M \
+ 0xFF000000 // XTAL settling time (In number of
+ // slow clks)
+
+#define GPRCM_REF_FSM_CFG1_XTAL_SETTLING_TIME_S 24
+#define GPRCM_REF_FSM_CFG1_SLICER_LV_SETTLING_TIME_M \
+ 0x00FF0000 // LV Slicer settling time
+
+#define GPRCM_REF_FSM_CFG1_SLICER_LV_SETTLING_TIME_S 16
+#define GPRCM_REF_FSM_CFG1_SLICER_HV_PD_SETTLING_TIME_M \
+ 0x0000FF00 // HV Slicer Pull-down settling
+ // time
+
+#define GPRCM_REF_FSM_CFG1_SLICER_HV_PD_SETTLING_TIME_S 8
+#define GPRCM_REF_FSM_CFG1_SLICER_HV_SETTLING_TIME_M \
+ 0x000000FF // HV Slicer settling time
+
+#define GPRCM_REF_FSM_CFG1_SLICER_HV_SETTLING_TIME_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// GPRCM_O_APLLMCS_WLAN_CONFIG0_40 register.
+//
+//******************************************************************************
+#define GPRCM_APLLMCS_WLAN_CONFIG0_40_APLLMCS_WLAN_N_40_M \
+ 0x00007F00 // Configuration for WLAN APLLMCS -
+ // N[6:0], if the XTAL frequency is
+ // 40 MHz (Selected by efuse)
+
+#define GPRCM_APLLMCS_WLAN_CONFIG0_40_APLLMCS_WLAN_N_40_S 8
+#define GPRCM_APLLMCS_WLAN_CONFIG0_40_APLLMCS_WLAN_M_40_M \
+ 0x000000FF // Configuration for WLAN APLLMCS -
+ // M[7:0], if the XTAL frequency is
+ // 40 MHz (Selected by efuse)
+
+#define GPRCM_APLLMCS_WLAN_CONFIG0_40_APLLMCS_WLAN_M_40_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// GPRCM_O_APLLMCS_WLAN_CONFIG1_40 register.
+//
+//******************************************************************************
+#define GPRCM_APLLMCS_WLAN_CONFIG1_40_APLLMCS_HISPEED_40 \
+ 0x00000010 // Configuration for WLAN APLLMCS -
+ // if the XTAL frequency if 40 MHz
+ // (Selected by Efuse)
+
+#define GPRCM_APLLMCS_WLAN_CONFIG1_40_APLLMCS_SEL96_40 \
+ 0x00000008 // Configuration for WLAN APLLMCS -
+ // Sel96, if the XTAL frequency is
+ // 40 MHz (Selected by Efuse)
+
+#define GPRCM_APLLMCS_WLAN_CONFIG1_40_APLLMCS_SELINPFREQ_40_M \
+ 0x00000007 // Configuration for WLAN APLLMCS -
+ // Selinpfreq, if the XTAL frequency
+ // is 40 MHz (Selected by Efuse)
+
+#define GPRCM_APLLMCS_WLAN_CONFIG1_40_APLLMCS_SELINPFREQ_40_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// GPRCM_O_APLLMCS_WLAN_CONFIG0_26 register.
+//
+//******************************************************************************
+#define GPRCM_APLLMCS_WLAN_CONFIG0_26_APLLMCS_WLAN_N_26_M \
+ 0x00007F00 // Configuration for WLAN APLLMCS -
+ // N[6:0], if the XTAL frequency is
+ // 26 MHz (Selected by efuse)
+
+#define GPRCM_APLLMCS_WLAN_CONFIG0_26_APLLMCS_WLAN_N_26_S 8
+#define GPRCM_APLLMCS_WLAN_CONFIG0_26_APLLMCS_WLAN_M_26_M \
+ 0x000000FF // Configuration for WLAN APLLMCS -
+ // M[7:0], if the XTAL frequency is
+ // 26 MHz (Selected by efuse)
+
+#define GPRCM_APLLMCS_WLAN_CONFIG0_26_APLLMCS_WLAN_M_26_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// GPRCM_O_APLLMCS_WLAN_CONFIG1_26 register.
+//
+//******************************************************************************
+#define GPRCM_APLLMCS_WLAN_CONFIG1_26_APLLMCS_HISPEED_26 \
+ 0x00000010 // Configuration for WLAN APLLMCS -
+ // if the XTAL frequency if 26 MHz
+ // (Selected by Efuse)
+
+#define GPRCM_APLLMCS_WLAN_CONFIG1_26_APLLMCS_SEL96_26 \
+ 0x00000008 // Configuration for WLAN APLLMCS -
+ // Sel96, if the XTAL frequency is
+ // 26 MHz (Selected by Efuse)
+
+#define GPRCM_APLLMCS_WLAN_CONFIG1_26_APLLMCS_SELINPFREQ_26_M \
+ 0x00000007 // Configuration for WLAN APLLMCS -
+ // Selinpfreq, if the XTAL frequency
+ // is 26 MHz (Selected by Efuse)
+
+#define GPRCM_APLLMCS_WLAN_CONFIG1_26_APLLMCS_SELINPFREQ_26_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// GPRCM_O_APLLMCS_WLAN_OVERRIDES register.
+//
+//******************************************************************************
+#define GPRCM_APLLMCS_WLAN_OVERRIDES_APLLMCS_WLAN_POSTDIV_OVERRIDE_CTRL \
+ 0x00080000
+
+#define GPRCM_APLLMCS_WLAN_OVERRIDES_APLLMCS_WLAN_POSTDIV_OVERRIDE_M \
+ 0x00070000
+
+#define GPRCM_APLLMCS_WLAN_OVERRIDES_APLLMCS_WLAN_POSTDIV_OVERRIDE_S 16
+#define GPRCM_APLLMCS_WLAN_OVERRIDES_APLLMCS_WLAN_SPARE_M \
+ 0x00000700
+
+#define GPRCM_APLLMCS_WLAN_OVERRIDES_APLLMCS_WLAN_SPARE_S 8
+#define GPRCM_APLLMCS_WLAN_OVERRIDES_APLLMCS_WLAN_M_8_OVERRIDE_CTRL \
+ 0x00000020 // Override control for
+ // WLAN_APLLMCS_M[8]. When set to1,
+ // M[8] will be selected by bit [3].
+ // (Else controlled from WTOP)
+
+#define GPRCM_APLLMCS_WLAN_OVERRIDES_APLLMCS_WLAN_M_8_OVERRIDE \
+ 0x00000010 // Override for WLAN_APLLMCS_M[8].
+ // Applicable only when bit [4] is
+ // set to 1. (Else controlled from
+ // WTOP)
+
+#define GPRCM_APLLMCS_WLAN_OVERRIDES_APLLMCS_WLAN_N_7_8_OVERRIDE_CTRL \
+ 0x00000004 // Override control for
+ // WLAN_APLLMCS_N[8:7]. When set
+ // to1, N[8:7] will be selected by
+ // bits [2:1]. (Else controlled from
+ // WTOP)
+
+#define GPRCM_APLLMCS_WLAN_OVERRIDES_APLLMCS_WLAN_N_7_8_OVERRIDE_M \
+ 0x00000003 // Override value for
+ // WLAN_APLLMCS_N[8:7] bits.
+ // Applicable only when bit [1] is
+ // set to 1. (Else controlled from
+ // WTOP)
+
+#define GPRCM_APLLMCS_WLAN_OVERRIDES_APLLMCS_WLAN_N_7_8_OVERRIDE_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// GPRCM_O_APLLMCS_MCU_RUN_CONFIG0_38P4 register.
+//
+//******************************************************************************
+#define GPRCM_APLLMCS_MCU_RUN_CONFIG0_38P4_APLLMCS_MCU_POSTDIV_M \
+ 0x38000000
+
+#define GPRCM_APLLMCS_MCU_RUN_CONFIG0_38P4_APLLMCS_MCU_POSTDIV_S 27
+#define GPRCM_APLLMCS_MCU_RUN_CONFIG0_38P4_APLLMCS_MCU_SPARE_M \
+ 0x07000000
+
+#define GPRCM_APLLMCS_MCU_RUN_CONFIG0_38P4_APLLMCS_MCU_SPARE_S 24
+#define GPRCM_APLLMCS_MCU_RUN_CONFIG0_38P4_APLLMCS_MCU_RUN_N_38P4_M \
+ 0x007F0000 // Configuration for MCU-APLLMCS :
+ // N during RUN mode. Selected if
+ // the XTAL frequency is 38.4 MHz
+ // (from Efuse)
+
+#define GPRCM_APLLMCS_MCU_RUN_CONFIG0_38P4_APLLMCS_MCU_RUN_N_38P4_S 16
+#define GPRCM_APLLMCS_MCU_RUN_CONFIG0_38P4_APLLMCS_MCU_RUN_M_38P4_M \
+ 0x0000FF00 // Configuration for MCU-APLLMCS :
+ // M during RUN mode. Selected if
+ // the XTAL frequency is 38.4 MHz
+ // (from Efuse)
+
+#define GPRCM_APLLMCS_MCU_RUN_CONFIG0_38P4_APLLMCS_MCU_RUN_M_38P4_S 8
+#define GPRCM_APLLMCS_MCU_RUN_CONFIG0_38P4_APLLMCS_MCU_RUN_M_8_38P4 \
+ 0x00000010 // Configuration for MCU-APLLMCS :
+ // M[8] during RUN mode. Selected if
+ // the XTAL frequency is 38.4 MHz
+ // (From Efuse)
+
+#define GPRCM_APLLMCS_MCU_RUN_CONFIG0_38P4_APLLMCS_MCU_RUN_N_7_8_38P4_M \
+ 0x00000003 // Configuration for MCU-APLLMCS :
+ // N[8:7] during RUN mode. Selected
+ // if the XTAL frequency is 38.4 MHz
+ // (From Efuse)
+
+#define GPRCM_APLLMCS_MCU_RUN_CONFIG0_38P4_APLLMCS_MCU_RUN_N_7_8_38P4_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// GPRCM_O_APLLMCS_MCU_RUN_CONFIG1_38P4 register.
+//
+//******************************************************************************
+#define GPRCM_APLLMCS_MCU_RUN_CONFIG1_38P4_APLLMCS_MCU_RUN_HISPEED_38P4 \
+ 0x00000010 // Configuration for MCU-APLLMCS :
+ // HISPEED during RUN mode. Selected
+ // if the XTAL frequency is 38.4 MHz
+ // (from Efuse)
+
+#define GPRCM_APLLMCS_MCU_RUN_CONFIG1_38P4_APLLMCS_MCU_RUN_SEL96_38P4 \
+ 0x00000008 // Configuration for MCU-APLLMCS :
+ // SEL96 during RUN mode. Selected
+ // if the XTAL frequency is 38.4 MHz
+ // (from Efuse)
+
+#define GPRCM_APLLMCS_MCU_RUN_CONFIG1_38P4_APLLMCS_MCU_RUN_SELINPFREQ_38P4_M \
+ 0x00000007 // Configuration for MCU-APLLMCS :
+ // SELINPFREQ during RUN mode.
+ // Selected if the XTAL frequency is
+ // 38.4 MHz (from Efuse)
+
+#define GPRCM_APLLMCS_MCU_RUN_CONFIG1_38P4_APLLMCS_MCU_RUN_SELINPFREQ_38P4_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// GPRCM_O_APLLMCS_MCU_RUN_CONFIG0_26 register.
+//
+//******************************************************************************
+#define GPRCM_APLLMCS_MCU_RUN_CONFIG0_26_APLLMCS_MCU_RUN_N_26_M \
+ 0x007F0000 // Configuration for MCU-APLLMCS :
+ // N during RUN mode. Selected if
+ // the XTAL frequency is 26 MHz
+ // (from Efuse)
+
+#define GPRCM_APLLMCS_MCU_RUN_CONFIG0_26_APLLMCS_MCU_RUN_N_26_S 16
+#define GPRCM_APLLMCS_MCU_RUN_CONFIG0_26_APLLMCS_MCU_RUN_M_26_M \
+ 0x0000FF00 // Configuration for MCU-APLLMCS :
+ // M during RUN mode. Selected if
+ // the XTAL frequency is 26 MHz
+ // (from Efuse)
+
+#define GPRCM_APLLMCS_MCU_RUN_CONFIG0_26_APLLMCS_MCU_RUN_M_26_S 8
+#define GPRCM_APLLMCS_MCU_RUN_CONFIG0_26_APLLMCS_MCU_RUN_M_8_26 \
+ 0x00000010 // Configuration for MCU-APLLMCS :
+ // M[8] during RUN mode. Selected if
+ // the XTAL frequency is 26 MHz
+ // (From Efuse)
+
+#define GPRCM_APLLMCS_MCU_RUN_CONFIG0_26_APLLMCS_MCU_RUN_N_7_8_26_M \
+ 0x00000003 // Configuration for MCU-APLLMCS :
+ // N[8:7] during RUN mode. Selected
+ // if the XTAL frequency is 26 MHz
+ // (From Efuse)
+
+#define GPRCM_APLLMCS_MCU_RUN_CONFIG0_26_APLLMCS_MCU_RUN_N_7_8_26_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// GPRCM_O_APLLMCS_MCU_RUN_CONFIG1_26 register.
+//
+//******************************************************************************
+#define GPRCM_APLLMCS_MCU_RUN_CONFIG1_26_APLLMCS_MCU_RUN_HISPEED_26 \
+ 0x00000010 // Configuration for MCU-APLLMCS :
+ // HISPEED during RUN mode. Selected
+ // if the XTAL frequency is 26 MHz
+ // (from Efuse)
+
+#define GPRCM_APLLMCS_MCU_RUN_CONFIG1_26_APLLMCS_MCU_RUN_SEL96_26 \
+ 0x00000008 // Configuration for MCU-APLLMCS :
+ // SEL96 during RUN mode. Selected
+ // if the XTAL frequency is 26 MHz
+ // (from Efuse)
+
+#define GPRCM_APLLMCS_MCU_RUN_CONFIG1_26_APLLMCS_MCU_RUN_SELINPFREQ_26_M \
+ 0x00000007 // Configuration for MCU-APLLMCS :
+ // SELINPFREQ during RUN mode.
+ // Selected if the XTAL frequency is
+ // 26 MHz (from Efuse)
+
+#define GPRCM_APLLMCS_MCU_RUN_CONFIG1_26_APLLMCS_MCU_RUN_SELINPFREQ_26_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the GPRCM_O_SPARE_RW0 register.
+//
+//******************************************************************************
+//******************************************************************************
+//
+// The following are defines for the bit fields in the GPRCM_O_SPARE_RW1 register.
+//
+//******************************************************************************
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// GPRCM_O_APLLMCS_MCU_OVERRIDES register.
+//
+//******************************************************************************
+#define GPRCM_APLLMCS_MCU_OVERRIDES_APLLMCS_MCU_LOCK \
+ 0x00000400 // 1 - APLLMCS_MCU is locked ; 0 -
+ // APLLMCS_MCU is not locked
+
+#define GPRCM_APLLMCS_MCU_OVERRIDES_APLLMCS_MCU_ENABLE_OVERRIDE \
+ 0x00000200 // Override for APLLMCS_MCU Enable.
+ // Applicable if bit [8] is set
+
+#define GPRCM_APLLMCS_MCU_OVERRIDES_APLLMCS_MCU_ENABLE_OVERRIDE_CTRL \
+ 0x00000100 // 1 - Enable for APLLMCS_MCU comes
+ // from bit [9]. 0 - Enable for
+ // APLLMCS_MCU comes from FSM.
+
+#define GPRCM_APLLMCS_MCU_OVERRIDES_SYSCLK_SRC_OVERRIDE_M \
+ 0x00000006 // Override for sysclk src
+ // (applicable only if bit [0] is
+ // set to 1. "00"- SLOW_CLK "01"-
+ // XTAL_CLK "10"- PLL_CLK
+
+#define GPRCM_APLLMCS_MCU_OVERRIDES_SYSCLK_SRC_OVERRIDE_S 1
+#define GPRCM_APLLMCS_MCU_OVERRIDES_SYSCLK_SRC_OVERRIDE_CTRL \
+ 0x00000001 // 1 - Sysclk src is selected from
+ // bits [2:1] of this register. 0 -
+ // Sysclk src is selected from FSM
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// GPRCM_O_SYSCLK_SWITCH_STATUS register.
+//
+//******************************************************************************
+#define GPRCM_SYSCLK_SWITCH_STATUS_SYSCLK_SWITCH_STATUS \
+ 0x00000001 // 1 - Sysclk switching is
+ // complete. 0 - Sysclk switching is
+ // in progress.
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// GPRCM_O_REF_LDO_CONTROLS register.
+//
+//******************************************************************************
+#define GPRCM_REF_LDO_CONTROLS_REF_LDO_ENABLE_OVERRIDE_CTRL \
+ 0x00010000 // 1 - Enable for REF_LDO comes
+ // from bit [0] of this register ; 0
+ // - Enable for REF_LDO comes from
+ // the FSM. Note : Final REF_LDO_EN
+ // reaches on the port
+ // TOP_PM_REG2[0] of gprcm.
+
+#define GPRCM_REF_LDO_CONTROLS_REF_SPARE_CONTROL_M \
+ 0x0000C000 // Spare bits for REF_CTRL_FSM.
+ // Reaches directly on port
+ // TOP_PM_REG2[15:14] of gprcm.
+
+#define GPRCM_REF_LDO_CONTROLS_REF_SPARE_CONTROL_S 14
+#define GPRCM_REF_LDO_CONTROLS_REF_TLOAD_ENABLE_M \
+ 0x00003800 // REF TLOAD Enable. Reaches
+ // directly on port
+ // TOP_PM_REG2[13:11] of gprcm.
+
+#define GPRCM_REF_LDO_CONTROLS_REF_TLOAD_ENABLE_S 11
+#define GPRCM_REF_LDO_CONTROLS_REF_LDO_TMUX_CONTROL_M \
+ 0x00000700 // REF_LDO Test-mux control.
+ // Reaches directly on port
+ // TOP_PM_REG2[10:8] of gprcm.
+
+#define GPRCM_REF_LDO_CONTROLS_REF_LDO_TMUX_CONTROL_S 8
+#define GPRCM_REF_LDO_CONTROLS_REF_BW_CONTROL_M \
+ 0x000000C0 // REF BW Control. Reaches directly
+ // on port TOP_PM_REG2[7:6] of
+ // gprcm.
+
+#define GPRCM_REF_LDO_CONTROLS_REF_BW_CONTROL_S 6
+#define GPRCM_REF_LDO_CONTROLS_REF_VTRIM_CONTROL_M \
+ 0x0000003C // REF VTRIM Control. Reaches
+ // directly on port TOP_PM_REG2[5:2]
+ // of gprcm.
+
+#define GPRCM_REF_LDO_CONTROLS_REF_VTRIM_CONTROL_S 2
+#define GPRCM_REF_LDO_CONTROLS_REF_LDO_BYPASS_ENABLE \
+ 0x00000002 // REF LDO Bypass Enable. Reaches
+ // directly on port TOP_PM_REG2[1]
+ // of gprcm.
+
+#define GPRCM_REF_LDO_CONTROLS_REF_LDO_ENABLE \
+ 0x00000001 // Override for REF_LDO Enable.
+ // Applicable only if bit [16] of
+ // this register is set. Note :
+ // Final REF_LDO_EN reaches on the
+ // port TOP_PM_REG2[0] of gprcm.
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// GPRCM_O_REF_RTRIM_CONTROL register.
+//
+//******************************************************************************
+#define GPRCM_REF_RTRIM_CONTROL_TOP_PM_REG0_5_4_M \
+ 0x18000000 // This is [5:4] bits of
+ // TOP_PM_REG0
+
+#define GPRCM_REF_RTRIM_CONTROL_TOP_PM_REG0_5_4_S 27
+#define GPRCM_REF_RTRIM_CONTROL_TOP_CLKM_REG0_15_5_M \
+ 0x07FF0000 // This is [15:5] bits of
+ // TOP_CLKM_REG0
+
+#define GPRCM_REF_RTRIM_CONTROL_TOP_CLKM_REG0_15_5_S 16
+#define GPRCM_REF_RTRIM_CONTROL_REF_CLKM_RTRIM_OVERRIDE_CTRL \
+ 0x00000100 // 1 - CLKM_RTRIM comes for
+ // bits[4:0] of this register. 0 -
+ // CLKM_RTRIM comes from Efuse
+ // (after efuse_done = 1).
+
+#define GPRCM_REF_RTRIM_CONTROL_REF_CLKM_RTRIM_M \
+ 0x0000001F // CLKM_TRIM Override. Applicable
+ // when efuse_done = 0 or bit[8] is
+ // set to 1.
+
+#define GPRCM_REF_RTRIM_CONTROL_REF_CLKM_RTRIM_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// GPRCM_O_REF_SLICER_CONTROLS0 register.
+//
+//******************************************************************************
+#define GPRCM_REF_SLICER_CONTROLS0_CLK_EN_WLAN_LOWV_OVERRIDE_CTRL \
+ 0x00200000 // 1 - EN_DIG_BUF_TOP comes from
+ // bit [14] of this register. 0 -
+ // EN_DIG_BUF_TOP comes from the
+ // FSM. Note : Final EN_DIG_BUF_WLAN
+ // reaches on TOP_CLKM_REG1_IN[14]
+ // port of gprcm
+
+#define GPRCM_REF_SLICER_CONTROLS0_CLK_EN_TOP_LOWV_OVERRIDE_CTRL \
+ 0x00100000 // 1 - EN_DIG_BUF_TOP comes from
+ // bit [15] of this register. 0 -
+ // EN_DIG_BUF_TOP comes from the
+ // FSM. Note : Final EN_DIG_BUF_TOP
+ // reaches on TOP_CLKM_REG1_IN[15]
+ // port of gprcm
+
+#define GPRCM_REF_SLICER_CONTROLS0_EN_XTAL_OVERRIDE_CTRL \
+ 0x00080000 // 1 - EN_XTAL comes from bit [3]
+ // of this register. 0 - EN_XTAL
+ // comes from FSM. Note : Final
+ // XTAL_EN reaches on
+ // TOP_CLKM_REG1_IN[3] of gprcm.
+
+#define GPRCM_REF_SLICER_CONTROLS0_EN_SLI_HV_OVERRIDE_CTRL \
+ 0x00040000 // 1 - Enable HV Slicer comes from
+ // bit [2] of this register. 0 -
+ // Enable HV Slicer comes from FSM.
+ // Note : Final HV_SLICER_EN reaches
+ // on port TOP_CLKM_REG1_IN[1] of
+ // gprcm.
+
+#define GPRCM_REF_SLICER_CONTROLS0_EN_SLI_LV_OVERRIDE_CTRL \
+ 0x00020000 // 1 - Enable LV Slicer comes from
+ // bit[1] of this register. 0 -
+ // Enable LV Slicer comes from FSM.
+ // Note : final LV_SLICER_EN reaches
+ // on port TOP_CLKM_REG1_IN[2] of
+ // gprcm.
+
+#define GPRCM_REF_SLICER_CONTROLS0_EN_SLI_HV_PDN_OVERRIDE_CTRL \
+ 0x00010000 // 1 - Enable HV Pull-down comes
+ // from bit[0] of this register. 0 -
+ // Enable HV Pull-down comes from
+ // FSM. Note : Final HV_PULL_DOWN
+ // reaches on port
+ // TOP_CLKM_REG1_IN[0] of gprcm.
+
+#define GPRCM_REF_SLICER_CONTROLS0_CLK_EN_TOP_LOWV \
+ 0x00008000 // Override for EN_DIG_BUF_TOP.
+ // Applicable if bit[20] is set to
+ // 1. Note : Final EN_DIG_BUF_TOP
+ // reaches on TOP_CLKM_REG1_IN[15]
+ // port of gprcm
+
+#define GPRCM_REF_SLICER_CONTROLS0_CLK_EN_WLAN_LOWV \
+ 0x00004000 // Override for EN_DIG_BUF_WLAN.
+ // Applicable if bit[19] is set to
+ // 1. Note : Final EN_DIG_BUF_WLAN
+ // reaches on TOP_CLKM_REG1_IN[14]
+ // port of gprcm
+
+#define GPRCM_REF_SLICER_CONTROLS0_CLKOUT_FLIP_EN \
+ 0x00002000 // CLKOUT Flip Enable. Reaches on
+ // bit[13] of TOP_CLKM_REG1_IN[13]
+ // port of gprcm.
+
+#define GPRCM_REF_SLICER_CONTROLS0_EN_DIV2_WLAN_CLK \
+ 0x00001000 // Enable divide2 in WLAN Clk-path.
+ // Reaches on TOP_CLKM_REG1_IN[12]
+ // port of gprcm
+
+#define GPRCM_REF_SLICER_CONTROLS0_EN_DIV3_WLAN_CLK \
+ 0x00000800 // Enable divide3 in WLAN Clk-path.
+ // Reaches on TOP_CLKM_REG1_IN[11]
+ // port of gprcm
+
+#define GPRCM_REF_SLICER_CONTROLS0_EN_DIV4_WLAN_CLK \
+ 0x00000400 // Enable divide4 in WLAN Clk-path.
+ // Reaches on TOP_CLKM_REG1_IN[10]
+ // port of gprcm
+
+#define GPRCM_REF_SLICER_CONTROLS0_CM_TMUX_SEL_LOWV_M \
+ 0x000003C0 // CM Test-mux select. Reaches on
+ // TOP_CLMM_REG1_IN[9:6] port of
+ // gprcm
+
+#define GPRCM_REF_SLICER_CONTROLS0_CM_TMUX_SEL_LOWV_S 6
+#define GPRCM_REF_SLICER_CONTROLS0_SLICER_SPARE0_M \
+ 0x00000030 // Slicer spare0 control. Reaches
+ // on TOP_CLKM_REG1_IN[5:4] port of
+ // gprcm
+
+#define GPRCM_REF_SLICER_CONTROLS0_SLICER_SPARE0_S 4
+#define GPRCM_REF_SLICER_CONTROLS0_EN_XTAL \
+ 0x00000008 // Enable XTAL override. Reaches on
+ // TOP_CLKM_REG1_IN[3] port of gprcm
+
+#define GPRCM_REF_SLICER_CONTROLS0_EN_SLICER_HV \
+ 0x00000004 // Enable HV Slicer override.
+ // Reaches on TOP_CLKM_REG1_IN[1]
+ // port of gprcm
+
+#define GPRCM_REF_SLICER_CONTROLS0_EN_SLICER_LV \
+ 0x00000002 // Enable LV Slicer override.
+ // Reaches on TOP_CLKM_REG1_IN[2]
+ // port of gprcm
+
+#define GPRCM_REF_SLICER_CONTROLS0_EN_SLICER_HV_PDN \
+ 0x00000001 // Enable HV Pull-down override.
+ // Reaches on TOP_CLKM_REG1_IN[0]
+ // port of gprcm
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// GPRCM_O_REF_SLICER_CONTROLS1 register.
+//
+//******************************************************************************
+#define GPRCM_REF_SLICER_CONTROLS1_SLICER_SPARE1_M \
+ 0x0000FC00 // Slicer spare1. Reaches on port
+ // TOP_CLKM_REG2_IN[15:10] of gprcm.
+
+#define GPRCM_REF_SLICER_CONTROLS1_SLICER_SPARE1_S 10
+#define GPRCM_REF_SLICER_CONTROLS1_XOSC_TRIM_M \
+ 0x000003F0 // XOSC Trim. Reaches on port
+ // TOP_CLKM_REG2_IN[9:4] of gprcm
+
+#define GPRCM_REF_SLICER_CONTROLS1_XOSC_TRIM_S 4
+#define GPRCM_REF_SLICER_CONTROLS1_SLICER_ITRIM_CHANGE_TOGGLE \
+ 0x00000008 // Slicer ITRIM Toggle. Reaches on
+ // port TOP_CLKM_REG2_IN[3] of
+ // gprcm.
+
+#define GPRCM_REF_SLICER_CONTROLS1_SLICER_LV_TRIM_M \
+ 0x00000007 // LV Slicer trim. Reaches on port
+ // TOP_CLKM_REG2_IN[2:0] of gprcm.
+
+#define GPRCM_REF_SLICER_CONTROLS1_SLICER_LV_TRIM_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// GPRCM_O_REF_ANA_BGAP_CONTROLS0 register.
+//
+//******************************************************************************
+#define GPRCM_REF_ANA_BGAP_CONTROLS0_reserved_M \
+ 0xFF800000
+
+#define GPRCM_REF_ANA_BGAP_CONTROLS0_reserved_S 23
+#define GPRCM_REF_ANA_BGAP_CONTROLS0_mem_ref_mag_trim_override_ctrl \
+ 0x00400000 // 1 - REF_MAG_TRIM comes from
+ // bit[4:0] of register
+ // REF_ANA_BGAP_CONTROLS1 [Addr :
+ // 0x0850]; 0 - REF_MAG_TRIM comes
+ // from efuse (After efc_done = 1).
+ // Note : Final REF_MAG_TRIM reaches
+ // on port TOP_PM_REG1[4:0] of gprcm
+
+#define GPRCM_REF_ANA_BGAP_CONTROLS0_mem_ref_v2i_trim_override_ctrl \
+ 0x00200000 // 1 - REF_V2I_TRIM comes from
+ // bit[9:6] of this register ; 0 -
+ // REF_V2I_TRIM comes from efuse
+ // (After efc_done = 1). Note :
+ // Final REF_V2I_TRIM reaches on
+ // port TOP_PM_REG0[9:6] of gprcm.
+
+#define GPRCM_REF_ANA_BGAP_CONTROLS0_mem_ref_temp_trim_override_ctrl \
+ 0x00100000 // 1 - REF_TEMP_TRIM comes from
+ // bit[15:10] of this register ; 0 -
+ // REF_TEMP_TRIM comes from efuse
+ // (After efc_done = 1). Note :
+ // Final REF_TEMP_TRIM reaches on
+ // port TOP_PM_REG0[15:10] of gprcm.
+
+#define GPRCM_REF_ANA_BGAP_CONTROLS0_mem_ref_startup_en_override_ctrl \
+ 0x00080000 // 1 - REF_STARTUP_EN comes from
+ // bit [3] of this register ; 0 -
+ // REF_STARTUP_EN comes from FSM.
+ // Note : Final REF_STARTUP_EN
+ // reaches on port TOP_PM_REG0[3] of
+ // gprcm
+
+#define GPRCM_REF_ANA_BGAP_CONTROLS0_mem_ref_v2i_en_override_ctrl \
+ 0x00040000 // 1 - REF_V2I_EN comes from bit
+ // [2] of this register ; 0 -
+ // REF_V2I_EN comes from FSM. Note :
+ // Final REF_V2I_EN reaches on port
+ // TOP_PM_REG0[2] of gprcm.
+
+#define GPRCM_REF_ANA_BGAP_CONTROLS0_mem_ref_fc_en_override_ctrl \
+ 0x00020000 // 1 - REF_FC_EN comes from bit [1]
+ // of this register ; 0 - REF_FC_EN
+ // comes from FSM. Note : Final
+ // REF_FC_EN reaches on port
+ // TOP_PM_REG0[1] of gprcm.
+
+#define GPRCM_REF_ANA_BGAP_CONTROLS0_mem_ref_bgap_en_override_ctrl \
+ 0x00010000 // 1 - REF_BGAP_EN comes from bit
+ // [0] of this register ; 0 -
+ // REF_BGAP_EN comes from FSM. Note
+ // : Final REF_BGAP_EN reaches on
+ // port TOP_PM_REG0[0] of gprcm.
+
+#define GPRCM_REF_ANA_BGAP_CONTROLS0_mem_ref_temp_trim_M \
+ 0x0000FC00 // REF_TEMP_TRIM override.
+ // Applicable when bit [20] of this
+ // register set to 1. (or efc_done =
+ // 0) Note : Final REF_TEMP_TRIM
+ // reaches on port
+ // TOP_PM_REG0[15:10] of gprcm.
+
+#define GPRCM_REF_ANA_BGAP_CONTROLS0_mem_ref_temp_trim_S 10
+#define GPRCM_REF_ANA_BGAP_CONTROLS0_mem_ref_v2i_trim_M \
+ 0x000003C0 // REF_V2I_TRIM Override.
+ // Applicable when bit [21] of this
+ // register set to 1 . (of efc_done
+ // = 0) Note : Final REF_V2I_TRIM
+ // reaches on port TOP_PM_REG0[9:6]
+ // of gprcm.
+
+#define GPRCM_REF_ANA_BGAP_CONTROLS0_mem_ref_v2i_trim_S 6
+#define GPRCM_REF_ANA_BGAP_CONTROLS0_NU1_M \
+ 0x00000030
+
+#define GPRCM_REF_ANA_BGAP_CONTROLS0_NU1_S 4
+#define GPRCM_REF_ANA_BGAP_CONTROLS0_mem_ref_startup_en \
+ 0x00000008 // REF_STARTUP_EN override.
+ // Applicable when bit [19] of this
+ // register is set to 1. Note :
+ // Final REF_STARTUP_EN reaches on
+ // port TOP_PM_REG0[3] of gprcm
+
+#define GPRCM_REF_ANA_BGAP_CONTROLS0_mem_ref_v2i_en \
+ 0x00000004 // REF_V2I_EN override. Applicable
+ // when bit [21] of this register is
+ // set to 1. Note : Final REF_V2I_EN
+ // reaches on port TOP_PM_REG0[2] of
+ // gprcm.
+
+#define GPRCM_REF_ANA_BGAP_CONTROLS0_mem_ref_fc_en \
+ 0x00000002 // REF_FC_EN override. Applicable
+ // when bit [17] of this register is
+ // set to 1. Note : Final REF_FC_EN
+ // reaches on port TOP_PM_REG0[1] of
+ // gprcm.
+
+#define GPRCM_REF_ANA_BGAP_CONTROLS0_mem_ref_bgap_en \
+ 0x00000001 // REF_BGAP_EN override. Applicable
+ // when bit [16] of this register
+ // set to 1. Note : Final
+ // REF_BGAP_EN reaches on port
+ // TOP_PM_REG0[0] of gprcm.
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// GPRCM_O_REF_ANA_BGAP_CONTROLS1 register.
+//
+//******************************************************************************
+#define GPRCM_REF_ANA_BGAP_CONTROLS1_reserved_M \
+ 0xFFFF0000
+
+#define GPRCM_REF_ANA_BGAP_CONTROLS1_reserved_S 16
+#define GPRCM_REF_ANA_BGAP_CONTROLS1_mem_ref_bg_spare_M \
+ 0x0000C000 // REF_BGAP_SPARE. Reaches on port
+ // TOP_PM_REG1[15:14] of gprcm.
+
+#define GPRCM_REF_ANA_BGAP_CONTROLS1_mem_ref_bg_spare_S 14
+#define GPRCM_REF_ANA_BGAP_CONTROLS1_mem_ref_bgap_tmux_ctrl_M \
+ 0x00003E00 // REF_BGAP_TMUX_CTRL. Reaches on
+ // port TOP_PM_REG1[13:9] of gprcm.
+
+#define GPRCM_REF_ANA_BGAP_CONTROLS1_mem_ref_bgap_tmux_ctrl_S 9
+#define GPRCM_REF_ANA_BGAP_CONTROLS1_mem_ref_filt_trim_M \
+ 0x000001E0 // REF_FILT_TRIM. Reaches on port
+ // TOP_PM_REG1[8:5] of gprcm.
+
+#define GPRCM_REF_ANA_BGAP_CONTROLS1_mem_ref_filt_trim_S 5
+#define GPRCM_REF_ANA_BGAP_CONTROLS1_mem_ref_mag_trim_M \
+ 0x0000001F // REF_MAG_TRIM Override.
+ // Applicable when bit[22] of
+ // REF_ANA_BGAP_CONTROLS0 [0x084C]
+ // set to 1 (of efc_done = 0). Note
+ // : Final REF_MAG_TRIM reaches on
+ // port TOP_PM_REG1[4:0] of gprcm
+
+#define GPRCM_REF_ANA_BGAP_CONTROLS1_mem_ref_mag_trim_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// GPRCM_O_REF_ANA_SPARE_CONTROLS0 register.
+//
+//******************************************************************************
+#define GPRCM_REF_ANA_SPARE_CONTROLS0_reserved_M \
+ 0xFFFF0000
+
+#define GPRCM_REF_ANA_SPARE_CONTROLS0_reserved_S 16
+#define GPRCM_REF_ANA_SPARE_CONTROLS0_mem_top_pm_reg3_M \
+ 0x0000FFFF // Spare control. Reaches on
+ // TOP_PM_REG3 [15:0] of gprcm.
+
+#define GPRCM_REF_ANA_SPARE_CONTROLS0_mem_top_pm_reg3_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// GPRCM_O_REF_ANA_SPARE_CONTROLS1 register.
+//
+//******************************************************************************
+#define GPRCM_REF_ANA_SPARE_CONTROLS1_mem_top_clkm_reg3_M \
+ 0xFFFF0000 // Spare control. Reaches on
+ // TOP_CLKM_REG3 [15:0] of gprcm.
+
+#define GPRCM_REF_ANA_SPARE_CONTROLS1_mem_top_clkm_reg3_S 16
+#define GPRCM_REF_ANA_SPARE_CONTROLS1_mem_top_clkm_reg4_M \
+ 0x0000FFFF // Spare control. Reaches on
+ // TOP_CLKM_REG4 [15:0] of gprcm.
+
+#define GPRCM_REF_ANA_SPARE_CONTROLS1_mem_top_clkm_reg4_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// GPRCM_O_MEMSS_PSCON_OVERRIDES0 register.
+//
+//******************************************************************************
+#define GPRCM_MEMSS_PSCON_OVERRIDES0_mem_memss_pscon_mem_off_override_M \
+ 0xFFFF0000
+
+#define GPRCM_MEMSS_PSCON_OVERRIDES0_mem_memss_pscon_mem_off_override_S 16
+#define GPRCM_MEMSS_PSCON_OVERRIDES0_mem_memss_pscon_mem_retain_override_M \
+ 0x0000FFFF
+
+#define GPRCM_MEMSS_PSCON_OVERRIDES0_mem_memss_pscon_mem_retain_override_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// GPRCM_O_MEMSS_PSCON_OVERRIDES1 register.
+//
+//******************************************************************************
+#define GPRCM_MEMSS_PSCON_OVERRIDES1_reserved_M \
+ 0xFFFFFFC0
+
+#define GPRCM_MEMSS_PSCON_OVERRIDES1_reserved_S 6
+#define GPRCM_MEMSS_PSCON_OVERRIDES1_mem_memss_pscon_mem_update_override_ctrl \
+ 0x00000020
+
+#define GPRCM_MEMSS_PSCON_OVERRIDES1_mem_memss_pscon_mem_update_override \
+ 0x00000010
+
+#define GPRCM_MEMSS_PSCON_OVERRIDES1_mem_memss_pscon_sleep_override_ctrl \
+ 0x00000008
+
+#define GPRCM_MEMSS_PSCON_OVERRIDES1_mem_memss_pscon_sleep_override \
+ 0x00000004
+
+#define GPRCM_MEMSS_PSCON_OVERRIDES1_mem_memss_pscon_mem_off_override_ctrl \
+ 0x00000002
+
+#define GPRCM_MEMSS_PSCON_OVERRIDES1_mem_memms_pscon_mem_retain_override_ctrl \
+ 0x00000001
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// GPRCM_O_PLL_REF_LOCK_OVERRIDES register.
+//
+//******************************************************************************
+#define GPRCM_PLL_REF_LOCK_OVERRIDES_reserved_M \
+ 0xFFFFFFF8
+
+#define GPRCM_PLL_REF_LOCK_OVERRIDES_reserved_S 3
+#define GPRCM_PLL_REF_LOCK_OVERRIDES_mem_mcu_apllmcs_lock_override \
+ 0x00000004
+
+#define GPRCM_PLL_REF_LOCK_OVERRIDES_mem_wlan_apllmcs_lock_override \
+ 0x00000002
+
+#define GPRCM_PLL_REF_LOCK_OVERRIDES_mem_ref_clk_valid_override \
+ 0x00000001
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// GPRCM_O_MCU_PSCON_DEBUG register.
+//
+//******************************************************************************
+#define GPRCM_MCU_PSCON_DEBUG_reserved_M \
+ 0xFFFFFFC0
+
+#define GPRCM_MCU_PSCON_DEBUG_reserved_S 6
+#define GPRCM_MCU_PSCON_DEBUG_mcu_pscon_rtc_ps_M \
+ 0x00000038 // MCU_PSCON_RTC_ON = "0000";
+ // MCU_PSCON_RTC_OFF = "0001";
+ // MCU_PSCON_RTC_RET = "0010";
+ // MCU_PSCON_RTC_OFF_TO_ON = "0011";
+ // MCU_PSCON_RTC_RET_TO_ON = "0100";
+ // MCU_PSCON_RTC_ON_TO_RET = "0101";
+ // MCU_PSCON_RTC_ON_TO_OFF = "0110";
+ // MCU_PSCON_RTC_RET_TO_ON_WAIT_OPP
+ // = "0111";
+ // MCU_PSCON_RTC_OFF_TO_ON_WAIT_OPP
+ // = "1000";
+
+#define GPRCM_MCU_PSCON_DEBUG_mcu_pscon_rtc_ps_S 3
+#define GPRCM_MCU_PSCON_DEBUG_mcu_pscon_sys_ps_M \
+ 0x00000007
+
+#define GPRCM_MCU_PSCON_DEBUG_mcu_pscon_sys_ps_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// GPRCM_O_MEMSS_PWR_PS register.
+//
+//******************************************************************************
+#define GPRCM_MEMSS_PWR_PS_reserved_M \
+ 0xFFFFFFF8
+
+#define GPRCM_MEMSS_PWR_PS_reserved_S 3
+#define GPRCM_MEMSS_PWR_PS_pwr_ps_memss_M \
+ 0x00000007 // MEMSS_PM_SLEEP = "000";
+ // MEMSS_PM_WAIT_OPP = "010";
+ // MEMSS_PM_ACTIVE = "011";
+ // MEMSS_PM_SLEEP_TO_ACTIVE = "100";
+ // MEMSS_PM_ACTIVE_TO_SLEEP = "101";
+
+#define GPRCM_MEMSS_PWR_PS_pwr_ps_memss_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// GPRCM_O_REF_FSM_DEBUG register.
+//
+//******************************************************************************
+#define GPRCM_REF_FSM_DEBUG_reserved_M \
+ 0xFFFFFFC0
+
+#define GPRCM_REF_FSM_DEBUG_reserved_S 6
+#define GPRCM_REF_FSM_DEBUG_fref_mode_M \
+ 0x00000030 // 01 - HV Mode ; 10 - LV Mode ; 11
+ // - XTAL Mode
+
+#define GPRCM_REF_FSM_DEBUG_fref_mode_S 4
+#define GPRCM_REF_FSM_DEBUG_ref_fsm_ps_M \
+ 0x0000000F // constant FREF_CLK_OFF = "00000";
+ // constant FREF_EN_BGAP = "00001";
+ // constant FREF_EN_LDO = "00010";
+ // constant FREF_EN_SLI_HV =
+ // "00011"; constant
+ // FREF_EN_SLI_HV_PD = "00100";
+ // constant FREF_EN_DIG_BUF =
+ // "00101"; constant FREF_EN_OSC =
+ // "00110"; constant FREF_EN_SLI_LV
+ // = "00111"; constant
+ // FREF_EN_CLK_REQ = "01000";
+ // constant FREF_CLK_VALID =
+ // "01001"; constant FREF_MODE_DET0
+ // = "01010"; constant
+ // FREF_MODE_DET1 = "01011";
+ // constant FREF_MODE_DET2 =
+ // "10010"; constant FREF_MODE_DET3
+ // = "10011"; constant FREF_VALID =
+ // "01100"; constant FREF_VALID0 =
+ // "01101"; constant FREF_VALID1 =
+ // "01110"; constant FREF_VALID2 =
+ // "01111"; constant
+ // FREF_WAIT_EXT_TCXO0 = "10000";
+ // constant FREF_WAIT_EXT_TCXO1 =
+ // "10001";
+
+#define GPRCM_REF_FSM_DEBUG_ref_fsm_ps_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// GPRCM_O_MEM_SYS_OPP_REQ_OVERRIDE register.
+//
+//******************************************************************************
+#define GPRCM_MEM_SYS_OPP_REQ_OVERRIDE_reserved_M \
+ 0xFFFFFFE0
+
+#define GPRCM_MEM_SYS_OPP_REQ_OVERRIDE_reserved_S 5
+#define GPRCM_MEM_SYS_OPP_REQ_OVERRIDE_mem_sys_opp_req_override_ctrl \
+ 0x00000010 // 1 - Override the sytem-opp
+ // request to ANATOP using bit0 of
+ // this register
+
+#define GPRCM_MEM_SYS_OPP_REQ_OVERRIDE_mem_sys_opp_req_override_M \
+ 0x0000000F // "0001" - RUN ; "0010" - DSLP ;
+ // "0100" - LPDS ; Others - NA
+
+#define GPRCM_MEM_SYS_OPP_REQ_OVERRIDE_mem_sys_opp_req_override_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// GPRCM_O_MEM_TESTCTRL_PD_OPP_CONFIG register.
+//
+//******************************************************************************
+#define GPRCM_MEM_TESTCTRL_PD_OPP_CONFIG_reserved_M \
+ 0xFFFFFFFE
+
+#define GPRCM_MEM_TESTCTRL_PD_OPP_CONFIG_reserved_S 1
+#define GPRCM_MEM_TESTCTRL_PD_OPP_CONFIG_mem_sleep_opp_enter_with_testpd_on \
+ 0x00000001 // 1 - Enable sleep-opp (DSLP/LPDS)
+ // entry even if Test-Pd is kept ON
+ // ; 0 - Donot enable sleep-opp
+ // (DSLP/LPDS) entry with Test-Pd
+ // ON.
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// GPRCM_O_MEM_WL_FAST_CLK_REQ_OVERRIDES register.
+//
+//******************************************************************************
+#define GPRCM_MEM_WL_FAST_CLK_REQ_OVERRIDES_reserved_M \
+ 0xFFFFFFF8
+
+#define GPRCM_MEM_WL_FAST_CLK_REQ_OVERRIDES_reserved_S 3
+#define GPRCM_MEM_WL_FAST_CLK_REQ_OVERRIDES_mem_wl_fast_clk_req_override_ctrl \
+ 0x00000004 // NA
+
+#define GPRCM_MEM_WL_FAST_CLK_REQ_OVERRIDES_mem_wl_fast_clk_req_override \
+ 0x00000002 // NA
+
+#define GPRCM_MEM_WL_FAST_CLK_REQ_OVERRIDES_mem_wl_sleep_with_clk_req_override \
+ 0x00000001 // NA
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// GPRCM_O_MEM_MCU_PD_MODE_REQ_OVERRIDES register.
+//
+//******************************************************************************
+#define GPRCM_MEM_MCU_PD_MODE_REQ_OVERRIDES_mem_mcu_pd_mode_req_override_ctrl \
+ 0x00000004 // 1 - Override the MCU-PD power
+ // modes using bits [1] & [0] ;
+
+#define GPRCM_MEM_MCU_PD_MODE_REQ_OVERRIDES_mem_mcu_pd_pwrdn_req_override \
+ 0x00000002 // 1 - Request for power-down of
+ // MCU-PD ;
+
+#define GPRCM_MEM_MCU_PD_MODE_REQ_OVERRIDES_mem_mcu_pd_ret_req_override \
+ 0x00000001 // 1 - Request for retention mode
+ // of MCU-PD.
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// GPRCM_O_MEM_MCSPI_SRAM_OFF_REQ_OVERRIDES register.
+//
+//******************************************************************************
+#define GPRCM_MEM_MCSPI_SRAM_OFF_REQ_OVERRIDES_mem_mcspi_sram_off_req_override_ctrl \
+ 0x00000002 // 1- Override the MCSPI
+ // (Autonomous SPI) memory state
+ // using bit [0]
+
+#define GPRCM_MEM_MCSPI_SRAM_OFF_REQ_OVERRIDES_mem_mcspi_sram_off_req_override \
+ 0x00000001 // 1 - Request for power-down of
+ // Autonomous SPI 8k memory ; 0 -
+ // Donot request power-down of
+ // Autonomous SPI 8k Memory
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// GPRCM_O_MEM_WLAN_APLLMCS_OVERRIDES register.
+//
+//******************************************************************************
+#define GPRCM_MEM_WLAN_APLLMCS_OVERRIDES_wlan_apllmcs_lock \
+ 0x00000100
+
+#define GPRCM_MEM_WLAN_APLLMCS_OVERRIDES_mem_wlan_apllmcs_enable_override \
+ 0x00000002
+
+#define GPRCM_MEM_WLAN_APLLMCS_OVERRIDES_mem_wlan_apllmcs_enable_override_ctrl \
+ 0x00000001
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// GPRCM_O_MEM_REF_FSM_CFG2 register.
+//
+//******************************************************************************
+#define GPRCM_MEM_REF_FSM_CFG2_MEM_FC_DEASSERT_DELAY_M \
+ 0x00380000 // Number of RTC clocks for keeping
+ // the FC_EN asserted high
+
+#define GPRCM_MEM_REF_FSM_CFG2_MEM_FC_DEASSERT_DELAY_S 19
+#define GPRCM_MEM_REF_FSM_CFG2_MEM_STARTUP_DEASSERT_DELAY_M \
+ 0x00070000 // Number of RTC clocks for keeping
+ // the STARTUP_EN asserted high
+
+#define GPRCM_MEM_REF_FSM_CFG2_MEM_STARTUP_DEASSERT_DELAY_S 16
+#define GPRCM_MEM_REF_FSM_CFG2_MEM_EXT_TCXO_SETTLING_TIME_M \
+ 0x0000FFFF // Number of RTC clocks for waiting
+ // for clock to settle.
+
+#define GPRCM_MEM_REF_FSM_CFG2_MEM_EXT_TCXO_SETTLING_TIME_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// GPRCM_O_TESTCTRL_POWER_CTRL register.
+//
+//******************************************************************************
+#define GPRCM_TESTCTRL_POWER_CTRL_TESTCTRL_PD_STATUS_M \
+ 0x00000006
+
+#define GPRCM_TESTCTRL_POWER_CTRL_TESTCTRL_PD_STATUS_S 1
+#define GPRCM_TESTCTRL_POWER_CTRL_TESTCTRL_PD_ENABLE \
+ 0x00000001 // 0 - Disable the TestCtrl-pd ; 1
+ // - Enable the TestCtrl-pd.
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// GPRCM_O_SSDIO_POWER_CTRL register.
+//
+//******************************************************************************
+#define GPRCM_SSDIO_POWER_CTRL_SSDIO_PD_STATUS_M \
+ 0x00000006 // 1 - SSDIO-PD is ON ; 0 -
+ // SSDIO-PD is OFF
+
+#define GPRCM_SSDIO_POWER_CTRL_SSDIO_PD_STATUS_S 1
+#define GPRCM_SSDIO_POWER_CTRL_SSDIO_PD_ENABLE \
+ 0x00000001 // 0 - Disable the SSDIO-pd ; 1 -
+ // Enable the SSDIO-pd.
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// GPRCM_O_MCSPI_N1_POWER_CTRL register.
+//
+//******************************************************************************
+#define GPRCM_MCSPI_N1_POWER_CTRL_MCSPI_N1_PD_STATUS_M \
+ 0x00000006 // 1 - MCSPI_N1-PD is ON ; 0 -
+ // MCSPI_N1-PD if OFF
+
+#define GPRCM_MCSPI_N1_POWER_CTRL_MCSPI_N1_PD_STATUS_S 1
+#define GPRCM_MCSPI_N1_POWER_CTRL_MCSPI_N1_PD_ENABLE \
+ 0x00000001 // 0 - Disable the MCSPI_N1-pd ; 1
+ // - Enable the MCSPI_N1-pd.
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// GPRCM_O_WELP_POWER_CTRL register.
+//
+//******************************************************************************
+#define GPRCM_WELP_POWER_CTRL_WTOP_PD_STATUS_M \
+ 0x00001C00
+
+#define GPRCM_WELP_POWER_CTRL_WTOP_PD_STATUS_S 10
+#define GPRCM_WELP_POWER_CTRL_WTOP_PD_REQ_OVERRIDE \
+ 0x00000200
+
+#define GPRCM_WELP_POWER_CTRL_WTOP_PD_REQ_OVERRIDE_CTRL \
+ 0x00000100
+
+#define GPRCM_WELP_POWER_CTRL_WELP_PD_STATUS_M \
+ 0x00000006
+
+#define GPRCM_WELP_POWER_CTRL_WELP_PD_STATUS_S 1
+#define GPRCM_WELP_POWER_CTRL_WELP_PD_ENABLE \
+ 0x00000001 // 0 - Disable the WELP-pd ; 1 -
+ // Enable the WELP-pd.
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// GPRCM_O_WL_SDIO_POWER_CTRL register.
+//
+//******************************************************************************
+#define GPRCM_WL_SDIO_POWER_CTRL_WL_SDIO_PD_STATUS_M \
+ 0x00000006
+
+#define GPRCM_WL_SDIO_POWER_CTRL_WL_SDIO_PD_STATUS_S 1
+#define GPRCM_WL_SDIO_POWER_CTRL_WL_SDIO_PD_ENABLE \
+ 0x00000001 // 0 - Disable the WL_SDIO-pd ; 1 -
+ // Enable the WL_SDIO-pd.
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// GPRCM_O_WLAN_SRAM_ACTIVE_PWR_CFG register.
+//
+//******************************************************************************
+#define GPRCM_WLAN_SRAM_ACTIVE_PWR_CFG_WLAN_SRAM_ACTIVE_PWR_CFG_M \
+ 0x00FFFFFF // SRAM (WTOP+DRP) state during
+ // Active-mode : 1 - SRAMs are ON ;
+ // 0 - SRAMs are OFF. Cluster
+ // information : [0] - 1st column of
+ // MEMSS (Applicable only when owned
+ // by WTOP/PHY) [1] - 2nd column of
+ // MEMSS (Applicable only when owned
+ // by WTOP/PHY) ; [2] - 3rd column
+ // of MEMSS (Applicable only when
+ // owned by WTOP/PHY) ; [3] - 4th
+ // column of MEMSS (Applicable only
+ // when owned by WTOP/PHY) ; [4] -
+ // 5th column of MEMSS (Applicable
+ // only when owned by WTOP/PHY) ;
+ // [5] - 6th column of MEMSS
+ // (Applicable only when owned by
+ // WTOP/PHY) ; [6] - 7th column of
+ // MEMSS (Applicable only when owned
+ // by WTOP/PHY) ; [7] - 8th column
+ // of MEMSS (Applicable only when
+ // owned by WTOP/PHY) ; [8] - 9th
+ // column of MEMSS (Applicable only
+ // when owned by WTOP/PHY) ; [9] -
+ // 10th column of MEMSS (Applicable
+ // only when owned by WTOP/PHY) ;
+ // [10] - 11th column of MEMSS
+ // (Applicable only when owned by
+ // WTOP/PHY) ; [11] - 12th column of
+ // MEMSS (Applicable only when owned
+ // by WTOP/PHY) ; [12] - 13th column
+ // of MEMSS (Applicable only when
+ // owned by WTOP/PHY) ; [13] - 14th
+ // column of MEMSS (Applicable only
+ // when owned by WTOP/PHY) ; [14] -
+ // 15th column of MEMSS (Applicable
+ // only when owned by WTOP/PHY) ;
+ // [15] - 16th column of MEMSS
+ // (Applicable only when owned by
+ // WTOP/PHY) ; [23:16] - Internal to
+ // WTOP Cluster
+
+#define GPRCM_WLAN_SRAM_ACTIVE_PWR_CFG_WLAN_SRAM_ACTIVE_PWR_CFG_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// GPRCM_O_WLAN_SRAM_SLEEP_PWR_CFG register.
+//
+//******************************************************************************
+#define GPRCM_WLAN_SRAM_SLEEP_PWR_CFG_WLAN_SRAM_SLEEP_PWR_CFG_M \
+ 0x00FFFFFF // SRAM (WTOP+DRP) state during
+ // Sleep-mode : 1 - SRAMs are RET ;
+ // 0 - SRAMs are OFF. Cluster
+ // information : [0] - 1st column of
+ // MEMSS (Applicable only when owned
+ // by WTOP/PHY) [1] - 2nd column of
+ // MEMSS (Applicable only when owned
+ // by WTOP/PHY) ; [2] - 3rd column
+ // of MEMSS (Applicable only when
+ // owned by WTOP/PHY) ; [3] - 4th
+ // column of MEMSS (Applicable only
+ // when owned by WTOP/PHY) ; [4] -
+ // 5th column of MEMSS (Applicable
+ // only when owned by WTOP/PHY) ;
+ // [5] - 6th column of MEMSS
+ // (Applicable only when owned by
+ // WTOP/PHY) ; [6] - 7th column of
+ // MEMSS (Applicable only when owned
+ // by WTOP/PHY) ; [7] - 8th column
+ // of MEMSS (Applicable only when
+ // owned by WTOP/PHY) ; [8] - 9th
+ // column of MEMSS (Applicable only
+ // when owned by WTOP/PHY) ; [9] -
+ // 10th column of MEMSS (Applicable
+ // only when owned by WTOP/PHY) ;
+ // [10] - 11th column of MEMSS
+ // (Applicable only when owned by
+ // WTOP/PHY) ; [11] - 12th column of
+ // MEMSS (Applicable only when owned
+ // by WTOP/PHY) ; [12] - 13th column
+ // of MEMSS (Applicable only when
+ // owned by WTOP/PHY) ; [13] - 14th
+ // column of MEMSS (Applicable only
+ // when owned by WTOP/PHY) ; [14] -
+ // 15th column of MEMSS (Applicable
+ // only when owned by WTOP/PHY) ;
+ // [15] - 16th column of MEMSS
+ // (Applicable only when owned by
+ // WTOP/PHY) ; [23:16] - Internal to
+ // WTOP Cluster
+
+#define GPRCM_WLAN_SRAM_SLEEP_PWR_CFG_WLAN_SRAM_SLEEP_PWR_CFG_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// GPRCM_O_APPS_SECURE_INIT_DONE register.
+//
+//******************************************************************************
+#define GPRCM_APPS_SECURE_INIT_DONE_SECURE_INIT_DONE_STATUS \
+ 0x00000002 // 1-Secure mode init is done ;
+ // 0-Secure mode init is not done
+
+#define GPRCM_APPS_SECURE_INIT_DONE_APPS_SECURE_INIT_DONE \
+ 0x00000001 // Must be programmed 1 in order to
+ // say that secure-mode device init
+ // is done
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// GPRCM_O_APPS_DEV_MODE_INIT_DONE register.
+//
+//******************************************************************************
+#define GPRCM_APPS_DEV_MODE_INIT_DONE_APPS_DEV_MODE_INIT_DONE \
+ 0x00000001 // 1 - Patch download and other
+ // initializations are done (before
+ // removing APPS resetn) for
+ // development mode (#3) . 0 -
+ // Development mode (#3) init is not
+ // done yet
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// GPRCM_O_EN_APPS_REBOOT register.
+//
+//******************************************************************************
+#define GPRCM_EN_APPS_REBOOT_EN_APPS_REBOOT \
+ 0x00000001 // 1 - When 1, disable the reboot
+ // of APPS after DevInit is
+ // completed. In this case, APPS
+ // will permanantly help in reset. 0
+ // - When 0, enable the reboot of
+ // APPS after DevInit is completed.
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// GPRCM_O_MEM_APPS_PERIPH_PRESENT register.
+//
+//******************************************************************************
+#define GPRCM_MEM_APPS_PERIPH_PRESENT_WLAN_GEM_PP \
+ 0x00010000 // 1 - Enable ; 0 - Disable
+
+#define GPRCM_MEM_APPS_PERIPH_PRESENT_APPS_AES_PP \
+ 0x00008000
+
+#define GPRCM_MEM_APPS_PERIPH_PRESENT_APPS_DES_PP \
+ 0x00004000
+
+#define GPRCM_MEM_APPS_PERIPH_PRESENT_APPS_SHA_PP \
+ 0x00002000
+
+#define GPRCM_MEM_APPS_PERIPH_PRESENT_APPS_CAMERA_PP \
+ 0x00001000
+
+#define GPRCM_MEM_APPS_PERIPH_PRESENT_APPS_MMCHS_PP \
+ 0x00000800
+
+#define GPRCM_MEM_APPS_PERIPH_PRESENT_APPS_MCASP_PP \
+ 0x00000400
+
+#define GPRCM_MEM_APPS_PERIPH_PRESENT_APPS_MCSPI_A1_PP \
+ 0x00000200
+
+#define GPRCM_MEM_APPS_PERIPH_PRESENT_APPS_MCSPI_A2_PP \
+ 0x00000100
+
+#define GPRCM_MEM_APPS_PERIPH_PRESENT_APPS_UDMA_PP \
+ 0x00000080
+
+#define GPRCM_MEM_APPS_PERIPH_PRESENT_APPS_WDOG_PP \
+ 0x00000040
+
+#define GPRCM_MEM_APPS_PERIPH_PRESENT_APPS_UART_A0_PP \
+ 0x00000020
+
+#define GPRCM_MEM_APPS_PERIPH_PRESENT_APPS_UART_A1_PP \
+ 0x00000010
+
+#define GPRCM_MEM_APPS_PERIPH_PRESENT_APPS_GPT_A0_PP \
+ 0x00000008
+
+#define GPRCM_MEM_APPS_PERIPH_PRESENT_APPS_GPT_A1_PP \
+ 0x00000004
+
+#define GPRCM_MEM_APPS_PERIPH_PRESENT_APPS_GPT_A2_PP \
+ 0x00000002
+
+#define GPRCM_MEM_APPS_PERIPH_PRESENT_APPS_GPT_A3_PP \
+ 0x00000001
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// GPRCM_O_MEM_NWP_PERIPH_PRESENT register.
+//
+//******************************************************************************
+#define GPRCM_MEM_NWP_PERIPH_PRESENT_NWP_ASYNC_BRIDGE_PP \
+ 0x00000200
+
+#define GPRCM_MEM_NWP_PERIPH_PRESENT_NWP_MCSPI_N2_PP \
+ 0x00000100
+
+#define GPRCM_MEM_NWP_PERIPH_PRESENT_NWP_GPT_N0_PP \
+ 0x00000080
+
+#define GPRCM_MEM_NWP_PERIPH_PRESENT_NWP_GPT_N1_PP \
+ 0x00000040
+
+#define GPRCM_MEM_NWP_PERIPH_PRESENT_NWP_WDOG_PP \
+ 0x00000020
+
+#define GPRCM_MEM_NWP_PERIPH_PRESENT_NWP_UDMA_PP \
+ 0x00000010
+
+#define GPRCM_MEM_NWP_PERIPH_PRESENT_NWP_UART_N0_PP \
+ 0x00000008
+
+#define GPRCM_MEM_NWP_PERIPH_PRESENT_NWP_UART_N1_PP \
+ 0x00000004
+
+#define GPRCM_MEM_NWP_PERIPH_PRESENT_NWP_SSDIO_PP \
+ 0x00000002
+
+#define GPRCM_MEM_NWP_PERIPH_PRESENT_NWP_MCSPI_N1_PP \
+ 0x00000001
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// GPRCM_O_MEM_SHARED_PERIPH_PRESENT register.
+//
+//******************************************************************************
+
+#define GPRCM_MEM_SHARED_PERIPH_PRESENT_SHARED_MCSPI_PP \
+ 0x00000040
+
+#define GPRCM_MEM_SHARED_PERIPH_PRESENT_SHARED_I2C_PP \
+ 0x00000020
+
+#define GPRCM_MEM_SHARED_PERIPH_PRESENT_SHARED_GPIO_A_PP \
+ 0x00000010
+
+#define GPRCM_MEM_SHARED_PERIPH_PRESENT_SHARED_GPIO_B_PP \
+ 0x00000008
+
+#define GPRCM_MEM_SHARED_PERIPH_PRESENT_SHARED_GPIO_C_PP \
+ 0x00000004
+
+#define GPRCM_MEM_SHARED_PERIPH_PRESENT_SHARED_GPIO_D_PP \
+ 0x00000002
+
+#define GPRCM_MEM_SHARED_PERIPH_PRESENT_SHARED_GPIO_E_PP \
+ 0x00000001
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// GPRCM_O_NWP_PWR_STATE register.
+//
+//******************************************************************************
+#define GPRCM_NWP_PWR_STATE_NWP_PWR_STATE_PS_M \
+ 0x00000F00 // "0000"- PORZ :- NWP is yet to be
+ // enabled by APPS during powerup
+ // (from HIB/OFF) ; "0011"- ACTIVE
+ // :- NWP is enabled, clocks and
+ // resets to NWP-SubSystem are
+ // enabled ; "0010"- LPDS :- NWP is
+ // in LPDS-mode ; Clocks and reset
+ // to NWP-SubSystem are gated ;
+ // "0101"- WAIT_FOR_OPP :- NWP is in
+ // transition from LPDS to ACTIVE,
+ // where it is waiting for OPP to be
+ // stable ; "1000"-
+ // WAKE_TIMER_OPP_REQ :- NWP is in
+ // transition from LPDS, where the
+ // wakeup cause is LPDS_Wake timer
+ // OTHERS : NA
+
+#define GPRCM_NWP_PWR_STATE_NWP_PWR_STATE_PS_S 8
+#define GPRCM_NWP_PWR_STATE_NWP_RCM_PS_M \
+ 0x00000007 // "000" - NWP_RUN : NWP is in RUN
+ // state (default) - Applicable only
+ // when NWP_PWR_STATE_PS = ACTIVE ;
+ // "001" - NWP_SLP : NWP is in SLEEP
+ // state (default) - Applicable only
+ // when NWP_PWR_STATE_PS = ACTIVE ;
+ // "010" - NWP_DSLP : NWP is in
+ // Deep-Sleep state (default) -
+ // Applicable only when
+ // NWP_PWR_STATE_PS = ACTIVE ; "011"
+ // - WAIT_FOR_ACTIVE : NWP is in
+ // transition from Deep-sleep to
+ // Run, where it is waiting for OPP
+ // to be stable ; "100" -
+ // WAIT_FOR_DSLP_TIMER_WAKE_REQ :
+ // NWP is in transition from
+ // Deep-sleep to Run, where the
+ // wakeup cause is deep-sleep
+ // wake-timer
+
+#define GPRCM_NWP_PWR_STATE_NWP_RCM_PS_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// GPRCM_O_APPS_PWR_STATE register.
+//
+//******************************************************************************
+#define GPRCM_APPS_PWR_STATE_APPS_PWR_STATE_PS_M \
+ 0x00000F00 // "0000"- PORZ :- APPS is waiting
+ // for PLL_clock during powerup
+ // (from HIB/OFF) ; "0011"- ACTIVE
+ // :- APPS is enabled, clocks and
+ // resets to APPS-SubSystem are
+ // enabled ; APPS might be either in
+ // Secure or Un-secure mode during
+ // this state. "1001" -
+ // SECURE_MODE_LPDS :- While in
+ // ACTIVE (Secure-mode), APPS had to
+ // program the DevInit_done bit at
+ // the end, after which it enters
+ // into this state, where the reset
+ // to APPS will be asserted. From
+ // this state APPS might either
+ // re-boot itself or enter into LPDS
+ // depending upon whether the device
+ // is 3200 or 3100. "0010"- LPDS :-
+ // APPS is in LPDS-mode ; Clocks and
+ // reset to APPS-SubSystem are gated
+ // ; "0101"- WAIT_FOR_OPP :- APPS is
+ // in transition from LPDS to
+ // ACTIVE, where it is waiting for
+ // OPP to be stable ; "1000" -
+ // WAKE_TIMER_OPP_REQ : APPS is in
+ // transition from LPDS, where the
+ // wakeup cause is LPDS_Wake timer ;
+ // "1010" - WAIT_FOR_PATCH_INIT :
+ // APPS enters into this state
+ // during development-mode #3 (SOP =
+ // 3), where it is waiting for patch
+ // download to complete and 0x4 hack
+ // is programmed. OTHERS : NA
+
+#define GPRCM_APPS_PWR_STATE_APPS_PWR_STATE_PS_S 8
+#define GPRCM_APPS_PWR_STATE_APPS_RCM_PS_M \
+ 0x00000007 // "000" - APPS_RUN : APPS is in
+ // RUN state (default) - Applicable
+ // only when APPS_PWR_STATE_PS =
+ // ACTIVE ; "001" - APPS_SLP : APPS
+ // is in SLEEP state (default) -
+ // Applicable only when
+ // APPS_PWR_STATE_PS = ACTIVE ;
+ // "010" - APPS_DSLP : APPS is in
+ // Deep-Sleep state (default) -
+ // Applicable only when
+ // APPS_PWR_STATE_PS = ACTIVE ;
+ // "011" - WAIT_FOR_ACTIVE : APPS is
+ // in transition from Deep-sleep to
+ // Run, where it is waiting for OPP
+ // to be stable ; "100" -
+ // WAIT_FOR_DSLP_TIMER_WAKE_REQ :
+ // APPS is in transition from
+ // Deep-sleep to Run, where the
+ // wakeup cause is deep-sleep
+ // wake-timer
+
+#define GPRCM_APPS_PWR_STATE_APPS_RCM_PS_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// GPRCM_O_MCU_PWR_STATE register.
+//
+//******************************************************************************
+#define GPRCM_MCU_PWR_STATE_MCU_OPP_PS_M \
+ 0x0000001F // TBD
+
+#define GPRCM_MCU_PWR_STATE_MCU_OPP_PS_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// GPRCM_O_WTOP_PM_PS register.
+//
+//******************************************************************************
+#define GPRCM_WTOP_PM_PS_WTOP_PM_PS_M \
+ 0x00000007 // "011" - WTOP_PM_ACTIVE (Default)
+ // :- WTOP_Pd is in ACTIVE mode;
+ // "100" - WTOP_PM_ACTIVE_TO_SLEEP
+ // :- WTOP_Pd is in transition from
+ // ACTIVE to SLEEP ; "000" -
+ // WTOP_PM_SLEEP : WTOP-Pd is in
+ // Sleep-state ; "100" -
+ // WTOP_PM_SLEEP_TO_ACTIVE : WTOP_Pd
+ // is in transition from SLEEP to
+ // ACTIVE ; "000" -
+ // WTOP_PM_WAIT_FOR_OPP : Wait for
+ // OPP to be stable ;
+
+#define GPRCM_WTOP_PM_PS_WTOP_PM_PS_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// GPRCM_O_WTOP_PD_RESETZ_OVERRIDE_REG register.
+//
+//******************************************************************************
+#define GPRCM_WTOP_PD_RESETZ_OVERRIDE_REG_WTOP_PD_RESETZ_OVERRIDE_CTRL \
+ 0x00000100 // Override control for WTOP PD
+ // Resetz. When set to 1,
+ // WTOP_Resetz will be controlled by
+ // bit [0]
+
+#define GPRCM_WTOP_PD_RESETZ_OVERRIDE_REG_WTOP_PD_RESETZ_OVERRIDE \
+ 0x00000001 // Override for WTOP PD Resetz.
+ // Applicable only when bit[8] is
+ // set to 1
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// GPRCM_O_WELP_PD_RESETZ_OVERRIDE_REG register.
+//
+//******************************************************************************
+#define GPRCM_WELP_PD_RESETZ_OVERRIDE_REG_WELP_PD_RESETZ_OVERRIDE_CTRL \
+ 0x00000100 // Override control for WELP PD
+ // Resetz. When set to 1,
+ // WELP_Resetz will be controlled by
+ // bit [0]
+
+#define GPRCM_WELP_PD_RESETZ_OVERRIDE_REG_WELP_PD_RESETZ_OVERRIDE \
+ 0x00000001 // Override for WELP PD Resetz.
+ // Applicable only when bit[8] is
+ // set to 1
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// GPRCM_O_WL_SDIO_PD_RESETZ_OVERRIDE_REG register.
+//
+//******************************************************************************
+#define GPRCM_WL_SDIO_PD_RESETZ_OVERRIDE_REG_WL_SDIO_PD_RESETZ_OVERRIDE_CTRL \
+ 0x00000100 // Override control for WL_SDIO
+ // Resetz. When set to 1,
+ // WL_SDIO_Resetz will be controlled
+ // by bit [0]
+
+#define GPRCM_WL_SDIO_PD_RESETZ_OVERRIDE_REG_WL_SDIO_PD_RESETZ_OVERRIDE \
+ 0x00000001 // Override for WL_SDIO Resetz.
+ // Applicable only when bit[8] is
+ // set to 1
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// GPRCM_O_SSDIO_PD_RESETZ_OVERRIDE_REG register.
+//
+//******************************************************************************
+#define GPRCM_SSDIO_PD_RESETZ_OVERRIDE_REG_SSDIO_PD_RESETZ_OVERRIDE_CTRL \
+ 0x00000100 // Override control for SSDIO
+ // Resetz. When set to 1,
+ // SSDIO_Resetz will be controlled
+ // by bit [0]
+
+#define GPRCM_SSDIO_PD_RESETZ_OVERRIDE_REG_SSDIO_PD_RESETZ_OVERRIDE \
+ 0x00000001 // Override for SSDIO Resetz.
+ // Applicable only when bit[8] is
+ // set to 1
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// GPRCM_O_MCSPI_N1_PD_RESETZ_OVERRIDE_REG register.
+//
+//******************************************************************************
+#define GPRCM_MCSPI_N1_PD_RESETZ_OVERRIDE_REG_MCSPI_N1_PD_RESETZ_OVERRIDE_CTRL \
+ 0x00000100 // Override control for MCSPI_N1
+ // Resetz. When set to 1,
+ // MCSPI_N1_Resetz will be
+ // controlled by bit [0]
+
+#define GPRCM_MCSPI_N1_PD_RESETZ_OVERRIDE_REG_MCSPI_N1_PD_RESETZ_OVERRIDE \
+ 0x00000001 // Override for MCSPI_N1 Resetz.
+ // Applicable only when bit[8] is
+ // set to 1
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// GPRCM_O_TESTCTRL_PD_RESETZ_OVERRIDE_REG register.
+//
+//******************************************************************************
+#define GPRCM_TESTCTRL_PD_RESETZ_OVERRIDE_REG_TESTCTRL_PD_RESETZ_OVERRIDE_CTRL \
+ 0x00000100 // Override control for TESTCTRL-PD
+ // Resetz. When set to 1,
+ // TESTCTRL_Resetz will be
+ // controlled by bit [0]
+
+#define GPRCM_TESTCTRL_PD_RESETZ_OVERRIDE_REG_TESTCTRL_PD_RESETZ_OVERRIDE \
+ 0x00000001 // Override for TESTCTRL Resetz.
+ // Applicable only when bit[8] is
+ // set to 1
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// GPRCM_O_MCU_PD_RESETZ_OVERRIDE_REG register.
+//
+//******************************************************************************
+#define GPRCM_MCU_PD_RESETZ_OVERRIDE_REG_MCU_PD_RESETZ_OVERRIDE_CTRL \
+ 0x00000100 // Override control for MCU-PD
+ // Resetz. When set to 1, MCU_Resetz
+ // will be controlled by bit [0]
+
+#define GPRCM_MCU_PD_RESETZ_OVERRIDE_REG_MCU_PD_RESETZ_OVERRIDE \
+ 0x00000001 // Override for MCU Resetz.
+ // Applicable only when bit[8] is
+ // set to 1
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// GPRCM_O_GPRCM_EFUSE_READ_REG0 register.
+//
+//******************************************************************************
+#define GPRCM_GPRCM_EFUSE_READ_REG0_FUSEFARM_ROW_14_M \
+ 0xFFFFFFFF // This is ROW_14 [31:0] of
+ // FUSEFARM. [0:0] : XTAL_IS_26MHZ
+ // [5:1] : TOP_CLKM_RTRIM[4:0]
+ // [10:6] : ANA_BGAP_MAG_TRIM[4:0]
+ // [16:11] : ANA_BGAP_TEMP_TRIM[5:0]
+ // [20:17] : ANA_BGAP_V2I_TRIM[3:0]
+ // [25:22] : PROCESS INDICATOR
+ // [26:26] : Reserved [31:27] :
+ // FUSEROM Version
+
+#define GPRCM_GPRCM_EFUSE_READ_REG0_FUSEFARM_ROW_14_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// GPRCM_O_GPRCM_EFUSE_READ_REG1 register.
+//
+//******************************************************************************
+#define GPRCM_GPRCM_EFUSE_READ_REG1_FUSEFARM_ROW_15_LSW_M \
+ 0x0000FFFF // This is ROW_15[15:0] of FUSEFARM
+ // 1. NWP Peripheral Present bits
+ // [15:8] NWP_GPT_N0_PP [15:15]
+ // NWP_GPT_N1_PP [14:14] NWP_WDOG_PP
+ // [13:13] NWP_UDMA_PP [12:12]
+ // NWP_UART_N0_PP [11:11]
+ // NWP_UART_N1_PP [10:10]
+ // NWP_SSDIO_PP [9:9]
+ // NWP_MCSPI_N1_PP [8:8] 2. Shared
+ // Peripheral Present bits [7:0]
+ // SHARED SPI PP [6:6]
+ // SHARED I2C PP [5:5] SHARED
+ // GPIO-A PP [4:4] SHARED GPIO-B PP
+ // [3:3] SHARED GPIO-C PP [2:2]
+ // SHARED GPIO-D PP [1:1] SHARED
+ // GPIO-E PP [0:0]
+
+#define GPRCM_GPRCM_EFUSE_READ_REG1_FUSEFARM_ROW_15_LSW_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// GPRCM_O_GPRCM_EFUSE_READ_REG2 register.
+//
+//******************************************************************************
+#define GPRCM_GPRCM_EFUSE_READ_REG2_FUSEFARM_ROW_16_LSW_ROW_15_MSW_M \
+ 0xFFFFFFFF // This is ROW_16[15:0] &
+ // ROW_15[31:16] of FUSEFARM.
+ // [31:21] - Reserved [20:16] -
+ // CHIP_ID [15:15] - SSBD SOP
+ // Control [14:14] - SSBD TAP
+ // Control [13:2] - APPS Peripheral
+ // Present bits : APPS_CAMERA_PP
+ // [13:13] APPS_MMCHS_PP [12:12]
+ // APPS_MCASP_PP [11:11]
+ // APPS_MCSPI_A1_PP [10:10]
+ // APPS_MCSPI_A2_PP [9:9]
+ // APPS_UDMA_PP [8:8] APPS_WDOG_PP
+ // [7:7] APPS_UART_A0_PP [6:6]
+ // APPS_UART_A1_PP [5:5]
+ // APPS_GPT_A0_PP [4:4]
+ // APPS_GPT_A1_PP [3:3]
+ // APPS_GPT_A2_PP [2:2]
+ // APPS_GPT_A3_PP [1:1] [0:0] - NWP
+ // Peripheral present bits
+ // NWP_ACSPI_PP [0:0]
+
+#define GPRCM_GPRCM_EFUSE_READ_REG2_FUSEFARM_ROW_16_LSW_ROW_15_MSW_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// GPRCM_O_GPRCM_EFUSE_READ_REG3 register.
+//
+//******************************************************************************
+#define GPRCM_GPRCM_EFUSE_READ_REG3_FUSEFARM_ROW_17_LSW_ROW_16_MSW_M \
+ 0xFFFFFFFF // This is ROW_17[15:0] &
+ // ROW_16[31:16] of FUSEFARM :
+ // [31:16] - TEST_TAP_KEY(15:0)
+ // [15:0] - Reserved
+
+#define GPRCM_GPRCM_EFUSE_READ_REG3_FUSEFARM_ROW_17_LSW_ROW_16_MSW_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// GPRCM_O_WTOP_MEM_RET_CFG register.
+//
+//******************************************************************************
+#define GPRCM_WTOP_MEM_RET_CFG_WTOP_MEM_RET_CFG \
+ 0x00000001 // 1 - Soft-compile memories in
+ // WTOP can be turned-off during
+ // WTOP-sleep mode ; 0 -
+ // Soft-compile memories in WTOP
+ // must be kept on during WTOP-sleep
+ // mode.
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// GPRCM_O_COEX_CLK_SWALLOW_CFG0 register.
+//
+//******************************************************************************
+#define GPRCM_COEX_CLK_SWALLOW_CFG0_Q_FACTOR_M \
+ 0x007FFFFF // TBD
+
+#define GPRCM_COEX_CLK_SWALLOW_CFG0_Q_FACTOR_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// GPRCM_O_COEX_CLK_SWALLOW_CFG1 register.
+//
+//******************************************************************************
+#define GPRCM_COEX_CLK_SWALLOW_CFG1_P_FACTOR_M \
+ 0x000FFFFF // TBD
+
+#define GPRCM_COEX_CLK_SWALLOW_CFG1_P_FACTOR_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// GPRCM_O_COEX_CLK_SWALLOW_CFG2 register.
+//
+//******************************************************************************
+#define GPRCM_COEX_CLK_SWALLOW_CFG2_CONSECUTIVE_SWALLOW_M \
+ 0x00000018
+
+#define GPRCM_COEX_CLK_SWALLOW_CFG2_CONSECUTIVE_SWALLOW_S 3
+#define GPRCM_COEX_CLK_SWALLOW_CFG2_PRBS_GAIN \
+ 0x00000004
+
+#define GPRCM_COEX_CLK_SWALLOW_CFG2_PRBS_ENABLE \
+ 0x00000002
+
+#define GPRCM_COEX_CLK_SWALLOW_CFG2_SWALLOW_ENABLE \
+ 0x00000001 // TBD
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// GPRCM_O_COEX_CLK_SWALLOW_ENABLE register.
+//
+//******************************************************************************
+#define GPRCM_COEX_CLK_SWALLOW_ENABLE_COEX_CLK_SWALLOW_ENABLE \
+ 0x00000001 // 1 - Enable switching of sysclk
+ // to Coex-clk path ; 0 - Disable
+ // switching of sysclk to Coex-clk
+ // path.
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// GPRCM_O_DCDC_CLK_GEN_CONFIG register.
+//
+//******************************************************************************
+#define GPRCM_DCDC_CLK_GEN_CONFIG_DCDC_CLK_ENABLE \
+ 0x00000001 // 1 - Enable the clock for DCDC
+ // (PWM-mode) ; 0 - Disable the
+ // clock for DCDC (PWM-mode)
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// GPRCM_O_GPRCM_EFUSE_READ_REG4 register.
+//
+//******************************************************************************
+#define GPRCM_GPRCM_EFUSE_READ_REG4_FUSEFARM_ROW_17_MSW_M \
+ 0x0000FFFF // This corresponds to
+ // ROW_17[31:16] of the FUSEFARM :
+ // [15:0] : TEST_TAP_KEY(31:16)
+
+#define GPRCM_GPRCM_EFUSE_READ_REG4_FUSEFARM_ROW_17_MSW_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// GPRCM_O_GPRCM_EFUSE_READ_REG5 register.
+//
+//******************************************************************************
+#define GPRCM_GPRCM_EFUSE_READ_REG5_FUSEFARM_ROW_18_M \
+ 0xFFFFFFFF // Corresponds to ROW_18 of
+ // FUSEFARM. [29:0] -
+ // MEMSS_COLUMN_SEL_LSW ; [30:30] -
+ // WLAN GEM DISABLE ; [31:31] -
+ // SERIAL WIRE JTAG SELECT
+
+#define GPRCM_GPRCM_EFUSE_READ_REG5_FUSEFARM_ROW_18_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// GPRCM_O_GPRCM_EFUSE_READ_REG6 register.
+//
+//******************************************************************************
+#define GPRCM_GPRCM_EFUSE_READ_REG6_FUSEFARM_ROW_19_LSW_M \
+ 0x0000FFFF // Corresponds to ROW_19[15:0] of
+ // FUSEFARM. [15:0] :
+ // MEMSS_COLUMN_SEL_MSW
+
+#define GPRCM_GPRCM_EFUSE_READ_REG6_FUSEFARM_ROW_19_LSW_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// GPRCM_O_GPRCM_EFUSE_READ_REG7 register.
+//
+//******************************************************************************
+#define GPRCM_GPRCM_EFUSE_READ_REG7_FUSEFARM_ROW_20_LSW_ROW_19_MSW_M \
+ 0xFFFFFFFF // Corresponds to ROW_20[15:0] &
+ // ROW_19[31:16] of FUSEFARM.
+ // FLASH_REGION0
+
+#define GPRCM_GPRCM_EFUSE_READ_REG7_FUSEFARM_ROW_20_LSW_ROW_19_MSW_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// GPRCM_O_GPRCM_EFUSE_READ_REG8 register.
+//
+//******************************************************************************
+#define GPRCM_GPRCM_EFUSE_READ_REG8_FUSEFARM_ROW_21_LSW_ROW_20_MSW_M \
+ 0xFFFFFFFF // Corresponds to ROW_21[15:0] &
+ // ROW_20[31:16] of FUSEFARM.
+ // FLASH_REGION1
+
+#define GPRCM_GPRCM_EFUSE_READ_REG8_FUSEFARM_ROW_21_LSW_ROW_20_MSW_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// GPRCM_O_GPRCM_EFUSE_READ_REG9 register.
+//
+//******************************************************************************
+#define GPRCM_GPRCM_EFUSE_READ_REG9_FUSEFARM_ROW_22_LSW_ROW_21_MSW_M \
+ 0xFFFFFFFF // Corresponds to ROW_22[15:0] &
+ // ROW_21[31:16] of FUSEFARM.
+ // FLASH_REGION2
+
+#define GPRCM_GPRCM_EFUSE_READ_REG9_FUSEFARM_ROW_22_LSW_ROW_21_MSW_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// GPRCM_O_GPRCM_EFUSE_READ_REG10 register.
+//
+//******************************************************************************
+#define GPRCM_GPRCM_EFUSE_READ_REG10_FUSEFARM_ROW_23_LSW_ROW_22_MSW_M \
+ 0xFFFFFFFF // Corresponds to ROW_23[15:0] &
+ // ROW_22[31:16] of FUSEFARM.
+ // FLASH_REGION3
+
+#define GPRCM_GPRCM_EFUSE_READ_REG10_FUSEFARM_ROW_23_LSW_ROW_22_MSW_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// GPRCM_O_GPRCM_EFUSE_READ_REG11 register.
+//
+//******************************************************************************
+#define GPRCM_GPRCM_EFUSE_READ_REG11_FUSEFARM_ROW_24_LSW_ROW_23_MSW_M \
+ 0xFFFFFFFF // Corresponds to ROW_24[15:0] &
+ // ROW_23[31:16] of FUSEFARM.
+ // FLASH_DESCRIPTOR
+
+#define GPRCM_GPRCM_EFUSE_READ_REG11_FUSEFARM_ROW_24_LSW_ROW_23_MSW_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// GPRCM_O_GPRCM_DIEID_READ_REG0 register.
+//
+//******************************************************************************
+#define GPRCM_GPRCM_DIEID_READ_REG0_FUSEFARM_191_160_M \
+ 0xFFFFFFFF // Corresponds to bits [191:160] of
+ // the FUSEFARM. This is ROW_5 of
+ // FUSEFARM [191:160] : [31:0] :
+ // DIE_ID0 [31:0] : DEVX [11:0] DEVY
+ // [23:12] DEVWAF [29:24] DEV_SPARE
+ // [31:30]
+
+#define GPRCM_GPRCM_DIEID_READ_REG0_FUSEFARM_191_160_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// GPRCM_O_GPRCM_DIEID_READ_REG1 register.
+//
+//******************************************************************************
+#define GPRCM_GPRCM_DIEID_READ_REG1_FUSEFARM_223_192_M \
+ 0xFFFFFFFF // Corresponds to bits [223:192] of
+ // the FUSEFARM. This is ROW_6 of
+ // FUSEFARM :- DEVLOT [23:0] DEVFAB
+ // [28:24] DEVFABBE [31:29]
+
+#define GPRCM_GPRCM_DIEID_READ_REG1_FUSEFARM_223_192_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// GPRCM_O_GPRCM_DIEID_READ_REG2 register.
+//
+//******************************************************************************
+#define GPRCM_GPRCM_DIEID_READ_REG2_FUSEFARM_255_224_M \
+ 0xFFFFFFFF // Corresponds to bits [255:224] of
+ // the FUSEFARM. This is ROW_7 of
+ // FUSEFARM:- DEVDESREV[4:0]
+ // Memrepair[5:5] MakeDefined[16:6]
+ // CHECKSUM[30:17] Reserved :
+ // [31:31]
+
+#define GPRCM_GPRCM_DIEID_READ_REG2_FUSEFARM_255_224_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// GPRCM_O_GPRCM_DIEID_READ_REG3 register.
+//
+//******************************************************************************
+#define GPRCM_GPRCM_DIEID_READ_REG3_FUSEFARM_287_256_M \
+ 0xFFFFFFFF // Corresponds to bits [287:256] of
+ // the FUSEFARM. This is ROW_8 of
+ // FUSEFARM :- DIEID0 - DEVREG
+ // [31:0]
+
+#define GPRCM_GPRCM_DIEID_READ_REG3_FUSEFARM_287_256_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// GPRCM_O_GPRCM_DIEID_READ_REG4 register.
+//
+//******************************************************************************
+#define GPRCM_GPRCM_DIEID_READ_REG4_FUSEFARM_319_288_M \
+ 0xFFFFFFFF // Corresponds to bits [319:288] of
+ // the FUSEFARM. This is ROW_9 of
+ // FUSEFARM :- [7:0] - VBATMON ;
+ // [13:8] - BUFF_OFFSET ; [15:15] -
+ // DFT_GXG ; [14:14] - DFT_GLX ;
+ // [19:16] - PHY ROM Version ;
+ // [23:20] - MAC ROM Version ;
+ // [27:24] - NWP ROM Version ;
+ // [31:28] - APPS ROM Version
+
+#define GPRCM_GPRCM_DIEID_READ_REG4_FUSEFARM_319_288_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// GPRCM_O_APPS_SS_OVERRIDES register.
+//
+//******************************************************************************
+#define GPRCM_APPS_SS_OVERRIDES_reserved_M \
+ 0xFFFFFC00
+
+#define GPRCM_APPS_SS_OVERRIDES_reserved_S 10
+#define GPRCM_APPS_SS_OVERRIDES_mem_apps_refclk_gating_override \
+ 0x00000200
+
+#define GPRCM_APPS_SS_OVERRIDES_mem_apps_refclk_gating_override_ctrl \
+ 0x00000100
+
+#define GPRCM_APPS_SS_OVERRIDES_mem_apps_pllclk_gating_override \
+ 0x00000080
+
+#define GPRCM_APPS_SS_OVERRIDES_mem_apps_pllclk_gating_override_ctrl \
+ 0x00000040
+
+#define GPRCM_APPS_SS_OVERRIDES_mem_apps_por_rstn_override \
+ 0x00000020
+
+#define GPRCM_APPS_SS_OVERRIDES_mem_apps_sysrstn_override \
+ 0x00000010
+
+#define GPRCM_APPS_SS_OVERRIDES_mem_apps_sysclk_gating_override \
+ 0x00000008
+
+#define GPRCM_APPS_SS_OVERRIDES_mem_apps_por_rstn_override_ctrl \
+ 0x00000004
+
+#define GPRCM_APPS_SS_OVERRIDES_mem_apps_sysrstn_override_ctrl \
+ 0x00000002
+
+#define GPRCM_APPS_SS_OVERRIDES_mem_apps_sysclk_gating_override_ctrl \
+ 0x00000001
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// GPRCM_O_NWP_SS_OVERRIDES register.
+//
+//******************************************************************************
+#define GPRCM_NWP_SS_OVERRIDES_reserved_M \
+ 0xFFFFFC00
+
+#define GPRCM_NWP_SS_OVERRIDES_reserved_S 10
+#define GPRCM_NWP_SS_OVERRIDES_mem_nwp_refclk_gating_override \
+ 0x00000200
+
+#define GPRCM_NWP_SS_OVERRIDES_mem_nwp_refclk_gating_override_ctrl \
+ 0x00000100
+
+#define GPRCM_NWP_SS_OVERRIDES_mem_nwp_pllclk_gating_override \
+ 0x00000080
+
+#define GPRCM_NWP_SS_OVERRIDES_mem_nwp_pllclk_gating_override_ctrl \
+ 0x00000040
+
+#define GPRCM_NWP_SS_OVERRIDES_mem_nwp_por_rstn_override \
+ 0x00000020
+
+#define GPRCM_NWP_SS_OVERRIDES_mem_nwp_sysrstn_override \
+ 0x00000010
+
+#define GPRCM_NWP_SS_OVERRIDES_mem_nwp_sysclk_gating_override \
+ 0x00000008
+
+#define GPRCM_NWP_SS_OVERRIDES_mem_nwp_por_rstn_override_ctrl \
+ 0x00000004
+
+#define GPRCM_NWP_SS_OVERRIDES_mem_nwp_sysrstn_override_ctrl \
+ 0x00000002
+
+#define GPRCM_NWP_SS_OVERRIDES_mem_nwp_sysclk_gating_override_ctrl \
+ 0x00000001
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// GPRCM_O_SHARED_SS_OVERRIDES register.
+//
+//******************************************************************************
+#define GPRCM_SHARED_SS_OVERRIDES_reserved_M \
+ 0xFFFFFF00
+
+#define GPRCM_SHARED_SS_OVERRIDES_reserved_S 8
+#define GPRCM_SHARED_SS_OVERRIDES_mem_shared_pllclk_gating_override_ctrl \
+ 0x00000080
+
+#define GPRCM_SHARED_SS_OVERRIDES_mem_shared_pllclk_gating_override \
+ 0x00000040
+
+#define GPRCM_SHARED_SS_OVERRIDES_mem_shared_refclk_gating_override_ctrl \
+ 0x00000020
+
+#define GPRCM_SHARED_SS_OVERRIDES_mem_shared_refclk_gating_override \
+ 0x00000010
+
+#define GPRCM_SHARED_SS_OVERRIDES_mem_shared_rstn_override \
+ 0x00000008
+
+#define GPRCM_SHARED_SS_OVERRIDES_mem_shared_sysclk_gating_override \
+ 0x00000004
+
+#define GPRCM_SHARED_SS_OVERRIDES_mem_shared_rstn_override_ctrl \
+ 0x00000002
+
+#define GPRCM_SHARED_SS_OVERRIDES_mem_shared_sysclk_gating_override_ctrl \
+ 0x00000001
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// GPRCM_O_IDMEM_CORE_RST_OVERRIDES register.
+//
+//******************************************************************************
+#define GPRCM_IDMEM_CORE_RST_OVERRIDES_reserved_M \
+ 0xFFFFFF00
+
+#define GPRCM_IDMEM_CORE_RST_OVERRIDES_reserved_S 8
+#define GPRCM_IDMEM_CORE_RST_OVERRIDES_mem_idmem_core_sysrstn_override \
+ 0x00000080
+
+#define GPRCM_IDMEM_CORE_RST_OVERRIDES_mem_idmem_core_fmc_rstn_override \
+ 0x00000040
+
+#define GPRCM_IDMEM_CORE_RST_OVERRIDES_SPARE_RW1 \
+ 0x00000020
+
+#define GPRCM_IDMEM_CORE_RST_OVERRIDES_mem_idmem_core_piosc_gating_override \
+ 0x00000010
+
+#define GPRCM_IDMEM_CORE_RST_OVERRIDES_mem_idmem_core_sysrstn_override_ctrl \
+ 0x00000008
+
+#define GPRCM_IDMEM_CORE_RST_OVERRIDES_mem_idmem_core_fmc_rstn_override_ctrl \
+ 0x00000004
+
+#define GPRCM_IDMEM_CORE_RST_OVERRIDES_SPARE_RW0 \
+ 0x00000002
+
+#define GPRCM_IDMEM_CORE_RST_OVERRIDES_mem_idmem_core_piosc_gating_override_ctrl \
+ 0x00000001
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// GPRCM_O_TOP_DIE_FSM_OVERRIDES register.
+//
+//******************************************************************************
+#define GPRCM_TOP_DIE_FSM_OVERRIDES_reserved_M \
+ 0xFFFFF000
+
+#define GPRCM_TOP_DIE_FSM_OVERRIDES_reserved_S 12
+#define GPRCM_TOP_DIE_FSM_OVERRIDES_mem_d2d_pwr_switch_pgoodin_override_ctrl \
+ 0x00000800
+
+#define GPRCM_TOP_DIE_FSM_OVERRIDES_mem_d2d_pwr_switch_pgoodin_override \
+ 0x00000400
+
+#define GPRCM_TOP_DIE_FSM_OVERRIDES_mem_d2d_hclk_gating_override \
+ 0x00000200
+
+#define GPRCM_TOP_DIE_FSM_OVERRIDES_mem_d2d_piosc_gating_override \
+ 0x00000100
+
+#define GPRCM_TOP_DIE_FSM_OVERRIDES_mem_d2d_rstn_override \
+ 0x00000080
+
+#define GPRCM_TOP_DIE_FSM_OVERRIDES_mem_d2d_pwr_switch_ponin_override \
+ 0x00000040
+
+#define GPRCM_TOP_DIE_FSM_OVERRIDES_mem_flash_ready_override \
+ 0x00000020
+
+#define GPRCM_TOP_DIE_FSM_OVERRIDES_mem_d2d_hclk_gating_override_ctrl \
+ 0x00000010
+
+#define GPRCM_TOP_DIE_FSM_OVERRIDES_mem_d2d_piosc_gating_override_ctrl \
+ 0x00000008
+
+#define GPRCM_TOP_DIE_FSM_OVERRIDES_mem_d2d_rstn_override_ctrl \
+ 0x00000004
+
+#define GPRCM_TOP_DIE_FSM_OVERRIDES_mem_d2d_pwr_switch_ponin_override_ctrl \
+ 0x00000002
+
+#define GPRCM_TOP_DIE_FSM_OVERRIDES_mem_flash_ready_override_ctrl \
+ 0x00000001
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// GPRCM_O_MCU_PSCON_OVERRIDES register.
+//
+//******************************************************************************
+#define GPRCM_MCU_PSCON_OVERRIDES_reserved_M \
+ 0xFFF00000
+
+#define GPRCM_MCU_PSCON_OVERRIDES_reserved_S 20
+#define GPRCM_MCU_PSCON_OVERRIDES_mem_mcu_pscon_mem_sleep_override_ctrl \
+ 0x00080000
+
+#define GPRCM_MCU_PSCON_OVERRIDES_mem_mcu_pscon_mem_update_override_ctrl \
+ 0x00040000
+
+#define GPRCM_MCU_PSCON_OVERRIDES_mem_mcu_pscon_mem_off_override_ctrl \
+ 0x00020000
+
+#define GPRCM_MCU_PSCON_OVERRIDES_mem_mcu_pscon_mem_retain_override_ctrl \
+ 0x00010000
+
+#define GPRCM_MCU_PSCON_OVERRIDES_NU1_M \
+ 0x0000FC00
+
+#define GPRCM_MCU_PSCON_OVERRIDES_NU1_S 10
+#define GPRCM_MCU_PSCON_OVERRIDES_mem_mcu_pscon_sleep_override \
+ 0x00000200
+
+#define GPRCM_MCU_PSCON_OVERRIDES_mem_mcu_pscon_mem_update_override \
+ 0x00000100
+
+#define GPRCM_MCU_PSCON_OVERRIDES_mem_mcu_pscon_mem_off_override_M \
+ 0x000000F0
+
+#define GPRCM_MCU_PSCON_OVERRIDES_mem_mcu_pscon_mem_off_override_S 4
+#define GPRCM_MCU_PSCON_OVERRIDES_mem_mcu_pscon_mem_retain_override_M \
+ 0x0000000F
+
+#define GPRCM_MCU_PSCON_OVERRIDES_mem_mcu_pscon_mem_retain_override_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// GPRCM_O_WTOP_PSCON_OVERRIDES register.
+//
+//******************************************************************************
+#define GPRCM_WTOP_PSCON_OVERRIDES_reserved_M \
+ 0xFFC00000
+
+#define GPRCM_WTOP_PSCON_OVERRIDES_reserved_S 22
+#define GPRCM_WTOP_PSCON_OVERRIDES_mem_wtop_pscon_sleep_override_ctrl \
+ 0x00200000
+
+#define GPRCM_WTOP_PSCON_OVERRIDES_mem_wtop_pscon_mem_update_override_ctrl \
+ 0x00100000
+
+#define GPRCM_WTOP_PSCON_OVERRIDES_mem_wtop_pscon_mem_off_override_ctrl \
+ 0x00080000
+
+#define GPRCM_WTOP_PSCON_OVERRIDES_mem_wtop_pscon_mem_retain_override_ctrl \
+ 0x00040000
+
+#define GPRCM_WTOP_PSCON_OVERRIDES_mem_wtop_pscon_sleep_override \
+ 0x00020000
+
+#define GPRCM_WTOP_PSCON_OVERRIDES_mem_wtop_pscon_mem_update_override \
+ 0x00010000
+
+#define GPRCM_WTOP_PSCON_OVERRIDES_mem_wtop_pscon_mem_off_override_M \
+ 0x0000FF00
+
+#define GPRCM_WTOP_PSCON_OVERRIDES_mem_wtop_pscon_mem_off_override_S 8
+#define GPRCM_WTOP_PSCON_OVERRIDES_mem_wtop_pscon_mem_retain_override_M \
+ 0x000000FF
+
+#define GPRCM_WTOP_PSCON_OVERRIDES_mem_wtop_pscon_mem_retain_override_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// GPRCM_O_WELP_PSCON_OVERRIDES register.
+//
+//******************************************************************************
+#define GPRCM_WELP_PSCON_OVERRIDES_reserved_M \
+ 0xFFFFFFFC
+
+#define GPRCM_WELP_PSCON_OVERRIDES_reserved_S 2
+#define GPRCM_WELP_PSCON_OVERRIDES_mem_welp_pscon_sleep_override_ctrl \
+ 0x00000002
+
+#define GPRCM_WELP_PSCON_OVERRIDES_mem_welp_pscon_sleep_override \
+ 0x00000001
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// GPRCM_O_WL_SDIO_PSCON_OVERRIDES register.
+//
+//******************************************************************************
+#define GPRCM_WL_SDIO_PSCON_OVERRIDES_reserved_M \
+ 0xFFFFFFFC
+
+#define GPRCM_WL_SDIO_PSCON_OVERRIDES_reserved_S 2
+#define GPRCM_WL_SDIO_PSCON_OVERRIDES_mem_wl_sdio_pscon_sleep_override_ctrl \
+ 0x00000002
+
+#define GPRCM_WL_SDIO_PSCON_OVERRIDES_mem_wl_sdio_pscon_sleep_override \
+ 0x00000001
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// GPRCM_O_MCSPI_PSCON_OVERRIDES register.
+//
+//******************************************************************************
+#define GPRCM_MCSPI_PSCON_OVERRIDES_reserved_M \
+ 0xFFFFFF00
+
+#define GPRCM_MCSPI_PSCON_OVERRIDES_reserved_S 8
+#define GPRCM_MCSPI_PSCON_OVERRIDES_mem_mcspi_pscon_mem_retain_override_ctrl \
+ 0x00000080
+
+#define GPRCM_MCSPI_PSCON_OVERRIDES_mem_mcspi_pscon_mem_off_override_ctrl \
+ 0x00000040
+
+#define GPRCM_MCSPI_PSCON_OVERRIDES_mem_mcspi_pscon_mem_retain_override \
+ 0x00000020
+
+#define GPRCM_MCSPI_PSCON_OVERRIDES_mem_mcspi_pscon_mem_off_override \
+ 0x00000010
+
+#define GPRCM_MCSPI_PSCON_OVERRIDES_mem_mcspi_pscon_mem_update_override_ctrl \
+ 0x00000008
+
+#define GPRCM_MCSPI_PSCON_OVERRIDES_mem_mcspi_pscon_mem_update_override \
+ 0x00000004
+
+#define GPRCM_MCSPI_PSCON_OVERRIDES_mem_mcspi_pscon_sleep_override_ctrl \
+ 0x00000002
+
+#define GPRCM_MCSPI_PSCON_OVERRIDES_mem_mcspi_pscon_sleep_override \
+ 0x00000001
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// GPRCM_O_SSDIO_PSCON_OVERRIDES register.
+//
+//******************************************************************************
+#define GPRCM_SSDIO_PSCON_OVERRIDES_reserved_M \
+ 0xFFFFFFFC
+
+#define GPRCM_SSDIO_PSCON_OVERRIDES_reserved_S 2
+#define GPRCM_SSDIO_PSCON_OVERRIDES_mem_ssdio_pscon_sleep_override_ctrl \
+ 0x00000002
+
+#define GPRCM_SSDIO_PSCON_OVERRIDES_mem_ssdio_pscon_sleep_override \
+ 0x00000001
+
+
+
+
+#endif // __HW_GPRCM_H__
diff --git a/cc3200/hal/inc/hw_hib1p2.h b/cc3200/hal/inc/hw_hib1p2.h
new file mode 100644
index 000000000..95e25ff7c
--- /dev/null
+++ b/cc3200/hal/inc/hw_hib1p2.h
@@ -0,0 +1,1750 @@
+//*****************************************************************************
+//
+// Copyright (C) 2014 Texas Instruments Incorporated - http://www.ti.com/
+//
+//
+// Redistribution and use in source and binary forms, with or without
+// modification, are permitted provided that the following conditions
+// are met:
+//
+// Redistributions of source code must retain the above copyright
+// notice, this list of conditions and the following disclaimer.
+//
+// Redistributions in binary form must reproduce the above copyright
+// notice, this list of conditions and the following disclaimer in the
+// documentation and/or other materials provided with the
+// distribution.
+//
+// Neither the name of Texas Instruments Incorporated nor the names of
+// its contributors may be used to endorse or promote products derived
+// from this software without specific prior written permission.
+//
+// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
+// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
+// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
+// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
+// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
+// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
+// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
+// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
+// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
+// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
+// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+//
+//*****************************************************************************
+
+#ifndef __HW_HIB1P2_H__
+#define __HW_HIB1P2_H__
+
+//*****************************************************************************
+//
+// The following are defines for the HIB1P2 register offsets.
+//
+//*****************************************************************************
+#define HIB1P2_O_SRAM_SKA_LDO_PARAMETERS0 \
+ 0x00000000
+
+#define HIB1P2_O_SRAM_SKA_LDO_PARAMETERS1 \
+ 0x00000004
+
+#define HIB1P2_O_DIG_DCDC_PARAMETERS0 \
+ 0x00000008
+
+#define HIB1P2_O_DIG_DCDC_PARAMETERS1 \
+ 0x0000000C
+
+#define HIB1P2_O_DIG_DCDC_PARAMETERS2 \
+ 0x00000010
+
+#define HIB1P2_O_DIG_DCDC_PARAMETERS3 \
+ 0x00000014
+
+#define HIB1P2_O_DIG_DCDC_PARAMETERS4 \
+ 0x00000018
+
+#define HIB1P2_O_DIG_DCDC_PARAMETERS5 \
+ 0x0000001C
+
+#define HIB1P2_O_DIG_DCDC_PARAMETERS6 \
+ 0x00000020
+
+#define HIB1P2_O_ANA_DCDC_PARAMETERS0 \
+ 0x00000024
+
+#define HIB1P2_O_ANA_DCDC_PARAMETERS1 \
+ 0x00000028
+
+#define HIB1P2_O_ANA_DCDC_PARAMETERS16 \
+ 0x00000064
+
+#define HIB1P2_O_ANA_DCDC_PARAMETERS17 \
+ 0x00000068
+
+#define HIB1P2_O_ANA_DCDC_PARAMETERS18 \
+ 0x0000006C
+
+#define HIB1P2_O_ANA_DCDC_PARAMETERS19 \
+ 0x00000070
+
+#define HIB1P2_O_FLASH_DCDC_PARAMETERS0 \
+ 0x00000074
+
+#define HIB1P2_O_FLASH_DCDC_PARAMETERS1 \
+ 0x00000078
+
+#define HIB1P2_O_FLASH_DCDC_PARAMETERS2 \
+ 0x0000007C
+
+#define HIB1P2_O_FLASH_DCDC_PARAMETERS3 \
+ 0x00000080
+
+#define HIB1P2_O_FLASH_DCDC_PARAMETERS4 \
+ 0x00000084
+
+#define HIB1P2_O_FLASH_DCDC_PARAMETERS5 \
+ 0x00000088
+
+#define HIB1P2_O_FLASH_DCDC_PARAMETERS6 \
+ 0x0000008C
+
+#define HIB1P2_O_PMBIST_PARAMETERS0 \
+ 0x00000094
+
+#define HIB1P2_O_PMBIST_PARAMETERS1 \
+ 0x00000098
+
+#define HIB1P2_O_PMBIST_PARAMETERS2 \
+ 0x0000009C
+
+#define HIB1P2_O_PMBIST_PARAMETERS3 \
+ 0x000000A0
+
+#define HIB1P2_O_FLASH_DCDC_PARAMETERS8 \
+ 0x000000A4
+
+#define HIB1P2_O_ANA_DCDC_PARAMETERS_OVERRIDE \
+ 0x000000A8
+
+#define HIB1P2_O_FLASH_DCDC_PARAMETERS_OVERRIDE \
+ 0x000000AC
+
+#define HIB1P2_O_DIG_DCDC_VTRIM_CFG \
+ 0x000000B0
+
+#define HIB1P2_O_DIG_DCDC_FSM_PARAMETERS \
+ 0x000000B4
+
+#define HIB1P2_O_ANA_DCDC_FSM_PARAMETERS \
+ 0x000000B8
+
+#define HIB1P2_O_SRAM_SKA_LDO_FSM_PARAMETERS \
+ 0x000000BC
+
+#define HIB1P2_O_BGAP_DUTY_CYCLING_EXIT_CFG \
+ 0x000000C0
+
+#define HIB1P2_O_CM_OSC_16M_CONFIG \
+ 0x000000C4
+
+#define HIB1P2_O_SOP_SENSE_VALUE \
+ 0x000000C8
+
+#define HIB1P2_O_HIB_RTC_TIMER_LSW_1P2 \
+ 0x000000CC
+
+#define HIB1P2_O_HIB_RTC_TIMER_MSW_1P2 \
+ 0x000000D0
+
+#define HIB1P2_O_HIB1P2_BGAP_TRIM_OVERRIDES \
+ 0x000000D4
+
+#define HIB1P2_O_HIB1P2_EFUSE_READ_REG0 \
+ 0x000000D8
+
+#define HIB1P2_O_HIB1P2_EFUSE_READ_REG1 \
+ 0x000000DC
+
+#define HIB1P2_O_HIB1P2_POR_TEST_CTRL \
+ 0x000000E0
+
+#define HIB1P2_O_HIB_TIMER_SYNC_CALIB_CFG0 \
+ 0x000000E4
+
+#define HIB1P2_O_HIB_TIMER_SYNC_CALIB_CFG1 \
+ 0x000000E8
+
+#define HIB1P2_O_HIB_TIMER_SYNC_CFG2 \
+ 0x000000EC
+
+#define HIB1P2_O_HIB_TIMER_SYNC_TSF_ADJ_VAL \
+ 0x000000F0
+
+#define HIB1P2_O_HIB_TIMER_RTC_GTS_TIMESTAMP_LSW \
+ 0x000000F4
+
+#define HIB1P2_O_HIB_TIMER_RTC_GTS_TIMESTAMP_MSW \
+ 0x000000F8
+
+#define HIB1P2_O_HIB_TIMER_RTC_WUP_TIMESTAMP_LSW \
+ 0x000000FC
+
+#define HIB1P2_O_HIB_TIMER_RTC_WUP_TIMESTAMP_MSW \
+ 0x00000100
+
+#define HIB1P2_O_HIB_TIMER_SYNC_WAKE_OFFSET_ERR \
+ 0x00000104
+
+#define HIB1P2_O_HIB_TIMER_SYNC_TSF_CURR_VAL_LSW \
+ 0x00000108
+
+#define HIB1P2_O_HIB_TIMER_SYNC_TSF_CURR_VAL_MSW \
+ 0x0000010C
+
+#define HIB1P2_O_CM_SPARE 0x00000110
+#define HIB1P2_O_PORPOL_SPARE 0x00000114
+#define HIB1P2_O_MEM_DIG_DCDC_CLK_CONFIG \
+ 0x00000118
+
+#define HIB1P2_O_MEM_ANA_DCDC_CLK_CONFIG \
+ 0x0000011C
+
+#define HIB1P2_O_MEM_FLASH_DCDC_CLK_CONFIG \
+ 0x00000120
+
+#define HIB1P2_O_MEM_PA_DCDC_CLK_CONFIG \
+ 0x00000124
+
+#define HIB1P2_O_MEM_SLDO_VNWA_OVERRIDE \
+ 0x00000128
+
+#define HIB1P2_O_MEM_BGAP_DUTY_CYCLING_ENABLE_OVERRIDE \
+ 0x0000012C
+
+#define HIB1P2_O_MEM_HIB_FSM_DEBUG \
+ 0x00000130
+
+#define HIB1P2_O_MEM_SLDO_VNWA_SW_CTRL \
+ 0x00000134
+
+#define HIB1P2_O_MEM_SLDO_WEAK_PROCESS \
+ 0x00000138
+
+#define HIB1P2_O_MEM_PA_DCDC_OV_UV_STATUS \
+ 0x0000013C
+
+#define HIB1P2_O_MEM_CM_TEST_MODE \
+ 0x00000140
+
+
+
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// HIB1P2_O_SRAM_SKA_LDO_PARAMETERS0 register.
+//
+//******************************************************************************
+#define HIB1P2_SRAM_SKA_LDO_PARAMETERS0_mem_sldo_en_sc_itrim_lowv_M \
+ 0xC0000000
+
+#define HIB1P2_SRAM_SKA_LDO_PARAMETERS0_mem_sldo_en_sc_itrim_lowv_S 30
+#define HIB1P2_SRAM_SKA_LDO_PARAMETERS0_mem_sldo_en_iq_trim_lowv_M \
+ 0x30000000
+
+#define HIB1P2_SRAM_SKA_LDO_PARAMETERS0_mem_sldo_en_iq_trim_lowv_S 28
+#define HIB1P2_SRAM_SKA_LDO_PARAMETERS0_mem_sldo_en_sc_prot_lowv \
+ 0x08000000
+
+#define HIB1P2_SRAM_SKA_LDO_PARAMETERS0_mem_sldo_en_lowv_override \
+ 0x04000000 // FSM Override value for SLDO_EN :
+ // Applicable only when bit [4] of
+ // this register is set to 1.
+
+#define HIB1P2_SRAM_SKA_LDO_PARAMETERS0_mem_sldo_en_low_pwr_lowv \
+ 0x02000000
+
+#define HIB1P2_SRAM_SKA_LDO_PARAMETERS0_mem_sldo_int_cap_sel_lowv \
+ 0x01000000
+
+#define HIB1P2_SRAM_SKA_LDO_PARAMETERS0_mem_sldo_vtrim_lowv_M \
+ 0x00FC0000
+
+#define HIB1P2_SRAM_SKA_LDO_PARAMETERS0_mem_sldo_vtrim_lowv_S 18
+#define HIB1P2_SRAM_SKA_LDO_PARAMETERS0_mem_sldo_spare_lowv_M \
+ 0x0003FF00
+
+#define HIB1P2_SRAM_SKA_LDO_PARAMETERS0_mem_sldo_spare_lowv_S 8
+#define HIB1P2_SRAM_SKA_LDO_PARAMETERS0_mem_skaldo_en_lowv_override \
+ 0x00000080 // FSM Override value for
+ // SKA_LDO_EN : Applicable only when
+ // bit [3] of this register is set
+ // to 1.
+
+#define HIB1P2_SRAM_SKA_LDO_PARAMETERS0_mem_skaldo_en_cap_ref_lowv \
+ 0x00000040
+
+#define HIB1P2_SRAM_SKA_LDO_PARAMETERS0_mem_skaldo_en_resdiv_ref_lowv \
+ 0x00000020
+
+#define HIB1P2_SRAM_SKA_LDO_PARAMETERS0_mem_sldo_en_lowv_fsm_override_ctrl \
+ 0x00000010 // When 1, bit[26] of this register
+ // will be used as SLDO_EN
+
+#define HIB1P2_SRAM_SKA_LDO_PARAMETERS0_mem_skaldo_en_lowv_fsm_override_ctrl \
+ 0x00000008 // When 1, bit[26] of this register
+ // will be used as SKA_LDO_EN
+
+#define HIB1P2_SRAM_SKA_LDO_PARAMETERS0_NA1_M \
+ 0x00000007
+
+#define HIB1P2_SRAM_SKA_LDO_PARAMETERS0_NA1_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// HIB1P2_O_SRAM_SKA_LDO_PARAMETERS1 register.
+//
+//******************************************************************************
+#define HIB1P2_SRAM_SKA_LDO_PARAMETERS1_mem_skaldo_ctrl_lowv_M \
+ 0xFFC00000
+
+#define HIB1P2_SRAM_SKA_LDO_PARAMETERS1_mem_skaldo_ctrl_lowv_S 22
+#define HIB1P2_SRAM_SKA_LDO_PARAMETERS1_mem_skaldo_vtrim_lowv_M \
+ 0x003F0000
+
+#define HIB1P2_SRAM_SKA_LDO_PARAMETERS1_mem_skaldo_vtrim_lowv_S 16
+#define HIB1P2_SRAM_SKA_LDO_PARAMETERS1_mem_sldo_en_tload_lowv \
+ 0x00008000
+
+#define HIB1P2_SRAM_SKA_LDO_PARAMETERS1_mem_skaldo_en_tload_lowv \
+ 0x00004000
+
+#define HIB1P2_SRAM_SKA_LDO_PARAMETERS1_mem_skaldo_cap_sw_en_lowv \
+ 0x00002000
+
+#define HIB1P2_SRAM_SKA_LDO_PARAMETERS1_mem_skaldo_en_hib_lowv \
+ 0x00001000
+
+#define HIB1P2_SRAM_SKA_LDO_PARAMETERS1_mem_skaldo_en_vref_buf_lowv \
+ 0x00000800
+
+#define HIB1P2_SRAM_SKA_LDO_PARAMETERS1_NA2_M \
+ 0x000007FF
+
+#define HIB1P2_SRAM_SKA_LDO_PARAMETERS1_NA2_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// HIB1P2_O_DIG_DCDC_PARAMETERS0 register.
+//
+//******************************************************************************
+#define HIB1P2_DIG_DCDC_PARAMETERS0_mem_dcdc_dig_en_lowv_override \
+ 0x80000000 // Override value for DCDC_DIG_EN :
+ // Applicable only when bit [31] of
+ // DIG_DCDC_PARAMETERS1 [0x000C] is
+ // set to 1. Else from FSM
+
+#define HIB1P2_DIG_DCDC_PARAMETERS0_mem_dcdc_dig_delayed_en_lowv \
+ 0x40000000
+
+#define HIB1P2_DIG_DCDC_PARAMETERS0_mem_dcdc_dig_en_subreg_1p8v_lowv_override \
+ 0x20000000 // Override value for
+ // DCDC_DIG_EN_SUBREG_1P8V :
+ // Applicable only when bit [30] of
+ // DIG_DCDC_PARAMETERS1 [0x000C] is
+ // set to 1. Else from FSM
+
+#define HIB1P2_DIG_DCDC_PARAMETERS0_mem_dcdc_dig_en_subreg_1p2v_lowv_override \
+ 0x10000000 // Override value for
+ // DCDC_DIG_EN_SUBREG_1P2V :
+ // Applicable only when bit [29] of
+ // DIG_DCDC_PARAMETERS1 [0x000C] is
+ // set to 1. Else from FSM
+
+#define HIB1P2_DIG_DCDC_PARAMETERS0_mem_dcdc_dig_en_slp_mode_lowv_override \
+ 0x08000000 // Override value for
+ // DCDC_DIG_SLP_EN : Applicable only
+ // when bit [28] of
+ // DIG_DCDC_PARAMETERS1 [0x000C] is
+ // set to 1. Else from FSM
+
+#define HIB1P2_DIG_DCDC_PARAMETERS0_mem_dcdc_dig_en_ldo_mode_lowv \
+ 0x04000000
+
+#define HIB1P2_DIG_DCDC_PARAMETERS0_mem_dcdc_dig_en_nfet_rds_mode_lowv \
+ 0x02000000
+
+#define HIB1P2_DIG_DCDC_PARAMETERS0_mem_dcdc_dig_en_pfet_rds_mode_lowv \
+ 0x01000000
+
+#define HIB1P2_DIG_DCDC_PARAMETERS0_mem_dcdc_dig_ext_smps_override_mode_lowv \
+ 0x00800000
+
+#define HIB1P2_DIG_DCDC_PARAMETERS0_mem_dcdc_dig_clk_in_lowv_enable \
+ 0x00400000
+
+#define HIB1P2_DIG_DCDC_PARAMETERS0_mem_dcdc_dig_vtrim_lowv_override_M \
+ 0x003F0000 // Override value for
+ // DCDC_DIG_VTRIM : Applicable only
+ // when bit [27] of
+ // DIG_DCDC_PARAMETERS1 [0x000C] is
+ // set to 1.
+
+#define HIB1P2_DIG_DCDC_PARAMETERS0_mem_dcdc_dig_vtrim_lowv_override_S 16
+#define HIB1P2_DIG_DCDC_PARAMETERS0_mem_dcdc_dig_pfm_ripple_trim_lowv_M \
+ 0x0000C000
+
+#define HIB1P2_DIG_DCDC_PARAMETERS0_mem_dcdc_dig_pfm_ripple_trim_lowv_S 14
+#define HIB1P2_DIG_DCDC_PARAMETERS0_mem_dcdc_dig_iq_ctrl_lowv_M \
+ 0x00003000
+
+#define HIB1P2_DIG_DCDC_PARAMETERS0_mem_dcdc_dig_iq_ctrl_lowv_S 12
+#define HIB1P2_DIG_DCDC_PARAMETERS0_mem_dcdc_dig_en_cl_non_ov_lowv \
+ 0x00000800
+
+#define HIB1P2_DIG_DCDC_PARAMETERS0_mem_dcdc_dig_non_ov_ctrl_lowv_M \
+ 0x00000780
+
+#define HIB1P2_DIG_DCDC_PARAMETERS0_mem_dcdc_dig_non_ov_ctrl_lowv_S 7
+#define HIB1P2_DIG_DCDC_PARAMETERS0_mem_dcdc_dig_slp_drv_dly_sel_lowv_M \
+ 0x00000078
+
+#define HIB1P2_DIG_DCDC_PARAMETERS0_mem_dcdc_dig_slp_drv_dly_sel_lowv_S 3
+#define HIB1P2_DIG_DCDC_PARAMETERS0_NA3_M \
+ 0x00000007
+
+#define HIB1P2_DIG_DCDC_PARAMETERS0_NA3_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// HIB1P2_O_DIG_DCDC_PARAMETERS1 register.
+//
+//******************************************************************************
+#define HIB1P2_DIG_DCDC_PARAMETERS1_mem_dcdc_dig_en_lowv_fsm_override_ctrl \
+ 0x80000000
+
+#define HIB1P2_DIG_DCDC_PARAMETERS1_mem_dcdc_dig_en_subreg_1p8v_fsm_override_ctrl \
+ 0x40000000
+
+#define HIB1P2_DIG_DCDC_PARAMETERS1_mem_dcdc_dig_en_subreg_1p2v_fsm_override_ctrl \
+ 0x20000000
+
+#define HIB1P2_DIG_DCDC_PARAMETERS1_mem_dcdc_dig_en_slp_mode_lowv_fsm_override_ctrl \
+ 0x10000000
+
+#define HIB1P2_DIG_DCDC_PARAMETERS1_mem_dcdc_dig_vtrim_fsm_override_ctrl \
+ 0x08000000
+
+#define HIB1P2_DIG_DCDC_PARAMETERS1_mem_dcdc_dig_cot_mode_en_lowv_fsm_override_ctrl \
+ 0x04000000
+
+#define HIB1P2_DIG_DCDC_PARAMETERS1_mem_dcdc_dig_ilim_trim_lowv_efc_override_ctrl \
+ 0x02000000
+
+#define HIB1P2_DIG_DCDC_PARAMETERS1_NA4_M \
+ 0x01FFFFFF
+
+#define HIB1P2_DIG_DCDC_PARAMETERS1_NA4_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// HIB1P2_O_DIG_DCDC_PARAMETERS2 register.
+//
+//******************************************************************************
+#define HIB1P2_DIG_DCDC_PARAMETERS2_mem_dcdc_dig_pfet_sel_lowv_M \
+ 0xF0000000
+
+#define HIB1P2_DIG_DCDC_PARAMETERS2_mem_dcdc_dig_pfet_sel_lowv_S 28
+#define HIB1P2_DIG_DCDC_PARAMETERS2_mem_dcdc_dig_nfet_sel_lowv_M \
+ 0x0F000000
+
+#define HIB1P2_DIG_DCDC_PARAMETERS2_mem_dcdc_dig_nfet_sel_lowv_S 24
+#define HIB1P2_DIG_DCDC_PARAMETERS2_mem_dcdc_dig_pdrv_stagger_ctrl_lowv_M \
+ 0x00C00000
+
+#define HIB1P2_DIG_DCDC_PARAMETERS2_mem_dcdc_dig_pdrv_stagger_ctrl_lowv_S 22
+#define HIB1P2_DIG_DCDC_PARAMETERS2_mem_dcdc_dig_ndrv_stagger_ctrl_lowv_M \
+ 0x00300000
+
+#define HIB1P2_DIG_DCDC_PARAMETERS2_mem_dcdc_dig_ndrv_stagger_ctrl_lowv_S 20
+#define HIB1P2_DIG_DCDC_PARAMETERS2_mem_dcdc_dig_pdrv_str_sel_lowv_M \
+ 0x000F0000
+
+#define HIB1P2_DIG_DCDC_PARAMETERS2_mem_dcdc_dig_pdrv_str_sel_lowv_S 16
+#define HIB1P2_DIG_DCDC_PARAMETERS2_NA5 \
+ 0x00008000
+
+#define HIB1P2_DIG_DCDC_PARAMETERS2_mem_dcdc_dig_ndrv_str_sel_lowv_M \
+ 0x00007800
+
+#define HIB1P2_DIG_DCDC_PARAMETERS2_mem_dcdc_dig_ndrv_str_sel_lowv_S 11
+#define HIB1P2_DIG_DCDC_PARAMETERS2_mem_dcdc_dig_en_shootthru_ctrl_lowv \
+ 0x00000400
+
+#define HIB1P2_DIG_DCDC_PARAMETERS2_mem_dcdc_dig_ton_trim_lowv_M \
+ 0x000003FC
+
+#define HIB1P2_DIG_DCDC_PARAMETERS2_mem_dcdc_dig_ton_trim_lowv_S 2
+#define HIB1P2_DIG_DCDC_PARAMETERS2_mem_dcdc_dig_swcap_res_hf_clk_lowv \
+ 0x00000002
+
+#define HIB1P2_DIG_DCDC_PARAMETERS2_mem_dcdc_dig_cot_mode_en_lowv_override \
+ 0x00000001 // Override value for
+ // DCDC_DIG_COT_EN : Applicable only
+ // when bit[26] of
+ // DIG_DCDC_PARAMETERS1 [0x000C] is
+ // set to 1.
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// HIB1P2_O_DIG_DCDC_PARAMETERS3 register.
+//
+//******************************************************************************
+#define HIB1P2_DIG_DCDC_PARAMETERS3_NA6 \
+ 0x80000000
+
+#define HIB1P2_DIG_DCDC_PARAMETERS3_mem_dcdc_dig_cot_ctrl_lowv_M \
+ 0x7F800000
+
+#define HIB1P2_DIG_DCDC_PARAMETERS3_mem_dcdc_dig_cot_ctrl_lowv_S 23
+#define HIB1P2_DIG_DCDC_PARAMETERS3_mem_dcdc_dig_en_ilim_lowv \
+ 0x00400000
+
+#define HIB1P2_DIG_DCDC_PARAMETERS3_mem_dcdc_dig_en_ilim_hib_lowv \
+ 0x00200000
+
+#define HIB1P2_DIG_DCDC_PARAMETERS3_mem_dcdc_dig_ilim_trim_lowv_override_M \
+ 0x001FE000 // Override value for
+ // DCDC_DIG_ILIM_TRIM : Applicable
+ // only when bit [25] of
+ // DIG_DCDC_PARAMETERS1 [0x000C] is
+ // set to 1
+
+#define HIB1P2_DIG_DCDC_PARAMETERS3_mem_dcdc_dig_ilim_trim_lowv_override_S 13
+#define HIB1P2_DIG_DCDC_PARAMETERS3_mem_dcdc_dig_ilim_mask_dly_sel_lowv_M \
+ 0x00001800
+
+#define HIB1P2_DIG_DCDC_PARAMETERS3_mem_dcdc_dig_ilim_mask_dly_sel_lowv_S 11
+#define HIB1P2_DIG_DCDC_PARAMETERS3_mem_dcdc_dig_en_ncomp_lowv \
+ 0x00000400
+
+#define HIB1P2_DIG_DCDC_PARAMETERS3_mem_dcdc_dig_en_ncomp_hib_lowv \
+ 0x00000200
+
+#define HIB1P2_DIG_DCDC_PARAMETERS3_mem_dcdc_dig_ncomp_trim_lowv_M \
+ 0x000001F0
+
+#define HIB1P2_DIG_DCDC_PARAMETERS3_mem_dcdc_dig_ncomp_trim_lowv_S 4
+#define HIB1P2_DIG_DCDC_PARAMETERS3_mem_dcdc_dig_ncomp_mask_dly_sel_lowv_M \
+ 0x0000000C
+
+#define HIB1P2_DIG_DCDC_PARAMETERS3_mem_dcdc_dig_ncomp_mask_dly_sel_lowv_S 2
+#define HIB1P2_DIG_DCDC_PARAMETERS3_mem_dcdc_dig_en_uv_prot_lowv \
+ 0x00000002
+
+#define HIB1P2_DIG_DCDC_PARAMETERS3_mem_dcdc_dig_en_ov_prot_lowv \
+ 0x00000001
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// HIB1P2_O_DIG_DCDC_PARAMETERS4 register.
+//
+//******************************************************************************
+#define HIB1P2_DIG_DCDC_PARAMETERS4_dcdc_dig_uv_prot_out_lowv \
+ 0x80000000
+
+#define HIB1P2_DIG_DCDC_PARAMETERS4_dcdc_dig_ov_prot_out_lowv \
+ 0x40000000
+
+#define HIB1P2_DIG_DCDC_PARAMETERS4_mem_dcdc_dig_en_tmux_lowv \
+ 0x20000000
+
+#define HIB1P2_DIG_DCDC_PARAMETERS4_NA7_M \
+ 0x1FFFFFFF
+
+#define HIB1P2_DIG_DCDC_PARAMETERS4_NA7_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// HIB1P2_O_DIG_DCDC_PARAMETERS5 register.
+//
+//******************************************************************************
+#define HIB1P2_DIG_DCDC_PARAMETERS5_mem_dcdc_dig_tmux_ctrl_lowv_M \
+ 0xFFFFFFFF
+
+#define HIB1P2_DIG_DCDC_PARAMETERS5_mem_dcdc_dig_tmux_ctrl_lowv_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// HIB1P2_O_DIG_DCDC_PARAMETERS6 register.
+//
+//******************************************************************************
+#define HIB1P2_DIG_DCDC_PARAMETERS6_mem_dcdc_dig_spare_lowv_M \
+ 0xFFFFFFFF
+
+#define HIB1P2_DIG_DCDC_PARAMETERS6_mem_dcdc_dig_spare_lowv_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// HIB1P2_O_ANA_DCDC_PARAMETERS0 register.
+//
+//******************************************************************************
+#define HIB1P2_ANA_DCDC_PARAMETERS0_mem_dcdc_ana_en_lowv_override \
+ 0x80000000 // Override for ANA DCDC EN
+
+#define HIB1P2_ANA_DCDC_PARAMETERS0_mem_dcdc_ana_delayed_en_lowv \
+ 0x40000000
+
+#define HIB1P2_ANA_DCDC_PARAMETERS0_mem_dcdc_ana_en_subreg_1p8v_lowv \
+ 0x20000000
+
+#define HIB1P2_ANA_DCDC_PARAMETERS0_mem_dcdc_ana_en_subreg_1p2v_lowv \
+ 0x10000000
+
+#define HIB1P2_ANA_DCDC_PARAMETERS0_mem_dcdc_ana_en_pwm_mode_lowv_override \
+ 0x08000000 // Override for ANA DCDC PWM
+
+#define HIB1P2_ANA_DCDC_PARAMETERS0_mem_dcdc_ana_en_slp_mode_lowv_override \
+ 0x04000000 // Override for ANA DCDC SLP
+
+#define HIB1P2_ANA_DCDC_PARAMETERS0_mem_dcdc_ana_en_ldo_mode_lowv \
+ 0x02000000
+
+#define HIB1P2_ANA_DCDC_PARAMETERS0_mem_dcdc_ana_en_pfet_rds_mode_lowv \
+ 0x01000000
+
+#define HIB1P2_ANA_DCDC_PARAMETERS0_mem_dcdc_ana_en_nfet_rds_mode_lowv \
+ 0x00800000
+
+#define HIB1P2_ANA_DCDC_PARAMETERS0_mem_dcdc_ana_ext_smps_override_mode_lowv \
+ 0x00400000
+
+#define HIB1P2_ANA_DCDC_PARAMETERS0_mem_dcdc_ana_clk_in_lowv_enable \
+ 0x00200000
+
+#define HIB1P2_ANA_DCDC_PARAMETERS0_mem_dcdc_ana_vtrim_lowv_M \
+ 0x001E0000
+
+#define HIB1P2_ANA_DCDC_PARAMETERS0_mem_dcdc_ana_vtrim_lowv_S 17
+#define HIB1P2_ANA_DCDC_PARAMETERS0_mem_dcdc_ana_pfm_ripple_trim_lowv_M \
+ 0x00018000
+
+#define HIB1P2_ANA_DCDC_PARAMETERS0_mem_dcdc_ana_pfm_ripple_trim_lowv_S 15
+#define HIB1P2_ANA_DCDC_PARAMETERS0_mem_dcdc_ana_iq_ctrl_lowv_M \
+ 0x00006000
+
+#define HIB1P2_ANA_DCDC_PARAMETERS0_mem_dcdc_ana_iq_ctrl_lowv_S 13
+#define HIB1P2_ANA_DCDC_PARAMETERS0_mem_dcdc_ana_en_cl_non_ov_lowv \
+ 0x00001000
+
+#define HIB1P2_ANA_DCDC_PARAMETERS0_mem_dcdc_ana_non_ov_ctrl_lowv_M \
+ 0x00000F00
+
+#define HIB1P2_ANA_DCDC_PARAMETERS0_mem_dcdc_ana_non_ov_ctrl_lowv_S 8
+#define HIB1P2_ANA_DCDC_PARAMETERS0_mem_dcdc_ana_slp_drv_dly_sel_lowv_M \
+ 0x000000F0
+
+#define HIB1P2_ANA_DCDC_PARAMETERS0_mem_dcdc_ana_slp_drv_dly_sel_lowv_S 4
+#define HIB1P2_ANA_DCDC_PARAMETERS0_mem_dcdc_ana_pfet_sel_lowv_M \
+ 0x0000000F
+
+#define HIB1P2_ANA_DCDC_PARAMETERS0_mem_dcdc_ana_pfet_sel_lowv_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// HIB1P2_O_ANA_DCDC_PARAMETERS1 register.
+//
+//******************************************************************************
+#define HIB1P2_ANA_DCDC_PARAMETERS1_mem_dcdc_ana_nfet_sel_lowv_M \
+ 0xF0000000
+
+#define HIB1P2_ANA_DCDC_PARAMETERS1_mem_dcdc_ana_nfet_sel_lowv_S 28
+#define HIB1P2_ANA_DCDC_PARAMETERS1_mem_dcdc_ana_pdrv_stagger_ctrl_lowv_M \
+ 0x0C000000
+
+#define HIB1P2_ANA_DCDC_PARAMETERS1_mem_dcdc_ana_pdrv_stagger_ctrl_lowv_S 26
+#define HIB1P2_ANA_DCDC_PARAMETERS1_mem_dcdc_ana_ndrv_stagger_ctrl_lowv_M \
+ 0x03000000
+
+#define HIB1P2_ANA_DCDC_PARAMETERS1_mem_dcdc_ana_ndrv_stagger_ctrl_lowv_S 24
+#define HIB1P2_ANA_DCDC_PARAMETERS1_mem_dcdc_ana_pdrv_str_sel_lowv_M \
+ 0x00F00000
+
+#define HIB1P2_ANA_DCDC_PARAMETERS1_mem_dcdc_ana_pdrv_str_sel_lowv_S 20
+#define HIB1P2_ANA_DCDC_PARAMETERS1_mem_dcdc_ana_ndrv_str_sel_lowv_M \
+ 0x000F0000
+
+#define HIB1P2_ANA_DCDC_PARAMETERS1_mem_dcdc_ana_ndrv_str_sel_lowv_S 16
+#define HIB1P2_ANA_DCDC_PARAMETERS1_mem_dcdc_ana_en_rtrim_lowv \
+ 0x00008000 // (Earlier SHOOTTHRU CTRL)
+
+#define HIB1P2_ANA_DCDC_PARAMETERS1_mem_dcdc_ana_apwm_en_lowv \
+ 0x00004000
+
+#define HIB1P2_ANA_DCDC_PARAMETERS1_mem_dcdc_ana_ramp_hgt_lowv_M \
+ 0x00003E00
+
+#define HIB1P2_ANA_DCDC_PARAMETERS1_mem_dcdc_ana_ramp_hgt_lowv_S 9
+#define HIB1P2_ANA_DCDC_PARAMETERS1_mem_dcdc_ana_en_anti_glitch_lowv \
+ 0x00000100
+
+#define HIB1P2_ANA_DCDC_PARAMETERS1_mem_dcdc_ana_en_hi_clamp_lowv \
+ 0x00000080
+
+#define HIB1P2_ANA_DCDC_PARAMETERS1_mem_dcdc_ana_hi_clamp_trim_lowv_M \
+ 0x00000060
+
+#define HIB1P2_ANA_DCDC_PARAMETERS1_mem_dcdc_ana_hi_clamp_trim_lowv_S 5
+#define HIB1P2_ANA_DCDC_PARAMETERS1_mem_dcdc_ana_en_lo_clamp_lowv \
+ 0x00000010
+
+#define HIB1P2_ANA_DCDC_PARAMETERS1_mem_dcdc_ana_lo_clamp_trim_lowv_M \
+ 0x0000000C
+
+#define HIB1P2_ANA_DCDC_PARAMETERS1_mem_dcdc_ana_lo_clamp_trim_lowv_S 2
+#define HIB1P2_ANA_DCDC_PARAMETERS1_NA8_M \
+ 0x00000003
+
+#define HIB1P2_ANA_DCDC_PARAMETERS1_NA8_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// HIB1P2_O_ANA_DCDC_PARAMETERS16 register.
+//
+//******************************************************************************
+#define HIB1P2_ANA_DCDC_PARAMETERS16_mem_dcdc_ana_en_ilim_lowv \
+ 0x00200000
+
+#define HIB1P2_ANA_DCDC_PARAMETERS16_mem_dcdc_ana_en_ilim_hib_lowv \
+ 0x00100000
+
+#define HIB1P2_ANA_DCDC_PARAMETERS16_mem_dcdc_ana_ilim_trim_lowv_override_M \
+ 0x000FF000
+
+#define HIB1P2_ANA_DCDC_PARAMETERS16_mem_dcdc_ana_ilim_trim_lowv_override_S 12
+#define HIB1P2_ANA_DCDC_PARAMETERS16_mem_dcdc_ana_ilim_mask_dly_sel_lowv_M \
+ 0x00000C00
+
+#define HIB1P2_ANA_DCDC_PARAMETERS16_mem_dcdc_ana_ilim_mask_dly_sel_lowv_S 10
+#define HIB1P2_ANA_DCDC_PARAMETERS16_mem_dcdc_ana_en_ncomp_lowv \
+ 0x00000200
+
+#define HIB1P2_ANA_DCDC_PARAMETERS16_mem_dcdc_ana_en_ncomp_hib_lowv \
+ 0x00000100
+
+#define HIB1P2_ANA_DCDC_PARAMETERS16_mem_dcdc_ana_ncomp_trim_lowv_M \
+ 0x000000F8
+
+#define HIB1P2_ANA_DCDC_PARAMETERS16_mem_dcdc_ana_ncomp_trim_lowv_S 3
+#define HIB1P2_ANA_DCDC_PARAMETERS16_mem_dcdc_ana_ncomp_mask_dly_sel_lowv_M \
+ 0x00000006
+
+#define HIB1P2_ANA_DCDC_PARAMETERS16_mem_dcdc_ana_ncomp_mask_dly_sel_lowv_S 1
+#define HIB1P2_ANA_DCDC_PARAMETERS16_mem_dcdc_ana_en_ov_prot_lowv \
+ 0x00000001
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// HIB1P2_O_ANA_DCDC_PARAMETERS17 register.
+//
+//******************************************************************************
+#define HIB1P2_ANA_DCDC_PARAMETERS17_dcdc_ana_ov_prot_out_lowv \
+ 0x80000000
+
+#define HIB1P2_ANA_DCDC_PARAMETERS17_mem_dcdc_ana_en_tmux_lowv \
+ 0x40000000
+
+#define HIB1P2_ANA_DCDC_PARAMETERS17_NA17_M \
+ 0x3FFFFFFF
+
+#define HIB1P2_ANA_DCDC_PARAMETERS17_NA17_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// HIB1P2_O_ANA_DCDC_PARAMETERS18 register.
+//
+//******************************************************************************
+#define HIB1P2_ANA_DCDC_PARAMETERS18_mem_dcdc_ana_tmux_ctrl_lowv_M \
+ 0xFFFFFFFF
+
+#define HIB1P2_ANA_DCDC_PARAMETERS18_mem_dcdc_ana_tmux_ctrl_lowv_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// HIB1P2_O_ANA_DCDC_PARAMETERS19 register.
+//
+//******************************************************************************
+#define HIB1P2_ANA_DCDC_PARAMETERS19_mem_dcdc_ana_spare_lowv_M \
+ 0xFFFFFFFF
+
+#define HIB1P2_ANA_DCDC_PARAMETERS19_mem_dcdc_ana_spare_lowv_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// HIB1P2_O_FLASH_DCDC_PARAMETERS0 register.
+//
+//******************************************************************************
+#define HIB1P2_FLASH_DCDC_PARAMETERS0_mem_dcdc_flash_en_lowv \
+ 0x80000000
+
+#define HIB1P2_FLASH_DCDC_PARAMETERS0_mem_dcdc_flash_delayed_en_lowv \
+ 0x40000000
+
+#define HIB1P2_FLASH_DCDC_PARAMETERS0_mem_dcdc_flash_clk_in_lowv_enable \
+ 0x20000000
+
+#define HIB1P2_FLASH_DCDC_PARAMETERS0_mem_dcdc_flash_iq_ctrl_lowv_M \
+ 0x18000000
+
+#define HIB1P2_FLASH_DCDC_PARAMETERS0_mem_dcdc_flash_iq_ctrl_lowv_S 27
+#define HIB1P2_FLASH_DCDC_PARAMETERS0_mem_dcdc_flash_en_buck_mode_lowv \
+ 0x04000000
+
+#define HIB1P2_FLASH_DCDC_PARAMETERS0_mem_dcdc_flash_en_boost_mode_lowv \
+ 0x02000000
+
+#define HIB1P2_FLASH_DCDC_PARAMETERS0_mem_dcdc_flash_en_buck_boost_mode_lowv \
+ 0x01000000
+
+#define HIB1P2_FLASH_DCDC_PARAMETERS0_mem_dcdc_flash_en_bb_alt_cycles_lowv \
+ 0x00800000
+
+#define HIB1P2_FLASH_DCDC_PARAMETERS0_mem_dcdc_flash_en_cl_non_ov_lowv \
+ 0x00400000
+
+#define HIB1P2_FLASH_DCDC_PARAMETERS0_mem_dcdc_flash_non_ov_ctrl_lowv_M \
+ 0x003C0000
+
+#define HIB1P2_FLASH_DCDC_PARAMETERS0_mem_dcdc_flash_non_ov_ctrl_lowv_S 18
+#define HIB1P2_FLASH_DCDC_PARAMETERS0_mem_dcdc_flash_en_drv_lowv \
+ 0x00020000
+
+#define HIB1P2_FLASH_DCDC_PARAMETERS0_mem_dcdc_flash_en_pwm_mode_lowv \
+ 0x00010000
+
+#define HIB1P2_FLASH_DCDC_PARAMETERS0_mem_dcdc_flash_en_pfm_comp_lowv \
+ 0x00008000
+
+#define HIB1P2_FLASH_DCDC_PARAMETERS0_mem_dcdc_flash_en_slp_mode_lowv \
+ 0x00004000
+
+#define HIB1P2_FLASH_DCDC_PARAMETERS0_mem_dcdc_flash_en_n1fet_rds_mode_lowv \
+ 0x00002000
+
+#define HIB1P2_FLASH_DCDC_PARAMETERS0_mem_dcdc_flash_en_n2fet_rds_mode_lowv \
+ 0x00001000
+
+#define HIB1P2_FLASH_DCDC_PARAMETERS0_mem_dcdc_flash_en_p1fet_rds_mode_lowv \
+ 0x00000800
+
+#define HIB1P2_FLASH_DCDC_PARAMETERS0_mem_dcdc_flash_en_p2fet_rds_mode_lowv \
+ 0x00000400
+
+#define HIB1P2_FLASH_DCDC_PARAMETERS0_mem_dcdc_flash_ext_smps_mode_override_lowv \
+ 0x00000200
+
+#define HIB1P2_FLASH_DCDC_PARAMETERS0_mem_dcdc_flash_p1fet_sel_lowv_M \
+ 0x000001E0
+
+#define HIB1P2_FLASH_DCDC_PARAMETERS0_mem_dcdc_flash_p1fet_sel_lowv_S 5
+#define HIB1P2_FLASH_DCDC_PARAMETERS0_mem_dcdc_flash_n1fet_sel_lowv_M \
+ 0x0000001E
+
+#define HIB1P2_FLASH_DCDC_PARAMETERS0_mem_dcdc_flash_n1fet_sel_lowv_S 1
+#define HIB1P2_FLASH_DCDC_PARAMETERS0_NA18 \
+ 0x00000001
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// HIB1P2_O_FLASH_DCDC_PARAMETERS1 register.
+//
+//******************************************************************************
+#define HIB1P2_FLASH_DCDC_PARAMETERS1_mem_dcdc_flash_p2fet_sel_lowv_M \
+ 0xF0000000
+
+#define HIB1P2_FLASH_DCDC_PARAMETERS1_mem_dcdc_flash_p2fet_sel_lowv_S 28
+#define HIB1P2_FLASH_DCDC_PARAMETERS1_mem_dcdc_flash_n2fet_sel_lowv_M \
+ 0x0F000000
+
+#define HIB1P2_FLASH_DCDC_PARAMETERS1_mem_dcdc_flash_n2fet_sel_lowv_S 24
+#define HIB1P2_FLASH_DCDC_PARAMETERS1_mem_dcdc_flash_p1drv_str_sel_lowv_M \
+ 0x00F00000
+
+#define HIB1P2_FLASH_DCDC_PARAMETERS1_mem_dcdc_flash_p1drv_str_sel_lowv_S 20
+#define HIB1P2_FLASH_DCDC_PARAMETERS1_mem_dcdc_flash_n1drv_str_sel_lowv_M \
+ 0x000F0000
+
+#define HIB1P2_FLASH_DCDC_PARAMETERS1_mem_dcdc_flash_n1drv_str_sel_lowv_S 16
+#define HIB1P2_FLASH_DCDC_PARAMETERS1_mem_dcdc_flash_p2drv_str_sel_lowv_M \
+ 0x0000F000
+
+#define HIB1P2_FLASH_DCDC_PARAMETERS1_mem_dcdc_flash_p2drv_str_sel_lowv_S 12
+#define HIB1P2_FLASH_DCDC_PARAMETERS1_mem_dcdc_flash_n2drv_str_sel_lowv_M \
+ 0x00000F00
+
+#define HIB1P2_FLASH_DCDC_PARAMETERS1_mem_dcdc_flash_n2drv_str_sel_lowv_S 8
+#define HIB1P2_FLASH_DCDC_PARAMETERS1_mem_dcdc_flash_p1fet_non_ov_lowv_M \
+ 0x000000C0
+
+#define HIB1P2_FLASH_DCDC_PARAMETERS1_mem_dcdc_flash_p1fet_non_ov_lowv_S 6
+#define HIB1P2_FLASH_DCDC_PARAMETERS1_mem_dcdc_flash_n1fet_non_ov_lowv_M \
+ 0x00000030
+
+#define HIB1P2_FLASH_DCDC_PARAMETERS1_mem_dcdc_flash_n1fet_non_ov_lowv_S 4
+#define HIB1P2_FLASH_DCDC_PARAMETERS1_mem_dcdc_flash_p2fet_non_ov_lowv_M \
+ 0x0000000C
+
+#define HIB1P2_FLASH_DCDC_PARAMETERS1_mem_dcdc_flash_p2fet_non_ov_lowv_S 2
+#define HIB1P2_FLASH_DCDC_PARAMETERS1_mem_dcdc_flash_n2fet_non_ov_lowv_M \
+ 0x00000003
+
+#define HIB1P2_FLASH_DCDC_PARAMETERS1_mem_dcdc_flash_n2fet_non_ov_lowv_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// HIB1P2_O_FLASH_DCDC_PARAMETERS2 register.
+//
+//******************************************************************************
+#define HIB1P2_FLASH_DCDC_PARAMETERS2_mem_dcdc_flash_p1fet_stagger_lowv_M \
+ 0xC0000000
+
+#define HIB1P2_FLASH_DCDC_PARAMETERS2_mem_dcdc_flash_p1fet_stagger_lowv_S 30
+#define HIB1P2_FLASH_DCDC_PARAMETERS2_mem_dcdc_flash_n1fet_stagger_lowv_M \
+ 0x30000000
+
+#define HIB1P2_FLASH_DCDC_PARAMETERS2_mem_dcdc_flash_n1fet_stagger_lowv_S 28
+#define HIB1P2_FLASH_DCDC_PARAMETERS2_mem_dcdc_flash_p2fet_stagger_lowv_M \
+ 0x0C000000
+
+#define HIB1P2_FLASH_DCDC_PARAMETERS2_mem_dcdc_flash_p2fet_stagger_lowv_S 26
+#define HIB1P2_FLASH_DCDC_PARAMETERS2_mem_dcdc_flash_n2fet_stagger_lowv_M \
+ 0x03000000
+
+#define HIB1P2_FLASH_DCDC_PARAMETERS2_mem_dcdc_flash_n2fet_stagger_lowv_S 24
+#define HIB1P2_FLASH_DCDC_PARAMETERS2_mem_dcdc_flash_shoot_thru_ctrl_lowv \
+ 0x00800000
+
+#define HIB1P2_FLASH_DCDC_PARAMETERS2_mem_dcdc_flash_en_ncomp_lowv \
+ 0x00400000
+
+#define HIB1P2_FLASH_DCDC_PARAMETERS2_mem_dcdc_flash_en_ncomp_hib_lowv \
+ 0x00200000
+
+#define HIB1P2_FLASH_DCDC_PARAMETERS2_mem_dcdc_flash_ncomp_trim_lowv_M \
+ 0x001F0000
+
+#define HIB1P2_FLASH_DCDC_PARAMETERS2_mem_dcdc_flash_ncomp_trim_lowv_S 16
+#define HIB1P2_FLASH_DCDC_PARAMETERS2_mem_dcdc_flash_ncomp_mask_dly_trim_lowv_M \
+ 0x0000F000
+
+#define HIB1P2_FLASH_DCDC_PARAMETERS2_mem_dcdc_flash_ncomp_mask_dly_trim_lowv_S 12
+#define HIB1P2_FLASH_DCDC_PARAMETERS2_mem_dcdc_flash_en_ilim_lowv \
+ 0x00000800
+
+#define HIB1P2_FLASH_DCDC_PARAMETERS2_mem_dcdc_flash_en_ilim_hib_lowv \
+ 0x00000400
+
+#define HIB1P2_FLASH_DCDC_PARAMETERS2_mem_dcdc_flash_ilim_trim_lowv_override_M \
+ 0x000003FC
+
+#define HIB1P2_FLASH_DCDC_PARAMETERS2_mem_dcdc_flash_ilim_trim_lowv_override_S 2
+#define HIB1P2_FLASH_DCDC_PARAMETERS2_mem_dcdc_flash_ilim_mask_dly_sel_lowv_M \
+ 0x00000003
+
+#define HIB1P2_FLASH_DCDC_PARAMETERS2_mem_dcdc_flash_ilim_mask_dly_sel_lowv_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// HIB1P2_O_FLASH_DCDC_PARAMETERS3 register.
+//
+//******************************************************************************
+#define HIB1P2_FLASH_DCDC_PARAMETERS3_mem_dcdc_flash_en_anti_glitch_lowv \
+ 0x80000000
+
+#define HIB1P2_FLASH_DCDC_PARAMETERS3_mem_dcdc_flash_en_hi_clamp_lowv \
+ 0x40000000
+
+#define HIB1P2_FLASH_DCDC_PARAMETERS3_mem_dcdc_flash_en_lo_clamp_lowv \
+ 0x20000000
+
+#define HIB1P2_FLASH_DCDC_PARAMETERS3_mem_dcdc_flash_ramp_hgt_lowv_M \
+ 0x1F000000
+
+#define HIB1P2_FLASH_DCDC_PARAMETERS3_mem_dcdc_flash_ramp_hgt_lowv_S 24
+#define HIB1P2_FLASH_DCDC_PARAMETERS3_mem_dcdc_flash_vclamph_trim_lowv_M \
+ 0x00E00000
+
+#define HIB1P2_FLASH_DCDC_PARAMETERS3_mem_dcdc_flash_vclamph_trim_lowv_S 21
+#define HIB1P2_FLASH_DCDC_PARAMETERS3_mem_dcdc_flash_vclampl_trim_lowv_M \
+ 0x001C0000
+
+#define HIB1P2_FLASH_DCDC_PARAMETERS3_mem_dcdc_flash_vclampl_trim_lowv_S 18
+#define HIB1P2_FLASH_DCDC_PARAMETERS3_mem_dcdc_flash_vtrim_lowv_M \
+ 0x0003C000
+
+#define HIB1P2_FLASH_DCDC_PARAMETERS3_mem_dcdc_flash_vtrim_lowv_S 14
+#define HIB1P2_FLASH_DCDC_PARAMETERS3_mem_dcdc_flash_pfm_ripple_trim_lowv_M \
+ 0x00003C00
+
+#define HIB1P2_FLASH_DCDC_PARAMETERS3_mem_dcdc_flash_pfm_ripple_trim_lowv_S 10
+#define HIB1P2_FLASH_DCDC_PARAMETERS3_mem_dcdc_flash_slp_drv_dly_sel_lowv_M \
+ 0x00000300
+
+#define HIB1P2_FLASH_DCDC_PARAMETERS3_mem_dcdc_flash_slp_drv_dly_sel_lowv_S 8
+#define HIB1P2_FLASH_DCDC_PARAMETERS3_mem_dcdc_flash_en_ov_prot_lowv \
+ 0x00000080
+
+#define HIB1P2_FLASH_DCDC_PARAMETERS3_mem_dcdc_flash_en_uv_prot_lowv \
+ 0x00000040
+
+#define HIB1P2_FLASH_DCDC_PARAMETERS3_mem_dcdc_flash_en_tmux_lowv \
+ 0x00000020
+
+#define HIB1P2_FLASH_DCDC_PARAMETERS3_NA19_M \
+ 0x0000001F
+
+#define HIB1P2_FLASH_DCDC_PARAMETERS3_NA19_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// HIB1P2_O_FLASH_DCDC_PARAMETERS4 register.
+//
+//******************************************************************************
+#define HIB1P2_FLASH_DCDC_PARAMETERS4_mem_dcdc_flash_tmux_ctrl_lowv_M \
+ 0xFFFFFFFF
+
+#define HIB1P2_FLASH_DCDC_PARAMETERS4_mem_dcdc_flash_tmux_ctrl_lowv_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// HIB1P2_O_FLASH_DCDC_PARAMETERS5 register.
+//
+//******************************************************************************
+#define HIB1P2_FLASH_DCDC_PARAMETERS5_mem_dcdc_flash_spare_lowv_M \
+ 0xFFFFFFFF
+
+#define HIB1P2_FLASH_DCDC_PARAMETERS5_mem_dcdc_flash_spare_lowv_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// HIB1P2_O_FLASH_DCDC_PARAMETERS6 register.
+//
+//******************************************************************************
+#define HIB1P2_FLASH_DCDC_PARAMETERS6_dcdc_flash_ov_prot_out_lowv \
+ 0x80000000
+
+#define HIB1P2_FLASH_DCDC_PARAMETERS6_dcdc_flash_uv_prot_out_lowv \
+ 0x40000000
+
+#define HIB1P2_FLASH_DCDC_PARAMETERS6_NA20_M \
+ 0x3FFFFFFF
+
+#define HIB1P2_FLASH_DCDC_PARAMETERS6_NA20_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// HIB1P2_O_PMBIST_PARAMETERS0 register.
+//
+//******************************************************************************
+#define HIB1P2_PMBIST_PARAMETERS0_mem_pm_bist_en_lowv \
+ 0x80000000
+
+#define HIB1P2_PMBIST_PARAMETERS0_mem_pm_bist_ctrl_lowv_M \
+ 0x7FFFF800
+
+#define HIB1P2_PMBIST_PARAMETERS0_mem_pm_bist_ctrl_lowv_S 11
+#define HIB1P2_PMBIST_PARAMETERS0_NA21_M \
+ 0x000007FF
+
+#define HIB1P2_PMBIST_PARAMETERS0_NA21_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// HIB1P2_O_PMBIST_PARAMETERS1 register.
+//
+//******************************************************************************
+#define HIB1P2_PMBIST_PARAMETERS1_mem_pm_bist_spare_lowv_M \
+ 0xFFFF0000
+
+#define HIB1P2_PMBIST_PARAMETERS1_mem_pm_bist_spare_lowv_S 16
+#define HIB1P2_PMBIST_PARAMETERS1_mem_pmtest_en_lowv \
+ 0x00008000
+
+#define HIB1P2_PMBIST_PARAMETERS1_NA22_M \
+ 0x00007FFF
+
+#define HIB1P2_PMBIST_PARAMETERS1_NA22_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// HIB1P2_O_PMBIST_PARAMETERS2 register.
+//
+//******************************************************************************
+#define HIB1P2_PMBIST_PARAMETERS2_mem_pmtest_tmux_ctrl_lowv_M \
+ 0xFFFFFFFF
+
+#define HIB1P2_PMBIST_PARAMETERS2_mem_pmtest_tmux_ctrl_lowv_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// HIB1P2_O_PMBIST_PARAMETERS3 register.
+//
+//******************************************************************************
+#define HIB1P2_PMBIST_PARAMETERS3_mem_pmtest_spare_lowv_M \
+ 0xFFFF0000
+
+#define HIB1P2_PMBIST_PARAMETERS3_mem_pmtest_spare_lowv_S 16
+#define HIB1P2_PMBIST_PARAMETERS3_mem_pmtest_load_trim_lowv_M \
+ 0x0000E000
+
+#define HIB1P2_PMBIST_PARAMETERS3_mem_pmtest_load_trim_lowv_S 13
+#define HIB1P2_PMBIST_PARAMETERS3_mem_rnwell_calib_en_lowv \
+ 0x00001000
+
+#define HIB1P2_PMBIST_PARAMETERS3_NA23_M \
+ 0x00000FFF
+
+#define HIB1P2_PMBIST_PARAMETERS3_NA23_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// HIB1P2_O_FLASH_DCDC_PARAMETERS8 register.
+//
+//******************************************************************************
+#define HIB1P2_FLASH_DCDC_PARAMETERS8_mem_en_flash_sup_comp_lowv \
+ 0x80000000
+
+#define HIB1P2_FLASH_DCDC_PARAMETERS8_mem_flash_high_sup_trim_lowv_M \
+ 0x7C000000
+
+#define HIB1P2_FLASH_DCDC_PARAMETERS8_mem_flash_high_sup_trim_lowv_S 26
+#define HIB1P2_FLASH_DCDC_PARAMETERS8_mem_flash_low_sup_trim_lowv_M \
+ 0x03E00000
+
+#define HIB1P2_FLASH_DCDC_PARAMETERS8_mem_flash_low_sup_trim_lowv_S 21
+#define HIB1P2_FLASH_DCDC_PARAMETERS8_NA24_M \
+ 0x001FFFFF
+
+#define HIB1P2_FLASH_DCDC_PARAMETERS8_NA24_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// HIB1P2_O_ANA_DCDC_PARAMETERS_OVERRIDE register.
+//
+//******************************************************************************
+#define HIB1P2_ANA_DCDC_PARAMETERS_OVERRIDE_reserved_M \
+ 0xFFFFFFC0
+
+#define HIB1P2_ANA_DCDC_PARAMETERS_OVERRIDE_reserved_S 6
+#define HIB1P2_ANA_DCDC_PARAMETERS_OVERRIDE_mem_dcdc_ana_en_subreg_1p2v_lowv_override_ctrl \
+ 0x00000020
+
+#define HIB1P2_ANA_DCDC_PARAMETERS_OVERRIDE_mem_dcdc_ana_en_subreg_1p8v_lowv_override_ctrl \
+ 0x00000010
+
+#define HIB1P2_ANA_DCDC_PARAMETERS_OVERRIDE_mem_dcdc_ana_ilim_trim_lowv_efc_override_ctrl \
+ 0x00000008
+
+#define HIB1P2_ANA_DCDC_PARAMETERS_OVERRIDE_mem_dcdc_ana_en_slp_mode_lowv_fsm_override_ctrl \
+ 0x00000004
+
+#define HIB1P2_ANA_DCDC_PARAMETERS_OVERRIDE_mem_dcdc_ana_en_pwm_mode_lowv_fsm_override_ctrl \
+ 0x00000002
+
+#define HIB1P2_ANA_DCDC_PARAMETERS_OVERRIDE_mem_dcdc_ana_en_lowv_fsm_override_ctrl \
+ 0x00000001
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// HIB1P2_O_FLASH_DCDC_PARAMETERS_OVERRIDE register.
+//
+//******************************************************************************
+#define HIB1P2_FLASH_DCDC_PARAMETERS_OVERRIDE_reserved_M \
+ 0xFFFFFFFC
+
+#define HIB1P2_FLASH_DCDC_PARAMETERS_OVERRIDE_reserved_S 2
+#define HIB1P2_FLASH_DCDC_PARAMETERS_OVERRIDE_mem_dcdc_flash_en_lowv_override_ctrl \
+ 0x00000002
+
+#define HIB1P2_FLASH_DCDC_PARAMETERS_OVERRIDE_mem_dcdc_flash_ilim_trim_lowv_override_ctrl \
+ 0x00000001
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// HIB1P2_O_DIG_DCDC_VTRIM_CFG register.
+//
+//******************************************************************************
+#define HIB1P2_DIG_DCDC_VTRIM_CFG_reserved_M \
+ 0xFF000000
+
+#define HIB1P2_DIG_DCDC_VTRIM_CFG_reserved_S 24
+#define HIB1P2_DIG_DCDC_VTRIM_CFG_mem_dcdc_dig_run_vtrim_M \
+ 0x00FC0000
+
+#define HIB1P2_DIG_DCDC_VTRIM_CFG_mem_dcdc_dig_run_vtrim_S 18
+#define HIB1P2_DIG_DCDC_VTRIM_CFG_mem_dcdc_dig_dslp_vtrim_M \
+ 0x0003F000
+
+#define HIB1P2_DIG_DCDC_VTRIM_CFG_mem_dcdc_dig_dslp_vtrim_S 12
+#define HIB1P2_DIG_DCDC_VTRIM_CFG_mem_dcdc_dig_lpds_vtrim_M \
+ 0x00000FC0
+
+#define HIB1P2_DIG_DCDC_VTRIM_CFG_mem_dcdc_dig_lpds_vtrim_S 6
+#define HIB1P2_DIG_DCDC_VTRIM_CFG_Spare_RW_M \
+ 0x0000003F
+
+#define HIB1P2_DIG_DCDC_VTRIM_CFG_Spare_RW_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// HIB1P2_O_DIG_DCDC_FSM_PARAMETERS register.
+//
+//******************************************************************************
+#define HIB1P2_DIG_DCDC_FSM_PARAMETERS_reserved_M \
+ 0xFFFF8000
+
+#define HIB1P2_DIG_DCDC_FSM_PARAMETERS_reserved_S 15
+#define HIB1P2_DIG_DCDC_FSM_PARAMETERS_mem_dcdc_dig_dslp_enter_cot_to_vtrim_M \
+ 0x00007000
+
+#define HIB1P2_DIG_DCDC_FSM_PARAMETERS_mem_dcdc_dig_dslp_enter_cot_to_vtrim_S 12
+#define HIB1P2_DIG_DCDC_FSM_PARAMETERS_mem_dcdc_dig_dslp_enter_vtrim_to_sleep_M \
+ 0x00000E00
+
+#define HIB1P2_DIG_DCDC_FSM_PARAMETERS_mem_dcdc_dig_dslp_enter_vtrim_to_sleep_S 9
+#define HIB1P2_DIG_DCDC_FSM_PARAMETERS_mem_dcdc_dig_dslp_exit_sleep_to_vtrim_M \
+ 0x000001C0
+
+#define HIB1P2_DIG_DCDC_FSM_PARAMETERS_mem_dcdc_dig_dslp_exit_sleep_to_vtrim_S 6
+#define HIB1P2_DIG_DCDC_FSM_PARAMETERS_mem_dcdc_dig_dslp_exit_vtrim_to_cot_M \
+ 0x00000038
+
+#define HIB1P2_DIG_DCDC_FSM_PARAMETERS_mem_dcdc_dig_dslp_exit_vtrim_to_cot_S 3
+#define HIB1P2_DIG_DCDC_FSM_PARAMETERS_mem_dcdc_dig_dslp_exit_cot_to_run_M \
+ 0x00000007
+
+#define HIB1P2_DIG_DCDC_FSM_PARAMETERS_mem_dcdc_dig_dslp_exit_cot_to_run_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// HIB1P2_O_ANA_DCDC_FSM_PARAMETERS register.
+//
+//******************************************************************************
+#define HIB1P2_ANA_DCDC_FSM_PARAMETERS_reserved_M \
+ 0xFFFFFFF8
+
+#define HIB1P2_ANA_DCDC_FSM_PARAMETERS_reserved_S 3
+#define HIB1P2_ANA_DCDC_FSM_PARAMETERS_mem_dcdc_ana_dslp_exit_sleep_to_run_M \
+ 0x00000007
+
+#define HIB1P2_ANA_DCDC_FSM_PARAMETERS_mem_dcdc_ana_dslp_exit_sleep_to_run_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// HIB1P2_O_SRAM_SKA_LDO_FSM_PARAMETERS register.
+//
+//******************************************************************************
+#define HIB1P2_SRAM_SKA_LDO_FSM_PARAMETERS_reserved_M \
+ 0xFFFFFFC0
+
+#define HIB1P2_SRAM_SKA_LDO_FSM_PARAMETERS_reserved_S 6
+#define HIB1P2_SRAM_SKA_LDO_FSM_PARAMETERS_mem_ska_ldo_en_to_sram_ldo_dis_M \
+ 0x00000038
+
+#define HIB1P2_SRAM_SKA_LDO_FSM_PARAMETERS_mem_ska_ldo_en_to_sram_ldo_dis_S 3
+#define HIB1P2_SRAM_SKA_LDO_FSM_PARAMETERS_mem_sram_ldo_en_to_ska_ldo_dis_M \
+ 0x00000007
+
+#define HIB1P2_SRAM_SKA_LDO_FSM_PARAMETERS_mem_sram_ldo_en_to_ska_ldo_dis_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// HIB1P2_O_BGAP_DUTY_CYCLING_EXIT_CFG register.
+//
+//******************************************************************************
+#define HIB1P2_BGAP_DUTY_CYCLING_EXIT_CFG_reserved_M \
+ 0xFFFFFFF8
+
+#define HIB1P2_BGAP_DUTY_CYCLING_EXIT_CFG_reserved_S 3
+#define HIB1P2_BGAP_DUTY_CYCLING_EXIT_CFG_mem_bgap_duty_cycling_exit_time_M \
+ 0x00000007
+
+#define HIB1P2_BGAP_DUTY_CYCLING_EXIT_CFG_mem_bgap_duty_cycling_exit_time_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// HIB1P2_O_CM_OSC_16M_CONFIG register.
+//
+//******************************************************************************
+#define HIB1P2_CM_OSC_16M_CONFIG_reserved_M \
+ 0xFFFC0000
+
+#define HIB1P2_CM_OSC_16M_CONFIG_reserved_S 18
+#define HIB1P2_CM_OSC_16M_CONFIG_cm_clk_good_16m \
+ 0x00020000
+
+#define HIB1P2_CM_OSC_16M_CONFIG_mem_cm_en_osc_16m \
+ 0x00010000
+
+#define HIB1P2_CM_OSC_16M_CONFIG_mem_cm_osc_16m_trim_M \
+ 0x0000FC00
+
+#define HIB1P2_CM_OSC_16M_CONFIG_mem_cm_osc_16m_trim_S 10
+#define HIB1P2_CM_OSC_16M_CONFIG_mem_cm_osc_16m_spare_M \
+ 0x000003F0
+
+#define HIB1P2_CM_OSC_16M_CONFIG_mem_cm_osc_16m_spare_S 4
+#define HIB1P2_CM_OSC_16M_CONFIG_mem_cm_osc_en_sli_16m \
+ 0x00000008
+
+#define HIB1P2_CM_OSC_16M_CONFIG_mem_cm_sli_16m_trim_M \
+ 0x00000007
+
+#define HIB1P2_CM_OSC_16M_CONFIG_mem_cm_sli_16m_trim_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// HIB1P2_O_SOP_SENSE_VALUE register.
+//
+//******************************************************************************
+#define HIB1P2_SOP_SENSE_VALUE_reserved_M \
+ 0xFFFFFF00
+
+#define HIB1P2_SOP_SENSE_VALUE_reserved_S 8
+#define HIB1P2_SOP_SENSE_VALUE_sop_sense_value_M \
+ 0x000000FF
+
+#define HIB1P2_SOP_SENSE_VALUE_sop_sense_value_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// HIB1P2_O_HIB_RTC_TIMER_LSW_1P2 register.
+//
+//******************************************************************************
+#define HIB1P2_HIB_RTC_TIMER_LSW_1P2_hib_rtc_timer_lsw_M \
+ 0xFFFFFFFF
+
+#define HIB1P2_HIB_RTC_TIMER_LSW_1P2_hib_rtc_timer_lsw_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// HIB1P2_O_HIB_RTC_TIMER_MSW_1P2 register.
+//
+//******************************************************************************
+#define HIB1P2_HIB_RTC_TIMER_MSW_1P2_hib_rtc_timer_msw_M \
+ 0x0000FFFF
+
+#define HIB1P2_HIB_RTC_TIMER_MSW_1P2_hib_rtc_timer_msw_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// HIB1P2_O_HIB1P2_BGAP_TRIM_OVERRIDES register.
+//
+//******************************************************************************
+#define HIB1P2_HIB1P2_BGAP_TRIM_OVERRIDES_reserved_M \
+ 0xFF800000
+
+#define HIB1P2_HIB1P2_BGAP_TRIM_OVERRIDES_reserved_S 23
+#define HIB1P2_HIB1P2_BGAP_TRIM_OVERRIDES_mem_bgap_mag_trim_override_ctrl \
+ 0x00400000
+
+#define HIB1P2_HIB1P2_BGAP_TRIM_OVERRIDES_mem_bgap_mag_trim_override_M \
+ 0x003FC000
+
+#define HIB1P2_HIB1P2_BGAP_TRIM_OVERRIDES_mem_bgap_mag_trim_override_S 14
+#define HIB1P2_HIB1P2_BGAP_TRIM_OVERRIDES_mem_bgap_temp_trim_override_ctrl \
+ 0x00002000
+
+#define HIB1P2_HIB1P2_BGAP_TRIM_OVERRIDES_mem_bgap_temp_trim_override_M \
+ 0x00001FC0
+
+#define HIB1P2_HIB1P2_BGAP_TRIM_OVERRIDES_mem_bgap_temp_trim_override_S 6
+#define HIB1P2_HIB1P2_BGAP_TRIM_OVERRIDES_mem_bgap_rtrim_override_ctrl \
+ 0x00000020
+
+#define HIB1P2_HIB1P2_BGAP_TRIM_OVERRIDES_mem_bgap_rtrim_override_M \
+ 0x0000001F
+
+#define HIB1P2_HIB1P2_BGAP_TRIM_OVERRIDES_mem_bgap_rtrim_override_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// HIB1P2_O_HIB1P2_EFUSE_READ_REG0 register.
+//
+//******************************************************************************
+#define HIB1P2_HIB1P2_EFUSE_READ_REG0_FUSEFARM_ROW_12_M \
+ 0xFFFFFFFF // Corresponds to ROW_12 of
+ // FUSEFARM. [7:0] :
+ // DCDC_DIG_ILIM_TRIM_LOWV(7:0)
+ // [15:8] :
+ // DCDC_ANA_ILIM_TRIM_LOWV(7:0)
+ // [23:16] :
+ // DCDC_FLASH_ILIM_TRIM_LOWV(7:0)
+ // [24:24] : DTHE SHA DISABLE
+ // [25:25] : DTHE DES DISABLE
+ // [26:26] : DTHE AES DISABLE
+ // [31:27] : HD_BG_RTRIM (4:0)
+
+#define HIB1P2_HIB1P2_EFUSE_READ_REG0_FUSEFARM_ROW_12_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// HIB1P2_O_HIB1P2_EFUSE_READ_REG1 register.
+//
+//******************************************************************************
+#define HIB1P2_HIB1P2_EFUSE_READ_REG1_FUSEFARM_ROW_13_M \
+ 0xFFFFFFFF // Corresponds to ROW_13 of the
+ // FUSEFARM. [7:0] : HD_BG_MAG_TRIM
+ // (7:0) [14:8] : HD_BG_TEMP_TRIM
+ // (6:0) [15:15] : GREYOUT ENABLE
+ // DUTY CYCLING [31:16] :
+ // Reserved/Checksum
+
+#define HIB1P2_HIB1P2_EFUSE_READ_REG1_FUSEFARM_ROW_13_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// HIB1P2_O_HIB1P2_POR_TEST_CTRL register.
+//
+//******************************************************************************
+#define HIB1P2_HIB1P2_POR_TEST_CTRL_reserved_M \
+ 0xFFFFFF00
+
+#define HIB1P2_HIB1P2_POR_TEST_CTRL_reserved_S 8
+#define HIB1P2_HIB1P2_POR_TEST_CTRL_mem_prcm_por_test_ctrl_M \
+ 0x000000FF
+
+#define HIB1P2_HIB1P2_POR_TEST_CTRL_mem_prcm_por_test_ctrl_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// HIB1P2_O_HIB_TIMER_SYNC_CALIB_CFG0 register.
+//
+//******************************************************************************
+#define HIB1P2_HIB_TIMER_SYNC_CALIB_CFG0_reserved_M \
+ 0xFFFF0000
+
+#define HIB1P2_HIB_TIMER_SYNC_CALIB_CFG0_reserved_S 16
+#define HIB1P2_HIB_TIMER_SYNC_CALIB_CFG0_mem_cfg_calib_time_M \
+ 0x0000FF00
+
+#define HIB1P2_HIB_TIMER_SYNC_CALIB_CFG0_mem_cfg_calib_time_S 8
+#define HIB1P2_HIB_TIMER_SYNC_CALIB_CFG0_NU1_M \
+ 0x000000FE
+
+#define HIB1P2_HIB_TIMER_SYNC_CALIB_CFG0_NU1_S 1
+#define HIB1P2_HIB_TIMER_SYNC_CALIB_CFG0_mem_cfg_calib_start \
+ 0x00000001
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// HIB1P2_O_HIB_TIMER_SYNC_CALIB_CFG1 register.
+//
+//******************************************************************************
+#define HIB1P2_HIB_TIMER_SYNC_CALIB_CFG1_reserved_M \
+ 0xFFF00000
+
+#define HIB1P2_HIB_TIMER_SYNC_CALIB_CFG1_reserved_S 20
+#define HIB1P2_HIB_TIMER_SYNC_CALIB_CFG1_fast_calib_count_M \
+ 0x000FFFFF
+
+#define HIB1P2_HIB_TIMER_SYNC_CALIB_CFG1_fast_calib_count_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// HIB1P2_O_HIB_TIMER_SYNC_CFG2 register.
+//
+//******************************************************************************
+#define HIB1P2_HIB_TIMER_SYNC_CFG2_reserved_M \
+ 0xFFFFFE00
+
+#define HIB1P2_HIB_TIMER_SYNC_CFG2_reserved_S 9
+#define HIB1P2_HIB_TIMER_SYNC_CFG2_mem_cfg_hib_unload \
+ 0x00000100
+
+#define HIB1P2_HIB_TIMER_SYNC_CFG2_NU1_M \
+ 0x000000FC
+
+#define HIB1P2_HIB_TIMER_SYNC_CFG2_NU1_S 2
+#define HIB1P2_HIB_TIMER_SYNC_CFG2_mem_cfg_tsf_adj \
+ 0x00000002
+
+#define HIB1P2_HIB_TIMER_SYNC_CFG2_mem_cfg_update_tsf \
+ 0x00000001
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// HIB1P2_O_HIB_TIMER_SYNC_TSF_ADJ_VAL register.
+//
+//******************************************************************************
+#define HIB1P2_HIB_TIMER_SYNC_TSF_ADJ_VAL_mem_tsf_adj_val_M \
+ 0xFFFFFFFF
+
+#define HIB1P2_HIB_TIMER_SYNC_TSF_ADJ_VAL_mem_tsf_adj_val_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// HIB1P2_O_HIB_TIMER_RTC_GTS_TIMESTAMP_LSW register.
+//
+//******************************************************************************
+#define HIB1P2_HIB_TIMER_RTC_GTS_TIMESTAMP_LSW_rtc_gts_timestamp_lsw_M \
+ 0xFFFFFFFF
+
+#define HIB1P2_HIB_TIMER_RTC_GTS_TIMESTAMP_LSW_rtc_gts_timestamp_lsw_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// HIB1P2_O_HIB_TIMER_RTC_GTS_TIMESTAMP_MSW register.
+//
+//******************************************************************************
+#define HIB1P2_HIB_TIMER_RTC_GTS_TIMESTAMP_MSW_reserved_M \
+ 0xFFFF0000
+
+#define HIB1P2_HIB_TIMER_RTC_GTS_TIMESTAMP_MSW_reserved_S 16
+#define HIB1P2_HIB_TIMER_RTC_GTS_TIMESTAMP_MSW_rtc_gts_timestamp_msw_M \
+ 0x0000FFFF
+
+#define HIB1P2_HIB_TIMER_RTC_GTS_TIMESTAMP_MSW_rtc_gts_timestamp_msw_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// HIB1P2_O_HIB_TIMER_RTC_WUP_TIMESTAMP_LSW register.
+//
+//******************************************************************************
+#define HIB1P2_HIB_TIMER_RTC_WUP_TIMESTAMP_LSW_rtc_wup_timestamp_lsw_M \
+ 0xFFFFFFFF
+
+#define HIB1P2_HIB_TIMER_RTC_WUP_TIMESTAMP_LSW_rtc_wup_timestamp_lsw_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// HIB1P2_O_HIB_TIMER_RTC_WUP_TIMESTAMP_MSW register.
+//
+//******************************************************************************
+#define HIB1P2_HIB_TIMER_RTC_WUP_TIMESTAMP_MSW_reserved_M \
+ 0xFFFF0000
+
+#define HIB1P2_HIB_TIMER_RTC_WUP_TIMESTAMP_MSW_reserved_S 16
+#define HIB1P2_HIB_TIMER_RTC_WUP_TIMESTAMP_MSW_rtc_wup_timestamp_msw_M \
+ 0x0000FFFF
+
+#define HIB1P2_HIB_TIMER_RTC_WUP_TIMESTAMP_MSW_rtc_wup_timestamp_msw_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// HIB1P2_O_HIB_TIMER_SYNC_WAKE_OFFSET_ERR register.
+//
+//******************************************************************************
+#define HIB1P2_HIB_TIMER_SYNC_WAKE_OFFSET_ERR_reserved_M \
+ 0xFFFFF000
+
+#define HIB1P2_HIB_TIMER_SYNC_WAKE_OFFSET_ERR_reserved_S 12
+#define HIB1P2_HIB_TIMER_SYNC_WAKE_OFFSET_ERR_wup_offset_error_M \
+ 0x00000FFF
+
+#define HIB1P2_HIB_TIMER_SYNC_WAKE_OFFSET_ERR_wup_offset_error_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// HIB1P2_O_HIB_TIMER_SYNC_TSF_CURR_VAL_LSW register.
+//
+//******************************************************************************
+#define HIB1P2_HIB_TIMER_SYNC_TSF_CURR_VAL_LSW_tsf_curr_val_lsw_M \
+ 0xFFFFFFFF
+
+#define HIB1P2_HIB_TIMER_SYNC_TSF_CURR_VAL_LSW_tsf_curr_val_lsw_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// HIB1P2_O_HIB_TIMER_SYNC_TSF_CURR_VAL_MSW register.
+//
+//******************************************************************************
+#define HIB1P2_HIB_TIMER_SYNC_TSF_CURR_VAL_MSW_tsf_curr_val_msw_M \
+ 0xFFFFFFFF
+
+#define HIB1P2_HIB_TIMER_SYNC_TSF_CURR_VAL_MSW_tsf_curr_val_msw_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the HIB1P2_O_CM_SPARE register.
+//
+//******************************************************************************
+#define HIB1P2_CM_SPARE_CM_SPARE_OUT_M \
+ 0xFF000000
+
+#define HIB1P2_CM_SPARE_CM_SPARE_OUT_S 24
+#define HIB1P2_CM_SPARE_MEM_CM_TEST_CTRL_M \
+ 0x00FF0000
+
+#define HIB1P2_CM_SPARE_MEM_CM_TEST_CTRL_S 16
+#define HIB1P2_CM_SPARE_MEM_CM_SPARE_M \
+ 0x0000FFFF
+
+#define HIB1P2_CM_SPARE_MEM_CM_SPARE_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// HIB1P2_O_PORPOL_SPARE register.
+//
+//******************************************************************************
+#define HIB1P2_PORPOL_SPARE_MEM_PORPOL_SPARE_M \
+ 0xFFFFFFFF
+
+#define HIB1P2_PORPOL_SPARE_MEM_PORPOL_SPARE_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// HIB1P2_O_MEM_DIG_DCDC_CLK_CONFIG register.
+//
+//******************************************************************************
+#define HIB1P2_MEM_DIG_DCDC_CLK_CONFIG_MEM_DIG_DCDC_CLK_ENABLE \
+ 0x00000100
+
+#define HIB1P2_MEM_DIG_DCDC_CLK_CONFIG_MEM_DIG_DCDC_CLK_PLLGEN_OFF_TIME_M \
+ 0x000000F0
+
+#define HIB1P2_MEM_DIG_DCDC_CLK_CONFIG_MEM_DIG_DCDC_CLK_PLLGEN_OFF_TIME_S 4
+#define HIB1P2_MEM_DIG_DCDC_CLK_CONFIG_MEM_DIG_DCDC_CLK_PLLGEN_ON_TIME_M \
+ 0x0000000F
+
+#define HIB1P2_MEM_DIG_DCDC_CLK_CONFIG_MEM_DIG_DCDC_CLK_PLLGEN_ON_TIME_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// HIB1P2_O_MEM_ANA_DCDC_CLK_CONFIG register.
+//
+//******************************************************************************
+#define HIB1P2_MEM_ANA_DCDC_CLK_CONFIG_MEM_ANA_DCDC_CLK_ENABLE \
+ 0x00000100
+
+#define HIB1P2_MEM_ANA_DCDC_CLK_CONFIG_MEM_ANA_DCDC_CLK_PLLGEN_OFF_TIME_M \
+ 0x000000F0
+
+#define HIB1P2_MEM_ANA_DCDC_CLK_CONFIG_MEM_ANA_DCDC_CLK_PLLGEN_OFF_TIME_S 4
+#define HIB1P2_MEM_ANA_DCDC_CLK_CONFIG_MEM_ANA_DCDC_CLK_PLLGEN_ON_TIME_M \
+ 0x0000000F
+
+#define HIB1P2_MEM_ANA_DCDC_CLK_CONFIG_MEM_ANA_DCDC_CLK_PLLGEN_ON_TIME_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// HIB1P2_O_MEM_FLASH_DCDC_CLK_CONFIG register.
+//
+//******************************************************************************
+#define HIB1P2_MEM_FLASH_DCDC_CLK_CONFIG_MEM_FLASH_DCDC_CLK_ENABLE \
+ 0x00000100
+
+#define HIB1P2_MEM_FLASH_DCDC_CLK_CONFIG_MEM_FLASH_DCDC_CLK_PLLGEN_OFF_TIME_M \
+ 0x000000F0
+
+#define HIB1P2_MEM_FLASH_DCDC_CLK_CONFIG_MEM_FLASH_DCDC_CLK_PLLGEN_OFF_TIME_S 4
+#define HIB1P2_MEM_FLASH_DCDC_CLK_CONFIG_MEM_FLASH_DCDC_CLK_PLLGEN_ON_TIME_M \
+ 0x0000000F
+
+#define HIB1P2_MEM_FLASH_DCDC_CLK_CONFIG_MEM_FLASH_DCDC_CLK_PLLGEN_ON_TIME_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// HIB1P2_O_MEM_PA_DCDC_CLK_CONFIG register.
+//
+//******************************************************************************
+#define HIB1P2_MEM_PA_DCDC_CLK_CONFIG_MEM_PA_DCDC_CLK_ENABLE \
+ 0x00000100
+
+#define HIB1P2_MEM_PA_DCDC_CLK_CONFIG_MEM_PA_DCDC_CLK_PLLGEN_OFF_TIME_M \
+ 0x000000F0
+
+#define HIB1P2_MEM_PA_DCDC_CLK_CONFIG_MEM_PA_DCDC_CLK_PLLGEN_OFF_TIME_S 4
+#define HIB1P2_MEM_PA_DCDC_CLK_CONFIG_MEM_PA_DCDC_CLK_PLLGEN_ON_TIME_M \
+ 0x0000000F
+
+#define HIB1P2_MEM_PA_DCDC_CLK_CONFIG_MEM_PA_DCDC_CLK_PLLGEN_ON_TIME_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// HIB1P2_O_MEM_SLDO_VNWA_OVERRIDE register.
+//
+//******************************************************************************
+#define HIB1P2_MEM_SLDO_VNWA_OVERRIDE_MEM_SLDO_EN_TOP_VNWA_OVERRIDE_CTRL \
+ 0x00000002
+
+#define HIB1P2_MEM_SLDO_VNWA_OVERRIDE_MEM_SLDO_EN_TOP_VNWA_OVERRIDE \
+ 0x00000001
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// HIB1P2_O_MEM_BGAP_DUTY_CYCLING_ENABLE_OVERRIDE register.
+//
+//******************************************************************************
+#define HIB1P2_MEM_BGAP_DUTY_CYCLING_ENABLE_OVERRIDE_MEM_BGAP_DUTY_CYCLING_OVERRIDE_CTRL \
+ 0x00000002
+
+#define HIB1P2_MEM_BGAP_DUTY_CYCLING_ENABLE_OVERRIDE_MEM_BGAP_DUTY_CYCLING_OVERRIDE \
+ 0x00000001
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// HIB1P2_O_MEM_HIB_FSM_DEBUG register.
+//
+//******************************************************************************
+#define HIB1P2_MEM_HIB_FSM_DEBUG_SRAM_PS_M \
+ 0x00000700
+
+#define HIB1P2_MEM_HIB_FSM_DEBUG_SRAM_PS_S 8
+#define HIB1P2_MEM_HIB_FSM_DEBUG_ANA_DCDC_PS_M \
+ 0x000000F0
+
+#define HIB1P2_MEM_HIB_FSM_DEBUG_ANA_DCDC_PS_S 4
+#define HIB1P2_MEM_HIB_FSM_DEBUG_DIG_DCDC_PS_M \
+ 0x0000000F
+
+#define HIB1P2_MEM_HIB_FSM_DEBUG_DIG_DCDC_PS_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// HIB1P2_O_MEM_SLDO_VNWA_SW_CTRL register.
+//
+//******************************************************************************
+#define HIB1P2_MEM_SLDO_VNWA_SW_CTRL_MEM_SLDO_VNWA_SW_CTRL_M \
+ 0x000FFFFF
+
+#define HIB1P2_MEM_SLDO_VNWA_SW_CTRL_MEM_SLDO_VNWA_SW_CTRL_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// HIB1P2_O_MEM_SLDO_WEAK_PROCESS register.
+//
+//******************************************************************************
+#define HIB1P2_MEM_SLDO_WEAK_PROCESS_MEM_SLDO_WEAK_PROCESS \
+ 0x00000001
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// HIB1P2_O_MEM_PA_DCDC_OV_UV_STATUS register.
+//
+//******************************************************************************
+#define HIB1P2_MEM_PA_DCDC_OV_UV_STATUS_dcdc_pa_ov_prot_out_lowv \
+ 0x00000002
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// HIB1P2_O_MEM_CM_TEST_MODE register.
+//
+//******************************************************************************
+#define HIB1P2_MEM_CM_TEST_MODE_mem_cm_test_mode \
+ 0x00000001
+
+
+
+
+#endif // __HW_HIB1P2_H__
diff --git a/cc3200/hal/inc/hw_hib3p3.h b/cc3200/hal/inc/hw_hib3p3.h
new file mode 100644
index 000000000..970168916
--- /dev/null
+++ b/cc3200/hal/inc/hw_hib3p3.h
@@ -0,0 +1,1138 @@
+//*****************************************************************************
+//
+// Copyright (C) 2014 Texas Instruments Incorporated - http://www.ti.com/
+//
+//
+// Redistribution and use in source and binary forms, with or without
+// modification, are permitted provided that the following conditions
+// are met:
+//
+// Redistributions of source code must retain the above copyright
+// notice, this list of conditions and the following disclaimer.
+//
+// Redistributions in binary form must reproduce the above copyright
+// notice, this list of conditions and the following disclaimer in the
+// documentation and/or other materials provided with the
+// distribution.
+//
+// Neither the name of Texas Instruments Incorporated nor the names of
+// its contributors may be used to endorse or promote products derived
+// from this software without specific prior written permission.
+//
+// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
+// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
+// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
+// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
+// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
+// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
+// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
+// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
+// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
+// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
+// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+//
+//*****************************************************************************
+
+#ifndef __HW_HIB3P3_H__
+#define __HW_HIB3P3_H__
+
+//*****************************************************************************
+//
+// The following are defines for the HIB3P3 register offsets.
+//
+//*****************************************************************************
+#define HIB3P3_O_MEM_HIB_REQ 0x00000000
+#define HIB3P3_O_MEM_HIB_RTC_TIMER_ENABLE \
+ 0x00000004
+
+#define HIB3P3_O_MEM_HIB_RTC_TIMER_RESET \
+ 0x00000008
+
+#define HIB3P3_O_MEM_HIB_RTC_TIMER_READ \
+ 0x0000000C
+
+#define HIB3P3_O_MEM_HIB_RTC_TIMER_LSW \
+ 0x00000010
+
+#define HIB3P3_O_MEM_HIB_RTC_TIMER_MSW \
+ 0x00000014
+
+#define HIB3P3_O_MEM_HIB_RTC_WAKE_EN \
+ 0x00000018
+
+#define HIB3P3_O_MEM_HIB_RTC_WAKE_LSW_CONF \
+ 0x0000001C
+
+#define HIB3P3_O_MEM_HIB_RTC_WAKE_MSW_CONF \
+ 0x00000020
+
+#define HIB3P3_O_MEM_INT_OSC_CONF \
+ 0x0000002C
+
+#define HIB3P3_O_MEM_XTAL_OSC_CONF \
+ 0x00000034
+
+#define HIB3P3_O_MEM_BGAP_PARAMETERS0 \
+ 0x00000038
+
+#define HIB3P3_O_MEM_BGAP_PARAMETERS1 \
+ 0x0000003C
+
+#define HIB3P3_O_MEM_HIB_DETECTION_STATUS \
+ 0x00000040
+
+#define HIB3P3_O_MEM_HIB_MISC_CONTROLS \
+ 0x00000044
+
+#define HIB3P3_O_MEM_HIB_CONFIG 0x00000050
+#define HIB3P3_O_MEM_HIB_RTC_IRQ_ENABLE \
+ 0x00000054
+
+#define HIB3P3_O_MEM_HIB_RTC_IRQ_LSW_CONF \
+ 0x00000058
+
+#define HIB3P3_O_MEM_HIB_RTC_IRQ_MSW_CONF \
+ 0x0000005C
+
+#define HIB3P3_O_MEM_HIB_UART_CONF \
+ 0x00000400
+
+#define HIB3P3_O_MEM_GPIO_WAKE_EN \
+ 0x00000404
+
+#define HIB3P3_O_MEM_GPIO_WAKE_CONF \
+ 0x00000408
+
+#define HIB3P3_O_MEM_PAD_OEN_RET33_CONF \
+ 0x0000040C
+
+#define HIB3P3_O_MEM_UART_RTS_OEN_RET33_CONF \
+ 0x00000410
+
+#define HIB3P3_O_MEM_JTAG_CONF 0x00000414
+#define HIB3P3_O_MEM_HIB_REG0 0x00000418
+#define HIB3P3_O_MEM_HIB_REG1 0x0000041C
+#define HIB3P3_O_MEM_HIB_REG2 0x00000420
+#define HIB3P3_O_MEM_HIB_REG3 0x00000424
+#define HIB3P3_O_MEM_HIB_SEQUENCER_CFG0 \
+ 0x0000045C
+
+#define HIB3P3_O_MEM_HIB_SEQUENCER_CFG1 \
+ 0x00000460
+
+#define HIB3P3_O_MEM_HIB_MISC_CONFIG \
+ 0x00000464
+
+#define HIB3P3_O_MEM_HIB_WAKE_STATUS \
+ 0x00000468
+
+#define HIB3P3_O_MEM_HIB_LPDS_GPIO_SEL \
+ 0x0000046C
+
+#define HIB3P3_O_MEM_HIB_SEQUENCER_CFG2 \
+ 0x00000470
+
+#define HIB3P3_O_HIBANA_SPARE_LOWV \
+ 0x00000474
+
+#define HIB3P3_O_HIB_TMUX_CTRL 0x00000478
+#define HIB3P3_O_HIB_1P2_1P8_LDO_TRIM \
+ 0x0000047C
+
+#define HIB3P3_O_HIB_COMP_TRIM 0x00000480
+#define HIB3P3_O_HIB_EN_TS 0x00000484
+#define HIB3P3_O_HIB_1P8V_DET_EN \
+ 0x00000488
+
+#define HIB3P3_O_HIB_VBAT_MON_EN \
+ 0x0000048C
+
+#define HIB3P3_O_HIB_NHIB_ENABLE \
+ 0x00000490
+
+#define HIB3P3_O_HIB_UART_RTS_SW_ENABLE \
+ 0x00000494
+
+
+
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// HIB3P3_O_MEM_HIB_REQ register.
+//
+//******************************************************************************
+#define HIB3P3_MEM_HIB_REQ_reserved_M \
+ 0xFFFFFE00
+
+#define HIB3P3_MEM_HIB_REQ_reserved_S 9
+#define HIB3P3_MEM_HIB_REQ_NU1_M \
+ 0x000001FC
+
+#define HIB3P3_MEM_HIB_REQ_NU1_S 2
+#define HIB3P3_MEM_HIB_REQ_mem_hib_clk_disable \
+ 0x00000002 // 1 - Specifies that the Hiberante
+ // mode is without clocks ; 0 -
+ // Specified that the Hibernate mode
+ // is with clocks This register will
+ // be reset during Hibernate
+ // -WO-Clks mode (but not during
+ // Hibernate-W-Clks mode).
+
+#define HIB3P3_MEM_HIB_REQ_mem_hib_req \
+ 0x00000001 // 1 - Request for hibernate mode
+ // (This is an auto-clear bit) ; 0 -
+ // Donot request for hibernate mode
+ // This register will be reset
+ // during Hibernate -WO-Clks mode
+ // (but not during Hibernate-W-Clks
+ // mode).
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// HIB3P3_O_MEM_HIB_RTC_TIMER_ENABLE register.
+//
+//******************************************************************************
+#define HIB3P3_MEM_HIB_RTC_TIMER_ENABLE_reserved_M \
+ 0xFFFFFFFE
+
+#define HIB3P3_MEM_HIB_RTC_TIMER_ENABLE_reserved_S 1
+#define HIB3P3_MEM_HIB_RTC_TIMER_ENABLE_mem_hib_rtc_timer_enable \
+ 0x00000001 // 1 - Enable the RTC timer to
+ // start running ; 0 - Keep the RTC
+ // timer disabled This register will
+ // be reset during Hibernate
+ // -WO-Clks mode (but not during
+ // Hibernate-W-Clks mode).
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// HIB3P3_O_MEM_HIB_RTC_TIMER_RESET register.
+//
+//******************************************************************************
+#define HIB3P3_MEM_HIB_RTC_TIMER_RESET_reserved_M \
+ 0xFFFFFFFE
+
+#define HIB3P3_MEM_HIB_RTC_TIMER_RESET_reserved_S 1
+#define HIB3P3_MEM_HIB_RTC_TIMER_RESET_mem_hib_rtc_timer_reset \
+ 0x00000001 // 1 - Reset the RTC timer ; 0 -
+ // Donot reset the RTC timer. This
+ // is an auto-clear bit. This
+ // register will be reset during
+ // Hibernate -WO-Clks mode (but not
+ // during Hibernate-W-Clks mode).
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// HIB3P3_O_MEM_HIB_RTC_TIMER_READ register.
+//
+//******************************************************************************
+#define HIB3P3_MEM_HIB_RTC_TIMER_READ_reserved_M \
+ 0xFFFFFFFE
+
+#define HIB3P3_MEM_HIB_RTC_TIMER_READ_reserved_S 1
+#define HIB3P3_MEM_HIB_RTC_TIMER_READ_mem_hib_rtc_timer_read \
+ 0x00000001 // 1 - Latch the running RTC timer
+ // into local registers. After
+ // programming this bit to 1, the
+ // F/w can read the latched RTC
+ // timer values from
+ // MEM_HIB_RTC_TIMER_LSW and
+ // MEM_HIB_RTC_TIMER_MSW. Before the
+ // F/w (APPS or NWP) wants to read
+ // the RTC-Timer, it has to program
+ // this bit to 1, then only read the
+ // MSW and LSW values. This is an
+ // auto-clear bit. This register
+ // will be reset during Hibernate
+ // -WO-Clks mode (but not during
+ // Hibernate-W-Clks mode).
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// HIB3P3_O_MEM_HIB_RTC_TIMER_LSW register.
+//
+//******************************************************************************
+#define HIB3P3_MEM_HIB_RTC_TIMER_LSW_hib_rtc_timer_lsw_M \
+ 0xFFFFFFFF // Lower 32b value of the latched
+ // RTC-Timer.
+
+#define HIB3P3_MEM_HIB_RTC_TIMER_LSW_hib_rtc_timer_lsw_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// HIB3P3_O_MEM_HIB_RTC_TIMER_MSW register.
+//
+//******************************************************************************
+#define HIB3P3_MEM_HIB_RTC_TIMER_MSW_reserved_M \
+ 0xFFFF0000
+
+#define HIB3P3_MEM_HIB_RTC_TIMER_MSW_reserved_S 16
+#define HIB3P3_MEM_HIB_RTC_TIMER_MSW_hib_rtc_timer_msw_M \
+ 0x0000FFFF // Upper 32b value of the latched
+ // RTC-Timer.
+
+#define HIB3P3_MEM_HIB_RTC_TIMER_MSW_hib_rtc_timer_msw_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// HIB3P3_O_MEM_HIB_RTC_WAKE_EN register.
+//
+//******************************************************************************
+#define HIB3P3_MEM_HIB_RTC_WAKE_EN_reserved_M \
+ 0xFFFFFFFE
+
+#define HIB3P3_MEM_HIB_RTC_WAKE_EN_reserved_S 1
+#define HIB3P3_MEM_HIB_RTC_WAKE_EN_mem_hib_rtc_wake_en \
+ 0x00000001 // 1 - Enable the RTC timer based
+ // wakeup during Hibernate mode ; 0
+ // - Disable the RTC timer based
+ // wakeup during Hibernate mode This
+ // register will be reset during
+ // Hibernate-WO-Clks mode (but not
+ // during Hibernate-W-Clks mode).
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// HIB3P3_O_MEM_HIB_RTC_WAKE_LSW_CONF register.
+//
+//******************************************************************************
+#define HIB3P3_MEM_HIB_RTC_WAKE_LSW_CONF_mem_hib_rtc_wake_lsw_conf_M \
+ 0xFFFFFFFF // Configuration for RTC-Timer
+ // Wakeup (Lower 32b word)
+
+#define HIB3P3_MEM_HIB_RTC_WAKE_LSW_CONF_mem_hib_rtc_wake_lsw_conf_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// HIB3P3_O_MEM_HIB_RTC_WAKE_MSW_CONF register.
+//
+//******************************************************************************
+#define HIB3P3_MEM_HIB_RTC_WAKE_MSW_CONF_reserved_M \
+ 0xFFFF0000
+
+#define HIB3P3_MEM_HIB_RTC_WAKE_MSW_CONF_reserved_S 16
+#define HIB3P3_MEM_HIB_RTC_WAKE_MSW_CONF_mem_hib_rtc_wake_msw_conf_M \
+ 0x0000FFFF // Configuration for RTC-Timer
+ // Wakeup (Upper 16b word)
+
+#define HIB3P3_MEM_HIB_RTC_WAKE_MSW_CONF_mem_hib_rtc_wake_msw_conf_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// HIB3P3_O_MEM_INT_OSC_CONF register.
+//
+//******************************************************************************
+#define HIB3P3_MEM_INT_OSC_CONF_reserved_M \
+ 0xFFFF0000
+
+#define HIB3P3_MEM_INT_OSC_CONF_reserved_S 16
+#define HIB3P3_MEM_INT_OSC_CONF_cm_clk_good_32k_int \
+ 0x00008000 // 1 - Internal 32kHz Oscillator is
+ // valid ; 0 - Internal 32k
+ // oscillator clk is not valid
+
+#define HIB3P3_MEM_INT_OSC_CONF_mem_cm_intosc_32k_spare_M \
+ 0x00007E00
+
+#define HIB3P3_MEM_INT_OSC_CONF_mem_cm_intosc_32k_spare_S 9
+#define HIB3P3_MEM_INT_OSC_CONF_mem_cm_en_intosc_32k_override_ctrl \
+ 0x00000100 // When 1, the INT_32K_OSC_EN comes
+ // from bit [0] of this register,
+ // else comes from the FSM. This
+ // register will be reset during
+ // Hibernate-WO-Clks mode (but not
+ // during Hibernate-W-Clks mode)
+
+#define HIB3P3_MEM_INT_OSC_CONF_NU1 \
+ 0x00000080
+
+#define HIB3P3_MEM_INT_OSC_CONF_mem_cm_intosc_32k_trim_M \
+ 0x0000007E
+
+#define HIB3P3_MEM_INT_OSC_CONF_mem_cm_intosc_32k_trim_S 1
+#define HIB3P3_MEM_INT_OSC_CONF_mem_cm_en_intosc_32k \
+ 0x00000001 // Override value for INT_OSC_EN.
+ // Applicable only when bit [3] of
+ // this register is set to 1.
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// HIB3P3_O_MEM_XTAL_OSC_CONF register.
+//
+//******************************************************************************
+#define HIB3P3_MEM_XTAL_OSC_CONF_reserved_M \
+ 0xFFF00000
+
+#define HIB3P3_MEM_XTAL_OSC_CONF_reserved_S 20
+#define HIB3P3_MEM_XTAL_OSC_CONF_mem_cm_en_sli_32k_override_ctrl \
+ 0x00080000 // When 1, the SLICER_EN comes from
+ // bit [10] of this register, else
+ // comes from the FSM.
+
+#define HIB3P3_MEM_XTAL_OSC_CONF_mem_cm_en_xtal_32k_override_ctrl \
+ 0x00040000 // When 1, the XTAL_EN comes from
+ // bit [0] of this register, else
+ // comes from the FSM.
+
+#define HIB3P3_MEM_XTAL_OSC_CONF_cm_clk_good_xtal \
+ 0x00020000 // 1 - XTAL Clk is good ; 0 - XTAL
+ // Clk is yet to be valid.
+
+#define HIB3P3_MEM_XTAL_OSC_CONF_mem_cm_xtal_trim_M \
+ 0x0001F800
+
+#define HIB3P3_MEM_XTAL_OSC_CONF_mem_cm_xtal_trim_S 11
+#define HIB3P3_MEM_XTAL_OSC_CONF_mem_cm_en_sli_32k \
+ 0x00000400 // SLICER_EN Override value :
+ // Applicable only when bit [19] of
+ // this register is set to 1.
+
+#define HIB3P3_MEM_XTAL_OSC_CONF_mem_cm_sli_32k_trim_M \
+ 0x00000380
+
+#define HIB3P3_MEM_XTAL_OSC_CONF_mem_cm_sli_32k_trim_S 7
+#define HIB3P3_MEM_XTAL_OSC_CONF_mem_cm_fref_32k_slicer_itrim_M \
+ 0x00000070
+
+#define HIB3P3_MEM_XTAL_OSC_CONF_mem_cm_fref_32k_slicer_itrim_S 4
+#define HIB3P3_MEM_XTAL_OSC_CONF_mem_cm_en_fref_32k_slicer \
+ 0x00000008
+
+#define HIB3P3_MEM_XTAL_OSC_CONF_mem_cm_en_input_sense_M \
+ 0x00000006
+
+#define HIB3P3_MEM_XTAL_OSC_CONF_mem_cm_en_input_sense_S 1
+#define HIB3P3_MEM_XTAL_OSC_CONF_mem_cm_en_xtal_32k \
+ 0x00000001 // XTAL_EN Override value :
+ // Applicable only when bit [18] of
+ // this register is set to 1.
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// HIB3P3_O_MEM_BGAP_PARAMETERS0 register.
+//
+//******************************************************************************
+#define HIB3P3_MEM_BGAP_PARAMETERS0_reserved_M \
+ 0xFFF80000
+
+#define HIB3P3_MEM_BGAP_PARAMETERS0_reserved_S 19
+#define HIB3P3_MEM_BGAP_PARAMETERS0_mem_en_seq \
+ 0x00040000
+
+#define HIB3P3_MEM_BGAP_PARAMETERS0_mem_vbok4bg_comp_trim_M \
+ 0x0001C000
+
+#define HIB3P3_MEM_BGAP_PARAMETERS0_mem_vbok4bg_comp_trim_S 14
+#define HIB3P3_MEM_BGAP_PARAMETERS0_mem_bgap_en_vbat_ok_4bg \
+ 0x00001000
+
+#define HIB3P3_MEM_BGAP_PARAMETERS0_mem_bgap_en_vbok4bg_comp \
+ 0x00000800
+
+#define HIB3P3_MEM_BGAP_PARAMETERS0_mem_bgap_en_vbok4bg_comp_ref \
+ 0x00000400
+
+#define HIB3P3_MEM_BGAP_PARAMETERS0_mem_bgap_spare_M \
+ 0x000003FF
+
+#define HIB3P3_MEM_BGAP_PARAMETERS0_mem_bgap_spare_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// HIB3P3_O_MEM_BGAP_PARAMETERS1 register.
+//
+//******************************************************************************
+#define HIB3P3_MEM_BGAP_PARAMETERS1_reserved_M \
+ 0xE0000000
+
+#define HIB3P3_MEM_BGAP_PARAMETERS1_reserved_S 29
+#define HIB3P3_MEM_BGAP_PARAMETERS1_mem_bgap_act_iref_itrim_M \
+ 0x1F000000
+
+#define HIB3P3_MEM_BGAP_PARAMETERS1_mem_bgap_act_iref_itrim_S 24
+#define HIB3P3_MEM_BGAP_PARAMETERS1_mem_bgap_en_act_iref \
+ 0x00000008
+
+#define HIB3P3_MEM_BGAP_PARAMETERS1_mem_bgap_en_v2i \
+ 0x00000004
+
+#define HIB3P3_MEM_BGAP_PARAMETERS1_mem_bgap_en_cap_sw \
+ 0x00000002
+
+#define HIB3P3_MEM_BGAP_PARAMETERS1_mem_bgap_en \
+ 0x00000001
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// HIB3P3_O_MEM_HIB_DETECTION_STATUS register.
+//
+//******************************************************************************
+#define HIB3P3_MEM_HIB_DETECTION_STATUS_reserved_M \
+ 0xFFFFFF80
+
+#define HIB3P3_MEM_HIB_DETECTION_STATUS_reserved_S 7
+#define HIB3P3_MEM_HIB_DETECTION_STATUS_hib_forced_ana_status \
+ 0x00000040 // 1 - 1.8 V supply forced mode.
+
+#define HIB3P3_MEM_HIB_DETECTION_STATUS_hib_forced_flash_status \
+ 0x00000004 // 1 - 3.3 V supply forced mode for
+ // Flash supply
+
+#define HIB3P3_MEM_HIB_DETECTION_STATUS_hib_ext_clk_det_out_status \
+ 0x00000002 // 1 - Forced clock mode
+
+#define HIB3P3_MEM_HIB_DETECTION_STATUS_hib_xtal_det_out_status \
+ 0x00000001 // 1 - XTAL clock mode
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// HIB3P3_O_MEM_HIB_MISC_CONTROLS register.
+//
+//******************************************************************************
+#define HIB3P3_MEM_HIB_MISC_CONTROLS_reserved_M \
+ 0xFFFFF800
+
+#define HIB3P3_MEM_HIB_MISC_CONTROLS_reserved_S 11
+#define HIB3P3_MEM_HIB_MISC_CONTROLS_mem_hib_en_pok_por_comp \
+ 0x00000400
+
+#define HIB3P3_MEM_HIB_MISC_CONTROLS_mem_hib_en_pok_por_comp_ref \
+ 0x00000200
+
+#define HIB3P3_MEM_HIB_MISC_CONTROLS_mem_hib_pok_por_comp_trim_M \
+ 0x000001C0
+
+#define HIB3P3_MEM_HIB_MISC_CONTROLS_mem_hib_pok_por_comp_trim_S 6
+#define HIB3P3_MEM_HIB_MISC_CONTROLS_NU1 \
+ 0x00000020
+
+#define HIB3P3_MEM_HIB_MISC_CONTROLS_mem_hib_flash_det_en \
+ 0x00000010
+
+#define HIB3P3_MEM_HIB_MISC_CONTROLS_mem_hib_en_tmux \
+ 0x00000001
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// HIB3P3_O_MEM_HIB_CONFIG register.
+//
+//******************************************************************************
+#define HIB3P3_MEM_HIB_CONFIG_TOP_MUX_CTRL_SOP_SPIO_M \
+ 0xFF000000
+
+#define HIB3P3_MEM_HIB_CONFIG_TOP_MUX_CTRL_SOP_SPIO_S 24
+#define HIB3P3_MEM_HIB_CONFIG_EN_ANA_DIG_SHARED3 \
+ 0x00080000 // 1 - Enable VDD_FLASH_INDP_PAD
+ // for digital path (SHARED4) ; 0 -
+ // Disable VDD_FLASH_INDP_PAD for
+ // digital path (SHARED4) ; Before
+ // programming this bit to 1, ensure
+ // that the device is in FORCED 3.3
+ // supply Mode, which can be
+ // inferred from the register :
+ // MEM_HIB_DETECTION_STATUS : 0x0040
+
+#define HIB3P3_MEM_HIB_CONFIG_EN_ANA_DIG_SHARED2 \
+ 0x00040000 // 1 - Enable the
+ // VDD_FB_GPIO_MUX_PAD for digital
+ // path (SHARED3) ; 0 - Disable the
+ // VDD_FB_GPIO_MUX_PAD for digital
+ // path (SHARED3) ; This pin can be
+ // used only in modes other than
+ // SOP("111")
+
+#define HIB3P3_MEM_HIB_CONFIG_EN_ANA_DIG_SHARED1 \
+ 0x00020000 // 1 - Enable the PM_TEST_PAD for
+ // digital GPIO path (SHARED2) ; 0 -
+ // Disable the PM_TEST_PAD for
+ // digital GPIO path (SHARED2) This
+ // pin can be used for digital only
+ // in modes other then SOP-111
+
+#define HIB3P3_MEM_HIB_CONFIG_EN_ANA_DIG_SHARED0 \
+ 0x00010000 // 1 - Enable the XTAL_N pin
+ // digital GPIO path (SHARED1); 0 -
+ // Disable the XTAL_N pin digital
+ // GPIO path (SHARED1). Before
+ // programming this bit to 1, ensure
+ // that the device is in FORCED CLK
+ // Mode, which can inferred from the
+ // register :
+ // MEM_HIB_DETECTION_STATUS :
+ // 0x0040.
+
+#define HIB3P3_MEM_HIB_CONFIG_mem_hib_xtal_enable \
+ 0x00000100 // 1 - Enable the XTAL Clock ; 0 -
+ // Donot enable the XTAL Clock. This
+ // bit has to be programmed to 1 (by
+ // APPS Devinit F/w), during exit
+ // from OFF or Hib_wo_clks modes,
+ // after checking if the slow_clk
+ // mode is XTAL_CLK mode. Once
+ // enabled the XTAL will be disabled
+ // only after entering HIB_WO_CLKS
+ // mode. This register will be reset
+ // during Hibernate -WO-Clks mode
+ // (but not during Hibernate-W-Clks
+ // mode).
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// HIB3P3_O_MEM_HIB_RTC_IRQ_ENABLE register.
+//
+//******************************************************************************
+#define HIB3P3_MEM_HIB_RTC_IRQ_ENABLE_HIB_RTC_IRQ_ENABLE \
+ 0x00000001 // 1 - Enable the HIB RTC - IRQ ; 0
+ // - Disable the HIB RTC - IRQ
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// HIB3P3_O_MEM_HIB_RTC_IRQ_LSW_CONF register.
+//
+//******************************************************************************
+#define HIB3P3_MEM_HIB_RTC_IRQ_LSW_CONF_HIB_RTC_IRQ_LSW_CONF_M \
+ 0xFFFFFFFF // Configuration for LSW of the
+ // RTC-Timestamp at which interrupt
+ // need to be generated
+
+#define HIB3P3_MEM_HIB_RTC_IRQ_LSW_CONF_HIB_RTC_IRQ_LSW_CONF_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// HIB3P3_O_MEM_HIB_RTC_IRQ_MSW_CONF register.
+//
+//******************************************************************************
+#define HIB3P3_MEM_HIB_RTC_IRQ_MSW_CONF_HIB_RTC_IRQ_MSW_CONF_M \
+ 0x0000FFFF // Configuration for MSW of thr
+ // RTC-Timestamp at which the
+ // interrupt need to be generated
+
+#define HIB3P3_MEM_HIB_RTC_IRQ_MSW_CONF_HIB_RTC_IRQ_MSW_CONF_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// HIB3P3_O_MEM_HIB_UART_CONF register.
+//
+//******************************************************************************
+#define HIB3P3_MEM_HIB_UART_CONF_reserved_M \
+ 0xFFFFFFFE
+
+#define HIB3P3_MEM_HIB_UART_CONF_reserved_S 1
+#define HIB3P3_MEM_HIB_UART_CONF_mem_hib_uart_wake_en \
+ 0x00000001 // 1 - Enable the UART-Autonomous
+ // mode wakeup during Hibernate mode
+ // ; This is an auto-clear bit, once
+ // programmed to 1, it will latched
+ // into an internal register which
+ // remain asserted until the
+ // Hib-wakeup is initiated.
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// HIB3P3_O_MEM_GPIO_WAKE_EN register.
+//
+//******************************************************************************
+#define HIB3P3_MEM_GPIO_WAKE_EN_reserved_M \
+ 0xFFFFFF00
+
+#define HIB3P3_MEM_GPIO_WAKE_EN_reserved_S 8
+#define HIB3P3_MEM_GPIO_WAKE_EN_mem_gpio_wake_en_M \
+ 0x000000FF // 1 - Enable the GPIO-Autonomous
+ // mode wakeup during Hibernate mode
+ // ; This is an auto-clear bit, once
+ // programmed to 1, it will latched
+ // into an internal register which
+ // remain asserted until the
+ // Hib-wakeup is initiated.
+
+#define HIB3P3_MEM_GPIO_WAKE_EN_mem_gpio_wake_en_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// HIB3P3_O_MEM_GPIO_WAKE_CONF register.
+//
+//******************************************************************************
+#define HIB3P3_MEM_GPIO_WAKE_CONF_reserved_M \
+ 0xFFFF0000
+
+#define HIB3P3_MEM_GPIO_WAKE_CONF_reserved_S 16
+#define HIB3P3_MEM_GPIO_WAKE_CONF_mem_gpio_wake_conf_M \
+ 0x0000FFFF // Configuration to say whether the
+ // GPIO wakeup has to happen on
+ // Level0 or falling-edge for the
+ // given group. “00” – Level0 “01” –
+ // Level1 “10”- Fall-edge “11”-
+ // Rise-edge [1:0] – Conf for GPIO0
+ // [3:2] – Conf for GPIO1 [5:4] –
+ // Conf for GPIO2 [7:6] – Conf for
+ // GPIO3 [9:8] – Conf for GPIO4
+ // [11:10] – Conf for GPIO5 [13:12]
+ // – Conf for GPIO6
+
+#define HIB3P3_MEM_GPIO_WAKE_CONF_mem_gpio_wake_conf_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// HIB3P3_O_MEM_PAD_OEN_RET33_CONF register.
+//
+//******************************************************************************
+#define HIB3P3_MEM_PAD_OEN_RET33_CONF_mem_pad_oen_ret33_override_ctrl \
+ 0x00000004 // 1 - Override the OEN33 and RET33
+ // controls of GPIOs during
+ // SOP-Bootdebug mode ; 0 - Donot
+ // override the OEN33 and RET33
+ // controls of GPIOs during
+ // SOP-Bootdebug mode
+
+#define HIB3P3_MEM_PAD_OEN_RET33_CONF_PAD_OEN33_CONF \
+ 0x00000002
+
+#define HIB3P3_MEM_PAD_OEN_RET33_CONF_PAD_RET33_CONF \
+ 0x00000001
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// HIB3P3_O_MEM_UART_RTS_OEN_RET33_CONF register.
+//
+//******************************************************************************
+#define HIB3P3_MEM_UART_RTS_OEN_RET33_CONF_mem_uart_nrts_oen_ret33_override_ctrl \
+ 0x00000004 // 1 - Override the OEN33 and RET33
+ // controls of UART NRTS GPIO during
+ // SOP-Bootdebug mode ; 0 - Donot
+ // override the OEN33 and RET33
+ // controls of UART NRTS GPIO during
+ // SOP-Bootdebug mode
+
+#define HIB3P3_MEM_UART_RTS_OEN_RET33_CONF_PAD_UART_RTS_OEN33_CONF \
+ 0x00000002
+
+#define HIB3P3_MEM_UART_RTS_OEN_RET33_CONF_PAD_UART_RTS_RET33_CONF \
+ 0x00000001
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// HIB3P3_O_MEM_JTAG_CONF register.
+//
+//******************************************************************************
+#define HIB3P3_MEM_JTAG_CONF_mem_jtag1_oen_ret33_override_ctrl \
+ 0x00000200
+
+#define HIB3P3_MEM_JTAG_CONF_mem_jtag0_oen_ret33_override_ctrl \
+ 0x00000100
+
+#define HIB3P3_MEM_JTAG_CONF_PAD_JTAG1_RTS_OEN33_CONF \
+ 0x00000008
+
+#define HIB3P3_MEM_JTAG_CONF_PAD_JTAG1_RTS_RET33_CONF \
+ 0x00000004
+
+#define HIB3P3_MEM_JTAG_CONF_PAD_JTAG0_RTS_OEN33_CONF \
+ 0x00000002
+
+#define HIB3P3_MEM_JTAG_CONF_PAD_JTAG0_RTS_RET33_CONF \
+ 0x00000001
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// HIB3P3_O_MEM_HIB_REG0 register.
+//
+//******************************************************************************
+#define HIB3P3_MEM_HIB_REG0_mem_hib_reg0_M \
+ 0xFFFFFFFF
+
+#define HIB3P3_MEM_HIB_REG0_mem_hib_reg0_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// HIB3P3_O_MEM_HIB_REG1 register.
+//
+//******************************************************************************
+#define HIB3P3_MEM_HIB_REG1_mem_hib_reg1_M \
+ 0xFFFFFFFF
+
+#define HIB3P3_MEM_HIB_REG1_mem_hib_reg1_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// HIB3P3_O_MEM_HIB_REG2 register.
+//
+//******************************************************************************
+#define HIB3P3_MEM_HIB_REG2_mem_hib_reg2_M \
+ 0xFFFFFFFF
+
+#define HIB3P3_MEM_HIB_REG2_mem_hib_reg2_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// HIB3P3_O_MEM_HIB_REG3 register.
+//
+//******************************************************************************
+#define HIB3P3_MEM_HIB_REG3_mem_hib_reg3_M \
+ 0xFFFFFFFF
+
+#define HIB3P3_MEM_HIB_REG3_mem_hib_reg3_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// HIB3P3_O_MEM_HIB_SEQUENCER_CFG0 register.
+//
+//******************************************************************************
+#define HIB3P3_MEM_HIB_SEQUENCER_CFG0_mem_bdc_ev0_to_ev1_time_M \
+ 0xFFFF0000 // Configuration for the number of
+ // slow-clks between de-assertion of
+ // EN_BG_3P3V to assertion of
+ // EN_BG_3P3V
+
+#define HIB3P3_MEM_HIB_SEQUENCER_CFG0_mem_bdc_ev0_to_ev1_time_S 16
+#define HIB3P3_MEM_HIB_SEQUENCER_CFG0_NU1 \
+ 0x00008000
+
+#define HIB3P3_MEM_HIB_SEQUENCER_CFG0_mem_bdc_ev3_to_ev4_time_M \
+ 0x00006000 // Configuration for the number of
+ // slow-clks between assertion of
+ // EN_COMP_3P3V and assertion of
+ // EN_COMP_LATCH_3P3V
+
+#define HIB3P3_MEM_HIB_SEQUENCER_CFG0_mem_bdc_ev3_to_ev4_time_S 13
+#define HIB3P3_MEM_HIB_SEQUENCER_CFG0_mem_bdc_ev2_to_ev3_time_M \
+ 0x00001800 // Configuration for the number of
+ // slow-clks between assertion of
+ // (EN_CAP_SW_3P3V,EN_COMP_REF) and
+ // assertion of (EN_COMP_3P3V)
+
+#define HIB3P3_MEM_HIB_SEQUENCER_CFG0_mem_bdc_ev2_to_ev3_time_S 11
+#define HIB3P3_MEM_HIB_SEQUENCER_CFG0_mem_bdc_ev1_to_ev2_time_M \
+ 0x00000600 // Configuration for the number of
+ // slow-clks between assertion of
+ // (EN_BG_3P3V) and assertion of
+ // (EN_CAP_SW_3P3V,
+ // EN_COMP_REF_3P3V)
+
+#define HIB3P3_MEM_HIB_SEQUENCER_CFG0_mem_bdc_ev1_to_ev2_time_S 9
+#define HIB3P3_MEM_HIB_SEQUENCER_CFG0_mem_en_crude_ref_comp \
+ 0x00000100
+
+#define HIB3P3_MEM_HIB_SEQUENCER_CFG0_mem_en_vbok4bg_ref_override_ctrl \
+ 0x00000080 // 1 - EN_VBOK4BG_REF comes from
+ // bit[10] of the register
+ // MEM_BGAP_PARAMETERS0 [0x0038]. 0
+ // - EN_VBOK4BG_REF comes directly
+ // from the Hib-Sequencer.
+
+#define HIB3P3_MEM_HIB_SEQUENCER_CFG0_mem_en_vbok4bg_comp_override_ctrl \
+ 0x00000040 // 1 - EN_VBOK4BG comes from
+ // bit[11] of the register
+ // MEM_BGAP_PARAMETERS0 [0x0038]. 0
+ // - EN_VBOK4BG comes directly from
+ // the Hib-Sequencer.
+
+#define HIB3P3_MEM_HIB_SEQUENCER_CFG0_mem_en_v2i_override_ctrl \
+ 0x00000020 // 1 - EN_V2I comes from bit[2] of
+ // the register MEM_BGAP_PARAMETERS1
+ // [0x003C]. 0 - EN_V2I comes
+ // directly from the Hib-Sequencer.
+
+#define HIB3P3_MEM_HIB_SEQUENCER_CFG0_mem_por_comp_ref_override_ctrl \
+ 0x00000010 // 1 - EN_POR_COMP_REF comes from
+ // bit[9] of the register
+ // MEM_HIB_MISC_CONTROLS [0x0044]. 0
+ // - EN_POR_COMP_REF comes directly
+ // from the Hib-Sequencer.
+
+#define HIB3P3_MEM_HIB_SEQUENCER_CFG0_mem_en_por_comp_override_ctrl \
+ 0x00000008 // 1 - EN_POR_COMP comes from
+ // bit[10] of the register
+ // MEM_HIB_MISC_CONTROLS [0x044]. 0
+ // - EN_POR_COMP comes directly from
+ // the Hib-Sequencer.
+
+#define HIB3P3_MEM_HIB_SEQUENCER_CFG0_mem_cap_sw_override_ctrl \
+ 0x00000004 // 1 - EN_CAP_SW comes from bit[1]
+ // of the register
+ // MEM_BGAP_PARAMETERS1 [0x003C]. 0
+ // - EN_CAP_SW comes directly from
+ // Hib-Sequencer.
+
+#define HIB3P3_MEM_HIB_SEQUENCER_CFG0_mem_bg_override_ctrl \
+ 0x00000002 // 1 - EN_BGAP comes from bit[0] of
+ // the register MEM_BGAP_PARAMETERS1
+ // [0x003C]. 0 - EN_BGAP comes
+ // directly from Hib-Sequencer.
+
+#define HIB3P3_MEM_HIB_SEQUENCER_CFG0_mem_act_iref_override_ctrl \
+ 0x00000001
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// HIB3P3_O_MEM_HIB_SEQUENCER_CFG1 register.
+//
+//******************************************************************************
+#define HIB3P3_MEM_HIB_SEQUENCER_CFG1_reserved_M \
+ 0xFFFF0000
+
+#define HIB3P3_MEM_HIB_SEQUENCER_CFG1_reserved_S 16
+#define HIB3P3_MEM_HIB_SEQUENCER_CFG1_mem_bdc_ev5_to_ev6_time_M \
+ 0x0000C000 // Configuration for number of
+ // slow-clks between de-assertion of
+ // EN_COMP_LATCH and assertion of
+
+#define HIB3P3_MEM_HIB_SEQUENCER_CFG1_mem_bdc_ev5_to_ev6_time_S 14
+#define HIB3P3_MEM_HIB_SEQUENCER_CFG1_mem_bdc_to_active_ev1_to_ev2_time_M \
+ 0x00003000 // Configuration for number of
+ // slow-clks between assertion of
+ // EN_COMP_REF to assertion of
+ // EN_COMP during HIB-Exit
+
+#define HIB3P3_MEM_HIB_SEQUENCER_CFG1_mem_bdc_to_active_ev1_to_ev2_time_S 12
+#define HIB3P3_MEM_HIB_SEQUENCER_CFG1_mem_bdc_to_active_ev0_to_ev1_time_M \
+ 0x00000C00 // TBD
+
+#define HIB3P3_MEM_HIB_SEQUENCER_CFG1_mem_bdc_to_active_ev0_to_ev1_time_S 10
+#define HIB3P3_MEM_HIB_SEQUENCER_CFG1_mem_bdc_to_active_ev0_to_active_M \
+ 0x00000300 // Configuration in number of
+ // slow-clks between assertion of
+ // (EN_BGAP_3P3V, EN_CAP_SW_3P3V,
+ // EN_ACT_IREF_3P3V, EN_COMP_REF) to
+ // assertion of EN_COMP_3P3V
+
+#define HIB3P3_MEM_HIB_SEQUENCER_CFG1_mem_bdc_to_active_ev0_to_active_S 8
+#define HIB3P3_MEM_HIB_SEQUENCER_CFG1_mem_active_to_bdc_ev1_to_bdc_ev0_time_M \
+ 0x000000C0 // Configuration in number of
+ // slow-clks between de-assertion of
+ // (EN_COMP_3P3V, EN_COMP_REF_3P3V,
+ // EN_ACT_IREF_3P3V, EN_CAP_SW_3P3V)
+ // to deassertion of EN_BGAP_3P3V.
+
+#define HIB3P3_MEM_HIB_SEQUENCER_CFG1_mem_active_to_bdc_ev1_to_bdc_ev0_time_S 6
+#define HIB3P3_MEM_HIB_SEQUENCER_CFG1_NU1_M \
+ 0x0000003F
+
+#define HIB3P3_MEM_HIB_SEQUENCER_CFG1_NU1_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// HIB3P3_O_MEM_HIB_MISC_CONFIG register.
+//
+//******************************************************************************
+#define HIB3P3_MEM_HIB_MISC_CONFIG_mem_en_pll_untrim_current \
+ 0x00000001
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// HIB3P3_O_MEM_HIB_WAKE_STATUS register.
+//
+//******************************************************************************
+#define HIB3P3_MEM_HIB_WAKE_STATUS_hib_wake_src_M \
+ 0x0000001E // "0100" - GPIO ; "0010" - RTC ;
+ // "0001" - UART Others - Reserved
+
+#define HIB3P3_MEM_HIB_WAKE_STATUS_hib_wake_src_S 1
+#define HIB3P3_MEM_HIB_WAKE_STATUS_hib_wake_status \
+ 0x00000001 // 1 - Wake from Hibernate ; 0 -
+ // Wake from OFF
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// HIB3P3_O_MEM_HIB_LPDS_GPIO_SEL register.
+//
+//******************************************************************************
+#define HIB3P3_MEM_HIB_LPDS_GPIO_SEL_HIB_LPDS_GPIO_SEL_M \
+ 0x00000007
+
+#define HIB3P3_MEM_HIB_LPDS_GPIO_SEL_HIB_LPDS_GPIO_SEL_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// HIB3P3_O_MEM_HIB_SEQUENCER_CFG2 register.
+//
+//******************************************************************************
+#define HIB3P3_MEM_HIB_SEQUENCER_CFG2_reserved_M \
+ 0xFFFFF800
+
+#define HIB3P3_MEM_HIB_SEQUENCER_CFG2_reserved_S 11
+#define HIB3P3_MEM_HIB_SEQUENCER_CFG2_mem_active_to_bdc_ev0_to_active_to_bdc_ev1_time_M \
+ 0x00000600 // Deassertion of EN_COMP_LATCH_3P3
+ // to deassertion of (EN_COMP_3P3,
+ // EN_COMP_REF_3P3, EN_ACT_IREF_3P3,
+ // EN_CAP_SW_3P3)
+
+#define HIB3P3_MEM_HIB_SEQUENCER_CFG2_mem_active_to_bdc_ev0_to_active_to_bdc_ev1_time_S 9
+#define HIB3P3_MEM_HIB_SEQUENCER_CFG2_mem_bdc_ev4_to_ev5_time_M \
+ 0x000001C0 // Assertion of EN_COMP_LATCH_3P3
+ // to deassertion of
+ // EN_COMP_LATCH_3P3
+
+#define HIB3P3_MEM_HIB_SEQUENCER_CFG2_mem_bdc_ev4_to_ev5_time_S 6
+#define HIB3P3_MEM_HIB_SEQUENCER_CFG2_mem_bdc_ev6_to_ev7_time_M \
+ 0x00000030 // Deassertion of (EN_CAP_SW_3P3,
+ // EN_COMP_REF_3P3, EN_COMP_3P3,
+ // EN_COMP_OUT_LATCH_3P3) to
+ // deassertion of EN_BGAP_3P3
+
+#define HIB3P3_MEM_HIB_SEQUENCER_CFG2_mem_bdc_ev6_to_ev7_time_S 4
+#define HIB3P3_MEM_HIB_SEQUENCER_CFG2_mem_bdc_to_active_ev1_to_ev2_time_M \
+ 0x0000000C // Assertion of EN_COMP_3P3 to
+ // assertion of EN_COMPOUT_LATCH_3P3
+
+#define HIB3P3_MEM_HIB_SEQUENCER_CFG2_mem_bdc_to_active_ev1_to_ev2_time_S 2
+#define HIB3P3_MEM_HIB_SEQUENCER_CFG2_mem_hib_to_active_ev2_to_ev3_time_M \
+ 0x00000003 // Assertion of EN_COMP_3P3 to
+ // assertion of EN_COMPOUT_LATCH_3P3
+
+#define HIB3P3_MEM_HIB_SEQUENCER_CFG2_mem_hib_to_active_ev2_to_ev3_time_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// HIB3P3_O_HIBANA_SPARE_LOWV register.
+//
+//******************************************************************************
+#define HIB3P3_HIBANA_SPARE_LOWV_mem_hibana_spare1_M \
+ 0xFFC00000
+
+#define HIB3P3_HIBANA_SPARE_LOWV_mem_hibana_spare1_S 22
+#define HIB3P3_HIBANA_SPARE_LOWV_mem_hibana_spare0_M \
+ 0x0001FFFF
+
+#define HIB3P3_HIBANA_SPARE_LOWV_mem_hibana_spare0_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// HIB3P3_O_HIB_TMUX_CTRL register.
+//
+//******************************************************************************
+#define HIB3P3_HIB_TMUX_CTRL_reserved_M \
+ 0xFFFFFC00
+
+#define HIB3P3_HIB_TMUX_CTRL_reserved_S 10
+#define HIB3P3_HIB_TMUX_CTRL_mem_hd_tmux_cntrl_M \
+ 0x000003FF
+
+#define HIB3P3_HIB_TMUX_CTRL_mem_hd_tmux_cntrl_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// HIB3P3_O_HIB_1P2_1P8_LDO_TRIM register.
+//
+//******************************************************************************
+#define HIB3P3_HIB_1P2_1P8_LDO_TRIM_reserved_M \
+ 0xFFFFF000
+
+#define HIB3P3_HIB_1P2_1P8_LDO_TRIM_reserved_S 12
+#define HIB3P3_HIB_1P2_1P8_LDO_TRIM_mem_hd_1p2_ldo_en_override_ctrl \
+ 0x00000800
+
+#define HIB3P3_HIB_1P2_1P8_LDO_TRIM_mem_hd_1p8_ldo_en_override_ctrl \
+ 0x00000400
+
+#define HIB3P3_HIB_1P2_1P8_LDO_TRIM_mem_hd_1p2_ldo_en_override \
+ 0x00000200
+
+#define HIB3P3_HIB_1P2_1P8_LDO_TRIM_mem_hd_1p8_ldo_en_override \
+ 0x00000100
+
+#define HIB3P3_HIB_1P2_1P8_LDO_TRIM_mem_hd_1p2_ldo_vtrim_M \
+ 0x000000F0
+
+#define HIB3P3_HIB_1P2_1P8_LDO_TRIM_mem_hd_1p2_ldo_vtrim_S 4
+#define HIB3P3_HIB_1P2_1P8_LDO_TRIM_mem_hd_1p8_ldo_vtrim_M \
+ 0x0000000F
+
+#define HIB3P3_HIB_1P2_1P8_LDO_TRIM_mem_hd_1p8_ldo_vtrim_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// HIB3P3_O_HIB_COMP_TRIM register.
+//
+//******************************************************************************
+#define HIB3P3_HIB_COMP_TRIM_reserved_M \
+ 0xFFFFFFF8
+
+#define HIB3P3_HIB_COMP_TRIM_reserved_S 3
+#define HIB3P3_HIB_COMP_TRIM_mem_hd_comp_trim_M \
+ 0x00000007
+
+#define HIB3P3_HIB_COMP_TRIM_mem_hd_comp_trim_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// HIB3P3_O_HIB_EN_TS register.
+//
+//******************************************************************************
+#define HIB3P3_HIB_EN_TS_reserved_M \
+ 0xFFFFFFFE
+
+#define HIB3P3_HIB_EN_TS_reserved_S 1
+#define HIB3P3_HIB_EN_TS_mem_hd_en_ts \
+ 0x00000001
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// HIB3P3_O_HIB_1P8V_DET_EN register.
+//
+//******************************************************************************
+#define HIB3P3_HIB_1P8V_DET_EN_reserved_M \
+ 0xFFFFFFFE
+
+#define HIB3P3_HIB_1P8V_DET_EN_reserved_S 1
+#define HIB3P3_HIB_1P8V_DET_EN_mem_hib_1p8v_det_en \
+ 0x00000001
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// HIB3P3_O_HIB_VBAT_MON_EN register.
+//
+//******************************************************************************
+#define HIB3P3_HIB_VBAT_MON_EN_reserved_M \
+ 0xFFFFFFFC
+
+#define HIB3P3_HIB_VBAT_MON_EN_reserved_S 2
+#define HIB3P3_HIB_VBAT_MON_EN_mem_hib_vbat_mon_del_en \
+ 0x00000002
+
+#define HIB3P3_HIB_VBAT_MON_EN_mem_hib_vbat_mon_en \
+ 0x00000001
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// HIB3P3_O_HIB_NHIB_ENABLE register.
+//
+//******************************************************************************
+#define HIB3P3_HIB_NHIB_ENABLE_mem_hib_nhib_enable \
+ 0x00000001
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// HIB3P3_O_HIB_UART_RTS_SW_ENABLE register.
+//
+//******************************************************************************
+#define HIB3P3_HIB_UART_RTS_SW_ENABLE_mem_hib_uart_rts_sw_enable \
+ 0x00000001
+
+
+
+
+#endif // __HW_HIB3P3_H__
diff --git a/cc3200/hal/inc/hw_i2c.h b/cc3200/hal/inc/hw_i2c.h
new file mode 100644
index 000000000..17536d3e9
--- /dev/null
+++ b/cc3200/hal/inc/hw_i2c.h
@@ -0,0 +1,503 @@
+//*****************************************************************************
+//
+// Copyright (C) 2014 Texas Instruments Incorporated - http://www.ti.com/
+//
+//
+// Redistribution and use in source and binary forms, with or without
+// modification, are permitted provided that the following conditions
+// are met:
+//
+// Redistributions of source code must retain the above copyright
+// notice, this list of conditions and the following disclaimer.
+//
+// Redistributions in binary form must reproduce the above copyright
+// notice, this list of conditions and the following disclaimer in the
+// documentation and/or other materials provided with the
+// distribution.
+//
+// Neither the name of Texas Instruments Incorporated nor the names of
+// its contributors may be used to endorse or promote products derived
+// from this software without specific prior written permission.
+//
+// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
+// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
+// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
+// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
+// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
+// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
+// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
+// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
+// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
+// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
+// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+//
+//*****************************************************************************
+
+#ifndef __HW_I2C_H__
+#define __HW_I2C_H__
+
+//*****************************************************************************
+//
+// The following are defines for the I2C register offsets.
+//
+//*****************************************************************************
+#define I2C_O_MSA 0x00000000
+#define I2C_O_MCS 0x00000004
+#define I2C_O_MDR 0x00000008
+#define I2C_O_MTPR 0x0000000C
+#define I2C_O_MIMR 0x00000010
+#define I2C_O_MRIS 0x00000014
+#define I2C_O_MMIS 0x00000018
+#define I2C_O_MICR 0x0000001C
+#define I2C_O_MCR 0x00000020
+#define I2C_O_MCLKOCNT 0x00000024
+#define I2C_O_MBMON 0x0000002C
+#define I2C_O_MBLEN 0x00000030
+#define I2C_O_MBCNT 0x00000034
+#define I2C_O_SOAR 0x00000800
+#define I2C_O_SCSR 0x00000804
+#define I2C_O_SDR 0x00000808
+#define I2C_O_SIMR 0x0000080C
+#define I2C_O_SRIS 0x00000810
+#define I2C_O_SMIS 0x00000814
+#define I2C_O_SICR 0x00000818
+#define I2C_O_SOAR2 0x0000081C
+#define I2C_O_SACKCTL 0x00000820
+#define I2C_O_FIFODATA 0x00000F00
+#define I2C_O_FIFOCTL 0x00000F04
+#define I2C_O_FIFOSTATUS 0x00000F08
+#define I2C_O_OBSMUXSEL0 0x00000F80
+#define I2C_O_OBSMUXSEL1 0x00000F84
+#define I2C_O_MUXROUTE 0x00000F88
+#define I2C_O_PV 0x00000FB0
+#define I2C_O_PP 0x00000FC0
+#define I2C_O_PC 0x00000FC4
+#define I2C_O_CC 0x00000FC8
+
+
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the I2C_O_MSA register.
+//
+//******************************************************************************
+#define I2C_MSA_SA_M 0x000000FE // I2C Slave Address
+#define I2C_MSA_SA_S 1
+#define I2C_MSA_RS 0x00000001 // Receive not send
+//******************************************************************************
+//
+// The following are defines for the bit fields in the I2C_O_MCS register.
+//
+//******************************************************************************
+#define I2C_MCS_ACTDMARX 0x80000000 // DMA RX Active Status
+#define I2C_MCS_ACTDMATX 0x40000000 // DMA TX Active Status
+#define I2C_MCS_CLKTO 0x00000080 // Clock Timeout Error
+#define I2C_MCS_BUSBSY 0x00000040 // Bus Busy
+#define I2C_MCS_IDLE 0x00000020 // I2C Idle
+#define I2C_MCS_ARBLST 0x00000010 // Arbitration Lost
+#define I2C_MCS_ACK 0x00000008 // Data Acknowledge Enable
+#define I2C_MCS_ADRACK 0x00000004 // Acknowledge Address
+#define I2C_MCS_ERROR 0x00000002 // Error
+#define I2C_MCS_BUSY 0x00000001 // I2C Busy
+//******************************************************************************
+//
+// The following are defines for the bit fields in the I2C_O_MDR register.
+//
+//******************************************************************************
+#define I2C_MDR_DATA_M 0x000000FF // Data Transferred
+#define I2C_MDR_DATA_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the I2C_O_MTPR register.
+//
+//******************************************************************************
+#define I2C_MTPR_HS 0x00000080 // High-Speed Enable
+#define I2C_MTPR_TPR_M 0x0000007F // SCL Clock Period
+#define I2C_MTPR_TPR_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the I2C_O_MIMR register.
+//
+//******************************************************************************
+#define I2C_MIMR_RXFFIM 0x00000800 // Receive FIFO Full Interrupt Mask
+#define I2C_MIMR_TXFEIM 0x00000400 // Transmit FIFO Empty Interrupt
+ // Mask
+#define I2C_MIMR_RXIM 0x00000200 // Receive FIFO Request Interrupt
+ // Mask
+#define I2C_MIMR_TXIM 0x00000100 // Transmit FIFO Request Interrupt
+ // Mask
+#define I2C_MIMR_ARBLOSTIM 0x00000080 // Arbitration Lost Interrupt Mask
+#define I2C_MIMR_STOPIM 0x00000040 // STOP Detection Interrupt Mask
+#define I2C_MIMR_STARTIM 0x00000020 // START Detection Interrupt Mask
+#define I2C_MIMR_NACKIM 0x00000010 // Address/Data NACK Interrupt Mask
+#define I2C_MIMR_DMATXIM 0x00000008 // Transmit DMA Interrupt Mask
+#define I2C_MIMR_DMARXIM 0x00000004 // Receive DMA Interrupt Mask
+#define I2C_MIMR_CLKIM 0x00000002 // Clock Timeout Interrupt Mask
+#define I2C_MIMR_IM 0x00000001 // Master Interrupt Mask
+//******************************************************************************
+//
+// The following are defines for the bit fields in the I2C_O_MRIS register.
+//
+//******************************************************************************
+#define I2C_MRIS_RXFFRIS 0x00000800 // Receive FIFO Full Raw Interrupt
+ // Status
+#define I2C_MRIS_TXFERIS 0x00000400 // Transmit FIFO Empty Raw
+ // Interrupt Status
+#define I2C_MRIS_RXRIS 0x00000200 // Receive FIFO Request Raw
+ // Interrupt Status
+#define I2C_MRIS_TXRIS 0x00000100 // Transmit Request Raw Interrupt
+ // Status
+#define I2C_MRIS_ARBLOSTRIS 0x00000080 // Arbitration Lost Raw Interrupt
+ // Status
+#define I2C_MRIS_STOPRIS 0x00000040 // STOP Detection Raw Interrupt
+ // Status
+#define I2C_MRIS_STARTRIS 0x00000020 // START Detection Raw Interrupt
+ // Status
+#define I2C_MRIS_NACKRIS 0x00000010 // Address/Data NACK Raw Interrupt
+ // Status
+#define I2C_MRIS_DMATXRIS 0x00000008 // Transmit DMA Raw Interrupt
+ // Status
+#define I2C_MRIS_DMARXRIS 0x00000004 // Receive DMA Raw Interrupt Status
+#define I2C_MRIS_CLKRIS 0x00000002 // Clock Timeout Raw Interrupt
+ // Status
+#define I2C_MRIS_RIS 0x00000001 // Master Raw Interrupt Status
+//******************************************************************************
+//
+// The following are defines for the bit fields in the I2C_O_MMIS register.
+//
+//******************************************************************************
+#define I2C_MMIS_RXFFMIS 0x00000800 // Receive FIFO Full Interrupt Mask
+#define I2C_MMIS_TXFEMIS 0x00000400 // Transmit FIFO Empty Interrupt
+ // Mask
+#define I2C_MMIS_RXMIS 0x00000200 // Receive FIFO Request Interrupt
+ // Mask
+#define I2C_MMIS_TXMIS 0x00000100 // Transmit Request Interrupt Mask
+#define I2C_MMIS_ARBLOSTMIS 0x00000080 // Arbitration Lost Interrupt Mask
+#define I2C_MMIS_STOPMIS 0x00000040 // STOP Detection Interrupt Mask
+#define I2C_MMIS_STARTMIS 0x00000020 // START Detection Interrupt Mask
+#define I2C_MMIS_NACKMIS 0x00000010 // Address/Data NACK Interrupt Mask
+#define I2C_MMIS_DMATXMIS 0x00000008 // Transmit DMA Interrupt Status
+#define I2C_MMIS_DMARXMIS 0x00000004 // Receive DMA Interrupt Status
+#define I2C_MMIS_CLKMIS 0x00000002 // Clock Timeout Masked Interrupt
+ // Status
+#define I2C_MMIS_MIS 0x00000001 // Masked Interrupt Status
+//******************************************************************************
+//
+// The following are defines for the bit fields in the I2C_O_MICR register.
+//
+//******************************************************************************
+#define I2C_MICR_RXFFIC 0x00000800 // Receive FIFO Full Interrupt
+ // Clear
+#define I2C_MICR_TXFEIC 0x00000400 // Transmit FIFO Empty Interrupt
+ // Clear
+#define I2C_MICR_RXIC 0x00000200 // Receive FIFO Request Interrupt
+ // Clear
+#define I2C_MICR_TXIC 0x00000100 // Transmit FIFO Request Interrupt
+ // Clear
+#define I2C_MICR_ARBLOSTIC 0x00000080 // Arbitration Lost Interrupt Clear
+#define I2C_MICR_STOPIC 0x00000040 // STOP Detection Interrupt Clear
+#define I2C_MICR_STARTIC 0x00000020 // START Detection Interrupt Clear
+#define I2C_MICR_NACKIC 0x00000010 // Address/Data NACK Interrupt
+ // Clear
+#define I2C_MICR_DMATXIC 0x00000008 // Transmit DMA Interrupt Clear
+#define I2C_MICR_DMARXIC 0x00000004 // Receive DMA Interrupt Clear
+#define I2C_MICR_CLKIC 0x00000002 // Clock Timeout Interrupt Clear
+#define I2C_MICR_IC 0x00000001 // Master Interrupt Clear
+//******************************************************************************
+//
+// The following are defines for the bit fields in the I2C_O_MCR register.
+//
+//******************************************************************************
+#define I2C_MCR_MMD 0x00000040 // Multi-master Disable
+#define I2C_MCR_SFE 0x00000020 // I2C Slave Function Enable
+#define I2C_MCR_MFE 0x00000010 // I2C Master Function Enable
+#define I2C_MCR_LPBK 0x00000001 // I2C Loopback
+//******************************************************************************
+//
+// The following are defines for the bit fields in the I2C_O_MCLKOCNT register.
+//
+//******************************************************************************
+#define I2C_MCLKOCNT_CNTL_M 0x000000FF // I2C Master Count
+#define I2C_MCLKOCNT_CNTL_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the I2C_O_MBMON register.
+//
+//******************************************************************************
+#define I2C_MBMON_SDA 0x00000002 // I2C SDA Status
+#define I2C_MBMON_SCL 0x00000001 // I2C SCL Status
+//******************************************************************************
+//
+// The following are defines for the bit fields in the I2C_O_MBLEN register.
+//
+//******************************************************************************
+#define I2C_MBLEN_CNTL_M 0x000000FF // I2C Burst Length
+#define I2C_MBLEN_CNTL_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the I2C_O_MBCNT register.
+//
+//******************************************************************************
+#define I2C_MBCNT_CNTL_M 0x000000FF // I2C Master Burst Count
+#define I2C_MBCNT_CNTL_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the I2C_O_SOAR register.
+//
+//******************************************************************************
+#define I2C_SOAR_OAR_M 0x0000007F // I2C Slave Own Address
+#define I2C_SOAR_OAR_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the I2C_O_SCSR register.
+//
+//******************************************************************************
+#define I2C_SCSR_ACTDMARX 0x80000000 // DMA RX Active Status
+#define I2C_SCSR_ACTDMATX 0x40000000 // DMA TX Active Status
+#define I2C_SCSR_QCMDRW 0x00000020 // Quick Command Read / Write
+#define I2C_SCSR_QCMDST 0x00000010 // Quick Command Status
+#define I2C_SCSR_OAR2SEL 0x00000008 // OAR2 Address Matched
+#define I2C_SCSR_FBR 0x00000004 // First Byte Received
+#define I2C_SCSR_TREQ 0x00000002 // Transmit Request
+#define I2C_SCSR_DA 0x00000001 // Device Active
+//******************************************************************************
+//
+// The following are defines for the bit fields in the I2C_O_SDR register.
+//
+//******************************************************************************
+#define I2C_SDR_DATA_M 0x000000FF // Data for Transfer
+#define I2C_SDR_DATA_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the I2C_O_SIMR register.
+//
+//******************************************************************************
+#define I2C_SIMR_IM 0x00000100 // Interrupt Mask
+#define I2C_SIMR_TXFEIM 0x00000080 // Transmit FIFO Empty Interrupt
+ // Mask
+#define I2C_SIMR_RXIM 0x00000040 // Receive FIFO Request Interrupt
+ // Mask
+#define I2C_SIMR_TXIM 0x00000020 // Transmit FIFO Request Interrupt
+ // Mask
+#define I2C_SIMR_DMATXIM 0x00000010 // Transmit DMA Interrupt Mask
+#define I2C_SIMR_DMARXIM 0x00000008 // Receive DMA Interrupt Mask
+#define I2C_SIMR_STOPIM 0x00000004 // Stop Condition Interrupt Mask
+#define I2C_SIMR_STARTIM 0x00000002 // Start Condition Interrupt Mask
+#define I2C_SIMR_DATAIM 0x00000001 // Data Interrupt Mask
+//******************************************************************************
+//
+// The following are defines for the bit fields in the I2C_O_SRIS register.
+//
+//******************************************************************************
+#define I2C_SRIS_RIS 0x00000100 // Raw Interrupt Status
+#define I2C_SRIS_TXFERIS 0x00000080 // Transmit FIFO Empty Raw
+ // Interrupt Status
+#define I2C_SRIS_RXRIS 0x00000040 // Receive FIFO Request Raw
+ // Interrupt Status
+#define I2C_SRIS_TXRIS 0x00000020 // Transmit Request Raw Interrupt
+ // Status
+#define I2C_SRIS_DMATXRIS 0x00000010 // Transmit DMA Raw Interrupt
+ // Status
+#define I2C_SRIS_DMARXRIS 0x00000008 // Receive DMA Raw Interrupt Status
+#define I2C_SRIS_STOPRIS 0x00000004 // Stop Condition Raw Interrupt
+ // Status
+#define I2C_SRIS_STARTRIS 0x00000002 // Start Condition Raw Interrupt
+ // Status
+#define I2C_SRIS_DATARIS 0x00000001 // Data Raw Interrupt Status
+//******************************************************************************
+//
+// The following are defines for the bit fields in the I2C_O_SMIS register.
+//
+//******************************************************************************
+#define I2C_SMIS_RXFFMIS 0x00000100 // Receive FIFO Full Interrupt Mask
+#define I2C_SMIS_TXFEMIS 0x00000080 // Transmit FIFO Empty Interrupt
+ // Mask
+#define I2C_SMIS_RXMIS 0x00000040 // Receive FIFO Request Interrupt
+ // Mask
+#define I2C_SMIS_TXMIS 0x00000020 // Transmit FIFO Request Interrupt
+ // Mask
+#define I2C_SMIS_DMATXMIS 0x00000010 // Transmit DMA Masked Interrupt
+ // Status
+#define I2C_SMIS_DMARXMIS 0x00000008 // Receive DMA Masked Interrupt
+ // Status
+#define I2C_SMIS_STOPMIS 0x00000004 // Stop Condition Masked Interrupt
+ // Status
+#define I2C_SMIS_STARTMIS 0x00000002 // Start Condition Masked Interrupt
+ // Status
+#define I2C_SMIS_DATAMIS 0x00000001 // Data Masked Interrupt Status
+//******************************************************************************
+//
+// The following are defines for the bit fields in the I2C_O_SICR register.
+//
+//******************************************************************************
+#define I2C_SICR_RXFFIC 0x00000100 // Receive FIFO Full Interrupt Mask
+#define I2C_SICR_TXFEIC 0x00000080 // Transmit FIFO Empty Interrupt
+ // Mask
+#define I2C_SICR_RXIC 0x00000040 // Receive Request Interrupt Mask
+#define I2C_SICR_TXIC 0x00000020 // Transmit Request Interrupt Mask
+#define I2C_SICR_DMATXIC 0x00000010 // Transmit DMA Interrupt Clear
+#define I2C_SICR_DMARXIC 0x00000008 // Receive DMA Interrupt Clear
+#define I2C_SICR_STOPIC 0x00000004 // Stop Condition Interrupt Clear
+#define I2C_SICR_STARTIC 0x00000002 // Start Condition Interrupt Clear
+#define I2C_SICR_DATAIC 0x00000001 // Data Interrupt Clear
+//******************************************************************************
+//
+// The following are defines for the bit fields in the I2C_O_SOAR2 register.
+//
+//******************************************************************************
+#define I2C_SOAR2_OAR2EN 0x00000080 // I2C Slave Own Address 2 Enable
+#define I2C_SOAR2_OAR2_M 0x0000007F // I2C Slave Own Address 2
+#define I2C_SOAR2_OAR2_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the I2C_O_SACKCTL register.
+//
+//******************************************************************************
+#define I2C_SACKCTL_ACKOVAL 0x00000002 // I2C Slave ACK Override Value
+#define I2C_SACKCTL_ACKOEN 0x00000001 // I2C Slave ACK Override Enable
+//******************************************************************************
+//
+// The following are defines for the bit fields in the I2C_O_FIFODATA register.
+//
+//******************************************************************************
+#define I2C_FIFODATA_DATA_M 0x000000FF // I2C FIFO Data Byte
+#define I2C_FIFODATA_DATA_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the I2C_O_FIFOCTL register.
+//
+//******************************************************************************
+#define I2C_FIFOCTL_RXASGNMT 0x80000000 // RX Control Assignment
+#define I2C_FIFOCTL_RXFLUSH 0x40000000 // RX FIFO Flush
+#define I2C_FIFOCTL_DMARXENA 0x20000000 // DMA RX Channel Enable
+#define I2C_FIFOCTL_RXTRIG_M 0x00070000 // RX FIFO Trigger
+#define I2C_FIFOCTL_RXTRIG_S 16
+#define I2C_FIFOCTL_TXASGNMT 0x00008000 // TX Control Assignment
+#define I2C_FIFOCTL_TXFLUSH 0x00004000 // TX FIFO Flush
+#define I2C_FIFOCTL_DMATXENA 0x00002000 // DMA TX Channel Enable
+#define I2C_FIFOCTL_TXTRIG_M 0x00000007 // TX FIFO Trigger
+#define I2C_FIFOCTL_TXTRIG_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the I2C_O_FIFOSTATUS register.
+//
+//******************************************************************************
+#define I2C_FIFOSTATUS_RXABVTRIG \
+ 0x00040000 // RX FIFO Above Trigger Level
+
+#define I2C_FIFOSTATUS_RXFF 0x00020000 // RX FIFO Full
+#define I2C_FIFOSTATUS_RXFE 0x00010000 // RX FIFO Empty
+#define I2C_FIFOSTATUS_TXBLWTRIG \
+ 0x00000004 // TX FIFO Below Trigger Level
+
+#define I2C_FIFOSTATUS_TXFF 0x00000002 // TX FIFO Full
+#define I2C_FIFOSTATUS_TXFE 0x00000001 // TX FIFO Empty
+//******************************************************************************
+//
+// The following are defines for the bit fields in the I2C_O_OBSMUXSEL0 register.
+//
+//******************************************************************************
+#define I2C_OBSMUXSEL0_LN3_M 0x07000000 // Observation Mux Lane 3
+#define I2C_OBSMUXSEL0_LN3_S 24
+#define I2C_OBSMUXSEL0_LN2_M 0x00070000 // Observation Mux Lane 2
+#define I2C_OBSMUXSEL0_LN2_S 16
+#define I2C_OBSMUXSEL0_LN1_M 0x00000700 // Observation Mux Lane 1
+#define I2C_OBSMUXSEL0_LN1_S 8
+#define I2C_OBSMUXSEL0_LN0_M 0x00000007 // Observation Mux Lane 0
+#define I2C_OBSMUXSEL0_LN0_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the I2C_O_OBSMUXSEL1 register.
+//
+//******************************************************************************
+#define I2C_OBSMUXSEL1_LN7_M 0x07000000 // Observation Mux Lane 7
+#define I2C_OBSMUXSEL1_LN7_S 24
+#define I2C_OBSMUXSEL1_LN6_M 0x00070000 // Observation Mux Lane 6
+#define I2C_OBSMUXSEL1_LN6_S 16
+#define I2C_OBSMUXSEL1_LN5_M 0x00000700 // Observation Mux Lane 5
+#define I2C_OBSMUXSEL1_LN5_S 8
+#define I2C_OBSMUXSEL1_LN4_M 0x00000007 // Observation Mux Lane 4
+#define I2C_OBSMUXSEL1_LN4_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the I2C_O_MUXROUTE register.
+//
+//******************************************************************************
+#define I2C_MUXROUTE_LN7ROUTE_M \
+ 0x70000000 // Lane 7 output is routed to the
+ // lane pointed to by the offset in
+ // this bit field
+
+#define I2C_MUXROUTE_LN7ROUTE_S 28
+#define I2C_MUXROUTE_LN6ROUTE_M \
+ 0x07000000 // Lane 6 output is routed to the
+ // lane pointed to by the offset in
+ // this bit field
+
+#define I2C_MUXROUTE_LN6ROUTE_S 24
+#define I2C_MUXROUTE_LN5ROUTE_M \
+ 0x00700000 // Lane 5 output is routed to the
+ // lane pointed to by the offset in
+ // this bit field
+
+#define I2C_MUXROUTE_LN5ROUTE_S 20
+#define I2C_MUXROUTE_LN4ROUTE_M \
+ 0x00070000 // Lane 4 output is routed to the
+ // lane pointed to by the offset in
+ // this bit field
+
+#define I2C_MUXROUTE_LN4ROUTE_S 16
+#define I2C_MUXROUTE_LN3ROUTE_M \
+ 0x00007000 // Lane 3 output is routed to the
+ // lane pointed to by the offset in
+ // this bit field
+
+#define I2C_MUXROUTE_LN3ROUTE_S 12
+#define I2C_MUXROUTE_LN2ROUTE_M \
+ 0x00000700 // Lane 2 output is routed to the
+ // lane pointed to by the offset in
+ // this bit field
+
+#define I2C_MUXROUTE_LN2ROUTE_S 8
+#define I2C_MUXROUTE_LN1ROUTE_M \
+ 0x00000070 // Lane 1 output is routed to the
+ // lane pointed to by the offset in
+ // this bit field
+
+#define I2C_MUXROUTE_LN1ROUTE_S 4
+#define I2C_MUXROUTE_LN0ROUTE_M \
+ 0x00000007 // Lane 0 output is routed to the
+ // lane pointed to by the offset in
+ // this bit field
+
+#define I2C_MUXROUTE_LN0ROUTE_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the I2C_O_PV register.
+//
+//******************************************************************************
+#define I2C_PV_MAJOR_M 0x0000FF00 // Major Revision
+#define I2C_PV_MAJOR_S 8
+#define I2C_PV_MINOR_M 0x000000FF // Minor Revision
+#define I2C_PV_MINOR_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the I2C_O_PP register.
+//
+//******************************************************************************
+#define I2C_PP_HS 0x00000001 // High-Speed Capable
+//******************************************************************************
+//
+// The following are defines for the bit fields in the I2C_O_PC register.
+//
+//******************************************************************************
+#define I2C_PC_HS 0x00000001 // High-Speed Capable
+//******************************************************************************
+//
+// The following are defines for the bit fields in the I2C_O_CC register.
+//
+//******************************************************************************
+
+
+
+#endif // __HW_I2C_H__
diff --git a/cc3200/hal/inc/hw_ints.h b/cc3200/hal/inc/hw_ints.h
new file mode 100644
index 000000000..6b4019355
--- /dev/null
+++ b/cc3200/hal/inc/hw_ints.h
@@ -0,0 +1,117 @@
+//*****************************************************************************
+//
+// Copyright (C) 2014 Texas Instruments Incorporated - http://www.ti.com/
+//
+//
+// Redistribution and use in source and binary forms, with or without
+// modification, are permitted provided that the following conditions
+// are met:
+//
+// Redistributions of source code must retain the above copyright
+// notice, this list of conditions and the following disclaimer.
+//
+// Redistributions in binary form must reproduce the above copyright
+// notice, this list of conditions and the following disclaimer in the
+// documentation and/or other materials provided with the
+// distribution.
+//
+// Neither the name of Texas Instruments Incorporated nor the names of
+// its contributors may be used to endorse or promote products derived
+// from this software without specific prior written permission.
+//
+// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
+// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
+// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
+// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
+// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
+// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
+// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
+// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
+// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
+// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
+// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+//
+//*****************************************************************************
+
+//*****************************************************************************
+//
+// hw_ints.h - Macros that define the interrupt assignment on CC3200.
+//
+//*****************************************************************************
+
+#ifndef __HW_INTS_H__
+#define __HW_INTS_H__
+
+//*****************************************************************************
+//
+// The following are defines for the fault assignments.
+//
+//*****************************************************************************
+#define FAULT_NMI 2 // NMI fault
+#define FAULT_HARD 3 // Hard fault
+#define FAULT_MPU 4 // MPU fault
+#define FAULT_BUS 5 // Bus fault
+#define FAULT_USAGE 6 // Usage fault
+#define FAULT_SVCALL 11 // SVCall
+#define FAULT_DEBUG 12 // Debug monitor
+#define FAULT_PENDSV 14 // PendSV
+#define FAULT_SYSTICK 15 // System Tick
+
+//*****************************************************************************
+//
+// The following are defines for the interrupt assignments.
+//
+//*****************************************************************************
+#define INT_GPIOA0 16 // GPIO Port S0
+#define INT_GPIOA1 17 // GPIO Port S1
+#define INT_GPIOA2 18 // GPIO Port S2
+#define INT_GPIOA3 19 // GPIO Port S3
+#define INT_UARTA0 21 // UART0 Rx and Tx
+#define INT_UARTA1 22 // UART1 Rx and Tx
+#define INT_I2CA0 24 // I2C controller
+#define INT_ADCCH0 30 // ADC Sequence 0
+#define INT_ADCCH1 31 // ADC Sequence 1
+#define INT_ADCCH2 32 // ADC Sequence 2
+#define INT_ADCCH3 33 // ADC Sequence 3
+#define INT_WDT 34 // Watchdog Timer0
+#define INT_TIMERA0A 35 // Timer 0 subtimer A
+#define INT_TIMERA0B 36 // Timer 0 subtimer B
+#define INT_TIMERA1A 37 // Timer 1 subtimer A
+#define INT_TIMERA1B 38 // Timer 1 subtimer B
+#define INT_TIMERA2A 39 // Timer 2 subtimer A
+#define INT_TIMERA2B 40 // Timer 2 subtimer B
+#define INT_FLASH 45 // FLASH Control
+#define INT_TIMERA3A 51 // Timer 3 subtimer A
+#define INT_TIMERA3B 52 // Timer 3 subtimer B
+#define INT_UDMA 62 // uDMA controller
+#define INT_UDMAERR 63 // uDMA Error
+#define INT_SHA 164 // SHA
+#define INT_AES 167 // AES
+#define INT_DES 169 // DES
+#define INT_MMCHS 175 // SDIO
+#define INT_I2S 177 // McAPS
+#define INT_CAMERA 179 // Camera
+#define INT_NWPIC 187 // Interprocessor communication
+#define INT_PRCM 188 // Power, Reset and Clock Module
+#define INT_SSPI 191 // Shared SPI
+#define INT_GSPI 192 // Generic SPI
+#define INT_LSPI 193 // Link SPI
+
+//*****************************************************************************
+//
+// The following are defines for the total number of interrupts.
+//
+//*****************************************************************************
+#define NUM_INTERRUPTS 195 //The above number plus 2?
+
+
+//*****************************************************************************
+//
+// The following are defines for the total number of priority levels.
+//
+//*****************************************************************************
+#define NUM_PRIORITY 8
+#define NUM_PRIORITY_BITS 3
+
+
+#endif // __HW_INTS_H__
diff --git a/cc3200/hal/inc/hw_mcasp.h b/cc3200/hal/inc/hw_mcasp.h
new file mode 100644
index 000000000..c27a00779
--- /dev/null
+++ b/cc3200/hal/inc/hw_mcasp.h
@@ -0,0 +1,1706 @@
+//*****************************************************************************
+//
+// Copyright (C) 2014 Texas Instruments Incorporated - http://www.ti.com/
+//
+//
+// Redistribution and use in source and binary forms, with or without
+// modification, are permitted provided that the following conditions
+// are met:
+//
+// Redistributions of source code must retain the above copyright
+// notice, this list of conditions and the following disclaimer.
+//
+// Redistributions in binary form must reproduce the above copyright
+// notice, this list of conditions and the following disclaimer in the
+// documentation and/or other materials provided with the
+// distribution.
+//
+// Neither the name of Texas Instruments Incorporated nor the names of
+// its contributors may be used to endorse or promote products derived
+// from this software without specific prior written permission.
+//
+// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
+// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
+// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
+// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
+// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
+// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
+// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
+// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
+// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
+// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
+// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+//
+//*****************************************************************************
+
+#ifndef __HW_MCASP_H__
+#define __HW_MCASP_H__
+
+//*****************************************************************************
+//
+// The following are defines for the MCASP register offsets.
+//
+//*****************************************************************************
+#define MCASP_O_PID 0x00000000
+#define MCASP_O_ESYSCONFIG 0x00000004 // Power Idle SYSCONFIG register.
+#define MCASP_O_PFUNC 0x00000010
+#define MCASP_O_PDIR 0x00000014
+#define MCASP_O_PDOUT 0x00000018
+#define MCASP_O_PDSET 0x0000001C // The pin data set register
+ // (PDSET) is an alias of the pin
+ // data output register (PDOUT) for
+ // writes only. Writing a 1 to the
+ // PDSET bit sets the corresponding
+ // bit in PDOUT and if PFUNC = 1
+ // (GPIO function) and PDIR = 1
+ // (output) drives a logic high on
+ // the pin.
+#define MCASP_O_PDIN 0x0000001C // The pin data input register
+ // (PDIN) holds the I/O pin state of
+ // each of the McASP pins. PDIN
+ // allows the actual value of the
+ // pin to be read regardless of the
+ // state of PFUNC and PDIR.
+#define MCASP_O_PDCLR 0x00000020 // The pin data clear register
+ // (PDCLR) is an alias of the pin
+ // data output register (PDOUT) for
+ // writes only. Writing a 1 to the
+ // PDCLR bit clears the
+ // corresponding bit in PDOUT and if
+ // PFUNC = 1 (GPIO function) and
+ // PDIR = 1 (output) drives a logic
+ // low on the pin.
+#define MCASP_O_TLGC 0x00000030 // for IODFT
+#define MCASP_O_TLMR 0x00000034 // for IODFT
+#define MCASP_O_TLEC 0x00000038 // for IODFT
+#define MCASP_O_GBLCTL 0x00000044
+#define MCASP_O_AMUTE 0x00000048
+#define MCASP_O_LBCTL 0x0000004C
+#define MCASP_O_TXDITCTL 0x00000050
+#define MCASP_O_GBLCTLR 0x00000060
+#define MCASP_O_RXMASK 0x00000064
+#define MCASP_O_RXFMT 0x00000068
+#define MCASP_O_RXFMCTL 0x0000006C
+#define MCASP_O_ACLKRCTL 0x00000070
+#define MCASP_O_AHCLKRCTL 0x00000074
+#define MCASP_O_RXTDM 0x00000078
+#define MCASP_O_EVTCTLR 0x0000007C
+#define MCASP_O_RXSTAT 0x00000080
+#define MCASP_O_RXTDMSLOT 0x00000084
+#define MCASP_O_RXCLKCHK 0x00000088
+#define MCASP_O_REVTCTL 0x0000008C
+#define MCASP_O_GBLCTLX 0x000000A0
+#define MCASP_O_TXMASK 0x000000A4
+#define MCASP_O_TXFMT 0x000000A8
+#define MCASP_O_TXFMCTL 0x000000AC
+#define MCASP_O_ACLKXCTL 0x000000B0
+#define MCASP_O_AHCLKXCTL 0x000000B4
+#define MCASP_O_TXTDM 0x000000B8
+#define MCASP_O_EVTCTLX 0x000000BC
+#define MCASP_O_TXSTAT 0x000000C0
+#define MCASP_O_TXTDMSLOT 0x000000C4
+#define MCASP_O_TXCLKCHK 0x000000C8
+#define MCASP_O_XEVTCTL 0x000000CC
+#define MCASP_O_CLKADJEN 0x000000D0
+#define MCASP_O_DITCSRA0 0x00000100
+#define MCASP_O_DITCSRA1 0x00000104
+#define MCASP_O_DITCSRA2 0x00000108
+#define MCASP_O_DITCSRA3 0x0000010C
+#define MCASP_O_DITCSRA4 0x00000110
+#define MCASP_O_DITCSRA5 0x00000114
+#define MCASP_O_DITCSRB0 0x00000118
+#define MCASP_O_DITCSRB1 0x0000011C
+#define MCASP_O_DITCSRB2 0x00000120
+#define MCASP_O_DITCSRB3 0x00000124
+#define MCASP_O_DITCSRB4 0x00000128
+#define MCASP_O_DITCSRB5 0x0000012C
+#define MCASP_O_DITUDRA0 0x00000130
+#define MCASP_O_DITUDRA1 0x00000134
+#define MCASP_O_DITUDRA2 0x00000138
+#define MCASP_O_DITUDRA3 0x0000013C
+#define MCASP_O_DITUDRA4 0x00000140
+#define MCASP_O_DITUDRA5 0x00000144
+#define MCASP_O_DITUDRB0 0x00000148
+#define MCASP_O_DITUDRB1 0x0000014C
+#define MCASP_O_DITUDRB2 0x00000150
+#define MCASP_O_DITUDRB3 0x00000154
+#define MCASP_O_DITUDRB4 0x00000158
+#define MCASP_O_DITUDRB5 0x0000015C
+#define MCASP_O_XRSRCTL0 0x00000180
+#define MCASP_O_XRSRCTL1 0x00000184
+#define MCASP_O_XRSRCTL2 0x00000188
+#define MCASP_O_XRSRCTL3 0x0000018C
+#define MCASP_O_XRSRCTL4 0x00000190
+#define MCASP_O_XRSRCTL5 0x00000194
+#define MCASP_O_XRSRCTL6 0x00000198
+#define MCASP_O_XRSRCTL7 0x0000019C
+#define MCASP_O_XRSRCTL8 0x000001A0
+#define MCASP_O_XRSRCTL9 0x000001A4
+#define MCASP_O_XRSRCTL10 0x000001A8
+#define MCASP_O_XRSRCTL11 0x000001AC
+#define MCASP_O_XRSRCTL12 0x000001B0
+#define MCASP_O_XRSRCTL13 0x000001B4
+#define MCASP_O_XRSRCTL14 0x000001B8
+#define MCASP_O_XRSRCTL15 0x000001BC
+#define MCASP_O_TXBUF0 0x00000200
+#define MCASP_O_TXBUF1 0x00000204
+#define MCASP_O_TXBUF2 0x00000208
+#define MCASP_O_TXBUF3 0x0000020C
+#define MCASP_O_TXBUF4 0x00000210
+#define MCASP_O_TXBUF5 0x00000214
+#define MCASP_O_TXBUF6 0x00000218
+#define MCASP_O_TXBUF7 0x0000021C
+#define MCASP_O_TXBUF8 0x00000220
+#define MCASP_O_TXBUF9 0x00000224
+#define MCASP_O_TXBUF10 0x00000228
+#define MCASP_O_TXBUF11 0x0000022C
+#define MCASP_O_TXBUF12 0x00000230
+#define MCASP_O_TXBUF13 0x00000234
+#define MCASP_O_TXBUF14 0x00000238
+#define MCASP_O_TXBUF15 0x0000023C
+#define MCASP_O_RXBUF0 0x00000280
+#define MCASP_O_RXBUF1 0x00000284
+#define MCASP_O_RXBUF2 0x00000288
+#define MCASP_O_RXBUF3 0x0000028C
+#define MCASP_O_RXBUF4 0x00000290
+#define MCASP_O_RXBUF5 0x00000294
+#define MCASP_O_RXBUF6 0x00000298
+#define MCASP_O_RXBUF7 0x0000029C
+#define MCASP_O_RXBUF8 0x000002A0
+#define MCASP_O_RXBUF9 0x000002A4
+#define MCASP_O_RXBUF10 0x000002A8
+#define MCASP_O_RXBUF11 0x000002AC
+#define MCASP_O_RXBUF12 0x000002B0
+#define MCASP_O_RXBUF13 0x000002B4
+#define MCASP_O_RXBUF14 0x000002B8
+#define MCASP_O_RXBUF15 0x000002BC
+#define MCASP_0_WFIFOCTL 0x00001000
+#define MCASP_0_WFIFOSTS 0x00001004
+#define MCASP_0_RFIFOCTL 0x00001008
+#define MCASP_0_RFIFOSTS 0x0000100C
+
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MCASP_O_PID register.
+//
+//******************************************************************************
+#define MCASP_PID_SCHEME_M 0xC0000000
+#define MCASP_PID_SCHEME_S 30
+#define MCASP_PID_RESV_M 0x30000000
+#define MCASP_PID_RESV_S 28
+#define MCASP_PID_FUNCTION_M 0x0FFF0000 // McASP
+#define MCASP_PID_FUNCTION_S 16
+#define MCASP_PID_RTL_M 0x0000F800
+#define MCASP_PID_RTL_S 11
+#define MCASP_PID_REVMAJOR_M 0x00000700
+#define MCASP_PID_REVMAJOR_S 8
+#define MCASP_PID_CUSTOM_M 0x000000C0 // non-custom
+#define MCASP_PID_CUSTOM_S 6
+#define MCASP_PID_REVMINOR_M 0x0000003F
+#define MCASP_PID_REVMINOR_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// MCASP_O_ESYSCONFIG register.
+//
+//******************************************************************************
+#define MCASP_ESYSCONFIG_RSV_M 0xFFFFFFC0 // Reserved as per PDR 3.5
+#define MCASP_ESYSCONFIG_RSV_S 6
+#define MCASP_ESYSCONFIG_OTHER_M \
+ 0x0000003C // Reserved for future expansion
+
+#define MCASP_ESYSCONFIG_OTHER_S 2
+#define MCASP_ESYSCONFIG_IDLE_MODE_M \
+ 0x00000003 // Idle Mode
+
+#define MCASP_ESYSCONFIG_IDLE_MODE_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MCASP_O_PFUNC register.
+//
+//******************************************************************************
+#define MCASP_PFUNC_AFSR 0x80000000 // AFSR PFUNC 31 0 1
+#define MCASP_PFUNC_AHCLKR 0x40000000 // AHCLKR PFUNC 30 0 1
+#define MCASP_PFUNC_ACLKR 0x20000000 // ACLKR PFUNC 29 0 1
+#define MCASP_PFUNC_AFSX 0x10000000 // AFSX PFUNC 28 0 1
+#define MCASP_PFUNC_AHCLKX 0x08000000 // AHCLKX PFUNC 27 0 1
+#define MCASP_PFUNC_ACLKX 0x04000000 // ACLKX PFUNC 26 0 1
+#define MCASP_PFUNC_AMUTE 0x02000000 // AMUTE PFUNC 25 0 1
+#define MCASP_PFUNC_RESV1_M 0x01FF0000 // Reserved
+#define MCASP_PFUNC_RESV1_S 16
+#define MCASP_PFUNC_AXR15 0x00008000 // AXR PFUNC BIT 15 0 1
+#define MCASP_PFUNC_AXR14 0x00004000 // AXR PFUNC BIT 14 0 1
+#define MCASP_PFUNC_AXR13 0x00002000 // AXR PFUNC BIT 13 0 1
+#define MCASP_PFUNC_AXR12 0x00001000 // AXR PFUNC BIT 12 0 1
+#define MCASP_PFUNC_AXR11 0x00000800 // AXR PFUNC BIT 11 0 1
+#define MCASP_PFUNC_AXR10 0x00000400 // AXR PFUNC BIT 10 0 1
+#define MCASP_PFUNC_AXR9 0x00000200 // AXR PFUNC BIT 9 0 1
+#define MCASP_PFUNC_AXR8 0x00000100 // AXR PFUNC BIT 8 0 1
+#define MCASP_PFUNC_AXR7 0x00000080 // AXR PFUNC BIT 7 0 1
+#define MCASP_PFUNC_AXR6 0x00000040 // AXR PFUNC BIT 6 0 1
+#define MCASP_PFUNC_AXR5 0x00000020 // AXR PFUNC BIT 5 0 1
+#define MCASP_PFUNC_AXR4 0x00000010 // AXR PFUNC BIT 4 0 1
+#define MCASP_PFUNC_AXR3 0x00000008 // AXR PFUNC BIT 3 0 1
+#define MCASP_PFUNC_AXR2 0x00000004 // AXR PFUNC BIT 2 0 1
+#define MCASP_PFUNC_AXR1 0x00000002 // AXR PFUNC BIT 1 0 1
+#define MCASP_PFUNC_AXR0 0x00000001 // AXR PFUNC BIT 0 0 1
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MCASP_O_PDIR register.
+//
+//******************************************************************************
+#define MCASP_PDIR_AFSR 0x80000000 // AFSR PDIR 31 0 1
+#define MCASP_PDIR_AHCLKR 0x40000000 // AHCLKR PDIR 30 0 1
+#define MCASP_PDIR_ACLKR 0x20000000 // ACLKR PDIR 29 0 1
+#define MCASP_PDIR_AFSX 0x10000000 // AFSX PDIR 28 0 1
+#define MCASP_PDIR_AHCLKX 0x08000000 // AHCLKX PDIR 27 0 1
+#define MCASP_PDIR_ACLKX 0x04000000 // ACLKX PDIR 26 0 1
+#define MCASP_PDIR_AMUTE 0x02000000 // AMUTE PDIR 25 0 1
+#define MCASP_PDIR_RESV_M 0x01FF0000 // Reserved
+#define MCASP_PDIR_RESV_S 16
+#define MCASP_PDIR_AXR15 0x00008000 // AXR PDIR BIT 15 0 1
+#define MCASP_PDIR_AXR14 0x00004000 // AXR PDIR BIT 14 0 1
+#define MCASP_PDIR_AXR13 0x00002000 // AXR PDIR BIT 13 0 1
+#define MCASP_PDIR_AXR12 0x00001000 // AXR PDIR BIT 12 0 1
+#define MCASP_PDIR_AXR11 0x00000800 // AXR PDIR BIT 11 0 1
+#define MCASP_PDIR_AXR10 0x00000400 // AXR PDIR BIT 10 0 1
+#define MCASP_PDIR_AXR9 0x00000200 // AXR PDIR BIT 9 0 1
+#define MCASP_PDIR_AXR8 0x00000100 // AXR PDIR BIT 8 0 1
+#define MCASP_PDIR_AXR7 0x00000080 // AXR PDIR BIT 7 0 1
+#define MCASP_PDIR_AXR6 0x00000040 // AXR PDIR BIT 6 0 1
+#define MCASP_PDIR_AXR5 0x00000020 // AXR PDIR BIT 5 0 1
+#define MCASP_PDIR_AXR4 0x00000010 // AXR PDIR BIT 4 0 1
+#define MCASP_PDIR_AXR3 0x00000008 // AXR PDIR BIT 3 0 1
+#define MCASP_PDIR_AXR2 0x00000004 // AXR PDIR BIT 2 0 1
+#define MCASP_PDIR_AXR1 0x00000002 // AXR PDIR BIT 1 0 1
+#define MCASP_PDIR_AXR0 0x00000001 // AXR PDIR BIT 0 0 1
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MCASP_O_PDOUT register.
+//
+//******************************************************************************
+#define MCASP_PDOUT_AFSR 0x80000000 // AFSR PDOUT 31 0 1
+#define MCASP_PDOUT_AHCLKR 0x40000000 // AHCLKR PDOUT 30 0 1
+#define MCASP_PDOUT_ACLKR 0x20000000 // ACLKR PDOUT 29 0 1
+#define MCASP_PDOUT_AFSX 0x10000000 // AFSX PDOUT 28 0 1
+#define MCASP_PDOUT_AHCLKX 0x08000000 // AHCLKX PDOUT 27 0 1
+#define MCASP_PDOUT_ACLKX 0x04000000 // ACLKX PDOUT 26 0 1
+#define MCASP_PDOUT_AMUTE 0x02000000 // AMUTE PDOUT 25 0 1
+#define MCASP_PDOUT_RESV_M 0x01FF0000 // Reserved
+#define MCASP_PDOUT_RESV_S 16
+#define MCASP_PDOUT_AXR15 0x00008000 // AXR PDOUT BIT 15 0 1
+#define MCASP_PDOUT_AXR14 0x00004000 // AXR PDOUT BIT 14 0 1
+#define MCASP_PDOUT_AXR13 0x00002000 // AXR PDOUT BIT 13 0 1
+#define MCASP_PDOUT_AXR12 0x00001000 // AXR PDOUT BIT 12 0 1
+#define MCASP_PDOUT_AXR11 0x00000800 // AXR PDOUT BIT 11 0 1
+#define MCASP_PDOUT_AXR10 0x00000400 // AXR PDOUT BIT 10 0 1
+#define MCASP_PDOUT_AXR9 0x00000200 // AXR PDOUT BIT 9 0 1
+#define MCASP_PDOUT_AXR8 0x00000100 // AXR PDOUT BIT 8 0 1
+#define MCASP_PDOUT_AXR7 0x00000080 // AXR PDOUT BIT 7 0 1
+#define MCASP_PDOUT_AXR6 0x00000040 // AXR PDOUT BIT 6 0 1
+#define MCASP_PDOUT_AXR5 0x00000020 // AXR PDOUT BIT 5 0 1
+#define MCASP_PDOUT_AXR4 0x00000010 // AXR PDOUT BIT 4 0 1
+#define MCASP_PDOUT_AXR3 0x00000008 // AXR PDOUT BIT 3 0 1
+#define MCASP_PDOUT_AXR2 0x00000004 // AXR PDOUT BIT 2 0 1
+#define MCASP_PDOUT_AXR1 0x00000002 // AXR PDOUT BIT 1 0 1
+#define MCASP_PDOUT_AXR0 0x00000001 // AXR PDOUT BIT 0 0 1
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MCASP_O_PDSET register.
+//
+//******************************************************************************
+#define MCASP_PDSET_AFSR 0x80000000
+#define MCASP_PDSET_AHCLKR 0x40000000
+#define MCASP_PDSET_ACLKR 0x20000000
+#define MCASP_PDSET_AFSX 0x10000000
+#define MCASP_PDSET_AHCLKX 0x08000000
+#define MCASP_PDSET_ACLKX 0x04000000
+#define MCASP_PDSET_AMUTE 0x02000000
+#define MCASP_PDSET_RESV_M 0x01FF0000 // Reserved
+#define MCASP_PDSET_RESV_S 16
+#define MCASP_PDSET_AXR15 0x00008000
+#define MCASP_PDSET_AXR14 0x00004000
+#define MCASP_PDSET_AXR13 0x00002000
+#define MCASP_PDSET_AXR12 0x00001000
+#define MCASP_PDSET_AXR11 0x00000800
+#define MCASP_PDSET_AXR10 0x00000400
+#define MCASP_PDSET_AXR9 0x00000200
+#define MCASP_PDSET_AXR8 0x00000100
+#define MCASP_PDSET_AXR7 0x00000080
+#define MCASP_PDSET_AXR6 0x00000040
+#define MCASP_PDSET_AXR5 0x00000020
+#define MCASP_PDSET_AXR4 0x00000010
+#define MCASP_PDSET_AXR3 0x00000008
+#define MCASP_PDSET_AXR2 0x00000004
+#define MCASP_PDSET_AXR1 0x00000002
+#define MCASP_PDSET_AXR0 0x00000001
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MCASP_O_PDIN register.
+//
+//******************************************************************************
+#define MCASP_PDIN_AFSR 0x80000000
+#define MCASP_PDIN_AHCLKR 0x40000000
+#define MCASP_PDIN_ACLKR 0x20000000
+#define MCASP_PDIN_AFSX 0x10000000
+#define MCASP_PDIN_AHCLKX 0x08000000
+#define MCASP_PDIN_ACLKX 0x04000000
+#define MCASP_PDIN_AMUTE 0x02000000
+#define MCASP_PDIN_RESV_M 0x01FF0000 // Reserved
+#define MCASP_PDIN_RESV_S 16
+#define MCASP_PDIN_AXR15 0x00008000
+#define MCASP_PDIN_AXR14 0x00004000
+#define MCASP_PDIN_AXR13 0x00002000
+#define MCASP_PDIN_AXR12 0x00001000
+#define MCASP_PDIN_AXR11 0x00000800
+#define MCASP_PDIN_AXR10 0x00000400
+#define MCASP_PDIN_AXR9 0x00000200
+#define MCASP_PDIN_AXR8 0x00000100
+#define MCASP_PDIN_AXR7 0x00000080
+#define MCASP_PDIN_AXR6 0x00000040
+#define MCASP_PDIN_AXR5 0x00000020
+#define MCASP_PDIN_AXR4 0x00000010
+#define MCASP_PDIN_AXR3 0x00000008
+#define MCASP_PDIN_AXR2 0x00000004
+#define MCASP_PDIN_AXR1 0x00000002
+#define MCASP_PDIN_AXR0 0x00000001
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MCASP_O_PDCLR register.
+//
+//******************************************************************************
+#define MCASP_PDCLR_AFSR 0x80000000 // AFSR PDCLR 31 0 1
+#define MCASP_PDCLR_AHCLKR 0x40000000 // AHCLKR PDCLR 30 0 1
+#define MCASP_PDCLR_ACLKR 0x20000000 // ACLKR PDCLR 29 0 1
+#define MCASP_PDCLR_AFSX 0x10000000 // AFSX PDCLR 28 0 1
+#define MCASP_PDCLR_AHCLKX 0x08000000 // AHCLKX PDCLR 27 0 1
+#define MCASP_PDCLR_ACLKX 0x04000000 // ACLKX PDCLR 26 0 1
+#define MCASP_PDCLR_AMUTE 0x02000000 // AMUTE PDCLR 25 0 1
+#define MCASP_PDCLR_RESV_M 0x01FF0000 // Reserved
+#define MCASP_PDCLR_RESV_S 16
+#define MCASP_PDCLR_AXR15 0x00008000 // AXR PDCLR BIT 15 0 1
+#define MCASP_PDCLR_AXR14 0x00004000 // AXR PDCLR BIT 14 0 1
+#define MCASP_PDCLR_AXR13 0x00002000 // AXR PDCLR BIT 13 0 1
+#define MCASP_PDCLR_AXR12 0x00001000 // AXR PDCLR BIT 12 0 1
+#define MCASP_PDCLR_AXR11 0x00000800 // AXR PDCLR BIT 11 0 1
+#define MCASP_PDCLR_AXR10 0x00000400 // AXR PDCLR BIT 10 0 1
+#define MCASP_PDCLR_AXR9 0x00000200 // AXR PDCLR BIT 9 0 1
+#define MCASP_PDCLR_AXR8 0x00000100 // AXR PDCLR BIT 8 0 1
+#define MCASP_PDCLR_AXR7 0x00000080 // AXR PDCLR BIT 7 0 1
+#define MCASP_PDCLR_AXR6 0x00000040 // AXR PDCLR BIT 6 0 1
+#define MCASP_PDCLR_AXR5 0x00000020 // AXR PDCLR BIT 5 0 1
+#define MCASP_PDCLR_AXR4 0x00000010 // AXR PDCLR BIT 4 0 1
+#define MCASP_PDCLR_AXR3 0x00000008 // AXR PDCLR BIT 3 0 1
+#define MCASP_PDCLR_AXR2 0x00000004 // AXR PDCLR BIT 2 0 1
+#define MCASP_PDCLR_AXR1 0x00000002 // AXR PDCLR BIT 1 0 1
+#define MCASP_PDCLR_AXR0 0x00000001 // AXR PDCLR BIT 0 0 1
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MCASP_O_TLGC register.
+//
+//******************************************************************************
+#define MCASP_TLGC_RESV_M 0xFFFF0000 // Reserved
+#define MCASP_TLGC_RESV_S 16
+#define MCASP_TLGC_MT_M 0x0000C000 // MISR on/off trigger command 0x0
+ // 0x1 0x2 0x3
+#define MCASP_TLGC_MT_S 14
+#define MCASP_TLGC_RESV1_M 0x00003E00 // Reserved
+#define MCASP_TLGC_RESV1_S 9
+#define MCASP_TLGC_MMS 0x00000100 // Source of MISR input 0 1
+#define MCASP_TLGC_ESEL 0x00000080 // Output enable select 0 1
+#define MCASP_TLGC_TOEN 0x00000040 // Test output enable control. 0 1
+#define MCASP_TLGC_MC_M 0x00000030 // States of MISR 0x0 0x1 0x2 0x3
+#define MCASP_TLGC_MC_S 4
+#define MCASP_TLGC_PC_M 0x0000000E // Pattern code 0x0 0x1 0x2 0x3 0x4
+ // 0x5 0x6 0x7
+#define MCASP_TLGC_PC_S 1
+#define MCASP_TLGC_TM 0x00000001 // Tie high; do not write to this
+ // bit 0 1
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MCASP_O_TLMR register.
+//
+//******************************************************************************
+#define MCASP_TLMR_TLMR_M 0xFFFFFFFF // Contains test result signature.
+#define MCASP_TLMR_TLMR_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MCASP_O_TLEC register.
+//
+//******************************************************************************
+#define MCASP_TLEC_TLEC_M 0xFFFFFFFF // Contains number of cycles during
+ // which MISR sig will be
+ // accumulated.
+#define MCASP_TLEC_TLEC_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MCASP_O_GBLCTL register.
+//
+//******************************************************************************
+#define MCASP_GBLCTL_XFRST 0x00001000 // Frame sync generator reset 0 1
+#define MCASP_GBLCTL_XSMRST 0x00000800 // XMT state machine reset 0 1
+#define MCASP_GBLCTL_XSRCLR 0x00000400 // XMT serializer clear 0 1
+#define MCASP_GBLCTL_XHCLKRST 0x00000200 // XMT High Freq. clk Divider 0 1
+#define MCASP_GBLCTL_XCLKRST 0x00000100 // XMT clock divder reset 0 1
+#define MCASP_GBLCTL_RFRST 0x00000010 // Frame sync generator reset 0 1
+#define MCASP_GBLCTL_RSMRST 0x00000008 // RCV state machine reset 0 1
+#define MCASP_GBLCTL_RSRCLR 0x00000004 // RCV serializer clear 0 1
+#define MCASP_GBLCTL_RHCLKRST 0x00000002 // RCV High Freq. clk Divider 0 1
+#define MCASP_GBLCTL_RCLKRST 0x00000001 // RCV clock divder reset 0 1
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MCASP_O_AMUTE register.
+//
+//******************************************************************************
+#define MCASP_AMUTE_XDMAERR 0x00001000 // MUTETXDMAERR occur 0 1
+#define MCASP_AMUTE_RDMAERR 0x00000800 // MUTERXDMAERR occur 0 1
+#define MCASP_AMUTE_XCKFAIL 0x00000400 // XMT bad clock 0 1
+#define MCASP_AMUTE_RCKFAIL 0x00000200 // RCV bad clock 0 1
+#define MCASP_AMUTE_XSYNCERR 0x00000100 // XMT unexpected FS 0 1
+#define MCASP_AMUTE_RSYNCERR 0x00000080 // RCV unexpected FS 0 1
+#define MCASP_AMUTE_XUNDRN 0x00000040 // XMT underrun occurs 0 1
+#define MCASP_AMUTE_ROVRN 0x00000020 // RCV overun occurs 0 1
+#define MCASP_AMUTE_INSTAT 0x00000010
+#define MCASP_AMUTE_INEN 0x00000008 // drive AMUTE active on mute in
+ // active 0 1
+#define MCASP_AMUTE_INPOL 0x00000004 // Mute input polarity 0 1
+#define MCASP_AMUTE_MUTEN_M 0x00000003 // AMUTE pin enable 0x0 0x1 0x2
+#define MCASP_AMUTE_MUTEN_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MCASP_O_LBCTL register.
+//
+//******************************************************************************
+#define MCASP_LBCTL_IOLBEN 0x00000010 // IO loopback enable 0 1
+#define MCASP_LBCTL_MODE_M 0x0000000C // Loop back clock source generator
+ // 0x0 0x1 0x2 0x3
+#define MCASP_LBCTL_MODE_S 2
+#define MCASP_LBCTL_ORD 0x00000002 // Loopback order 0 1
+#define MCASP_LBCTL_DLBEN 0x00000001 // Loop back mode 0 1
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MCASP_O_TXDITCTL register.
+//
+//******************************************************************************
+#define MCASP_TXDITCTL_VB 0x00000008 // Valib bit for odd TDM 0 1
+#define MCASP_TXDITCTL_VA 0x00000004 // Valib bit for even TDM 0 1
+#define MCASP_TXDITCTL_DITEN 0x00000001 // XMT DIT Mode Enable 0 1
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MCASP_O_GBLCTLR register.
+//
+//******************************************************************************
+#define MCASP_GBLCTLR_XFRST 0x00001000
+#define MCASP_GBLCTLR_XSMRST 0x00000800
+#define MCASP_GBLCTLR_XSRCLR 0x00000400
+#define MCASP_GBLCTLR_XHCLKRST 0x00000200
+#define MCASP_GBLCTLR_XCLKRST 0x00000100
+#define MCASP_GBLCTLR_RFRST 0x00000010 // Frame sync generator reset 0 1
+#define MCASP_GBLCTLR_RSMRST 0x00000008 // RCV state machine reset 0 1
+#define MCASP_GBLCTLR_RSRCLR 0x00000004 // RCV serializer clear 0 1
+#define MCASP_GBLCTLR_RHCLKRST 0x00000002 // RCV High Freq. clk Divider 0 1
+#define MCASP_GBLCTLR_RCLKRST 0x00000001 // RCV clock divder reset 0 1
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MCASP_O_RXMASK register.
+//
+//******************************************************************************
+#define MCASP_RXMASK_RMASK31 0x80000000 // RMASK BIT 31 0 1
+#define MCASP_RXMASK_RMASK30 0x40000000 // RMASK BIT 30 0 1
+#define MCASP_RXMASK_RMASK29 0x20000000 // RMASK BIT 29 0 1
+#define MCASP_RXMASK_RMASK28 0x10000000 // RMASK BIT 28 0 1
+#define MCASP_RXMASK_RMASK27 0x08000000 // RMASK BIT 27 0 1
+#define MCASP_RXMASK_RMASK26 0x04000000 // RMASK BIT 26 0 1
+#define MCASP_RXMASK_RMASK25 0x02000000 // RMASK BIT 25 0 1
+#define MCASP_RXMASK_RMASK24 0x01000000 // RMASK BIT 24 0 1
+#define MCASP_RXMASK_RMASK23 0x00800000 // RMASK BIT 23 0 1
+#define MCASP_RXMASK_RMASK22 0x00400000 // RMASK BIT 22 0 1
+#define MCASP_RXMASK_RMASK21 0x00200000 // RMASK BIT 21 0 1
+#define MCASP_RXMASK_RMASK20 0x00100000 // RMASK BIT 20 0 1
+#define MCASP_RXMASK_RMASK19 0x00080000 // RMASK BIT 19 0 1
+#define MCASP_RXMASK_RMASK18 0x00040000 // RMASK BIT 18 0 1
+#define MCASP_RXMASK_RMASK17 0x00020000 // RMASK BIT 17 0 1
+#define MCASP_RXMASK_RMASK16 0x00010000 // RMASK BIT 16 0 1
+#define MCASP_RXMASK_RMASK15 0x00008000 // RMASK BIT 15 0 1
+#define MCASP_RXMASK_RMASK14 0x00004000 // RMASK BIT 14 0 1
+#define MCASP_RXMASK_RMASK13 0x00002000 // RMASK BIT 13 0 1
+#define MCASP_RXMASK_RMASK12 0x00001000 // RMASK BIT 12 0 1
+#define MCASP_RXMASK_RMASK11 0x00000800 // RMASK BIT 11 0 1
+#define MCASP_RXMASK_RMASK10 0x00000400 // RMASK BIT 10 0 1
+#define MCASP_RXMASK_RMASK9 0x00000200 // RMASK BIT 9 0 1
+#define MCASP_RXMASK_RMASK8 0x00000100 // RMASK BIT 8 0 1
+#define MCASP_RXMASK_RMASK7 0x00000080 // RMASK BIT 7 0 1
+#define MCASP_RXMASK_RMASK6 0x00000040 // RMASK BIT 6 0 1
+#define MCASP_RXMASK_RMASK5 0x00000020 // RMASK BIT 5 0 1
+#define MCASP_RXMASK_RMASK4 0x00000010 // RMASK BIT 4 0 1
+#define MCASP_RXMASK_RMASK3 0x00000008 // RMASK BIT 3 0 1
+#define MCASP_RXMASK_RMASK2 0x00000004 // RMASK BIT 2 0 1
+#define MCASP_RXMASK_RMASK1 0x00000002 // RMASK BIT 1 0 1
+#define MCASP_RXMASK_RMASK0 0x00000001 // RMASK BIT 0 0 1
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MCASP_O_RXFMT register.
+//
+//******************************************************************************
+#define MCASP_RXFMT_RDATDLY_M 0x00030000 // RCV Frame sync delay 0x0 0 Bit
+ // delay 0x1 1 Bit delay 0x2 2 Bit
+ // delay
+#define MCASP_RXFMT_RDATDLY_S 16
+#define MCASP_RXFMT_RRVRS 0x00008000 // RCV serial stream bit order 0 1
+#define MCASP_RXFMT_RPAD_M 0x00006000 // Pad value 0x0 0x1 0x2
+#define MCASP_RXFMT_RPAD_S 13
+#define MCASP_RXFMT_RPBIT_M 0x00001F00 // Pad bit position
+#define MCASP_RXFMT_RPBIT_S 8
+#define MCASP_RXFMT_RSSZ_M 0x000000F0 // RCV slot Size 0x0 0x1 0x2 0x3
+ // 0x4 0x5 0x6 0x7 0x8 0x9 0xA 0xB
+ // 0xC 0xD 0xE 0xF
+#define MCASP_RXFMT_RSSZ_S 4
+#define MCASP_RXFMT_RBUSEL 0x00000008 // Write to RBUF using CPU/DMA 0
+ // DMA port access 1 CPU port Access
+#define MCASP_RXFMT_RROT_M 0x00000007 // Right Rotate Value 0x0 0x1 0x2
+ // 0x3 0x4 0x5 0x6 0x7
+#define MCASP_RXFMT_RROT_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MCASP_O_RXFMCTL register.
+//
+//******************************************************************************
+#define MCASP_RXFMCTL_RMOD_M 0x0000FF80 // RCV Frame sync mode
+#define MCASP_RXFMCTL_RMOD_S 7
+#define MCASP_RXFMCTL_FRWID 0x00000010 // RCV Frame sync Duration 0 1
+#define MCASP_RXFMCTL_FSRM 0x00000002 // RCV frame sync External 0 1
+#define MCASP_RXFMCTL_FSRP 0x00000001 // RCV Frame sync Polarity 0 1
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MCASP_O_ACLKRCTL register.
+//
+//******************************************************************************
+#define MCASP_ACLKRCTL_BUSY 0x00100000
+#define MCASP_ACLKRCTL_DIVBUSY 0x00080000
+#define MCASP_ACLKRCTL_ADJBUSY 0x00040000
+#define MCASP_ACLKRCTL_CLKRADJ_M \
+ 0x00030000
+
+#define MCASP_ACLKRCTL_CLKRADJ_S 16
+#define MCASP_ACLKRCTL_CLKRP 0x00000080 // RCV Clock Polarity 0 1
+#define MCASP_ACLKRCTL_CLKRM 0x00000020 // RCV clock source 0 1
+#define MCASP_ACLKRCTL_CLKRDIV_M \
+ 0x0000001F // RCV clock devide ratio
+
+#define MCASP_ACLKRCTL_CLKRDIV_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MCASP_O_AHCLKRCTL register.
+//
+//******************************************************************************
+#define MCASP_AHCLKRCTL_BUSY 0x00100000
+#define MCASP_AHCLKRCTL_DIVBUSY 0x00080000
+#define MCASP_AHCLKRCTL_ADJBUSY 0x00040000
+#define MCASP_AHCLKRCTL_HCLKRADJ_M \
+ 0x00030000
+
+#define MCASP_AHCLKRCTL_HCLKRADJ_S 16
+#define MCASP_AHCLKRCTL_HCLKRM 0x00008000 // High Freq. RCV clock Source 0 1
+#define MCASP_AHCLKRCTL_HCLKRP 0x00004000 // High Freq. clock Polarity Before
+ // diviser 0 1
+#define MCASP_AHCLKRCTL_HCLKRDIV_M \
+ 0x00000FFF // RCV clock Divide Ratio
+
+#define MCASP_AHCLKRCTL_HCLKRDIV_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MCASP_O_RXTDM register.
+//
+//******************************************************************************
+#define MCASP_RXTDM_RTDMS31 0x80000000 // RCV mode during TDM time slot 31
+ // 0 1
+#define MCASP_RXTDM_RTDMS30 0x40000000 // RCV mode during TDM time slot 30
+ // 0 1
+#define MCASP_RXTDM_RTDMS29 0x20000000 // RCV mode during TDM time slot 29
+ // 0 1
+#define MCASP_RXTDM_RTDMS28 0x10000000 // RCV mode during TDM time slot 28
+ // 0 1
+#define MCASP_RXTDM_RTDMS27 0x08000000 // RCV mode during TDM time slot 27
+ // 0 1
+#define MCASP_RXTDM_RTDMS26 0x04000000 // RCV mode during TDM time slot 26
+ // 0 1
+#define MCASP_RXTDM_RTDMS25 0x02000000 // RCV mode during TDM time slot 25
+ // 0 1
+#define MCASP_RXTDM_RTDMS24 0x01000000 // RCV mode during TDM time slot 24
+ // 0 1
+#define MCASP_RXTDM_RTDMS23 0x00800000 // RCV mode during TDM time slot 23
+ // 0 1
+#define MCASP_RXTDM_RTDMS22 0x00400000 // RCV mode during TDM time slot 22
+ // 0 1
+#define MCASP_RXTDM_RTDMS21 0x00200000 // RCV mode during TDM time slot 21
+ // 0 1
+#define MCASP_RXTDM_RTDMS20 0x00100000 // RCV mode during TDM time slot 20
+ // 0 1
+#define MCASP_RXTDM_RTDMS19 0x00080000 // RCV mode during TDM time slot 19
+ // 0 1
+#define MCASP_RXTDM_RTDMS18 0x00040000 // RCV mode during TDM time slot 18
+ // 0 1
+#define MCASP_RXTDM_RTDMS17 0x00020000 // RCV mode during TDM time slot 17
+ // 0 1
+#define MCASP_RXTDM_RTDMS16 0x00010000 // RCV mode during TDM time slot 16
+ // 0 1
+#define MCASP_RXTDM_RTDMS15 0x00008000 // RCV mode during TDM time slot 15
+ // 0 1
+#define MCASP_RXTDM_RTDMS14 0x00004000 // RCV mode during TDM time slot 14
+ // 0 1
+#define MCASP_RXTDM_RTDMS13 0x00002000 // RCV mode during TDM time slot 13
+ // 0 1
+#define MCASP_RXTDM_RTDMS12 0x00001000 // RCV mode during TDM time slot 12
+ // 0 1
+#define MCASP_RXTDM_RTDMS11 0x00000800 // RCV mode during TDM time slot 11
+ // 0 1
+#define MCASP_RXTDM_RTDMS10 0x00000400 // RCV mode during TDM time slot 10
+ // 0 1
+#define MCASP_RXTDM_RTDMS9 0x00000200 // RCV mode during TDM time slot 9
+ // 0 1
+#define MCASP_RXTDM_RTDMS8 0x00000100 // RCV mode during TDM time slot 8
+ // 0 1
+#define MCASP_RXTDM_RTDMS7 0x00000080 // RCV mode during TDM time slot 7
+ // 0 1
+#define MCASP_RXTDM_RTDMS6 0x00000040 // RCV mode during TDM time slot 6
+ // 0 1
+#define MCASP_RXTDM_RTDMS5 0x00000020 // RCV mode during TDM time slot 5
+ // 0 1
+#define MCASP_RXTDM_RTDMS4 0x00000010 // RCV mode during TDM time slot 4
+ // 0 1
+#define MCASP_RXTDM_RTDMS3 0x00000008 // RCV mode during TDM time slot 3
+ // 0 1
+#define MCASP_RXTDM_RTDMS2 0x00000004 // RCV mode during TDM time slot 2
+ // 0 1
+#define MCASP_RXTDM_RTDMS1 0x00000002 // RCV mode during TDM time slot 1
+ // 0 1
+#define MCASP_RXTDM_RTDMS0 0x00000001 // RCV mode during TDM time slot 0
+ // 0 1
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MCASP_O_EVTCTLR register.
+//
+//******************************************************************************
+#define MCASP_EVTCTLR_RSTAFRM 0x00000080 // RCV Start of Frame Interrupt 0 1
+#define MCASP_EVTCTLR_RDATA 0x00000020 // RCV Data Interrupt 0 1
+#define MCASP_EVTCTLR_RLAST 0x00000010 // RCV Last Slot Interrupt 0 1
+#define MCASP_EVTCTLR_RDMAERR 0x00000008 // RCV DMA Bus Error 0 1
+#define MCASP_EVTCTLR_RCKFAIL 0x00000004 // Bad Clock Interrupt 0 1
+#define MCASP_EVTCTLR_RSYNCERR 0x00000002 // RCV Unexpected FSR Interrupt 0 1
+#define MCASP_EVTCTLR_ROVRN 0x00000001 // RCV Underrun Flag 0 1
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MCASP_O_RXSTAT register.
+//
+//******************************************************************************
+#define MCASP_RXSTAT_RERR 0x00000100 // RCV Error 0 1
+#define MCASP_RXSTAT_RDMAERR 0x00000080 // RCV DMA bus error 0 1
+#define MCASP_RXSTAT_RSTAFRM 0x00000040 // Start of Frame-RCV 0 1
+#define MCASP_RXSTAT_RDATA 0x00000020 // Data Ready Flag 0 1
+#define MCASP_RXSTAT_RLAST 0x00000010 // Last Slot Interrupt Flag 0 1
+#define MCASP_RXSTAT_RTDMSLOT 0x00000008 // EvenOdd Slot 0 1
+#define MCASP_RXSTAT_RCKFAIL 0x00000004 // Bad Transmit Flag 0 1
+#define MCASP_RXSTAT_RSYNCERR 0x00000002 // Unexpected RCV Frame sync flag 0
+ // 1
+#define MCASP_RXSTAT_ROVRN 0x00000001 // RCV Underrun Flag 0 1
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MCASP_O_RXTDMSLOT register.
+//
+//******************************************************************************
+#define MCASP_RXTDMSLOT_RSLOTCNT_M \
+ 0x000003FF // Current RCV time slot count
+
+#define MCASP_RXTDMSLOT_RSLOTCNT_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MCASP_O_RXCLKCHK register.
+//
+//******************************************************************************
+#define MCASP_RXCLKCHK_RCNT_M 0xFF000000 // RCV clock count value
+#define MCASP_RXCLKCHK_RCNT_S 24
+#define MCASP_RXCLKCHK_RMAX_M 0x00FF0000 // RCV clock maximum boundary
+#define MCASP_RXCLKCHK_RMAX_S 16
+#define MCASP_RXCLKCHK_RMIN_M 0x0000FF00 // RCV clock minimum boundary
+#define MCASP_RXCLKCHK_RMIN_S 8
+#define MCASP_RXCLKCHK_RPS_M 0x0000000F // RCV clock check prescaler 0x0
+ // 0x1 0x2 0x3 0x4 0x5 0x6 0x7 0x8
+#define MCASP_RXCLKCHK_RPS_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MCASP_O_REVTCTL register.
+//
+//******************************************************************************
+#define MCASP_REVTCTL_RDATDMA 0x00000001 // RCV data DMA request 0 Enable
+ // DMA Transfer 1 Disable DMA
+ // Transfer
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MCASP_O_GBLCTLX register.
+//
+//******************************************************************************
+#define MCASP_GBLCTLX_XFRST 0x00001000 // Frame sync generator reset 0 1
+#define MCASP_GBLCTLX_XSMRST 0x00000800 // XMT state machine reset 0 1
+#define MCASP_GBLCTLX_XSRCLR 0x00000400 // XMT serializer clear 0 1
+#define MCASP_GBLCTLX_XHCLKRST 0x00000200 // XMT High Freq. clk Divider 0 1
+#define MCASP_GBLCTLX_XCLKRST 0x00000100 // XMT clock divder reset 0 1
+#define MCASP_GBLCTLX_RFRST 0x00000010
+#define MCASP_GBLCTLX_RSMRST 0x00000008
+#define MCASP_GBLCTLX_RSRCLKR 0x00000004
+#define MCASP_GBLCTLX_RHCLKRST 0x00000002
+#define MCASP_GBLCTLX_RCLKRST 0x00000001
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MCASP_O_TXMASK register.
+//
+//******************************************************************************
+#define MCASP_TXMASK_XMASK31 0x80000000 // XMASK BIT 31 0 1
+#define MCASP_TXMASK_XMASK30 0x40000000 // XMASK BIT 30 0 1
+#define MCASP_TXMASK_XMASK29 0x20000000 // XMASK BIT 29 0 1
+#define MCASP_TXMASK_XMASK28 0x10000000 // XMASK BIT 28 0 1
+#define MCASP_TXMASK_XMASK27 0x08000000 // XMASK BIT 27 0 1
+#define MCASP_TXMASK_XMASK26 0x04000000 // XMASK BIT 26 0 1
+#define MCASP_TXMASK_XMASK25 0x02000000 // XMASK BIT 25 0 1
+#define MCASP_TXMASK_XMASK24 0x01000000 // XMASK BIT 24 0 1
+#define MCASP_TXMASK_XMASK23 0x00800000 // XMASK BIT 23 0 1
+#define MCASP_TXMASK_XMASK22 0x00400000 // XMASK BIT 22 0 1
+#define MCASP_TXMASK_XMASK21 0x00200000 // XMASK BIT 21 0 1
+#define MCASP_TXMASK_XMASK20 0x00100000 // XMASK BIT 20 0 1
+#define MCASP_TXMASK_XMASK19 0x00080000 // XMASK BIT 19 0 1
+#define MCASP_TXMASK_XMASK18 0x00040000 // XMASK BIT 18 0 1
+#define MCASP_TXMASK_XMASK17 0x00020000 // XMASK BIT 17 0 1
+#define MCASP_TXMASK_XMASK16 0x00010000 // XMASK BIT 16 0 1
+#define MCASP_TXMASK_XMASK15 0x00008000 // XMASK BIT 15 0 1
+#define MCASP_TXMASK_XMASK14 0x00004000 // XMASK BIT 14 0 1
+#define MCASP_TXMASK_XMASK13 0x00002000 // XMASK BIT 13 0 1
+#define MCASP_TXMASK_XMASK12 0x00001000 // XMASK BIT 12 0 1
+#define MCASP_TXMASK_XMASK11 0x00000800 // XMASK BIT 11 0 1
+#define MCASP_TXMASK_XMASK10 0x00000400 // XMASK BIT 10 0 1
+#define MCASP_TXMASK_XMASK9 0x00000200 // XMASK BIT 9 0 1
+#define MCASP_TXMASK_XMASK8 0x00000100 // XMASK BIT 8 0 1
+#define MCASP_TXMASK_XMASK7 0x00000080 // XMASK BIT 7 0 1
+#define MCASP_TXMASK_XMASK6 0x00000040 // XMASK BIT 6 0 1
+#define MCASP_TXMASK_XMASK5 0x00000020 // XMASK BIT 5 0 1
+#define MCASP_TXMASK_XMASK4 0x00000010 // XMASK BIT 4 0 1
+#define MCASP_TXMASK_XMASK3 0x00000008 // XMASK BIT 3 0 1
+#define MCASP_TXMASK_XMASK2 0x00000004 // XMASK BIT 2 0 1
+#define MCASP_TXMASK_XMASK1 0x00000002 // XMASK BIT 1 0 1
+#define MCASP_TXMASK_XMASK0 0x00000001 // XMASK BIT 0 0 1
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MCASP_O_TXFMT register.
+//
+//******************************************************************************
+#define MCASP_TXFMT_XDATDLY_M 0x00030000 // XMT Frame sync delay 0x0 0 Bit
+ // delay 0x1 1 Bit delay 0x2 2 Bit
+ // delay
+#define MCASP_TXFMT_XDATDLY_S 16
+#define MCASP_TXFMT_XRVRS 0x00008000 // XMT serial stream bit order 0 1
+#define MCASP_TXFMT_XPAD_M 0x00006000 // Pad value 0x0 0x1 0x2
+#define MCASP_TXFMT_XPAD_S 13
+#define MCASP_TXFMT_XPBIT_M 0x00001F00 // Pad bit position
+#define MCASP_TXFMT_XPBIT_S 8
+#define MCASP_TXFMT_XSSZ_M 0x000000F0 // XMT slot Size 0x0 0x1 0x2 0x3
+ // 0x4 0x5 0x6 0x7 0x8 0x9 0xA 0xB
+ // 0xC 0xD 0xE 0xF
+#define MCASP_TXFMT_XSSZ_S 4
+#define MCASP_TXFMT_XBUSEL 0x00000008 // Write to XBUF using CPU/DMA 0
+ // DMA port access 1 CPU port Access
+#define MCASP_TXFMT_XROT_M 0x00000007 // Right Rotate Value 0x0 0x1 0x2
+ // 0x3 0x4 0x5 0x6 0x7
+#define MCASP_TXFMT_XROT_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MCASP_O_TXFMCTL register.
+//
+//******************************************************************************
+#define MCASP_TXFMCTL_XMOD_M 0x0000FF80 // XMT Frame sync mode
+#define MCASP_TXFMCTL_XMOD_S 7
+#define MCASP_TXFMCTL_FXWID 0x00000010 // XMT Frame sync Duration 0 1
+#define MCASP_TXFMCTL_FSXM 0x00000002 // XMT frame sync External 0 1
+#define MCASP_TXFMCTL_FSXP 0x00000001 // XMT Frame sync Polarity 0 1
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MCASP_O_ACLKXCTL register.
+//
+//******************************************************************************
+#define MCASP_ACLKXCTL_BUSY 0x00100000
+#define MCASP_ACLKXCTL_DIVBUSY 0x00080000
+#define MCASP_ACLKXCTL_ADJBUSY 0x00040000
+#define MCASP_ACLKXCTL_CLKXADJ_M \
+ 0x00030000
+
+#define MCASP_ACLKXCTL_CLKXADJ_S 16
+#define MCASP_ACLKXCTL_CLKXP 0x00000080 // XMT Clock Polarity 0 1
+#define MCASP_ACLKXCTL_ASYNC 0x00000040 // XMT/RCV operation sync /Async 0
+ // 1
+#define MCASP_ACLKXCTL_CLKXM 0x00000020 // XMT clock source 0 1
+#define MCASP_ACLKXCTL_CLKXDIV_M \
+ 0x0000001F // XMT clock devide ratio
+
+#define MCASP_ACLKXCTL_CLKXDIV_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MCASP_O_AHCLKXCTL register.
+//
+//******************************************************************************
+#define MCASP_AHCLKXCTL_BUSY 0x00100000
+#define MCASP_AHCLKXCTL_DIVBUSY 0x00080000
+#define MCASP_AHCLKXCTL_ADJBUSY 0x00040000
+#define MCASP_AHCLKXCTL_HCLKXADJ_M \
+ 0x00030000
+
+#define MCASP_AHCLKXCTL_HCLKXADJ_S 16
+#define MCASP_AHCLKXCTL_HCLKXM 0x00008000 // High Freq. XMT clock Source 0 1
+#define MCASP_AHCLKXCTL_HCLKXP 0x00004000 // High Freq. clock Polarity Before
+ // diviser 0 1
+#define MCASP_AHCLKXCTL_HCLKXDIV_M \
+ 0x00000FFF // XMT clock Divide Ratio
+
+#define MCASP_AHCLKXCTL_HCLKXDIV_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MCASP_O_TXTDM register.
+//
+//******************************************************************************
+#define MCASP_TXTDM_XTDMS31 0x80000000 // XMT mode during TDM time slot 31
+ // 0 1
+#define MCASP_TXTDM_XTDMS30 0x40000000 // XMT mode during TDM time slot 30
+ // 0 1
+#define MCASP_TXTDM_XTDMS29 0x20000000 // XMT mode during TDM time slot 29
+ // 0 1
+#define MCASP_TXTDM_XTDMS28 0x10000000 // XMT mode during TDM time slot 28
+ // 0 1
+#define MCASP_TXTDM_XTDMS27 0x08000000 // XMT mode during TDM time slot 27
+ // 0 1
+#define MCASP_TXTDM_XTDMS26 0x04000000 // XMT mode during TDM time slot 26
+ // 0 1
+#define MCASP_TXTDM_XTDMS25 0x02000000 // XMT mode during TDM time slot 25
+ // 0 1
+#define MCASP_TXTDM_XTDMS24 0x01000000 // XMT mode during TDM time slot 24
+ // 0 1
+#define MCASP_TXTDM_XTDMS23 0x00800000 // XMT mode during TDM time slot 23
+ // 0 1
+#define MCASP_TXTDM_XTDMS22 0x00400000 // XMT mode during TDM time slot 22
+ // 0 1
+#define MCASP_TXTDM_XTDMS21 0x00200000 // XMT mode during TDM time slot 21
+ // 0 1
+#define MCASP_TXTDM_XTDMS20 0x00100000 // XMT mode during TDM time slot 20
+ // 0 1
+#define MCASP_TXTDM_XTDMS19 0x00080000 // XMT mode during TDM time slot 19
+ // 0 1
+#define MCASP_TXTDM_XTDMS18 0x00040000 // XMT mode during TDM time slot 18
+ // 0 1
+#define MCASP_TXTDM_XTDMS17 0x00020000 // XMT mode during TDM time slot 17
+ // 0 1
+#define MCASP_TXTDM_XTDMS16 0x00010000 // XMT mode during TDM time slot 16
+ // 0 1
+#define MCASP_TXTDM_XTDMS15 0x00008000 // XMT mode during TDM time slot 15
+ // 0 1
+#define MCASP_TXTDM_XTDMS14 0x00004000 // XMT mode during TDM time slot 14
+ // 0 1
+#define MCASP_TXTDM_XTDMS13 0x00002000 // XMT mode during TDM time slot 13
+ // 0 1
+#define MCASP_TXTDM_XTDMS12 0x00001000 // XMT mode during TDM time slot 12
+ // 0 1
+#define MCASP_TXTDM_XTDMS11 0x00000800 // XMT mode during TDM time slot 11
+ // 0 1
+#define MCASP_TXTDM_XTDMS10 0x00000400 // XMT mode during TDM time slot 10
+ // 0 1
+#define MCASP_TXTDM_XTDMS9 0x00000200 // XMT mode during TDM time slot 9
+ // 0 1
+#define MCASP_TXTDM_XTDMS8 0x00000100 // XMT mode during TDM time slot 8
+ // 0 1
+#define MCASP_TXTDM_XTDMS7 0x00000080 // XMT mode during TDM time slot 7
+ // 0 1
+#define MCASP_TXTDM_XTDMS6 0x00000040 // XMT mode during TDM time slot 6
+ // 0 1
+#define MCASP_TXTDM_XTDMS5 0x00000020 // XMT mode during TDM time slot 5
+ // 0 1
+#define MCASP_TXTDM_XTDMS4 0x00000010 // XMT mode during TDM time slot 4
+ // 0 1
+#define MCASP_TXTDM_XTDMS3 0x00000008 // XMT mode during TDM time slot 3
+ // 0 1
+#define MCASP_TXTDM_XTDMS2 0x00000004 // XMT mode during TDM time slot 2
+ // 0 1
+#define MCASP_TXTDM_XTDMS1 0x00000002 // XMT mode during TDM time slot 1
+ // 0 1
+#define MCASP_TXTDM_XTDMS0 0x00000001 // XMT mode during TDM time slot 0
+ // 0 1
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MCASP_O_EVTCTLX register.
+//
+//******************************************************************************
+#define MCASP_EVTCTLX_XSTAFRM 0x00000080 // XMT Start of Frame Interrupt 0 1
+#define MCASP_EVTCTLX_XDATA 0x00000020 // XMT Data Interrupt 0 1
+#define MCASP_EVTCTLX_XLAST 0x00000010 // XMT Last Slot Interrupt 0 1
+#define MCASP_EVTCTLX_XDMAERR 0x00000008 // XMT DMA Bus Error 0 1
+#define MCASP_EVTCTLX_XCKFAIL 0x00000004 // Bad Clock Interrupt 0 1
+#define MCASP_EVTCTLX_XSYNCERR 0x00000002 // XMT Unexpected FSR Interrupt 0 1
+#define MCASP_EVTCTLX_XUNDRN 0x00000001 // XMT Underrun Interrupt 0 1
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MCASP_O_TXSTAT register.
+//
+//******************************************************************************
+#define MCASP_TXSTAT_XERR 0x00000100 // XMT Error 0 1
+#define MCASP_TXSTAT_XDMAERR 0x00000080 // XMT DMA bus error 0 1
+#define MCASP_TXSTAT_XSTAFRM 0x00000040 // Start of Frame-XMT 0 1
+#define MCASP_TXSTAT_XDATA 0x00000020 // Data Ready Flag 0 1
+#define MCASP_TXSTAT_XLAST 0x00000010 // Last Slot Interrupt Flag 0 1
+#define MCASP_TXSTAT_XTDMSLOT 0x00000008 // EvenOdd Slot 0 1
+#define MCASP_TXSTAT_XCKFAIL 0x00000004 // Bad Transmit Flag 0 1
+#define MCASP_TXSTAT_XSYNCERR 0x00000002 // Unexpected XMT Frame sync flag 0
+ // 1
+#define MCASP_TXSTAT_XUNDRN 0x00000001 // XMT Underrun Flag 0 1
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MCASP_O_TXTDMSLOT register.
+//
+//******************************************************************************
+#define MCASP_TXTDMSLOT_XSLOTCNT_M \
+ 0x000003FF // Current XMT time slot count
+ // during reset the value of this
+ // register is 0b0101111111 (0x17f)
+ // and after reset 0
+
+#define MCASP_TXTDMSLOT_XSLOTCNT_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MCASP_O_TXCLKCHK register.
+//
+//******************************************************************************
+#define MCASP_TXCLKCHK_XCNT_M 0xFF000000 // XMT clock count value
+#define MCASP_TXCLKCHK_XCNT_S 24
+#define MCASP_TXCLKCHK_XMAX_M 0x00FF0000 // XMT clock maximum boundary
+#define MCASP_TXCLKCHK_XMAX_S 16
+#define MCASP_TXCLKCHK_XMIN_M 0x0000FF00 // XMT clock minimum boundary
+#define MCASP_TXCLKCHK_XMIN_S 8
+#define MCASP_TXCLKCHK_RESV 0x00000080 // Reserved
+#define MCASP_TXCLKCHK_XPS_M 0x0000000F // XMT clock check prescaler 0x0
+ // 0x1 0x2 0x3 0x4 0x5 0x6 0x7 0x8
+#define MCASP_TXCLKCHK_XPS_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MCASP_O_XEVTCTL register.
+//
+//******************************************************************************
+#define MCASP_XEVTCTL_XDATDMA 0x00000001 // XMT data DMA request 0 Enable
+ // DMA Transfer 1 Disable DMA
+ // Transfer
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MCASP_O_CLKADJEN register.
+//
+//******************************************************************************
+#define MCASP_CLKADJEN_ENABLE 0x00000001 // One-shot clock adjust enable 0 1
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MCASP_O_DITCSRA0 register.
+//
+//******************************************************************************
+#define MCASP_DITCSRA0_DITCSRA0_M \
+ 0xFFFFFFFF // Left (Even TDM slot ) Channel
+ // status
+
+#define MCASP_DITCSRA0_DITCSRA0_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MCASP_O_DITCSRA1 register.
+//
+//******************************************************************************
+#define MCASP_DITCSRA1_DITCSRA1_M \
+ 0xFFFFFFFF // Left (Even TDM slot ) Channel
+ // status
+
+#define MCASP_DITCSRA1_DITCSRA1_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MCASP_O_DITCSRA2 register.
+//
+//******************************************************************************
+#define MCASP_DITCSRA2_DITCSRA2_M \
+ 0xFFFFFFFF // Left (Even TDM slot ) Channel
+ // status Register
+
+#define MCASP_DITCSRA2_DITCSRA2_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MCASP_O_DITCSRA3 register.
+//
+//******************************************************************************
+#define MCASP_DITCSRA3_DITCSRA3_M \
+ 0xFFFFFFFF // Left (Even TDM slot ) Channel
+ // status Register
+
+#define MCASP_DITCSRA3_DITCSRA3_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MCASP_O_DITCSRA4 register.
+//
+//******************************************************************************
+#define MCASP_DITCSRA4_DITCSRA4_M \
+ 0xFFFFFFFF // Left (Even TDM slot ) Channel
+ // status
+
+#define MCASP_DITCSRA4_DITCSRA4_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MCASP_O_DITCSRA5 register.
+//
+//******************************************************************************
+#define MCASP_DITCSRA5_DITCSRA5_M \
+ 0xFFFFFFFF // Left (Even TDM slot ) Channel
+ // status
+
+#define MCASP_DITCSRA5_DITCSRA5_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MCASP_O_DITCSRB0 register.
+//
+//******************************************************************************
+#define MCASP_DITCSRB0_DITCSRB0_M \
+ 0xFFFFFFFF // Right (odd TDM slot ) Channel
+ // status
+
+#define MCASP_DITCSRB0_DITCSRB0_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MCASP_O_DITCSRB1 register.
+//
+//******************************************************************************
+#define MCASP_DITCSRB1_DITCSRB1_M \
+ 0xFFFFFFFF // Right (odd TDM slot ) Channel
+ // status
+
+#define MCASP_DITCSRB1_DITCSRB1_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MCASP_O_DITCSRB2 register.
+//
+//******************************************************************************
+#define MCASP_DITCSRB2_DITCSRB2_M \
+ 0xFFFFFFFF // Right (odd TDM slot ) Channel
+ // status
+
+#define MCASP_DITCSRB2_DITCSRB2_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MCASP_O_DITCSRB3 register.
+//
+//******************************************************************************
+#define MCASP_DITCSRB3_DITCSRB3_M \
+ 0xFFFFFFFF // Right (odd TDM slot ) Channel
+ // status
+
+#define MCASP_DITCSRB3_DITCSRB3_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MCASP_O_DITCSRB4 register.
+//
+//******************************************************************************
+#define MCASP_DITCSRB4_DITCSRB4_M \
+ 0xFFFFFFFF // Right (odd TDM slot ) Channel
+ // status
+
+#define MCASP_DITCSRB4_DITCSRB4_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MCASP_O_DITCSRB5 register.
+//
+//******************************************************************************
+#define MCASP_DITCSRB5_DITCSRB5_M \
+ 0xFFFFFFFF // Right (odd TDM slot ) Channel
+ // status
+
+#define MCASP_DITCSRB5_DITCSRB5_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MCASP_O_DITUDRA0 register.
+//
+//******************************************************************************
+#define MCASP_DITUDRA0_DITUDRA0_M \
+ 0xFFFFFFFF // Left (Even TDM slot ) User Data
+
+#define MCASP_DITUDRA0_DITUDRA0_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MCASP_O_DITUDRA1 register.
+//
+//******************************************************************************
+#define MCASP_DITUDRA1_DITUDRA1_M \
+ 0xFFFFFFFF // Left (Even TDM slot ) User Data
+
+#define MCASP_DITUDRA1_DITUDRA1_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MCASP_O_DITUDRA2 register.
+//
+//******************************************************************************
+#define MCASP_DITUDRA2_DITUDRA2_M \
+ 0xFFFFFFFF // Left (Even TDM slot ) User Data
+
+#define MCASP_DITUDRA2_DITUDRA2_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MCASP_O_DITUDRA3 register.
+//
+//******************************************************************************
+#define MCASP_DITUDRA3_DITUDRA3_M \
+ 0xFFFFFFFF // Left (Even TDM slot ) User Data
+
+#define MCASP_DITUDRA3_DITUDRA3_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MCASP_O_DITUDRA4 register.
+//
+//******************************************************************************
+#define MCASP_DITUDRA4_DITUDRA4_M \
+ 0xFFFFFFFF // Left (Even TDM slot ) User Data
+
+#define MCASP_DITUDRA4_DITUDRA4_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MCASP_O_DITUDRA5 register.
+//
+//******************************************************************************
+#define MCASP_DITUDRA5_DITUDRA5_M \
+ 0xFFFFFFFF // Left (Even TDM slot ) User Data
+
+#define MCASP_DITUDRA5_DITUDRA5_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MCASP_O_DITUDRB0 register.
+//
+//******************************************************************************
+#define MCASP_DITUDRB0_DITUDRB0_M \
+ 0xFFFFFFFF // Right (odd TDM slot ) User Data
+
+#define MCASP_DITUDRB0_DITUDRB0_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MCASP_O_DITUDRB1 register.
+//
+//******************************************************************************
+#define MCASP_DITUDRB1_DITUDRB1_M \
+ 0xFFFFFFFF // Right (odd TDM slot ) User Data
+
+#define MCASP_DITUDRB1_DITUDRB1_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MCASP_O_DITUDRB2 register.
+//
+//******************************************************************************
+#define MCASP_DITUDRB2_DITUDRB2_M \
+ 0xFFFFFFFF // Right (odd TDM slot ) User Data
+
+#define MCASP_DITUDRB2_DITUDRB2_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MCASP_O_DITUDRB3 register.
+//
+//******************************************************************************
+#define MCASP_DITUDRB3_DITUDRB3_M \
+ 0xFFFFFFFF // Right (odd TDM slot ) User Data
+
+#define MCASP_DITUDRB3_DITUDRB3_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MCASP_O_DITUDRB4 register.
+//
+//******************************************************************************
+#define MCASP_DITUDRB4_DITUDRB4_M \
+ 0xFFFFFFFF // Right (odd TDM slot ) User Data
+
+#define MCASP_DITUDRB4_DITUDRB4_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MCASP_O_DITUDRB5 register.
+//
+//******************************************************************************
+#define MCASP_DITUDRB5_DITUDRB5_M \
+ 0xFFFFFFFF // Right (odd TDM slot ) User Data
+
+#define MCASP_DITUDRB5_DITUDRB5_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MCASP_O_XRSRCTL0 register.
+//
+//******************************************************************************
+#define MCASP_XRSRCTL0_RRDY 0x00000020
+#define MCASP_XRSRCTL0_XRDY 0x00000010
+#define MCASP_XRSRCTL0_DISMOD_M 0x0000000C // Serializer drive state 0x0 Tri
+ // state 0x1 Reserved 0x2 Drive pin
+ // low 0x3 Drive pin high
+#define MCASP_XRSRCTL0_DISMOD_S 2
+#define MCASP_XRSRCTL0_SRMOD_M 0x00000003 // Serializer Mode 0x0 InActive
+ // mode 0x1 Transmit mode 0x2
+ // Receive mode
+#define MCASP_XRSRCTL0_SRMOD_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MCASP_O_XRSRCTL1 register.
+//
+//******************************************************************************
+#define MCASP_XRSRCTL1_RRDY 0x00000020
+#define MCASP_XRSRCTL1_XRDY 0x00000010
+#define MCASP_XRSRCTL1_DISMOD_M 0x0000000C // Serializer drive state 0x0 Tri
+ // state 0x1 Reserved 0x2 Drive pin
+ // low 0x3 Drive pin high
+#define MCASP_XRSRCTL1_DISMOD_S 2
+#define MCASP_XRSRCTL1_SRMOD_M 0x00000003 // Serializer Mode 0x0 InActive
+ // mode 0x1 Transmit mode 0x2
+ // Receive mode
+#define MCASP_XRSRCTL1_SRMOD_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MCASP_O_XRSRCTL2 register.
+//
+//******************************************************************************
+#define MCASP_XRSRCTL2_RRDY 0x00000020
+#define MCASP_XRSRCTL2_XRDY 0x00000010
+#define MCASP_XRSRCTL2_DISMOD_M 0x0000000C // Serializer drive state 0x0 Tri
+ // state 0x1 Reserved 0x2 Drive pin
+ // low 0x3 Drive pin high
+#define MCASP_XRSRCTL2_DISMOD_S 2
+#define MCASP_XRSRCTL2_SRMOD_M 0x00000003 // Serializer Mode 0x0 InActive
+ // mode 0x1 Transmit mode 0x2
+ // Receive mode
+#define MCASP_XRSRCTL2_SRMOD_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MCASP_O_XRSRCTL3 register.
+//
+//******************************************************************************
+#define MCASP_XRSRCTL3_RRDY 0x00000020
+#define MCASP_XRSRCTL3_XRDY 0x00000010
+#define MCASP_XRSRCTL3_DISMOD_M 0x0000000C // Serializer drive state 0x0 Tri
+ // state 0x1 Reserved 0x2 Drive pin
+ // low 0x3 Drive pin high
+#define MCASP_XRSRCTL3_DISMOD_S 2
+#define MCASP_XRSRCTL3_SRMOD_M 0x00000003 // Serializer Mode 0x0 InActive
+ // mode 0x1 Transmit mode 0x2
+ // Receive mode
+#define MCASP_XRSRCTL3_SRMOD_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MCASP_O_XRSRCTL4 register.
+//
+//******************************************************************************
+#define MCASP_XRSRCTL4_RRDY 0x00000020
+#define MCASP_XRSRCTL4_XRDY 0x00000010
+#define MCASP_XRSRCTL4_DISMOD_M 0x0000000C // Serializer drive state 0x0 Tri
+ // state 0x1 Reserved 0x2 Drive pin
+ // low 0x3 Drive pin high
+#define MCASP_XRSRCTL4_DISMOD_S 2
+#define MCASP_XRSRCTL4_SRMOD_M 0x00000003 // Serializer Mode 0x0 InActive
+ // mode 0x1 Transmit mode 0x2
+ // Receive mode
+#define MCASP_XRSRCTL4_SRMOD_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MCASP_O_XRSRCTL5 register.
+//
+//******************************************************************************
+#define MCASP_XRSRCTL5_RRDY 0x00000020
+#define MCASP_XRSRCTL5_XRDY 0x00000010
+#define MCASP_XRSRCTL5_DISMOD_M 0x0000000C // Serializer drive state 0x0 Tri
+ // state 0x1 Reserved 0x2 Drive pin
+ // low 0x3 Drive pin high
+#define MCASP_XRSRCTL5_DISMOD_S 2
+#define MCASP_XRSRCTL5_SRMOD_M 0x00000003 // Serializer Mode 0x0 InActive
+ // mode 0x1 Transmit mode 0x2
+ // Receive mode
+#define MCASP_XRSRCTL5_SRMOD_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MCASP_O_XRSRCTL6 register.
+//
+//******************************************************************************
+#define MCASP_XRSRCTL6_RRDY 0x00000020
+#define MCASP_XRSRCTL6_XRDY 0x00000010
+#define MCASP_XRSRCTL6_DISMOD_M 0x0000000C // Serializer drive state 0x0 Tri
+ // state 0x1 Reserved 0x2 Drive pin
+ // low 0x3 Drive pin high
+#define MCASP_XRSRCTL6_DISMOD_S 2
+#define MCASP_XRSRCTL6_SRMOD_M 0x00000003 // Serializer Mode 0x0 InActive
+ // mode 0x1 Transmit mode 0x2
+ // Receive mode
+#define MCASP_XRSRCTL6_SRMOD_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MCASP_O_XRSRCTL7 register.
+//
+//******************************************************************************
+#define MCASP_XRSRCTL7_RRDY 0x00000020
+#define MCASP_XRSRCTL7_XRDY 0x00000010
+#define MCASP_XRSRCTL7_DISMOD_M 0x0000000C // Serializer drive state 0x0 Tri
+ // state 0x1 Reserved 0x2 Drive pin
+ // low 0x3 Drive pin high
+#define MCASP_XRSRCTL7_DISMOD_S 2
+#define MCASP_XRSRCTL7_SRMOD_M 0x00000003 // Serializer Mode 0x0 InActive
+ // mode 0x1 Transmit mode 0x2
+ // Receive mode
+#define MCASP_XRSRCTL7_SRMOD_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MCASP_O_XRSRCTL8 register.
+//
+//******************************************************************************
+#define MCASP_XRSRCTL8_RRDY 0x00000020
+#define MCASP_XRSRCTL8_XRDY 0x00000010
+#define MCASP_XRSRCTL8_DISMOD_M 0x0000000C // Serializer drive state 0x0 Tri
+ // state 0x1 Reserved 0x2 Drive pin
+ // low 0x3 Drive pin high
+#define MCASP_XRSRCTL8_DISMOD_S 2
+#define MCASP_XRSRCTL8_SRMOD_M 0x00000003 // Serializer Mode 0x0 InActive
+ // mode 0x1 Transmit mode 0x2
+ // Receive mode
+#define MCASP_XRSRCTL8_SRMOD_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MCASP_O_XRSRCTL9 register.
+//
+//******************************************************************************
+#define MCASP_XRSRCTL9_RRDY 0x00000020
+#define MCASP_XRSRCTL9_XRDY 0x00000010
+#define MCASP_XRSRCTL9_DISMOD_M 0x0000000C // Serializer drive state 0x0 Tri
+ // state 0x1 Reserved 0x2 Drive pin
+ // low 0x3 Drive pin high
+#define MCASP_XRSRCTL9_DISMOD_S 2
+#define MCASP_XRSRCTL9_SRMOD_M 0x00000003 // Serializer Mode 0x0 InActive
+ // mode 0x1 Transmit mode 0x2
+ // Receive mode
+#define MCASP_XRSRCTL9_SRMOD_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MCASP_O_XRSRCTL10 register.
+//
+//******************************************************************************
+#define MCASP_XRSRCTL10_RRDY 0x00000020
+#define MCASP_XRSRCTL10_XRDY 0x00000010
+#define MCASP_XRSRCTL10_DISMOD_M \
+ 0x0000000C // Serializer drive state 0x0 Tri
+ // state 0x1 Reserved 0x2 Drive pin
+ // low 0x3 Drive pin high
+
+#define MCASP_XRSRCTL10_DISMOD_S 2
+#define MCASP_XRSRCTL10_SRMOD_M 0x00000003 // Serializer Mode 0x0 InActive
+ // mode 0x1 Transmit mode 0x2
+ // Receive mode
+#define MCASP_XRSRCTL10_SRMOD_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MCASP_O_XRSRCTL11 register.
+//
+//******************************************************************************
+#define MCASP_XRSRCTL11_RRDY 0x00000020
+#define MCASP_XRSRCTL11_XRDY 0x00000010
+#define MCASP_XRSRCTL11_DISMOD_M \
+ 0x0000000C // Serializer drive state 0x0 Tri
+ // state 0x1 Reserved 0x2 Drive pin
+ // low 0x3 Drive pin high
+
+#define MCASP_XRSRCTL11_DISMOD_S 2
+#define MCASP_XRSRCTL11_SRMOD_M 0x00000003 // Serializer Mode 0x0 InActive
+ // mode 0x1 Transmit mode 0x2
+ // Receive mode
+#define MCASP_XRSRCTL11_SRMOD_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MCASP_O_XRSRCTL12 register.
+//
+//******************************************************************************
+#define MCASP_XRSRCTL12_RRDY 0x00000020
+#define MCASP_XRSRCTL12_XRDY 0x00000010
+#define MCASP_XRSRCTL12_DISMOD_M \
+ 0x0000000C // Serializer drive state 0x0 Tri
+ // state 0x1 Reserved 0x2 Drive pin
+ // low 0x3 Drive pin high
+
+#define MCASP_XRSRCTL12_DISMOD_S 2
+#define MCASP_XRSRCTL12_SRMOD_M 0x00000003 // Serializer Mode 0x0 InActive
+ // mode 0x1 Transmit mode 0x2
+ // Receive mode
+#define MCASP_XRSRCTL12_SRMOD_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MCASP_O_XRSRCTL13 register.
+//
+//******************************************************************************
+#define MCASP_XRSRCTL13_RRDY 0x00000020
+#define MCASP_XRSRCTL13_XRDY 0x00000010
+#define MCASP_XRSRCTL13_DISMOD_M \
+ 0x0000000C // Serializer drive state 0x0 Tri
+ // state 0x1 Reserved 0x2 Drive pin
+ // low 0x3 Drive pin high
+
+#define MCASP_XRSRCTL13_DISMOD_S 2
+#define MCASP_XRSRCTL13_SRMOD_M 0x00000003 // Serializer Mode 0x0 InActive
+ // mode 0x1 Transmit mode 0x2
+ // Receive mode
+#define MCASP_XRSRCTL13_SRMOD_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MCASP_O_XRSRCTL14 register.
+//
+//******************************************************************************
+#define MCASP_XRSRCTL14_RRDY 0x00000020
+#define MCASP_XRSRCTL14_XRDY 0x00000010
+#define MCASP_XRSRCTL14_DISMOD_M \
+ 0x0000000C // Serializer drive state 0x0 Tri
+ // state 0x1 Reserved 0x2 Drive pin
+ // low 0x3 Drive pin high
+
+#define MCASP_XRSRCTL14_DISMOD_S 2
+#define MCASP_XRSRCTL14_SRMOD_M 0x00000003 // Serializer Mode 0x0 InActive
+ // mode 0x1 Transmit mode 0x2
+ // Receive mode
+#define MCASP_XRSRCTL14_SRMOD_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MCASP_O_XRSRCTL15 register.
+//
+//******************************************************************************
+#define MCASP_XRSRCTL15_RRDY 0x00000020
+#define MCASP_XRSRCTL15_XRDY 0x00000010
+#define MCASP_XRSRCTL15_DISMOD_M \
+ 0x0000000C // Serializer drive state 0x0 Tri
+ // state 0x1 Reserved 0x2 Drive pin
+ // low 0x3 Drive pin high
+
+#define MCASP_XRSRCTL15_DISMOD_S 2
+#define MCASP_XRSRCTL15_SRMOD_M 0x00000003 // Serializer Mode 0x0 InActive
+ // mode 0x1 Transmit mode 0x2
+ // Receive mode
+#define MCASP_XRSRCTL15_SRMOD_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MCASP_O_TXBUF0 register.
+//
+//******************************************************************************
+#define MCASP_TXBUF0_XBUF0_M 0xFFFFFFFF // Transmit Buffer 0
+#define MCASP_TXBUF0_XBUF0_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MCASP_O_TXBUF1 register.
+//
+//******************************************************************************
+#define MCASP_TXBUF1_XBUF1_M 0xFFFFFFFF // Transmit Buffer 1
+#define MCASP_TXBUF1_XBUF1_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MCASP_O_TXBUF2 register.
+//
+//******************************************************************************
+#define MCASP_TXBUF2_XBUF2_M 0xFFFFFFFF // Transmit Buffer 2
+#define MCASP_TXBUF2_XBUF2_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MCASP_O_TXBUF3 register.
+//
+//******************************************************************************
+#define MCASP_TXBUF3_XBUF3_M 0xFFFFFFFF // Transmit Buffer 3
+#define MCASP_TXBUF3_XBUF3_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MCASP_O_TXBUF4 register.
+//
+//******************************************************************************
+#define MCASP_TXBUF4_XBUF4_M 0xFFFFFFFF // Transmit Buffer 4
+#define MCASP_TXBUF4_XBUF4_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MCASP_O_TXBUF5 register.
+//
+//******************************************************************************
+#define MCASP_TXBUF5_XBUF5_M 0xFFFFFFFF // Transmit Buffer 5
+#define MCASP_TXBUF5_XBUF5_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MCASP_O_TXBUF6 register.
+//
+//******************************************************************************
+#define MCASP_TXBUF6_XBUF6_M 0xFFFFFFFF // Transmit Buffer 6
+#define MCASP_TXBUF6_XBUF6_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MCASP_O_TXBUF7 register.
+//
+//******************************************************************************
+#define MCASP_TXBUF7_XBUF7_M 0xFFFFFFFF // Transmit Buffer 7
+#define MCASP_TXBUF7_XBUF7_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MCASP_O_TXBUF8 register.
+//
+//******************************************************************************
+#define MCASP_TXBUF8_XBUF8_M 0xFFFFFFFF // Transmit Buffer 8
+#define MCASP_TXBUF8_XBUF8_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MCASP_O_TXBUF9 register.
+//
+//******************************************************************************
+#define MCASP_TXBUF9_XBUF9_M 0xFFFFFFFF // Transmit Buffer 9
+#define MCASP_TXBUF9_XBUF9_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MCASP_O_TXBUF10 register.
+//
+//******************************************************************************
+#define MCASP_TXBUF10_XBUF10_M 0xFFFFFFFF // Transmit Buffer 10
+#define MCASP_TXBUF10_XBUF10_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MCASP_O_TXBUF11 register.
+//
+//******************************************************************************
+#define MCASP_TXBUF11_XBUF11_M 0xFFFFFFFF // Transmit Buffer 11
+#define MCASP_TXBUF11_XBUF11_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MCASP_O_TXBUF12 register.
+//
+//******************************************************************************
+#define MCASP_TXBUF12_XBUF12_M 0xFFFFFFFF // Transmit Buffer 12
+#define MCASP_TXBUF12_XBUF12_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MCASP_O_TXBUF13 register.
+//
+//******************************************************************************
+#define MCASP_TXBUF13_XBUF13_M 0xFFFFFFFF // Transmit Buffer 13
+#define MCASP_TXBUF13_XBUF13_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MCASP_O_TXBUF14 register.
+//
+//******************************************************************************
+#define MCASP_TXBUF14_XBUF14_M 0xFFFFFFFF // Transmit Buffer 14
+#define MCASP_TXBUF14_XBUF14_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MCASP_O_TXBUF15 register.
+//
+//******************************************************************************
+#define MCASP_TXBUF15_XBUF15_M 0xFFFFFFFF // Transmit Buffer 15
+#define MCASP_TXBUF15_XBUF15_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MCASP_O_RXBUF0 register.
+//
+//******************************************************************************
+#define MCASP_RXBUF0_RBUF0_M 0xFFFFFFFF // Receive Buffer 0
+#define MCASP_RXBUF0_RBUF0_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MCASP_O_RXBUF1 register.
+//
+//******************************************************************************
+#define MCASP_RXBUF1_RBUF1_M 0xFFFFFFFF // Receive Buffer 1
+#define MCASP_RXBUF1_RBUF1_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MCASP_O_RXBUF2 register.
+//
+//******************************************************************************
+#define MCASP_RXBUF2_RBUF2_M 0xFFFFFFFF // Receive Buffer 2
+#define MCASP_RXBUF2_RBUF2_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MCASP_O_RXBUF3 register.
+//
+//******************************************************************************
+#define MCASP_RXBUF3_RBUF3_M 0xFFFFFFFF // Receive Buffer 3
+#define MCASP_RXBUF3_RBUF3_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MCASP_O_RXBUF4 register.
+//
+//******************************************************************************
+#define MCASP_RXBUF4_RBUF4_M 0xFFFFFFFF // Receive Buffer 4
+#define MCASP_RXBUF4_RBUF4_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MCASP_O_RXBUF5 register.
+//
+//******************************************************************************
+#define MCASP_RXBUF5_RBUF5_M 0xFFFFFFFF // Receive Buffer 5
+#define MCASP_RXBUF5_RBUF5_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MCASP_O_RXBUF6 register.
+//
+//******************************************************************************
+#define MCASP_RXBUF6_RBUF6_M 0xFFFFFFFF // Receive Buffer 6
+#define MCASP_RXBUF6_RBUF6_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MCASP_O_RXBUF7 register.
+//
+//******************************************************************************
+#define MCASP_RXBUF7_RBUF7_M 0xFFFFFFFF // Receive Buffer 7
+#define MCASP_RXBUF7_RBUF7_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MCASP_O_RXBUF8 register.
+//
+//******************************************************************************
+#define MCASP_RXBUF8_RBUF8_M 0xFFFFFFFF // Receive Buffer 8
+#define MCASP_RXBUF8_RBUF8_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MCASP_O_RXBUF9 register.
+//
+//******************************************************************************
+#define MCASP_RXBUF9_RBUF9_M 0xFFFFFFFF // Receive Buffer 9
+#define MCASP_RXBUF9_RBUF9_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MCASP_O_RXBUF10 register.
+//
+//******************************************************************************
+#define MCASP_RXBUF10_RBUF10_M 0xFFFFFFFF // Receive Buffer 10
+#define MCASP_RXBUF10_RBUF10_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MCASP_O_RXBUF11 register.
+//
+//******************************************************************************
+#define MCASP_RXBUF11_RBUF11_M 0xFFFFFFFF // Receive Buffer 11
+#define MCASP_RXBUF11_RBUF11_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MCASP_O_RXBUF12 register.
+//
+//******************************************************************************
+#define MCASP_RXBUF12_RBUF12_M 0xFFFFFFFF // Receive Buffer 12
+#define MCASP_RXBUF12_RBUF12_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MCASP_O_RXBUF13 register.
+//
+//******************************************************************************
+#define MCASP_RXBUF13_RBUF13_M 0xFFFFFFFF // Receive Buffer 13
+#define MCASP_RXBUF13_RBUF13_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MCASP_O_RXBUF14 register.
+//
+//******************************************************************************
+#define MCASP_RXBUF14_RBUF14_M 0xFFFFFFFF // Receive Buffer 14
+#define MCASP_RXBUF14_RBUF14_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MCASP_O_RXBUF15 register.
+//
+//******************************************************************************
+#define MCASP_RXBUF15_RBUF15_M 0xFFFFFFFF // Receive Buffer 15
+#define MCASP_RXBUF15_RBUF15_S 0
+
+
+
+#endif // __HW_MCASP_H__
diff --git a/cc3200/hal/inc/hw_mcspi.h b/cc3200/hal/inc/hw_mcspi.h
new file mode 100644
index 000000000..079e4b6b6
--- /dev/null
+++ b/cc3200/hal/inc/hw_mcspi.h
@@ -0,0 +1,1745 @@
+//*****************************************************************************
+//
+// Copyright (C) 2014 Texas Instruments Incorporated - http://www.ti.com/
+//
+//
+// Redistribution and use in source and binary forms, with or without
+// modification, are permitted provided that the following conditions
+// are met:
+//
+// Redistributions of source code must retain the above copyright
+// notice, this list of conditions and the following disclaimer.
+//
+// Redistributions in binary form must reproduce the above copyright
+// notice, this list of conditions and the following disclaimer in the
+// documentation and/or other materials provided with the
+// distribution.
+//
+// Neither the name of Texas Instruments Incorporated nor the names of
+// its contributors may be used to endorse or promote products derived
+// from this software without specific prior written permission.
+//
+// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
+// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
+// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
+// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
+// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
+// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
+// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
+// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
+// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
+// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
+// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+//
+//*****************************************************************************
+
+#ifndef __HW_MCSPI_H__
+#define __HW_MCSPI_H__
+
+//*****************************************************************************
+//
+// The following are defines for the MCSPI register offsets.
+//
+//*****************************************************************************
+#define MCSPI_O_HL_REV 0x00000000 // IP Revision Identifier (X.Y.R)
+ // Used by software to track
+ // features bugs and compatibility
+#define MCSPI_O_HL_HWINFO 0x00000004 // Information about the IP
+ // module's hardware configuration
+ // i.e. typically the module's HDL
+ // generics (if any). Actual field
+ // format and encoding is up to the
+ // module's designer to decide.
+#define MCSPI_O_HL_SYSCONFIG 0x00000010 // 0x4402 1010 0x4402 2010 Clock
+ // management configuration
+#define MCSPI_O_REVISION 0x00000100 // 0x4402 1100 0x4402 2100 This
+ // register contains the hard coded
+ // RTL revision number.
+#define MCSPI_O_SYSCONFIG 0x00000110 // 0x4402 1110 0x4402 2110 This
+ // register allows controlling
+ // various parameters of the OCP
+ // interface.
+#define MCSPI_O_SYSSTATUS 0x00000114 // 0x4402 1114 0x4402 2114 This
+ // register provides status
+ // information about the module
+ // excluding the interrupt status
+ // information
+#define MCSPI_O_IRQSTATUS 0x00000118 // 0x4402 1118 0x4402 2118 The
+ // interrupt status regroups all the
+ // status of the module internal
+ // events that can generate an
+ // interrupt
+#define MCSPI_O_IRQENABLE 0x0000011C // 0x4402 111C 0x4402 211C This
+ // register allows to enable/disable
+ // the module internal sources of
+ // interrupt on an event-by-event
+ // basis.
+#define MCSPI_O_WAKEUPENABLE 0x00000120 // 0x4402 1120 0x4402 2120 The
+ // wakeup enable register allows to
+ // enable/disable the module
+ // internal sources of wakeup on
+ // event-by-event basis.
+#define MCSPI_O_SYST 0x00000124 // 0x4402 1124 0x4402 2124 This
+ // register is used to check the
+ // correctness of the system
+ // interconnect either internally to
+ // peripheral bus or externally to
+ // device IO pads when the module is
+ // configured in system test
+ // (SYSTEST) mode.
+#define MCSPI_O_MODULCTRL 0x00000128 // 0x4402 1128 0x4402 2128 This
+ // register is dedicated to the
+ // configuration of the serial port
+ // interface.
+#define MCSPI_O_CH0CONF 0x0000012C // 0x4402 112C 0x4402 212C This
+ // register is dedicated to the
+ // configuration of the channel 0
+#define MCSPI_O_CH0STAT 0x00000130 // 0x4402 1130 0x4402 2130 This
+ // register provides status
+ // information about transmitter and
+ // receiver registers of channel 0
+#define MCSPI_O_CH0CTRL 0x00000134 // 0x4402 1134 0x4402 2134 This
+ // register is dedicated to enable
+ // the channel 0
+#define MCSPI_O_TX0 0x00000138 // 0x4402 1138 0x4402 2138 This
+ // register contains a single SPI
+ // word to transmit on the serial
+ // link what ever SPI word length
+ // is.
+#define MCSPI_O_RX0 0x0000013C // 0x4402 113C 0x4402 213C This
+ // register contains a single SPI
+ // word received through the serial
+ // link what ever SPI word length
+ // is.
+#define MCSPI_O_CH1CONF 0x00000140 // 0x4402 1140 0x4402 2140 This
+ // register is dedicated to the
+ // configuration of the channel.
+#define MCSPI_O_CH1STAT 0x00000144 // 0x4402 1144 0x4402 2144 This
+ // register provides status
+ // information about transmitter and
+ // receiver registers of channel 1
+#define MCSPI_O_CH1CTRL 0x00000148 // 0x4402 1148 0x4402 2148 This
+ // register is dedicated to enable
+ // the channel 1
+#define MCSPI_O_TX1 0x0000014C // 0x4402 114C 0x4402 214C This
+ // register contains a single SPI
+ // word to transmit on the serial
+ // link what ever SPI word length
+ // is.
+#define MCSPI_O_RX1 0x00000150 // 0x4402 1150 0x4402 2150 This
+ // register contains a single SPI
+ // word received through the serial
+ // link what ever SPI word length
+ // is.
+#define MCSPI_O_CH2CONF 0x00000154 // 0x4402 1154 0x4402 2154 This
+ // register is dedicated to the
+ // configuration of the channel 2
+#define MCSPI_O_CH2STAT 0x00000158 // 0x4402 1158 0x4402 2158 This
+ // register provides status
+ // information about transmitter and
+ // receiver registers of channel 2
+#define MCSPI_O_CH2CTRL 0x0000015C // 0x4402 115C 0x4402 215C This
+ // register is dedicated to enable
+ // the channel 2
+#define MCSPI_O_TX2 0x00000160 // 0x4402 1160 0x4402 2160 This
+ // register contains a single SPI
+ // word to transmit on the serial
+ // link what ever SPI word length
+ // is.
+#define MCSPI_O_RX2 0x00000164 // 0x4402 1164 0x4402 2164 This
+ // register contains a single SPI
+ // word received through the serial
+ // link what ever SPI word length
+ // is.
+#define MCSPI_O_CH3CONF 0x00000168 // 0x4402 1168 0x4402 2168 This
+ // register is dedicated to the
+ // configuration of the channel 3
+#define MCSPI_O_CH3STAT 0x0000016C // 0x4402 116C 0x4402 216C This
+ // register provides status
+ // information about transmitter and
+ // receiver registers of channel 3
+#define MCSPI_O_CH3CTRL 0x00000170 // 0x4402 1170 0x4402 2170 This
+ // register is dedicated to enable
+ // the channel 3
+#define MCSPI_O_TX3 0x00000174 // 0x4402 1174 0x4402 2174 This
+ // register contains a single SPI
+ // word to transmit on the serial
+ // link what ever SPI word length
+ // is.
+#define MCSPI_O_RX3 0x00000178 // 0x4402 1178 0x4402 2178 This
+ // register contains a single SPI
+ // word received through the serial
+ // link what ever SPI word length
+ // is.
+#define MCSPI_O_XFERLEVEL 0x0000017C // 0x4402 117C 0x4402 217C This
+ // register provides transfer levels
+ // needed while using FIFO buffer
+ // during transfer.
+#define MCSPI_O_DAFTX 0x00000180 // 0x4402 1180 0x4402 2180 This
+ // register contains the SPI words
+ // to transmit on the serial link
+ // when FIFO used and DMA address is
+ // aligned on 256 bit.This register
+ // is an image of one of MCSPI_TX(i)
+ // register corresponding to the
+ // channel which have its FIFO
+ // enabled.
+#define MCSPI_O_DAFRX 0x000001A0 // 0x4402 11A0 0x4402 21A0 This
+ // register contains the SPI words
+ // to received on the serial link
+ // when FIFO used and DMA address is
+ // aligned on 256 bit.This register
+ // is an image of one of MCSPI_RX(i)
+ // register corresponding to the
+ // channel which have its FIFO
+ // enabled.
+
+
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MCSPI_O_HL_REV register.
+//
+//******************************************************************************
+#define MCSPI_HL_REV_SCHEME_M 0xC0000000
+#define MCSPI_HL_REV_SCHEME_S 30
+#define MCSPI_HL_REV_RSVD_M 0x30000000 // Reserved These bits are
+ // initialized to zero and writes to
+ // them are ignored.
+#define MCSPI_HL_REV_RSVD_S 28
+#define MCSPI_HL_REV_FUNC_M 0x0FFF0000 // Function indicates a software
+ // compatible module family. If
+ // there is no level of software
+ // compatibility a new Func number
+ // (and hence REVISION) should be
+ // assigned.
+#define MCSPI_HL_REV_FUNC_S 16
+#define MCSPI_HL_REV_R_RTL_M 0x0000F800 // RTL Version (R) maintained by IP
+ // design owner. RTL follows a
+ // numbering such as X.Y.R.Z which
+ // are explained in this table. R
+ // changes ONLY when: (1) PDS
+ // uploads occur which may have been
+ // due to spec changes (2) Bug fixes
+ // occur (3) Resets to '0' when X or
+ // Y changes. Design team has an
+ // internal 'Z' (customer invisible)
+ // number which increments on every
+ // drop that happens due to DV and
+ // RTL updates. Z resets to 0 when R
+ // increments.
+#define MCSPI_HL_REV_R_RTL_S 11
+#define MCSPI_HL_REV_X_MAJOR_M 0x00000700 // Major Revision (X) maintained by
+ // IP specification owner. X changes
+ // ONLY when: (1) There is a major
+ // feature addition. An example
+ // would be adding Master Mode to
+ // Utopia Level2. The Func field (or
+ // Class/Type in old PID format)
+ // will remain the same. X does NOT
+ // change due to: (1) Bug fixes (2)
+ // Change in feature parameters.
+#define MCSPI_HL_REV_X_MAJOR_S 8
+#define MCSPI_HL_REV_CUSTOM_M 0x000000C0
+#define MCSPI_HL_REV_CUSTOM_S 6
+#define MCSPI_HL_REV_Y_MINOR_M 0x0000003F // Minor Revision (Y) maintained by
+ // IP specification owner. Y changes
+ // ONLY when: (1) Features are
+ // scaled (up or down). Flexibility
+ // exists in that this feature
+ // scalability may either be
+ // represented in the Y change or a
+ // specific register in the IP that
+ // indicates which features are
+ // exactly available. (2) When
+ // feature creeps from Is-Not list
+ // to Is list. But this may not be
+ // the case once it sees silicon; in
+ // which case X will change. Y does
+ // NOT change due to: (1) Bug fixes
+ // (2) Typos or clarifications (3)
+ // major functional/feature
+ // change/addition/deletion. Instead
+ // these changes may be reflected
+ // via R S X as applicable. Spec
+ // owner maintains a
+ // customer-invisible number 'S'
+ // which changes due to: (1)
+ // Typos/clarifications (2) Bug
+ // documentation. Note that this bug
+ // is not due to a spec change but
+ // due to implementation.
+ // Nevertheless the spec tracks the
+ // IP bugs. An RTL release (say for
+ // silicon PG1.1) that occurs due to
+ // bug fix should document the
+ // corresponding spec number (X.Y.S)
+ // in its release notes.
+#define MCSPI_HL_REV_Y_MINOR_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MCSPI_O_HL_HWINFO register.
+//
+//******************************************************************************
+#define MCSPI_HL_HWINFO_RETMODE 0x00000040
+#define MCSPI_HL_HWINFO_FFNBYTE_M \
+ 0x0000003E
+
+#define MCSPI_HL_HWINFO_FFNBYTE_S 1
+#define MCSPI_HL_HWINFO_USEFIFO 0x00000001
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// MCSPI_O_HL_SYSCONFIG register.
+//
+//******************************************************************************
+#define MCSPI_HL_SYSCONFIG_IDLEMODE_M \
+ 0x0000000C // Configuration of the local
+ // target state management mode. By
+ // definition target can handle
+ // read/write transaction as long as
+ // it is out of IDLE state. 0x0
+ // Force-idle mode: local target's
+ // idle state follows (acknowledges)
+ // the system's idle requests
+ // unconditionally i.e. regardless
+ // of the IP module's internal
+ // requirements.Backup mode for
+ // debug only. 0x1 No-idle mode:
+ // local target never enters idle
+ // state.Backup mode for debug only.
+ // 0x2 Smart-idle mode: local
+ // target's idle state eventually
+ // follows (acknowledges) the
+ // system's idle requests depending
+ // on the IP module's internal
+ // requirements.IP module shall not
+ // generate (IRQ- or
+ // DMA-request-related) wakeup
+ // events. 0x3 "Smart-idle
+ // wakeup-capable mode: local
+ // target's idle state eventually
+ // follows (acknowledges) the
+ // system's idle requests depending
+ // on the IP module's internal
+ // requirements.IP module may
+ // generate (IRQ- or
+ // DMA-request-related) wakeup
+ // events when in idle state.Mode is
+ // only relevant if the appropriate
+ // IP module ""swakeup"" output(s)
+ // is (are) implemented."
+
+#define MCSPI_HL_SYSCONFIG_IDLEMODE_S 2
+#define MCSPI_HL_SYSCONFIG_FREEEMU \
+ 0x00000002 // Sensitivity to emulation (debug)
+ // suspend input signal. 0 IP module
+ // is sensitive to emulation suspend
+ // 1 IP module is not sensitive to
+ // emulation suspend
+
+#define MCSPI_HL_SYSCONFIG_SOFTRESET \
+ 0x00000001
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MCSPI_O_REVISION register.
+//
+//******************************************************************************
+#define MCSPI_REVISION_REV_M 0x000000FF // IP revision [7:4] Major revision
+ // [3:0] Minor revision Examples:
+ // 0x10 for 1.0 0x21 for 2.1
+#define MCSPI_REVISION_REV_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MCSPI_O_SYSCONFIG register.
+//
+//******************************************************************************
+#define MCSPI_SYSCONFIG_CLOCKACTIVITY_M \
+ 0x00000300 // Clocks activity during wake up
+ // mode period 0x0 OCP and
+ // Functional clocks may be switched
+ // off. 0x1 OCP clock is maintained.
+ // Functional clock may be
+ // switched-off. 0x2 Functional
+ // clock is maintained. OCP clock
+ // may be switched-off. 0x3 OCP and
+ // Functional clocks are maintained.
+
+#define MCSPI_SYSCONFIG_CLOCKACTIVITY_S 8
+#define MCSPI_SYSCONFIG_SIDLEMODE_M \
+ 0x00000018 // Power management 0x0 If an idle
+ // request is detected the McSPI
+ // acknowledges it unconditionally
+ // and goes in Inactive mode.
+ // Interrupt DMA requests and wake
+ // up lines are unconditionally
+ // de-asserted and the module wakeup
+ // capability is deactivated even if
+ // the bit
+ // MCSPI_SYSCONFIG[EnaWakeUp] is
+ // set. 0x1 If an idle request is
+ // detected the request is ignored
+ // and the module does not switch to
+ // wake up mode and keeps on
+ // behaving normally. 0x2 If an idle
+ // request is detected the module
+ // will switch to idle mode based on
+ // its internal activity. The wake
+ // up capability cannot be used. 0x3
+ // If an idle request is detected
+ // the module will switch to idle
+ // mode based on its internal
+ // activity and the wake up
+ // capability can be used if the bit
+ // MCSPI_SYSCONFIG[EnaWakeUp] is
+ // set.
+
+#define MCSPI_SYSCONFIG_SIDLEMODE_S 3
+#define MCSPI_SYSCONFIG_ENAWAKEUP \
+ 0x00000004 // WakeUp feature control 0 WakeUp
+ // capability is disabled 1 WakeUp
+ // capability is enabled
+
+#define MCSPI_SYSCONFIG_SOFTRESET \
+ 0x00000002 // Software reset. During reads it
+ // always returns 0. 0 (write)
+ // Normal mode 1 (write) Set this
+ // bit to 1 to trigger a module
+ // reset.The bit is automatically
+ // reset by the hardware.
+
+#define MCSPI_SYSCONFIG_AUTOIDLE \
+ 0x00000001 // Internal OCP Clock gating
+ // strategy 0 OCP clock is
+ // free-running 1 Automatic OCP
+ // clock gating strategy is applied
+ // based on the OCP interface
+ // activity
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MCSPI_O_SYSSTATUS register.
+//
+//******************************************************************************
+#define MCSPI_SYSSTATUS_RESETDONE \
+ 0x00000001
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MCSPI_O_IRQSTATUS register.
+//
+//******************************************************************************
+#define MCSPI_IRQSTATUS_EOW 0x00020000
+#define MCSPI_IRQSTATUS_WKS 0x00010000
+#define MCSPI_IRQSTATUS_RX3_FULL \
+ 0x00004000
+
+#define MCSPI_IRQSTATUS_TX3_UNDERFLOW \
+ 0x00002000
+
+#define MCSPI_IRQSTATUS_TX3_EMPTY \
+ 0x00001000
+
+#define MCSPI_IRQSTATUS_RX2_FULL \
+ 0x00000400
+
+#define MCSPI_IRQSTATUS_TX2_UNDERFLOW \
+ 0x00000200
+
+#define MCSPI_IRQSTATUS_TX2_EMPTY \
+ 0x00000100
+
+#define MCSPI_IRQSTATUS_RX1_FULL \
+ 0x00000040
+
+#define MCSPI_IRQSTATUS_TX1_UNDERFLOW \
+ 0x00000020
+
+#define MCSPI_IRQSTATUS_TX1_EMPTY \
+ 0x00000010
+
+#define MCSPI_IRQSTATUS_RX0_OVERFLOW \
+ 0x00000008
+
+#define MCSPI_IRQSTATUS_RX0_FULL \
+ 0x00000004
+
+#define MCSPI_IRQSTATUS_TX0_UNDERFLOW \
+ 0x00000002
+
+#define MCSPI_IRQSTATUS_TX0_EMPTY \
+ 0x00000001
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MCSPI_O_IRQENABLE register.
+//
+//******************************************************************************
+#define MCSPI_IRQENABLE_EOW_ENABLE \
+ 0x00020000 // End of Word count Interrupt
+ // Enable. 0 Interrupt disabled 1
+ // Interrupt enabled
+
+#define MCSPI_IRQENABLE_WKE 0x00010000 // Wake Up event interrupt Enable
+ // in slave mode when an active
+ // control signal is detected on the
+ // SPIEN line programmed in the
+ // field MCSPI_CH0CONF[SPIENSLV] 0
+ // Interrupt disabled 1 Interrupt
+ // enabled
+#define MCSPI_IRQENABLE_RX3_FULL_ENABLE \
+ 0x00004000 // Receiver register Full Interrupt
+ // Enable. Ch 3 0 Interrupt disabled
+ // 1 Interrupt enabled
+
+#define MCSPI_IRQENABLE_TX3_UNDERFLOW_ENABLE \
+ 0x00002000 // Transmitter register Underflow
+ // Interrupt Enable. Ch 3 0
+ // Interrupt disabled 1 Interrupt
+ // enabled
+
+#define MCSPI_IRQENABLE_TX3_EMPTY_ENABLE \
+ 0x00001000 // Transmitter register Empty
+ // Interrupt Enable. Ch3 0 Interrupt
+ // disabled 1 Interrupt enabled
+
+#define MCSPI_IRQENABLE_RX2_FULL_ENABLE \
+ 0x00000400 // Receiver register Full Interrupt
+ // Enable. Ch 2 0 Interrupt disabled
+ // 1 Interrupt enabled
+
+#define MCSPI_IRQENABLE_TX2_UNDERFLOW_ENABLE \
+ 0x00000200 // Transmitter register Underflow
+ // Interrupt Enable. Ch 2 0
+ // Interrupt disabled 1 Interrupt
+ // enabled
+
+#define MCSPI_IRQENABLE_TX2_EMPTY_ENABLE \
+ 0x00000100 // Transmitter register Empty
+ // Interrupt Enable. Ch 2 0
+ // Interrupt disabled 1 Interrupt
+ // enabled
+
+#define MCSPI_IRQENABLE_RX1_FULL_ENABLE \
+ 0x00000040 // Receiver register Full Interrupt
+ // Enable. Ch 1 0 Interrupt disabled
+ // 1 Interrupt enabled
+
+#define MCSPI_IRQENABLE_TX1_UNDERFLOW_ENABLE \
+ 0x00000020 // Transmitter register Underflow
+ // Interrupt Enable. Ch 1 0
+ // Interrupt disabled 1 Interrupt
+ // enabled
+
+#define MCSPI_IRQENABLE_TX1_EMPTY_ENABLE \
+ 0x00000010 // Transmitter register Empty
+ // Interrupt Enable. Ch 1 0
+ // Interrupt disabled 1 Interrupt
+ // enabled
+
+#define MCSPI_IRQENABLE_RX0_OVERFLOW_ENABLE \
+ 0x00000008 // Receiver register Overflow
+ // Interrupt Enable. Ch 0 0
+ // Interrupt disabled 1 Interrupt
+ // enabled
+
+#define MCSPI_IRQENABLE_RX0_FULL_ENABLE \
+ 0x00000004 // Receiver register Full Interrupt
+ // Enable. Ch 0 0 Interrupt disabled
+ // 1 Interrupt enabled
+
+#define MCSPI_IRQENABLE_TX0_UNDERFLOW_ENABLE \
+ 0x00000002 // Transmitter register Underflow
+ // Interrupt Enable. Ch 0 0
+ // Interrupt disabled 1 Interrupt
+ // enabled
+
+#define MCSPI_IRQENABLE_TX0_EMPTY_ENABLE \
+ 0x00000001 // Transmitter register Empty
+ // Interrupt Enable. Ch 0 0
+ // Interrupt disabled 1 Interrupt
+ // enabled
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// MCSPI_O_WAKEUPENABLE register.
+//
+//******************************************************************************
+#define MCSPI_WAKEUPENABLE_WKEN 0x00000001 // WakeUp functionality in slave
+ // mode when an active control
+ // signal is detected on the SPIEN
+ // line programmed in the field
+ // MCSPI_CH0CONF[SPIENSLV] 0 The
+ // event is not allowed to wakeup
+ // the system even if the global
+ // control bit
+ // MCSPI_SYSCONF[EnaWakeUp] is set.
+ // 1 The event is allowed to wakeup
+ // the system if the global control
+ // bit MCSPI_SYSCONF[EnaWakeUp] is
+ // set.
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MCSPI_O_SYST register.
+//
+//******************************************************************************
+#define MCSPI_SYST_SSB 0x00000800 // Set status bit 0 No action.
+ // Writing 0 does not clear already
+ // set status bits; This bit must be
+ // cleared prior attempting to clear
+ // a status bit of the
+ // <MCSPI_IRQSTATUS> register. 1
+ // Force to 1 all status bits of
+ // MCSPI_IRQSTATUS register. Writing
+ // 1 into this bit sets to 1 all
+ // status bits contained in the
+ // <MCSPI_IRQSTATUS> register.
+#define MCSPI_SYST_SPIENDIR 0x00000400 // Set the direction of the
+ // SPIEN[3:0] lines and SPICLK line
+ // 0 output (as in master mode) 1
+ // input (as in slave mode)
+#define MCSPI_SYST_SPIDATDIR1 0x00000200 // Set the direction of the
+ // SPIDAT[1] 0 output 1 input
+#define MCSPI_SYST_SPIDATDIR0 0x00000100 // Set the direction of the
+ // SPIDAT[0] 0 output 1 input
+#define MCSPI_SYST_WAKD 0x00000080 // SWAKEUP output (signal data
+ // value of internal signal to
+ // system). The signal is driven
+ // high or low according to the
+ // value written into this register
+ // bit. 0 The pin is driven low. 1
+ // The pin is driven high.
+#define MCSPI_SYST_SPICLK 0x00000040 // SPICLK line (signal data value)
+ // If MCSPI_SYST[SPIENDIR] = 1
+ // (input mode direction) this bit
+ // returns the value on the CLKSPI
+ // line (high or low) and a write
+ // into this bit has no effect. If
+ // MCSPI_SYST[SPIENDIR] = 0 (output
+ // mode direction) the CLKSPI line
+ // is driven high or low according
+ // to the value written into this
+ // register.
+#define MCSPI_SYST_SPIDAT_1 0x00000020 // SPIDAT[1] line (signal data
+ // value) If MCSPI_SYST[SPIDATDIR1]
+ // = 0 (output mode direction) the
+ // SPIDAT[1] line is driven high or
+ // low according to the value
+ // written into this register. If
+ // MCSPI_SYST[SPIDATDIR1] = 1 (input
+ // mode direction) this bit returns
+ // the value on the SPIDAT[1] line
+ // (high or low) and a write into
+ // this bit has no effect.
+#define MCSPI_SYST_SPIDAT_0 0x00000010 // SPIDAT[0] line (signal data
+ // value) If MCSPI_SYST[SPIDATDIR0]
+ // = 0 (output mode direction) the
+ // SPIDAT[0] line is driven high or
+ // low according to the value
+ // written into this register. If
+ // MCSPI_SYST[SPIDATDIR0] = 1 (input
+ // mode direction) this bit returns
+ // the value on the SPIDAT[0] line
+ // (high or low) and a write into
+ // this bit has no effect.
+#define MCSPI_SYST_SPIEN_3 0x00000008 // SPIEN[3] line (signal data
+ // value) If MCSPI_SYST[SPIENDIR] =
+ // 0 (output mode direction) the
+ // SPIENT[3] line is driven high or
+ // low according to the value
+ // written into this register. If
+ // MCSPI_SYST[SPIENDIR] = 1 (input
+ // mode direction) this bit returns
+ // the value on the SPIEN[3] line
+ // (high or low) and a write into
+ // this bit has no effect.
+#define MCSPI_SYST_SPIEN_2 0x00000004 // SPIEN[2] line (signal data
+ // value) If MCSPI_SYST[SPIENDIR] =
+ // 0 (output mode direction) the
+ // SPIENT[2] line is driven high or
+ // low according to the value
+ // written into this register. If
+ // MCSPI_SYST[SPIENDIR] = 1 (input
+ // mode direction) this bit returns
+ // the value on the SPIEN[2] line
+ // (high or low) and a write into
+ // this bit has no effect.
+#define MCSPI_SYST_SPIEN_1 0x00000002 // SPIEN[1] line (signal data
+ // value) If MCSPI_SYST[SPIENDIR] =
+ // 0 (output mode direction) the
+ // SPIENT[1] line is driven high or
+ // low according to the value
+ // written into this register. If
+ // MCSPI_SYST[SPIENDIR] = 1 (input
+ // mode direction) this bit returns
+ // the value on the SPIEN[1] line
+ // (high or low) and a write into
+ // this bit has no effect.
+#define MCSPI_SYST_SPIEN_0 0x00000001 // SPIEN[0] line (signal data
+ // value) If MCSPI_SYST[SPIENDIR] =
+ // 0 (output mode direction) the
+ // SPIENT[0] line is driven high or
+ // low according to the value
+ // written into this register. If
+ // MCSPI_SYST[SPIENDIR] = 1 (input
+ // mode direction) this bit returns
+ // the value on the SPIEN[0] line
+ // (high or low) and a write into
+ // this bit has no effect.
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MCSPI_O_MODULCTRL register.
+//
+//******************************************************************************
+#define MCSPI_MODULCTRL_FDAA 0x00000100 // FIFO DMA Address 256-bit aligned
+ // This register is used when a FIFO
+ // is managed by the module and DMA
+ // connected to the controller
+ // provides only 256 bit aligned
+ // address. If this bit is set the
+ // enabled channel which uses the
+ // FIFO has its datas managed
+ // through MCSPI_DAFTX and
+ // MCSPI_DAFRX registers instead of
+ // MCSPI_TX(i) and MCSPI_RX(i)
+ // registers. 0 FIFO data managed by
+ // MCSPI_TX(i) and MCSPI_RX(i)
+ // registers. 1 FIFO data managed by
+ // MCSPI_DAFTX and MCSPI_DAFRX
+ // registers.
+#define MCSPI_MODULCTRL_MOA 0x00000080 // Multiple word ocp access: This
+ // register can only be used when a
+ // channel is enabled using a FIFO.
+ // It allows the system to perform
+ // multiple SPI word access for a
+ // single 32-bit OCP word access.
+ // This is possible for WL < 16. 0
+ // Multiple word access disabled 1
+ // Multiple word access enabled with
+ // FIFO
+#define MCSPI_MODULCTRL_INITDLY_M \
+ 0x00000070 // Initial spi delay for first
+ // transfer: This register is an
+ // option only available in SINGLE
+ // master mode The controller waits
+ // for a delay to transmit the first
+ // spi word after channel enabled
+ // and corresponding TX register
+ // filled. This Delay is based on
+ // SPI output frequency clock No
+ // clock output provided to the
+ // boundary and chip select is not
+ // active in 4 pin mode within this
+ // period. 0x0 No delay for first
+ // spi transfer. 0x1 The controller
+ // wait 4 spi bus clock 0x2 The
+ // controller wait 8 spi bus clock
+ // 0x3 The controller wait 16 spi
+ // bus clock 0x4 The controller wait
+ // 32 spi bus clock
+
+#define MCSPI_MODULCTRL_INITDLY_S 4
+#define MCSPI_MODULCTRL_SYSTEM_TEST \
+ 0x00000008 // Enables the system test mode 0
+ // Functional mode 1 System test
+ // mode (SYSTEST)
+
+#define MCSPI_MODULCTRL_MS 0x00000004 // Master/ Slave 0 Master - The
+ // module generates the SPICLK and
+ // SPIEN[3:0] 1 Slave - The module
+ // receives the SPICLK and
+ // SPIEN[3:0]
+#define MCSPI_MODULCTRL_PIN34 0x00000002 // Pin mode selection: This
+ // register is used to configure the
+ // SPI pin mode in master or slave
+ // mode. If asserted the controller
+ // only use SIMOSOMI and SPICLK
+ // clock pin for spi transfers. 0
+ // SPIEN is used as a chip select. 1
+ // SPIEN is not used.In this mode
+ // all related option to chip select
+ // have no meaning.
+#define MCSPI_MODULCTRL_SINGLE 0x00000001 // Single channel / Multi Channel
+ // (master mode only) 0 More than
+ // one channel will be used in
+ // master mode. 1 Only one channel
+ // will be used in master mode. This
+ // bit must be set in Force SPIEN
+ // mode.
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MCSPI_O_CH0CONF register.
+//
+//******************************************************************************
+#define MCSPI_CH0CONF_CLKG 0x20000000 // Clock divider granularity This
+ // register defines the granularity
+ // of channel clock divider: power
+ // of two or one clock cycle
+ // granularity. When this bit is set
+ // the register MCSPI_CHCTRL[EXTCLK]
+ // must be configured to reach a
+ // maximum of 4096 clock divider
+ // ratio. Then The clock divider
+ // ratio is a concatenation of
+ // MCSPI_CHCONF[CLKD] and
+ // MCSPI_CHCTRL[EXTCLK] values 0
+ // Clock granularity of power of two
+ // 1 One clock cycle ganularity
+#define MCSPI_CH0CONF_FFER 0x10000000 // FIFO enabled for receive:Only
+ // one channel can have this bit
+ // field set. 0 The buffer is not
+ // used to receive data. 1 The
+ // buffer is used to receive data.
+#define MCSPI_CH0CONF_FFEW 0x08000000 // FIFO enabled for Transmit:Only
+ // one channel can have this bit
+ // field set. 0 The buffer is not
+ // used to transmit data. 1 The
+ // buffer is used to transmit data.
+#define MCSPI_CH0CONF_TCS0_M 0x06000000 // Chip Select Time Control This
+ // 2-bits field defines the number
+ // of interface clock cycles between
+ // CS toggling and first or last
+ // edge of SPI clock. 0x0 0.5 clock
+ // cycle 0x1 1.5 clock cycle 0x2 2.5
+ // clock cycle 0x3 3.5 clock cycle
+#define MCSPI_CH0CONF_TCS0_S 25
+#define MCSPI_CH0CONF_SBPOL 0x01000000 // Start bit polarity 0 Start bit
+ // polarity is held to 0 during SPI
+ // transfer. 1 Start bit polarity is
+ // held to 1 during SPI transfer.
+#define MCSPI_CH0CONF_SBE 0x00800000 // Start bit enable for SPI
+ // transfer 0 Default SPI transfer
+ // length as specified by WL bit
+ // field 1 Start bit D/CX added
+ // before SPI transfer polarity is
+ // defined by MCSPI_CH0CONF[SBPOL]
+#define MCSPI_CH0CONF_SPIENSLV_M \
+ 0x00600000 // Channel 0 only and slave mode
+ // only: SPI slave select signal
+ // detection. Reserved bits for
+ // other cases. 0x0 Detection
+ // enabled only on SPIEN[0] 0x1
+ // Detection enabled only on
+ // SPIEN[1] 0x2 Detection enabled
+ // only on SPIEN[2] 0x3 Detection
+ // enabled only on SPIEN[3]
+
+#define MCSPI_CH0CONF_SPIENSLV_S 21
+#define MCSPI_CH0CONF_FORCE 0x00100000 // Manual SPIEN assertion to keep
+ // SPIEN active between SPI words.
+ // (single channel master mode only)
+ // 0 Writing 0 into this bit drives
+ // low the SPIEN line when
+ // MCSPI_CHCONF(i)[EPOL]=0 and
+ // drives it high when
+ // MCSPI_CHCONF(i)[EPOL]=1. 1
+ // Writing 1 into this bit drives
+ // high the SPIEN line when
+ // MCSPI_CHCONF(i)[EPOL]=0 and
+ // drives it low when
+ // MCSPI_CHCONF(i)[EPOL]=1
+#define MCSPI_CH0CONF_TURBO 0x00080000 // Turbo mode 0 Turbo is
+ // deactivated (recommended for
+ // single SPI word transfer) 1 Turbo
+ // is activated to maximize the
+ // throughput for multi SPI words
+ // transfer.
+#define MCSPI_CH0CONF_IS 0x00040000 // Input Select 0 Data Line0
+ // (SPIDAT[0]) selected for
+ // reception. 1 Data Line1
+ // (SPIDAT[1]) selected for
+ // reception
+#define MCSPI_CH0CONF_DPE1 0x00020000 // Transmission Enable for data
+ // line 1 (SPIDATAGZEN[1]) 0 Data
+ // Line1 (SPIDAT[1]) selected for
+ // transmission 1 No transmission on
+ // Data Line1 (SPIDAT[1])
+#define MCSPI_CH0CONF_DPE0 0x00010000 // Transmission Enable for data
+ // line 0 (SPIDATAGZEN[0]) 0 Data
+ // Line0 (SPIDAT[0]) selected for
+ // transmission 1 No transmission on
+ // Data Line0 (SPIDAT[0])
+#define MCSPI_CH0CONF_DMAR 0x00008000 // DMA Read request The DMA Read
+ // request line is asserted when the
+ // channel is enabled and a new data
+ // is available in the receive
+ // register of the channel. The DMA
+ // Read request line is deasserted
+ // on read completion of the receive
+ // register of the channel. 0 DMA
+ // Read Request disabled 1 DMA Read
+ // Request enabled
+#define MCSPI_CH0CONF_DMAW 0x00004000 // DMA Write request. The DMA Write
+ // request line is asserted when The
+ // channel is enabled and the
+ // transmitter register of the
+ // channel is empty. The DMA Write
+ // request line is deasserted on
+ // load completion of the
+ // transmitter register of the
+ // channel. 0 DMA Write Request
+ // disabled 1 DMA Write Request
+ // enabled
+#define MCSPI_CH0CONF_TRM_M 0x00003000 // Transmit/Receive modes 0x0
+ // Transmit and Receive mode 0x1
+ // Receive only mode 0x2 Transmit
+ // only mode 0x3 Reserved
+#define MCSPI_CH0CONF_TRM_S 12
+#define MCSPI_CH0CONF_WL_M 0x00000F80 // SPI word length 0x00 Reserved
+ // 0x01 Reserved 0x02 Reserved 0x03
+ // The SPI word is 4-bits long 0x04
+ // The SPI word is 5-bits long 0x05
+ // The SPI word is 6-bits long 0x06
+ // The SPI word is 7-bits long 0x07
+ // The SPI word is 8-bits long 0x08
+ // The SPI word is 9-bits long 0x09
+ // The SPI word is 10-bits long 0x0A
+ // The SPI word is 11-bits long 0x0B
+ // The SPI word is 12-bits long 0x0C
+ // The SPI word is 13-bits long 0x0D
+ // The SPI word is 14-bits long 0x0E
+ // The SPI word is 15-bits long 0x0F
+ // The SPI word is 16-bits long 0x10
+ // The SPI word is 17-bits long 0x11
+ // The SPI word is 18-bits long 0x12
+ // The SPI word is 19-bits long 0x13
+ // The SPI word is 20-bits long 0x14
+ // The SPI word is 21-bits long 0x15
+ // The SPI word is 22-bits long 0x16
+ // The SPI word is 23-bits long 0x17
+ // The SPI word is 24-bits long 0x18
+ // The SPI word is 25-bits long 0x19
+ // The SPI word is 26-bits long 0x1A
+ // The SPI word is 27-bits long 0x1B
+ // The SPI word is 28-bits long 0x1C
+ // The SPI word is 29-bits long 0x1D
+ // The SPI word is 30-bits long 0x1E
+ // The SPI word is 31-bits long 0x1F
+ // The SPI word is 32-bits long
+#define MCSPI_CH0CONF_WL_S 7
+#define MCSPI_CH0CONF_EPOL 0x00000040 // SPIEN polarity 0 SPIEN is held
+ // high during the active state. 1
+ // SPIEN is held low during the
+ // active state.
+#define MCSPI_CH0CONF_CLKD_M 0x0000003C // Frequency divider for SPICLK.
+ // (only when the module is a Master
+ // SPI device). A programmable clock
+ // divider divides the SPI reference
+ // clock (CLKSPIREF) with a 4-bit
+ // value and results in a new clock
+ // SPICLK available to shift-in and
+ // shift-out data. By default the
+ // clock divider ratio has a power
+ // of two granularity when
+ // MCSPI_CHCONF[CLKG] is cleared
+ // Otherwise this register is the 4
+ // LSB bit of a 12-bit register
+ // concatenated with clock divider
+ // extension MCSPI_CHCTRL[EXTCLK]
+ // register.The value description
+ // below defines the clock ratio
+ // when MCSPI_CHCONF[CLKG] is set to
+ // 0. 0x0 1 0x1 2 0x2 4 0x3 8 0x4 16
+ // 0x5 32 0x6 64 0x7 128 0x8 256 0x9
+ // 512 0xA 1024 0xB 2048 0xC 4096
+ // 0xD 8192 0xE 16384 0xF 32768
+#define MCSPI_CH0CONF_CLKD_S 2
+#define MCSPI_CH0CONF_POL 0x00000002 // SPICLK polarity 0 SPICLK is held
+ // high during the active state 1
+ // SPICLK is held low during the
+ // active state
+#define MCSPI_CH0CONF_PHA 0x00000001 // SPICLK phase 0 Data are latched
+ // on odd numbered edges of SPICLK.
+ // 1 Data are latched on even
+ // numbered edges of SPICLK.
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MCSPI_O_CH0STAT register.
+//
+//******************************************************************************
+#define MCSPI_CH0STAT_RXFFF 0x00000040
+#define MCSPI_CH0STAT_RXFFE 0x00000020
+#define MCSPI_CH0STAT_TXFFF 0x00000010
+#define MCSPI_CH0STAT_TXFFE 0x00000008
+#define MCSPI_CH0STAT_EOT 0x00000004
+#define MCSPI_CH0STAT_TXS 0x00000002
+#define MCSPI_CH0STAT_RXS 0x00000001
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MCSPI_O_CH0CTRL register.
+//
+//******************************************************************************
+#define MCSPI_CH0CTRL_EXTCLK_M 0x0000FF00 // Clock ratio extension: This
+ // register is used to concatenate
+ // with MCSPI_CHCONF[CLKD] register
+ // for clock ratio only when
+ // granularity is one clock cycle
+ // (MCSPI_CHCONF[CLKG] set to 1).
+ // Then the max value reached is
+ // 4096 clock divider ratio. 0x00
+ // Clock ratio is CLKD + 1 0x01
+ // Clock ratio is CLKD + 1 + 16 0xFF
+ // Clock ratio is CLKD + 1 + 4080
+#define MCSPI_CH0CTRL_EXTCLK_S 8
+#define MCSPI_CH0CTRL_EN 0x00000001 // Channel Enable 0 "Channel ""i""
+ // is not active" 1 "Channel ""i""
+ // is active"
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MCSPI_O_TX0 register.
+//
+//******************************************************************************
+#define MCSPI_TX0_TDATA_M 0xFFFFFFFF // Channel 0 Data to transmit
+#define MCSPI_TX0_TDATA_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MCSPI_O_RX0 register.
+//
+//******************************************************************************
+#define MCSPI_RX0_RDATA_M 0xFFFFFFFF // Channel 0 Received Data
+#define MCSPI_RX0_RDATA_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MCSPI_O_CH1CONF register.
+//
+//******************************************************************************
+#define MCSPI_CH1CONF_CLKG 0x20000000 // Clock divider granularity This
+ // register defines the granularity
+ // of channel clock divider: power
+ // of two or one clock cycle
+ // granularity. When this bit is set
+ // the register MCSPI_CHCTRL[EXTCLK]
+ // must be configured to reach a
+ // maximum of 4096 clock divider
+ // ratio. Then The clock divider
+ // ratio is a concatenation of
+ // MCSPI_CHCONF[CLKD] and
+ // MCSPI_CHCTRL[EXTCLK] values 0
+ // Clock granularity of power of two
+ // 1 One clock cycle ganularity
+#define MCSPI_CH1CONF_FFER 0x10000000 // FIFO enabled for receive:Only
+ // one channel can have this bit
+ // field set. 0 The buffer is not
+ // used to receive data. 1 The
+ // buffer is used to receive data.
+#define MCSPI_CH1CONF_FFEW 0x08000000 // FIFO enabled for Transmit:Only
+ // one channel can have this bit
+ // field set. 0 The buffer is not
+ // used to transmit data. 1 The
+ // buffer is used to transmit data.
+#define MCSPI_CH1CONF_TCS1_M 0x06000000 // Chip Select Time Control This
+ // 2-bits field defines the number
+ // of interface clock cycles between
+ // CS toggling and first or last
+ // edge of SPI clock. 0x0 0.5 clock
+ // cycle 0x1 1.5 clock cycle 0x2 2.5
+ // clock cycle 0x3 3.5 clock cycle
+#define MCSPI_CH1CONF_TCS1_S 25
+#define MCSPI_CH1CONF_SBPOL 0x01000000 // Start bit polarity 0 Start bit
+ // polarity is held to 0 during SPI
+ // transfer. 1 Start bit polarity is
+ // held to 1 during SPI transfer.
+#define MCSPI_CH1CONF_SBE 0x00800000 // Start bit enable for SPI
+ // transfer 0 Default SPI transfer
+ // length as specified by WL bit
+ // field 1 Start bit D/CX added
+ // before SPI transfer polarity is
+ // defined by MCSPI_CH1CONF[SBPOL]
+#define MCSPI_CH1CONF_FORCE 0x00100000 // Manual SPIEN assertion to keep
+ // SPIEN active between SPI words.
+ // (single channel master mode only)
+ // 0 Writing 0 into this bit drives
+ // low the SPIEN line when
+ // MCSPI_CHCONF(i)[EPOL]=0 and
+ // drives it high when
+ // MCSPI_CHCONF(i)[EPOL]=1. 1
+ // Writing 1 into this bit drives
+ // high the SPIEN line when
+ // MCSPI_CHCONF(i)[EPOL]=0 and
+ // drives it low when
+ // MCSPI_CHCONF(i)[EPOL]=1
+#define MCSPI_CH1CONF_TURBO 0x00080000 // Turbo mode 0 Turbo is
+ // deactivated (recommended for
+ // single SPI word transfer) 1 Turbo
+ // is activated to maximize the
+ // throughput for multi SPI words
+ // transfer.
+#define MCSPI_CH1CONF_IS 0x00040000 // Input Select 0 Data Line0
+ // (SPIDAT[0]) selected for
+ // reception. 1 Data Line1
+ // (SPIDAT[1]) selected for
+ // reception
+#define MCSPI_CH1CONF_DPE1 0x00020000 // Transmission Enable for data
+ // line 1 (SPIDATAGZEN[1]) 0 Data
+ // Line1 (SPIDAT[1]) selected for
+ // transmission 1 No transmission on
+ // Data Line1 (SPIDAT[1])
+#define MCSPI_CH1CONF_DPE0 0x00010000 // Transmission Enable for data
+ // line 0 (SPIDATAGZEN[0]) 0 Data
+ // Line0 (SPIDAT[0]) selected for
+ // transmission 1 No transmission on
+ // Data Line0 (SPIDAT[0])
+#define MCSPI_CH1CONF_DMAR 0x00008000 // DMA Read request The DMA Read
+ // request line is asserted when the
+ // channel is enabled and a new data
+ // is available in the receive
+ // register of the channel. The DMA
+ // Read request line is deasserted
+ // on read completion of the receive
+ // register of the channel. 0 DMA
+ // Read Request disabled 1 DMA Read
+ // Request enabled
+#define MCSPI_CH1CONF_DMAW 0x00004000 // DMA Write request. The DMA Write
+ // request line is asserted when The
+ // channel is enabled and the
+ // transmitter register of the
+ // channel is empty. The DMA Write
+ // request line is deasserted on
+ // load completion of the
+ // transmitter register of the
+ // channel. 0 DMA Write Request
+ // disabled 1 DMA Write Request
+ // enabled
+#define MCSPI_CH1CONF_TRM_M 0x00003000 // Transmit/Receive modes 0x0
+ // Transmit and Receive mode 0x1
+ // Receive only mode 0x2 Transmit
+ // only mode 0x3 Reserved
+#define MCSPI_CH1CONF_TRM_S 12
+#define MCSPI_CH1CONF_WL_M 0x00000F80 // SPI word length 0x00 Reserved
+ // 0x01 Reserved 0x02 Reserved 0x03
+ // The SPI word is 4-bits long 0x04
+ // The SPI word is 5-bits long 0x05
+ // The SPI word is 6-bits long 0x06
+ // The SPI word is 7-bits long 0x07
+ // The SPI word is 8-bits long 0x08
+ // The SPI word is 9-bits long 0x09
+ // The SPI word is 10-bits long 0x0A
+ // The SPI word is 11-bits long 0x0B
+ // The SPI word is 12-bits long 0x0C
+ // The SPI word is 13-bits long 0x0D
+ // The SPI word is 14-bits long 0x0E
+ // The SPI word is 15-bits long 0x0F
+ // The SPI word is 16-bits long 0x10
+ // The SPI word is 17-bits long 0x11
+ // The SPI word is 18-bits long 0x12
+ // The SPI word is 19-bits long 0x13
+ // The SPI word is 20-bits long 0x14
+ // The SPI word is 21-bits long 0x15
+ // The SPI word is 22-bits long 0x16
+ // The SPI word is 23-bits long 0x17
+ // The SPI word is 24-bits long 0x18
+ // The SPI word is 25-bits long 0x19
+ // The SPI word is 26-bits long 0x1A
+ // The SPI word is 27-bits long 0x1B
+ // The SPI word is 28-bits long 0x1C
+ // The SPI word is 29-bits long 0x1D
+ // The SPI word is 30-bits long 0x1E
+ // The SPI word is 31-bits long 0x1F
+ // The SPI word is 32-bits long
+#define MCSPI_CH1CONF_WL_S 7
+#define MCSPI_CH1CONF_EPOL 0x00000040 // SPIEN polarity 0 SPIEN is held
+ // high during the active state. 1
+ // SPIEN is held low during the
+ // active state.
+#define MCSPI_CH1CONF_CLKD_M 0x0000003C // Frequency divider for SPICLK.
+ // (only when the module is a Master
+ // SPI device). A programmable clock
+ // divider divides the SPI reference
+ // clock (CLKSPIREF) with a 4-bit
+ // value and results in a new clock
+ // SPICLK available to shift-in and
+ // shift-out data. By default the
+ // clock divider ratio has a power
+ // of two granularity when
+ // MCSPI_CHCONF[CLKG] is cleared
+ // Otherwise this register is the 4
+ // LSB bit of a 12-bit register
+ // concatenated with clock divider
+ // extension MCSPI_CHCTRL[EXTCLK]
+ // register.The value description
+ // below defines the clock ratio
+ // when MCSPI_CHCONF[CLKG] is set to
+ // 0. 0x0 1 0x1 2 0x2 4 0x3 8 0x4 16
+ // 0x5 32 0x6 64 0x7 128 0x8 256 0x9
+ // 512 0xA 1024 0xB 2048 0xC 4096
+ // 0xD 8192 0xE 16384 0xF 32768
+#define MCSPI_CH1CONF_CLKD_S 2
+#define MCSPI_CH1CONF_POL 0x00000002 // SPICLK polarity 0 SPICLK is held
+ // high during the active state 1
+ // SPICLK is held low during the
+ // active state
+#define MCSPI_CH1CONF_PHA 0x00000001 // SPICLK phase 0 Data are latched
+ // on odd numbered edges of SPICLK.
+ // 1 Data are latched on even
+ // numbered edges of SPICLK.
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MCSPI_O_CH1STAT register.
+//
+//******************************************************************************
+#define MCSPI_CH1STAT_RXFFF 0x00000040
+#define MCSPI_CH1STAT_RXFFE 0x00000020
+#define MCSPI_CH1STAT_TXFFF 0x00000010
+#define MCSPI_CH1STAT_TXFFE 0x00000008
+#define MCSPI_CH1STAT_EOT 0x00000004
+#define MCSPI_CH1STAT_TXS 0x00000002
+#define MCSPI_CH1STAT_RXS 0x00000001
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MCSPI_O_CH1CTRL register.
+//
+//******************************************************************************
+#define MCSPI_CH1CTRL_EXTCLK_M 0x0000FF00 // Clock ratio extension: This
+ // register is used to concatenate
+ // with MCSPI_CHCONF[CLKD] register
+ // for clock ratio only when
+ // granularity is one clock cycle
+ // (MCSPI_CHCONF[CLKG] set to 1).
+ // Then the max value reached is
+ // 4096 clock divider ratio. 0x00
+ // Clock ratio is CLKD + 1 0x01
+ // Clock ratio is CLKD + 1 + 16 0xFF
+ // Clock ratio is CLKD + 1 + 4080
+#define MCSPI_CH1CTRL_EXTCLK_S 8
+#define MCSPI_CH1CTRL_EN 0x00000001 // Channel Enable 0 "Channel ""i""
+ // is not active" 1 "Channel ""i""
+ // is active"
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MCSPI_O_TX1 register.
+//
+//******************************************************************************
+#define MCSPI_TX1_TDATA_M 0xFFFFFFFF // Channel 1 Data to transmit
+#define MCSPI_TX1_TDATA_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MCSPI_O_RX1 register.
+//
+//******************************************************************************
+#define MCSPI_RX1_RDATA_M 0xFFFFFFFF // Channel 1 Received Data
+#define MCSPI_RX1_RDATA_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MCSPI_O_CH2CONF register.
+//
+//******************************************************************************
+#define MCSPI_CH2CONF_CLKG 0x20000000 // Clock divider granularity This
+ // register defines the granularity
+ // of channel clock divider: power
+ // of two or one clock cycle
+ // granularity. When this bit is set
+ // the register MCSPI_CHCTRL[EXTCLK]
+ // must be configured to reach a
+ // maximum of 4096 clock divider
+ // ratio. Then The clock divider
+ // ratio is a concatenation of
+ // MCSPI_CHCONF[CLKD] and
+ // MCSPI_CHCTRL[EXTCLK] values 0
+ // Clock granularity of power of two
+ // 1 One clock cycle ganularity
+#define MCSPI_CH2CONF_FFER 0x10000000 // FIFO enabled for receive:Only
+ // one channel can have this bit
+ // field set. 0 The buffer is not
+ // used to receive data. 1 The
+ // buffer is used to receive data.
+#define MCSPI_CH2CONF_FFEW 0x08000000 // FIFO enabled for Transmit:Only
+ // one channel can have this bit
+ // field set. 0 The buffer is not
+ // used to transmit data. 1 The
+ // buffer is used to transmit data.
+#define MCSPI_CH2CONF_TCS2_M 0x06000000 // Chip Select Time Control This
+ // 2-bits field defines the number
+ // of interface clock cycles between
+ // CS toggling and first or last
+ // edge of SPI clock. 0x0 0.5 clock
+ // cycle 0x1 1.5 clock cycle 0x2 2.5
+ // clock cycle 0x3 3.5 clock cycle
+#define MCSPI_CH2CONF_TCS2_S 25
+#define MCSPI_CH2CONF_SBPOL 0x01000000 // Start bit polarity 0 Start bit
+ // polarity is held to 0 during SPI
+ // transfer. 1 Start bit polarity is
+ // held to 1 during SPI transfer.
+#define MCSPI_CH2CONF_SBE 0x00800000 // Start bit enable for SPI
+ // transfer 0 Default SPI transfer
+ // length as specified by WL bit
+ // field 1 Start bit D/CX added
+ // before SPI transfer polarity is
+ // defined by MCSPI_CH2CONF[SBPOL]
+#define MCSPI_CH2CONF_FORCE 0x00100000 // Manual SPIEN assertion to keep
+ // SPIEN active between SPI words.
+ // (single channel master mode only)
+ // 0 Writing 0 into this bit drives
+ // low the SPIEN line when
+ // MCSPI_CHCONF(i)[EPOL]=0 and
+ // drives it high when
+ // MCSPI_CHCONF(i)[EPOL]=1. 1
+ // Writing 1 into this bit drives
+ // high the SPIEN line when
+ // MCSPI_CHCONF(i)[EPOL]=0 and
+ // drives it low when
+ // MCSPI_CHCONF(i)[EPOL]=1
+#define MCSPI_CH2CONF_TURBO 0x00080000 // Turbo mode 0 Turbo is
+ // deactivated (recommended for
+ // single SPI word transfer) 1 Turbo
+ // is activated to maximize the
+ // throughput for multi SPI words
+ // transfer.
+#define MCSPI_CH2CONF_IS 0x00040000 // Input Select 0 Data Line0
+ // (SPIDAT[0]) selected for
+ // reception. 1 Data Line1
+ // (SPIDAT[1]) selected for
+ // reception
+#define MCSPI_CH2CONF_DPE1 0x00020000 // Transmission Enable for data
+ // line 1 (SPIDATAGZEN[1]) 0 Data
+ // Line1 (SPIDAT[1]) selected for
+ // transmission 1 No transmission on
+ // Data Line1 (SPIDAT[1])
+#define MCSPI_CH2CONF_DPE0 0x00010000 // Transmission Enable for data
+ // line 0 (SPIDATAGZEN[0]) 0 Data
+ // Line0 (SPIDAT[0]) selected for
+ // transmission 1 No transmission on
+ // Data Line0 (SPIDAT[0])
+#define MCSPI_CH2CONF_DMAR 0x00008000 // DMA Read request The DMA Read
+ // request line is asserted when the
+ // channel is enabled and a new data
+ // is available in the receive
+ // register of the channel. The DMA
+ // Read request line is deasserted
+ // on read completion of the receive
+ // register of the channel. 0 DMA
+ // Read Request disabled 1 DMA Read
+ // Request enabled
+#define MCSPI_CH2CONF_DMAW 0x00004000 // DMA Write request. The DMA Write
+ // request line is asserted when The
+ // channel is enabled and the
+ // transmitter register of the
+ // channel is empty. The DMA Write
+ // request line is deasserted on
+ // load completion of the
+ // transmitter register of the
+ // channel. 0 DMA Write Request
+ // disabled 1 DMA Write Request
+ // enabled
+#define MCSPI_CH2CONF_TRM_M 0x00003000 // Transmit/Receive modes 0x0
+ // Transmit and Receive mode 0x1
+ // Receive only mode 0x2 Transmit
+ // only mode 0x3 Reserved
+#define MCSPI_CH2CONF_TRM_S 12
+#define MCSPI_CH2CONF_WL_M 0x00000F80 // SPI word length 0x00 Reserved
+ // 0x01 Reserved 0x02 Reserved 0x03
+ // The SPI word is 4-bits long 0x04
+ // The SPI word is 5-bits long 0x05
+ // The SPI word is 6-bits long 0x06
+ // The SPI word is 7-bits long 0x07
+ // The SPI word is 8-bits long 0x08
+ // The SPI word is 9-bits long 0x09
+ // The SPI word is 10-bits long 0x0A
+ // The SPI word is 11-bits long 0x0B
+ // The SPI word is 12-bits long 0x0C
+ // The SPI word is 13-bits long 0x0D
+ // The SPI word is 14-bits long 0x0E
+ // The SPI word is 15-bits long 0x0F
+ // The SPI word is 16-bits long 0x10
+ // The SPI word is 17-bits long 0x11
+ // The SPI word is 18-bits long 0x12
+ // The SPI word is 19-bits long 0x13
+ // The SPI word is 20-bits long 0x14
+ // The SPI word is 21-bits long 0x15
+ // The SPI word is 22-bits long 0x16
+ // The SPI word is 23-bits long 0x17
+ // The SPI word is 24-bits long 0x18
+ // The SPI word is 25-bits long 0x19
+ // The SPI word is 26-bits long 0x1A
+ // The SPI word is 27-bits long 0x1B
+ // The SPI word is 28-bits long 0x1C
+ // The SPI word is 29-bits long 0x1D
+ // The SPI word is 30-bits long 0x1E
+ // The SPI word is 31-bits long 0x1F
+ // The SPI word is 32-bits long
+#define MCSPI_CH2CONF_WL_S 7
+#define MCSPI_CH2CONF_EPOL 0x00000040 // SPIEN polarity 0 SPIEN is held
+ // high during the active state. 1
+ // SPIEN is held low during the
+ // active state.
+#define MCSPI_CH2CONF_CLKD_M 0x0000003C // Frequency divider for SPICLK.
+ // (only when the module is a Master
+ // SPI device). A programmable clock
+ // divider divides the SPI reference
+ // clock (CLKSPIREF) with a 4-bit
+ // value and results in a new clock
+ // SPICLK available to shift-in and
+ // shift-out data. By default the
+ // clock divider ratio has a power
+ // of two granularity when
+ // MCSPI_CHCONF[CLKG] is cleared
+ // Otherwise this register is the 4
+ // LSB bit of a 12-bit register
+ // concatenated with clock divider
+ // extension MCSPI_CHCTRL[EXTCLK]
+ // register.The value description
+ // below defines the clock ratio
+ // when MCSPI_CHCONF[CLKG] is set to
+ // 0. 0x0 1 0x1 2 0x2 4 0x3 8 0x4 16
+ // 0x5 32 0x6 64 0x7 128 0x8 256 0x9
+ // 512 0xA 1024 0xB 2048 0xC 4096
+ // 0xD 8192 0xE 16384 0xF 32768
+#define MCSPI_CH2CONF_CLKD_S 2
+#define MCSPI_CH2CONF_POL 0x00000002 // SPICLK polarity 0 SPICLK is held
+ // high during the active state 1
+ // SPICLK is held low during the
+ // active state
+#define MCSPI_CH2CONF_PHA 0x00000001 // SPICLK phase 0 Data are latched
+ // on odd numbered edges of SPICLK.
+ // 1 Data are latched on even
+ // numbered edges of SPICLK.
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MCSPI_O_CH2STAT register.
+//
+//******************************************************************************
+#define MCSPI_CH2STAT_RXFFF 0x00000040
+#define MCSPI_CH2STAT_RXFFE 0x00000020
+#define MCSPI_CH2STAT_TXFFF 0x00000010
+#define MCSPI_CH2STAT_TXFFE 0x00000008
+#define MCSPI_CH2STAT_EOT 0x00000004
+#define MCSPI_CH2STAT_TXS 0x00000002
+#define MCSPI_CH2STAT_RXS 0x00000001
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MCSPI_O_CH2CTRL register.
+//
+//******************************************************************************
+#define MCSPI_CH2CTRL_EXTCLK_M 0x0000FF00 // Clock ratio extension: This
+ // register is used to concatenate
+ // with MCSPI_CHCONF[CLKD] register
+ // for clock ratio only when
+ // granularity is one clock cycle
+ // (MCSPI_CHCONF[CLKG] set to 1).
+ // Then the max value reached is
+ // 4096 clock divider ratio. 0x00
+ // Clock ratio is CLKD + 1 0x01
+ // Clock ratio is CLKD + 1 + 16 0xFF
+ // Clock ratio is CLKD + 1 + 4080
+#define MCSPI_CH2CTRL_EXTCLK_S 8
+#define MCSPI_CH2CTRL_EN 0x00000001 // Channel Enable 0 "Channel ""i""
+ // is not active" 1 "Channel ""i""
+ // is active"
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MCSPI_O_TX2 register.
+//
+//******************************************************************************
+#define MCSPI_TX2_TDATA_M 0xFFFFFFFF // Channel 2 Data to transmit
+#define MCSPI_TX2_TDATA_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MCSPI_O_RX2 register.
+//
+//******************************************************************************
+#define MCSPI_RX2_RDATA_M 0xFFFFFFFF // Channel 2 Received Data
+#define MCSPI_RX2_RDATA_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MCSPI_O_CH3CONF register.
+//
+//******************************************************************************
+#define MCSPI_CH3CONF_CLKG 0x20000000 // Clock divider granularity This
+ // register defines the granularity
+ // of channel clock divider: power
+ // of two or one clock cycle
+ // granularity. When this bit is set
+ // the register MCSPI_CHCTRL[EXTCLK]
+ // must be configured to reach a
+ // maximum of 4096 clock divider
+ // ratio. Then The clock divider
+ // ratio is a concatenation of
+ // MCSPI_CHCONF[CLKD] and
+ // MCSPI_CHCTRL[EXTCLK] values 0
+ // Clock granularity of power of two
+ // 1 One clock cycle ganularity
+#define MCSPI_CH3CONF_FFER 0x10000000 // FIFO enabled for receive:Only
+ // one channel can have this bit
+ // field set. 0 The buffer is not
+ // used to receive data. 1 The
+ // buffer is used to receive data.
+#define MCSPI_CH3CONF_FFEW 0x08000000 // FIFO enabled for Transmit:Only
+ // one channel can have this bit
+ // field set. 0 The buffer is not
+ // used to transmit data. 1 The
+ // buffer is used to transmit data.
+#define MCSPI_CH3CONF_TCS3_M 0x06000000 // Chip Select Time Control This
+ // 2-bits field defines the number
+ // of interface clock cycles between
+ // CS toggling and first or last
+ // edge of SPI clock. 0x0 0.5 clock
+ // cycle 0x1 1.5 clock cycle 0x2 2.5
+ // clock cycle 0x3 3.5 clock cycle
+#define MCSPI_CH3CONF_TCS3_S 25
+#define MCSPI_CH3CONF_SBPOL 0x01000000 // Start bit polarity 0 Start bit
+ // polarity is held to 0 during SPI
+ // transfer. 1 Start bit polarity is
+ // held to 1 during SPI transfer.
+#define MCSPI_CH3CONF_SBE 0x00800000 // Start bit enable for SPI
+ // transfer 0 Default SPI transfer
+ // length as specified by WL bit
+ // field 1 Start bit D/CX added
+ // before SPI transfer polarity is
+ // defined by MCSPI_CH3CONF[SBPOL]
+#define MCSPI_CH3CONF_FORCE 0x00100000 // Manual SPIEN assertion to keep
+ // SPIEN active between SPI words.
+ // (single channel master mode only)
+ // 0 Writing 0 into this bit drives
+ // low the SPIEN line when
+ // MCSPI_CHCONF(i)[EPOL]=0 and
+ // drives it high when
+ // MCSPI_CHCONF(i)[EPOL]=1. 1
+ // Writing 1 into this bit drives
+ // high the SPIEN line when
+ // MCSPI_CHCONF(i)[EPOL]=0 and
+ // drives it low when
+ // MCSPI_CHCONF(i)[EPOL]=1
+#define MCSPI_CH3CONF_TURBO 0x00080000 // Turbo mode 0 Turbo is
+ // deactivated (recommended for
+ // single SPI word transfer) 1 Turbo
+ // is activated to maximize the
+ // throughput for multi SPI words
+ // transfer.
+#define MCSPI_CH3CONF_IS 0x00040000 // Input Select 0 Data Line0
+ // (SPIDAT[0]) selected for
+ // reception. 1 Data Line1
+ // (SPIDAT[1]) selected for
+ // reception
+#define MCSPI_CH3CONF_DPE1 0x00020000 // Transmission Enable for data
+ // line 1 (SPIDATAGZEN[1]) 0 Data
+ // Line1 (SPIDAT[1]) selected for
+ // transmission 1 No transmission on
+ // Data Line1 (SPIDAT[1])
+#define MCSPI_CH3CONF_DPE0 0x00010000 // Transmission Enable for data
+ // line 0 (SPIDATAGZEN[0]) 0 Data
+ // Line0 (SPIDAT[0]) selected for
+ // transmission 1 No transmission on
+ // Data Line0 (SPIDAT[0])
+#define MCSPI_CH3CONF_DMAR 0x00008000 // DMA Read request The DMA Read
+ // request line is asserted when the
+ // channel is enabled and a new data
+ // is available in the receive
+ // register of the channel. The DMA
+ // Read request line is deasserted
+ // on read completion of the receive
+ // register of the channel. 0 DMA
+ // Read Request disabled 1 DMA Read
+ // Request enabled
+#define MCSPI_CH3CONF_DMAW 0x00004000 // DMA Write request. The DMA Write
+ // request line is asserted when The
+ // channel is enabled and the
+ // transmitter register of the
+ // channel is empty. The DMA Write
+ // request line is deasserted on
+ // load completion of the
+ // transmitter register of the
+ // channel. 0 DMA Write Request
+ // disabled 1 DMA Write Request
+ // enabled
+#define MCSPI_CH3CONF_TRM_M 0x00003000 // Transmit/Receive modes 0x0
+ // Transmit and Receive mode 0x1
+ // Receive only mode 0x2 Transmit
+ // only mode 0x3 Reserved
+#define MCSPI_CH3CONF_TRM_S 12
+#define MCSPI_CH3CONF_WL_M 0x00000F80 // SPI word length 0x00 Reserved
+ // 0x01 Reserved 0x02 Reserved 0x03
+ // The SPI word is 4-bits long 0x04
+ // The SPI word is 5-bits long 0x05
+ // The SPI word is 6-bits long 0x06
+ // The SPI word is 7-bits long 0x07
+ // The SPI word is 8-bits long 0x08
+ // The SPI word is 9-bits long 0x09
+ // The SPI word is 10-bits long 0x0A
+ // The SPI word is 11-bits long 0x0B
+ // The SPI word is 12-bits long 0x0C
+ // The SPI word is 13-bits long 0x0D
+ // The SPI word is 14-bits long 0x0E
+ // The SPI word is 15-bits long 0x0F
+ // The SPI word is 16-bits long 0x10
+ // The SPI word is 17-bits long 0x11
+ // The SPI word is 18-bits long 0x12
+ // The SPI word is 19-bits long 0x13
+ // The SPI word is 20-bits long 0x14
+ // The SPI word is 21-bits long 0x15
+ // The SPI word is 22-bits long 0x16
+ // The SPI word is 23-bits long 0x17
+ // The SPI word is 24-bits long 0x18
+ // The SPI word is 25-bits long 0x19
+ // The SPI word is 26-bits long 0x1A
+ // The SPI word is 27-bits long 0x1B
+ // The SPI word is 28-bits long 0x1C
+ // The SPI word is 29-bits long 0x1D
+ // The SPI word is 30-bits long 0x1E
+ // The SPI word is 31-bits long 0x1F
+ // The SPI word is 32-bits long
+#define MCSPI_CH3CONF_WL_S 7
+#define MCSPI_CH3CONF_EPOL 0x00000040 // SPIEN polarity 0 SPIEN is held
+ // high during the active state. 1
+ // SPIEN is held low during the
+ // active state.
+#define MCSPI_CH3CONF_CLKD_M 0x0000003C // Frequency divider for SPICLK.
+ // (only when the module is a Master
+ // SPI device). A programmable clock
+ // divider divides the SPI reference
+ // clock (CLKSPIREF) with a 4-bit
+ // value and results in a new clock
+ // SPICLK available to shift-in and
+ // shift-out data. By default the
+ // clock divider ratio has a power
+ // of two granularity when
+ // MCSPI_CHCONF[CLKG] is cleared
+ // Otherwise this register is the 4
+ // LSB bit of a 12-bit register
+ // concatenated with clock divider
+ // extension MCSPI_CHCTRL[EXTCLK]
+ // register.The value description
+ // below defines the clock ratio
+ // when MCSPI_CHCONF[CLKG] is set to
+ // 0. 0x0 1 0x1 2 0x2 4 0x3 8 0x4 16
+ // 0x5 32 0x6 64 0x7 128 0x8 256 0x9
+ // 512 0xA 1024 0xB 2048 0xC 4096
+ // 0xD 8192 0xE 16384 0xF 32768
+#define MCSPI_CH3CONF_CLKD_S 2
+#define MCSPI_CH3CONF_POL 0x00000002 // SPICLK polarity 0 SPICLK is held
+ // high during the active state 1
+ // SPICLK is held low during the
+ // active state
+#define MCSPI_CH3CONF_PHA 0x00000001 // SPICLK phase 0 Data are latched
+ // on odd numbered edges of SPICLK.
+ // 1 Data are latched on even
+ // numbered edges of SPICLK.
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MCSPI_O_CH3STAT register.
+//
+//******************************************************************************
+#define MCSPI_CH3STAT_RXFFF 0x00000040
+#define MCSPI_CH3STAT_RXFFE 0x00000020
+#define MCSPI_CH3STAT_TXFFF 0x00000010
+#define MCSPI_CH3STAT_TXFFE 0x00000008
+#define MCSPI_CH3STAT_EOT 0x00000004
+#define MCSPI_CH3STAT_TXS 0x00000002
+#define MCSPI_CH3STAT_RXS 0x00000001
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MCSPI_O_CH3CTRL register.
+//
+//******************************************************************************
+#define MCSPI_CH3CTRL_EXTCLK_M 0x0000FF00 // Clock ratio extension: This
+ // register is used to concatenate
+ // with MCSPI_CHCONF[CLKD] register
+ // for clock ratio only when
+ // granularity is one clock cycle
+ // (MCSPI_CHCONF[CLKG] set to 1).
+ // Then the max value reached is
+ // 4096 clock divider ratio. 0x00
+ // Clock ratio is CLKD + 1 0x01
+ // Clock ratio is CLKD + 1 + 16 0xFF
+ // Clock ratio is CLKD + 1 + 4080
+#define MCSPI_CH3CTRL_EXTCLK_S 8
+#define MCSPI_CH3CTRL_EN 0x00000001 // Channel Enable 0 "Channel ""i""
+ // is not active" 1 "Channel ""i""
+ // is active"
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MCSPI_O_TX3 register.
+//
+//******************************************************************************
+#define MCSPI_TX3_TDATA_M 0xFFFFFFFF // Channel 3 Data to transmit
+#define MCSPI_TX3_TDATA_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MCSPI_O_RX3 register.
+//
+//******************************************************************************
+#define MCSPI_RX3_RDATA_M 0xFFFFFFFF // Channel 3 Received Data
+#define MCSPI_RX3_RDATA_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MCSPI_O_XFERLEVEL register.
+//
+//******************************************************************************
+#define MCSPI_XFERLEVEL_WCNT_M 0xFFFF0000 // Spi word counterThis register
+ // holds the programmable value of
+ // number of SPI word to be
+ // transferred on channel which is
+ // using the FIFO buffer.When
+ // transfer had started a read back
+ // in this register returns the
+ // current SPI word transfer index.
+ // 0x0000 Counter not used 0x0001
+ // one word 0xFFFE 65534 spi word
+ // 0xFFFF 65535 spi word
+#define MCSPI_XFERLEVEL_WCNT_S 16
+#define MCSPI_XFERLEVEL_AFL_M 0x0000FF00 // Buffer Almost Full This register
+ // holds the programmable almost
+ // full level value used to
+ // determine almost full buffer
+ // condition. If the user wants an
+ // interrupt or a DMA read request
+ // to be issued during a receive
+ // operation when the data buffer
+ // holds at least n bytes then the
+ // buffer MCSPI_MODULCTRL[AFL] must
+ // be set with n-1.The size of this
+ // register is defined by the
+ // generic parameter FFNBYTE. 0x00
+ // one byte 0x01 2 bytes 0xFE
+ // 255bytes 0xFF 256bytes
+#define MCSPI_XFERLEVEL_AFL_S 8
+#define MCSPI_XFERLEVEL_AEL_M 0x000000FF // Buffer Almost EmptyThis register
+ // holds the programmable almost
+ // empty level value used to
+ // determine almost empty buffer
+ // condition. If the user wants an
+ // interrupt or a DMA write request
+ // to be issued during a transmit
+ // operation when the data buffer is
+ // able to receive n bytes then the
+ // buffer MCSPI_MODULCTRL[AEL] must
+ // be set with n-1. 0x00 one byte
+ // 0x01 2 bytes 0xFE 255 bytes 0xFF
+ // 256bytes
+#define MCSPI_XFERLEVEL_AEL_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MCSPI_O_DAFTX register.
+//
+//******************************************************************************
+#define MCSPI_DAFTX_DAFTDATA_M 0xFFFFFFFF // FIFO Data to transmit with DMA
+ // 256 bit aligned address. "This
+ // Register is only is used when
+ // MCSPI_MODULCTRL[FDAA] is set to
+ // ""1"" and only one of the
+ // MCSPI_CH(i)CONF[FFEW] of enabled
+ // channels is set. If these
+ // conditions are not respected any
+ // access to this register return a
+ // null value."
+#define MCSPI_DAFTX_DAFTDATA_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MCSPI_O_DAFRX register.
+//
+//******************************************************************************
+#define MCSPI_DAFRX_DAFRDATA_M 0xFFFFFFFF // FIFO Data to transmit with DMA
+ // 256 bit aligned address. "This
+ // Register is only is used when
+ // MCSPI_MODULCTRL[FDAA] is set to
+ // ""1"" and only one of the
+ // MCSPI_CH(i)CONF[FFEW] of enabled
+ // channels is set. If these
+ // conditions are not respected any
+ // access to this register return a
+ // null value."
+#define MCSPI_DAFRX_DAFRDATA_S 0
+
+
+
+#endif // __HW_MCSPI_H__
diff --git a/cc3200/hal/inc/hw_memmap.h b/cc3200/hal/inc/hw_memmap.h
new file mode 100644
index 000000000..244905dd2
--- /dev/null
+++ b/cc3200/hal/inc/hw_memmap.h
@@ -0,0 +1,84 @@
+//*****************************************************************************
+//
+// Copyright (C) 2014 Texas Instruments Incorporated - http://www.ti.com/
+//
+//
+// Redistribution and use in source and binary forms, with or without
+// modification, are permitted provided that the following conditions
+// are met:
+//
+// Redistributions of source code must retain the above copyright
+// notice, this list of conditions and the following disclaimer.
+//
+// Redistributions in binary form must reproduce the above copyright
+// notice, this list of conditions and the following disclaimer in the
+// documentation and/or other materials provided with the
+// distribution.
+//
+// Neither the name of Texas Instruments Incorporated nor the names of
+// its contributors may be used to endorse or promote products derived
+// from this software without specific prior written permission.
+//
+// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
+// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
+// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
+// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
+// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
+// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
+// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
+// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
+// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
+// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
+// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+//
+//*****************************************************************************
+
+#ifndef __HW_MEMMAP_H__
+#define __HW_MEMMAP_H__
+
+//*****************************************************************************
+//
+// The following are defines for the base address of the memories and
+// peripherals on the slave_1 interface.
+//
+//*****************************************************************************
+#define FLASH_BASE 0x01000000
+#define SRAM_BASE 0x20000000
+#define WDT_BASE 0x40000000
+#define GPIOA0_BASE 0x40004000
+#define GPIOA1_BASE 0x40005000
+#define GPIOA2_BASE 0x40006000
+#define GPIOA3_BASE 0x40007000
+#define GPIOA4_BASE 0x40024000
+#define UARTA0_BASE 0x4000C000
+#define UARTA1_BASE 0x4000D000
+#define I2CA0_BASE 0x40020000
+#define TIMERA0_BASE 0x40030000
+#define TIMERA1_BASE 0x40031000
+#define TIMERA2_BASE 0x40032000
+#define TIMERA3_BASE 0x40033000
+#define STACKDIE_CTRL_BASE 0x400F5000
+#define COMMON_REG_BASE 0x400F7000
+#define FLASH_CONTROL_BASE 0x400FD000
+#define SYSTEM_CONTROL_BASE 0x400FE000
+#define UDMA_BASE 0x400FF000
+#define SDHOST_BASE 0x44010000
+#define CAMERA_BASE 0x44018000
+#define I2S_BASE 0x4401C000
+#define SSPI_BASE 0x44020000
+#define GSPI_BASE 0x44021000
+#define LSPI_BASE 0x44022000
+#define ARCM_BASE 0x44025000
+#define APPS_CONFIG_BASE 0x44026000
+#define GPRCM_BASE 0x4402D000
+#define OCP_SHARED_BASE 0x4402E000
+#define ADC_BASE 0x4402E800
+#define HIB1P2_BASE 0x4402F000
+#define HIB3P3_BASE 0x4402F800
+#define DTHE_BASE 0x44030000
+#define SHAMD5_BASE 0x44035000
+#define AES_BASE 0x44037000
+#define DES_BASE 0x44039000
+
+
+#endif // __HW_MEMMAP_H__
diff --git a/cc3200/hal/inc/hw_mmchs.h b/cc3200/hal/inc/hw_mmchs.h
new file mode 100644
index 000000000..3096d13a9
--- /dev/null
+++ b/cc3200/hal/inc/hw_mmchs.h
@@ -0,0 +1,1919 @@
+//*****************************************************************************
+//
+// Copyright (C) 2014 Texas Instruments Incorporated - http://www.ti.com/
+//
+//
+// Redistribution and use in source and binary forms, with or without
+// modification, are permitted provided that the following conditions
+// are met:
+//
+// Redistributions of source code must retain the above copyright
+// notice, this list of conditions and the following disclaimer.
+//
+// Redistributions in binary form must reproduce the above copyright
+// notice, this list of conditions and the following disclaimer in the
+// documentation and/or other materials provided with the
+// distribution.
+//
+// Neither the name of Texas Instruments Incorporated nor the names of
+// its contributors may be used to endorse or promote products derived
+// from this software without specific prior written permission.
+//
+// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
+// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
+// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
+// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
+// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
+// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
+// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
+// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
+// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
+// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
+// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+//
+//*****************************************************************************
+
+#ifndef __HW_MMCHS_H__
+#define __HW_MMCHS_H__
+
+//*****************************************************************************
+//
+// The following are defines for the MMCHS register offsets.
+//
+//*****************************************************************************
+#define MMCHS_O_HL_REV 0x00000000 // IP Revision Identifier (X.Y.R)
+ // Used by software to track
+ // features bugs and compatibility
+#define MMCHS_O_HL_HWINFO 0x00000004 // Information about the IP
+ // module's hardware configuration
+ // i.e. typically the module's HDL
+ // generics (if any). Actual field
+ // format and encoding is up to the
+ // module's designer to decide.
+#define MMCHS_O_HL_SYSCONFIG 0x00000010 // Clock management configuration
+#define MMCHS_O_SYSCONFIG 0x00000110 // System Configuration Register
+ // This register allows controlling
+ // various parameters of the OCP
+ // interface.
+#define MMCHS_O_SYSSTATUS 0x00000114 // System Status Register This
+ // register provides status
+ // information about the module
+ // excluding the interrupt status
+ // information
+#define MMCHS_O_CSRE 0x00000124 // Card status response error This
+ // register enables the host
+ // controller to detect card status
+ // errors of response type R1 R1b
+ // for all cards and of R5 R5b and
+ // R6 response for cards types SD or
+ // SDIO. When a bit MMCHS_CSRE[i] is
+ // set to 1 if the corresponding bit
+ // at the same position in the
+ // response MMCHS_RSP0[i] is set to
+ // 1 the host controller indicates a
+ // card error (MMCHS_STAT[CERR])
+ // interrupt status to avoid the
+ // host driver reading the response
+ // register (MMCHS_RSP0). Note: No
+ // automatic card error detection
+ // for autoCMD12 is implemented; the
+ // host system has to check
+ // autoCMD12 response register
+ // (MMCHS_RESP76) for possible card
+ // errors.
+#define MMCHS_O_SYSTEST 0x00000128 // System Test register This
+ // register is used to control the
+ // signals that connect to I/O pins
+ // when the module is configured in
+ // system test (SYSTEST) mode for
+ // boundary connectivity
+ // verification. Note: In SYSTEST
+ // mode a write into MMCHS_CMD
+ // register will not start a
+ // transfer. The buffer behaves as a
+ // stack accessible only by the
+ // local host (push and pop
+ // operations). In this mode the
+ // Transfer Block Size
+ // (MMCHS_BLK[BLEN]) and the Blocks
+ // count for current transfer
+ // (MMCHS_BLK[NBLK]) are needed to
+ // generate a Buffer write ready
+ // interrupt (MMCHS_STAT[BWR]) or a
+ // Buffer read ready interrupt
+ // (MMCHS_STAT[BRR]) and DMA
+ // requests if enabled.
+#define MMCHS_O_CON 0x0000012C // Configuration register This
+ // register is used: - to select the
+ // functional mode or the SYSTEST
+ // mode for any card. - to send an
+ // initialization sequence to any
+ // card. - to enable the detection
+ // on DAT[1] of a card interrupt for
+ // SDIO cards only. and also to
+ // configure : - specific data and
+ // command transfers for MMC cards
+ // only. - the parameters related to
+ // the card detect and write protect
+ // input signals.
+#define MMCHS_O_PWCNT 0x00000130 // Power counter register This
+ // register is used to program a mmc
+ // counter to delay command
+ // transfers after activating the
+ // PAD power this value depends on
+ // PAD characteristics and voltage.
+#define MMCHS_O_BLK 0x00000204 // Transfer Length Configuration
+ // register MMCHS_BLK[BLEN] is the
+ // block size register.
+ // MMCHS_BLK[NBLK] is the block
+ // count register. This register
+ // shall be used for any card.
+#define MMCHS_O_ARG 0x00000208 // Command argument Register This
+ // register contains command
+ // argument specified as bit 39-8 of
+ // Command-Format These registers
+ // must be initialized prior to
+ // sending the command itself to the
+ // card (write action into the
+ // register MMCHS_CMD register).
+ // Only exception is for a command
+ // index specifying stuff bits in
+ // arguments making a write
+ // unnecessary.
+#define MMCHS_O_CMD 0x0000020C // Command and transfer mode
+ // register MMCHS_CMD[31:16] = the
+ // command register MMCHS_CMD[15:0]
+ // = the transfer mode. This
+ // register configures the data and
+ // command transfers. A write into
+ // the most significant byte send
+ // the command. A write into
+ // MMCHS_CMD[15:0] registers during
+ // data transfer has no effect. This
+ // register shall be used for any
+ // card. Note: In SYSTEST mode a
+ // write into MMCHS_CMD register
+ // will not start a transfer.
+#define MMCHS_O_RSP10 0x00000210 // Command response[31:0] Register
+ // This 32-bit register holds bits
+ // positions [31:0] of command
+ // response type
+ // R1/R1b/R2/R3/R4/R5/R5b/R6
+#define MMCHS_O_RSP32 0x00000214 // Command response[63:32] Register
+ // This 32-bit register holds bits
+ // positions [63:32] of command
+ // response type R2
+#define MMCHS_O_RSP54 0x00000218 // Command response[95:64] Register
+ // This 32-bit register holds bits
+ // positions [95:64] of command
+ // response type R2
+#define MMCHS_O_RSP76 0x0000021C // Command response[127:96]
+ // Register This 32-bit register
+ // holds bits positions [127:96] of
+ // command response type R2
+#define MMCHS_O_DATA 0x00000220 // Data Register This register is
+ // the 32-bit entry point of the
+ // buffer for read or write data
+ // transfers. The buffer size is
+ // 32bits x256(1024 bytes). Bytes
+ // within a word are stored and read
+ // in little endian format. This
+ // buffer can be used as two 512
+ // byte buffers to transfer data
+ // efficiently without reducing the
+ // throughput. Sequential and
+ // contiguous access is necessary to
+ // increment the pointer correctly.
+ // Random or skipped access is not
+ // allowed. In little endian if the
+ // local host accesses this register
+ // byte-wise or 16bit-wise the least
+ // significant byte (bits [7:0])
+ // must always be written/read
+ // first. The update of the buffer
+ // address is done on the most
+ // significant byte write for full
+ // 32-bit DATA register or on the
+ // most significant byte of the last
+ // word of block transfer. Example
+ // 1: Byte or 16-bit access
+ // Mbyteen[3:0]=0001 (1-byte) =>
+ // Mbyteen[3:0]=0010 (1-byte) =>
+ // Mbyteen[3:0]=1100 (2-bytes) OK
+ // Mbyteen[3:0]=0001 (1-byte) =>
+ // Mbyteen[3:0]=0010 (1-byte) =>
+ // Mbyteen[3:0]=0100 (1-byte) OK
+ // Mbyteen[3:0]=0001 (1-byte) =>
+ // Mbyteen[3:0]=0010 (1-byte) =>
+ // Mbyteen[3:0]=1000 (1-byte) Bad
+#define MMCHS_O_PSTATE 0x00000224 // Present state register The Host
+ // can get status of the Host
+ // Controller from this 32-bit read
+ // only register.
+#define MMCHS_O_HCTL 0x00000228 // Control register This register
+ // defines the host controls to set
+ // power wakeup and transfer
+ // parameters. MMCHS_HCTL[31:24] =
+ // Wakeup control MMCHS_HCTL[23:16]
+ // = Block gap control
+ // MMCHS_HCTL[15:8] = Power control
+ // MMCHS_HCTL[7:0] = Host control
+#define MMCHS_O_SYSCTL 0x0000022C // SD system control register This
+ // register defines the system
+ // controls to set software resets
+ // clock frequency management and
+ // data timeout. MMCHS_SYSCTL[31:24]
+ // = Software resets
+ // MMCHS_SYSCTL[23:16] = Timeout
+ // control MMCHS_SYSCTL[15:0] =
+ // Clock control
+#define MMCHS_O_STAT 0x00000230 // Interrupt status register The
+ // interrupt status regroups all the
+ // status of the module internal
+ // events that can generate an
+ // interrupt. MMCHS_STAT[31:16] =
+ // Error Interrupt Status
+ // MMCHS_STAT[15:0] = Normal
+ // Interrupt Status
+#define MMCHS_O_IE 0x00000234 // Interrupt SD enable register
+ // This register allows to
+ // enable/disable the module to set
+ // status bits on an event-by-event
+ // basis. MMCHS_IE[31:16] = Error
+ // Interrupt Status Enable
+ // MMCHS_IE[15:0] = Normal Interrupt
+ // Status Enable
+#define MMCHS_O_ISE 0x00000238 // Interrupt signal enable register
+ // This register allows to
+ // enable/disable the module
+ // internal sources of status on an
+ // event-by-event basis.
+ // MMCHS_ISE[31:16] = Error
+ // Interrupt Signal Enable
+ // MMCHS_ISE[15:0] = Normal
+ // Interrupt Signal Enable
+#define MMCHS_O_AC12 0x0000023C // Auto CMD12 Error Status Register
+ // The host driver may determine
+ // which of the errors cases related
+ // to Auto CMD12 has occurred by
+ // checking this MMCHS_AC12 register
+ // when an Auto CMD12 Error
+ // interrupt occurs. This register
+ // is valid only when Auto CMD12 is
+ // enabled (MMCHS_CMD[ACEN]) and
+ // Auto CMD12Error (MMCHS_STAT[ACE])
+ // is set to 1. Note: These bits are
+ // automatically reset when starting
+ // a new adtc command with data.
+#define MMCHS_O_CAPA 0x00000240 // Capabilities register This
+ // register lists the capabilities
+ // of the MMC/SD/SDIO host
+ // controller.
+#define MMCHS_O_CUR_CAPA 0x00000248 // Maximum current capabilities
+ // Register This register indicates
+ // the maximum current capability
+ // for each voltage. The value is
+ // meaningful if the voltage support
+ // is set in the capabilities
+ // register (MMCHS_CAPA).
+ // Initialization of this register
+ // (via a write access to this
+ // register) depends on the system
+ // capabilities. The host driver
+ // shall not modify this register
+ // after the initilaization. This
+ // register is only reinitialized by
+ // a hard reset (via RESETN signal)
+#define MMCHS_O_FE 0x00000250 // Force Event Register for Error
+ // Interrupt status The force Event
+ // Register is not a physically
+ // implemented register. Rather it
+ // is an address at which the Error
+ // Interrupt Status register can be
+ // written. The effect of a write to
+ // this address will be reflected in
+ // the Error Interrupt Status
+ // Register if corresponding bit of
+ // the Error Interrupt Status Enable
+ // Register is set.
+#define MMCHS_O_ADMAES 0x00000254 // ADMA Error Status Register When
+ // ADMA Error Interrupt is occurred
+ // the ADMA Error States field in
+ // this register holds the ADMA
+ // state and the ADMA System Address
+ // Register holds the address around
+ // the error descriptor. For
+ // recovering the error the Host
+ // Driver requires the ADMA state to
+ // identify the error descriptor
+ // address as follows: ST_STOP:
+ // Previous location set in the ADMA
+ // System Address register is the
+ // error descriptor address ST_FDS:
+ // Current location set in the ADMA
+ // System Address register is the
+ // error descriptor address ST_CADR:
+ // This sate is never set because do
+ // not generate ADMA error in this
+ // state. ST_TFR: Previous location
+ // set in the ADMA System Address
+ // register is the error descriptor
+ // address In case of write
+ // operation the Host Driver should
+ // use ACMD22 to get the number of
+ // written block rather than using
+ // this information since unwritten
+ // data may exist in the Host
+ // Controller. The Host Controller
+ // generates the ADMA Error
+ // Interrupt when it detects invalid
+ // descriptor data (Valid=0) at the
+ // ST_FDS state. In this case ADMA
+ // Error State indicates that an
+ // error occurs at ST_FDS state. The
+ // Host Driver may find that the
+ // Valid bit is not set in the error
+ // descriptor.
+#define MMCHS_O_ADMASAL 0x00000258 // ADMA System address Low bits
+#define MMCHS_O_REV 0x000002FC // Versions Register This register
+ // contains the hard coded RTL
+ // vendor revision number the
+ // version number of SD
+ // specification compliancy and a
+ // slot status bit. MMCHS_REV[31:16]
+ // = Host controller version
+ // MMCHS_REV[15:0] = Slot Interrupt
+ // Status
+
+
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MMCHS_O_HL_REV register.
+//
+//******************************************************************************
+#define MMCHS_HL_REV_SCHEME_M 0xC0000000
+#define MMCHS_HL_REV_SCHEME_S 30
+#define MMCHS_HL_REV_FUNC_M 0x0FFF0000 // Function indicates a software
+ // compatible module family. If
+ // there is no level of software
+ // compatibility a new Func number
+ // (and hence REVISION) should be
+ // assigned.
+#define MMCHS_HL_REV_FUNC_S 16
+#define MMCHS_HL_REV_R_RTL_M 0x0000F800 // RTL Version (R) maintained by IP
+ // design owner. RTL follows a
+ // numbering such as X.Y.R.Z which
+ // are explained in this table. R
+ // changes ONLY when: (1) PDS
+ // uploads occur which may have been
+ // due to spec changes (2) Bug fixes
+ // occur (3) Resets to '0' when X or
+ // Y changes. Design team has an
+ // internal 'Z' (customer invisible)
+ // number which increments on every
+ // drop that happens due to DV and
+ // RTL updates. Z resets to 0 when R
+ // increments.
+#define MMCHS_HL_REV_R_RTL_S 11
+#define MMCHS_HL_REV_X_MAJOR_M 0x00000700 // Major Revision (X) maintained by
+ // IP specification owner. X changes
+ // ONLY when: (1) There is a major
+ // feature addition. An example
+ // would be adding Master Mode to
+ // Utopia Level2. The Func field (or
+ // Class/Type in old PID format)
+ // will remain the same. X does NOT
+ // change due to: (1) Bug fixes (2)
+ // Change in feature parameters.
+#define MMCHS_HL_REV_X_MAJOR_S 8
+#define MMCHS_HL_REV_CUSTOM_M 0x000000C0
+#define MMCHS_HL_REV_CUSTOM_S 6
+#define MMCHS_HL_REV_Y_MINOR_M 0x0000003F // Minor Revision (Y) maintained by
+ // IP specification owner. Y changes
+ // ONLY when: (1) Features are
+ // scaled (up or down). Flexibility
+ // exists in that this feature
+ // scalability may either be
+ // represented in the Y change or a
+ // specific register in the IP that
+ // indicates which features are
+ // exactly available. (2) When
+ // feature creeps from Is-Not list
+ // to Is list. But this may not be
+ // the case once it sees silicon; in
+ // which case X will change. Y does
+ // NOT change due to: (1) Bug fixes
+ // (2) Typos or clarifications (3)
+ // major functional/feature
+ // change/addition/deletion. Instead
+ // these changes may be reflected
+ // via R S X as applicable. Spec
+ // owner maintains a
+ // customer-invisible number 'S'
+ // which changes due to: (1)
+ // Typos/clarifications (2) Bug
+ // documentation. Note that this bug
+ // is not due to a spec change but
+ // due to implementation.
+ // Nevertheless the spec tracks the
+ // IP bugs. An RTL release (say for
+ // silicon PG1.1) that occurs due to
+ // bug fix should document the
+ // corresponding spec number (X.Y.S)
+ // in its release notes.
+#define MMCHS_HL_REV_Y_MINOR_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MMCHS_O_HL_HWINFO register.
+//
+//******************************************************************************
+#define MMCHS_HL_HWINFO_RETMODE 0x00000040
+#define MMCHS_HL_HWINFO_MEM_SIZE_M \
+ 0x0000003C
+
+#define MMCHS_HL_HWINFO_MEM_SIZE_S 2
+#define MMCHS_HL_HWINFO_MERGE_MEM \
+ 0x00000002
+
+#define MMCHS_HL_HWINFO_MADMA_EN \
+ 0x00000001
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// MMCHS_O_HL_SYSCONFIG register.
+//
+//******************************************************************************
+#define MMCHS_HL_SYSCONFIG_STANDBYMODE_M \
+ 0x00000030 // Configuration of the local
+ // initiator state management mode.
+ // By definition initiator may
+ // generate read/write transaction
+ // as long as it is out of STANDBY
+ // state. 0x0 Force-standby mode:
+ // local initiator is
+ // unconditionally placed in standby
+ // state.Backup mode for debug only.
+ // 0x1 No-standby mode: local
+ // initiator is unconditionally
+ // placed out of standby
+ // state.Backup mode for debug only.
+ // 0x2 Smart-standby mode: local
+ // initiator standby status depends
+ // on local conditions i.e. the
+ // module's functional requirement
+ // from the initiator.IP module
+ // shall not generate
+ // (initiator-related) wakeup
+ // events. 0x3 "Smart-Standby
+ // wakeup-capable mode: local
+ // initiator standby status depends
+ // on local conditions i.e. the
+ // module's functional requirement
+ // from the initiator. IP module may
+ // generate (master-related) wakeup
+ // events when in standby state.Mode
+ // is only relevant if the
+ // appropriate IP module ""mwakeup""
+ // output is implemented."
+
+#define MMCHS_HL_SYSCONFIG_STANDBYMODE_S 4
+#define MMCHS_HL_SYSCONFIG_IDLEMODE_M \
+ 0x0000000C // Configuration of the local
+ // target state management mode. By
+ // definition target can handle
+ // read/write transaction as long as
+ // it is out of IDLE state. 0x0
+ // Force-idle mode: local target's
+ // idle state follows (acknowledges)
+ // the system's idle requests
+ // unconditionally i.e. regardless
+ // of the IP module's internal
+ // requirements.Backup mode for
+ // debug only. 0x1 No-idle mode:
+ // local target never enters idle
+ // state.Backup mode for debug only.
+ // 0x2 Smart-idle mode: local
+ // target's idle state eventually
+ // follows (acknowledges) the
+ // system's idle requests depending
+ // on the IP module's internal
+ // requirements.IP module shall not
+ // generate (IRQ- or
+ // DMA-request-related) wakeup
+ // events. 0x3 "Smart-idle
+ // wakeup-capable mode: local
+ // target's idle state eventually
+ // follows (acknowledges) the
+ // system's idle requests depending
+ // on the IP module's internal
+ // requirements.IP module may
+ // generate (IRQ- or
+ // DMA-request-related) wakeup
+ // events when in idle state.Mode is
+ // only relevant if the appropriate
+ // IP module ""swakeup"" output(s)
+ // is (are) implemented."
+
+#define MMCHS_HL_SYSCONFIG_IDLEMODE_S 2
+#define MMCHS_HL_SYSCONFIG_FREEEMU \
+ 0x00000002 // Sensitivity to emulation (debug)
+ // suspend input signal.
+ // Functionality NOT implemented in
+ // MMCHS. 0 IP module is sensitive
+ // to emulation suspend 1 IP module
+ // is not sensitive to emulation
+ // suspend
+
+#define MMCHS_HL_SYSCONFIG_SOFTRESET \
+ 0x00000001
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MMCHS_O_SYSCONFIG register.
+//
+//******************************************************************************
+#define MMCHS_SYSCONFIG_STANDBYMODE_M \
+ 0x00003000 // Master interface power
+ // Management standby/wait control.
+ // The bit field is only useful when
+ // generic parameter MADMA_EN
+ // (Master ADMA enable) is set as
+ // active otherwise it is a read
+ // only register read a '0'. 0x0
+ // Force-standby. Mstandby is forced
+ // unconditionnaly. 0x1 No-standby.
+ // Mstandby is never asserted. 0x2
+ // Smart-standby mode: local
+ // initiator standby status depends
+ // on local conditions i.e. the
+ // module's functional requirement
+ // from the initiator.IP module
+ // shall not generate
+ // (initiator-related) wakeup
+ // events. 0x3 Smart-Standby
+ // wakeup-capable mode: "local
+ // initiator standby status depends
+ // on local conditions i.e. the
+ // module's functional requirement
+ // from the initiator. IP module may
+ // generate (master-related) wakeup
+ // events when in standby state.Mode
+ // is only relevant if the
+ // appropriate IP module ""mwakeup""
+ // output is implemented."
+
+#define MMCHS_SYSCONFIG_STANDBYMODE_S 12
+#define MMCHS_SYSCONFIG_CLOCKACTIVITY_M \
+ 0x00000300 // Clocks activity during wake up
+ // mode period. Bit8: OCP interface
+ // clock Bit9: Functional clock 0x0
+ // OCP and Functional clock may be
+ // switched off. 0x1 OCP clock is
+ // maintained. Functional clock may
+ // be switched-off. 0x2 Functional
+ // clock is maintained. OCP clock
+ // may be switched-off. 0x3 OCP and
+ // Functional clocks are maintained.
+
+#define MMCHS_SYSCONFIG_CLOCKACTIVITY_S 8
+#define MMCHS_SYSCONFIG_SIDLEMODE_M \
+ 0x00000018 // Power management 0x0 If an idle
+ // request is detected the MMCHS
+ // acknowledges it unconditionally
+ // and goes in Inactive mode.
+ // Interrupt and DMA requests are
+ // unconditionally de-asserted. 0x1
+ // If an idle request is detected
+ // the request is ignored and the
+ // module keeps on behaving
+ // normally. 0x2 Smart-idle mode:
+ // local target's idle state
+ // eventually follows (acknowledges)
+ // the system's idle requests
+ // depending on the IP module's
+ // internal requirements.IP module
+ // shall not generate (IRQ- or
+ // DMA-request-related) wakeup
+ // events. 0x3 Smart-idle
+ // wakeup-capable mode: "local
+ // target's idle state eventually
+ // follows (acknowledges) the
+ // system's idle requests depending
+ // on the IP module's internal
+ // requirements.IP module may
+ // generate (IRQ- or
+ // DMA-request-related) wakeup
+ // events when in idle state.Mode is
+ // only relevant if the appropriate
+ // IP module ""swakeup"" output(s)
+ // is (are) implemented."
+
+#define MMCHS_SYSCONFIG_SIDLEMODE_S 3
+#define MMCHS_SYSCONFIG_ENAWAKEUP \
+ 0x00000004 // Wakeup feature control 0 Wakeup
+ // capability is disabled 1 Wakeup
+ // capability is enabled
+
+#define MMCHS_SYSCONFIG_SOFTRESET \
+ 0x00000002
+
+#define MMCHS_SYSCONFIG_AUTOIDLE \
+ 0x00000001 // Internal Clock gating strategy 0
+ // Clocks are free-running 1
+ // Automatic clock gating strategy
+ // is applied based on the OCP and
+ // MMC interface activity
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MMCHS_O_SYSSTATUS register.
+//
+//******************************************************************************
+#define MMCHS_SYSSTATUS_RESETDONE \
+ 0x00000001
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MMCHS_O_CSRE register.
+//
+//******************************************************************************
+#define MMCHS_CSRE_CSRE_M 0xFFFFFFFF // Card status response error
+#define MMCHS_CSRE_CSRE_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MMCHS_O_SYSTEST register.
+//
+//******************************************************************************
+#define MMCHS_SYSTEST_OBI 0x00010000
+#define MMCHS_SYSTEST_SDCD 0x00008000
+#define MMCHS_SYSTEST_SDWP 0x00004000
+#define MMCHS_SYSTEST_WAKD 0x00002000
+#define MMCHS_SYSTEST_SSB 0x00001000
+#define MMCHS_SYSTEST_D7D 0x00000800
+#define MMCHS_SYSTEST_D6D 0x00000400
+#define MMCHS_SYSTEST_D5D 0x00000200
+#define MMCHS_SYSTEST_D4D 0x00000100
+#define MMCHS_SYSTEST_D3D 0x00000080
+#define MMCHS_SYSTEST_D2D 0x00000040
+#define MMCHS_SYSTEST_D1D 0x00000020
+#define MMCHS_SYSTEST_D0D 0x00000010
+#define MMCHS_SYSTEST_DDIR 0x00000008
+#define MMCHS_SYSTEST_CDAT 0x00000004
+#define MMCHS_SYSTEST_CDIR 0x00000002
+#define MMCHS_SYSTEST_MCKD 0x00000001
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MMCHS_O_CON register.
+//
+//******************************************************************************
+#define MMCHS_CON_SDMA_LNE 0x00200000 // Slave DMA Level/Edge Request:
+ // The waveform of the DMA request
+ // can be configured either edge
+ // sensitive with early de-assertion
+ // on first access to MMCHS_DATA
+ // register or late de-assertion
+ // request remains active until last
+ // allowed data written into
+ // MMCHS_DATA. 0 Slave DMA edge
+ // sensitive Early DMA de-assertion
+ // 1 Slave DMA level sensitive Late
+ // DMA de-assertion
+#define MMCHS_CON_DMA_MNS 0x00100000 // DMA Master or Slave selection:
+ // When this bit is set and the
+ // controller is configured to use
+ // the DMA Ocp master interface is
+ // used to get datas from system
+ // using ADMA2 procedure (direct
+ // access to the memory).This option
+ // is only available if generic
+ // parameter MADMA_EN is asserted to
+ // '1'. 0 The controller is slave on
+ // data transfers with system. 1 The
+ // controller is master on data
+ // exchange with system controller
+ // must be configured as using DMA.
+#define MMCHS_CON_DDR 0x00080000 // Dual Data Rate mode: When this
+ // register is set the controller
+ // uses both clock edge to emit or
+ // receive data. Odd bytes are
+ // transmitted on falling edges and
+ // even bytes are transmitted on
+ // rise edges. It only applies on
+ // Data bytes and CRC Start end bits
+ // and CRC status are kept full
+ // cycle. This bit field is only
+ // meaningful and active for even
+ // clock divider ratio of
+ // MMCHS_SYSCTL[CLKD] it is
+ // insensitive to MMCHS_HCTL[HSPE]
+ // setting. 0 Standard mode : data
+ // are transmitted on a single edge
+ // depending on MMCHS_HCTRL[HSPE]. 1
+ // Data Bytes and CRC are
+ // transmitted on both edge.
+#define MMCHS_CON_BOOT_CF0 0x00040000
+#define MMCHS_CON_BOOT_ACK 0x00020000 // Book acknowledge received: When
+ // this bit is set the controller
+ // should receive a boot status on
+ // DAT0 line after next command
+ // issued. If no status is received
+ // a data timeout will be generated.
+ // 0 No acknowledge to be received 1
+ // A boot status will be received on
+ // DAT0 line after issuing a
+ // command.
+#define MMCHS_CON_CLKEXTFREE 0x00010000 // External clock free running:
+ // This register is used to maintain
+ // card clock out of transfer
+ // transaction to enable slave
+ // module for example to generate a
+ // synchronous interrupt on DAT[1].
+ // The Clock will be maintain only
+ // if MMCHS_SYSCTL[CEN] is set. 0
+ // External card clock is cut off
+ // outside active transaction
+ // period. 1 External card clock is
+ // maintain even out of active
+ // transaction period only if
+ // MMCHS_SYSCTL[CEN] is set.
+#define MMCHS_CON_PADEN 0x00008000 // Control Power for MMC Lines:
+ // This register is only useful when
+ // MMC PADs contain power saving
+ // mechanism to minimize its leakage
+ // power. It works as a GPIO that
+ // directly control the ACTIVE pin
+ // of PADs. Excepted for DAT[1] the
+ // signal is also combine outside
+ // the module with the dedicated
+ // power control MMCHS_CON[CTPL]
+ // bit. 0 ADPIDLE module pin is not
+ // forced it is automatically
+ // generated by the MMC fsms. 1
+ // ADPIDLE module pin is forced to
+ // active state.
+#define MMCHS_CON_OBIE 0x00004000 // Out-of-Band Interrupt Enable MMC
+ // cards only: This bit enables the
+ // detection of Out-of-Band
+ // Interrupt on MMCOBI input pin.
+ // The usage of the Out-of-Band
+ // signal (OBI) is optional and
+ // depends on the system
+ // integration. 0 Out-of-Band
+ // interrupt detection disabled 1
+ // Out-of-Band interrupt detection
+ // enabled
+#define MMCHS_CON_OBIP 0x00002000 // Out-of-Band Interrupt Polarity
+ // MMC cards only: This bit selects
+ // the active level of the
+ // out-of-band interrupt coming from
+ // MMC cards. The usage of the
+ // Out-of-Band signal (OBI) is
+ // optional and depends on the
+ // system integration. 0 active high
+ // level 1 active low level
+#define MMCHS_CON_CEATA 0x00001000 // CE-ATA control mode MMC cards
+ // compliant with CE-ATA:By default
+ // this bit is set to 0. It is use
+ // to indicate that next commands
+ // are considered as specific CE-ATA
+ // commands that potentially use
+ // 'command completion' features. 0
+ // Standard MMC/SD/SDIO mode. 1
+ // CE-ATA mode next commands are
+ // considered as CE-ATA commands.
+#define MMCHS_CON_CTPL 0x00000800 // Control Power for DAT[1] line
+ // MMC and SD cards: By default this
+ // bit is set to 0 and the host
+ // controller automatically disables
+ // all the input buffers outside of
+ // a transaction to minimize the
+ // leakage current. SDIO cards: When
+ // this bit is set to 1 the host
+ // controller automatically disables
+ // all the input buffers except the
+ // buffer of DAT[1] outside of a
+ // transaction in order to detect
+ // asynchronous card interrupt on
+ // DAT[1] line and minimize the
+ // leakage current of the buffers. 0
+ // Disable all the input buffers
+ // outside of a transaction. 1
+ // Disable all the input buffers
+ // except the buffer of DAT[1]
+ // outside of a transaction.
+#define MMCHS_CON_DVAL_M 0x00000600 // Debounce filter value All cards
+ // This register is used to define a
+ // debounce period to filter the
+ // card detect input signal (SDCD).
+ // The usage of the card detect
+ // input signal (SDCD) is optional
+ // and depends on the system
+ // integration and the type of the
+ // connector housing that
+ // accommodates the card. 0x0 33 us
+ // debounce period 0x1 231 us
+ // debounce period 0x2 1 ms debounce
+ // period 0x3 84 ms debounce period
+#define MMCHS_CON_DVAL_S 9
+#define MMCHS_CON_WPP 0x00000100 // Write protect polarity For SD
+ // and SDIO cards only This bit
+ // selects the active level of the
+ // write protect input signal
+ // (SDWP). The usage of the write
+ // protect input signal (SDWP) is
+ // optional and depends on the
+ // system integration and the type
+ // of the connector housing that
+ // accommodates the card. 0 active
+ // high level 1 active low level
+#define MMCHS_CON_CDP 0x00000080 // Card detect polarity All cards
+ // This bit selects the active level
+ // of the card detect input signal
+ // (SDCD). The usage of the card
+ // detect input signal (SDCD) is
+ // optional and depends on the
+ // system integration and the type
+ // of the connector housing that
+ // accommodates the card. 0 active
+ // high level 1 active low level
+#define MMCHS_CON_MIT 0x00000040 // MMC interrupt command Only for
+ // MMC cards. This bit must be set
+ // to 1 when the next write access
+ // to the command register
+ // (MMCHS_CMD) is for writing a MMC
+ // interrupt command (CMD40)
+ // requiring the command timeout
+ // detection to be disabled for the
+ // command response. 0 Command
+ // timeout enabled 1 Command timeout
+ // disabled
+#define MMCHS_CON_DW8 0x00000020 // 8-bit mode MMC select For
+ // SD/SDIO cards this bit must be
+ // set to 0. For MMC card this bit
+ // must be set following a valid
+ // SWITCH command (CMD6) with the
+ // correct value and extend CSD
+ // index written in the argument.
+ // Prior to this command the MMC
+ // card configuration register (CSD
+ // and EXT_CSD) must be verified for
+ // compliancy with MMC standard
+ // specification 4.x (see section
+ // 3.6). 0 1-bit or 4-bit Data width
+ // (DAT[0] used MMC SD cards) 1
+ // 8-bit Data width (DAT[7:0] used
+ // MMC cards)
+#define MMCHS_CON_MODE 0x00000010 // Mode select All cards These bits
+ // select between Functional mode
+ // and SYSTEST mode. 0 Functional
+ // mode. Transfers to the
+ // MMC/SD/SDIO cards follow the card
+ // protocol. MMC clock is enabled.
+ // MMC/SD transfers are operated
+ // under the control of the CMD
+ // register. 1 SYSTEST mode The
+ // signal pins are configured as
+ // general-purpose input/output and
+ // the 1024-byte buffer is
+ // configured as a stack memory
+ // accessible only by the local host
+ // or system DMA. The pins retain
+ // their default type (input output
+ // or in-out). SYSTEST mode is
+ // operated under the control of the
+ // SYSTEST register.
+#define MMCHS_CON_STR 0x00000008 // Stream command Only for MMC
+ // cards. This bit must be set to 1
+ // only for the stream data
+ // transfers (read or write) of the
+ // adtc commands. Stream read is a
+ // class 1 command (CMD11:
+ // READ_DAT_UNTIL_STOP). Stream
+ // write is a class 3 command
+ // (CMD20: WRITE_DAT_UNTIL_STOP). 0
+ // Block oriented data transfer 1
+ // Stream oriented data transfer
+#define MMCHS_CON_HR 0x00000004 // Broadcast host response Only for
+ // MMC cards. This register is used
+ // to force the host to generate a
+ // 48-bit response for bc command
+ // type. "It can be used to
+ // terminate the interrupt mode by
+ // generating a CMD40 response by
+ // the core (see section 4.3
+ // ""Interrupt Mode"" in the MMC [1]
+ // specification). In order to have
+ // the host response to be generated
+ // in open drain mode the register
+ // MMCHS_CON[OD] must be set to 1."
+ // When MMCHS_CON[CEATA] is set to 1
+ // and MMCHS_ARG set to 0x00000000
+ // when writing 0x00000000 into
+ // MMCHS_CMD register the host
+ // controller performs a 'command
+ // completion signal disable' token
+ // i.e. CMD line held to '0' during
+ // 47 cycles followed by a 1. 0 The
+ // host does not generate a 48-bit
+ // response instead of a command. 1
+ // The host generates a 48-bit
+ // response instead of a command or
+ // a command completion signal
+ // disable token.
+#define MMCHS_CON_INIT 0x00000002 // Send initialization stream All
+ // cards. When this bit is set to 1
+ // and the card is idle an
+ // initialization sequence is sent
+ // to the card. "An initialization
+ // sequence consists of setting the
+ // CMD line to 1 during 80 clock
+ // cycles. The initialisation
+ // sequence is mandatory - but it is
+ // not required to do it through
+ // this bit - this bit makes it
+ // easier. Clock divider
+ // (MMCHS_SYSCTL[CLKD]) should be
+ // set to ensure that 80 clock
+ // periods are greater than 1ms.
+ // (see section 9.3 ""Power-Up"" in
+ // the MMC card specification [1] or
+ // section 6.4 in the SD card
+ // specification [2])." Note: in
+ // this mode there is no command
+ // sent to the card and no response
+ // is expected 0 The host does not
+ // send an initialization sequence.
+ // 1 The host sends an
+ // initialization sequence.
+#define MMCHS_CON_OD 0x00000001 // Card open drain mode. Only for
+ // MMC cards. This bit must be set
+ // to 1 for MMC card commands 1 2 3
+ // and 40 and if the MMC card bus is
+ // operating in open-drain mode
+ // during the response phase to the
+ // command sent. Typically during
+ // card identification mode when the
+ // card is either in idle ready or
+ // ident state. It is also necessary
+ // to set this bit to 1 for a
+ // broadcast host response (see
+ // Broadcast host response register
+ // MMCHS_CON[HR]) 0 No Open Drain 1
+ // Open Drain or Broadcast host
+ // response
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MMCHS_O_PWCNT register.
+//
+//******************************************************************************
+#define MMCHS_PWCNT_PWRCNT_M 0x0000FFFF // Power counter register. This
+ // register is used to introduce a
+ // delay between the PAD ACTIVE pin
+ // assertion and the command issued.
+ // 0x0000 No additional delay added
+ // 0x0001 TCF delay (card clock
+ // period) 0x0002 TCF x 2 delay
+ // (card clock period) 0xFFFE TCF x
+ // 65534 delay (card clock period)
+ // 0xFFFF TCF x 65535 delay (card
+ // clock period)
+#define MMCHS_PWCNT_PWRCNT_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MMCHS_O_BLK register.
+//
+//******************************************************************************
+#define MMCHS_BLK_NBLK_M 0xFFFF0000 // Blocks count for current
+ // transfer This register is enabled
+ // when Block count Enable
+ // (MMCHS_CMD[BCE]) is set to 1 and
+ // is valid only for multiple block
+ // transfers. Setting the block
+ // count to 0 results no data blocks
+ // being transferred. Note: The host
+ // controller decrements the block
+ // count after each block transfer
+ // and stops when the count reaches
+ // zero. This register can be
+ // accessed only if no transaction
+ // is executing (i.e after a
+ // transaction has stopped). Read
+ // operations during transfers may
+ // return an invalid value and write
+ // operation will be ignored. In
+ // suspend context the number of
+ // blocks yet to be transferred can
+ // be determined by reading this
+ // register. When restoring transfer
+ // context prior to issuing a Resume
+ // command The local host shall
+ // restore the previously saved
+ // block count. 0x0000 Stop count
+ // 0x0001 1 block 0x0002 2 blocks
+ // 0xFFFF 65535 blocks
+#define MMCHS_BLK_NBLK_S 16
+#define MMCHS_BLK_BLEN_M 0x00000FFF // Transfer Block Size. This
+ // register specifies the block size
+ // for block data transfers. Read
+ // operations during transfers may
+ // return an invalid value and write
+ // operations are ignored. When a
+ // CMD12 command is issued to stop
+ // the transfer a read of the BLEN
+ // field after transfer completion
+ // (MMCHS_STAT[TC] set to 1) will
+ // not return the true byte number
+ // of data length while the stop
+ // occurs but the value written in
+ // this register before transfer is
+ // launched. 0x000 No data transfer
+ // 0x001 1 byte block length 0x002 2
+ // bytes block length 0x003 3 bytes
+ // block length 0x1FF 511 bytes
+ // block length 0x200 512 bytes
+ // block length 0x7FF 2047 bytes
+ // block length 0x800 2048 bytes
+ // block length
+#define MMCHS_BLK_BLEN_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MMCHS_O_ARG register.
+//
+//******************************************************************************
+#define MMCHS_ARG_ARG_M 0xFFFFFFFF // Command argument bits [31:0]
+#define MMCHS_ARG_ARG_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MMCHS_O_CMD register.
+//
+//******************************************************************************
+#define MMCHS_CMD_INDX_M 0x3F000000 // Command index Binary encoded
+ // value from 0 to 63 specifying the
+ // command number send to card 0x00
+ // CMD0 or ACMD0 0x01 CMD1 or ACMD1
+ // 0x02 CMD2 or ACMD2 0x03 CMD3 or
+ // ACMD3 0x04 CMD4 or ACMD4 0x05
+ // CMD5 or ACMD5 0x06 CMD6 or ACMD6
+ // 0x07 CMD7 or ACMD7 0x08 CMD8 or
+ // ACMD8 0x09 CMD9 or ACMD9 0x0A
+ // CMD10 or ACMD10 0x0B CMD11 or
+ // ACMD11 0x0C CMD12 or ACMD12 0x0D
+ // CMD13 or ACMD13 0x0E CMD14 or
+ // ACMD14 0x0F CMD15 or ACMD15 0x10
+ // CMD16 or ACMD16 0x11 CMD17 or
+ // ACMD17 0x12 CMD18 or ACMD18 0x13
+ // CMD19 or ACMD19 0x14 CMD20 or
+ // ACMD20 0x15 CMD21 or ACMD21 0x16
+ // CMD22 or ACMD22 0x17 CMD23 or
+ // ACMD23 0x18 CMD24 or ACMD24 0x19
+ // CMD25 or ACMD25 0x1A CMD26 or
+ // ACMD26 0x1B CMD27 or ACMD27 0x1C
+ // CMD28 or ACMD28 0x1D CMD29 or
+ // ACMD29 0x1E CMD30 or ACMD30 0x1F
+ // CMD31 or ACMD31 0x20 CMD32 or
+ // ACMD32 0x21 CMD33 or ACMD33 0x22
+ // CMD34 or ACMD34 0x23 CMD35 or
+ // ACMD35 0x24 CMD36 or ACMD36 0x25
+ // CMD37 or ACMD37 0x26 CMD38 or
+ // ACMD38 0x27 CMD39 or ACMD39 0x28
+ // CMD40 or ACMD40 0x29 CMD41 or
+ // ACMD41 0x2A CMD42 or ACMD42 0x2B
+ // CMD43 or ACMD43 0x2C CMD44 or
+ // ACMD44 0x2D CMD45 or ACMD45 0x2E
+ // CMD46 or ACMD46 0x2F CMD47 or
+ // ACMD47 0x30 CMD48 or ACMD48 0x31
+ // CMD49 or ACMD49 0x32 CMD50 or
+ // ACMD50 0x33 CMD51 or ACMD51 0x34
+ // CMD52 or ACMD52 0x35 CMD53 or
+ // ACMD53 0x36 CMD54 or ACMD54 0x37
+ // CMD55 or ACMD55 0x38 CMD56 or
+ // ACMD56 0x39 CMD57 or ACMD57 0x3A
+ // CMD58 or ACMD58 0x3B CMD59 or
+ // ACMD59 0x3C CMD60 or ACMD60 0x3D
+ // CMD61 or ACMD61 0x3E CMD62 or
+ // ACMD62 0x3F CMD63 or ACMD63
+#define MMCHS_CMD_INDX_S 24
+#define MMCHS_CMD_CMD_TYPE_M 0x00C00000 // Command type This register
+ // specifies three types of special
+ // command: Suspend Resume and
+ // Abort. These bits shall be set to
+ // 00b for all other commands. 0x0
+ // Others Commands 0x1 "CMD52 for
+ // writing ""Bus Suspend"" in CCCR"
+ // 0x2 "CMD52 for writing ""Function
+ // Select"" in CCCR" 0x3 "Abort
+ // command CMD12 CMD52 for writing
+ // "" I/O Abort"" in CCCR"
+#define MMCHS_CMD_CMD_TYPE_S 22
+#define MMCHS_CMD_DP 0x00200000 // Data present select This
+ // register indicates that data is
+ // present and DAT line shall be
+ // used. It must be set to 0 in the
+ // following conditions: - command
+ // using only CMD line - command
+ // with no data transfer but using
+ // busy signal on DAT[0] - Resume
+ // command 0 Command with no data
+ // transfer 1 Command with data
+ // transfer
+#define MMCHS_CMD_CICE 0x00100000 // Command Index check enable This
+ // bit must be set to 1 to enable
+ // index check on command response
+ // to compare the index field in the
+ // response against the index of the
+ // command. If the index is not the
+ // same in the response as in the
+ // command it is reported as a
+ // command index error
+ // (MMCHS_STAT[CIE] set to1) Note:
+ // The register CICE cannot be
+ // configured for an Auto CMD12 then
+ // index check is automatically
+ // checked when this command is
+ // issued. 0 Index check disable 1
+ // Index check enable
+#define MMCHS_CMD_CCCE 0x00080000 // Command CRC check enable This
+ // bit must be set to 1 to enable
+ // CRC7 check on command response to
+ // protect the response against
+ // transmission errors on the bus.
+ // If an error is detected it is
+ // reported as a command CRC error
+ // (MMCHS_STAT[CCRC] set to 1).
+ // Note: The register CCCE cannot be
+ // configured for an Auto CMD12 and
+ // then CRC check is automatically
+ // checked when this command is
+ // issued. 0 CRC7 check disable 1
+ // CRC7 check enable
+#define MMCHS_CMD_RSP_TYPE_M 0x00030000 // Response type This bits defines
+ // the response type of the command
+ // 0x0 No response 0x1 Response
+ // Length 136 bits 0x2 Response
+ // Length 48 bits 0x3 Response
+ // Length 48 bits with busy after
+ // response
+#define MMCHS_CMD_RSP_TYPE_S 16
+#define MMCHS_CMD_MSBS 0x00000020 // Multi/Single block select This
+ // bit must be set to 1 for data
+ // transfer in case of multi block
+ // command. For any others command
+ // this bit shall be set to 0. 0
+ // Single block. If this bit is 0 it
+ // is not necessary to set the
+ // register MMCHS_BLK[NBLK]. 1 Multi
+ // block. When Block Count is
+ // disabled (MMCHS_CMD[BCE] is set
+ // to 0) in Multiple block transfers
+ // (MMCHS_CMD[MSBS] is set to 1) the
+ // module can perform infinite
+ // transfer.
+#define MMCHS_CMD_DDIR 0x00000010 // Data transfer Direction Select
+ // This bit defines either data
+ // transfer will be a read or a
+ // write. 0 Data Write (host to
+ // card) 1 Data Read (card to host)
+#define MMCHS_CMD_ACEN 0x00000004 // Auto CMD12 Enable SD card only.
+ // When this bit is set to 1 the
+ // host controller issues a CMD12
+ // automatically after the transfer
+ // completion of the last block. The
+ // Host Driver shall not set this
+ // bit to issue commands that do not
+ // require CMD12 to stop data
+ // transfer. In particular secure
+ // commands do not require CMD12. 0
+ // Auto CMD12 disable 1 Auto CMD12
+ // enable or CCS detection enabled.
+#define MMCHS_CMD_BCE 0x00000002 // Block Count Enable Multiple
+ // block transfers only. This bit is
+ // used to enable the block count
+ // register (MMCHS_BLK[NBLK]). When
+ // Block Count is disabled
+ // (MMCHS_CMD[BCE] is set to 0) in
+ // Multiple block transfers
+ // (MMCHS_CMD[MSBS] is set to 1) the
+ // module can perform infinite
+ // transfer. 0 Block count disabled
+ // for infinite transfer. 1 Block
+ // count enabled for multiple block
+ // transfer with known number of
+ // blocks
+#define MMCHS_CMD_DE 0x00000001 // DMA Enable This bit is used to
+ // enable DMA mode for host data
+ // access. 0 DMA mode disable 1 DMA
+ // mode enable
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MMCHS_O_RSP10 register.
+//
+//******************************************************************************
+#define MMCHS_RSP10_RSP1_M 0xFFFF0000 // Command Response [31:16]
+#define MMCHS_RSP10_RSP1_S 16
+#define MMCHS_RSP10_RSP0_M 0x0000FFFF // Command Response [15:0]
+#define MMCHS_RSP10_RSP0_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MMCHS_O_RSP32 register.
+//
+//******************************************************************************
+#define MMCHS_RSP32_RSP3_M 0xFFFF0000 // Command Response [63:48]
+#define MMCHS_RSP32_RSP3_S 16
+#define MMCHS_RSP32_RSP2_M 0x0000FFFF // Command Response [47:32]
+#define MMCHS_RSP32_RSP2_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MMCHS_O_RSP54 register.
+//
+//******************************************************************************
+#define MMCHS_RSP54_RSP5_M 0xFFFF0000 // Command Response [95:80]
+#define MMCHS_RSP54_RSP5_S 16
+#define MMCHS_RSP54_RSP4_M 0x0000FFFF // Command Response [79:64]
+#define MMCHS_RSP54_RSP4_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MMCHS_O_RSP76 register.
+//
+//******************************************************************************
+#define MMCHS_RSP76_RSP7_M 0xFFFF0000 // Command Response [127:112]
+#define MMCHS_RSP76_RSP7_S 16
+#define MMCHS_RSP76_RSP6_M 0x0000FFFF // Command Response [111:96]
+#define MMCHS_RSP76_RSP6_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MMCHS_O_DATA register.
+//
+//******************************************************************************
+#define MMCHS_DATA_DATA_M 0xFFFFFFFF // Data Register [31:0] In
+ // functional mode (MMCHS_CON[MODE]
+ // set to the default value 0) A
+ // read access to this register is
+ // allowed only when the buffer read
+ // enable status is set to 1
+ // (MMCHS_PSTATE[BRE]) otherwise a
+ // bad access (MMCHS_STAT[BADA]) is
+ // signaled. A write access to this
+ // register is allowed only when the
+ // buffer write enable status is set
+ // to 1(MMCHS_STATE[BWE]) otherwise
+ // a bad access (MMCHS_STAT[BADA])
+ // is signaled and the data is not
+ // written.
+#define MMCHS_DATA_DATA_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MMCHS_O_PSTATE register.
+//
+//******************************************************************************
+#define MMCHS_PSTATE_CLEV 0x01000000
+#define MMCHS_PSTATE_DLEV_M 0x00F00000 // DAT[3:0] line signal level
+ // DAT[3] => bit 23 DAT[2] => bit 22
+ // DAT[1] => bit 21 DAT[0] => bit 20
+ // This status is used to check DAT
+ // line level to recover from errors
+ // and for debugging. This is
+ // especially useful in detecting
+ // the busy signal level from
+ // DAT[0]. The value of these
+ // registers after reset depends on
+ // the DAT lines level at that time.
+#define MMCHS_PSTATE_DLEV_S 20
+#define MMCHS_PSTATE_WP 0x00080000
+#define MMCHS_PSTATE_CDPL 0x00040000
+#define MMCHS_PSTATE_CSS 0x00020000
+#define MMCHS_PSTATE_CINS 0x00010000
+#define MMCHS_PSTATE_BRE 0x00000800
+#define MMCHS_PSTATE_BWE 0x00000400
+#define MMCHS_PSTATE_RTA 0x00000200
+#define MMCHS_PSTATE_WTA 0x00000100
+#define MMCHS_PSTATE_DLA 0x00000004
+#define MMCHS_PSTATE_DATI 0x00000002
+#define MMCHS_PSTATE_CMDI 0x00000001
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MMCHS_O_HCTL register.
+//
+//******************************************************************************
+#define MMCHS_HCTL_OBWE 0x08000000 // Wakeup event enable for
+ // 'Out-of-Band' Interrupt. This bit
+ // enables wakeup events for
+ // 'Out-of-Band' assertion. Wakeup
+ // is generated if the wakeup
+ // feature is enabled
+ // (MMCHS_SYSCONFIG[ENAWAKEUP]). The
+ // write to this register is ignored
+ // when MMCHS_CON[OBIE] is not set.
+ // 0 Disable wakeup on 'Out-of-Band'
+ // Interrupt 1 Enable wakeup on
+ // 'Out-of-Band' Interrupt
+#define MMCHS_HCTL_REM 0x04000000 // Wakeup event enable on SD card
+ // removal This bit enables wakeup
+ // events for card removal
+ // assertion. Wakeup is generated if
+ // the wakeup feature is enabled
+ // (MMCHS_SYSCONFIG[ENAWAKEUP]). 0
+ // Disable wakeup on card removal 1
+ // Enable wakeup on card removal
+#define MMCHS_HCTL_INS 0x02000000 // Wakeup event enable on SD card
+ // insertion This bit enables wakeup
+ // events for card insertion
+ // assertion. Wakeup is generated if
+ // the wakeup feature is enabled
+ // (MMCHS_SYSCONFIG[ENAWAKEUP]). 0
+ // Disable wakeup on card insertion
+ // 1 Enable wakeup on card insertion
+#define MMCHS_HCTL_IWE 0x01000000 // Wakeup event enable on SD card
+ // interrupt This bit enables wakeup
+ // events for card interrupt
+ // assertion. Wakeup is generated if
+ // the wakeup feature is enabled
+ // (MMCHS_SYSCONFIG[ENAWAKEUP]). 0
+ // Disable wakeup on card interrupt
+ // 1 Enable wakeup on card interrupt
+#define MMCHS_HCTL_IBG 0x00080000 // Interrupt block at gap This bit
+ // is valid only in 4-bit mode of
+ // SDIO card to enable interrupt
+ // detection in the interrupt cycle
+ // at block gap for a multiple block
+ // transfer. For MMC cards and for
+ // SD card this bit should be set to
+ // 0. 0 Disable interrupt detection
+ // at the block gap in 4-bit mode 1
+ // Enable interrupt detection at the
+ // block gap in 4-bit mode
+#define MMCHS_HCTL_RWC 0x00040000 // Read wait control The read wait
+ // function is optional only for
+ // SDIO cards. If the card supports
+ // read wait this bit must be
+ // enabled then requesting a stop at
+ // block gap (MMCHS_HCTL[SBGR])
+ // generates a read wait period
+ // after the current end of block.
+ // Be careful if read wait is not
+ // supported it may cause a conflict
+ // on DAT line. 0 Disable Read Wait
+ // Control. Suspend/Resume cannot be
+ // supported. 1 Enable Read Wait
+ // Control
+#define MMCHS_HCTL_CR 0x00020000 // Continue request This bit is
+ // used to restart a transaction
+ // that was stopped by requesting a
+ // stop at block gap
+ // (MMCHS_HCTL[SBGR]). Set this bit
+ // to 1 restarts the transfer. The
+ // bit is automatically set to 0 by
+ // the host controller when transfer
+ // has restarted i.e DAT line is
+ // active (MMCHS_PSTATE[DLA]) or
+ // transferring data
+ // (MMCHS_PSTATE[WTA]). The Stop at
+ // block gap request must be
+ // disabled (MMCHS_HCTL[SBGR]=0)
+ // before setting this bit. 0 No
+ // affect 1 transfer restart
+#define MMCHS_HCTL_SBGR 0x00010000 // Stop at block gap request This
+ // bit is used to stop executing a
+ // transaction at the next block
+ // gap. The transfer can restart
+ // with a continue request
+ // (MMHS_HCTL[CR]) or during a
+ // suspend/resume sequence. In case
+ // of read transfer the card must
+ // support read wait control. In
+ // case of write transfer the host
+ // driver shall set this bit after
+ // all block data written. Until the
+ // transfer completion
+ // (MMCHS_STAT[TC] set to 1) the
+ // host driver shall leave this bit
+ // set to 1. If this bit is set the
+ // local host shall not write to the
+ // data register (MMCHS_DATA). 0
+ // Transfer mode 1 Stop at block gap
+#define MMCHS_HCTL_SDVS_M 0x00000E00 // SD bus voltage select All cards.
+ // The host driver should set to
+ // these bits to select the voltage
+ // level for the card according to
+ // the voltage supported by the
+ // system (MMCHS_CAPA[VS18VS30VS33])
+ // before starting a transfer. 0x5
+ // 1.8V (Typical) 0x6 3.0V (Typical)
+ // 0x7 3.3V (Typical)
+#define MMCHS_HCTL_SDVS_S 9
+#define MMCHS_HCTL_SDBP 0x00000100 // SD bus power Before setting this
+ // bit the host driver shall select
+ // the SD bus voltage
+ // (MMCHS_HCTL[SDVS]). If the host
+ // controller detects the No card
+ // state this bit is automatically
+ // set to 0. If the module is power
+ // off a write in the command
+ // register (MMCHS_CMD) will not
+ // start the transfer. A write to
+ // this bit has no effect if the
+ // selected SD bus voltage
+ // MMCHS_HCTL[SDVS] is not supported
+ // according to capability register
+ // (MMCHS_CAPA[VS*]). 0 Power off 1
+ // Power on
+#define MMCHS_HCTL_CDSS 0x00000080 // Card Detect Signal Selection
+ // This bit selects source for the
+ // card detection.When the source
+ // for the card detection is
+ // switched the interrupt should be
+ // disabled during the switching
+ // period by clearing the Interrupt
+ // Status/Signal Enable register in
+ // order to mask unexpected
+ // interrupt being caused by the
+ // glitch. The Interrupt
+ // Status/Signal Enable should be
+ // disabled during over the period
+ // of debouncing. 0 SDCD# is
+ // selected (for normal use) 1 The
+ // Card Detect Test Level is
+ // selected (for test purpose)
+#define MMCHS_HCTL_CDTL 0x00000040 // Card Detect Test Level: This bit
+ // is enabled while the Card Detect
+ // Signal Selection is set to 1 and
+ // it indicates card inserted or
+ // not. 0 No Card 1 Card Inserted
+#define MMCHS_HCTL_DMAS_M 0x00000018 // DMA Select Mode: One of
+ // supported DMA modes can be
+ // selected. The host driver shall
+ // check support of DMA modes by
+ // referring the Capabilities
+ // register. Use of selected DMA is
+ // determined by DMA Enable of the
+ // Transfer Mode register. This
+ // register is only meaningful when
+ // MADMA_EN is set to 1. When
+ // MADMA_EN is set to 0 the bit
+ // field is read only and returned
+ // value is 0. 0x0 Reserved 0x1
+ // Reserved 0x2 32-bit Address ADMA2
+ // is selected 0x3 Reserved
+#define MMCHS_HCTL_DMAS_S 3
+#define MMCHS_HCTL_HSPE 0x00000004 // High Speed Enable: Before
+ // setting this bit the Host Driver
+ // shall check the High Speed
+ // Support in the Capabilities
+ // register. If this bit is set to 0
+ // (default) the Host Controller
+ // outputs CMD line and DAT lines at
+ // the falling edge of the SD Clock.
+ // If this bit is set to 1 the Host
+ // Controller outputs CMD line and
+ // DAT lines at the rising edge of
+ // the SD Clock.This bit shall not
+ // be set when dual data rate mode
+ // is activated in MMCHS_CON[DDR]. 0
+ // Normal speed mode 1 High speed
+ // mode
+#define MMCHS_HCTL_DTW 0x00000002 // Data transfer width For MMC card
+ // this bit must be set following a
+ // valid SWITCH command (CMD6) with
+ // the correct value and extend CSD
+ // index written in the argument.
+ // Prior to this command the MMC
+ // card configuration register (CSD
+ // and EXT_CSD) must be verified for
+ // compliance with MMC standard
+ // specification 4.x (see section
+ // 3.6). This register has no effect
+ // when the MMC 8-bit mode is
+ // selected (register MMCHS_CON[DW8]
+ // set to1 ) For SD/SDIO cards this
+ // bit must be set following a valid
+ // SET_BUS_WIDTH command (ACMD6)
+ // with the value written in bit 1
+ // of the argument. Prior to this
+ // command the SD card configuration
+ // register (SCR) must be verified
+ // for the supported bus width by
+ // the SD card. 0 1-bit Data width
+ // (DAT[0] used) 1 4-bit Data width
+ // (DAT[3:0] used)
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MMCHS_O_SYSCTL register.
+//
+//******************************************************************************
+#define MMCHS_SYSCTL_SRD 0x04000000 // Software reset for DAT line This
+ // bit is set to 1 for reset and
+ // released to 0 when completed. DAT
+ // finite state machine in both
+ // clock domain are also reset. Here
+ // below are the registers cleared
+ // by MMCHS_SYSCTL[SRD]: #VALUE! -
+ // MMCHS_PSTATE: BRE BWE RTA WTA DLA
+ // and DATI - MMCHS_HCTL: SBGR and
+ // CR - MMCHS_STAT: BRR BWR BGE and
+ // TC OCP and MMC buffer data
+ // management is reinitialized. 0
+ // Reset completed 1 Software reset
+ // for DAT line
+#define MMCHS_SYSCTL_SRC 0x02000000 // Software reset for CMD line This
+ // bit is set to 1 for reset and
+ // released to 0 when completed. CMD
+ // finite state machine in both
+ // clock domain are also reset. Here
+ // below the registers cleared by
+ // MMCHS_SYSCTL[SRC]: -
+ // MMCHS_PSTATE: CMDI - MMCHS_STAT:
+ // CC OCP and MMC command status
+ // management is reinitialized. 0
+ // Reset completed 1 Software reset
+ // for CMD line
+#define MMCHS_SYSCTL_SRA 0x01000000 // Software reset for all This bit
+ // is set to 1 for reset and
+ // released to 0 when completed.
+ // This reset affects the entire
+ // host controller except for the
+ // card detection circuit and
+ // capabilities registers. 0 Reset
+ // completed 1 Software reset for
+ // all the design
+#define MMCHS_SYSCTL_DTO_M 0x000F0000 // Data timeout counter value and
+ // busy timeout. This value
+ // determines the interval by which
+ // DAT lines timeouts are detected.
+ // The host driver needs to set this
+ // bitfield based on - the maximum
+ // read access time (NAC) (Refer to
+ // the SD Specification Part1
+ // Physical Layer) - the data read
+ // access time values (TAAC and
+ // NSAC) in the card specific data
+ // register (CSD) of the card - the
+ // timeout clock base frequency
+ // (MMCHS_CAPA[TCF]). If the card
+ // does not respond within the
+ // specified number of cycles a data
+ // timeout error occurs
+ // (MMCHS_STA[DTO]). The
+ // MMCHS_SYSCTL[DTO] register is
+ // also used to check busy duration
+ // to generate busy timeout for
+ // commands with busy response or
+ // for busy programming during a
+ // write command. Timeout on CRC
+ // status is generated if no CRC
+ // token is present after a block
+ // write. 0x0 TCF x 2^13 0x1 TCF x
+ // 2^14 0xE TCF x 2^27 0xF Reserved
+#define MMCHS_SYSCTL_DTO_S 16
+#define MMCHS_SYSCTL_CLKD_M 0x0000FFC0 // Clock frequency select These
+ // bits define the ratio between a
+ // reference clock frequency (system
+ // dependant) and the output clock
+ // frequency on the CLK pin of
+ // either the memory card (MMC SD or
+ // SDIO). 0x000 Clock Ref bypass
+ // 0x001 Clock Ref bypass 0x002
+ // Clock Ref / 2 0x003 Clock Ref / 3
+ // 0x3FF Clock Ref / 1023
+#define MMCHS_SYSCTL_CLKD_S 6
+#define MMCHS_SYSCTL_CEN 0x00000004 // Clock enable This bit controls
+ // if the clock is provided to the
+ // card or not. 0 The clock is not
+ // provided to the card . Clock
+ // frequency can be changed . 1 The
+ // clock is provided to the card and
+ // can be automatically gated when
+ // MMCHS_SYSCONFIG[AUTOIDLE] is set
+ // to 1 (default value) . The host
+ // driver shall wait to set this bit
+ // to 1 until the Internal clock is
+ // stable (MMCHS_SYSCTL[ICS]).
+#define MMCHS_SYSCTL_ICS 0x00000002
+#define MMCHS_SYSCTL_ICE 0x00000001 // Internal clock enable This
+ // register controls the internal
+ // clock activity. In very low power
+ // state the internal clock is
+ // stopped. Note: The activity of
+ // the debounce clock (used for
+ // wakeup events) and the OCP clock
+ // (used for reads and writes to the
+ // module register map) are not
+ // affected by this register. 0 The
+ // internal clock is stopped (very
+ // low power state). 1 The internal
+ // clock oscillates and can be
+ // automatically gated when
+ // MMCHS_SYSCONFIG[AUTOIDLE] is set
+ // to 1 (default value) .
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MMCHS_O_STAT register.
+//
+//******************************************************************************
+#define MMCHS_STAT_BADA 0x20000000
+#define MMCHS_STAT_CERR 0x10000000
+#define MMCHS_STAT_ADMAE 0x02000000
+#define MMCHS_STAT_ACE 0x01000000
+#define MMCHS_STAT_DEB 0x00400000
+#define MMCHS_STAT_DCRC 0x00200000
+#define MMCHS_STAT_DTO 0x00100000
+#define MMCHS_STAT_CIE 0x00080000
+#define MMCHS_STAT_CEB 0x00040000
+#define MMCHS_STAT_CCRC 0x00020000
+#define MMCHS_STAT_CTO 0x00010000
+#define MMCHS_STAT_ERRI 0x00008000
+#define MMCHS_STAT_BSR 0x00000400
+#define MMCHS_STAT_OBI 0x00000200
+#define MMCHS_STAT_CIRQ 0x00000100
+#define MMCHS_STAT_CREM 0x00000080
+#define MMCHS_STAT_CINS 0x00000040
+#define MMCHS_STAT_BRR 0x00000020
+#define MMCHS_STAT_BWR 0x00000010
+#define MMCHS_STAT_DMA 0x00000008
+#define MMCHS_STAT_BGE 0x00000004
+#define MMCHS_STAT_TC 0x00000002
+#define MMCHS_STAT_CC 0x00000001
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MMCHS_O_IE register.
+//
+//******************************************************************************
+#define MMCHS_IE_BADA_ENABLE 0x20000000 // Bad access to data space
+ // Interrupt Enable 0 Masked 1
+ // Enabled
+#define MMCHS_IE_CERR_ENABLE 0x10000000 // Card error interrupt Enable 0
+ // Masked 1 Enabled
+#define MMCHS_IE_ADMAE_ENABLE 0x02000000 // ADMA error Interrupt Enable 0
+ // Masked 1 Enabled
+#define MMCHS_IE_ACE_ENABLE 0x01000000 // Auto CMD12 error Interrupt
+ // Enable 0 Masked 1 Enabled
+#define MMCHS_IE_DEB_ENABLE 0x00400000 // Data end bit error Interrupt
+ // Enable 0 Masked 1 Enabled
+#define MMCHS_IE_DCRC_ENABLE 0x00200000 // Data CRC error Interrupt Enable
+ // 0 Masked 1 Enabled
+#define MMCHS_IE_DTO_ENABLE 0x00100000 // Data timeout error Interrupt
+ // Enable 0 The data timeout
+ // detection is deactivated. The
+ // host controller provides the
+ // clock to the card until the card
+ // sends the data or the transfer is
+ // aborted. 1 The data timeout
+ // detection is enabled.
+#define MMCHS_IE_CIE_ENABLE 0x00080000 // Command index error Interrupt
+ // Enable 0 Masked 1 Enabled
+#define MMCHS_IE_CEB_ENABLE 0x00040000 // Command end bit error Interrupt
+ // Enable 0 Masked 1 Enabled
+#define MMCHS_IE_CCRC_ENABLE 0x00020000 // Command CRC error Interrupt
+ // Enable 0 Masked 1 Enabled
+#define MMCHS_IE_CTO_ENABLE 0x00010000 // Command timeout error Interrupt
+ // Enable 0 Masked 1 Enabled
+#define MMCHS_IE_NULL 0x00008000 // Fixed to 0 The host driver shall
+ // control error interrupts using
+ // the Error Interrupt Signal Enable
+ // register. Writes to this bit are
+ // ignored
+#define MMCHS_IE_BSR_ENABLE 0x00000400 // Boot status interrupt Enable A
+ // write to this register when
+ // MMCHS_CON[BOOT_ACK] is set to 0x0
+ // is ignored. 0 Masked 1 Enabled
+#define MMCHS_IE_OBI_ENABLE 0x00000200 // Out-of-Band interrupt Enable A
+ // write to this register when
+ // MMCHS_CON[OBIE] is set to '0' is
+ // ignored. 0 Masked 1 Enabled
+#define MMCHS_IE_CIRQ_ENABLE 0x00000100 // Card interrupt Enable A clear of
+ // this bit also clears the
+ // corresponding status bit. During
+ // 1-bit mode if the interrupt
+ // routine doesn't remove the source
+ // of a card interrupt in the SDIO
+ // card the status bit is reasserted
+ // when this bit is set to 1. 0
+ // Masked 1 Enabled
+#define MMCHS_IE_CREM_ENABLE 0x00000080 // Card removal Interrupt Enable 0
+ // Masked 1 Enabled
+#define MMCHS_IE_CINS_ENABLE 0x00000040 // Card insertion Interrupt Enable
+ // 0 Masked 1 Enabled
+#define MMCHS_IE_BRR_ENABLE 0x00000020 // Buffer Read Ready Interrupt
+ // Enable 0 Masked 1 Enabled
+#define MMCHS_IE_BWR_ENABLE 0x00000010 // Buffer Write Ready Interrupt
+ // Enable 0 Masked 1 Enabled
+#define MMCHS_IE_DMA_ENABLE 0x00000008 // DMA interrupt Enable 0 Masked 1
+ // Enabled
+#define MMCHS_IE_BGE_ENABLE 0x00000004 // Block Gap Event Interrupt Enable
+ // 0 Masked 1 Enabled
+#define MMCHS_IE_TC_ENABLE 0x00000002 // Transfer completed Interrupt
+ // Enable 0 Masked 1 Enabled
+#define MMCHS_IE_CC_ENABLE 0x00000001 // Command completed Interrupt
+ // Enable 0 Masked 1 Enabled
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MMCHS_O_ISE register.
+//
+//******************************************************************************
+#define MMCHS_ISE_BADA_SIGEN 0x20000000 // Bad access to data space signal
+ // status Enable 0 Masked 1 Enabled
+#define MMCHS_ISE_CERR_SIGEN 0x10000000 // Card error interrupt signal
+ // status Enable 0 Masked 1 Enabled
+#define MMCHS_ISE_ADMAE_SIGEN 0x02000000 // ADMA error signal status Enable
+ // 0 Masked 1 Enabled
+#define MMCHS_ISE_ACE_SIGEN 0x01000000 // Auto CMD12 error signal status
+ // Enable 0 Masked 1 Enabled
+#define MMCHS_ISE_DEB_SIGEN 0x00400000 // Data end bit error signal status
+ // Enable 0 Masked 1 Enabled
+#define MMCHS_ISE_DCRC_SIGEN 0x00200000 // Data CRC error signal status
+ // Enable 0 Masked 1 Enabled
+#define MMCHS_ISE_DTO_SIGEN 0x00100000 // Data timeout error signal status
+ // Enable 0 Masked 1 Enabled
+#define MMCHS_ISE_CIE_SIGEN 0x00080000 // Command index error signal
+ // status Enable 0 Masked 1 Enabled
+#define MMCHS_ISE_CEB_SIGEN 0x00040000 // Command end bit error signal
+ // status Enable 0 Masked 1 Enabled
+#define MMCHS_ISE_CCRC_SIGEN 0x00020000 // Command CRC error signal status
+ // Enable 0 Masked 1 Enabled
+#define MMCHS_ISE_CTO_SIGEN 0x00010000 // Command timeout error signal
+ // status Enable 0 Masked 1 Enabled
+#define MMCHS_ISE_NULL 0x00008000 // Fixed to 0 The host driver shall
+ // control error interrupts using
+ // the Error Interrupt Signal Enable
+ // register. Writes to this bit are
+ // ignored
+#define MMCHS_ISE_BSR_SIGEN 0x00000400 // Boot status signal status
+ // EnableA write to this register
+ // when MMCHS_CON[BOOT_ACK] is set
+ // to 0x0 is ignored. 0 Masked 1
+ // Enabled
+#define MMCHS_ISE_OBI_SIGEN 0x00000200 // Out-Of-Band Interrupt signal
+ // status Enable A write to this
+ // register when MMCHS_CON[OBIE] is
+ // set to '0' is ignored. 0 Masked 1
+ // Enabled
+#define MMCHS_ISE_CIRQ_SIGEN 0x00000100 // Card interrupt signal status
+ // Enable 0 Masked 1 Enabled
+#define MMCHS_ISE_CREM_SIGEN 0x00000080 // Card removal signal status
+ // Enable 0 Masked 1 Enabled
+#define MMCHS_ISE_CINS_SIGEN 0x00000040 // Card insertion signal status
+ // Enable 0 Masked 1 Enabled
+#define MMCHS_ISE_BRR_SIGEN 0x00000020 // Buffer Read Ready signal status
+ // Enable 0 Masked 1 Enabled
+#define MMCHS_ISE_BWR_SIGEN 0x00000010 // Buffer Write Ready signal status
+ // Enable 0 Masked 1 Enabled
+#define MMCHS_ISE_DMA_SIGEN 0x00000008 // DMA interrupt Signal status
+ // enable 0 Masked 1 Enabled
+#define MMCHS_ISE_BGE_SIGEN 0x00000004 // Black Gap Event signal status
+ // Enable 0 Masked 1 Enabled
+#define MMCHS_ISE_TC_SIGEN 0x00000002 // Transfer completed signal status
+ // Enable 0 Masked 1 Enabled
+#define MMCHS_ISE_CC_SIGEN 0x00000001 // Command completed signal status
+ // Enable 0 Masked 1 Enabled
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MMCHS_O_AC12 register.
+//
+//******************************************************************************
+#define MMCHS_AC12_CNI 0x00000080
+#define MMCHS_AC12_ACIE 0x00000010
+#define MMCHS_AC12_ACEB 0x00000008
+#define MMCHS_AC12_ACCE 0x00000004
+#define MMCHS_AC12_ACTO 0x00000002
+#define MMCHS_AC12_ACNE 0x00000001
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MMCHS_O_CAPA register.
+//
+//******************************************************************************
+#define MMCHS_CAPA_BIT64 0x10000000
+#define MMCHS_CAPA_VS18 0x04000000
+#define MMCHS_CAPA_VS30 0x02000000
+#define MMCHS_CAPA_VS33 0x01000000
+#define MMCHS_CAPA_SRS 0x00800000
+#define MMCHS_CAPA_DS 0x00400000
+#define MMCHS_CAPA_HSS 0x00200000
+#define MMCHS_CAPA_AD2S 0x00080000
+#define MMCHS_CAPA_MBL_M 0x00030000
+#define MMCHS_CAPA_MBL_S 16
+#define MMCHS_CAPA_BCF_M 0x00003F00
+#define MMCHS_CAPA_BCF_S 8
+#define MMCHS_CAPA_TCU 0x00000080
+#define MMCHS_CAPA_TCF_M 0x0000003F
+#define MMCHS_CAPA_TCF_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MMCHS_O_CUR_CAPA register.
+//
+//******************************************************************************
+#define MMCHS_CUR_CAPA_CUR_1V8_M \
+ 0x00FF0000
+
+#define MMCHS_CUR_CAPA_CUR_1V8_S 16
+#define MMCHS_CUR_CAPA_CUR_3V0_M \
+ 0x0000FF00
+
+#define MMCHS_CUR_CAPA_CUR_3V0_S 8
+#define MMCHS_CUR_CAPA_CUR_3V3_M \
+ 0x000000FF
+
+#define MMCHS_CUR_CAPA_CUR_3V3_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MMCHS_O_FE register.
+//
+//******************************************************************************
+#define MMCHS_FE_FE_BADA 0x20000000
+#define MMCHS_FE_FE_CERR 0x10000000
+#define MMCHS_FE_FE_ADMAE 0x02000000
+#define MMCHS_FE_FE_ACE 0x01000000
+#define MMCHS_FE_FE_DEB 0x00400000
+#define MMCHS_FE_FE_DCRC 0x00200000
+#define MMCHS_FE_FE_DTO 0x00100000
+#define MMCHS_FE_FE_CIE 0x00080000
+#define MMCHS_FE_FE_CEB 0x00040000
+#define MMCHS_FE_FE_CCRC 0x00020000
+#define MMCHS_FE_FE_CTO 0x00010000
+#define MMCHS_FE_FE_CNI 0x00000080
+#define MMCHS_FE_FE_ACIE 0x00000010
+#define MMCHS_FE_FE_ACEB 0x00000008
+#define MMCHS_FE_FE_ACCE 0x00000004
+#define MMCHS_FE_FE_ACTO 0x00000002
+#define MMCHS_FE_FE_ACNE 0x00000001
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MMCHS_O_ADMAES register.
+//
+//******************************************************************************
+#define MMCHS_ADMAES_LME 0x00000004 // ADMA Length Mismatch Error: (1)
+ // While Block Count Enable being
+ // set the total data length
+ // specified by the Descriptor table
+ // is different from that specified
+ // by the Block Count and Block
+ // Length. (2) Total data length can
+ // not be divided by the block
+ // length. 0 No Error 1 Error
+#define MMCHS_ADMAES_AES_M 0x00000003 // ADMA Error State his field
+ // indicates the state of ADMA when
+ // error is occurred during ADMA
+ // data transfer. "This field never
+ // indicates ""10"" because ADMA
+ // never stops in this state." 0x0
+ // ST_STOP (Stop DMA)Contents of
+ // SYS_SDR register 0x1 ST_STOP
+ // (Stop DMA)Points the error
+ // descriptor 0x2 Never set this
+ // state(Not used) 0x3 ST_TFR
+ // (Transfer Data)Points the next of
+ // the error descriptor
+#define MMCHS_ADMAES_AES_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MMCHS_O_ADMASAL register.
+//
+//******************************************************************************
+#define MMCHS_ADMASAL_ADMA_A32B_M \
+ 0xFFFFFFFF // ADMA System address 32 bits.This
+ // register holds byte address of
+ // executing command of the
+ // Descriptor table. 32-bit Address
+ // Descriptor uses lower 32-bit of
+ // this register. At the start of
+ // ADMA the Host Driver shall set
+ // start address of the Descriptor
+ // table. The ADMA increments this
+ // register address which points to
+ // next line when every fetching a
+ // Descriptor line. When the ADMA
+ // Error Interrupt is generated this
+ // register shall hold valid
+ // Descriptor address depending on
+ // the ADMA state. The Host Driver
+ // shall program Descriptor Table on
+ // 32-bit boundary and set 32-bit
+ // boundary address to this
+ // register. ADMA2 ignores lower
+ // 2-bit of this register and
+ // assumes it to be 00b.
+
+#define MMCHS_ADMASAL_ADMA_A32B_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the MMCHS_O_REV register.
+//
+//******************************************************************************
+#define MMCHS_REV_VREV_M 0xFF000000 // Vendor Version Number: IP
+ // revision [7:4] Major revision
+ // [3:0] Minor revision Examples:
+ // 0x10 for 1.0 0x21 for 2.1
+#define MMCHS_REV_VREV_S 24
+#define MMCHS_REV_SREV_M 0x00FF0000
+#define MMCHS_REV_SREV_S 16
+#define MMCHS_REV_SIS 0x00000001 // Slot Interrupt Status This
+ // status bit indicates the inverted
+ // state of interrupt signal for the
+ // module. By a power on reset or by
+ // setting a software reset for all
+ // (MMCHS_HCTL[SRA]) the interrupt
+ // signal shall be de-asserted and
+ // this status shall read 0.
+
+
+
+#endif // __HW_MMCHS_H__
diff --git a/cc3200/hal/inc/hw_nvic.h b/cc3200/hal/inc/hw_nvic.h
new file mode 100644
index 000000000..1545f2265
--- /dev/null
+++ b/cc3200/hal/inc/hw_nvic.h
@@ -0,0 +1,1710 @@
+//*****************************************************************************
+//
+// Copyright (C) 2014 Texas Instruments Incorporated - http://www.ti.com/
+//
+//
+// Redistribution and use in source and binary forms, with or without
+// modification, are permitted provided that the following conditions
+// are met:
+//
+// Redistributions of source code must retain the above copyright
+// notice, this list of conditions and the following disclaimer.
+//
+// Redistributions in binary form must reproduce the above copyright
+// notice, this list of conditions and the following disclaimer in the
+// documentation and/or other materials provided with the
+// distribution.
+//
+// Neither the name of Texas Instruments Incorporated nor the names of
+// its contributors may be used to endorse or promote products derived
+// from this software without specific prior written permission.
+//
+// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
+// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
+// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
+// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
+// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
+// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
+// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
+// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
+// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
+// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
+// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+//
+//*****************************************************************************
+
+//*****************************************************************************
+//
+// hw_nvic.h - Macros used when accessing the NVIC hardware.
+//
+//*****************************************************************************
+
+#ifndef __HW_NVIC_H__
+#define __HW_NVIC_H__
+
+//*****************************************************************************
+//
+// The following are defines for the NVIC register addresses.
+//
+//*****************************************************************************
+#define NVIC_INT_TYPE 0xE000E004 // Interrupt Controller Type Reg
+#define NVIC_ACTLR 0xE000E008 // Auxiliary Control
+#define NVIC_ST_CTRL 0xE000E010 // SysTick Control and Status
+ // Register
+#define NVIC_ST_RELOAD 0xE000E014 // SysTick Reload Value Register
+#define NVIC_ST_CURRENT 0xE000E018 // SysTick Current Value Register
+#define NVIC_ST_CAL 0xE000E01C // SysTick Calibration Value Reg
+
+#define NVIC_EN0 0xE000E100 // Interrupt 0-31 Set Enable
+#define NVIC_EN1 0xE000E104 // Interrupt 32-54 Set Enable
+#define NVIC_EN2 0xE000E108 // Interrupt 64-95 Set Enable
+#define NVIC_EN3 0xE000E10C // Interrupt 96-127 Set Enable
+#define NVIC_EN4 0xE000E110 // Interrupt 128-131 Set Enable
+#define NVIC_EN5 0xE000E114 // Interrupt 160-191 Set Enable
+
+#define NVIC_DIS0 0xE000E180 // Interrupt 0-31 Clear Enable
+#define NVIC_DIS1 0xE000E184 // Interrupt 32-54 Clear Enable
+
+#define NVIC_DIS2 0xE000E188 // Interrupt 64-95 Clear Enable
+#define NVIC_DIS3 0xE000E18C // Interrupt 96-127 Clear Enable
+#define NVIC_DIS4 0xE000E190 // Interrupt 128-131 Clear Enable
+#define NVIC_DIS5 0xE000E194 // Interrupt 160-191 Clear Enable
+
+#define NVIC_PEND0 0xE000E200 // Interrupt 0-31 Set Pending
+#define NVIC_PEND1 0xE000E204 // Interrupt 32-54 Set Pending
+
+#define NVIC_PEND2 0xE000E208 // Interrupt 64-95 Set Pending
+#define NVIC_PEND3 0xE000E20C // Interrupt 96-127 Set Pending
+#define NVIC_PEND4 0xE000E210 // Interrupt 128-131 Set Pending
+#define NVIC_PEND5 0xE000E214 // Interrupt 160-191 Set Pending
+
+#define NVIC_UNPEND0 0xE000E280 // Interrupt 0-31 Clear Pending
+#define NVIC_UNPEND1 0xE000E284 // Interrupt 32-54 Clear Pending
+
+#define NVIC_UNPEND2 0xE000E288 // Interrupt 64-95 Clear Pending
+#define NVIC_UNPEND3 0xE000E28C // Interrupt 96-127 Clear Pending
+#define NVIC_UNPEND4 0xE000E290 // Interrupt 128-131 Clear Pending
+#define NVIC_UNPEND5 0xE000E294 // Interrupt 160-191 Clear Pending
+
+#define NVIC_ACTIVE0 0xE000E300 // Interrupt 0-31 Active Bit
+#define NVIC_ACTIVE1 0xE000E304 // Interrupt 32-54 Active Bit
+
+#define NVIC_ACTIVE2 0xE000E308 // Interrupt 64-95 Active Bit
+#define NVIC_ACTIVE3 0xE000E30C // Interrupt 96-127 Active Bit
+#define NVIC_ACTIVE4 0xE000E310 // Interrupt 128-131 Active Bit
+#define NVIC_ACTIVE5 0xE000E314 // Interrupt 160-191 Active Bit
+
+#define NVIC_PRI0 0xE000E400 // Interrupt 0-3 Priority
+#define NVIC_PRI1 0xE000E404 // Interrupt 4-7 Priority
+#define NVIC_PRI2 0xE000E408 // Interrupt 8-11 Priority
+#define NVIC_PRI3 0xE000E40C // Interrupt 12-15 Priority
+#define NVIC_PRI4 0xE000E410 // Interrupt 16-19 Priority
+#define NVIC_PRI5 0xE000E414 // Interrupt 20-23 Priority
+#define NVIC_PRI6 0xE000E418 // Interrupt 24-27 Priority
+#define NVIC_PRI7 0xE000E41C // Interrupt 28-31 Priority
+#define NVIC_PRI8 0xE000E420 // Interrupt 32-35 Priority
+#define NVIC_PRI9 0xE000E424 // Interrupt 36-39 Priority
+#define NVIC_PRI10 0xE000E428 // Interrupt 40-43 Priority
+#define NVIC_PRI11 0xE000E42C // Interrupt 44-47 Priority
+#define NVIC_PRI12 0xE000E430 // Interrupt 48-51 Priority
+#define NVIC_PRI13 0xE000E434 // Interrupt 52-53 Priority
+
+#define NVIC_PRI14 0xE000E438 // Interrupt 56-59 Priority
+#define NVIC_PRI15 0xE000E43C // Interrupt 60-63 Priority
+#define NVIC_PRI16 0xE000E440 // Interrupt 64-67 Priority
+#define NVIC_PRI17 0xE000E444 // Interrupt 68-71 Priority
+#define NVIC_PRI18 0xE000E448 // Interrupt 72-75 Priority
+#define NVIC_PRI19 0xE000E44C // Interrupt 76-79 Priority
+#define NVIC_PRI20 0xE000E450 // Interrupt 80-83 Priority
+#define NVIC_PRI21 0xE000E454 // Interrupt 84-87 Priority
+#define NVIC_PRI22 0xE000E458 // Interrupt 88-91 Priority
+#define NVIC_PRI23 0xE000E45C // Interrupt 92-95 Priority
+#define NVIC_PRI24 0xE000E460 // Interrupt 96-99 Priority
+#define NVIC_PRI25 0xE000E464 // Interrupt 100-103 Priority
+#define NVIC_PRI26 0xE000E468 // Interrupt 104-107 Priority
+#define NVIC_PRI27 0xE000E46C // Interrupt 108-111 Priority
+#define NVIC_PRI28 0xE000E470 // Interrupt 112-115 Priority
+#define NVIC_PRI29 0xE000E474 // Interrupt 116-119 Priority
+#define NVIC_PRI30 0xE000E478 // Interrupt 120-123 Priority
+#define NVIC_PRI31 0xE000E47C // Interrupt 124-127 Priority
+#define NVIC_PRI32 0xE000E480 // Interrupt 128-131 Priority
+#define NVIC_PRI33 0xE000E484 // Interrupt 132-135 Priority
+#define NVIC_PRI34 0xE000E488 // Interrupt 136-139 Priority
+#define NVIC_PRI35 0xE000E48C // Interrupt 140-143 Priority
+#define NVIC_PRI36 0xE000E490 // Interrupt 144-147 Priority
+#define NVIC_PRI37 0xE000E494 // Interrupt 148-151 Priority
+#define NVIC_PRI38 0xE000E498 // Interrupt 152-155 Priority
+#define NVIC_PRI39 0xE000E49C // Interrupt 156-159 Priority
+#define NVIC_PRI40 0xE000E4A0 // Interrupt 160-163 Priority
+#define NVIC_PRI41 0xE000E4A4 // Interrupt 164-167 Priority
+#define NVIC_PRI42 0xE000E4A8 // Interrupt 168-171 Priority
+#define NVIC_PRI43 0xE000E4AC // Interrupt 172-175 Priority
+#define NVIC_PRI44 0xE000E4B0 // Interrupt 176-179 Priority
+#define NVIC_PRI45 0xE000E4B4 // Interrupt 180-183 Priority
+#define NVIC_PRI46 0xE000E4B8 // Interrupt 184-187 Priority
+#define NVIC_PRI47 0xE000E4BC // Interrupt 188-191 Priority
+#define NVIC_PRI48 0xE000E4C0 // Interrupt 192-195 Priority
+
+
+
+#define NVIC_CPUID 0xE000ED00 // CPU ID Base
+#define NVIC_INT_CTRL 0xE000ED04 // Interrupt Control and State
+#define NVIC_VTABLE 0xE000ED08 // Vector Table Offset
+#define NVIC_APINT 0xE000ED0C // Application Interrupt and Reset
+ // Control
+#define NVIC_SYS_CTRL 0xE000ED10 // System Control
+#define NVIC_CFG_CTRL 0xE000ED14 // Configuration and Control
+#define NVIC_SYS_PRI1 0xE000ED18 // System Handler Priority 1
+#define NVIC_SYS_PRI2 0xE000ED1C // System Handler Priority 2
+#define NVIC_SYS_PRI3 0xE000ED20 // System Handler Priority 3
+#define NVIC_SYS_HND_CTRL 0xE000ED24 // System Handler Control and State
+#define NVIC_FAULT_STAT 0xE000ED28 // Configurable Fault Status
+#define NVIC_HFAULT_STAT 0xE000ED2C // Hard Fault Status
+#define NVIC_DEBUG_STAT 0xE000ED30 // Debug Status Register
+#define NVIC_MM_ADDR 0xE000ED34 // Memory Management Fault Address
+#define NVIC_FAULT_ADDR 0xE000ED38 // Bus Fault Address
+#define NVIC_MPU_TYPE 0xE000ED90 // MPU Type
+#define NVIC_MPU_CTRL 0xE000ED94 // MPU Control
+#define NVIC_MPU_NUMBER 0xE000ED98 // MPU Region Number
+#define NVIC_MPU_BASE 0xE000ED9C // MPU Region Base Address
+#define NVIC_MPU_ATTR 0xE000EDA0 // MPU Region Attribute and Size
+#define NVIC_MPU_BASE1 0xE000EDA4 // MPU Region Base Address Alias 1
+#define NVIC_MPU_ATTR1 0xE000EDA8 // MPU Region Attribute and Size
+ // Alias 1
+#define NVIC_MPU_BASE2 0xE000EDAC // MPU Region Base Address Alias 2
+#define NVIC_MPU_ATTR2 0xE000EDB0 // MPU Region Attribute and Size
+ // Alias 2
+#define NVIC_MPU_BASE3 0xE000EDB4 // MPU Region Base Address Alias 3
+#define NVIC_MPU_ATTR3 0xE000EDB8 // MPU Region Attribute and Size
+ // Alias 3
+#define NVIC_DBG_CTRL 0xE000EDF0 // Debug Control and Status Reg
+#define NVIC_DBG_XFER 0xE000EDF4 // Debug Core Reg. Transfer Select
+#define NVIC_DBG_DATA 0xE000EDF8 // Debug Core Register Data
+#define NVIC_DBG_INT 0xE000EDFC // Debug Reset Interrupt Control
+#define NVIC_SW_TRIG 0xE000EF00 // Software Trigger Interrupt
+
+//*****************************************************************************
+//
+// The following are defines for the bit fields in the NVIC_INT_TYPE register.
+//
+//*****************************************************************************
+#define NVIC_INT_TYPE_LINES_M 0x0000001F // Number of interrupt lines (x32)
+#define NVIC_INT_TYPE_LINES_S 0
+
+//*****************************************************************************
+//
+// The following are defines for the bit fields in the NVIC_ACTLR register.
+//
+//*****************************************************************************
+#define NVIC_ACTLR_DISFOLD 0x00000004 // Disable IT Folding
+#define NVIC_ACTLR_DISWBUF 0x00000002 // Disable Write Buffer
+#define NVIC_ACTLR_DISMCYC 0x00000001 // Disable Interrupts of Multiple
+ // Cycle Instructions
+
+//*****************************************************************************
+//
+// The following are defines for the bit fields in the NVIC_ST_CTRL register.
+//
+//*****************************************************************************
+#define NVIC_ST_CTRL_COUNT 0x00010000 // Count Flag
+#define NVIC_ST_CTRL_CLK_SRC 0x00000004 // Clock Source
+#define NVIC_ST_CTRL_INTEN 0x00000002 // Interrupt Enable
+#define NVIC_ST_CTRL_ENABLE 0x00000001 // Enable
+
+//*****************************************************************************
+//
+// The following are defines for the bit fields in the NVIC_ST_RELOAD register.
+//
+//*****************************************************************************
+#define NVIC_ST_RELOAD_M 0x00FFFFFF // Reload Value
+#define NVIC_ST_RELOAD_S 0
+
+//*****************************************************************************
+//
+// The following are defines for the bit fields in the NVIC_ST_CURRENT
+// register.
+//
+//*****************************************************************************
+#define NVIC_ST_CURRENT_M 0x00FFFFFF // Current Value
+#define NVIC_ST_CURRENT_S 0
+
+//*****************************************************************************
+//
+// The following are defines for the bit fields in the NVIC_ST_CAL register.
+//
+//*****************************************************************************
+#define NVIC_ST_CAL_NOREF 0x80000000 // No reference clock
+#define NVIC_ST_CAL_SKEW 0x40000000 // Clock skew
+#define NVIC_ST_CAL_ONEMS_M 0x00FFFFFF // 1ms reference value
+#define NVIC_ST_CAL_ONEMS_S 0
+
+//*****************************************************************************
+//
+// The following are defines for the bit fields in the NVIC_EN0 register.
+//
+//*****************************************************************************
+#define NVIC_EN0_INT_M 0xFFFFFFFF // Interrupt Enable
+#define NVIC_EN0_INT0 0x00000001 // Interrupt 0 enable
+#define NVIC_EN0_INT1 0x00000002 // Interrupt 1 enable
+#define NVIC_EN0_INT2 0x00000004 // Interrupt 2 enable
+#define NVIC_EN0_INT3 0x00000008 // Interrupt 3 enable
+#define NVIC_EN0_INT4 0x00000010 // Interrupt 4 enable
+#define NVIC_EN0_INT5 0x00000020 // Interrupt 5 enable
+#define NVIC_EN0_INT6 0x00000040 // Interrupt 6 enable
+#define NVIC_EN0_INT7 0x00000080 // Interrupt 7 enable
+#define NVIC_EN0_INT8 0x00000100 // Interrupt 8 enable
+#define NVIC_EN0_INT9 0x00000200 // Interrupt 9 enable
+#define NVIC_EN0_INT10 0x00000400 // Interrupt 10 enable
+#define NVIC_EN0_INT11 0x00000800 // Interrupt 11 enable
+#define NVIC_EN0_INT12 0x00001000 // Interrupt 12 enable
+#define NVIC_EN0_INT13 0x00002000 // Interrupt 13 enable
+#define NVIC_EN0_INT14 0x00004000 // Interrupt 14 enable
+#define NVIC_EN0_INT15 0x00008000 // Interrupt 15 enable
+#define NVIC_EN0_INT16 0x00010000 // Interrupt 16 enable
+#define NVIC_EN0_INT17 0x00020000 // Interrupt 17 enable
+#define NVIC_EN0_INT18 0x00040000 // Interrupt 18 enable
+#define NVIC_EN0_INT19 0x00080000 // Interrupt 19 enable
+#define NVIC_EN0_INT20 0x00100000 // Interrupt 20 enable
+#define NVIC_EN0_INT21 0x00200000 // Interrupt 21 enable
+#define NVIC_EN0_INT22 0x00400000 // Interrupt 22 enable
+#define NVIC_EN0_INT23 0x00800000 // Interrupt 23 enable
+#define NVIC_EN0_INT24 0x01000000 // Interrupt 24 enable
+#define NVIC_EN0_INT25 0x02000000 // Interrupt 25 enable
+#define NVIC_EN0_INT26 0x04000000 // Interrupt 26 enable
+#define NVIC_EN0_INT27 0x08000000 // Interrupt 27 enable
+#define NVIC_EN0_INT28 0x10000000 // Interrupt 28 enable
+#define NVIC_EN0_INT29 0x20000000 // Interrupt 29 enable
+#define NVIC_EN0_INT30 0x40000000 // Interrupt 30 enable
+#define NVIC_EN0_INT31 0x80000000 // Interrupt 31 enable
+
+//*****************************************************************************
+//
+// The following are defines for the bit fields in the NVIC_EN1 register.
+//
+//*****************************************************************************
+#define NVIC_EN1_INT_M 0x007FFFFF // Interrupt Enable
+
+#undef NVIC_EN1_INT_M
+#define NVIC_EN1_INT_M 0xFFFFFFFF // Interrupt Enable
+
+#define NVIC_EN1_INT32 0x00000001 // Interrupt 32 enable
+#define NVIC_EN1_INT33 0x00000002 // Interrupt 33 enable
+#define NVIC_EN1_INT34 0x00000004 // Interrupt 34 enable
+#define NVIC_EN1_INT35 0x00000008 // Interrupt 35 enable
+#define NVIC_EN1_INT36 0x00000010 // Interrupt 36 enable
+#define NVIC_EN1_INT37 0x00000020 // Interrupt 37 enable
+#define NVIC_EN1_INT38 0x00000040 // Interrupt 38 enable
+#define NVIC_EN1_INT39 0x00000080 // Interrupt 39 enable
+#define NVIC_EN1_INT40 0x00000100 // Interrupt 40 enable
+#define NVIC_EN1_INT41 0x00000200 // Interrupt 41 enable
+#define NVIC_EN1_INT42 0x00000400 // Interrupt 42 enable
+#define NVIC_EN1_INT43 0x00000800 // Interrupt 43 enable
+#define NVIC_EN1_INT44 0x00001000 // Interrupt 44 enable
+#define NVIC_EN1_INT45 0x00002000 // Interrupt 45 enable
+#define NVIC_EN1_INT46 0x00004000 // Interrupt 46 enable
+#define NVIC_EN1_INT47 0x00008000 // Interrupt 47 enable
+#define NVIC_EN1_INT48 0x00010000 // Interrupt 48 enable
+#define NVIC_EN1_INT49 0x00020000 // Interrupt 49 enable
+#define NVIC_EN1_INT50 0x00040000 // Interrupt 50 enable
+#define NVIC_EN1_INT51 0x00080000 // Interrupt 51 enable
+#define NVIC_EN1_INT52 0x00100000 // Interrupt 52 enable
+#define NVIC_EN1_INT53 0x00200000 // Interrupt 53 enable
+#define NVIC_EN1_INT54 0x00400000 // Interrupt 54 enable
+
+
+//*****************************************************************************
+//
+// The following are defines for the bit fields in the NVIC_EN2 register.
+//
+//*****************************************************************************
+#define NVIC_EN2_INT_M 0xFFFFFFFF // Interrupt Enable
+
+//*****************************************************************************
+//
+// The following are defines for the bit fields in the NVIC_EN3 register.
+//
+//*****************************************************************************
+#define NVIC_EN3_INT_M 0xFFFFFFFF // Interrupt Enable
+
+//*****************************************************************************
+//
+// The following are defines for the bit fields in the NVIC_EN4 register.
+//
+//*****************************************************************************
+#define NVIC_EN4_INT_M 0x0000000F // Interrupt Enable
+
+
+//*****************************************************************************
+//
+// The following are defines for the bit fields in the NVIC_DIS0 register.
+//
+//*****************************************************************************
+#define NVIC_DIS0_INT_M 0xFFFFFFFF // Interrupt Disable
+#define NVIC_DIS0_INT0 0x00000001 // Interrupt 0 disable
+#define NVIC_DIS0_INT1 0x00000002 // Interrupt 1 disable
+#define NVIC_DIS0_INT2 0x00000004 // Interrupt 2 disable
+#define NVIC_DIS0_INT3 0x00000008 // Interrupt 3 disable
+#define NVIC_DIS0_INT4 0x00000010 // Interrupt 4 disable
+#define NVIC_DIS0_INT5 0x00000020 // Interrupt 5 disable
+#define NVIC_DIS0_INT6 0x00000040 // Interrupt 6 disable
+#define NVIC_DIS0_INT7 0x00000080 // Interrupt 7 disable
+#define NVIC_DIS0_INT8 0x00000100 // Interrupt 8 disable
+#define NVIC_DIS0_INT9 0x00000200 // Interrupt 9 disable
+#define NVIC_DIS0_INT10 0x00000400 // Interrupt 10 disable
+#define NVIC_DIS0_INT11 0x00000800 // Interrupt 11 disable
+#define NVIC_DIS0_INT12 0x00001000 // Interrupt 12 disable
+#define NVIC_DIS0_INT13 0x00002000 // Interrupt 13 disable
+#define NVIC_DIS0_INT14 0x00004000 // Interrupt 14 disable
+#define NVIC_DIS0_INT15 0x00008000 // Interrupt 15 disable
+#define NVIC_DIS0_INT16 0x00010000 // Interrupt 16 disable
+#define NVIC_DIS0_INT17 0x00020000 // Interrupt 17 disable
+#define NVIC_DIS0_INT18 0x00040000 // Interrupt 18 disable
+#define NVIC_DIS0_INT19 0x00080000 // Interrupt 19 disable
+#define NVIC_DIS0_INT20 0x00100000 // Interrupt 20 disable
+#define NVIC_DIS0_INT21 0x00200000 // Interrupt 21 disable
+#define NVIC_DIS0_INT22 0x00400000 // Interrupt 22 disable
+#define NVIC_DIS0_INT23 0x00800000 // Interrupt 23 disable
+#define NVIC_DIS0_INT24 0x01000000 // Interrupt 24 disable
+#define NVIC_DIS0_INT25 0x02000000 // Interrupt 25 disable
+#define NVIC_DIS0_INT26 0x04000000 // Interrupt 26 disable
+#define NVIC_DIS0_INT27 0x08000000 // Interrupt 27 disable
+#define NVIC_DIS0_INT28 0x10000000 // Interrupt 28 disable
+#define NVIC_DIS0_INT29 0x20000000 // Interrupt 29 disable
+#define NVIC_DIS0_INT30 0x40000000 // Interrupt 30 disable
+#define NVIC_DIS0_INT31 0x80000000 // Interrupt 31 disable
+
+//*****************************************************************************
+//
+// The following are defines for the bit fields in the NVIC_DIS1 register.
+//
+//*****************************************************************************
+#define NVIC_DIS1_INT_M 0x00FFFFFF // Interrupt Disable
+
+#undef NVIC_DIS1_INT_M
+#define NVIC_DIS1_INT_M 0xFFFFFFFF // Interrupt Disable
+
+#define NVIC_DIS1_INT32 0x00000001 // Interrupt 32 disable
+#define NVIC_DIS1_INT33 0x00000002 // Interrupt 33 disable
+#define NVIC_DIS1_INT34 0x00000004 // Interrupt 34 disable
+#define NVIC_DIS1_INT35 0x00000008 // Interrupt 35 disable
+#define NVIC_DIS1_INT36 0x00000010 // Interrupt 36 disable
+#define NVIC_DIS1_INT37 0x00000020 // Interrupt 37 disable
+#define NVIC_DIS1_INT38 0x00000040 // Interrupt 38 disable
+#define NVIC_DIS1_INT39 0x00000080 // Interrupt 39 disable
+#define NVIC_DIS1_INT40 0x00000100 // Interrupt 40 disable
+#define NVIC_DIS1_INT41 0x00000200 // Interrupt 41 disable
+#define NVIC_DIS1_INT42 0x00000400 // Interrupt 42 disable
+#define NVIC_DIS1_INT43 0x00000800 // Interrupt 43 disable
+#define NVIC_DIS1_INT44 0x00001000 // Interrupt 44 disable
+#define NVIC_DIS1_INT45 0x00002000 // Interrupt 45 disable
+#define NVIC_DIS1_INT46 0x00004000 // Interrupt 46 disable
+#define NVIC_DIS1_INT47 0x00008000 // Interrupt 47 disable
+#define NVIC_DIS1_INT48 0x00010000 // Interrupt 48 disable
+#define NVIC_DIS1_INT49 0x00020000 // Interrupt 49 disable
+#define NVIC_DIS1_INT50 0x00040000 // Interrupt 50 disable
+#define NVIC_DIS1_INT51 0x00080000 // Interrupt 51 disable
+#define NVIC_DIS1_INT52 0x00100000 // Interrupt 52 disable
+#define NVIC_DIS1_INT53 0x00200000 // Interrupt 53 disable
+#define NVIC_DIS1_INT54 0x00400000 // Interrupt 54 disable
+#define NVIC_DIS1_INT55 0x00800000 // Interrupt 55 disable
+
+
+//*****************************************************************************
+//
+// The following are defines for the bit fields in the NVIC_DIS2 register.
+//
+//*****************************************************************************
+#define NVIC_DIS2_INT_M 0xFFFFFFFF // Interrupt Disable
+
+//*****************************************************************************
+//
+// The following are defines for the bit fields in the NVIC_DIS3 register.
+//
+//*****************************************************************************
+#define NVIC_DIS3_INT_M 0xFFFFFFFF // Interrupt Disable
+
+//*****************************************************************************
+//
+// The following are defines for the bit fields in the NVIC_DIS4 register.
+//
+//*****************************************************************************
+#define NVIC_DIS4_INT_M 0x0000000F // Interrupt Disable
+
+
+//*****************************************************************************
+//
+// The following are defines for the bit fields in the NVIC_PEND0 register.
+//
+//*****************************************************************************
+#define NVIC_PEND0_INT_M 0xFFFFFFFF // Interrupt Set Pending
+#define NVIC_PEND0_INT0 0x00000001 // Interrupt 0 pend
+#define NVIC_PEND0_INT1 0x00000002 // Interrupt 1 pend
+#define NVIC_PEND0_INT2 0x00000004 // Interrupt 2 pend
+#define NVIC_PEND0_INT3 0x00000008 // Interrupt 3 pend
+#define NVIC_PEND0_INT4 0x00000010 // Interrupt 4 pend
+#define NVIC_PEND0_INT5 0x00000020 // Interrupt 5 pend
+#define NVIC_PEND0_INT6 0x00000040 // Interrupt 6 pend
+#define NVIC_PEND0_INT7 0x00000080 // Interrupt 7 pend
+#define NVIC_PEND0_INT8 0x00000100 // Interrupt 8 pend
+#define NVIC_PEND0_INT9 0x00000200 // Interrupt 9 pend
+#define NVIC_PEND0_INT10 0x00000400 // Interrupt 10 pend
+#define NVIC_PEND0_INT11 0x00000800 // Interrupt 11 pend
+#define NVIC_PEND0_INT12 0x00001000 // Interrupt 12 pend
+#define NVIC_PEND0_INT13 0x00002000 // Interrupt 13 pend
+#define NVIC_PEND0_INT14 0x00004000 // Interrupt 14 pend
+#define NVIC_PEND0_INT15 0x00008000 // Interrupt 15 pend
+#define NVIC_PEND0_INT16 0x00010000 // Interrupt 16 pend
+#define NVIC_PEND0_INT17 0x00020000 // Interrupt 17 pend
+#define NVIC_PEND0_INT18 0x00040000 // Interrupt 18 pend
+#define NVIC_PEND0_INT19 0x00080000 // Interrupt 19 pend
+#define NVIC_PEND0_INT20 0x00100000 // Interrupt 20 pend
+#define NVIC_PEND0_INT21 0x00200000 // Interrupt 21 pend
+#define NVIC_PEND0_INT22 0x00400000 // Interrupt 22 pend
+#define NVIC_PEND0_INT23 0x00800000 // Interrupt 23 pend
+#define NVIC_PEND0_INT24 0x01000000 // Interrupt 24 pend
+#define NVIC_PEND0_INT25 0x02000000 // Interrupt 25 pend
+#define NVIC_PEND0_INT26 0x04000000 // Interrupt 26 pend
+#define NVIC_PEND0_INT27 0x08000000 // Interrupt 27 pend
+#define NVIC_PEND0_INT28 0x10000000 // Interrupt 28 pend
+#define NVIC_PEND0_INT29 0x20000000 // Interrupt 29 pend
+#define NVIC_PEND0_INT30 0x40000000 // Interrupt 30 pend
+#define NVIC_PEND0_INT31 0x80000000 // Interrupt 31 pend
+
+//*****************************************************************************
+//
+// The following are defines for the bit fields in the NVIC_PEND1 register.
+//
+//*****************************************************************************
+#define NVIC_PEND1_INT_M 0x00FFFFFF // Interrupt Set Pending
+
+#undef NVIC_PEND1_INT_M
+#define NVIC_PEND1_INT_M 0xFFFFFFFF // Interrupt Set Pending
+
+#define NVIC_PEND1_INT32 0x00000001 // Interrupt 32 pend
+#define NVIC_PEND1_INT33 0x00000002 // Interrupt 33 pend
+#define NVIC_PEND1_INT34 0x00000004 // Interrupt 34 pend
+#define NVIC_PEND1_INT35 0x00000008 // Interrupt 35 pend
+#define NVIC_PEND1_INT36 0x00000010 // Interrupt 36 pend
+#define NVIC_PEND1_INT37 0x00000020 // Interrupt 37 pend
+#define NVIC_PEND1_INT38 0x00000040 // Interrupt 38 pend
+#define NVIC_PEND1_INT39 0x00000080 // Interrupt 39 pend
+#define NVIC_PEND1_INT40 0x00000100 // Interrupt 40 pend
+#define NVIC_PEND1_INT41 0x00000200 // Interrupt 41 pend
+#define NVIC_PEND1_INT42 0x00000400 // Interrupt 42 pend
+#define NVIC_PEND1_INT43 0x00000800 // Interrupt 43 pend
+#define NVIC_PEND1_INT44 0x00001000 // Interrupt 44 pend
+#define NVIC_PEND1_INT45 0x00002000 // Interrupt 45 pend
+#define NVIC_PEND1_INT46 0x00004000 // Interrupt 46 pend
+#define NVIC_PEND1_INT47 0x00008000 // Interrupt 47 pend
+#define NVIC_PEND1_INT48 0x00010000 // Interrupt 48 pend
+#define NVIC_PEND1_INT49 0x00020000 // Interrupt 49 pend
+#define NVIC_PEND1_INT50 0x00040000 // Interrupt 50 pend
+#define NVIC_PEND1_INT51 0x00080000 // Interrupt 51 pend
+#define NVIC_PEND1_INT52 0x00100000 // Interrupt 52 pend
+#define NVIC_PEND1_INT53 0x00200000 // Interrupt 53 pend
+#define NVIC_PEND1_INT54 0x00400000 // Interrupt 54 pend
+#define NVIC_PEND1_INT55 0x00800000 // Interrupt 55 pend
+
+
+//*****************************************************************************
+//
+// The following are defines for the bit fields in the NVIC_PEND2 register.
+//
+//*****************************************************************************
+#define NVIC_PEND2_INT_M 0xFFFFFFFF // Interrupt Set Pending
+
+//*****************************************************************************
+//
+// The following are defines for the bit fields in the NVIC_PEND3 register.
+//
+//*****************************************************************************
+#define NVIC_PEND3_INT_M 0xFFFFFFFF // Interrupt Set Pending
+
+//*****************************************************************************
+//
+// The following are defines for the bit fields in the NVIC_PEND4 register.
+//
+//*****************************************************************************
+#define NVIC_PEND4_INT_M 0x0000000F // Interrupt Set Pending
+
+
+//*****************************************************************************
+//
+// The following are defines for the bit fields in the NVIC_UNPEND0 register.
+//
+//*****************************************************************************
+#define NVIC_UNPEND0_INT_M 0xFFFFFFFF // Interrupt Clear Pending
+#define NVIC_UNPEND0_INT0 0x00000001 // Interrupt 0 unpend
+#define NVIC_UNPEND0_INT1 0x00000002 // Interrupt 1 unpend
+#define NVIC_UNPEND0_INT2 0x00000004 // Interrupt 2 unpend
+#define NVIC_UNPEND0_INT3 0x00000008 // Interrupt 3 unpend
+#define NVIC_UNPEND0_INT4 0x00000010 // Interrupt 4 unpend
+#define NVIC_UNPEND0_INT5 0x00000020 // Interrupt 5 unpend
+#define NVIC_UNPEND0_INT6 0x00000040 // Interrupt 6 unpend
+#define NVIC_UNPEND0_INT7 0x00000080 // Interrupt 7 unpend
+#define NVIC_UNPEND0_INT8 0x00000100 // Interrupt 8 unpend
+#define NVIC_UNPEND0_INT9 0x00000200 // Interrupt 9 unpend
+#define NVIC_UNPEND0_INT10 0x00000400 // Interrupt 10 unpend
+#define NVIC_UNPEND0_INT11 0x00000800 // Interrupt 11 unpend
+#define NVIC_UNPEND0_INT12 0x00001000 // Interrupt 12 unpend
+#define NVIC_UNPEND0_INT13 0x00002000 // Interrupt 13 unpend
+#define NVIC_UNPEND0_INT14 0x00004000 // Interrupt 14 unpend
+#define NVIC_UNPEND0_INT15 0x00008000 // Interrupt 15 unpend
+#define NVIC_UNPEND0_INT16 0x00010000 // Interrupt 16 unpend
+#define NVIC_UNPEND0_INT17 0x00020000 // Interrupt 17 unpend
+#define NVIC_UNPEND0_INT18 0x00040000 // Interrupt 18 unpend
+#define NVIC_UNPEND0_INT19 0x00080000 // Interrupt 19 unpend
+#define NVIC_UNPEND0_INT20 0x00100000 // Interrupt 20 unpend
+#define NVIC_UNPEND0_INT21 0x00200000 // Interrupt 21 unpend
+#define NVIC_UNPEND0_INT22 0x00400000 // Interrupt 22 unpend
+#define NVIC_UNPEND0_INT23 0x00800000 // Interrupt 23 unpend
+#define NVIC_UNPEND0_INT24 0x01000000 // Interrupt 24 unpend
+#define NVIC_UNPEND0_INT25 0x02000000 // Interrupt 25 unpend
+#define NVIC_UNPEND0_INT26 0x04000000 // Interrupt 26 unpend
+#define NVIC_UNPEND0_INT27 0x08000000 // Interrupt 27 unpend
+#define NVIC_UNPEND0_INT28 0x10000000 // Interrupt 28 unpend
+#define NVIC_UNPEND0_INT29 0x20000000 // Interrupt 29 unpend
+#define NVIC_UNPEND0_INT30 0x40000000 // Interrupt 30 unpend
+#define NVIC_UNPEND0_INT31 0x80000000 // Interrupt 31 unpend
+
+//*****************************************************************************
+//
+// The following are defines for the bit fields in the NVIC_UNPEND1 register.
+//
+//*****************************************************************************
+#define NVIC_UNPEND1_INT_M 0x00FFFFFF // Interrupt Clear Pending
+
+#undef NVIC_UNPEND1_INT_M
+#define NVIC_UNPEND1_INT_M 0xFFFFFFFF // Interrupt Clear Pending
+
+#define NVIC_UNPEND1_INT32 0x00000001 // Interrupt 32 unpend
+#define NVIC_UNPEND1_INT33 0x00000002 // Interrupt 33 unpend
+#define NVIC_UNPEND1_INT34 0x00000004 // Interrupt 34 unpend
+#define NVIC_UNPEND1_INT35 0x00000008 // Interrupt 35 unpend
+#define NVIC_UNPEND1_INT36 0x00000010 // Interrupt 36 unpend
+#define NVIC_UNPEND1_INT37 0x00000020 // Interrupt 37 unpend
+#define NVIC_UNPEND1_INT38 0x00000040 // Interrupt 38 unpend
+#define NVIC_UNPEND1_INT39 0x00000080 // Interrupt 39 unpend
+#define NVIC_UNPEND1_INT40 0x00000100 // Interrupt 40 unpend
+#define NVIC_UNPEND1_INT41 0x00000200 // Interrupt 41 unpend
+#define NVIC_UNPEND1_INT42 0x00000400 // Interrupt 42 unpend
+#define NVIC_UNPEND1_INT43 0x00000800 // Interrupt 43 unpend
+#define NVIC_UNPEND1_INT44 0x00001000 // Interrupt 44 unpend
+#define NVIC_UNPEND1_INT45 0x00002000 // Interrupt 45 unpend
+#define NVIC_UNPEND1_INT46 0x00004000 // Interrupt 46 unpend
+#define NVIC_UNPEND1_INT47 0x00008000 // Interrupt 47 unpend
+#define NVIC_UNPEND1_INT48 0x00010000 // Interrupt 48 unpend
+#define NVIC_UNPEND1_INT49 0x00020000 // Interrupt 49 unpend
+#define NVIC_UNPEND1_INT50 0x00040000 // Interrupt 50 unpend
+#define NVIC_UNPEND1_INT51 0x00080000 // Interrupt 51 unpend
+#define NVIC_UNPEND1_INT52 0x00100000 // Interrupt 52 unpend
+#define NVIC_UNPEND1_INT53 0x00200000 // Interrupt 53 unpend
+#define NVIC_UNPEND1_INT54 0x00400000 // Interrupt 54 unpend
+#define NVIC_UNPEND1_INT55 0x00800000 // Interrupt 55 unpend
+
+
+//*****************************************************************************
+//
+// The following are defines for the bit fields in the NVIC_UNPEND2 register.
+//
+//*****************************************************************************
+#define NVIC_UNPEND2_INT_M 0xFFFFFFFF // Interrupt Clear Pending
+
+//*****************************************************************************
+//
+// The following are defines for the bit fields in the NVIC_UNPEND3 register.
+//
+//*****************************************************************************
+#define NVIC_UNPEND3_INT_M 0xFFFFFFFF // Interrupt Clear Pending
+
+//*****************************************************************************
+//
+// The following are defines for the bit fields in the NVIC_UNPEND4 register.
+//
+//*****************************************************************************
+#define NVIC_UNPEND4_INT_M 0x0000000F // Interrupt Clear Pending
+
+
+//*****************************************************************************
+//
+// The following are defines for the bit fields in the NVIC_ACTIVE0 register.
+//
+//*****************************************************************************
+#define NVIC_ACTIVE0_INT_M 0xFFFFFFFF // Interrupt Active
+#define NVIC_ACTIVE0_INT0 0x00000001 // Interrupt 0 active
+#define NVIC_ACTIVE0_INT1 0x00000002 // Interrupt 1 active
+#define NVIC_ACTIVE0_INT2 0x00000004 // Interrupt 2 active
+#define NVIC_ACTIVE0_INT3 0x00000008 // Interrupt 3 active
+#define NVIC_ACTIVE0_INT4 0x00000010 // Interrupt 4 active
+#define NVIC_ACTIVE0_INT5 0x00000020 // Interrupt 5 active
+#define NVIC_ACTIVE0_INT6 0x00000040 // Interrupt 6 active
+#define NVIC_ACTIVE0_INT7 0x00000080 // Interrupt 7 active
+#define NVIC_ACTIVE0_INT8 0x00000100 // Interrupt 8 active
+#define NVIC_ACTIVE0_INT9 0x00000200 // Interrupt 9 active
+#define NVIC_ACTIVE0_INT10 0x00000400 // Interrupt 10 active
+#define NVIC_ACTIVE0_INT11 0x00000800 // Interrupt 11 active
+#define NVIC_ACTIVE0_INT12 0x00001000 // Interrupt 12 active
+#define NVIC_ACTIVE0_INT13 0x00002000 // Interrupt 13 active
+#define NVIC_ACTIVE0_INT14 0x00004000 // Interrupt 14 active
+#define NVIC_ACTIVE0_INT15 0x00008000 // Interrupt 15 active
+#define NVIC_ACTIVE0_INT16 0x00010000 // Interrupt 16 active
+#define NVIC_ACTIVE0_INT17 0x00020000 // Interrupt 17 active
+#define NVIC_ACTIVE0_INT18 0x00040000 // Interrupt 18 active
+#define NVIC_ACTIVE0_INT19 0x00080000 // Interrupt 19 active
+#define NVIC_ACTIVE0_INT20 0x00100000 // Interrupt 20 active
+#define NVIC_ACTIVE0_INT21 0x00200000 // Interrupt 21 active
+#define NVIC_ACTIVE0_INT22 0x00400000 // Interrupt 22 active
+#define NVIC_ACTIVE0_INT23 0x00800000 // Interrupt 23 active
+#define NVIC_ACTIVE0_INT24 0x01000000 // Interrupt 24 active
+#define NVIC_ACTIVE0_INT25 0x02000000 // Interrupt 25 active
+#define NVIC_ACTIVE0_INT26 0x04000000 // Interrupt 26 active
+#define NVIC_ACTIVE0_INT27 0x08000000 // Interrupt 27 active
+#define NVIC_ACTIVE0_INT28 0x10000000 // Interrupt 28 active
+#define NVIC_ACTIVE0_INT29 0x20000000 // Interrupt 29 active
+#define NVIC_ACTIVE0_INT30 0x40000000 // Interrupt 30 active
+#define NVIC_ACTIVE0_INT31 0x80000000 // Interrupt 31 active
+
+//*****************************************************************************
+//
+// The following are defines for the bit fields in the NVIC_ACTIVE1 register.
+//
+//*****************************************************************************
+#define NVIC_ACTIVE1_INT_M 0x00FFFFFF // Interrupt Active
+
+#undef NVIC_ACTIVE1_INT_M
+#define NVIC_ACTIVE1_INT_M 0xFFFFFFFF // Interrupt Active
+
+#define NVIC_ACTIVE1_INT32 0x00000001 // Interrupt 32 active
+#define NVIC_ACTIVE1_INT33 0x00000002 // Interrupt 33 active
+#define NVIC_ACTIVE1_INT34 0x00000004 // Interrupt 34 active
+#define NVIC_ACTIVE1_INT35 0x00000008 // Interrupt 35 active
+#define NVIC_ACTIVE1_INT36 0x00000010 // Interrupt 36 active
+#define NVIC_ACTIVE1_INT37 0x00000020 // Interrupt 37 active
+#define NVIC_ACTIVE1_INT38 0x00000040 // Interrupt 38 active
+#define NVIC_ACTIVE1_INT39 0x00000080 // Interrupt 39 active
+#define NVIC_ACTIVE1_INT40 0x00000100 // Interrupt 40 active
+#define NVIC_ACTIVE1_INT41 0x00000200 // Interrupt 41 active
+#define NVIC_ACTIVE1_INT42 0x00000400 // Interrupt 42 active
+#define NVIC_ACTIVE1_INT43 0x00000800 // Interrupt 43 active
+#define NVIC_ACTIVE1_INT44 0x00001000 // Interrupt 44 active
+#define NVIC_ACTIVE1_INT45 0x00002000 // Interrupt 45 active
+#define NVIC_ACTIVE1_INT46 0x00004000 // Interrupt 46 active
+#define NVIC_ACTIVE1_INT47 0x00008000 // Interrupt 47 active
+#define NVIC_ACTIVE1_INT48 0x00010000 // Interrupt 48 active
+#define NVIC_ACTIVE1_INT49 0x00020000 // Interrupt 49 active
+#define NVIC_ACTIVE1_INT50 0x00040000 // Interrupt 50 active
+#define NVIC_ACTIVE1_INT51 0x00080000 // Interrupt 51 active
+#define NVIC_ACTIVE1_INT52 0x00100000 // Interrupt 52 active
+#define NVIC_ACTIVE1_INT53 0x00200000 // Interrupt 53 active
+#define NVIC_ACTIVE1_INT54 0x00400000 // Interrupt 54 active
+#define NVIC_ACTIVE1_INT55 0x00800000 // Interrupt 55 active
+
+
+//*****************************************************************************
+//
+// The following are defines for the bit fields in the NVIC_ACTIVE2 register.
+//
+//*****************************************************************************
+#define NVIC_ACTIVE2_INT_M 0xFFFFFFFF // Interrupt Active
+
+//*****************************************************************************
+//
+// The following are defines for the bit fields in the NVIC_ACTIVE3 register.
+//
+//*****************************************************************************
+#define NVIC_ACTIVE3_INT_M 0xFFFFFFFF // Interrupt Active
+
+//*****************************************************************************
+//
+// The following are defines for the bit fields in the NVIC_ACTIVE4 register.
+//
+//*****************************************************************************
+#define NVIC_ACTIVE4_INT_M 0x0000000F // Interrupt Active
+
+
+//*****************************************************************************
+//
+// The following are defines for the bit fields in the NVIC_PRI0 register.
+//
+//*****************************************************************************
+#define NVIC_PRI0_INT3_M 0xE0000000 // Interrupt 3 Priority Mask
+#define NVIC_PRI0_INT2_M 0x00E00000 // Interrupt 2 Priority Mask
+#define NVIC_PRI0_INT1_M 0x0000E000 // Interrupt 1 Priority Mask
+#define NVIC_PRI0_INT0_M 0x000000E0 // Interrupt 0 Priority Mask
+#define NVIC_PRI0_INT3_S 29
+#define NVIC_PRI0_INT2_S 21
+#define NVIC_PRI0_INT1_S 13
+#define NVIC_PRI0_INT0_S 5
+
+//*****************************************************************************
+//
+// The following are defines for the bit fields in the NVIC_PRI1 register.
+//
+//*****************************************************************************
+#define NVIC_PRI1_INT7_M 0xE0000000 // Interrupt 7 Priority Mask
+#define NVIC_PRI1_INT6_M 0x00E00000 // Interrupt 6 Priority Mask
+#define NVIC_PRI1_INT5_M 0x0000E000 // Interrupt 5 Priority Mask
+#define NVIC_PRI1_INT4_M 0x000000E0 // Interrupt 4 Priority Mask
+#define NVIC_PRI1_INT7_S 29
+#define NVIC_PRI1_INT6_S 21
+#define NVIC_PRI1_INT5_S 13
+#define NVIC_PRI1_INT4_S 5
+
+//*****************************************************************************
+//
+// The following are defines for the bit fields in the NVIC_PRI2 register.
+//
+//*****************************************************************************
+#define NVIC_PRI2_INT11_M 0xE0000000 // Interrupt 11 Priority Mask
+#define NVIC_PRI2_INT10_M 0x00E00000 // Interrupt 10 Priority Mask
+#define NVIC_PRI2_INT9_M 0x0000E000 // Interrupt 9 Priority Mask
+#define NVIC_PRI2_INT8_M 0x000000E0 // Interrupt 8 Priority Mask
+#define NVIC_PRI2_INT11_S 29
+#define NVIC_PRI2_INT10_S 21
+#define NVIC_PRI2_INT9_S 13
+#define NVIC_PRI2_INT8_S 5
+
+//*****************************************************************************
+//
+// The following are defines for the bit fields in the NVIC_PRI3 register.
+//
+//*****************************************************************************
+#define NVIC_PRI3_INT15_M 0xE0000000 // Interrupt 15 Priority Mask
+#define NVIC_PRI3_INT14_M 0x00E00000 // Interrupt 14 Priority Mask
+#define NVIC_PRI3_INT13_M 0x0000E000 // Interrupt 13 Priority Mask
+#define NVIC_PRI3_INT12_M 0x000000E0 // Interrupt 12 Priority Mask
+#define NVIC_PRI3_INT15_S 29
+#define NVIC_PRI3_INT14_S 21
+#define NVIC_PRI3_INT13_S 13
+#define NVIC_PRI3_INT12_S 5
+
+//*****************************************************************************
+//
+// The following are defines for the bit fields in the NVIC_PRI4 register.
+//
+//*****************************************************************************
+#define NVIC_PRI4_INT19_M 0xE0000000 // Interrupt 19 Priority Mask
+#define NVIC_PRI4_INT18_M 0x00E00000 // Interrupt 18 Priority Mask
+#define NVIC_PRI4_INT17_M 0x0000E000 // Interrupt 17 Priority Mask
+#define NVIC_PRI4_INT16_M 0x000000E0 // Interrupt 16 Priority Mask
+#define NVIC_PRI4_INT19_S 29
+#define NVIC_PRI4_INT18_S 21
+#define NVIC_PRI4_INT17_S 13
+#define NVIC_PRI4_INT16_S 5
+
+//*****************************************************************************
+//
+// The following are defines for the bit fields in the NVIC_PRI5 register.
+//
+//*****************************************************************************
+#define NVIC_PRI5_INT23_M 0xE0000000 // Interrupt 23 Priority Mask
+#define NVIC_PRI5_INT22_M 0x00E00000 // Interrupt 22 Priority Mask
+#define NVIC_PRI5_INT21_M 0x0000E000 // Interrupt 21 Priority Mask
+#define NVIC_PRI5_INT20_M 0x000000E0 // Interrupt 20 Priority Mask
+#define NVIC_PRI5_INT23_S 29
+#define NVIC_PRI5_INT22_S 21
+#define NVIC_PRI5_INT21_S 13
+#define NVIC_PRI5_INT20_S 5
+
+//*****************************************************************************
+//
+// The following are defines for the bit fields in the NVIC_PRI6 register.
+//
+//*****************************************************************************
+#define NVIC_PRI6_INT27_M 0xE0000000 // Interrupt 27 Priority Mask
+#define NVIC_PRI6_INT26_M 0x00E00000 // Interrupt 26 Priority Mask
+#define NVIC_PRI6_INT25_M 0x0000E000 // Interrupt 25 Priority Mask
+#define NVIC_PRI6_INT24_M 0x000000E0 // Interrupt 24 Priority Mask
+#define NVIC_PRI6_INT27_S 29
+#define NVIC_PRI6_INT26_S 21
+#define NVIC_PRI6_INT25_S 13
+#define NVIC_PRI6_INT24_S 5
+
+//*****************************************************************************
+//
+// The following are defines for the bit fields in the NVIC_PRI7 register.
+//
+//*****************************************************************************
+#define NVIC_PRI7_INT31_M 0xE0000000 // Interrupt 31 Priority Mask
+#define NVIC_PRI7_INT30_M 0x00E00000 // Interrupt 30 Priority Mask
+#define NVIC_PRI7_INT29_M 0x0000E000 // Interrupt 29 Priority Mask
+#define NVIC_PRI7_INT28_M 0x000000E0 // Interrupt 28 Priority Mask
+#define NVIC_PRI7_INT31_S 29
+#define NVIC_PRI7_INT30_S 21
+#define NVIC_PRI7_INT29_S 13
+#define NVIC_PRI7_INT28_S 5
+
+//*****************************************************************************
+//
+// The following are defines for the bit fields in the NVIC_PRI8 register.
+//
+//*****************************************************************************
+#define NVIC_PRI8_INT35_M 0xE0000000 // Interrupt 35 Priority Mask
+#define NVIC_PRI8_INT34_M 0x00E00000 // Interrupt 34 Priority Mask
+#define NVIC_PRI8_INT33_M 0x0000E000 // Interrupt 33 Priority Mask
+#define NVIC_PRI8_INT32_M 0x000000E0 // Interrupt 32 Priority Mask
+#define NVIC_PRI8_INT35_S 29
+#define NVIC_PRI8_INT34_S 21
+#define NVIC_PRI8_INT33_S 13
+#define NVIC_PRI8_INT32_S 5
+
+//*****************************************************************************
+//
+// The following are defines for the bit fields in the NVIC_PRI9 register.
+//
+//*****************************************************************************
+#define NVIC_PRI9_INT39_M 0xE0000000 // Interrupt 39 Priority Mask
+#define NVIC_PRI9_INT38_M 0x00E00000 // Interrupt 38 Priority Mask
+#define NVIC_PRI9_INT37_M 0x0000E000 // Interrupt 37 Priority Mask
+#define NVIC_PRI9_INT36_M 0x000000E0 // Interrupt 36 Priority Mask
+#define NVIC_PRI9_INT39_S 29
+#define NVIC_PRI9_INT38_S 21
+#define NVIC_PRI9_INT37_S 13
+#define NVIC_PRI9_INT36_S 5
+
+//*****************************************************************************
+//
+// The following are defines for the bit fields in the NVIC_PRI10 register.
+//
+//*****************************************************************************
+#define NVIC_PRI10_INT43_M 0xE0000000 // Interrupt 43 Priority Mask
+#define NVIC_PRI10_INT42_M 0x00E00000 // Interrupt 42 Priority Mask
+#define NVIC_PRI10_INT41_M 0x0000E000 // Interrupt 41 Priority Mask
+#define NVIC_PRI10_INT40_M 0x000000E0 // Interrupt 40 Priority Mask
+#define NVIC_PRI10_INT43_S 29
+#define NVIC_PRI10_INT42_S 21
+#define NVIC_PRI10_INT41_S 13
+#define NVIC_PRI10_INT40_S 5
+
+//*****************************************************************************
+//
+// The following are defines for the bit fields in the NVIC_PRI11 register.
+//
+//*****************************************************************************
+#define NVIC_PRI11_INT47_M 0xE0000000 // Interrupt 47 Priority Mask
+#define NVIC_PRI11_INT46_M 0x00E00000 // Interrupt 46 Priority Mask
+#define NVIC_PRI11_INT45_M 0x0000E000 // Interrupt 45 Priority Mask
+#define NVIC_PRI11_INT44_M 0x000000E0 // Interrupt 44 Priority Mask
+#define NVIC_PRI11_INT47_S 29
+#define NVIC_PRI11_INT46_S 21
+#define NVIC_PRI11_INT45_S 13
+#define NVIC_PRI11_INT44_S 5
+
+//*****************************************************************************
+//
+// The following are defines for the bit fields in the NVIC_PRI12 register.
+//
+//*****************************************************************************
+#define NVIC_PRI12_INT51_M 0xE0000000 // Interrupt 51 Priority Mask
+#define NVIC_PRI12_INT50_M 0x00E00000 // Interrupt 50 Priority Mask
+#define NVIC_PRI12_INT49_M 0x0000E000 // Interrupt 49 Priority Mask
+#define NVIC_PRI12_INT48_M 0x000000E0 // Interrupt 48 Priority Mask
+#define NVIC_PRI12_INT51_S 29
+#define NVIC_PRI12_INT50_S 21
+#define NVIC_PRI12_INT49_S 13
+#define NVIC_PRI12_INT48_S 5
+
+//*****************************************************************************
+//
+// The following are defines for the bit fields in the NVIC_PRI13 register.
+//
+//*****************************************************************************
+#define NVIC_PRI13_INT55_M 0xE0000000 // Interrupt 55 Priority Mask
+#define NVIC_PRI13_INT54_M 0x00E00000 // Interrupt 54 Priority Mask
+#define NVIC_PRI13_INT53_M 0x0000E000 // Interrupt 53 Priority Mask
+#define NVIC_PRI13_INT52_M 0x000000E0 // Interrupt 52 Priority Mask
+#define NVIC_PRI13_INT55_S 29
+#define NVIC_PRI13_INT54_S 21
+#define NVIC_PRI13_INT53_S 13
+#define NVIC_PRI13_INT52_S 5
+
+
+//*****************************************************************************
+//
+// The following are defines for the bit fields in the NVIC_PRI14 register.
+//
+//*****************************************************************************
+#define NVIC_PRI14_INTD_M 0xE0000000 // Interrupt 59 Priority Mask
+#define NVIC_PRI14_INTC_M 0x00E00000 // Interrupt 58 Priority Mask
+#define NVIC_PRI14_INTB_M 0x0000E000 // Interrupt 57 Priority Mask
+#define NVIC_PRI14_INTA_M 0x000000E0 // Interrupt 56 Priority Mask
+#define NVIC_PRI14_INTD_S 29
+#define NVIC_PRI14_INTC_S 21
+#define NVIC_PRI14_INTB_S 13
+#define NVIC_PRI14_INTA_S 5
+
+//*****************************************************************************
+//
+// The following are defines for the bit fields in the NVIC_PRI15 register.
+//
+//*****************************************************************************
+#define NVIC_PRI15_INTD_M 0xE0000000 // Interrupt 63 Priority Mask
+#define NVIC_PRI15_INTC_M 0x00E00000 // Interrupt 62 Priority Mask
+#define NVIC_PRI15_INTB_M 0x0000E000 // Interrupt 61 Priority Mask
+#define NVIC_PRI15_INTA_M 0x000000E0 // Interrupt 60 Priority Mask
+#define NVIC_PRI15_INTD_S 29
+#define NVIC_PRI15_INTC_S 21
+#define NVIC_PRI15_INTB_S 13
+#define NVIC_PRI15_INTA_S 5
+
+//*****************************************************************************
+//
+// The following are defines for the bit fields in the NVIC_PRI16 register.
+//
+//*****************************************************************************
+#define NVIC_PRI16_INTD_M 0xE0000000 // Interrupt 67 Priority Mask
+#define NVIC_PRI16_INTC_M 0x00E00000 // Interrupt 66 Priority Mask
+#define NVIC_PRI16_INTB_M 0x0000E000 // Interrupt 65 Priority Mask
+#define NVIC_PRI16_INTA_M 0x000000E0 // Interrupt 64 Priority Mask
+#define NVIC_PRI16_INTD_S 29
+#define NVIC_PRI16_INTC_S 21
+#define NVIC_PRI16_INTB_S 13
+#define NVIC_PRI16_INTA_S 5
+
+//*****************************************************************************
+//
+// The following are defines for the bit fields in the NVIC_PRI17 register.
+//
+//*****************************************************************************
+#define NVIC_PRI17_INTD_M 0xE0000000 // Interrupt 71 Priority Mask
+#define NVIC_PRI17_INTC_M 0x00E00000 // Interrupt 70 Priority Mask
+#define NVIC_PRI17_INTB_M 0x0000E000 // Interrupt 69 Priority Mask
+#define NVIC_PRI17_INTA_M 0x000000E0 // Interrupt 68 Priority Mask
+#define NVIC_PRI17_INTD_S 29
+#define NVIC_PRI17_INTC_S 21
+#define NVIC_PRI17_INTB_S 13
+#define NVIC_PRI17_INTA_S 5
+
+//*****************************************************************************
+//
+// The following are defines for the bit fields in the NVIC_PRI18 register.
+//
+//*****************************************************************************
+#define NVIC_PRI18_INTD_M 0xE0000000 // Interrupt 75 Priority Mask
+#define NVIC_PRI18_INTC_M 0x00E00000 // Interrupt 74 Priority Mask
+#define NVIC_PRI18_INTB_M 0x0000E000 // Interrupt 73 Priority Mask
+#define NVIC_PRI18_INTA_M 0x000000E0 // Interrupt 72 Priority Mask
+#define NVIC_PRI18_INTD_S 29
+#define NVIC_PRI18_INTC_S 21
+#define NVIC_PRI18_INTB_S 13
+#define NVIC_PRI18_INTA_S 5
+
+//*****************************************************************************
+//
+// The following are defines for the bit fields in the NVIC_PRI19 register.
+//
+//*****************************************************************************
+#define NVIC_PRI19_INTD_M 0xE0000000 // Interrupt 79 Priority Mask
+#define NVIC_PRI19_INTC_M 0x00E00000 // Interrupt 78 Priority Mask
+#define NVIC_PRI19_INTB_M 0x0000E000 // Interrupt 77 Priority Mask
+#define NVIC_PRI19_INTA_M 0x000000E0 // Interrupt 76 Priority Mask
+#define NVIC_PRI19_INTD_S 29
+#define NVIC_PRI19_INTC_S 21
+#define NVIC_PRI19_INTB_S 13
+#define NVIC_PRI19_INTA_S 5
+
+//*****************************************************************************
+//
+// The following are defines for the bit fields in the NVIC_PRI20 register.
+//
+//*****************************************************************************
+#define NVIC_PRI20_INTD_M 0xE0000000 // Interrupt 83 Priority Mask
+#define NVIC_PRI20_INTC_M 0x00E00000 // Interrupt 82 Priority Mask
+#define NVIC_PRI20_INTB_M 0x0000E000 // Interrupt 81 Priority Mask
+#define NVIC_PRI20_INTA_M 0x000000E0 // Interrupt 80 Priority Mask
+#define NVIC_PRI20_INTD_S 29
+#define NVIC_PRI20_INTC_S 21
+#define NVIC_PRI20_INTB_S 13
+#define NVIC_PRI20_INTA_S 5
+
+//*****************************************************************************
+//
+// The following are defines for the bit fields in the NVIC_PRI21 register.
+//
+//*****************************************************************************
+#define NVIC_PRI21_INTD_M 0xE0000000 // Interrupt 87 Priority Mask
+#define NVIC_PRI21_INTC_M 0x00E00000 // Interrupt 86 Priority Mask
+#define NVIC_PRI21_INTB_M 0x0000E000 // Interrupt 85 Priority Mask
+#define NVIC_PRI21_INTA_M 0x000000E0 // Interrupt 84 Priority Mask
+#define NVIC_PRI21_INTD_S 29
+#define NVIC_PRI21_INTC_S 21
+#define NVIC_PRI21_INTB_S 13
+#define NVIC_PRI21_INTA_S 5
+
+//*****************************************************************************
+//
+// The following are defines for the bit fields in the NVIC_PRI22 register.
+//
+//*****************************************************************************
+#define NVIC_PRI22_INTD_M 0xE0000000 // Interrupt 91 Priority Mask
+#define NVIC_PRI22_INTC_M 0x00E00000 // Interrupt 90 Priority Mask
+#define NVIC_PRI22_INTB_M 0x0000E000 // Interrupt 89 Priority Mask
+#define NVIC_PRI22_INTA_M 0x000000E0 // Interrupt 88 Priority Mask
+#define NVIC_PRI22_INTD_S 29
+#define NVIC_PRI22_INTC_S 21
+#define NVIC_PRI22_INTB_S 13
+#define NVIC_PRI22_INTA_S 5
+
+//*****************************************************************************
+//
+// The following are defines for the bit fields in the NVIC_PRI23 register.
+//
+//*****************************************************************************
+#define NVIC_PRI23_INTD_M 0xE0000000 // Interrupt 95 Priority Mask
+#define NVIC_PRI23_INTC_M 0x00E00000 // Interrupt 94 Priority Mask
+#define NVIC_PRI23_INTB_M 0x0000E000 // Interrupt 93 Priority Mask
+#define NVIC_PRI23_INTA_M 0x000000E0 // Interrupt 92 Priority Mask
+#define NVIC_PRI23_INTD_S 29
+#define NVIC_PRI23_INTC_S 21
+#define NVIC_PRI23_INTB_S 13
+#define NVIC_PRI23_INTA_S 5
+
+//*****************************************************************************
+//
+// The following are defines for the bit fields in the NVIC_PRI24 register.
+//
+//*****************************************************************************
+#define NVIC_PRI24_INTD_M 0xE0000000 // Interrupt 99 Priority Mask
+#define NVIC_PRI24_INTC_M 0x00E00000 // Interrupt 98 Priority Mask
+#define NVIC_PRI24_INTB_M 0x0000E000 // Interrupt 97 Priority Mask
+#define NVIC_PRI24_INTA_M 0x000000E0 // Interrupt 96 Priority Mask
+#define NVIC_PRI24_INTD_S 29
+#define NVIC_PRI24_INTC_S 21
+#define NVIC_PRI24_INTB_S 13
+#define NVIC_PRI24_INTA_S 5
+
+//*****************************************************************************
+//
+// The following are defines for the bit fields in the NVIC_PRI25 register.
+//
+//*****************************************************************************
+#define NVIC_PRI25_INTD_M 0xE0000000 // Interrupt 103 Priority Mask
+#define NVIC_PRI25_INTC_M 0x00E00000 // Interrupt 102 Priority Mask
+#define NVIC_PRI25_INTB_M 0x0000E000 // Interrupt 101 Priority Mask
+#define NVIC_PRI25_INTA_M 0x000000E0 // Interrupt 100 Priority Mask
+#define NVIC_PRI25_INTD_S 29
+#define NVIC_PRI25_INTC_S 21
+#define NVIC_PRI25_INTB_S 13
+#define NVIC_PRI25_INTA_S 5
+
+//*****************************************************************************
+//
+// The following are defines for the bit fields in the NVIC_PRI26 register.
+//
+//*****************************************************************************
+#define NVIC_PRI26_INTD_M 0xE0000000 // Interrupt 107 Priority Mask
+#define NVIC_PRI26_INTC_M 0x00E00000 // Interrupt 106 Priority Mask
+#define NVIC_PRI26_INTB_M 0x0000E000 // Interrupt 105 Priority Mask
+#define NVIC_PRI26_INTA_M 0x000000E0 // Interrupt 104 Priority Mask
+#define NVIC_PRI26_INTD_S 29
+#define NVIC_PRI26_INTC_S 21
+#define NVIC_PRI26_INTB_S 13
+#define NVIC_PRI26_INTA_S 5
+
+//*****************************************************************************
+//
+// The following are defines for the bit fields in the NVIC_PRI27 register.
+//
+//*****************************************************************************
+#define NVIC_PRI27_INTD_M 0xE0000000 // Interrupt 111 Priority Mask
+#define NVIC_PRI27_INTC_M 0x00E00000 // Interrupt 110 Priority Mask
+#define NVIC_PRI27_INTB_M 0x0000E000 // Interrupt 109 Priority Mask
+#define NVIC_PRI27_INTA_M 0x000000E0 // Interrupt 108 Priority Mask
+#define NVIC_PRI27_INTD_S 29
+#define NVIC_PRI27_INTC_S 21
+#define NVIC_PRI27_INTB_S 13
+#define NVIC_PRI27_INTA_S 5
+
+//*****************************************************************************
+//
+// The following are defines for the bit fields in the NVIC_PRI28 register.
+//
+//*****************************************************************************
+#define NVIC_PRI28_INTD_M 0xE0000000 // Interrupt 115 Priority Mask
+#define NVIC_PRI28_INTC_M 0x00E00000 // Interrupt 114 Priority Mask
+#define NVIC_PRI28_INTB_M 0x0000E000 // Interrupt 113 Priority Mask
+#define NVIC_PRI28_INTA_M 0x000000E0 // Interrupt 112 Priority Mask
+#define NVIC_PRI28_INTD_S 29
+#define NVIC_PRI28_INTC_S 21
+#define NVIC_PRI28_INTB_S 13
+#define NVIC_PRI28_INTA_S 5
+
+//*****************************************************************************
+//
+// The following are defines for the bit fields in the NVIC_PRI29 register.
+//
+//*****************************************************************************
+#define NVIC_PRI29_INTD_M 0xE0000000 // Interrupt 119 Priority Mask
+#define NVIC_PRI29_INTC_M 0x00E00000 // Interrupt 118 Priority Mask
+#define NVIC_PRI29_INTB_M 0x0000E000 // Interrupt 117 Priority Mask
+#define NVIC_PRI29_INTA_M 0x000000E0 // Interrupt 116 Priority Mask
+#define NVIC_PRI29_INTD_S 29
+#define NVIC_PRI29_INTC_S 21
+#define NVIC_PRI29_INTB_S 13
+#define NVIC_PRI29_INTA_S 5
+
+//*****************************************************************************
+//
+// The following are defines for the bit fields in the NVIC_PRI30 register.
+//
+//*****************************************************************************
+#define NVIC_PRI30_INTD_M 0xE0000000 // Interrupt 123 Priority Mask
+#define NVIC_PRI30_INTC_M 0x00E00000 // Interrupt 122 Priority Mask
+#define NVIC_PRI30_INTB_M 0x0000E000 // Interrupt 121 Priority Mask
+#define NVIC_PRI30_INTA_M 0x000000E0 // Interrupt 120 Priority Mask
+#define NVIC_PRI30_INTD_S 29
+#define NVIC_PRI30_INTC_S 21
+#define NVIC_PRI30_INTB_S 13
+#define NVIC_PRI30_INTA_S 5
+
+//*****************************************************************************
+//
+// The following are defines for the bit fields in the NVIC_PRI31 register.
+//
+//*****************************************************************************
+#define NVIC_PRI31_INTD_M 0xE0000000 // Interrupt 127 Priority Mask
+#define NVIC_PRI31_INTC_M 0x00E00000 // Interrupt 126 Priority Mask
+#define NVIC_PRI31_INTB_M 0x0000E000 // Interrupt 125 Priority Mask
+#define NVIC_PRI31_INTA_M 0x000000E0 // Interrupt 124 Priority Mask
+#define NVIC_PRI31_INTD_S 29
+#define NVIC_PRI31_INTC_S 21
+#define NVIC_PRI31_INTB_S 13
+#define NVIC_PRI31_INTA_S 5
+
+//*****************************************************************************
+//
+// The following are defines for the bit fields in the NVIC_PRI32 register.
+//
+//*****************************************************************************
+#define NVIC_PRI32_INTD_M 0xE0000000 // Interrupt 131 Priority Mask
+#define NVIC_PRI32_INTC_M 0x00E00000 // Interrupt 130 Priority Mask
+#define NVIC_PRI32_INTB_M 0x0000E000 // Interrupt 129 Priority Mask
+#define NVIC_PRI32_INTA_M 0x000000E0 // Interrupt 128 Priority Mask
+#define NVIC_PRI32_INTD_S 29
+#define NVIC_PRI32_INTC_S 21
+#define NVIC_PRI32_INTB_S 13
+#define NVIC_PRI32_INTA_S 5
+
+
+//*****************************************************************************
+//
+// The following are defines for the bit fields in the NVIC_CPUID register.
+//
+//*****************************************************************************
+#define NVIC_CPUID_IMP_M 0xFF000000 // Implementer Code
+#define NVIC_CPUID_IMP_ARM 0x41000000 // ARM
+#define NVIC_CPUID_VAR_M 0x00F00000 // Variant Number
+#define NVIC_CPUID_CON_M 0x000F0000 // Constant
+#define NVIC_CPUID_PARTNO_M 0x0000FFF0 // Part Number
+#define NVIC_CPUID_PARTNO_CM3 0x0000C230 // Cortex-M3 processor
+
+#define NVIC_CPUID_PARTNO_CM4 0x0000C240 // Cortex-M4 processor
+
+#define NVIC_CPUID_REV_M 0x0000000F // Revision Number
+
+//*****************************************************************************
+//
+// The following are defines for the bit fields in the NVIC_INT_CTRL register.
+//
+//*****************************************************************************
+#define NVIC_INT_CTRL_NMI_SET 0x80000000 // NMI Set Pending
+#define NVIC_INT_CTRL_PEND_SV 0x10000000 // PendSV Set Pending
+#define NVIC_INT_CTRL_UNPEND_SV 0x08000000 // PendSV Clear Pending
+#define NVIC_INT_CTRL_PENDSTSET 0x04000000 // SysTick Set Pending
+#define NVIC_INT_CTRL_PENDSTCLR 0x02000000 // SysTick Clear Pending
+#define NVIC_INT_CTRL_ISR_PRE 0x00800000 // Debug Interrupt Handling
+#define NVIC_INT_CTRL_ISR_PEND 0x00400000 // Interrupt Pending
+#define NVIC_INT_CTRL_VEC_PEN_M 0x0007F000 // Interrupt Pending Vector Number
+
+#undef NVIC_INT_CTRL_VEC_PEN_M
+#define NVIC_INT_CTRL_VEC_PEN_M 0x000FF000 // Interrupt Pending Vector Number
+
+#define NVIC_INT_CTRL_VEC_PEN_NMI \
+ 0x00002000 // NMI
+#define NVIC_INT_CTRL_VEC_PEN_HARD \
+ 0x00003000 // Hard fault
+#define NVIC_INT_CTRL_VEC_PEN_MEM \
+ 0x00004000 // Memory management fault
+#define NVIC_INT_CTRL_VEC_PEN_BUS \
+ 0x00005000 // Bus fault
+#define NVIC_INT_CTRL_VEC_PEN_USG \
+ 0x00006000 // Usage fault
+#define NVIC_INT_CTRL_VEC_PEN_SVC \
+ 0x0000B000 // SVCall
+#define NVIC_INT_CTRL_VEC_PEN_PNDSV \
+ 0x0000E000 // PendSV
+#define NVIC_INT_CTRL_VEC_PEN_TICK \
+ 0x0000F000 // SysTick
+#define NVIC_INT_CTRL_RET_BASE 0x00000800 // Return to Base
+#define NVIC_INT_CTRL_VEC_ACT_M 0x0000007F // Interrupt Pending Vector Number
+
+#undef NVIC_INT_CTRL_VEC_ACT_M
+#define NVIC_INT_CTRL_VEC_ACT_M 0x000000FF // Interrupt Pending Vector Number
+
+#define NVIC_INT_CTRL_VEC_PEN_S 12
+#define NVIC_INT_CTRL_VEC_ACT_S 0
+
+//*****************************************************************************
+//
+// The following are defines for the bit fields in the NVIC_VTABLE register.
+//
+//*****************************************************************************
+#define NVIC_VTABLE_BASE 0x20000000 // Vector Table Base
+#define NVIC_VTABLE_OFFSET_M 0x1FFFFE00 // Vector Table Offset
+
+#undef NVIC_VTABLE_OFFSET_M
+#define NVIC_VTABLE_OFFSET_M 0x1FFFFC00 // Vector Table Offset
+
+#define NVIC_VTABLE_OFFSET_S 9
+
+#undef NVIC_VTABLE_OFFSET_S
+#define NVIC_VTABLE_OFFSET_S 10
+
+
+//*****************************************************************************
+//
+// The following are defines for the bit fields in the NVIC_APINT register.
+//
+//*****************************************************************************
+#define NVIC_APINT_VECTKEY_M 0xFFFF0000 // Register Key
+#define NVIC_APINT_VECTKEY 0x05FA0000 // Vector key
+#define NVIC_APINT_ENDIANESS 0x00008000 // Data Endianess
+#define NVIC_APINT_PRIGROUP_M 0x00000700 // Interrupt Priority Grouping
+#define NVIC_APINT_PRIGROUP_7_1 0x00000000 // Priority group 7.1 split
+#define NVIC_APINT_PRIGROUP_6_2 0x00000100 // Priority group 6.2 split
+#define NVIC_APINT_PRIGROUP_5_3 0x00000200 // Priority group 5.3 split
+#define NVIC_APINT_PRIGROUP_4_4 0x00000300 // Priority group 4.4 split
+#define NVIC_APINT_PRIGROUP_3_5 0x00000400 // Priority group 3.5 split
+#define NVIC_APINT_PRIGROUP_2_6 0x00000500 // Priority group 2.6 split
+#define NVIC_APINT_PRIGROUP_1_7 0x00000600 // Priority group 1.7 split
+#define NVIC_APINT_PRIGROUP_0_8 0x00000700 // Priority group 0.8 split
+#define NVIC_APINT_SYSRESETREQ 0x00000004 // System Reset Request
+#define NVIC_APINT_VECT_CLR_ACT 0x00000002 // Clear Active NMI / Fault
+#define NVIC_APINT_VECT_RESET 0x00000001 // System Reset
+
+//*****************************************************************************
+//
+// The following are defines for the bit fields in the NVIC_SYS_CTRL register.
+//
+//*****************************************************************************
+#define NVIC_SYS_CTRL_SEVONPEND 0x00000010 // Wake Up on Pending
+#define NVIC_SYS_CTRL_SLEEPDEEP 0x00000004 // Deep Sleep Enable
+#define NVIC_SYS_CTRL_SLEEPEXIT 0x00000002 // Sleep on ISR Exit
+
+//*****************************************************************************
+//
+// The following are defines for the bit fields in the NVIC_CFG_CTRL register.
+//
+//*****************************************************************************
+#define NVIC_CFG_CTRL_STKALIGN 0x00000200 // Stack Alignment on Exception
+ // Entry
+#define NVIC_CFG_CTRL_BFHFNMIGN 0x00000100 // Ignore Bus Fault in NMI and
+ // Fault
+#define NVIC_CFG_CTRL_DIV0 0x00000010 // Trap on Divide by 0
+#define NVIC_CFG_CTRL_UNALIGNED 0x00000008 // Trap on Unaligned Access
+#define NVIC_CFG_CTRL_MAIN_PEND 0x00000002 // Allow Main Interrupt Trigger
+#define NVIC_CFG_CTRL_BASE_THR 0x00000001 // Thread State Control
+
+//*****************************************************************************
+//
+// The following are defines for the bit fields in the NVIC_SYS_PRI1 register.
+//
+//*****************************************************************************
+#define NVIC_SYS_PRI1_USAGE_M 0x00E00000 // Usage Fault Priority
+#define NVIC_SYS_PRI1_BUS_M 0x0000E000 // Bus Fault Priority
+#define NVIC_SYS_PRI1_MEM_M 0x000000E0 // Memory Management Fault Priority
+#define NVIC_SYS_PRI1_USAGE_S 21
+#define NVIC_SYS_PRI1_BUS_S 13
+#define NVIC_SYS_PRI1_MEM_S 5
+
+//*****************************************************************************
+//
+// The following are defines for the bit fields in the NVIC_SYS_PRI2 register.
+//
+//*****************************************************************************
+#define NVIC_SYS_PRI2_SVC_M 0xE0000000 // SVCall Priority
+#define NVIC_SYS_PRI2_SVC_S 29
+
+//*****************************************************************************
+//
+// The following are defines for the bit fields in the NVIC_SYS_PRI3 register.
+//
+//*****************************************************************************
+#define NVIC_SYS_PRI3_TICK_M 0xE0000000 // SysTick Exception Priority
+#define NVIC_SYS_PRI3_PENDSV_M 0x00E00000 // PendSV Priority
+#define NVIC_SYS_PRI3_DEBUG_M 0x000000E0 // Debug Priority
+#define NVIC_SYS_PRI3_TICK_S 29
+#define NVIC_SYS_PRI3_PENDSV_S 21
+#define NVIC_SYS_PRI3_DEBUG_S 5
+
+//*****************************************************************************
+//
+// The following are defines for the bit fields in the NVIC_SYS_HND_CTRL
+// register.
+//
+//*****************************************************************************
+#define NVIC_SYS_HND_CTRL_USAGE 0x00040000 // Usage Fault Enable
+#define NVIC_SYS_HND_CTRL_BUS 0x00020000 // Bus Fault Enable
+#define NVIC_SYS_HND_CTRL_MEM 0x00010000 // Memory Management Fault Enable
+#define NVIC_SYS_HND_CTRL_SVC 0x00008000 // SVC Call Pending
+#define NVIC_SYS_HND_CTRL_BUSP 0x00004000 // Bus Fault Pending
+#define NVIC_SYS_HND_CTRL_MEMP 0x00002000 // Memory Management Fault Pending
+#define NVIC_SYS_HND_CTRL_USAGEP \
+ 0x00001000 // Usage Fault Pending
+#define NVIC_SYS_HND_CTRL_TICK 0x00000800 // SysTick Exception Active
+#define NVIC_SYS_HND_CTRL_PNDSV 0x00000400 // PendSV Exception Active
+#define NVIC_SYS_HND_CTRL_MON 0x00000100 // Debug Monitor Active
+#define NVIC_SYS_HND_CTRL_SVCA 0x00000080 // SVC Call Active
+#define NVIC_SYS_HND_CTRL_USGA 0x00000008 // Usage Fault Active
+#define NVIC_SYS_HND_CTRL_BUSA 0x00000002 // Bus Fault Active
+#define NVIC_SYS_HND_CTRL_MEMA 0x00000001 // Memory Management Fault Active
+
+//*****************************************************************************
+//
+// The following are defines for the bit fields in the NVIC_FAULT_STAT
+// register.
+//
+//*****************************************************************************
+#define NVIC_FAULT_STAT_DIV0 0x02000000 // Divide-by-Zero Usage Fault
+#define NVIC_FAULT_STAT_UNALIGN 0x01000000 // Unaligned Access Usage Fault
+#define NVIC_FAULT_STAT_NOCP 0x00080000 // No Coprocessor Usage Fault
+#define NVIC_FAULT_STAT_INVPC 0x00040000 // Invalid PC Load Usage Fault
+#define NVIC_FAULT_STAT_INVSTAT 0x00020000 // Invalid State Usage Fault
+#define NVIC_FAULT_STAT_UNDEF 0x00010000 // Undefined Instruction Usage
+ // Fault
+#define NVIC_FAULT_STAT_BFARV 0x00008000 // Bus Fault Address Register Valid
+
+#define NVIC_FAULT_STAT_BLSPERR 0x00002000 // Bus Fault on Floating-Point Lazy
+ // State Preservation
+
+#define NVIC_FAULT_STAT_BSTKE 0x00001000 // Stack Bus Fault
+#define NVIC_FAULT_STAT_BUSTKE 0x00000800 // Unstack Bus Fault
+#define NVIC_FAULT_STAT_IMPRE 0x00000400 // Imprecise Data Bus Error
+#define NVIC_FAULT_STAT_PRECISE 0x00000200 // Precise Data Bus Error
+#define NVIC_FAULT_STAT_IBUS 0x00000100 // Instruction Bus Error
+#define NVIC_FAULT_STAT_MMARV 0x00000080 // Memory Management Fault Address
+ // Register Valid
+
+#define NVIC_FAULT_STAT_MLSPERR 0x00000020 // Memory Management Fault on
+ // Floating-Point Lazy State
+ // Preservation
+
+#define NVIC_FAULT_STAT_MSTKE 0x00000010 // Stack Access Violation
+#define NVIC_FAULT_STAT_MUSTKE 0x00000008 // Unstack Access Violation
+#define NVIC_FAULT_STAT_DERR 0x00000002 // Data Access Violation
+#define NVIC_FAULT_STAT_IERR 0x00000001 // Instruction Access Violation
+
+//*****************************************************************************
+//
+// The following are defines for the bit fields in the NVIC_HFAULT_STAT
+// register.
+//
+//*****************************************************************************
+#define NVIC_HFAULT_STAT_DBG 0x80000000 // Debug Event
+#define NVIC_HFAULT_STAT_FORCED 0x40000000 // Forced Hard Fault
+#define NVIC_HFAULT_STAT_VECT 0x00000002 // Vector Table Read Fault
+
+//*****************************************************************************
+//
+// The following are defines for the bit fields in the NVIC_DEBUG_STAT
+// register.
+//
+//*****************************************************************************
+#define NVIC_DEBUG_STAT_EXTRNL 0x00000010 // EDBGRQ asserted
+#define NVIC_DEBUG_STAT_VCATCH 0x00000008 // Vector catch
+#define NVIC_DEBUG_STAT_DWTTRAP 0x00000004 // DWT match
+#define NVIC_DEBUG_STAT_BKPT 0x00000002 // Breakpoint instruction
+#define NVIC_DEBUG_STAT_HALTED 0x00000001 // Halt request
+
+//*****************************************************************************
+//
+// The following are defines for the bit fields in the NVIC_MM_ADDR register.
+//
+//*****************************************************************************
+#define NVIC_MM_ADDR_M 0xFFFFFFFF // Fault Address
+#define NVIC_MM_ADDR_S 0
+
+//*****************************************************************************
+//
+// The following are defines for the bit fields in the NVIC_FAULT_ADDR
+// register.
+//
+//*****************************************************************************
+#define NVIC_FAULT_ADDR_M 0xFFFFFFFF // Fault Address
+#define NVIC_FAULT_ADDR_S 0
+
+//*****************************************************************************
+//
+// The following are defines for the bit fields in the NVIC_MPU_TYPE register.
+//
+//*****************************************************************************
+#define NVIC_MPU_TYPE_IREGION_M 0x00FF0000 // Number of I Regions
+#define NVIC_MPU_TYPE_DREGION_M 0x0000FF00 // Number of D Regions
+#define NVIC_MPU_TYPE_SEPARATE 0x00000001 // Separate or Unified MPU
+#define NVIC_MPU_TYPE_IREGION_S 16
+#define NVIC_MPU_TYPE_DREGION_S 8
+
+//*****************************************************************************
+//
+// The following are defines for the bit fields in the NVIC_MPU_CTRL register.
+//
+//*****************************************************************************
+#define NVIC_MPU_CTRL_PRIVDEFEN 0x00000004 // MPU Default Region
+#define NVIC_MPU_CTRL_HFNMIENA 0x00000002 // MPU Enabled During Faults
+#define NVIC_MPU_CTRL_ENABLE 0x00000001 // MPU Enable
+
+//*****************************************************************************
+//
+// The following are defines for the bit fields in the NVIC_MPU_NUMBER
+// register.
+//
+//*****************************************************************************
+#define NVIC_MPU_NUMBER_M 0x00000007 // MPU Region to Access
+#define NVIC_MPU_NUMBER_S 0
+
+//*****************************************************************************
+//
+// The following are defines for the bit fields in the NVIC_MPU_BASE register.
+//
+//*****************************************************************************
+#define NVIC_MPU_BASE_ADDR_M 0xFFFFFFE0 // Base Address Mask
+#define NVIC_MPU_BASE_VALID 0x00000010 // Region Number Valid
+#define NVIC_MPU_BASE_REGION_M 0x00000007 // Region Number
+#define NVIC_MPU_BASE_ADDR_S 5
+#define NVIC_MPU_BASE_REGION_S 0
+
+//*****************************************************************************
+//
+// The following are defines for the bit fields in the NVIC_MPU_ATTR register.
+//
+//*****************************************************************************
+#define NVIC_MPU_ATTR_M 0xFFFF0000 // Attributes
+#define NVIC_MPU_ATTR_XN 0x10000000 // Instruction Access Disable
+#define NVIC_MPU_ATTR_AP_M 0x07000000 // Access Privilege
+#define NVIC_MPU_ATTR_AP_NO_NO 0x00000000 // prv: no access, usr: no access
+#define NVIC_MPU_ATTR_AP_RW_NO 0x01000000 // prv: rw, usr: none
+#define NVIC_MPU_ATTR_AP_RW_RO 0x02000000 // prv: rw, usr: read-only
+#define NVIC_MPU_ATTR_AP_RW_RW 0x03000000 // prv: rw, usr: rw
+#define NVIC_MPU_ATTR_AP_RO_NO 0x05000000 // prv: ro, usr: none
+#define NVIC_MPU_ATTR_AP_RO_RO 0x06000000 // prv: ro, usr: ro
+#define NVIC_MPU_ATTR_TEX_M 0x00380000 // Type Extension Mask
+#define NVIC_MPU_ATTR_SHAREABLE 0x00040000 // Shareable
+#define NVIC_MPU_ATTR_CACHEABLE 0x00020000 // Cacheable
+#define NVIC_MPU_ATTR_BUFFRABLE 0x00010000 // Bufferable
+#define NVIC_MPU_ATTR_SRD_M 0x0000FF00 // Subregion Disable Bits
+#define NVIC_MPU_ATTR_SRD_0 0x00000100 // Sub-region 0 disable
+#define NVIC_MPU_ATTR_SRD_1 0x00000200 // Sub-region 1 disable
+#define NVIC_MPU_ATTR_SRD_2 0x00000400 // Sub-region 2 disable
+#define NVIC_MPU_ATTR_SRD_3 0x00000800 // Sub-region 3 disable
+#define NVIC_MPU_ATTR_SRD_4 0x00001000 // Sub-region 4 disable
+#define NVIC_MPU_ATTR_SRD_5 0x00002000 // Sub-region 5 disable
+#define NVIC_MPU_ATTR_SRD_6 0x00004000 // Sub-region 6 disable
+#define NVIC_MPU_ATTR_SRD_7 0x00008000 // Sub-region 7 disable
+#define NVIC_MPU_ATTR_SIZE_M 0x0000003E // Region Size Mask
+#define NVIC_MPU_ATTR_SIZE_32B 0x00000008 // Region size 32 bytes
+#define NVIC_MPU_ATTR_SIZE_64B 0x0000000A // Region size 64 bytes
+#define NVIC_MPU_ATTR_SIZE_128B 0x0000000C // Region size 128 bytes
+#define NVIC_MPU_ATTR_SIZE_256B 0x0000000E // Region size 256 bytes
+#define NVIC_MPU_ATTR_SIZE_512B 0x00000010 // Region size 512 bytes
+#define NVIC_MPU_ATTR_SIZE_1K 0x00000012 // Region size 1 Kbytes
+#define NVIC_MPU_ATTR_SIZE_2K 0x00000014 // Region size 2 Kbytes
+#define NVIC_MPU_ATTR_SIZE_4K 0x00000016 // Region size 4 Kbytes
+#define NVIC_MPU_ATTR_SIZE_8K 0x00000018 // Region size 8 Kbytes
+#define NVIC_MPU_ATTR_SIZE_16K 0x0000001A // Region size 16 Kbytes
+#define NVIC_MPU_ATTR_SIZE_32K 0x0000001C // Region size 32 Kbytes
+#define NVIC_MPU_ATTR_SIZE_64K 0x0000001E // Region size 64 Kbytes
+#define NVIC_MPU_ATTR_SIZE_128K 0x00000020 // Region size 128 Kbytes
+#define NVIC_MPU_ATTR_SIZE_256K 0x00000022 // Region size 256 Kbytes
+#define NVIC_MPU_ATTR_SIZE_512K 0x00000024 // Region size 512 Kbytes
+#define NVIC_MPU_ATTR_SIZE_1M 0x00000026 // Region size 1 Mbytes
+#define NVIC_MPU_ATTR_SIZE_2M 0x00000028 // Region size 2 Mbytes
+#define NVIC_MPU_ATTR_SIZE_4M 0x0000002A // Region size 4 Mbytes
+#define NVIC_MPU_ATTR_SIZE_8M 0x0000002C // Region size 8 Mbytes
+#define NVIC_MPU_ATTR_SIZE_16M 0x0000002E // Region size 16 Mbytes
+#define NVIC_MPU_ATTR_SIZE_32M 0x00000030 // Region size 32 Mbytes
+#define NVIC_MPU_ATTR_SIZE_64M 0x00000032 // Region size 64 Mbytes
+#define NVIC_MPU_ATTR_SIZE_128M 0x00000034 // Region size 128 Mbytes
+#define NVIC_MPU_ATTR_SIZE_256M 0x00000036 // Region size 256 Mbytes
+#define NVIC_MPU_ATTR_SIZE_512M 0x00000038 // Region size 512 Mbytes
+#define NVIC_MPU_ATTR_SIZE_1G 0x0000003A // Region size 1 Gbytes
+#define NVIC_MPU_ATTR_SIZE_2G 0x0000003C // Region size 2 Gbytes
+#define NVIC_MPU_ATTR_SIZE_4G 0x0000003E // Region size 4 Gbytes
+#define NVIC_MPU_ATTR_ENABLE 0x00000001 // Region Enable
+
+//*****************************************************************************
+//
+// The following are defines for the bit fields in the NVIC_MPU_BASE1 register.
+//
+//*****************************************************************************
+#define NVIC_MPU_BASE1_ADDR_M 0xFFFFFFE0 // Base Address Mask
+#define NVIC_MPU_BASE1_VALID 0x00000010 // Region Number Valid
+#define NVIC_MPU_BASE1_REGION_M 0x00000007 // Region Number
+#define NVIC_MPU_BASE1_ADDR_S 5
+#define NVIC_MPU_BASE1_REGION_S 0
+
+//*****************************************************************************
+//
+// The following are defines for the bit fields in the NVIC_MPU_ATTR1 register.
+//
+//*****************************************************************************
+#define NVIC_MPU_ATTR1_XN 0x10000000 // Instruction Access Disable
+#define NVIC_MPU_ATTR1_AP_M 0x07000000 // Access Privilege
+#define NVIC_MPU_ATTR1_TEX_M 0x00380000 // Type Extension Mask
+#define NVIC_MPU_ATTR1_SHAREABLE \
+ 0x00040000 // Shareable
+#define NVIC_MPU_ATTR1_CACHEABLE \
+ 0x00020000 // Cacheable
+#define NVIC_MPU_ATTR1_BUFFRABLE \
+ 0x00010000 // Bufferable
+#define NVIC_MPU_ATTR1_SRD_M 0x0000FF00 // Subregion Disable Bits
+#define NVIC_MPU_ATTR1_SIZE_M 0x0000003E // Region Size Mask
+#define NVIC_MPU_ATTR1_ENABLE 0x00000001 // Region Enable
+
+//*****************************************************************************
+//
+// The following are defines for the bit fields in the NVIC_MPU_BASE2 register.
+//
+//*****************************************************************************
+#define NVIC_MPU_BASE2_ADDR_M 0xFFFFFFE0 // Base Address Mask
+#define NVIC_MPU_BASE2_VALID 0x00000010 // Region Number Valid
+#define NVIC_MPU_BASE2_REGION_M 0x00000007 // Region Number
+#define NVIC_MPU_BASE2_ADDR_S 5
+#define NVIC_MPU_BASE2_REGION_S 0
+
+//*****************************************************************************
+//
+// The following are defines for the bit fields in the NVIC_MPU_ATTR2 register.
+//
+//*****************************************************************************
+#define NVIC_MPU_ATTR2_XN 0x10000000 // Instruction Access Disable
+#define NVIC_MPU_ATTR2_AP_M 0x07000000 // Access Privilege
+#define NVIC_MPU_ATTR2_TEX_M 0x00380000 // Type Extension Mask
+#define NVIC_MPU_ATTR2_SHAREABLE \
+ 0x00040000 // Shareable
+#define NVIC_MPU_ATTR2_CACHEABLE \
+ 0x00020000 // Cacheable
+#define NVIC_MPU_ATTR2_BUFFRABLE \
+ 0x00010000 // Bufferable
+#define NVIC_MPU_ATTR2_SRD_M 0x0000FF00 // Subregion Disable Bits
+#define NVIC_MPU_ATTR2_SIZE_M 0x0000003E // Region Size Mask
+#define NVIC_MPU_ATTR2_ENABLE 0x00000001 // Region Enable
+
+//*****************************************************************************
+//
+// The following are defines for the bit fields in the NVIC_MPU_BASE3 register.
+//
+//*****************************************************************************
+#define NVIC_MPU_BASE3_ADDR_M 0xFFFFFFE0 // Base Address Mask
+#define NVIC_MPU_BASE3_VALID 0x00000010 // Region Number Valid
+#define NVIC_MPU_BASE3_REGION_M 0x00000007 // Region Number
+#define NVIC_MPU_BASE3_ADDR_S 5
+#define NVIC_MPU_BASE3_REGION_S 0
+
+//*****************************************************************************
+//
+// The following are defines for the bit fields in the NVIC_MPU_ATTR3 register.
+//
+//*****************************************************************************
+#define NVIC_MPU_ATTR3_XN 0x10000000 // Instruction Access Disable
+#define NVIC_MPU_ATTR3_AP_M 0x07000000 // Access Privilege
+#define NVIC_MPU_ATTR3_TEX_M 0x00380000 // Type Extension Mask
+#define NVIC_MPU_ATTR3_SHAREABLE \
+ 0x00040000 // Shareable
+#define NVIC_MPU_ATTR3_CACHEABLE \
+ 0x00020000 // Cacheable
+#define NVIC_MPU_ATTR3_BUFFRABLE \
+ 0x00010000 // Bufferable
+#define NVIC_MPU_ATTR3_SRD_M 0x0000FF00 // Subregion Disable Bits
+#define NVIC_MPU_ATTR3_SIZE_M 0x0000003E // Region Size Mask
+#define NVIC_MPU_ATTR3_ENABLE 0x00000001 // Region Enable
+
+//*****************************************************************************
+//
+// The following are defines for the bit fields in the NVIC_DBG_CTRL register.
+//
+//*****************************************************************************
+#define NVIC_DBG_CTRL_DBGKEY_M 0xFFFF0000 // Debug key mask
+#define NVIC_DBG_CTRL_DBGKEY 0xA05F0000 // Debug key
+#define NVIC_DBG_CTRL_S_RESET_ST \
+ 0x02000000 // Core has reset since last read
+#define NVIC_DBG_CTRL_S_RETIRE_ST \
+ 0x01000000 // Core has executed insruction
+ // since last read
+#define NVIC_DBG_CTRL_S_LOCKUP 0x00080000 // Core is locked up
+#define NVIC_DBG_CTRL_S_SLEEP 0x00040000 // Core is sleeping
+#define NVIC_DBG_CTRL_S_HALT 0x00020000 // Core status on halt
+#define NVIC_DBG_CTRL_S_REGRDY 0x00010000 // Register read/write available
+#define NVIC_DBG_CTRL_C_SNAPSTALL \
+ 0x00000020 // Breaks a stalled load/store
+#define NVIC_DBG_CTRL_C_MASKINT 0x00000008 // Mask interrupts when stepping
+#define NVIC_DBG_CTRL_C_STEP 0x00000004 // Step the core
+#define NVIC_DBG_CTRL_C_HALT 0x00000002 // Halt the core
+#define NVIC_DBG_CTRL_C_DEBUGEN 0x00000001 // Enable debug
+
+//*****************************************************************************
+//
+// The following are defines for the bit fields in the NVIC_DBG_XFER register.
+//
+//*****************************************************************************
+#define NVIC_DBG_XFER_REG_WNR 0x00010000 // Write or not read
+#define NVIC_DBG_XFER_REG_SEL_M 0x0000001F // Register
+#define NVIC_DBG_XFER_REG_R0 0x00000000 // Register R0
+#define NVIC_DBG_XFER_REG_R1 0x00000001 // Register R1
+#define NVIC_DBG_XFER_REG_R2 0x00000002 // Register R2
+#define NVIC_DBG_XFER_REG_R3 0x00000003 // Register R3
+#define NVIC_DBG_XFER_REG_R4 0x00000004 // Register R4
+#define NVIC_DBG_XFER_REG_R5 0x00000005 // Register R5
+#define NVIC_DBG_XFER_REG_R6 0x00000006 // Register R6
+#define NVIC_DBG_XFER_REG_R7 0x00000007 // Register R7
+#define NVIC_DBG_XFER_REG_R8 0x00000008 // Register R8
+#define NVIC_DBG_XFER_REG_R9 0x00000009 // Register R9
+#define NVIC_DBG_XFER_REG_R10 0x0000000A // Register R10
+#define NVIC_DBG_XFER_REG_R11 0x0000000B // Register R11
+#define NVIC_DBG_XFER_REG_R12 0x0000000C // Register R12
+#define NVIC_DBG_XFER_REG_R13 0x0000000D // Register R13
+#define NVIC_DBG_XFER_REG_R14 0x0000000E // Register R14
+#define NVIC_DBG_XFER_REG_R15 0x0000000F // Register R15
+#define NVIC_DBG_XFER_REG_FLAGS 0x00000010 // xPSR/Flags register
+#define NVIC_DBG_XFER_REG_MSP 0x00000011 // Main SP
+#define NVIC_DBG_XFER_REG_PSP 0x00000012 // Process SP
+#define NVIC_DBG_XFER_REG_DSP 0x00000013 // Deep SP
+#define NVIC_DBG_XFER_REG_CFBP 0x00000014 // Control/Fault/BasePri/PriMask
+
+//*****************************************************************************
+//
+// The following are defines for the bit fields in the NVIC_DBG_DATA register.
+//
+//*****************************************************************************
+#define NVIC_DBG_DATA_M 0xFFFFFFFF // Data temporary cache
+#define NVIC_DBG_DATA_S 0
+
+//*****************************************************************************
+//
+// The following are defines for the bit fields in the NVIC_DBG_INT register.
+//
+//*****************************************************************************
+#define NVIC_DBG_INT_HARDERR 0x00000400 // Debug trap on hard fault
+#define NVIC_DBG_INT_INTERR 0x00000200 // Debug trap on interrupt errors
+#define NVIC_DBG_INT_BUSERR 0x00000100 // Debug trap on bus error
+#define NVIC_DBG_INT_STATERR 0x00000080 // Debug trap on usage fault state
+#define NVIC_DBG_INT_CHKERR 0x00000040 // Debug trap on usage fault check
+#define NVIC_DBG_INT_NOCPERR 0x00000020 // Debug trap on coprocessor error
+#define NVIC_DBG_INT_MMERR 0x00000010 // Debug trap on mem manage fault
+#define NVIC_DBG_INT_RESET 0x00000008 // Core reset status
+#define NVIC_DBG_INT_RSTPENDCLR 0x00000004 // Clear pending core reset
+#define NVIC_DBG_INT_RSTPENDING 0x00000002 // Core reset is pending
+#define NVIC_DBG_INT_RSTVCATCH 0x00000001 // Reset vector catch
+
+//*****************************************************************************
+//
+// The following are defines for the bit fields in the NVIC_SW_TRIG register.
+//
+//*****************************************************************************
+#define NVIC_SW_TRIG_INTID_M 0x0000003F // Interrupt ID
+
+#undef NVIC_SW_TRIG_INTID_M
+#define NVIC_SW_TRIG_INTID_M 0x000000FF // Interrupt ID
+
+#define NVIC_SW_TRIG_INTID_S 0
+
+#endif // __HW_NVIC_H__
diff --git a/cc3200/hal/inc/hw_ocp_shared.h b/cc3200/hal/inc/hw_ocp_shared.h
new file mode 100644
index 000000000..a52f6901b
--- /dev/null
+++ b/cc3200/hal/inc/hw_ocp_shared.h
@@ -0,0 +1,3445 @@
+//*****************************************************************************
+//
+// Copyright (C) 2014 Texas Instruments Incorporated - http://www.ti.com/
+//
+//
+// Redistribution and use in source and binary forms, with or without
+// modification, are permitted provided that the following conditions
+// are met:
+//
+// Redistributions of source code must retain the above copyright
+// notice, this list of conditions and the following disclaimer.
+//
+// Redistributions in binary form must reproduce the above copyright
+// notice, this list of conditions and the following disclaimer in the
+// documentation and/or other materials provided with the
+// distribution.
+//
+// Neither the name of Texas Instruments Incorporated nor the names of
+// its contributors may be used to endorse or promote products derived
+// from this software without specific prior written permission.
+//
+// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
+// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
+// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
+// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
+// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
+// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
+// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
+// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
+// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
+// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
+// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+//
+//*****************************************************************************
+
+#ifndef __HW_OCP_SHARED_H__
+#define __HW_OCP_SHARED_H__
+
+//*****************************************************************************
+//
+// The following are defines for the OCP_SHARED register offsets.
+//
+//*****************************************************************************
+#define OCP_SHARED_O_SEMAPHORE1 0x00000000
+#define OCP_SHARED_O_SEMAPHORE2 0x00000004
+#define OCP_SHARED_O_SEMAPHORE3 0x00000008
+#define OCP_SHARED_O_SEMAPHORE4 0x0000000C
+#define OCP_SHARED_O_SEMAPHORE5 0x00000010
+#define OCP_SHARED_O_SEMAPHORE6 0x00000014
+#define OCP_SHARED_O_SEMAPHORE7 0x00000018
+#define OCP_SHARED_O_SEMAPHORE8 0x0000001C
+#define OCP_SHARED_O_SEMAPHORE9 0x00000020
+#define OCP_SHARED_O_SEMAPHORE10 \
+ 0x00000024
+
+#define OCP_SHARED_O_SEMAPHORE11 \
+ 0x00000028
+
+#define OCP_SHARED_O_SEMAPHORE12 \
+ 0x0000002C
+
+#define OCP_SHARED_O_IC_LOCKER_ID \
+ 0x00000030
+
+#define OCP_SHARED_O_MCU_SEMAPHORE_PEND \
+ 0x00000034
+
+#define OCP_SHARED_O_WL_SEMAPHORE_PEND \
+ 0x00000038
+
+#define OCP_SHARED_O_PLATFORM_DETECTION_RD_ONLY \
+ 0x0000003C
+
+#define OCP_SHARED_O_SEMAPHORES_STATUS_RD_ONLY \
+ 0x00000040
+
+#define OCP_SHARED_O_CC3XX_CONFIG_CTRL \
+ 0x00000044
+
+#define OCP_SHARED_O_CC3XX_SHARED_MEM_SEL_LSB \
+ 0x00000048
+
+#define OCP_SHARED_O_CC3XX_SHARED_MEM_SEL_MSB \
+ 0x0000004C
+
+#define OCP_SHARED_O_WLAN_ELP_WAKE_EN \
+ 0x00000050
+
+#define OCP_SHARED_O_DEVINIT_ROM_START_ADDR \
+ 0x00000054
+
+#define OCP_SHARED_O_DEVINIT_ROM_END_ADDR \
+ 0x00000058
+
+#define OCP_SHARED_O_SSBD_SEED 0x0000005C
+#define OCP_SHARED_O_SSBD_CHK 0x00000060
+#define OCP_SHARED_O_SSBD_POLY_SEL \
+ 0x00000064
+
+#define OCP_SHARED_O_SPARE_REG_0 \
+ 0x00000068
+
+#define OCP_SHARED_O_SPARE_REG_1 \
+ 0x0000006C
+
+#define OCP_SHARED_O_SPARE_REG_2 \
+ 0x00000070
+
+#define OCP_SHARED_O_SPARE_REG_3 \
+ 0x00000074
+
+#define OCP_SHARED_O_GPIO_PAD_CONFIG_0 \
+ 0x000000A0
+
+#define OCP_SHARED_O_GPIO_PAD_CONFIG_1 \
+ 0x000000A4
+
+#define OCP_SHARED_O_GPIO_PAD_CONFIG_2 \
+ 0x000000A8
+
+#define OCP_SHARED_O_GPIO_PAD_CONFIG_3 \
+ 0x000000AC
+
+#define OCP_SHARED_O_GPIO_PAD_CONFIG_4 \
+ 0x000000B0
+
+#define OCP_SHARED_O_GPIO_PAD_CONFIG_5 \
+ 0x000000B4
+
+#define OCP_SHARED_O_GPIO_PAD_CONFIG_6 \
+ 0x000000B8
+
+#define OCP_SHARED_O_GPIO_PAD_CONFIG_7 \
+ 0x000000BC
+
+#define OCP_SHARED_O_GPIO_PAD_CONFIG_8 \
+ 0x000000C0
+
+#define OCP_SHARED_O_GPIO_PAD_CONFIG_9 \
+ 0x000000C4
+
+#define OCP_SHARED_O_GPIO_PAD_CONFIG_10 \
+ 0x000000C8
+
+#define OCP_SHARED_O_GPIO_PAD_CONFIG_11 \
+ 0x000000CC
+
+#define OCP_SHARED_O_GPIO_PAD_CONFIG_12 \
+ 0x000000D0
+
+#define OCP_SHARED_O_GPIO_PAD_CONFIG_13 \
+ 0x000000D4
+
+#define OCP_SHARED_O_GPIO_PAD_CONFIG_14 \
+ 0x000000D8
+
+#define OCP_SHARED_O_GPIO_PAD_CONFIG_15 \
+ 0x000000DC
+
+#define OCP_SHARED_O_GPIO_PAD_CONFIG_16 \
+ 0x000000E0
+
+#define OCP_SHARED_O_GPIO_PAD_CONFIG_17 \
+ 0x000000E4
+
+#define OCP_SHARED_O_GPIO_PAD_CONFIG_18 \
+ 0x000000E8
+
+#define OCP_SHARED_O_GPIO_PAD_CONFIG_19 \
+ 0x000000EC
+
+#define OCP_SHARED_O_GPIO_PAD_CONFIG_20 \
+ 0x000000F0
+
+#define OCP_SHARED_O_GPIO_PAD_CONFIG_21 \
+ 0x000000F4
+
+#define OCP_SHARED_O_GPIO_PAD_CONFIG_22 \
+ 0x000000F8
+
+#define OCP_SHARED_O_GPIO_PAD_CONFIG_23 \
+ 0x000000FC
+
+#define OCP_SHARED_O_GPIO_PAD_CONFIG_24 \
+ 0x00000100
+
+#define OCP_SHARED_O_GPIO_PAD_CONFIG_25 \
+ 0x00000104
+
+#define OCP_SHARED_O_GPIO_PAD_CONFIG_26 \
+ 0x00000108
+
+#define OCP_SHARED_O_GPIO_PAD_CONFIG_27 \
+ 0x0000010C
+
+#define OCP_SHARED_O_GPIO_PAD_CONFIG_28 \
+ 0x00000110
+
+#define OCP_SHARED_O_GPIO_PAD_CONFIG_29 \
+ 0x00000114
+
+#define OCP_SHARED_O_GPIO_PAD_CONFIG_30 \
+ 0x00000118
+
+#define OCP_SHARED_O_GPIO_PAD_CONFIG_31 \
+ 0x0000011C
+
+#define OCP_SHARED_O_GPIO_PAD_CONFIG_32 \
+ 0x00000120
+
+#define OCP_SHARED_O_GPIO_PAD_CONFIG_33 \
+ 0x00000124
+
+#define OCP_SHARED_O_GPIO_PAD_CONFIG_34 \
+ 0x00000128
+
+#define OCP_SHARED_O_GPIO_PAD_CONFIG_35 \
+ 0x0000012C
+
+#define OCP_SHARED_O_GPIO_PAD_CONFIG_36 \
+ 0x00000130
+
+#define OCP_SHARED_O_GPIO_PAD_CONFIG_37 \
+ 0x00000134
+
+#define OCP_SHARED_O_GPIO_PAD_CONFIG_38 \
+ 0x00000138
+
+#define OCP_SHARED_O_GPIO_PAD_CONFIG_39 \
+ 0x0000013C
+
+#define OCP_SHARED_O_GPIO_PAD_CONFIG_40 \
+ 0x00000140
+
+#define OCP_SHARED_O_GPIO_PAD_CMN_CONFIG \
+ 0x00000144 // This register provide control to
+ // GPIO_CC3XXV1 IO PAD. Common
+ // control signals to all bottom Die
+ // IO's are controlled via this.
+
+#define OCP_SHARED_O_D2D_DEV_PAD_CMN_CONFIG \
+ 0x00000148
+
+#define OCP_SHARED_O_D2D_TOSTACK_PAD_CONF \
+ 0x0000014C
+
+#define OCP_SHARED_O_D2D_MISC_PAD_CONF \
+ 0x00000150
+
+#define OCP_SHARED_O_SOP_CONF_OVERRIDE \
+ 0x00000154
+
+#define OCP_SHARED_O_CC3XX_DEBUGSS_STATUS \
+ 0x00000158
+
+#define OCP_SHARED_O_CC3XX_DEBUGMUX_SEL \
+ 0x0000015C
+
+#define OCP_SHARED_O_ALT_PC_VAL_NW \
+ 0x00000160
+
+#define OCP_SHARED_O_ALT_PC_VAL_APPS \
+ 0x00000164
+
+#define OCP_SHARED_O_SPARE_REG_4 \
+ 0x00000168
+
+#define OCP_SHARED_O_SPARE_REG_5 \
+ 0x0000016C
+
+#define OCP_SHARED_O_SH_SPI_CS_MASK \
+ 0x00000170
+
+#define OCP_SHARED_O_CC3XX_DEVICE_TYPE \
+ 0x00000174
+
+#define OCP_SHARED_O_MEM_TOPMUXCTRL_IFORCE \
+ 0x00000178
+
+#define OCP_SHARED_O_CC3XX_DEV_PACKAGE_DETECT \
+ 0x0000017C
+
+#define OCP_SHARED_O_AUTONMS_SPICLK_SEL \
+ 0x00000180
+
+#define OCP_SHARED_O_CC3XX_DEV_PADCONF \
+ 0x00000184
+
+#define OCP_SHARED_O_SPARE_REG_8 \
+ 0x00000188
+
+#define OCP_SHARED_O_SPARE_REG_6 \
+ 0x0000018C
+
+#define OCP_SHARED_O_SPARE_REG_7 \
+ 0x00000190
+
+#define OCP_SHARED_O_APPS_WLAN_ORBIT \
+ 0x00000194
+
+#define OCP_SHARED_O_APPS_WLAN_SCRATCH_PAD \
+ 0x00000198
+
+
+
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// OCP_SHARED_O_SEMAPHORE1 register.
+//
+//******************************************************************************
+#define OCP_SHARED_SEMAPHORE1_MEM_SEMAPHORE1_M \
+ 0x00000003 // General Purpose Semaphore for SW
+ // Usage. If any of the 2 bits of a
+ // given register is set to 1, it
+ // means that the semaphore is
+ // locked by one of the masters.
+ // Each bit represents a master IP
+ // as follows: {WLAN,NWP}. The JTAG
+ // cannot capture the semaphore but
+ // it can release it. As a master IP
+ // reads the semaphore, it will be
+ // caputed and the masters
+ // correlating bit will be set to 1
+ // (set upon read). As any IP writes
+ // to this address (independent of
+ // the written data) the semaphore
+ // will be set to 2'b00.
+
+#define OCP_SHARED_SEMAPHORE1_MEM_SEMAPHORE1_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// OCP_SHARED_O_SEMAPHORE2 register.
+//
+//******************************************************************************
+#define OCP_SHARED_SEMAPHORE2_MEM_SEMAPHORE2_M \
+ 0x00000003 // General Purpose Semaphore for SW
+ // Usage. If any of the 2 bits of a
+ // given register is set to 1, it
+ // means that the semaphore is
+ // locked by one of the masters.
+ // Each bit represents a master IP
+ // as follows: {WLAN,NWP}. The JTAG
+ // cannot capture the semaphore but
+ // it can release it. As a master IP
+ // reads the semaphore, it will be
+ // caputed and the masters
+ // correlating bit will be set to 1
+ // (set upon read). As any IP writes
+ // to this address (independent of
+ // the written data) the semaphore
+ // will be set to 2'b00.
+
+#define OCP_SHARED_SEMAPHORE2_MEM_SEMAPHORE2_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// OCP_SHARED_O_SEMAPHORE3 register.
+//
+//******************************************************************************
+#define OCP_SHARED_SEMAPHORE3_MEM_SEMAPHORE3_M \
+ 0x00000003 // General Purpose Semaphore for SW
+ // Usage. If any of the 2 bits of a
+ // given register is set to 1, it
+ // means that the semaphore is
+ // locked by one of the masters.
+ // Each bit represents a master IP
+ // as follows: {WLAN,NWP}. The JTAG
+ // cannot capture the semaphore but
+ // it can release it. As a master IP
+ // reads the semaphore, it will be
+ // caputed and the masters
+ // correlating bit will be set to 1
+ // (set upon read). As any IP writes
+ // to this address (independent of
+ // the written data) the semaphore
+ // will be set to 2'b00.
+
+#define OCP_SHARED_SEMAPHORE3_MEM_SEMAPHORE3_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// OCP_SHARED_O_SEMAPHORE4 register.
+//
+//******************************************************************************
+#define OCP_SHARED_SEMAPHORE4_MEM_SEMAPHORE4_M \
+ 0x00000003 // General Purpose Semaphore for SW
+ // Usage. If any of the 2 bits of a
+ // given register is set to 1, it
+ // means that the semaphore is
+ // locked by one of the masters.
+ // Each bit represents a master IP
+ // as follows: {WLAN,NWP}. The JTAG
+ // cannot capture the semaphore but
+ // it can release it. As a master IP
+ // reads the semaphore, it will be
+ // caputed and the masters
+ // correlating bit will be set to 1
+ // (set upon read). As any IP writes
+ // to this address (independent of
+ // the written data) the semaphore
+ // will be set to 2'b00.
+
+#define OCP_SHARED_SEMAPHORE4_MEM_SEMAPHORE4_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// OCP_SHARED_O_SEMAPHORE5 register.
+//
+//******************************************************************************
+#define OCP_SHARED_SEMAPHORE5_MEM_SEMAPHORE5_M \
+ 0x00000003 // General Purpose Semaphore for SW
+ // Usage. If any of the 2 bits of a
+ // given register is set to 1, it
+ // means that the semaphore is
+ // locked by one of the masters.
+ // Each bit represents a master IP
+ // as follows: {WLAN,NWP}. The JTAG
+ // cannot capture the semaphore but
+ // it can release it. As a master IP
+ // reads the semaphore, it will be
+ // caputed and the masters
+ // correlating bit will be set to 1
+ // (set upon read). As any IP writes
+ // to this address (independent of
+ // the written data) the semaphore
+ // will be set to 2'b00.
+
+#define OCP_SHARED_SEMAPHORE5_MEM_SEMAPHORE5_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// OCP_SHARED_O_SEMAPHORE6 register.
+//
+//******************************************************************************
+#define OCP_SHARED_SEMAPHORE6_MEM_SEMAPHORE6_M \
+ 0x00000003 // General Purpose Semaphore for SW
+ // Usage. If any of the 2 bits of a
+ // given register is set to 1, it
+ // means that the semaphore is
+ // locked by one of the masters.
+ // Each bit represents a master IP
+ // as follows: {WLAN,NWP}. The JTAG
+ // cannot capture the semaphore but
+ // it can release it. As a master IP
+ // reads the semaphore, it will be
+ // caputed and the masters
+ // correlating bit will be set to 1
+ // (set upon read). As any IP writes
+ // to this address (independent of
+ // the written data) the semaphore
+ // will be set to 2'b00.
+
+#define OCP_SHARED_SEMAPHORE6_MEM_SEMAPHORE6_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// OCP_SHARED_O_SEMAPHORE7 register.
+//
+//******************************************************************************
+#define OCP_SHARED_SEMAPHORE7_MEM_SEMAPHORE7_M \
+ 0x00000003 // General Purpose Semaphore for SW
+ // Usage. If any of the 2 bits of a
+ // given register is set to 1, it
+ // means that the semaphore is
+ // locked by one of the masters.
+ // Each bit represents a master IP
+ // as follows: {WLAN,NWP}. The JTAG
+ // cannot capture the semaphore but
+ // it can release it. As a master IP
+ // reads the semaphore, it will be
+ // caputed and the masters
+ // correlating bit will be set to 1
+ // (set upon read). As any IP writes
+ // to this address (independent of
+ // the written data) the semaphore
+ // will be set to 2'b00.
+
+#define OCP_SHARED_SEMAPHORE7_MEM_SEMAPHORE7_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// OCP_SHARED_O_SEMAPHORE8 register.
+//
+//******************************************************************************
+#define OCP_SHARED_SEMAPHORE8_MEM_SEMAPHORE8_M \
+ 0x00000003 // General Purpose Semaphore for SW
+ // Usage. If any of the 2 bits of a
+ // given register is set to 1, it
+ // means that the semaphore is
+ // locked by one of the masters.
+ // Each bit represents a master IP
+ // as follows: {WLAN,NWP}. The JTAG
+ // cannot capture the semaphore but
+ // it can release it. As a master IP
+ // reads the semaphore, it will be
+ // caputed and the masters
+ // correlating bit will be set to 1
+ // (set upon read). As any IP writes
+ // to this address (independent of
+ // the written data) the semaphore
+ // will be set to 2'b00.
+
+#define OCP_SHARED_SEMAPHORE8_MEM_SEMAPHORE8_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// OCP_SHARED_O_SEMAPHORE9 register.
+//
+//******************************************************************************
+#define OCP_SHARED_SEMAPHORE9_MEM_SEMAPHORE9_M \
+ 0x00000003 // General Purpose Semaphore for SW
+ // Usage. If any of the 2 bits of a
+ // given register is set to 1, it
+ // means that the semaphore is
+ // locked by one of the masters.
+ // Each bit represents a master IP
+ // as follows: {WLAN,NWP}. The JTAG
+ // cannot capture the semaphore but
+ // it can release it. As a master IP
+ // reads the semaphore, it will be
+ // caputed and the masters
+ // correlating bit will be set to 1
+ // (set upon read). As any IP writes
+ // to this address (independent of
+ // the written data) the semaphore
+ // will be set to 2'b00.
+
+#define OCP_SHARED_SEMAPHORE9_MEM_SEMAPHORE9_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// OCP_SHARED_O_SEMAPHORE10 register.
+//
+//******************************************************************************
+#define OCP_SHARED_SEMAPHORE10_MEM_SEMAPHORE10_M \
+ 0x00000003 // General Purpose Semaphore for SW
+ // Usage. If any of the 2 bits of a
+ // given register is set to 1, it
+ // means that the semaphore is
+ // locked by one of the masters.
+ // Each bit represents a master IP
+ // as follows: {WLAN,NWP}. The JTAG
+ // cannot capture the semaphore but
+ // it can release it. As a master IP
+ // reads the semaphore, it will be
+ // caputed and the masters
+ // correlating bit will be set to 1
+ // (set upon read). As any IP writes
+ // to this address (independent of
+ // the written data) the semaphore
+ // will be set to 2'b00.
+
+#define OCP_SHARED_SEMAPHORE10_MEM_SEMAPHORE10_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// OCP_SHARED_O_SEMAPHORE11 register.
+//
+//******************************************************************************
+#define OCP_SHARED_SEMAPHORE11_MEM_SEMAPHORE11_M \
+ 0x00000003 // General Purpose Semaphore for SW
+ // Usage. If any of the 2 bits of a
+ // given register is set to 1, it
+ // means that the semaphore is
+ // locked by one of the masters.
+ // Each bit represents a master IP
+ // as follows: {WLAN,NWP}. The JTAG
+ // cannot capture the semaphore but
+ // it can release it. As a master IP
+ // reads the semaphore, it will be
+ // caputed and the masters
+ // correlating bit will be set to 1
+ // (set upon read). As any IP writes
+ // to this address (independent of
+ // the written data) the semaphore
+ // will be set to 2'b00.
+
+#define OCP_SHARED_SEMAPHORE11_MEM_SEMAPHORE11_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// OCP_SHARED_O_SEMAPHORE12 register.
+//
+//******************************************************************************
+#define OCP_SHARED_SEMAPHORE12_MEM_SEMAPHORE12_M \
+ 0x00000003 // General Purpose Semaphore for SW
+ // Usage. If any of the 2 bits of a
+ // given register is set to 1, it
+ // means that the semaphore is
+ // locked by one of the masters.
+ // Each bit represents a master IP
+ // as follows: {WLAN,NWP}. The JTAG
+ // cannot capture the semaphore but
+ // it can release it. As a master IP
+ // reads the semaphore, it will be
+ // caputed and the masters
+ // correlating bit will be set to 1
+ // (set upon read). As any IP writes
+ // to this address (independent of
+ // the written data) the semaphore
+ // will be set to 2'b00.
+
+#define OCP_SHARED_SEMAPHORE12_MEM_SEMAPHORE12_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// OCP_SHARED_O_IC_LOCKER_ID register.
+//
+//******************************************************************************
+#define OCP_SHARED_IC_LOCKER_ID_MEM_IC_LOCKER_ID_M \
+ 0x00000007 // This register is used for
+ // allowing only one master OCP to
+ // perform write transactions to the
+ // OCP slaves. Each bit represents
+ // an IP in the following format: {
+ // JTAG,WLAN, NWP mcu}. As any of
+ // the bits is set to one, the
+ // correlating IP is preventing the
+ // other IP's from performing write
+ // transactions to the slaves. As
+ // the Inter Connect is locked, the
+ // only the locking IP can write to
+ // the register and by that
+ // releasing the lock. 3'b000 => IC
+ // is not locked. 3'b001 => IC is
+ // locked by NWP mcu. 3'b010 => IC
+ // is locked by WLAN. 3'b100 => IC
+ // is locked by JTAG.
+
+#define OCP_SHARED_IC_LOCKER_ID_MEM_IC_LOCKER_ID_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// OCP_SHARED_O_MCU_SEMAPHORE_PEND register.
+//
+//******************************************************************************
+#define OCP_SHARED_MCU_SEMAPHORE_PEND_MEM_MCU_SEMAPHORE_PEND_M \
+ 0x0000FFFF // This register specifies the
+ // semaphore for which the NWP mcu
+ // is waiting to be released. It is
+ // set to the serial number of a
+ // given locked semaphore after it
+ // was read by the NWP mcu. Only
+ // [11:0] is used.
+
+#define OCP_SHARED_MCU_SEMAPHORE_PEND_MEM_MCU_SEMAPHORE_PEND_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// OCP_SHARED_O_WL_SEMAPHORE_PEND register.
+//
+//******************************************************************************
+#define OCP_SHARED_WL_SEMAPHORE_PEND_MEM_WL_SEMAPHORE_PEND_M \
+ 0x0000FFFF // This register specifies the
+ // semaphore for which the WLAN is
+ // waiting to be released. It is set
+ // to the serial number of a given
+ // locked semaphore after it was
+ // read by the WLAN. Only [11:0] is
+ // used.
+
+#define OCP_SHARED_WL_SEMAPHORE_PEND_MEM_WL_SEMAPHORE_PEND_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// OCP_SHARED_O_PLATFORM_DETECTION_RD_ONLY register.
+//
+//******************************************************************************
+#define OCP_SHARED_PLATFORM_DETECTION_RD_ONLY_PLATFORM_DETECTION_M \
+ 0x0000FFFF // This information serves the IPs
+ // for knowing in which platform are
+ // they integrated at: 0 = CC31XX.
+
+#define OCP_SHARED_PLATFORM_DETECTION_RD_ONLY_PLATFORM_DETECTION_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// OCP_SHARED_O_SEMAPHORES_STATUS_RD_ONLY register.
+//
+//******************************************************************************
+#define OCP_SHARED_SEMAPHORES_STATUS_RD_ONLY_SEMAPHORES_STATUS_M \
+ 0x00000FFF // Captured/released semaphores
+ // status for the 12 semaphores.
+ // Each bit of the 12 bits
+ // represents a semaphore. 0 =>
+ // Semaphore Free. 1 => Semaphore
+ // Captured.
+
+#define OCP_SHARED_SEMAPHORES_STATUS_RD_ONLY_SEMAPHORES_STATUS_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// OCP_SHARED_O_CC3XX_CONFIG_CTRL register.
+//
+//******************************************************************************
+#define OCP_SHARED_CC3XX_CONFIG_CTRL_MEM_IC_TO_EN \
+ 0x00000010 // This bit is used to enable
+ // timeout mechanism for top_ocp_ic
+ // (for debug puropse). When 1 value
+ // , in case any ocp slave doesn't
+ // give sresponse within 16 cylcles
+ // top_ic will give error response
+ // itself to avoid bus hange.
+
+#define OCP_SHARED_CC3XX_CONFIG_CTRL_MEM_ALT_PC_EN_APPS \
+ 0x00000008 // 1 bit should be accessible only
+ // in devinit. This will enable 0x4
+ // hack for apps processor
+
+#define OCP_SHARED_CC3XX_CONFIG_CTRL_MEM_ALT_PC_EN_NW \
+ 0x00000004 // 1 bit, should be accessible only
+ // in devinit. This will enable 0x4
+ // hack for nw processor
+
+#define OCP_SHARED_CC3XX_CONFIG_CTRL_MEM_EXTEND_NW_ROM \
+ 0x00000002 // When set NW can take over apps
+ // rom and flash via IDCODE bus.
+ // Apps will able to access this
+ // register only during devinit and
+ // reset value should be 0.
+
+#define OCP_SHARED_CC3XX_CONFIG_CTRL_MEM_WLAN_HOST_INTF_SEL \
+ 0x00000001 // When this bit is set to 0 WPSI
+ // host interface wil be selected,
+ // when this bit is set to 1 , WLAN
+ // host async bridge will be
+ // selected.
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// OCP_SHARED_O_CC3XX_SHARED_MEM_SEL_LSB register.
+//
+//******************************************************************************
+#define OCP_SHARED_CC3XX_SHARED_MEM_SEL_LSB_MEM_SHARED_MEM_SEL_LSB_M \
+ 0x3FFFFFFF // This register provides memss RAM
+ // column configuration for column 0
+ // to 9. 3 bits are allocated per
+ // column. This register is required
+ // to be configured before starting
+ // RAM access. Changing register
+ // setting while code is running
+ // will result into unpredictable
+ // memory behaviour. Register is
+ // supported to configured ones
+ // after core is booted up. 3 bit
+ // encoding per column is as
+ // follows: when 000 : WLAN, 001:
+ // NWP, 010: APPS, 011: PHY, 100:
+ // OCLA column 0 select: bit [2:0]
+ // :when 000 -> WLAN,001 -> NWP,010
+ // -> APPS, 011 -> PHY, 100 -> OCLA
+ // column 1 select: bit [5:3]
+ // :column 2 select: bit [8 : 6]:
+ // column 3 select : bit [11: 9]
+ // column 4 select : bit [14:12]
+ // column 5 select : bit [17:15]
+ // column 6 select : bit [20:18]
+ // column 7 select : bit [23:21]
+ // column 8 select : bit [26:24]
+ // column 9 select : bit [29:27]
+ // column 10 select
+
+#define OCP_SHARED_CC3XX_SHARED_MEM_SEL_LSB_MEM_SHARED_MEM_SEL_LSB_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// OCP_SHARED_O_CC3XX_SHARED_MEM_SEL_MSB register.
+//
+//******************************************************************************
+#define OCP_SHARED_CC3XX_SHARED_MEM_SEL_MSB_MEM_SHARED_MEM_SEL_MSB_M \
+ 0x00000FFF // This register provides memss RAM
+ // column configuration for column
+ // 10 to 15. 3 bits are allocated
+ // per column. This register is
+ // required to be configured before
+ // starting RAM access. Changing
+ // register setting while code is
+ // running will result into
+ // unpredictable memory behaviour.
+ // Register is supported to
+ // configured ones after core is
+ // booted up. 3 bit encoding per
+ // column is as follows: when 000 :
+ // WLAN, 001: NWP, 010: APPS, 011:
+ // PHY, 100: OCLA column 11 select :
+ // bit [2:0] column 12 select : bit
+ // [5:3] column 13 select : bit [8 :
+ // 6] column 14 select :
+
+#define OCP_SHARED_CC3XX_SHARED_MEM_SEL_MSB_MEM_SHARED_MEM_SEL_MSB_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// OCP_SHARED_O_WLAN_ELP_WAKE_EN register.
+//
+//******************************************************************************
+#define OCP_SHARED_WLAN_ELP_WAKE_EN_MEM_WLAN_ELP_WAKE_EN \
+ 0x00000001 // when '1' : signal will enabled
+ // ELP power doamin when '0': ELP is
+ // not powered up.
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// OCP_SHARED_O_DEVINIT_ROM_START_ADDR register.
+//
+//******************************************************************************
+#define OCP_SHARED_DEVINIT_ROM_START_ADDR_MEM_DEVINIT_ROM_START_ADDR_M \
+ 0xFFFFFFFF // 32 bit, Writable only during
+ // devinit, and whole 32 bit should
+ // be output of the config register
+ // module. This register is not used
+ // , similar register availble in
+ // GPRCM space.
+
+#define OCP_SHARED_DEVINIT_ROM_START_ADDR_MEM_DEVINIT_ROM_START_ADDR_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// OCP_SHARED_O_DEVINIT_ROM_END_ADDR register.
+//
+//******************************************************************************
+#define OCP_SHARED_DEVINIT_ROM_END_ADDR_MEM_DEVINIT_ROM_END_ADDR_M \
+ 0xFFFFFFFF // 32 bit, Writable only during
+ // devinit, and whole 32 bit should
+ // be output of the config register
+ // module.
+
+#define OCP_SHARED_DEVINIT_ROM_END_ADDR_MEM_DEVINIT_ROM_END_ADDR_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// OCP_SHARED_O_SSBD_SEED register.
+//
+//******************************************************************************
+#define OCP_SHARED_SSBD_SEED_MEM_SSBD_SEED_M \
+ 0xFFFFFFFF // 32 bit, Writable only during
+ // devinit, and whole 32 bit should
+ // be output of the config register
+ // module.
+
+#define OCP_SHARED_SSBD_SEED_MEM_SSBD_SEED_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// OCP_SHARED_O_SSBD_CHK register.
+//
+//******************************************************************************
+#define OCP_SHARED_SSBD_CHK_MEM_SSBD_CHK_M \
+ 0xFFFFFFFF // 32 bit, Writable only during
+ // devinit, and whole 32 bit should
+ // be output of the config register
+ // module.
+
+#define OCP_SHARED_SSBD_CHK_MEM_SSBD_CHK_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// OCP_SHARED_O_SSBD_POLY_SEL register.
+//
+//******************************************************************************
+#define OCP_SHARED_SSBD_POLY_SEL_MEM_SSBD_POLY_SEL_M \
+ 0x00000003 // 2 bit, Writable only during
+ // devinit, and whole 2 bit should
+ // be output of the config register
+ // module.
+
+#define OCP_SHARED_SSBD_POLY_SEL_MEM_SSBD_POLY_SEL_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// OCP_SHARED_O_SPARE_REG_0 register.
+//
+//******************************************************************************
+#define OCP_SHARED_SPARE_REG_0_MEM_SPARE_REG_0_M \
+ 0xFFFFFFFF // Devinit code should look for
+ // whether corresponding fuse is
+ // blown and if blown write to the
+ // 11th bit of this register to
+ // disable flshtst interface
+
+#define OCP_SHARED_SPARE_REG_0_MEM_SPARE_REG_0_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// OCP_SHARED_O_SPARE_REG_1 register.
+//
+//******************************************************************************
+#define OCP_SHARED_SPARE_REG_1_MEM_SPARE_REG_1_M \
+ 0xFFFFFFFF // NWP Software register
+
+#define OCP_SHARED_SPARE_REG_1_MEM_SPARE_REG_1_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// OCP_SHARED_O_SPARE_REG_2 register.
+//
+//******************************************************************************
+#define OCP_SHARED_SPARE_REG_2_MEM_SPARE_REG_2_M \
+ 0xFFFFFFFF // NWP Software register
+
+#define OCP_SHARED_SPARE_REG_2_MEM_SPARE_REG_2_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// OCP_SHARED_O_SPARE_REG_3 register.
+//
+//******************************************************************************
+#define OCP_SHARED_SPARE_REG_3_MEM_SPARE_REG_3_M \
+ 0xFFFFFFFF // APPS Software register
+
+#define OCP_SHARED_SPARE_REG_3_MEM_SPARE_REG_3_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// OCP_SHARED_O_GPIO_PAD_CONFIG_0 register.
+//
+//******************************************************************************
+#define OCP_SHARED_GPIO_PAD_CONFIG_0_MEM_GPIO_PAD_CONFIG_0_M \
+ 0x00000FFF // GPIO 0 register: "Bit 0 - 3 is
+ // used for PAD IO mode selection.
+ // io_register={ "" 0 =>
+ // """"CONFMODE[0]"""""" "" 1 =>
+ // """"CONFMODE[1]"""""" "" 2 =>
+ // """"CONFMODE[2]"""""" "" 3 =>
+ // """"CONFMODE[3]"""" 4 =>
+ // """"IODEN"""" --> When level ‘1’
+ // this disables the PMOS xtors of
+ // the output stages making them
+ // open-drain type." "For example in
+ // case of I2C Value gets latched at
+ // rising edge of RET33.""" """ 5 =>
+ // """"I2MAEN"""" --> Level ‘1’
+ // enables the approx 2mA output
+ // stage""" """ 6 => """"I4MAEN""""
+ // --> Level ‘1’ enables the approx
+ // 4mA output stage""" """ 7 =>
+ // """"I8MAEN"""" --> Level ‘1’
+ // enables the approx 8mA output
+ // stage. Note: any drive strength
+ // between 2mA and 14mA can be
+ // obtained with combination of 2mA
+ // 4mA and 8mA.""" """ 8 =>
+ // """"IWKPUEN"""" --> 10uA pull up
+ // (weak strength)""" """ 9 =>
+ // """"IWKPDEN"""" --> 10uA pull
+ // down (weak strength)""" """ 10 =>
+ // """"IOE_N"""" --> output enable
+ // value. level ‘0’ enables the IDO
+ // to PAD path. Else PAD is
+ // tristated (except for the PU/PD
+ // which are independent)." "Value
+ // gets latched at rising edge of
+ // RET33""" """ 11 =>""""
+ // IOE_N_OV"""" --> output enable
+ // overirde. when bit is set to
+ // logic '1' IOE_N (bit 4) value
+ // will control IO IOE_N signal else
+ // IOE_N is control via selected HW
+ // logic. strong PULL UP and PULL
+ // Down control is disabled for all
+ // IO's. both controls are tied to
+ // logic level '0'.
+
+#define OCP_SHARED_GPIO_PAD_CONFIG_0_MEM_GPIO_PAD_CONFIG_0_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// OCP_SHARED_O_GPIO_PAD_CONFIG_1 register.
+//
+//******************************************************************************
+#define OCP_SHARED_GPIO_PAD_CONFIG_1_MEM_GPIO_PAD_CONFIG_1_M \
+ 0x00000FFF // GPIO 0 register: "Bit 0 - 3 is
+ // used for PAD IO mode selection.
+ // io_register={ "" 0 =>
+ // """"CONFMODE[0]"""""" "" 1 =>
+ // """"CONFMODE[1]"""""" "" 2 =>
+ // """"CONFMODE[2]"""""" "" 3 =>
+ // """"CONFMODE[3]"""" 4 =>
+ // """"IODEN"""" --> When level ‘1’
+ // this disables the PMOS xtors of
+ // the output stages making them
+ // open-drain type." it can be used
+ // for I2C type of peripherals. 5 =>
+ // """"I2MAEN"""" --> Level ‘1’
+ // enables the approx 2mA output
+ // stage""" """ 6 => """"I4MAEN""""
+ // --> Level ‘1’ enables the approx
+ // 4mA output stage""" """ 7 =>
+ // """"I8MAEN"""" --> Level ‘1’
+ // enables the approx 8mA output
+ // stage. Note: any drive strength
+ // between 2mA and 14mA can be
+ // obtained with combination of 2mA
+ // 4mA and 8mA.""" """ 8 =>
+ // """"IWKPUEN"""" --> 10uA pull up
+ // (weak strength)""" """ 9 =>
+ // """"IWKPDEN"""" --> 10uA pull
+ // down (weak strength)""" """ 10 =>
+ // """"IOE_N"""" --> output enable
+ // value. level ‘0’ enables the IDO
+ // to PAD path. Else PAD is
+ // tristated (except for the PU/PD
+ // which are independent)." "Value
+ // gets latched at rising edge of
+ // RET33""" """ 11 =>""""
+ // IOE_N_OV"""" --> output enable
+ // overirde. when bit is set to
+ // logic '1' IOE_N (bit 4) value
+ // will control IO IOE_N signal else
+ // IOE_N is control via selected HW
+ // logic. strong PULL UP and PULL
+ // Down control is disabled for all
+ // IO's. both controls are tied to
+ // logic level '0'.
+
+#define OCP_SHARED_GPIO_PAD_CONFIG_1_MEM_GPIO_PAD_CONFIG_1_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// OCP_SHARED_O_GPIO_PAD_CONFIG_2 register.
+//
+//******************************************************************************
+#define OCP_SHARED_GPIO_PAD_CONFIG_2_MEM_GPIO_PAD_CONFIG_2_M \
+ 0x00000FFF // GPIO 0 register: "Bit 0 - 3 is
+ // used for PAD IO mode selection.
+ // io_register={ "" 0 =>
+ // """"CONFMODE[0]"""""" "" 1 =>
+ // """"CONFMODE[1]"""""" "" 2 =>
+ // """"CONFMODE[2]"""""" "" 3 =>
+ // """"CONFMODE[3]"""" 4 =>
+ // """"IODEN"""" --> When level ‘1’
+ // this disables the PMOS xtors of
+ // the output stages making them
+ // open-drain type." it can be used
+ // for I2C type of peripherals. 5 =>
+ // """"I2MAEN"""" --> Level ‘1’
+ // enables the approx 2mA output
+ // stage""" """ 6 => """"I4MAEN""""
+ // --> Level ‘1’ enables the approx
+ // 4mA output stage""" """ 7 =>
+ // """"I8MAEN"""" --> Level ‘1’
+ // enables the approx 8mA output
+ // stage. Note: any drive strength
+ // between 2mA and 14mA can be
+ // obtained with combination of 2mA
+ // 4mA and 8mA.""" """ 8 =>
+ // """"IWKPUEN"""" --> 10uA pull up
+ // (weak strength)""" """ 9 =>
+ // """"IWKPDEN"""" --> 10uA pull
+ // down (weak strength)""" """ 10 =>
+ // """"IOE_N"""" --> output enable
+ // value. level ‘0’ enables the IDO
+ // to PAD path. Else PAD is
+ // tristated (except for the PU/PD
+ // which are independent)." "Value
+ // gets latched at rising edge of
+ // RET33""" """ 11 =>""""
+ // IOE_N_OV"""" --> output enable
+ // overirde. when bit is set to
+ // logic '1' IOE_N (bit 4) value
+ // will control IO IOE_N signal else
+ // IOE_N is control via selected HW
+ // logic. strong PULL UP and PULL
+ // Down control is disabled for all
+ // IO's. both controls are tied to
+ // logic level '0'.
+
+#define OCP_SHARED_GPIO_PAD_CONFIG_2_MEM_GPIO_PAD_CONFIG_2_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// OCP_SHARED_O_GPIO_PAD_CONFIG_3 register.
+//
+//******************************************************************************
+#define OCP_SHARED_GPIO_PAD_CONFIG_3_MEM_GPIO_PAD_CONFIG_3_M \
+ 0x00000FFF // GPIO 0 register: "Bit 0 - 3 is
+ // used for PAD IO mode selection.
+ // io_register={ "" 0 =>
+ // """"CONFMODE[0]"""""" "" 1 =>
+ // """"CONFMODE[1]"""""" "" 2 =>
+ // """"CONFMODE[2]"""""" "" 3 =>
+ // """"CONFMODE[3]"""" 4 =>
+ // """"IODEN"""" --> When level ‘1’
+ // this disables the PMOS xtors of
+ // the output stages making them
+ // open-drain type." it can be used
+ // for I2C type of peripherals. 5 =>
+ // """"I2MAEN"""" --> Level ‘1’
+ // enables the approx 2mA output
+ // stage""" """ 6 => """"I4MAEN""""
+ // --> Level ‘1’ enables the approx
+ // 4mA output stage""" """ 7 =>
+ // """"I8MAEN"""" --> Level ‘1’
+ // enables the approx 8mA output
+ // stage. Note: any drive strength
+ // between 2mA and 14mA can be
+ // obtained with combination of 2mA
+ // 4mA and 8mA.""" """ 8 =>
+ // """"IWKPUEN"""" --> 10uA pull up
+ // (weak strength)""" """ 9 =>
+ // """"IWKPDEN"""" --> 10uA pull
+ // down (weak strength)""" """ 10 =>
+ // """"IOE_N"""" --> output enable
+ // value. level ‘0’ enables the IDO
+ // to PAD path. Else PAD is
+ // tristated (except for the PU/PD
+ // which are independent)." "Value
+ // gets latched at rising edge of
+ // RET33""" """ 11 =>""""
+ // IOE_N_OV"""" --> output enable
+ // overirde. when bit is set to
+ // logic '1' IOE_N (bit 4) value
+ // will control IO IOE_N signal else
+ // IOE_N is control via selected HW
+ // logic. strong PULL UP and PULL
+ // Down control is disabled for all
+ // IO's. both controls are tied to
+ // logic level '0'.
+
+#define OCP_SHARED_GPIO_PAD_CONFIG_3_MEM_GPIO_PAD_CONFIG_3_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// OCP_SHARED_O_GPIO_PAD_CONFIG_4 register.
+//
+//******************************************************************************
+#define OCP_SHARED_GPIO_PAD_CONFIG_4_MEM_GPIO_PAD_CONFIG_4_M \
+ 0x00000FFF // GPIO 0 register: "Bit 0 - 3 is
+ // used for PAD IO mode selection.
+ // io_register={ "" 0 =>
+ // """"CONFMODE[0]"""""" "" 1 =>
+ // """"CONFMODE[1]"""""" "" 2 =>
+ // """"CONFMODE[2]"""""" "" 3 =>
+ // """"CONFMODE[3]"""" 4 =>
+ // """"IODEN"""" --> When level ‘1’
+ // this disables the PMOS xtors of
+ // the output stages making them
+ // open-drain type." it can be used
+ // for I2C type of peripherals. 5 =>
+ // """"I2MAEN"""" --> Level ‘1’
+ // enables the approx 2mA output
+ // stage""" """ 6 => """"I4MAEN""""
+ // --> Level ‘1’ enables the approx
+ // 4mA output stage""" """ 7 =>
+ // """"I8MAEN"""" --> Level ‘1’
+ // enables the approx 8mA output
+ // stage. Note: any drive strength
+ // between 2mA and 14mA can be
+ // obtained with combination of 2mA
+ // 4mA and 8mA.""" """ 8 =>
+ // """"IWKPUEN"""" --> 10uA pull up
+ // (weak strength)""" """ 9 =>
+ // """"IWKPDEN"""" --> 10uA pull
+ // down (weak strength)""" """ 10 =>
+ // """"IOE_N"""" --> output enable
+ // value. level ‘0’ enables the IDO
+ // to PAD path. Else PAD is
+ // tristated (except for the PU/PD
+ // which are independent)." "Value
+ // gets latched at rising edge of
+ // RET33""" """ 11 =>""""
+ // IOE_N_OV"""" --> output enable
+ // overirde. when bit is set to
+ // logic '1' IOE_N (bit 4) value
+ // will control IO IOE_N signal else
+ // IOE_N is control via selected HW
+ // logic. strong PULL UP and PULL
+ // Down control is disabled for all
+ // IO's. both controls are tied to
+ // logic level '0'.
+
+#define OCP_SHARED_GPIO_PAD_CONFIG_4_MEM_GPIO_PAD_CONFIG_4_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// OCP_SHARED_O_GPIO_PAD_CONFIG_5 register.
+//
+//******************************************************************************
+#define OCP_SHARED_GPIO_PAD_CONFIG_5_MEM_GPIO_PAD_CONFIG_5_M \
+ 0x00000FFF // GPIO 0 register: "Bit 0 - 3 is
+ // used for PAD IO mode selection.
+ // io_register={ "" 0 =>
+ // """"CONFMODE[0]"""""" "" 1 =>
+ // """"CONFMODE[1]"""""" "" 2 =>
+ // """"CONFMODE[2]"""""" "" 3 =>
+ // """"CONFMODE[3]"""" 4 =>
+ // """"IODEN"""" --> When level ‘1’
+ // this disables the PMOS xtors of
+ // the output stages making them
+ // open-drain type." it can be used
+ // for I2C type of peripherals. 5 =>
+ // """"I2MAEN"""" --> Level ‘1’
+ // enables the approx 2mA output
+ // stage""" """ 6 => """"I4MAEN""""
+ // --> Level ‘1’ enables the approx
+ // 4mA output stage""" """ 7 =>
+ // """"I8MAEN"""" --> Level ‘1’
+ // enables the approx 8mA output
+ // stage. Note: any drive strength
+ // between 2mA and 14mA can be
+ // obtained with combination of 2mA
+ // 4mA and 8mA.""" """ 8 =>
+ // """"IWKPUEN"""" --> 10uA pull up
+ // (weak strength)""" """ 9 =>
+ // """"IWKPDEN"""" --> 10uA pull
+ // down (weak strength)""" """ 10 =>
+ // """"IOE_N"""" --> output enable
+ // value. level ‘0’ enables the IDO
+ // to PAD path. Else PAD is
+ // tristated (except for the PU/PD
+ // which are independent)." "Value
+ // gets latched at rising edge of
+ // RET33""" """ 11 =>""""
+ // IOE_N_OV"""" --> output enable
+ // overirde. when bit is set to
+ // logic '1' IOE_N (bit 4) value
+ // will control IO IOE_N signal else
+ // IOE_N is control via selected HW
+ // logic. strong PULL UP and PULL
+ // Down control is disabled for all
+ // IO's. both controls are tied to
+ // logic level '0'.
+
+#define OCP_SHARED_GPIO_PAD_CONFIG_5_MEM_GPIO_PAD_CONFIG_5_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// OCP_SHARED_O_GPIO_PAD_CONFIG_6 register.
+//
+//******************************************************************************
+#define OCP_SHARED_GPIO_PAD_CONFIG_6_MEM_GPIO_PAD_CONFIG_6_M \
+ 0x00000FFF // GPIO 0 register: "Bit 0 - 3 is
+ // used for PAD IO mode selection.
+ // io_register={ "" 0 =>
+ // """"CONFMODE[0]"""""" "" 1 =>
+ // """"CONFMODE[1]"""""" "" 2 =>
+ // """"CONFMODE[2]"""""" "" 3 =>
+ // """"CONFMODE[3]"""" 4 =>
+ // """"IODEN"""" --> When level ‘1’
+ // this disables the PMOS xtors of
+ // the output stages making them
+ // open-drain type." it can be used
+ // for I2C type of peripherals. 5 =>
+ // """"I2MAEN"""" --> Level ‘1’
+ // enables the approx 2mA output
+ // stage""" """ 6 => """"I4MAEN""""
+ // --> Level ‘1’ enables the approx
+ // 4mA output stage""" """ 7 =>
+ // """"I8MAEN"""" --> Level ‘1’
+ // enables the approx 8mA output
+ // stage. Note: any drive strength
+ // between 2mA and 14mA can be
+ // obtained with combination of 2mA
+ // 4mA and 8mA.""" """ 8 =>
+ // """"IWKPUEN"""" --> 10uA pull up
+ // (weak strength)""" """ 9 =>
+ // """"IWKPDEN"""" --> 10uA pull
+ // down (weak strength)""" """ 10 =>
+ // """"IOE_N"""" --> output enable
+ // value. level ‘0’ enables the IDO
+ // to PAD path. Else PAD is
+ // tristated (except for the PU/PD
+ // which are independent)." "Value
+ // gets latched at rising edge of
+ // RET33""" """ 11 =>""""
+ // IOE_N_OV"""" --> output enable
+ // overirde. when bit is set to
+ // logic '1' IOE_N (bit 4) value
+ // will control IO IOE_N signal else
+ // IOE_N is control via selected HW
+ // logic. strong PULL UP and PULL
+ // Down control is disabled for all
+ // IO's. both controls are tied to
+ // logic level '0'.
+
+#define OCP_SHARED_GPIO_PAD_CONFIG_6_MEM_GPIO_PAD_CONFIG_6_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// OCP_SHARED_O_GPIO_PAD_CONFIG_7 register.
+//
+//******************************************************************************
+#define OCP_SHARED_GPIO_PAD_CONFIG_7_MEM_GPIO_PAD_CONFIG_7_M \
+ 0x00000FFF // GPIO 0 register: "Bit 0 - 3 is
+ // used for PAD IO mode selection.
+ // io_register={ "" 0 =>
+ // """"CONFMODE[0]"""""" "" 1 =>
+ // """"CONFMODE[1]"""""" "" 2 =>
+ // """"CONFMODE[2]"""""" "" 3 =>
+ // """"CONFMODE[3]"""" 4 =>
+ // """"IODEN"""" --> When level ‘1’
+ // this disables the PMOS xtors of
+ // the output stages making them
+ // open-drain type." it can be used
+ // for I2C type of peripherals. 5 =>
+ // """"I2MAEN"""" --> Level ‘1’
+ // enables the approx 2mA output
+ // stage""" """ 6 => """"I4MAEN""""
+ // --> Level ‘1’ enables the approx
+ // 4mA output stage""" """ 7 =>
+ // """"I8MAEN"""" --> Level ‘1’
+ // enables the approx 8mA output
+ // stage. Note: any drive strength
+ // between 2mA and 14mA can be
+ // obtained with combination of 2mA
+ // 4mA and 8mA.""" """ 8 =>
+ // """"IWKPUEN"""" --> 10uA pull up
+ // (weak strength)""" """ 9 =>
+ // """"IWKPDEN"""" --> 10uA pull
+ // down (weak strength)""" """ 10 =>
+ // """"IOE_N"""" --> output enable
+ // value. level ‘0’ enables the IDO
+ // to PAD path. Else PAD is
+ // tristated (except for the PU/PD
+ // which are independent)." "Value
+ // gets latched at rising edge of
+ // RET33""" """ 11 =>""""
+ // IOE_N_OV"""" --> output enable
+ // overirde. when bit is set to
+ // logic '1' IOE_N (bit 4) value
+ // will control IO IOE_N signal else
+ // IOE_N is control via selected HW
+ // logic. strong PULL UP and PULL
+ // Down control is disabled for all
+ // IO's. both controls are tied to
+ // logic level '0'.
+
+#define OCP_SHARED_GPIO_PAD_CONFIG_7_MEM_GPIO_PAD_CONFIG_7_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// OCP_SHARED_O_GPIO_PAD_CONFIG_8 register.
+//
+//******************************************************************************
+#define OCP_SHARED_GPIO_PAD_CONFIG_8_MEM_GPIO_PAD_CONFIG_8_M \
+ 0x00000FFF // GPIO 0 register: "Bit 0 - 3 is
+ // used for PAD IO mode selection.
+ // io_register={ "" 0 =>
+ // """"CONFMODE[0]"""""" "" 1 =>
+ // """"CONFMODE[1]"""""" "" 2 =>
+ // """"CONFMODE[2]"""""" "" 3 =>
+ // """"CONFMODE[3]"""" 4 =>
+ // """"IODEN"""" --> When level ‘1’
+ // this disables the PMOS xtors of
+ // the output stages making them
+ // open-drain type." it can be used
+ // for I2C type of peripherals. 5 =>
+ // """"I2MAEN"""" --> Level ‘1’
+ // enables the approx 2mA output
+ // stage""" """ 6 => """"I4MAEN""""
+ // --> Level ‘1’ enables the approx
+ // 4mA output stage""" """ 7 =>
+ // """"I8MAEN"""" --> Level ‘1’
+ // enables the approx 8mA output
+ // stage. Note: any drive strength
+ // between 2mA and 14mA can be
+ // obtained with combination of 2mA
+ // 4mA and 8mA.""" """ 8 =>
+ // """"IWKPUEN"""" --> 10uA pull up
+ // (weak strength)""" """ 9 =>
+ // """"IWKPDEN"""" --> 10uA pull
+ // down (weak strength)""" """ 10 =>
+ // """"IOE_N"""" --> output enable
+ // value. level ‘0’ enables the IDO
+ // to PAD path. Else PAD is
+ // tristated (except for the PU/PD
+ // which are independent)." "Value
+ // gets latched at rising edge of
+ // RET33""" """ 11 =>""""
+ // IOE_N_OV"""" --> output enable
+ // overirde. when bit is set to
+ // logic '1' IOE_N (bit 4) value
+ // will control IO IOE_N signal else
+ // IOE_N is control via selected HW
+ // logic. strong PULL UP and PULL
+ // Down control is disabled for all
+ // IO's. both controls are tied to
+ // logic level '0'.
+
+#define OCP_SHARED_GPIO_PAD_CONFIG_8_MEM_GPIO_PAD_CONFIG_8_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// OCP_SHARED_O_GPIO_PAD_CONFIG_9 register.
+//
+//******************************************************************************
+#define OCP_SHARED_GPIO_PAD_CONFIG_9_MEM_GPIO_PAD_CONFIG_9_M \
+ 0x00000FFF // GPIO 0 register: "Bit 0 - 3 is
+ // used for PAD IO mode selection.
+ // io_register={ "" 0 =>
+ // """"CONFMODE[0]"""""" "" 1 =>
+ // """"CONFMODE[1]"""""" "" 2 =>
+ // """"CONFMODE[2]"""""" "" 3 =>
+ // """"CONFMODE[3]"""" 4 =>
+ // """"IODEN"""" --> When level ‘1’
+ // this disables the PMOS xtors of
+ // the output stages making them
+ // open-drain type." it can be used
+ // for I2C type of peripherals. 5 =>
+ // """"I2MAEN"""" --> Level ‘1’
+ // enables the approx 2mA output
+ // stage""" """ 6 => """"I4MAEN""""
+ // --> Level ‘1’ enables the approx
+ // 4mA output stage""" """ 7 =>
+ // """"I8MAEN"""" --> Level ‘1’
+ // enables the approx 8mA output
+ // stage. Note: any drive strength
+ // between 2mA and 14mA can be
+ // obtained with combination of 2mA
+ // 4mA and 8mA.""" """ 8 =>
+ // """"IWKPUEN"""" --> 10uA pull up
+ // (weak strength)""" """ 9 =>
+ // """"IWKPDEN"""" --> 10uA pull
+ // down (weak strength)""" """ 10 =>
+ // """"IOE_N"""" --> output enable
+ // value. level ‘0’ enables the IDO
+ // to PAD path. Else PAD is
+ // tristated (except for the PU/PD
+ // which are independent)." "Value
+ // gets latched at rising edge of
+ // RET33""" """ 11 =>""""
+ // IOE_N_OV"""" --> output enable
+ // overirde. when bit is set to
+ // logic '1' IOE_N (bit 4) value
+ // will control IO IOE_N signal else
+ // IOE_N is control via selected HW
+ // logic. strong PULL UP and PULL
+ // Down control is disabled for all
+ // IO's. both controls are tied to
+ // logic level '0'.
+
+#define OCP_SHARED_GPIO_PAD_CONFIG_9_MEM_GPIO_PAD_CONFIG_9_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// OCP_SHARED_O_GPIO_PAD_CONFIG_10 register.
+//
+//******************************************************************************
+#define OCP_SHARED_GPIO_PAD_CONFIG_10_MEM_GPIO_PAD_CONFIG_10_M \
+ 0x00000FFF // GPIO 0 register: "Bit 0 - 3 is
+ // used for PAD IO mode selection.
+ // io_register={ "" 0 =>
+ // """"CONFMODE[0]"""""" "" 1 =>
+ // """"CONFMODE[1]"""""" "" 2 =>
+ // """"CONFMODE[2]"""""" "" 3 =>
+ // """"CONFMODE[3]"""" 4 =>
+ // """"IODEN"""" --> When level ‘1’
+ // this disables the PMOS xtors of
+ // the output stages making them
+ // open-drain type." it can be used
+ // for I2C type of peripherals. 5 =>
+ // """"I2MAEN"""" --> Level ‘1’
+ // enables the approx 2mA output
+ // stage""" """ 6 => """"I4MAEN""""
+ // --> Level ‘1’ enables the approx
+ // 4mA output stage""" """ 7 =>
+ // """"I8MAEN"""" --> Level ‘1’
+ // enables the approx 8mA output
+ // stage. Note: any drive strength
+ // between 2mA and 14mA can be
+ // obtained with combination of 2mA
+ // 4mA and 8mA.""" """ 8 =>
+ // """"IWKPUEN"""" --> 10uA pull up
+ // (weak strength)""" """ 9 =>
+ // """"IWKPDEN"""" --> 10uA pull
+ // down (weak strength)""" """ 10 =>
+ // """"IOE_N"""" --> output enable
+ // value. level ‘0’ enables the IDO
+ // to PAD path. Else PAD is
+ // tristated (except for the PU/PD
+ // which are independent)." "Value
+ // gets latched at rising edge of
+ // RET33""" """ 11 =>""""
+ // IOE_N_OV"""" --> output enable
+ // overirde. when bit is set to
+ // logic '1' IOE_N (bit 4) value
+ // will control IO IOE_N signal else
+ // IOE_N is control via selected HW
+ // logic. strong PULL UP and PULL
+ // Down control is disabled for all
+ // IO's. both controls are tied to
+ // logic level '0'.
+
+#define OCP_SHARED_GPIO_PAD_CONFIG_10_MEM_GPIO_PAD_CONFIG_10_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// OCP_SHARED_O_GPIO_PAD_CONFIG_11 register.
+//
+//******************************************************************************
+#define OCP_SHARED_GPIO_PAD_CONFIG_11_MEM_GPIO_PAD_CONFIG_11_M \
+ 0x00000FFF // GPIO 0 register: "Bit 0 - 3 is
+ // used for PAD IO mode selection.
+ // io_register={ "" 0 =>
+ // """"CONFMODE[0]"""""" "" 1 =>
+ // """"CONFMODE[1]"""""" "" 2 =>
+ // """"CONFMODE[2]"""""" "" 3 =>
+ // """"CONFMODE[3]"""" 4 =>
+ // """"IODEN"""" --> When level ‘1’
+ // this disables the PMOS xtors of
+ // the output stages making them
+ // open-drain type." it can be used
+ // for I2C type of peripherals. 5 =>
+ // """"I2MAEN"""" --> Level ‘1’
+ // enables the approx 2mA output
+ // stage""" """ 6 => """"I4MAEN""""
+ // --> Level ‘1’ enables the approx
+ // 4mA output stage""" """ 7 =>
+ // """"I8MAEN"""" --> Level ‘1’
+ // enables the approx 8mA output
+ // stage. Note: any drive strength
+ // between 2mA and 14mA can be
+ // obtained with combination of 2mA
+ // 4mA and 8mA.""" """ 8 =>
+ // """"IWKPUEN"""" --> 10uA pull up
+ // (weak strength)""" """ 9 =>
+ // """"IWKPDEN"""" --> 10uA pull
+ // down (weak strength)""" """ 10 =>
+ // """"IOE_N"""" --> output enable
+ // value. level ‘0’ enables the IDO
+ // to PAD path. Else PAD is
+ // tristated (except for the PU/PD
+ // which are independent)." "Value
+ // gets latched at rising edge of
+ // RET33""" """ 11 =>""""
+ // IOE_N_OV"""" --> output enable
+ // overirde. when bit is set to
+ // logic '1' IOE_N (bit 4) value
+ // will control IO IOE_N signal else
+ // IOE_N is control via selected HW
+ // logic. strong PULL UP and PULL
+ // Down control is disabled for all
+ // IO's. both controls are tied to
+ // logic level '0'.
+
+#define OCP_SHARED_GPIO_PAD_CONFIG_11_MEM_GPIO_PAD_CONFIG_11_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// OCP_SHARED_O_GPIO_PAD_CONFIG_12 register.
+//
+//******************************************************************************
+#define OCP_SHARED_GPIO_PAD_CONFIG_12_MEM_GPIO_PAD_CONFIG_12_M \
+ 0x00000FFF // GPIO 0 register: "Bit 0 - 3 is
+ // used for PAD IO mode selection.
+ // io_register={ "" 0 =>
+ // """"CONFMODE[0]"""""" "" 1 =>
+ // """"CONFMODE[1]"""""" "" 2 =>
+ // """"CONFMODE[2]"""""" "" 3 =>
+ // """"CONFMODE[3]"""" 4 =>
+ // """"IODEN"""" --> When level ‘1’
+ // this disables the PMOS xtors of
+ // the output stages making them
+ // open-drain type." it can be used
+ // for I2C type of peripherals. 5 =>
+ // """"I2MAEN"""" --> Level ‘1’
+ // enables the approx 2mA output
+ // stage""" """ 6 => """"I4MAEN""""
+ // --> Level ‘1’ enables the approx
+ // 4mA output stage""" """ 7 =>
+ // """"I8MAEN"""" --> Level ‘1’
+ // enables the approx 8mA output
+ // stage. Note: any drive strength
+ // between 2mA and 14mA can be
+ // obtained with combination of 2mA
+ // 4mA and 8mA.""" """ 8 =>
+ // """"IWKPUEN"""" --> 10uA pull up
+ // (weak strength)""" """ 9 =>
+ // """"IWKPDEN"""" --> 10uA pull
+ // down (weak strength)""" """ 10 =>
+ // """"IOE_N"""" --> output enable
+ // value. level ‘0’ enables the IDO
+ // to PAD path. Else PAD is
+ // tristated (except for the PU/PD
+ // which are independent)." "Value
+ // gets latched at rising edge of
+ // RET33""" """ 11 =>""""
+ // IOE_N_OV"""" --> output enable
+ // overirde. when bit is set to
+ // logic '1' IOE_N (bit 4) value
+ // will control IO IOE_N signal else
+ // IOE_N is control via selected HW
+ // logic. strong PULL UP and PULL
+ // Down control is disabled for all
+ // IO's. both controls are tied to
+ // logic level '0'.
+
+#define OCP_SHARED_GPIO_PAD_CONFIG_12_MEM_GPIO_PAD_CONFIG_12_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// OCP_SHARED_O_GPIO_PAD_CONFIG_13 register.
+//
+//******************************************************************************
+#define OCP_SHARED_GPIO_PAD_CONFIG_13_MEM_GPIO_PAD_CONFIG_13_M \
+ 0x00000FFF // GPIO 0 register: "Bit 0 - 3 is
+ // used for PAD IO mode selection.
+ // io_register={ "" 0 =>
+ // """"CONFMODE[0]"""""" "" 1 =>
+ // """"CONFMODE[1]"""""" "" 2 =>
+ // """"CONFMODE[2]"""""" "" 3 =>
+ // """"CONFMODE[3]"""" 4 =>
+ // """"IODEN"""" --> When level ‘1’
+ // this disables the PMOS xtors of
+ // the output stages making them
+ // open-drain type." it can be used
+ // for I2C type of peripherals. 5 =>
+ // """"I2MAEN"""" --> Level ‘1’
+ // enables the approx 2mA output
+ // stage""" """ 6 => """"I4MAEN""""
+ // --> Level ‘1’ enables the approx
+ // 4mA output stage""" """ 7 =>
+ // """"I8MAEN"""" --> Level ‘1’
+ // enables the approx 8mA output
+ // stage. Note: any drive strength
+ // between 2mA and 14mA can be
+ // obtained with combination of 2mA
+ // 4mA and 8mA.""" """ 8 =>
+ // """"IWKPUEN"""" --> 10uA pull up
+ // (weak strength)""" """ 9 =>
+ // """"IWKPDEN"""" --> 10uA pull
+ // down (weak strength)""" """ 10 =>
+ // """"IOE_N"""" --> output enable
+ // value. level ‘0’ enables the IDO
+ // to PAD path. Else PAD is
+ // tristated (except for the PU/PD
+ // which are independent)." "Value
+ // gets latched at rising edge of
+ // RET33""" """ 11 =>""""
+ // IOE_N_OV"""" --> output enable
+ // overirde. when bit is set to
+ // logic '1' IOE_N (bit 4) value
+ // will control IO IOE_N signal else
+ // IOE_N is control via selected HW
+ // logic. strong PULL UP and PULL
+ // Down control is disabled for all
+ // IO's. both controls are tied to
+ // logic level '0'.
+
+#define OCP_SHARED_GPIO_PAD_CONFIG_13_MEM_GPIO_PAD_CONFIG_13_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// OCP_SHARED_O_GPIO_PAD_CONFIG_14 register.
+//
+//******************************************************************************
+#define OCP_SHARED_GPIO_PAD_CONFIG_14_MEM_GPIO_PAD_CONFIG_14_M \
+ 0x00000FFF // GPIO 0 register: "Bit 0 - 3 is
+ // used for PAD IO mode selection.
+ // io_register={ "" 0 =>
+ // """"CONFMODE[0]"""""" "" 1 =>
+ // """"CONFMODE[1]"""""" "" 2 =>
+ // """"CONFMODE[2]"""""" "" 3 =>
+ // """"CONFMODE[3]"""" 4 =>
+ // """"IODEN"""" --> When level ‘1’
+ // this disables the PMOS xtors of
+ // the output stages making them
+ // open-drain type." it can be used
+ // for I2C type of peripherals. 5 =>
+ // """"I2MAEN"""" --> Level ‘1’
+ // enables the approx 2mA output
+ // stage""" """ 6 => """"I4MAEN""""
+ // --> Level ‘1’ enables the approx
+ // 4mA output stage""" """ 7 =>
+ // """"I8MAEN"""" --> Level ‘1’
+ // enables the approx 8mA output
+ // stage. Note: any drive strength
+ // between 2mA and 14mA can be
+ // obtained with combination of 2mA
+ // 4mA and 8mA.""" """ 8 =>
+ // """"IWKPUEN"""" --> 10uA pull up
+ // (weak strength)""" """ 9 =>
+ // """"IWKPDEN"""" --> 10uA pull
+ // down (weak strength)""" """ 10 =>
+ // """"IOE_N"""" --> output enable
+ // value. level ‘0’ enables the IDO
+ // to PAD path. Else PAD is
+ // tristated (except for the PU/PD
+ // which are independent)." "Value
+ // gets latched at rising edge of
+ // RET33""" """ 11 =>""""
+ // IOE_N_OV"""" --> output enable
+ // overirde. when bit is set to
+ // logic '1' IOE_N (bit 4) value
+ // will control IO IOE_N signal else
+ // IOE_N is control via selected HW
+ // logic. strong PULL UP and PULL
+ // Down control is disabled for all
+ // IO's. both controls are tied to
+ // logic level '0'.
+
+#define OCP_SHARED_GPIO_PAD_CONFIG_14_MEM_GPIO_PAD_CONFIG_14_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// OCP_SHARED_O_GPIO_PAD_CONFIG_15 register.
+//
+//******************************************************************************
+#define OCP_SHARED_GPIO_PAD_CONFIG_15_MEM_GPIO_PAD_CONFIG_15_M \
+ 0x00000FFF // GPIO 0 register: "Bit 0 - 3 is
+ // used for PAD IO mode selection.
+ // io_register={ "" 0 =>
+ // """"CONFMODE[0]"""""" "" 1 =>
+ // """"CONFMODE[1]"""""" "" 2 =>
+ // """"CONFMODE[2]"""""" "" 3 =>
+ // """"CONFMODE[3]"""" 4 =>
+ // """"IODEN"""" --> When level ‘1’
+ // this disables the PMOS xtors of
+ // the output stages making them
+ // open-drain type." it can be used
+ // for I2C type of peripherals. 5 =>
+ // """"I2MAEN"""" --> Level ‘1’
+ // enables the approx 2mA output
+ // stage""" """ 6 => """"I4MAEN""""
+ // --> Level ‘1’ enables the approx
+ // 4mA output stage""" """ 7 =>
+ // """"I8MAEN"""" --> Level ‘1’
+ // enables the approx 8mA output
+ // stage. Note: any drive strength
+ // between 2mA and 14mA can be
+ // obtained with combination of 2mA
+ // 4mA and 8mA.""" """ 8 =>
+ // """"IWKPUEN"""" --> 10uA pull up
+ // (weak strength)""" """ 9 =>
+ // """"IWKPDEN"""" --> 10uA pull
+ // down (weak strength)""" """ 10 =>
+ // """"IOE_N"""" --> output enable
+ // value. level ‘0’ enables the IDO
+ // to PAD path. Else PAD is
+ // tristated (except for the PU/PD
+ // which are independent)." "Value
+ // gets latched at rising edge of
+ // RET33""" """ 11 =>""""
+ // IOE_N_OV"""" --> output enable
+ // overirde. when bit is set to
+ // logic '1' IOE_N (bit 4) value
+ // will control IO IOE_N signal else
+ // IOE_N is control via selected HW
+ // logic. strong PULL UP and PULL
+ // Down control is disabled for all
+ // IO's. both controls are tied to
+ // logic level '0'.
+
+#define OCP_SHARED_GPIO_PAD_CONFIG_15_MEM_GPIO_PAD_CONFIG_15_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// OCP_SHARED_O_GPIO_PAD_CONFIG_16 register.
+//
+//******************************************************************************
+#define OCP_SHARED_GPIO_PAD_CONFIG_16_MEM_GPIO_PAD_CONFIG_16_M \
+ 0x00000FFF // GPIO 0 register: "Bit 0 - 3 is
+ // used for PAD IO mode selection.
+ // io_register={ "" 0 =>
+ // """"CONFMODE[0]"""""" "" 1 =>
+ // """"CONFMODE[1]"""""" "" 2 =>
+ // """"CONFMODE[2]"""""" "" 3 =>
+ // """"CONFMODE[3]"""" 4 =>
+ // """"IODEN"""" --> When level ‘1’
+ // this disables the PMOS xtors of
+ // the output stages making them
+ // open-drain type." it can be used
+ // for I2C type of peripherals. 5 =>
+ // """"I2MAEN"""" --> Level ‘1’
+ // enables the approx 2mA output
+ // stage""" """ 6 => """"I4MAEN""""
+ // --> Level ‘1’ enables the approx
+ // 4mA output stage""" """ 7 =>
+ // """"I8MAEN"""" --> Level ‘1’
+ // enables the approx 8mA output
+ // stage. Note: any drive strength
+ // between 2mA and 14mA can be
+ // obtained with combination of 2mA
+ // 4mA and 8mA.""" """ 8 =>
+ // """"IWKPUEN"""" --> 10uA pull up
+ // (weak strength)""" """ 9 =>
+ // """"IWKPDEN"""" --> 10uA pull
+ // down (weak strength)""" """ 10 =>
+ // """"IOE_N"""" --> output enable
+ // value. level ‘0’ enables the IDO
+ // to PAD path. Else PAD is
+ // tristated (except for the PU/PD
+ // which are independent)." "Value
+ // gets latched at rising edge of
+ // RET33""" """ 11 =>""""
+ // IOE_N_OV"""" --> output enable
+ // overirde. when bit is set to
+ // logic '1' IOE_N (bit 4) value
+ // will control IO IOE_N signal else
+ // IOE_N is control via selected HW
+ // logic. strong PULL UP and PULL
+ // Down control is disabled for all
+ // IO's. both controls are tied to
+ // logic level '0'.
+
+#define OCP_SHARED_GPIO_PAD_CONFIG_16_MEM_GPIO_PAD_CONFIG_16_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// OCP_SHARED_O_GPIO_PAD_CONFIG_17 register.
+//
+//******************************************************************************
+#define OCP_SHARED_GPIO_PAD_CONFIG_17_MEM_GPIO_PAD_CONFIG_17_M \
+ 0x00000FFF // GPIO 0 register: "Bit 0 - 3 is
+ // used for PAD IO mode selection.
+ // io_register={ "" 0 =>
+ // """"CONFMODE[0]"""""" "" 1 =>
+ // """"CONFMODE[1]"""""" "" 2 =>
+ // """"CONFMODE[2]"""""" "" 3 =>
+ // """"CONFMODE[3]"""" 4 =>
+ // """"IODEN"""" --> When level ‘1’
+ // this disables the PMOS xtors of
+ // the output stages making them
+ // open-drain type." it can be used
+ // for I2C type of peripherals. 5 =>
+ // """"I2MAEN"""" --> Level ‘1’
+ // enables the approx 2mA output
+ // stage""" """ 6 => """"I4MAEN""""
+ // --> Level ‘1’ enables the approx
+ // 4mA output stage""" """ 7 =>
+ // """"I8MAEN"""" --> Level ‘1’
+ // enables the approx 8mA output
+ // stage. Note: any drive strength
+ // between 2mA and 14mA can be
+ // obtained with combination of 2mA
+ // 4mA and 8mA.""" """ 8 =>
+ // """"IWKPUEN"""" --> 10uA pull up
+ // (weak strength)""" """ 9 =>
+ // """"IWKPDEN"""" --> 10uA pull
+ // down (weak strength)""" """ 10 =>
+ // """"IOE_N"""" --> output enable
+ // value. level ‘0’ enables the IDO
+ // to PAD path. Else PAD is
+ // tristated (except for the PU/PD
+ // which are independent)." "Value
+ // gets latched at rising edge of
+ // RET33""" """ 11 =>""""
+ // IOE_N_OV"""" --> output enable
+ // overirde. when bit is set to
+ // logic '1' IOE_N (bit 4) value
+ // will control IO IOE_N signal else
+ // IOE_N is control via selected HW
+ // logic. strong PULL UP and PULL
+ // Down control is disabled for all
+ // IO's. both controls are tied to
+ // logic level '0'.
+
+#define OCP_SHARED_GPIO_PAD_CONFIG_17_MEM_GPIO_PAD_CONFIG_17_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// OCP_SHARED_O_GPIO_PAD_CONFIG_18 register.
+//
+//******************************************************************************
+#define OCP_SHARED_GPIO_PAD_CONFIG_18_MEM_GPIO_PAD_CONFIG_18_M \
+ 0x00000FFF // GPIO 0 register: "Bit 0 - 3 is
+ // used for PAD IO mode selection.
+ // io_register={ "" 0 =>
+ // """"CONFMODE[0]"""""" "" 1 =>
+ // """"CONFMODE[1]"""""" "" 2 =>
+ // """"CONFMODE[2]"""""" "" 3 =>
+ // """"CONFMODE[3]"""" 4 =>
+ // """"IODEN"""" --> When level ‘1’
+ // this disables the PMOS xtors of
+ // the output stages making them
+ // open-drain type." it can be used
+ // for I2C type of peripherals. 5 =>
+ // """"I2MAEN"""" --> Level ‘1’
+ // enables the approx 2mA output
+ // stage""" """ 6 => """"I4MAEN""""
+ // --> Level ‘1’ enables the approx
+ // 4mA output stage""" """ 7 =>
+ // """"I8MAEN"""" --> Level ‘1’
+ // enables the approx 8mA output
+ // stage. Note: any drive strength
+ // between 2mA and 14mA can be
+ // obtained with combination of 2mA
+ // 4mA and 8mA.""" """ 8 =>
+ // """"IWKPUEN"""" --> 10uA pull up
+ // (weak strength)""" """ 9 =>
+ // """"IWKPDEN"""" --> 10uA pull
+ // down (weak strength)""" """ 10 =>
+ // """"IOE_N"""" --> output enable
+ // value. level ‘0’ enables the IDO
+ // to PAD path. Else PAD is
+ // tristated (except for the PU/PD
+ // which are independent)." "Value
+ // gets latched at rising edge of
+ // RET33""" """ 11 =>""""
+ // IOE_N_OV"""" --> output enable
+ // overirde. when bit is set to
+ // logic '1' IOE_N (bit 4) value
+ // will control IO IOE_N signal else
+ // IOE_N is control via selected HW
+ // logic. strong PULL UP and PULL
+ // Down control is disabled for all
+ // IO's. both controls are tied to
+ // logic level '0'.
+
+#define OCP_SHARED_GPIO_PAD_CONFIG_18_MEM_GPIO_PAD_CONFIG_18_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// OCP_SHARED_O_GPIO_PAD_CONFIG_19 register.
+//
+//******************************************************************************
+#define OCP_SHARED_GPIO_PAD_CONFIG_19_MEM_GPIO_PAD_CONFIG_19_M \
+ 0x00000FFF // GPIO 0 register: "Bit 0 - 3 is
+ // used for PAD IO mode selection.
+ // io_register={ "" 0 =>
+ // """"CONFMODE[0]"""""" "" 1 =>
+ // """"CONFMODE[1]"""""" "" 2 =>
+ // """"CONFMODE[2]"""""" "" 3 =>
+ // """"CONFMODE[3]"""" 4 =>
+ // """"IODEN"""" --> When level ‘1’
+ // this disables the PMOS xtors of
+ // the output stages making them
+ // open-drain type." it can be used
+ // for I2C type of peripherals. 5 =>
+ // """"I2MAEN"""" --> Level ‘1’
+ // enables the approx 2mA output
+ // stage""" """ 6 => """"I4MAEN""""
+ // --> Level ‘1’ enables the approx
+ // 4mA output stage""" """ 7 =>
+ // """"I8MAEN"""" --> Level ‘1’
+ // enables the approx 8mA output
+ // stage. Note: any drive strength
+ // between 2mA and 14mA can be
+ // obtained with combination of 2mA
+ // 4mA and 8mA.""" """ 8 =>
+ // """"IWKPUEN"""" --> 10uA pull up
+ // (weak strength)""" """ 9 =>
+ // """"IWKPDEN"""" --> 10uA pull
+ // down (weak strength)""" """ 10 =>
+ // """"IOE_N"""" --> output enable
+ // value. level ‘0’ enables the IDO
+ // to PAD path. Else PAD is
+ // tristated (except for the PU/PD
+ // which are independent)." "Value
+ // gets latched at rising edge of
+ // RET33""" """ 11 =>""""
+ // IOE_N_OV"""" --> output enable
+ // overirde. when bit is set to
+ // logic '1' IOE_N (bit 4) value
+ // will control IO IOE_N signal else
+ // IOE_N is control via selected HW
+ // logic. strong PULL UP and PULL
+ // Down control is disabled for all
+ // IO's. both controls are tied to
+ // logic level '0'.
+
+#define OCP_SHARED_GPIO_PAD_CONFIG_19_MEM_GPIO_PAD_CONFIG_19_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// OCP_SHARED_O_GPIO_PAD_CONFIG_20 register.
+//
+//******************************************************************************
+#define OCP_SHARED_GPIO_PAD_CONFIG_20_MEM_GPIO_PAD_CONFIG_20_M \
+ 0x00000FFF // GPIO 0 register: "Bit 0 - 3 is
+ // used for PAD IO mode selection.
+ // io_register={ "" 0 =>
+ // """"CONFMODE[0]"""""" "" 1 =>
+ // """"CONFMODE[1]"""""" "" 2 =>
+ // """"CONFMODE[2]"""""" "" 3 =>
+ // """"CONFMODE[3]"""" 4 =>
+ // """"IODEN"""" --> When level ‘1’
+ // this disables the PMOS xtors of
+ // the output stages making them
+ // open-drain type." it can be used
+ // for I2C type of peripherals. 5 =>
+ // """"I2MAEN"""" --> Level ‘1’
+ // enables the approx 2mA output
+ // stage""" """ 6 => """"I4MAEN""""
+ // --> Level ‘1’ enables the approx
+ // 4mA output stage""" """ 7 =>
+ // """"I8MAEN"""" --> Level ‘1’
+ // enables the approx 8mA output
+ // stage. Note: any drive strength
+ // between 2mA and 14mA can be
+ // obtained with combination of 2mA
+ // 4mA and 8mA.""" """ 8 =>
+ // """"IWKPUEN"""" --> 10uA pull up
+ // (weak strength)""" """ 9 =>
+ // """"IWKPDEN"""" --> 10uA pull
+ // down (weak strength)""" """ 10 =>
+ // """"IOE_N"""" --> output enable
+ // value. level ‘0’ enables the IDO
+ // to PAD path. Else PAD is
+ // tristated (except for the PU/PD
+ // which are independent)." "Value
+ // gets latched at rising edge of
+ // RET33""" """ 11 =>""""
+ // IOE_N_OV"""" --> output enable
+ // overirde. when bit is set to
+ // logic '1' IOE_N (bit 4) value
+ // will control IO IOE_N signal else
+ // IOE_N is control via selected HW
+ // logic. strong PULL UP and PULL
+ // Down control is disabled for all
+ // IO's. both controls are tied to
+ // logic level '0'.
+
+#define OCP_SHARED_GPIO_PAD_CONFIG_20_MEM_GPIO_PAD_CONFIG_20_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// OCP_SHARED_O_GPIO_PAD_CONFIG_21 register.
+//
+//******************************************************************************
+#define OCP_SHARED_GPIO_PAD_CONFIG_21_MEM_GPIO_PAD_CONFIG_21_M \
+ 0x00000FFF // GPIO 0 register: "Bit 0 - 3 is
+ // used for PAD IO mode selection.
+ // io_register={ "" 0 =>
+ // """"CONFMODE[0]"""""" "" 1 =>
+ // """"CONFMODE[1]"""""" "" 2 =>
+ // """"CONFMODE[2]"""""" "" 3 =>
+ // """"CONFMODE[3]"""" 4 =>
+ // """"IODEN"""" --> When level ‘1’
+ // this disables the PMOS xtors of
+ // the output stages making them
+ // open-drain type." it can be used
+ // for I2C type of peripherals. 5 =>
+ // """"I2MAEN"""" --> Level ‘1’
+ // enables the approx 2mA output
+ // stage""" """ 6 => """"I4MAEN""""
+ // --> Level ‘1’ enables the approx
+ // 4mA output stage""" """ 7 =>
+ // """"I8MAEN"""" --> Level ‘1’
+ // enables the approx 8mA output
+ // stage. Note: any drive strength
+ // between 2mA and 14mA can be
+ // obtained with combination of 2mA
+ // 4mA and 8mA.""" """ 8 =>
+ // """"IWKPUEN"""" --> 10uA pull up
+ // (weak strength)""" """ 9 =>
+ // """"IWKPDEN"""" --> 10uA pull
+ // down (weak strength)""" """ 10 =>
+ // """"IOE_N"""" --> output enable
+ // value. level ‘0’ enables the IDO
+ // to PAD path. Else PAD is
+ // tristated (except for the PU/PD
+ // which are independent)." "Value
+ // gets latched at rising edge of
+ // RET33""" """ 11 =>""""
+ // IOE_N_OV"""" --> output enable
+ // overirde. when bit is set to
+ // logic '1' IOE_N (bit 4) value
+ // will control IO IOE_N signal else
+ // IOE_N is control via selected HW
+ // logic. strong PULL UP and PULL
+ // Down control is disabled for all
+ // IO's. both controls are tied to
+ // logic level '0'.
+
+#define OCP_SHARED_GPIO_PAD_CONFIG_21_MEM_GPIO_PAD_CONFIG_21_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// OCP_SHARED_O_GPIO_PAD_CONFIG_22 register.
+//
+//******************************************************************************
+#define OCP_SHARED_GPIO_PAD_CONFIG_22_MEM_GPIO_PAD_CONFIG_22_M \
+ 0x00000FFF // GPIO 0 register: "Bit 0 - 3 is
+ // used for PAD IO mode selection.
+ // io_register={ "" 0 =>
+ // """"CONFMODE[0]"""""" "" 1 =>
+ // """"CONFMODE[1]"""""" "" 2 =>
+ // """"CONFMODE[2]"""""" "" 3 =>
+ // """"CONFMODE[3]"""" 4 =>
+ // """"IODEN"""" --> When level ‘1’
+ // this disables the PMOS xtors of
+ // the output stages making them
+ // open-drain type." it can be used
+ // for I2C type of peripherals. 5 =>
+ // """"I2MAEN"""" --> Level ‘1’
+ // enables the approx 2mA output
+ // stage""" """ 6 => """"I4MAEN""""
+ // --> Level ‘1’ enables the approx
+ // 4mA output stage""" """ 7 =>
+ // """"I8MAEN"""" --> Level ‘1’
+ // enables the approx 8mA output
+ // stage. Note: any drive strength
+ // between 2mA and 14mA can be
+ // obtained with combination of 2mA
+ // 4mA and 8mA.""" """ 8 =>
+ // """"IWKPUEN"""" --> 10uA pull up
+ // (weak strength)""" """ 9 =>
+ // """"IWKPDEN"""" --> 10uA pull
+ // down (weak strength)""" """ 10 =>
+ // """"IOE_N"""" --> output enable
+ // value. level ‘0’ enables the IDO
+ // to PAD path. Else PAD is
+ // tristated (except for the PU/PD
+ // which are independent)." "Value
+ // gets latched at rising edge of
+ // RET33""" """ 11 =>""""
+ // IOE_N_OV"""" --> output enable
+ // overirde. when bit is set to
+ // logic '1' IOE_N (bit 4) value
+ // will control IO IOE_N signal else
+ // IOE_N is control via selected HW
+ // logic. strong PULL UP and PULL
+ // Down control is disabled for all
+ // IO's. both controls are tied to
+ // logic level '0'.
+
+#define OCP_SHARED_GPIO_PAD_CONFIG_22_MEM_GPIO_PAD_CONFIG_22_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// OCP_SHARED_O_GPIO_PAD_CONFIG_23 register.
+//
+//******************************************************************************
+#define OCP_SHARED_GPIO_PAD_CONFIG_23_MEM_GPIO_PAD_CONFIG_23_M \
+ 0x00000FFF // GPIO 0 register: "Bit 0 - 3 is
+ // used for PAD IO mode selection.
+ // io_register={ "" 0 =>
+ // """"CONFMODE[0]"""""" "" 1 =>
+ // """"CONFMODE[1]"""""" "" 2 =>
+ // """"CONFMODE[2]"""""" "" 3 =>
+ // """"CONFMODE[3]"""" 4 =>
+ // """"IODEN"""" --> When level ‘1’
+ // this disables the PMOS xtors of
+ // the output stages making them
+ // open-drain type." it can be used
+ // for I2C type of peripherals. 5 =>
+ // """"I2MAEN"""" --> Level ‘1’
+ // enables the approx 2mA output
+ // stage""" """ 6 => """"I4MAEN""""
+ // --> Level ‘1’ enables the approx
+ // 4mA output stage""" """ 7 =>
+ // """"I8MAEN"""" --> Level ‘1’
+ // enables the approx 8mA output
+ // stage. Note: any drive strength
+ // between 2mA and 14mA can be
+ // obtained with combination of 2mA
+ // 4mA and 8mA.""" """ 8 =>
+ // """"IWKPUEN"""" --> 10uA pull up
+ // (weak strength)""" """ 9 =>
+ // """"IWKPDEN"""" --> 10uA pull
+ // down (weak strength)""" """ 10 =>
+ // """"IOE_N"""" --> output enable
+ // value. level ‘0’ enables the IDO
+ // to PAD path. Else PAD is
+ // tristated (except for the PU/PD
+ // which are independent)." "Value
+ // gets latched at rising edge of
+ // RET33""" """ 11 =>""""
+ // IOE_N_OV"""" --> output enable
+ // overirde. when bit is set to
+ // logic '1' IOE_N (bit 4) value
+ // will control IO IOE_N signal else
+ // IOE_N is control via selected HW
+ // logic. strong PULL UP and PULL
+ // Down control is disabled for all
+ // IO's. both controls are tied to
+ // logic level '0'.
+
+#define OCP_SHARED_GPIO_PAD_CONFIG_23_MEM_GPIO_PAD_CONFIG_23_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// OCP_SHARED_O_GPIO_PAD_CONFIG_24 register.
+//
+//******************************************************************************
+#define OCP_SHARED_GPIO_PAD_CONFIG_24_MEM_GPIO_PAD_CONFIG_24_M \
+ 0x00000FFF // GPIO 0 register: "Bit 0 - 3 is
+ // used for PAD IO mode selection.
+ // io_register={ "" 0 =>
+ // """"CONFMODE[0]"""""" "" 1 =>
+ // """"CONFMODE[1]"""""" "" 2 =>
+ // """"CONFMODE[2]"""""" "" 3 =>
+ // """"CONFMODE[3]"""" 4 =>
+ // """"IODEN"""" --> When level ‘1’
+ // this disables the PMOS xtors of
+ // the output stages making them
+ // open-drain type." it can be used
+ // for I2C type of peripherals. 5 =>
+ // """"I2MAEN"""" --> Level ‘1’
+ // enables the approx 2mA output
+ // stage""" """ 6 => """"I4MAEN""""
+ // --> Level ‘1’ enables the approx
+ // 4mA output stage""" """ 7 =>
+ // """"I8MAEN"""" --> Level ‘1’
+ // enables the approx 8mA output
+ // stage. Note: any drive strength
+ // between 2mA and 14mA can be
+ // obtained with combination of 2mA
+ // 4mA and 8mA.""" """ 8 =>
+ // """"IWKPUEN"""" --> 10uA pull up
+ // (weak strength)""" """ 9 =>
+ // """"IWKPDEN"""" --> 10uA pull
+ // down (weak strength)""" """ 10 =>
+ // """"IOE_N"""" --> output enable
+ // value. level ‘0’ enables the IDO
+ // to PAD path. Else PAD is
+ // tristated (except for the PU/PD
+ // which are independent)." "Value
+ // gets latched at rising edge of
+ // RET33""" """ 11 =>""""
+ // IOE_N_OV"""" --> output enable
+ // overirde. when bit is set to
+ // logic '1' IOE_N (bit 4) value
+ // will control IO IOE_N signal else
+ // IOE_N is control via selected HW
+ // logic. strong PULL UP and PULL
+ // Down control is disabled for all
+ // IO's. both controls are tied to
+ // logic level '0'.
+
+#define OCP_SHARED_GPIO_PAD_CONFIG_24_MEM_GPIO_PAD_CONFIG_24_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// OCP_SHARED_O_GPIO_PAD_CONFIG_25 register.
+//
+//******************************************************************************
+#define OCP_SHARED_GPIO_PAD_CONFIG_25_MEM_GPIO_PAD_CONFIG_25_M \
+ 0x00000FFF // GPIO 0 register: "Bit 0 - 3 is
+ // used for PAD IO mode selection.
+ // io_register={ "" 0 =>
+ // """"CONFMODE[0]"""""" "" 1 =>
+ // """"CONFMODE[1]"""""" "" 2 =>
+ // """"CONFMODE[2]"""""" "" 3 =>
+ // """"CONFMODE[3]"""" 4 =>
+ // """"IODEN"""" --> When level ‘1’
+ // this disables the PMOS xtors of
+ // the output stages making them
+ // open-drain type." it can be used
+ // for I2C type of peripherals. 5 =>
+ // """"I2MAEN"""" --> Level ‘1’
+ // enables the approx 2mA output
+ // stage""" """ 6 => """"I4MAEN""""
+ // --> Level ‘1’ enables the approx
+ // 4mA output stage""" """ 7 =>
+ // """"I8MAEN"""" --> Level ‘1’
+ // enables the approx 8mA output
+ // stage. Note: any drive strength
+ // between 2mA and 14mA can be
+ // obtained with combination of 2mA
+ // 4mA and 8mA.""" """ 8 =>
+ // """"IWKPUEN"""" --> 10uA pull up
+ // (weak strength)""" """ 9 =>
+ // """"IWKPDEN"""" --> 10uA pull
+ // down (weak strength)""" """ 10 =>
+ // """"IOE_N"""" --> output enable
+ // value. level ‘0’ enables the IDO
+ // to PAD path. Else PAD is
+ // tristated (except for the PU/PD
+ // which are independent)." "Value
+ // gets latched at rising edge of
+ // RET33""" """ 11 =>""""
+ // IOE_N_OV"""" --> output enable
+ // overirde. when bit is set to
+ // logic '1' IOE_N (bit 4) value
+ // will control IO IOE_N signal else
+ // IOE_N is control via selected HW
+ // logic. strong PULL UP and PULL
+ // Down control is disabled for all
+ // IO's. both controls are tied to
+ // logic level '0'.
+
+#define OCP_SHARED_GPIO_PAD_CONFIG_25_MEM_GPIO_PAD_CONFIG_25_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// OCP_SHARED_O_GPIO_PAD_CONFIG_26 register.
+//
+//******************************************************************************
+#define OCP_SHARED_GPIO_PAD_CONFIG_26_MEM_GPIO_PAD_CONFIG_26_M \
+ 0x00000FFF // GPIO 0 register: "Bit 0 - 3 is
+ // used for PAD IO mode selection.
+ // io_register={ "" 0 =>
+ // """"CONFMODE[0]"""""" "" 1 =>
+ // """"CONFMODE[1]"""""" "" 2 =>
+ // """"CONFMODE[2]"""""" "" 3 =>
+ // """"CONFMODE[3]"""" 4 =>
+ // """"IODEN"""" --> When level ‘1’
+ // this disables the PMOS xtors of
+ // the output stages making them
+ // open-drain type." it can be used
+ // for I2C type of peripherals. 5 =>
+ // """"I2MAEN"""" --> Level ‘1’
+ // enables the approx 2mA output
+ // stage""" """ 6 => """"I4MAEN""""
+ // --> Level ‘1’ enables the approx
+ // 4mA output stage""" """ 7 =>
+ // """"I8MAEN"""" --> Level ‘1’
+ // enables the approx 8mA output
+ // stage. Note: any drive strength
+ // between 2mA and 14mA can be
+ // obtained with combination of 2mA
+ // 4mA and 8mA.""" """ 8 =>
+ // """"IWKPUEN"""" --> 10uA pull up
+ // (weak strength)""" """ 9 =>
+ // """"IWKPDEN"""" --> 10uA pull
+ // down (weak strength)""" """ 10 =>
+ // """"IOE_N"""" --> output enable
+ // value. level ‘0’ enables the IDO
+ // to PAD path. Else PAD is
+ // tristated (except for the PU/PD
+ // which are independent)." "Value
+ // gets latched at rising edge of
+ // RET33""" """ 11 =>""""
+ // IOE_N_OV"""" --> output enable
+ // overirde. when bit is set to
+ // logic '1' IOE_N (bit 4) value
+ // will control IO IOE_N signal else
+ // IOE_N is control via selected HW
+ // logic. strong PULL UP and PULL
+ // Down control is disabled for all
+ // IO's. both controls are tied to
+ // logic level '0'.
+
+#define OCP_SHARED_GPIO_PAD_CONFIG_26_MEM_GPIO_PAD_CONFIG_26_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// OCP_SHARED_O_GPIO_PAD_CONFIG_27 register.
+//
+//******************************************************************************
+#define OCP_SHARED_GPIO_PAD_CONFIG_27_MEM_GPIO_PAD_CONFIG_27_M \
+ 0x00000FFF // GPIO 0 register: "Bit 0 - 3 is
+ // used for PAD IO mode selection.
+ // io_register={ "" 0 =>
+ // """"CONFMODE[0]"""""" "" 1 =>
+ // """"CONFMODE[1]"""""" "" 2 =>
+ // """"CONFMODE[2]"""""" "" 3 =>
+ // """"CONFMODE[3]"""" 4 =>
+ // """"IODEN"""" --> When level ‘1’
+ // this disables the PMOS xtors of
+ // the output stages making them
+ // open-drain type." it can be used
+ // for I2C type of peripherals. 5 =>
+ // """"I2MAEN"""" --> Level ‘1’
+ // enables the approx 2mA output
+ // stage""" """ 6 => """"I4MAEN""""
+ // --> Level ‘1’ enables the approx
+ // 4mA output stage""" """ 7 =>
+ // """"I8MAEN"""" --> Level ‘1’
+ // enables the approx 8mA output
+ // stage. Note: any drive strength
+ // between 2mA and 14mA can be
+ // obtained with combination of 2mA
+ // 4mA and 8mA.""" """ 8 =>
+ // """"IWKPUEN"""" --> 10uA pull up
+ // (weak strength)""" """ 9 =>
+ // """"IWKPDEN"""" --> 10uA pull
+ // down (weak strength)""" """ 10 =>
+ // """"IOE_N"""" --> output enable
+ // value. level ‘0’ enables the IDO
+ // to PAD path. Else PAD is
+ // tristated (except for the PU/PD
+ // which are independent)." "Value
+ // gets latched at rising edge of
+ // RET33""" """ 11 =>""""
+ // IOE_N_OV"""" --> output enable
+ // overirde. when bit is set to
+ // logic '1' IOE_N (bit 4) value
+ // will control IO IOE_N signal else
+ // IOE_N is control via selected HW
+ // logic. strong PULL UP and PULL
+ // Down control is disabled for all
+ // IO's. both controls are tied to
+ // logic level '0'.
+
+#define OCP_SHARED_GPIO_PAD_CONFIG_27_MEM_GPIO_PAD_CONFIG_27_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// OCP_SHARED_O_GPIO_PAD_CONFIG_28 register.
+//
+//******************************************************************************
+#define OCP_SHARED_GPIO_PAD_CONFIG_28_MEM_GPIO_PAD_CONFIG_28_M \
+ 0x00000FFF // GPIO 0 register: "Bit 0 - 3 is
+ // used for PAD IO mode selection.
+ // io_register={ "" 0 =>
+ // """"CONFMODE[0]"""""" "" 1 =>
+ // """"CONFMODE[1]"""""" "" 2 =>
+ // """"CONFMODE[2]"""""" "" 3 =>
+ // """"CONFMODE[3]"""" 4 =>
+ // """"IODEN"""" --> When level ‘1’
+ // this disables the PMOS xtors of
+ // the output stages making them
+ // open-drain type." it can be used
+ // for I2C type of peripherals. 5 =>
+ // """"I2MAEN"""" --> Level ‘1’
+ // enables the approx 2mA output
+ // stage""" """ 6 => """"I4MAEN""""
+ // --> Level ‘1’ enables the approx
+ // 4mA output stage""" """ 7 =>
+ // """"I8MAEN"""" --> Level ‘1’
+ // enables the approx 8mA output
+ // stage. Note: any drive strength
+ // between 2mA and 14mA can be
+ // obtained with combination of 2mA
+ // 4mA and 8mA.""" """ 8 =>
+ // """"IWKPUEN"""" --> 10uA pull up
+ // (weak strength)""" """ 9 =>
+ // """"IWKPDEN"""" --> 10uA pull
+ // down (weak strength)""" """ 10 =>
+ // """"IOE_N"""" --> output enable
+ // value. level ‘0’ enables the IDO
+ // to PAD path. Else PAD is
+ // tristated (except for the PU/PD
+ // which are independent)." "Value
+ // gets latched at rising edge of
+ // RET33""" """ 11 =>""""
+ // IOE_N_OV"""" --> output enable
+ // overirde. when bit is set to
+ // logic '1' IOE_N (bit 4) value
+ // will control IO IOE_N signal else
+ // IOE_N is control via selected HW
+ // logic. strong PULL UP and PULL
+ // Down control is disabled for all
+ // IO's. both controls are tied to
+ // logic level '0'.
+
+#define OCP_SHARED_GPIO_PAD_CONFIG_28_MEM_GPIO_PAD_CONFIG_28_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// OCP_SHARED_O_GPIO_PAD_CONFIG_29 register.
+//
+//******************************************************************************
+#define OCP_SHARED_GPIO_PAD_CONFIG_29_MEM_GPIO_PAD_CONFIG_29_M \
+ 0x00000FFF // GPIO 0 register: "Bit 0 - 3 is
+ // used for PAD IO mode selection.
+ // io_register={ "" 0 =>
+ // """"CONFMODE[0]"""""" "" 1 =>
+ // """"CONFMODE[1]"""""" "" 2 =>
+ // """"CONFMODE[2]"""""" "" 3 =>
+ // """"CONFMODE[3]"""" 4 =>
+ // """"IODEN"""" --> When level ‘1’
+ // this disables the PMOS xtors of
+ // the output stages making them
+ // open-drain type." it can be used
+ // for I2C type of peripherals. 5 =>
+ // """"I2MAEN"""" --> Level ‘1’
+ // enables the approx 2mA output
+ // stage""" """ 6 => """"I4MAEN""""
+ // --> Level ‘1’ enables the approx
+ // 4mA output stage""" """ 7 =>
+ // """"I8MAEN"""" --> Level ‘1’
+ // enables the approx 8mA output
+ // stage. Note: any drive strength
+ // between 2mA and 14mA can be
+ // obtained with combination of 2mA
+ // 4mA and 8mA.""" """ 8 =>
+ // """"IWKPUEN"""" --> 10uA pull up
+ // (weak strength)""" """ 9 =>
+ // """"IWKPDEN"""" --> 10uA pull
+ // down (weak strength)""" """ 10 =>
+ // """"IOE_N"""" --> output enable
+ // value. level ‘0’ enables the IDO
+ // to PAD path. Else PAD is
+ // tristated (except for the PU/PD
+ // which are independent)." "Value
+ // gets latched at rising edge of
+ // RET33""" """ 11 =>""""
+ // IOE_N_OV"""" --> output enable
+ // overirde. when bit is set to
+ // logic '1' IOE_N (bit 4) value
+ // will control IO IOE_N signal else
+ // IOE_N is control via selected HW
+ // logic. strong PULL UP and PULL
+ // Down control is disabled for all
+ // IO's. both controls are tied to
+ // logic level '0'.
+
+#define OCP_SHARED_GPIO_PAD_CONFIG_29_MEM_GPIO_PAD_CONFIG_29_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// OCP_SHARED_O_GPIO_PAD_CONFIG_30 register.
+//
+//******************************************************************************
+#define OCP_SHARED_GPIO_PAD_CONFIG_30_MEM_GPIO_PAD_CONFIG_30_M \
+ 0x00000FFF // GPIO 0 register: "Bit 0 - 3 is
+ // used for PAD IO mode selection.
+ // io_register={ "" 0 =>
+ // """"CONFMODE[0]"""""" "" 1 =>
+ // """"CONFMODE[1]"""""" "" 2 =>
+ // """"CONFMODE[2]"""""" "" 3 =>
+ // """"CONFMODE[3]"""" 4 =>
+ // """"IODEN"""" --> When level ‘1’
+ // this disables the PMOS xtors of
+ // the output stages making them
+ // open-drain type." it can be used
+ // for I2C type of peripherals. 5 =>
+ // """"I2MAEN"""" --> Level ‘1’
+ // enables the approx 2mA output
+ // stage""" """ 6 => """"I4MAEN""""
+ // --> Level ‘1’ enables the approx
+ // 4mA output stage""" """ 7 =>
+ // """"I8MAEN"""" --> Level ‘1’
+ // enables the approx 8mA output
+ // stage. Note: any drive strength
+ // between 2mA and 14mA can be
+ // obtained with combination of 2mA
+ // 4mA and 8mA.""" """ 8 =>
+ // """"IWKPUEN"""" --> 10uA pull up
+ // (weak strength)""" """ 9 =>
+ // """"IWKPDEN"""" --> 10uA pull
+ // down (weak strength)""" """ 10 =>
+ // """"IOE_N"""" --> output enable
+ // value. level ‘0’ enables the IDO
+ // to PAD path. Else PAD is
+ // tristated (except for the PU/PD
+ // which are independent)." "Value
+ // gets latched at rising edge of
+ // RET33""" """ 11 =>""""
+ // IOE_N_OV"""" --> output enable
+ // overirde. when bit is set to
+ // logic '1' IOE_N (bit 4) value
+ // will control IO IOE_N signal else
+ // IOE_N is control via selected HW
+ // logic. strong PULL UP and PULL
+ // Down control is disabled for all
+ // IO's. both controls are tied to
+ // logic level '0'.
+
+#define OCP_SHARED_GPIO_PAD_CONFIG_30_MEM_GPIO_PAD_CONFIG_30_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// OCP_SHARED_O_GPIO_PAD_CONFIG_31 register.
+//
+//******************************************************************************
+#define OCP_SHARED_GPIO_PAD_CONFIG_31_MEM_GPIO_PAD_CONFIG_31_M \
+ 0x00000FFF // GPIO 0 register: "Bit 0 - 3 is
+ // used for PAD IO mode selection.
+ // io_register={ "" 0 =>
+ // """"CONFMODE[0]"""""" "" 1 =>
+ // """"CONFMODE[1]"""""" "" 2 =>
+ // """"CONFMODE[2]"""""" "" 3 =>
+ // """"CONFMODE[3]"""" 4 =>
+ // """"IODEN"""" --> When level ‘1’
+ // this disables the PMOS xtors of
+ // the output stages making them
+ // open-drain type." it can be used
+ // for I2C type of peripherals. 5 =>
+ // """"I2MAEN"""" --> Level ‘1’
+ // enables the approx 2mA output
+ // stage""" """ 6 => """"I4MAEN""""
+ // --> Level ‘1’ enables the approx
+ // 4mA output stage""" """ 7 =>
+ // """"I8MAEN"""" --> Level ‘1’
+ // enables the approx 8mA output
+ // stage. Note: any drive strength
+ // between 2mA and 14mA can be
+ // obtained with combination of 2mA
+ // 4mA and 8mA.""" """ 8 =>
+ // """"IWKPUEN"""" --> 10uA pull up
+ // (weak strength)""" """ 9 =>
+ // """"IWKPDEN"""" --> 10uA pull
+ // down (weak strength)""" """ 10 =>
+ // """"IOE_N"""" --> output enable
+ // value. level ‘0’ enables the IDO
+ // to PAD path. Else PAD is
+ // tristated (except for the PU/PD
+ // which are independent)." "Value
+ // gets latched at rising edge of
+ // RET33""" """ 11 =>""""
+ // IOE_N_OV"""" --> output enable
+ // overirde. when bit is set to
+ // logic '1' IOE_N (bit 4) value
+ // will control IO IOE_N signal else
+ // IOE_N is control via selected HW
+ // logic. strong PULL UP and PULL
+ // Down control is disabled for all
+ // IO's. both controls are tied to
+ // logic level '0'.
+
+#define OCP_SHARED_GPIO_PAD_CONFIG_31_MEM_GPIO_PAD_CONFIG_31_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// OCP_SHARED_O_GPIO_PAD_CONFIG_32 register.
+//
+//******************************************************************************
+#define OCP_SHARED_GPIO_PAD_CONFIG_32_MEM_GPIO_PAD_CONFIG_32_M \
+ 0x00000FFF // GPIO 0 register: "Bit 0 - 3 is
+ // used for PAD IO mode selection.
+ // io_register={ "" 0 =>
+ // """"CONFMODE[0]"""""" "" 1 =>
+ // """"CONFMODE[1]"""""" "" 2 =>
+ // """"CONFMODE[2]"""""" "" 3 =>
+ // """"CONFMODE[3]"""" 4 =>
+ // """"IODEN"""" --> When level ‘1’
+ // this disables the PMOS xtors of
+ // the output stages making them
+ // open-drain type." it can be used
+ // for I2C type of peripherals. 5 =>
+ // """"I2MAEN"""" --> Level ‘1’
+ // enables the approx 2mA output
+ // stage""" """ 6 => """"I4MAEN""""
+ // --> Level ‘1’ enables the approx
+ // 4mA output stage""" """ 7 =>
+ // """"I8MAEN"""" --> Level ‘1’
+ // enables the approx 8mA output
+ // stage. Note: any drive strength
+ // between 2mA and 14mA can be
+ // obtained with combination of 2mA
+ // 4mA and 8mA.""" """ 8 =>
+ // """"IWKPUEN"""" --> 10uA pull up
+ // (weak strength)""" """ 9 =>
+ // """"IWKPDEN"""" --> 10uA pull
+ // down (weak strength)""" """ 10 =>
+ // """"IOE_N"""" --> output enable
+ // value. level ‘0’ enables the IDO
+ // to PAD path. Else PAD is
+ // tristated (except for the PU/PD
+ // which are independent)." "Value
+ // gets latched at rising edge of
+ // RET33""" """ 11 =>""""
+ // IOE_N_OV"""" --> output enable
+ // overirde. when bit is set to
+ // logic '1' IOE_N (bit 4) value
+ // will control IO IOE_N signal else
+ // IOE_N is control via selected HW
+ // logic. strong PULL UP and PULL
+ // Down control is disabled for all
+ // IO's. both controls are tied to
+ // logic level '0'.
+
+#define OCP_SHARED_GPIO_PAD_CONFIG_32_MEM_GPIO_PAD_CONFIG_32_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// OCP_SHARED_O_GPIO_PAD_CONFIG_33 register.
+//
+//******************************************************************************
+#define OCP_SHARED_GPIO_PAD_CONFIG_33_MEM_GPIO_PAD_CONFIG_33_M \
+ 0x0000003F // GPIO 0 register: "Bit 0 - 3 is
+ // used for PAD IO mode selection.
+ // io_register={ "" 0 =>
+ // """"CONFMODE[0]"""""" "" 1 =>
+ // """"CONFMODE[1]"""""" "" 2 =>
+ // """"CONFMODE[2]"""""" "" 3 =>
+ // """"CONFMODE[3]"""" 4 =>
+ // """"IOE_N"""" --> output enable
+ // value. level ‘0’ enables the IDO
+ // to PAD path. Else PAD is
+ // tristated (except for the PU/PD
+ // which are independent)." "Value
+ // gets latched at rising edge of
+ // RET33""" """ 5 =>""""
+ // IOE_N_OV"""" --> output enable
+ // overirde. when bit is set to
+ // logic '1' IOE_N (bit 4) value
+ // will control IO IOE_N signal else
+ // IOE_N is control via selected HW
+ // logic. strong PULL UP and PULL
+ // Down control is disabled for all
+ // IO's. both controls are tied to
+ // logic level '0'. IODEN and I8MAEN
+ // is diesabled for all development
+ // IO's. These signals are tied to
+ // logic level '0'. common control
+ // is implemented for I2MAEN,
+ // I4MAEN, WKPU, WKPD control .
+ // refer dev_pad_cmn_config register
+ // bits.
+
+#define OCP_SHARED_GPIO_PAD_CONFIG_33_MEM_GPIO_PAD_CONFIG_33_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// OCP_SHARED_O_GPIO_PAD_CONFIG_34 register.
+//
+//******************************************************************************
+#define OCP_SHARED_GPIO_PAD_CONFIG_34_MEM_GPIO_PAD_CONFIG_34_M \
+ 0x0000003F // GPIO 0 register: "Bit 0 - 3 is
+ // used for PAD IO mode selection.
+ // io_register={ "" 0 =>
+ // """"CONFMODE[0]"""""" "" 1 =>
+ // """"CONFMODE[1]"""""" "" 2 =>
+ // """"CONFMODE[2]"""""" "" 3 =>
+ // """"CONFMODE[3]"""" 4 =>
+ // """"IOE_N"""" --> output enable
+ // value. level ‘0’ enables the IDO
+ // to PAD path. Else PAD is
+ // tristated (except for the PU/PD
+ // which are independent)." "Value
+ // gets latched at rising edge of
+ // RET33""" """ 5 =>""""
+ // IOE_N_OV"""" --> output enable
+ // overirde. when bit is set to
+ // logic '1' IOE_N (bit 4) value
+ // will control IO IOE_N signal else
+ // IOE_N is control via selected HW
+ // logic. strong PULL UP and PULL
+ // Down control is disabled for all
+ // IO's. both controls are tied to
+ // logic level '0'. IODEN and I8MAEN
+ // is diesabled for all development
+ // IO's. These signals are tied to
+ // logic level '0'. common control
+ // is implemented for I2MAEN,
+ // I4MAEN, WKPU, WKPD control .
+ // refer dev_pad_cmn_config register
+ // bits.
+
+#define OCP_SHARED_GPIO_PAD_CONFIG_34_MEM_GPIO_PAD_CONFIG_34_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// OCP_SHARED_O_GPIO_PAD_CONFIG_35 register.
+//
+//******************************************************************************
+#define OCP_SHARED_GPIO_PAD_CONFIG_35_MEM_GPIO_PAD_CONFIG_35_M \
+ 0x0000003F // GPIO 0 register: "Bit 0 - 3 is
+ // used for PAD IO mode selection.
+ // io_register={ "" 0 =>
+ // """"CONFMODE[0]"""""" "" 1 =>
+ // """"CONFMODE[1]"""""" "" 2 =>
+ // """"CONFMODE[2]"""""" "" 3 =>
+ // """"CONFMODE[3]"""" 4 =>
+ // """"IOE_N"""" --> output enable
+ // value. level ‘0’ enables the IDO
+ // to PAD path. Else PAD is
+ // tristated (except for the PU/PD
+ // which are independent)." "Value
+ // gets latched at rising edge of
+ // RET33""" """ 5 =>""""
+ // IOE_N_OV"""" --> output enable
+ // overirde. when bit is set to
+ // logic '1' IOE_N (bit 4) value
+ // will control IO IOE_N signal else
+ // IOE_N is control via selected HW
+ // logic. strong PULL UP and PULL
+ // Down control is disabled for all
+ // IO's. both controls are tied to
+ // logic level '0'. IODEN and I8MAEN
+ // is diesabled for all development
+ // IO's. These signals are tied to
+ // logic level '0'. common control
+ // is implemented for I2MAEN,
+ // I4MAEN, WKPU, WKPD control .
+ // refer dev_pad_cmn_config register
+ // bits.
+
+#define OCP_SHARED_GPIO_PAD_CONFIG_35_MEM_GPIO_PAD_CONFIG_35_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// OCP_SHARED_O_GPIO_PAD_CONFIG_36 register.
+//
+//******************************************************************************
+#define OCP_SHARED_GPIO_PAD_CONFIG_36_MEM_GPIO_PAD_CONFIG_36_M \
+ 0x0000003F // GPIO 0 register: "Bit 0 - 3 is
+ // used for PAD IO mode selection.
+ // io_register={ "" 0 =>
+ // """"CONFMODE[0]"""""" "" 1 =>
+ // """"CONFMODE[1]"""""" "" 2 =>
+ // """"CONFMODE[2]"""""" "" 3 =>
+ // """"CONFMODE[3]"""" 4 =>
+ // """"IOE_N"""" --> output enable
+ // value. level ‘0’ enables the IDO
+ // to PAD path. Else PAD is
+ // tristated (except for the PU/PD
+ // which are independent)." "Value
+ // gets latched at rising edge of
+ // RET33""" """ 5 =>""""
+ // IOE_N_OV"""" --> output enable
+ // overirde. when bit is set to
+ // logic '1' IOE_N (bit 4) value
+ // will control IO IOE_N signal else
+ // IOE_N is control via selected HW
+ // logic. strong PULL UP and PULL
+ // Down control is disabled for all
+ // IO's. both controls are tied to
+ // logic level '0'. IODEN and I8MAEN
+ // is diesabled for all development
+ // IO's. These signals are tied to
+ // logic level '0'. common control
+ // is implemented for I2MAEN,
+ // I4MAEN, WKPU, WKPD control .
+ // refer dev_pad_cmn_config register
+ // bits.
+
+#define OCP_SHARED_GPIO_PAD_CONFIG_36_MEM_GPIO_PAD_CONFIG_36_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// OCP_SHARED_O_GPIO_PAD_CONFIG_37 register.
+//
+//******************************************************************************
+#define OCP_SHARED_GPIO_PAD_CONFIG_37_MEM_GPIO_PAD_CONFIG_37_M \
+ 0x0000003F // GPIO 0 register: "Bit 0 - 3 is
+ // used for PAD IO mode selection.
+ // io_register={ "" 0 =>
+ // """"CONFMODE[0]"""""" "" 1 =>
+ // """"CONFMODE[1]"""""" "" 2 =>
+ // """"CONFMODE[2]"""""" "" 3 =>
+ // """"CONFMODE[3]"""" 4 =>
+ // """"IOE_N"""" --> output enable
+ // value. level ‘0’ enables the IDO
+ // to PAD path. Else PAD is
+ // tristated (except for the PU/PD
+ // which are independent)." "Value
+ // gets latched at rising edge of
+ // RET33""" """ 5 =>""""
+ // IOE_N_OV"""" --> output enable
+ // overirde. when bit is set to
+ // logic '1' IOE_N (bit 4) value
+ // will control IO IOE_N signal else
+ // IOE_N is control via selected HW
+ // logic. strong PULL UP and PULL
+ // Down control is disabled for all
+ // IO's. both controls are tied to
+ // logic level '0'. IODEN and I8MAEN
+ // is diesabled for all development
+ // IO's. These signals are tied to
+ // logic level '0'. common control
+ // is implemented for I2MAEN,
+ // I4MAEN, WKPU, WKPD control .
+ // refer dev_pad_cmn_config register
+ // bits.
+
+#define OCP_SHARED_GPIO_PAD_CONFIG_37_MEM_GPIO_PAD_CONFIG_37_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// OCP_SHARED_O_GPIO_PAD_CONFIG_38 register.
+//
+//******************************************************************************
+#define OCP_SHARED_GPIO_PAD_CONFIG_38_MEM_GPIO_PAD_CONFIG_38_M \
+ 0x0000003F // GPIO 0 register: "Bit 0 - 3 is
+ // used for PAD IO mode selection.
+ // io_register={ "" 0 =>
+ // """"CONFMODE[0]"""""" "" 1 =>
+ // """"CONFMODE[1]"""""" "" 2 =>
+ // """"CONFMODE[2]"""""" "" 3 =>
+ // """"CONFMODE[3]"""" 4 =>
+ // """"IOE_N"""" --> output enable
+ // value. level ‘0’ enables the IDO
+ // to PAD path. Else PAD is
+ // tristated (except for the PU/PD
+ // which are independent)." "Value
+ // gets latched at rising edge of
+ // RET33""" """ 5 =>""""
+ // IOE_N_OV"""" --> output enable
+ // overirde. when bit is set to
+ // logic '1' IOE_N (bit 4) value
+ // will control IO IOE_N signal else
+ // IOE_N is control via selected HW
+ // logic. strong PULL UP and PULL
+ // Down control is disabled for all
+ // IO's. both controls are tied to
+ // logic level '0'. IODEN and I8MAEN
+ // is diesabled for all development
+ // IO's. These signals are tied to
+ // logic level '0'. common control
+ // is implemented for I2MAEN,
+ // I4MAEN, WKPU, WKPD control .
+ // refer dev_pad_cmn_config register
+ // bits.
+
+#define OCP_SHARED_GPIO_PAD_CONFIG_38_MEM_GPIO_PAD_CONFIG_38_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// OCP_SHARED_O_GPIO_PAD_CONFIG_39 register.
+//
+//******************************************************************************
+#define OCP_SHARED_GPIO_PAD_CONFIG_39_MEM_GPIO_PAD_CONFIG_39_M \
+ 0x0000003F // GPIO 0 register: "Bit 0 - 3 is
+ // used for PAD IO mode selection.
+ // io_register={ "" 0 =>
+ // """"CONFMODE[0]"""""" "" 1 =>
+ // """"CONFMODE[1]"""""" "" 2 =>
+ // """"CONFMODE[2]"""""" "" 3 =>
+ // """"CONFMODE[3]"""" 4 =>
+ // """"IOE_N"""" --> output enable
+ // value. level ‘0’ enables the IDO
+ // to PAD path. Else PAD is
+ // tristated (except for the PU/PD
+ // which are independent)." "Value
+ // gets latched at rising edge of
+ // RET33""" """ 5 =>""""
+ // IOE_N_OV"""" --> output enable
+ // overirde. when bit is set to
+ // logic '1' IOE_N (bit 4) value
+ // will control IO IOE_N signal else
+ // IOE_N is control via selected HW
+ // logic. strong PULL UP and PULL
+ // Down control is disabled for all
+ // IO's. both controls are tied to
+ // logic level '0'. IODEN and I8MAEN
+ // is diesabled for all development
+ // IO's. These signals are tied to
+ // logic level '0'. common control
+ // is implemented for I2MAEN,
+ // I4MAEN, WKPU, WKPD control .
+ // refer dev_pad_cmn_config register
+ // bits.
+
+#define OCP_SHARED_GPIO_PAD_CONFIG_39_MEM_GPIO_PAD_CONFIG_39_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// OCP_SHARED_O_GPIO_PAD_CONFIG_40 register.
+//
+//******************************************************************************
+#define OCP_SHARED_GPIO_PAD_CONFIG_40_MEM_GPIO_PAD_CONFIG_40_M \
+ 0x0007FFFF // GPIO 0 register: "Bit 0 - 3 is
+ // used for PAD IO mode selection.
+ // io_register={ "" 0 =>
+ // """"CONFMODE[0]"""""" "" 1 =>
+ // """"CONFMODE[1]"""""" "" 2 =>
+ // """"CONFMODE[2]"""""" "" 3 =>
+ // """"CONFMODE[3]"""" 4 =>
+ // """"IODEN"""" --> When level ‘1’
+ // this disables the PMOS xtors of
+ // the output stages making them
+ // open-drain type." "For example in
+ // case of I2C Value gets latched at
+ // rising edge of RET33.""" """ 5 =>
+ // """"I2MAEN"""" --> Level ‘1’
+ // enables the approx 2mA output
+ // stage""" """ 6 => """"I4MAEN""""
+ // --> Level ‘1’ enables the approx
+ // 4mA output stage""" """ 7 =>
+ // """"I8MAEN"""" --> Level ‘1’
+ // enables the approx 8mA output
+ // stage. Note: any drive strength
+ // between 2mA and 14mA can be
+ // obtained with combination of 2mA
+ // 4mA and 8mA.""" """ 8 =>
+ // """"IWKPUEN"""" --> 10uA pull up
+ // (weak strength)""" """ 9 =>
+ // """"IWKPDEN"""" --> 10uA pull
+ // down (weak strength)""" """ 10 =>
+ // """"IOE_N"""" --> output enable
+ // value. level ‘0’ enables the IDO
+ // to PAD path. Else PAD is
+ // tristated (except for the PU/PD
+ // which are independent)." "Value
+ // gets latched at rising edge of
+ // RET33""" """ 11 =>""""
+ // IOE_N_OV"""" --> output enable
+ // overirde. when bit is set to
+ // logic '1' IOE_N (bit 4) value
+ // will control IO IOE_N signal else
+ // IOE_N is control via selected HW
+ // logic. strong PULL UP and PULL
+ // Down control is disabled for all
+ // IO's. both controls are tied to
+ // logic level '0'.
+
+#define OCP_SHARED_GPIO_PAD_CONFIG_40_MEM_GPIO_PAD_CONFIG_40_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// OCP_SHARED_O_GPIO_PAD_CMN_CONFIG register.
+//
+//******************************************************************************
+#define OCP_SHARED_GPIO_PAD_CMN_CONFIG_MEM_D2D_ISO_A_EN \
+ 0x00000080 // when '1' enable ISO A control to
+ // D2D Pads else ISO is disabled.
+ // For these PADS to be functional
+ // this signals should be set 0.
+
+#define OCP_SHARED_GPIO_PAD_CMN_CONFIG_MEM_D2D_ISO_Y_EN \
+ 0x00000040 // when '1' enable ISO Y control to
+ // D2D Pads else ISO is disabled.
+ // For these PADS to be functional
+ // this signals should be set 0.
+
+#define OCP_SHARED_GPIO_PAD_CMN_CONFIG_MEM_PAD_JTAG_IDIEN \
+ 0x00000020 // If level ‘1’ enables the PAD to
+ // ODI path for JTAG PADS [PAD 23,
+ // 24, 28, 29]. Else ODI is pulled
+ // ‘Low’ regardless of PAD level."
+ // "Value gets latched at rising
+ // edge of RET33.""" """
+
+#define OCP_SHARED_GPIO_PAD_CMN_CONFIG_MEM_PAD_HYSTVAL_M \
+ 0x00000018 // 00’: hysteriris = 10% of VDDS
+ // (difference between upper and
+ // lower threshold of the schmit
+ // trigger) ‘01’: hysteriris = 20%
+ // of VDDS (difference between upper
+ // and lower threshold of the schmit
+ // trigger) ‘10’: hysteriris = 30%
+ // of VDDS (difference between upper
+ // and lower threshold of the schmit
+ // trigger) ‘11’: hysteriris = 40%
+ // of VDDS (difference between upper
+ // and lower threshold of the schmit
+ // trigger)" """
+
+#define OCP_SHARED_GPIO_PAD_CMN_CONFIG_MEM_PAD_HYSTVAL_S 3
+#define OCP_SHARED_GPIO_PAD_CMN_CONFIG_MEM_PAD_HYSTEN \
+ 0x00000004 // If logic ‘0’ there is no
+ // hysteresis. Set to ‘1’ to enable
+ // hysteresis. Leave the choice to
+ // customers"""
+
+#define OCP_SHARED_GPIO_PAD_CMN_CONFIG_MEM_PAD_IBIASEN \
+ 0x00000002 // Normal functional operation set
+ // this to logic ‘1’ to increase the
+ // speed of the o/p buffer at the
+ // cost of 0.2uA static current
+ // consumption per IO. During IDDQ
+ // test and during Hibernate this
+ // would be forced to logic ‘0’.
+ // Value is not latched at rising
+ // edge of RET33.""
+
+#define OCP_SHARED_GPIO_PAD_CMN_CONFIG_MEM_PAD_IDIEN \
+ 0x00000001 // If level ‘1’ enables the PAD to
+ // ODI path. Else ODI is pulled
+ // ‘Low’ regardless of PAD level."
+ // "Value gets latched at rising
+ // edge of RET33.""" """
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// OCP_SHARED_O_D2D_DEV_PAD_CMN_CONFIG register.
+//
+//******************************************************************************
+#define OCP_SHARED_D2D_DEV_PAD_CMN_CONFIG_MEM_DEV_PAD_CMN_CONF_M \
+ 0x0000003F // this register implements common
+ // IO control to all devement mode
+ // PADs; these PADs are DEV_PAD33 to
+ // DEV_PAD39. Bit [1:0] : Drive
+ // strength control. These 2 bits
+ // are connected to DEV PAD drive
+ // strength control. possible drive
+ // stregnths are 2MA, 4MA and 6 MA
+ // for the these IO's. bit 0: when
+ // set to logic value '1' enable 2MA
+ // drive strength for DEVPAD01 to 07
+ // bit 1: when set to logic value
+ // '1' enable 4MA drive strength for
+ // DEVPAD01 to 07. bit[3:2] : WK
+ // PULL UP and PULL down control.
+ // These 2 bits provide IWKPUEN and
+ // IWKPDEN control for all DEV IO's.
+ // bit 2: when set to logic value
+ // '1' enable WKPU to DEVPAD01 to 07
+ // bit 3: when set to logic value
+ // '1' enable WKPD to DEVPAD01 to
+ // 07. bit 4: WK PULL control for
+ // DEV_PKG_DETECT pin. when '1'
+ // pullup enabled else it is
+ // disable. bit 5: when set to logic
+ // value '1' enable 8MA drive
+ // strength for DEVPAD01 to 07.
+
+#define OCP_SHARED_D2D_DEV_PAD_CMN_CONFIG_MEM_DEV_PAD_CMN_CONF_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// OCP_SHARED_O_D2D_TOSTACK_PAD_CONF register.
+//
+//******************************************************************************
+#define OCP_SHARED_D2D_TOSTACK_PAD_CONF_MEM_D2D_TOSTACK_PAD_CONF_M \
+ 0x1FFFFFFF // OEN/OEN2X control. When 0 : Act
+ // as input buffer else output
+ // buffer with drive strength 2.
+ // this register control OEN2X pin
+ // of D2D TOSTACK PAD: OEN1X and
+ // OEN2X decoding is as follows:
+ // "when ""00"" :" "when ""01"" :
+ // dirve strength is '1' and output
+ // buffer enabled." "when ""10"" :
+ // drive strength is 2 and output
+ // buffer is disabled." "when ""11""
+ // : dirve strength is '3' and
+ // output buffer enabled."
+
+#define OCP_SHARED_D2D_TOSTACK_PAD_CONF_MEM_D2D_TOSTACK_PAD_CONF_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// OCP_SHARED_O_D2D_MISC_PAD_CONF register.
+//
+//******************************************************************************
+#define OCP_SHARED_D2D_MISC_PAD_CONF_MEM_D2D_POR_RESET_N \
+ 0x00000200 // This register provide OEN2X
+ // control to D2D PADS OEN/OEN2X
+ // control. When 0 : Act as input
+ // buffer else output buffer with
+ // drive strength 2.
+
+#define OCP_SHARED_D2D_MISC_PAD_CONF_MEM_D2D_RESET_N \
+ 0x00000100 // OEN/OEN2X control. When 0 : Act
+ // as input buffer else output
+ // buffer with drive strength 2.
+
+#define OCP_SHARED_D2D_MISC_PAD_CONF_MEM_D2D_HCLK \
+ 0x00000080 // OEN/OEN2X control. When 0 : Act
+ // as input buffer else output
+ // buffer with drive strength 2.
+
+#define OCP_SHARED_D2D_MISC_PAD_CONF_MEM_D2D_JTAG_TCK \
+ 0x00000040 // OEN/OEN2X control. When 0 : Act
+ // as input buffer else output
+ // buffer with drive strength 2.
+
+#define OCP_SHARED_D2D_MISC_PAD_CONF_MEM_D2D_JTAG_TMS \
+ 0x00000020 // OEN/OEN2X control. When 0 : Act
+ // as input buffer else output
+ // buffer with drive strength 2.
+
+#define OCP_SHARED_D2D_MISC_PAD_CONF_MEM_D2D_JTAG_TDI \
+ 0x00000010 // OEN/OEN2X control. When 0 : Act
+ // as input buffer else output
+ // buffer with drive strength 2.
+
+#define OCP_SHARED_D2D_MISC_PAD_CONF_MEM_D2D_PIOSC \
+ 0x00000008 // OEN/OEN2X control. When 0 : Act
+ // as input buffer else output
+ // buffer with drive strength 2.
+
+#define OCP_SHARED_D2D_MISC_PAD_CONF_MEM_D2D_SPARE_M \
+ 0x00000007 // D2D SPARE PAD OEN/OEN2X control.
+ // When 0: Act as input buffer else
+ // output buffer with drive strength
+ // 2.
+
+#define OCP_SHARED_D2D_MISC_PAD_CONF_MEM_D2D_SPARE_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// OCP_SHARED_O_SOP_CONF_OVERRIDE register.
+//
+//******************************************************************************
+#define OCP_SHARED_SOP_CONF_OVERRIDE_MEM_SOP_CONF_OVERRIDE \
+ 0x00000001 // when '1' : signal will ovberride
+ // SoP setting of JTAG PADS. when
+ // '0': SoP setting will control
+ // JTAG PADs [ TDI, TDO, TMS, TCK]
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// OCP_SHARED_O_CC3XX_DEBUGSS_STATUS register.
+//
+//******************************************************************************
+#define OCP_SHARED_CC3XX_DEBUGSS_STATUS_APPS_MCU_JTAGNSW \
+ 0x00000020 // This register contains debug
+ // subsystem status bits From APPS
+ // MCU status bit to indicates
+ // whether serial wire or 4 pins
+ // jtag select.
+
+#define OCP_SHARED_CC3XX_DEBUGSS_STATUS_CJTAG_BYPASS_STATUS \
+ 0x00000010 // cjtag bypass bit select
+
+#define OCP_SHARED_CC3XX_DEBUGSS_STATUS_SW_INTERFACE_SEL_STATUS \
+ 0x00000008 // serial wire interface bit select
+
+#define OCP_SHARED_CC3XX_DEBUGSS_STATUS_APPS_TAP_ENABLE_STATUS \
+ 0x00000004 // apps tap enable status
+
+#define OCP_SHARED_CC3XX_DEBUGSS_STATUS_TAPS_ENABLE_STATUS \
+ 0x00000002 // tap enable status
+
+#define OCP_SHARED_CC3XX_DEBUGSS_STATUS_SSBD_UNLOCK \
+ 0x00000001 // ssbd unlock status
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// OCP_SHARED_O_CC3XX_DEBUGMUX_SEL register.
+//
+//******************************************************************************
+#define OCP_SHARED_CC3XX_DEBUGMUX_SEL_MEM_CC3XX_DEBUGMUX_SEL_M \
+ 0x0000FFFF // debug mux select register. Upper
+ // 8 bits are used for debug module
+ // selection. Lower 8 bit [7:0] used
+ // inside debug module for selecting
+ // module specific signals.
+ // Bits[15:8: when set x"00" : GPRCM
+ // debug bus. When "o1" : SDIO debug
+ // debug bus when x"02" :
+ // autonoumous SPI when x"03" :
+ // TOPIC when x"04": memss when
+ // x"25": mcu debug bus : APPS debug
+ // when x"45": mcu debug bus : NWP
+ // debug when x"65": mcu debug bus :
+ // AHB2VBUS debug when x"85": mcu
+ // debug bus : VBUS2HAB debug when
+ // x"95": mcu debug bus : RCM debug
+ // when x"A5": mcu debug bus :
+ // crypto debug when x"06": WLAN
+ // debug bus when x"07": debugss bus
+ // when x"08": ADC debug when x"09":
+ // SDIO PHY debug bus then "others"
+ // : no debug is selected
+
+#define OCP_SHARED_CC3XX_DEBUGMUX_SEL_MEM_CC3XX_DEBUGMUX_SEL_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// OCP_SHARED_O_ALT_PC_VAL_NW register.
+//
+//******************************************************************************
+#define OCP_SHARED_ALT_PC_VAL_NW_MEM_ALT_PC_VAL_NW_M \
+ 0xFFFFFFFF // 32 bit. Program counter value
+ // for 0x4 address when Alt_pc_en_nw
+ // is set.
+
+#define OCP_SHARED_ALT_PC_VAL_NW_MEM_ALT_PC_VAL_NW_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// OCP_SHARED_O_ALT_PC_VAL_APPS register.
+//
+//******************************************************************************
+#define OCP_SHARED_ALT_PC_VAL_APPS_MEM_ALT_PC_VAL_APPS_M \
+ 0xFFFFFFFF // 32 bit. Program counter value
+ // for 0x4 address when
+ // Alt_pc_en_apps is set
+
+#define OCP_SHARED_ALT_PC_VAL_APPS_MEM_ALT_PC_VAL_APPS_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// OCP_SHARED_O_SPARE_REG_4 register.
+//
+//******************************************************************************
+#define OCP_SHARED_SPARE_REG_4_MEM_SPARE_REG_4_M \
+ 0xFFFFFFFE // HW register
+
+#define OCP_SHARED_SPARE_REG_4_MEM_SPARE_REG_4_S 1
+#define OCP_SHARED_SPARE_REG_4_INVERT_D2D_INTERFACE \
+ 0x00000001 // Data to the top die launched at
+ // negative edge instead of positive
+ // edge.
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// OCP_SHARED_O_SPARE_REG_5 register.
+//
+//******************************************************************************
+#define OCP_SHARED_SPARE_REG_5_MEM_SPARE_REG_5_M \
+ 0xFFFFFFFF // HW register
+
+#define OCP_SHARED_SPARE_REG_5_MEM_SPARE_REG_5_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// OCP_SHARED_O_SH_SPI_CS_MASK register.
+//
+//******************************************************************************
+#define OCP_SHARED_SH_SPI_CS_MASK_MEM_SH_SPI_CS_MASK_M \
+ 0x0000000F // ( chip select 0 is unmasked
+ // after reset. When ‘1’ : CS is
+ // unmasked or else masked. Valid
+ // configurations are 1000, 0100,
+ // 0010 or 0001. Any other setting
+ // can lead to unpredictable
+ // behavior.
+
+#define OCP_SHARED_SH_SPI_CS_MASK_MEM_SH_SPI_CS_MASK_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// OCP_SHARED_O_CC3XX_DEVICE_TYPE register.
+//
+//******************************************************************************
+#define OCP_SHARED_CC3XX_DEVICE_TYPE_DEVICE_TYPE_reserved_M \
+ 0x00000060 // reserved bits tied off "00".
+
+#define OCP_SHARED_CC3XX_DEVICE_TYPE_DEVICE_TYPE_reserved_S 5
+#define OCP_SHARED_CC3XX_DEVICE_TYPE_DEVICE_TYPE_M \
+ 0x0000001F // CC3XX Device type information.
+
+#define OCP_SHARED_CC3XX_DEVICE_TYPE_DEVICE_TYPE_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// OCP_SHARED_O_MEM_TOPMUXCTRL_IFORCE register.
+//
+//******************************************************************************
+#define OCP_SHARED_MEM_TOPMUXCTRL_IFORCE_MEM_TOPMUXCTRL_IFORCE1_M \
+ 0x000000F0 // [4] 1: switch between
+ // WLAN_I2C_SCL and
+ // TOP_GPIO_PORT4_I2C closes 0:
+ // switch opens [5] 1: switch
+ // between WLAN_I2C_SCL and
+ // TOP_VSENSE_PORT closes 0: switch
+ // opens [6] 1: switch between
+ // WLAN_I2C_SCL and WLAN_ANA_TP4
+ // closes 0: switch opens [7]
+ // Reserved
+
+#define OCP_SHARED_MEM_TOPMUXCTRL_IFORCE_MEM_TOPMUXCTRL_IFORCE1_S 4
+#define OCP_SHARED_MEM_TOPMUXCTRL_IFORCE_MEM_TOPMUXCTRL_IFORCE_M \
+ 0x0000000F // [0] 1: switch between
+ // WLAN_I2C_SDA and
+ // TOP_GPIO_PORT3_I2C closes 0:
+ // switch opens [1] 1: switch
+ // between WLAN_I2C_SDA and
+ // TOP_IFORCE_PORT closes 0: switch
+ // opens [2] 1: switch between
+ // WLAN_I2C_SDA and WLAN_ANA_TP3
+ // closes 0: switch opens [3]
+ // Reserved
+
+#define OCP_SHARED_MEM_TOPMUXCTRL_IFORCE_MEM_TOPMUXCTRL_IFORCE_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// OCP_SHARED_O_CC3XX_DEV_PACKAGE_DETECT register.
+//
+//******************************************************************************
+#define OCP_SHARED_CC3XX_DEV_PACKAGE_DETECT_DEV_PKG_DETECT \
+ 0x00000001 // when '0' indicates package type
+ // is development.
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// OCP_SHARED_O_AUTONMS_SPICLK_SEL register.
+//
+//******************************************************************************
+#define OCP_SHARED_AUTONMS_SPICLK_SEL_MEM_AUTONOMOUS_BYPASS \
+ 0x00000002 // This bit is used to bypass MCPSI
+ // autonomous mode .if this bit is 1
+ // autonomous MCSPI logic will be
+ // bypassed and it will act as link
+ // SPI
+
+#define OCP_SHARED_AUTONMS_SPICLK_SEL_MEM_AUTONMS_SPICLK_SEL \
+ 0x00000001 // This bit is used in SPI
+ // Autonomous mode to switch clock
+ // from system clock to SPI clk that
+ // is coming from PAD. When value 1
+ // PAD SPI clk is used as system
+ // clock in LPDS mode by SPI as well
+ // as autonomous wrapper logic.
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// OCP_SHARED_O_CC3XX_DEV_PADCONF register.
+//
+//******************************************************************************
+#define OCP_SHARED_CC3XX_DEV_PADCONF_MEM_CC3XX_DEV_PADCONF_M \
+ 0x0000FFFF
+
+#define OCP_SHARED_CC3XX_DEV_PADCONF_MEM_CC3XX_DEV_PADCONF_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// OCP_SHARED_O_IDMEM_TIM_UPDATE register.
+//
+//******************************************************************************
+#define OCP_SHARED_IDMEM_TIM_UPDATE_MEM_IDMEM_TIM_UPDATE_M \
+ 0xFFFFFFFF
+
+#define OCP_SHARED_IDMEM_TIM_UPDATE_MEM_IDMEM_TIM_UPDATE_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// OCP_SHARED_O_SPARE_REG_6 register.
+//
+//******************************************************************************
+#define OCP_SHARED_SPARE_REG_6_MEM_SPARE_REG_6_M \
+ 0xFFFFFFFF // NWP Software register
+
+#define OCP_SHARED_SPARE_REG_6_MEM_SPARE_REG_6_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// OCP_SHARED_O_SPARE_REG_7 register.
+//
+//******************************************************************************
+#define OCP_SHARED_SPARE_REG_7_MEM_SPARE_REG_7_M \
+ 0xFFFFFFFF // NWP Software register
+
+#define OCP_SHARED_SPARE_REG_7_MEM_SPARE_REG_7_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// OCP_SHARED_O_APPS_WLAN_ORBIT register.
+//
+//******************************************************************************
+#define OCP_SHARED_APPS_WLAN_ORBIT_mem_orbit_spare_M \
+ 0xFFFFFC00 // Spare bit
+
+#define OCP_SHARED_APPS_WLAN_ORBIT_mem_orbit_spare_S 10
+#define OCP_SHARED_APPS_WLAN_ORBIT_mem_orbit_test_status \
+ 0x00000200 // A rising edge on this bit
+ // indicates that the test case
+ // passes. This bit would be brought
+ // out on the pin interface during
+ // ORBIT.
+
+#define OCP_SHARED_APPS_WLAN_ORBIT_mem_orbit_test_exec \
+ 0x00000100 // This register bit is writable by
+ // the FW and when set to 1 it
+ // indicates the start of a test
+ // execution. A failing edge on this
+ // bit indicates that the test
+ // execution is complete. This bit
+ // would be brought out on the pin
+ // interface during ORBIT.
+
+#define OCP_SHARED_APPS_WLAN_ORBIT_mem_orbit_test_id_M \
+ 0x000000FC // Implies the test case ID that
+ // needs to run.
+
+#define OCP_SHARED_APPS_WLAN_ORBIT_mem_orbit_test_id_S 2
+#define OCP_SHARED_APPS_WLAN_ORBIT_mem_orbit_halt_proc \
+ 0x00000002 // This bit is used to trigger the
+ // execution of test cases within
+ // the (ROM based) IP.
+
+#define OCP_SHARED_APPS_WLAN_ORBIT_mem_orbit_test_mode \
+ 0x00000001 // When this bit is 1 it implies
+ // ORBIT mode of operation and the
+ // (ROM based) IP start the
+ // execution from a test case
+ // perspective
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// OCP_SHARED_O_APPS_WLAN_SCRATCH_PAD register.
+//
+//******************************************************************************
+#define OCP_SHARED_APPS_WLAN_SCRATCH_PAD_MEM_APPS_WLAN_SCRATCH_PAD_M \
+ 0xFFFFFFFF // scratch pad register.
+
+#define OCP_SHARED_APPS_WLAN_SCRATCH_PAD_MEM_APPS_WLAN_SCRATCH_PAD_S 0
+
+
+
+#endif // __HW_OCP_SHARED_H__
diff --git a/cc3200/hal/inc/hw_shamd5.h b/cc3200/hal/inc/hw_shamd5.h
new file mode 100644
index 000000000..cf6254f5d
--- /dev/null
+++ b/cc3200/hal/inc/hw_shamd5.h
@@ -0,0 +1,1242 @@
+//*****************************************************************************
+//
+// Copyright (C) 2014 Texas Instruments Incorporated - http://www.ti.com/
+//
+//
+// Redistribution and use in source and binary forms, with or without
+// modification, are permitted provided that the following conditions
+// are met:
+//
+// Redistributions of source code must retain the above copyright
+// notice, this list of conditions and the following disclaimer.
+//
+// Redistributions in binary form must reproduce the above copyright
+// notice, this list of conditions and the following disclaimer in the
+// documentation and/or other materials provided with the
+// distribution.
+//
+// Neither the name of Texas Instruments Incorporated nor the names of
+// its contributors may be used to endorse or promote products derived
+// from this software without specific prior written permission.
+//
+// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
+// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
+// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
+// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
+// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
+// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
+// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
+// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
+// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
+// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
+// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+//
+//*****************************************************************************
+
+#ifndef __HW_SHAMD5_H__
+#define __HW_SHAMD5_H__
+
+//*****************************************************************************
+//
+// The following are defines for the SHAMD5_P register offsets.
+//
+//*****************************************************************************
+#define SHAMD5_O_ODIGEST_A 0x00000000 // WRITE: Outer Digest [127:96] for
+ // MD5 [159:128] for SHA-1 [255:224]
+ // for SHA-2 / HMAC Key [31:0] for
+ // HMAC key proc READ: Outer Digest
+ // [127:96] for MD5 [159:128] for
+ // SHA-1 [255:224] for SHA-2
+#define SHAMD5_O_ODIGEST_B 0x00000004 // WRITE: Outer Digest [95:64] for
+ // MD5 [127:96] for SHA-1 [223:192]
+ // for SHA-2 / HMAC Key [63:32] for
+ // HMAC key proc READ: Outer Digest
+ // [95:64] for MD5 [127:96] for
+ // SHA-1 [223:192] for SHA-2
+#define SHAMD5_O_ODIGEST_C 0x00000008 // WRITE: Outer Digest [63:32] for
+ // MD5 [95:64] for SHA-1 [191:160]
+ // for SHA-2 / HMAC Key [95:64] for
+ // HMAC key proc READ: Outer Digest
+ // [63:32] for MD5 [95:64] for SHA-1
+ // [191:160] for SHA-2
+#define SHAMD5_O_ODIGEST_D 0x0000000C // WRITE: Outer Digest [31:0] for
+ // MD5 [63:31] for SHA-1 [159:128]
+ // for SHA-2 / HMAC Key [127:96] for
+ // HMAC key proc READ: Outer Digest
+ // [31:0] for MD5 [63:32] for SHA-1
+ // [159:128] for SHA-2
+#define SHAMD5_O_ODIGEST_E 0x00000010 // WRITE: Outer Digest [31:0] for
+ // SHA-1 [127:96] for SHA-2 / HMAC
+ // Key [159:128] for HMAC key proc
+ // READ: Outer Digest [31:0] for
+ // SHA-1 [127:96] for SHA-2
+#define SHAMD5_O_ODIGEST_F 0x00000014 // WRITE: Outer Digest [95:64] for
+ // SHA-2 / HMAC Key [191:160] for
+ // HMAC key proc READ: Outer Digest
+ // [95:64] for SHA-2
+#define SHAMD5_O_ODIGEST_G 0x00000018 // WRITE: Outer Digest [63:32] for
+ // SHA-2 / HMAC Key [223:192] for
+ // HMAC key proc READ: Outer Digest
+ // [63:32] for SHA-2
+#define SHAMD5_O_ODIGEST_H 0x0000001C // WRITE: Outer Digest [31:0] for
+ // SHA-2 / HMAC Key [255:224] for
+ // HMAC key proc READ: Outer Digest
+ // [31:0] for SHA-2
+#define SHAMD5_O_IDIGEST_A 0x00000020 // WRITE: Inner / Initial Digest
+ // [127:96] for MD5 [159:128] for
+ // SHA-1 [255:224] for SHA-2 / HMAC
+ // Key [287:256] for HMAC key proc
+ // READ: Intermediate / Inner Digest
+ // [127:96] for MD5 [159:128] for
+ // SHA-1 [255:224] for SHA-2 /
+ // Result Digest/MAC [127:96] for
+ // MD5 [159:128] for SHA-1 [223:192]
+ // for SHA-2 224 [255:224] for SHA-2
+ // 256
+#define SHAMD5_O_IDIGEST_B 0x00000024 // WRITE: Inner / Initial Digest
+ // [95:64] for MD5 [127:96] for
+ // SHA-1 [223:192] for SHA-2 / HMAC
+ // Key [319:288] for HMAC key proc
+ // READ: Intermediate / Inner Digest
+ // [95:64] for MD5 [127:96] for
+ // SHA-1 [223:192] for SHA-2 /
+ // Result Digest/MAC [95:64] for MD5
+ // [127:96] for SHA-1 [191:160] for
+ // SHA-2 224 [223:192] for SHA-2 256
+#define SHAMD5_O_IDIGEST_C 0x00000028 // WRITE: Inner / Initial Digest
+ // [63:32] for MD5 [95:64] for SHA-1
+ // [191:160] for SHA- 2 / HMAC Key
+ // [351:320] for HMAC key proc READ:
+ // Intermediate / Inner Digest
+ // [63:32] for MD5 [95:64] for SHA-1
+ // [191:160] for SHA-2 / Result
+ // Digest/MAC [63:32] for MD5
+ // [95:64] for SHA-1 [159:128] for
+ // SHA-2 224 [191:160] for SHA-2 256
+#define SHAMD5_O_IDIGEST_D 0x0000002C // WRITE: Inner / Initial Digest
+ // [31:0] for MD5 [63:32] for SHA-1
+ // [159:128] for SHA-2 / HMAC Key
+ // [383:352] for HMAC key proc READ:
+ // Intermediate / Inner Digest
+ // [31:0] for MD5 [63:32] for SHA-1
+ // [159:128] for SHA-2 / Result
+ // Digest/MAC [31:0] for MD5 [63:32]
+ // for SHA-1 [127:96] for SHA-2 224
+ // [159:128] for SHA-2 256
+#define SHAMD5_O_IDIGEST_E 0x00000030 // WRITE: Inner / Initial Digest
+ // [31:0] for SHA-1 [127:96] for
+ // SHA-2 / HMAC Key [415:384] for
+ // HMAC key proc READ: Intermediate
+ // / Inner Digest [31:0] for SHA-1
+ // [127:96] for SHA-2 / Result
+ // Digest/MAC [31:0] for SHA-1
+ // [95:64] for SHA-2 224 [127:96]
+ // for SHA-2 256
+#define SHAMD5_O_IDIGEST_F 0x00000034 // WRITE: Inner / Initial Digest
+ // [95:64] for SHA-2 / HMAC Key
+ // [447:416] for HMAC key proc READ:
+ // Intermediate / Inner Digest
+ // [95:64] for SHA-2 / Result
+ // Digest/MAC [63:32] for SHA-2 224
+ // [95:64] for SHA-2 256
+#define SHAMD5_O_IDIGEST_G 0x00000038 // WRITE: Inner / Initial Digest
+ // [63:32] for SHA-2 / HMAC Key
+ // [479:448] for HMAC key proc READ:
+ // Intermediate / Inner Digest
+ // [63:32] for SHA-2 / Result
+ // Digest/MAC [31:0] for SHA-2 224
+ // [63:32] for SHA-2 256
+#define SHAMD5_O_IDIGEST_H 0x0000003C // WRITE: Inner / Initial Digest
+ // [31:0] for SHA-2 / HMAC Key
+ // [511:480] for HMAC key proc READ:
+ // Intermediate / Inner Digest
+ // [31:0] for SHA-2 / Result
+ // Digest/MAC [31:0] for SHA-2 256
+#define SHAMD5_O_DIGEST_COUNT 0x00000040 // WRITE: Initial Digest Count
+ // ([31:6] only [5:0] assumed 0)
+ // READ: Result / IntermediateDigest
+ // Count The initial digest byte
+ // count for hash/HMAC continue
+ // operations (HMAC Key Processing =
+ // 0 and Use Algorithm Constants =
+ // 0) on the Secure World must be
+ // written to this register prior to
+ // starting the operation by writing
+ // to S_HASH_MODE. When either HMAC
+ // Key Processing is 1 or Use
+ // Algorithm Constants is 1 this
+ // register does not need to be
+ // written it will be overwritten
+ // with 64 (1 hash block of key XOR
+ // ipad) or 0 respectively
+ // automatically. When starting a
+ // HMAC operation from pre-computes
+ // (HMAC Key Processing is 0) then
+ // the value 64 must be written here
+ // to compensate for the appended
+ // key XOR ipad block. Note that the
+ // value written should always be a
+ // 64 byte multiple the lower 6 bits
+ // written are ignored. The updated
+ // digest byte count (initial digest
+ // byte count + bytes processed) can
+ // be read from this register when
+ // the status register indicates
+ // that the operation is done or
+ // suspended due to a context switch
+ // request or when a Secure World
+ // context out DMA is requested. In
+ // Advanced DMA mode when not
+ // suspended with a partial result
+ // reading the SHAMD5_DIGEST_COUNT
+ // register triggers the Hash/HMAC
+ // Engine to start the next context
+ // input DMA. Therefore reading the
+ // SHAMD5_DIGEST_COUNT register
+ // should always be the last
+ // context-read action if not
+ // suspended with a partial result
+ // (i.e. PartHashReady interrupt not
+ // pending).
+#define SHAMD5_O_MODE 0x00000044 // Register SHAMD5_MODE
+#define SHAMD5_O_LENGTH 0x00000048 // WRITE: Block Length / Remaining
+ // Byte Count (bytes) READ:
+ // Remaining Byte Count. The value
+ // programmed MUST be a 64-byte
+ // multiple if Close Hash is set to
+ // 0. This register is also the
+ // trigger to start processing: once
+ // this register is written the core
+ // will commence requesting input
+ // data via DMA or IRQ (if
+ // programmed length > 0) and start
+ // processing. The remaining byte
+ // count for the active operation
+ // can be read from this register
+ // when the interrupt status
+ // register indicates that the
+ // operation is suspended due to a
+ // context switch request.
+#define SHAMD5_O_DATA0_IN 0x00000080 // Data input message 0
+#define SHAMD5_O_DATA1_IN 0x00000084 // Data input message 1
+#define SHAMD5_O_DATA2_IN 0x00000088 // Data input message 2
+#define SHAMD5_O_DATA3_IN 0x0000008C // Data input message 3
+#define SHAMD5_O_DATA4_IN 0x00000090 // Data input message 4
+#define SHAMD5_O_DATA5_IN 0x00000094 // Data input message 5
+#define SHAMD5_O_DATA6_IN 0x00000098 // Data input message 6
+#define SHAMD5_O_DATA7_IN 0x0000009C // Data input message 7
+#define SHAMD5_O_DATA8_IN 0x000000A0 // Data input message 8
+#define SHAMD5_O_DATA9_IN 0x000000A4 // Data input message 9
+#define SHAMD5_O_DATA10_IN 0x000000A8 // Data input message 10
+#define SHAMD5_O_DATA11_IN 0x000000AC // Data input message 11
+#define SHAMD5_O_DATA12_IN 0x000000B0 // Data input message 12
+#define SHAMD5_O_DATA13_IN 0x000000B4 // Data input message 13
+#define SHAMD5_O_DATA14_IN 0x000000B8 // Data input message 14
+#define SHAMD5_O_DATA15_IN 0x000000BC // Data input message 15
+#define SHAMD5_O_REVISION 0x00000100 // Register SHAMD5_REV
+#define SHAMD5_O_SYSCONFIG 0x00000110 // Register SHAMD5_SYSCONFIG
+#define SHAMD5_O_SYSSTATUS 0x00000114 // Register SHAMD5_SYSSTATUS
+#define SHAMD5_O_IRQSTATUS 0x00000118 // Register SHAMD5_IRQSTATUS
+#define SHAMD5_O_IRQENABLE 0x0000011C // Register SHAMD5_IRQENABLE. The
+ // SHAMD5_IRQENABLE register contains
+ // an enable bit for each unique
+ // interrupt for the public side. An
+ // interrupt is enabled when both
+ // the global enable in
+ // SHAMD5_SYSCONFIG (PIT_en) and the
+ // bit in this register are both set
+ // to 1. An interrupt that is
+ // enabled is propagated to the
+ // SINTREQUEST_P output. Please note
+ // that the dedicated partial hash
+ // output (SINTREQUEST_PART_P) is
+ // not affected by this register it
+ // is only affected by the global
+ // enable SHAMD5_SYSCONFIG (PIT_en).
+#define SHAMD5_O_HASH512_ODIGEST_A \
+ 0x00000200
+
+#define SHAMD5_O_HASH512_ODIGEST_B \
+ 0x00000204
+
+#define SHAMD5_O_HASH512_ODIGEST_C \
+ 0x00000208
+
+#define SHAMD5_O_HASH512_ODIGEST_D \
+ 0x0000020C
+
+#define SHAMD5_O_HASH512_ODIGEST_E \
+ 0x00000210
+
+#define SHAMD5_O_HASH512_ODIGEST_F \
+ 0x00000214
+
+#define SHAMD5_O_HASH512_ODIGEST_G \
+ 0x00000218
+
+#define SHAMD5_O_HASH512_ODIGEST_H \
+ 0x0000021C
+
+#define SHAMD5_O_HASH512_ODIGEST_I \
+ 0x00000220
+
+#define SHAMD5_O_HASH512_ODIGEST_J \
+ 0x00000224
+
+#define SHAMD5_O_HASH512_ODIGEST_K \
+ 0x00000228
+
+#define SHAMD5_O_HASH512_ODIGEST_L \
+ 0x0000022C
+
+#define SHAMD5_O_HASH512_ODIGEST_M \
+ 0x00000230
+
+#define SHAMD5_O_HASH512_ODIGEST_N \
+ 0x00000234
+
+#define SHAMD5_O_HASH512_ODIGEST_O \
+ 0x00000238
+
+#define SHAMD5_O_HASH512_ODIGEST_P \
+ 0x0000023C
+
+#define SHAMD5_O_HASH512_IDIGEST_A \
+ 0x00000240
+
+#define SHAMD5_O_HASH512_IDIGEST_B \
+ 0x00000244
+
+#define SHAMD5_O_HASH512_IDIGEST_C \
+ 0x00000248
+
+#define SHAMD5_O_HASH512_IDIGEST_D \
+ 0x0000024C
+
+#define SHAMD5_O_HASH512_IDIGEST_E \
+ 0x00000250
+
+#define SHAMD5_O_HASH512_IDIGEST_F \
+ 0x00000254
+
+#define SHAMD5_O_HASH512_IDIGEST_G \
+ 0x00000258
+
+#define SHAMD5_O_HASH512_IDIGEST_H \
+ 0x0000025C
+
+#define SHAMD5_O_HASH512_IDIGEST_I \
+ 0x00000260
+
+#define SHAMD5_O_HASH512_IDIGEST_J \
+ 0x00000264
+
+#define SHAMD5_O_HASH512_IDIGEST_K \
+ 0x00000268
+
+#define SHAMD5_O_HASH512_IDIGEST_L \
+ 0x0000026C
+
+#define SHAMD5_O_HASH512_IDIGEST_M \
+ 0x00000270
+
+#define SHAMD5_O_HASH512_IDIGEST_N \
+ 0x00000274
+
+#define SHAMD5_O_HASH512_IDIGEST_O \
+ 0x00000278
+
+#define SHAMD5_O_HASH512_IDIGEST_P \
+ 0x0000027C
+
+#define SHAMD5_O_HASH512_DIGEST_COUNT \
+ 0x00000280
+
+#define SHAMD5_O_HASH512_MODE 0x00000284
+#define SHAMD5_O_HASH512_LENGTH 0x00000288
+
+
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the SHAMD5_O_ODIGEST_A register.
+//
+//******************************************************************************
+#define SHAMD5_ODIGEST_A_DATA_M 0xFFFFFFFF // data
+#define SHAMD5_ODIGEST_A_DATA_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the SHAMD5_O_ODIGEST_B register.
+//
+//******************************************************************************
+#define SHAMD5_ODIGEST_B_DATA_M 0xFFFFFFFF // data
+#define SHAMD5_ODIGEST_B_DATA_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the SHAMD5_O_ODIGEST_C register.
+//
+//******************************************************************************
+#define SHAMD5_ODIGEST_C_DATA_M 0xFFFFFFFF // data
+#define SHAMD5_ODIGEST_C_DATA_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the SHAMD5_O_ODIGEST_D register.
+//
+//******************************************************************************
+#define SHAMD5_ODIGEST_D_DATA_M 0xFFFFFFFF // data
+#define SHAMD5_ODIGEST_D_DATA_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the SHAMD5_O_ODIGEST_E register.
+//
+//******************************************************************************
+#define SHAMD5_ODIGEST_E_DATA_M 0xFFFFFFFF // data
+#define SHAMD5_ODIGEST_E_DATA_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the SHAMD5_O_ODIGEST_F register.
+//
+//******************************************************************************
+#define SHAMD5_ODIGEST_F_DATA_M 0xFFFFFFFF // data
+#define SHAMD5_ODIGEST_F_DATA_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the SHAMD5_O_ODIGEST_G register.
+//
+//******************************************************************************
+#define SHAMD5_ODIGEST_G_DATA_M 0xFFFFFFFF // data
+#define SHAMD5_ODIGEST_G_DATA_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the SHAMD5_O_ODIGEST_H register.
+//
+//******************************************************************************
+#define SHAMD5_ODIGEST_H_DATA_M 0xFFFFFFFF // data
+#define SHAMD5_ODIGEST_H_DATA_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the SHAMD5_O_IDIGEST_A register.
+//
+//******************************************************************************
+#define SHAMD5_IDIGEST_A_DATA_M 0xFFFFFFFF // data
+#define SHAMD5_IDIGEST_A_DATA_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the SHAMD5_O_IDIGEST_B register.
+//
+//******************************************************************************
+#define SHAMD5_IDIGEST_B_DATA_M 0xFFFFFFFF // data
+#define SHAMD5_IDIGEST_B_DATA_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the SHAMD5_O_IDIGEST_C register.
+//
+//******************************************************************************
+#define SHAMD5_IDIGEST_C_DATA_M 0xFFFFFFFF // data
+#define SHAMD5_IDIGEST_C_DATA_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the SHAMD5_O_IDIGEST_D register.
+//
+//******************************************************************************
+#define SHAMD5_IDIGEST_D_DATA_M 0xFFFFFFFF // data
+#define SHAMD5_IDIGEST_D_DATA_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the SHAMD5_O_IDIGEST_E register.
+//
+//******************************************************************************
+#define SHAMD5_IDIGEST_E_DATA_M 0xFFFFFFFF // data
+#define SHAMD5_IDIGEST_E_DATA_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the SHAMD5_O_IDIGEST_F register.
+//
+//******************************************************************************
+#define SHAMD5_IDIGEST_F_DATA_M 0xFFFFFFFF // data
+#define SHAMD5_IDIGEST_F_DATA_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the SHAMD5_O_IDIGEST_G register.
+//
+//******************************************************************************
+#define SHAMD5_IDIGEST_G_DATA_M 0xFFFFFFFF // data
+#define SHAMD5_IDIGEST_G_DATA_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the SHAMD5_O_IDIGEST_H register.
+//
+//******************************************************************************
+#define SHAMD5_IDIGEST_H_DATA_M 0xFFFFFFFF // data
+#define SHAMD5_IDIGEST_H_DATA_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// SHAMD5_O_DIGEST_COUNT register.
+//
+//******************************************************************************
+#define SHAMD5_DIGEST_COUNT_DATA_M \
+ 0xFFFFFFFF // data
+
+#define SHAMD5_DIGEST_COUNT_DATA_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the SHAMD5_O_MODE register.
+//
+//******************************************************************************
+#define SHAMD5_MODE_HMAC_OUTER_HASH \
+ 0x00000080 // The HMAC Outer Hash is performed
+ // on the hash digest when the inner
+ // hash hash finished (block length
+ // exhausted and final hash
+ // performed if close_hash is 1).
+ // This bit should normally be set
+ // together with close_hash to
+ // finish the inner hash first or
+ // Block Length should be zero (HMAC
+ // continue with the just outer hash
+ // to be done). Auto cleared
+ // internally when outer hash
+ // performed. 0 No operation 1 hmac
+ // processing
+
+#define SHAMD5_MODE_HMAC_KEY_PROC \
+ 0x00000020 // Performs HMAC key processing on
+ // the 512 bit HMAC key loaded into
+ // the SHAMD5_IDIGEST_{A to H} and
+ // SHAMD5_ODIGEST_{A to H} register
+ // block. Once HMAC key processing
+ // is finished this bit is
+ // automatically cleared and the
+ // resulting Inner and Outer digest
+ // is available from
+ // SHAMD5_IDIGEST_{A to H} and
+ // SHAMD5_ODIGEST_{A to H}
+ // respectively after which regular
+ // hash processing (using
+ // SHAMD5_IDIGEST_{A to H} as initial
+ // digest) will commence until the
+ // Block Length is exhausted. 0 No
+ // operation. 1 Hmac processing.
+
+#define SHAMD5_MODE_CLOSE_HASH 0x00000010 // Performs the padding the
+ // hash/HMAC will be 'closed' at the
+ // end of the block as per
+ // MD5/SHA-1/SHA-2 specification
+ // (i.e. appropriate padding is
+ // added) or no padding is done
+ // allowing the hash to be continued
+ // later. However if the hash/HMAC
+ // is not closed then the Block
+ // Length MUST be a multiple of 64
+ // bytes to ensure correct
+ // operation. Auto cleared
+ // internally when hash closed. 0 No
+ // padding hash computation can be
+ // contimued. 1 Last packet will be
+ // padded.
+#define SHAMD5_MODE_ALGO_CONSTANT \
+ 0x00000008 // The initial digest register will
+ // be overwritten with the algorithm
+ // constants for the selected
+ // algorithm when hashing and the
+ // initial digest count register
+ // will be reset to 0. This will
+ // start a normal hash operation.
+ // When continuing an existing hash
+ // or when performing an HMAC
+ // operation this register must be
+ // set to 0 and the
+ // intermediate/inner digest or HMAC
+ // key and digest count need to be
+ // written to the context input
+ // registers prior to writing
+ // SHAMD5_MODE. Auto cleared
+ // internally after first block
+ // processed. 0 Use pre-calculated
+ // digest (from an other operation)
+ // 1 Use constants of the selected
+ // algo.
+
+#define SHAMD5_MODE_ALGO_M 0x00000006 // These bits select the hash
+ // algorithm to be used for
+ // processing: 0x0 md5_128 algorithm
+ // 0x1 sha1_160 algorithm 0x2
+ // sha2_224 algorithm 0x3 sha2_256
+ // algorithm
+#define SHAMD5_MODE_ALGO_S 1
+//******************************************************************************
+//
+// The following are defines for the bit fields in the SHAMD5_O_LENGTH register.
+//
+//******************************************************************************
+#define SHAMD5_LENGTH_DATA_M 0xFFFFFFFF // data
+#define SHAMD5_LENGTH_DATA_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the SHAMD5_O_DATA0_IN register.
+//
+//******************************************************************************
+#define SHAMD5_DATA0_IN_DATA0_IN_M \
+ 0xFFFFFFFF // data
+
+#define SHAMD5_DATA0_IN_DATA0_IN_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the SHAMD5_O_DATA1_IN register.
+//
+//******************************************************************************
+#define SHAMD5_DATA1_IN_DATA1_IN_M \
+ 0xFFFFFFFF // data
+
+#define SHAMD5_DATA1_IN_DATA1_IN_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the SHAMD5_O_DATA2_IN register.
+//
+//******************************************************************************
+#define SHAMD5_DATA2_IN_DATA2_IN_M \
+ 0xFFFFFFFF // data
+
+#define SHAMD5_DATA2_IN_DATA2_IN_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the SHAMD5_O_DATA3_IN register.
+//
+//******************************************************************************
+#define SHAMD5_DATA3_IN_DATA3_IN_M \
+ 0xFFFFFFFF // data
+
+#define SHAMD5_DATA3_IN_DATA3_IN_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the SHAMD5_O_DATA4_IN register.
+//
+//******************************************************************************
+#define SHAMD5_DATA4_IN_DATA4_IN_M \
+ 0xFFFFFFFF // data
+
+#define SHAMD5_DATA4_IN_DATA4_IN_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the SHAMD5_O_DATA5_IN register.
+//
+//******************************************************************************
+#define SHAMD5_DATA5_IN_DATA5_IN_M \
+ 0xFFFFFFFF // data
+
+#define SHAMD5_DATA5_IN_DATA5_IN_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the SHAMD5_O_DATA6_IN register.
+//
+//******************************************************************************
+#define SHAMD5_DATA6_IN_DATA6_IN_M \
+ 0xFFFFFFFF // data
+
+#define SHAMD5_DATA6_IN_DATA6_IN_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the SHAMD5_O_DATA7_IN register.
+//
+//******************************************************************************
+#define SHAMD5_DATA7_IN_DATA7_IN_M \
+ 0xFFFFFFFF // data
+
+#define SHAMD5_DATA7_IN_DATA7_IN_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the SHAMD5_O_DATA8_IN register.
+//
+//******************************************************************************
+#define SHAMD5_DATA8_IN_DATA8_IN_M \
+ 0xFFFFFFFF // data
+
+#define SHAMD5_DATA8_IN_DATA8_IN_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the SHAMD5_O_DATA9_IN register.
+//
+//******************************************************************************
+#define SHAMD5_DATA9_IN_DATA9_IN_M \
+ 0xFFFFFFFF // data
+
+#define SHAMD5_DATA9_IN_DATA9_IN_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the SHAMD5_O_DATA10_IN register.
+//
+//******************************************************************************
+#define SHAMD5_DATA10_IN_DATA10_IN_M \
+ 0xFFFFFFFF // data
+
+#define SHAMD5_DATA10_IN_DATA10_IN_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the SHAMD5_O_DATA11_IN register.
+//
+//******************************************************************************
+#define SHAMD5_DATA11_IN_DATA11_IN_M \
+ 0xFFFFFFFF // data
+
+#define SHAMD5_DATA11_IN_DATA11_IN_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the SHAMD5_O_DATA12_IN register.
+//
+//******************************************************************************
+#define SHAMD5_DATA12_IN_DATA12_IN_M \
+ 0xFFFFFFFF // data
+
+#define SHAMD5_DATA12_IN_DATA12_IN_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the SHAMD5_O_DATA13_IN register.
+//
+//******************************************************************************
+#define SHAMD5_DATA13_IN_DATA13_IN_M \
+ 0xFFFFFFFF // data
+
+#define SHAMD5_DATA13_IN_DATA13_IN_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the SHAMD5_O_DATA14_IN register.
+//
+//******************************************************************************
+#define SHAMD5_DATA14_IN_DATA14_IN_M \
+ 0xFFFFFFFF // data
+
+#define SHAMD5_DATA14_IN_DATA14_IN_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the SHAMD5_O_DATA15_IN register.
+//
+//******************************************************************************
+#define SHAMD5_DATA15_IN_DATA15_IN_M \
+ 0xFFFFFFFF // data
+
+#define SHAMD5_DATA15_IN_DATA15_IN_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the SHAMD5_O_REVISION register.
+//
+//******************************************************************************
+#define SHAMD5_REVISION_SCHEME_M 0xC0000000
+#define SHAMD5_REVISION_SCHEME_S 30
+#define SHAMD5_REVISION_FUNC_M 0x0FFF0000 // Function indicates a software
+ // compatible module family. If
+ // there is no level of software
+ // compatibility a new Func number
+ // (and hence REVISION) should be
+ // assigned.
+#define SHAMD5_REVISION_FUNC_S 16
+#define SHAMD5_REVISION_R_RTL_M 0x0000F800 // RTL Version (R) maintained by IP
+ // design owner. RTL follows a
+ // numbering such as X.Y.R.Z which
+ // are explained in this table. R
+ // changes ONLY when: (1) PDS
+ // uploads occur which may have been
+ // due to spec changes (2) Bug fixes
+ // occur (3) Resets to '0' when X or
+ // Y changes. Design team has an
+ // internal 'Z' (customer invisible)
+ // number which increments on every
+ // drop that happens due to DV and
+ // RTL updates. Z resets to 0 when R
+ // increments.
+#define SHAMD5_REVISION_R_RTL_S 11
+#define SHAMD5_REVISION_X_MAJOR_M \
+ 0x00000700 // Major Revision (X) maintained by
+ // IP specification owner. X changes
+ // ONLY when: (1) There is a major
+ // feature addition. An example
+ // would be adding Master Mode to
+ // Utopia Level2. The Func field (or
+ // Class/Type in old PID format)
+ // will remain the same. X does NOT
+ // change due to: (1) Bug fixes (2)
+ // Change in feature parameters.
+
+#define SHAMD5_REVISION_X_MAJOR_S 8
+#define SHAMD5_REVISION_CUSTOM_M 0x000000C0
+#define SHAMD5_REVISION_CUSTOM_S 6
+#define SHAMD5_REVISION_Y_MINOR_M \
+ 0x0000003F // Minor Revision (Y) maintained by
+ // IP specification owner. Y changes
+ // ONLY when: (1) Features are
+ // scaled (up or down). Flexibility
+ // exists in that this feature
+ // scalability may either be
+ // represented in the Y change or a
+ // specific register in the IP that
+ // indicates which features are
+ // exactly available. (2) When
+ // feature creeps from Is-Not list
+ // to Is list. But this may not be
+ // the case once it sees silicon; in
+ // which case X will change. Y does
+ // NOT change due to: (1) Bug fixes
+ // (2) Typos or clarifications (3)
+ // major functional/feature
+ // change/addition/deletion. Instead
+ // these changes may be reflected
+ // via R S X as applicable. Spec
+ // owner maintains a
+ // customer-invisible number 'S'
+ // which changes due to: (1)
+ // Typos/clarifications (2) Bug
+ // documentation. Note that this bug
+ // is not due to a spec change but
+ // due to implementation.
+ // Nevertheless the spec tracks the
+ // IP bugs. An RTL release (say for
+ // silicon PG1.1) that occurs due to
+ // bug fix should document the
+ // corresponding spec number (X.Y.S)
+ // in its release notes.
+
+#define SHAMD5_REVISION_Y_MINOR_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the SHAMD5_O_SYSCONFIG register.
+//
+//******************************************************************************
+#define SHAMD5_SYSCONFIG_PADVANCED \
+ 0x00000080 // If set to 1 Advanced mode is
+ // enabled for the Secure World. If
+ // set to 0 Legacy mode is enabled
+ // for the Secure World.
+
+#define SHAMD5_SYSCONFIG_PCONT_SWT \
+ 0x00000040 // Finish all pending data and
+ // context DMA input requests (but
+ // will not assert any new requests)
+ // finish processing all data in the
+ // module and provide a saved
+ // context (partial hash result
+ // updated digest count remaining
+ // length updated mode information
+ // where applicable) for the last
+ // operation that was interrupted so
+ // that it can be resumed later.
+
+#define SHAMD5_SYSCONFIG_PDMA_EN 0x00000008
+#define SHAMD5_SYSCONFIG_PIT_EN 0x00000004
+//******************************************************************************
+//
+// The following are defines for the bit fields in the SHAMD5_O_SYSSTATUS register.
+//
+//******************************************************************************
+#define SHAMD5_SYSSTATUS_RESETDONE \
+ 0x00000001 // data
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the SHAMD5_O_IRQSTATUS register.
+//
+//******************************************************************************
+#define SHAMD5_IRQSTATUS_CONTEXT_READY \
+ 0x00000008 // indicates that the secure side
+ // context input registers are
+ // available for a new context for
+ // the next packet to be processed.
+
+#define SHAMD5_IRQSTATUS_PARTHASH_READY \
+ 0x00000004 // After a secure side context
+ // switch request this bit will read
+ // as 1 indicating that the saved
+ // context is available from the
+ // secure side context output
+ // registers. Note that if the
+ // context switch request coincides
+ // with a final hash (when hashing)
+ // or an outer hash (when doing
+ // HMAC) that PartHashReady will not
+ // become active but a regular
+ // Output Ready will occur instead
+ // (indicating that the result is
+ // final and therefore no
+ // continuation is required).
+
+#define SHAMD5_IRQSTATUS_INPUT_READY \
+ 0x00000002 // indicates that the secure side
+ // data FIFO is ready to receive the
+ // next 64 byte data block.
+
+#define SHAMD5_IRQSTATUS_OUTPUT_READY \
+ 0x00000001 // Indicates that a (partial)
+ // result or saved context is
+ // available from the secure side
+ // context output registers.
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the SHAMD5_O_IRQENABLE register.
+//
+//******************************************************************************
+#define SHAMD5_IRQENABLE_M_CONTEXT_READY \
+ 0x00000008 // mask for context ready
+
+#define SHAMD5_IRQENABLE_M_PARTHASH_READY \
+ 0x00000004 // mask for partial hash
+
+#define SHAMD5_IRQENABLE_M_INPUT_READY \
+ 0x00000002 // mask for input_ready
+
+#define SHAMD5_IRQENABLE_M_OUTPUT_READY \
+ 0x00000001 // mask for output_ready
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// SHAMD5_O_HASH512_ODIGEST_A register.
+//
+//******************************************************************************
+#define SHAMD5_HASH512_ODIGEST_A_DATA_M \
+ 0xFFFFFFFF
+
+#define SHAMD5_HASH512_ODIGEST_A_DATA_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// SHAMD5_O_HASH512_ODIGEST_B register.
+//
+//******************************************************************************
+#define SHAMD5_HASH512_ODIGEST_B_DATA_M \
+ 0xFFFFFFFF
+
+#define SHAMD5_HASH512_ODIGEST_B_DATA_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// SHAMD5_O_HASH512_ODIGEST_C register.
+//
+//******************************************************************************
+#define SHAMD5_HASH512_ODIGEST_C_DATA_M \
+ 0xFFFFFFFF
+
+#define SHAMD5_HASH512_ODIGEST_C_DATA_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// SHAMD5_O_HASH512_ODIGEST_D register.
+//
+//******************************************************************************
+#define SHAMD5_HASH512_ODIGEST_D_DATA_M \
+ 0xFFFFFFFF
+
+#define SHAMD5_HASH512_ODIGEST_D_DATA_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// SHAMD5_O_HASH512_ODIGEST_E register.
+//
+//******************************************************************************
+#define SHAMD5_HASH512_ODIGEST_E_DATA_M \
+ 0xFFFFFFFF
+
+#define SHAMD5_HASH512_ODIGEST_E_DATA_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// SHAMD5_O_HASH512_ODIGEST_F register.
+//
+//******************************************************************************
+#define SHAMD5_HASH512_ODIGEST_F_DATA_M \
+ 0xFFFFFFFF
+
+#define SHAMD5_HASH512_ODIGEST_F_DATA_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// SHAMD5_O_HASH512_ODIGEST_G register.
+//
+//******************************************************************************
+#define SHAMD5_HASH512_ODIGEST_G_DATA_M \
+ 0xFFFFFFFF
+
+#define SHAMD5_HASH512_ODIGEST_G_DATA_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// SHAMD5_O_HASH512_ODIGEST_H register.
+//
+//******************************************************************************
+#define SHAMD5_HASH512_ODIGEST_H_DATA_M \
+ 0xFFFFFFFF
+
+#define SHAMD5_HASH512_ODIGEST_H_DATA_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// SHAMD5_O_HASH512_ODIGEST_I register.
+//
+//******************************************************************************
+#define SHAMD5_HASH512_ODIGEST_I_DATA_M \
+ 0xFFFFFFFF
+
+#define SHAMD5_HASH512_ODIGEST_I_DATA_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// SHAMD5_O_HASH512_ODIGEST_J register.
+//
+//******************************************************************************
+#define SHAMD5_HASH512_ODIGEST_J_DATA_M \
+ 0xFFFFFFFF
+
+#define SHAMD5_HASH512_ODIGEST_J_DATA_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// SHAMD5_O_HASH512_ODIGEST_K register.
+//
+//******************************************************************************
+#define SHAMD5_HASH512_ODIGEST_K_DATA_M \
+ 0xFFFFFFFF
+
+#define SHAMD5_HASH512_ODIGEST_K_DATA_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// SHAMD5_O_HASH512_ODIGEST_L register.
+//
+//******************************************************************************
+#define SHAMD5_HASH512_ODIGEST_L_DATA_M \
+ 0xFFFFFFFF
+
+#define SHAMD5_HASH512_ODIGEST_L_DATA_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// SHAMD5_O_HASH512_ODIGEST_M register.
+//
+//******************************************************************************
+#define SHAMD5_HASH512_ODIGEST_M_DATA_M \
+ 0xFFFFFFFF
+
+#define SHAMD5_HASH512_ODIGEST_M_DATA_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// SHAMD5_O_HASH512_ODIGEST_N register.
+//
+//******************************************************************************
+#define SHAMD5_HASH512_ODIGEST_N_DATA_M \
+ 0xFFFFFFFF
+
+#define SHAMD5_HASH512_ODIGEST_N_DATA_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// SHAMD5_O_HASH512_ODIGEST_O register.
+//
+//******************************************************************************
+#define SHAMD5_HASH512_ODIGEST_O_DATA_M \
+ 0xFFFFFFFF
+
+#define SHAMD5_HASH512_ODIGEST_O_DATA_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// SHAMD5_O_HASH512_ODIGEST_P register.
+//
+//******************************************************************************
+#define SHAMD5_HASH512_ODIGEST_DATA_M \
+ 0xFFFFFFFF
+
+#define SHAMD5_HASH512_ODIGEST_DATA_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// SHAMD5_O_HASH512_IDIGEST_A register.
+//
+//******************************************************************************
+#define SHAMD5_HASH512_IDIGEST_A_DATA_M \
+ 0xFFFFFFFF
+
+#define SHAMD5_HASH512_IDIGEST_A_DATA_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// SHAMD5_O_HASH512_IDIGEST_B register.
+//
+//******************************************************************************
+#define SHAMD5_HASH512_IDIGEST_B_DATA_M \
+ 0xFFFFFFFF
+
+#define SHAMD5_HASH512_IDIGEST_B_DATA_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// SHAMD5_O_HASH512_IDIGEST_C register.
+//
+//******************************************************************************
+#define SHAMD5_HASH512_IDIGEST_C_DATA_M \
+ 0xFFFFFFFF
+
+#define SHAMD5_HASH512_IDIGEST_C_DATA_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// SHAMD5_O_HASH512_IDIGEST_D register.
+//
+//******************************************************************************
+#define SHAMD5_HASH512_IDIGEST_D_DATA_M \
+ 0xFFFFFFFF
+
+#define SHAMD5_HASH512_IDIGEST_D_DATA_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// SHAMD5_O_HASH512_IDIGEST_E register.
+//
+//******************************************************************************
+#define SHAMD5_HASH512_IDIGEST_E_DATA_M \
+ 0xFFFFFFFF
+
+#define SHAMD5_HASH512_IDIGEST_E_DATA_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// SHAMD5_O_HASH512_IDIGEST_F register.
+//
+//******************************************************************************
+#define SHAMD5_HASH512_IDIGEST_F_DATA_M \
+ 0xFFFFFFFF
+
+#define SHAMD5_HASH512_IDIGEST_F_DATA_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// SHAMD5_O_HASH512_IDIGEST_G register.
+//
+//******************************************************************************
+#define SHAMD5_HASH512_IDIGEST_G_DATA_M \
+ 0xFFFFFFFF
+
+#define SHAMD5_HASH512_IDIGEST_G_DATA_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// SHAMD5_O_HASH512_IDIGEST_H register.
+//
+//******************************************************************************
+#define SHAMD5_HASH512_IDIGEST_H_DATA_M \
+ 0xFFFFFFFF
+
+#define SHAMD5_HASH512_IDIGEST_H_DATA_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// SHAMD5_O_HASH512_IDIGEST_I register.
+//
+//******************************************************************************
+#define SHAMD5_HASH512_IDIGEST_I_DATA_M \
+ 0xFFFFFFFF
+
+#define SHAMD5_HASH512_IDIGEST_I_DATA_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// SHAMD5_O_HASH512_IDIGEST_J register.
+//
+//******************************************************************************
+#define SHAMD5_HASH512_IDIGEST_J_DATA_M \
+ 0xFFFFFFFF
+
+#define SHAMD5_HASH512_IDIGEST_J_DATA_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// SHAMD5_O_HASH512_IDIGEST_K register.
+//
+//******************************************************************************
+#define SHAMD5_HASH512_IDIGEST_K_DATA_M \
+ 0xFFFFFFFF
+
+#define SHAMD5_HASH512_IDIGEST_K_DATA_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// SHAMD5_O_HASH512_IDIGEST_L register.
+//
+//******************************************************************************
+#define SHAMD5_HASH512_IDIGEST_L_DATA_M \
+ 0xFFFFFFFF
+
+#define SHAMD5_HASH512_IDIGEST_L_DATA_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// SHAMD5_O_HASH512_IDIGEST_M register.
+//
+//******************************************************************************
+#define SHAMD5_HASH512_IDIGEST_M_DATA_M \
+ 0xFFFFFFFF
+
+#define SHAMD5_HASH512_IDIGEST_M_DATA_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// SHAMD5_O_HASH512_IDIGEST_N register.
+//
+//******************************************************************************
+#define SHAMD5_HASH512_IDIGEST_N_DATA_M \
+ 0xFFFFFFFF
+
+#define SHAMD5_HASH512_IDIGEST_N_DATA_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// SHAMD5_O_HASH512_IDIGEST_O register.
+//
+//******************************************************************************
+#define SHAMD5_HASH512_IDIGEST_O_DATA_M \
+ 0xFFFFFFFF
+
+#define SHAMD5_HASH512_IDIGEST_O_DATA_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// SHAMD5_O_HASH512_IDIGEST_P register.
+//
+//******************************************************************************
+#define SHAMD5_HASH512_IDIGEST_DATA_M \
+ 0xFFFFFFFF
+
+#define SHAMD5_HASH512_IDIGEST_DATA_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// SHAMD5_O_HASH512_DIGEST_COUNT register.
+//
+//******************************************************************************
+#define SHAMD5_HASH512_DIGEST_COUNT_DATA_M \
+ 0xFFFFFFFF
+
+#define SHAMD5_HASH512_DIGEST_COUNT_DATA_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// SHAMD5_O_HASH512_MODE register.
+//
+//******************************************************************************
+#define SHAMD5_HASH512_MODE_DATA_M \
+ 0xFFFFFFFF
+
+#define SHAMD5_HASH512_MODE_DATA_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// SHAMD5_O_HASH512_LENGTH register.
+//
+//******************************************************************************
+#define SHAMD5_HASH512_LENGTH_DATA_M \
+ 0xFFFFFFFF
+
+#define SHAMD5_HASH512_LENGTH_DATA_S 0
+
+
+
+#endif // __HW_SHAMD5_H__
diff --git a/cc3200/hal/inc/hw_stack_die_ctrl.h b/cc3200/hal/inc/hw_stack_die_ctrl.h
new file mode 100644
index 000000000..eba31e4f0
--- /dev/null
+++ b/cc3200/hal/inc/hw_stack_die_ctrl.h
@@ -0,0 +1,764 @@
+//*****************************************************************************
+//
+// Copyright (C) 2014 Texas Instruments Incorporated - http://www.ti.com/
+//
+//
+// Redistribution and use in source and binary forms, with or without
+// modification, are permitted provided that the following conditions
+// are met:
+//
+// Redistributions of source code must retain the above copyright
+// notice, this list of conditions and the following disclaimer.
+//
+// Redistributions in binary form must reproduce the above copyright
+// notice, this list of conditions and the following disclaimer in the
+// documentation and/or other materials provided with the
+// distribution.
+//
+// Neither the name of Texas Instruments Incorporated nor the names of
+// its contributors may be used to endorse or promote products derived
+// from this software without specific prior written permission.
+//
+// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
+// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
+// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
+// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
+// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
+// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
+// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
+// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
+// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
+// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
+// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+//
+//*****************************************************************************
+
+
+#ifndef __HW_STACK_DIE_CTRL_H__
+#define __HW_STACK_DIE_CTRL_H__
+
+//*****************************************************************************
+//
+// The following are defines for the STACK_DIE_CTRL register offsets.
+//
+//*****************************************************************************
+#define STACK_DIE_CTRL_O_STK_UP_RESET \
+ 0x00000000 // Can be written only by Base
+ // Processor. Writing to this
+ // register will reset the stack
+ // processor reset will be
+ // de-asserted upon clearing this
+ // register.
+
+#define STACK_DIE_CTRL_O_SR_MASTER_PRIORITY \
+ 0x00000004 // This register defines who among
+ // base processor and stack
+ // processor have highest priority
+ // for Sram Access. Can be written
+ // only by Base Processor.
+
+#define STACK_DIE_CTRL_O_STK_SR_ACC_CTL_BK2 \
+ 0x00000008 // In Spinlock mode this Register
+ // defines who among base processor
+ // and stack processor have access
+ // to Sram Bank2 right now. In
+ // Handshake mode this Register
+ // defines who among base processor
+ // and stack processor have access
+ // to Sram Bank2 and Bank3 right
+ // now. Its Clear only register and
+ // is set by hardware. Lower bit can
+ // be cleared only by Base Processor
+ // and Upper bit Cleared only by the
+ // Stack processor.
+
+#define STACK_DIE_CTRL_O_BASE_UP_ACC_REQ_BK2 \
+ 0x0000000C // In Spinlock mode whenever Base
+ // processor wants the access to
+ // Sram Bank2 it should request for
+ // it by writing into this register.
+ // It'll get interrupt whenever it
+ // is granted. In Handshake mode
+ // this bit will be set by Stack
+ // processor. Its a set only bit and
+ // is cleared by HW when the request
+ // is granted.
+
+#define STACK_DIE_CTRL_O_STK_UP_ACC_REQ_BK2 \
+ 0x00000010 // In Spinlock mode Whenever Stack
+ // processor wants the access to
+ // Sram Bank2 it should request for
+ // it by writing into this register.
+ // It'll get interrupt whenever it
+ // is granted. In Handshake mode
+ // this bit will be set by the Base
+ // processor. Its a set only bit and
+ // is cleared by HW when the request
+ // is granted.
+
+#define STACK_DIE_CTRL_O_STK_SR_ACC_CTL_BK3 \
+ 0x00000014 // Register defines who among base
+ // processor and stack processor
+ // have access to Sram Bank3 right
+ // now. Its Clear only register and
+ // is set by hardware. Lower bit can
+ // be cleared only by Base Processor
+ // and Upper bit Cleared only by the
+ // Stack processor.
+
+#define STACK_DIE_CTRL_O_BASE_UP_ACC_REQ_BK3 \
+ 0x00000018 // In Spinlock mode whenever Base
+ // processor wants the access to
+ // Sram Bank3 it should request for
+ // it by writing into this register.
+ // It'll get interrupt whenever it
+ // is granted. In Handshake mode
+ // this bit will be set by Stack
+ // processor. Its a set only bit and
+ // is cleared by HW when the request
+ // is granted.
+
+#define STACK_DIE_CTRL_O_STK_UP_ACC_REQ_BK3 \
+ 0x0000001C // In Spinlock mode Whenever Stack
+ // processor wants the access to
+ // Sram Bank3 it should request for
+ // it by writing into this register.
+ // It'll get interrupt whenever it
+ // is granted. In Handshake mode
+ // this bit will be set by the Base
+ // processor. Its a set only bit and
+ // is cleared by HW when the request
+ // is granted.
+
+#define STACK_DIE_CTRL_O_RDSM_CFG_CPU \
+ 0x00000020 // Read State Machine timing
+ // configuration register. Generally
+ // Bit 4 and 3 will be identical.
+ // For stacked die always 43 are 0
+ // and 6:5 == 1 for 120Mhz.
+
+#define STACK_DIE_CTRL_O_RDSM_CFG_EE \
+ 0x00000024 // Read State Machine timing
+ // configuration register. Generally
+ // Bit 4 and 3 will be identical.
+ // For stacked die always 43 are 0
+ // and 6:5 == 1 for 120Mhz.
+
+#define STACK_DIE_CTRL_O_BASE_UP_IRQ_LOG \
+ 0x00000028 // Reading this register Base
+ // procesor will able to know the
+ // reason for the interrupt. This is
+ // clear only register - set by HW
+ // upon an interrupt to Base
+ // processor and can be cleared only
+ // by BASE processor.
+
+#define STACK_DIE_CTRL_O_STK_UP_IRQ_LOG \
+ 0x0000002C // Reading this register Stack
+ // procesor will able to know the
+ // reason for the interrupt. This is
+ // clear only register - set by HW
+ // upon an interrupt to Stack
+ // processor and can be cleared only
+ // by Stack processor.
+
+#define STACK_DIE_CTRL_O_STK_CLK_EN \
+ 0x00000030 // Can be written only by base
+ // processor. Controls the enable
+ // pin of the cgcs for the clocks
+ // going to CM3 dft ctrl block and
+ // Sram.
+
+#define STACK_DIE_CTRL_O_SPIN_LOCK_MODE \
+ 0x00000034 // Can be written only by the base
+ // processor. Decides the ram
+ // sharing mode :: handshake or
+ // Spinlock mode.
+
+#define STACK_DIE_CTRL_O_BUS_FAULT_ADDR \
+ 0x00000038 // Stores the last bus fault
+ // address.
+
+#define STACK_DIE_CTRL_O_BUS_FAULT_CLR \
+ 0x0000003C // write only registers on read
+ // returns 0.W Write 1 to clear the
+ // bust fault to store the new bus
+ // fault address
+
+#define STACK_DIE_CTRL_O_RESET_CAUSE \
+ 0x00000040 // Reset cause value captured from
+ // the ICR_CLKRST block.
+
+#define STACK_DIE_CTRL_O_WDOG_TIMER_EVENT \
+ 0x00000044 // Watchdog timer event value
+ // captured from the ICR_CLKRST
+ // block
+
+#define STACK_DIE_CTRL_O_DMA_REQ \
+ 0x00000048 // To send Dma Request to bottom
+ // die.
+
+#define STACK_DIE_CTRL_O_SRAM_JUMP_OFFSET_ADDR \
+ 0x0000004C // Address offset within SRAM to
+ // which CM3 should jump after
+ // reset.
+
+#define STACK_DIE_CTRL_O_SW_REG1 \
+ 0x00000050 // These are sw registers for
+ // topdie processor and bottom die
+ // processor to communicate. Both
+ // can set and read these registers.
+ // In case of write clash bottom
+ // die's processor wins and top die
+ // processor access is ignored.
+
+#define STACK_DIE_CTRL_O_SW_REG2 \
+ 0x00000054 // These are sw registers for
+ // topdie processor and bottom die
+ // processor to communicate. Both
+ // can set and read these registers.
+ // In case of write clash bottom
+ // die's processor wins and top die
+ // processor access is ignored.
+
+#define STACK_DIE_CTRL_O_FMC_SLEEP_CTL \
+ 0x00000058 // By posting the request Flash can
+ // be put into low-power mode
+ // (Sleep) without powering down the
+ // Flash. Earlier (in Garnet) this
+ // was fully h/w controlled and the
+ // control for this was coming from
+ // SysCtl while entering into Cortex
+ // Deep-sleep mode. But for our
+ // device the D2D i/f doesnt support
+ // this. The Firmware has to program
+ // the register in the top-die for
+ // entering into this mode and wait
+ // for an interrupt.
+
+#define STACK_DIE_CTRL_O_MISC_CTL \
+ 0x0000005C // Miscellanious control register.
+
+#define STACK_DIE_CTRL_O_SW_DFT_CTL \
+ 0x000000FC // DFT control and status bits
+
+#define STACK_DIE_CTRL_O_PADN_CTL_0 \
+ 0x00000100 // Mainly for For controlling the
+ // pads OEN pins. There are total 60
+ // pads and hence 60 control registe
+ // i.e n value varies from 0 to 59.
+ // Here is the mapping for the
+ // pad_ctl register number and the
+ // functionality : 0 D2DPAD_DMAREQ1
+ // 1 D2DPAD_DMAREQ0 2
+ // D2DPAD_INT2BASE 3 D2DPAD_PIOSC 4
+ // D2DPAD_RST_N 5 D2DPAD_POR_RST_N 6
+ // D2DPAD_HCLK 7 D2DPAD_JTAG_TDO 8
+ // D2DPAD_JTAG_TCK 9 D2DPAD_JTAG_TMS
+ // 10 D2DPAD_JTAG_TDI 11-27
+ // D2DPAD_FROMSTACK[D2D_FROMSTACK_SIZE
+ // -1:0] 28-56 D2DPAD_TOSTACK
+ // [D2D_TOSTACK_SIZE -1:0] 57-59
+ // D2DPAD_SPARE [D2D_SPARE_PAD_SIZE
+ // -1:0] 0:00
+
+
+
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// STACK_DIE_CTRL_O_STK_UP_RESET register.
+//
+//******************************************************************************
+#define STACK_DIE_CTRL_STK_UP_RESET_UP_RESET \
+ 0x00000001 // 1 :Assert Reset 0 : Deassert the
+ // Reset
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// STACK_DIE_CTRL_O_SR_MASTER_PRIORITY register.
+//
+//******************************************************************************
+#define STACK_DIE_CTRL_SR_MASTER_PRIORITY_PRIORITY_M \
+ 0x00000003 // 00 : Equal Priority 01 : Stack
+ // Processor have priority 10 : Base
+ // Processor have priority 11 :
+ // Unused
+
+#define STACK_DIE_CTRL_SR_MASTER_PRIORITY_PRIORITY_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// STACK_DIE_CTRL_O_STK_SR_ACC_CTL_BK2 register.
+//
+//******************************************************************************
+#define STACK_DIE_CTRL_STK_SR_ACC_CTL_BK2_STK_UP_ACCSS \
+ 0x00000002 // Stack Processor should clear it
+ // when it is done with the sram
+ // bank usage. Set by HW It is set
+ // when Stack Processor is granted
+ // the access to this bank
+
+#define STACK_DIE_CTRL_STK_SR_ACC_CTL_BK2_BASE_UP_ACCSS \
+ 0x00000001 // Base Processor should clear it
+ // when it is done wth the sram
+ // usage. Set by HW It is set when
+ // Base Processor is granted the
+ // access to this bank
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// STACK_DIE_CTRL_O_BASE_UP_ACC_REQ_BK2 register.
+//
+//******************************************************************************
+#define STACK_DIE_CTRL_BASE_UP_ACC_REQ_BK2_ACCSS_REQ \
+ 0x00000001 // Base Processor will set when
+ // Sram access is needed in Spin
+ // Lock mode. In Handshake mode
+ // Stack Processor will set to
+ // inform Base Processor that it is
+ // done with the processing of data
+ // in SRAM and is now ready to use
+ // by the base processor.
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// STACK_DIE_CTRL_O_STK_UP_ACC_REQ_BK2 register.
+//
+//******************************************************************************
+#define STACK_DIE_CTRL_STK_UP_ACC_REQ_BK2_ACCSS_REQ \
+ 0x00000001 // Stack Processor will set when
+ // Sram access is needed in Spin
+ // Lock mode. In Handshake mode Base
+ // Processor will set to inform
+ // Stack Processor to start
+ // processing the data in the Ram.
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// STACK_DIE_CTRL_O_STK_SR_ACC_CTL_BK3 register.
+//
+//******************************************************************************
+#define STACK_DIE_CTRL_STK_SR_ACC_CTL_BK3_STK_UP_ACCSS \
+ 0x00000002 // Stack Processor should clear it
+ // when it is done with the sram
+ // bank usage. Set by HW It is set
+ // when Stack Processor is granted
+ // the access to this bank.
+
+#define STACK_DIE_CTRL_STK_SR_ACC_CTL_BK3_BASE_UP_ACCSS \
+ 0x00000001 // Base Processor should clear it
+ // when it is done wth the sram
+ // usage. Set by HW it is set when
+ // Base Processor is granted the
+ // access to this bank.
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// STACK_DIE_CTRL_O_BASE_UP_ACC_REQ_BK3 register.
+//
+//******************************************************************************
+#define STACK_DIE_CTRL_BASE_UP_ACC_REQ_BK3_ACCSS_REQ \
+ 0x00000001 // Base Processor will set when
+ // Sram access is needed in Spin
+ // Lock mode. Not used in handshake
+ // mode.
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// STACK_DIE_CTRL_O_STK_UP_ACC_REQ_BK3 register.
+//
+//******************************************************************************
+#define STACK_DIE_CTRL_STK_UP_ACC_REQ_BK3_ACCSS_REQ \
+ 0x00000001 // Stack Processor will set when
+ // Sram access is needed in Spin
+ // Lock mode.
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// STACK_DIE_CTRL_O_RDSM_CFG_CPU register.
+//
+//******************************************************************************
+#define STACK_DIE_CTRL_RDSM_CFG_CPU_FLCLK_PULSE_WIDTH_M \
+ 0x000000C0 // Bank Clock Hi Time 00 : HCLK
+ // pulse 01 : 1 cycle of HCLK 10 :
+ // 1.5 cycles of HCLK 11 : 2 cycles
+ // of HCLK
+
+#define STACK_DIE_CTRL_RDSM_CFG_CPU_FLCLK_PULSE_WIDTH_S 6
+#define STACK_DIE_CTRL_RDSM_CFG_CPU_FLCLK_SENSE \
+ 0x00000020 // FLCLK 0 : indicates flash clock
+ // rise aligns on HCLK rise 1 :
+ // indicates flash clock rise aligns
+ // on HCLK fall
+
+#define STACK_DIE_CTRL_RDSM_CFG_CPU_PIPELINE_FLDATA \
+ 0x00000010 // 0 : Always register flash rdata
+ // before sending to CPU 1 : Drive
+ // Flash rdata directly out on MISS
+ // (Both ICODE / DCODE)
+
+#define STACK_DIE_CTRL_RDSM_CFG_CPU_READ_WAIT_STATE_M \
+ 0x0000000F // Number of wait states inserted
+
+#define STACK_DIE_CTRL_RDSM_CFG_CPU_READ_WAIT_STATE_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// STACK_DIE_CTRL_O_RDSM_CFG_EE register.
+//
+//******************************************************************************
+#define STACK_DIE_CTRL_RDSM_CFG_EE_FLCLK_PULSE_WIDTH_M \
+ 0x000000C0 // Bank Clock Hi Time 00 : HCLK
+ // pulse 01 : 1 cycle of HCLK 10 :
+ // 1.5 cycles of HCLK 11 : 2 cycles
+ // of HCLK
+
+#define STACK_DIE_CTRL_RDSM_CFG_EE_FLCLK_PULSE_WIDTH_S 6
+#define STACK_DIE_CTRL_RDSM_CFG_EE_FLCLK_SENSE \
+ 0x00000020 // FLCLK 0 : indicates flash clock
+ // rise aligns on HCLK rise 1 :
+ // indicates flash clock rise aligns
+ // on HCLK fall
+
+#define STACK_DIE_CTRL_RDSM_CFG_EE_PIPELINE_FLDATA \
+ 0x00000010 // 0 : Always register flash rdata
+ // before sending to CPU 1 : Drive
+ // Flash rdata directly out on MISS
+ // (Both ICODE / DCODE)
+
+#define STACK_DIE_CTRL_RDSM_CFG_EE_READ_WAIT_STATE_M \
+ 0x0000000F // Number of wait states inserted
+
+#define STACK_DIE_CTRL_RDSM_CFG_EE_READ_WAIT_STATE_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// STACK_DIE_CTRL_O_BASE_UP_IRQ_LOG register.
+//
+//******************************************************************************
+#define STACK_DIE_CTRL_BASE_UP_IRQ_LOG_SR_BK3_REL \
+ 0x00000010 // Set when Relinquish Interrupt
+ // sent to Base processor for Bank3.
+
+#define STACK_DIE_CTRL_BASE_UP_IRQ_LOG_SR_BK2_RELEASE \
+ 0x00000008 // Set when Relinquish Interrupt
+ // sent to Base processor for Bank2.
+
+#define STACK_DIE_CTRL_BASE_UP_IRQ_LOG_SR_BK3_GRANT \
+ 0x00000004 // Set when Bank3 is granted to
+ // Base processor.
+
+#define STACK_DIE_CTRL_BASE_UP_IRQ_LOG_SR_BK2_GRANT \
+ 0x00000002 // Set when Bank2 is granted to
+ // BAse processor.
+
+#define STACK_DIE_CTRL_BASE_UP_IRQ_LOG_SR_INVAL_ACCSS \
+ 0x00000001 // Set when there Base processor do
+ // an Invalid access to Sram. Ex :
+ // Accessing the bank which is not
+ // granted for BAse processor.
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// STACK_DIE_CTRL_O_STK_UP_IRQ_LOG register.
+//
+//******************************************************************************
+#define STACK_DIE_CTRL_STK_UP_IRQ_LOG_SR_BK3_REL \
+ 0x00000008 // Set when Relinquish Interrupt
+ // sent to Stack processor for
+ // Bank3.
+
+#define STACK_DIE_CTRL_STK_UP_IRQ_LOG_SR_BK2_REL \
+ 0x00000004 // Set when Relinquish Interrupt
+ // sent to Stack processor for
+ // Bank2.
+
+#define STACK_DIE_CTRL_STK_UP_IRQ_LOG_SR_BK3_GRANT \
+ 0x00000002 // Set when Bank3 is granted to
+ // Stack processor.
+
+#define STACK_DIE_CTRL_STK_UP_IRQ_LOG_SR_BK2_GRANT \
+ 0x00000001 // Set when Bank2 is granted to
+ // Stack processor.
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// STACK_DIE_CTRL_O_STK_CLK_EN register.
+//
+//******************************************************************************
+#define STACK_DIE_CTRL_STK_CLK_EN_SR_CLK \
+ 0x00000004 // Enable the clock going to sram.
+
+#define STACK_DIE_CTRL_STK_CLK_EN_DFT_CTRL_CLK \
+ 0x00000002 // Enable the clock going to dft
+ // control block
+
+#define STACK_DIE_CTRL_STK_CLK_EN_STK_UP_CLK \
+ 0x00000001 // Enable the clock going to Cm3
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// STACK_DIE_CTRL_O_SPIN_LOCK_MODE register.
+//
+//******************************************************************************
+#define STACK_DIE_CTRL_SPIN_LOCK_MODE_MODE \
+ 0x00000001 // 0 : Handshake Mode 1 : Spinlock
+ // mode.
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// STACK_DIE_CTRL_O_BUS_FAULT_ADDR register.
+//
+//******************************************************************************
+#define STACK_DIE_CTRL_BUS_FAULT_ADDR_ADDRESS_M \
+ 0xFFFFFFFF // Fault Address
+
+#define STACK_DIE_CTRL_BUS_FAULT_ADDR_ADDRESS_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// STACK_DIE_CTRL_O_BUS_FAULT_CLR register.
+//
+//******************************************************************************
+#define STACK_DIE_CTRL_BUS_FAULT_CLR_CLEAR \
+ 0x00000001 // When set it'll clear the bust
+ // fault address register to store
+ // the new bus fault address
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// STACK_DIE_CTRL_O_RESET_CAUSE register.
+//
+//******************************************************************************
+#define STACK_DIE_CTRL_RESET_CAUSE_RST_CAUSE_M \
+ 0xFFFFFFFF
+
+#define STACK_DIE_CTRL_RESET_CAUSE_RST_CAUSE_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// STACK_DIE_CTRL_O_WDOG_TIMER_EVENT register.
+//
+//******************************************************************************
+#define STACK_DIE_CTRL_WDOG_TIMER_EVENT_WDOG_TMR_EVNT_M \
+ 0xFFFFFFFF
+
+#define STACK_DIE_CTRL_WDOG_TIMER_EVENT_WDOG_TMR_EVNT_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// STACK_DIE_CTRL_O_DMA_REQ register.
+//
+//******************************************************************************
+#define STACK_DIE_CTRL_DMA_REQ_DMAREQ1 \
+ 0x00000002 // Generate DMAREQ1 on setting this
+ // bit.
+
+#define STACK_DIE_CTRL_DMA_REQ_DMAREQ0 \
+ 0x00000001 // Generate DMAREQ0 on setting this
+ // bit.
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// STACK_DIE_CTRL_O_SRAM_JUMP_OFFSET_ADDR register.
+//
+//******************************************************************************
+#define STACK_DIE_CTRL_SRAM_JUMP_OFFSET_ADDR_ADDR_M \
+ 0xFFFFFFFF
+
+#define STACK_DIE_CTRL_SRAM_JUMP_OFFSET_ADDR_ADDR_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// STACK_DIE_CTRL_O_SW_REG1 register.
+//
+//******************************************************************************
+#define STACK_DIE_CTRL_SW_REG1_NEWBITFIELD1_M \
+ 0xFFFFFFFF
+
+#define STACK_DIE_CTRL_SW_REG1_NEWBITFIELD1_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// STACK_DIE_CTRL_O_SW_REG2 register.
+//
+//******************************************************************************
+#define STACK_DIE_CTRL_SW_REG2_NEWBITFIELD1_M \
+ 0xFFFFFFFF
+
+#define STACK_DIE_CTRL_SW_REG2_NEWBITFIELD1_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// STACK_DIE_CTRL_O_FMC_SLEEP_CTL register.
+//
+//******************************************************************************
+#define STACK_DIE_CTRL_FMC_SLEEP_CTL_FMC_LPM_ACK \
+ 0x00000002 // captures the status of of
+ // fmc_lpm_ack
+
+#define STACK_DIE_CTRL_FMC_SLEEP_CTL_FMC_LPM_REQ \
+ 0x00000001 // When set assert
+ // iflpe2fmc_lpm_req to FMC.
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// STACK_DIE_CTRL_O_MISC_CTL register.
+//
+//******************************************************************************
+#define STACK_DIE_CTRL_MISC_CTL_WDOG_RESET \
+ 0x00000080 // 1 : will reset the async wdog
+ // timer runing on piosc clock
+
+#define STACK_DIE_CTRL_MISC_CTL_FW_IRQ2 \
+ 0x00000020 // Setting this Will send to
+ // interttupt to CM3
+
+#define STACK_DIE_CTRL_MISC_CTL_FW_IRQ1 \
+ 0x00000010 // Setting this Will send to
+ // interttupt to CM3
+
+#define STACK_DIE_CTRL_MISC_CTL_FW_IRQ0 \
+ 0x00000008 // Setting this Will send to
+ // interttupt to CM3
+
+#define STACK_DIE_CTRL_MISC_CTL_FLB_TEST_MUX_CTL_BK3 \
+ 0x00000004 // While testing Flash Setting this
+ // bit will Control the
+ // CE/STR/AIN/CLKIN going to flash
+ // banks 12 and 3. 0 : Control
+ // signals coming from FMC for Bank
+ // 3 goes to Bank3 1 : Control
+ // signals coming from FMC for Bank
+ // 0 goes to Bank2
+
+#define STACK_DIE_CTRL_MISC_CTL_FLB_TEST_MUX_CTL_BK2 \
+ 0x00000002 // While testing Flash Setting this
+ // bit will Control the
+ // CE/STR/AIN/CLKIN going to flash
+ // banks 12 and 3. 0 : Control
+ // signals coming from FMC for Bank
+ // 2 goes to Bank2 1 : Control
+ // signals coming from FMC for Bank
+ // 0 goes to Bank2
+
+#define STACK_DIE_CTRL_MISC_CTL_FLB_TEST_MUX_CTL_BK1 \
+ 0x00000001 // While testing Flash Setting this
+ // bit will Control the
+ // CE/STR/AIN/CLKIN going to flash
+ // banks 12 and 3. 0 : Control
+ // signals coming from FMC for Bank
+ // 1 goes to Bank1 1 : Control
+ // signals coming from FMC for Bank
+ // 0 goes to Bank1
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// STACK_DIE_CTRL_O_SW_DFT_CTL register.
+//
+//******************************************************************************
+#define STACK_DIE_CTRL_SW_DFT_CTL_FL_CTRL_OWNS \
+ 0x20000000 // when set to '1' all flash
+ // control signals switch over to
+ // CM3 control when '0' it is under
+ // the D2D interface control
+
+#define STACK_DIE_CTRL_SW_DFT_CTL_SWIF_CPU_READ \
+ 0x10000000 // 1 indicates in SWIF mode the
+ // control signals to flash are from
+ // FMC CPU read controls the clock
+ // and address. that is one can give
+ // address via FMC and read through
+ // IDMEM.
+
+#define STACK_DIE_CTRL_SW_DFT_CTL_CPU_DONE \
+ 0x00800000 // 'CPU Done' bit for PBIST. Write
+ // '1' to indicate test done.
+
+#define STACK_DIE_CTRL_SW_DFT_CTL_CPU_FAIL \
+ 0x00400000 // 'CPU Fail' bit for PBIST. Write
+ // '1' to indicate test failed.
+
+#define STACK_DIE_CTRL_SW_DFT_CTL_FLBK4_OWNS \
+ 0x00001000 // when set to '1' flash bank 4
+ // (EEPROM) is owned by the CM3for
+ // reads over DCODE bus. When '0'
+ // access control given to D2D
+ // interface.
+
+#define STACK_DIE_CTRL_SW_DFT_CTL_FLBK3_OWNS \
+ 0x00000800 // when set to '1' flash bank 3 is
+ // owned by the CM3for reads over
+ // DCODE bus. When '0' access
+ // control given to D2D interface.
+
+#define STACK_DIE_CTRL_SW_DFT_CTL_FLBK2_OWNS \
+ 0x00000400 // when set to '1' flash bank 2 is
+ // owned by the CM3for reads over
+ // DCODE bus. When '0' access
+ // control given to D2D interface.
+
+#define STACK_DIE_CTRL_SW_DFT_CTL_FLBK1_OWNS \
+ 0x00000200 // when set to '1' flash bank 1 is
+ // owned by the CM3for reads over
+ // DCODE bus. When '0' access
+ // control given to D2D interface.
+
+#define STACK_DIE_CTRL_SW_DFT_CTL_FLBK0_OWNS \
+ 0x00000100 // when set to '1' flash bank 0 is
+ // owned by the CM3 for reads over
+ // DCODE bus. When '0' access
+ // control given to D2D interface.
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// STACK_DIE_CTRL_O_PADN_CTL_0 register.
+//
+//******************************************************************************
+#define STACK_DIE_CTRL_PADN_CTL_0_SPARE_PAD_DOUT \
+ 0x00000008 // This bit is valid for only the
+ // spare pads ie for n=57 to 59.
+ // value to drive at the output of
+ // the pad
+
+#define STACK_DIE_CTRL_PADN_CTL_0_SPARE_PAD_DIN \
+ 0x00000004 // This bit is valid for only the
+ // spare pads ie for n=57 to 59.
+ // captures the 'Y' pin of the pad
+ // which is the data being driven
+ // into the die
+
+#define STACK_DIE_CTRL_PADN_CTL_0_OEN2X \
+ 0x00000002 // OEN2X control when '1' enables
+ // the output with 1x. Total drive
+ // strength is decided bu oen1x
+ // setting + oen2x setting.
+
+#define STACK_DIE_CTRL_PADN_CTL_0_OEN1X \
+ 0x00000001 // OEN1X control when '1' enables
+ // the output with 1x . Total drive
+ // strength is decided bu oen1x
+ // setting + oen2x setting.
+
+
+
+
+#endif // __HW_STACK_DIE_CTRL_H__
diff --git a/cc3200/hal/inc/hw_timer.h b/cc3200/hal/inc/hw_timer.h
new file mode 100644
index 000000000..b6844ec67
--- /dev/null
+++ b/cc3200/hal/inc/hw_timer.h
@@ -0,0 +1,778 @@
+//*****************************************************************************
+//
+// Copyright (C) 2014 Texas Instruments Incorporated - http://www.ti.com/
+//
+//
+// Redistribution and use in source and binary forms, with or without
+// modification, are permitted provided that the following conditions
+// are met:
+//
+// Redistributions of source code must retain the above copyright
+// notice, this list of conditions and the following disclaimer.
+//
+// Redistributions in binary form must reproduce the above copyright
+// notice, this list of conditions and the following disclaimer in the
+// documentation and/or other materials provided with the
+// distribution.
+//
+// Neither the name of Texas Instruments Incorporated nor the names of
+// its contributors may be used to endorse or promote products derived
+// from this software without specific prior written permission.
+//
+// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
+// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
+// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
+// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
+// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
+// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
+// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
+// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
+// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
+// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
+// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+//
+//*****************************************************************************
+
+//*****************************************************************************
+//
+// hw_timer.h - Defines and macros used when accessing the timer.
+//
+//*****************************************************************************
+
+//##### INTERNAL BEGIN #####
+//
+// This is an auto-generated file. Do not edit by hand.
+// Created by version 6779 of DriverLib.
+//
+//##### INTERNAL END #####
+
+#ifndef __HW_TIMER_H__
+#define __HW_TIMER_H__
+
+//*****************************************************************************
+//
+// The following are defines for the Timer register offsets.
+//
+//*****************************************************************************
+#define TIMER_O_CFG 0x00000000 // GPTM Configuration
+#define TIMER_O_TAMR 0x00000004 // GPTM Timer A Mode
+#define TIMER_O_TBMR 0x00000008 // GPTM Timer B Mode
+#define TIMER_O_CTL 0x0000000C // GPTM Control
+//##### GARNET BEGIN #####
+#define TIMER_O_SYNC 0x00000010 // GPTM Synchronize
+//##### GARNET END #####
+#define TIMER_O_IMR 0x00000018 // GPTM Interrupt Mask
+#define TIMER_O_RIS 0x0000001C // GPTM Raw Interrupt Status
+#define TIMER_O_MIS 0x00000020 // GPTM Masked Interrupt Status
+#define TIMER_O_ICR 0x00000024 // GPTM Interrupt Clear
+#define TIMER_O_TAILR 0x00000028 // GPTM Timer A Interval Load
+#define TIMER_O_TBILR 0x0000002C // GPTM Timer B Interval Load
+#define TIMER_O_TAMATCHR 0x00000030 // GPTM Timer A Match
+#define TIMER_O_TBMATCHR 0x00000034 // GPTM Timer B Match
+#define TIMER_O_TAPR 0x00000038 // GPTM Timer A Prescale
+#define TIMER_O_TBPR 0x0000003C // GPTM Timer B Prescale
+#define TIMER_O_TAPMR 0x00000040 // GPTM TimerA Prescale Match
+#define TIMER_O_TBPMR 0x00000044 // GPTM TimerB Prescale Match
+#define TIMER_O_TAR 0x00000048 // GPTM Timer A
+#define TIMER_O_TBR 0x0000004C // GPTM Timer B
+#define TIMER_O_TAV 0x00000050 // GPTM Timer A Value
+#define TIMER_O_TBV 0x00000054 // GPTM Timer B Value
+#define TIMER_O_RTCPD 0x00000058 // GPTM RTC Predivide
+#define TIMER_O_TAPS 0x0000005C // GPTM Timer A Prescale Snapshot
+#define TIMER_O_TBPS 0x00000060 // GPTM Timer B Prescale Snapshot
+#define TIMER_O_TAPV 0x00000064 // GPTM Timer A Prescale Value
+#define TIMER_O_TBPV 0x00000068 // GPTM Timer B Prescale Value
+#define TIMER_O_DMAEV 0x0000006C // GPTM DMA Event
+#define TIMER_O_PP 0x00000FC0 // GPTM Peripheral Properties
+
+
+//*****************************************************************************
+//
+// The following are defines for the bit fields in the TIMER_O_CFG register.
+//
+//*****************************************************************************
+#define TIMER_CFG_M 0x00000007 // GPTM Configuration
+#define TIMER_CFG_32_BIT_TIMER 0x00000000 // 32-bit timer configuration
+#define TIMER_CFG_32_BIT_RTC 0x00000001 // 32-bit real-time clock (RTC)
+ // counter configuration
+#define TIMER_CFG_16_BIT 0x00000004 // 16-bit timer configuration. The
+ // function is controlled by bits
+ // 1:0 of GPTMTAMR and GPTMTBMR
+
+//*****************************************************************************
+//
+// The following are defines for the bit fields in the TIMER_O_TAMR register.
+//
+//*****************************************************************************
+//##### GARNET BEGIN #####
+#define TIMER_TAMR_TAPLO 0x00000800 // GPTM Timer A PWM Legacy
+ // Operation
+#define TIMER_TAMR_TAMRSU 0x00000400 // GPTM Timer A Match Register
+ // Update
+#define TIMER_TAMR_TAPWMIE 0x00000200 // GPTM Timer A PWM Interrupt
+ // Enable
+#define TIMER_TAMR_TAILD 0x00000100 // GPTM Timer A Interval Load Write
+//##### GARNET END #####
+#define TIMER_TAMR_TASNAPS 0x00000080 // GPTM Timer A Snap-Shot Mode
+#define TIMER_TAMR_TAWOT 0x00000040 // GPTM Timer A Wait-on-Trigger
+#define TIMER_TAMR_TAMIE 0x00000020 // GPTM Timer A Match Interrupt
+ // Enable
+#define TIMER_TAMR_TACDIR 0x00000010 // GPTM Timer A Count Direction
+#define TIMER_TAMR_TAAMS 0x00000008 // GPTM Timer A Alternate Mode
+ // Select
+#define TIMER_TAMR_TACMR 0x00000004 // GPTM Timer A Capture Mode
+#define TIMER_TAMR_TAMR_M 0x00000003 // GPTM Timer A Mode
+#define TIMER_TAMR_TAMR_1_SHOT 0x00000001 // One-Shot Timer mode
+#define TIMER_TAMR_TAMR_PERIOD 0x00000002 // Periodic Timer mode
+#define TIMER_TAMR_TAMR_CAP 0x00000003 // Capture mode
+
+//*****************************************************************************
+//
+// The following are defines for the bit fields in the TIMER_O_TBMR register.
+//
+//*****************************************************************************
+//##### GARNET BEGIN #####
+#define TIMER_TBMR_TBPLO 0x00000800 // GPTM Timer B PWM Legacy
+ // Operation
+#define TIMER_TBMR_TBMRSU 0x00000400 // GPTM Timer B Match Register
+ // Update
+#define TIMER_TBMR_TBPWMIE 0x00000200 // GPTM Timer B PWM Interrupt
+ // Enable
+#define TIMER_TBMR_TBILD 0x00000100 // GPTM Timer B Interval Load Write
+//##### GARNET END #####
+#define TIMER_TBMR_TBSNAPS 0x00000080 // GPTM Timer B Snap-Shot Mode
+#define TIMER_TBMR_TBWOT 0x00000040 // GPTM Timer B Wait-on-Trigger
+#define TIMER_TBMR_TBMIE 0x00000020 // GPTM Timer B Match Interrupt
+ // Enable
+#define TIMER_TBMR_TBCDIR 0x00000010 // GPTM Timer B Count Direction
+#define TIMER_TBMR_TBAMS 0x00000008 // GPTM Timer B Alternate Mode
+ // Select
+#define TIMER_TBMR_TBCMR 0x00000004 // GPTM Timer B Capture Mode
+#define TIMER_TBMR_TBMR_M 0x00000003 // GPTM Timer B Mode
+#define TIMER_TBMR_TBMR_1_SHOT 0x00000001 // One-Shot Timer mode
+#define TIMER_TBMR_TBMR_PERIOD 0x00000002 // Periodic Timer mode
+#define TIMER_TBMR_TBMR_CAP 0x00000003 // Capture mode
+
+//*****************************************************************************
+//
+// The following are defines for the bit fields in the TIMER_O_CTL register.
+//
+//*****************************************************************************
+#define TIMER_CTL_TBPWML 0x00004000 // GPTM Timer B PWM Output Level
+#define TIMER_CTL_TBOTE 0x00002000 // GPTM Timer B Output Trigger
+ // Enable
+#define TIMER_CTL_TBEVENT_M 0x00000C00 // GPTM Timer B Event Mode
+#define TIMER_CTL_TBEVENT_POS 0x00000000 // Positive edge
+#define TIMER_CTL_TBEVENT_NEG 0x00000400 // Negative edge
+#define TIMER_CTL_TBEVENT_BOTH 0x00000C00 // Both edges
+#define TIMER_CTL_TBSTALL 0x00000200 // GPTM Timer B Stall Enable
+#define TIMER_CTL_TBEN 0x00000100 // GPTM Timer B Enable
+#define TIMER_CTL_TAPWML 0x00000040 // GPTM Timer A PWM Output Level
+#define TIMER_CTL_TAOTE 0x00000020 // GPTM Timer A Output Trigger
+ // Enable
+#define TIMER_CTL_RTCEN 0x00000010 // GPTM RTC Enable
+#define TIMER_CTL_TAEVENT_M 0x0000000C // GPTM Timer A Event Mode
+#define TIMER_CTL_TAEVENT_POS 0x00000000 // Positive edge
+#define TIMER_CTL_TAEVENT_NEG 0x00000004 // Negative edge
+#define TIMER_CTL_TAEVENT_BOTH 0x0000000C // Both edges
+#define TIMER_CTL_TASTALL 0x00000002 // GPTM Timer A Stall Enable
+#define TIMER_CTL_TAEN 0x00000001 // GPTM Timer A Enable
+//##### GARNET BEGIN #####
+
+//*****************************************************************************
+//
+// The following are defines for the bit fields in the TIMER_O_SYNC register.
+//
+//*****************************************************************************
+#define TIMER_SYNC_SYNC11_M 0x00C00000 // Synchronize GPTM Timer 11
+#define TIMER_SYNC_SYNC11_TA 0x00400000 // A timeout event for Timer A of
+ // GPTM11 is triggered
+#define TIMER_SYNC_SYNC11_TB 0x00800000 // A timeout event for Timer B of
+ // GPTM11 is triggered
+#define TIMER_SYNC_SYNC11_TATB 0x00C00000 // A timeout event for both Timer A
+ // and Timer B of GPTM11 is
+ // triggered
+#define TIMER_SYNC_SYNC10_M 0x00300000 // Synchronize GPTM Timer 10
+#define TIMER_SYNC_SYNC10_TA 0x00100000 // A timeout event for Timer A of
+ // GPTM10 is triggered
+#define TIMER_SYNC_SYNC10_TB 0x00200000 // A timeout event for Timer B of
+ // GPTM10 is triggered
+#define TIMER_SYNC_SYNC10_TATB 0x00300000 // A timeout event for both Timer A
+ // and Timer B of GPTM10 is
+ // triggered
+#define TIMER_SYNC_SYNC9_M 0x000C0000 // Synchronize GPTM Timer 9
+#define TIMER_SYNC_SYNC9_TA 0x00040000 // A timeout event for Timer A of
+ // GPTM9 is triggered
+#define TIMER_SYNC_SYNC9_TB 0x00080000 // A timeout event for Timer B of
+ // GPTM9 is triggered
+#define TIMER_SYNC_SYNC9_TATB 0x000C0000 // A timeout event for both Timer A
+ // and Timer B of GPTM9 is
+ // triggered
+#define TIMER_SYNC_SYNC8_M 0x00030000 // Synchronize GPTM Timer 8
+#define TIMER_SYNC_SYNC8_TA 0x00010000 // A timeout event for Timer A of
+ // GPTM8 is triggered
+#define TIMER_SYNC_SYNC8_TB 0x00020000 // A timeout event for Timer B of
+ // GPTM8 is triggered
+#define TIMER_SYNC_SYNC8_TATB 0x00030000 // A timeout event for both Timer A
+ // and Timer B of GPTM8 is
+ // triggered
+#define TIMER_SYNC_SYNC7_M 0x0000C000 // Synchronize GPTM Timer 7
+#define TIMER_SYNC_SYNC7_TA 0x00004000 // A timeout event for Timer A of
+ // GPTM7 is triggered
+#define TIMER_SYNC_SYNC7_TB 0x00008000 // A timeout event for Timer B of
+ // GPTM7 is triggered
+#define TIMER_SYNC_SYNC7_TATB 0x0000C000 // A timeout event for both Timer A
+ // and Timer B of GPTM7 is
+ // triggered
+#define TIMER_SYNC_SYNC6_M 0x00003000 // Synchronize GPTM Timer 6
+#define TIMER_SYNC_SYNC6_TA 0x00001000 // A timeout event for Timer A of
+ // GPTM6 is triggered
+#define TIMER_SYNC_SYNC6_TB 0x00002000 // A timeout event for Timer B of
+ // GPTM6 is triggered
+#define TIMER_SYNC_SYNC6_TATB 0x00003000 // A timeout event for both Timer A
+ // and Timer B of GPTM6 is
+ // triggered
+#define TIMER_SYNC_SYNC5_M 0x00000C00 // Synchronize GPTM Timer 5
+#define TIMER_SYNC_SYNC5_TA 0x00000400 // A timeout event for Timer A of
+ // GPTM5 is triggered
+#define TIMER_SYNC_SYNC5_TB 0x00000800 // A timeout event for Timer B of
+ // GPTM5 is triggered
+#define TIMER_SYNC_SYNC5_TATB 0x00000C00 // A timeout event for both Timer A
+ // and Timer B of GPTM5 is
+ // triggered
+#define TIMER_SYNC_SYNC4_M 0x00000300 // Synchronize GPTM Timer 4
+#define TIMER_SYNC_SYNC4_TA 0x00000100 // A timeout event for Timer A of
+ // GPTM4 is triggered
+#define TIMER_SYNC_SYNC4_TB 0x00000200 // A timeout event for Timer B of
+ // GPTM4 is triggered
+#define TIMER_SYNC_SYNC4_TATB 0x00000300 // A timeout event for both Timer A
+ // and Timer B of GPTM4 is
+ // triggered
+#define TIMER_SYNC_SYNC3_M 0x000000C0 // Synchronize GPTM Timer 3
+#define TIMER_SYNC_SYNC3_TA 0x00000040 // A timeout event for Timer A of
+ // GPTM3 is triggered
+#define TIMER_SYNC_SYNC3_TB 0x00000080 // A timeout event for Timer B of
+ // GPTM3 is triggered
+#define TIMER_SYNC_SYNC3_TATB 0x000000C0 // A timeout event for both Timer A
+ // and Timer B of GPTM3 is
+ // triggered
+#define TIMER_SYNC_SYNC2_M 0x00000030 // Synchronize GPTM Timer 2
+#define TIMER_SYNC_SYNC2_TA 0x00000010 // A timeout event for Timer A of
+ // GPTM2 is triggered
+#define TIMER_SYNC_SYNC2_TB 0x00000020 // A timeout event for Timer B of
+ // GPTM2 is triggered
+#define TIMER_SYNC_SYNC2_TATB 0x00000030 // A timeout event for both Timer A
+ // and Timer B of GPTM2 is
+ // triggered
+#define TIMER_SYNC_SYNC1_M 0x0000000C // Synchronize GPTM Timer 1
+#define TIMER_SYNC_SYNC1_TA 0x00000004 // A timeout event for Timer A of
+ // GPTM1 is triggered
+#define TIMER_SYNC_SYNC1_TB 0x00000008 // A timeout event for Timer B of
+ // GPTM1 is triggered
+#define TIMER_SYNC_SYNC1_TATB 0x0000000C // A timeout event for both Timer A
+ // and Timer B of GPTM1 is
+ // triggered
+#define TIMER_SYNC_SYNC0_M 0x00000003 // Synchronize GPTM Timer 0
+#define TIMER_SYNC_SYNC0_TA 0x00000001 // A timeout event for Timer A of
+ // GPTM0 is triggered
+#define TIMER_SYNC_SYNC0_TB 0x00000002 // A timeout event for Timer B of
+ // GPTM0 is triggered
+#define TIMER_SYNC_SYNC0_TATB 0x00000003 // A timeout event for both Timer A
+ // and Timer B of GPTM0 is
+ // triggered
+//##### GARNET END #####
+
+//*****************************************************************************
+//
+// The following are defines for the bit fields in the TIMER_O_IMR register.
+//
+//*****************************************************************************
+//##### GARNET BEGIN #####
+#define TIMER_IMR_WUEIM 0x00010000 // 32/64-Bit GPTM Write Update
+ // Error Interrupt Mask
+//##### GARNET END #####
+#define TIMER_IMR_TBMIM 0x00000800 // GPTM Timer B Mode Match
+ // Interrupt Mask
+#define TIMER_IMR_CBEIM 0x00000400 // GPTM Capture B Event Interrupt
+ // Mask
+#define TIMER_IMR_CBMIM 0x00000200 // GPTM Capture B Match Interrupt
+ // Mask
+#define TIMER_IMR_TBTOIM 0x00000100 // GPTM Timer B Time-Out Interrupt
+ // Mask
+#define TIMER_IMR_TAMIM 0x00000010 // GPTM Timer A Mode Match
+ // Interrupt Mask
+#define TIMER_IMR_RTCIM 0x00000008 // GPTM RTC Interrupt Mask
+#define TIMER_IMR_CAEIM 0x00000004 // GPTM Capture A Event Interrupt
+ // Mask
+#define TIMER_IMR_CAMIM 0x00000002 // GPTM Capture A Match Interrupt
+ // Mask
+#define TIMER_IMR_TATOIM 0x00000001 // GPTM Timer A Time-Out Interrupt
+ // Mask
+
+//*****************************************************************************
+//
+// The following are defines for the bit fields in the TIMER_O_RIS register.
+//
+//*****************************************************************************
+//##### GARNET BEGIN #####
+#define TIMER_RIS_WUERIS 0x00010000 // 32/64-Bit GPTM Write Update
+ // Error Raw Interrupt Status
+//##### GARNET END #####
+#define TIMER_RIS_TBMRIS 0x00000800 // GPTM Timer B Mode Match Raw
+ // Interrupt
+#define TIMER_RIS_CBERIS 0x00000400 // GPTM Capture B Event Raw
+ // Interrupt
+#define TIMER_RIS_CBMRIS 0x00000200 // GPTM Capture B Match Raw
+ // Interrupt
+#define TIMER_RIS_TBTORIS 0x00000100 // GPTM Timer B Time-Out Raw
+ // Interrupt
+#define TIMER_RIS_TAMRIS 0x00000010 // GPTM Timer A Mode Match Raw
+ // Interrupt
+#define TIMER_RIS_RTCRIS 0x00000008 // GPTM RTC Raw Interrupt
+#define TIMER_RIS_CAERIS 0x00000004 // GPTM Capture A Event Raw
+ // Interrupt
+#define TIMER_RIS_CAMRIS 0x00000002 // GPTM Capture A Match Raw
+ // Interrupt
+#define TIMER_RIS_TATORIS 0x00000001 // GPTM Timer A Time-Out Raw
+ // Interrupt
+
+//*****************************************************************************
+//
+// The following are defines for the bit fields in the TIMER_O_MIS register.
+//
+//*****************************************************************************
+//##### GARNET BEGIN #####
+#define TIMER_MIS_WUEMIS 0x00010000 // 32/64-Bit GPTM Write Update
+ // Error Masked Interrupt Status
+//##### GARNET END #####
+#define TIMER_MIS_TBMMIS 0x00000800 // GPTM Timer B Mode Match Masked
+ // Interrupt
+#define TIMER_MIS_CBEMIS 0x00000400 // GPTM Capture B Event Masked
+ // Interrupt
+#define TIMER_MIS_CBMMIS 0x00000200 // GPTM Capture B Match Masked
+ // Interrupt
+#define TIMER_MIS_TBTOMIS 0x00000100 // GPTM Timer B Time-Out Masked
+ // Interrupt
+#define TIMER_MIS_TAMMIS 0x00000010 // GPTM Timer A Mode Match Masked
+ // Interrupt
+#define TIMER_MIS_RTCMIS 0x00000008 // GPTM RTC Masked Interrupt
+#define TIMER_MIS_CAEMIS 0x00000004 // GPTM Capture A Event Masked
+ // Interrupt
+#define TIMER_MIS_CAMMIS 0x00000002 // GPTM Capture A Match Masked
+ // Interrupt
+#define TIMER_MIS_TATOMIS 0x00000001 // GPTM Timer A Time-Out Masked
+ // Interrupt
+
+//*****************************************************************************
+//
+// The following are defines for the bit fields in the TIMER_O_ICR register.
+//
+//*****************************************************************************
+//##### GARNET BEGIN #####
+#define TIMER_ICR_WUECINT 0x00010000 // 32/64-Bit GPTM Write Update
+ // Error Interrupt Clear
+//##### GARNET END #####
+#define TIMER_ICR_TBMCINT 0x00000800 // GPTM Timer B Mode Match
+ // Interrupt Clear
+#define TIMER_ICR_CBECINT 0x00000400 // GPTM Capture B Event Interrupt
+ // Clear
+#define TIMER_ICR_CBMCINT 0x00000200 // GPTM Capture B Match Interrupt
+ // Clear
+#define TIMER_ICR_TBTOCINT 0x00000100 // GPTM Timer B Time-Out Interrupt
+ // Clear
+#define TIMER_ICR_TAMCINT 0x00000010 // GPTM Timer A Mode Match
+ // Interrupt Clear
+#define TIMER_ICR_RTCCINT 0x00000008 // GPTM RTC Interrupt Clear
+#define TIMER_ICR_CAECINT 0x00000004 // GPTM Capture A Event Interrupt
+ // Clear
+#define TIMER_ICR_CAMCINT 0x00000002 // GPTM Capture A Match Interrupt
+ // Clear
+#define TIMER_ICR_TATOCINT 0x00000001 // GPTM Timer A Time-Out Raw
+ // Interrupt
+
+//*****************************************************************************
+//
+// The following are defines for the bit fields in the TIMER_O_TAILR register.
+//
+//*****************************************************************************
+//##### GARNET BEGIN #####
+#define TIMER_TAILR_M 0xFFFFFFFF // GPTM Timer A Interval Load
+ // Register
+//##### GARNET END #####
+#define TIMER_TAILR_TAILRH_M 0xFFFF0000 // GPTM Timer A Interval Load
+ // Register High
+#define TIMER_TAILR_TAILRL_M 0x0000FFFF // GPTM Timer A Interval Load
+ // Register Low
+#define TIMER_TAILR_TAILRH_S 16
+#define TIMER_TAILR_TAILRL_S 0
+//##### GARNET BEGIN #####
+#define TIMER_TAILR_S 0
+//##### GARNET END #####
+
+//*****************************************************************************
+//
+// The following are defines for the bit fields in the TIMER_O_TBILR register.
+//
+//*****************************************************************************
+//##### GARNET BEGIN #####
+#define TIMER_TBILR_M 0xFFFFFFFF // GPTM Timer B Interval Load
+ // Register
+//##### GARNET END #####
+#define TIMER_TBILR_TBILRL_M 0x0000FFFF // GPTM Timer B Interval Load
+ // Register
+#define TIMER_TBILR_TBILRL_S 0
+//##### GARNET BEGIN #####
+#define TIMER_TBILR_S 0
+//##### GARNET END #####
+
+//*****************************************************************************
+//
+// The following are defines for the bit fields in the TIMER_O_TAMATCHR
+// register.
+//
+//*****************************************************************************
+//##### GARNET BEGIN #####
+#define TIMER_TAMATCHR_TAMR_M 0xFFFFFFFF // GPTM Timer A Match Register
+//##### GARNET END #####
+#define TIMER_TAMATCHR_TAMRH_M 0xFFFF0000 // GPTM Timer A Match Register High
+#define TIMER_TAMATCHR_TAMRL_M 0x0000FFFF // GPTM Timer A Match Register Low
+#define TIMER_TAMATCHR_TAMRH_S 16
+#define TIMER_TAMATCHR_TAMRL_S 0
+//##### GARNET BEGIN #####
+#define TIMER_TAMATCHR_TAMR_S 0
+//##### GARNET END #####
+
+//*****************************************************************************
+//
+// The following are defines for the bit fields in the TIMER_O_TBMATCHR
+// register.
+//
+//*****************************************************************************
+//##### GARNET BEGIN #####
+#define TIMER_TBMATCHR_TBMR_M 0xFFFFFFFF // GPTM Timer B Match Register
+//##### GARNET END #####
+#define TIMER_TBMATCHR_TBMRL_M 0x0000FFFF // GPTM Timer B Match Register Low
+//##### GARNET BEGIN #####
+#define TIMER_TBMATCHR_TBMR_S 0
+//##### GARNET END #####
+#define TIMER_TBMATCHR_TBMRL_S 0
+
+//*****************************************************************************
+//
+// The following are defines for the bit fields in the TIMER_O_TAPR register.
+//
+//*****************************************************************************
+//##### GARNET BEGIN #####
+#define TIMER_TAPR_TAPSRH_M 0x0000FF00 // GPTM Timer A Prescale High Byte
+//##### GARNET END #####
+#define TIMER_TAPR_TAPSR_M 0x000000FF // GPTM Timer A Prescale
+//##### GARNET BEGIN #####
+#define TIMER_TAPR_TAPSRH_S 8
+//##### GARNET END #####
+#define TIMER_TAPR_TAPSR_S 0
+
+//*****************************************************************************
+//
+// The following are defines for the bit fields in the TIMER_O_TBPR register.
+//
+//*****************************************************************************
+//##### GARNET BEGIN #####
+#define TIMER_TBPR_TBPSRH_M 0x0000FF00 // GPTM Timer B Prescale High Byte
+//##### GARNET END #####
+#define TIMER_TBPR_TBPSR_M 0x000000FF // GPTM Timer B Prescale
+//##### GARNET BEGIN #####
+#define TIMER_TBPR_TBPSRH_S 8
+//##### GARNET END #####
+#define TIMER_TBPR_TBPSR_S 0
+
+//*****************************************************************************
+//
+// The following are defines for the bit fields in the TIMER_O_TAPMR register.
+//
+//*****************************************************************************
+//##### GARNET BEGIN #####
+#define TIMER_TAPMR_TAPSMRH_M 0x0000FF00 // GPTM Timer A Prescale Match High
+ // Byte
+//##### GARNET END #####
+#define TIMER_TAPMR_TAPSMR_M 0x000000FF // GPTM TimerA Prescale Match
+//##### GARNET BEGIN #####
+#define TIMER_TAPMR_TAPSMRH_S 8
+//##### GARNET END #####
+#define TIMER_TAPMR_TAPSMR_S 0
+
+//*****************************************************************************
+//
+// The following are defines for the bit fields in the TIMER_O_TBPMR register.
+//
+//*****************************************************************************
+//##### GARNET BEGIN #####
+#define TIMER_TBPMR_TBPSMRH_M 0x0000FF00 // GPTM Timer B Prescale Match High
+ // Byte
+//##### GARNET END #####
+#define TIMER_TBPMR_TBPSMR_M 0x000000FF // GPTM TimerB Prescale Match
+//##### GARNET BEGIN #####
+#define TIMER_TBPMR_TBPSMRH_S 8
+//##### GARNET END #####
+#define TIMER_TBPMR_TBPSMR_S 0
+
+//*****************************************************************************
+//
+// The following are defines for the bit fields in the TIMER_O_TAR register.
+//
+//*****************************************************************************
+//##### GARNET BEGIN #####
+#define TIMER_TAR_M 0xFFFFFFFF // GPTM Timer A Register
+//##### GARNET END #####
+#define TIMER_TAR_TARH_M 0xFFFF0000 // GPTM Timer A Register High
+#define TIMER_TAR_TARL_M 0x0000FFFF // GPTM Timer A Register Low
+#define TIMER_TAR_TARH_S 16
+#define TIMER_TAR_TARL_S 0
+//##### GARNET BEGIN #####
+#define TIMER_TAR_S 0
+//##### GARNET END #####
+
+//*****************************************************************************
+//
+// The following are defines for the bit fields in the TIMER_O_TBR register.
+//
+//*****************************************************************************
+//##### GARNET BEGIN #####
+#define TIMER_TBR_M 0xFFFFFFFF // GPTM Timer B Register
+//##### GARNET END #####
+#define TIMER_TBR_TBRL_M 0x00FFFFFF // GPTM Timer B
+#define TIMER_TBR_TBRL_S 0
+//##### GARNET BEGIN #####
+#define TIMER_TBR_S 0
+//##### GARNET END #####
+
+//*****************************************************************************
+//
+// The following are defines for the bit fields in the TIMER_O_TAV register.
+//
+//*****************************************************************************
+//##### GARNET BEGIN #####
+#define TIMER_TAV_M 0xFFFFFFFF // GPTM Timer A Value
+//##### GARNET END #####
+#define TIMER_TAV_TAVH_M 0xFFFF0000 // GPTM Timer A Value High
+#define TIMER_TAV_TAVL_M 0x0000FFFF // GPTM Timer A Register Low
+#define TIMER_TAV_TAVH_S 16
+#define TIMER_TAV_TAVL_S 0
+//##### GARNET BEGIN #####
+#define TIMER_TAV_S 0
+//##### GARNET END #####
+
+//*****************************************************************************
+//
+// The following are defines for the bit fields in the TIMER_O_TBV register.
+//
+//*****************************************************************************
+//##### GARNET BEGIN #####
+#define TIMER_TBV_M 0xFFFFFFFF // GPTM Timer B Value
+//##### GARNET END #####
+#define TIMER_TBV_TBVL_M 0x0000FFFF // GPTM Timer B Register
+#define TIMER_TBV_TBVL_S 0
+//##### GARNET BEGIN #####
+#define TIMER_TBV_S 0
+
+//*****************************************************************************
+//
+// The following are defines for the bit fields in the TIMER_O_RTCPD register.
+//
+//*****************************************************************************
+#define TIMER_RTCPD_RTCPD_M 0x0000FFFF // RTC Predivide Counter Value
+#define TIMER_RTCPD_RTCPD_S 0
+
+//*****************************************************************************
+//
+// The following are defines for the bit fields in the TIMER_O_TAPS register.
+//
+//*****************************************************************************
+#define TIMER_TAPS_PSS_M 0x0000FFFF // GPTM Timer A Prescaler Snapshot
+#define TIMER_TAPS_PSS_S 0
+
+//*****************************************************************************
+//
+// The following are defines for the bit fields in the TIMER_O_TBPS register.
+//
+//*****************************************************************************
+#define TIMER_TBPS_PSS_M 0x0000FFFF // GPTM Timer A Prescaler Value
+#define TIMER_TBPS_PSS_S 0
+
+//*****************************************************************************
+//
+// The following are defines for the bit fields in the TIMER_O_TAPV register.
+//
+//*****************************************************************************
+#define TIMER_TAPV_PSV_M 0x0000FFFF // GPTM Timer A Prescaler Value
+#define TIMER_TAPV_PSV_S 0
+
+//*****************************************************************************
+//
+// The following are defines for the bit fields in the TIMER_O_TBPV register.
+//
+//*****************************************************************************
+#define TIMER_TBPV_PSV_M 0x0000FFFF // GPTM Timer B Prescaler Value
+#define TIMER_TBPV_PSV_S 0
+
+//*****************************************************************************
+//
+// The following are defines for the bit fields in the TIMER_O_PP register.
+//
+//*****************************************************************************
+#define TIMER_PP_SYNCCNT 0x00000020 // Synchronize Start
+#define TIMER_PP_CHAIN 0x00000010 // Chain with Other Timers
+#define TIMER_PP_SIZE_M 0x0000000F // Count Size
+#define TIMER_PP_SIZE__0 0x00000000 // Timer A and Timer B counters are
+ // 16 bits each with an 8-bit
+ // prescale counter
+#define TIMER_PP_SIZE__1 0x00000001 // Timer A and Timer B counters are
+ // 32 bits each with an 16-bit
+ // prescale counter
+//##### GARNET END #####
+
+//*****************************************************************************
+//
+// The following definitions are deprecated.
+//
+//*****************************************************************************
+#ifndef DEPRECATED
+
+//*****************************************************************************
+//
+// The following are deprecated defines for the bit fields in the TIMER_O_CFG
+// register.
+//
+//*****************************************************************************
+#define TIMER_CFG_CFG_MSK 0x00000007 // Configuration options mask
+
+//*****************************************************************************
+//
+// The following are deprecated defines for the bit fields in the TIMER_O_CTL
+// register.
+//
+//*****************************************************************************
+#define TIMER_CTL_TBEVENT_MSK 0x00000C00 // TimerB event mode mask
+#define TIMER_CTL_TAEVENT_MSK 0x0000000C // TimerA event mode mask
+
+//*****************************************************************************
+//
+// The following are deprecated defines for the bit fields in the TIMER_O_RIS
+// register.
+//
+//*****************************************************************************
+#define TIMER_RIS_CBEMIS 0x00000400 // CaptureB event masked int status
+#define TIMER_RIS_CBMMIS 0x00000200 // CaptureB match masked int status
+#define TIMER_RIS_TBTOMIS 0x00000100 // TimerB time out masked int stat
+#define TIMER_RIS_RTCMIS 0x00000008 // RTC masked int status
+#define TIMER_RIS_CAEMIS 0x00000004 // CaptureA event masked int status
+#define TIMER_RIS_CAMMIS 0x00000002 // CaptureA match masked int status
+#define TIMER_RIS_TATOMIS 0x00000001 // TimerA time out masked int stat
+
+//*****************************************************************************
+//
+// The following are deprecated defines for the bit fields in the TIMER_O_TAILR
+// register.
+//
+//*****************************************************************************
+#define TIMER_TAILR_TAILRH 0xFFFF0000 // TimerB load val in 32 bit mode
+#define TIMER_TAILR_TAILRL 0x0000FFFF // TimerA interval load value
+
+//*****************************************************************************
+//
+// The following are deprecated defines for the bit fields in the TIMER_O_TBILR
+// register.
+//
+//*****************************************************************************
+#define TIMER_TBILR_TBILRL 0x0000FFFF // TimerB interval load value
+
+//*****************************************************************************
+//
+// The following are deprecated defines for the bit fields in the
+// TIMER_O_TAMATCHR register.
+//
+//*****************************************************************************
+#define TIMER_TAMATCHR_TAMRH 0xFFFF0000 // TimerB match val in 32 bit mode
+#define TIMER_TAMATCHR_TAMRL 0x0000FFFF // TimerA match value
+
+//*****************************************************************************
+//
+// The following are deprecated defines for the bit fields in the
+// TIMER_O_TBMATCHR register.
+//
+//*****************************************************************************
+#define TIMER_TBMATCHR_TBMRL 0x0000FFFF // TimerB match load value
+
+//*****************************************************************************
+//
+// The following are deprecated defines for the bit fields in the TIMER_O_TAR
+// register.
+//
+//*****************************************************************************
+#define TIMER_TAR_TARH 0xFFFF0000 // TimerB val in 32 bit mode
+#define TIMER_TAR_TARL 0x0000FFFF // TimerA value
+
+//*****************************************************************************
+//
+// The following are deprecated defines for the bit fields in the TIMER_O_TBR
+// register.
+//
+//*****************************************************************************
+#define TIMER_TBR_TBRL 0x0000FFFF // TimerB value
+
+//*****************************************************************************
+//
+// The following are deprecated defines for the reset values of the timer
+// registers.
+//
+//*****************************************************************************
+#define TIMER_RV_TAILR 0xFFFFFFFF // TimerA interval load reg RV
+#define TIMER_RV_TAR 0xFFFFFFFF // TimerA register RV
+#define TIMER_RV_TAMATCHR 0xFFFFFFFF // TimerA match register RV
+#define TIMER_RV_TBILR 0x0000FFFF // TimerB interval load reg RV
+#define TIMER_RV_TBMATCHR 0x0000FFFF // TimerB match register RV
+#define TIMER_RV_TBR 0x0000FFFF // TimerB register RV
+#define TIMER_RV_TAPR 0x00000000 // TimerA prescale register RV
+#define TIMER_RV_CFG 0x00000000 // Configuration register RV
+#define TIMER_RV_TBPMR 0x00000000 // TimerB prescale match regi RV
+#define TIMER_RV_TAPMR 0x00000000 // TimerA prescale match reg RV
+#define TIMER_RV_CTL 0x00000000 // Control register RV
+#define TIMER_RV_ICR 0x00000000 // Interrupt clear register RV
+#define TIMER_RV_TBMR 0x00000000 // TimerB mode register RV
+#define TIMER_RV_MIS 0x00000000 // Masked interrupt status reg RV
+#define TIMER_RV_RIS 0x00000000 // Interrupt status register RV
+#define TIMER_RV_TBPR 0x00000000 // TimerB prescale register RV
+#define TIMER_RV_IMR 0x00000000 // Interrupt mask register RV
+#define TIMER_RV_TAMR 0x00000000 // TimerA mode register RV
+
+//*****************************************************************************
+//
+// The following are deprecated defines for the bit fields in the TIMER_TnMR
+// register.
+//
+//*****************************************************************************
+#define TIMER_TNMR_TNAMS 0x00000008 // Alternate mode select
+#define TIMER_TNMR_TNCMR 0x00000004 // Capture mode - count or time
+#define TIMER_TNMR_TNTMR_MSK 0x00000003 // Timer mode mask
+#define TIMER_TNMR_TNTMR_1_SHOT 0x00000001 // Mode - one shot
+#define TIMER_TNMR_TNTMR_PERIOD 0x00000002 // Mode - periodic
+#define TIMER_TNMR_TNTMR_CAP 0x00000003 // Mode - capture
+
+//*****************************************************************************
+//
+// The following are deprecated defines for the bit fields in the TIMER_TnPR
+// register.
+//
+//*****************************************************************************
+#define TIMER_TNPR_TNPSR 0x000000FF // TimerN prescale value
+
+//*****************************************************************************
+//
+// The following are deprecated defines for the bit fields in the TIMER_TnPMR
+// register.
+//
+//*****************************************************************************
+#define TIMER_TNPMR_TNPSMR 0x000000FF // TimerN prescale match value
+
+#endif
+
+#endif // __HW_TIMER_H__
diff --git a/cc3200/hal/inc/hw_types.h b/cc3200/hal/inc/hw_types.h
new file mode 100644
index 000000000..d7a6ab4fe
--- /dev/null
+++ b/cc3200/hal/inc/hw_types.h
@@ -0,0 +1,76 @@
+//*****************************************************************************
+//
+// Copyright (C) 2014 Texas Instruments Incorporated - http://www.ti.com/
+//
+//
+// Redistribution and use in source and binary forms, with or without
+// modification, are permitted provided that the following conditions
+// are met:
+//
+// Redistributions of source code must retain the above copyright
+// notice, this list of conditions and the following disclaimer.
+//
+// Redistributions in binary form must reproduce the above copyright
+// notice, this list of conditions and the following disclaimer in the
+// documentation and/or other materials provided with the
+// distribution.
+//
+// Neither the name of Texas Instruments Incorporated nor the names of
+// its contributors may be used to endorse or promote products derived
+// from this software without specific prior written permission.
+//
+// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
+// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
+// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
+// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
+// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
+// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
+// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
+// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
+// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
+// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
+// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+//
+//*****************************************************************************
+
+#ifndef __HW_TYPES_H__
+#define __HW_TYPES_H__
+
+//*****************************************************************************
+//
+// Define a boolean type, and values for true and false.
+//
+//*****************************************************************************
+typedef unsigned char tBoolean;
+
+#ifndef true
+#define true 1
+#endif
+
+#ifndef false
+#define false 0
+#endif
+
+//*****************************************************************************
+//
+// Macros for hardware access, both direct and via the bit-band region.
+//
+//*****************************************************************************
+#define HWREG(x) \
+ (*((volatile unsigned long *)(x)))
+#define HWREGH(x) \
+ (*((volatile unsigned short *)(x)))
+#define HWREGB(x) \
+ (*((volatile unsigned char *)(x)))
+#define HWREGBITW(x, b) \
+ HWREG(((unsigned long)(x) & 0xF0000000) | 0x02000000 | \
+ (((unsigned long)(x) & 0x000FFFFF) << 5) | ((b) << 2))
+#define HWREGBITH(x, b) \
+ HWREGH(((unsigned long)(x) & 0xF0000000) | 0x02000000 | \
+ (((unsigned long)(x) & 0x000FFFFF) << 5) | ((b) << 2))
+#define HWREGBITB(x, b) \
+ HWREGB(((unsigned long)(x) & 0xF0000000) | 0x02000000 | \
+ (((unsigned long)(x) & 0x000FFFFF) << 5) | ((b) << 2))
+
+
+#endif // __HW_TYPES_H__
diff --git a/cc3200/hal/inc/hw_uart.h b/cc3200/hal/inc/hw_uart.h
new file mode 100644
index 000000000..ae50ac381
--- /dev/null
+++ b/cc3200/hal/inc/hw_uart.h
@@ -0,0 +1,417 @@
+//*****************************************************************************
+//
+// Copyright (C) 2014 Texas Instruments Incorporated - http://www.ti.com/
+//
+//
+// Redistribution and use in source and binary forms, with or without
+// modification, are permitted provided that the following conditions
+// are met:
+//
+// Redistributions of source code must retain the above copyright
+// notice, this list of conditions and the following disclaimer.
+//
+// Redistributions in binary form must reproduce the above copyright
+// notice, this list of conditions and the following disclaimer in the
+// documentation and/or other materials provided with the
+// distribution.
+//
+// Neither the name of Texas Instruments Incorporated nor the names of
+// its contributors may be used to endorse or promote products derived
+// from this software without specific prior written permission.
+//
+// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
+// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
+// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
+// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
+// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
+// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
+// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
+// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
+// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
+// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
+// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+//
+//*****************************************************************************
+
+#ifndef __HW_UART_H__
+#define __HW_UART_H__
+
+//*****************************************************************************
+//
+// The following are defines for the UART register offsets.
+//
+//*****************************************************************************
+#define UART_O_DR 0x00000000
+#define UART_O_RSR 0x00000004
+#define UART_O_ECR 0x00000004
+#define UART_O_FR 0x00000018
+#define UART_O_ILPR 0x00000020
+#define UART_O_IBRD 0x00000024
+#define UART_O_FBRD 0x00000028
+#define UART_O_LCRH 0x0000002C
+#define UART_O_CTL 0x00000030
+#define UART_O_IFLS 0x00000034
+#define UART_O_IM 0x00000038
+#define UART_O_RIS 0x0000003C
+#define UART_O_MIS 0x00000040
+#define UART_O_ICR 0x00000044
+#define UART_O_DMACTL 0x00000048
+#define UART_O_LCTL 0x00000090
+#define UART_O_LSS 0x00000094
+#define UART_O_LTIM 0x00000098
+#define UART_O_9BITADDR 0x000000A4
+#define UART_O_9BITAMASK 0x000000A8
+#define UART_O_PP 0x00000FC0
+#define UART_O_CC 0x00000FC8
+
+
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the UART_O_DR register.
+//
+//******************************************************************************
+#define UART_DR_OE 0x00000800 // UART Overrun Error
+#define UART_DR_BE 0x00000400 // UART Break Error
+#define UART_DR_PE 0x00000200 // UART Parity Error
+#define UART_DR_FE 0x00000100 // UART Framing Error
+#define UART_DR_DATA_M 0x000000FF // Data Transmitted or Received
+#define UART_DR_DATA_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the UART_O_RSR register.
+//
+//******************************************************************************
+#define UART_RSR_OE 0x00000008 // UART Overrun Error
+#define UART_RSR_BE 0x00000004 // UART Break Error
+#define UART_RSR_PE 0x00000002 // UART Parity Error
+#define UART_RSR_FE 0x00000001 // UART Framing Error
+//******************************************************************************
+//
+// The following are defines for the bit fields in the UART_O_ECR register.
+//
+//******************************************************************************
+#define UART_ECR_DATA_M 0x000000FF // Error Clear
+#define UART_ECR_DATA_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the UART_O_FR register.
+//
+//******************************************************************************
+#define UART_FR_RI 0x00000100 // Ring Indicator
+#define UART_FR_TXFE 0x00000080 // UART Transmit FIFO Empty
+#define UART_FR_RXFF 0x00000040 // UART Receive FIFO Full
+#define UART_FR_TXFF 0x00000020 // UART Transmit FIFO Full
+#define UART_FR_RXFE 0x00000010 // UART Receive FIFO Empty
+#define UART_FR_BUSY 0x00000008 // UART Busy
+#define UART_FR_DCD 0x00000004 // Data Carrier Detect
+#define UART_FR_DSR 0x00000002 // Data Set Ready
+#define UART_FR_CTS 0x00000001 // Clear To Send
+//******************************************************************************
+//
+// The following are defines for the bit fields in the UART_O_ILPR register.
+//
+//******************************************************************************
+#define UART_ILPR_ILPDVSR_M 0x000000FF // IrDA Low-Power Divisor
+#define UART_ILPR_ILPDVSR_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the UART_O_IBRD register.
+//
+//******************************************************************************
+#define UART_IBRD_DIVINT_M 0x0000FFFF // Integer Baud-Rate Divisor
+#define UART_IBRD_DIVINT_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the UART_O_FBRD register.
+//
+//******************************************************************************
+#define UART_FBRD_DIVFRAC_M 0x0000003F // Fractional Baud-Rate Divisor
+#define UART_FBRD_DIVFRAC_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the UART_O_LCRH register.
+//
+//******************************************************************************
+#define UART_LCRH_SPS 0x00000080 // UART Stick Parity Select
+#define UART_LCRH_WLEN_M 0x00000060 // UART Word Length 0x00000000 :
+ // UART_LCRH_WLEN_5 : 5 bits
+ // (default) 0x00000020 :
+ // UART_LCRH_WLEN_6 : 6 bits
+ // 0x00000040 : UART_LCRH_WLEN_7 : 7
+ // bits 0x00000060 :
+ // UART_LCRH_WLEN_8 : 8 bits
+#define UART_LCRH_WLEN_S 5
+#define UART_LCRH_FEN 0x00000010 // UART Enable FIFOs
+#define UART_LCRH_STP2 0x00000008 // UART Two Stop Bits Select
+#define UART_LCRH_EPS 0x00000004 // UART Even Parity Select
+#define UART_LCRH_PEN 0x00000002 // UART Parity Enable
+#define UART_LCRH_BRK 0x00000001 // UART Send Break
+#define UART_LCRH_WLEN_M 0x00000060 // UART Word Length
+#define UART_LCRH_WLEN_5 0x00000000 // 5 bits (default)
+#define UART_LCRH_WLEN_6 0x00000020 // 6 bits
+#define UART_LCRH_WLEN_7 0x00000040 // 7 bits
+#define UART_LCRH_WLEN_8 0x00000060 // 8 bits
+//******************************************************************************
+//
+// The following are defines for the bit fields in the UART_O_CTL register.
+//
+//******************************************************************************
+#define UART_CTL_CTSEN 0x00008000 // Enable Clear To Send
+#define UART_CTL_RTSEN 0x00004000 // Enable Request to Send
+#define UART_CTL_RI 0x00002000 // Ring Indicator
+#define UART_CTL_DCD 0x00001000 // Data Carrier Detect
+#define UART_CTL_RTS 0x00000800 // Request to Send
+#define UART_CTL_DTR 0x00000400 // Data Terminal Ready
+#define UART_CTL_RXE 0x00000200 // UART Receive Enable
+#define UART_CTL_TXE 0x00000100 // UART Transmit Enable
+#define UART_CTL_LBE 0x00000080 // UART Loop Back Enable
+#define UART_CTL_LIN 0x00000040 // LIN Mode Enable
+#define UART_CTL_HSE 0x00000020 // High-Speed Enable
+#define UART_CTL_EOT 0x00000010 // End of Transmission
+#define UART_CTL_SMART 0x00000008 // ISO 7816 Smart Card Support
+#define UART_CTL_SIRLP 0x00000004 // UART SIR Low-Power Mode
+#define UART_CTL_SIREN 0x00000002 // UART SIR Enable
+#define UART_CTL_UARTEN 0x00000001 // UART Enable
+//******************************************************************************
+//
+// The following are defines for the bit fields in the UART_O_IFLS register.
+//
+//******************************************************************************
+#define UART_IFLS_RX_M 0x00000038 // UART Receive Interrupt FIFO
+ // Level Select
+#define UART_IFLS_RX_S 3
+#define UART_IFLS_TX_M 0x00000007 // UART Transmit Interrupt FIFO
+ // Level Select
+#define UART_IFLS_TX_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the UART_O_IM register.
+//
+//******************************************************************************
+#define UART_IM_DMATXIM 0x00020000 // Transmit DMA Interrupt Mask
+#define UART_IM_DMARXIM 0x00010000 // Receive DMA Interrupt Mask
+#define UART_IM_LME5IM 0x00008000 // LIN Mode Edge 5 Interrupt Mask
+#define UART_IM_LME1IM 0x00004000 // LIN Mode Edge 1 Interrupt Mask
+#define UART_IM_LMSBIM 0x00002000 // LIN Mode Sync Break Interrupt
+ // Mask
+#define UART_IM_9BITIM 0x00001000 // 9-Bit Mode Interrupt Mask
+#define UART_IM_EOTIM 0x00000800 // End of Transmission Interrupt
+ // Mask
+#define UART_IM_OEIM 0x00000400 // UART Overrun Error Interrupt
+ // Mask
+#define UART_IM_BEIM 0x00000200 // UART Break Error Interrupt Mask
+#define UART_IM_PEIM 0x00000100 // UART Parity Error Interrupt Mask
+#define UART_IM_FEIM 0x00000080 // UART Framing Error Interrupt
+ // Mask
+#define UART_IM_RTIM 0x00000040 // UART Receive Time-Out Interrupt
+ // Mask
+#define UART_IM_TXIM 0x00000020 // UART Transmit Interrupt Mask
+#define UART_IM_RXIM 0x00000010 // UART Receive Interrupt Mask
+#define UART_IM_DSRMIM 0x00000008 // UART Data Set Ready Modem
+ // Interrupt Mask
+#define UART_IM_DCDMIM 0x00000004 // UART Data Carrier Detect Modem
+ // Interrupt Mask
+#define UART_IM_CTSMIM 0x00000002 // UART Clear to Send Modem
+ // Interrupt Mask
+#define UART_IM_RIMIM 0x00000001 // UART Ring Indicator Modem
+ // Interrupt Mask
+//******************************************************************************
+//
+// The following are defines for the bit fields in the UART_O_RIS register.
+//
+//******************************************************************************
+#define UART_RIS_DMATXRIS 0x00020000 // Transmit DMA Raw Interrupt
+ // Status
+#define UART_RIS_DMARXRIS 0x00010000 // Receive DMA Raw Interrupt Status
+#define UART_RIS_LME5RIS 0x00008000 // LIN Mode Edge 5 Raw Interrupt
+ // Status
+#define UART_RIS_LME1RIS 0x00004000 // LIN Mode Edge 1 Raw Interrupt
+ // Status
+#define UART_RIS_LMSBRIS 0x00002000 // LIN Mode Sync Break Raw
+ // Interrupt Status
+#define UART_RIS_9BITRIS 0x00001000 // 9-Bit Mode Raw Interrupt Status
+#define UART_RIS_EOTRIS 0x00000800 // End of Transmission Raw
+ // Interrupt Status
+#define UART_RIS_OERIS 0x00000400 // UART Overrun Error Raw Interrupt
+ // Status
+#define UART_RIS_BERIS 0x00000200 // UART Break Error Raw Interrupt
+ // Status
+#define UART_RIS_PERIS 0x00000100 // UART Parity Error Raw Interrupt
+ // Status
+#define UART_RIS_FERIS 0x00000080 // UART Framing Error Raw Interrupt
+ // Status
+#define UART_RIS_RTRIS 0x00000040 // UART Receive Time-Out Raw
+ // Interrupt Status
+#define UART_RIS_TXRIS 0x00000020 // UART Transmit Raw Interrupt
+ // Status
+#define UART_RIS_RXRIS 0x00000010 // UART Receive Raw Interrupt
+ // Status
+#define UART_RIS_DSRRIS 0x00000008 // UART Data Set Ready Modem Raw
+ // Interrupt Status
+#define UART_RIS_DCDRIS 0x00000004 // UART Data Carrier Detect Modem
+ // Raw Interrupt Status
+#define UART_RIS_CTSRIS 0x00000002 // UART Clear to Send Modem Raw
+ // Interrupt Status
+#define UART_RIS_RIRIS 0x00000001 // UART Ring Indicator Modem Raw
+ // Interrupt Status
+//******************************************************************************
+//
+// The following are defines for the bit fields in the UART_O_MIS register.
+//
+//******************************************************************************
+#define UART_MIS_DMATXMIS 0x00020000 // Transmit DMA Masked Interrupt
+ // Status
+#define UART_MIS_DMARXMIS 0x00010000 // Receive DMA Masked Interrupt
+ // Status
+#define UART_MIS_LME5MIS 0x00008000 // LIN Mode Edge 5 Masked Interrupt
+ // Status
+#define UART_MIS_LME1MIS 0x00004000 // LIN Mode Edge 1 Masked Interrupt
+ // Status
+#define UART_MIS_LMSBMIS 0x00002000 // LIN Mode Sync Break Masked
+ // Interrupt Status
+#define UART_MIS_9BITMIS 0x00001000 // 9-Bit Mode Masked Interrupt
+ // Status
+#define UART_MIS_EOTMIS 0x00000800 // End of Transmission Masked
+ // Interrupt Status
+#define UART_MIS_OEMIS 0x00000400 // UART Overrun Error Masked
+ // Interrupt Status
+#define UART_MIS_BEMIS 0x00000200 // UART Break Error Masked
+ // Interrupt Status
+#define UART_MIS_PEMIS 0x00000100 // UART Parity Error Masked
+ // Interrupt Status
+#define UART_MIS_FEMIS 0x00000080 // UART Framing Error Masked
+ // Interrupt Status
+#define UART_MIS_RTMIS 0x00000040 // UART Receive Time-Out Masked
+ // Interrupt Status
+#define UART_MIS_TXMIS 0x00000020 // UART Transmit Masked Interrupt
+ // Status
+#define UART_MIS_RXMIS 0x00000010 // UART Receive Masked Interrupt
+ // Status
+#define UART_MIS_DSRMIS 0x00000008 // UART Data Set Ready Modem Masked
+ // Interrupt Status
+#define UART_MIS_DCDMIS 0x00000004 // UART Data Carrier Detect Modem
+ // Masked Interrupt Status
+#define UART_MIS_CTSMIS 0x00000002 // UART Clear to Send Modem Masked
+ // Interrupt Status
+#define UART_MIS_RIMIS 0x00000001 // UART Ring Indicator Modem Masked
+ // Interrupt Status
+//******************************************************************************
+//
+// The following are defines for the bit fields in the UART_O_ICR register.
+//
+//******************************************************************************
+#define UART_ICR_DMATXIC 0x00020000 // Transmit DMA Interrupt Clear
+#define UART_ICR_DMARXIC 0x00010000 // Receive DMA Interrupt Clear
+#define UART_ICR_LME5MIC 0x00008000 // LIN Mode Edge 5 Interrupt Clear
+#define UART_ICR_LME1MIC 0x00004000 // LIN Mode Edge 1 Interrupt Clear
+#define UART_ICR_LMSBMIC 0x00002000 // LIN Mode Sync Break Interrupt
+ // Clear
+#define UART_ICR_9BITIC 0x00001000 // 9-Bit Mode Interrupt Clear
+#define UART_ICR_EOTIC 0x00000800 // End of Transmission Interrupt
+ // Clear
+#define UART_ICR_OEIC 0x00000400 // Overrun Error Interrupt Clear
+#define UART_ICR_BEIC 0x00000200 // Break Error Interrupt Clear
+#define UART_ICR_PEIC 0x00000100 // Parity Error Interrupt Clear
+#define UART_ICR_FEIC 0x00000080 // Framing Error Interrupt Clear
+#define UART_ICR_RTIC 0x00000040 // Receive Time-Out Interrupt Clear
+#define UART_ICR_TXIC 0x00000020 // Transmit Interrupt Clear
+#define UART_ICR_RXIC 0x00000010 // Receive Interrupt Clear
+#define UART_ICR_DSRMIC 0x00000008 // UART Data Set Ready Modem
+ // Interrupt Clear
+#define UART_ICR_DCDMIC 0x00000004 // UART Data Carrier Detect Modem
+ // Interrupt Clear
+#define UART_ICR_CTSMIC 0x00000002 // UART Clear to Send Modem
+ // Interrupt Clear
+#define UART_ICR_RIMIC 0x00000001 // UART Ring Indicator Modem
+ // Interrupt Clear
+//******************************************************************************
+//
+// The following are defines for the bit fields in the UART_O_DMACTL register.
+//
+//******************************************************************************
+#define UART_DMACTL_DMAERR 0x00000004 // DMA on Error
+#define UART_DMACTL_TXDMAE 0x00000002 // Transmit DMA Enable
+#define UART_DMACTL_RXDMAE 0x00000001 // Receive DMA Enable
+//******************************************************************************
+//
+// The following are defines for the bit fields in the UART_O_LCTL register.
+//
+//******************************************************************************
+#define UART_LCTL_BLEN_M 0x00000030 // Sync Break Length 0x00000000 :
+ // UART_LCTL_BLEN_13T : Sync break
+ // length is 13T bits (default)
+ // 0x00000010 : UART_LCTL_BLEN_14T :
+ // Sync break length is 14T bits
+ // 0x00000020 : UART_LCTL_BLEN_15T :
+ // Sync break length is 15T bits
+ // 0x00000030 : UART_LCTL_BLEN_16T :
+ // Sync break length is 16T bits
+#define UART_LCTL_BLEN_S 4
+#define UART_LCTL_MASTER 0x00000001 // LIN Master Enable
+//******************************************************************************
+//
+// The following are defines for the bit fields in the UART_O_LSS register.
+//
+//******************************************************************************
+#define UART_LSS_TSS_M 0x0000FFFF // Timer Snap Shot
+#define UART_LSS_TSS_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the UART_O_LTIM register.
+//
+//******************************************************************************
+#define UART_LTIM_TIMER_M 0x0000FFFF // Timer Value
+#define UART_LTIM_TIMER_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// UART_O_9BITADDR register.
+//
+//******************************************************************************
+#define UART_9BITADDR_9BITEN \
+ 0x00008000 // Enable 9-Bit Mode
+
+#define UART_9BITADDR_ADDR_M \
+ 0x000000FF // Self Address for 9-Bit Mode
+
+#define UART_9BITADDR_ADDR_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// UART_O_9BITAMASK register.
+//
+//******************************************************************************
+#define UART_9BITAMASK_RANGE_M \
+ 0x0000FF00 // Self Address Range for 9-Bit
+ // Mode
+
+#define UART_9BITAMASK_RANGE_S 8
+#define UART_9BITAMASK_MASK_M \
+ 0x000000FF // Self Address Mask for 9-Bit Mode
+
+#define UART_9BITAMASK_MASK_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the UART_O_PP register.
+//
+//******************************************************************************
+#define UART_PP_MSE 0x00000008 // Modem Support Extended
+#define UART_PP_MS 0x00000004 // Modem Support
+#define UART_PP_NB 0x00000002 // 9-Bit Support
+#define UART_PP_SC 0x00000001 // Smart Card Support
+//******************************************************************************
+//
+// The following are defines for the bit fields in the UART_O_CC register.
+//
+//******************************************************************************
+#define UART_CC_CS_M 0x0000000F // UART Baud Clock Source
+ // 0x00000005 : UART_CC_CS_PIOSC :
+ // PIOSC 0x00000000 :
+ // UART_CC_CS_SYSCLK : The system
+ // clock (default)
+#define UART_CC_CS_S 0
+
+
+
+#endif // __HW_UART_H__
diff --git a/cc3200/hal/inc/hw_udma.h b/cc3200/hal/inc/hw_udma.h
new file mode 100644
index 000000000..9a495baea
--- /dev/null
+++ b/cc3200/hal/inc/hw_udma.h
@@ -0,0 +1,336 @@
+//*****************************************************************************
+//
+// Copyright (C) 2014 Texas Instruments Incorporated - http://www.ti.com/
+//
+//
+// Redistribution and use in source and binary forms, with or without
+// modification, are permitted provided that the following conditions
+// are met:
+//
+// Redistributions of source code must retain the above copyright
+// notice, this list of conditions and the following disclaimer.
+//
+// Redistributions in binary form must reproduce the above copyright
+// notice, this list of conditions and the following disclaimer in the
+// documentation and/or other materials provided with the
+// distribution.
+//
+// Neither the name of Texas Instruments Incorporated nor the names of
+// its contributors may be used to endorse or promote products derived
+// from this software without specific prior written permission.
+//
+// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
+// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
+// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
+// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
+// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
+// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
+// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
+// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
+// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
+// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
+// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+//
+//*****************************************************************************
+
+#ifndef __HW_UDMA_H__
+#define __HW_UDMA_H__
+
+//*****************************************************************************
+//
+// The following are defines for the UDMA register offsets.
+//
+//*****************************************************************************
+#define UDMA_O_STAT 0x00000000
+#define UDMA_O_CFG 0x00000004
+#define UDMA_O_CTLBASE 0x00000008
+#define UDMA_O_ALTBASE 0x0000000C
+#define UDMA_O_WAITSTAT 0x00000010
+#define UDMA_O_SWREQ 0x00000014
+#define UDMA_O_USEBURSTSET 0x00000018
+#define UDMA_O_USEBURSTCLR 0x0000001C
+#define UDMA_O_REQMASKSET 0x00000020
+#define UDMA_O_REQMASKCLR 0x00000024
+#define UDMA_O_ENASET 0x00000028
+#define UDMA_O_ENACLR 0x0000002C
+#define UDMA_O_ALTSET 0x00000030
+#define UDMA_O_ALTCLR 0x00000034
+#define UDMA_O_PRIOSET 0x00000038
+#define UDMA_O_PRIOCLR 0x0000003C
+#define UDMA_O_ERRCLR 0x0000004C
+#define UDMA_O_CHASGN 0x00000500
+#define UDMA_O_CHIS 0x00000504
+#define UDMA_O_CHMAP0 0x00000510
+#define UDMA_O_CHMAP1 0x00000514
+#define UDMA_O_CHMAP2 0x00000518
+#define UDMA_O_CHMAP3 0x0000051C
+#define UDMA_O_PV 0x00000FB0
+
+
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the UDMA_O_STAT register.
+//
+//******************************************************************************
+#define UDMA_STAT_DMACHANS_M 0x001F0000 // Available uDMA Channels Minus 1
+#define UDMA_STAT_DMACHANS_S 16
+#define UDMA_STAT_STATE_M 0x000000F0 // Control State Machine Status
+ // 0x00000090 : UDMA_STAT_STATE_DONE
+ // : Done 0x00000000 :
+ // UDMA_STAT_STATE_IDLE : Idle
+ // 0x00000010 :
+ // UDMA_STAT_STATE_RD_CTRL : Reading
+ // channel controller data
+ // 0x00000030 :
+ // UDMA_STAT_STATE_RD_DSTENDP :
+ // Reading destination end pointer
+ // 0x00000040 :
+ // UDMA_STAT_STATE_RD_SRCDAT :
+ // Reading source data 0x00000020 :
+ // UDMA_STAT_STATE_RD_SRCENDP :
+ // Reading source end pointer
+ // 0x00000080 :
+ // UDMA_STAT_STATE_STALL : Stalled
+ // 0x000000A0 :
+ // UDMA_STAT_STATE_UNDEF : Undefined
+ // 0x00000060 : UDMA_STAT_STATE_WAIT
+ // : Waiting for uDMA request to
+ // clear 0x00000070 :
+ // UDMA_STAT_STATE_WR_CTRL : Writing
+ // channel controller data
+ // 0x00000050 :
+ // UDMA_STAT_STATE_WR_DSTDAT :
+ // Writing destination data
+#define UDMA_STAT_STATE_S 4
+#define UDMA_STAT_MASTEN 0x00000001 // Master Enable Status
+//******************************************************************************
+//
+// The following are defines for the bit fields in the UDMA_O_CFG register.
+//
+//******************************************************************************
+#define UDMA_CFG_MASTEN 0x00000001 // Controller Master Enable
+//******************************************************************************
+//
+// The following are defines for the bit fields in the UDMA_O_CTLBASE register.
+//
+//******************************************************************************
+#define UDMA_CTLBASE_ADDR_M 0xFFFFFC00 // Channel Control Base Address
+#define UDMA_CTLBASE_ADDR_S 10
+//******************************************************************************
+//
+// The following are defines for the bit fields in the UDMA_O_ALTBASE register.
+//
+//******************************************************************************
+#define UDMA_ALTBASE_ADDR_M 0xFFFFFFFF // Alternate Channel Address
+ // Pointer
+#define UDMA_ALTBASE_ADDR_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the UDMA_O_WAITSTAT register.
+//
+//******************************************************************************
+#define UDMA_WAITSTAT_WAITREQ_M \
+ 0xFFFFFFFF // Channel [n] Wait Status
+
+#define UDMA_WAITSTAT_WAITREQ_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the UDMA_O_SWREQ register.
+//
+//******************************************************************************
+#define UDMA_SWREQ_M 0xFFFFFFFF // Channel [n] Software Request
+#define UDMA_SWREQ_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// UDMA_O_USEBURSTSET register.
+//
+//******************************************************************************
+#define UDMA_USEBURSTSET_SET_M \
+ 0xFFFFFFFF // Channel [n] Useburst Set
+
+#define UDMA_USEBURSTSET_SET_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the
+// UDMA_O_USEBURSTCLR register.
+//
+//******************************************************************************
+#define UDMA_USEBURSTCLR_CLR_M \
+ 0xFFFFFFFF // Channel [n] Useburst Clear
+
+#define UDMA_USEBURSTCLR_CLR_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the UDMA_O_REQMASKSET register.
+//
+//******************************************************************************
+#define UDMA_REQMASKSET_SET_M 0xFFFFFFFF // Channel [n] Request Mask Set
+#define UDMA_REQMASKSET_SET_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the UDMA_O_REQMASKCLR register.
+//
+//******************************************************************************
+#define UDMA_REQMASKCLR_CLR_M 0xFFFFFFFF // Channel [n] Request Mask Clear
+#define UDMA_REQMASKCLR_CLR_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the UDMA_O_ENASET register.
+//
+//******************************************************************************
+#define UDMA_ENASET_CHENSET_M 0xFFFFFFFF // Channel [n] Enable Set
+#define UDMA_ENASET_CHENSET_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the UDMA_O_ENACLR register.
+//
+//******************************************************************************
+#define UDMA_ENACLR_CLR_M 0xFFFFFFFF // Clear Channel [n] Enable Clear
+#define UDMA_ENACLR_CLR_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the UDMA_O_ALTSET register.
+//
+//******************************************************************************
+#define UDMA_ALTSET_SET_M 0xFFFFFFFF // Channel [n] Alternate Set
+#define UDMA_ALTSET_SET_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the UDMA_O_ALTCLR register.
+//
+//******************************************************************************
+#define UDMA_ALTCLR_CLR_M 0xFFFFFFFF // Channel [n] Alternate Clear
+#define UDMA_ALTCLR_CLR_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the UDMA_O_PRIOSET register.
+//
+//******************************************************************************
+#define UDMA_PRIOSET_SET_M 0xFFFFFFFF // Channel [n] Priority Set
+#define UDMA_PRIOSET_SET_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the UDMA_O_PRIOCLR register.
+//
+//******************************************************************************
+#define UDMA_PRIOCLR_CLR_M 0xFFFFFFFF // Channel [n] Priority Clear
+#define UDMA_PRIOCLR_CLR_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the UDMA_O_ERRCLR register.
+//
+//******************************************************************************
+#define UDMA_ERRCLR_ERRCLR 0x00000001 // uDMA Bus Error Status
+//******************************************************************************
+//
+// The following are defines for the bit fields in the UDMA_O_CHASGN register.
+//
+//******************************************************************************
+#define UDMA_CHASGN_M 0xFFFFFFFF // Channel [n] Assignment Select
+#define UDMA_CHASGN_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the UDMA_O_CHIS register.
+//
+//******************************************************************************
+#define UDMA_CHIS_M 0xFFFFFFFF // Channel [n] Interrupt Status
+#define UDMA_CHIS_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the UDMA_O_CHMAP0 register.
+//
+//******************************************************************************
+#define UDMA_CHMAP0_CH7SEL_M 0xF0000000 // uDMA Channel 7 Source Select
+#define UDMA_CHMAP0_CH7SEL_S 28
+#define UDMA_CHMAP0_CH6SEL_M 0x0F000000 // uDMA Channel 6 Source Select
+#define UDMA_CHMAP0_CH6SEL_S 24
+#define UDMA_CHMAP0_CH5SEL_M 0x00F00000 // uDMA Channel 5 Source Select
+#define UDMA_CHMAP0_CH5SEL_S 20
+#define UDMA_CHMAP0_CH4SEL_M 0x000F0000 // uDMA Channel 4 Source Select
+#define UDMA_CHMAP0_CH4SEL_S 16
+#define UDMA_CHMAP0_CH3SEL_M 0x0000F000 // uDMA Channel 3 Source Select
+#define UDMA_CHMAP0_CH3SEL_S 12
+#define UDMA_CHMAP0_CH2SEL_M 0x00000F00 // uDMA Channel 2 Source Select
+#define UDMA_CHMAP0_CH2SEL_S 8
+#define UDMA_CHMAP0_CH1SEL_M 0x000000F0 // uDMA Channel 1 Source Select
+#define UDMA_CHMAP0_CH1SEL_S 4
+#define UDMA_CHMAP0_CH0SEL_M 0x0000000F // uDMA Channel 0 Source Select
+#define UDMA_CHMAP0_CH0SEL_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the UDMA_O_CHMAP1 register.
+//
+//******************************************************************************
+#define UDMA_CHMAP1_CH15SEL_M 0xF0000000 // uDMA Channel 15 Source Select
+#define UDMA_CHMAP1_CH15SEL_S 28
+#define UDMA_CHMAP1_CH14SEL_M 0x0F000000 // uDMA Channel 14 Source Select
+#define UDMA_CHMAP1_CH14SEL_S 24
+#define UDMA_CHMAP1_CH13SEL_M 0x00F00000 // uDMA Channel 13 Source Select
+#define UDMA_CHMAP1_CH13SEL_S 20
+#define UDMA_CHMAP1_CH12SEL_M 0x000F0000 // uDMA Channel 12 Source Select
+#define UDMA_CHMAP1_CH12SEL_S 16
+#define UDMA_CHMAP1_CH11SEL_M 0x0000F000 // uDMA Channel 11 Source Select
+#define UDMA_CHMAP1_CH11SEL_S 12
+#define UDMA_CHMAP1_CH10SEL_M 0x00000F00 // uDMA Channel 10 Source Select
+#define UDMA_CHMAP1_CH10SEL_S 8
+#define UDMA_CHMAP1_CH9SEL_M 0x000000F0 // uDMA Channel 9 Source Select
+#define UDMA_CHMAP1_CH9SEL_S 4
+#define UDMA_CHMAP1_CH8SEL_M 0x0000000F // uDMA Channel 8 Source Select
+#define UDMA_CHMAP1_CH8SEL_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the UDMA_O_CHMAP2 register.
+//
+//******************************************************************************
+#define UDMA_CHMAP2_CH23SEL_M 0xF0000000 // uDMA Channel 23 Source Select
+#define UDMA_CHMAP2_CH23SEL_S 28
+#define UDMA_CHMAP2_CH22SEL_M 0x0F000000 // uDMA Channel 22 Source Select
+#define UDMA_CHMAP2_CH22SEL_S 24
+#define UDMA_CHMAP2_CH21SEL_M 0x00F00000 // uDMA Channel 21 Source Select
+#define UDMA_CHMAP2_CH21SEL_S 20
+#define UDMA_CHMAP2_CH20SEL_M 0x000F0000 // uDMA Channel 20 Source Select
+#define UDMA_CHMAP2_CH20SEL_S 16
+#define UDMA_CHMAP2_CH19SEL_M 0x0000F000 // uDMA Channel 19 Source Select
+#define UDMA_CHMAP2_CH19SEL_S 12
+#define UDMA_CHMAP2_CH18SEL_M 0x00000F00 // uDMA Channel 18 Source Select
+#define UDMA_CHMAP2_CH18SEL_S 8
+#define UDMA_CHMAP2_CH17SEL_M 0x000000F0 // uDMA Channel 17 Source Select
+#define UDMA_CHMAP2_CH17SEL_S 4
+#define UDMA_CHMAP2_CH16SEL_M 0x0000000F // uDMA Channel 16 Source Select
+#define UDMA_CHMAP2_CH16SEL_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the UDMA_O_CHMAP3 register.
+//
+//******************************************************************************
+#define UDMA_CHMAP3_CH31SEL_M 0xF0000000 // uDMA Channel 31 Source Select
+#define UDMA_CHMAP3_CH31SEL_S 28
+#define UDMA_CHMAP3_CH30SEL_M 0x0F000000 // uDMA Channel 30 Source Select
+#define UDMA_CHMAP3_CH30SEL_S 24
+#define UDMA_CHMAP3_CH29SEL_M 0x00F00000 // uDMA Channel 29 Source Select
+#define UDMA_CHMAP3_CH29SEL_S 20
+#define UDMA_CHMAP3_CH28SEL_M 0x000F0000 // uDMA Channel 28 Source Select
+#define UDMA_CHMAP3_CH28SEL_S 16
+#define UDMA_CHMAP3_CH27SEL_M 0x0000F000 // uDMA Channel 27 Source Select
+#define UDMA_CHMAP3_CH27SEL_S 12
+#define UDMA_CHMAP3_CH26SEL_M 0x00000F00 // uDMA Channel 26 Source Select
+#define UDMA_CHMAP3_CH26SEL_S 8
+#define UDMA_CHMAP3_CH25SEL_M 0x000000F0 // uDMA Channel 25 Source Select
+#define UDMA_CHMAP3_CH25SEL_S 4
+#define UDMA_CHMAP3_CH24SEL_M 0x0000000F // uDMA Channel 24 Source Select
+#define UDMA_CHMAP3_CH24SEL_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the UDMA_O_PV register.
+//
+//******************************************************************************
+#define UDMA_PV_MAJOR_M 0x0000FF00 // Major Revision
+#define UDMA_PV_MAJOR_S 8
+#define UDMA_PV_MINOR_M 0x000000FF // Minor Revision
+#define UDMA_PV_MINOR_S 0
+
+
+
+#endif // __HW_UDMA_H__
diff --git a/cc3200/hal/inc/hw_wdt.h b/cc3200/hal/inc/hw_wdt.h
new file mode 100644
index 000000000..00b14acbe
--- /dev/null
+++ b/cc3200/hal/inc/hw_wdt.h
@@ -0,0 +1,131 @@
+//*****************************************************************************
+//
+// Copyright (C) 2014 Texas Instruments Incorporated - http://www.ti.com/
+//
+//
+// Redistribution and use in source and binary forms, with or without
+// modification, are permitted provided that the following conditions
+// are met:
+//
+// Redistributions of source code must retain the above copyright
+// notice, this list of conditions and the following disclaimer.
+//
+// Redistributions in binary form must reproduce the above copyright
+// notice, this list of conditions and the following disclaimer in the
+// documentation and/or other materials provided with the
+// distribution.
+//
+// Neither the name of Texas Instruments Incorporated nor the names of
+// its contributors may be used to endorse or promote products derived
+// from this software without specific prior written permission.
+//
+// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
+// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
+// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
+// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
+// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
+// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
+// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
+// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
+// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
+// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
+// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+//
+//*****************************************************************************
+
+#ifndef __HW_WDT_H__
+#define __HW_WDT_H__
+
+//*****************************************************************************
+//
+// The following are defines for the WDT register offsets.
+//
+//*****************************************************************************
+#define WDT_O_LOAD 0x00000000
+#define WDT_O_VALUE 0x00000004
+#define WDT_O_CTL 0x00000008
+#define WDT_O_ICR 0x0000000C
+#define WDT_O_RIS 0x00000010
+#define WDT_O_MIS 0x00000014
+#define WDT_O_TEST 0x00000418
+#define WDT_O_LOCK 0x00000C00
+
+
+
+//******************************************************************************
+//
+// The following are defines for the bit fields in the WDT_O_LOAD register.
+//
+//******************************************************************************
+#define WDT_LOAD_M 0xFFFFFFFF // Watchdog Load Value
+#define WDT_LOAD_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the WDT_O_VALUE register.
+//
+//******************************************************************************
+#define WDT_VALUE_M 0xFFFFFFFF // Watchdog Value
+#define WDT_VALUE_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the WDT_O_CTL register.
+//
+//******************************************************************************
+#define WDT_CTL_WRC 0x80000000 // Write Complete
+#define WDT_CTL_INTTYPE 0x00000004 // Watchdog Interrupt Type
+#define WDT_CTL_RESEN 0x00000002 // Watchdog Reset Enable. This bit
+ // is not used in cc3xx, WDOG shall
+ // always generate RESET to system
+ // irrespective of this bit setting.
+#define WDT_CTL_INTEN 0x00000001 // Watchdog Interrupt Enable
+//******************************************************************************
+//
+// The following are defines for the bit fields in the WDT_O_ICR register.
+//
+//******************************************************************************
+#define WDT_ICR_M 0xFFFFFFFF // Watchdog Interrupt Clear
+#define WDT_ICR_S 0
+//******************************************************************************
+//
+// The following are defines for the bit fields in the WDT_O_RIS register.
+//
+//******************************************************************************
+#define WDT_RIS_WDTRIS 0x00000001 // Watchdog Raw Interrupt Status
+//******************************************************************************
+//
+// The following are defines for the bit fields in the WDT_O_MIS register.
+//
+//******************************************************************************
+#define WDT_MIS_WDTMIS 0x00000001 // Watchdog Masked Interrupt Status
+//******************************************************************************
+//
+// The following are defines for the bit fields in the WDT_O_TEST register.
+//
+//******************************************************************************
+#define WDT_TEST_STALL_EN_M 0x00000C00 // Watchdog stall enable
+#define WDT_TEST_STALL_EN_S 10
+#define WDT_TEST_STALL 0x00000100 // Watchdog Stall Enable
+//******************************************************************************
+//
+// The following are defines for the bit fields in the WDT_O_LOCK register.
+//
+//******************************************************************************
+#define WDT_LOCK_M 0xFFFFFFFF // Watchdog Lock
+#define WDT_LOCK_S 0
+#define WDT_LOCK_UNLOCKED 0x00000000 // Unlocked
+#define WDT_LOCK_LOCKED 0x00000001 // Locked
+#define WDT_LOCK_UNLOCK 0x1ACCE551 // Unlocks the watchdog timer
+
+//*****************************************************************************
+//
+// The following are defines for the bit fields in the WDT_ISR, WDT_RIS, and
+// WDT_MIS registers.
+//
+//*****************************************************************************
+#define WDT_INT_TIMEOUT 0x00000001 // Watchdog timer expired
+
+
+
+
+
+#endif // __HW_WDT_H__
diff --git a/cc3200/hal/interrupt.c b/cc3200/hal/interrupt.c
new file mode 100644
index 000000000..897ad966a
--- /dev/null
+++ b/cc3200/hal/interrupt.c
@@ -0,0 +1,769 @@
+//*****************************************************************************
+//
+// interrupt.c
+//
+// Driver for the NVIC Interrupt Controller.
+//
+// Copyright (C) 2014 Texas Instruments Incorporated - http://www.ti.com/
+//
+//
+// Redistribution and use in source and binary forms, with or without
+// modification, are permitted provided that the following conditions
+// are met:
+//
+// Redistributions of source code must retain the above copyright
+// notice, this list of conditions and the following disclaimer.
+//
+// Redistributions in binary form must reproduce the above copyright
+// notice, this list of conditions and the following disclaimer in the
+// documentation and/or other materials provided with the
+// distribution.
+//
+// Neither the name of Texas Instruments Incorporated nor the names of
+// its contributors may be used to endorse or promote products derived
+// from this software without specific prior written permission.
+//
+// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
+// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
+// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
+// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
+// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
+// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
+// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
+// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
+// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
+// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
+// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+//
+//*****************************************************************************
+
+//*****************************************************************************
+//
+//! \addtogroup interrupt_api
+//! @{
+//
+//*****************************************************************************
+
+#include "inc/hw_ints.h"
+#include "inc/hw_nvic.h"
+#include "inc/hw_types.h"
+#include "cpu.h"
+#include "debug.h"
+#include "interrupt.h"
+
+//*****************************************************************************
+//
+// This is a mapping between priority grouping encodings and the number of
+// preemption priority bits.
+//
+//*****************************************************************************
+static const unsigned long g_pulPriority[] =
+{
+ NVIC_APINT_PRIGROUP_0_8, NVIC_APINT_PRIGROUP_1_7, NVIC_APINT_PRIGROUP_2_6,
+ NVIC_APINT_PRIGROUP_3_5, NVIC_APINT_PRIGROUP_4_4, NVIC_APINT_PRIGROUP_5_3,
+ NVIC_APINT_PRIGROUP_6_2, NVIC_APINT_PRIGROUP_7_1
+};
+
+//*****************************************************************************
+//
+// This is a mapping between interrupt number and the register that contains
+// the priority encoding for that interrupt.
+//
+//*****************************************************************************
+static const unsigned long g_pulRegs[] =
+{
+ 0, NVIC_SYS_PRI1, NVIC_SYS_PRI2, NVIC_SYS_PRI3, NVIC_PRI0, NVIC_PRI1,
+ NVIC_PRI2, NVIC_PRI3, NVIC_PRI4, NVIC_PRI5, NVIC_PRI6, NVIC_PRI7,
+ NVIC_PRI8, NVIC_PRI9, NVIC_PRI10, NVIC_PRI11, NVIC_PRI12, NVIC_PRI13,
+ NVIC_PRI14, NVIC_PRI15, NVIC_PRI16, NVIC_PRI17, NVIC_PRI18, NVIC_PRI19,
+ NVIC_PRI20, NVIC_PRI21, NVIC_PRI22, NVIC_PRI23, NVIC_PRI24, NVIC_PRI25,
+ NVIC_PRI26, NVIC_PRI27, NVIC_PRI28, NVIC_PRI29, NVIC_PRI30, NVIC_PRI31,
+ NVIC_PRI32, NVIC_PRI33, NVIC_PRI34, NVIC_PRI35, NVIC_PRI36, NVIC_PRI37,
+ NVIC_PRI38, NVIC_PRI39, NVIC_PRI40, NVIC_PRI41, NVIC_PRI42, NVIC_PRI43,
+ NVIC_PRI44, NVIC_PRI45, NVIC_PRI46, NVIC_PRI47, NVIC_PRI48
+
+};
+
+
+//*****************************************************************************
+//
+// This is a mapping between interrupt number (for the peripheral interrupts
+// only) and the register that contains the interrupt enable for that
+// interrupt.
+//
+//*****************************************************************************
+static const unsigned long g_pulEnRegs[] =
+{
+ NVIC_EN0, NVIC_EN1, NVIC_EN2, NVIC_EN3, NVIC_EN4, NVIC_EN5
+};
+
+//*****************************************************************************
+//
+// This is a mapping between interrupt number (for the peripheral interrupts
+// only) and the register that contains the interrupt disable for that
+// interrupt.
+//
+//*****************************************************************************
+static const unsigned long g_pulDisRegs[] =
+{
+ NVIC_DIS0, NVIC_DIS1, NVIC_DIS2, NVIC_DIS3, NVIC_DIS4, NVIC_DIS5
+};
+
+//*****************************************************************************
+//
+// This is a mapping between interrupt number (for the peripheral interrupts
+// only) and the register that contains the interrupt pend for that interrupt.
+//
+//*****************************************************************************
+static const unsigned long g_pulPendRegs[] =
+{
+ NVIC_PEND0, NVIC_PEND1, NVIC_PEND2, NVIC_PEND3, NVIC_PEND4, NVIC_PEND5
+};
+
+//*****************************************************************************
+//
+// This is a mapping between interrupt number (for the peripheral interrupts
+// only) and the register that contains the interrupt unpend for that
+// interrupt.
+//
+//*****************************************************************************
+static const unsigned long g_pulUnpendRegs[] =
+{
+ NVIC_UNPEND0, NVIC_UNPEND1, NVIC_UNPEND2, NVIC_UNPEND3, NVIC_UNPEND4,
+ NVIC_UNPEND5
+};
+
+
+//*****************************************************************************
+//
+//! \internal
+//! The default interrupt handler.
+//!
+//! This is the default interrupt handler for all interrupts. It simply loops
+//! forever so that the system state is preserved for observation by a
+//! debugger. Since interrupts should be disabled before unregistering the
+//! corresponding handler, this should never be called.
+//!
+//! \return None.
+//
+//*****************************************************************************
+static void
+IntDefaultHandler(void)
+{
+ //
+ // Go into an infinite loop.
+ //
+ while(1)
+ {
+ }
+}
+
+//*****************************************************************************
+//
+//! Enables the processor interrupt.
+//!
+//! Allows the processor to respond to interrupts. This does not affect the
+//! set of interrupts enabled in the interrupt controller; it just gates the
+//! single interrupt from the controller to the processor.
+//!
+//! \note Previously, this function had no return value. As such, it was
+//! possible to include <tt>interrupt.h</tt> and call this function without
+//! having included <tt>hw_types.h</tt>. Now that the return is a
+//! <tt>tBoolean</tt>, a compiler error will occur in this case. The solution
+//! is to include <tt>hw_types.h</tt> before including <tt>interrupt.h</tt>.
+//!
+//! \return Returns \b true if interrupts were disabled when the function was
+//! called or \b false if they were initially enabled.
+//
+//*****************************************************************************
+tBoolean
+IntMasterEnable(void)
+{
+ //
+ // Enable processor interrupts.
+ //
+ return(CPUcpsie());
+}
+
+//*****************************************************************************
+//
+//! Disables the processor interrupt.
+//!
+//! Prevents the processor from receiving interrupts. This does not affect the
+//! set of interrupts enabled in the interrupt controller; it just gates the
+//! single interrupt from the controller to the processor.
+//!
+//! \note Previously, this function had no return value. As such, it was
+//! possible to include <tt>interrupt.h</tt> and call this function without
+//! having included <tt>hw_types.h</tt>. Now that the return is a
+//! <tt>tBoolean</tt>, a compiler error will occur in this case. The solution
+//! is to include <tt>hw_types.h</tt> before including <tt>interrupt.h</tt>.
+//!
+//! \return Returns \b true if interrupts were already disabled when the
+//! function was called or \b false if they were initially enabled.
+//
+//*****************************************************************************
+tBoolean
+IntMasterDisable(void)
+{
+ //
+ // Disable processor interrupts.
+ //
+ return(CPUcpsid());
+}
+//*****************************************************************************
+//
+//! Sets the NVIC VTable base.
+//!
+//! \param ulVtableBase specifies the new base address of VTable
+//!
+//! This function is used to specify a new base address for the VTable.
+//! This function must be called before using IntRegister() for registering
+//! any interrupt handler.
+//!
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+IntVTableBaseSet(unsigned long ulVtableBase)
+{
+ HWREG(NVIC_VTABLE) = ulVtableBase;
+}
+
+//*****************************************************************************
+//
+//! Registers a function to be called when an interrupt occurs.
+//!
+//! \param ulInterrupt specifies the interrupt in question.
+//! \param pfnHandler is a pointer to the function to be called.
+//!
+//! This function is used to specify the handler function to be called when the
+//! given interrupt is asserted to the processor. When the interrupt occurs,
+//! if it is enabled (via IntEnable()), the handler function will be called in
+//! interrupt context. Since the handler function can preempt other code, care
+//! must be taken to protect memory or peripherals that are accessed by the
+//! handler and other non-handler code.
+//!
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+IntRegister(unsigned long ulInterrupt, void (*pfnHandler)(void))
+{
+ unsigned long *ulNvicTbl;
+
+ //
+ // Check the arguments.
+ //
+ ASSERT(ulInterrupt < NUM_INTERRUPTS);
+
+ ulNvicTbl = (unsigned long *)HWREG(NVIC_VTABLE);
+ ulNvicTbl[ulInterrupt]= (unsigned long)pfnHandler;
+}
+
+//*****************************************************************************
+//
+//! Unregisters the function to be called when an interrupt occurs.
+//!
+//! \param ulInterrupt specifies the interrupt in question.
+//!
+//! This function is used to indicate that no handler should be called when the
+//! given interrupt is asserted to the processor. The interrupt source will be
+//! automatically disabled (via IntDisable()) if necessary.
+//!
+//! \sa IntRegister() for important information about registering interrupt
+//! handlers.
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+IntUnregister(unsigned long ulInterrupt)
+{
+ unsigned long *ulNvicTbl;
+
+ //
+ // Check the arguments.
+ //
+ ASSERT(ulInterrupt < NUM_INTERRUPTS);
+
+ ulNvicTbl = (unsigned long *)HWREG(NVIC_VTABLE);
+ ulNvicTbl[ulInterrupt]= (unsigned long)IntDefaultHandler;
+}
+
+//*****************************************************************************
+//
+//! Sets the priority grouping of the interrupt controller.
+//!
+//! \param ulBits specifies the number of bits of preemptable priority.
+//!
+//! This function specifies the split between preemptable priority levels and
+//! subpriority levels in the interrupt priority specification. The range of
+//! the grouping values are dependent upon the hardware implementation; on
+//! the CC3200 , three bits are available for hardware interrupt
+//! prioritization and therefore priority grouping values of three through
+//! seven have the same effect.
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+IntPriorityGroupingSet(unsigned long ulBits)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT(ulBits < NUM_PRIORITY);
+
+ //
+ // Set the priority grouping.
+ //
+ HWREG(NVIC_APINT) = NVIC_APINT_VECTKEY | g_pulPriority[ulBits];
+}
+
+//*****************************************************************************
+//
+//! Gets the priority grouping of the interrupt controller.
+//!
+//! This function returns the split between preemptable priority levels and
+//! subpriority levels in the interrupt priority specification.
+//!
+//! \return The number of bits of preemptable priority.
+//
+//*****************************************************************************
+unsigned long
+IntPriorityGroupingGet(void)
+{
+ unsigned long ulLoop, ulValue;
+
+ //
+ // Read the priority grouping.
+ //
+ ulValue = HWREG(NVIC_APINT) & NVIC_APINT_PRIGROUP_M;
+
+ //
+ // Loop through the priority grouping values.
+ //
+ for(ulLoop = 0; ulLoop < NUM_PRIORITY; ulLoop++)
+ {
+ //
+ // Stop looping if this value matches.
+ //
+ if(ulValue == g_pulPriority[ulLoop])
+ {
+ break;
+ }
+ }
+
+ //
+ // Return the number of priority bits.
+ //
+ return(ulLoop);
+}
+
+//*****************************************************************************
+//
+//! Sets the priority of an interrupt.
+//!
+//! \param ulInterrupt specifies the interrupt in question.
+//! \param ucPriority specifies the priority of the interrupt.
+//!
+//! This function is used to set the priority of an interrupt. When multiple
+//! interrupts are asserted simultaneously, the ones with the highest priority
+//! are processed before the lower priority interrupts. Smaller numbers
+//! correspond to higher interrupt priorities; priority 0 is the highest
+//! interrupt priority.
+//!
+//! The hardware priority mechanism will only look at the upper N bits of the
+//! priority level (where N is 3), so any prioritization must be performed in
+//! those bits. The remaining bits can be used to sub-prioritize the interrupt
+//! sources, and may be used by the hardware priority mechanism on a future
+//! part. This arrangement allows priorities to migrate to different NVIC
+//! implementations without changing the gross prioritization of the
+//! interrupts.
+//!
+//! The parameter \e ucPriority can be any one of the following
+//! -\b INT_PRIORITY_LVL_0
+//! -\b INT_PRIORITY_LVL_1
+//! -\b INT_PRIORITY_LVL_2
+//! -\b INT_PRIORITY_LVL_3
+//! -\b INT_PRIORITY_LVL_4
+//! -\b INT_PRIORITY_LVL_5
+//! -\b INT_PRIORITY_LVL_6
+//! -\b INT_PRIORITY_LVL_7
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+IntPrioritySet(unsigned long ulInterrupt, unsigned char ucPriority)
+{
+ unsigned long ulTemp;
+
+ //
+ // Check the arguments.
+ //
+ ASSERT((ulInterrupt >= 4) && (ulInterrupt < NUM_INTERRUPTS));
+
+ //
+ // Set the interrupt priority.
+ //
+ ulTemp = HWREG(g_pulRegs[ulInterrupt >> 2]);
+ ulTemp &= ~(0xFF << (8 * (ulInterrupt & 3)));
+ ulTemp |= ucPriority << (8 * (ulInterrupt & 3));
+ HWREG(g_pulRegs[ulInterrupt >> 2]) = ulTemp;
+}
+
+//*****************************************************************************
+//
+//! Gets the priority of an interrupt.
+//!
+//! \param ulInterrupt specifies the interrupt in question.
+//!
+//! This function gets the priority of an interrupt. See IntPrioritySet() for
+//! a definition of the priority value.
+//!
+//! \return Returns the interrupt priority, or -1 if an invalid interrupt was
+//! specified.
+//
+//*****************************************************************************
+long
+IntPriorityGet(unsigned long ulInterrupt)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT((ulInterrupt >= 4) && (ulInterrupt < NUM_INTERRUPTS));
+
+ //
+ // Return the interrupt priority.
+ //
+ return((HWREG(g_pulRegs[ulInterrupt >> 2]) >> (8 * (ulInterrupt & 3))) &
+ 0xFF);
+}
+
+//*****************************************************************************
+//
+//! Enables an interrupt.
+//!
+//! \param ulInterrupt specifies the interrupt to be enabled.
+//!
+//! The specified interrupt is enabled in the interrupt controller. Other
+//! enables for the interrupt (such as at the peripheral level) are unaffected
+//! by this function.
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+IntEnable(unsigned long ulInterrupt)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT(ulInterrupt < NUM_INTERRUPTS);
+
+ //
+ // Determine the interrupt to enable.
+ //
+ if(ulInterrupt == FAULT_MPU)
+ {
+ //
+ // Enable the MemManage interrupt.
+ //
+ HWREG(NVIC_SYS_HND_CTRL) |= NVIC_SYS_HND_CTRL_MEM;
+ __asm(" dsb ");
+ __asm(" isb ");
+ }
+ else if(ulInterrupt == FAULT_BUS)
+ {
+ //
+ // Enable the bus fault interrupt.
+ //
+ HWREG(NVIC_SYS_HND_CTRL) |= NVIC_SYS_HND_CTRL_BUS;
+ __asm(" dsb ");
+ __asm(" isb ");
+ }
+ else if(ulInterrupt == FAULT_USAGE)
+ {
+ //
+ // Enable the usage fault interrupt.
+ //
+ HWREG(NVIC_SYS_HND_CTRL) |= NVIC_SYS_HND_CTRL_USAGE;
+ __asm(" dsb ");
+ __asm(" isb ");
+ }
+ else if(ulInterrupt == FAULT_SYSTICK)
+ {
+ //
+ // Enable the System Tick interrupt.
+ //
+ HWREG(NVIC_ST_CTRL) |= NVIC_ST_CTRL_INTEN;
+ __asm(" dsb ");
+ __asm(" isb ");
+ }
+ else if(ulInterrupt >= 16)
+ {
+ //
+ // Enable the general interrupt.
+ //
+ HWREG(g_pulEnRegs[(ulInterrupt - 16) / 32]) =
+ 1 << ((ulInterrupt - 16) & 31);
+ __asm(" dsb ");
+ __asm(" isb ");
+ }
+}
+
+//*****************************************************************************
+//
+//! Disables an interrupt.
+//!
+//! \param ulInterrupt specifies the interrupt to be disabled.
+//!
+//! The specified interrupt is disabled in the interrupt controller. Other
+//! enables for the interrupt (such as at the peripheral level) are unaffected
+//! by this function.
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+IntDisable(unsigned long ulInterrupt)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT(ulInterrupt < NUM_INTERRUPTS);
+
+ //
+ // Determine the interrupt to disable.
+ //
+ if(ulInterrupt == FAULT_MPU)
+ {
+ //
+ // Disable the MemManage interrupt.
+ //
+ HWREG(NVIC_SYS_HND_CTRL) &= ~(NVIC_SYS_HND_CTRL_MEM);
+ __asm(" dsb ");
+ __asm(" isb ");
+ }
+ else if(ulInterrupt == FAULT_BUS)
+ {
+ //
+ // Disable the bus fault interrupt.
+ //
+ HWREG(NVIC_SYS_HND_CTRL) &= ~(NVIC_SYS_HND_CTRL_BUS);
+ __asm(" dsb ");
+ __asm(" isb ");
+ }
+ else if(ulInterrupt == FAULT_USAGE)
+ {
+ //
+ // Disable the usage fault interrupt.
+ //
+ HWREG(NVIC_SYS_HND_CTRL) &= ~(NVIC_SYS_HND_CTRL_USAGE);
+ __asm(" dsb ");
+ __asm(" isb ");
+ }
+ else if(ulInterrupt == FAULT_SYSTICK)
+ {
+ //
+ // Disable the System Tick interrupt.
+ //
+ HWREG(NVIC_ST_CTRL) &= ~(NVIC_ST_CTRL_INTEN);
+ __asm(" dsb ");
+ __asm(" isb ");
+ }
+ else if(ulInterrupt >= 16)
+ {
+ //
+ // Disable the general interrupt.
+ //
+ HWREG(g_pulDisRegs[(ulInterrupt - 16) / 32]) =
+ 1 << ((ulInterrupt - 16) & 31);
+ __asm(" dsb ");
+ __asm(" isb ");
+ }
+
+}
+
+//*****************************************************************************
+//
+//! Pends an interrupt.
+//!
+//! \param ulInterrupt specifies the interrupt to be pended.
+//!
+//! The specified interrupt is pended in the interrupt controller. This will
+//! cause the interrupt controller to execute the corresponding interrupt
+//! handler at the next available time, based on the current interrupt state
+//! priorities. For example, if called by a higher priority interrupt handler,
+//! the specified interrupt handler will not be called until after the current
+//! interrupt handler has completed execution. The interrupt must have been
+//! enabled for it to be called.
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+IntPendSet(unsigned long ulInterrupt)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT(ulInterrupt < NUM_INTERRUPTS);
+
+ //
+ // Determine the interrupt to pend.
+ //
+ if(ulInterrupt == FAULT_NMI)
+ {
+ //
+ // Pend the NMI interrupt.
+ //
+ HWREG(NVIC_INT_CTRL) |= NVIC_INT_CTRL_NMI_SET;
+ __asm(" dsb ");
+ __asm(" isb ");
+ }
+ else if(ulInterrupt == FAULT_PENDSV)
+ {
+ //
+ // Pend the PendSV interrupt.
+ //
+ HWREG(NVIC_INT_CTRL) |= NVIC_INT_CTRL_PEND_SV;
+ __asm(" dsb ");
+ __asm(" isb ");
+ }
+ else if(ulInterrupt == FAULT_SYSTICK)
+ {
+ //
+ // Pend the SysTick interrupt.
+ //
+ HWREG(NVIC_INT_CTRL) |= NVIC_INT_CTRL_PENDSTSET;
+ __asm(" dsb ");
+ __asm(" isb ");
+ }
+ else if(ulInterrupt >= 16)
+ {
+ //
+ // Pend the general interrupt.
+ //
+ HWREG(g_pulPendRegs[(ulInterrupt - 16) / 32]) =
+ 1 << ((ulInterrupt - 16) & 31);
+ __asm(" dsb ");
+ __asm(" isb ");
+ }
+
+}
+
+//*****************************************************************************
+//
+//! Unpends an interrupt.
+//!
+//! \param ulInterrupt specifies the interrupt to be unpended.
+//!
+//! The specified interrupt is unpended in the interrupt controller. This will
+//! cause any previously generated interrupts that have not been handled yet
+//! (due to higher priority interrupts or the interrupt no having been enabled
+//! yet) to be discarded.
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+IntPendClear(unsigned long ulInterrupt)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT(ulInterrupt < NUM_INTERRUPTS);
+
+ //
+ // Determine the interrupt to unpend.
+ //
+ if(ulInterrupt == FAULT_PENDSV)
+ {
+ //
+ // Unpend the PendSV interrupt.
+ //
+ HWREG(NVIC_INT_CTRL) |= NVIC_INT_CTRL_UNPEND_SV;
+ }
+ else if(ulInterrupt == FAULT_SYSTICK)
+ {
+ //
+ // Unpend the SysTick interrupt.
+ //
+ HWREG(NVIC_INT_CTRL) |= NVIC_INT_CTRL_PENDSTCLR;
+ }
+ else if(ulInterrupt >= 16)
+ {
+ //
+ // Unpend the general interrupt.
+ //
+ HWREG(g_pulUnpendRegs[(ulInterrupt - 16) / 32]) =
+ 1 << ((ulInterrupt - 16) & 31);
+ }
+}
+
+//*****************************************************************************
+//
+//! Sets the priority masking level
+//!
+//! \param ulPriorityMask is the priority level that will be masked.
+//!
+//! This function sets the interrupt priority masking level so that all
+//! interrupts at the specified or lesser priority level is masked. This
+//! can be used to globally disable a set of interrupts with priority below
+//! a predetermined threshold. A value of 0 disables priority
+//! masking.
+//!
+//! Smaller numbers correspond to higher interrupt priorities. So for example
+//! a priority level mask of 4 will allow interrupts of priority level 0-3,
+//! and interrupts with a numerical priority of 4 and greater will be blocked.
+//!
+//! The hardware priority mechanism will only look at the upper N bits of the
+//! priority level (where N is 3), so any
+//! prioritization must be performed in those bits.
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+IntPriorityMaskSet(unsigned long ulPriorityMask)
+{
+ CPUbasepriSet(ulPriorityMask);
+}
+
+//*****************************************************************************
+//
+//! Gets the priority masking level
+//!
+//! This function gets the current setting of the interrupt priority masking
+//! level. The value returned is the priority level such that all interrupts
+//! of that and lesser priority are masked. A value of 0 means that priority
+//! masking is disabled.
+//!
+//! Smaller numbers correspond to higher interrupt priorities. So for example
+//! a priority level mask of 4 will allow interrupts of priority level 0-3,
+//! and interrupts with a numerical priority of 4 and greater will be blocked.
+//!
+//! The hardware priority mechanism will only look at the upper N bits of the
+//! priority level (where N is 3), so any
+//! prioritization must be performed in those bits.
+//!
+//! \return Returns the value of the interrupt priority level mask.
+//
+//*****************************************************************************
+unsigned long
+IntPriorityMaskGet(void)
+{
+ return(CPUbasepriGet());
+}
+
+//*****************************************************************************
+//
+// Close the Doxygen group.
+//! @}
+//
+//*****************************************************************************
diff --git a/cc3200/hal/interrupt.h b/cc3200/hal/interrupt.h
new file mode 100644
index 000000000..941a60f5f
--- /dev/null
+++ b/cc3200/hal/interrupt.h
@@ -0,0 +1,120 @@
+//*****************************************************************************
+//
+// interrupt.h
+//
+// Prototypes for the NVIC Interrupt Controller Driver.
+//
+// Copyright (C) 2014 Texas Instruments Incorporated - http://www.ti.com/
+//
+//
+// Redistribution and use in source and binary forms, with or without
+// modification, are permitted provided that the following conditions
+// are met:
+//
+// Redistributions of source code must retain the above copyright
+// notice, this list of conditions and the following disclaimer.
+//
+// Redistributions in binary form must reproduce the above copyright
+// notice, this list of conditions and the following disclaimer in the
+// documentation and/or other materials provided with the
+// distribution.
+//
+// Neither the name of Texas Instruments Incorporated nor the names of
+// its contributors may be used to endorse or promote products derived
+// from this software without specific prior written permission.
+//
+// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
+// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
+// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
+// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
+// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
+// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
+// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
+// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
+// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
+// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
+// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+//
+//*****************************************************************************
+
+#ifndef __INTERRUPT_H__
+#define __INTERRUPT_H__
+
+//*****************************************************************************
+//
+// If building with a C++ compiler, make all of the definitions in this header
+// have a C binding.
+//
+//*****************************************************************************
+#ifdef __cplusplus
+extern "C"
+{
+#endif
+
+//*****************************************************************************
+//
+// A union that describes the entries of the vector table. The union is needed
+// since the first entry is the stack pointer and the remainder are function
+// pointers.
+//
+//*****************************************************************************
+typedef union
+{
+ void (*pfnHandler)(void);
+ unsigned long ulPtr;
+}
+uVectorEntry;
+
+
+//*****************************************************************************
+//
+// Macro to generate an interrupt priority mask based on the number of bits
+// of priority supported by the hardware.
+//
+//*****************************************************************************
+#define INT_PRIORITY_MASK ((0xFF << (8 - NUM_PRIORITY_BITS)) & 0xFF)
+
+//*****************************************************************************
+// Interrupt priority levels
+//*****************************************************************************
+#define INT_PRIORITY_LVL_0 0x00
+#define INT_PRIORITY_LVL_1 0x20
+#define INT_PRIORITY_LVL_2 0x40
+#define INT_PRIORITY_LVL_3 0x60
+#define INT_PRIORITY_LVL_4 0x80
+#define INT_PRIORITY_LVL_5 0xA0
+#define INT_PRIORITY_LVL_6 0xC0
+#define INT_PRIORITY_LVL_7 0xE0
+
+//*****************************************************************************
+//
+// Prototypes for the APIs.
+//
+//*****************************************************************************
+extern tBoolean IntMasterEnable(void);
+extern tBoolean IntMasterDisable(void);
+extern void IntVTableBaseSet(unsigned long ulVtableBase);
+extern void IntRegister(unsigned long ulInterrupt, void (*pfnHandler)(void));
+extern void IntUnregister(unsigned long ulInterrupt);
+extern void IntPriorityGroupingSet(unsigned long ulBits);
+extern unsigned long IntPriorityGroupingGet(void);
+extern void IntPrioritySet(unsigned long ulInterrupt,
+ unsigned char ucPriority);
+extern long IntPriorityGet(unsigned long ulInterrupt);
+extern void IntEnable(unsigned long ulInterrupt);
+extern void IntDisable(unsigned long ulInterrupt);
+extern void IntPendSet(unsigned long ulInterrupt);
+extern void IntPendClear(unsigned long ulInterrupt);
+extern void IntPriorityMaskSet(unsigned long ulPriorityMask);
+extern unsigned long IntPriorityMaskGet(void);
+
+//*****************************************************************************
+//
+// Mark the end of the C bindings section for C++ compilers.
+//
+//*****************************************************************************
+#ifdef __cplusplus
+}
+#endif
+
+#endif // __INTERRUPT_H__
diff --git a/cc3200/hal/pin.c b/cc3200/hal/pin.c
new file mode 100644
index 000000000..13bb80fed
--- /dev/null
+++ b/cc3200/hal/pin.c
@@ -0,0 +1,667 @@
+//*****************************************************************************
+//
+// pin.c
+//
+// Mapping of peripherals to pins.
+//
+// Copyright (C) 2014 Texas Instruments Incorporated - http://www.ti.com/
+//
+//
+// Redistribution and use in source and binary forms, with or without
+// modification, are permitted provided that the following conditions
+// are met:
+//
+// Redistributions of source code must retain the above copyright
+// notice, this list of conditions and the following disclaimer.
+//
+// Redistributions in binary form must reproduce the above copyright
+// notice, this list of conditions and the following disclaimer in the
+// documentation and/or other materials provided with the
+// distribution.
+//
+// Neither the name of Texas Instruments Incorporated nor the names of
+// its contributors may be used to endorse or promote products derived
+// from this software without specific prior written permission.
+//
+// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
+// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
+// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
+// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
+// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
+// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
+// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
+// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
+// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
+// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
+// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+//
+//*****************************************************************************
+
+//*****************************************************************************
+//
+//! \addtogroup pin_api
+//! @{
+//
+//*****************************************************************************
+
+#include "inc/hw_types.h"
+#include "inc/hw_memmap.h"
+#include "inc/hw_ocp_shared.h"
+#include "pin.h"
+
+//*****************************************************************************
+// Macros
+//*****************************************************************************
+#define PAD_MODE_MASK 0x0000000F
+#define PAD_STRENGTH_MASK 0x000000E0
+#define PAD_TYPE_MASK 0x00000310
+#define PAD_CONFIG_BASE ((OCP_SHARED_BASE + \
+ OCP_SHARED_O_GPIO_PAD_CONFIG_0))
+
+//*****************************************************************************
+// PIN to PAD matrix
+//*****************************************************************************
+static const unsigned long g_ulPinToPadMap[64] =
+{
+ 10,11,12,13,14,15,16,17,255,255,18,
+ 19,20,21,22,23,24,40,28,29,25,255,
+ 255,255,255,255,255,255,255,255,255,255,255,
+ 255,255,255,255,255,255,255,255,255,255,255,
+ 31,255,255,255,255,0,255,32,30,255,1,
+ 255,2,3,4,5,6,7,8,9
+};
+
+
+//*****************************************************************************
+//
+//! Configures pin mux for the specified pin.
+//!
+//! \param ulPin is a valid pin.
+//! \param ulPinMode is one of the valid mode
+//!
+//! This function configures the pin mux that selects the peripheral function
+//! associated with a particular SOC pin. Only one peripheral function at a
+//! time can be associated with a pin, and each peripheral function should
+//! only be associated with a single pin at a time.
+//!
+//! \return none
+//
+//*****************************************************************************
+void PinModeSet(unsigned long ulPin,unsigned long ulPinMode)
+{
+
+ unsigned long ulPad;
+
+ //
+ // Get the corresponding Pad
+ //
+ ulPad = g_ulPinToPadMap[ulPin & 0x3F];
+
+ //
+ // Calculate the register address
+ //
+ ulPad = ((ulPad << 2) + PAD_CONFIG_BASE);
+
+ //
+ // Set the mode.
+ //
+ HWREG(ulPad) = (((HWREG(ulPad) & ~PAD_MODE_MASK) | ulPinMode) & ~(3<<10));
+
+}
+
+//*****************************************************************************
+//
+//! Gets current pin mux configuration of specified pin.
+//!
+//! \param ulPin is a valid pin.
+//!
+//! This function get the current configuration of the pin mux.
+//!
+//! \return Returns current pin mode if \e ulPin is valid, 0xFF otherwise.
+//
+//*****************************************************************************
+unsigned long PinModeGet(unsigned long ulPin)
+{
+
+ unsigned long ulPad;
+
+
+ //
+ // Get the corresponding Pad
+ //
+ ulPad = g_ulPinToPadMap[ulPin & 0x3F];
+
+
+ //
+ // Calculate the register address
+ //
+ ulPad = ((ulPad << 2) + PAD_CONFIG_BASE) ;
+
+ //
+ // return the mode.
+ //
+ return (HWREG(ulPad) & PAD_MODE_MASK);
+
+}
+
+//*****************************************************************************
+//
+//! Sets the direction of the specified pin(s).
+//!
+//! \param ulPin is one of the valid pin.
+//! \param ulPinIO is the pin direction and/or mode.
+//!
+//! This function configures the specified pin(s) as either input only or
+//! output only or it configures the pin to be under hardware control.
+//!
+//! The parameter \e ulPinIO is an enumerated data type that can be one of
+//! the following values:
+//!
+//! - \b PIN_DIR_MODE_IN
+//! - \b PIN_DIR_MODE_OUT
+//! - \b PIN_DIR_MODE_HW
+//!
+//! where \b PIN_DIR_MODE_IN specifies that the pin is programmed as a
+//! input only, \b PIN_DIR_MODE_OUT specifies that the pin is
+//! programmed output only, and \b PIN_DIR_MODE_HW specifies that the pin is
+//! placed under hardware control.
+//!
+//!
+//! \return None.
+//
+//*****************************************************************************
+void PinDirModeSet(unsigned long ulPin, unsigned long ulPinIO)
+{
+ unsigned long ulPad;
+
+ //
+ // Get the corresponding Pad
+ //
+ ulPad = g_ulPinToPadMap[ulPin & 0x3F];
+
+ //
+ // Calculate the register address
+ //
+ ulPad = ((ulPad << 2) + PAD_CONFIG_BASE);
+
+ //
+ // Set the direction
+ //
+ HWREG(ulPad) = ((HWREG(ulPad) & ~0xC00) | ulPinIO);
+}
+
+//*****************************************************************************
+//
+//! Gets the direction of a pin.
+//!
+//! \param ulPin is one of the valid pin.
+//!
+//! This function gets the direction and control mode for a specified pin on
+//! the selected GPIO port. The pin can be configured as either an input only
+//! or output only, or it can be under hardware control. The type of control
+//! and direction are returned as an enumerated data type.
+//!
+//! \return Returns one of the enumerated data types described for
+//! GPIODirModeSet().
+//
+//*****************************************************************************
+unsigned long PinDirModeGet(unsigned long ulPin)
+{
+ unsigned long ulPad;
+
+ //
+ // Get the corresponding Pad
+ //
+ ulPad = g_ulPinToPadMap[ulPin & 0x3F];
+
+ //
+ // Calculate the register address
+ //
+ ulPad = ((ulPad << 2) + PAD_CONFIG_BASE);
+
+ //
+ // Return the direction
+ //
+ return ((HWREG(ulPad) & 0xC00));
+}
+
+//*****************************************************************************
+//
+//! Gets Pin output drive strength and Type
+//!
+//! \param ulPin is one of the valid pin
+//! \param pulPinStrength is pointer to storage for output drive strength
+//! \param pulPinType is pinter to storage for pin type
+//!
+//! This function gets the pin type and output drive strength for the pin
+//! specified by \e ulPin parameter. Parameters \e pulPinStrength and
+//! \e pulPinType corresponds to the values used in PinConfigSet().
+//!
+//!
+//! \return None.
+//
+//*****************************************************************************
+void PinConfigGet(unsigned long ulPin,unsigned long *pulPinStrength,
+ unsigned long *pulPinType)
+{
+
+ unsigned long ulPad;
+
+
+ //
+ // Get the corresponding Pad
+ //
+ ulPad = g_ulPinToPadMap[ulPin & 0x3F];
+
+
+ //
+ // Calculate the register address
+ //
+ ulPad = ((ulPad << 2) + PAD_CONFIG_BASE);
+
+
+ //
+ // Get the type
+ //
+ *pulPinType = (HWREG(ulPad) & PAD_TYPE_MASK);
+
+ //
+ // Get the output drive strength
+ //
+ *pulPinStrength = (HWREG(ulPad) & PAD_STRENGTH_MASK);
+
+}
+
+//*****************************************************************************
+//
+//! Configure Pin output drive strength and Type
+//!
+//! \param ulPin is one of the valid pin
+//! \param ulPinStrength is logical OR of valid output drive strengths.
+//! \param ulPinType is one of the valid pin type.
+//!
+//! This function sets the pin type and strength for the pin specified by
+//! \e ulPin parameter.
+//!
+//! The parameter \e ulPinStrength should be one of the following
+//! - \b PIN_STRENGTH_2MA
+//! - \b PIN_STRENGTH_4MA
+//! - \b PIN_STRENGTH_6MA
+//!
+//!
+//! The parameter \e ulPinType should be one of the following
+//! For standard type
+//!
+//! - \b PIN_TYPE_STD
+//! - \b PIN_TYPE_STD_PU
+//! - \b PIN_TYPE_STD_PD
+//!
+//! And for Open drain type
+//!
+//! - \b PIN_TYPE_OD
+//! - \b PIN_TYPE_OD_PU
+//! - \b PIN_TYPE_OD_PD
+//!
+//! \return None.
+//
+//*****************************************************************************
+void PinConfigSet(unsigned long ulPin,unsigned long ulPinStrength,
+ unsigned long ulPinType)
+{
+
+ unsigned long ulPad;
+
+ //
+ // Get the corresponding Pad
+ //
+ ulPad = g_ulPinToPadMap[ulPin & 0x3F];
+
+ //
+ // Write the register
+ //
+ if(ulPinType == PIN_TYPE_ANALOG)
+ {
+ //
+ // Isolate the input
+ //
+ HWREG(0x4402E144) |= ((0x80 << ulPad) & (0x1E << 8));
+
+ //
+ // Calculate the register address
+ //
+ ulPad = ((ulPad << 2) + PAD_CONFIG_BASE);
+
+ //
+ // Isolate the output
+ //
+ HWREG(ulPad) |= 0xC00;
+
+ }
+ else
+ {
+ //
+ // Enable the input
+ //
+ HWREG(0x4402E144) &= ~((0x80 << ulPad) & (0x1E << 8));
+
+ //
+ // Calculate the register address
+ //
+ ulPad = ((ulPad << 2) + PAD_CONFIG_BASE);
+
+ //
+ // Write the configuration
+ //
+ HWREG(ulPad) = ((HWREG(ulPad) & ~(PAD_STRENGTH_MASK | PAD_TYPE_MASK)) |
+ (ulPinStrength | ulPinType ));
+ }
+
+
+}
+
+//*****************************************************************************
+//
+//! Sets the pin mode and configures the pin for use by UART peripheral
+//!
+//! \param ulPin is one of the valid pin.
+//! \param ulPinMode is one of the valid pin mode.
+//!
+//! The UART pins must be properly configured for the peripheral to
+//! function correctly. This function provides a typical configuration for
+//! those pin(s); other configurations may work as well depending upon the
+//! board setup (for example, using the on-chip pull-ups).
+//!
+//!
+//! \note This function cannot be used to turn any pin into a UART pin; it
+//! only sets the pin mode and configures it for proper UART operation.
+//!
+//!
+//! \return None.
+//
+//*****************************************************************************
+void PinTypeUART(unsigned long ulPin,unsigned long ulPinMode)
+{
+ //
+ // Set the pin to specified mode
+ //
+ PinModeSet(ulPin,ulPinMode);
+
+ //
+ // Set the pin for standard operation
+ //
+ PinConfigSet(ulPin,PIN_STRENGTH_2MA,PIN_TYPE_STD);
+}
+
+
+//*****************************************************************************
+//
+//! Sets the pin mode and configures the pin for use by I2C peripheral
+//!
+//! \param ulPin is one of the valid pin.
+//! \param ulPinMode is one of the valid pin mode.
+//!
+//! The I2C pins must be properly configured for the peripheral to
+//! function correctly. This function provides a typical configuration for
+//! the pin.
+//!
+//!
+//! \note This function cannot be used to turn any pin into a I2C pin; it
+//! only sets the pin mode and configures it for proper I2C operation.
+//!
+//!
+//! \return None.
+//
+//*****************************************************************************
+void PinTypeI2C(unsigned long ulPin,unsigned long ulPinMode)
+{
+ //
+ // Set the pin to specified mode
+ //
+ PinModeSet(ulPin,ulPinMode);
+
+ //
+ // Set the pin for open-drain operation with a weak pull-up.
+ //
+ PinConfigSet(ulPin,PIN_STRENGTH_2MA,PIN_TYPE_OD_PU);
+}
+
+
+//*****************************************************************************
+//
+//! Sets the pin mode and configures the pin for use by SPI peripheral
+//!
+//! \param ulPin is one of the valid pin.
+//! \param ulPinMode is one of the valid pin mode.
+//!
+//! The SPI pins must be properly configured for the peripheral to
+//! function correctly. This function provides a typical configuration for
+//! those pin.
+//!
+//!
+//! \note This function cannot be used to turn any pin into a SPI pin; it
+//! only sets the pin mode and configures it for proper SPI operation.
+//!
+//!
+//! \return None.
+//
+//*****************************************************************************
+void PinTypeSPI(unsigned long ulPin,unsigned long ulPinMode)
+{
+
+ //
+ // Set the pin to specified mode
+ //
+ PinModeSet(ulPin,ulPinMode);
+
+ //
+ // Set the pin for standard operation
+ //
+ PinConfigSet(ulPin,PIN_STRENGTH_2MA|PIN_STRENGTH_4MA,PIN_TYPE_STD);
+
+}
+
+
+//*****************************************************************************
+//
+//! Sets the pin mode and configures the pin for use by I2S peripheral
+//!
+//! \param ulPin is one of the valid pin.
+//! \param ulPinMode is one of the valid pin mode.
+//!
+//! The I2S pins must be properly configured for the peripheral to
+//! function correctly. This function provides a typical configuration for
+//! those pin.
+//!
+//!
+//! \note This function cannot be used to turn any pin into a I2S pin; it
+//! only sets the pin mode and configures it for proper I2S operation.
+//!
+//! \return None.
+//
+//*****************************************************************************
+void PinTypeI2S(unsigned long ulPin,unsigned long ulPinMode)
+{
+
+ //
+ // Set the pin to specified mode
+ //
+ PinModeSet(ulPin,ulPinMode);
+
+ //
+ // Set the pin for standard operation
+ //
+ PinConfigSet(ulPin,PIN_STRENGTH_2MA|PIN_STRENGTH_4MA,PIN_TYPE_STD);
+
+}
+
+
+//*****************************************************************************
+//
+//! Sets the pin mode and configures the pin for use by Timer peripheral
+//!
+//! \param ulPin is one of the valid pin.
+//! \param ulPinMode is one of the valid pin mode.
+//!
+//! The timer PWM pins must be properly configured for the Timer peripheral to
+//! function correctly. This function provides a typical configuration for
+//! those pin; other configurations may work as well depending upon the
+//! board setup (for example, using the on-chip pull-ups).
+//!
+//!
+//! \note This function cannot be used to turn any pin into a timer PWM pin; it
+//! only sets the pin mode and configures it for proper timer PWM operation.
+//!
+//! \return None.
+//
+//*****************************************************************************
+void PinTypeTimer(unsigned long ulPin,unsigned long ulPinMode)
+{
+
+ //
+ // Set the pin to specified mode
+ //
+ PinModeSet(ulPin,ulPinMode);
+
+ //
+ // Set the pin for standard operation
+ //
+ PinConfigSet(ulPin,PIN_STRENGTH_2MA|PIN_STRENGTH_4MA,PIN_TYPE_STD);
+}
+
+
+//*****************************************************************************
+//
+//! Sets the pin mode and configures the pin for use by Camera peripheral
+//!
+//! \param ulPin is one of the valid pin.
+//! \param ulPinMode is one of the valid pin mode.
+//!
+//! The Camera pins must be properly configured for the peripheral to
+//! function correctly. This function provides a typical configuration for
+//! those pin.
+//!
+//!
+//! \note This function cannot be used to turn any pin into a Camera pin; it
+//! only sets the pin mode and configures it for proper Camera operation.
+//!
+//! \return None.
+//
+//*****************************************************************************
+void PinTypeCamera(unsigned long ulPin,unsigned long ulPinMode)
+{
+
+ //
+ // Set the pin to specified mode
+ //
+ PinModeSet(ulPin,ulPinMode);
+
+ //
+ // Set the pin for standard operation
+ //
+ PinConfigSet(ulPin,PIN_STRENGTH_2MA|PIN_STRENGTH_4MA,PIN_TYPE_STD);
+
+}
+
+
+//*****************************************************************************
+//
+//! Sets the pin mode and configures the pin for use by GPIO peripheral
+//!
+//! \param ulPin is one of the valid pin.
+//! \param ulPinMode is one of the valid pin mode.
+//! \param bOpenDrain is one to decide either OpenDrain or STD
+//!
+//! The GPIO pins must be properly configured for the peripheral to
+//! function correctly. This function provides a typical configuration for
+//! those pin.
+//!
+//!
+//! \return None.
+//
+//*****************************************************************************
+void PinTypeGPIO(unsigned long ulPin,unsigned long ulPinMode,tBoolean bOpenDrain)
+{
+
+ //
+ // Set the pin for standard push-pull operation.
+ //
+ if(bOpenDrain)
+ {
+ PinConfigSet(ulPin, PIN_STRENGTH_2MA, PIN_TYPE_OD);
+ }
+ else
+ {
+ PinConfigSet(ulPin, PIN_STRENGTH_2MA, PIN_TYPE_STD);
+ }
+
+ //
+ // Set the pin to specified mode
+ //
+ PinModeSet(ulPin, ulPinMode);
+
+}
+
+//*****************************************************************************
+//
+//! Sets the pin mode and configures the pin for use by ADC
+//!
+//! \param ulPin is one of the valid pin.
+//! \param ulPinMode is one of the valid pin mode.
+//!
+//! The ADC pins must be properly configured for the peripheral to
+//! function correctly. This function provides a typical configuration for
+//! those pin.
+//!
+//!
+//! \note This function cannot be used to turn any pin into a ADC pin; it
+//! only sets the pin mode and configures it for proper ADC operation.
+//!
+//! \return None.
+//
+//*****************************************************************************
+void PinTypeADC(unsigned long ulPin,unsigned long ulPinMode)
+{
+ //
+ // Configure the Pin
+ //
+ PinConfigSet(ulPin,PIN_STRENGTH_2MA,PIN_TYPE_ANALOG);
+}
+
+//*****************************************************************************
+//
+//! Sets the pin mode and configures the pin for use by SD Host peripheral
+//!
+//! \param ulPin is one of the valid pin.
+//! \param ulPinMode is one of the valid pin mode.
+//!
+//! The MMC pins must be properly configured for the peripheral to
+//! function correctly. This function provides a typical configuration for
+//! those pin.
+//!
+//!
+//! \note This function cannot be used to turn any pin into a SD Host pin; it
+//! only sets the pin mode and configures it for proper SD Host operation.
+//!
+//! \return None.
+//
+//*****************************************************************************
+void PinTypeSDHost(unsigned long ulPin,unsigned long ulPinMode)
+{
+ //
+ // Set pin mode
+ //
+ PinModeSet(ulPin,ulPinMode);
+
+ //
+ // Configure the Pin
+ //
+ PinConfigSet(ulPin,PIN_STRENGTH_2MA,PIN_TYPE_STD);
+
+}
+
+//*****************************************************************************
+//
+// Close the Doxygen group.
+//! @}
+//
+//*****************************************************************************
diff --git a/cc3200/hal/pin.h b/cc3200/hal/pin.h
new file mode 100644
index 000000000..11a2370e8
--- /dev/null
+++ b/cc3200/hal/pin.h
@@ -0,0 +1,176 @@
+//*****************************************************************************
+//
+// pin.h
+//
+// Defines and Macros for the pin mux module
+//
+// Copyright (C) 2014 Texas Instruments Incorporated - http://www.ti.com/
+//
+//
+// Redistribution and use in source and binary forms, with or without
+// modification, are permitted provided that the following conditions
+// are met:
+//
+// Redistributions of source code must retain the above copyright
+// notice, this list of conditions and the following disclaimer.
+//
+// Redistributions in binary form must reproduce the above copyright
+// notice, this list of conditions and the following disclaimer in the
+// documentation and/or other materials provided with the
+// distribution.
+//
+// Neither the name of Texas Instruments Incorporated nor the names of
+// its contributors may be used to endorse or promote products derived
+// from this software without specific prior written permission.
+//
+// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
+// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
+// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
+// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
+// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
+// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
+// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
+// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
+// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
+// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
+// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+//
+//*****************************************************************************
+
+#ifndef __PIN_H__
+#define __PIN_H__
+
+//*****************************************************************************
+//
+// If building with a C++ compiler, make all of the definitions in this header
+// have a C binding.
+//
+//*****************************************************************************
+#ifdef __cplusplus
+extern "C"
+{
+#endif
+
+//*****************************************************************************
+// Macros Defining Pins
+//*****************************************************************************
+
+#define PIN_01 0x00000000
+#define PIN_02 0x00000001
+#define PIN_03 0x00000002
+#define PIN_04 0x00000003
+#define PIN_05 0x00000004
+#define PIN_06 0x00000005
+#define PIN_07 0x00000006
+#define PIN_08 0x00000007
+#define PIN_11 0x0000000A
+#define PIN_12 0x0000000B
+#define PIN_13 0x0000000C
+#define PIN_14 0x0000000D
+#define PIN_15 0x0000000E
+#define PIN_16 0x0000000F
+#define PIN_17 0x00000010
+#define PIN_18 0x00000011
+#define PIN_19 0x00000012
+#define PIN_20 0x00000013
+#define PIN_21 0x00000014
+#define PIN_45 0x0000002C
+#define PIN_46 0x0000002D
+#define PIN_47 0x0000002E
+#define PIN_48 0x0000002F
+#define PIN_49 0x00000030
+#define PIN_50 0x00000031
+#define PIN_52 0x00000033
+#define PIN_53 0x00000034
+#define PIN_55 0x00000036
+#define PIN_56 0x00000037
+#define PIN_57 0x00000038
+#define PIN_58 0x00000039
+#define PIN_59 0x0000003A
+#define PIN_60 0x0000003B
+#define PIN_61 0x0000003C
+#define PIN_62 0x0000003D
+#define PIN_63 0x0000003E
+#define PIN_64 0x0000003F
+
+
+
+//*****************************************************************************
+// Macros that can be used with PinConfigSet(), PinTypeGet(), PinStrengthGet()
+//*****************************************************************************
+
+#define PIN_MODE_0 0x00000000
+#define PIN_MODE_1 0x00000001
+#define PIN_MODE_2 0x00000002
+#define PIN_MODE_3 0x00000003
+#define PIN_MODE_4 0x00000004
+#define PIN_MODE_5 0x00000005
+#define PIN_MODE_6 0x00000006
+#define PIN_MODE_7 0x00000007
+#define PIN_MODE_8 0x00000008
+#define PIN_MODE_9 0x00000009
+#define PIN_MODE_10 0x0000000A
+#define PIN_MODE_11 0x0000000B
+#define PIN_MODE_12 0x0000000C
+#define PIN_MODE_13 0x0000000D
+#define PIN_MODE_14 0x0000000E
+#define PIN_MODE_15 0x0000000F
+// Note : PIN_MODE_255 is a dummy define for pinmux utility code generation
+// PIN_MODE_255 should never be used in any user code.
+#define PIN_MODE_255 0x000000FF
+
+//*****************************************************************************
+// Macros that can be used with PinDirModeSet() and returned from
+// PinDirModeGet().
+//*****************************************************************************
+#define PIN_DIR_MODE_IN 0x00000C00 // Pin is input
+#define PIN_DIR_MODE_OUT 0x00000800 // Pin is output
+#define PIN_DIR_MODE_HW 0x00000000 // Pin is peripheral function
+
+//*****************************************************************************
+// Macros that can be used with PinConfigSet()
+//*****************************************************************************
+#define PIN_STRENGTH_2MA 0x00000020
+#define PIN_STRENGTH_4MA 0x00000040
+#define PIN_STRENGTH_6MA 0x00000060
+
+#define PIN_TYPE_STD 0x00000000
+#define PIN_TYPE_STD_PU 0x00000100
+#define PIN_TYPE_STD_PD 0x00000200
+
+#define PIN_TYPE_OD 0x00000010
+#define PIN_TYPE_OD_PU 0x00000110
+#define PIN_TYPE_OD_PD 0x00000210
+#define PIN_TYPE_ANALOG 0x10000000
+
+
+//*****************************************************************************
+//
+// API Function prototypes
+//
+//*****************************************************************************
+extern void PinModeSet(unsigned long ulPin, unsigned long ulPinMode);
+extern void PinDirModeSet(unsigned long ulPin, unsigned long ulPinIO);
+extern unsigned long PinDirModeGet(unsigned long ulPin);
+extern unsigned long PinModeGet(unsigned long ulPin);
+extern void PinConfigGet(unsigned long ulPin,unsigned long *pulPinStrength,
+ unsigned long *pulPinType);
+extern void PinConfigSet(unsigned long ulPin,unsigned long ulPinStrength,
+ unsigned long ulPinType);
+extern void PinTypeUART(unsigned long ulPin,unsigned long ulPinMode);
+extern void PinTypeI2C(unsigned long ulPin,unsigned long ulPinMode);
+extern void PinTypeSPI(unsigned long ulPin,unsigned long ulPinMode);
+extern void PinTypeI2S(unsigned long ulPin,unsigned long ulPinMode);
+extern void PinTypeTimer(unsigned long ulPin,unsigned long ulPinMode);
+extern void PinTypeCamera(unsigned long ulPin,unsigned long ulPinMode);
+extern void PinTypeGPIO(unsigned long ulPin,unsigned long ulPinMode,
+ tBoolean bOpenDrain);
+extern void PinTypeADC(unsigned long ulPin,unsigned long ulPinMode);
+extern void PinTypeSDHost(unsigned long ulPin,unsigned long ulPinMode);
+
+
+#ifdef __cplusplus
+}
+#endif
+
+#endif //__PIN_H__
diff --git a/cc3200/hal/prcm.c b/cc3200/hal/prcm.c
new file mode 100644
index 000000000..78b8d8276
--- /dev/null
+++ b/cc3200/hal/prcm.c
@@ -0,0 +1,1778 @@
+//*****************************************************************************
+//
+// prcm.c
+//
+// Driver for the Power, Reset and Clock Module (PRCM)
+//
+// Copyright (C) 2014 Texas Instruments Incorporated - http://www.ti.com/
+//
+//
+// Redistribution and use in source and binary forms, with or without
+// modification, are permitted provided that the following conditions
+// are met:
+//
+// Redistributions of source code must retain the above copyright
+// notice, this list of conditions and the following disclaimer.
+//
+// Redistributions in binary form must reproduce the above copyright
+// notice, this list of conditions and the following disclaimer in the
+// documentation and/or other materials provided with the
+// distribution.
+//
+// Neither the name of Texas Instruments Incorporated nor the names of
+// its contributors may be used to endorse or promote products derived
+// from this software without specific prior written permission.
+//
+// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
+// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
+// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
+// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
+// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
+// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
+// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
+// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
+// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
+// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
+// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+//
+//*****************************************************************************
+
+//*****************************************************************************
+//
+//! \addtogroup PRCM_Power_Reset_Clock_Module_api
+//! @{
+//
+//*****************************************************************************
+
+#include "inc/hw_types.h"
+#include "inc/hw_ints.h"
+#include "inc/hw_memmap.h"
+#include "inc/hw_apps_rcm.h"
+#include "inc/hw_gprcm.h"
+#include "inc/hw_hib1p2.h"
+#include "inc/hw_hib3p3.h"
+#include "prcm.h"
+#include "interrupt.h"
+#include "cpu.h"
+#include "utils.h"
+#include "rom_map.h"
+
+
+//*****************************************************************************
+// Macro definition
+//*****************************************************************************
+#define PRCM_SOFT_RESET 0x00000001
+#define PRCM_ENABLE_STATUS 0x00000002
+#define SYS_CLK 80000000
+#define XTAL_CLK 40000000
+
+
+//*****************************************************************************
+// CC3200 does not have a true RTC capability. However, API(s) in this file
+// provide an effective mechanism to support RTC feature in the device.
+//
+// The implementation to support RTC has been kept very simple. A set of
+// HIB Memory Registers in conjunction with Slow Clock Counter are used
+// to render RTC information to users. Core principle of design involves
+// two steps (a) establish an association between user provided wall-clock
+// and slow clock counter. (b) store reference value of this associattion
+// in HIB Registers. This reference value and SCC value are then combined
+// to create real-world calendar time.
+//
+// Across HIB cycles, value stored in HIB Registers is retained and slow
+// clock counter continues to tick, thereby, this arragement is relevant
+// and valid as long as device has a (tickle) battery power.
+//
+// Further, provision also has been made to set an alarm. When it RTC value
+// matches that of set for alarm, an interrupt is generated.
+//
+// HIB MEM REG0 and REG1 are reserved for TI.
+//
+// If RTC feature is not used, then HIB REG2 & REG3 are available to user.
+//
+// Lower half of REG0 is used for TI HW ECO.
+//*****************************************************************************
+#define RTC_U64MSEC_MK(u32Secs, u16Msec) (((unsigned long long)u32Secs << 10)|\
+ (u16Msec & 0x3FF))
+
+#define RTC_SECS_IN_U64MSEC(u64Msec) ((unsigned long)(u64Msec >> 10))
+#define RTC_MSEC_IN_U64MSEC(u64Msec) ((unsigned short)(u64Msec & 0x3FF))
+
+#define RTC_SECS_U32_REG_ADDR (HIB3P3_BASE + HIB3P3_O_MEM_HIB_REG3)
+#define RTC_MSEC_U16_REG_ADDR (HIB3P3_BASE + HIB3P3_O_MEM_HIB_REG2+2)
+
+#define RTC_U32SECS_REG (HWREG(RTC_SECS_U32_REG_ADDR))
+#define RTC_U16MSEC_REG (*(unsigned short*)RTC_MSEC_U16_REG_ADDR)
+
+//*****************************************************************************
+// Register Access and Updates
+//
+// Tick of SCC has a resolution of 32768Hz. Therefore, scaling SCC value by 32
+// yields ~1 msec resolution. All operations of SCC in RTC context use ms unit.
+//*****************************************************************************
+#define SCC_U64MSEC_GET() (PRCMSlowClkCtrGet() >> 5)
+#define SCC_U64MSEC_MATCH_SET(u64Msec) (PRCMSlowClkCtrMatchSet(u64Msec << 5))
+#define SCC_U64MSEC_MATCH_GET() (PRCMSlowClkCtrMatchGet() >> 5)
+
+//*****************************************************************************
+//
+// Bit: 31 is used to indicate use of RTC. If set as '1', RTC feature is used.
+// Bits: 30 to 26 are reserved, available to software for use
+// Bits: 25 to 16 are used to save millisecond part of RTC reference.
+// Bits: 15 to 0 are being used for HW Changes / ECO
+//
+//*****************************************************************************
+
+//*****************************************************************************
+// Set RTC USE Bit
+//*****************************************************************************
+static void RTCUseSet(void)
+{
+ unsigned short usRegValue;
+
+ usRegValue = RTC_U16MSEC_REG | (1 << 15);
+
+ UtilsDelay((80*200)/3);
+
+ RTC_U16MSEC_REG = usRegValue;
+}
+
+//*****************************************************************************
+// Checks if RTC-USE bit is set
+//*****************************************************************************
+static tBoolean IsRTCUsed(void)
+{
+ unsigned short usRegValue;
+
+ usRegValue = RTC_U16MSEC_REG;
+
+ UtilsDelay((80*200)/3);
+
+ return ((usRegValue & (1 << 15))? true : false);
+}
+
+//*****************************************************************************
+// Read 16-bit mSecs
+//*****************************************************************************
+static unsigned short RTCU16MSecRegRead(void)
+{
+ unsigned short usRegValue;
+
+ usRegValue = RTC_U16MSEC_REG;
+
+ UtilsDelay((80*200)/3);
+
+ return (usRegValue & 0x3FF);
+}
+
+//*****************************************************************************
+// Write 16-bit mSecs
+//*****************************************************************************
+static void RTCU16MSecRegWrite(unsigned short u16Msec)
+{
+ unsigned short usRegValue;
+
+ usRegValue = RTC_U16MSEC_REG;
+
+ UtilsDelay((80*200)/3);
+
+ RTC_U16MSEC_REG = ((usRegValue & ~0x3FF) |u16Msec);
+}
+
+//*****************************************************************************
+// Read 32-bit Secs
+//*****************************************************************************
+static unsigned long RTCU32SecRegRead(void)
+{
+ return (PRCMHIBRegRead(RTC_SECS_U32_REG_ADDR));
+}
+
+//*****************************************************************************
+// Write 32-bit Secs
+//*****************************************************************************
+static void RTCU32SecRegWrite(unsigned long u32Msec)
+{
+ PRCMHIBRegWrite(RTC_SECS_U32_REG_ADDR, u32Msec);
+}
+
+//*****************************************************************************
+// Macros
+//*****************************************************************************
+#define IS_RTC_USED() IsRTCUsed()
+#define RTC_USE_SET() RTCUseSet()
+
+#define RTC_U16MSEC_REG_RD() RTCU16MSecRegRead()
+#define RTC_U16MSEC_REG_WR(u16Msec) RTCU16MSecRegWrite(u16Msec)
+
+#define RTC_U32SECS_REG_RD() RTCU32SecRegRead()
+#define RTC_U32SECS_REG_WR(u32Secs) RTCU32SecRegWrite(u32Secs)
+
+#define SELECT_SCC_U42BITS(u64Msec) (u64Msec & 0x3ffffffffff)
+
+//*****************************************************************************
+// Global Peripheral clock and rest Registers
+//*****************************************************************************
+static const PRCM_PeriphRegs_t PRCM_PeriphRegsList[] =
+{
+
+ {APPS_RCM_O_CAMERA_CLK_GATING, APPS_RCM_O_CAMERA_SOFT_RESET },
+ {APPS_RCM_O_MCASP_CLK_GATING, APPS_RCM_O_MCASP_SOFT_RESET },
+ {APPS_RCM_O_MMCHS_CLK_GATING, APPS_RCM_O_MMCHS_SOFT_RESET },
+ {APPS_RCM_O_MCSPI_A1_CLK_GATING, APPS_RCM_O_MCSPI_A1_SOFT_RESET },
+ {APPS_RCM_O_MCSPI_A2_CLK_GATING, APPS_RCM_O_MCSPI_A2_SOFT_RESET },
+ {APPS_RCM_O_UDMA_A_CLK_GATING, APPS_RCM_O_UDMA_A_SOFT_RESET },
+ {APPS_RCM_O_GPIO_A_CLK_GATING, APPS_RCM_O_GPIO_A_SOFT_RESET },
+ {APPS_RCM_O_GPIO_B_CLK_GATING, APPS_RCM_O_GPIO_B_SOFT_RESET },
+ {APPS_RCM_O_GPIO_C_CLK_GATING, APPS_RCM_O_GPIO_C_SOFT_RESET },
+ {APPS_RCM_O_GPIO_D_CLK_GATING, APPS_RCM_O_GPIO_D_SOFT_RESET },
+ {APPS_RCM_O_GPIO_E_CLK_GATING, APPS_RCM_O_GPIO_E_SOFT_RESET },
+ {APPS_RCM_O_WDOG_A_CLK_GATING, APPS_RCM_O_WDOG_A_SOFT_RESET },
+ {APPS_RCM_O_UART_A0_CLK_GATING, APPS_RCM_O_UART_A0_SOFT_RESET },
+ {APPS_RCM_O_UART_A1_CLK_GATING, APPS_RCM_O_UART_A1_SOFT_RESET },
+ {APPS_RCM_O_GPT_A0_CLK_GATING , APPS_RCM_O_GPT_A0_SOFT_RESET },
+ {APPS_RCM_O_GPT_A1_CLK_GATING, APPS_RCM_O_GPT_A1_SOFT_RESET },
+ {APPS_RCM_O_GPT_A2_CLK_GATING, APPS_RCM_O_GPT_A2_SOFT_RESET },
+ {APPS_RCM_O_GPT_A3_CLK_GATING, APPS_RCM_O_GPT_A3_SOFT_RESET },
+ {APPS_RCM_O_CRYPTO_CLK_GATING, APPS_RCM_O_CRYPTO_SOFT_RESET },
+ {APPS_RCM_O_MCSPI_S0_CLK_GATING, APPS_RCM_O_MCSPI_S0_SOFT_RESET },
+ {APPS_RCM_O_I2C_CLK_GATING, APPS_RCM_O_I2C_SOFT_RESET }
+
+};
+
+//*****************************************************************************
+//
+//! Performs a software reset of a SOC
+//!
+//! This function performs a software reset of a SOC
+//!
+//! \return None.
+//
+//*****************************************************************************
+void PRCMSOCReset(void)
+{
+ //
+ // Reset MCU
+ //
+ HWREG(GPRCM_BASE+ GPRCM_O_MCU_GLOBAL_SOFT_RESET) |= 0x1;
+
+}
+
+//*****************************************************************************
+//
+//! Performs a software reset of a MCU and associated peripherals
+//!
+//! \param bIncludeSubsystem is \b true to reset associated peripherals.
+//!
+//! This function performs a software reset of a MCU and associated peripherals.
+//! To reset the associated peripheral, the parameter \e bIncludeSubsystem
+//! should be set to \b true.
+//!
+//! \return None.
+//
+//*****************************************************************************
+void PRCMMCUReset(tBoolean bIncludeSubsystem)
+{
+ if(bIncludeSubsystem)
+ {
+ //
+ // Reset Apps processor and associated peripheral
+ //
+ HWREG(GPRCM_BASE+ GPRCM_O_APPS_SOFT_RESET) = 0x2;
+ }
+ else
+ {
+ //
+ // Reset Apps processor only
+ //
+ HWREG(GPRCM_BASE+ GPRCM_O_APPS_SOFT_RESET) = 0x1;
+ }
+}
+
+//*****************************************************************************
+//
+//! Gets the reason for a reset.
+//!
+//! This function returns the reason(s) for a reset. The reset reason are:-
+//! -\b PRCM_POWER_ON - Device is powering up.
+//! -\b PRCM_LPDS_EXIT - Device is exiting from LPDS.
+//! -\b PRCM_CORE_RESET - Device is exiting soft core only reset
+//! -\b PRCM_MCU_RESET - Device is exiting soft subsystem reset.
+//! -\b PRCM_WDT_RESET - Device was reset by watchdog.
+//! -\b PRCM_SOC_RESET - Device is exting SOC reset.
+//! -\b PRCM_HIB_EXIT - Device is exiting hibernate.
+//!
+//! \return Returns one of the cause defined above.
+//
+//*****************************************************************************
+unsigned long PRCMSysResetCauseGet()
+{
+ unsigned long ulWakeupStatus;
+
+ //
+ // Read the Reset status
+ //
+ ulWakeupStatus = (HWREG(GPRCM_BASE+ GPRCM_O_APPS_RESET_CAUSE) & 0xFF);
+
+ //
+ // For hibernate do additional chaeck.
+ //
+ if(ulWakeupStatus == PRCM_POWER_ON)
+ {
+ if(PRCMHIBRegRead(HIB3P3_BASE + HIB3P3_O_MEM_HIB_WAKE_STATUS) & 0x1)
+ {
+ ulWakeupStatus = PRCM_HIB_EXIT;
+ }
+ }
+
+ //
+ // Return status.
+ //
+ return ulWakeupStatus;
+}
+
+//*****************************************************************************
+//
+//! Enable clock(s) to peripheral.
+//!
+//! \param ulPeripheral is one of the valid peripherals
+//! \param ulClkFlags are bitmask of clock(s) to be enabled.
+//!
+//! This function enables the clock for the specified peripheral. Peripherals
+//! are by default clock gated (disabled) and generates a bus fault if
+//! accessed.
+//!
+//! The parameter \e ulClkFlags can be logical OR of the following:
+//! -\b PRCM_RUN_MODE_CLK - Ungates clock to the peripheral
+//! -\b PRCM_SLP_MODE_CLK - Keeps the clocks ungated in sleep.
+//! -\b PRCM_DSLP_MODE_CLK - Keeps the clock ungated in deepsleep.
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+PRCMPeripheralClkEnable(unsigned long ulPeripheral, unsigned long ulClkFlags)
+{
+ //
+ // Enable the specified peripheral clocks, Nothing to be done for PRCM_ADC
+ // as it is a dummy define for pinmux utility code generation
+ //
+ if(ulPeripheral != PRCM_ADC)
+ {
+ HWREG(ARCM_BASE + PRCM_PeriphRegsList[ulPeripheral].ulClkReg) |= ulClkFlags;
+ }
+ //
+ // Set the default clock for camera
+ //
+ if(ulPeripheral == PRCM_CAMERA)
+ {
+ HWREG(ARCM_BASE + APPS_RCM_O_CAMERA_CLK_GEN) = 0x0404;
+ }
+}
+
+//*****************************************************************************
+//
+//! Disables clock(s) to peripheral.
+//!
+//! \param ulPeripheral is one of the valid peripherals
+//! \param ulClkFlags are bitmask of clock(s) to be enabled.
+//!
+//! This function disable the clock for the specified peripheral. Peripherals
+//! are by default clock gated (disabled) and generated a bus fault if
+//! accessed.
+//!
+//! The parameter \e ulClkFlags can be logical OR bit fields as defined in
+//! PRCMEnablePeripheral().
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+PRCMPeripheralClkDisable(unsigned long ulPeripheral, unsigned long ulClkFlags)
+{
+ //
+ // Disable the specified peripheral clocks
+ //
+ HWREG(ARCM_BASE + PRCM_PeriphRegsList[ulPeripheral].ulClkReg) &= ~ulClkFlags;
+}
+
+//*****************************************************************************
+//
+//! Gets the input clock for the specified peripheral.
+//!
+//! \param ulPeripheral is one of the valid peripherals.
+//!
+//! This function gets the input clock for the specified peripheral.
+//!
+//! The parameter \e ulPeripheral has the same definition as that in
+//! PRCMPeripheralClkEnable();
+//!
+//! \return Returns input clock frequency for specified peripheral.
+//
+//*****************************************************************************
+unsigned long
+PRCMPeripheralClockGet(unsigned long ulPeripheral)
+{
+ unsigned long ulClockFreq;
+ unsigned long ulHiPulseDiv;
+ unsigned long ulLoPulseDiv;
+
+ //
+ // Get the clock based on specified peripheral.
+ //
+ if(((ulPeripheral == PRCM_SSPI) | (ulPeripheral == PRCM_LSPI)
+ | (ulPeripheral == PRCM_GSPI)))
+ {
+ return XTAL_CLK;
+ }
+ else if(ulPeripheral == PRCM_CAMERA)
+ {
+ ulHiPulseDiv = ((HWREG(ARCM_BASE + APPS_RCM_O_CAMERA_CLK_GEN) >> 8) & 0x07);
+ ulLoPulseDiv = (HWREG(ARCM_BASE + APPS_RCM_O_CAMERA_CLK_GEN)& 0xFF);
+ }
+ else if(ulPeripheral == PRCM_SDHOST)
+ {
+ ulHiPulseDiv = ((HWREG(ARCM_BASE + APPS_RCM_O_MMCHS_CLK_GEN) >> 8) & 0x07);
+ ulLoPulseDiv = (HWREG(ARCM_BASE + APPS_RCM_O_MMCHS_CLK_GEN)& 0xFF);
+ }
+ else
+ {
+ return SYS_CLK;
+ }
+
+ //
+ // Compute the clock freq. from the divider value
+ //
+ ulClockFreq = (240000000/((ulHiPulseDiv + 1) + (ulLoPulseDiv + 1)));
+
+ //
+ // Return the clock rate.
+ //
+ return ulClockFreq;
+}
+
+//*****************************************************************************
+//
+//! Performs a software reset of a peripheral.
+//!
+//! \param ulPeripheral is one of the valid peripheral.
+//!
+//! This assert or deassert reset to the specified peripheral based of the
+//! \e bAssert parameter.
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+PRCMPeripheralReset(unsigned long ulPeripheral)
+{
+ volatile unsigned long ulDelay;
+
+ if( ulPeripheral != PRCM_DTHE)
+ {
+ //
+ // Assert the reset
+ //
+ HWREG(ARCM_BASE + PRCM_PeriphRegsList[ulPeripheral].ulRstReg)
+ |= PRCM_SOFT_RESET;
+ //
+ // Delay for a little bit.
+ //
+ for(ulDelay = 0; ulDelay < 16; ulDelay++)
+ {
+ }
+
+ //
+ // Deassert the reset
+ //
+ HWREG(ARCM_BASE+PRCM_PeriphRegsList[ulPeripheral].ulRstReg)
+ &= ~PRCM_SOFT_RESET;
+ }
+}
+
+//*****************************************************************************
+//
+//! Determines if a peripheral is ready.
+//!
+//! \param ulPeripheral is one of the valid modules
+//!
+//! This function determines if a particular peripheral is ready to be
+//! accessed. The peripheral may be in a non-ready state if it is not enabled,
+//! is being held in reset, or is in the process of becoming ready after being
+//! enabled or taken out of reset.
+//!
+//! \return Returns \b true if the peripheral is ready, \b false otherwise.
+//
+//*****************************************************************************
+tBoolean
+PRCMPeripheralStatusGet(unsigned long ulPeripheral)
+{
+ unsigned long ReadyBit;
+
+ //
+ // Read the ready bit status
+ //
+ ReadyBit = HWREG(ARCM_BASE + PRCM_PeriphRegsList[ulPeripheral].ulRstReg);
+ ReadyBit = ReadyBit & PRCM_ENABLE_STATUS;
+
+ if (ReadyBit)
+ {
+ //
+ // Module is ready
+ //
+ return(true);
+ }
+ else
+ {
+ //
+ // Module is not ready
+ //
+ return(false);
+ }
+}
+
+//*****************************************************************************
+//
+//! Configure I2S fracactional divider
+//!
+//! \param ulI2CClkFreq is the required input clock for McAPS module
+//!
+//! This function configures I2S fractional divider. By default this
+//! divider is set to output 24 Mhz clock to I2S module.
+//!
+//! The minimum frequency that can be obtained by configuring this divider is
+//!
+//! (240000KHz/1023.99) = 234.377 KHz
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+PRCMI2SClockFreqSet(unsigned long ulI2CClkFreq)
+{
+ unsigned long long ullDiv;
+ unsigned short usInteger;
+ unsigned short usFrac;
+
+ ullDiv = (((unsigned long long)240000000 * 65536)/ulI2CClkFreq);
+
+ usInteger = (ullDiv/65536);
+ usFrac = (ullDiv%65536);
+
+ HWREG(ARCM_BASE + APPS_RCM_O_MCASP_FRAC_CLK_CONFIG0) =
+ ((usInteger & 0x3FF) << 16 | usFrac);
+}
+
+//*****************************************************************************
+//
+//! Sets the LPDS exit PC and SP restore vlaues.
+//!
+//! \param ulStackPtr is the SP restore value.
+//! \param ulProgCntr is the PC restore value
+//!
+//! This function sets the LPDS exit PC and SP restore vlaues. Setting
+//! \e ulProgCntr to a non-zero value, forces bootloader to jump to that
+//! address with Stack Pointer initialized to \e ulStackPtr on LPDS exit,
+//! otherwise the application's vector table entries are used.
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+PRCMLPDSRestoreInfoSet(unsigned long ulStackPtr, unsigned long ulProgCntr)
+{
+ //
+ // Set The SP Value
+ //
+ HWREG(0x4402E18C) = ulStackPtr;
+
+ //
+ // Set The PC Value
+ //
+ HWREG(0x4402E190) = ulProgCntr;
+}
+
+//*****************************************************************************
+//
+//! Puts the system into Low Power Deel Sleep (LPDS) power mode.
+//!
+//! This function puts the system into Low Power Deel Sleep (LPDS) power mode.
+//! A call to this function never returns and the execution starts from Reset.
+//! \sa PRCMLPDSRestoreInfoSet().
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+PRCMLPDSEnter()
+{
+ //
+ // Disable TestPD
+ //
+ HWREG(0x4402E168) |= (1<<9);
+
+ //
+ // Set bandgap duty cycle to 1
+ //
+ HWREG(HIB1P2_BASE + HIB1P2_O_BGAP_DUTY_CYCLING_EXIT_CFG) = 0x1;
+
+ //
+ // Request LPDS
+ //
+ HWREG(ARCM_BASE + APPS_RCM_O_APPS_LPDS_REQ)
+ = APPS_RCM_APPS_LPDS_REQ_APPS_LPDS_REQ;
+
+ __asm(" nop\n"
+ " nop\n"
+ " nop\n"
+ " nop\n");
+}
+
+//*****************************************************************************
+//
+//! Enable the individual LPDS wakeup source(s).
+//!
+//! \param ulLpdsWakeupSrc is logical OR of wakeup sources.
+//!
+//! This function enable the individual LPDS wakeup source(s) and following
+//! three wakeup sources (\e ulLpdsWakeupSrc ) are supported by the device.
+//! -\b PRCM_LPDS_HOST_IRQ
+//! -\b PRCM_LPDS_GPIO
+//! -\b PRCM_LPDS_TIMER
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+PRCMLPDSWakeupSourceEnable(unsigned long ulLpdsWakeupSrc)
+{
+ unsigned long ulRegVal;
+
+ //
+ // Read the current wakup sources
+ //
+ ulRegVal = HWREG(GPRCM_BASE+ GPRCM_O_APPS_LPDS_WAKEUP_CFG);
+
+ //
+ // Enable individual wakeup source
+ //
+ ulRegVal = ((ulRegVal | ulLpdsWakeupSrc) & 0x91);
+
+ //
+ // Set the configuration in the register
+ //
+ HWREG(GPRCM_BASE+ GPRCM_O_APPS_LPDS_WAKEUP_CFG) = ulRegVal;
+}
+
+//*****************************************************************************
+//
+//! Disable the individual LPDS wakeup source(s).
+//!
+//! \param ulLpdsWakeupSrc is logical OR of wakeup sources.
+//!
+//! This function enable the individual LPDS wakeup source(s) and following
+//! three wake up sources (\e ulLpdsWakeupSrc ) are supported by the device.
+//! -\b PRCM_LPDS_HOST_IRQ
+//! -\b PRCM_LPDS_GPIO
+//! -\b PRCM_LPDS_TIMER
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+PRCMLPDSWakeupSourceDisable(unsigned long ulLpdsWakeupSrc)
+{
+ HWREG(GPRCM_BASE+ GPRCM_O_APPS_LPDS_WAKEUP_CFG) &= ~ulLpdsWakeupSrc;
+}
+
+
+//*****************************************************************************
+//
+//! Get LPDS wakeup cause
+//!
+//! This function gets LPDS wakeup caouse
+//!
+//! \return Returns values enumerated as described in
+//! PRCMLPDSWakeupSourceEnable().
+//
+//*****************************************************************************
+unsigned long
+PRCMLPDSWakeupCauseGet()
+{
+ return (HWREG(GPRCM_BASE+ GPRCM_O_APPS_LPDS_WAKEUP_SRC));
+}
+
+//*****************************************************************************
+//
+//! Sets LPDS wakeup Timer
+//!
+//! \param ulTicks is number of 32.768 KHz clocks
+//!
+//! This function sets internal LPDS wakeup timer running at 32.768 KHz. The
+//! timer is only configured if the parameter \e ulTicks is in valid range i.e.
+//! from 21 to 2^32.
+//!
+//! \return Returns \b true on success, \b false otherwise.
+//
+//*****************************************************************************
+void
+PRCMLPDSIntervalSet(unsigned long ulTicks)
+{
+ //
+ // Check sleep is atleast for 21 cycles
+ // If not set the sleep time to 21 cycles
+ //
+ if( ulTicks < 21)
+ {
+ ulTicks = 21;
+ }
+
+ HWREG(GPRCM_BASE + GPRCM_O_APPS_LPDS_WAKETIME_WAKE_CFG) = ulTicks;
+ HWREG(GPRCM_BASE + GPRCM_O_APPS_LPDS_WAKETIME_OPP_CFG) = ulTicks-20;
+}
+
+//*****************************************************************************
+//
+//! Selects the GPIO for LPDS wakeup
+//!
+//! \param ulGPIOPin is one of the valid GPIO fro LPDS wakeup.
+//! \param ulType is the wakeup trigger type.
+//!
+//! This function setects the wakeup GPIO for LPDS wakeup and can be
+//! used to select one out of 7 pre-defined GPIO(s).
+//!
+//! The parameter \e ulLpdsGPIOSel should be one of the following:-
+//! -\b PRCM_LPDS_GPIO2
+//! -\b PRCM_LPDS_GPIO4
+//! -\b PRCM_LPDS_GPIO13
+//! -\b PRCM_LPDS_GPIO17
+//! -\b PRCM_LPDS_GPIO11
+//! -\b PRCM_LPDS_GPIO24
+//! -\b PRCM_LPDS_GPIO26
+//!
+//! The parameter \e ulType sets the trigger type and can be one of the
+//! following:
+//! - \b PRCM_LPDS_LOW_LEVEL
+//! - \b PRCM_LPDS_HIGH_LEVEL
+//! - \b PRCM_LPDS_FALL_EDGE
+//! - \b PRCM_LPDS_RISE_EDGE
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+PRCMLPDSWakeUpGPIOSelect(unsigned long ulGPIOPin, unsigned long ulType)
+{
+ //
+ // Set the wakeup GPIO
+ //
+ PRCMHIBRegWrite(HIB3P3_BASE + HIB3P3_O_MEM_HIB_LPDS_GPIO_SEL, ulGPIOPin);
+
+ //
+ // Set the trigger type.
+ //
+ HWREG(GPRCM_BASE + GPRCM_O_APPS_GPIO_WAKE_CONF) = (ulType & 0x3);
+}
+
+//*****************************************************************************
+//
+//! Puts the system into Sleep.
+//!
+//! This function puts the system into sleep power mode. System exits the power
+//! state on any one of the available interrupt. On exit from sleep mode the
+//! function returns to the calling function with all the processor core
+//! registers retained.
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+PRCMSleepEnter()
+{
+ //
+ // Request Sleep
+ //
+ CPUwfi();
+}
+
+//*****************************************************************************
+//
+//! Puts the system into Deep Sleep power mode.
+//!
+//! This function puts the system into Deep Sleep power mode. System exits the
+//! power state on any one of the available interrupt. On exit from deep
+//! sleep the function returns to the calling function with all the processor
+//! core registers retained.
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+PRCMDeepSleepEnter()
+{
+ //
+ // Set bandgap duty cycle to 1
+ //
+ HWREG(HIB1P2_BASE + HIB1P2_O_BGAP_DUTY_CYCLING_EXIT_CFG) = 0x1;
+
+ //
+ // Enable DSLP in cortex
+ //
+ HWREG(0xE000ED10)|=1<<2;
+
+ //
+ // Request Deep Sleep
+ //
+ CPUwfi();
+
+ //
+ // Disable DSLP in cortex before
+ // returning to the caller
+ //
+ HWREG(0xE000ED10) &= ~(1<<2);
+
+}
+
+//*****************************************************************************
+//
+//! Enable SRAM column retention during Deep Sleep and/or LPDS Power mode(s)
+//!
+//! \param ulSramColSel is bit mask of valid SRAM columns.
+//! \param ulModeFlags is the bit mask of power modes.
+//!
+//! This functions enables the SRAM retention. The device supports configurable
+//! SRAM column retention in Low Power Deep Sleep (LPDS) and Deep Sleep power
+//! modes. Each column is of 64 KB size.
+//!
+//! The parameter \e ulSramColSel should be logical OR of the following:-
+//! -\b PRCM_SRAM_COL_1
+//! -\b PRCM_SRAM_COL_2
+//! -\b PRCM_SRAM_COL_3
+//! -\b PRCM_SRAM_COL_4
+//!
+//! The parameter \e ulModeFlags selects the power modes and sholud be logical
+//! OR of one or more of the following
+//! -\b PRCM_SRAM_DSLP_RET
+//! -\b PRCM_SRAM_LPDS_RET
+//!
+//! \return None.
+//
+//****************************************************************************
+void
+PRCMSRAMRetentionEnable(unsigned long ulSramColSel, unsigned long ulModeFlags)
+{
+ if(ulModeFlags & PRCM_SRAM_DSLP_RET)
+ {
+ //
+ // Configure deep sleep SRAM retention register
+ //
+ HWREG(GPRCM_BASE+ GPRCM_O_APPS_SRAM_DSLP_CFG) = (ulSramColSel & 0xF);
+ }
+
+ if(ulModeFlags & PRCM_SRAM_LPDS_RET)
+ {
+ //
+ // Configure LPDS SRAM retention register
+ //
+ HWREG(GPRCM_BASE+ GPRCM_O_APPS_SRAM_LPDS_CFG) = (ulSramColSel & 0xF);
+ }
+}
+
+//*****************************************************************************
+//
+//! Disable SRAM column retention during Deep Sleep and/or LPDS Power mode(s).
+//!
+//! \param ulSramColSel is bit mask of valid SRAM columns.
+//! \param ulFlags is the bit mask of power modes.
+//!
+//! This functions disable the SRAM retention. The device supports configurable
+//! SRAM column retention in Low Power Deep Sleep (LPDS) and Deep Sleep power
+//! modes. Each column is of 64 KB size.
+//!
+//! The parameter \e ulSramColSel should be logical OR of the following:-
+//! -\b PRCM_SRAM_COL_1
+//! -\b PRCM_SRAM_COL_2
+//! -\b PRCM_SRAM_COL_3
+//! -\b PRCM_SRAM_COL_4
+//!
+//! The parameter \e ulFlags selects the power modes and sholud be logical OR
+//! of one or more of the following
+//! -\b PRCM_SRAM_DSLP_RET
+//! -\b PRCM_SRAM_LPDS_RET
+//!
+//! \return None.
+//
+//****************************************************************************
+void
+PRCMSRAMRetentionDisable(unsigned long ulSramColSel, unsigned long ulFlags)
+{
+ if(ulFlags & PRCM_SRAM_DSLP_RET)
+ {
+ //
+ // Configure deep sleep SRAM retention register
+ //
+ HWREG(GPRCM_BASE+ GPRCM_O_APPS_SRAM_DSLP_CFG) &= ~(ulSramColSel & 0xF);
+ }
+
+ if(ulFlags & PRCM_SRAM_LPDS_RET)
+ {
+ //
+ // Configure LPDS SRAM retention register
+ //
+ HWREG(GPRCM_BASE+ GPRCM_O_APPS_SRAM_LPDS_CFG) &= ~(ulSramColSel & 0xF);
+ }
+}
+
+
+//*****************************************************************************
+//
+//! Enables individual HIB wakeup source(s).
+//!
+//! \param ulHIBWakupSrc is logical OR of valid HIB wakeup sources.
+//!
+//! This function enables individual HIB wakeup source(s). The paramter
+//! \e ulHIBWakupSrc is the bit mask of HIB wakeup sources and should be
+//! logical OR of one or more of the follwoing :-
+//! -\b PRCM_HIB_SLOW_CLK_CTR
+//! -\b PRCM_HIB_GPIO2
+//! -\b PRCM_HIB_GPIO4
+//! -\b PRCM_HIB_GPIO13
+//! -\b PRCM_HIB_GPIO17
+//! -\b PRCM_HIB_GPIO11
+//! -\b PRCM_HIB_GPIO24
+//! -\b PRCM_HIB_GPIO26
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+PRCMHibernateWakeupSourceEnable(unsigned long ulHIBWakupSrc)
+{
+ unsigned long ulRegValue;
+
+ //
+ // Read the RTC register
+ //
+ ulRegValue = PRCMHIBRegRead(HIB3P3_BASE+HIB3P3_O_MEM_HIB_RTC_WAKE_EN);
+
+ //
+ // Enable the RTC as wakeup source if specified
+ //
+ ulRegValue |= (ulHIBWakupSrc & 0x1);
+
+ //
+ // Enable HIB wakeup sources
+ //
+ PRCMHIBRegWrite(HIB3P3_BASE+HIB3P3_O_MEM_HIB_RTC_WAKE_EN,ulRegValue);
+
+ //
+ // REad the GPIO wakeup configuration register
+ //
+ ulRegValue = PRCMHIBRegRead(HIB3P3_BASE+HIB3P3_O_MEM_GPIO_WAKE_EN);
+
+ //
+ // Enable the specified GPIOs a wakeup sources
+ //
+ ulRegValue |= ((ulHIBWakupSrc>>16)&0xFF);
+
+ //
+ // Write the new register configuration
+ //
+ PRCMHIBRegWrite(HIB3P3_BASE+HIB3P3_O_MEM_GPIO_WAKE_EN,ulRegValue);
+}
+
+//*****************************************************************************
+//
+//! Disable individual HIB wakeup source(s).
+//!
+//! \param ulHIBWakupSrc is logical OR of valid HIB wakeup sources.
+//!
+//! This function disable individual HIB wakeup source(s). The paramter
+//! \e ulHIBWakupSrc is same as bit fileds defined in
+//! PRCMEnableHibernateWakeupSource()
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+PRCMHibernateWakeupSourceDisable(unsigned long ulHIBWakupSrc)
+{
+ unsigned long ulRegValue;
+
+ //
+ // Read the RTC register
+ //
+ ulRegValue = PRCMHIBRegRead(HIB3P3_BASE+HIB3P3_O_MEM_HIB_RTC_WAKE_EN);
+
+ //
+ // Disable the RTC as wakeup source if specified
+ //
+ ulRegValue &= ~(ulHIBWakupSrc & 0x1);
+
+ //
+ // Disable HIB wakeup sources
+ //
+ PRCMHIBRegWrite(HIB3P3_BASE+HIB3P3_O_MEM_HIB_RTC_WAKE_EN,ulRegValue);
+
+ //
+ // Read the GPIO wakeup configuration register
+ //
+ ulRegValue = PRCMHIBRegRead(HIB3P3_BASE+HIB3P3_O_MEM_GPIO_WAKE_EN);
+
+ //
+ // Enable the specified GPIOs a wakeup sources
+ //
+ ulRegValue &= ~((ulHIBWakupSrc>>16)&0xFF);
+
+ //
+ // Write the new register configuration
+ //
+ PRCMHIBRegWrite(HIB3P3_BASE+HIB3P3_O_MEM_GPIO_WAKE_EN,ulRegValue);
+}
+
+
+//*****************************************************************************
+//
+//! Get hibernate wakeup cause
+//!
+//! This function gets the hibernate wakeup cause.
+//!
+//! \return Returns \b PRCM_HIB_WAKEUP_CAUSE_SLOW_CLOCK or
+//! \b PRCM_HIB_WAKEUP_CAUSE_GPIO
+//
+//*****************************************************************************
+unsigned long
+PRCMHibernateWakeupCauseGet()
+{
+ return ((PRCMHIBRegRead(HIB3P3_BASE + HIB3P3_O_MEM_HIB_WAKE_STATUS)>>1)&0xF);
+}
+
+//*****************************************************************************
+//
+//! Sets Hibernate wakeup Timer
+//!
+//! \param ullTicks is number of 32.768 KHz clocks
+//!
+//! This function sets internal hibernate wakeup timer running at 32.768 KHz.
+//!
+//! \return Returns \b true on success, \b false otherwise.
+//
+//*****************************************************************************
+void
+PRCMHibernateIntervalSet(unsigned long long ullTicks)
+{
+ unsigned long long ullRTCVal;
+
+ //
+ // Latch the RTC vlaue
+ //
+ PRCMHIBRegWrite(HIB3P3_BASE+HIB3P3_O_MEM_HIB_RTC_TIMER_READ ,0x1);
+
+ //
+ // Read latched values as 2 32-bit vlaues
+ //
+ ullRTCVal = PRCMHIBRegRead(HIB3P3_BASE + HIB3P3_O_MEM_HIB_RTC_TIMER_MSW);
+ ullRTCVal = ullRTCVal << 32;
+ ullRTCVal |= PRCMHIBRegRead(HIB3P3_BASE+HIB3P3_O_MEM_HIB_RTC_TIMER_LSW);
+
+ //
+ // Add the interval
+ //
+ ullRTCVal = ullRTCVal + ullTicks;
+
+ //
+ // Set RTC match value
+ //
+ PRCMHIBRegWrite(HIB3P3_BASE+HIB3P3_O_MEM_HIB_RTC_WAKE_LSW_CONF,
+ (unsigned long)(ullRTCVal));
+ PRCMHIBRegWrite(HIB3P3_BASE+HIB3P3_O_MEM_HIB_RTC_WAKE_MSW_CONF,
+ (unsigned long)(ullRTCVal>>32));
+}
+
+
+//*****************************************************************************
+//
+//! Selects the GPIO(s) for hibernate wakeup
+//!
+//! \param ulGPIOBitMap is the bit-map of valid hibernate wakeup GPIO.
+//! \param ulType is the wakeup trigger type.
+//!
+//! This function setects the wakeup GPIO for hibernate and can be
+//! used to select any combination of 7 pre-defined GPIO(s).
+//!
+//! This function enables individual HIB wakeup source(s). The paramter
+//! \e ulGPIOBitMap should be one of the follwoing :-
+//! -\b PRCM_HIB_GPIO2
+//! -\b PRCM_HIB_GPIO4
+//! -\b PRCM_HIB_GPIO13
+//! -\b PRCM_HIB_GPIO17
+//! -\b PRCM_HIB_GPIO11
+//! -\b PRCM_HIB_GPIO24
+//! -\b PRCM_HIB_GPIO26
+//!
+//! The parameter \e ulType sets the trigger type and can be one of the
+//! following:
+//! - \b PRCM_HIB_LOW_LEVEL
+//! - \b PRCM_HIB_HIGH_LEVEL
+//! - \b PRCM_HIB_FALL_EDGE
+//! - \b PRCM_HIB_RISE_EDGE
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+PRCMHibernateWakeUpGPIOSelect(unsigned long ulGPIOBitMap, unsigned long ulType)
+{
+ unsigned char ucLoop;
+ unsigned long ulRegValue;
+
+ //
+ // Shift the bits to extract the GPIO selection
+ //
+ ulGPIOBitMap >>= 16;
+
+ //
+ // Set the configuration for each GPIO
+ //
+ for(ucLoop=0; ucLoop < 7; ucLoop++)
+ {
+ if(ulGPIOBitMap & (1<<ucLoop))
+ {
+ ulRegValue = PRCMHIBRegRead(HIB3P3_BASE+HIB3P3_O_MEM_GPIO_WAKE_CONF);
+ ulRegValue |= (ulType << (ucLoop*2));
+ PRCMHIBRegWrite(HIB3P3_BASE+HIB3P3_O_MEM_GPIO_WAKE_CONF, ulRegValue);
+ }
+ }
+}
+
+//*****************************************************************************
+//
+//! Puts the system into Hibernate
+//!
+//! This function puts the system into Hibernate. The device enters HIB
+//! immediately and on exit from HIB device core starts its execution from
+//! reset thus the function never returns.
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+PRCMHibernateEnter()
+{
+
+ //
+ // Request hibernate.
+ //
+ PRCMHIBRegWrite((HIB3P3_BASE+HIB3P3_O_MEM_HIB_REQ),0x1);
+
+ __asm(" nop\n"
+ " nop\n"
+ " nop\n"
+ " nop\n");
+}
+
+//*****************************************************************************
+//
+//! Gets the current value of the internal slow clock counter
+//!
+//! This function latches and reads the internal RTC running at 32.768 Khz
+//!
+//! \return 64-bit current counter vlaue.
+//
+//*****************************************************************************
+unsigned long long
+PRCMSlowClkCtrGet()
+{
+ unsigned long long ullRTCVal;
+
+ //
+ // Latch the RTC vlaue
+ //
+ PRCMHIBRegWrite(HIB3P3_BASE+HIB3P3_O_MEM_HIB_RTC_TIMER_READ, 0x1);
+
+ //
+ // Read latched values as 2 32-bit vlaues
+ //
+ ullRTCVal = PRCMHIBRegRead(HIB3P3_BASE + HIB3P3_O_MEM_HIB_RTC_TIMER_MSW);
+ ullRTCVal = ullRTCVal << 32;
+ ullRTCVal |= PRCMHIBRegRead(HIB3P3_BASE+HIB3P3_O_MEM_HIB_RTC_TIMER_LSW);
+
+ return ullRTCVal;
+}
+
+
+//*****************************************************************************
+//
+//! Sets slow clock counter match value to interrupt the processor.
+//!
+//! \param ullValue is the match value.
+//!
+//! This function sets the match value for slow clock counter. This is use
+//! to interrupt the processor when RTC counts to the specified value.
+//!
+//! \return None.
+//
+//*****************************************************************************
+void PRCMSlowClkCtrMatchSet(unsigned long long ullValue)
+{
+ //
+ // Set RTC match value
+ //
+ PRCMHIBRegWrite(HIB3P3_BASE + HIB3P3_O_MEM_HIB_RTC_IRQ_LSW_CONF,
+ (unsigned long)(ullValue));
+ PRCMHIBRegWrite(HIB3P3_BASE + HIB3P3_O_MEM_HIB_RTC_IRQ_MSW_CONF,
+ (unsigned long)(ullValue>>32));
+}
+
+//*****************************************************************************
+//
+//! Gets slow clock counter match value.
+//!
+//! This function gets the match value for slow clock counter. This is use
+//! to interrupt the processor when RTC counts to the specified value.
+//!
+//! \return None.
+//
+//*****************************************************************************
+unsigned long long PRCMSlowClkCtrMatchGet()
+{
+ unsigned long long ullValue;
+
+ //
+ // Get RTC match value
+ //
+ ullValue = PRCMHIBRegRead(HIB3P3_BASE + HIB3P3_O_MEM_HIB_RTC_IRQ_MSW_CONF);
+ ullValue = ullValue<<32;
+ ullValue |= PRCMHIBRegRead(HIB3P3_BASE + HIB3P3_O_MEM_HIB_RTC_IRQ_LSW_CONF);
+
+ //
+ // Return the value
+ //
+ return ullValue;
+}
+
+
+//*****************************************************************************
+//
+//! Write to On-Chip Retention (OCR) register.
+//!
+//! This function writes to On-Chip retention register. The device supports two
+//! 4-byte OCR register which are retained across all power mode.
+//!
+//! The parameter \e ucIndex is an index of the OCR and can be \b 0 or \b 1.
+//!
+//! \return None.
+//
+//*****************************************************************************
+void PRCMOCRRegisterWrite(unsigned char ucIndex, unsigned long ulRegValue)
+{
+ PRCMHIBRegWrite(HIB3P3_BASE+HIB3P3_O_MEM_HIB_REG2+(ucIndex << 2),ulRegValue);
+}
+
+//*****************************************************************************
+//
+//! Read from On-Chip Retention (OCR) register.
+//!
+//! This function reads from On-Chip retention register. The device supports two
+//! 4-byte OCR register which are retained across all power mode.
+//!
+//! The parameter \e ucIndex is an index of the OCR and can be \b 0 or \b 1.
+//!
+//! \return None.
+//
+//*****************************************************************************
+unsigned long PRCMOCRRegisterRead(unsigned char ucIndex)
+{
+ //
+ // Return the read value.
+ //
+ return PRCMHIBRegRead(HIB3P3_BASE+HIB3P3_O_MEM_HIB_REG2 + (ucIndex << 2));
+}
+
+//*****************************************************************************
+//
+//! Registers an interrupt handler for the PRCM.
+//!
+//! \param pfnHandler is a pointer to the function to be called when the
+//! interrupt is activated.
+//!
+//! This function does the actual registering of the interrupt handler. This
+//! function enables the global interrupt in the interrupt controller;
+//!
+//! \return None.
+//
+//*****************************************************************************
+void PRCMIntRegister(void (*pfnHandler)(void))
+{
+ //
+ // Register the interrupt handler.
+ //
+ IntRegister(INT_PRCM, pfnHandler);
+
+ //
+ // Enable the PRCM interrupt.
+ //
+ IntEnable(INT_PRCM);
+}
+
+//*****************************************************************************
+//
+//! Unregisters an interrupt handler for the PRCM.
+//!
+//! This function does the actual unregistering of the interrupt handler. It
+//! clears the handler to be called when a PRCM interrupt occurs. This
+//! function also masks off the interrupt in the interrupt controller so that
+//! the interrupt handler no longer is called.
+//!
+//! \return None.
+//
+//*****************************************************************************
+void PRCMIntUnregister()
+{
+ //
+ // Enable the UART interrupt.
+ //
+ IntDisable(INT_PRCM);
+
+ //
+ // Register the interrupt handler.
+ //
+ IntUnregister(INT_PRCM);
+}
+
+//*****************************************************************************
+//
+//! Enables individual PRCM interrupt sources.
+//!
+//! \param ulIntFlags is the bit mask of the interrupt sources to be enabled.
+//!
+//! This function enables the indicated ARCM interrupt sources. Only the
+//! sources that are enabled can be reflected to the processor interrupt;
+//! disabled sources have no effect on the processor.
+//!
+//! The \e ulIntFlags parameter is the logical OR of any of the following:
+//! -\b PRCM_INT_SLOW_CLK_CTR
+//!
+//
+//*****************************************************************************
+void PRCMIntEnable(unsigned long ulIntFlags)
+{
+ unsigned long ulRegValue;
+
+ if(ulIntFlags & PRCM_INT_SLOW_CLK_CTR )
+ {
+ //
+ // Enable PRCM interrupt
+ //
+ HWREG(ARCM_BASE + APPS_RCM_O_APPS_RCM_INTERRUPT_ENABLE) |= 0x4;
+
+ //
+ // Enable RTC interrupt
+ //
+ ulRegValue = PRCMHIBRegRead(HIB3P3_BASE + HIB3P3_O_MEM_HIB_RTC_IRQ_ENABLE);
+ ulRegValue |= 0x1;
+ PRCMHIBRegWrite(HIB3P3_BASE + HIB3P3_O_MEM_HIB_RTC_IRQ_ENABLE, ulRegValue);
+ }
+}
+
+//*****************************************************************************
+//
+//! Disables individual PRCM interrupt sources.
+//!
+//! \param ulIntFlags is the bit mask of the interrupt sources to be disabled.
+//!
+//! This function disables the indicated ARCM interrupt sources. Only the
+//! sources that are enabled can be reflected to the processor interrupt;
+//! disabled sources have no effect on the processor.
+//!
+//! The \e ulIntFlags parameter has the same definition as the \e ulIntFlags
+//! parameter to PRCMEnableInterrupt().
+//!
+//! \return None.
+//
+//*****************************************************************************
+void PRCMIntDisable(unsigned long ulIntFlags)
+{
+ unsigned long ulRegValue;
+
+ if(ulIntFlags & PRCM_INT_SLOW_CLK_CTR )
+ {
+ //
+ // Disable PRCM interrupt
+ //
+ HWREG(ARCM_BASE + APPS_RCM_O_APPS_RCM_INTERRUPT_ENABLE) &= ~0x4;
+
+ //
+ // Disable RTC interrupt
+ //
+ ulRegValue = PRCMHIBRegRead(HIB3P3_BASE + HIB3P3_O_MEM_HIB_RTC_IRQ_ENABLE);
+ ulRegValue &= ~0x1;
+ PRCMHIBRegWrite(HIB3P3_BASE + HIB3P3_O_MEM_HIB_RTC_IRQ_ENABLE, ulRegValue);
+ }
+}
+
+//*****************************************************************************
+//
+//! Gets the current interrupt status.
+//!
+//! This function returns the PRCM interrupt status of interrupts that are
+//! allowed to reflect to the processor. The interrupts are cleared on read.
+//!
+//! \return Returns the current interrupt status.
+//
+//*****************************************************************************
+unsigned long PRCMIntStatus()
+{
+ return HWREG(ARCM_BASE + APPS_RCM_O_APPS_RCM_INTERRUPT_STATUS);
+}
+
+//*****************************************************************************
+//
+//! Mark the function of RTC as being used
+//!
+//! This function marks in HW that feature to maintain calendar time in device
+//! is being used.
+//!
+//! Specifically, this feature reserves user's HIB Register-1 accessed through
+//! PRCMOCRRegisterWrite(1) for internal work / purpose, therefore, the stated
+//! register is not available to user. Also, users must not excercise the Slow
+//! Clock Counter API(s), if RTC has been set for use.
+//!
+//! The RTC feature, if set or marked, can be only reset either through reboot
+//! or power cycle.
+//!
+//! \return None.
+//
+//*****************************************************************************
+void PRCMRTCInUseSet()
+{
+ RTC_USE_SET();
+ return;
+}
+
+//*****************************************************************************
+//
+//! Ascertain whether function of RTC is being used
+//!
+//! This function indicates whether function of RTC is being used on the device
+//! or not.
+//!
+//! This routine should be utilized by the application software, when returning
+//! from low-power, to confirm that RTC has been put to use and may not need to
+//! set the value of the RTC.
+//!
+//! The RTC feature, if set or marked, can be only reset either through reboot
+//! or power cycle.
+//!
+//! \return None.
+//
+//*****************************************************************************
+tBoolean PRCMRTCInUseGet()
+{
+ return IS_RTC_USED()? true : false;
+}
+
+//*****************************************************************************
+//
+//! Set the calendar time in the device.
+//!
+//! \param ulSecs refers to the seconds part of the calendar time
+//! \param usMsec refers to the fractional (ms) part of the second
+//!
+//! This function sets the specified calendar time in the device. The calendar
+//! time is outlined in terms of seconds and milliseconds. However, the device
+//! makes no assumption about the origin or reference of the calendar time.
+//!
+//! The device uses the indicated calendar value to update and maintain the
+//! wall-clock time across active and low power states.
+//!
+//! The function PRCMRTCInUseSet() must be invoked prior to use of this feature.
+//!
+//! \return None.
+//
+//*****************************************************************************
+void PRCMRTCSet(unsigned long ulSecs, unsigned short usMsec)
+{
+ unsigned long long ullMsec = 0;
+
+ if(IS_RTC_USED()) {
+ ullMsec = RTC_U64MSEC_MK(ulSecs, usMsec) - SCC_U64MSEC_GET();
+
+ RTC_U32SECS_REG_WR(RTC_SECS_IN_U64MSEC(ullMsec));
+ RTC_U16MSEC_REG_WR(RTC_MSEC_IN_U64MSEC(ullMsec));
+ }
+
+ return;
+}
+
+//*****************************************************************************
+//
+//! Get the instantaneous calendar time from the device.
+//!
+//! \param ulSecs refers to the seconds part of the calendar time
+//! \param usMsec refers to the fractional (ms) part of the second
+//!
+//! This function fetches the instantaneous value of the ticking calendar time
+//! from the device. The calendar time is outlined in terms of seconds and
+//! milliseconds.
+//!
+//! The device provides the calendar value that has been maintained across
+//! active and low power states.
+//!
+//! The function PRCMRTCSet() must have been invoked once to set a reference.
+//!
+//! \return None.
+//
+//*****************************************************************************
+void PRCMRTCGet(unsigned long *ulSecs, unsigned short *usMsec)
+{
+ unsigned long long ullMsec = 0;
+
+ if(IS_RTC_USED()) {
+ ullMsec = RTC_U64MSEC_MK(RTC_U32SECS_REG_RD(),
+ RTC_U16MSEC_REG_RD());
+ ullMsec += SCC_U64MSEC_GET();
+ }
+
+ *ulSecs = RTC_SECS_IN_U64MSEC(ullMsec);
+ *usMsec = RTC_MSEC_IN_U64MSEC(ullMsec);
+
+ return;
+}
+
+//*****************************************************************************
+//
+//! Set a calendar time alarm.
+//!
+//! \param ulSecs refers to the seconds part of the calendar time
+//! \param usMsec refers to the fractional (ms) part of the second
+//!
+//! This function sets an wall-clock alarm in the device to be reported for a
+//! futuristic calendar time. The calendar time is outlined in terms of seconds
+//! and milliseconds.
+//!
+//! The device provides uses the calendar value that has been maintained across
+//! active and low power states to report attainment of alarm time.
+//!
+//! The function PRCMRTCSet() must have been invoked once to set a reference.
+//!
+//! \return None.
+//
+//*****************************************************************************
+void PRCMRTCMatchSet(unsigned long ulSecs, unsigned short usMsec)
+{
+ unsigned long long ullMsec = 0;
+
+ if(IS_RTC_USED()) {
+ ullMsec = RTC_U64MSEC_MK(ulSecs, usMsec);
+ ullMsec -= RTC_U64MSEC_MK(RTC_U32SECS_REG_RD(),
+ RTC_U16MSEC_REG_RD());
+ SCC_U64MSEC_MATCH_SET(SELECT_SCC_U42BITS(ullMsec));
+ }
+
+ return;
+}
+
+//*****************************************************************************
+//
+//! Get a previously set calendar time alarm.
+//!
+//! \param ulSecs refers to the seconds part of the calendar time
+//! \param usMsec refers to the fractional (ms) part of the second
+//!
+//! This function fetches from the device a wall-clock alarm that would have
+//! been previously set in the device. The calendar time is outlined in terms
+//! of seconds and milliseconds.
+//!
+//! If no alarm was set in the past, then this function would fetch a random
+//! information.
+//!
+//! The function PRCMRTCMatchSet() must have been invoked once to set an alarm.
+//!
+//! \return None.
+//
+//*****************************************************************************
+void PRCMRTCMatchGet(unsigned long *ulSecs, unsigned short *usMsec)
+{
+ unsigned long long ullMsec = 0;
+
+ if(IS_RTC_USED()) {
+ ullMsec = SCC_U64MSEC_MATCH_GET();
+ ullMsec += RTC_U64MSEC_MK(RTC_U32SECS_REG_RD(),
+ RTC_U16MSEC_REG_RD());
+ }
+
+ *ulSecs = RTC_SECS_IN_U64MSEC(ullMsec);
+ *usMsec = RTC_MSEC_IN_U64MSEC(ullMsec);
+
+ return;
+}
+
+//*****************************************************************************
+//
+//! MCU Initialization Routine
+//!
+//! This function sets mandatory configurations for the MCU
+//!
+//! \return None
+//
+//*****************************************************************************
+void PRCMCC3200MCUInit()
+{
+ unsigned long ulRegValue;
+
+ //
+ // DIG DCDC LPDS ECO Enable
+ //
+ HWREG(0x4402F064) |= 0x800000;
+
+ //
+ // Enable hibernate ECO for PG 1.32 devices only. With this ECO enabled,
+ // any hibernate wakeup source will be kept maked until the device enters
+ // hibernate completely (analog + digital)
+ //
+ ulRegValue = PRCMHIBRegRead(HIB3P3_BASE + HIB3P3_O_MEM_HIB_REG0);
+ PRCMHIBRegWrite(HIB3P3_BASE + HIB3P3_O_MEM_HIB_REG0, ulRegValue | (1<<4));
+
+ //
+ // Handling the clock switching (for 1.32 only)
+ //
+ HWREG(0x4402E16C) |= 0x3C;
+
+ //
+ // Enable uDMA
+ //
+ MAP_PRCMPeripheralClkEnable(PRCM_UDMA,PRCM_RUN_MODE_CLK);
+
+ //
+ // Reset uDMA
+ //
+ MAP_PRCMPeripheralReset(PRCM_UDMA);
+
+ //
+ // Disable uDMA
+ //
+ MAP_PRCMPeripheralClkDisable(PRCM_UDMA,PRCM_RUN_MODE_CLK);
+
+ //
+ // Enable RTC
+ //
+ if(MAP_PRCMSysResetCauseGet()== PRCM_POWER_ON)
+ {
+ MAP_PRCMHIBRegWrite(0x4402F804,0x1);
+ }
+
+ //
+ // SWD mode
+ //
+ if (((HWREG(0x4402F0C8) & 0xFF) == 0x2))
+ {
+ HWREG(0x4402E110) = ((HWREG(0x4402E110) & ~0xC0F) | 0x2);
+ HWREG(0x4402E114) = ((HWREG(0x4402E110) & ~0xC0F) | 0x2);
+ }
+
+ //
+ // Override JTAG mux
+ //
+ HWREG(0x4402E184) |= 0x2;
+
+ //
+ // Change UART pins(55,57) mode to PIN_MODE_0 if they are in PIN_MODE_1
+ //
+ if ((HWREG(0x4402E0A4) & 0xF) == 0x1)
+ {
+ HWREG(0x4402E0A4) = ((HWREG(0x4402E0A4) & ~0xF));
+ }
+
+ if ((HWREG(0x4402E0A8) & 0xF) == 0x1)
+ {
+ HWREG(0x4402E0A8) = ((HWREG(0x4402E0A8) & ~0xF));
+ }
+
+ //
+ // DIG DCDC VOUT trim settings based on PROCESS INDICATOR
+ //
+ if (((HWREG(0x4402DC78) >> 22) & 0xF) == 0xE)
+ {
+ HWREG(0x4402F0B0) = ((HWREG(0x4402F0B0) & ~(0x00FC0000))|(0x32 << 18));
+ }
+ else
+ {
+ HWREG(0x4402F0B0) = ((HWREG(0x4402F0B0) & ~(0x00FC0000))|(0x29 << 18));
+ }
+
+ //
+ // Enable SOFT RESTART in case of DIG DCDC collapse
+ //
+ HWREG(0x4402FC74) &= ~(0x10000000);
+
+
+ //
+ // Disable the sleep for ANA DCDC
+ //
+ HWREG(0x4402F0A8) |= 0x00000004 ;
+}
+
+//*****************************************************************************
+//
+//! Reads 32-bit value from register at specified address
+//!
+//! \param ulRegAddr is the address of register to be read.
+//!
+//! This function reads 32-bit value from the register as specified by
+//! \e ulRegAddr.
+//!
+//! \return Return the value of the register.
+//
+//*****************************************************************************
+unsigned long PRCMHIBRegRead(unsigned long ulRegAddr)
+{
+ unsigned long ulValue;
+
+ //
+ // Read the Reg value
+ //
+ ulValue = HWREG(ulRegAddr);
+
+ //
+ // Wait for 200 uSec
+ //
+ UtilsDelay((80*200)/3);
+
+ //
+ // Return the value
+ //
+ return ulValue;
+}
+
+//*****************************************************************************
+//
+//! Writes 32-bit value to register at specified address
+//!
+//! \param ulRegAddr is the address of register to be read.
+//! \param ulValue is the 32-bit value to be written.
+//!
+//! This function writes 32-bit value passed as \e ulValue to the register as
+//! specified by \e ulRegAddr
+//!
+//! \return None
+//
+//*****************************************************************************
+void PRCMHIBRegWrite(unsigned long ulRegAddr, unsigned long ulValue)
+{
+ //
+ // Read the Reg value
+ //
+ HWREG(ulRegAddr) = ulValue;
+
+ //
+ // Wait for 200 uSec
+ //
+ UtilsDelay((80*200)/3);
+}
+
+//*****************************************************************************
+//
+// Close the Doxygen group.
+//! @}
+//
+//*****************************************************************************
diff --git a/cc3200/hal/prcm.h b/cc3200/hal/prcm.h
new file mode 100644
index 000000000..067c66cba
--- /dev/null
+++ b/cc3200/hal/prcm.h
@@ -0,0 +1,272 @@
+//*****************************************************************************
+//
+// prcm.h
+//
+// Prototypes for the PRCM control driver.
+//
+// Copyright (C) 2014 Texas Instruments Incorporated - http://www.ti.com/
+//
+//
+// Redistribution and use in source and binary forms, with or without
+// modification, are permitted provided that the following conditions
+// are met:
+//
+// Redistributions of source code must retain the above copyright
+// notice, this list of conditions and the following disclaimer.
+//
+// Redistributions in binary form must reproduce the above copyright
+// notice, this list of conditions and the following disclaimer in the
+// documentation and/or other materials provided with the
+// distribution.
+//
+// Neither the name of Texas Instruments Incorporated nor the names of
+// its contributors may be used to endorse or promote products derived
+// from this software without specific prior written permission.
+//
+// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
+// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
+// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
+// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
+// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
+// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
+// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
+// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
+// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
+// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
+// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+//
+//*****************************************************************************
+
+#ifndef __PRCM_H__
+#define __PRCM_H__
+
+//*****************************************************************************
+//
+// If building with a C++ compiler, make all of the definitions in this header
+// have a C binding.
+//
+//*****************************************************************************
+#ifdef __cplusplus
+extern "C"
+{
+#endif
+
+//*****************************************************************************
+//
+// Peripheral clock and reset control registers
+//
+//*****************************************************************************
+typedef struct _PRCM_PeripheralRegs_
+{
+
+unsigned long ulClkReg;
+unsigned long ulRstReg;
+
+}PRCM_PeriphRegs_t;
+
+//*****************************************************************************
+// Values that can be passed to PRCMPeripheralEnable() and
+// PRCMPeripheralDisable()
+//*****************************************************************************
+#define PRCM_RUN_MODE_CLK 0x00000001
+#define PRCM_SLP_MODE_CLK 0x00000100
+#define PRCM_DSLP_MODE_CLK 0x00010000
+
+//*****************************************************************************
+// Values that can be passed to PRCMSRAMRetentionEnable() and
+// PRCMSRAMRetentionDisable() as ulSramColSel.
+//*****************************************************************************
+#define PRCM_SRAM_COL_1 0x00000001
+#define PRCM_SRAM_COL_2 0x00000002
+#define PRCM_SRAM_COL_3 0x00000004
+#define PRCM_SRAM_COL_4 0x00000008
+
+//*****************************************************************************
+// Values that can be passed to PRCMSRAMRetentionEnable() and
+// PRCMSRAMRetentionDisable() as ulModeFlags.
+//*****************************************************************************
+#define PRCM_SRAM_DSLP_RET 0x00000001
+#define PRCM_SRAM_LPDS_RET 0x00000002
+
+//*****************************************************************************
+// Values that can be passed to PRCMLPDSWakeupSourceEnable(),
+// PRCMLPDSWakeupCauseGet() and PRCMLPDSWakeupSourceDisable().
+//*****************************************************************************
+#define PRCM_LPDS_HOST_IRQ 0x00000080
+#define PRCM_LPDS_GPIO 0x00000010
+#define PRCM_LPDS_TIMER 0x00000001
+
+//*****************************************************************************
+// Values that can be passed to PRCMLPDSWakeUpGPIOSelect() as Type
+//*****************************************************************************
+#define PRCM_LPDS_LOW_LEVEL 0x00000002
+#define PRCM_LPDS_HIGH_LEVEL 0x00000000
+#define PRCM_LPDS_FALL_EDGE 0x00000001
+#define PRCM_LPDS_RISE_EDGE 0x00000003
+
+//*****************************************************************************
+// Values that can be passed to PRCMLPDSWakeUpGPIOSelect()
+//*****************************************************************************
+#define PRCM_LPDS_GPIO2 0x00000000
+#define PRCM_LPDS_GPIO4 0x00000001
+#define PRCM_LPDS_GPIO13 0x00000002
+#define PRCM_LPDS_GPIO17 0x00000003
+#define PRCM_LPDS_GPIO11 0x00000004
+#define PRCM_LPDS_GPIO24 0x00000005
+#define PRCM_LPDS_GPIO26 0x00000006
+
+//*****************************************************************************
+// Values that can be passed to PRCMHibernateWakeupSourceEnable(),
+// PRCMHibernateWakeupSourceDisable().
+//*****************************************************************************
+#define PRCM_HIB_SLOW_CLK_CTR 0x00000001
+
+//*****************************************************************************
+// Values that can be passed to PRCMHibernateWakeUpGPIOSelect() as ulType
+//*****************************************************************************
+#define PRCM_HIB_LOW_LEVEL 0x00000000
+#define PRCM_HIB_HIGH_LEVEL 0x00000001
+#define PRCM_HIB_FALL_EDGE 0x00000002
+#define PRCM_HIB_RISE_EDGE 0x00000003
+
+//*****************************************************************************
+// Values that can be passed to PRCMHibernateWakeupSourceEnable(),
+// PRCMHibernateWakeupSourceDisable(), PRCMHibernateWakeUpGPIOSelect()
+//*****************************************************************************
+#define PRCM_HIB_GPIO2 0x00010000
+#define PRCM_HIB_GPIO4 0x00020000
+#define PRCM_HIB_GPIO13 0x00040000
+#define PRCM_HIB_GPIO17 0x00080000
+#define PRCM_HIB_GPIO11 0x00100000
+#define PRCM_HIB_GPIO24 0x00200000
+#define PRCM_HIB_GPIO26 0x00400000
+
+//*****************************************************************************
+// Values that will be returned from PRCMSysResetCauseGet().
+//*****************************************************************************
+#define PRCM_POWER_ON 0x00000000
+#define PRCM_LPDS_EXIT 0x00000001
+#define PRCM_CORE_RESET 0x00000003
+#define PRCM_MCU_RESET 0x00000004
+#define PRCM_WDT_RESET 0x00000005
+#define PRCM_SOC_RESET 0x00000006
+#define PRCM_HIB_EXIT 0x00000007
+
+//*****************************************************************************
+// Values that can be passed to PRCMHibernateWakeupCauseGet().
+//*****************************************************************************
+#define PRCM_HIB_WAKEUP_CAUSE_SLOW_CLOCK 0x00000002
+#define PRCM_HIB_WAKEUP_CAUSE_GPIO 0x00000004
+
+//*****************************************************************************
+// Values that can be passed to PRCMSEnableInterrupt
+//*****************************************************************************
+#define PRCM_INT_SLOW_CLK_CTR 0x00004000
+
+//*****************************************************************************
+// Values that can be passed to PRCMPeripheralClkEnable(),
+// PRCMPeripheralClkDisable(), PRCMPeripheralReset()
+//*****************************************************************************
+#define PRCM_CAMERA 0x00000000
+#define PRCM_I2S 0x00000001
+#define PRCM_SDHOST 0x00000002
+#define PRCM_GSPI 0x00000003
+#define PRCM_LSPI 0x00000004
+#define PRCM_UDMA 0x00000005
+#define PRCM_GPIOA0 0x00000006
+#define PRCM_GPIOA1 0x00000007
+#define PRCM_GPIOA2 0x00000008
+#define PRCM_GPIOA3 0x00000009
+#define PRCM_GPIOA4 0x0000000A
+#define PRCM_WDT 0x0000000B
+#define PRCM_UARTA0 0x0000000C
+#define PRCM_UARTA1 0x0000000D
+#define PRCM_TIMERA0 0x0000000E
+#define PRCM_TIMERA1 0x0000000F
+#define PRCM_TIMERA2 0x00000010
+#define PRCM_TIMERA3 0x00000011
+#define PRCM_DTHE 0x00000012
+#define PRCM_SSPI 0x00000013
+#define PRCM_I2CA0 0x00000014
+// Note : PRCM_ADC is a dummy define for pinmux utility code generation
+// PRCM_ADC should never be used in any user code.
+#define PRCM_ADC 0x000000FF
+
+//*****************************************************************************
+//
+// API Function prototypes
+//
+//*****************************************************************************
+extern void PRCMSOCReset(void);
+extern void PRCMMCUReset(tBoolean bIncludeSubsystem);
+extern unsigned long PRCMSysResetCauseGet(void);
+
+extern void PRCMPeripheralClkEnable(unsigned long ulPeripheral,
+ unsigned long ulClkFlags);
+extern void PRCMPeripheralClkDisable(unsigned long ulPeripheral,
+ unsigned long ulClkFlags);
+extern void PRCMPeripheralReset(unsigned long ulPeripheral);
+extern tBoolean PRCMPeripheralStatusGet(unsigned long ulPeripheral);
+
+extern void PRCMI2SClockFreqSet(unsigned long ulI2CClkFreq);
+extern unsigned long PRCMPeripheralClockGet(unsigned long ulPeripheral);
+
+extern void PRCMSleepEnter(void);
+extern void PRCMDeepSleepEnter(void);
+
+extern void PRCMSRAMRetentionEnable(unsigned long ulSramColSel,
+ unsigned long ulFlags);
+extern void PRCMSRAMRetentionDisable(unsigned long ulSramColSel,
+ unsigned long ulFlags);
+extern void PRCMLPDSRestoreInfoSet(unsigned long ulRestoreSP,
+ unsigned long ulRestorePC);
+extern void PRCMLPDSEnter(void);
+extern void PRCMLPDSIntervalSet(unsigned long ulTicks);
+extern void PRCMLPDSWakeupSourceEnable(unsigned long ulLpdsWakeupSrc);
+extern unsigned long PRCMLPDSWakeupCauseGet(void);
+extern void PRCMLPDSWakeUpGPIOSelect(unsigned long ulGPIOPin,
+ unsigned long ulType);
+extern void PRCMLPDSWakeupSourceDisable(unsigned long ulLpdsWakeupSrc);
+
+extern void PRCMHibernateEnter(void);
+extern void PRCMHibernateWakeupSourceEnable(unsigned long ulHIBWakupSrc);
+extern unsigned long PRCMHibernateWakeupCauseGet(void);
+extern void PRCMHibernateWakeUpGPIOSelect(unsigned long ulMultiGPIOBitMap,
+ unsigned long ulType);
+extern void PRCMHibernateWakeupSourceDisable(unsigned long ulHIBWakupSrc);
+extern void PRCMHibernateIntervalSet(unsigned long long ullTicks);
+
+extern unsigned long long PRCMSlowClkCtrGet(void);
+extern void PRCMSlowClkCtrMatchSet(unsigned long long ullTicks);
+extern unsigned long long PRCMSlowClkCtrMatchGet(void);
+
+extern void PRCMOCRRegisterWrite(unsigned char ucIndex,
+ unsigned long ulRegValue);
+extern unsigned long PRCMOCRRegisterRead(unsigned char ucIndex);
+
+extern void PRCMIntRegister(void (*pfnHandler)(void));
+extern void PRCMIntUnregister(void);
+extern void PRCMIntEnable(unsigned long ulIntFlags);
+extern void PRCMIntDisable(unsigned long ulIntFlags);
+extern unsigned long PRCMIntStatus(void);
+extern void PRCMRTCInUseSet(void);
+extern tBoolean PRCMRTCInUseGet(void);
+extern void PRCMRTCSet(unsigned long ulSecs, unsigned short usMsec);
+extern void PRCMRTCGet(unsigned long *ulSecs, unsigned short *usMsec);
+extern void PRCMRTCMatchSet(unsigned long ulSecs, unsigned short usMsec);
+extern void PRCMRTCMatchGet(unsigned long *ulSecs, unsigned short *usMsec);
+extern void PRCMCC3200MCUInit(void);
+extern unsigned long PRCMHIBRegRead(unsigned long ulRegAddr);
+extern void PRCMHIBRegWrite(unsigned long ulRegAddr, unsigned long ulValue);
+
+
+//*****************************************************************************
+//
+// Mark the end of the C bindings section for C++ compilers.
+//
+//*****************************************************************************
+#ifdef __cplusplus
+}
+#endif
+
+#endif // __PRCM_H__
diff --git a/cc3200/hal/rom.h b/cc3200/hal/rom.h
new file mode 100644
index 000000000..33a18b68f
--- /dev/null
+++ b/cc3200/hal/rom.h
@@ -0,0 +1,2237 @@
+//*****************************************************************************
+//
+// rom.h
+//
+// Macros to facilitate calling functions in the ROM.
+//
+// Copyright (C) 2014 Texas Instruments Incorporated - http://www.ti.com/
+//
+//
+// Redistribution and use in source and binary forms, with or without
+// modification, are permitted provided that the following conditions
+// are met:
+//
+// Redistributions of source code must retain the above copyright
+// notice, this list of conditions and the following disclaimer.
+//
+// Redistributions in binary form must reproduce the above copyright
+// notice, this list of conditions and the following disclaimer in the
+// documentation and/or other materials provided with the
+// distribution.
+//
+// Neither the name of Texas Instruments Incorporated nor the names of
+// its contributors may be used to endorse or promote products derived
+// from this software without specific prior written permission.
+//
+// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
+// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
+// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
+// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
+// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
+// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
+// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
+// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
+// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
+// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
+// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+//
+//*****************************************************************************
+
+//*****************************************************************************
+//
+// THIS IS AN AUTO-GENERATED FILE. DO NOT EDIT BY HAND.
+//
+//*****************************************************************************
+
+#ifndef __ROM_H__
+#define __ROM_H__
+
+//*****************************************************************************
+//
+// Pointers to the main API tables.
+//
+//*****************************************************************************
+#define ROM_APITABLE ((unsigned long *)0x0000040C)
+#define ROM_VERSION (ROM_APITABLE[0])
+#define ROM_UARTTABLE ((unsigned long *)(ROM_APITABLE[1]))
+#define ROM_TIMERTABLE ((unsigned long *)(ROM_APITABLE[2]))
+#define ROM_WATCHDOGTABLE ((unsigned long *)(ROM_APITABLE[3]))
+#define ROM_INTERRUPTTABLE ((unsigned long *)(ROM_APITABLE[4]))
+#define ROM_UDMATABLE ((unsigned long *)(ROM_APITABLE[5]))
+#define ROM_PRCMTABLE ((unsigned long *)(ROM_APITABLE[6]))
+#define ROM_I2CTABLE ((unsigned long *)(ROM_APITABLE[7]))
+#define ROM_SPITABLE ((unsigned long *)(ROM_APITABLE[8]))
+#define ROM_CAMERATABLE ((unsigned long *)(ROM_APITABLE[9]))
+#define ROM_FLASHTABLE ((unsigned long *)(ROM_APITABLE[10]))
+#define ROM_PINTABLE ((unsigned long *)(ROM_APITABLE[11]))
+#define ROM_SYSTICKTABLE ((unsigned long *)(ROM_APITABLE[12]))
+#define ROM_UTILSTABLE ((unsigned long *)(ROM_APITABLE[13]))
+#define ROM_I2STABLE ((unsigned long *)(ROM_APITABLE[14]))
+#define ROM_HWSPINLOCKTABLE ((unsigned long *)(ROM_APITABLE[15]))
+#define ROM_GPIOTABLE ((unsigned long *)(ROM_APITABLE[16]))
+#define ROM_AESTABLE ((unsigned long *)(ROM_APITABLE[17]))
+#define ROM_DESTABLE ((unsigned long *)(ROM_APITABLE[18]))
+#define ROM_SHAMD5TABLE ((unsigned long *)(ROM_APITABLE[19]))
+#define ROM_CRCTABLE ((unsigned long *)(ROM_APITABLE[20]))
+#define ROM_SDHOSTTABLE ((unsigned long *)(ROM_APITABLE[21]))
+#define ROM_ADCTABLE ((unsigned long *)(ROM_APITABLE[22]))
+
+//*****************************************************************************
+//
+// Macros for calling ROM functions in the Interrupt API.
+//
+//*****************************************************************************
+#if defined(TARGET_IS_CC3200)
+#define ROM_IntEnable \
+ ((void (*)(unsigned long ulInterrupt))ROM_INTERRUPTTABLE[0])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_IntMasterEnable \
+ ((tBoolean (*)(void))ROM_INTERRUPTTABLE[1])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_IntMasterDisable \
+ ((tBoolean (*)(void))ROM_INTERRUPTTABLE[2])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_IntDisable \
+ ((void (*)(unsigned long ulInterrupt))ROM_INTERRUPTTABLE[3])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_IntPriorityGroupingSet \
+ ((void (*)(unsigned long ulBits))ROM_INTERRUPTTABLE[4])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_IntPriorityGroupingGet \
+ ((unsigned long (*)(void))ROM_INTERRUPTTABLE[5])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_IntPrioritySet \
+ ((void (*)(unsigned long ulInterrupt, \
+ unsigned char ucPriority))ROM_INTERRUPTTABLE[6])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_IntPriorityGet \
+ ((long (*)(unsigned long ulInterrupt))ROM_INTERRUPTTABLE[7])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_IntPendSet \
+ ((void (*)(unsigned long ulInterrupt))ROM_INTERRUPTTABLE[8])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_IntPendClear \
+ ((void (*)(unsigned long ulInterrupt))ROM_INTERRUPTTABLE[9])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_IntPriorityMaskSet \
+ ((void (*)(unsigned long ulPriorityMask))ROM_INTERRUPTTABLE[10])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_IntPriorityMaskGet \
+ ((unsigned long (*)(void))ROM_INTERRUPTTABLE[11])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_IntRegister \
+ ((void (*)(unsigned long ulInterrupt, \
+ void (*pfnHandler)(void)))ROM_INTERRUPTTABLE[12])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_IntUnregister \
+ ((void (*)(unsigned long ulInterrupt))ROM_INTERRUPTTABLE[13])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_IntVTableBaseSet \
+ ((void (*)(unsigned long ulVtableBase))ROM_INTERRUPTTABLE[14])
+#endif
+
+//*****************************************************************************
+//
+// Macros for calling ROM functions in the Timer API.
+//
+//*****************************************************************************
+#if defined(TARGET_IS_CC3200)
+#define ROM_TimerEnable \
+ ((void (*)(unsigned long ulBase, \
+ unsigned long ulTimer))ROM_TIMERTABLE[0])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_TimerDisable \
+ ((void (*)(unsigned long ulBase, \
+ unsigned long ulTimer))ROM_TIMERTABLE[1])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_TimerConfigure \
+ ((void (*)(unsigned long ulBase, \
+ unsigned long ulConfig))ROM_TIMERTABLE[2])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_TimerControlLevel \
+ ((void (*)(unsigned long ulBase, \
+ unsigned long ulTimer, \
+ tBoolean bInvert))ROM_TIMERTABLE[3])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_TimerControlEvent \
+ ((void (*)(unsigned long ulBase, \
+ unsigned long ulTimer, \
+ unsigned long ulEvent))ROM_TIMERTABLE[4])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_TimerControlStall \
+ ((void (*)(unsigned long ulBase, \
+ unsigned long ulTimer, \
+ tBoolean bStall))ROM_TIMERTABLE[5])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_TimerPrescaleSet \
+ ((void (*)(unsigned long ulBase, \
+ unsigned long ulTimer, \
+ unsigned long ulValue))ROM_TIMERTABLE[6])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_TimerPrescaleGet \
+ ((unsigned long (*)(unsigned long ulBase, \
+ unsigned long ulTimer))ROM_TIMERTABLE[7])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_TimerPrescaleMatchSet \
+ ((void (*)(unsigned long ulBase, \
+ unsigned long ulTimer, \
+ unsigned long ulValue))ROM_TIMERTABLE[8])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_TimerPrescaleMatchGet \
+ ((unsigned long (*)(unsigned long ulBase, \
+ unsigned long ulTimer))ROM_TIMERTABLE[9])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_TimerLoadSet \
+ ((void (*)(unsigned long ulBase, \
+ unsigned long ulTimer, \
+ unsigned long ulValue))ROM_TIMERTABLE[10])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_TimerLoadGet \
+ ((unsigned long (*)(unsigned long ulBase, \
+ unsigned long ulTimer))ROM_TIMERTABLE[11])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_TimerValueGet \
+ ((unsigned long (*)(unsigned long ulBase, \
+ unsigned long ulTimer))ROM_TIMERTABLE[12])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_TimerMatchSet \
+ ((void (*)(unsigned long ulBase, \
+ unsigned long ulTimer, \
+ unsigned long ulValue))ROM_TIMERTABLE[13])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_TimerMatchGet \
+ ((unsigned long (*)(unsigned long ulBase, \
+ unsigned long ulTimer))ROM_TIMERTABLE[14])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_TimerIntRegister \
+ ((void (*)(unsigned long ulBase, \
+ unsigned long ulTimer, \
+ void (*pfnHandler)(void)))ROM_TIMERTABLE[15])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_TimerIntUnregister \
+ ((void (*)(unsigned long ulBase, \
+ unsigned long ulTimer))ROM_TIMERTABLE[16])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_TimerIntEnable \
+ ((void (*)(unsigned long ulBase, \
+ unsigned long ulIntFlags))ROM_TIMERTABLE[17])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_TimerIntDisable \
+ ((void (*)(unsigned long ulBase, \
+ unsigned long ulIntFlags))ROM_TIMERTABLE[18])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_TimerIntStatus \
+ ((unsigned long (*)(unsigned long ulBase, \
+ tBoolean bMasked))ROM_TIMERTABLE[19])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_TimerIntClear \
+ ((void (*)(unsigned long ulBase, \
+ unsigned long ulIntFlags))ROM_TIMERTABLE[20])
+#endif
+
+//*****************************************************************************
+//
+// Macros for calling ROM functions in the UART API.
+//
+//*****************************************************************************
+#if defined(TARGET_IS_CC3200)
+#define ROM_UARTParityModeSet \
+ ((void (*)(unsigned long ulBase, \
+ unsigned long ulParity))ROM_UARTTABLE[0])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_UARTParityModeGet \
+ ((unsigned long (*)(unsigned long ulBase))ROM_UARTTABLE[1])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_UARTFIFOLevelSet \
+ ((void (*)(unsigned long ulBase, \
+ unsigned long ulTxLevel, \
+ unsigned long ulRxLevel))ROM_UARTTABLE[2])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_UARTFIFOLevelGet \
+ ((void (*)(unsigned long ulBase, \
+ unsigned long *pulTxLevel, \
+ unsigned long *pulRxLevel))ROM_UARTTABLE[3])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_UARTConfigSetExpClk \
+ ((void (*)(unsigned long ulBase, \
+ unsigned long ulUARTClk, \
+ unsigned long ulBaud, \
+ unsigned long ulConfig))ROM_UARTTABLE[4])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_UARTConfigGetExpClk \
+ ((void (*)(unsigned long ulBase, \
+ unsigned long ulUARTClk, \
+ unsigned long *pulBaud, \
+ unsigned long *pulConfig))ROM_UARTTABLE[5])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_UARTEnable \
+ ((void (*)(unsigned long ulBase))ROM_UARTTABLE[6])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_UARTDisable \
+ ((void (*)(unsigned long ulBase))ROM_UARTTABLE[7])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_UARTFIFOEnable \
+ ((void (*)(unsigned long ulBase))ROM_UARTTABLE[8])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_UARTFIFODisable \
+ ((void (*)(unsigned long ulBase))ROM_UARTTABLE[9])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_UARTCharsAvail \
+ ((tBoolean (*)(unsigned long ulBase))ROM_UARTTABLE[10])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_UARTSpaceAvail \
+ ((tBoolean (*)(unsigned long ulBase))ROM_UARTTABLE[11])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_UARTCharGetNonBlocking \
+ ((long (*)(unsigned long ulBase))ROM_UARTTABLE[12])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_UARTCharGet \
+ ((long (*)(unsigned long ulBase))ROM_UARTTABLE[13])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_UARTCharPutNonBlocking \
+ ((tBoolean (*)(unsigned long ulBase, \
+ unsigned char ucData))ROM_UARTTABLE[14])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_UARTCharPut \
+ ((void (*)(unsigned long ulBase, \
+ unsigned char ucData))ROM_UARTTABLE[15])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_UARTBreakCtl \
+ ((void (*)(unsigned long ulBase, \
+ tBoolean bBreakState))ROM_UARTTABLE[16])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_UARTBusy \
+ ((tBoolean (*)(unsigned long ulBase))ROM_UARTTABLE[17])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_UARTIntRegister \
+ ((void (*)(unsigned long ulBase, \
+ void(*pfnHandler)(void)))ROM_UARTTABLE[18])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_UARTIntUnregister \
+ ((void (*)(unsigned long ulBase))ROM_UARTTABLE[19])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_UARTIntEnable \
+ ((void (*)(unsigned long ulBase, \
+ unsigned long ulIntFlags))ROM_UARTTABLE[20])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_UARTIntDisable \
+ ((void (*)(unsigned long ulBase, \
+ unsigned long ulIntFlags))ROM_UARTTABLE[21])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_UARTIntStatus \
+ ((unsigned long (*)(unsigned long ulBase, \
+ tBoolean bMasked))ROM_UARTTABLE[22])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_UARTIntClear \
+ ((void (*)(unsigned long ulBase, \
+ unsigned long ulIntFlags))ROM_UARTTABLE[23])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_UARTDMAEnable \
+ ((void (*)(unsigned long ulBase, \
+ unsigned long ulDMAFlags))ROM_UARTTABLE[24])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_UARTDMADisable \
+ ((void (*)(unsigned long ulBase, \
+ unsigned long ulDMAFlags))ROM_UARTTABLE[25])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_UARTRxErrorGet \
+ ((unsigned long (*)(unsigned long ulBase))ROM_UARTTABLE[26])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_UARTRxErrorClear \
+ ((void (*)(unsigned long ulBase))ROM_UARTTABLE[27])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_UARTModemControlSet \
+ ((void (*)(unsigned long ulBase, \
+ unsigned long ulControl))ROM_UARTTABLE[28])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_UARTModemControlClear \
+ ((void (*)(unsigned long ulBase, \
+ unsigned long ulControl))ROM_UARTTABLE[29])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_UARTModemControlGet \
+ ((unsigned long (*)(unsigned long ulBase))ROM_UARTTABLE[30])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_UARTModemStatusGet \
+ ((unsigned long (*)(unsigned long ulBase))ROM_UARTTABLE[31])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_UARTFlowControlSet \
+ ((void (*)(unsigned long ulBase, \
+ unsigned long ulMode))ROM_UARTTABLE[32])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_UARTFlowControlGet \
+ ((unsigned long (*)(unsigned long ulBase))ROM_UARTTABLE[33])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_UARTTxIntModeSet \
+ ((void (*)(unsigned long ulBase, \
+ unsigned long ulMode))ROM_UARTTABLE[34])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_UARTTxIntModeGet \
+ ((unsigned long (*)(unsigned long ulBase))ROM_UARTTABLE[35])
+#endif
+
+//*****************************************************************************
+//
+// Macros for calling ROM functions in the uDMA API.
+//
+//*****************************************************************************
+#if defined(TARGET_IS_CC3200)
+#define ROM_uDMAChannelTransferSet \
+ ((void (*)(unsigned long ulChannelStructIndex, \
+ unsigned long ulMode, \
+ void *pvSrcAddr, \
+ void *pvDstAddr, \
+ unsigned long ulTransferSize))ROM_UDMATABLE[0])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_uDMAEnable \
+ ((void (*)(void))ROM_UDMATABLE[1])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_uDMADisable \
+ ((void (*)(void))ROM_UDMATABLE[2])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_uDMAErrorStatusGet \
+ ((unsigned long (*)(void))ROM_UDMATABLE[3])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_uDMAErrorStatusClear \
+ ((void (*)(void))ROM_UDMATABLE[4])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_uDMAChannelEnable \
+ ((void (*)(unsigned long ulChannelNum))ROM_UDMATABLE[5])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_uDMAChannelDisable \
+ ((void (*)(unsigned long ulChannelNum))ROM_UDMATABLE[6])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_uDMAChannelIsEnabled \
+ ((tBoolean (*)(unsigned long ulChannelNum))ROM_UDMATABLE[7])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_uDMAControlBaseSet \
+ ((void (*)(void *pControlTable))ROM_UDMATABLE[8])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_uDMAControlBaseGet \
+ ((void * (*)(void))ROM_UDMATABLE[9])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_uDMAChannelRequest \
+ ((void (*)(unsigned long ulChannelNum))ROM_UDMATABLE[10])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_uDMAChannelAttributeEnable \
+ ((void (*)(unsigned long ulChannelNum, \
+ unsigned long ulAttr))ROM_UDMATABLE[11])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_uDMAChannelAttributeDisable \
+ ((void (*)(unsigned long ulChannelNum, \
+ unsigned long ulAttr))ROM_UDMATABLE[12])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_uDMAChannelAttributeGet \
+ ((unsigned long (*)(unsigned long ulChannelNum))ROM_UDMATABLE[13])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_uDMAChannelControlSet \
+ ((void (*)(unsigned long ulChannelStructIndex, \
+ unsigned long ulControl))ROM_UDMATABLE[14])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_uDMAChannelSizeGet \
+ ((unsigned long (*)(unsigned long ulChannelStructIndex))ROM_UDMATABLE[15])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_uDMAChannelModeGet \
+ ((unsigned long (*)(unsigned long ulChannelStructIndex))ROM_UDMATABLE[16])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_uDMAIntStatus \
+ ((unsigned long (*)(void))ROM_UDMATABLE[17])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_uDMAIntClear \
+ ((void (*)(unsigned long ulChanMask))ROM_UDMATABLE[18])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_uDMAControlAlternateBaseGet \
+ ((void * (*)(void))ROM_UDMATABLE[19])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_uDMAChannelScatterGatherSet \
+ ((void (*)(unsigned long ulChannelNum, \
+ unsigned ulTaskCount, \
+ void *pvTaskList, \
+ unsigned long ulIsPeriphSG))ROM_UDMATABLE[20])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_uDMAChannelAssign \
+ ((void (*)(unsigned long ulMapping))ROM_UDMATABLE[21])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_uDMAIntRegister \
+ ((void (*)(unsigned long ulIntChannel, \
+ void (*pfnHandler)(void)))ROM_UDMATABLE[22])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_uDMAIntUnregister \
+ ((void (*)(unsigned long ulIntChannel))ROM_UDMATABLE[23])
+#endif
+
+//*****************************************************************************
+//
+// Macros for calling ROM functions in the Watchdog API.
+//
+//*****************************************************************************
+#if defined(TARGET_IS_CC3200)
+#define ROM_WatchdogIntClear \
+ ((void (*)(unsigned long ulBase))ROM_WATCHDOGTABLE[0])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_WatchdogRunning \
+ ((tBoolean (*)(unsigned long ulBase))ROM_WATCHDOGTABLE[1])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_WatchdogEnable \
+ ((void (*)(unsigned long ulBase))ROM_WATCHDOGTABLE[2])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_WatchdogLock \
+ ((void (*)(unsigned long ulBase))ROM_WATCHDOGTABLE[3])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_WatchdogUnlock \
+ ((void (*)(unsigned long ulBase))ROM_WATCHDOGTABLE[4])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_WatchdogLockState \
+ ((tBoolean (*)(unsigned long ulBase))ROM_WATCHDOGTABLE[5])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_WatchdogReloadSet \
+ ((void (*)(unsigned long ulBase, \
+ unsigned long ulLoadVal))ROM_WATCHDOGTABLE[6])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_WatchdogReloadGet \
+ ((unsigned long (*)(unsigned long ulBase))ROM_WATCHDOGTABLE[7])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_WatchdogValueGet \
+ ((unsigned long (*)(unsigned long ulBase))ROM_WATCHDOGTABLE[8])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_WatchdogIntStatus \
+ ((unsigned long (*)(unsigned long ulBase, \
+ tBoolean bMasked))ROM_WATCHDOGTABLE[10])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_WatchdogStallEnable \
+ ((void (*)(unsigned long ulBase))ROM_WATCHDOGTABLE[11])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_WatchdogStallDisable \
+ ((void (*)(unsigned long ulBase))ROM_WATCHDOGTABLE[12])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_WatchdogIntRegister \
+ ((void (*)(unsigned long ulBase, \
+ void(*pfnHandler)(void)))ROM_WATCHDOGTABLE[13])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_WatchdogIntUnregister \
+ ((void (*)(unsigned long ulBase))ROM_WATCHDOGTABLE[14])
+#endif
+
+//*****************************************************************************
+//
+// Macros for calling ROM functions in the I2C API.
+//
+//*****************************************************************************
+#if defined(TARGET_IS_CC3200)
+#define ROM_I2CIntRegister \
+ ((void (*)(uint32_t ui32Base, \
+ void(pfnHandler)(void)))ROM_I2CTABLE[0])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_I2CIntUnregister \
+ ((void (*)(uint32_t ui32Base))ROM_I2CTABLE[1])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_I2CTxFIFOConfigSet \
+ ((void (*)(uint32_t ui32Base, \
+ uint32_t ui32Config))ROM_I2CTABLE[2])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_I2CTxFIFOFlush \
+ ((void (*)(uint32_t ui32Base))ROM_I2CTABLE[3])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_I2CRxFIFOConfigSet \
+ ((void (*)(uint32_t ui32Base, \
+ uint32_t ui32Config))ROM_I2CTABLE[4])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_I2CRxFIFOFlush \
+ ((void (*)(uint32_t ui32Base))ROM_I2CTABLE[5])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_I2CFIFOStatus \
+ ((uint32_t (*)(uint32_t ui32Base))ROM_I2CTABLE[6])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_I2CFIFODataPut \
+ ((void (*)(uint32_t ui32Base, \
+ uint8_t ui8Data))ROM_I2CTABLE[7])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_I2CFIFODataPutNonBlocking \
+ ((uint32_t (*)(uint32_t ui32Base, \
+ uint8_t ui8Data))ROM_I2CTABLE[8])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_I2CFIFODataGet \
+ ((uint32_t (*)(uint32_t ui32Base))ROM_I2CTABLE[9])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_I2CFIFODataGetNonBlocking \
+ ((uint32_t (*)(uint32_t ui32Base, \
+ uint8_t *pui8Data))ROM_I2CTABLE[10])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_I2CMasterBurstLengthSet \
+ ((void (*)(uint32_t ui32Base, \
+ uint8_t ui8Length))ROM_I2CTABLE[11])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_I2CMasterBurstCountGet \
+ ((uint32_t (*)(uint32_t ui32Base))ROM_I2CTABLE[12])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_I2CMasterGlitchFilterConfigSet \
+ ((void (*)(uint32_t ui32Base, \
+ uint32_t ui32Config))ROM_I2CTABLE[13])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_I2CSlaveFIFOEnable \
+ ((void (*)(uint32_t ui32Base, \
+ uint32_t ui32Config))ROM_I2CTABLE[14])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_I2CSlaveFIFODisable \
+ ((void (*)(uint32_t ui32Base))ROM_I2CTABLE[15])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_I2CMasterBusBusy \
+ ((bool (*)(uint32_t ui32Base))ROM_I2CTABLE[16])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_I2CMasterBusy \
+ ((bool (*)(uint32_t ui32Base))ROM_I2CTABLE[17])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_I2CMasterControl \
+ ((void (*)(uint32_t ui32Base, \
+ uint32_t ui32Cmd))ROM_I2CTABLE[18])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_I2CMasterDataGet \
+ ((uint32_t (*)(uint32_t ui32Base))ROM_I2CTABLE[19])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_I2CMasterDataPut \
+ ((void (*)(uint32_t ui32Base, \
+ uint8_t ui8Data))ROM_I2CTABLE[20])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_I2CMasterDisable \
+ ((void (*)(uint32_t ui32Base))ROM_I2CTABLE[21])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_I2CMasterEnable \
+ ((void (*)(uint32_t ui32Base))ROM_I2CTABLE[22])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_I2CMasterErr \
+ ((uint32_t (*)(uint32_t ui32Base))ROM_I2CTABLE[23])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_I2CMasterIntClear \
+ ((void (*)(uint32_t ui32Base))ROM_I2CTABLE[24])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_I2CMasterIntDisable \
+ ((void (*)(uint32_t ui32Base))ROM_I2CTABLE[25])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_I2CMasterIntEnable \
+ ((void (*)(uint32_t ui32Base))ROM_I2CTABLE[26])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_I2CMasterIntStatus \
+ ((bool (*)(uint32_t ui32Base, \
+ bool bMasked))ROM_I2CTABLE[27])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_I2CMasterIntEnableEx \
+ ((void (*)(uint32_t ui32Base, \
+ uint32_t ui32IntFlags))ROM_I2CTABLE[28])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_I2CMasterIntDisableEx \
+ ((void (*)(uint32_t ui32Base, \
+ uint32_t ui32IntFlags))ROM_I2CTABLE[29])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_I2CMasterIntStatusEx \
+ ((uint32_t (*)(uint32_t ui32Base, \
+ bool bMasked))ROM_I2CTABLE[30])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_I2CMasterIntClearEx \
+ ((void (*)(uint32_t ui32Base, \
+ uint32_t ui32IntFlags))ROM_I2CTABLE[31])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_I2CMasterTimeoutSet \
+ ((void (*)(uint32_t ui32Base, \
+ uint32_t ui32Value))ROM_I2CTABLE[32])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_I2CSlaveACKOverride \
+ ((void (*)(uint32_t ui32Base, \
+ bool bEnable))ROM_I2CTABLE[33])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_I2CSlaveACKValueSet \
+ ((void (*)(uint32_t ui32Base, \
+ bool bACK))ROM_I2CTABLE[34])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_I2CMasterLineStateGet \
+ ((uint32_t (*)(uint32_t ui32Base))ROM_I2CTABLE[35])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_I2CMasterSlaveAddrSet \
+ ((void (*)(uint32_t ui32Base, \
+ uint8_t ui8SlaveAddr, \
+ bool bReceive))ROM_I2CTABLE[36])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_I2CSlaveDataGet \
+ ((uint32_t (*)(uint32_t ui32Base))ROM_I2CTABLE[37])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_I2CSlaveDataPut \
+ ((void (*)(uint32_t ui32Base, \
+ uint8_t ui8Data))ROM_I2CTABLE[38])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_I2CSlaveDisable \
+ ((void (*)(uint32_t ui32Base))ROM_I2CTABLE[39])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_I2CSlaveEnable \
+ ((void (*)(uint32_t ui32Base))ROM_I2CTABLE[40])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_I2CSlaveInit \
+ ((void (*)(uint32_t ui32Base, \
+ uint8_t ui8SlaveAddr))ROM_I2CTABLE[41])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_I2CSlaveAddressSet \
+ ((void (*)(uint32_t ui32Base, \
+ uint8_t ui8AddrNum, \
+ uint8_t ui8SlaveAddr))ROM_I2CTABLE[42])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_I2CSlaveIntClear \
+ ((void (*)(uint32_t ui32Base))ROM_I2CTABLE[43])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_I2CSlaveIntDisable \
+ ((void (*)(uint32_t ui32Base))ROM_I2CTABLE[44])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_I2CSlaveIntEnable \
+ ((void (*)(uint32_t ui32Base))ROM_I2CTABLE[45])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_I2CSlaveIntClearEx \
+ ((void (*)(uint32_t ui32Base, \
+ uint32_t ui32IntFlags))ROM_I2CTABLE[46])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_I2CSlaveIntDisableEx \
+ ((void (*)(uint32_t ui32Base, \
+ uint32_t ui32IntFlags))ROM_I2CTABLE[47])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_I2CSlaveIntEnableEx \
+ ((void (*)(uint32_t ui32Base, \
+ uint32_t ui32IntFlags))ROM_I2CTABLE[48])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_I2CSlaveIntStatus \
+ ((bool (*)(uint32_t ui32Base, \
+ bool bMasked))ROM_I2CTABLE[49])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_I2CSlaveIntStatusEx \
+ ((uint32_t (*)(uint32_t ui32Base, \
+ bool bMasked))ROM_I2CTABLE[50])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_I2CSlaveStatus \
+ ((uint32_t (*)(uint32_t ui32Base))ROM_I2CTABLE[51])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_I2CMasterInitExpClk \
+ ((void (*)(uint32_t ui32Base, \
+ uint32_t ui32I2CClk, \
+ bool bFast))ROM_I2CTABLE[52])
+#endif
+
+//*****************************************************************************
+//
+// Macros for calling ROM functions in the SPI API.
+//
+//*****************************************************************************
+#if defined(TARGET_IS_CC3200)
+#define ROM_SPIEnable \
+ ((void (*)(unsigned long ulBase))ROM_SPITABLE[0])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_SPIDisable \
+ ((void (*)(unsigned long ulBase))ROM_SPITABLE[1])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_SPIReset \
+ ((void (*)(unsigned long ulBase))ROM_SPITABLE[2])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_SPIConfigSetExpClk \
+ ((void (*)(unsigned long ulBase, \
+ unsigned long ulSPIClk, \
+ unsigned long ulBitRate, \
+ unsigned long ulMode, \
+ unsigned long ulSubMode, \
+ unsigned long ulConfig))ROM_SPITABLE[3])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_SPIDataGetNonBlocking \
+ ((long (*)(unsigned long ulBase, \
+ unsigned long * pulData))ROM_SPITABLE[4])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_SPIDataGet \
+ ((void (*)(unsigned long ulBase, \
+ unsigned long *pulData))ROM_SPITABLE[5])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_SPIDataPutNonBlocking \
+ ((long (*)(unsigned long ulBase, \
+ unsigned long ulData))ROM_SPITABLE[6])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_SPIDataPut \
+ ((void (*)(unsigned long ulBase, \
+ unsigned long ulData))ROM_SPITABLE[7])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_SPIFIFOEnable \
+ ((void (*)(unsigned long ulBase, \
+ unsigned long ulFlags))ROM_SPITABLE[8])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_SPIFIFODisable \
+ ((void (*)(unsigned long ulBase, \
+ unsigned long ulFlags))ROM_SPITABLE[9])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_SPIFIFOLevelSet \
+ ((void (*)(unsigned long ulBase, \
+ unsigned long ulTxLevel, \
+ unsigned long ulRxLevel))ROM_SPITABLE[10])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_SPIFIFOLevelGet \
+ ((void (*)(unsigned long ulBase, \
+ unsigned long *pulTxLevel, \
+ unsigned long *pulRxLevel))ROM_SPITABLE[11])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_SPIWordCountSet \
+ ((void (*)(unsigned long ulBase, \
+ unsigned long ulWordCount))ROM_SPITABLE[12])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_SPIIntRegister \
+ ((void (*)(unsigned long ulBase, \
+ void(*pfnHandler)(void)))ROM_SPITABLE[13])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_SPIIntUnregister \
+ ((void (*)(unsigned long ulBase))ROM_SPITABLE[14])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_SPIIntEnable \
+ ((void (*)(unsigned long ulBase, \
+ unsigned long ulIntFlags))ROM_SPITABLE[15])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_SPIIntDisable \
+ ((void (*)(unsigned long ulBase, \
+ unsigned long ulIntFlags))ROM_SPITABLE[16])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_SPIIntStatus \
+ ((unsigned long (*)(unsigned long ulBase, \
+ tBoolean bMasked))ROM_SPITABLE[17])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_SPIIntClear \
+ ((void (*)(unsigned long ulBase, \
+ unsigned long ulIntFlags))ROM_SPITABLE[18])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_SPIDmaEnable \
+ ((void (*)(unsigned long ulBase, \
+ unsigned long ulFlags))ROM_SPITABLE[19])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_SPIDmaDisable \
+ ((void (*)(unsigned long ulBase, \
+ unsigned long ulFlags))ROM_SPITABLE[20])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_SPICSEnable \
+ ((void (*)(unsigned long ulBase))ROM_SPITABLE[21])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_SPICSDisable \
+ ((void (*)(unsigned long ulBase))ROM_SPITABLE[22])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_SPITransfer \
+ ((long (*)(unsigned long ulBase, \
+ unsigned char *ucDout, \
+ unsigned char *ucDin, \
+ unsigned long ulSize, \
+ unsigned long ulFlags))ROM_SPITABLE[23])
+#endif
+
+//*****************************************************************************
+//
+// Macros for calling ROM functions in the CAM API.
+//
+//*****************************************************************************
+#if defined(TARGET_IS_CC3200)
+#define ROM_CameraReset \
+ ((void (*)(unsigned long ulBase))ROM_CAMERATABLE[0])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_CameraParamsConfig \
+ ((void (*)(unsigned long ulBase, \
+ unsigned long ulHSPol, \
+ unsigned long ulVSPol, \
+ unsigned long ulFlags))ROM_CAMERATABLE[1])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_CameraXClkConfig \
+ ((void (*)(unsigned long ulBase, \
+ unsigned long ulCamClkIn, \
+ unsigned long ulXClk))ROM_CAMERATABLE[2])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_CameraXClkSet \
+ ((void (*)(unsigned long ulBase, \
+ unsigned char bXClkFlags))ROM_CAMERATABLE[3])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_CameraDMAEnable \
+ ((void (*)(unsigned long ulBase))ROM_CAMERATABLE[4])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_CameraDMADisable \
+ ((void (*)(unsigned long ulBase))ROM_CAMERATABLE[5])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_CameraThresholdSet \
+ ((void (*)(unsigned long ulBase, \
+ unsigned long ulThreshold))ROM_CAMERATABLE[6])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_CameraIntRegister \
+ ((void (*)(unsigned long ulBase, \
+ void (*pfnHandler)(void)))ROM_CAMERATABLE[7])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_CameraIntUnregister \
+ ((void (*)(unsigned long ulBase))ROM_CAMERATABLE[8])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_CameraIntEnable \
+ ((void (*)(unsigned long ulBase, \
+ unsigned long ulIntFlags))ROM_CAMERATABLE[9])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_CameraIntDisable \
+ ((void (*)(unsigned long ulBase, \
+ unsigned long ulIntFlags))ROM_CAMERATABLE[10])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_CameraIntStatus \
+ ((unsigned long (*)(unsigned long ulBase))ROM_CAMERATABLE[11])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_CameraIntClear \
+ ((void (*)(unsigned long ulBase, \
+ unsigned long ulIntFlags))ROM_CAMERATABLE[12])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_CameraCaptureStop \
+ ((void (*)(unsigned long ulBase, \
+ tBoolean bImmediate))ROM_CAMERATABLE[13])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_CameraCaptureStart \
+ ((void (*)(unsigned long ulBase))ROM_CAMERATABLE[14])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_CameraBufferRead \
+ ((void (*)(unsigned long ulBase, \
+ unsigned long *pBuffer, \
+ unsigned char ucSize))ROM_CAMERATABLE[15])
+#endif
+
+//*****************************************************************************
+//
+// Macros for calling ROM functions in the FLASH API.
+//
+//*****************************************************************************
+#if defined(TARGET_IS_CC3200)
+#define ROM_FlashDisable \
+ ((void (*)(void))ROM_FLASHTABLE[0])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_FlashErase \
+ ((long (*)(unsigned long ulAddress))ROM_FLASHTABLE[1])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_FlashMassErase \
+ ((long (*)(void))ROM_FLASHTABLE[2])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_FlashMassEraseNonBlocking \
+ ((void (*)(void))ROM_FLASHTABLE[3])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_FlashEraseNonBlocking \
+ ((void (*)(unsigned long ulAddress))ROM_FLASHTABLE[4])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_FlashProgram \
+ ((long (*)(unsigned long *pulData, \
+ unsigned long ulAddress, \
+ unsigned long ulCount))ROM_FLASHTABLE[5])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_FlashProgramNonBlocking \
+ ((long (*)(unsigned long *pulData, \
+ unsigned long ulAddress, \
+ unsigned long ulCount))ROM_FLASHTABLE[6])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_FlashIntRegister \
+ ((void (*)(void (*pfnHandler)(void)))ROM_FLASHTABLE[7])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_FlashIntUnregister \
+ ((void (*)(void))ROM_FLASHTABLE[8])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_FlashIntEnable \
+ ((void (*)(unsigned long ulIntFlags))ROM_FLASHTABLE[9])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_FlashIntDisable \
+ ((void (*)(unsigned long ulIntFlags))ROM_FLASHTABLE[10])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_FlashIntStatus \
+ ((unsigned long (*)(tBoolean bMasked))ROM_FLASHTABLE[11])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_FlashIntClear \
+ ((void (*)(unsigned long ulIntFlags))ROM_FLASHTABLE[12])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_FlashProtectGet \
+ ((tFlashProtection (*)(unsigned long ulAddress))ROM_FLASHTABLE[13])
+#endif
+
+//*****************************************************************************
+//
+// Macros for calling ROM functions in the Pin API.
+//
+//*****************************************************************************
+#if defined(TARGET_IS_CC3200)
+#define ROM_PinModeSet \
+ ((void (*)(unsigned long ulPin, \
+ unsigned long ulPinMode))ROM_PINTABLE[0])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_PinDirModeSet \
+ ((void (*)(unsigned long ulPin, \
+ unsigned long ulPinIO))ROM_PINTABLE[1])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_PinDirModeGet \
+ ((unsigned long (*)(unsigned long ulPin))ROM_PINTABLE[2])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_PinModeGet \
+ ((unsigned long (*)(unsigned long ulPin))ROM_PINTABLE[3])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_PinConfigGet \
+ ((void (*)(unsigned long ulPin, \
+ unsigned long *pulPinStrength, \
+ unsigned long *pulPinType))ROM_PINTABLE[4])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_PinConfigSet \
+ ((void (*)(unsigned long ulPin, \
+ unsigned long ulPinStrength, \
+ unsigned long ulPinType))ROM_PINTABLE[5])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_PinTypeUART \
+ ((void (*)(unsigned long ulPin, \
+ unsigned long ulPinMode))ROM_PINTABLE[6])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_PinTypeI2C \
+ ((void (*)(unsigned long ulPin, \
+ unsigned long ulPinMode))ROM_PINTABLE[7])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_PinTypeSPI \
+ ((void (*)(unsigned long ulPin, \
+ unsigned long ulPinMode))ROM_PINTABLE[8])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_PinTypeI2S \
+ ((void (*)(unsigned long ulPin, \
+ unsigned long ulPinMode))ROM_PINTABLE[9])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_PinTypeTimer \
+ ((void (*)(unsigned long ulPin, \
+ unsigned long ulPinMode))ROM_PINTABLE[10])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_PinTypeCamera \
+ ((void (*)(unsigned long ulPin, \
+ unsigned long ulPinMode))ROM_PINTABLE[11])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_PinTypeGPIO \
+ ((void (*)(unsigned long ulPin, \
+ unsigned long ulPinMode, \
+ tBoolean bOpenDrain))ROM_PINTABLE[12])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_PinTypeADC \
+ ((void (*)(unsigned long ulPin, \
+ unsigned long ulPinMode))ROM_PINTABLE[13])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_PinTypeSDHost \
+ ((void (*)(unsigned long ulPin, \
+ unsigned long ulPinMode))ROM_PINTABLE[14])
+#endif
+
+//*****************************************************************************
+//
+// Macros for calling ROM functions in the SYSTICK API.
+//
+//*****************************************************************************
+#if defined(TARGET_IS_CC3200)
+#define ROM_SysTickEnable \
+ ((void (*)(void))ROM_SYSTICKTABLE[0])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_SysTickDisable \
+ ((void (*)(void))ROM_SYSTICKTABLE[1])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_SysTickIntRegister \
+ ((void (*)(void (*pfnHandler)(void)))ROM_SYSTICKTABLE[2])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_SysTickIntUnregister \
+ ((void (*)(void))ROM_SYSTICKTABLE[3])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_SysTickIntEnable \
+ ((void (*)(void))ROM_SYSTICKTABLE[4])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_SysTickIntDisable \
+ ((void (*)(void))ROM_SYSTICKTABLE[5])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_SysTickPeriodSet \
+ ((void (*)(unsigned long ulPeriod))ROM_SYSTICKTABLE[6])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_SysTickPeriodGet \
+ ((unsigned long (*)(void))ROM_SYSTICKTABLE[7])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_SysTickValueGet \
+ ((unsigned long (*)(void))ROM_SYSTICKTABLE[8])
+#endif
+
+//*****************************************************************************
+//
+// Macros for calling ROM functions in the UTILS API.
+//
+//*****************************************************************************
+#if defined(TARGET_IS_CC3200)
+#define ROM_UtilsDelay \
+ ((void (*)(unsigned long ulCount))ROM_UTILSTABLE[0])
+#endif
+
+//*****************************************************************************
+//
+// Macros for calling ROM functions in the I2S API.
+//
+//*****************************************************************************
+#if defined(TARGET_IS_CC3200)
+#define ROM_I2SEnable \
+ ((void (*)(unsigned long ulBase, \
+ unsigned long ulMode))ROM_I2STABLE[0])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_I2SDisable \
+ ((void (*)(unsigned long ulBase))ROM_I2STABLE[1])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_I2SDataPut \
+ ((void (*)(unsigned long ulBase, \
+ unsigned long ulDataLine, \
+ unsigned long ulData))ROM_I2STABLE[2])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_I2SDataPutNonBlocking \
+ ((long (*)(unsigned long ulBase, \
+ unsigned long ulDataLine, \
+ unsigned long ulData))ROM_I2STABLE[3])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_I2SDataGet \
+ ((void (*)(unsigned long ulBase, \
+ unsigned long ulDataLine, \
+ unsigned long *pulData))ROM_I2STABLE[4])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_I2SDataGetNonBlocking \
+ ((long (*)(unsigned long ulBase, \
+ unsigned long ulDataLine, \
+ unsigned long *pulData))ROM_I2STABLE[5])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_I2SConfigSetExpClk \
+ ((void (*)(unsigned long ulBase, \
+ unsigned long ulI2SClk, \
+ unsigned long ulBitClk, \
+ unsigned long ulConfig))ROM_I2STABLE[6])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_I2STxFIFOEnable \
+ ((void (*)(unsigned long ulBase, \
+ unsigned long ulTxLevel, \
+ unsigned long ulWordsPerTransfer))ROM_I2STABLE[7])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_I2STxFIFODisable \
+ ((void (*)(unsigned long ulBase))ROM_I2STABLE[8])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_I2SRxFIFOEnable \
+ ((void (*)(unsigned long ulBase, \
+ unsigned long ulRxLevel, \
+ unsigned long ulWordsPerTransfer))ROM_I2STABLE[9])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_I2SRxFIFODisable \
+ ((void (*)(unsigned long ulBase))ROM_I2STABLE[10])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_I2STxFIFOStatusGet \
+ ((unsigned long (*)(unsigned long ulBase))ROM_I2STABLE[11])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_I2SRxFIFOStatusGet \
+ ((unsigned long (*)(unsigned long ulBase))ROM_I2STABLE[12])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_I2SSerializerConfig \
+ ((void (*)(unsigned long ulBase, \
+ unsigned long ulDataLine, \
+ unsigned long ulSerMode, \
+ unsigned long ulInActState))ROM_I2STABLE[13])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_I2SIntEnable \
+ ((void (*)(unsigned long ulBase, \
+ unsigned long ulIntFlags))ROM_I2STABLE[14])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_I2SIntDisable \
+ ((void (*)(unsigned long ulBase, \
+ unsigned long ulIntFlags))ROM_I2STABLE[15])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_I2SIntStatus \
+ ((unsigned long (*)(unsigned long ulBase))ROM_I2STABLE[16])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_I2SIntClear \
+ ((void (*)(unsigned long ulBase, \
+ unsigned long ulIntFlags))ROM_I2STABLE[17])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_I2SIntRegister \
+ ((void (*)(unsigned long ulBase, \
+ void (*pfnHandler)(void)))ROM_I2STABLE[18])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_I2SIntUnregister \
+ ((void (*)(unsigned long ulBase))ROM_I2STABLE[19])
+#endif
+
+//*****************************************************************************
+//
+// Macros for calling ROM functions in the GPIO API.
+//
+//*****************************************************************************
+#if defined(TARGET_IS_CC3200)
+#define ROM_GPIODirModeSet \
+ ((void (*)(unsigned long ulPort, \
+ unsigned char ucPins, \
+ unsigned long ulPinIO))ROM_GPIOTABLE[0])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_GPIODirModeGet \
+ ((unsigned long (*)(unsigned long ulPort, \
+ unsigned char ucPin))ROM_GPIOTABLE[1])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_GPIOIntTypeSet \
+ ((void (*)(unsigned long ulPort, \
+ unsigned char ucPins, \
+ unsigned long ulIntType))ROM_GPIOTABLE[2])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_GPIODMATriggerEnable \
+ ((void (*)(unsigned long ulPort))ROM_GPIOTABLE[3])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_GPIODMATriggerDisable \
+ ((void (*)(unsigned long ulPort))ROM_GPIOTABLE[4])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_GPIOIntTypeGet \
+ ((unsigned long (*)(unsigned long ulPort, \
+ unsigned char ucPin))ROM_GPIOTABLE[5])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_GPIOIntEnable \
+ ((void (*)(unsigned long ulPort, \
+ unsigned long ulIntFlags))ROM_GPIOTABLE[6])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_GPIOIntDisable \
+ ((void (*)(unsigned long ulPort, \
+ unsigned long ulIntFlags))ROM_GPIOTABLE[7])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_GPIOIntStatus \
+ ((long (*)(unsigned long ulPort, \
+ tBoolean bMasked))ROM_GPIOTABLE[8])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_GPIOIntClear \
+ ((void (*)(unsigned long ulPort, \
+ unsigned long ulIntFlags))ROM_GPIOTABLE[9])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_GPIOIntRegister \
+ ((void (*)(unsigned long ulPort, \
+ void (*pfnIntHandler)(void)))ROM_GPIOTABLE[10])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_GPIOIntUnregister \
+ ((void (*)(unsigned long ulPort))ROM_GPIOTABLE[11])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_GPIOPinRead \
+ ((long (*)(unsigned long ulPort, \
+ unsigned char ucPins))ROM_GPIOTABLE[12])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_GPIOPinWrite \
+ ((void (*)(unsigned long ulPort, \
+ unsigned char ucPins, \
+ unsigned char ucVal))ROM_GPIOTABLE[13])
+#endif
+
+//*****************************************************************************
+//
+// Macros for calling ROM functions in the AES API.
+//
+//*****************************************************************************
+#if defined(TARGET_IS_CC3200)
+#define ROM_AESConfigSet \
+ ((void (*)(uint32_t ui32Base, \
+ uint32_t ui32Config))ROM_AESTABLE[0])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_AESKey1Set \
+ ((void (*)(uint32_t ui32Base, \
+ uint8_t *pui8Key, \
+ uint32_t ui32Keysize))ROM_AESTABLE[1])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_AESKey2Set \
+ ((void (*)(uint32_t ui32Base, \
+ uint8_t *pui8Key, \
+ uint32_t ui32Keysize))ROM_AESTABLE[2])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_AESKey3Set \
+ ((void (*)(uint32_t ui32Base, \
+ uint8_t *pui8Key))ROM_AESTABLE[3])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_AESIVSet \
+ ((void (*)(uint32_t ui32Base, \
+ uint8_t *pui8IVdata))ROM_AESTABLE[4])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_AESTagRead \
+ ((void (*)(uint32_t ui32Base, \
+ uint8_t *pui8TagData))ROM_AESTABLE[5])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_AESDataLengthSet \
+ ((void (*)(uint32_t ui32Base, \
+ uint64_t ui64Length))ROM_AESTABLE[6])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_AESAuthDataLengthSet \
+ ((void (*)(uint32_t ui32Base, \
+ uint32_t ui32Length))ROM_AESTABLE[7])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_AESDataReadNonBlocking \
+ ((bool (*)(uint32_t ui32Base, \
+ uint8_t *pui8Dest, \
+ uint8_t ui8Length))ROM_AESTABLE[8])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_AESDataRead \
+ ((void (*)(uint32_t ui32Base, \
+ uint8_t *pui8Dest, \
+ uint8_t ui8Length))ROM_AESTABLE[9])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_AESDataWriteNonBlocking \
+ ((bool (*)(uint32_t ui32Base, \
+ uint8_t *pui8Src, \
+ uint8_t ui8Length))ROM_AESTABLE[10])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_AESDataWrite \
+ ((void (*)(uint32_t ui32Base, \
+ uint8_t *pui8Src, \
+ uint8_t ui8Length))ROM_AESTABLE[11])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_AESDataProcess \
+ ((bool (*)(uint32_t ui32Base, \
+ uint8_t *pui8Src, \
+ uint8_t *pui8Dest, \
+ uint32_t ui32Length))ROM_AESTABLE[12])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_AESDataMAC \
+ ((bool (*)(uint32_t ui32Base, \
+ uint8_t *pui8Src, \
+ uint32_t ui32Length, \
+ uint8_t *pui8Tag))ROM_AESTABLE[13])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_AESDataProcessAE \
+ ((bool (*)(uint32_t ui32Base, \
+ uint8_t *pui8Src, \
+ uint8_t *pui8Dest, \
+ uint32_t ui32Length, \
+ uint8_t *pui8AuthSrc, \
+ uint32_t ui32AuthLength, \
+ uint8_t *pui8Tag))ROM_AESTABLE[14])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_AESIntStatus \
+ ((uint32_t (*)(uint32_t ui32Base, \
+ bool bMasked))ROM_AESTABLE[15])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_AESIntEnable \
+ ((void (*)(uint32_t ui32Base, \
+ uint32_t ui32IntFlags))ROM_AESTABLE[16])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_AESIntDisable \
+ ((void (*)(uint32_t ui32Base, \
+ uint32_t ui32IntFlags))ROM_AESTABLE[17])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_AESIntClear \
+ ((void (*)(uint32_t ui32Base, \
+ uint32_t ui32IntFlags))ROM_AESTABLE[18])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_AESIntRegister \
+ ((void (*)(uint32_t ui32Base, \
+ void(*pfnHandler)(void)))ROM_AESTABLE[19])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_AESIntUnregister \
+ ((void (*)(uint32_t ui32Base))ROM_AESTABLE[20])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_AESDMAEnable \
+ ((void (*)(uint32_t ui32Base, \
+ uint32_t ui32Flags))ROM_AESTABLE[21])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_AESDMADisable \
+ ((void (*)(uint32_t ui32Base, \
+ uint32_t ui32Flags))ROM_AESTABLE[22])
+#endif
+
+//*****************************************************************************
+//
+// Macros for calling ROM functions in the DES API.
+//
+//*****************************************************************************
+#if defined(TARGET_IS_CC3200)
+#define ROM_DESConfigSet \
+ ((void (*)(uint32_t ui32Base, \
+ uint32_t ui32Config))ROM_DESTABLE[0])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_DESDataRead \
+ ((void (*)(uint32_t ui32Base, \
+ uint8_t *pui8Dest, \
+ uint8_t ui8Length))ROM_DESTABLE[1])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_DESDataReadNonBlocking \
+ ((bool (*)(uint32_t ui32Base, \
+ uint8_t *pui8Dest, \
+ uint8_t ui8Length))ROM_DESTABLE[2])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_DESDataProcess \
+ ((bool (*)(uint32_t ui32Base, \
+ uint8_t *pui8Src, \
+ uint8_t *pui8Dest, \
+ uint32_t ui32Length))ROM_DESTABLE[3])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_DESDataWrite \
+ ((void (*)(uint32_t ui32Base, \
+ uint8_t *pui8Src, \
+ uint8_t ui8Length))ROM_DESTABLE[4])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_DESDataWriteNonBlocking \
+ ((bool (*)(uint32_t ui32Base, \
+ uint8_t *pui8Src, \
+ uint8_t ui8Length))ROM_DESTABLE[5])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_DESDMADisable \
+ ((void (*)(uint32_t ui32Base, \
+ uint32_t ui32Flags))ROM_DESTABLE[6])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_DESDMAEnable \
+ ((void (*)(uint32_t ui32Base, \
+ uint32_t ui32Flags))ROM_DESTABLE[7])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_DESIntClear \
+ ((void (*)(uint32_t ui32Base, \
+ uint32_t ui32IntFlags))ROM_DESTABLE[8])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_DESIntDisable \
+ ((void (*)(uint32_t ui32Base, \
+ uint32_t ui32IntFlags))ROM_DESTABLE[9])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_DESIntEnable \
+ ((void (*)(uint32_t ui32Base, \
+ uint32_t ui32IntFlags))ROM_DESTABLE[10])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_DESIntRegister \
+ ((void (*)(uint32_t ui32Base, \
+ void(*pfnHandler)(void)))ROM_DESTABLE[11])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_DESIntStatus \
+ ((uint32_t (*)(uint32_t ui32Base, \
+ bool bMasked))ROM_DESTABLE[12])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_DESIntUnregister \
+ ((void (*)(uint32_t ui32Base))ROM_DESTABLE[13])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_DESIVSet \
+ ((bool (*)(uint32_t ui32Base, \
+ uint8_t *pui8IVdata))ROM_DESTABLE[14])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_DESKeySet \
+ ((void (*)(uint32_t ui32Base, \
+ uint8_t *pui8Key))ROM_DESTABLE[15])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_DESDataLengthSet \
+ ((void (*)(uint32_t ui32Base, \
+ uint32_t ui32Length))ROM_DESTABLE[16])
+#endif
+
+//*****************************************************************************
+//
+// Macros for calling ROM functions in the SHAMD5 API.
+//
+//*****************************************************************************
+#if defined(TARGET_IS_CC3200)
+#define ROM_SHAMD5ConfigSet \
+ ((void (*)(uint32_t ui32Base, \
+ uint32_t ui32Mode))ROM_SHAMD5TABLE[0])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_SHAMD5DataProcess \
+ ((bool (*)(uint32_t ui32Base, \
+ uint8_t *pui8DataSrc, \
+ uint32_t ui32DataLength, \
+ uint8_t *pui8HashResult))ROM_SHAMD5TABLE[1])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_SHAMD5DataWrite \
+ ((void (*)(uint32_t ui32Base, \
+ uint8_t *pui8Src))ROM_SHAMD5TABLE[2])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_SHAMD5DataWriteNonBlocking \
+ ((bool (*)(uint32_t ui32Base, \
+ uint8_t *pui8Src))ROM_SHAMD5TABLE[3])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_SHAMD5DMADisable \
+ ((void (*)(uint32_t ui32Base))ROM_SHAMD5TABLE[4])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_SHAMD5DMAEnable \
+ ((void (*)(uint32_t ui32Base))ROM_SHAMD5TABLE[5])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_SHAMD5DataLengthSet \
+ ((void (*)(uint32_t ui32Base, \
+ uint32_t ui32Length))ROM_SHAMD5TABLE[6])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_SHAMD5HMACKeySet \
+ ((void (*)(uint32_t ui32Base, \
+ uint8_t *pui8Src))ROM_SHAMD5TABLE[7])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_SHAMD5HMACPPKeyGenerate \
+ ((void (*)(uint32_t ui32Base, \
+ uint8_t *pui8Key, \
+ uint8_t *pui8PPKey))ROM_SHAMD5TABLE[8])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_SHAMD5HMACPPKeySet \
+ ((void (*)(uint32_t ui32Base, \
+ uint8_t *pui8Src))ROM_SHAMD5TABLE[9])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_SHAMD5HMACProcess \
+ ((bool (*)(uint32_t ui32Base, \
+ uint8_t *pui8DataSrc, \
+ uint32_t ui32DataLength, \
+ uint8_t *pui8HashResult))ROM_SHAMD5TABLE[10])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_SHAMD5IntClear \
+ ((void (*)(uint32_t ui32Base, \
+ uint32_t ui32IntFlags))ROM_SHAMD5TABLE[11])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_SHAMD5IntDisable \
+ ((void (*)(uint32_t ui32Base, \
+ uint32_t ui32IntFlags))ROM_SHAMD5TABLE[12])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_SHAMD5IntEnable \
+ ((void (*)(uint32_t ui32Base, \
+ uint32_t ui32IntFlags))ROM_SHAMD5TABLE[13])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_SHAMD5IntRegister \
+ ((void (*)(uint32_t ui32Base, \
+ void(*pfnHandler)(void)))ROM_SHAMD5TABLE[14])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_SHAMD5IntStatus \
+ ((uint32_t (*)(uint32_t ui32Base, \
+ bool bMasked))ROM_SHAMD5TABLE[15])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_SHAMD5IntUnregister \
+ ((void (*)(uint32_t ui32Base))ROM_SHAMD5TABLE[16])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_SHAMD5ResultRead \
+ ((void (*)(uint32_t ui32Base, \
+ uint8_t *pui8Dest))ROM_SHAMD5TABLE[17])
+#endif
+
+//*****************************************************************************
+//
+// Macros for calling ROM functions in the CRC API.
+//
+//*****************************************************************************
+#if defined(TARGET_IS_CC3200)
+#define ROM_CRCConfigSet \
+ ((void (*)(uint32_t ui32Base, \
+ uint32_t ui32CRCConfig))ROM_CRCTABLE[0])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_CRCDataProcess \
+ ((uint32_t (*)(uint32_t ui32Base, \
+ void *puiDataIn, \
+ uint32_t ui32DataLength, \
+ uint32_t ui32Config))ROM_CRCTABLE[1])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_CRCDataWrite \
+ ((void (*)(uint32_t ui32Base, \
+ uint32_t ui32Data))ROM_CRCTABLE[2])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_CRCResultRead \
+ ((uint32_t (*)(uint32_t ui32Base))ROM_CRCTABLE[3])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_CRCSeedSet \
+ ((void (*)(uint32_t ui32Base, \
+ uint32_t ui32Seed))ROM_CRCTABLE[4])
+#endif
+
+//*****************************************************************************
+//
+// Macros for calling ROM functions in the SDHOST API.
+//
+//*****************************************************************************
+#if defined(TARGET_IS_CC3200)
+#define ROM_SDHostCmdReset \
+ ((void (*)(unsigned long ulBase))ROM_SDHOSTTABLE[0])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_SDHostInit \
+ ((void (*)(unsigned long ulBase))ROM_SDHOSTTABLE[1])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_SDHostCmdSend \
+ ((long (*)(unsigned long ulBase, \
+ unsigned long ulCmd, \
+ unsigned ulArg))ROM_SDHOSTTABLE[2])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_SDHostIntRegister \
+ ((void (*)(unsigned long ulBase, \
+ void (*pfnHandler)(void)))ROM_SDHOSTTABLE[3])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_SDHostIntUnregister \
+ ((void (*)(unsigned long ulBase))ROM_SDHOSTTABLE[4])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_SDHostIntEnable \
+ ((void (*)(unsigned long ulBase, \
+ unsigned long ulIntFlags))ROM_SDHOSTTABLE[5])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_SDHostIntDisable \
+ ((void (*)(unsigned long ulBase, \
+ unsigned long ulIntFlags))ROM_SDHOSTTABLE[6])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_SDHostIntStatus \
+ ((unsigned long (*)(unsigned long ulBase))ROM_SDHOSTTABLE[7])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_SDHostIntClear \
+ ((void (*)(unsigned long ulBase, \
+ unsigned long ulIntFlags))ROM_SDHOSTTABLE[8])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_SDHostRespStatus \
+ ((unsigned long (*)(unsigned long ulBase))ROM_SDHOSTTABLE[9])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_SDHostRespGet \
+ ((void (*)(unsigned long ulBase, \
+ unsigned long ulRespnse[4]))ROM_SDHOSTTABLE[10])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_SDHostBlockSizeSet \
+ ((void (*)(unsigned long ulBase, \
+ unsigned short ulBlkSize))ROM_SDHOSTTABLE[11])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_SDHostBlockCountSet \
+ ((void (*)(unsigned long ulBase, \
+ unsigned short ulBlkCount))ROM_SDHOSTTABLE[12])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_SDHostDataNonBlockingWrite \
+ ((tBoolean (*)(unsigned long ulBase, \
+ unsigned long ulData))ROM_SDHOSTTABLE[13])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_SDHostDataNonBlockingRead \
+ ((tBoolean (*)(unsigned long ulBase, \
+ unsigned long *pulData))ROM_SDHOSTTABLE[14])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_SDHostDataWrite \
+ ((void (*)(unsigned long ulBase, \
+ unsigned long ulData))ROM_SDHOSTTABLE[15])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_SDHostDataRead \
+ ((void (*)(unsigned long ulBase, \
+ unsigned long *ulData))ROM_SDHOSTTABLE[16])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_SDHostSetExpClk \
+ ((void (*)(unsigned long ulBase, \
+ unsigned long ulSDHostClk, \
+ unsigned long ulCardClk))ROM_SDHOSTTABLE[17])
+#endif
+
+//*****************************************************************************
+//
+// Macros for calling ROM functions in the PRCM API.
+//
+//*****************************************************************************
+#if defined(TARGET_IS_CC3200)
+#define ROM_PRCMMCUReset \
+ ((void (*)(tBoolean bIncludeSubsystem))ROM_PRCMTABLE[1])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_PRCMSysResetCauseGet \
+ ((unsigned long (*)(void))ROM_PRCMTABLE[2])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_PRCMPeripheralClkEnable \
+ ((void (*)(unsigned long ulPeripheral, \
+ unsigned long ulClkFlags))ROM_PRCMTABLE[3])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_PRCMPeripheralClkDisable \
+ ((void (*)(unsigned long ulPeripheral, \
+ unsigned long ulClkFlags))ROM_PRCMTABLE[4])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_PRCMPeripheralReset \
+ ((void (*)(unsigned long ulPeripheral))ROM_PRCMTABLE[5])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_PRCMPeripheralStatusGet \
+ ((tBoolean (*)(unsigned long ulPeripheral))ROM_PRCMTABLE[6])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_PRCMI2SClockFreqSet \
+ ((void (*)(unsigned long ulI2CClkFreq))ROM_PRCMTABLE[7])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_PRCMPeripheralClockGet \
+ ((unsigned long (*)(unsigned long ulPeripheral))ROM_PRCMTABLE[8])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_PRCMSleepEnter \
+ ((void (*)(void))ROM_PRCMTABLE[9])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_PRCMDeepSleepEnter \
+ ((void (*)(void))ROM_PRCMTABLE[10])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_PRCMSRAMRetentionEnable \
+ ((void (*)(unsigned long ulSramColSel, \
+ unsigned long ulFlags))ROM_PRCMTABLE[11])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_PRCMSRAMRetentionDisable \
+ ((void (*)(unsigned long ulSramColSel, \
+ unsigned long ulFlags))ROM_PRCMTABLE[12])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_PRCMLPDSEnter \
+ ((void (*)(void))ROM_PRCMTABLE[13])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_PRCMLPDSIntervalSet \
+ ((void (*)(unsigned long ulTicks))ROM_PRCMTABLE[14])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_PRCMLPDSWakeupSourceEnable \
+ ((void (*)(unsigned long ulLpdsWakeupSrc))ROM_PRCMTABLE[15])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_PRCMLPDSWakeupCauseGet \
+ ((unsigned long (*)(void))ROM_PRCMTABLE[16])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_PRCMLPDSWakeUpGPIOSelect \
+ ((void (*)(unsigned long ulGPIOPin, \
+ unsigned long ulType))ROM_PRCMTABLE[17])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_PRCMLPDSWakeupSourceDisable \
+ ((void (*)(unsigned long ulLpdsWakeupSrc))ROM_PRCMTABLE[18])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_PRCMHibernateEnter \
+ ((void (*)(void))ROM_PRCMTABLE[19])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_PRCMHibernateWakeupSourceEnable \
+ ((void (*)(unsigned long ulHIBWakupSrc))ROM_PRCMTABLE[20])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_PRCMHibernateWakeupCauseGet \
+ ((unsigned long (*)(void))ROM_PRCMTABLE[21])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_PRCMHibernateWakeUpGPIOSelect \
+ ((void (*)(unsigned long ulMultiGPIOBitMap, \
+ unsigned long ulType))ROM_PRCMTABLE[22])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_PRCMHibernateWakeupSourceDisable \
+ ((void (*)(unsigned long ulHIBWakupSrc))ROM_PRCMTABLE[23])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_PRCMHibernateIntervalSet \
+ ((void (*)(unsigned long long ullTicks))ROM_PRCMTABLE[24])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_PRCMSlowClkCtrGet \
+ ((unsigned long long (*)(void))ROM_PRCMTABLE[25])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_PRCMSlowClkCtrMatchSet \
+ ((void (*)(unsigned long long ullTicks))ROM_PRCMTABLE[26])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_PRCMSlowClkCtrMatchGet \
+ ((unsigned long long (*)(void))ROM_PRCMTABLE[27])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_PRCMOCRRegisterWrite \
+ ((void (*)(unsigned char ucIndex, \
+ unsigned long ulRegValue))ROM_PRCMTABLE[28])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_PRCMOCRRegisterRead \
+ ((unsigned long (*)(unsigned char ucIndex))ROM_PRCMTABLE[29])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_PRCMIntRegister \
+ ((void (*)(void (*pfnHandler)(void)))ROM_PRCMTABLE[30])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_PRCMIntUnregister \
+ ((void (*)(void))ROM_PRCMTABLE[31])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_PRCMIntEnable \
+ ((void (*)(unsigned long ulIntFlags))ROM_PRCMTABLE[32])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_PRCMIntDisable \
+ ((void (*)(unsigned long ulIntFlags))ROM_PRCMTABLE[33])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_PRCMIntStatus \
+ ((unsigned long (*)(void))ROM_PRCMTABLE[34])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_PRCMRTCInUseSet \
+ ((void (*)(void))ROM_PRCMTABLE[35])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_PRCMRTCInUseGet \
+ ((tBoolean (*)(void))ROM_PRCMTABLE[36])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_PRCMRTCSet \
+ ((void (*)(unsigned long ulSecs, \
+ unsigned short usMsec))ROM_PRCMTABLE[37])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_PRCMRTCGet \
+ ((void (*)(unsigned long *ulSecs, \
+ unsigned short *usMsec))ROM_PRCMTABLE[38])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_PRCMRTCMatchSet \
+ ((void (*)(unsigned long ulSecs, \
+ unsigned short usMsec))ROM_PRCMTABLE[39])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_PRCMRTCMatchGet \
+ ((void (*)(unsigned long *ulSecs, \
+ unsigned short *usMsec))ROM_PRCMTABLE[40])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_PRCMLPDSRestoreInfoSet \
+ ((void (*)(unsigned long ulRestoreSP, \
+ unsigned long ulRestorePC))ROM_PRCMTABLE[41])
+#endif
+
+//*****************************************************************************
+//
+// Macros for calling ROM functions in the HWSPINLOCK API.
+//
+//*****************************************************************************
+#if defined(TARGET_IS_CC3200)
+#define ROM_HwSpinLockAcquire \
+ ((void (*)(uint32_t ui32LockID))ROM_HWSPINLOCKTABLE[0])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_HwSpinLockTryAcquire \
+ ((int32_t (*)(uint32_t ui32LockID, \
+ uint32_t ui32Retry))ROM_HWSPINLOCKTABLE[1])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_HwSpinLockRelease \
+ ((void (*)(uint32_t ui32LockID))ROM_HWSPINLOCKTABLE[2])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_HwSpinLockTest \
+ ((uint32_t (*)(uint32_t ui32LockID, \
+ bool bCurrentStatus))ROM_HWSPINLOCKTABLE[3])
+#endif
+
+//*****************************************************************************
+//
+// Macros for calling ROM functions in the ADC API.
+//
+//*****************************************************************************
+#if defined(TARGET_IS_CC3200)
+#define ROM_ADCEnable \
+ ((void (*)(unsigned long ulBase))ROM_ADCTABLE[0])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_ADCDisable \
+ ((void (*)(unsigned long ulBase))ROM_ADCTABLE[1])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_ADCChannelEnable \
+ ((void (*)(unsigned long ulBase, \
+ unsigned long ulChannel))ROM_ADCTABLE[2])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_ADCChannelDisable \
+ ((void (*)(unsigned long ulBase, \
+ unsigned long ulChannel))ROM_ADCTABLE[3])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_ADCIntRegister \
+ ((void (*)(unsigned long ulBase, \
+ unsigned long ulChannel, \
+ void (*pfnHandler)(void)))ROM_ADCTABLE[4])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_ADCIntUnregister \
+ ((void (*)(unsigned long ulBase, \
+ unsigned long ulChannel))ROM_ADCTABLE[5])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_ADCIntEnable \
+ ((void (*)(unsigned long ulBase, \
+ unsigned long ulChannel, \
+ unsigned long ulIntFlags))ROM_ADCTABLE[6])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_ADCIntDisable \
+ ((void (*)(unsigned long ulBase, \
+ unsigned long ulChannel, \
+ unsigned long ulIntFlags))ROM_ADCTABLE[7])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_ADCIntStatus \
+ ((unsigned long (*)(unsigned long ulBase, \
+ unsigned long ulChannel))ROM_ADCTABLE[8])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_ADCIntClear \
+ ((void (*)(unsigned long ulBase, \
+ unsigned long ulChannel, \
+ unsigned long ulIntFlags))ROM_ADCTABLE[9])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_ADCDMAEnable \
+ ((void (*)(unsigned long ulBase, \
+ unsigned long ulChannel))ROM_ADCTABLE[10])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_ADCDMADisable \
+ ((void (*)(unsigned long ulBase, \
+ unsigned long ulChannel))ROM_ADCTABLE[11])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_ADCChannelGainSet \
+ ((void (*)(unsigned long ulBase, \
+ unsigned long ulChannel, \
+ unsigned char ucGain))ROM_ADCTABLE[12])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_ADCChannleGainGet \
+ ((unsigned char (*)(unsigned long ulBase, \
+ unsigned long ulChannel))ROM_ADCTABLE[13])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_ADCTimerConfig \
+ ((void (*)(unsigned long ulBase, \
+ unsigned long ulValue))ROM_ADCTABLE[14])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_ADCTimerEnable \
+ ((void (*)(unsigned long ulBase))ROM_ADCTABLE[15])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_ADCTimerDisable \
+ ((void (*)(unsigned long ulBase))ROM_ADCTABLE[16])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_ADCTimerReset \
+ ((void (*)(unsigned long ulBase))ROM_ADCTABLE[17])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_ADCTimerValueGet \
+ ((unsigned long (*)(unsigned long ulBase))ROM_ADCTABLE[18])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_ADCFIFOLvlGet \
+ ((unsigned char (*)(unsigned long ulBase, \
+ unsigned long ulChannel))ROM_ADCTABLE[19])
+#endif
+#if defined(TARGET_IS_CC3200)
+#define ROM_ADCFIFORead \
+ ((unsigned long (*)(unsigned long ulBase, \
+ unsigned long ulChannel))ROM_ADCTABLE[20])
+#endif
+
+#endif // __ROM_H__
diff --git a/cc3200/hal/rom_map.h b/cc3200/hal/rom_map.h
new file mode 100644
index 000000000..86a6c75fc
--- /dev/null
+++ b/cc3200/hal/rom_map.h
@@ -0,0 +1,3177 @@
+//*****************************************************************************
+//
+// rom_map.h
+//
+// Macros to facilitate calling functions in the ROM when they are
+// available and in flash otherwise.
+//
+// Copyright (C) 2014 Texas Instruments Incorporated - http://www.ti.com/
+//
+//
+// Redistribution and use in source and binary forms, with or without
+// modification, are permitted provided that the following conditions
+// are met:
+//
+// Redistributions of source code must retain the above copyright
+// notice, this list of conditions and the following disclaimer.
+//
+// Redistributions in binary form must reproduce the above copyright
+// notice, this list of conditions and the following disclaimer in the
+// documentation and/or other materials provided with the
+// distribution.
+//
+// Neither the name of Texas Instruments Incorporated nor the names of
+// its contributors may be used to endorse or promote products derived
+// from this software without specific prior written permission.
+//
+// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
+// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
+// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
+// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
+// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
+// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
+// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
+// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
+// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
+// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
+// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+//
+//*****************************************************************************
+
+//*****************************************************************************
+//
+// THIS IS AN AUTO-GENERATED FILE. DO NOT EDIT BY HAND.
+//
+//*****************************************************************************
+
+#ifndef __ROM_MAP_H__
+#define __ROM_MAP_H__
+#ifndef DEBUG
+#include "rom.h"
+#endif
+#include "rom_patch.h"
+
+//*****************************************************************************
+//
+// Macros for the Interrupt API.
+//
+//*****************************************************************************
+#ifdef ROM_IntEnable
+#define MAP_IntEnable \
+ ROM_IntEnable
+#else
+#define MAP_IntEnable \
+ IntEnable
+#endif
+#ifdef ROM_IntMasterEnable
+#define MAP_IntMasterEnable \
+ ROM_IntMasterEnable
+#else
+#define MAP_IntMasterEnable \
+ IntMasterEnable
+#endif
+#ifdef ROM_IntMasterDisable
+#define MAP_IntMasterDisable \
+ ROM_IntMasterDisable
+#else
+#define MAP_IntMasterDisable \
+ IntMasterDisable
+#endif
+#ifdef ROM_IntDisable
+#define MAP_IntDisable \
+ ROM_IntDisable
+#else
+#define MAP_IntDisable \
+ IntDisable
+#endif
+#ifdef ROM_IntPriorityGroupingSet
+#define MAP_IntPriorityGroupingSet \
+ ROM_IntPriorityGroupingSet
+#else
+#define MAP_IntPriorityGroupingSet \
+ IntPriorityGroupingSet
+#endif
+#ifdef ROM_IntPriorityGroupingGet
+#define MAP_IntPriorityGroupingGet \
+ ROM_IntPriorityGroupingGet
+#else
+#define MAP_IntPriorityGroupingGet \
+ IntPriorityGroupingGet
+#endif
+#ifdef ROM_IntPrioritySet
+#define MAP_IntPrioritySet \
+ ROM_IntPrioritySet
+#else
+#define MAP_IntPrioritySet \
+ IntPrioritySet
+#endif
+#ifdef ROM_IntPriorityGet
+#define MAP_IntPriorityGet \
+ ROM_IntPriorityGet
+#else
+#define MAP_IntPriorityGet \
+ IntPriorityGet
+#endif
+#ifdef ROM_IntPendSet
+#define MAP_IntPendSet \
+ ROM_IntPendSet
+#else
+#define MAP_IntPendSet \
+ IntPendSet
+#endif
+#ifdef ROM_IntPendClear
+#define MAP_IntPendClear \
+ ROM_IntPendClear
+#else
+#define MAP_IntPendClear \
+ IntPendClear
+#endif
+#ifdef ROM_IntPriorityMaskSet
+#define MAP_IntPriorityMaskSet \
+ ROM_IntPriorityMaskSet
+#else
+#define MAP_IntPriorityMaskSet \
+ IntPriorityMaskSet
+#endif
+#ifdef ROM_IntPriorityMaskGet
+#define MAP_IntPriorityMaskGet \
+ ROM_IntPriorityMaskGet
+#else
+#define MAP_IntPriorityMaskGet \
+ IntPriorityMaskGet
+#endif
+#ifdef ROM_IntRegister
+#define MAP_IntRegister \
+ ROM_IntRegister
+#else
+#define MAP_IntRegister \
+ IntRegister
+#endif
+#ifdef ROM_IntUnregister
+#define MAP_IntUnregister \
+ ROM_IntUnregister
+#else
+#define MAP_IntUnregister \
+ IntUnregister
+#endif
+#ifdef ROM_IntVTableBaseSet
+#define MAP_IntVTableBaseSet \
+ ROM_IntVTableBaseSet
+#else
+#define MAP_IntVTableBaseSet \
+ IntVTableBaseSet
+#endif
+
+//*****************************************************************************
+//
+// Macros for the Timer API.
+//
+//*****************************************************************************
+#ifdef ROM_TimerEnable
+#define MAP_TimerEnable \
+ ROM_TimerEnable
+#else
+#define MAP_TimerEnable \
+ TimerEnable
+#endif
+#ifdef ROM_TimerDisable
+#define MAP_TimerDisable \
+ ROM_TimerDisable
+#else
+#define MAP_TimerDisable \
+ TimerDisable
+#endif
+#ifdef ROM_TimerConfigure
+#define MAP_TimerConfigure \
+ ROM_TimerConfigure
+#else
+#define MAP_TimerConfigure \
+ TimerConfigure
+#endif
+#ifdef ROM_TimerControlLevel
+#define MAP_TimerControlLevel \
+ ROM_TimerControlLevel
+#else
+#define MAP_TimerControlLevel \
+ TimerControlLevel
+#endif
+#ifdef ROM_TimerControlEvent
+#define MAP_TimerControlEvent \
+ ROM_TimerControlEvent
+#else
+#define MAP_TimerControlEvent \
+ TimerControlEvent
+#endif
+#ifdef ROM_TimerControlStall
+#define MAP_TimerControlStall \
+ ROM_TimerControlStall
+#else
+#define MAP_TimerControlStall \
+ TimerControlStall
+#endif
+#ifdef ROM_TimerPrescaleSet
+#define MAP_TimerPrescaleSet \
+ ROM_TimerPrescaleSet
+#else
+#define MAP_TimerPrescaleSet \
+ TimerPrescaleSet
+#endif
+#ifdef ROM_TimerPrescaleGet
+#define MAP_TimerPrescaleGet \
+ ROM_TimerPrescaleGet
+#else
+#define MAP_TimerPrescaleGet \
+ TimerPrescaleGet
+#endif
+#ifdef ROM_TimerPrescaleMatchSet
+#define MAP_TimerPrescaleMatchSet \
+ ROM_TimerPrescaleMatchSet
+#else
+#define MAP_TimerPrescaleMatchSet \
+ TimerPrescaleMatchSet
+#endif
+#ifdef ROM_TimerPrescaleMatchGet
+#define MAP_TimerPrescaleMatchGet \
+ ROM_TimerPrescaleMatchGet
+#else
+#define MAP_TimerPrescaleMatchGet \
+ TimerPrescaleMatchGet
+#endif
+#ifdef ROM_TimerLoadSet
+#define MAP_TimerLoadSet \
+ ROM_TimerLoadSet
+#else
+#define MAP_TimerLoadSet \
+ TimerLoadSet
+#endif
+#ifdef ROM_TimerLoadGet
+#define MAP_TimerLoadGet \
+ ROM_TimerLoadGet
+#else
+#define MAP_TimerLoadGet \
+ TimerLoadGet
+#endif
+#ifdef ROM_TimerValueGet
+#define MAP_TimerValueGet \
+ ROM_TimerValueGet
+#else
+#define MAP_TimerValueGet \
+ TimerValueGet
+#endif
+#ifdef ROM_TimerMatchSet
+#define MAP_TimerMatchSet \
+ ROM_TimerMatchSet
+#else
+#define MAP_TimerMatchSet \
+ TimerMatchSet
+#endif
+#ifdef ROM_TimerMatchGet
+#define MAP_TimerMatchGet \
+ ROM_TimerMatchGet
+#else
+#define MAP_TimerMatchGet \
+ TimerMatchGet
+#endif
+#ifdef ROM_TimerIntRegister
+#define MAP_TimerIntRegister \
+ ROM_TimerIntRegister
+#else
+#define MAP_TimerIntRegister \
+ TimerIntRegister
+#endif
+#ifdef ROM_TimerIntUnregister
+#define MAP_TimerIntUnregister \
+ ROM_TimerIntUnregister
+#else
+#define MAP_TimerIntUnregister \
+ TimerIntUnregister
+#endif
+#ifdef ROM_TimerIntEnable
+#define MAP_TimerIntEnable \
+ ROM_TimerIntEnable
+#else
+#define MAP_TimerIntEnable \
+ TimerIntEnable
+#endif
+#ifdef ROM_TimerIntDisable
+#define MAP_TimerIntDisable \
+ ROM_TimerIntDisable
+#else
+#define MAP_TimerIntDisable \
+ TimerIntDisable
+#endif
+#ifdef ROM_TimerIntStatus
+#define MAP_TimerIntStatus \
+ ROM_TimerIntStatus
+#else
+#define MAP_TimerIntStatus \
+ TimerIntStatus
+#endif
+#ifdef ROM_TimerIntClear
+#define MAP_TimerIntClear \
+ ROM_TimerIntClear
+#else
+#define MAP_TimerIntClear \
+ TimerIntClear
+#endif
+#ifdef ROM_TimerDMAEventSet
+#define MAP_TimerDMAEventSet \
+ ROM_TimerDMAEventSet
+#else
+#define MAP_TimerDMAEventSet \
+ TimerDMAEventSet
+#endif
+#ifdef ROM_TimerDMAEventGet
+#define MAP_TimerDMAEventGet \
+ ROM_TimerDMAEventGet
+#else
+#define MAP_TimerDMAEventGet \
+ TimerDMAEventGet
+#endif
+
+//*****************************************************************************
+//
+// Macros for the UART API.
+//
+//*****************************************************************************
+#ifdef ROM_UARTParityModeSet
+#define MAP_UARTParityModeSet \
+ ROM_UARTParityModeSet
+#else
+#define MAP_UARTParityModeSet \
+ UARTParityModeSet
+#endif
+#ifdef ROM_UARTParityModeGet
+#define MAP_UARTParityModeGet \
+ ROM_UARTParityModeGet
+#else
+#define MAP_UARTParityModeGet \
+ UARTParityModeGet
+#endif
+#ifdef ROM_UARTFIFOLevelSet
+#define MAP_UARTFIFOLevelSet \
+ ROM_UARTFIFOLevelSet
+#else
+#define MAP_UARTFIFOLevelSet \
+ UARTFIFOLevelSet
+#endif
+#ifdef ROM_UARTFIFOLevelGet
+#define MAP_UARTFIFOLevelGet \
+ ROM_UARTFIFOLevelGet
+#else
+#define MAP_UARTFIFOLevelGet \
+ UARTFIFOLevelGet
+#endif
+#ifdef ROM_UARTConfigSetExpClk
+#define MAP_UARTConfigSetExpClk \
+ ROM_UARTConfigSetExpClk
+#else
+#define MAP_UARTConfigSetExpClk \
+ UARTConfigSetExpClk
+#endif
+#ifdef ROM_UARTConfigGetExpClk
+#define MAP_UARTConfigGetExpClk \
+ ROM_UARTConfigGetExpClk
+#else
+#define MAP_UARTConfigGetExpClk \
+ UARTConfigGetExpClk
+#endif
+#ifdef ROM_UARTEnable
+#define MAP_UARTEnable \
+ ROM_UARTEnable
+#else
+#define MAP_UARTEnable \
+ UARTEnable
+#endif
+#ifdef ROM_UARTDisable
+#define MAP_UARTDisable \
+ ROM_UARTDisable
+#else
+#define MAP_UARTDisable \
+ UARTDisable
+#endif
+#ifdef ROM_UARTFIFOEnable
+#define MAP_UARTFIFOEnable \
+ ROM_UARTFIFOEnable
+#else
+#define MAP_UARTFIFOEnable \
+ UARTFIFOEnable
+#endif
+#ifdef ROM_UARTFIFODisable
+#define MAP_UARTFIFODisable \
+ ROM_UARTFIFODisable
+#else
+#define MAP_UARTFIFODisable \
+ UARTFIFODisable
+#endif
+#ifdef ROM_UARTCharsAvail
+#define MAP_UARTCharsAvail \
+ ROM_UARTCharsAvail
+#else
+#define MAP_UARTCharsAvail \
+ UARTCharsAvail
+#endif
+#ifdef ROM_UARTSpaceAvail
+#define MAP_UARTSpaceAvail \
+ ROM_UARTSpaceAvail
+#else
+#define MAP_UARTSpaceAvail \
+ UARTSpaceAvail
+#endif
+#ifdef ROM_UARTCharGetNonBlocking
+#define MAP_UARTCharGetNonBlocking \
+ ROM_UARTCharGetNonBlocking
+#else
+#define MAP_UARTCharGetNonBlocking \
+ UARTCharGetNonBlocking
+#endif
+#ifdef ROM_UARTCharGet
+#define MAP_UARTCharGet \
+ ROM_UARTCharGet
+#else
+#define MAP_UARTCharGet \
+ UARTCharGet
+#endif
+#ifdef ROM_UARTCharPutNonBlocking
+#define MAP_UARTCharPutNonBlocking \
+ ROM_UARTCharPutNonBlocking
+#else
+#define MAP_UARTCharPutNonBlocking \
+ UARTCharPutNonBlocking
+#endif
+#ifdef ROM_UARTCharPut
+#define MAP_UARTCharPut \
+ ROM_UARTCharPut
+#else
+#define MAP_UARTCharPut \
+ UARTCharPut
+#endif
+#ifdef ROM_UARTBreakCtl
+#define MAP_UARTBreakCtl \
+ ROM_UARTBreakCtl
+#else
+#define MAP_UARTBreakCtl \
+ UARTBreakCtl
+#endif
+#ifdef ROM_UARTBusy
+#define MAP_UARTBusy \
+ ROM_UARTBusy
+#else
+#define MAP_UARTBusy \
+ UARTBusy
+#endif
+#ifdef ROM_UARTIntRegister
+#define MAP_UARTIntRegister \
+ ROM_UARTIntRegister
+#else
+#define MAP_UARTIntRegister \
+ UARTIntRegister
+#endif
+#ifdef ROM_UARTIntUnregister
+#define MAP_UARTIntUnregister \
+ ROM_UARTIntUnregister
+#else
+#define MAP_UARTIntUnregister \
+ UARTIntUnregister
+#endif
+#ifdef ROM_UARTIntEnable
+#define MAP_UARTIntEnable \
+ ROM_UARTIntEnable
+#else
+#define MAP_UARTIntEnable \
+ UARTIntEnable
+#endif
+#ifdef ROM_UARTIntDisable
+#define MAP_UARTIntDisable \
+ ROM_UARTIntDisable
+#else
+#define MAP_UARTIntDisable \
+ UARTIntDisable
+#endif
+#ifdef ROM_UARTIntStatus
+#define MAP_UARTIntStatus \
+ ROM_UARTIntStatus
+#else
+#define MAP_UARTIntStatus \
+ UARTIntStatus
+#endif
+#ifdef ROM_UARTIntClear
+#define MAP_UARTIntClear \
+ ROM_UARTIntClear
+#else
+#define MAP_UARTIntClear \
+ UARTIntClear
+#endif
+#ifdef ROM_UARTDMAEnable
+#define MAP_UARTDMAEnable \
+ ROM_UARTDMAEnable
+#else
+#define MAP_UARTDMAEnable \
+ UARTDMAEnable
+#endif
+#ifdef ROM_UARTDMADisable
+#define MAP_UARTDMADisable \
+ ROM_UARTDMADisable
+#else
+#define MAP_UARTDMADisable \
+ UARTDMADisable
+#endif
+#ifdef ROM_UARTRxErrorGet
+#define MAP_UARTRxErrorGet \
+ ROM_UARTRxErrorGet
+#else
+#define MAP_UARTRxErrorGet \
+ UARTRxErrorGet
+#endif
+#ifdef ROM_UARTRxErrorClear
+#define MAP_UARTRxErrorClear \
+ ROM_UARTRxErrorClear
+#else
+#define MAP_UARTRxErrorClear \
+ UARTRxErrorClear
+#endif
+#ifdef ROM_UARTModemControlSet
+#define MAP_UARTModemControlSet \
+ ROM_UARTModemControlSet
+#else
+#define MAP_UARTModemControlSet \
+ UARTModemControlSet
+#endif
+#ifdef ROM_UARTModemControlClear
+#define MAP_UARTModemControlClear \
+ ROM_UARTModemControlClear
+#else
+#define MAP_UARTModemControlClear \
+ UARTModemControlClear
+#endif
+#ifdef ROM_UARTModemControlGet
+#define MAP_UARTModemControlGet \
+ ROM_UARTModemControlGet
+#else
+#define MAP_UARTModemControlGet \
+ UARTModemControlGet
+#endif
+#ifdef ROM_UARTModemStatusGet
+#define MAP_UARTModemStatusGet \
+ ROM_UARTModemStatusGet
+#else
+#define MAP_UARTModemStatusGet \
+ UARTModemStatusGet
+#endif
+#ifdef ROM_UARTFlowControlSet
+#define MAP_UARTFlowControlSet \
+ ROM_UARTFlowControlSet
+#else
+#define MAP_UARTFlowControlSet \
+ UARTFlowControlSet
+#endif
+#ifdef ROM_UARTFlowControlGet
+#define MAP_UARTFlowControlGet \
+ ROM_UARTFlowControlGet
+#else
+#define MAP_UARTFlowControlGet \
+ UARTFlowControlGet
+#endif
+#ifdef ROM_UARTTxIntModeSet
+#define MAP_UARTTxIntModeSet \
+ ROM_UARTTxIntModeSet
+#else
+#define MAP_UARTTxIntModeSet \
+ UARTTxIntModeSet
+#endif
+#ifdef ROM_UARTTxIntModeGet
+#define MAP_UARTTxIntModeGet \
+ ROM_UARTTxIntModeGet
+#else
+#define MAP_UARTTxIntModeGet \
+ UARTTxIntModeGet
+#endif
+
+//*****************************************************************************
+//
+// Macros for the uDMA API.
+//
+//*****************************************************************************
+#ifdef ROM_uDMAChannelTransferSet
+#define MAP_uDMAChannelTransferSet \
+ ROM_uDMAChannelTransferSet
+#else
+#define MAP_uDMAChannelTransferSet \
+ uDMAChannelTransferSet
+#endif
+#ifdef ROM_uDMAEnable
+#define MAP_uDMAEnable \
+ ROM_uDMAEnable
+#else
+#define MAP_uDMAEnable \
+ uDMAEnable
+#endif
+#ifdef ROM_uDMADisable
+#define MAP_uDMADisable \
+ ROM_uDMADisable
+#else
+#define MAP_uDMADisable \
+ uDMADisable
+#endif
+#ifdef ROM_uDMAErrorStatusGet
+#define MAP_uDMAErrorStatusGet \
+ ROM_uDMAErrorStatusGet
+#else
+#define MAP_uDMAErrorStatusGet \
+ uDMAErrorStatusGet
+#endif
+#ifdef ROM_uDMAErrorStatusClear
+#define MAP_uDMAErrorStatusClear \
+ ROM_uDMAErrorStatusClear
+#else
+#define MAP_uDMAErrorStatusClear \
+ uDMAErrorStatusClear
+#endif
+#ifdef ROM_uDMAChannelEnable
+#define MAP_uDMAChannelEnable \
+ ROM_uDMAChannelEnable
+#else
+#define MAP_uDMAChannelEnable \
+ uDMAChannelEnable
+#endif
+#ifdef ROM_uDMAChannelDisable
+#define MAP_uDMAChannelDisable \
+ ROM_uDMAChannelDisable
+#else
+#define MAP_uDMAChannelDisable \
+ uDMAChannelDisable
+#endif
+#ifdef ROM_uDMAChannelIsEnabled
+#define MAP_uDMAChannelIsEnabled \
+ ROM_uDMAChannelIsEnabled
+#else
+#define MAP_uDMAChannelIsEnabled \
+ uDMAChannelIsEnabled
+#endif
+#ifdef ROM_uDMAControlBaseSet
+#define MAP_uDMAControlBaseSet \
+ ROM_uDMAControlBaseSet
+#else
+#define MAP_uDMAControlBaseSet \
+ uDMAControlBaseSet
+#endif
+#ifdef ROM_uDMAControlBaseGet
+#define MAP_uDMAControlBaseGet \
+ ROM_uDMAControlBaseGet
+#else
+#define MAP_uDMAControlBaseGet \
+ uDMAControlBaseGet
+#endif
+#ifdef ROM_uDMAChannelRequest
+#define MAP_uDMAChannelRequest \
+ ROM_uDMAChannelRequest
+#else
+#define MAP_uDMAChannelRequest \
+ uDMAChannelRequest
+#endif
+#ifdef ROM_uDMAChannelAttributeEnable
+#define MAP_uDMAChannelAttributeEnable \
+ ROM_uDMAChannelAttributeEnable
+#else
+#define MAP_uDMAChannelAttributeEnable \
+ uDMAChannelAttributeEnable
+#endif
+#ifdef ROM_uDMAChannelAttributeDisable
+#define MAP_uDMAChannelAttributeDisable \
+ ROM_uDMAChannelAttributeDisable
+#else
+#define MAP_uDMAChannelAttributeDisable \
+ uDMAChannelAttributeDisable
+#endif
+#ifdef ROM_uDMAChannelAttributeGet
+#define MAP_uDMAChannelAttributeGet \
+ ROM_uDMAChannelAttributeGet
+#else
+#define MAP_uDMAChannelAttributeGet \
+ uDMAChannelAttributeGet
+#endif
+#ifdef ROM_uDMAChannelControlSet
+#define MAP_uDMAChannelControlSet \
+ ROM_uDMAChannelControlSet
+#else
+#define MAP_uDMAChannelControlSet \
+ uDMAChannelControlSet
+#endif
+#ifdef ROM_uDMAChannelSizeGet
+#define MAP_uDMAChannelSizeGet \
+ ROM_uDMAChannelSizeGet
+#else
+#define MAP_uDMAChannelSizeGet \
+ uDMAChannelSizeGet
+#endif
+#ifdef ROM_uDMAChannelModeGet
+#define MAP_uDMAChannelModeGet \
+ ROM_uDMAChannelModeGet
+#else
+#define MAP_uDMAChannelModeGet \
+ uDMAChannelModeGet
+#endif
+#ifdef ROM_uDMAIntStatus
+#define MAP_uDMAIntStatus \
+ ROM_uDMAIntStatus
+#else
+#define MAP_uDMAIntStatus \
+ uDMAIntStatus
+#endif
+#ifdef ROM_uDMAIntClear
+#define MAP_uDMAIntClear \
+ ROM_uDMAIntClear
+#else
+#define MAP_uDMAIntClear \
+ uDMAIntClear
+#endif
+#ifdef ROM_uDMAControlAlternateBaseGet
+#define MAP_uDMAControlAlternateBaseGet \
+ ROM_uDMAControlAlternateBaseGet
+#else
+#define MAP_uDMAControlAlternateBaseGet \
+ uDMAControlAlternateBaseGet
+#endif
+#ifdef ROM_uDMAChannelScatterGatherSet
+#define MAP_uDMAChannelScatterGatherSet \
+ ROM_uDMAChannelScatterGatherSet
+#else
+#define MAP_uDMAChannelScatterGatherSet \
+ uDMAChannelScatterGatherSet
+#endif
+#ifdef ROM_uDMAChannelAssign
+#define MAP_uDMAChannelAssign \
+ ROM_uDMAChannelAssign
+#else
+#define MAP_uDMAChannelAssign \
+ uDMAChannelAssign
+#endif
+#ifdef ROM_uDMAIntRegister
+#define MAP_uDMAIntRegister \
+ ROM_uDMAIntRegister
+#else
+#define MAP_uDMAIntRegister \
+ uDMAIntRegister
+#endif
+#ifdef ROM_uDMAIntUnregister
+#define MAP_uDMAIntUnregister \
+ ROM_uDMAIntUnregister
+#else
+#define MAP_uDMAIntUnregister \
+ uDMAIntUnregister
+#endif
+
+//*****************************************************************************
+//
+// Macros for the Watchdog API.
+//
+//*****************************************************************************
+#ifdef ROM_WatchdogIntClear
+#define MAP_WatchdogIntClear \
+ ROM_WatchdogIntClear
+#else
+#define MAP_WatchdogIntClear \
+ WatchdogIntClear
+#endif
+#ifdef ROM_WatchdogRunning
+#define MAP_WatchdogRunning \
+ ROM_WatchdogRunning
+#else
+#define MAP_WatchdogRunning \
+ WatchdogRunning
+#endif
+#ifdef ROM_WatchdogEnable
+#define MAP_WatchdogEnable \
+ ROM_WatchdogEnable
+#else
+#define MAP_WatchdogEnable \
+ WatchdogEnable
+#endif
+#ifdef ROM_WatchdogLock
+#define MAP_WatchdogLock \
+ ROM_WatchdogLock
+#else
+#define MAP_WatchdogLock \
+ WatchdogLock
+#endif
+#ifdef ROM_WatchdogUnlock
+#define MAP_WatchdogUnlock \
+ ROM_WatchdogUnlock
+#else
+#define MAP_WatchdogUnlock \
+ WatchdogUnlock
+#endif
+#ifdef ROM_WatchdogLockState
+#define MAP_WatchdogLockState \
+ ROM_WatchdogLockState
+#else
+#define MAP_WatchdogLockState \
+ WatchdogLockState
+#endif
+#ifdef ROM_WatchdogReloadSet
+#define MAP_WatchdogReloadSet \
+ ROM_WatchdogReloadSet
+#else
+#define MAP_WatchdogReloadSet \
+ WatchdogReloadSet
+#endif
+#ifdef ROM_WatchdogReloadGet
+#define MAP_WatchdogReloadGet \
+ ROM_WatchdogReloadGet
+#else
+#define MAP_WatchdogReloadGet \
+ WatchdogReloadGet
+#endif
+#ifdef ROM_WatchdogValueGet
+#define MAP_WatchdogValueGet \
+ ROM_WatchdogValueGet
+#else
+#define MAP_WatchdogValueGet \
+ WatchdogValueGet
+#endif
+#ifdef ROM_WatchdogIntStatus
+#define MAP_WatchdogIntStatus \
+ ROM_WatchdogIntStatus
+#else
+#define MAP_WatchdogIntStatus \
+ WatchdogIntStatus
+#endif
+#ifdef ROM_WatchdogStallEnable
+#define MAP_WatchdogStallEnable \
+ ROM_WatchdogStallEnable
+#else
+#define MAP_WatchdogStallEnable \
+ WatchdogStallEnable
+#endif
+#ifdef ROM_WatchdogStallDisable
+#define MAP_WatchdogStallDisable \
+ ROM_WatchdogStallDisable
+#else
+#define MAP_WatchdogStallDisable \
+ WatchdogStallDisable
+#endif
+#ifdef ROM_WatchdogIntRegister
+#define MAP_WatchdogIntRegister \
+ ROM_WatchdogIntRegister
+#else
+#define MAP_WatchdogIntRegister \
+ WatchdogIntRegister
+#endif
+#ifdef ROM_WatchdogIntUnregister
+#define MAP_WatchdogIntUnregister \
+ ROM_WatchdogIntUnregister
+#else
+#define MAP_WatchdogIntUnregister \
+ WatchdogIntUnregister
+#endif
+
+//*****************************************************************************
+//
+// Macros for the I2C API.
+//
+//*****************************************************************************
+#ifdef ROM_I2CIntRegister
+#define MAP_I2CIntRegister \
+ ROM_I2CIntRegister
+#else
+#define MAP_I2CIntRegister \
+ I2CIntRegister
+#endif
+#ifdef ROM_I2CIntUnregister
+#define MAP_I2CIntUnregister \
+ ROM_I2CIntUnregister
+#else
+#define MAP_I2CIntUnregister \
+ I2CIntUnregister
+#endif
+#ifdef ROM_I2CTxFIFOConfigSet
+#define MAP_I2CTxFIFOConfigSet \
+ ROM_I2CTxFIFOConfigSet
+#else
+#define MAP_I2CTxFIFOConfigSet \
+ I2CTxFIFOConfigSet
+#endif
+#ifdef ROM_I2CTxFIFOFlush
+#define MAP_I2CTxFIFOFlush \
+ ROM_I2CTxFIFOFlush
+#else
+#define MAP_I2CTxFIFOFlush \
+ I2CTxFIFOFlush
+#endif
+#ifdef ROM_I2CRxFIFOConfigSet
+#define MAP_I2CRxFIFOConfigSet \
+ ROM_I2CRxFIFOConfigSet
+#else
+#define MAP_I2CRxFIFOConfigSet \
+ I2CRxFIFOConfigSet
+#endif
+#ifdef ROM_I2CRxFIFOFlush
+#define MAP_I2CRxFIFOFlush \
+ ROM_I2CRxFIFOFlush
+#else
+#define MAP_I2CRxFIFOFlush \
+ I2CRxFIFOFlush
+#endif
+#ifdef ROM_I2CFIFOStatus
+#define MAP_I2CFIFOStatus \
+ ROM_I2CFIFOStatus
+#else
+#define MAP_I2CFIFOStatus \
+ I2CFIFOStatus
+#endif
+#ifdef ROM_I2CFIFODataPut
+#define MAP_I2CFIFODataPut \
+ ROM_I2CFIFODataPut
+#else
+#define MAP_I2CFIFODataPut \
+ I2CFIFODataPut
+#endif
+#ifdef ROM_I2CFIFODataPutNonBlocking
+#define MAP_I2CFIFODataPutNonBlocking \
+ ROM_I2CFIFODataPutNonBlocking
+#else
+#define MAP_I2CFIFODataPutNonBlocking \
+ I2CFIFODataPutNonBlocking
+#endif
+#ifdef ROM_I2CFIFODataGet
+#define MAP_I2CFIFODataGet \
+ ROM_I2CFIFODataGet
+#else
+#define MAP_I2CFIFODataGet \
+ I2CFIFODataGet
+#endif
+#ifdef ROM_I2CFIFODataGetNonBlocking
+#define MAP_I2CFIFODataGetNonBlocking \
+ ROM_I2CFIFODataGetNonBlocking
+#else
+#define MAP_I2CFIFODataGetNonBlocking \
+ I2CFIFODataGetNonBlocking
+#endif
+#ifdef ROM_I2CMasterBurstLengthSet
+#define MAP_I2CMasterBurstLengthSet \
+ ROM_I2CMasterBurstLengthSet
+#else
+#define MAP_I2CMasterBurstLengthSet \
+ I2CMasterBurstLengthSet
+#endif
+#ifdef ROM_I2CMasterBurstCountGet
+#define MAP_I2CMasterBurstCountGet \
+ ROM_I2CMasterBurstCountGet
+#else
+#define MAP_I2CMasterBurstCountGet \
+ I2CMasterBurstCountGet
+#endif
+#ifdef ROM_I2CMasterGlitchFilterConfigSet
+#define MAP_I2CMasterGlitchFilterConfigSet \
+ ROM_I2CMasterGlitchFilterConfigSet
+#else
+#define MAP_I2CMasterGlitchFilterConfigSet \
+ I2CMasterGlitchFilterConfigSet
+#endif
+#ifdef ROM_I2CSlaveFIFOEnable
+#define MAP_I2CSlaveFIFOEnable \
+ ROM_I2CSlaveFIFOEnable
+#else
+#define MAP_I2CSlaveFIFOEnable \
+ I2CSlaveFIFOEnable
+#endif
+#ifdef ROM_I2CSlaveFIFODisable
+#define MAP_I2CSlaveFIFODisable \
+ ROM_I2CSlaveFIFODisable
+#else
+#define MAP_I2CSlaveFIFODisable \
+ I2CSlaveFIFODisable
+#endif
+#ifdef ROM_I2CMasterBusBusy
+#define MAP_I2CMasterBusBusy \
+ ROM_I2CMasterBusBusy
+#else
+#define MAP_I2CMasterBusBusy \
+ I2CMasterBusBusy
+#endif
+#ifdef ROM_I2CMasterBusy
+#define MAP_I2CMasterBusy \
+ ROM_I2CMasterBusy
+#else
+#define MAP_I2CMasterBusy \
+ I2CMasterBusy
+#endif
+#ifdef ROM_I2CMasterControl
+#define MAP_I2CMasterControl \
+ ROM_I2CMasterControl
+#else
+#define MAP_I2CMasterControl \
+ I2CMasterControl
+#endif
+#ifdef ROM_I2CMasterDataGet
+#define MAP_I2CMasterDataGet \
+ ROM_I2CMasterDataGet
+#else
+#define MAP_I2CMasterDataGet \
+ I2CMasterDataGet
+#endif
+#ifdef ROM_I2CMasterDataPut
+#define MAP_I2CMasterDataPut \
+ ROM_I2CMasterDataPut
+#else
+#define MAP_I2CMasterDataPut \
+ I2CMasterDataPut
+#endif
+#ifdef ROM_I2CMasterDisable
+#define MAP_I2CMasterDisable \
+ ROM_I2CMasterDisable
+#else
+#define MAP_I2CMasterDisable \
+ I2CMasterDisable
+#endif
+#ifdef ROM_I2CMasterEnable
+#define MAP_I2CMasterEnable \
+ ROM_I2CMasterEnable
+#else
+#define MAP_I2CMasterEnable \
+ I2CMasterEnable
+#endif
+#ifdef ROM_I2CMasterErr
+#define MAP_I2CMasterErr \
+ ROM_I2CMasterErr
+#else
+#define MAP_I2CMasterErr \
+ I2CMasterErr
+#endif
+#ifdef ROM_I2CMasterIntClear
+#define MAP_I2CMasterIntClear \
+ ROM_I2CMasterIntClear
+#else
+#define MAP_I2CMasterIntClear \
+ I2CMasterIntClear
+#endif
+#ifdef ROM_I2CMasterIntDisable
+#define MAP_I2CMasterIntDisable \
+ ROM_I2CMasterIntDisable
+#else
+#define MAP_I2CMasterIntDisable \
+ I2CMasterIntDisable
+#endif
+#ifdef ROM_I2CMasterIntEnable
+#define MAP_I2CMasterIntEnable \
+ ROM_I2CMasterIntEnable
+#else
+#define MAP_I2CMasterIntEnable \
+ I2CMasterIntEnable
+#endif
+#ifdef ROM_I2CMasterIntStatus
+#define MAP_I2CMasterIntStatus \
+ ROM_I2CMasterIntStatus
+#else
+#define MAP_I2CMasterIntStatus \
+ I2CMasterIntStatus
+#endif
+#ifdef ROM_I2CMasterIntEnableEx
+#define MAP_I2CMasterIntEnableEx \
+ ROM_I2CMasterIntEnableEx
+#else
+#define MAP_I2CMasterIntEnableEx \
+ I2CMasterIntEnableEx
+#endif
+#ifdef ROM_I2CMasterIntDisableEx
+#define MAP_I2CMasterIntDisableEx \
+ ROM_I2CMasterIntDisableEx
+#else
+#define MAP_I2CMasterIntDisableEx \
+ I2CMasterIntDisableEx
+#endif
+#ifdef ROM_I2CMasterIntStatusEx
+#define MAP_I2CMasterIntStatusEx \
+ ROM_I2CMasterIntStatusEx
+#else
+#define MAP_I2CMasterIntStatusEx \
+ I2CMasterIntStatusEx
+#endif
+#ifdef ROM_I2CMasterIntClearEx
+#define MAP_I2CMasterIntClearEx \
+ ROM_I2CMasterIntClearEx
+#else
+#define MAP_I2CMasterIntClearEx \
+ I2CMasterIntClearEx
+#endif
+#ifdef ROM_I2CMasterTimeoutSet
+#define MAP_I2CMasterTimeoutSet \
+ ROM_I2CMasterTimeoutSet
+#else
+#define MAP_I2CMasterTimeoutSet \
+ I2CMasterTimeoutSet
+#endif
+#ifdef ROM_I2CSlaveACKOverride
+#define MAP_I2CSlaveACKOverride \
+ ROM_I2CSlaveACKOverride
+#else
+#define MAP_I2CSlaveACKOverride \
+ I2CSlaveACKOverride
+#endif
+#ifdef ROM_I2CSlaveACKValueSet
+#define MAP_I2CSlaveACKValueSet \
+ ROM_I2CSlaveACKValueSet
+#else
+#define MAP_I2CSlaveACKValueSet \
+ I2CSlaveACKValueSet
+#endif
+#ifdef ROM_I2CMasterLineStateGet
+#define MAP_I2CMasterLineStateGet \
+ ROM_I2CMasterLineStateGet
+#else
+#define MAP_I2CMasterLineStateGet \
+ I2CMasterLineStateGet
+#endif
+#ifdef ROM_I2CMasterSlaveAddrSet
+#define MAP_I2CMasterSlaveAddrSet \
+ ROM_I2CMasterSlaveAddrSet
+#else
+#define MAP_I2CMasterSlaveAddrSet \
+ I2CMasterSlaveAddrSet
+#endif
+#ifdef ROM_I2CSlaveDataGet
+#define MAP_I2CSlaveDataGet \
+ ROM_I2CSlaveDataGet
+#else
+#define MAP_I2CSlaveDataGet \
+ I2CSlaveDataGet
+#endif
+#ifdef ROM_I2CSlaveDataPut
+#define MAP_I2CSlaveDataPut \
+ ROM_I2CSlaveDataPut
+#else
+#define MAP_I2CSlaveDataPut \
+ I2CSlaveDataPut
+#endif
+#ifdef ROM_I2CSlaveDisable
+#define MAP_I2CSlaveDisable \
+ ROM_I2CSlaveDisable
+#else
+#define MAP_I2CSlaveDisable \
+ I2CSlaveDisable
+#endif
+#ifdef ROM_I2CSlaveEnable
+#define MAP_I2CSlaveEnable \
+ ROM_I2CSlaveEnable
+#else
+#define MAP_I2CSlaveEnable \
+ I2CSlaveEnable
+#endif
+#ifdef ROM_I2CSlaveInit
+#define MAP_I2CSlaveInit \
+ ROM_I2CSlaveInit
+#else
+#define MAP_I2CSlaveInit \
+ I2CSlaveInit
+#endif
+#ifdef ROM_I2CSlaveAddressSet
+#define MAP_I2CSlaveAddressSet \
+ ROM_I2CSlaveAddressSet
+#else
+#define MAP_I2CSlaveAddressSet \
+ I2CSlaveAddressSet
+#endif
+#ifdef ROM_I2CSlaveIntClear
+#define MAP_I2CSlaveIntClear \
+ ROM_I2CSlaveIntClear
+#else
+#define MAP_I2CSlaveIntClear \
+ I2CSlaveIntClear
+#endif
+#ifdef ROM_I2CSlaveIntDisable
+#define MAP_I2CSlaveIntDisable \
+ ROM_I2CSlaveIntDisable
+#else
+#define MAP_I2CSlaveIntDisable \
+ I2CSlaveIntDisable
+#endif
+#ifdef ROM_I2CSlaveIntEnable
+#define MAP_I2CSlaveIntEnable \
+ ROM_I2CSlaveIntEnable
+#else
+#define MAP_I2CSlaveIntEnable \
+ I2CSlaveIntEnable
+#endif
+#ifdef ROM_I2CSlaveIntClearEx
+#define MAP_I2CSlaveIntClearEx \
+ ROM_I2CSlaveIntClearEx
+#else
+#define MAP_I2CSlaveIntClearEx \
+ I2CSlaveIntClearEx
+#endif
+#ifdef ROM_I2CSlaveIntDisableEx
+#define MAP_I2CSlaveIntDisableEx \
+ ROM_I2CSlaveIntDisableEx
+#else
+#define MAP_I2CSlaveIntDisableEx \
+ I2CSlaveIntDisableEx
+#endif
+#ifdef ROM_I2CSlaveIntEnableEx
+#define MAP_I2CSlaveIntEnableEx \
+ ROM_I2CSlaveIntEnableEx
+#else
+#define MAP_I2CSlaveIntEnableEx \
+ I2CSlaveIntEnableEx
+#endif
+#ifdef ROM_I2CSlaveIntStatus
+#define MAP_I2CSlaveIntStatus \
+ ROM_I2CSlaveIntStatus
+#else
+#define MAP_I2CSlaveIntStatus \
+ I2CSlaveIntStatus
+#endif
+#ifdef ROM_I2CSlaveIntStatusEx
+#define MAP_I2CSlaveIntStatusEx \
+ ROM_I2CSlaveIntStatusEx
+#else
+#define MAP_I2CSlaveIntStatusEx \
+ I2CSlaveIntStatusEx
+#endif
+#ifdef ROM_I2CSlaveStatus
+#define MAP_I2CSlaveStatus \
+ ROM_I2CSlaveStatus
+#else
+#define MAP_I2CSlaveStatus \
+ I2CSlaveStatus
+#endif
+#ifdef ROM_I2CMasterInitExpClk
+#define MAP_I2CMasterInitExpClk \
+ ROM_I2CMasterInitExpClk
+#else
+#define MAP_I2CMasterInitExpClk \
+ I2CMasterInitExpClk
+#endif
+
+//*****************************************************************************
+//
+// Macros for the SPI API.
+//
+//*****************************************************************************
+#ifdef ROM_SPIEnable
+#define MAP_SPIEnable \
+ ROM_SPIEnable
+#else
+#define MAP_SPIEnable \
+ SPIEnable
+#endif
+#ifdef ROM_SPIDisable
+#define MAP_SPIDisable \
+ ROM_SPIDisable
+#else
+#define MAP_SPIDisable \
+ SPIDisable
+#endif
+#ifdef ROM_SPIReset
+#define MAP_SPIReset \
+ ROM_SPIReset
+#else
+#define MAP_SPIReset \
+ SPIReset
+#endif
+#ifdef ROM_SPIConfigSetExpClk
+#define MAP_SPIConfigSetExpClk \
+ ROM_SPIConfigSetExpClk
+#else
+#define MAP_SPIConfigSetExpClk \
+ SPIConfigSetExpClk
+#endif
+#ifdef ROM_SPIDataGetNonBlocking
+#define MAP_SPIDataGetNonBlocking \
+ ROM_SPIDataGetNonBlocking
+#else
+#define MAP_SPIDataGetNonBlocking \
+ SPIDataGetNonBlocking
+#endif
+#ifdef ROM_SPIDataGet
+#define MAP_SPIDataGet \
+ ROM_SPIDataGet
+#else
+#define MAP_SPIDataGet \
+ SPIDataGet
+#endif
+#ifdef ROM_SPIDataPutNonBlocking
+#define MAP_SPIDataPutNonBlocking \
+ ROM_SPIDataPutNonBlocking
+#else
+#define MAP_SPIDataPutNonBlocking \
+ SPIDataPutNonBlocking
+#endif
+#ifdef ROM_SPIDataPut
+#define MAP_SPIDataPut \
+ ROM_SPIDataPut
+#else
+#define MAP_SPIDataPut \
+ SPIDataPut
+#endif
+#ifdef ROM_SPIFIFOEnable
+#define MAP_SPIFIFOEnable \
+ ROM_SPIFIFOEnable
+#else
+#define MAP_SPIFIFOEnable \
+ SPIFIFOEnable
+#endif
+#ifdef ROM_SPIFIFODisable
+#define MAP_SPIFIFODisable \
+ ROM_SPIFIFODisable
+#else
+#define MAP_SPIFIFODisable \
+ SPIFIFODisable
+#endif
+#ifdef ROM_SPIFIFOLevelSet
+#define MAP_SPIFIFOLevelSet \
+ ROM_SPIFIFOLevelSet
+#else
+#define MAP_SPIFIFOLevelSet \
+ SPIFIFOLevelSet
+#endif
+#ifdef ROM_SPIFIFOLevelGet
+#define MAP_SPIFIFOLevelGet \
+ ROM_SPIFIFOLevelGet
+#else
+#define MAP_SPIFIFOLevelGet \
+ SPIFIFOLevelGet
+#endif
+#ifdef ROM_SPIWordCountSet
+#define MAP_SPIWordCountSet \
+ ROM_SPIWordCountSet
+#else
+#define MAP_SPIWordCountSet \
+ SPIWordCountSet
+#endif
+#ifdef ROM_SPIIntRegister
+#define MAP_SPIIntRegister \
+ ROM_SPIIntRegister
+#else
+#define MAP_SPIIntRegister \
+ SPIIntRegister
+#endif
+#ifdef ROM_SPIIntUnregister
+#define MAP_SPIIntUnregister \
+ ROM_SPIIntUnregister
+#else
+#define MAP_SPIIntUnregister \
+ SPIIntUnregister
+#endif
+#ifdef ROM_SPIIntEnable
+#define MAP_SPIIntEnable \
+ ROM_SPIIntEnable
+#else
+#define MAP_SPIIntEnable \
+ SPIIntEnable
+#endif
+#ifdef ROM_SPIIntDisable
+#define MAP_SPIIntDisable \
+ ROM_SPIIntDisable
+#else
+#define MAP_SPIIntDisable \
+ SPIIntDisable
+#endif
+#ifdef ROM_SPIIntStatus
+#define MAP_SPIIntStatus \
+ ROM_SPIIntStatus
+#else
+#define MAP_SPIIntStatus \
+ SPIIntStatus
+#endif
+#ifdef ROM_SPIIntClear
+#define MAP_SPIIntClear \
+ ROM_SPIIntClear
+#else
+#define MAP_SPIIntClear \
+ SPIIntClear
+#endif
+#ifdef ROM_SPIDmaEnable
+#define MAP_SPIDmaEnable \
+ ROM_SPIDmaEnable
+#else
+#define MAP_SPIDmaEnable \
+ SPIDmaEnable
+#endif
+#ifdef ROM_SPIDmaDisable
+#define MAP_SPIDmaDisable \
+ ROM_SPIDmaDisable
+#else
+#define MAP_SPIDmaDisable \
+ SPIDmaDisable
+#endif
+#ifdef ROM_SPICSEnable
+#define MAP_SPICSEnable \
+ ROM_SPICSEnable
+#else
+#define MAP_SPICSEnable \
+ SPICSEnable
+#endif
+#ifdef ROM_SPICSDisable
+#define MAP_SPICSDisable \
+ ROM_SPICSDisable
+#else
+#define MAP_SPICSDisable \
+ SPICSDisable
+#endif
+#ifdef ROM_SPITransfer
+#define MAP_SPITransfer \
+ ROM_SPITransfer
+#else
+#define MAP_SPITransfer \
+ SPITransfer
+#endif
+
+//*****************************************************************************
+//
+// Macros for the CAM API.
+//
+//*****************************************************************************
+#ifdef ROM_CameraReset
+#define MAP_CameraReset \
+ ROM_CameraReset
+#else
+#define MAP_CameraReset \
+ CameraReset
+#endif
+#ifdef ROM_CameraParamsConfig
+#define MAP_CameraParamsConfig \
+ ROM_CameraParamsConfig
+#else
+#define MAP_CameraParamsConfig \
+ CameraParamsConfig
+#endif
+#ifdef ROM_CameraXClkConfig
+#define MAP_CameraXClkConfig \
+ ROM_CameraXClkConfig
+#else
+#define MAP_CameraXClkConfig \
+ CameraXClkConfig
+#endif
+#ifdef ROM_CameraXClkSet
+#define MAP_CameraXClkSet \
+ ROM_CameraXClkSet
+#else
+#define MAP_CameraXClkSet \
+ CameraXClkSet
+#endif
+#ifdef ROM_CameraDMAEnable
+#define MAP_CameraDMAEnable \
+ ROM_CameraDMAEnable
+#else
+#define MAP_CameraDMAEnable \
+ CameraDMAEnable
+#endif
+#ifdef ROM_CameraDMADisable
+#define MAP_CameraDMADisable \
+ ROM_CameraDMADisable
+#else
+#define MAP_CameraDMADisable \
+ CameraDMADisable
+#endif
+#ifdef ROM_CameraThresholdSet
+#define MAP_CameraThresholdSet \
+ ROM_CameraThresholdSet
+#else
+#define MAP_CameraThresholdSet \
+ CameraThresholdSet
+#endif
+#ifdef ROM_CameraIntRegister
+#define MAP_CameraIntRegister \
+ ROM_CameraIntRegister
+#else
+#define MAP_CameraIntRegister \
+ CameraIntRegister
+#endif
+#ifdef ROM_CameraIntUnregister
+#define MAP_CameraIntUnregister \
+ ROM_CameraIntUnregister
+#else
+#define MAP_CameraIntUnregister \
+ CameraIntUnregister
+#endif
+#ifdef ROM_CameraIntEnable
+#define MAP_CameraIntEnable \
+ ROM_CameraIntEnable
+#else
+#define MAP_CameraIntEnable \
+ CameraIntEnable
+#endif
+#ifdef ROM_CameraIntDisable
+#define MAP_CameraIntDisable \
+ ROM_CameraIntDisable
+#else
+#define MAP_CameraIntDisable \
+ CameraIntDisable
+#endif
+#ifdef ROM_CameraIntStatus
+#define MAP_CameraIntStatus \
+ ROM_CameraIntStatus
+#else
+#define MAP_CameraIntStatus \
+ CameraIntStatus
+#endif
+#ifdef ROM_CameraIntClear
+#define MAP_CameraIntClear \
+ ROM_CameraIntClear
+#else
+#define MAP_CameraIntClear \
+ CameraIntClear
+#endif
+#ifdef ROM_CameraCaptureStop
+#define MAP_CameraCaptureStop \
+ ROM_CameraCaptureStop
+#else
+#define MAP_CameraCaptureStop \
+ CameraCaptureStop
+#endif
+#ifdef ROM_CameraCaptureStart
+#define MAP_CameraCaptureStart \
+ ROM_CameraCaptureStart
+#else
+#define MAP_CameraCaptureStart \
+ CameraCaptureStart
+#endif
+#ifdef ROM_CameraBufferRead
+#define MAP_CameraBufferRead \
+ ROM_CameraBufferRead
+#else
+#define MAP_CameraBufferRead \
+ CameraBufferRead
+#endif
+
+//*****************************************************************************
+//
+// Macros for the FLASH API.
+//
+//*****************************************************************************
+#ifdef ROM_FlashDisable
+#define MAP_FlashDisable \
+ ROM_FlashDisable
+#else
+#define MAP_FlashDisable \
+ FlashDisable
+#endif
+#ifdef ROM_FlashErase
+#define MAP_FlashErase \
+ ROM_FlashErase
+#else
+#define MAP_FlashErase \
+ FlashErase
+#endif
+#ifdef ROM_FlashMassErase
+#define MAP_FlashMassErase \
+ ROM_FlashMassErase
+#else
+#define MAP_FlashMassErase \
+ FlashMassErase
+#endif
+#ifdef ROM_FlashMassEraseNonBlocking
+#define MAP_FlashMassEraseNonBlocking \
+ ROM_FlashMassEraseNonBlocking
+#else
+#define MAP_FlashMassEraseNonBlocking \
+ FlashMassEraseNonBlocking
+#endif
+#ifdef ROM_FlashEraseNonBlocking
+#define MAP_FlashEraseNonBlocking \
+ ROM_FlashEraseNonBlocking
+#else
+#define MAP_FlashEraseNonBlocking \
+ FlashEraseNonBlocking
+#endif
+#ifdef ROM_FlashProgram
+#define MAP_FlashProgram \
+ ROM_FlashProgram
+#else
+#define MAP_FlashProgram \
+ FlashProgram
+#endif
+#ifdef ROM_FlashProgramNonBlocking
+#define MAP_FlashProgramNonBlocking \
+ ROM_FlashProgramNonBlocking
+#else
+#define MAP_FlashProgramNonBlocking \
+ FlashProgramNonBlocking
+#endif
+#ifdef ROM_FlashIntRegister
+#define MAP_FlashIntRegister \
+ ROM_FlashIntRegister
+#else
+#define MAP_FlashIntRegister \
+ FlashIntRegister
+#endif
+#ifdef ROM_FlashIntUnregister
+#define MAP_FlashIntUnregister \
+ ROM_FlashIntUnregister
+#else
+#define MAP_FlashIntUnregister \
+ FlashIntUnregister
+#endif
+#ifdef ROM_FlashIntEnable
+#define MAP_FlashIntEnable \
+ ROM_FlashIntEnable
+#else
+#define MAP_FlashIntEnable \
+ FlashIntEnable
+#endif
+#ifdef ROM_FlashIntDisable
+#define MAP_FlashIntDisable \
+ ROM_FlashIntDisable
+#else
+#define MAP_FlashIntDisable \
+ FlashIntDisable
+#endif
+#ifdef ROM_FlashIntStatus
+#define MAP_FlashIntStatus \
+ ROM_FlashIntStatus
+#else
+#define MAP_FlashIntStatus \
+ FlashIntStatus
+#endif
+#ifdef ROM_FlashIntClear
+#define MAP_FlashIntClear \
+ ROM_FlashIntClear
+#else
+#define MAP_FlashIntClear \
+ FlashIntClear
+#endif
+#ifdef ROM_FlashProtectGet
+#define MAP_FlashProtectGet \
+ ROM_FlashProtectGet
+#else
+#define MAP_FlashProtectGet \
+ FlashProtectGet
+#endif
+
+//*****************************************************************************
+//
+// Macros for the Pin API.
+//
+//*****************************************************************************
+#ifdef ROM_PinModeSet
+#define MAP_PinModeSet \
+ ROM_PinModeSet
+#else
+#define MAP_PinModeSet \
+ PinModeSet
+#endif
+#ifdef ROM_PinDirModeSet
+#define MAP_PinDirModeSet \
+ ROM_PinDirModeSet
+#else
+#define MAP_PinDirModeSet \
+ PinDirModeSet
+#endif
+#ifdef ROM_PinDirModeGet
+#define MAP_PinDirModeGet \
+ ROM_PinDirModeGet
+#else
+#define MAP_PinDirModeGet \
+ PinDirModeGet
+#endif
+#ifdef ROM_PinModeGet
+#define MAP_PinModeGet \
+ ROM_PinModeGet
+#else
+#define MAP_PinModeGet \
+ PinModeGet
+#endif
+#ifdef ROM_PinConfigGet
+#define MAP_PinConfigGet \
+ ROM_PinConfigGet
+#else
+#define MAP_PinConfigGet \
+ PinConfigGet
+#endif
+#ifdef ROM_PinConfigSet
+#define MAP_PinConfigSet \
+ ROM_PinConfigSet
+#else
+#define MAP_PinConfigSet \
+ PinConfigSet
+#endif
+#ifdef ROM_PinTypeUART
+#define MAP_PinTypeUART \
+ ROM_PinTypeUART
+#else
+#define MAP_PinTypeUART \
+ PinTypeUART
+#endif
+#ifdef ROM_PinTypeI2C
+#define MAP_PinTypeI2C \
+ ROM_PinTypeI2C
+#else
+#define MAP_PinTypeI2C \
+ PinTypeI2C
+#endif
+#ifdef ROM_PinTypeSPI
+#define MAP_PinTypeSPI \
+ ROM_PinTypeSPI
+#else
+#define MAP_PinTypeSPI \
+ PinTypeSPI
+#endif
+#ifdef ROM_PinTypeI2S
+#define MAP_PinTypeI2S \
+ ROM_PinTypeI2S
+#else
+#define MAP_PinTypeI2S \
+ PinTypeI2S
+#endif
+#ifdef ROM_PinTypeTimer
+#define MAP_PinTypeTimer \
+ ROM_PinTypeTimer
+#else
+#define MAP_PinTypeTimer \
+ PinTypeTimer
+#endif
+#ifdef ROM_PinTypeCamera
+#define MAP_PinTypeCamera \
+ ROM_PinTypeCamera
+#else
+#define MAP_PinTypeCamera \
+ PinTypeCamera
+#endif
+#ifdef ROM_PinTypeGPIO
+#define MAP_PinTypeGPIO \
+ ROM_PinTypeGPIO
+#else
+#define MAP_PinTypeGPIO \
+ PinTypeGPIO
+#endif
+#ifdef ROM_PinTypeADC
+#define MAP_PinTypeADC \
+ ROM_PinTypeADC
+#else
+#define MAP_PinTypeADC \
+ PinTypeADC
+#endif
+#ifdef ROM_PinTypeSDHost
+#define MAP_PinTypeSDHost \
+ ROM_PinTypeSDHost
+#else
+#define MAP_PinTypeSDHost \
+ PinTypeSDHost
+#endif
+
+//*****************************************************************************
+//
+// Macros for the SYSTICK API.
+//
+//*****************************************************************************
+#ifdef ROM_SysTickEnable
+#define MAP_SysTickEnable \
+ ROM_SysTickEnable
+#else
+#define MAP_SysTickEnable \
+ SysTickEnable
+#endif
+#ifdef ROM_SysTickDisable
+#define MAP_SysTickDisable \
+ ROM_SysTickDisable
+#else
+#define MAP_SysTickDisable \
+ SysTickDisable
+#endif
+#ifdef ROM_SysTickIntRegister
+#define MAP_SysTickIntRegister \
+ ROM_SysTickIntRegister
+#else
+#define MAP_SysTickIntRegister \
+ SysTickIntRegister
+#endif
+#ifdef ROM_SysTickIntUnregister
+#define MAP_SysTickIntUnregister \
+ ROM_SysTickIntUnregister
+#else
+#define MAP_SysTickIntUnregister \
+ SysTickIntUnregister
+#endif
+#ifdef ROM_SysTickIntEnable
+#define MAP_SysTickIntEnable \
+ ROM_SysTickIntEnable
+#else
+#define MAP_SysTickIntEnable \
+ SysTickIntEnable
+#endif
+#ifdef ROM_SysTickIntDisable
+#define MAP_SysTickIntDisable \
+ ROM_SysTickIntDisable
+#else
+#define MAP_SysTickIntDisable \
+ SysTickIntDisable
+#endif
+#ifdef ROM_SysTickPeriodSet
+#define MAP_SysTickPeriodSet \
+ ROM_SysTickPeriodSet
+#else
+#define MAP_SysTickPeriodSet \
+ SysTickPeriodSet
+#endif
+#ifdef ROM_SysTickPeriodGet
+#define MAP_SysTickPeriodGet \
+ ROM_SysTickPeriodGet
+#else
+#define MAP_SysTickPeriodGet \
+ SysTickPeriodGet
+#endif
+#ifdef ROM_SysTickValueGet
+#define MAP_SysTickValueGet \
+ ROM_SysTickValueGet
+#else
+#define MAP_SysTickValueGet \
+ SysTickValueGet
+#endif
+
+//*****************************************************************************
+//
+// Macros for the UTILS API.
+//
+//*****************************************************************************
+#ifdef ROM_UtilsDelay
+#define MAP_UtilsDelay \
+ ROM_UtilsDelay
+#else
+#define MAP_UtilsDelay \
+ UtilsDelay
+#endif
+
+//*****************************************************************************
+//
+// Macros for the I2S API.
+//
+//*****************************************************************************
+#ifdef ROM_I2SEnable
+#define MAP_I2SEnable \
+ ROM_I2SEnable
+#else
+#define MAP_I2SEnable \
+ I2SEnable
+#endif
+#ifdef ROM_I2SDisable
+#define MAP_I2SDisable \
+ ROM_I2SDisable
+#else
+#define MAP_I2SDisable \
+ I2SDisable
+#endif
+#ifdef ROM_I2SDataPut
+#define MAP_I2SDataPut \
+ ROM_I2SDataPut
+#else
+#define MAP_I2SDataPut \
+ I2SDataPut
+#endif
+#ifdef ROM_I2SDataPutNonBlocking
+#define MAP_I2SDataPutNonBlocking \
+ ROM_I2SDataPutNonBlocking
+#else
+#define MAP_I2SDataPutNonBlocking \
+ I2SDataPutNonBlocking
+#endif
+#ifdef ROM_I2SDataGet
+#define MAP_I2SDataGet \
+ ROM_I2SDataGet
+#else
+#define MAP_I2SDataGet \
+ I2SDataGet
+#endif
+#ifdef ROM_I2SDataGetNonBlocking
+#define MAP_I2SDataGetNonBlocking \
+ ROM_I2SDataGetNonBlocking
+#else
+#define MAP_I2SDataGetNonBlocking \
+ I2SDataGetNonBlocking
+#endif
+#ifdef ROM_I2SConfigSetExpClk
+#define MAP_I2SConfigSetExpClk \
+ ROM_I2SConfigSetExpClk
+#else
+#define MAP_I2SConfigSetExpClk \
+ I2SConfigSetExpClk
+#endif
+#ifdef ROM_I2STxFIFOEnable
+#define MAP_I2STxFIFOEnable \
+ ROM_I2STxFIFOEnable
+#else
+#define MAP_I2STxFIFOEnable \
+ I2STxFIFOEnable
+#endif
+#ifdef ROM_I2STxFIFODisable
+#define MAP_I2STxFIFODisable \
+ ROM_I2STxFIFODisable
+#else
+#define MAP_I2STxFIFODisable \
+ I2STxFIFODisable
+#endif
+#ifdef ROM_I2SRxFIFOEnable
+#define MAP_I2SRxFIFOEnable \
+ ROM_I2SRxFIFOEnable
+#else
+#define MAP_I2SRxFIFOEnable \
+ I2SRxFIFOEnable
+#endif
+#ifdef ROM_I2SRxFIFODisable
+#define MAP_I2SRxFIFODisable \
+ ROM_I2SRxFIFODisable
+#else
+#define MAP_I2SRxFIFODisable \
+ I2SRxFIFODisable
+#endif
+#ifdef ROM_I2STxFIFOStatusGet
+#define MAP_I2STxFIFOStatusGet \
+ ROM_I2STxFIFOStatusGet
+#else
+#define MAP_I2STxFIFOStatusGet \
+ I2STxFIFOStatusGet
+#endif
+#ifdef ROM_I2SRxFIFOStatusGet
+#define MAP_I2SRxFIFOStatusGet \
+ ROM_I2SRxFIFOStatusGet
+#else
+#define MAP_I2SRxFIFOStatusGet \
+ I2SRxFIFOStatusGet
+#endif
+#ifdef ROM_I2SSerializerConfig
+#define MAP_I2SSerializerConfig \
+ ROM_I2SSerializerConfig
+#else
+#define MAP_I2SSerializerConfig \
+ I2SSerializerConfig
+#endif
+#ifdef ROM_I2SIntEnable
+#define MAP_I2SIntEnable \
+ ROM_I2SIntEnable
+#else
+#define MAP_I2SIntEnable \
+ I2SIntEnable
+#endif
+#ifdef ROM_I2SIntDisable
+#define MAP_I2SIntDisable \
+ ROM_I2SIntDisable
+#else
+#define MAP_I2SIntDisable \
+ I2SIntDisable
+#endif
+#ifdef ROM_I2SIntStatus
+#define MAP_I2SIntStatus \
+ ROM_I2SIntStatus
+#else
+#define MAP_I2SIntStatus \
+ I2SIntStatus
+#endif
+#ifdef ROM_I2SIntClear
+#define MAP_I2SIntClear \
+ ROM_I2SIntClear
+#else
+#define MAP_I2SIntClear \
+ I2SIntClear
+#endif
+#ifdef ROM_I2SIntRegister
+#define MAP_I2SIntRegister \
+ ROM_I2SIntRegister
+#else
+#define MAP_I2SIntRegister \
+ I2SIntRegister
+#endif
+#ifdef ROM_I2SIntUnregister
+#define MAP_I2SIntUnregister \
+ ROM_I2SIntUnregister
+#else
+#define MAP_I2SIntUnregister \
+ I2SIntUnregister
+#endif
+
+//*****************************************************************************
+//
+// Macros for the GPIO API.
+//
+//*****************************************************************************
+#ifdef ROM_GPIODirModeSet
+#define MAP_GPIODirModeSet \
+ ROM_GPIODirModeSet
+#else
+#define MAP_GPIODirModeSet \
+ GPIODirModeSet
+#endif
+#ifdef ROM_GPIODirModeGet
+#define MAP_GPIODirModeGet \
+ ROM_GPIODirModeGet
+#else
+#define MAP_GPIODirModeGet \
+ GPIODirModeGet
+#endif
+#ifdef ROM_GPIOIntTypeSet
+#define MAP_GPIOIntTypeSet \
+ ROM_GPIOIntTypeSet
+#else
+#define MAP_GPIOIntTypeSet \
+ GPIOIntTypeSet
+#endif
+#ifdef ROM_GPIODMATriggerEnable
+#define MAP_GPIODMATriggerEnable \
+ ROM_GPIODMATriggerEnable
+#else
+#define MAP_GPIODMATriggerEnable \
+ GPIODMATriggerEnable
+#endif
+#ifdef ROM_GPIODMATriggerDisable
+#define MAP_GPIODMATriggerDisable \
+ ROM_GPIODMATriggerDisable
+#else
+#define MAP_GPIODMATriggerDisable \
+ GPIODMATriggerDisable
+#endif
+#ifdef ROM_GPIOIntTypeGet
+#define MAP_GPIOIntTypeGet \
+ ROM_GPIOIntTypeGet
+#else
+#define MAP_GPIOIntTypeGet \
+ GPIOIntTypeGet
+#endif
+#ifdef ROM_GPIOIntEnable
+#define MAP_GPIOIntEnable \
+ ROM_GPIOIntEnable
+#else
+#define MAP_GPIOIntEnable \
+ GPIOIntEnable
+#endif
+#ifdef ROM_GPIOIntDisable
+#define MAP_GPIOIntDisable \
+ ROM_GPIOIntDisable
+#else
+#define MAP_GPIOIntDisable \
+ GPIOIntDisable
+#endif
+#ifdef ROM_GPIOIntStatus
+#define MAP_GPIOIntStatus \
+ ROM_GPIOIntStatus
+#else
+#define MAP_GPIOIntStatus \
+ GPIOIntStatus
+#endif
+#ifdef ROM_GPIOIntClear
+#define MAP_GPIOIntClear \
+ ROM_GPIOIntClear
+#else
+#define MAP_GPIOIntClear \
+ GPIOIntClear
+#endif
+#ifdef ROM_GPIOIntRegister
+#define MAP_GPIOIntRegister \
+ ROM_GPIOIntRegister
+#else
+#define MAP_GPIOIntRegister \
+ GPIOIntRegister
+#endif
+#ifdef ROM_GPIOIntUnregister
+#define MAP_GPIOIntUnregister \
+ ROM_GPIOIntUnregister
+#else
+#define MAP_GPIOIntUnregister \
+ GPIOIntUnregister
+#endif
+#ifdef ROM_GPIOPinRead
+#define MAP_GPIOPinRead \
+ ROM_GPIOPinRead
+#else
+#define MAP_GPIOPinRead \
+ GPIOPinRead
+#endif
+#ifdef ROM_GPIOPinWrite
+#define MAP_GPIOPinWrite \
+ ROM_GPIOPinWrite
+#else
+#define MAP_GPIOPinWrite \
+ GPIOPinWrite
+#endif
+
+//*****************************************************************************
+//
+// Macros for the AES API.
+//
+//*****************************************************************************
+#ifdef ROM_AESConfigSet
+#define MAP_AESConfigSet \
+ ROM_AESConfigSet
+#else
+#define MAP_AESConfigSet \
+ AESConfigSet
+#endif
+#ifdef ROM_AESKey1Set
+#define MAP_AESKey1Set \
+ ROM_AESKey1Set
+#else
+#define MAP_AESKey1Set \
+ AESKey1Set
+#endif
+#ifdef ROM_AESKey2Set
+#define MAP_AESKey2Set \
+ ROM_AESKey2Set
+#else
+#define MAP_AESKey2Set \
+ AESKey2Set
+#endif
+#ifdef ROM_AESKey3Set
+#define MAP_AESKey3Set \
+ ROM_AESKey3Set
+#else
+#define MAP_AESKey3Set \
+ AESKey3Set
+#endif
+#ifdef ROM_AESIVSet
+#define MAP_AESIVSet \
+ ROM_AESIVSet
+#else
+#define MAP_AESIVSet \
+ AESIVSet
+#endif
+#ifdef ROM_AESTagRead
+#define MAP_AESTagRead \
+ ROM_AESTagRead
+#else
+#define MAP_AESTagRead \
+ AESTagRead
+#endif
+#ifdef ROM_AESDataLengthSet
+#define MAP_AESDataLengthSet \
+ ROM_AESDataLengthSet
+#else
+#define MAP_AESDataLengthSet \
+ AESDataLengthSet
+#endif
+#ifdef ROM_AESAuthDataLengthSet
+#define MAP_AESAuthDataLengthSet \
+ ROM_AESAuthDataLengthSet
+#else
+#define MAP_AESAuthDataLengthSet \
+ AESAuthDataLengthSet
+#endif
+#ifdef ROM_AESDataReadNonBlocking
+#define MAP_AESDataReadNonBlocking \
+ ROM_AESDataReadNonBlocking
+#else
+#define MAP_AESDataReadNonBlocking \
+ AESDataReadNonBlocking
+#endif
+#ifdef ROM_AESDataRead
+#define MAP_AESDataRead \
+ ROM_AESDataRead
+#else
+#define MAP_AESDataRead \
+ AESDataRead
+#endif
+#ifdef ROM_AESDataWriteNonBlocking
+#define MAP_AESDataWriteNonBlocking \
+ ROM_AESDataWriteNonBlocking
+#else
+#define MAP_AESDataWriteNonBlocking \
+ AESDataWriteNonBlocking
+#endif
+#ifdef ROM_AESDataWrite
+#define MAP_AESDataWrite \
+ ROM_AESDataWrite
+#else
+#define MAP_AESDataWrite \
+ AESDataWrite
+#endif
+#ifdef ROM_AESDataProcess
+#define MAP_AESDataProcess \
+ ROM_AESDataProcess
+#else
+#define MAP_AESDataProcess \
+ AESDataProcess
+#endif
+#ifdef ROM_AESDataMAC
+#define MAP_AESDataMAC \
+ ROM_AESDataMAC
+#else
+#define MAP_AESDataMAC \
+ AESDataMAC
+#endif
+#ifdef ROM_AESDataProcessAE
+#define MAP_AESDataProcessAE \
+ ROM_AESDataProcessAE
+#else
+#define MAP_AESDataProcessAE \
+ AESDataProcessAE
+#endif
+#ifdef ROM_AESIntStatus
+#define MAP_AESIntStatus \
+ ROM_AESIntStatus
+#else
+#define MAP_AESIntStatus \
+ AESIntStatus
+#endif
+#ifdef ROM_AESIntEnable
+#define MAP_AESIntEnable \
+ ROM_AESIntEnable
+#else
+#define MAP_AESIntEnable \
+ AESIntEnable
+#endif
+#ifdef ROM_AESIntDisable
+#define MAP_AESIntDisable \
+ ROM_AESIntDisable
+#else
+#define MAP_AESIntDisable \
+ AESIntDisable
+#endif
+#ifdef ROM_AESIntClear
+#define MAP_AESIntClear \
+ ROM_AESIntClear
+#else
+#define MAP_AESIntClear \
+ AESIntClear
+#endif
+#ifdef ROM_AESIntRegister
+#define MAP_AESIntRegister \
+ ROM_AESIntRegister
+#else
+#define MAP_AESIntRegister \
+ AESIntRegister
+#endif
+#ifdef ROM_AESIntUnregister
+#define MAP_AESIntUnregister \
+ ROM_AESIntUnregister
+#else
+#define MAP_AESIntUnregister \
+ AESIntUnregister
+#endif
+#ifdef ROM_AESDMAEnable
+#define MAP_AESDMAEnable \
+ ROM_AESDMAEnable
+#else
+#define MAP_AESDMAEnable \
+ AESDMAEnable
+#endif
+#ifdef ROM_AESDMADisable
+#define MAP_AESDMADisable \
+ ROM_AESDMADisable
+#else
+#define MAP_AESDMADisable \
+ AESDMADisable
+#endif
+
+//*****************************************************************************
+//
+// Macros for the DES API.
+//
+//*****************************************************************************
+#ifdef ROM_DESConfigSet
+#define MAP_DESConfigSet \
+ ROM_DESConfigSet
+#else
+#define MAP_DESConfigSet \
+ DESConfigSet
+#endif
+#ifdef ROM_DESDataRead
+#define MAP_DESDataRead \
+ ROM_DESDataRead
+#else
+#define MAP_DESDataRead \
+ DESDataRead
+#endif
+#ifdef ROM_DESDataReadNonBlocking
+#define MAP_DESDataReadNonBlocking \
+ ROM_DESDataReadNonBlocking
+#else
+#define MAP_DESDataReadNonBlocking \
+ DESDataReadNonBlocking
+#endif
+#ifdef ROM_DESDataProcess
+#define MAP_DESDataProcess \
+ ROM_DESDataProcess
+#else
+#define MAP_DESDataProcess \
+ DESDataProcess
+#endif
+#ifdef ROM_DESDataWrite
+#define MAP_DESDataWrite \
+ ROM_DESDataWrite
+#else
+#define MAP_DESDataWrite \
+ DESDataWrite
+#endif
+#ifdef ROM_DESDataWriteNonBlocking
+#define MAP_DESDataWriteNonBlocking \
+ ROM_DESDataWriteNonBlocking
+#else
+#define MAP_DESDataWriteNonBlocking \
+ DESDataWriteNonBlocking
+#endif
+#ifdef ROM_DESDMADisable
+#define MAP_DESDMADisable \
+ ROM_DESDMADisable
+#else
+#define MAP_DESDMADisable \
+ DESDMADisable
+#endif
+#ifdef ROM_DESDMAEnable
+#define MAP_DESDMAEnable \
+ ROM_DESDMAEnable
+#else
+#define MAP_DESDMAEnable \
+ DESDMAEnable
+#endif
+#ifdef ROM_DESIntClear
+#define MAP_DESIntClear \
+ ROM_DESIntClear
+#else
+#define MAP_DESIntClear \
+ DESIntClear
+#endif
+#ifdef ROM_DESIntDisable
+#define MAP_DESIntDisable \
+ ROM_DESIntDisable
+#else
+#define MAP_DESIntDisable \
+ DESIntDisable
+#endif
+#ifdef ROM_DESIntEnable
+#define MAP_DESIntEnable \
+ ROM_DESIntEnable
+#else
+#define MAP_DESIntEnable \
+ DESIntEnable
+#endif
+#ifdef ROM_DESIntRegister
+#define MAP_DESIntRegister \
+ ROM_DESIntRegister
+#else
+#define MAP_DESIntRegister \
+ DESIntRegister
+#endif
+#ifdef ROM_DESIntStatus
+#define MAP_DESIntStatus \
+ ROM_DESIntStatus
+#else
+#define MAP_DESIntStatus \
+ DESIntStatus
+#endif
+#ifdef ROM_DESIntUnregister
+#define MAP_DESIntUnregister \
+ ROM_DESIntUnregister
+#else
+#define MAP_DESIntUnregister \
+ DESIntUnregister
+#endif
+#ifdef ROM_DESIVSet
+#define MAP_DESIVSet \
+ ROM_DESIVSet
+#else
+#define MAP_DESIVSet \
+ DESIVSet
+#endif
+#ifdef ROM_DESKeySet
+#define MAP_DESKeySet \
+ ROM_DESKeySet
+#else
+#define MAP_DESKeySet \
+ DESKeySet
+#endif
+#ifdef ROM_DESDataLengthSet
+#define MAP_DESDataLengthSet \
+ ROM_DESDataLengthSet
+#else
+#define MAP_DESDataLengthSet \
+ DESDataLengthSet
+#endif
+
+//*****************************************************************************
+//
+// Macros for the SHAMD5 API.
+//
+//*****************************************************************************
+#ifdef ROM_SHAMD5ConfigSet
+#define MAP_SHAMD5ConfigSet \
+ ROM_SHAMD5ConfigSet
+#else
+#define MAP_SHAMD5ConfigSet \
+ SHAMD5ConfigSet
+#endif
+#ifdef ROM_SHAMD5DataProcess
+#define MAP_SHAMD5DataProcess \
+ ROM_SHAMD5DataProcess
+#else
+#define MAP_SHAMD5DataProcess \
+ SHAMD5DataProcess
+#endif
+#ifdef ROM_SHAMD5DataWrite
+#define MAP_SHAMD5DataWrite \
+ ROM_SHAMD5DataWrite
+#else
+#define MAP_SHAMD5DataWrite \
+ SHAMD5DataWrite
+#endif
+#ifdef ROM_SHAMD5DataWriteNonBlocking
+#define MAP_SHAMD5DataWriteNonBlocking \
+ ROM_SHAMD5DataWriteNonBlocking
+#else
+#define MAP_SHAMD5DataWriteNonBlocking \
+ SHAMD5DataWriteNonBlocking
+#endif
+#ifdef ROM_SHAMD5DMADisable
+#define MAP_SHAMD5DMADisable \
+ ROM_SHAMD5DMADisable
+#else
+#define MAP_SHAMD5DMADisable \
+ SHAMD5DMADisable
+#endif
+#ifdef ROM_SHAMD5DMAEnable
+#define MAP_SHAMD5DMAEnable \
+ ROM_SHAMD5DMAEnable
+#else
+#define MAP_SHAMD5DMAEnable \
+ SHAMD5DMAEnable
+#endif
+#ifdef ROM_SHAMD5DataLengthSet
+#define MAP_SHAMD5DataLengthSet \
+ ROM_SHAMD5DataLengthSet
+#else
+#define MAP_SHAMD5DataLengthSet \
+ SHAMD5DataLengthSet
+#endif
+#ifdef ROM_SHAMD5HMACKeySet
+#define MAP_SHAMD5HMACKeySet \
+ ROM_SHAMD5HMACKeySet
+#else
+#define MAP_SHAMD5HMACKeySet \
+ SHAMD5HMACKeySet
+#endif
+#ifdef ROM_SHAMD5HMACPPKeyGenerate
+#define MAP_SHAMD5HMACPPKeyGenerate \
+ ROM_SHAMD5HMACPPKeyGenerate
+#else
+#define MAP_SHAMD5HMACPPKeyGenerate \
+ SHAMD5HMACPPKeyGenerate
+#endif
+#ifdef ROM_SHAMD5HMACPPKeySet
+#define MAP_SHAMD5HMACPPKeySet \
+ ROM_SHAMD5HMACPPKeySet
+#else
+#define MAP_SHAMD5HMACPPKeySet \
+ SHAMD5HMACPPKeySet
+#endif
+#ifdef ROM_SHAMD5HMACProcess
+#define MAP_SHAMD5HMACProcess \
+ ROM_SHAMD5HMACProcess
+#else
+#define MAP_SHAMD5HMACProcess \
+ SHAMD5HMACProcess
+#endif
+#ifdef ROM_SHAMD5IntClear
+#define MAP_SHAMD5IntClear \
+ ROM_SHAMD5IntClear
+#else
+#define MAP_SHAMD5IntClear \
+ SHAMD5IntClear
+#endif
+#ifdef ROM_SHAMD5IntDisable
+#define MAP_SHAMD5IntDisable \
+ ROM_SHAMD5IntDisable
+#else
+#define MAP_SHAMD5IntDisable \
+ SHAMD5IntDisable
+#endif
+#ifdef ROM_SHAMD5IntEnable
+#define MAP_SHAMD5IntEnable \
+ ROM_SHAMD5IntEnable
+#else
+#define MAP_SHAMD5IntEnable \
+ SHAMD5IntEnable
+#endif
+#ifdef ROM_SHAMD5IntRegister
+#define MAP_SHAMD5IntRegister \
+ ROM_SHAMD5IntRegister
+#else
+#define MAP_SHAMD5IntRegister \
+ SHAMD5IntRegister
+#endif
+#ifdef ROM_SHAMD5IntStatus
+#define MAP_SHAMD5IntStatus \
+ ROM_SHAMD5IntStatus
+#else
+#define MAP_SHAMD5IntStatus \
+ SHAMD5IntStatus
+#endif
+#ifdef ROM_SHAMD5IntUnregister
+#define MAP_SHAMD5IntUnregister \
+ ROM_SHAMD5IntUnregister
+#else
+#define MAP_SHAMD5IntUnregister \
+ SHAMD5IntUnregister
+#endif
+#ifdef ROM_SHAMD5ResultRead
+#define MAP_SHAMD5ResultRead \
+ ROM_SHAMD5ResultRead
+#else
+#define MAP_SHAMD5ResultRead \
+ SHAMD5ResultRead
+#endif
+
+//*****************************************************************************
+//
+// Macros for the CRC API.
+//
+//*****************************************************************************
+#ifdef ROM_CRCConfigSet
+#define MAP_CRCConfigSet \
+ ROM_CRCConfigSet
+#else
+#define MAP_CRCConfigSet \
+ CRCConfigSet
+#endif
+#ifdef ROM_CRCDataProcess
+#define MAP_CRCDataProcess \
+ ROM_CRCDataProcess
+#else
+#define MAP_CRCDataProcess \
+ CRCDataProcess
+#endif
+#ifdef ROM_CRCDataWrite
+#define MAP_CRCDataWrite \
+ ROM_CRCDataWrite
+#else
+#define MAP_CRCDataWrite \
+ CRCDataWrite
+#endif
+#ifdef ROM_CRCResultRead
+#define MAP_CRCResultRead \
+ ROM_CRCResultRead
+#else
+#define MAP_CRCResultRead \
+ CRCResultRead
+#endif
+#ifdef ROM_CRCSeedSet
+#define MAP_CRCSeedSet \
+ ROM_CRCSeedSet
+#else
+#define MAP_CRCSeedSet \
+ CRCSeedSet
+#endif
+
+//*****************************************************************************
+//
+// Macros for the SDHOST API.
+//
+//*****************************************************************************
+#ifdef ROM_SDHostCmdReset
+#define MAP_SDHostCmdReset \
+ ROM_SDHostCmdReset
+#else
+#define MAP_SDHostCmdReset \
+ SDHostCmdReset
+#endif
+#ifdef ROM_SDHostInit
+#define MAP_SDHostInit \
+ ROM_SDHostInit
+#else
+#define MAP_SDHostInit \
+ SDHostInit
+#endif
+#ifdef ROM_SDHostCmdSend
+#define MAP_SDHostCmdSend \
+ ROM_SDHostCmdSend
+#else
+#define MAP_SDHostCmdSend \
+ SDHostCmdSend
+#endif
+#ifdef ROM_SDHostIntRegister
+#define MAP_SDHostIntRegister \
+ ROM_SDHostIntRegister
+#else
+#define MAP_SDHostIntRegister \
+ SDHostIntRegister
+#endif
+#ifdef ROM_SDHostIntUnregister
+#define MAP_SDHostIntUnregister \
+ ROM_SDHostIntUnregister
+#else
+#define MAP_SDHostIntUnregister \
+ SDHostIntUnregister
+#endif
+#ifdef ROM_SDHostIntEnable
+#define MAP_SDHostIntEnable \
+ ROM_SDHostIntEnable
+#else
+#define MAP_SDHostIntEnable \
+ SDHostIntEnable
+#endif
+#ifdef ROM_SDHostIntDisable
+#define MAP_SDHostIntDisable \
+ ROM_SDHostIntDisable
+#else
+#define MAP_SDHostIntDisable \
+ SDHostIntDisable
+#endif
+#ifdef ROM_SDHostIntStatus
+#define MAP_SDHostIntStatus \
+ ROM_SDHostIntStatus
+#else
+#define MAP_SDHostIntStatus \
+ SDHostIntStatus
+#endif
+#ifdef ROM_SDHostIntClear
+#define MAP_SDHostIntClear \
+ ROM_SDHostIntClear
+#else
+#define MAP_SDHostIntClear \
+ SDHostIntClear
+#endif
+#ifdef ROM_SDHostRespStatus
+#define MAP_SDHostRespStatus \
+ ROM_SDHostRespStatus
+#else
+#define MAP_SDHostRespStatus \
+ SDHostRespStatus
+#endif
+#ifdef ROM_SDHostRespGet
+#define MAP_SDHostRespGet \
+ ROM_SDHostRespGet
+#else
+#define MAP_SDHostRespGet \
+ SDHostRespGet
+#endif
+#ifdef ROM_SDHostBlockSizeSet
+#define MAP_SDHostBlockSizeSet \
+ ROM_SDHostBlockSizeSet
+#else
+#define MAP_SDHostBlockSizeSet \
+ SDHostBlockSizeSet
+#endif
+#ifdef ROM_SDHostBlockCountSet
+#define MAP_SDHostBlockCountSet \
+ ROM_SDHostBlockCountSet
+#else
+#define MAP_SDHostBlockCountSet \
+ SDHostBlockCountSet
+#endif
+#ifdef ROM_SDHostDataNonBlockingWrite
+#define MAP_SDHostDataNonBlockingWrite \
+ ROM_SDHostDataNonBlockingWrite
+#else
+#define MAP_SDHostDataNonBlockingWrite \
+ SDHostDataNonBlockingWrite
+#endif
+#ifdef ROM_SDHostDataNonBlockingRead
+#define MAP_SDHostDataNonBlockingRead \
+ ROM_SDHostDataNonBlockingRead
+#else
+#define MAP_SDHostDataNonBlockingRead \
+ SDHostDataNonBlockingRead
+#endif
+#ifdef ROM_SDHostDataWrite
+#define MAP_SDHostDataWrite \
+ ROM_SDHostDataWrite
+#else
+#define MAP_SDHostDataWrite \
+ SDHostDataWrite
+#endif
+#ifdef ROM_SDHostDataRead
+#define MAP_SDHostDataRead \
+ ROM_SDHostDataRead
+#else
+#define MAP_SDHostDataRead \
+ SDHostDataRead
+#endif
+#ifdef ROM_SDHostSetExpClk
+#define MAP_SDHostSetExpClk \
+ ROM_SDHostSetExpClk
+#else
+#define MAP_SDHostSetExpClk \
+ SDHostSetExpClk
+#endif
+
+//*****************************************************************************
+//
+// Macros for the PRCM API.
+//
+//*****************************************************************************
+#ifdef ROM_PRCMMCUReset
+#define MAP_PRCMMCUReset \
+ ROM_PRCMMCUReset
+#else
+#define MAP_PRCMMCUReset \
+ PRCMMCUReset
+#endif
+#ifdef ROM_PRCMSysResetCauseGet
+#define MAP_PRCMSysResetCauseGet \
+ ROM_PRCMSysResetCauseGet
+#else
+#define MAP_PRCMSysResetCauseGet \
+ PRCMSysResetCauseGet
+#endif
+#ifdef ROM_PRCMPeripheralClkEnable
+#define MAP_PRCMPeripheralClkEnable \
+ ROM_PRCMPeripheralClkEnable
+#else
+#define MAP_PRCMPeripheralClkEnable \
+ PRCMPeripheralClkEnable
+#endif
+#ifdef ROM_PRCMPeripheralClkDisable
+#define MAP_PRCMPeripheralClkDisable \
+ ROM_PRCMPeripheralClkDisable
+#else
+#define MAP_PRCMPeripheralClkDisable \
+ PRCMPeripheralClkDisable
+#endif
+#ifdef ROM_PRCMPeripheralReset
+#define MAP_PRCMPeripheralReset \
+ ROM_PRCMPeripheralReset
+#else
+#define MAP_PRCMPeripheralReset \
+ PRCMPeripheralReset
+#endif
+#ifdef ROM_PRCMPeripheralStatusGet
+#define MAP_PRCMPeripheralStatusGet \
+ ROM_PRCMPeripheralStatusGet
+#else
+#define MAP_PRCMPeripheralStatusGet \
+ PRCMPeripheralStatusGet
+#endif
+#ifdef ROM_PRCMI2SClockFreqSet
+#define MAP_PRCMI2SClockFreqSet \
+ ROM_PRCMI2SClockFreqSet
+#else
+#define MAP_PRCMI2SClockFreqSet \
+ PRCMI2SClockFreqSet
+#endif
+#ifdef ROM_PRCMPeripheralClockGet
+#define MAP_PRCMPeripheralClockGet \
+ ROM_PRCMPeripheralClockGet
+#else
+#define MAP_PRCMPeripheralClockGet \
+ PRCMPeripheralClockGet
+#endif
+#ifdef ROM_PRCMSleepEnter
+#define MAP_PRCMSleepEnter \
+ ROM_PRCMSleepEnter
+#else
+#define MAP_PRCMSleepEnter \
+ PRCMSleepEnter
+#endif
+#ifdef ROM_PRCMDeepSleepEnter
+#define MAP_PRCMDeepSleepEnter \
+ ROM_PRCMDeepSleepEnter
+#else
+#define MAP_PRCMDeepSleepEnter \
+ PRCMDeepSleepEnter
+#endif
+#ifdef ROM_PRCMSRAMRetentionEnable
+#define MAP_PRCMSRAMRetentionEnable \
+ ROM_PRCMSRAMRetentionEnable
+#else
+#define MAP_PRCMSRAMRetentionEnable \
+ PRCMSRAMRetentionEnable
+#endif
+#ifdef ROM_PRCMSRAMRetentionDisable
+#define MAP_PRCMSRAMRetentionDisable \
+ ROM_PRCMSRAMRetentionDisable
+#else
+#define MAP_PRCMSRAMRetentionDisable \
+ PRCMSRAMRetentionDisable
+#endif
+#ifdef ROM_PRCMLPDSEnter
+#define MAP_PRCMLPDSEnter \
+ ROM_PRCMLPDSEnter
+#else
+#define MAP_PRCMLPDSEnter \
+ PRCMLPDSEnter
+#endif
+#ifdef ROM_PRCMLPDSIntervalSet
+#define MAP_PRCMLPDSIntervalSet \
+ ROM_PRCMLPDSIntervalSet
+#else
+#define MAP_PRCMLPDSIntervalSet \
+ PRCMLPDSIntervalSet
+#endif
+#ifdef ROM_PRCMLPDSWakeupSourceEnable
+#define MAP_PRCMLPDSWakeupSourceEnable \
+ ROM_PRCMLPDSWakeupSourceEnable
+#else
+#define MAP_PRCMLPDSWakeupSourceEnable \
+ PRCMLPDSWakeupSourceEnable
+#endif
+#ifdef ROM_PRCMLPDSWakeupCauseGet
+#define MAP_PRCMLPDSWakeupCauseGet \
+ ROM_PRCMLPDSWakeupCauseGet
+#else
+#define MAP_PRCMLPDSWakeupCauseGet \
+ PRCMLPDSWakeupCauseGet
+#endif
+#ifdef ROM_PRCMLPDSWakeUpGPIOSelect
+#define MAP_PRCMLPDSWakeUpGPIOSelect \
+ ROM_PRCMLPDSWakeUpGPIOSelect
+#else
+#define MAP_PRCMLPDSWakeUpGPIOSelect \
+ PRCMLPDSWakeUpGPIOSelect
+#endif
+#ifdef ROM_PRCMLPDSWakeupSourceDisable
+#define MAP_PRCMLPDSWakeupSourceDisable \
+ ROM_PRCMLPDSWakeupSourceDisable
+#else
+#define MAP_PRCMLPDSWakeupSourceDisable \
+ PRCMLPDSWakeupSourceDisable
+#endif
+#ifdef ROM_PRCMHibernateEnter
+#define MAP_PRCMHibernateEnter \
+ ROM_PRCMHibernateEnter
+#else
+#define MAP_PRCMHibernateEnter \
+ PRCMHibernateEnter
+#endif
+#ifdef ROM_PRCMHibernateWakeupSourceEnable
+#define MAP_PRCMHibernateWakeupSourceEnable \
+ ROM_PRCMHibernateWakeupSourceEnable
+#else
+#define MAP_PRCMHibernateWakeupSourceEnable \
+ PRCMHibernateWakeupSourceEnable
+#endif
+#ifdef ROM_PRCMHibernateWakeupCauseGet
+#define MAP_PRCMHibernateWakeupCauseGet \
+ ROM_PRCMHibernateWakeupCauseGet
+#else
+#define MAP_PRCMHibernateWakeupCauseGet \
+ PRCMHibernateWakeupCauseGet
+#endif
+#ifdef ROM_PRCMHibernateWakeUpGPIOSelect
+#define MAP_PRCMHibernateWakeUpGPIOSelect \
+ ROM_PRCMHibernateWakeUpGPIOSelect
+#else
+#define MAP_PRCMHibernateWakeUpGPIOSelect \
+ PRCMHibernateWakeUpGPIOSelect
+#endif
+#ifdef ROM_PRCMHibernateWakeupSourceDisable
+#define MAP_PRCMHibernateWakeupSourceDisable \
+ ROM_PRCMHibernateWakeupSourceDisable
+#else
+#define MAP_PRCMHibernateWakeupSourceDisable \
+ PRCMHibernateWakeupSourceDisable
+#endif
+#ifdef ROM_PRCMHibernateIntervalSet
+#define MAP_PRCMHibernateIntervalSet \
+ ROM_PRCMHibernateIntervalSet
+#else
+#define MAP_PRCMHibernateIntervalSet \
+ PRCMHibernateIntervalSet
+#endif
+#ifdef ROM_PRCMSlowClkCtrGet
+#define MAP_PRCMSlowClkCtrGet \
+ ROM_PRCMSlowClkCtrGet
+#else
+#define MAP_PRCMSlowClkCtrGet \
+ PRCMSlowClkCtrGet
+#endif
+#ifdef ROM_PRCMSlowClkCtrMatchSet
+#define MAP_PRCMSlowClkCtrMatchSet \
+ ROM_PRCMSlowClkCtrMatchSet
+#else
+#define MAP_PRCMSlowClkCtrMatchSet \
+ PRCMSlowClkCtrMatchSet
+#endif
+#ifdef ROM_PRCMSlowClkCtrMatchGet
+#define MAP_PRCMSlowClkCtrMatchGet \
+ ROM_PRCMSlowClkCtrMatchGet
+#else
+#define MAP_PRCMSlowClkCtrMatchGet \
+ PRCMSlowClkCtrMatchGet
+#endif
+#ifdef ROM_PRCMOCRRegisterWrite
+#define MAP_PRCMOCRRegisterWrite \
+ ROM_PRCMOCRRegisterWrite
+#else
+#define MAP_PRCMOCRRegisterWrite \
+ PRCMOCRRegisterWrite
+#endif
+#ifdef ROM_PRCMOCRRegisterRead
+#define MAP_PRCMOCRRegisterRead \
+ ROM_PRCMOCRRegisterRead
+#else
+#define MAP_PRCMOCRRegisterRead \
+ PRCMOCRRegisterRead
+#endif
+#ifdef ROM_PRCMIntRegister
+#define MAP_PRCMIntRegister \
+ ROM_PRCMIntRegister
+#else
+#define MAP_PRCMIntRegister \
+ PRCMIntRegister
+#endif
+#ifdef ROM_PRCMIntUnregister
+#define MAP_PRCMIntUnregister \
+ ROM_PRCMIntUnregister
+#else
+#define MAP_PRCMIntUnregister \
+ PRCMIntUnregister
+#endif
+#ifdef ROM_PRCMIntEnable
+#define MAP_PRCMIntEnable \
+ ROM_PRCMIntEnable
+#else
+#define MAP_PRCMIntEnable \
+ PRCMIntEnable
+#endif
+#ifdef ROM_PRCMIntDisable
+#define MAP_PRCMIntDisable \
+ ROM_PRCMIntDisable
+#else
+#define MAP_PRCMIntDisable \
+ PRCMIntDisable
+#endif
+#ifdef ROM_PRCMIntStatus
+#define MAP_PRCMIntStatus \
+ ROM_PRCMIntStatus
+#else
+#define MAP_PRCMIntStatus \
+ PRCMIntStatus
+#endif
+#ifdef ROM_PRCMRTCInUseSet
+#define MAP_PRCMRTCInUseSet \
+ ROM_PRCMRTCInUseSet
+#else
+#define MAP_PRCMRTCInUseSet \
+ PRCMRTCInUseSet
+#endif
+#ifdef ROM_PRCMRTCInUseGet
+#define MAP_PRCMRTCInUseGet \
+ ROM_PRCMRTCInUseGet
+#else
+#define MAP_PRCMRTCInUseGet \
+ PRCMRTCInUseGet
+#endif
+#ifdef ROM_PRCMRTCSet
+#define MAP_PRCMRTCSet \
+ ROM_PRCMRTCSet
+#else
+#define MAP_PRCMRTCSet \
+ PRCMRTCSet
+#endif
+#ifdef ROM_PRCMRTCGet
+#define MAP_PRCMRTCGet \
+ ROM_PRCMRTCGet
+#else
+#define MAP_PRCMRTCGet \
+ PRCMRTCGet
+#endif
+#ifdef ROM_PRCMRTCMatchSet
+#define MAP_PRCMRTCMatchSet \
+ ROM_PRCMRTCMatchSet
+#else
+#define MAP_PRCMRTCMatchSet \
+ PRCMRTCMatchSet
+#endif
+#ifdef ROM_PRCMRTCMatchGet
+#define MAP_PRCMRTCMatchGet \
+ ROM_PRCMRTCMatchGet
+#else
+#define MAP_PRCMRTCMatchGet \
+ PRCMRTCMatchGet
+#endif
+#ifdef ROM_PRCMLPDSRestoreInfoSet
+#define MAP_PRCMLPDSRestoreInfoSet \
+ ROM_PRCMLPDSRestoreInfoSet
+#else
+#define MAP_PRCMLPDSRestoreInfoSet \
+ PRCMLPDSRestoreInfoSet
+#endif
+
+#ifdef ROM_PRCMHIBRegRead
+#define MAP_PRCMHIBRegRead \
+ ROM_PRCMHIBRegRead
+#else
+#define MAP_PRCMHIBRegRead \
+ PRCMHIBRegRead
+#endif
+
+#ifdef ROM_PRCMHIBRegWrite
+#define MAP_PRCMHIBRegWrite \
+ ROM_PRCMHIBRegWrite
+#else
+#define MAP_PRCMHIBRegWrite \
+ PRCMHIBRegWrite
+#endif
+
+//*****************************************************************************
+//
+// Macros for the HWSPINLOCK API.
+//
+//*****************************************************************************
+#ifdef ROM_HwSpinLockAcquire
+#define MAP_HwSpinLockAcquire \
+ ROM_HwSpinLockAcquire
+#else
+#define MAP_HwSpinLockAcquire \
+ HwSpinLockAcquire
+#endif
+#ifdef ROM_HwSpinLockTryAcquire
+#define MAP_HwSpinLockTryAcquire \
+ ROM_HwSpinLockTryAcquire
+#else
+#define MAP_HwSpinLockTryAcquire \
+ HwSpinLockTryAcquire
+#endif
+#ifdef ROM_HwSpinLockRelease
+#define MAP_HwSpinLockRelease \
+ ROM_HwSpinLockRelease
+#else
+#define MAP_HwSpinLockRelease \
+ HwSpinLockRelease
+#endif
+#ifdef ROM_HwSpinLockTest
+#define MAP_HwSpinLockTest \
+ ROM_HwSpinLockTest
+#else
+#define MAP_HwSpinLockTest \
+ HwSpinLockTest
+#endif
+
+//*****************************************************************************
+//
+// Macros for the ADC API.
+//
+//*****************************************************************************
+#ifdef ROM_ADCEnable
+#define MAP_ADCEnable \
+ ROM_ADCEnable
+#else
+#define MAP_ADCEnable \
+ ADCEnable
+#endif
+#ifdef ROM_ADCDisable
+#define MAP_ADCDisable \
+ ROM_ADCDisable
+#else
+#define MAP_ADCDisable \
+ ADCDisable
+#endif
+#ifdef ROM_ADCChannelEnable
+#define MAP_ADCChannelEnable \
+ ROM_ADCChannelEnable
+#else
+#define MAP_ADCChannelEnable \
+ ADCChannelEnable
+#endif
+#ifdef ROM_ADCChannelDisable
+#define MAP_ADCChannelDisable \
+ ROM_ADCChannelDisable
+#else
+#define MAP_ADCChannelDisable \
+ ADCChannelDisable
+#endif
+#ifdef ROM_ADCIntRegister
+#define MAP_ADCIntRegister \
+ ROM_ADCIntRegister
+#else
+#define MAP_ADCIntRegister \
+ ADCIntRegister
+#endif
+#ifdef ROM_ADCIntUnregister
+#define MAP_ADCIntUnregister \
+ ROM_ADCIntUnregister
+#else
+#define MAP_ADCIntUnregister \
+ ADCIntUnregister
+#endif
+#ifdef ROM_ADCIntEnable
+#define MAP_ADCIntEnable \
+ ROM_ADCIntEnable
+#else
+#define MAP_ADCIntEnable \
+ ADCIntEnable
+#endif
+#ifdef ROM_ADCIntDisable
+#define MAP_ADCIntDisable \
+ ROM_ADCIntDisable
+#else
+#define MAP_ADCIntDisable \
+ ADCIntDisable
+#endif
+#ifdef ROM_ADCIntStatus
+#define MAP_ADCIntStatus \
+ ROM_ADCIntStatus
+#else
+#define MAP_ADCIntStatus \
+ ADCIntStatus
+#endif
+#ifdef ROM_ADCIntClear
+#define MAP_ADCIntClear \
+ ROM_ADCIntClear
+#else
+#define MAP_ADCIntClear \
+ ADCIntClear
+#endif
+#ifdef ROM_ADCDMAEnable
+#define MAP_ADCDMAEnable \
+ ROM_ADCDMAEnable
+#else
+#define MAP_ADCDMAEnable \
+ ADCDMAEnable
+#endif
+#ifdef ROM_ADCDMADisable
+#define MAP_ADCDMADisable \
+ ROM_ADCDMADisable
+#else
+#define MAP_ADCDMADisable \
+ ADCDMADisable
+#endif
+#ifdef ROM_ADCChannelGainSet
+#define MAP_ADCChannelGainSet \
+ ROM_ADCChannelGainSet
+#else
+#define MAP_ADCChannelGainSet \
+ ADCChannelGainSet
+#endif
+#ifdef ROM_ADCChannleGainGet
+#define MAP_ADCChannleGainGet \
+ ROM_ADCChannleGainGet
+#else
+#define MAP_ADCChannleGainGet \
+ ADCChannleGainGet
+#endif
+#ifdef ROM_ADCTimerConfig
+#define MAP_ADCTimerConfig \
+ ROM_ADCTimerConfig
+#else
+#define MAP_ADCTimerConfig \
+ ADCTimerConfig
+#endif
+#ifdef ROM_ADCTimerEnable
+#define MAP_ADCTimerEnable \
+ ROM_ADCTimerEnable
+#else
+#define MAP_ADCTimerEnable \
+ ADCTimerEnable
+#endif
+#ifdef ROM_ADCTimerDisable
+#define MAP_ADCTimerDisable \
+ ROM_ADCTimerDisable
+#else
+#define MAP_ADCTimerDisable \
+ ADCTimerDisable
+#endif
+#ifdef ROM_ADCTimerReset
+#define MAP_ADCTimerReset \
+ ROM_ADCTimerReset
+#else
+#define MAP_ADCTimerReset \
+ ADCTimerReset
+#endif
+#ifdef ROM_ADCTimerValueGet
+#define MAP_ADCTimerValueGet \
+ ROM_ADCTimerValueGet
+#else
+#define MAP_ADCTimerValueGet \
+ ADCTimerValueGet
+#endif
+#ifdef ROM_ADCFIFOLvlGet
+#define MAP_ADCFIFOLvlGet \
+ ROM_ADCFIFOLvlGet
+#else
+#define MAP_ADCFIFOLvlGet \
+ ADCFIFOLvlGet
+#endif
+#ifdef ROM_ADCFIFORead
+#define MAP_ADCFIFORead \
+ ROM_ADCFIFORead
+#else
+#define MAP_ADCFIFORead \
+ ADCFIFORead
+#endif
+
+#endif // __ROM_MAP_H__
diff --git a/cc3200/hal/rom_patch.h b/cc3200/hal/rom_patch.h
new file mode 100644
index 000000000..4df44bd5d
--- /dev/null
+++ b/cc3200/hal/rom_patch.h
@@ -0,0 +1,87 @@
+//*****************************************************************************
+//
+// rom_patch.h
+//
+// Macros to facilitate patching driverlib API's in the ROM.
+//
+// Copyright (C) 2014 Texas Instruments Incorporated - http://www.ti.com/
+//
+//
+// Redistribution and use in source and binary forms, with or without
+// modification, are permitted provided that the following conditions
+// are met:
+//
+// Redistributions of source code must retain the above copyright
+// notice, this list of conditions and the following disclaimer.
+//
+// Redistributions in binary form must reproduce the above copyright
+// notice, this list of conditions and the following disclaimer in the
+// documentation and/or other materials provided with the
+// distribution.
+//
+// Neither the name of Texas Instruments Incorporated nor the names of
+// its contributors may be used to endorse or promote products derived
+// from this software without specific prior written permission.
+//
+// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
+// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
+// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
+// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
+// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
+// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
+// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
+// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
+// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
+// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
+// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+//
+//*****************************************************************************
+
+//*****************************************************************************
+//
+// List of API's in the ROM that need to be patched.
+// For e.g. to patch ROM_UARTCharPut add the line #undef ROM_UARTCharPut
+//*****************************************************************************
+#undef ROM_ADCIntClear
+#undef ROM_IntEnable
+#undef ROM_IntDisable
+#undef ROM_IntPendSet
+#undef ROM_PRCMHibernateWakeUpGPIOSelect
+#undef ROM_SDHostCardErrorMaskSet
+#undef ROM_SDHostCardErrorMaskGet
+#undef ROM_TimerConfigure
+#undef ROM_TimerDMAEventSet
+#undef ROM_TimerDMAEventGet
+#undef ROM_SDHostDataNonBlockingWrite
+#undef ROM_SDHostDataWrite
+#undef ROM_SDHostDataRead
+#undef ROM_SDHostDataNonBlockingRead
+#undef ROM_PRCMSysResetCauseGet
+#undef ROM_PRCMPeripheralClkEnable
+#undef ROM_PRCMLPDSWakeUpGPIOSelect
+#undef ROM_PRCMHibernateWakeupSourceEnable
+#undef ROM_PRCMHibernateWakeupSourceDisable
+#undef ROM_PRCMHibernateWakeupCauseGet
+#undef ROM_PRCMHibernateIntervalSet
+#undef ROM_PRCMHibernateWakeUpGPIOSelect
+#undef ROM_PRCMHibernateEnter
+#undef ROM_PRCMSlowClkCtrGet
+#undef ROM_PRCMSlowClkCtrMatchSet
+#undef ROM_PRCMSlowClkCtrMatchGet
+#undef ROM_PRCMOCRRegisterWrite
+#undef ROM_PRCMOCRRegisterRead
+#undef ROM_PRCMIntEnable
+#undef ROM_PRCMIntDisable
+#undef ROM_PRCMRTCInUseSet
+#undef ROM_PRCMRTCInUseGet
+#undef ROM_PRCMRTCSet
+#undef ROM_PRCMRTCGet
+#undef ROM_PRCMRTCMatchSet
+#undef ROM_PRCMRTCMatchGet
+#undef ROM_PRCMPeripheralClkDisable
+#undef ROM_PRCMPeripheralReset
+#undef ROM_PRCMPeripheralStatusGet
+#undef ROM_SPIConfigSetExpClk
+#undef ROM_GPIODirModeGet
+#undef ROM_GPIOIntTypeGet
+
diff --git a/cc3200/hal/sdhost.c b/cc3200/hal/sdhost.c
new file mode 100644
index 000000000..daae8d2e6
--- /dev/null
+++ b/cc3200/hal/sdhost.c
@@ -0,0 +1,744 @@
+//*****************************************************************************
+//
+// sdhost.c
+//
+// Driver for the SD Host (SDHost) Interface
+//
+// Copyright (C) 2014 Texas Instruments Incorporated - http://www.ti.com/
+//
+//
+// Redistribution and use in source and binary forms, with or without
+// modification, are permitted provided that the following conditions
+// are met:
+//
+// Redistributions of source code must retain the above copyright
+// notice, this list of conditions and the following disclaimer.
+//
+// Redistributions in binary form must reproduce the above copyright
+// notice, this list of conditions and the following disclaimer in the
+// documentation and/or other materials provided with the
+// distribution.
+//
+// Neither the name of Texas Instruments Incorporated nor the names of
+// its contributors may be used to endorse or promote products derived
+// from this software without specific prior written permission.
+//
+// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
+// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
+// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
+// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
+// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
+// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
+// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
+// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
+// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
+// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
+// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+//
+//*****************************************************************************
+
+//*****************************************************************************
+//
+//! \addtogroup Secure_Digital_Host_api
+//! @{
+//
+//*****************************************************************************
+
+#include "inc/hw_types.h"
+#include "inc/hw_memmap.h"
+#include "inc/hw_mmchs.h"
+#include "inc/hw_ints.h"
+#include "inc/hw_apps_config.h"
+#include "interrupt.h"
+#include "sdhost.h"
+
+
+//*****************************************************************************
+//
+//! Configures SDHost module.
+//!
+//! \param ulBase is the base address of SDHost module.
+//!
+//! This function configures the SDHost module, enabling internal sub-modules.
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+SDHostInit(unsigned long ulBase)
+{
+ //
+ // Assert module reset
+ //
+ HWREG(ulBase + MMCHS_O_SYSCONFIG) = 0x2;
+
+ //
+ // Wait for soft reset to complete
+ //
+ while( !(HWREG(ulBase + MMCHS_O_SYSCONFIG) & 0x1) )
+ {
+
+ }
+
+ //
+ // Assert internal reset
+ //
+ HWREG(ulBase + MMCHS_O_SYSCTL) |= (1 << 24);
+
+ //
+ // Wait for Reset to complete
+ //
+ while( (HWREG(ulBase + MMCHS_O_SYSCTL) & (0x1 << 24)) )
+ {
+
+ }
+
+ //
+ // Set capability register, 1.8 and 3.0 V
+ //
+ HWREG(ulBase + MMCHS_O_CAPA) = (0x7 <<24);
+
+ //
+ // Select bus voltage, 3.0 V
+ //
+ HWREG(ulBase + MMCHS_O_HCTL) |= 0x7 << 9;
+
+ //
+ // Power up the bus
+ //
+ HWREG(ulBase + MMCHS_O_HCTL) |= 1 << 8;
+
+ //
+ // Wait for power on
+ //
+ while( !(HWREG(ulBase + MMCHS_O_HCTL) & (1<<8)) )
+ {
+
+ }
+
+ HWREG(ulBase + MMCHS_O_CON) |= 1 << 21;
+
+ //
+ // Un-mask all events
+ //
+ HWREG(ulBase + MMCHS_O_IE) = 0xFFFFFFFF;
+}
+
+
+//*****************************************************************************
+//
+//! Resets SDHost command line
+//!
+//! \param ulBase is the base address of SDHost module.
+//!
+//! This function assers a soft reset for the command line
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+SDHostCmdReset(unsigned long ulBase)
+{
+ HWREG(ulBase + MMCHS_O_SYSCTL) |= 1 << 25;
+ while( (HWREG(ulBase + MMCHS_O_SYSCTL) & (1 << 25)) )
+ {
+
+ }
+}
+
+//*****************************************************************************
+//
+//! Sends command over SDHost interface
+//!
+//! \param ulBase is the base address of SDHost module.
+//! \param ulCmd is the command to send.
+//! \param ulArg is the argument for the command.
+//!
+//! This function send command to the attached card over the SDHost interface.
+//!
+//! The \e ulCmd parameter can be one of \b SDHOST_CMD_0 to \b SDHOST_CMD_63.
+//! It can be logically ORed with one or more of the following:
+//! - \b SDHOST_MULTI_BLK for multi-block transfer
+//! - \b SDHOST_WR_CMD if command is followed by write data
+//! - \b SDHOST_RD_CMD if command is followed by read data
+//! - \b SDHOST_DMA_EN if SDHost need to generate DMA request.
+//! - \b SDHOST_RESP_LEN_136 if 136 bit response is expected
+//! - \b SDHOST_RESP_LEN_48 if 48 bit response is expected
+//! - \b SDHOST_RESP_LEN_48B if 48 bit response with busy bit is expected
+//!
+//! The parameter \e ulArg is the argument for the command
+//!
+//! \return Returns 0 on success, -1 otherwise.
+//
+//*****************************************************************************
+long
+SDHostCmdSend(unsigned long ulBase, unsigned long ulCmd, unsigned ulArg)
+{
+ //
+ // Set Data Timeout
+ //
+ HWREG(ulBase + MMCHS_O_SYSCTL) |= 0x000E0000;
+
+ //
+ // Check for cmd inhabit
+ //
+ if( (HWREG(ulBase + MMCHS_O_PSTATE) & 0x1))
+ {
+ return -1;
+ }
+
+ //
+ // Set the argument
+ //
+ HWREG(ulBase + MMCHS_O_ARG) = ulArg;
+
+ //
+ // Send the command
+ //
+ HWREG(ulBase + MMCHS_O_CMD) = ulCmd;
+
+ return 0;
+}
+
+//*****************************************************************************
+//
+//! Writes a data word into the SDHost write buffer.
+//!
+//! \param ulBase is the base address of SDHost module.
+//! \param ulData is data word to be transfered.
+//!
+//! This function writes a single data word into the SDHost write buffer. The
+//! function returns \b true if there was a space available in the buffer else
+//! returns \b false.
+//!
+//! \return Return \b true on success, \b false otherwise.
+//
+//*****************************************************************************
+tBoolean
+SDHostDataNonBlockingWrite(unsigned long ulBase, unsigned long ulData)
+{
+
+ //
+ // See if there is a space in the write buffer
+ //
+ if( (HWREG(ulBase + MMCHS_O_PSTATE) & (1<<10)) )
+ {
+ //
+ // Write the data into the buffer
+ //
+ HWREG(ulBase + MMCHS_O_DATA) = ulData;
+
+ //
+ // Success.
+ //
+ return(true);
+ }
+ else
+ {
+ //
+ // No free sapce, failure.
+ //
+ return(false);
+ }
+}
+
+//*****************************************************************************
+//
+//! Waits to write a data word into the SDHost write buffer.
+//!
+//! \param ulBase is the base address of SDHost module.
+//! \param ulData is data word to be transfered.
+//!
+//! This function writes \e ulData into the SDHost write buffer. If there is no
+//! space in the write buffer this function waits until there is a space
+//! available before returning.
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+SDHostDataWrite(unsigned long ulBase, unsigned long ulData)
+{
+ //
+ // Wait until space is available
+ //
+ while( !(HWREG(ulBase + MMCHS_O_PSTATE) & (1<<10)) )
+ {
+
+ }
+
+ //
+ // Write the data
+ //
+ HWREG(ulBase + MMCHS_O_DATA) = ulData;
+}
+
+
+//*****************************************************************************
+//
+//! Waits for a data word from the SDHost read buffer
+//!
+//! \param ulBase is the base address of SDHost module.
+//! \param pulData is pointer to read data variable.
+//!
+//! This function reads a single data word from the SDHost read buffer. If there
+//! is no data available in the buffer the function will wait until a data
+//! word is received before returning.
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+SDHostDataRead(unsigned long ulBase, unsigned long *pulData)
+{
+ //
+ // Wait until data is available
+ //
+ while( !(HWREG(ulBase + MMCHS_O_PSTATE) & (1<<11)) )
+ {
+
+ }
+
+ //
+ // Read the data
+ //
+ *pulData = HWREG(ulBase + MMCHS_O_DATA);
+}
+
+//*****************************************************************************
+//
+//! Reads single data word from the SDHost read buffer
+//!
+//! \param ulBase is the base address of SDHost module.
+//! \param pulData is pointer to read data variable.
+//!
+//! This function reads a data word from the SDHost read buffer. The
+//! function returns \b true if there was data available in to buffer else
+//! returns \b false.
+//!
+//! \return Return \b true on success, \b false otherwise.
+//
+//*****************************************************************************
+tBoolean
+SDHostDataNonBlockingRead(unsigned long ulBase, unsigned long *pulData)
+{
+
+ //
+ // See if there is any data in the read buffer.
+ //
+ if( (HWREG(ulBase + MMCHS_O_PSTATE) & (1<11)) )
+ {
+ //
+ // Read the data word.
+ //
+ *pulData = HWREG(ulBase + MMCHS_O_DATA);
+
+ //
+ // Success
+ //
+ return(true);
+ }
+ else
+ {
+ //
+ // No data available, failure.
+ //
+ return(false);
+ }
+}
+
+
+//*****************************************************************************
+//
+//! Registers the interrupt handler for SDHost interrupt
+//!
+//! \param ulBase is the base address of SDHost module
+//! \param pfnHandler is a pointer to the function to be called when the
+//! SDHost interrupt occurs.
+//!
+//! This function does the actual registering of the interrupt handler. This
+//! function enables the global interrupt in the interrupt controller; specific
+//! SDHost interrupts must be enabled via SDHostIntEnable(). It is the
+//! interrupt handler's responsibility to clear the interrupt source.
+//!
+//! \sa IntRegister() for important information about registering interrupt
+//! handlers.
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+SDHostIntRegister(unsigned long ulBase, void (*pfnHandler)(void))
+{
+ //
+ // Register the interrupt handler.
+ //
+ IntRegister(INT_MMCHS, pfnHandler);
+
+ //
+ // Enable the SDHost interrupt.
+ //
+ IntEnable(INT_MMCHS);
+}
+
+//*****************************************************************************
+//
+//! Unregisters the interrupt handler for SDHost interrupt
+//!
+//! \param ulBase is the base address of SDHost module
+//!
+//! This function does the actual unregistering of the interrupt handler. It
+//! clears the handler to be called when a SDHost interrupt occurs. This
+//! function also masks off the interrupt in the interrupt controller so that
+//! the interrupt handler no longer is called.
+//!
+//! \sa IntRegister() for important information about registering interrupt
+//! handlers.
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+SDHostIntUnregister(unsigned long ulBase)
+{
+ //
+ // Disable the SDHost interrupt.
+ //
+ IntDisable(INT_MMCHS);
+
+ //
+ // Unregister the interrupt handler.
+ //
+ IntUnregister(INT_MMCHS);
+}
+
+//*****************************************************************************
+//
+//! Enable individual interrupt source for the specified SDHost
+//!
+//! \param ulBase is the base address of SDHost module.
+//! \param ulIntFlags is a bit mask of the interrupt sources to be enabled.
+//!
+//! This function enables the indicated SDHost interrupt sources. Only the
+//! sources that are enabled can be reflected to the processor interrupt;
+//! disabled sources have no effect on the processor.
+//!
+//! The \e ulIntFlags parameter is the logical OR of any of the following:
+//! - \b SDHOST_INT_CC Command Complete interrupt
+//! - \b SDHOST_INT_TC Transfer Complete interrupt
+//! - \b SDHOST_INT_BWR Buffer Write Ready interrupt
+//! - \b SDHOST_INT_BRR Buffer Read Ready interrupt
+//! - \b SDHOST_INT_ERRI Error interrupt
+//! - \b SDHOST_INT_CTO Command Timeout error interrupt
+//! - \b SDHOST_INT_CEB Command End Bit error interrupt
+//! - \b SDHOST_INT_DTO Data Timeout error interrupt
+//! - \b SDHOST_INT_DCRC Data CRC error interrupt
+//! - \b SDHOST_INT_DEB Data End Bit error
+//! - \b SDHOST_INT_CERR Cart Status Error interrupt
+//! - \b SDHOST_INT_BADA Bad Data error interrupt
+//! - \b SDHOST_INT_DMARD Read DMA done interrupt
+//! - \b SDHOST_INT_DMAWR Write DMA done interrupt
+//!
+//! Note that SDHOST_INT_ERRI can only be used with \sa SDHostIntStatus()
+//! and is internally logical OR of all error status bits. Setting this bit
+//! alone as \e ulIntFlags doesn't generates any interrupt.
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+SDHostIntEnable(unsigned long ulBase,unsigned long ulIntFlags)
+{
+ //
+ // Enable DMA done interrupts
+ //
+ HWREG(APPS_CONFIG_BASE + APPS_CONFIG_O_DMA_DONE_INT_MASK_CLR) =
+ (ulIntFlags >> 30);
+
+ //
+ // Enable the individual interrupt sources
+ //
+ HWREG(ulBase + MMCHS_O_ISE) |= (ulIntFlags & 0x3FFFFFFF);
+}
+
+//*****************************************************************************
+//
+//! Enable individual interrupt source for the specified SDHost
+//!
+//! \param ulBase is the base address of SDHost module.
+//! \param ulIntFlags is a bit mask of the interrupt sources to be enabled.
+//!
+//! This function disables the indicated SDHost interrupt sources. Only the
+//! sources that are enabled can be reflected to the processor interrupt;
+//! disabled sources have no effect on the processor.
+//!
+//! The \e ulIntFlags parameter has the same definition as the \e ulIntFlags
+//! parameter to SDHostIntEnable().
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+SDHostIntDisable(unsigned long ulBase,unsigned long ulIntFlags)
+{
+ //
+ // Disable DMA done interrupts
+ //
+ HWREG(APPS_CONFIG_BASE + APPS_CONFIG_O_DMA_DONE_INT_MASK_SET) =
+ (ulIntFlags >> 30);
+ //
+ // Disable the individual interrupt sources
+ //
+ HWREG(ulBase + MMCHS_O_ISE) &= ~(ulIntFlags & 0x3FFFFFFF);
+}
+
+//*****************************************************************************
+//
+//! Gets the current interrupt status.
+//!
+//! \param ulBase is the base address of SDHost module.
+//!
+//! This function returns the interrupt status for the specified SDHost.
+//!
+//! \return Returns the current interrupt status, enumerated as a bit field of
+//! values described in SDHostIntEnable().
+//
+//*****************************************************************************
+unsigned long
+SDHostIntStatus(unsigned long ulBase)
+{
+ unsigned long ulIntStatus;
+
+ //
+ // Get DMA done interrupt status
+ //
+ ulIntStatus = HWREG(APPS_CONFIG_BASE + APPS_CONFIG_O_DMA_DONE_INT_MASK_SET);
+ ulIntStatus = (ulIntStatus << 30);
+
+ //
+ // Return the status of individual interrupt sources
+ //
+ ulIntStatus |= (HWREG(ulBase + MMCHS_O_STAT) & 0x3FFFFFFF);
+
+ return(ulIntStatus);
+}
+
+//*****************************************************************************
+//
+//! Clears the individual interrupt sources.
+//!
+//! \param ulBase is the base address of SDHost module.
+//! \param ulIntFlags is a bit mask of the interrupt sources to be cleared.
+//!
+//! The specified SDHost interrupt sources are cleared, so that they no longer
+//! assert. This function must be called in the interrupt handler to keep the
+//! interrupt from being recognized again immediately upon exit.
+//!
+//! The \e ulIntFlags parameter has the same definition as the \e ulIntFlags
+//! parameter to SDHostIntEnable().
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+SDHostIntClear(unsigned long ulBase,unsigned long ulIntFlags)
+{
+ //
+ // Clear DMA done interrupts
+ //
+ HWREG(APPS_CONFIG_BASE + APPS_CONFIG_O_DMA_DONE_INT_ACK) =
+ (ulIntFlags >> 30);
+ //
+ // Clear the individual interrupt sources
+ //
+ HWREG(ulBase + MMCHS_O_STAT) = (ulIntFlags & 0x3FFFFFFF);
+}
+
+//*****************************************************************************
+//
+//! Sets the card status error mask.
+//!
+//! \param ulBase is the base address of SDHost module
+//! \param ulErrMask is the bit mask of card status errors to be enabled
+//!
+//! This function sets the card status error mask for response type R1, R1b,
+//! R5, R5b and R6 response. The parameter \ulErrMask is the bit mask of card
+//! status errors to be enabled, if the corresponding bits in the 'card status'
+//! field of a respose are set then the host controller indicates a card error
+//! interrupt status. Only bits referenced as type E (error) in status field in
+//! the response can set a card status error.
+//!
+//! \return None
+//
+//*****************************************************************************
+void
+SDHostCardErrorMaskSet(unsigned long ulBase, unsigned long ulErrMask)
+{
+ //
+ // Set the card status error mask
+ //
+ HWREG(ulBase + MMCHS_O_CSRE) = ulErrMask;
+}
+
+
+//*****************************************************************************
+//
+//! Gets the card status error mask.
+//!
+//! \param ulBase is the base address of SDHost module
+//!
+//! This function gets the card status error mask for response type R1, R1b,
+//! R5, R5b and R6 response.
+//!
+//! \return Returns the current card status error.
+//
+//*****************************************************************************
+unsigned long
+SDHostCardErrorMaskGet(unsigned long ulBase)
+{
+ //
+ // Return the card status error mask
+ //
+ return(HWREG(ulBase + MMCHS_O_CSRE));
+}
+
+//*****************************************************************************
+//
+//! Sets the SD Card clock.
+//!
+//! \param ulBase is the base address of SDHost module
+//! \param ulSDHostClk is the rate of clock supplied to SDHost module
+//! \param ulCardClk is the required SD interface clock
+//!
+//! This function configures the SDHost interface to supply the specified clock
+//! to the connected card.
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+SDHostSetExpClk(unsigned long ulBase, unsigned long ulSDHostClk,
+ unsigned long ulCardClk)
+{
+ unsigned long ulDiv;
+
+ //
+ // Disable card clock
+ //
+ HWREG(ulBase + MMCHS_O_SYSCTL) &= ~0x4;
+
+ //
+ // Enable internal clock
+ //
+ HWREG(ulBase + MMCHS_O_SYSCTL) |= 0x1;
+
+ ulDiv = ((ulSDHostClk/ulCardClk) & 0x3FF);
+
+ //
+ // Set clock divider,
+ //
+ HWREG(ulBase + MMCHS_O_SYSCTL) = ((HWREG(ulBase + MMCHS_O_SYSCTL) &
+ ~0x0000FFC0)| (ulDiv) << 6);
+
+ //
+ // Wait for clock to stablize
+ //
+ while( !(HWREG(ulBase + MMCHS_O_SYSCTL) & 0x2) )
+ {
+
+ }
+
+ //
+ // Enable card clock
+ //
+ HWREG(ulBase + MMCHS_O_SYSCTL) |= 0x4;
+}
+
+//*****************************************************************************
+//
+//! Get the response for the last command.
+//!
+//! \param ulBase is the base address of SDHost module
+//! \param ulRespnse is 128-bit response.
+//!
+//! This function gets the response from the SD card for the last command
+//! send.
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+SDHostRespGet(unsigned long ulBase, unsigned long ulRespnse[4])
+{
+
+ //
+ // Read the responses.
+ //
+ ulRespnse[0] = HWREG(ulBase + MMCHS_O_RSP10);
+ ulRespnse[1] = HWREG(ulBase + MMCHS_O_RSP32);
+ ulRespnse[2] = HWREG(ulBase + MMCHS_O_RSP54);
+ ulRespnse[3] = HWREG(ulBase + MMCHS_O_RSP76);
+
+}
+
+//*****************************************************************************
+//
+//! Set the block size for data transfer
+//!
+//! \param ulBase is the base address of SDHost module
+//! \param ulBlkSize is the transfer block size in bytes
+//!
+//! This function sets the block size the data transfer.
+//!
+//! The parameter \e ulBlkSize is size of each data block in bytes.
+//! This should be in range 0 - 2^10.
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+SDHostBlockSizeSet(unsigned long ulBase, unsigned short ulBlkSize)
+{
+ //
+ // Set the block size
+ //
+ HWREG(ulBase + MMCHS_O_BLK) = ((HWREG(ulBase + MMCHS_O_BLK) & 0x00000FFF)|
+ (ulBlkSize & 0xFFF));
+}
+
+//*****************************************************************************
+//
+//! Set the block size and count for data transfer
+//!
+//! \param ulBase is the base address of SDHost module
+//! \param ulBlkCount is the number of blocks
+//!
+//! This function sets block count for the data transfer. This needs to be set
+//! for each block transfer. \sa SDHostBlockSizeSet()
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+SDHostBlockCountSet(unsigned long ulBase, unsigned short ulBlkCount)
+{
+ unsigned long ulRegVal;
+
+ //
+ // Read the current value
+ //
+ ulRegVal = HWREG(ulBase + MMCHS_O_BLK);
+
+ //
+ // Set the number of blocks
+ //
+ HWREG(ulBase + MMCHS_O_BLK) |= ((ulRegVal & 0x0000FFFF)|
+ (ulBlkCount << 16));
+}
+
+//*****************************************************************************
+//
+// Close the Doxygen group.
+//! @}
+//
+//*****************************************************************************
diff --git a/cc3200/hal/sdhost.h b/cc3200/hal/sdhost.h
new file mode 100644
index 000000000..404655535
--- /dev/null
+++ b/cc3200/hal/sdhost.h
@@ -0,0 +1,204 @@
+//*****************************************************************************
+//
+// sdhost.h
+//
+// Defines and Macros for the SDHost.
+//
+// Copyright (C) 2014 Texas Instruments Incorporated - http://www.ti.com/
+//
+//
+// Redistribution and use in source and binary forms, with or without
+// modification, are permitted provided that the following conditions
+// are met:
+//
+// Redistributions of source code must retain the above copyright
+// notice, this list of conditions and the following disclaimer.
+//
+// Redistributions in binary form must reproduce the above copyright
+// notice, this list of conditions and the following disclaimer in the
+// documentation and/or other materials provided with the
+// distribution.
+//
+// Neither the name of Texas Instruments Incorporated nor the names of
+// its contributors may be used to endorse or promote products derived
+// from this software without specific prior written permission.
+//
+// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
+// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
+// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
+// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
+// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
+// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
+// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
+// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
+// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
+// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
+// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+//
+//*****************************************************************************
+
+#ifndef __SDHOST_H__
+#define __SDHOST_H__
+
+
+//*****************************************************************************
+//
+// If building with a C++ compiler, make all of the definitions in this header
+// have a C binding.
+//
+//*****************************************************************************
+#ifdef __cplusplus
+extern "C"
+//{
+#endif
+
+
+//*****************************************************************************
+// Values that can be passed to SDHostRespGet().
+//*****************************************************************************
+#define SDHOST_RESP_10 0x00000003
+#define SDHOST_RESP_32 0x00000002
+#define SDHOST_RESP_54 0x00000001
+#define SDHOST_RESP_76 0x00000000
+
+
+//*****************************************************************************
+// Values that can be passed to SDHostIntEnable(), SDHostIntDisable(),
+// SDHostIntClear() ,and returned from SDHostIntStatus().
+//*****************************************************************************
+#define SDHOST_INT_CC 0x00000001
+#define SDHOST_INT_TC 0x00000002
+#define SDHOST_INT_BWR 0x00000010
+#define SDHOST_INT_BRR 0x00000020
+#define SDHOST_INT_ERRI 0x00008000
+#define SDHOST_INT_CTO 0x00010000
+#define SDHOST_INT_CEB 0x00040000
+#define SDHOST_INT_DTO 0x00100000
+#define SDHOST_INT_DCRC 0x00200000
+#define SDHOST_INT_DEB 0x00300000
+#define SDHOST_INT_CERR 0x10000000
+#define SDHOST_INT_BADA 0x20000000
+#define SDHOST_INT_DMARD 0x40000000
+#define SDHOST_INT_DMAWR 0x80000000
+
+//*****************************************************************************
+// Values that can be passed to SDHostCmdSend().
+//*****************************************************************************
+#define SDHOST_CMD_0 0x00000000
+#define SDHOST_CMD_1 0x01000000
+#define SDHOST_CMD_2 0x02000000
+#define SDHOST_CMD_3 0x03000000
+#define SDHOST_CMD_4 0x04000000
+#define SDHOST_CMD_5 0x05000000
+#define SDHOST_CMD_6 0x06000000
+#define SDHOST_CMD_7 0x07000000
+#define SDHOST_CMD_8 0x08000000
+#define SDHOST_CMD_9 0x09000000
+#define SDHOST_CMD_10 0x0A000000
+#define SDHOST_CMD_11 0x0B000000
+#define SDHOST_CMD_12 0x0C000000
+#define SDHOST_CMD_13 0x0D000000
+#define SDHOST_CMD_14 0x0E000000
+#define SDHOST_CMD_15 0x0F000000
+#define SDHOST_CMD_16 0x10000000
+#define SDHOST_CMD_17 0x11000000
+#define SDHOST_CMD_18 0x12000000
+#define SDHOST_CMD_19 0x13000000
+#define SDHOST_CMD_20 0x14000000
+#define SDHOST_CMD_21 0x15000000
+#define SDHOST_CMD_22 0x16000000
+#define SDHOST_CMD_23 0x17000000
+#define SDHOST_CMD_24 0x18000000
+#define SDHOST_CMD_25 0x19000000
+#define SDHOST_CMD_26 0x1A000000
+#define SDHOST_CMD_27 0x1B000000
+#define SDHOST_CMD_28 0x1C000000
+#define SDHOST_CMD_29 0x1D000000
+#define SDHOST_CMD_30 0x1E000000
+#define SDHOST_CMD_31 0x1F000000
+#define SDHOST_CMD_32 0x20000000
+#define SDHOST_CMD_33 0x21000000
+#define SDHOST_CMD_34 0x22000000
+#define SDHOST_CMD_35 0x23000000
+#define SDHOST_CMD_36 0x24000000
+#define SDHOST_CMD_37 0x25000000
+#define SDHOST_CMD_38 0x26000000
+#define SDHOST_CMD_39 0x27000000
+#define SDHOST_CMD_40 0x28000000
+#define SDHOST_CMD_41 0x29000000
+#define SDHOST_CMD_42 0x2A000000
+#define SDHOST_CMD_43 0x2B000000
+#define SDHOST_CMD_44 0x2C000000
+#define SDHOST_CMD_45 0x2D000000
+#define SDHOST_CMD_46 0x2E000000
+#define SDHOST_CMD_47 0x2F000000
+#define SDHOST_CMD_48 0x30000000
+#define SDHOST_CMD_49 0x31000000
+#define SDHOST_CMD_50 0x32000000
+#define SDHOST_CMD_51 0x33000000
+#define SDHOST_CMD_52 0x34000000
+#define SDHOST_CMD_53 0x35000000
+#define SDHOST_CMD_54 0x36000000
+#define SDHOST_CMD_55 0x37000000
+#define SDHOST_CMD_56 0x38000000
+#define SDHOST_CMD_57 0x39000000
+#define SDHOST_CMD_58 0x3A000000
+#define SDHOST_CMD_59 0x3B000000
+#define SDHOST_CMD_60 0x3C000000
+#define SDHOST_CMD_61 0x3D000000
+#define SDHOST_CMD_62 0x3E000000
+#define SDHOST_CMD_63 0x3F000000
+
+//*****************************************************************************
+// Values that can be logically ORed with ulCmd parameter for SDHostCmdSend().
+//*****************************************************************************
+#define SDHOST_MULTI_BLK 0x00000022
+#define SDHOST_DMA_EN 0x00000001
+#define SDHOST_WR_CMD 0x00200000
+#define SDHOST_RD_CMD 0x00200010
+#define SDHOST_RESP_LEN_136 0x00010000
+#define SDHOST_RESP_LEN_48 0x00020000
+#define SDHOST_RESP_LEN_48B 0x00030000
+
+
+//*****************************************************************************
+//
+// API Function prototypes
+//
+//*****************************************************************************
+extern void SDHostCmdReset(unsigned long ulBase);
+extern void SDHostInit(unsigned long ulBase);
+extern long SDHostCmdSend(unsigned long ulBase,unsigned long ulCmd,
+ unsigned ulArg);
+extern void SDHostIntRegister(unsigned long ulBase, void (*pfnHandler)(void));
+extern void SDHostIntUnregister(unsigned long ulBase);
+extern void SDHostIntEnable(unsigned long ulBase,unsigned long ulIntFlags);
+extern void SDHostIntDisable(unsigned long ulBase,unsigned long ulIntFlags);
+extern unsigned long SDHostIntStatus(unsigned long ulBase);
+extern void SDHostIntClear(unsigned long ulBase,unsigned long ulIntFlags);
+extern void SDHostCardErrorMaskSet(unsigned long ulBase,
+ unsigned long ulErrMask);
+extern unsigned long SDHostCardErrorMaskGet(unsigned long ulBase);
+extern void SDHostSetExpClk(unsigned long ulBase, unsigned long ulSDHostClk,
+ unsigned long ulCardClk);
+extern void SDHostRespGet(unsigned long ulBase, unsigned long ulRespnse[4]);
+extern void SDHostBlockSizeSet(unsigned long ulBase, unsigned short ulBlkSize);
+extern void SDHostBlockCountSet(unsigned long ulBase,
+ unsigned short ulBlkCount);
+extern tBoolean SDHostDataNonBlockingWrite(unsigned long ulBase,
+ unsigned long ulData);
+extern tBoolean SDHostDataNonBlockingRead(unsigned long ulBase,
+ unsigned long *pulData);
+extern void SDHostDataWrite(unsigned long ulBase, unsigned long ulData);
+extern void SDHostDataRead(unsigned long ulBase, unsigned long *ulData);
+
+//*****************************************************************************
+//
+// Mark the end of the C bindings section for C++ compilers.
+//
+//*****************************************************************************
+#ifdef __cplusplus
+//}
+#endif
+
+#endif // __SDHOST_H__
diff --git a/cc3200/hal/shamd5.c b/cc3200/hal/shamd5.c
new file mode 100644
index 000000000..6a3cc1cc3
--- /dev/null
+++ b/cc3200/hal/shamd5.c
@@ -0,0 +1,1085 @@
+//*****************************************************************************
+//
+// shamd5.c
+//
+// Driver for the SHA/MD5 module.
+//
+// Copyright (C) 2014 Texas Instruments Incorporated - http://www.ti.com/
+//
+//
+// Redistribution and use in source and binary forms, with or without
+// modification, are permitted provided that the following conditions
+// are met:
+//
+// Redistributions of source code must retain the above copyright
+// notice, this list of conditions and the following disclaimer.
+//
+// Redistributions in binary form must reproduce the above copyright
+// notice, this list of conditions and the following disclaimer in the
+// documentation and/or other materials provided with the
+// distribution.
+//
+// Neither the name of Texas Instruments Incorporated nor the names of
+// its contributors may be used to endorse or promote products derived
+// from this software without specific prior written permission.
+//
+// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
+// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
+// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
+// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
+// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
+// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
+// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
+// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
+// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
+// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
+// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+//
+//*****************************************************************************
+
+//*****************************************************************************
+//
+//! \addtogroup SHA_Secure_Hash_Algorithm_api
+//! @{
+//
+//*****************************************************************************
+
+#include <stdbool.h>
+#include <stdint.h>
+#include "inc/hw_dthe.h"
+#include "inc/hw_ints.h"
+#include "inc/hw_memmap.h"
+#include "inc/hw_nvic.h"
+#include "inc/hw_shamd5.h"
+#include "inc/hw_types.h"
+#include "debug.h"
+#include "interrupt.h"
+#include "shamd5.h"
+#include "rom_map.h"
+
+#define SHAMD5_MODE_ALGO_MD5 0x00000000 // MD5
+#define SHAMD5_MODE_ALGO_SHA1 0x00000002 // SHA-1
+#define SHAMD5_MODE_ALGO_SHA224 0x00000004 // SHA-224
+#define SHAMD5_MODE_ALGO_SHA256 0x00000006 // SHA-256
+
+//*****************************************************************************
+//
+//! Enables the uDMA requests in the SHA/MD5 module.
+//!
+//! \param ui32Base is the base address of the SHA/MD5 module.
+//!
+//! This function configures the DMA options of the SHA/MD5 module.
+//!
+//! \return None
+//
+//*****************************************************************************
+void
+SHAMD5DMAEnable(uint32_t ui32Base)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT(ui32Base == SHAMD5_BASE);
+
+ //
+ // Write the new configuration into the register.
+ //
+ HWREG(ui32Base + SHAMD5_O_SYSCONFIG) |=
+ SHAMD5_SYSCONFIG_PADVANCED | SHAMD5_SYSCONFIG_PDMA_EN;
+}
+
+//*****************************************************************************
+//
+//! Disables the uDMA requests in the SHA/MD5 module.
+//!
+//! \param ui32Base is the base address of the SHA/MD5 module.
+//!
+//! This function configures the DMA options of the SHA/MD5 module.
+//!
+//! \return None
+//
+//*****************************************************************************
+void
+SHAMD5DMADisable(uint32_t ui32Base)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT(ui32Base == SHAMD5_BASE);
+
+ //
+ // Write the new configuration into the register.
+ //
+ HWREG(ui32Base + SHAMD5_O_SYSCONFIG) &=
+ ~(SHAMD5_SYSCONFIG_PADVANCED | SHAMD5_SYSCONFIG_PDMA_EN);
+}
+
+//*****************************************************************************
+//
+//! Get the interrupt status of the SHA/MD5 module.
+//!
+//! \param ui32Base is the base address of the SHA/MD5 module.
+//! \param bMasked is \b false if the raw interrupt status is required and
+//! \b true if the masked interrupt status is required.
+//!
+//! This function returns the current value of the IRQSTATUS register. The
+//! value will be a logical OR of the following:
+//!
+//! - \b SHAMD5_INT_CONTEXT_READY - Context input registers are ready.
+//! - \b SHAMD5_INT_PARTHASH_READY - Context output registers are ready after
+//! a context switch.
+//! - \b SHAMD5_INT_INPUT_READY - Data FIFO is ready to receive data.
+//! - \b SHAMD5_INT_OUTPUT_READY - Context output registers are ready.
+//!
+//! \return Interrupt status
+//
+//*****************************************************************************
+uint32_t
+SHAMD5IntStatus(uint32_t ui32Base, bool bMasked)
+{
+ uint32_t ui32Temp;
+ uint32_t ui32IrqEnable;
+
+ //
+ // Check the arguments.
+ //
+ ASSERT(ui32Base == SHAMD5_BASE);
+
+ //
+ // Return the value of the IRQSTATUS register.
+ //
+ if(bMasked)
+ {
+ ui32Temp = HWREG(DTHE_BASE + DTHE_O_SHA_MIS);
+ ui32IrqEnable = HWREG(ui32Base + SHAMD5_O_IRQENABLE);
+ return((HWREG(ui32Base + SHAMD5_O_IRQSTATUS) &
+ ui32IrqEnable) | (ui32Temp & 0x00000007) << 16);
+ }
+ else
+ {
+ ui32Temp = HWREG(DTHE_BASE + DTHE_O_SHA_RIS);
+ return(HWREG(ui32Base + SHAMD5_O_IRQSTATUS) |
+ (ui32Temp & 0x00000007) << 16);
+
+ }
+}
+
+//*****************************************************************************
+//
+//! Enable interrupt sources in the SHA/MD5 module.
+//!
+//! \param ui32Base is the base address of the SHA/MD5 module.
+//! \param ui32IntFlags contains desired interrupts to enable.
+//!
+//! This function enables interrupt sources in the SHA/MD5 module.
+//! ui32IntFlags must be a logical OR of one or more of the following
+//! values:
+//!
+//! - \b SHAMD5_INT_CONTEXT_READY - Context input registers are ready.
+//! - \b SHAMD5_INT_PARTHASH_READY - Context output registers are ready after
+//! a context switch.
+//! - \b SHAMD5_INT_INPUT_READY - Data FIFO is ready to receive data.
+//! - \b SHAMD5_INT_OUTPUT_READY - Context output registers are ready.
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+SHAMD5IntEnable(uint32_t ui32Base, uint32_t ui32IntFlags)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT(ui32Base == SHAMD5_BASE);
+ ASSERT((ui32IntFlags == SHAMD5_INT_CONTEXT_READY) ||
+ (ui32IntFlags == SHAMD5_INT_PARTHASH_READY) ||
+ (ui32IntFlags == SHAMD5_INT_INPUT_READY) ||
+ (ui32IntFlags == SHAMD5_INT_OUTPUT_READY));
+
+ //
+ // Enable the interrupt sources.
+ //
+ HWREG(DTHE_BASE + DTHE_O_SHA_IM) &= ~((ui32IntFlags & 0x00070000) >> 16);
+ HWREG(ui32Base + SHAMD5_O_IRQENABLE) |= ui32IntFlags & 0x0000ffff;
+
+ //
+ // Enable all interrupts.
+ //
+ HWREG(ui32Base + SHAMD5_O_SYSCONFIG) |= SHAMD5_SYSCONFIG_PIT_EN;
+}
+
+//*****************************************************************************
+//
+//! Disable interrupt sources in the SHA/MD5 module.
+//!
+//! \param ui32Base is the base address of the SHA/MD5 module.
+//! \param ui32IntFlags contains desired interrupts to disable.
+//!
+//! \e ui32IntFlags must be a logical OR of one or more of the following
+//! values:
+//!
+//! - \b SHAMD5_INT_CONTEXT_READY - Context input registers are ready.
+//! - \b SHAMD5_INT_PARTHASH_READY - Context output registers are ready after
+//! a context switch.
+//! - \b SHAMD5_INT_INPUT_READY - Data FIFO is ready to receive data.
+//! - \b SHAMD5_INT_OUTPUT_READY - Context output registers are ready.
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+SHAMD5IntDisable(uint32_t ui32Base, uint32_t ui32IntFlags)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT(ui32Base == SHAMD5_BASE);
+ ASSERT((ui32IntFlags == SHAMD5_INT_CONTEXT_READY) ||
+ (ui32IntFlags == SHAMD5_INT_PARTHASH_READY) ||
+ (ui32IntFlags == SHAMD5_INT_INPUT_READY) ||
+ (ui32IntFlags == SHAMD5_INT_OUTPUT_READY));
+
+ //
+ // Clear the corresponding flags disabling the interrupt sources.
+ //
+ HWREG(DTHE_BASE + DTHE_O_SHA_IM) |= ((ui32IntFlags & 0x00070000) >> 16);
+ HWREG(ui32Base + SHAMD5_O_IRQENABLE) &= ~(ui32IntFlags & 0x0000ffff);
+
+ //
+ // If there are no interrupts enabled, then disable all interrupts.
+ //
+ if(HWREG(ui32Base + SHAMD5_O_IRQENABLE) == 0x0)
+ {
+ HWREG(ui32Base + SHAMD5_O_SYSCONFIG) &= ~SHAMD5_SYSCONFIG_PIT_EN;
+ }
+}
+
+//*****************************************************************************
+//
+//! Clears interrupt sources in the SHA/MD5 module.
+//!
+//! \param ui32Base is the base address of the SHA/MD5 module.
+//! \param ui32IntFlags contains desired interrupts to disable.
+//!
+//! \e ui32IntFlags must be a logical OR of one or more of the following
+//! values:
+//!
+//! - \b SHAMD5_INT_CONTEXT_READY - Context input registers are ready.
+//! - \b SHAMD5_INT_PARTHASH_READY - Context output registers are ready after
+//! a context switch.
+//! - \b SHAMD5_INT_INPUT_READY - Data FIFO is ready to receive data.
+//! - \b SHAMD5_INT_OUTPUT_READY - Context output registers are ready.
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+SHAMD5IntClear(uint32_t ui32Base, uint32_t ui32IntFlags)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT(ui32Base == SHAMD5_BASE);
+ ASSERT((ui32IntFlags == SHAMD5_INT_CONTEXT_READY) ||
+ (ui32IntFlags == SHAMD5_INT_PARTHASH_READY) ||
+ (ui32IntFlags == SHAMD5_INT_INPUT_READY) ||
+ (ui32IntFlags == SHAMD5_INT_OUTPUT_READY));
+
+ //
+ // Clear the corresponding flags disabling the interrupt sources.
+ //
+ HWREG(DTHE_BASE + DTHE_O_SHA_IC) = ((ui32IntFlags & 0x00070000) >> 16);
+}
+
+//*****************************************************************************
+//
+//! Registers an interrupt handler for the SHA/MD5 module.
+//!
+//! \param ui32Base is the base address of the SHA/MD5 module.
+//! \param pfnHandler is a pointer to the function to be called when the
+//! enabled SHA/MD5 interrupts occur.
+//!
+//! This function registers the interrupt handler in the interrupt vector
+//! table, and enables SHA/MD5 interrupts on the interrupt controller;
+//! specific SHA/MD5 interrupt sources must be enabled using
+//! SHAMD5IntEnable(). The interrupt handler being registered must clear
+//! the source of the interrupt using SHAMD5IntClear().
+//!
+//! If the application is using a static interrupt vector table stored in
+//! flash, then it is not necessary to register the interrupt handler this way.
+//! Instead, IntEnable() should be used to enable SHA/MD5 interrupts on the
+//! interrupt controller.
+//!
+//! \sa IntRegister() for important information about registering interrupt
+//! handlers.
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+SHAMD5IntRegister(uint32_t ui32Base, void(*pfnHandler)(void))
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT(ui32Base == SHAMD5_BASE);
+
+ //
+ // Register the interrupt handler.
+ //
+ IntRegister(INT_SHA, pfnHandler);
+
+ //
+ // Enable the interrupt
+ //
+ IntEnable(INT_SHA);
+}
+
+//*****************************************************************************
+//
+//! Unregisters an interrupt handler for the SHA/MD5 module.
+//!
+//! \param ui32Base is the base address of the SHA/MD5 module.
+//!
+//! This function unregisters the previously registered interrupt handler and
+//! disables the interrupt in the interrupt controller.
+//!
+//! \sa IntRegister() for important information about registering interrupt
+//! handlers.
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+SHAMD5IntUnregister(uint32_t ui32Base)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT(ui32Base == SHAMD5_BASE);
+
+ //
+ // Disable the interrupt.
+ //
+ IntDisable(INT_SHA);
+
+ //
+ // Unregister the interrupt handler.
+ //
+ IntUnregister(INT_SHA);
+}
+
+//*****************************************************************************
+//
+//! Write the hash length to the SHA/MD5 module.
+//!
+//! \param ui32Base is the base address of the SHA/MD5 module.
+//! \param ui32Length is the hash length in bytes.
+//!
+//! This function writes the length of the hash data of the current operation
+//! to the SHA/MD5 module. The value must be a multiple of 64 if the close
+//! hash is not set in the mode register.
+//!
+//! \note When this register is written, hash processing is triggered.
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+SHAMD5DataLengthSet(uint32_t ui32Base, uint32_t ui32Length)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT(ui32Base == SHAMD5_BASE);
+
+ //
+ // Set the LENGTH register and start processing.
+ //
+ HWREG(ui32Base + SHAMD5_O_LENGTH) = ui32Length;
+}
+
+//*****************************************************************************
+//
+//! Writes the mode in the SHA/MD5 module.
+//!
+//! \param ui32Base is the base address of the SHA/MD5 module.
+//! \param ui32Mode is the mode of the SHA/MD5 module.
+//!
+//! This function writes the mode register configuring the SHA/MD5 module.
+//!
+//! The ui32Mode paramerter is a bit-wise OR of values:
+//!
+//! - \b SHAMD5_ALGO_MD5 - Regular hash with MD5
+//! - \b SHAMD5_ALGO_SHA1 - Regular hash with SHA-1
+//! - \b SHAMD5_ALGO_SHA224 - Regular hash with SHA-224
+//! - \b SHAMD5_ALGO_SHA256 - Regular hash with SHA-256
+//! - \b SHAMD5_ALGO_HMAC_MD5 - HMAC with MD5
+//! - \b SHAMD5_ALGO_HMAC_SHA1 - HMAC with SHA-1
+//! - \b SHAMD5_ALGO_HMAC_SHA224 - HMAC with SHA-224
+//! - \b SHAMD5_ALGO_HMAC_SHA256 - HMAC with SHA-256
+//!
+//! \return None
+//
+//*****************************************************************************
+void
+SHAMD5ConfigSet(uint32_t ui32Base, uint32_t ui32Mode)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT(ui32Base == SHAMD5_BASE);
+ ASSERT((ui32Mode == SHAMD5_ALGO_MD5) ||
+ (ui32Mode == SHAMD5_ALGO_SHA1) ||
+ (ui32Mode == SHAMD5_ALGO_SHA224) ||
+ (ui32Mode == SHAMD5_ALGO_SHA256) ||
+ (ui32Mode == SHAMD5_ALGO_HMAC_MD5) ||
+ (ui32Mode == SHAMD5_ALGO_HMAC_SHA1) ||
+ (ui32Mode == SHAMD5_ALGO_HMAC_SHA224) ||
+ (ui32Mode == SHAMD5_ALGO_HMAC_SHA256));
+
+ //
+ // Write the value in the MODE register.
+ //
+ HWREG(ui32Base + SHAMD5_O_MODE) = ui32Mode;
+}
+
+//*****************************************************************************
+//
+//! Perform a non-blocking write of 16 words of data to the SHA/MD5 module.
+//!
+//! \param ui32Base is the base address of the SHA/MD5 module.
+//! \param pui8Src is the pointer to the 16-word array of data that will be
+//! written.
+//!
+//! This function writes 16 words of data into the data register.
+//!
+//! \return This function returns true if the write completed successfully.
+//! It returns false if the module was not ready.
+//
+//*****************************************************************************
+bool
+SHAMD5DataWriteNonBlocking(uint32_t ui32Base, uint8_t *pui8Src)
+{
+ uint32_t ui8Counter;
+
+ //
+ // Check the arguments.
+ //
+ ASSERT(ui32Base == SHAMD5_BASE);
+
+ //
+ // Check that the SHA/MD5 module is ready for data. If not, return false.
+ //
+ if((HWREG(ui32Base + SHAMD5_O_IRQSTATUS) & SHAMD5_INT_INPUT_READY) == 0)
+ {
+ return(false);
+ }
+
+ //
+ // Write the 16 words of data.
+ //
+ for(ui8Counter = 0; ui8Counter < 64; ui8Counter += 4)
+ {
+ HWREG(ui32Base + SHAMD5_O_DATA0_IN + ui8Counter) = *((uint32_t *)(pui8Src + ui8Counter));
+ }
+
+ //
+ // Return true as a sign of successfully completing the function.
+ //
+ return(true);
+}
+
+//*****************************************************************************
+//
+//! Perform a blocking write of 64 bytes of data to the SHA/MD5 module.
+//!
+//! \param ui32Base is the base address of the SHA/MD5 module.
+//! \param pui8Src is the pointer to the 64-byte array of data that will be
+//! written.
+//!
+//! This function does not return until the module is ready to accept data and
+//! the data has been written.
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+SHAMD5DataWrite(uint32_t ui32Base, uint8_t *pui8Src)
+{
+ uint8_t ui8Counter;
+
+ //
+ // Check the arguments.
+ //
+ ASSERT(ui32Base == SHAMD5_BASE);
+
+ //
+ // Wait for the module to be ready to accept data.
+ //
+ while((HWREG(ui32Base + SHAMD5_O_IRQSTATUS) & SHAMD5_INT_INPUT_READY) == 0)
+ {
+ }
+
+ //
+ // Write the 64 bytes of data.
+ //
+ for(ui8Counter = 0; ui8Counter < 64; ui8Counter += 4)
+ {
+ HWREG(ui32Base + SHAMD5_O_DATA0_IN + ui8Counter) =
+ *((uint32_t *) (pui8Src + ui8Counter));
+ }
+}
+
+
+//*****************************************************************************
+//
+//! Reads the result of a hashing operation.
+//!
+//! \param ui32Base is the base address of the SHA/MD5 module.
+//! \param pui8Dest is the pointer to the byte array of data that will be
+//! written.
+//!
+//! This function does not return until the module is ready to accept data and
+//! the data has been written.
+//! -----------------------------------------
+//! | Algorithm | Number of Words in Result |
+//! -----------------------------------------
+//! | MD5 | 16 Bytes (128 bits) |
+//! | SHA-1 | 20 Bytes (160 bits) |
+//! | SHA-224 | 28 Bytes (224 bits) |
+//! | SHA-256 | 32 Bytes (256 bits) |
+//! -----------------------------------------
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+SHAMD5ResultRead(uint32_t ui32Base, uint8_t *pui8Dest)
+{
+ uint32_t ui32Idx, ui32Count;
+
+ //
+ // Check the arguments.
+ //
+ ASSERT(ui32Base == SHAMD5_BASE);
+
+ //
+ // Determine the number of bytes in the result, based on the hash type.
+ //
+ switch(HWREG(ui32Base + SHAMD5_O_MODE) & SHAMD5_MODE_ALGO_M)
+ {
+ //
+ // The MD5 hash is being used.
+ //
+ case SHAMD5_MODE_ALGO_MD5:
+ {
+ //
+ // There are 16 bytes in the MD5 hash.
+ //
+ ui32Count = 16;
+
+ //
+ // Done.
+ //
+ break;
+ }
+
+ //
+ // The SHA-1 hash is being used.
+ //
+ case SHAMD5_MODE_ALGO_SHA1:
+ {
+ //
+ // There are 20 bytes in the SHA-1 hash.
+ //
+ ui32Count = 20;
+
+ //
+ // Done.
+ //
+ break;
+ }
+
+ //
+ // The SHA-224 hash is being used.
+ //
+ case SHAMD5_MODE_ALGO_SHA224:
+ {
+ //
+ // There are 28 bytes in the SHA-224 hash.
+ //
+ ui32Count = 28;
+
+ //
+ // Done.
+ //
+ break;
+ }
+
+ //
+ // The SHA-256 hash is being used.
+ //
+ case SHAMD5_MODE_ALGO_SHA256:
+ {
+ //
+ // There are 32 bytes in the SHA-256 hash.
+ //
+ ui32Count = 32;
+
+ //
+ // Done.
+ //
+ break;
+ }
+
+ //
+ // The hash type is not recognized.
+ //
+ default:
+ {
+ //
+ // Return without reading a result since the hardware appears to be
+ // misconfigured.
+ //
+ return;
+ }
+ }
+
+ //
+ // Read the hash result.
+ //
+ for(ui32Idx = 0; ui32Idx < ui32Count; ui32Idx += 4)
+ {
+ *((uint32_t *)(pui8Dest+ui32Idx)) =
+ HWREG(ui32Base + SHAMD5_O_IDIGEST_A + ui32Idx);
+ }
+}
+
+//*****************************************************************************
+//
+//! Writes multiple words of data into the SHA/MD5 data registers.
+//!
+//! \param ui32Base is the base address of the SHA/MD5 module.
+//! \param pui8DataSrc is a pointer to an array of data to be written.
+//! \param ui32DataLength is the length of the data to be written in bytes.
+//!
+//! This function writes a variable number of words into the SHA/MD5 data
+//! registers. The function waits for each block of data to be processed
+//! before another is written.
+//!
+//! \note This function is used by SHAMD5HashCompute(), SHAMD5HMACWithKPP(),
+//! and SHAMD5HMACNoKPP() to process data.
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+SHAMD5DataWriteMultiple(uint8_t *pui8DataSrc, uint32_t ui32DataLength)
+{
+ uint32_t ui32Idx, ui32Count, ui32Lastword, ui32TempData = 0;
+ uint8_t * ui8TempData;
+
+
+ //
+ // Calculate the number of blocks of data.
+ //
+ ui32Count = ui32DataLength / 64;
+
+ //
+ // Loop through all the blocks and write them into the data registers
+ // making sure to block additional operations until we can write the
+ // next 16 words.
+ //
+ for (ui32Idx = 0; ui32Idx < ui32Count; ui32Idx++)
+ {
+ //
+ // Write the block of data.
+ //
+ MAP_SHAMD5DataWrite(SHAMD5_BASE, pui8DataSrc);
+ //
+ // Increment the pointer to next block of data.
+ //
+ pui8DataSrc += 64;
+ }
+
+ //
+ // Calculate the remaining bytes of data that don't make up a full block.
+ //
+ ui32Count = ui32DataLength % 64;
+
+ //
+ // If there are bytes that do not make up a whole block, then
+ // write them separately.
+ //
+ if(ui32Count)
+ {
+ //
+ // Wait until the engine has finished processing the previous block.
+ //
+ while ((HWREG(SHAMD5_BASE + SHAMD5_O_IRQSTATUS) & SHAMD5_INT_INPUT_READY) == 0);
+
+ //
+ // Loop through the remaining words.
+ //
+ ui32Count = ui32Count / 4;
+ for (ui32Idx = 0; ui32Idx < ui32Count; ui32Idx ++)
+ {
+ //
+ // Write the word into the data register.
+ //
+ HWREG(SHAMD5_BASE + SHAMD5_O_DATA0_IN + (ui32Idx * 4)) =* ( (uint32_t *) pui8DataSrc);
+ pui8DataSrc +=4;
+ }
+ //
+ // Loop through the remaining bytes
+ //
+ ui32Count = ui32DataLength % 4;
+ ui8TempData = (uint8_t *) &ui32TempData;
+ if(ui32Count)
+ {
+ ui32Lastword = 0;
+ if(ui32Idx)
+ {
+ ui32Lastword = (ui32Idx-1) *4;
+ }
+ for(ui32Idx=0 ; ui32Idx<ui32Count ; ui32Idx++)
+ {
+ *(ui8TempData+ui32Idx) = *(pui8DataSrc+ui32Idx);
+ }
+ HWREG(SHAMD5_BASE + SHAMD5_O_DATA0_IN + ui32Lastword) = ui32TempData;
+ }
+ }
+}
+
+//*****************************************************************************
+//
+//! Compute a hash using the SHA/MD5 module.
+//!
+//! \param ui32Base is the base address of the SHA/MD5 module.
+//! \param pui8DataSrc is a pointer to an array of data that contains the
+//! data that will be hashed.
+//! \param ui32DataLength specifies the length of the data to be hashed in
+//! bytes.
+//! \param pui8HashResult is a pointer to an array that holds the result
+//! of the hashing operation.
+//!
+//! This function computes the hash of an array of data using the SHA/MD5
+//! module.
+//!
+//! The length of the hash result is dependent on the algorithm that is in use.
+//! The following table shows the correct array size for each algorithm:
+//!
+//! -----------------------------------------
+//! | Algorithm | Number of Words in Result |
+//! -----------------------------------------
+//! | MD5 | 4 Words (128 bits) |
+//! | SHA-1 | 5 Words (160 bits) |
+//! | SHA-224 | 7 Words (224 bits) |
+//! | SHA-256 | 8 Words (256 bits) |
+//! -----------------------------------------
+//!
+//! \return None
+//
+//*****************************************************************************
+bool
+SHAMD5DataProcess(uint32_t ui32Base, uint8_t *pui8DataSrc,
+ uint32_t ui32DataLength, uint8_t *pui8HashResult)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT(ui32Base == SHAMD5_BASE);
+ ASSERT((ui32DataLength % 64) == 0);
+
+ //
+ // Wait for the context to be ready before writing the mode.
+ //
+ while((HWREG(ui32Base + SHAMD5_O_IRQSTATUS) & SHAMD5_INT_CONTEXT_READY) ==
+ 0)
+ {
+ }
+
+ //
+ // Write the length.
+ //
+ SHAMD5DataLengthSet(ui32Base, ui32DataLength);
+
+ //
+ // Write the data.
+ //
+ SHAMD5DataWriteMultiple(pui8DataSrc, ui32DataLength);
+
+ //
+ // Wait for the output to be ready.
+ //
+ while((HWREG(ui32Base + SHAMD5_O_IRQSTATUS) & SHAMD5_INT_OUTPUT_READY) ==
+ 0)
+ {
+ }
+
+ //
+ // Read the result.
+ //
+ SHAMD5ResultRead(ui32Base, pui8HashResult);
+
+ //
+ // Return true to indicate successful completion of the function.
+ //
+ return(true);
+}
+
+//*****************************************************************************
+//
+//! Compute a HMAC with key pre-processing using the SHA/MD5 module.
+//!
+//! \param ui32Base is the base address of the SHA/MD5 module.
+//! \param pui8DataSrc is a pointer to an array of data that contains the
+//! data that is to be hashed.
+//! \param ui32DataLength specifies the length of the data to be hashed in
+//! bytes.
+//! \param pui8HashResult is a pointer to an array that holds the result
+//! of the hashing operation.
+//!
+//! This function computes a HMAC with the given data using the SHA/MD5
+//! module with a preprocessed key.
+//!
+//! The length of the hash result is dependent on the algorithm that is
+//! selected with the \e ui32Algo argument. The following table shows the
+//! correct array size for each algorithm:
+//!
+//! -----------------------------------------
+//! | Algorithm | Number of Words in Result |
+//! -----------------------------------------
+//! | MD5 | 4 Words (128 bits) |
+//! | SHA-1 | 5 Words (160 bits) |
+//! | SHA-224 | 7 Words (224 bits) |
+//! | SHA-256 | 8 Words (256 bits) |
+//! -----------------------------------------
+//!
+//! \return None
+//
+//*****************************************************************************
+bool
+SHAMD5HMACProcess(uint32_t ui32Base, uint8_t *pui8DataSrc,
+ uint32_t ui32DataLength, uint8_t *pui8HashResult)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT(ui32Base == SHAMD5_BASE);
+
+ //
+ // Wait for the context to be ready before writing the mode.
+ //
+ while((HWREG(ui32Base + SHAMD5_O_IRQSTATUS) & SHAMD5_INT_CONTEXT_READY) ==
+ 0)
+ {
+ }
+
+ //
+ // Write the length.
+ //
+ SHAMD5DataLengthSet(ui32Base, ui32DataLength);
+
+ //
+ // Write the data in the registers.
+ //
+ SHAMD5DataWriteMultiple(pui8DataSrc, ui32DataLength);
+
+ //
+ // Wait for the output to be ready.
+ //
+ while((HWREG(ui32Base + SHAMD5_O_IRQSTATUS) & SHAMD5_INT_OUTPUT_READY) ==
+ 0)
+ {
+ }
+
+ //
+ // Read the result.
+ //
+ SHAMD5ResultRead(ui32Base, pui8HashResult);
+
+ //
+ // Return true to indicate successful completion of the function.
+ //
+ return(true);
+
+}
+
+//*****************************************************************************
+//
+//! Process an HMAC key using the SHA/MD5 module.
+//!
+//! \param ui32Base is the base address of the SHA/MD5 module.
+//! \param pui8Key is a pointer to an array that contains the key to be
+//! processed.
+//! \param pui8PPKey is the pointer to the array that contains the
+//! pre-processed key.
+//!
+//! This function processes an HMAC key using the SHA/MD5. The resultant
+//! pre-processed key can then be used with later HMAC operations to speed
+//! processing time.
+//!
+//! The \e pui8Key array must be 512 bits long. If the key is
+//! less than 512 bits, it must be padded with zeros. The
+//! \e pui8PPKey array must each be 512 bits long.
+//!
+//! \return None
+//
+//*****************************************************************************
+void
+SHAMD5HMACPPKeyGenerate(uint32_t ui32Base, uint8_t *pui8Key,
+ uint8_t *pui8PPKey)
+{
+ uint32_t ui32Index;
+
+ //
+ // Check the arguments.
+ //
+ ASSERT(ui32Base == SHAMD5_BASE);
+
+ //
+ // Wait for the context to be ready before writing the mode.
+ //
+ while((HWREG(ui32Base + SHAMD5_O_IRQSTATUS) & SHAMD5_INT_CONTEXT_READY) ==
+ 0)
+ {
+ }
+
+ //
+ // Write the HMAC key.
+ //
+ for(ui32Index = 0; ui32Index < 64; ui32Index += 4)
+ {
+ HWREG(ui32Base + SHAMD5_O_ODIGEST_A + ui32Index) =
+ *((uint32_t *)(pui8Key + ui32Index));
+ }
+
+ //
+ // Set the flag to cause the HMAC key to be pre-processed.
+ //
+ HWREG(ui32Base + SHAMD5_O_MODE) |= SHAMD5_MODE_HMAC_KEY_PROC;
+
+ //
+ // Set the length to zero to start the HMAC key pre-processing.
+ //
+ HWREG(ui32Base + SHAMD5_O_LENGTH) = 0;
+
+ //
+ // Wait for key to be processed.
+ //
+ while((HWREG(ui32Base + SHAMD5_O_IRQSTATUS) & SHAMD5_INT_OUTPUT_READY) ==
+ 0)
+ {
+ }
+
+ //
+ // Read the pre-processed key from the SHA/MD5 module.
+ //
+ for(ui32Index = 0; ui32Index < 64; ui32Index += 4)
+ {
+ *((uint32_t *)(pui8PPKey+ui32Index)) =
+ HWREG(ui32Base + SHAMD5_O_ODIGEST_A + ui32Index);
+ }
+}
+
+//*****************************************************************************
+//
+//! Writes an HMAC key to the digest registers in the SHA/MD5 module.
+//!
+//! \param ui32Base is the base address of the SHA/MD5 module.
+//! \param pui8Src is the pointer to the 16-word array of the HMAC key.
+//!
+//! This function is used to write HMAC key to the digest registers for
+//! key preprocessing. The size of pui8Src must be 512 bytes. If the key is
+//! less than 512 bytes, then it must be padded with zeros.
+//!
+//! \note It is recommended to use the SHAMD5GetIntStatus function to check
+//! whether the context is ready before writing the key.
+//!
+//! \return None
+//
+//*****************************************************************************
+void
+SHAMD5HMACKeySet(uint32_t ui32Base, uint8_t *pui8Src)
+{
+ uint32_t ui32Idx;
+
+ //
+ // Check the arguments.
+ //
+ ASSERT(ui32Base == SHAMD5_BASE);
+
+ //
+ // Write the key to the digest registers.
+ //
+ for(ui32Idx = 0; ui32Idx < 64; ui32Idx += 4)
+ {
+ HWREG(ui32Base + SHAMD5_O_ODIGEST_A + ui32Idx) =
+ * ((uint32_t *)(pui8Src + ui32Idx));
+ }
+
+ //
+ // Configure the SHA engine for HMAC operation.
+ //
+ HWREG(ui32Base + SHAMD5_O_MODE) |= (SHAMD5_MODE_HMAC_OUTER_HASH |
+ SHAMD5_MODE_HMAC_KEY_PROC |
+ SHAMD5_MODE_CLOSE_HASH);
+}
+
+//*****************************************************************************
+//
+//! Writes a pre-processed HMAC key to the digest registers in the SHA/MD5
+//! module.
+//!
+//! \param ui32Base is the base address of the SHA/MD5 module.
+//! \param pui8Src is the pointer to the 16-word array of the HMAC key.
+//!
+//! This function is used to write HMAC key to the digest registers for
+//! key preprocessing. The size of pui8Src must be 512 bytes. If the key is
+//! less than 512 bytes, then it must be padded with zeros.
+//!
+//! \note It is recommended to use the SHAMD5GetIntStatus function to check
+//! whether the context is ready before writing the key.
+//!
+//! \return None
+//
+//*****************************************************************************
+void
+SHAMD5HMACPPKeySet(uint32_t ui32Base, uint8_t *pui8Src)
+{
+ uint32_t ui32Idx;
+
+ //
+ // Check the arguments.
+ //
+ ASSERT(ui32Base == SHAMD5_BASE);
+
+ //
+ // Write the key to the digest registers.
+ //
+ for(ui32Idx = 0; ui32Idx < 64; ui32Idx += 4)
+ {
+ HWREG(ui32Base + SHAMD5_O_ODIGEST_A + ui32Idx) =
+ *((uint32_t *) (pui8Src + ui32Idx));
+ }
+
+ //
+ // Configure the SHA engine to continue the HMAC.
+ //
+ HWREG(ui32Base + SHAMD5_O_MODE) |= (SHAMD5_MODE_HMAC_OUTER_HASH |
+ SHAMD5_MODE_CLOSE_HASH);
+
+ //
+ // Write the digest count to 64 to account for the preprocessed key.
+ //
+ HWREG(ui32Base + SHAMD5_O_DIGEST_COUNT) = 64;
+}
+
+//*****************************************************************************
+//
+// Close the Doxygen group.
+//! @}
+//
+//*****************************************************************************
diff --git a/cc3200/hal/shamd5.h b/cc3200/hal/shamd5.h
new file mode 100644
index 000000000..21f5b4eb0
--- /dev/null
+++ b/cc3200/hal/shamd5.h
@@ -0,0 +1,121 @@
+//*****************************************************************************
+//
+// shamd5.h
+//
+// Defines and Macros for the SHA/MD5.
+//
+// Copyright (C) 2014 Texas Instruments Incorporated - http://www.ti.com/
+//
+//
+// Redistribution and use in source and binary forms, with or without
+// modification, are permitted provided that the following conditions
+// are met:
+//
+// Redistributions of source code must retain the above copyright
+// notice, this list of conditions and the following disclaimer.
+//
+// Redistributions in binary form must reproduce the above copyright
+// notice, this list of conditions and the following disclaimer in the
+// documentation and/or other materials provided with the
+// distribution.
+//
+// Neither the name of Texas Instruments Incorporated nor the names of
+// its contributors may be used to endorse or promote products derived
+// from this software without specific prior written permission.
+//
+// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
+// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
+// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
+// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
+// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
+// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
+// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
+// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
+// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
+// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
+// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+//
+//*****************************************************************************
+
+#ifndef __DRIVERLIB_SHAMD5_H__
+#define __DRIVERLIB_SHAMD5_H__
+
+//*****************************************************************************
+//
+// If building with a C++ compiler, make all of the definitions in this header
+// have a C binding.
+//
+//*****************************************************************************
+#ifdef __cplusplus
+extern "C"
+{
+#endif
+
+//*****************************************************************************
+//
+// The following defines are used to specify the algorithm in use in the
+// SHA/MD5 module.
+//
+//*****************************************************************************
+#define SHAMD5_ALGO_MD5 0x00000018 // MD5
+#define SHAMD5_ALGO_SHA1 0x0000001a // SHA-1
+#define SHAMD5_ALGO_SHA224 0x0000001c // SHA-224
+#define SHAMD5_ALGO_SHA256 0x0000001e // SHA-256
+#define SHAMD5_ALGO_HMAC_MD5 0x00000000 // HMAC-MD5
+#define SHAMD5_ALGO_HMAC_SHA1 0x00000002 // HMAC-SHA-1
+#define SHAMD5_ALGO_HMAC_SHA224 0x00000004 // HMAC-SHA-224
+#define SHAMD5_ALGO_HMAC_SHA256 0x00000006 // HMAC-SHA-256
+
+//*****************************************************************************
+//
+// The following defines are used to represent the different interrupt sources
+// in SHAMD5IntEnable(), SHAMD5IntDisable(), SHAMD5GetIntStatus(), and
+// SHAMD5BlockOnIntStatus() functions.
+//
+//*****************************************************************************
+#define SHAMD5_INT_CONTEXT_READY 0x00000008
+#define SHAMD5_INT_PARTHASH_READY 0x00000004
+#define SHAMD5_INT_INPUT_READY 0x00000002
+#define SHAMD5_INT_OUTPUT_READY 0x00000001
+#define SHAMD5_INT_DMA_CONTEXT_IN 0x00010000
+#define SHAMD5_INT_DMA_DATA_IN 0x00020000
+#define SHAMD5_INT_DMA_CONTEXT_OUT 0x00040000
+
+//*****************************************************************************
+//
+// Function prototypes
+//
+//*****************************************************************************
+extern void SHAMD5ConfigSet(uint32_t ui32Base, uint32_t ui32Mode);
+extern bool SHAMD5DataProcess(uint32_t ui32Base, uint8_t *pui8DataSrc,
+ uint32_t ui32DataLength, uint8_t *pui8HashResult);
+extern void SHAMD5DataWrite(uint32_t ui32Base, uint8_t *pui8Src);
+extern void SHAMD5DataWriteMultiple(uint8_t *pui8DataSrc, uint32_t ui32DataLength);
+extern bool SHAMD5DataWriteNonBlocking(uint32_t ui32Base, uint8_t *pui8Src);
+extern void SHAMD5DMADisable(uint32_t ui32Base);
+extern void SHAMD5DMAEnable(uint32_t ui32Base);
+extern void SHAMD5DataLengthSet(uint32_t ui32Base, uint32_t ui32Length);
+extern void SHAMD5HMACKeySet(uint32_t ui32Base, uint8_t *pui8Src);
+extern void SHAMD5HMACPPKeyGenerate(uint32_t ui32Base, uint8_t *pui8Key,
+ uint8_t *pui8PPKey);
+extern void SHAMD5HMACPPKeySet(uint32_t ui32Base, uint8_t *pui8Src);
+extern bool SHAMD5HMACProcess(uint32_t ui32Base, uint8_t *pui8DataSrc,
+ uint32_t ui32DataLength, uint8_t *pui8HashResult);
+extern void SHAMD5IntClear(uint32_t ui32Base, uint32_t ui32IntFlags);
+extern void SHAMD5IntDisable(uint32_t ui32Base, uint32_t ui32IntFlags);
+extern void SHAMD5IntEnable(uint32_t ui32Base, uint32_t ui32IntFlags);
+extern void SHAMD5IntRegister(uint32_t ui32Base, void(*pfnHandler)(void));
+extern uint32_t SHAMD5IntStatus(uint32_t ui32Base, bool bMasked);
+extern void SHAMD5IntUnregister(uint32_t ui32Base);
+extern void SHAMD5ResultRead(uint32_t ui32Base, uint8_t *pui8Dest);
+
+//*****************************************************************************
+//
+// Mark the end of the C bindings section for C++ compilers.
+//
+//*****************************************************************************
+#ifdef __cplusplus
+}
+#endif
+
+#endif // __DRIVERLIB_SHAMD5_H__
diff --git a/cc3200/hal/spi.c b/cc3200/hal/spi.c
new file mode 100644
index 000000000..f89a9e5c7
--- /dev/null
+++ b/cc3200/hal/spi.c
@@ -0,0 +1,1527 @@
+//*****************************************************************************
+//
+// spi.c
+//
+// Driver for the SPI.
+//
+// Copyright (C) 2014 Texas Instruments Incorporated - http://www.ti.com/
+//
+//
+// Redistribution and use in source and binary forms, with or without
+// modification, are permitted provided that the following conditions
+// are met:
+//
+// Redistributions of source code must retain the above copyright
+// notice, this list of conditions and the following disclaimer.
+//
+// Redistributions in binary form must reproduce the above copyright
+// notice, this list of conditions and the following disclaimer in the
+// documentation and/or other materials provided with the
+// distribution.
+//
+// Neither the name of Texas Instruments Incorporated nor the names of
+// its contributors may be used to endorse or promote products derived
+// from this software without specific prior written permission.
+//
+// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
+// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
+// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
+// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
+// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
+// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
+// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
+// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
+// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
+// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
+// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+//
+//*****************************************************************************
+
+//*****************************************************************************
+//
+//! \addtogroup SPI_Serial_Peripheral_Interface_api
+//! @{
+//
+//*****************************************************************************
+
+
+#include "inc/hw_ints.h"
+#include "inc/hw_types.h"
+#include "inc/hw_memmap.h"
+#include "inc/hw_mcspi.h"
+#include "inc/hw_apps_config.h"
+#include "interrupt.h"
+#include "spi.h"
+
+
+//*****************************************************************************
+//
+// A mapping of SPI base address to interupt number.
+//
+//*****************************************************************************
+static const unsigned long g_ppulSPIIntMap[][3] =
+{
+ { SSPI_BASE, INT_SSPI }, // Shared SPI
+ { GSPI_BASE, INT_GSPI }, // Generic SPI
+ { LSPI_BASE, INT_LSPI }, // LINK SPI
+};
+
+//*****************************************************************************
+//
+// A mapping of SPI base address to DMA done interrupt mask bit(s).
+//
+//*****************************************************************************
+static const unsigned long g_ulSPIDmaMaskMap[][2]=
+{
+ {SSPI_BASE,APPS_CONFIG_DMA_DONE_INT_MASK_SHSPI_WR_DMA_DONE_INT_MASK},
+ {LSPI_BASE,APPS_CONFIG_DMA_DONE_INT_MASK_HOSTSPI_WR_DMA_DONE_INT_MASK},
+ {GSPI_BASE,APPS_CONFIG_DMA_DONE_INT_MASK_APPS_SPI_WR_DMA_DONE_INT_MASK},
+};
+
+//*****************************************************************************
+//
+//! \internal
+//! Transfer bytes over SPI channel
+//!
+//! \param ulBase is the base address of SPI module
+//! \param ucDout is the pointer to Tx data buffer or 0.
+//! \param ucDin is pointer to Rx data buffer or 0
+//! \param ulCount is the size of data in bytes.
+//!
+//! This function transfers \e ulCount bytes of data over SPI channel.
+//!
+//! The function will not return until data has been transmitted
+//!
+//! \return Returns 0 on success, -1 otherwise.
+//
+//*****************************************************************************
+static long SPITransfer8(unsigned long ulBase, unsigned char *ucDout,
+ unsigned char *ucDin, unsigned long ulCount,
+ unsigned long ulFlags)
+{
+ unsigned long ulReadReg;
+ unsigned long ulWriteReg;
+ unsigned long ulStatReg;
+ unsigned long ulOutIncr;
+ unsigned long ulInIncr;
+ unsigned long ulTxDummy;
+ unsigned long ulRxDummy;
+
+ //
+ // Initialize the variables
+ //
+ ulOutIncr = 1;
+ ulInIncr = 1;
+
+ //
+ // Check if output buffer pointer is 0
+ //
+ if(ucDout == 0)
+ {
+ ulOutIncr = 0;
+ ulTxDummy = 0xFFFFFFFF;
+ ucDout = (unsigned char *)&ulTxDummy;
+ }
+
+ //
+ // Check if input buffer pointer is 0
+ //
+ if(ucDin == 0)
+ {
+ ulInIncr = 0;
+ ucDin = (unsigned char *)&ulRxDummy;
+ }
+
+ //
+ // Load the register addresses.
+ //
+ ulReadReg = (ulBase + MCSPI_O_RX0);
+ ulWriteReg = (ulBase + MCSPI_O_TX0);
+ ulStatReg = (ulBase + MCSPI_O_CH0STAT);
+
+ //
+ // Enable CS based on Flag
+ //
+ if( ulFlags & SPI_CS_ENABLE)
+ {
+ HWREG( ulBase + MCSPI_O_CH0CONF) |= MCSPI_CH0CONF_FORCE;
+ }
+
+ while(ulCount)
+ {
+ //
+ // Wait for space in output register/FIFO.
+ //
+ while( !(HWREG(ulStatReg) & MCSPI_CH0STAT_TXS) )
+ {
+ }
+
+ //
+ // Write the data
+ //
+ HWREG(ulWriteReg) = *ucDout;
+
+ //
+ // Wait for data in input register/FIFO.
+ //
+ while( !( HWREG(ulStatReg) & MCSPI_CH0STAT_RXS) )
+ {
+ }
+
+ //
+ // Read the data
+ //
+ *ucDin = HWREG(ulReadReg);
+
+ //
+ // Increment pointers.
+ //
+ ucDout = ucDout + ulOutIncr;
+ ucDin = ucDin + ulInIncr;
+
+ //
+ // Decrement the count.
+ //
+ ulCount--;
+ }
+
+ //
+ // Disable CS based on Flag
+ //
+ if( ulFlags & SPI_CS_DISABLE)
+ {
+ HWREG( ulBase + MCSPI_O_CH0CONF) &= ~MCSPI_CH0CONF_FORCE;
+ }
+
+ return 0;
+}
+
+//*****************************************************************************
+//
+//! \internal
+//! Transfer half-words over SPI channel
+//!
+//! \param ulBase is the base address of SPI module
+//! \param usDout is the pointer to Tx data buffer or 0.
+//! \param usDin is pointer to Rx data buffer or 0
+//! \param ulCount is the size of data in bytes.
+//!
+//! This function transfers \e ulCount bytes of data over SPI channel. Since
+//! the API sends a half-word at a time \e ulCount should be a multiple
+//! of two.
+//!
+//! The function will not return until data has been transmitted
+//!
+//! \return Returns 0 on success, -1 otherwise.
+//
+//*****************************************************************************
+static long SPITransfer16(unsigned long ulBase, unsigned short *usDout,
+ unsigned short *usDin, unsigned long ulCount,
+ unsigned long ulFlags)
+{
+ unsigned long ulReadReg;
+ unsigned long ulWriteReg;
+ unsigned long ulStatReg;
+ unsigned long ulOutIncr;
+ unsigned long ulInIncr;
+ unsigned long ulTxDummy;
+ unsigned long ulRxDummy;
+
+ //
+ // Initialize the variables.
+ //
+ ulOutIncr = 1;
+ ulInIncr = 1;
+
+ //
+ // Check if count is multiple of half-word
+ //
+ if(ulCount%2)
+ {
+ return -1;
+ }
+
+ //
+ // Compute number of half words.
+ //
+ ulCount = ulCount/2;
+
+ //
+ // Check if output buffer pointer is 0
+ //
+ if(usDout == 0)
+ {
+ ulOutIncr = 0;
+ ulTxDummy = 0xFFFFFFFF;
+ usDout = (unsigned short *)&ulTxDummy;
+ }
+
+ //
+ // Check if input buffer pointer is 0
+ //
+ if(usDin == 0)
+ {
+ ulInIncr = 0;
+ usDin = (unsigned short *)&ulRxDummy;
+ }
+
+ //
+ // Load the register addresses.
+ //
+ ulReadReg = (ulBase + MCSPI_O_RX0);
+ ulWriteReg = (ulBase + MCSPI_O_TX0);
+ ulStatReg = (ulBase + MCSPI_O_CH0STAT);
+
+ //
+ // Enable CS based on Flag
+ //
+ if( ulFlags & SPI_CS_ENABLE)
+ {
+ HWREG( ulBase + MCSPI_O_CH0CONF) |= MCSPI_CH0CONF_FORCE;
+ }
+
+ while(ulCount)
+ {
+ //
+ // Wait for space in output register/FIFO.
+ //
+ while( !(HWREG(ulStatReg) & MCSPI_CH0STAT_TXS) )
+ {
+ }
+
+ //
+ // Write the data
+ //
+ HWREG(ulWriteReg) = *usDout;
+
+ //
+ // Wait for data in input register/FIFO.
+ //
+ while( !( HWREG(ulStatReg) & MCSPI_CH0STAT_RXS) )
+ {
+ }
+
+ //
+ // Read the data
+ //
+ *usDin = HWREG(ulReadReg);
+
+ //
+ // Increment pointers.
+ //
+ usDout = usDout + ulOutIncr;
+ usDin = usDin + ulInIncr;
+
+ //
+ // Decrement the count.
+ //
+ ulCount--;
+ }
+
+ //
+ // Disable CS based on Flag
+ //
+ if( ulFlags & SPI_CS_DISABLE)
+ {
+ HWREG( ulBase + MCSPI_O_CH0CONF) &= ~MCSPI_CH0CONF_FORCE;
+ }
+
+ return 0;
+}
+
+//*****************************************************************************
+//
+//! \internal
+//! Transfer words over SPI channel
+//!
+//! \param ulBase is the base address of SPI module
+//! \param ulDout is the pointer to Tx data buffer or 0.
+//! \param ulDin is pointer to Rx data buffer or 0
+//! \param ulCount is the size of data in bytes.
+//!
+//! This function transfers \e ulCount bytes of data over SPI channel. Since
+//! the API sends a word at a time \e ulCount should be a multiple of four.
+//!
+//! The function will not return until data has been transmitted
+//!
+//! \return Returns 0 on success, -1 otherwise.
+//
+//*****************************************************************************
+static long SPITransfer32(unsigned long ulBase, unsigned long *ulDout,
+ unsigned long *ulDin, unsigned long ulCount,
+ unsigned long ulFlags)
+{
+ unsigned long ulReadReg;
+ unsigned long ulWriteReg;
+ unsigned long ulStatReg;
+ unsigned long ulOutIncr;
+ unsigned long ulInIncr;
+ unsigned long ulTxDummy;
+ unsigned long ulRxDummy;
+
+ //
+ // Initialize the variables.
+ //
+ ulOutIncr = 1;
+ ulInIncr = 1;
+
+ //
+ // Check if count is multiple of word
+ //
+ if(ulCount%4)
+ {
+ return -1;
+ }
+
+ //
+ // Compute the number of words to be transferd
+ //
+ ulCount = ulCount/4;
+
+ //
+ // Check if output buffer pointer is 0
+ //
+ if(ulDout == 0)
+ {
+ ulOutIncr = 0;
+ ulTxDummy = 0xFFFFFFFF;
+ ulDout = &ulTxDummy;
+ }
+
+ //
+ // Check if input buffer pointer is 0
+ //
+ if(ulDin == 0)
+ {
+ ulInIncr = 0;
+ ulDin = &ulRxDummy;
+ }
+
+
+ //
+ // Load the register addresses.
+ //
+ ulReadReg = (ulBase + MCSPI_O_RX0);
+ ulWriteReg = (ulBase + MCSPI_O_TX0);
+ ulStatReg = (ulBase + MCSPI_O_CH0STAT);
+
+ //
+ // Enable CS based on Flag
+ //
+ if( ulFlags & SPI_CS_ENABLE)
+ {
+ HWREG( ulBase + MCSPI_O_CH0CONF) |= MCSPI_CH0CONF_FORCE;
+ }
+
+ while(ulCount)
+ {
+ //
+ // Wait for space in output register/FIFO.
+ //
+ while( !(HWREG(ulStatReg) & MCSPI_CH0STAT_TXS) )
+ {
+ }
+
+ //
+ // Write the data
+ //
+ HWREG(ulWriteReg) = *ulDout;
+
+ //
+ // Wait for data in input register/FIFO.
+ //
+ while( !( HWREG(ulStatReg) & MCSPI_CH0STAT_RXS) )
+ {
+ }
+
+ //
+ // Read the data
+ //
+ *ulDin = HWREG(ulReadReg);
+
+ //
+ // Increment pointers.
+ //
+ ulDout = ulDout + ulOutIncr;
+ ulDin = ulDin + ulInIncr;
+
+ //
+ // Decrement the count.
+ //
+ ulCount--;
+ }
+
+ //
+ // Disable CS based on Flag
+ //
+ if( ulFlags & SPI_CS_DISABLE)
+ {
+ HWREG( ulBase + MCSPI_O_CH0CONF) &= ~MCSPI_CH0CONF_FORCE;
+ }
+
+ return 0;
+}
+
+//*****************************************************************************
+//
+//! \internal
+//! Gets the SPI interrupt number.
+//!
+//! \param ulBase is the base address of the SPI module
+//!
+//! Given a SPI base address, returns the corresponding interrupt number.
+//!
+//! \return Returns a SPI interrupt number, or -1 if \e ulBase is invalid.
+//
+//*****************************************************************************
+static long
+SPIIntNumberGet(unsigned long ulBase)
+{
+ unsigned long ulIdx;
+
+ //
+ // Loop through the table that maps SPI base addresses to interrupt
+ // numbers.
+ //
+ for(ulIdx = 0; ulIdx < (sizeof(g_ppulSPIIntMap) /
+ sizeof(g_ppulSPIIntMap[0])); ulIdx++)
+ {
+ //
+ // See if this base address matches.
+ //
+ if(g_ppulSPIIntMap[ulIdx][0] == ulBase)
+ {
+ //
+ // Return the corresponding interrupt number.
+ //
+ return(g_ppulSPIIntMap[ulIdx][1]);
+ }
+ }
+
+ //
+ // The base address could not be found, so return an error.
+ //
+ return(-1);
+}
+
+//*****************************************************************************
+//
+//! \internal
+//! Gets the SPI DMA interrupt mask bit.
+//!
+//! \param ulBase is the base address of the SPI module
+//!
+//! Given a SPI base address, DMA interrupt mask bit.
+//!
+//! \return Returns a DMA interrupt mask bit, or -1 if \e ulBase is invalid.
+//
+//*****************************************************************************
+static long
+SPIDmaMaskGet(unsigned long ulBase)
+{
+ unsigned long ulIdx;
+
+ //
+ // Loop through the table that maps SPI base addresses to interrupt
+ // numbers.
+ //
+ for(ulIdx = 0; ulIdx < (sizeof(g_ulSPIDmaMaskMap) /
+ sizeof(g_ulSPIDmaMaskMap[0])); ulIdx++)
+ {
+ //
+ // See if this base address matches.
+ //
+ if(g_ulSPIDmaMaskMap[ulIdx][0] == ulBase)
+ {
+ //
+ // Return the corresponding interrupt number.
+ //
+ return(g_ulSPIDmaMaskMap[ulIdx][1]);
+ }
+ }
+
+ //
+ // The base address could not be found, so return an error.
+ //
+ return(-1);
+}
+
+//*****************************************************************************
+//
+//! Enables transmitting and receiving.
+//!
+//! \param ulBase is the base address of the SPI module
+//!
+//! This function enables the SPI channel for transmitting and receiving.
+//!
+//! \return None
+//!
+//
+//*****************************************************************************
+void
+SPIEnable(unsigned long ulBase)
+{
+ //
+ // Set Channel Enable Bit
+ //
+ HWREG(ulBase + MCSPI_O_CH0CTRL) |= MCSPI_CH0CTRL_EN;
+}
+
+//*****************************************************************************
+//
+//! Disables the transmitting and receiving.
+//!
+//! \param ulBase is the base address of the SPI module
+//!
+//! This function disables the SPI channel for transmitting and receiving.
+//!
+//! \return None
+//!
+//
+//*****************************************************************************
+void
+SPIDisable(unsigned long ulBase)
+{
+ //
+ // Reset Channel Enable Bit
+ //
+ HWREG(ulBase + MCSPI_O_CH0CTRL) &= ~MCSPI_CH0CTRL_EN;
+}
+
+
+//*****************************************************************************
+//
+//! Enables the SPI DMA operation for transmitting and/or receving.
+//!
+//! \param ulBase is the base address of the SPI module
+//! \param ulFlags selectes the DMA signal for transmit and/or receive.
+//!
+//! This function enables transmit and/or receive DMA request based on the
+//! \e ulFlags parameter.
+//!
+//! The parameter \e ulFlags is the logical OR of one or more of
+//! the following :
+//! - \b SPI_RX_DMA
+//! - \b SPI_TX_DMA
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+SPIDmaEnable(unsigned long ulBase, unsigned long ulFlags)
+{
+ //
+ // Enable DMA based on ulFlags
+ //
+ HWREG(ulBase + MCSPI_O_CH0CONF) |= ulFlags;
+}
+
+//*****************************************************************************
+//
+//! Disables the SPI DMA operation for transmitting and/or receving.
+//!
+//! \param ulBase is the base address of the SPI module
+//! \param ulFlags selectes the DMA signal for transmit and/or receive.
+//!
+//! This function disables transmit and/or receive DMA request based on the
+//! \e ulFlags parameter.
+//!
+//! The parameter \e ulFlags is the logical OR of one or more of
+//! the following :
+//! - \b SPI_RX_DMA
+//! - \b SPI_TX_DMA
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+SPIDmaDisable(unsigned long ulBase, unsigned long ulFlags)
+{
+ //
+ // Disable DMA based on ulFlags
+ //
+ HWREG(ulBase + MCSPI_O_CH0CONF) &= ulFlags;
+}
+
+//*****************************************************************************
+//
+//! Performs a software reset of the specified SPI module
+//!
+//! \param ulBase is the base address of the SPI module
+//!
+//! This function performs a software reset of the specified SPI module
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+SPIReset(unsigned long ulBase)
+{
+
+ //
+ // Assert soft reset (auto clear)
+ //
+ HWREG(ulBase + MCSPI_O_SYSCONFIG) |= MCSPI_SYSCONFIG_SOFTRESET;
+
+ //
+ // wait until reset is done
+ //
+ while(!(HWREG(ulBase + MCSPI_O_SYSSTATUS)& MCSPI_SYSSTATUS_RESETDONE))
+ {
+ }
+}
+
+//*****************************************************************************
+//
+//! Sets the configuration of a SPI module
+//!
+//! \param ulBase is the base address of the SPI module
+//! \param ulSPIClk is the rate of clock supplied to the SPI module.
+//! \param ulBitRate is the desired bit rate.(master mode)
+//! \param ulMode is the mode of operation.
+//! \param ulSubMode is one of the valid sub-modes.
+//! \param ulConfig is logical OR of configuration paramaters.
+//!
+//! This function configures SPI port for operation in specified sub-mode and
+//! required bit rated as specified by \e ulMode and \e ulBitRate parameters
+//! respectively.
+//!
+//! The SPI module can operate in either master or slave mode. The parameter
+//! \e ulMode can be one of the following
+//! -\b SPI_MODE_MASTER
+//! -\b SPI_MODE_SLAVE
+//!
+//! The SPI module supports 4 sub modes based on SPI clock polarity and phase.
+//!
+//! <pre>
+//! Polarity Phase Sub-Mode
+//! 0 0 0
+//! 0 1 1
+//! 1 0 2
+//! 1 1 3
+//! </pre>
+//!
+//! Required sub mode can be select by setting \e ulSubMode parameter to one
+//! of the following
+//! - \b SPI_SUB_MODE_0
+//! - \b SPI_SUB_MODE_1
+//! - \b SPI_SUB_MODE_2
+//! - \b SPI_SUB_MODE_3
+//!
+//! The parameter \e ulConfig is logical OR of five values: the word length,
+//! active level for chip select, software or hardware controled chip select,
+//! 3 or 4 pin mode and turbo mode.
+//! mode.
+//!
+//! SPI support 8, 16 and 32 bit word lengths defined by:-
+//! - \b SPI_WL_8
+//! - \b SPI_WL_16
+//! - \b SPI_WL_32
+//!
+//! Active state of Chip[ Selece can be defined by:-
+//! - \b SPI_CS_ACTIVELOW
+//! - \b SPI_CS_ACTIVEHIGH
+//!
+//! SPI chip select can be configured to be controlled either by hardware or
+//! software:-
+//! - \b SPI_SW_CS
+//! - \b SPI_HW_CS
+//!
+//! The module can work in 3 or 4 pin mode defined by:-
+//! - \b SPI_3PIN_MODE
+//! - \b SPI_4PIN_MODE
+//!
+//! Turbo mode can be set on or turned off using:-
+//! - \b SPI_TURBO_MODE_ON
+//! - \b SPI_TURBO_MODE_OFF
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+SPIConfigSetExpClk(unsigned long ulBase,unsigned long ulSPIClk,
+ unsigned long ulBitRate, unsigned long ulMode,
+ unsigned long ulSubMode, unsigned long ulConfig)
+{
+
+ unsigned long ulRegData;
+ unsigned long ulDivider;
+
+ //
+ // Read MODULCTRL register
+ //
+ ulRegData = HWREG(ulBase + MCSPI_O_MODULCTRL);
+
+ //
+ // Set Master mode with h/w chip select
+ //
+ ulRegData &= ~(MCSPI_MODULCTRL_MS |
+ MCSPI_MODULCTRL_SINGLE);
+
+ //
+ // Enable software control Chip Select, Init delay
+ // and 3-pin mode
+ //
+ ulRegData |= (((ulConfig >> 24) | ulMode) & 0xFF);
+
+ //
+ // Write the configuration
+ //
+ HWREG(ulBase + MCSPI_O_MODULCTRL) = ulRegData;
+
+ //
+ // Set IS, DPE0, DPE1 based on master or slave mode
+ //
+ if(ulMode == SPI_MODE_MASTER)
+ {
+ ulRegData = 0x1 << 16;
+ }
+ else
+ {
+ ulRegData = 0x6 << 16;
+ }
+
+ //
+ // Mask the configurations and set clock divider granularity
+ // to 1 cycle
+ //
+ ulRegData = (ulRegData & (~(MCSPI_CH0CONF_WL_M |
+ MCSPI_CH0CONF_EPOL |
+ MCSPI_CH0CONF_POL |
+ MCSPI_CH0CONF_PHA |
+ MCSPI_CH0CONF_TURBO ) |
+ MCSPI_CH0CONF_CLKG));
+
+ //
+ // Get the divider value
+ //
+ ulDivider = ((ulSPIClk/ulBitRate) - 1);
+
+ //
+ // The least significant four bits of the divider is used fo configure
+ // CLKD in MCSPI_CHCONF next eight least significant bits are used to
+ // configure the EXTCLK in MCSPI_CHCTRL
+ //
+ ulRegData |= ((ulDivider & 0x0000000F) << 2);
+ HWREG(ulBase + MCSPI_O_CH0CTRL) = ((ulDivider & 0x00000FF0) << 4);
+
+ //
+ // Set the protocol, CS polarity, word length
+ // and turbo mode
+ //
+ ulRegData = ((ulRegData |
+ ulSubMode) | (ulConfig & 0x0008FFFF));
+
+ //
+ // Write back the CONF register
+ //
+ HWREG(ulBase + MCSPI_O_CH0CONF) = ulRegData;
+
+}
+
+//*****************************************************************************
+//
+//! Receives a word from the specified port.
+//!
+//! \param ulBase is the base address of the SPI module.
+//! \param pulData is pointer to receive data variable.
+//!
+//! This function gets a SPI word from the receive FIFO for the specified
+//! port.
+//!
+//! \return Returns the number of elements read from the receive FIFO.
+//
+//*****************************************************************************
+long
+SPIDataGetNonBlocking(unsigned long ulBase, unsigned long *pulData)
+{
+ unsigned long ulRegVal;
+
+ //
+ // Read register status register
+ //
+ ulRegVal = HWREG(ulBase + MCSPI_O_CH0STAT);
+
+ //
+ // Check is data is available
+ //
+ if(ulRegVal & MCSPI_CH0STAT_RXS)
+ {
+ *pulData = HWREG(ulBase + MCSPI_O_RX0);
+ return(1);
+ }
+
+ return(0);
+}
+
+//*****************************************************************************
+//
+//! Waits for the word to be received on the specified port.
+//!
+//! \param ulBase is the base address of the SPI module.
+//! \param pulData is pointer to receive data variable.
+//!
+//! This function gets a SPI word from the receive FIFO for the specified
+//! port. If there is no word available, this function waits until a
+//! word is received before returning.
+//!
+//! \return Returns the word read from the specified port, cast as an
+//! \e unsigned long.
+//
+//*****************************************************************************
+void
+SPIDataGet(unsigned long ulBase, unsigned long *pulData)
+{
+ //
+ // Wait for Rx data
+ //
+ while(!(HWREG(ulBase + MCSPI_O_CH0STAT) & MCSPI_CH0STAT_RXS))
+ {
+ }
+
+ //
+ // Read the value
+ //
+ *pulData = HWREG(ulBase + MCSPI_O_RX0);
+}
+
+//*****************************************************************************
+//
+//! Transmits a word on the specified port.
+//!
+//! \param ulBase is the base address of the SPI module
+//! \param ulData is data to be transmitted.
+//!
+//! This function transmits a SPI word on the transmit FIFO for the specified
+//! port.
+//!
+//! \return Returns the number of elements written to the transmit FIFO.
+//!
+//*****************************************************************************
+long
+SPIDataPutNonBlocking(unsigned long ulBase, unsigned long ulData)
+{
+ unsigned long ulRegVal;
+
+ //
+ // Read status register
+ //
+ ulRegVal = HWREG(ulBase + MCSPI_O_CH0STAT);
+
+ //
+ // Write value into Tx register/FIFO
+ // if space is available
+ //
+ if(ulRegVal & MCSPI_CH0STAT_TXS)
+ {
+ HWREG(ulBase + MCSPI_O_TX0) = ulData;
+ return(1);
+ }
+
+ return(0);
+}
+
+//*****************************************************************************
+//
+//! Waits until the word is transmitted on the specified port.
+//!
+//! \param ulBase is the base address of the SPI module
+//! \param ulData is data to be transmitted.
+//!
+//! This function transmits a SPI word on the transmit FIFO for the specified
+//! port. This function waits until the space is available on transmit FIFO
+//!
+//! \return None
+//!
+//*****************************************************************************
+void
+SPIDataPut(unsigned long ulBase, unsigned long ulData)
+{
+ //
+ // Wait for space in FIFO
+ //
+ while(!(HWREG(ulBase + MCSPI_O_CH0STAT)&MCSPI_CH0STAT_TXS))
+ {
+ }
+
+ //
+ // Write the data
+ //
+ HWREG(ulBase + MCSPI_O_TX0) = ulData;
+}
+
+//*****************************************************************************
+//
+//! Enables the transmit and/or receive FIFOs.
+//!
+//! \param ulBase is the base address of the SPI module
+//! \param ulFlags selects the FIFO(s) to be enabled
+//!
+//! This function enables the transmit and/or receive FIFOs as specified by
+//! \e ulFlags.
+//! The parameter \e ulFlags shoulde be logical OR of one or more of the
+//! following:
+//! - \b SPI_TX_FIFO
+//! - \b SPI_RX_FIFO
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+SPIFIFOEnable(unsigned long ulBase, unsigned long ulFlags)
+{
+ //
+ // Set FIFO enable bits.
+ //
+ HWREG(ulBase + MCSPI_O_CH0CONF) |= ulFlags;
+}
+
+//*****************************************************************************
+//
+//! Disables the transmit and/or receive FIFOs.
+//!
+//! \param ulBase is the base address of the SPI module
+//! \param ulFlags selects the FIFO(s) to be enabled
+//!
+//! This function disables transmit and/or receive FIFOs. as specified by
+//! \e ulFlags.
+//! The parameter \e ulFlags shoulde be logical OR of one or more of the
+//! following:
+//! - \b SPI_TX_FIFO
+//! - \b SPI_RX_FIFO
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+SPIFIFODisable(unsigned long ulBase, unsigned long ulFlags)
+{
+ //
+ // Reset FIFO Enable bits.
+ //
+ HWREG(ulBase + MCSPI_O_CH0CONF) &= ~(ulFlags);
+}
+
+//*****************************************************************************
+//
+//! Sets the FIFO level at which DMA requests or interrupts are generated.
+//!
+//! \param ulBase is the base address of the SPI module
+//! \param ulTxLevel is the Almost Empty Level for transmit FIFO.
+//! \param ulRxLevel is the Almost Full Level for the receive FIFO.
+//!
+//! This function Sets the FIFO level at which DMA requests or interrupts
+//! are generated.
+//!
+//! \return None.
+//
+//*****************************************************************************
+void SPIFIFOLevelSet(unsigned long ulBase, unsigned long ulTxLevel,
+ unsigned long ulRxLevel)
+{
+ unsigned long ulRegVal;
+
+ //
+ // Read the current configuration
+ //
+ ulRegVal = HWREG(ulBase + MCSPI_O_XFERLEVEL);
+
+ //
+ // Mask and set new FIFO thresholds.
+ //
+ ulRegVal = ((ulRegVal & 0xFFFF0000) | (((ulRxLevel-1) << 8) | (ulTxLevel-1)));
+
+ //
+ // Set the transmit and receive FIFO thresholds.
+ //
+ HWREG(ulBase + MCSPI_O_XFERLEVEL) = ulRegVal;
+
+}
+
+//*****************************************************************************
+//
+//! Gets the FIFO level at which DMA requests or interrupts are generated.
+//!
+//! \param ulBase is the base address of the SPI module
+//! \param pulTxLevel is a pointer to storage for the transmit FIFO level
+//! \param pulRxLevel is a pointer to storage for the receive FIFO level
+//!
+//! This function gets the FIFO level at which DMA requests or interrupts
+//! are generated.
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+SPIFIFOLevelGet(unsigned long ulBase, unsigned long *pulTxLevel,
+ unsigned long *pulRxLevel)
+{
+ unsigned long ulRegVal;
+
+ //
+ // Read the current configuration
+ //
+ ulRegVal = HWREG(ulBase + MCSPI_O_XFERLEVEL);
+
+ *pulTxLevel = (ulRegVal & 0xFF);
+
+ *pulRxLevel = ((ulRegVal >> 8) & 0xFF);
+
+}
+
+//*****************************************************************************
+//
+//! Sets the word count.
+//!
+//! \param ulBase is the base address of the SPI module
+//! \param ulWordCount is number of SPI words to be transmitted.
+//!
+//! This function sets the word count, which is the number of SPI word to
+//! be transferred on channel when using the FIFO buffer.
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+SPIWordCountSet(unsigned long ulBase, unsigned long ulWordCount)
+{
+ unsigned long ulRegVal;
+
+ //
+ // Read the current configuration
+ //
+ ulRegVal = HWREG(ulBase + MCSPI_O_XFERLEVEL);
+
+ //
+ // Mask and set the word count
+ //
+ HWREG(ulBase + MCSPI_O_XFERLEVEL) = ((ulRegVal & 0x0000FFFF)|
+ (ulWordCount & 0xFFFF) << 16);
+}
+
+//*****************************************************************************
+//
+//! Registers an interrupt handler for a SPI interrupt.
+//!
+//! \param ulBase is the base address of the SPI module
+//! \param pfnHandler is a pointer to the function to be called when the
+//! SPI interrupt occurs.
+//!
+//! This function does the actual registering of the interrupt handler. This
+//! function enables the global interrupt in the interrupt controller; specific
+//! SPI interrupts must be enabled via SPIIntEnable(). It is the interrupt
+//! handler's responsibility to clear the interrupt source.
+//!
+//! \sa IntRegister() for important information about registering interrupt
+//! handlers.
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+SPIIntRegister(unsigned long ulBase, void(*pfnHandler)(void))
+{
+ unsigned long ulInt;
+
+ //
+ // Determine the interrupt number based on the SPI module
+ //
+ ulInt = SPIIntNumberGet(ulBase);
+
+ //
+ // Register the interrupt handler.
+ //
+ IntRegister(ulInt, pfnHandler);
+
+ //
+ // Enable the SPI interrupt.
+ //
+ IntEnable(ulInt);
+}
+
+//*****************************************************************************
+//
+//! Unregisters an interrupt handler for a SPI interrupt.
+//!
+//! \param ulBase is the base address of the SPI module
+//!
+//! This function does the actual unregistering of the interrupt handler. It
+//! clears the handler to be called when a SPI interrupt occurs. This
+//! function also masks off the interrupt in the interrupt controller so that
+//! the interrupt handler no longer is called.
+//!
+//! \sa IntRegister() for important information about registering interrupt
+//! handlers.
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+SPIIntUnregister(unsigned long ulBase)
+{
+ unsigned long ulInt;
+
+ //
+ // Determine the interrupt number based on the SPI module
+ //
+ ulInt = SPIIntNumberGet(ulBase);
+
+ //
+ // Disable the interrupt.
+ //
+ IntDisable(ulInt);
+
+ //
+ // Unregister the interrupt handler.
+ //
+ IntUnregister(ulInt);
+}
+
+//*****************************************************************************
+//
+//! Enables individual SPI interrupt sources.
+//!
+//! \param ulBase is the base address of the SPI module
+//! \param ulIntFlags is the bit mask of the interrupt sources to be enabled.
+//!
+//! This function enables the indicated SPI interrupt sources. Only the
+//! sources that are enabled can be reflected to the processor interrupt;
+//! disabled sources have no effect on the processor.
+//!
+//! The \e ulIntFlags parameter is the logical OR of any of the following:
+//!
+//! - \b SPI_INT_DMATX
+//! - \b SPI_INT_DMARX
+//! - \b SPI_INT_EOW
+//! - \b SPI_INT_RX_OVRFLOW
+//! - \b SPI_INT_RX_FULL
+//! - \b SPI_INT_TX_UDRFLOW
+//! - \b SPI_INT_TX_EMPTY
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+SPIIntEnable(unsigned long ulBase, unsigned long ulIntFlags)
+{
+ unsigned long ulDmaMsk;
+
+ //
+ // Enable DMA Tx Interrupt
+ //
+ if(ulIntFlags & SPI_INT_DMATX)
+ {
+ ulDmaMsk = SPIDmaMaskGet(ulBase);
+ HWREG(APPS_CONFIG_BASE + APPS_CONFIG_O_DMA_DONE_INT_MASK_CLR) = ulDmaMsk;
+ }
+
+ //
+ // Enable DMA Rx Interrupt
+ //
+ if(ulIntFlags & SPI_INT_DMARX)
+ {
+ ulDmaMsk = (SPIDmaMaskGet(ulBase) >> 1);
+ HWREG(APPS_CONFIG_BASE + APPS_CONFIG_O_DMA_DONE_INT_MASK_CLR) = ulDmaMsk;
+ }
+
+ //
+ // Enable the specific Interrupts
+ //
+ HWREG(ulBase + MCSPI_O_IRQENABLE) |= (ulIntFlags & 0x0003000F);
+}
+
+
+//*****************************************************************************
+//
+//! Disables individual SPI interrupt sources.
+//!
+//! \param ulBase is the base address of the SPI module
+//! \param ulIntFlags is the bit mask of the interrupt sources to be disabled.
+//!
+//! This function disables the indicated SPI interrupt sources. Only the
+//! sources that are enabled can be reflected to the processor interrupt;
+//! disabled sources have no effect on the processor.
+//!
+//! The \e ulIntFlags parameter has the same definition as the \e ulIntFlags
+//! parameter to SPIIntEnable().
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+SPIIntDisable(unsigned long ulBase, unsigned long ulIntFlags)
+{
+ unsigned long ulDmaMsk;
+
+ //
+ // Disable DMA Tx Interrupt
+ //
+ if(ulIntFlags & SPI_INT_DMATX)
+ {
+ ulDmaMsk = SPIDmaMaskGet(ulBase);
+ HWREG(APPS_CONFIG_BASE + APPS_CONFIG_O_DMA_DONE_INT_MASK_SET) = ulDmaMsk;
+ }
+
+ //
+ // Disable DMA Tx Interrupt
+ //
+ if(ulIntFlags & SPI_INT_DMARX)
+ {
+ ulDmaMsk = (SPIDmaMaskGet(ulBase) >> 1);
+ HWREG(APPS_CONFIG_BASE + APPS_CONFIG_O_DMA_DONE_INT_MASK_SET) = ulDmaMsk;
+ }
+
+ //
+ // Disable the specific Interrupts
+ //
+ HWREG(ulBase + MCSPI_O_IRQENABLE) &= ~(ulIntFlags & 0x0003000F);
+}
+
+//*****************************************************************************
+//
+//! Gets the current interrupt status.
+//!
+//! \param ulBase is the base address of the SPI module
+//! \param bMasked is \b false if the raw interrupt status is required and
+//! \b true if the masked interrupt status is required.
+//!
+//! This function returns the interrupt status for the specified SPI.
+//! The status of interrupts that are allowed to reflect to the processor can
+//! be returned.
+//!
+//! \return Returns the current interrupt status, enumerated as a bit field of
+//! values described in SPIIntEnable().
+//
+//*****************************************************************************
+unsigned long
+SPIIntStatus(unsigned long ulBase, tBoolean bMasked)
+{
+ unsigned long ulIntStat;
+ unsigned long ulIntFlag;
+ unsigned long ulDmaMsk;
+
+ //
+ // Get SPI interrupt status
+ //
+ ulIntFlag = HWREG(ulBase + MCSPI_O_IRQSTATUS) & 0x0003000F;
+
+ if(bMasked)
+ {
+ ulIntFlag &= HWREG(ulBase + MCSPI_O_IRQENABLE);
+ }
+
+ //
+ // Get the interrupt bit
+ //
+ ulDmaMsk = SPIDmaMaskGet(ulBase);
+
+ //
+ // Get the DMA interrupt status
+ //
+ if(bMasked)
+ {
+ ulIntStat = HWREG(APPS_CONFIG_BASE + APPS_CONFIG_O_DMA_DONE_INT_STS_MASKED);
+ }
+ else
+ {
+ ulIntStat = HWREG(APPS_CONFIG_BASE + APPS_CONFIG_O_DMA_DONE_INT_STS_RAW);
+ }
+
+ //
+ // Get SPI Tx DMA done status
+ //
+ if(ulIntStat & ulDmaMsk)
+ {
+ ulIntFlag |= SPI_INT_DMATX;
+ }
+
+ //
+ // Get SPI Rx DMA done status
+ //
+ if(ulIntStat & (ulDmaMsk >> 1))
+ {
+ ulIntFlag |= SPI_INT_DMARX;
+ }
+
+ //
+ // Return status
+ //
+ return(ulIntFlag);
+}
+
+//*****************************************************************************
+//
+//! Clears SPI interrupt sources.
+//!
+//! \param ulBase is the base address of the SPI module
+//! \param ulIntFlags is a bit mask of the interrupt sources to be cleared.
+//!
+//! The specified SPI interrupt sources are cleared, so that they no longer
+//! assert. This function must be called in the interrupt handler to keep the
+//! interrupt from being recognized again immediately upon exit.
+//!
+//! The \e ulIntFlags parameter has the same definition as the \e ulIntFlags
+//! parameter to SPIIntEnable().
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+SPIIntClear(unsigned long ulBase, unsigned long ulIntFlags)
+{
+ unsigned long ulDmaMsk;
+
+ //
+ // Disable DMA Tx Interrupt
+ //
+ if(ulIntFlags & SPI_INT_DMATX)
+ {
+ ulDmaMsk = SPIDmaMaskGet(ulBase);
+ HWREG(APPS_CONFIG_BASE + APPS_CONFIG_O_DMA_DONE_INT_ACK) = ulDmaMsk;
+ }
+
+ //
+ // Disable DMA Tx Interrupt
+ //
+ if(ulIntFlags & SPI_INT_DMARX)
+ {
+ ulDmaMsk = (SPIDmaMaskGet(ulBase) >> 1);
+ HWREG(APPS_CONFIG_BASE + APPS_CONFIG_O_DMA_DONE_INT_ACK) = ulDmaMsk;
+ }
+
+ //
+ // Clear Interrupts
+ //
+ HWREG(ulBase + MCSPI_O_IRQSTATUS) = (ulIntFlags & 0x0003000F);
+}
+
+//*****************************************************************************
+//
+//! Enables the chip select in software controlled mode
+//!
+//! \param ulBase is the base address of the SPI module.
+//!
+//! This function enables the Chip select in software controlled mode. The
+//! active state of CS will depend on the configuration done via
+//! \sa SPIConfigExpClkSet().
+//!
+//! \return None.
+//
+//*****************************************************************************
+void SPICSEnable(unsigned long ulBase)
+{
+ //
+ // Set Chip Select enable bit.
+ //
+ HWREG( ulBase+MCSPI_O_CH0CONF) |= MCSPI_CH0CONF_FORCE;
+}
+
+//*****************************************************************************
+//
+//! Disables the chip select in software controlled mode
+//!
+//! \param ulBase is the base address of the SPI module.
+//!
+//! This function disables the Chip select in software controlled mode. The
+//! active state of CS will depend on the configuration done via
+//! sa SPIConfigSetExpClk().
+//!
+//! \return None.
+//
+//*****************************************************************************
+void SPICSDisable(unsigned long ulBase)
+{
+ //
+ // Reset Chip Select enable bit.
+ //
+ HWREG( ulBase+MCSPI_O_CH0CONF) &= ~MCSPI_CH0CONF_FORCE;
+}
+
+//*****************************************************************************
+//
+//! Send/Receive data buffer over SPI channel
+//!
+//! \param ulBase is the base address of SPI module
+//! \param ucDout is the pointer to Tx data buffer or 0.
+//! \param ucDin is pointer to Rx data buffer or 0
+//! \param ulCount is the size of data in bytes.
+//! \param ulFlags controlls chip select toggling.
+//!
+//! This function transfers \e ulCount bytes of data over SPI channel. Since
+//! the API sends a SPI word at a time \e ulCount should be a multiple of
+//! word length set using SPIConfigSetExpClk().
+//!
+//! If the \e ucDout parameter is set to 0, the function will send 0xFF over
+//! the SPI MOSI line.
+//!
+//! If the \e ucDin parameter is set to 0, the function will ignore data on SPI
+//! MISO line.
+//!
+//! The parameter \e ulFlags is logical OR of one or more of the following
+//!
+//! - \b SPI_CS_ENABLE if CS needs to be enabled at start of transfer.
+//! - \b SPI_CS_DISABLE if CS need to be disabled at the end of transfer.
+//!
+//! This function will not return until data has been transmitted
+//!
+//! \return Returns 0 on success, -1 otherwise.
+//
+//*****************************************************************************
+long SPITransfer(unsigned long ulBase, unsigned char *ucDout,
+ unsigned char *ucDin, unsigned long ulCount,
+ unsigned long ulFlags)
+{
+ unsigned long ulWordLength;
+ long lRet;
+
+ //
+ // Get the word length
+ //
+ ulWordLength = (HWREG(ulBase + MCSPI_O_CH0CONF) & MCSPI_CH0CONF_WL_M);
+
+ //
+ // Check for word length.
+ //
+ if( !((ulWordLength == SPI_WL_8) || (ulWordLength == SPI_WL_16) ||
+ (ulWordLength == SPI_WL_32)) )
+ {
+ return -1;
+ }
+
+ if( ulWordLength == SPI_WL_8 )
+ {
+ //
+ // Do byte transfer
+ //
+ lRet = SPITransfer8(ulBase,ucDout,ucDin,ulCount,ulFlags);
+ }
+ else if( ulWordLength == SPI_WL_16 )
+ {
+
+ //
+ // Do half-word transfer
+ //
+ lRet = SPITransfer16(ulBase,(unsigned short *)ucDout,
+ (unsigned short *)ucDin,ulCount,ulFlags);
+ }
+ else
+ {
+ //
+ // Do word transfer
+ //
+ lRet = SPITransfer32(ulBase,(unsigned long *)ucDout,
+ (unsigned long *)ucDin,ulCount,ulFlags);
+ }
+
+ //
+ // return
+ //
+ return lRet;
+
+}
+//*****************************************************************************
+//
+// Close the Doxygen group.
+//! @}
+//
+//*****************************************************************************
diff --git a/cc3200/hal/spi.h b/cc3200/hal/spi.h
new file mode 100644
index 000000000..593986bc6
--- /dev/null
+++ b/cc3200/hal/spi.h
@@ -0,0 +1,163 @@
+//*****************************************************************************
+//
+// spi.h
+//
+// Defines and Macros for the SPI.
+//
+// Copyright (C) 2014 Texas Instruments Incorporated - http://www.ti.com/
+//
+//
+// Redistribution and use in source and binary forms, with or without
+// modification, are permitted provided that the following conditions
+// are met:
+//
+// Redistributions of source code must retain the above copyright
+// notice, this list of conditions and the following disclaimer.
+//
+// Redistributions in binary form must reproduce the above copyright
+// notice, this list of conditions and the following disclaimer in the
+// documentation and/or other materials provided with the
+// distribution.
+//
+// Neither the name of Texas Instruments Incorporated nor the names of
+// its contributors may be used to endorse or promote products derived
+// from this software without specific prior written permission.
+//
+// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
+// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
+// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
+// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
+// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
+// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
+// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
+// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
+// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
+// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
+// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+//
+//*****************************************************************************
+
+#ifndef __SPI_H__
+#define __SPI_H__
+
+//*****************************************************************************
+//
+// If building with a C++ compiler, make all of the definitions in this header
+// have a C binding.
+//
+//*****************************************************************************
+#ifdef __cplusplus
+extern "C"
+{
+#endif
+
+//*****************************************************************************
+// Values that can be passed to SPIConfigSetExpClk() as ulMode parameter
+//*****************************************************************************
+#define SPI_MODE_MASTER 0x00000000
+#define SPI_MODE_SLAVE 0x00000004
+
+//*****************************************************************************
+// Values that can be passed to SPIConfigSetExpClk() as ulSubMode parameter
+//*****************************************************************************
+#define SPI_SUB_MODE_0 0x00000000
+#define SPI_SUB_MODE_1 0x00000001
+#define SPI_SUB_MODE_2 0x00000002
+#define SPI_SUB_MODE_3 0x00000003
+
+
+//*****************************************************************************
+// Values that can be passed to SPIConfigSetExpClk() as ulConfigFlags parameter
+//*****************************************************************************
+#define SPI_SW_CTRL_CS 0x01000000
+#define SPI_HW_CTRL_CS 0x00000000
+#define SPI_3PIN_MODE 0x02000000
+#define SPI_4PIN_MODE 0x00000000
+#define SPI_TURBO_ON 0x00080000
+#define SPI_TURBO_OFF 0x00000000
+#define SPI_CS_ACTIVEHIGH 0x00000000
+#define SPI_CS_ACTIVELOW 0x00000040
+#define SPI_WL_8 0x00000380
+#define SPI_WL_16 0x00000780
+#define SPI_WL_32 0x00000F80
+
+//*****************************************************************************
+// Values that can be passed to SPIFIFOEnable() and SPIFIFODisable()
+//*****************************************************************************
+#define SPI_TX_FIFO 0x08000000
+#define SPI_RX_FIFO 0x10000000
+
+//*****************************************************************************
+// Values that can be passed to SPIDMAEnable() and SPIDMADisable()
+//*****************************************************************************
+#define SPI_RX_DMA 0x00008000
+#define SPI_TX_DMA 0x00004000
+
+//*****************************************************************************
+// Values that can be passed to SPIIntEnable(), SPIIntDiasble(),
+// SPIIntClear() or returned from SPIStatus()
+//*****************************************************************************
+#define SPI_INT_DMATX 0x20000000
+#define SPI_INT_DMARX 0x10000000
+#define SPI_INT_EOW 0x00020000
+#define SPI_INT_WKS 0x00010000
+#define SPI_INT_RX_OVRFLOW 0x00000008
+#define SPI_INT_RX_FULL 0x00000004
+#define SPI_INT_TX_UDRFLOW 0x00000002
+#define SPI_INT_TX_EMPTY 0x00000001
+
+//*****************************************************************************
+// Values that can be passed to SPITransfer()
+//*****************************************************************************
+#define SPI_CS_ENABLE 0x00000001
+#define SPI_CS_DISABLE 0x00000002
+
+//*****************************************************************************
+//
+// API Function prototypes
+//
+//*****************************************************************************
+extern void SPIEnable(unsigned long ulBase);
+extern void SPIDisable(unsigned long ulBase);
+extern void SPIReset(unsigned long ulBase);
+extern void SPIConfigSetExpClk(unsigned long ulBase,unsigned long ulSPIClk,
+ unsigned long ulBitRate, unsigned long ulMode,
+ unsigned long ulSubMode, unsigned long ulConfig);
+extern long SPIDataGetNonBlocking(unsigned long ulBase,
+ unsigned long * pulData);
+extern void SPIDataGet(unsigned long ulBase, unsigned long *pulData);
+extern long SPIDataPutNonBlocking(unsigned long ulBase,
+ unsigned long ulData);
+extern void SPIDataPut(unsigned long ulBase, unsigned long ulData);
+extern void SPIFIFOEnable(unsigned long ulBase, unsigned long ulFlags);
+extern void SPIFIFODisable(unsigned long ulBase, unsigned long ulFlags);
+extern void SPIFIFOLevelSet(unsigned long ulBase, unsigned long ulTxLevel,
+ unsigned long ulRxLevel);
+extern void SPIFIFOLevelGet(unsigned long ulBase, unsigned long *pulTxLevel,
+ unsigned long *pulRxLevel);
+extern void SPIWordCountSet(unsigned long ulBase, unsigned long ulWordCount);
+extern void SPIIntRegister(unsigned long ulBase, void(*pfnHandler)(void));
+extern void SPIIntUnregister(unsigned long ulBase);
+extern void SPIIntEnable(unsigned long ulBase, unsigned long ulIntFlags);
+extern void SPIIntDisable(unsigned long ulBase, unsigned long ulIntFlags);
+extern unsigned long SPIIntStatus(unsigned long ulBase, tBoolean bMasked);
+extern void SPIIntClear(unsigned long ulBase, unsigned long ulIntFlags);
+extern void SPIDmaEnable(unsigned long ulBase, unsigned long ulFlags);
+extern void SPIDmaDisable(unsigned long ulBase, unsigned long ulFlags);
+extern void SPICSEnable(unsigned long ulBase);
+extern void SPICSDisable(unsigned long ulBase);
+extern long SPITransfer(unsigned long ulBase, unsigned char *ucDout,
+ unsigned char *ucDin, unsigned long ulSize,
+ unsigned long ulFlags);
+
+
+//*****************************************************************************
+//
+// Mark the end of the C bindings section for C++ compilers.
+//
+//*****************************************************************************
+#ifdef __cplusplus
+}
+#endif
+
+#endif // __SPI_H__
diff --git a/cc3200/hal/startup_gcc.c b/cc3200/hal/startup_gcc.c
new file mode 100644
index 000000000..30831eb88
--- /dev/null
+++ b/cc3200/hal/startup_gcc.c
@@ -0,0 +1,418 @@
+//*****************************************************************************
+// startup_gcc.c
+//
+// Startup code for use with GCC.
+//
+// Copyright (C) 2014 Texas Instruments Incorporated - http://www.ti.com/
+//
+//
+// Redistribution and use in source and binary forms, with or without
+// modification, are permitted provided that the following conditions
+// are met:
+//
+// Redistributions of source code must retain the above copyright
+// notice, this list of conditions and the following disclaimer.
+//
+// Redistributions in binary form must reproduce the above copyright
+// notice, this list of conditions and the following disclaimer in the
+// documentation and/or other materials provided with the
+// distribution.
+//
+// Neither the name of Texas Instruments Incorporated nor the names of
+// its contributors may be used to endorse or promote products derived
+// from this software without specific prior written permission.
+//
+// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
+// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
+// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
+// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
+// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
+// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
+// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
+// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
+// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
+// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
+// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+//
+//*****************************************************************************
+
+#include <stdint.h>
+#include "inc/hw_nvic.h"
+#include "inc/hw_types.h"
+#include "fault_registers.h"
+
+//*****************************************************************************
+//
+// The following are constructs created by the linker, indicating where the
+// the "data" and "bss" segments reside in memory. The initializers for the
+// for the "data" segment resides immediately following the "text" segment.
+//
+//*****************************************************************************
+extern uint32_t _data;
+extern uint32_t _edata;
+extern uint32_t _bss;
+extern uint32_t _ebss;
+extern uint32_t _estack;
+extern uint32_t __init_data;
+
+//*****************************************************************************
+//
+// Forward declaration of the default fault handlers.
+//
+//*****************************************************************************
+void ResetISR(void);
+static void NmiSR(void) __attribute__( ( naked ) );
+static void FaultISR( void ) __attribute__( ( naked ) );
+static void IntDefaultHandler(void) __attribute__( ( naked ) );
+static void BusFaultHandler(void) __attribute__( ( naked ) );
+void HardFault_HandlerC(unsigned long *hardfault_args);
+
+//*****************************************************************************
+//
+// External declaration for the freeRTOS handlers
+//
+//*****************************************************************************
+#ifdef USE_FREERTOS
+extern void vPortSVCHandler(void);
+extern void xPortPendSVHandler(void);
+extern void xPortSysTickHandler(void);
+#endif
+
+//*****************************************************************************
+//
+// The entry point for the application.
+//
+//*****************************************************************************
+extern int main(void);
+
+//*****************************************************************************
+//
+// The vector table. Note that the proper constructs must be placed on this to
+// ensure that it ends up at physical address 0x0000.0000.
+//
+//*****************************************************************************
+__attribute__ ((section(".intvecs")))
+void (* const g_pfnVectors[256])(void) =
+{
+ (void (*)(void))((uint32_t)&_estack), // The initial stack pointer
+ ResetISR, // The reset handler
+ NmiSR, // The NMI handler
+ FaultISR, // The hard fault handler
+ IntDefaultHandler, // The MPU fault handler
+ BusFaultHandler, // The bus fault handler
+ IntDefaultHandler, // The usage fault handler
+ 0, // Reserved
+ 0, // Reserved
+ 0, // Reserved
+ 0, // Reserved
+#ifdef USE_FREERTOS
+ vPortSVCHandler, // SVCall handler
+#else
+ IntDefaultHandler, // SVCall handler
+#endif
+ IntDefaultHandler, // Debug monitor handler
+ 0, // Reserved
+#ifdef USE_FREERTOS
+ xPortPendSVHandler, // The PendSV handler
+ xPortSysTickHandler, // The SysTick handler
+#else
+ IntDefaultHandler, // The PendSV handler
+ IntDefaultHandler, // The SysTick handler
+#endif
+ IntDefaultHandler, // GPIO Port A
+ IntDefaultHandler, // GPIO Port B
+ IntDefaultHandler, // GPIO Port C
+ IntDefaultHandler, // GPIO Port D
+ 0, // Reserved
+ IntDefaultHandler, // UART0 Rx and Tx
+ IntDefaultHandler, // UART1 Rx and Tx
+ 0, // Reserved
+ IntDefaultHandler, // I2C0 Master and Slave
+ 0,0,0,0,0, // Reserved
+ IntDefaultHandler, // ADC Channel 0
+ IntDefaultHandler, // ADC Channel 1
+ IntDefaultHandler, // ADC Channel 2
+ IntDefaultHandler, // ADC Channel 3
+ IntDefaultHandler, // Watchdog Timer
+ IntDefaultHandler, // Timer 0 subtimer A
+ IntDefaultHandler, // Timer 0 subtimer B
+ IntDefaultHandler, // Timer 1 subtimer A
+ IntDefaultHandler, // Timer 1 subtimer B
+ IntDefaultHandler, // Timer 2 subtimer A
+ IntDefaultHandler, // Timer 2 subtimer B
+ 0,0,0,0, // Reserved
+ IntDefaultHandler, // Flash
+ 0,0,0,0,0, // Reserved
+ IntDefaultHandler, // Timer 3 subtimer A
+ IntDefaultHandler, // Timer 3 subtimer B
+ 0,0,0,0,0,0,0,0,0, // Reserved
+ IntDefaultHandler, // uDMA Software Transfer
+ IntDefaultHandler, // uDMA Error
+ 0,0,0,0,0,0,0,0,0,0, // Reserved
+ 0,0,0,0,0,0,0,0,0,0, // Reserved
+ 0,0,0,0,0,0,0,0,0,0, // Reserved
+ 0,0,0,0,0,0,0,0,0,0, // Reserved
+ 0,0,0,0,0,0,0,0,0,0, // Reserved
+ 0,0,0,0,0,0,0,0,0,0, // Reserved
+ 0,0,0,0,0,0,0,0,0,0, // Reserved
+ 0,0,0,0,0,0,0,0,0,0, // Reserved
+ 0,0,0,0,0,0,0,0,0,0, // Reserved
+ 0,0,0,0,0,0,0,0,0,0, // Reserved
+ IntDefaultHandler, // SHA
+ 0,0, // Reserved
+ IntDefaultHandler, // AES
+ 0, // Reserved
+ IntDefaultHandler, // DES
+ 0,0,0,0,0, // Reserved
+ IntDefaultHandler, // SDHost
+ 0, // Reserved
+ IntDefaultHandler, // I2S
+ 0, // Reserved
+ IntDefaultHandler, // Camera
+ 0,0,0,0,0,0,0, // Reserved
+ IntDefaultHandler, // NWP to APPS Interrupt
+ IntDefaultHandler, // Power, Reset and Clock module
+ 0,0, // Reserved
+ IntDefaultHandler, // Shared SPI
+ IntDefaultHandler, // Generic SPI
+ IntDefaultHandler, // Link SPI
+ 0,0,0,0,0,0,0,0,0,0, // Reserved
+ 0,0,0,0,0,0,0,0,0,0, // Reserved
+ 0,0,0,0,0,0,0,0,0,0, // Reserved
+ 0,0,0,0,0,0,0,0,0,0, // Reserved
+ 0,0,0,0,0,0,0,0,0,0, // Reserved
+ 0,0,0,0,0,0,0,0,0,0, // Reserved
+ 0,0 // Reserved
+};
+
+
+
+//*****************************************************************************
+//
+// This is the code that gets called when the processor first starts execution
+// following a reset event. Only the absolutely necessary set is performed,
+// after which the application supplied entry() routine is called. Any fancy
+// actions (such as making decisions based on the reset cause register, and
+// resetting the bits in that register) are left solely in the hands of the
+// application.
+//
+//*****************************************************************************
+
+void ResetISR(void)
+{
+#if defined(DEBUG) && !defined(BOOTLOADER)
+ //
+ // Fill the main stack with a known value so that
+ // we can measure the main stack high water mark
+ //
+ __asm volatile
+ (
+ "ldr r0, =_stack \n"
+ "ldr r1, =_estack \n"
+ "mov r2, #0x55555555 \n"
+ ".thumb_func \n"
+ "fill_loop: \n"
+ "cmp r0, r1 \n"
+ "it lt \n"
+ "strlt r2, [r0], #4 \n"
+ "blt fill_loop \n"
+ );
+#endif
+
+ // Get the initial stack pointer location from the vector table
+ // and write this value to the msp register
+ __asm volatile
+ (
+ "ldr r0, =_text \n"
+ "ldr r0, [r0] \n"
+ "msr msp, r0 \n"
+ );
+
+ {
+ uint32_t *pui32Src, *pui32Dest;
+
+ //
+ // Copy the data segment initializers
+ //
+ pui32Src = &__init_data;
+ for(pui32Dest = &_data; pui32Dest < &_edata; )
+ {
+ *pui32Dest++ = *pui32Src++;
+ }
+
+ //
+ // Zero fill the bss segment.
+ //
+ __asm volatile
+ (
+ "ldr r0, =_bss \n"
+ "ldr r1, =_ebss \n"
+ "mov r2, #0 \n"
+ ".thumb_func \n"
+ "zero_loop: \n"
+ "cmp r0, r1 \n"
+ "it lt \n"
+ "strlt r2, [r0], #4 \n"
+ "blt zero_loop \n"
+ );
+ }
+
+ //
+ // Call the application's entry point.
+ //
+ main();
+}
+
+//*****************************************************************************
+//
+// This is the code that gets called when the processor receives a NMI. This
+// simply enters an infinite loop, preserving the system state for examination
+// by a debugger.
+//
+//*****************************************************************************
+
+static void NmiSR(void)
+{
+#ifdef DEBUG
+ // Break into the debugger
+ __asm volatile ("bkpt #0 \n");
+#endif
+
+ //
+ // Enter an infinite loop.
+ //
+ for ( ; ; )
+ {
+ }
+}
+
+//*****************************************************************************
+//
+// This is the code that gets called when the processor receives a hard fault
+// interrupt. This simply enters an infinite loop, preserving the system state
+// for examination by a debugger.
+//
+//*****************************************************************************
+
+static void FaultISR(void)
+{
+ /*
+ * Get the appropriate stack pointer, depending on our mode,
+ * and use it as the parameter to the C handler. This function
+ * will never return
+ */
+
+ __asm volatile
+ (
+ "movs r0, #4 \n"
+ "mov r1, lr \n"
+ "tst r0, r1 \n"
+ "beq _msp \n"
+ "mrs r0, psp \n"
+ "b HardFault_HandlerC \n"
+ "_msp: \n"
+ "mrs r0, msp \n"
+ "b HardFault_HandlerC \n"
+ ) ;
+}
+
+//*****************************************************************************
+//
+// This is the code that gets called when the processor receives an unexpected
+// interrupt. This simply enters an infinite loop, preserving the system state
+// for examination by a debugger.
+//
+//*****************************************************************************
+
+static void BusFaultHandler(void)
+{
+#ifdef DEBUG
+ // Break into the debugger
+ __asm volatile ("bkpt #0 \n");
+#endif
+
+ //
+ // Enter an infinite loop.
+ //
+ for ( ; ; )
+ {
+ }
+}
+
+//*****************************************************************************
+//
+// This is the code that gets called when the processor receives an unexpected
+// interrupt. This simply enters an infinite loop, preserving the system state
+// for examination by a debugger.
+//
+//*****************************************************************************
+static void IntDefaultHandler(void)
+{
+#ifdef DEBUG
+ // Break into the debugger
+ __asm volatile ("bkpt #0 \n");
+#endif
+
+ //
+ // Enter an infinite loop.
+ //
+ for ( ; ; )
+ {
+ }
+}
+
+
+//***********************************************************************************
+// HardFaultHandler_C:
+// This is called from the HardFault_HandlerAsm with a pointer the Fault stack
+// as the parameter. We can then read the values from the stack and place them
+// into local variables for ease of reading.
+// We then read the various Fault Status and Address Registers to help decode
+// cause of the fault.
+// The function ends with a BKPT instruction to force control back into the debugger
+//***********************************************************************************
+void HardFault_HandlerC(uint32_t *pulFaultStackAddress)
+{
+ volatile uint32_t r0 ;
+ volatile uint32_t r1 ;
+ volatile uint32_t r2 ;
+ volatile uint32_t r3 ;
+ volatile uint32_t r12 ;
+ volatile uint32_t lr ;
+ volatile uint32_t pc ;
+ volatile uint32_t psr ;
+ volatile _CFSR_t _CFSR ;
+ volatile _HFSR_t _HFSR ;
+ volatile uint32_t _BFAR ;
+
+
+ r0 = pulFaultStackAddress[0];
+ r1 = pulFaultStackAddress[1];
+ r2 = pulFaultStackAddress[2];
+ r3 = pulFaultStackAddress[3];
+ r12 = pulFaultStackAddress[4];
+ lr = pulFaultStackAddress[5];
+ pc = pulFaultStackAddress[6];
+ psr = pulFaultStackAddress[7];
+
+ // Configurable Fault Status Register
+ // Consists of MMSR, BFSR and UFSR
+ _CFSR = (*((volatile _CFSR_t *)(0xE000ED28)));
+ // Hard Fault Status Register
+ _HFSR = (*((volatile _HFSR_t *)(0xE000ED2C)));
+ // Bus Fault Address Register
+ _BFAR = (*((volatile uint32_t *)(0xE000ED38)));
+
+#ifdef DEBUG
+ // Break into the debugger
+ __asm volatile ("bkpt #0 \n");
+#endif
+
+ for ( ; ; )
+ {
+ // Keep the compiler happy
+ (void)r0, (void)r1, (void)r2, (void)r3, (void)r12, (void)lr, (void)pc, (void)psr;
+ (void)_CFSR, (void)_HFSR, (void)_BFAR;
+ }
+}
+
diff --git a/cc3200/hal/systick.c b/cc3200/hal/systick.c
new file mode 100644
index 000000000..550e3ed1d
--- /dev/null
+++ b/cc3200/hal/systick.c
@@ -0,0 +1,275 @@
+//*****************************************************************************
+//
+// systick.c
+//
+// Driver for the SysTick timer in NVIC.
+//
+// Copyright (C) 2014 Texas Instruments Incorporated - http://www.ti.com/
+//
+//
+// Redistribution and use in source and binary forms, with or without
+// modification, are permitted provided that the following conditions
+// are met:
+//
+// Redistributions of source code must retain the above copyright
+// notice, this list of conditions and the following disclaimer.
+//
+// Redistributions in binary form must reproduce the above copyright
+// notice, this list of conditions and the following disclaimer in the
+// documentation and/or other materials provided with the
+// distribution.
+//
+// Neither the name of Texas Instruments Incorporated nor the names of
+// its contributors may be used to endorse or promote products derived
+// from this software without specific prior written permission.
+//
+// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
+// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
+// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
+// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
+// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
+// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
+// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
+// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
+// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
+// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
+// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+//
+//*****************************************************************************
+
+//*****************************************************************************
+//
+//! \addtogroup systick_api
+//! @{
+//
+//*****************************************************************************
+
+#include "inc/hw_ints.h"
+#include "inc/hw_nvic.h"
+#include "inc/hw_types.h"
+#include "debug.h"
+#include "interrupt.h"
+#include "systick.h"
+
+//*****************************************************************************
+//
+//! Enables the SysTick counter.
+//!
+//! This function starts the SysTick counter. If an interrupt handler has been
+//! registered, it is called when the SysTick counter rolls over.
+//!
+//! \note Calling this function causes the SysTick counter to (re)commence
+//! counting from its current value. The counter is not automatically reloaded
+//! with the period as specified in a previous call to SysTickPeriodSet(). If
+//! an immediate reload is required, the \b NVIC_ST_CURRENT register must be
+//! written to force the reload. Any write to this register clears the SysTick
+//! counter to 0 and causes a reload with the supplied period on the next
+//! clock.
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+SysTickEnable(void)
+{
+ //
+ // Enable SysTick.
+ //
+ HWREG(NVIC_ST_CTRL) |= NVIC_ST_CTRL_CLK_SRC | NVIC_ST_CTRL_ENABLE;
+}
+
+//*****************************************************************************
+//
+//! Disables the SysTick counter.
+//!
+//! This function stops the SysTick counter. If an interrupt handler has been
+//! registered, it is not called until SysTick is restarted.
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+SysTickDisable(void)
+{
+ //
+ // Disable SysTick.
+ //
+ HWREG(NVIC_ST_CTRL) &= ~(NVIC_ST_CTRL_ENABLE);
+}
+
+//*****************************************************************************
+//
+//! Registers an interrupt handler for the SysTick interrupt.
+//!
+//! \param pfnHandler is a pointer to the function to be called when the
+//! SysTick interrupt occurs.
+//!
+//! This function registers the handler to be called when a SysTick interrupt
+//! occurs.
+//!
+//! \sa IntRegister() for important information about registering interrupt
+//! handlers.
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+SysTickIntRegister(void (*pfnHandler)(void))
+{
+ //
+ // Register the interrupt handler, returning an error if an error occurs.
+ //
+ IntRegister(FAULT_SYSTICK, pfnHandler);
+
+ //
+ // Enable the SysTick interrupt.
+ //
+ HWREG(NVIC_ST_CTRL) |= NVIC_ST_CTRL_INTEN;
+}
+
+//*****************************************************************************
+//
+//! Unregisters the interrupt handler for the SysTick interrupt.
+//!
+//! This function unregisters the handler to be called when a SysTick interrupt
+//! occurs.
+//!
+//! \sa IntRegister() for important information about registering interrupt
+//! handlers.
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+SysTickIntUnregister(void)
+{
+ //
+ // Disable the SysTick interrupt.
+ //
+ HWREG(NVIC_ST_CTRL) &= ~(NVIC_ST_CTRL_INTEN);
+
+ //
+ // Unregister the interrupt handler.
+ //
+ IntUnregister(FAULT_SYSTICK);
+}
+
+//*****************************************************************************
+//
+//! Enables the SysTick interrupt.
+//!
+//! This function enables the SysTick interrupt, allowing it to be
+//! reflected to the processor.
+//!
+//! \note The SysTick interrupt handler is not required to clear the SysTick
+//! interrupt source because it is cleared automatically by the NVIC when the
+//! interrupt handler is called.
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+SysTickIntEnable(void)
+{
+ //
+ // Enable the SysTick interrupt.
+ //
+ HWREG(NVIC_ST_CTRL) |= NVIC_ST_CTRL_INTEN;
+}
+
+//*****************************************************************************
+//
+//! Disables the SysTick interrupt.
+//!
+//! This function disables the SysTick interrupt, preventing it from being
+//! reflected to the processor.
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+SysTickIntDisable(void)
+{
+ //
+ // Disable the SysTick interrupt.
+ //
+ HWREG(NVIC_ST_CTRL) &= ~(NVIC_ST_CTRL_INTEN);
+}
+
+//*****************************************************************************
+//
+//! Sets the period of the SysTick counter.
+//!
+//! \param ulPeriod is the number of clock ticks in each period of the SysTick
+//! counter and must be between 1 and 16,777,216, inclusive.
+//!
+//! This function sets the rate at which the SysTick counter wraps, which
+//! equates to the number of processor clocks between interrupts.
+//!
+//! \note Calling this function does not cause the SysTick counter to reload
+//! immediately. If an immediate reload is required, the \b NVIC_ST_CURRENT
+//! register must be written. Any write to this register clears the SysTick
+//! counter to 0 and causes a reload with the \e ulPeriod supplied here on
+//! the next clock after SysTick is enabled.
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+SysTickPeriodSet(unsigned long ulPeriod)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT((ulPeriod > 0) && (ulPeriod <= 16777216));
+
+ //
+ // Set the period of the SysTick counter.
+ //
+ HWREG(NVIC_ST_RELOAD) = ulPeriod - 1;
+}
+
+//*****************************************************************************
+//
+//! Gets the period of the SysTick counter.
+//!
+//! This function returns the rate at which the SysTick counter wraps, which
+//! equates to the number of processor clocks between interrupts.
+//!
+//! \return Returns the period of the SysTick counter.
+//
+//*****************************************************************************
+unsigned long
+SysTickPeriodGet(void)
+{
+ //
+ // Return the period of the SysTick counter.
+ //
+ return(HWREG(NVIC_ST_RELOAD) + 1);
+}
+
+//*****************************************************************************
+//
+//! Gets the current value of the SysTick counter.
+//!
+//! This function returns the current value of the SysTick counter, which is
+//! a value between the period - 1 and zero, inclusive.
+//!
+//! \return Returns the current value of the SysTick counter.
+//
+//*****************************************************************************
+unsigned long
+SysTickValueGet(void)
+{
+ //
+ // Return the current value of the SysTick counter.
+ //
+ return(HWREG(NVIC_ST_CURRENT));
+}
+
+//*****************************************************************************
+//
+// Close the Doxygen group.
+//! @}
+//
+//*****************************************************************************
diff --git a/cc3200/hal/systick.h b/cc3200/hal/systick.h
new file mode 100644
index 000000000..3d1a33aaa
--- /dev/null
+++ b/cc3200/hal/systick.h
@@ -0,0 +1,78 @@
+//*****************************************************************************
+//
+// systick.h
+//
+// Prototypes for the SysTick driver.
+//
+// Copyright (C) 2014 Texas Instruments Incorporated - http://www.ti.com/
+//
+//
+// Redistribution and use in source and binary forms, with or without
+// modification, are permitted provided that the following conditions
+// are met:
+//
+// Redistributions of source code must retain the above copyright
+// notice, this list of conditions and the following disclaimer.
+//
+// Redistributions in binary form must reproduce the above copyright
+// notice, this list of conditions and the following disclaimer in the
+// documentation and/or other materials provided with the
+// distribution.
+//
+// Neither the name of Texas Instruments Incorporated nor the names of
+// its contributors may be used to endorse or promote products derived
+// from this software without specific prior written permission.
+//
+// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
+// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
+// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
+// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
+// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
+// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
+// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
+// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
+// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
+// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
+// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+//
+//*****************************************************************************
+
+#ifndef __SYSTICK_H__
+#define __SYSTICK_H__
+
+//*****************************************************************************
+//
+// If building with a C++ compiler, make all of the definitions in this header
+// have a C binding.
+//
+//*****************************************************************************
+#ifdef __cplusplus
+extern "C"
+{
+#endif
+
+//*****************************************************************************
+//
+// Prototypes for the APIs.
+//
+//*****************************************************************************
+extern void SysTickEnable(void);
+extern void SysTickDisable(void);
+extern void SysTickIntRegister(void (*pfnHandler)(void));
+extern void SysTickIntUnregister(void);
+extern void SysTickIntEnable(void);
+extern void SysTickIntDisable(void);
+extern void SysTickPeriodSet(unsigned long ulPeriod);
+extern unsigned long SysTickPeriodGet(void);
+extern unsigned long SysTickValueGet(void);
+
+//*****************************************************************************
+//
+// Mark the end of the C bindings section for C++ compilers.
+//
+//*****************************************************************************
+#ifdef __cplusplus
+}
+#endif
+
+#endif // __SYSTICK_H__
diff --git a/cc3200/hal/timer.c b/cc3200/hal/timer.c
new file mode 100644
index 000000000..7167dcc90
--- /dev/null
+++ b/cc3200/hal/timer.c
@@ -0,0 +1,1067 @@
+//*****************************************************************************
+//
+// timer.c
+//
+// Driver for the timer module.
+//
+// Copyright (C) 2014 Texas Instruments Incorporated - http://www.ti.com/
+//
+//
+// Redistribution and use in source and binary forms, with or without
+// modification, are permitted provided that the following conditions
+// are met:
+//
+// Redistributions of source code must retain the above copyright
+// notice, this list of conditions and the following disclaimer.
+//
+// Redistributions in binary form must reproduce the above copyright
+// notice, this list of conditions and the following disclaimer in the
+// documentation and/or other materials provided with the
+// distribution.
+//
+// Neither the name of Texas Instruments Incorporated nor the names of
+// its contributors may be used to endorse or promote products derived
+// from this software without specific prior written permission.
+//
+// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
+// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
+// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
+// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
+// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
+// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
+// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
+// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
+// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
+// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
+// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+//
+//*****************************************************************************
+
+//*****************************************************************************
+//
+//! \addtogroup GPT_General_Purpose_Timer_api
+//! @{
+//
+//*****************************************************************************
+
+#include "inc/hw_ints.h"
+#include "inc/hw_memmap.h"
+#include "inc/hw_timer.h"
+#include "inc/hw_types.h"
+#include "debug.h"
+#include "interrupt.h"
+#include "timer.h"
+
+
+//*****************************************************************************
+//
+//! \internal
+//! Checks a timer base address.
+//!
+//! \param ulBase is the base address of the timer module.
+//!
+//! This function determines if a timer module base address is valid.
+//!
+//! \return Returns \b true if the base address is valid and \b false
+//! otherwise.
+//
+//*****************************************************************************
+#ifdef DEBUG
+static tBoolean
+TimerBaseValid(unsigned long ulBase)
+{
+ return((ulBase == TIMERA0_BASE) || (ulBase == TIMERA1_BASE) ||
+ (ulBase == TIMERA2_BASE) || (ulBase == TIMERA3_BASE));
+}
+#else
+#define TimerBaseValid(ulBase) (ulBase)
+#endif
+
+//*****************************************************************************
+//
+//! Enables the timer(s).
+//!
+//! \param ulBase is the base address of the timer module.
+//! \param ulTimer specifies the timer(s) to enable; must be one of \b TIMER_A,
+//! \b TIMER_B, or \b TIMER_BOTH.
+//!
+//! This function enables operation of the timer module. The timer must be
+//! configured before it is enabled.
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+TimerEnable(unsigned long ulBase, unsigned long ulTimer)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT(TimerBaseValid(ulBase));
+ ASSERT((ulTimer == TIMER_A) || (ulTimer == TIMER_B) ||
+ (ulTimer == TIMER_BOTH));
+
+ //
+ // Enable the timer(s) module.
+ //
+ HWREG(ulBase + TIMER_O_CTL) |= ulTimer & (TIMER_CTL_TAEN | TIMER_CTL_TBEN);
+}
+
+//*****************************************************************************
+//
+//! Disables the timer(s).
+//!
+//! \param ulBase is the base address of the timer module.
+//! \param ulTimer specifies the timer(s) to disable; must be one of
+//! \b TIMER_A, \b TIMER_B, or \b TIMER_BOTH.
+//!
+//! This function disables operation of the timer module.
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+TimerDisable(unsigned long ulBase, unsigned long ulTimer)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT(TimerBaseValid(ulBase));
+ ASSERT((ulTimer == TIMER_A) || (ulTimer == TIMER_B) ||
+ (ulTimer == TIMER_BOTH));
+
+ //
+ // Disable the timer module.
+ //
+ HWREG(ulBase + TIMER_O_CTL) &= ~(ulTimer &
+ (TIMER_CTL_TAEN | TIMER_CTL_TBEN));
+}
+
+//*****************************************************************************
+//
+//! Configures the timer(s).
+//!
+//! \param ulBase is the base address of the timer module.
+//! \param ulConfig is the configuration for the timer.
+//!
+//! This function configures the operating mode of the timer(s). The timer
+//! module is disabled before being configured, and is left in the disabled
+//! state. The 16/32-bit timer is comprised of two 16-bit timers that can
+//! operate independently or be concatenated to form a 32-bit timer.
+//!
+//! The configuration is specified in \e ulConfig as one of the following
+//! values:
+//!
+//! - \b TIMER_CFG_ONE_SHOT - Full-width one-shot timer
+//! - \b TIMER_CFG_ONE_SHOT_UP - Full-width one-shot timer that counts up
+//! instead of down (not available on all parts)
+//! - \b TIMER_CFG_PERIODIC - Full-width periodic timer
+//! - \b TIMER_CFG_PERIODIC_UP - Full-width periodic timer that counts up
+//! instead of down (not available on all parts)
+//! - \b TIMER_CFG_SPLIT_PAIR - Two half-width timers
+//!
+//! When configured for a pair of half-width timers, each timer is separately
+//! configured. The first timer is configured by setting \e ulConfig to
+//! the result of a logical OR operation between one of the following values
+//! and \e ulConfig:
+//!
+//! - \b TIMER_CFG_A_ONE_SHOT - Half-width one-shot timer
+//! - \b TIMER_CFG_A_ONE_SHOT_UP - Half-width one-shot timer that counts up
+//! instead of down (not available on all parts)
+//! - \b TIMER_CFG_A_PERIODIC - Half-width periodic timer
+//! - \b TIMER_CFG_A_PERIODIC_UP - Half-width periodic timer that counts up
+//! instead of down (not available on all parts)
+//! - \b TIMER_CFG_A_CAP_COUNT - Half-width edge count capture
+//! - \b TIMER_CFG_A_CAP_TIME - Half-width edge time capture
+//! - \b TIMER_CFG_A_PWM - Half-width PWM output
+//!
+//! Similarly, the second timer is configured by setting \e ulConfig to
+//! the result of a logical OR operation between one of the corresponding
+//! \b TIMER_CFG_B_* values and \e ulConfig.
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+TimerConfigure(unsigned long ulBase, unsigned long ulConfig)
+{
+
+ ASSERT((ulConfig == TIMER_CFG_ONE_SHOT) ||
+ (ulConfig == TIMER_CFG_ONE_SHOT_UP) ||
+ (ulConfig == TIMER_CFG_PERIODIC) ||
+ (ulConfig == TIMER_CFG_PERIODIC_UP) ||
+ ((ulConfig & 0xff000000) == TIMER_CFG_SPLIT_PAIR));
+ ASSERT(((ulConfig & 0xff000000) != TIMER_CFG_SPLIT_PAIR) ||
+ ((((ulConfig & 0x000000ff) == TIMER_CFG_A_ONE_SHOT) ||
+ ((ulConfig & 0x000000ff) == TIMER_CFG_A_ONE_SHOT_UP) ||
+ ((ulConfig & 0x000000ff) == TIMER_CFG_A_PERIODIC) ||
+ ((ulConfig & 0x000000ff) == TIMER_CFG_A_PERIODIC_UP) ||
+ ((ulConfig & 0x000000ff) == TIMER_CFG_A_CAP_COUNT) ||
+ ((ulConfig & 0x000000ff) == TIMER_CFG_A_CAP_TIME) ||
+ ((ulConfig & 0x000000ff) == TIMER_CFG_A_PWM)) &&
+ (((ulConfig & 0x0000ff00) == TIMER_CFG_B_ONE_SHOT) ||
+ ((ulConfig & 0x0000ff00) == TIMER_CFG_B_ONE_SHOT_UP) ||
+ ((ulConfig & 0x0000ff00) == TIMER_CFG_B_PERIODIC) ||
+ ((ulConfig & 0x0000ff00) == TIMER_CFG_B_PERIODIC_UP) ||
+ ((ulConfig & 0x0000ff00) == TIMER_CFG_B_CAP_COUNT) ||
+ ((ulConfig & 0x0000ff00) == TIMER_CFG_B_CAP_TIME) ||
+ ((ulConfig & 0x0000ff00) == TIMER_CFG_B_PWM))));
+
+ //
+ // Enable CCP to IO path
+ //
+ HWREG(0x440260B0) = 0xFF;
+
+ //
+ // Disable the timers.
+ //
+ HWREG(ulBase + TIMER_O_CTL) &= ~(TIMER_CTL_TAEN | TIMER_CTL_TBEN);
+
+ //
+ // Set the global timer configuration.
+ //
+ HWREG(ulBase + TIMER_O_CFG) = ulConfig >> 24;
+
+ //
+ // Set the configuration of the A and B timers. Note that the B timer
+ // configuration is ignored by the hardware in 32-bit modes.
+ //
+ HWREG(ulBase + TIMER_O_TAMR) = ulConfig & 255;
+ HWREG(ulBase + TIMER_O_TBMR) = (ulConfig >> 8) & 255;
+}
+
+//*****************************************************************************
+//
+//! Controls the output level.
+//!
+//! \param ulBase is the base address of the timer module.
+//! \param ulTimer specifies the timer(s) to adjust; must be one of \b TIMER_A,
+//! \b TIMER_B, or \b TIMER_BOTH.
+//! \param bInvert specifies the output level.
+//!
+//! This function sets the PWM output level for the specified timer. If the
+//! \e bInvert parameter is \b true, then the timer's output is made active
+//! low; otherwise, it is made active high.
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+TimerControlLevel(unsigned long ulBase, unsigned long ulTimer,
+ tBoolean bInvert)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT(TimerBaseValid(ulBase));
+ ASSERT((ulTimer == TIMER_A) || (ulTimer == TIMER_B) ||
+ (ulTimer == TIMER_BOTH));
+
+ //
+ // Set the output levels as requested.
+ //
+ ulTimer &= TIMER_CTL_TAPWML | TIMER_CTL_TBPWML;
+ HWREG(ulBase + TIMER_O_CTL) = (bInvert ?
+ (HWREG(ulBase + TIMER_O_CTL) | ulTimer) :
+ (HWREG(ulBase + TIMER_O_CTL) & ~(ulTimer)));
+}
+
+//*****************************************************************************
+//
+//! Controls the event type.
+//!
+//! \param ulBase is the base address of the timer module.
+//! \param ulTimer specifies the timer(s) to be adjusted; must be one of
+//! \b TIMER_A, \b TIMER_B, or \b TIMER_BOTH.
+//! \param ulEvent specifies the type of event; must be one of
+//! \b TIMER_EVENT_POS_EDGE, \b TIMER_EVENT_NEG_EDGE, or
+//! \b TIMER_EVENT_BOTH_EDGES.
+//!
+//! This function sets the signal edge(s) that triggers the timer when in
+//! capture mode.
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+TimerControlEvent(unsigned long ulBase, unsigned long ulTimer,
+ unsigned long ulEvent)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT(TimerBaseValid(ulBase));
+ ASSERT((ulTimer == TIMER_A) || (ulTimer == TIMER_B) ||
+ (ulTimer == TIMER_BOTH));
+
+ //
+ // Set the event type.
+ //
+ ulEvent &= ulTimer & (TIMER_CTL_TAEVENT_M | TIMER_CTL_TBEVENT_M);
+ HWREG(ulBase + TIMER_O_CTL) = ((HWREG(ulBase + TIMER_O_CTL) &
+ ~(TIMER_CTL_TAEVENT_M |
+ TIMER_CTL_TBEVENT_M)) | ulEvent);
+}
+
+//*****************************************************************************
+//
+//! Controls the stall handling.
+//!
+//! \param ulBase is the base address of the timer module.
+//! \param ulTimer specifies the timer(s) to be adjusted; must be one of
+//! \b TIMER_A, \b TIMER_B, or \b TIMER_BOTH.
+//! \param bStall specifies the response to a stall signal.
+//!
+//! This function controls the stall response for the specified timer. If the
+//! \e bStall parameter is \b true, then the timer stops counting if the
+//! processor enters debug mode; otherwise the timer keeps running while in
+//! debug mode.
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+TimerControlStall(unsigned long ulBase, unsigned long ulTimer,
+ tBoolean bStall)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT(TimerBaseValid(ulBase));
+ ASSERT((ulTimer == TIMER_A) || (ulTimer == TIMER_B) ||
+ (ulTimer == TIMER_BOTH));
+
+ //
+ // Set the stall mode.
+ //
+ ulTimer &= TIMER_CTL_TASTALL | TIMER_CTL_TBSTALL;
+ HWREG(ulBase + TIMER_O_CTL) = (bStall ?
+ (HWREG(ulBase + TIMER_O_CTL) | ulTimer) :
+ (HWREG(ulBase + TIMER_O_CTL) & ~(ulTimer)));
+}
+
+//*****************************************************************************
+//
+//! Set the timer prescale value.
+//!
+//! \param ulBase is the base address of the timer module.
+//! \param ulTimer specifies the timer(s) to adjust; must be one of \b TIMER_A,
+//! \b TIMER_B, or \b TIMER_BOTH.
+//! \param ulValue is the timer prescale value which must be between 0 and 255
+//! (inclusive) for 16/32-bit timers.
+//!
+//! This function sets the value of the input clock prescaler. The prescaler
+//! is only operational when in half-width mode and is used to extend the range
+//! of the half-width timer modes.
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+TimerPrescaleSet(unsigned long ulBase, unsigned long ulTimer,
+ unsigned long ulValue)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT(TimerBaseValid(ulBase));
+ ASSERT((ulTimer == TIMER_A) || (ulTimer == TIMER_B) ||
+ (ulTimer == TIMER_BOTH));
+ ASSERT(ulValue < 256);
+
+ //
+ // Set the timer A prescaler if requested.
+ //
+ if(ulTimer & TIMER_A)
+ {
+ HWREG(ulBase + TIMER_O_TAPR) = ulValue;
+ }
+
+ //
+ // Set the timer B prescaler if requested.
+ //
+ if(ulTimer & TIMER_B)
+ {
+ HWREG(ulBase + TIMER_O_TBPR) = ulValue;
+ }
+}
+
+
+//*****************************************************************************
+//
+//! Get the timer prescale value.
+//!
+//! \param ulBase is the base address of the timer module.
+//! \param ulTimer specifies the timer; must be one of \b TIMER_A or
+//! \b TIMER_B.
+//!
+//! This function gets the value of the input clock prescaler. The prescaler
+//! is only operational when in half-width mode and is used to extend the range
+//! of the half-width timer modes.
+//!
+//! \return The value of the timer prescaler.
+//
+//*****************************************************************************
+
+unsigned long
+TimerPrescaleGet(unsigned long ulBase, unsigned long ulTimer)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT(TimerBaseValid(ulBase));
+ ASSERT((ulTimer == TIMER_A) || (ulTimer == TIMER_B) ||
+ (ulTimer == TIMER_BOTH));
+
+ //
+ // Return the appropriate prescale value.
+ //
+ return((ulTimer == TIMER_A) ? HWREG(ulBase + TIMER_O_TAPR) :
+ HWREG(ulBase + TIMER_O_TBPR));
+}
+
+//*****************************************************************************
+//
+//! Set the timer prescale match value.
+//!
+//! \param ulBase is the base address of the timer module.
+//! \param ulTimer specifies the timer(s) to adjust; must be one of \b TIMER_A,
+//! \b TIMER_B, or \b TIMER_BOTH.
+//! \param ulValue is the timer prescale match value which must be between 0
+//! and 255 (inclusive) for 16/32-bit timers.
+//!
+//! This function sets the value of the input clock prescaler match value.
+//! When in a half-width mode that uses the counter match and the prescaler,
+//! the prescale match effectively extends the range of the match.
+//!
+//! \note The availability of the prescaler match varies with the
+//! part and timer mode in use. Please consult the datasheet for the part you
+//! are using to determine whether this support is available.
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+TimerPrescaleMatchSet(unsigned long ulBase, unsigned long ulTimer,
+ unsigned long ulValue)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT(TimerBaseValid(ulBase));
+ ASSERT((ulTimer == TIMER_A) || (ulTimer == TIMER_B) ||
+ (ulTimer == TIMER_BOTH));
+ ASSERT(ulValue < 256);
+
+ //
+ // Set the timer A prescale match if requested.
+ //
+ if(ulTimer & TIMER_A)
+ {
+ HWREG(ulBase + TIMER_O_TAPMR) = ulValue;
+ }
+
+ //
+ // Set the timer B prescale match if requested.
+ //
+ if(ulTimer & TIMER_B)
+ {
+ HWREG(ulBase + TIMER_O_TBPMR) = ulValue;
+ }
+}
+
+//*****************************************************************************
+//
+//! Get the timer prescale match value.
+//!
+//! \param ulBase is the base address of the timer module.
+//! \param ulTimer specifies the timer; must be one of \b TIMER_A or
+//! \b TIMER_B.
+//!
+//! This function gets the value of the input clock prescaler match value.
+//! When in a half-width mode that uses the counter match and prescaler, the
+//! prescale match effectively extends the range of the match.
+//!
+//! \note The availability of the prescaler match varies with the
+//! part and timer mode in use. Please consult the datasheet for the part you
+//! are using to determine whether this support is available.
+//!
+//! \return The value of the timer prescale match.
+//
+//*****************************************************************************
+unsigned long
+TimerPrescaleMatchGet(unsigned long ulBase, unsigned long ulTimer)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT(TimerBaseValid(ulBase));
+ ASSERT((ulTimer == TIMER_A) || (ulTimer == TIMER_B) ||
+ (ulTimer == TIMER_BOTH));
+
+ //
+ // Return the appropriate prescale match value.
+ //
+ return((ulTimer == TIMER_A) ? HWREG(ulBase + TIMER_O_TAPMR) :
+ HWREG(ulBase + TIMER_O_TBPMR));
+}
+
+//*****************************************************************************
+//
+//! Sets the timer load value.
+//!
+//! \param ulBase is the base address of the timer module.
+//! \param ulTimer specifies the timer(s) to adjust; must be one of \b TIMER_A,
+//! \b TIMER_B, or \b TIMER_BOTH. Only \b TIMER_A should be used when the
+//! timer is configured for full-width operation.
+//! \param ulValue is the load value.
+//!
+//! This function sets the timer load value; if the timer is running then the
+//! value is immediately loaded into the timer.
+//!
+//! \note This function can be used for both full- and half-width modes of
+//! 16/32-bit timers.
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+TimerLoadSet(unsigned long ulBase, unsigned long ulTimer,
+ unsigned long ulValue)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT(TimerBaseValid(ulBase));
+ ASSERT((ulTimer == TIMER_A) || (ulTimer == TIMER_B) ||
+ (ulTimer == TIMER_BOTH));
+
+ //
+ // Set the timer A load value if requested.
+ //
+ if(ulTimer & TIMER_A)
+ {
+ HWREG(ulBase + TIMER_O_TAILR) = ulValue;
+ }
+
+ //
+ // Set the timer B load value if requested.
+ //
+ if(ulTimer & TIMER_B)
+ {
+ HWREG(ulBase + TIMER_O_TBILR) = ulValue;
+ }
+}
+
+//*****************************************************************************
+//
+//! Gets the timer load value.
+//!
+//! \param ulBase is the base address of the timer module.
+//! \param ulTimer specifies the timer; must be one of \b TIMER_A or
+//! \b TIMER_B. Only \b TIMER_A should be used when the timer is configured
+//! for full-width operation.
+//!
+//! This function gets the currently programmed interval load value for the
+//! specified timer.
+//!
+//! \note This function can be used for both full- and half-width modes of
+//! 16/32-bit timers.
+//!
+//! \return Returns the load value for the timer.
+//
+//*****************************************************************************
+unsigned long
+TimerLoadGet(unsigned long ulBase, unsigned long ulTimer)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT(TimerBaseValid(ulBase));
+ ASSERT((ulTimer == TIMER_A) || (ulTimer == TIMER_B));
+
+ //
+ // Return the appropriate load value.
+ //
+ return((ulTimer == TIMER_A) ? HWREG(ulBase + TIMER_O_TAILR) :
+ HWREG(ulBase + TIMER_O_TBILR));
+}
+
+//*****************************************************************************
+//
+//! Gets the current timer value.
+//!
+//! \param ulBase is the base address of the timer module.
+//! \param ulTimer specifies the timer; must be one of \b TIMER_A or
+//! \b TIMER_B. Only \b TIMER_A should be used when the timer is configured
+//! for 32-bit operation.
+//!
+//! This function reads the current value of the specified timer.
+//!
+//! \return Returns the current value of the timer.
+//
+//*****************************************************************************
+unsigned long
+TimerValueGet(unsigned long ulBase, unsigned long ulTimer)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT(TimerBaseValid(ulBase));
+ ASSERT((ulTimer == TIMER_A) || (ulTimer == TIMER_B));
+
+ //
+ // Return the appropriate timer value.
+ //
+ return((ulTimer == TIMER_A) ? HWREG(ulBase + TIMER_O_TAR) :
+ HWREG(ulBase + TIMER_O_TBR));
+}
+
+//*****************************************************************************
+//
+//! Sets the timer match value.
+//!
+//! \param ulBase is the base address of the timer module.
+//! \param ulTimer specifies the timer(s) to adjust; must be one of \b TIMER_A,
+//! \b TIMER_B, or \b TIMER_BOTH. Only \b TIMER_A should be used when the
+//! timer is configured for 32-bit operation.
+//! \param ulValue is the match value.
+//!
+//! This function sets the match value for a timer. This is used in capture
+//! count mode to determine when to interrupt the processor and in PWM mode to
+//! determine the duty cycle of the output signal.
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+TimerMatchSet(unsigned long ulBase, unsigned long ulTimer,
+ unsigned long ulValue)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT(TimerBaseValid(ulBase));
+ ASSERT((ulTimer == TIMER_A) || (ulTimer == TIMER_B) ||
+ (ulTimer == TIMER_BOTH));
+
+ //
+ // Set the timer A match value if requested.
+ //
+ if(ulTimer & TIMER_A)
+ {
+ HWREG(ulBase + TIMER_O_TAMATCHR) = ulValue;
+ }
+
+ //
+ // Set the timer B match value if requested.
+ //
+ if(ulTimer & TIMER_B)
+ {
+ HWREG(ulBase + TIMER_O_TBMATCHR) = ulValue;
+ }
+}
+
+//*****************************************************************************
+//
+//! Gets the timer match value.
+//!
+//! \param ulBase is the base address of the timer module.
+//! \param ulTimer specifies the timer; must be one of \b TIMER_A or
+//! \b TIMER_B. Only \b TIMER_A should be used when the timer is configured
+//! for 32-bit operation.
+//!
+//! This function gets the match value for the specified timer.
+//!
+//! \return Returns the match value for the timer.
+//
+//********************************************************************************
+unsigned long
+TimerMatchGet(unsigned long ulBase, unsigned long ulTimer)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT(TimerBaseValid(ulBase));
+ ASSERT((ulTimer == TIMER_A) || (ulTimer == TIMER_B));
+
+ //
+ // Return the appropriate match value.
+ //
+ return((ulTimer == TIMER_A) ? HWREG(ulBase + TIMER_O_TAMATCHR) :
+ HWREG(ulBase + TIMER_O_TBMATCHR));
+}
+
+
+//*****************************************************************************
+//
+//! Registers an interrupt handler for the timer interrupt.
+//!
+//! \param ulBase is the base address of the timer module.
+//! \param ulTimer specifies the timer(s); must be one of \b TIMER_A,
+//! \b TIMER_B, or \b TIMER_BOTH.
+//! \param pfnHandler is a pointer to the function to be called when the timer
+//! interrupt occurs.
+//!
+//! This function sets the handler to be called when a timer interrupt occurs.
+//! In addition, this function enables the global interrupt in the interrupt
+//! controller; specific timer interrupts must be enabled via TimerIntEnable().
+//! It is the interrupt handler's responsibility to clear the interrupt source
+//! via TimerIntClear().
+//!
+//! \sa IntRegister() for important information about registering interrupt
+//! handlers.
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+TimerIntRegister(unsigned long ulBase, unsigned long ulTimer,
+ void (*pfnHandler)(void))
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT(TimerBaseValid(ulBase));
+ ASSERT((ulTimer == TIMER_A) || (ulTimer == TIMER_B) ||
+ (ulTimer == TIMER_BOTH));
+
+ ulBase = ((ulBase == TIMERA0_BASE) ? INT_TIMERA0A :
+ ((ulBase == TIMERA1_BASE) ? INT_TIMERA1A :
+ ((ulBase == TIMERA2_BASE) ? INT_TIMERA2A : INT_TIMERA3A)));
+
+ //
+ // Register an interrupt handler for timer A if requested.
+ //
+ if(ulTimer & TIMER_A)
+ {
+ //
+ // Register the interrupt handler.
+ //
+ IntRegister(ulBase, pfnHandler);
+
+ //
+ // Enable the interrupt.
+ //
+ IntEnable(ulBase);
+ }
+
+ //
+ // Register an interrupt handler for timer B if requested.
+ //
+ if(ulTimer & TIMER_B)
+ {
+ //
+ // Register the interrupt handler.
+ //
+ IntRegister(ulBase + 1, pfnHandler);
+
+ //
+ // Enable the interrupt.
+ //
+ IntEnable(ulBase + 1);
+ }
+}
+
+//*****************************************************************************
+//
+//! Unregisters an interrupt handler for the timer interrupt.
+//!
+//! \param ulBase is the base address of the timer module.
+//! \param ulTimer specifies the timer(s); must be one of \b TIMER_A,
+//! \b TIMER_B, or \b TIMER_BOTH.
+//!
+//! This function clears the handler to be called when a timer interrupt
+//! occurs. This function also masks off the interrupt in the interrupt
+//! controller so that the interrupt handler no longer is called.
+//!
+//! \sa IntRegister() for important information about registering interrupt
+//! handlers.
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+TimerIntUnregister(unsigned long ulBase, unsigned long ulTimer)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT(TimerBaseValid(ulBase));
+ ASSERT((ulTimer == TIMER_A) || (ulTimer == TIMER_B) ||
+ (ulTimer == TIMER_BOTH));
+
+ //
+ // Get the interrupt number for this timer module.
+ //
+
+ ulBase = ((ulBase == TIMERA0_BASE) ? INT_TIMERA0A :
+ ((ulBase == TIMERA1_BASE) ? INT_TIMERA1A :
+ ((ulBase == TIMERA2_BASE) ? INT_TIMERA2A : INT_TIMERA3A)));
+
+
+
+ //
+ // Unregister the interrupt handler for timer A if requested.
+ //
+ if(ulTimer & TIMER_A)
+ {
+ //
+ // Disable the interrupt.
+ //
+ IntDisable(ulBase);
+
+ //
+ // Unregister the interrupt handler.
+ //
+ IntUnregister(ulBase);
+ }
+
+ //
+ // Unregister the interrupt handler for timer B if requested.
+ //
+ if(ulTimer & TIMER_B)
+ {
+ //
+ // Disable the interrupt.
+ //
+ IntDisable(ulBase + 1);
+
+ //
+ // Unregister the interrupt handler.
+ //
+ IntUnregister(ulBase + 1);
+ }
+}
+
+//*****************************************************************************
+//
+//! Enables individual timer interrupt sources.
+//!
+//! \param ulBase is the base address of the timer module.
+//! \param ulIntFlags is the bit mask of the interrupt sources to be enabled.
+//!
+//! Enables the indicated timer interrupt sources. Only the sources that are
+//! enabled can be reflected to the processor interrupt; disabled sources have
+//! no effect on the processor.
+//!
+//! The \e ulIntFlags parameter must be the logical OR of any combination of
+//! the following:
+//!
+//! - \b TIMER_CAPB_EVENT - Capture B event interrupt
+//! - \b TIMER_CAPB_MATCH - Capture B match interrupt
+//! - \b TIMER_TIMB_TIMEOUT - Timer B timeout interrupt
+//! - \b TIMER_CAPA_EVENT - Capture A event interrupt
+//! - \b TIMER_CAPA_MATCH - Capture A match interrupt
+//! - \b TIMER_TIMA_TIMEOUT - Timer A timeout interrupt
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+TimerIntEnable(unsigned long ulBase, unsigned long ulIntFlags)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT(TimerBaseValid(ulBase));
+
+ //
+ // Enable the specified interrupts.
+ //
+ HWREG(ulBase + TIMER_O_IMR) |= ulIntFlags;
+}
+
+//*****************************************************************************
+//
+//! Disables individual timer interrupt sources.
+//!
+//! \param ulBase is the base address of the timer module.
+//! \param ulIntFlags is the bit mask of the interrupt sources to be disabled.
+//!
+//! Disables the indicated timer interrupt sources. Only the sources that are
+//! enabled can be reflected to the processor interrupt; disabled sources have
+//! no effect on the processor.
+//!
+//! The \e ulIntFlags parameter has the same definition as the \e ulIntFlags
+//! parameter to TimerIntEnable().
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+TimerIntDisable(unsigned long ulBase, unsigned long ulIntFlags)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT(TimerBaseValid(ulBase));
+
+ //
+ // Disable the specified interrupts.
+ //
+ HWREG(ulBase + TIMER_O_IMR) &= ~(ulIntFlags);
+}
+
+//*****************************************************************************
+//
+//! Gets the current interrupt status.
+//!
+//! \param ulBase is the base address of the timer module.
+//! \param bMasked is false if the raw interrupt status is required and true if
+//! the masked interrupt status is required.
+//!
+//! This function returns the interrupt status for the timer module. Either
+//! the raw interrupt status or the status of interrupts that are allowed to
+//! reflect to the processor can be returned.
+//!
+//! \return The current interrupt status, enumerated as a bit field of
+//! values described in TimerIntEnable().
+//
+//*****************************************************************************
+unsigned long
+TimerIntStatus(unsigned long ulBase, tBoolean bMasked)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT(TimerBaseValid(ulBase));
+
+ //
+ // Return either the interrupt status or the raw interrupt status as
+ // requested.
+ //
+ return(bMasked ? HWREG(ulBase + TIMER_O_MIS) :
+ HWREG(ulBase + TIMER_O_RIS));
+}
+
+//*****************************************************************************
+//
+//! Clears timer interrupt sources.
+//!
+//! \param ulBase is the base address of the timer module.
+//! \param ulIntFlags is a bit mask of the interrupt sources to be cleared.
+//!
+//! The specified timer interrupt sources are cleared, so that they no longer
+//! assert. This function must be called in the interrupt handler to keep the
+//! interrupt from being triggered again immediately upon exit.
+//!
+//! The \e ulIntFlags parameter has the same definition as the \e ulIntFlags
+//! parameter to TimerIntEnable().
+//!
+//! \note Because there is a write buffer in the Cortex-M3 processor, it may
+//! take several clock cycles before the interrupt source is actually cleared.
+//! Therefore, it is recommended that the interrupt source be cleared early in
+//! the interrupt handler (as opposed to the very last action) to avoid
+//! returning from the interrupt handler before the interrupt source is
+//! actually cleared. Failure to do so may result in the interrupt handler
+//! being immediately reentered (because the interrupt controller still sees
+//! the interrupt source asserted).
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+TimerIntClear(unsigned long ulBase, unsigned long ulIntFlags)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT(TimerBaseValid(ulBase));
+
+ //
+ // Clear the requested interrupt sources.
+ //
+ HWREG(ulBase + TIMER_O_ICR) = ulIntFlags;
+}
+
+//*****************************************************************************
+//
+//! Enables the events that can trigger a DMA request.
+//!
+//! \param ui32Base is the base address of the timer module.
+//! \param ui32DMAEvent is a bit mask of the events that can trigger DMA.
+//!
+//! This function enables the timer events that can trigger the start of a DMA
+//! sequence. The DMA trigger events are specified in the \e ui32DMAEvent
+//! parameter by passing in the logical OR of the following values:
+//!
+//! - \b TIMER_DMA_MODEMATCH_B - The mode match DMA trigger for timer B is
+//! enabled.
+//! - \b TIMER_DMA_CAPEVENT_B - The capture event DMA trigger for timer B is
+//! enabled.
+//! - \b TIMER_DMA_CAPMATCH_B - The capture match DMA trigger for timer B is
+//! enabled.
+//! - \b TIMER_DMA_TIMEOUT_B - The timeout DMA trigger for timer B is enabled.
+//! - \b TIMER_DMA_MODEMATCH_A - The mode match DMA trigger for timer A is
+//! enabled.
+//! - \b TIMER_DMA_CAPEVENT_A - The capture event DMA trigger for timer A is
+//! enabled.
+//! - \b TIMER_DMA_CAPMATCH_A - The capture match DMA trigger for timer A is
+//! enabled.
+//! - \b TIMER_DMA_TIMEOUT_A - The timeout DMA trigger for timer A is enabled.
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+TimerDMAEventSet(unsigned long ulBase, unsigned long ulDMAEvent)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT(TimerBaseValid(ulBase));
+
+ //
+ // Set the DMA triggers.
+ //
+ HWREG(ulBase + TIMER_O_DMAEV) = ulDMAEvent;
+}
+
+//*****************************************************************************
+//
+//! Returns the events that can trigger a DMA request.
+//!
+//! \param ui32Base is the base address of the timer module.
+//!
+//! This function returns the timer events that can trigger the start of a DMA
+//! sequence. The DMA trigger events are the logical OR of the following
+//! values:
+//!
+//! - \b TIMER_DMA_MODEMATCH_B - Enables the mode match DMA trigger for timer
+//! B.
+//! - \b TIMER_DMA_CAPEVENT_B - Enables the capture event DMA trigger for
+//! timer B.
+//! - \b TIMER_DMA_CAPMATCH_B - Enables the capture match DMA trigger for
+//! timer B.
+//! - \b TIMER_DMA_TIMEOUT_B - Enables the timeout DMA trigger for timer B.
+//! - \b TIMER_DMA_MODEMATCH_A - Enables the mode match DMA trigger for timer
+//! A.
+//! - \b TIMER_DMA_CAPEVENT_A - Enables the capture event DMA trigger for
+//! timer A.
+//! - \b TIMER_DMA_CAPMATCH_A - Enables the capture match DMA trigger for
+//! timer A.
+//! - \b TIMER_DMA_TIMEOUT_A - Enables the timeout DMA trigger for timer A.
+//!
+//! \return The timer events that trigger the uDMA.
+//
+//*****************************************************************************
+unsigned long
+TimerDMAEventGet(unsigned long ulBase)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT(TimerBaseValid(ulBase));
+
+ //
+ // Return the current DMA triggers.
+ //
+ return(HWREG(ulBase + TIMER_O_DMAEV));
+}
+//*****************************************************************************
+//
+// Close the Doxygen group.
+//! @}
+//
+//*****************************************************************************
diff --git a/cc3200/hal/timer.h b/cc3200/hal/timer.h
new file mode 100644
index 000000000..d16fc9a6e
--- /dev/null
+++ b/cc3200/hal/timer.h
@@ -0,0 +1,208 @@
+//*****************************************************************************
+//
+// timer.h
+//
+// Prototypes for the timer module
+//
+// Copyright (C) 2014 Texas Instruments Incorporated - http://www.ti.com/
+//
+//
+// Redistribution and use in source and binary forms, with or without
+// modification, are permitted provided that the following conditions
+// are met:
+//
+// Redistributions of source code must retain the above copyright
+// notice, this list of conditions and the following disclaimer.
+//
+// Redistributions in binary form must reproduce the above copyright
+// notice, this list of conditions and the following disclaimer in the
+// documentation and/or other materials provided with the
+// distribution.
+//
+// Neither the name of Texas Instruments Incorporated nor the names of
+// its contributors may be used to endorse or promote products derived
+// from this software without specific prior written permission.
+//
+// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
+// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
+// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
+// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
+// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
+// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
+// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
+// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
+// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
+// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
+// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+//
+//*****************************************************************************
+
+#ifndef __TIMER_H__
+#define __TIMER_H__
+
+//*****************************************************************************
+//
+// If building with a C++ compiler, make all of the definitions in this header
+// have a C binding.
+//
+//*****************************************************************************
+#ifdef __cplusplus
+extern "C"
+{
+#endif
+
+//*****************************************************************************
+//
+// Values that can be passed to TimerConfigure as the ulConfig parameter.
+//
+//*****************************************************************************
+
+#define TIMER_CFG_ONE_SHOT 0x00000021 // Full-width one-shot timer
+#define TIMER_CFG_ONE_SHOT_UP 0x00000031 // Full-width one-shot up-count
+ // timer
+#define TIMER_CFG_PERIODIC 0x00000022 // Full-width periodic timer
+#define TIMER_CFG_PERIODIC_UP 0x00000032 // Full-width periodic up-count
+ // timer
+#define TIMER_CFG_SPLIT_PAIR 0x04000000 // Two half-width timers
+
+#define TIMER_CFG_A_ONE_SHOT 0x00000021 // Timer A one-shot timer
+#define TIMER_CFG_A_ONE_SHOT_UP 0x00000031 // Timer A one-shot up-count timer
+#define TIMER_CFG_A_PERIODIC 0x00000022 // Timer A periodic timer
+#define TIMER_CFG_A_PERIODIC_UP 0x00000032 // Timer A periodic up-count timer
+#define TIMER_CFG_A_CAP_COUNT 0x00000003 // Timer A event counter
+#define TIMER_CFG_A_CAP_COUNT_UP 0x00000013 // Timer A event up-counter
+#define TIMER_CFG_A_CAP_TIME 0x00000007 // Timer A event timer
+#define TIMER_CFG_A_CAP_TIME_UP 0x00000017 // Timer A event up-count timer
+#define TIMER_CFG_A_PWM 0x0000000A // Timer A PWM output
+#define TIMER_CFG_B_ONE_SHOT 0x00002100 // Timer B one-shot timer
+#define TIMER_CFG_B_ONE_SHOT_UP 0x00003100 // Timer B one-shot up-count timer
+#define TIMER_CFG_B_PERIODIC 0x00002200 // Timer B periodic timer
+#define TIMER_CFG_B_PERIODIC_UP 0x00003200 // Timer B periodic up-count timer
+#define TIMER_CFG_B_CAP_COUNT 0x00000300 // Timer B event counter
+#define TIMER_CFG_B_CAP_COUNT_UP 0x00001300 // Timer B event up-counter
+#define TIMER_CFG_B_CAP_TIME 0x00000700 // Timer B event timer
+#define TIMER_CFG_B_CAP_TIME_UP 0x00001700 // Timer B event up-count timer
+#define TIMER_CFG_B_PWM 0x00000A00 // Timer B PWM output
+
+//*****************************************************************************
+//
+// Values that can be passed to TimerIntEnable, TimerIntDisable, and
+// TimerIntClear as the ulIntFlags parameter, and returned from TimerIntStatus.
+//
+//*****************************************************************************
+
+#define TIMER_TIMB_DMA 0x00002000 // TimerB DMA Done interrupt
+#define TIMER_TIMB_MATCH 0x00000800 // TimerB match interrupt
+#define TIMER_CAPB_EVENT 0x00000400 // CaptureB event interrupt
+#define TIMER_CAPB_MATCH 0x00000200 // CaptureB match interrupt
+#define TIMER_TIMB_TIMEOUT 0x00000100 // TimerB time out interrupt
+#define TIMER_TIMA_DMA 0x00000020 // TimerA DMA Done interrupt
+#define TIMER_TIMA_MATCH 0x00000010 // TimerA match interrupt
+#define TIMER_CAPA_EVENT 0x00000004 // CaptureA event interrupt
+#define TIMER_CAPA_MATCH 0x00000002 // CaptureA match interrupt
+#define TIMER_TIMA_TIMEOUT 0x00000001 // TimerA time out interrupt
+
+//*****************************************************************************
+//
+// Values that can be passed to TimerControlEvent as the ulEvent parameter.
+//
+//*****************************************************************************
+#define TIMER_EVENT_POS_EDGE 0x00000000 // Count positive edges
+#define TIMER_EVENT_NEG_EDGE 0x00000404 // Count negative edges
+#define TIMER_EVENT_BOTH_EDGES 0x00000C0C // Count both edges
+
+//*****************************************************************************
+//
+// Values that can be passed to most of the timer APIs as the ulTimer
+// parameter.
+//
+//*****************************************************************************
+#define TIMER_A 0x000000ff // Timer A
+#define TIMER_B 0x0000ff00 // Timer B
+#define TIMER_BOTH 0x0000ffff // Timer Both
+
+
+//*****************************************************************************
+//
+// Values that can be passed to TimerSynchronize as the ulTimers parameter.
+//
+//*****************************************************************************
+#define TIMER_0A_SYNC 0x00000001 // Synchronize Timer 0A
+#define TIMER_0B_SYNC 0x00000002 // Synchronize Timer 0B
+#define TIMER_1A_SYNC 0x00000004 // Synchronize Timer 1A
+#define TIMER_1B_SYNC 0x00000008 // Synchronize Timer 1B
+#define TIMER_2A_SYNC 0x00000010 // Synchronize Timer 2A
+#define TIMER_2B_SYNC 0x00000020 // Synchronize Timer 2B
+#define TIMER_3A_SYNC 0x00000040 // Synchronize Timer 3A
+#define TIMER_3B_SYNC 0x00000080 // Synchronize Timer 3B
+
+//*****************************************************************************
+//
+// Values that can be passed to TimerDMAEventSet() or returned from
+// TimerDMAEventGet().
+//
+//*****************************************************************************
+#define TIMER_DMA_MODEMATCH_B 0x00000800
+#define TIMER_DMA_CAPEVENT_B 0x00000400
+#define TIMER_DMA_CAPMATCH_B 0x00000200
+#define TIMER_DMA_TIMEOUT_B 0x00000100
+#define TIMER_DMA_MODEMATCH_A 0x00000010
+#define TIMER_DMA_CAPEVENT_A 0x00000004
+#define TIMER_DMA_CAPMATCH_A 0x00000002
+#define TIMER_DMA_TIMEOUT_A 0x00000001
+
+
+//*****************************************************************************
+//
+// Prototypes for the APIs.
+//
+//*****************************************************************************
+extern void TimerEnable(unsigned long ulBase, unsigned long ulTimer);
+extern void TimerDisable(unsigned long ulBase, unsigned long ulTimer);
+extern void TimerConfigure(unsigned long ulBase, unsigned long ulConfig);
+extern void TimerControlLevel(unsigned long ulBase, unsigned long ulTimer,
+ tBoolean bInvert);
+extern void TimerControlEvent(unsigned long ulBase, unsigned long ulTimer,
+ unsigned long ulEvent);
+extern void TimerControlStall(unsigned long ulBase, unsigned long ulTimer,
+ tBoolean bStall);
+extern void TimerPrescaleSet(unsigned long ulBase, unsigned long ulTimer,
+ unsigned long ulValue);
+extern unsigned long TimerPrescaleGet(unsigned long ulBase,
+ unsigned long ulTimer);
+extern void TimerPrescaleMatchSet(unsigned long ulBase, unsigned long ulTimer,
+ unsigned long ulValue);
+extern unsigned long TimerPrescaleMatchGet(unsigned long ulBase,
+ unsigned long ulTimer);
+extern void TimerLoadSet(unsigned long ulBase, unsigned long ulTimer,
+ unsigned long ulValue);
+extern unsigned long TimerLoadGet(unsigned long ulBase, unsigned long ulTimer);
+
+extern unsigned long TimerValueGet(unsigned long ulBase,
+ unsigned long ulTimer);
+
+extern void TimerMatchSet(unsigned long ulBase, unsigned long ulTimer,
+ unsigned long ulValue);
+extern unsigned long TimerMatchGet(unsigned long ulBase,
+ unsigned long ulTimer);
+extern void TimerIntRegister(unsigned long ulBase, unsigned long ulTimer,
+ void (*pfnHandler)(void));
+extern void TimerIntUnregister(unsigned long ulBase, unsigned long ulTimer);
+extern void TimerIntEnable(unsigned long ulBase, unsigned long ulIntFlags);
+extern void TimerIntDisable(unsigned long ulBase, unsigned long ulIntFlags);
+extern unsigned long TimerIntStatus(unsigned long ulBase, tBoolean bMasked);
+extern void TimerIntClear(unsigned long ulBase, unsigned long ulIntFlags);
+extern void TimerDMAEventSet(unsigned long ulBase, unsigned long ulDMAEvent);
+extern unsigned long TimerDMAEventGet(unsigned long ulBase);
+
+
+//*****************************************************************************
+//
+// Mark the end of the C bindings section for C++ compilers.
+//
+//*****************************************************************************
+#ifdef __cplusplus
+}
+#endif
+
+#endif // __TIMER_H__
diff --git a/cc3200/hal/uart.c b/cc3200/hal/uart.c
new file mode 100644
index 000000000..b00bbeeb1
--- /dev/null
+++ b/cc3200/hal/uart.c
@@ -0,0 +1,1518 @@
+//*****************************************************************************
+//
+// uart.c
+//
+// Driver for the UART.
+//
+// Copyright (C) 2014 Texas Instruments Incorporated - http://www.ti.com/
+//
+//
+// Redistribution and use in source and binary forms, with or without
+// modification, are permitted provided that the following conditions
+// are met:
+//
+// Redistributions of source code must retain the above copyright
+// notice, this list of conditions and the following disclaimer.
+//
+// Redistributions in binary form must reproduce the above copyright
+// notice, this list of conditions and the following disclaimer in the
+// documentation and/or other materials provided with the
+// distribution.
+//
+// Neither the name of Texas Instruments Incorporated nor the names of
+// its contributors may be used to endorse or promote products derived
+// from this software without specific prior written permission.
+//
+// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
+// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
+// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
+// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
+// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
+// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
+// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
+// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
+// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
+// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
+// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+//
+//*****************************************************************************
+
+//*****************************************************************************
+//
+//! \addtogroup UART_api
+//! @{
+//
+//*****************************************************************************
+
+#include "inc/hw_ints.h"
+#include "inc/hw_memmap.h"
+#include "inc/hw_types.h"
+#include "inc/hw_uart.h"
+#include "debug.h"
+#include "interrupt.h"
+#include "uart.h"
+
+
+//*****************************************************************************
+//
+// A mapping of UART base address to interupt number.
+//
+//*****************************************************************************
+static const unsigned long g_ppulUARTIntMap[][2] =
+{
+ { UARTA0_BASE, INT_UARTA0 },
+ { UARTA1_BASE, INT_UARTA1 },
+};
+
+//*****************************************************************************
+//
+//! \internal
+//! Checks a UART base address.
+//!
+//! \param ulBase is the base address of the UART port.
+//!
+//! This function determines if a UART port base address is valid.
+//!
+//! \return Returns \b true if the base address is valid and \b false
+//! otherwise.
+//
+//*****************************************************************************
+#ifdef DEBUG
+static tBoolean
+UARTBaseValid(unsigned long ulBase)
+{
+ return((ulBase == UARTA0_BASE) || (ulBase == UARTA1_BASE));
+}
+#else
+#define UARTBaseValid(ulBase) (ulBase)
+#endif
+
+//*****************************************************************************
+//
+//! \internal
+//! Gets the UART interrupt number.
+//!
+//! \param ulBase is the base address of the UART port.
+//!
+//! Given a UART base address, returns the corresponding interrupt number.
+//!
+//! \return Returns a UART interrupt number, or -1 if \e ulBase is invalid.
+//
+//*****************************************************************************
+static long
+UARTIntNumberGet(unsigned long ulBase)
+{
+ unsigned long ulIdx;
+
+ //
+ // Loop through the table that maps UART base addresses to interrupt
+ // numbers.
+ //
+ for(ulIdx = 0; ulIdx < (sizeof(g_ppulUARTIntMap) /
+ sizeof(g_ppulUARTIntMap[0])); ulIdx++)
+ {
+ //
+ // See if this base address matches.
+ //
+ if(g_ppulUARTIntMap[ulIdx][0] == ulBase)
+ {
+ //
+ // Return the corresponding interrupt number.
+ //
+ return(g_ppulUARTIntMap[ulIdx][1]);
+ }
+ }
+
+ //
+ // The base address could not be found, so return an error.
+ //
+ return(-1);
+}
+
+//*****************************************************************************
+//
+//! Sets the type of parity.
+//!
+//! \param ulBase is the base address of the UART port.
+//! \param ulParity specifies the type of parity to use.
+//!
+//! This function sets the type of parity to use for transmitting and expect
+//! when receiving. The \e ulParity parameter must be one of
+//! \b UART_CONFIG_PAR_NONE, \b UART_CONFIG_PAR_EVEN, \b UART_CONFIG_PAR_ODD,
+//! \b UART_CONFIG_PAR_ONE, or \b UART_CONFIG_PAR_ZERO. The last two allow
+//! direct control of the parity bit; it is always either one or zero based on
+//! the mode.
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+UARTParityModeSet(unsigned long ulBase, unsigned long ulParity)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT(UARTBaseValid(ulBase));
+ ASSERT((ulParity == UART_CONFIG_PAR_NONE) ||
+ (ulParity == UART_CONFIG_PAR_EVEN) ||
+ (ulParity == UART_CONFIG_PAR_ODD) ||
+ (ulParity == UART_CONFIG_PAR_ONE) ||
+ (ulParity == UART_CONFIG_PAR_ZERO));
+
+ //
+ // Set the parity mode.
+ //
+ HWREG(ulBase + UART_O_LCRH) = ((HWREG(ulBase + UART_O_LCRH) &
+ ~(UART_LCRH_SPS | UART_LCRH_EPS |
+ UART_LCRH_PEN)) | ulParity);
+}
+
+//*****************************************************************************
+//
+//! Gets the type of parity currently being used.
+//!
+//! \param ulBase is the base address of the UART port.
+//!
+//! This function gets the type of parity used for transmitting data and
+//! expected when receiving data.
+//!
+//! \return Returns the current parity settings, specified as one of
+//! \b UART_CONFIG_PAR_NONE, \b UART_CONFIG_PAR_EVEN, \b UART_CONFIG_PAR_ODD,
+//! \b UART_CONFIG_PAR_ONE, or \b UART_CONFIG_PAR_ZERO.
+//
+//*****************************************************************************
+unsigned long
+UARTParityModeGet(unsigned long ulBase)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT(UARTBaseValid(ulBase));
+
+ //
+ // Return the current parity setting.
+ //
+ return(HWREG(ulBase + UART_O_LCRH) &
+ (UART_LCRH_SPS | UART_LCRH_EPS | UART_LCRH_PEN));
+}
+
+//*****************************************************************************
+//
+//! Sets the FIFO level at which interrupts are generated.
+//!
+//! \param ulBase is the base address of the UART port.
+//! \param ulTxLevel is the transmit FIFO interrupt level, specified as one of
+//! \b UART_FIFO_TX1_8, \b UART_FIFO_TX2_8, \b UART_FIFO_TX4_8,
+//! \b UART_FIFO_TX6_8, or \b UART_FIFO_TX7_8.
+//! \param ulRxLevel is the receive FIFO interrupt level, specified as one of
+//! \b UART_FIFO_RX1_8, \b UART_FIFO_RX2_8, \b UART_FIFO_RX4_8,
+//! \b UART_FIFO_RX6_8, or \b UART_FIFO_RX7_8.
+//!
+//! This function sets the FIFO level at which transmit and receive interrupts
+//! are generated.
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+UARTFIFOLevelSet(unsigned long ulBase, unsigned long ulTxLevel,
+ unsigned long ulRxLevel)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT(UARTBaseValid(ulBase));
+ ASSERT((ulTxLevel == UART_FIFO_TX1_8) ||
+ (ulTxLevel == UART_FIFO_TX2_8) ||
+ (ulTxLevel == UART_FIFO_TX4_8) ||
+ (ulTxLevel == UART_FIFO_TX6_8) ||
+ (ulTxLevel == UART_FIFO_TX7_8));
+ ASSERT((ulRxLevel == UART_FIFO_RX1_8) ||
+ (ulRxLevel == UART_FIFO_RX2_8) ||
+ (ulRxLevel == UART_FIFO_RX4_8) ||
+ (ulRxLevel == UART_FIFO_RX6_8) ||
+ (ulRxLevel == UART_FIFO_RX7_8));
+
+ //
+ // Set the FIFO interrupt levels.
+ //
+ HWREG(ulBase + UART_O_IFLS) = ulTxLevel | ulRxLevel;
+}
+
+//*****************************************************************************
+//
+//! Gets the FIFO level at which interrupts are generated.
+//!
+//! \param ulBase is the base address of the UART port.
+//! \param pulTxLevel is a pointer to storage for the transmit FIFO level,
+//! returned as one of \b UART_FIFO_TX1_8, \b UART_FIFO_TX2_8,
+//! \b UART_FIFO_TX4_8, \b UART_FIFO_TX6_8, or \b UART_FIFO_TX7_8.
+//! \param pulRxLevel is a pointer to storage for the receive FIFO level,
+//! returned as one of \b UART_FIFO_RX1_8, \b UART_FIFO_RX2_8,
+//! \b UART_FIFO_RX4_8, \b UART_FIFO_RX6_8, or \b UART_FIFO_RX7_8.
+//!
+//! This function gets the FIFO level at which transmit and receive interrupts
+//! are generated.
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+UARTFIFOLevelGet(unsigned long ulBase, unsigned long *pulTxLevel,
+ unsigned long *pulRxLevel)
+{
+ unsigned long ulTemp;
+
+ //
+ // Check the arguments.
+ //
+ ASSERT(UARTBaseValid(ulBase));
+
+ //
+ // Read the FIFO level register.
+ //
+ ulTemp = HWREG(ulBase + UART_O_IFLS);
+
+ //
+ // Extract the transmit and receive FIFO levels.
+ //
+ *pulTxLevel = ulTemp & UART_IFLS_TX_M;
+ *pulRxLevel = ulTemp & UART_IFLS_RX_M;
+}
+
+//*****************************************************************************
+//
+//! Sets the configuration of a UART.
+//!
+//! \param ulBase is the base address of the UART port.
+//! \param ulUARTClk is the rate of the clock supplied to the UART module.
+//! \param ulBaud is the desired baud rate.
+//! \param ulConfig is the data format for the port (number of data bits,
+//! number of stop bits, and parity).
+//!
+//! This function configures the UART for operation in the specified data
+//! format. The baud rate is provided in the \e ulBaud parameter and the data
+//! format in the \e ulConfig parameter.
+//!
+//! The \e ulConfig parameter is the logical OR of three values: the number of
+//! data bits, the number of stop bits, and the parity. \b UART_CONFIG_WLEN_8,
+//! \b UART_CONFIG_WLEN_7, \b UART_CONFIG_WLEN_6, and \b UART_CONFIG_WLEN_5
+//! select from eight to five data bits per byte (respectively).
+//! \b UART_CONFIG_STOP_ONE and \b UART_CONFIG_STOP_TWO select one or two stop
+//! bits (respectively). \b UART_CONFIG_PAR_NONE, \b UART_CONFIG_PAR_EVEN,
+//! \b UART_CONFIG_PAR_ODD, \b UART_CONFIG_PAR_ONE, and \b UART_CONFIG_PAR_ZERO
+//! select the parity mode (no parity bit, even parity bit, odd parity bit,
+//! parity bit always one, and parity bit always zero, respectively).
+//!
+//! The peripheral clock is the same as the processor clock. The frequency of
+//! the system clock is the value returned by SysCtlClockGet(), or it can be
+//! explicitly hard coded if it is constant and known (to save the
+//! code/execution overhead of a call to SysCtlClockGet()).
+//!
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+UARTConfigSetExpClk(unsigned long ulBase, unsigned long ulUARTClk,
+ unsigned long ulBaud, unsigned long ulConfig)
+{
+ unsigned long ulDiv;
+
+ //
+ // Check the arguments.
+ //
+ ASSERT(UARTBaseValid(ulBase));
+ ASSERT(ulBaud != 0);
+
+ //
+ // Stop the UART.
+ //
+ UARTDisable(ulBase);
+
+ //
+ // Is the required baud rate greater than the maximum rate supported
+ // without the use of high speed mode?
+ //
+ if((ulBaud * 16) > ulUARTClk)
+ {
+ //
+ // Enable high speed mode.
+ //
+ HWREG(ulBase + UART_O_CTL) |= UART_CTL_HSE;
+
+ //
+ // Half the supplied baud rate to compensate for enabling high speed
+ // mode. This allows the following code to be common to both cases.
+ //
+ ulBaud /= 2;
+ }
+ else
+ {
+ //
+ // Disable high speed mode.
+ //
+ HWREG(ulBase + UART_O_CTL) &= ~(UART_CTL_HSE);
+ }
+
+ //
+ // Compute the fractional baud rate divider.
+ //
+ ulDiv = (((ulUARTClk * 8) / ulBaud) + 1) / 2;
+
+ //
+ // Set the baud rate.
+ //
+ HWREG(ulBase + UART_O_IBRD) = ulDiv / 64;
+ HWREG(ulBase + UART_O_FBRD) = ulDiv % 64;
+
+ //
+ // Set parity, data length, and number of stop bits.
+ //
+ HWREG(ulBase + UART_O_LCRH) = ulConfig;
+
+ //
+ // Clear the flags register.
+ //
+ HWREG(ulBase + UART_O_FR) = 0;
+
+ //
+ // Start the UART.
+ //
+ UARTEnable(ulBase);
+}
+
+//*****************************************************************************
+//
+//! Gets the current configuration of a UART.
+//!
+//! \param ulBase is the base address of the UART port.
+//! \param ulUARTClk is the rate of the clock supplied to the UART module.
+//! \param pulBaud is a pointer to storage for the baud rate.
+//! \param pulConfig is a pointer to storage for the data format.
+//!
+//! The baud rate and data format for the UART is determined, given an
+//! explicitly provided peripheral clock (hence the ExpClk suffix). The
+//! returned baud rate is the actual baud rate; it may not be the exact baud
+//! rate requested or an ``official'' baud rate. The data format returned in
+//! \e pulConfig is enumerated the same as the \e ulConfig parameter of
+//! UARTConfigSetExpClk().
+//!
+//! The peripheral clock is the same as the processor clock. The frequency of
+//! the system clock is the value returned by SysCtlClockGet(), or it can be
+//! explicitly hard coded if it is constant and known (to save the
+//! code/execution overhead of a call to SysCtlClockGet()).
+//!
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+UARTConfigGetExpClk(unsigned long ulBase, unsigned long ulUARTClk,
+ unsigned long *pulBaud, unsigned long *pulConfig)
+{
+ unsigned long ulInt, ulFrac;
+
+ //
+ // Check the arguments.
+ //
+ ASSERT(UARTBaseValid(ulBase));
+
+ //
+ // Compute the baud rate.
+ //
+ ulInt = HWREG(ulBase + UART_O_IBRD);
+ ulFrac = HWREG(ulBase + UART_O_FBRD);
+ *pulBaud = (ulUARTClk * 4) / ((64 * ulInt) + ulFrac);
+
+ //
+ // See if high speed mode enabled.
+ //
+ if(HWREG(ulBase + UART_O_CTL) & UART_CTL_HSE)
+ {
+ //
+ // High speed mode is enabled so the actual baud rate is actually
+ // double what was just calculated.
+ //
+ *pulBaud *= 2;
+ }
+
+ //
+ // Get the parity, data length, and number of stop bits.
+ //
+ *pulConfig = (HWREG(ulBase + UART_O_LCRH) &
+ (UART_LCRH_SPS | UART_LCRH_WLEN_M | UART_LCRH_STP2 |
+ UART_LCRH_EPS | UART_LCRH_PEN));
+}
+
+//*****************************************************************************
+//
+//! Enables transmitting and receiving.
+//!
+//! \param ulBase is the base address of the UART port.
+//!
+//! This function sets the UARTEN, TXE, and RXE bits, and enables the transmit
+//! and receive FIFOs.
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+UARTEnable(unsigned long ulBase)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT(UARTBaseValid(ulBase));
+
+ //
+ // Enable the FIFO.
+ //
+ HWREG(ulBase + UART_O_LCRH) |= UART_LCRH_FEN;
+
+ //
+ // Enable RX, TX, and the UART.
+ //
+ HWREG(ulBase + UART_O_CTL) |= (UART_CTL_UARTEN | UART_CTL_TXE |
+ UART_CTL_RXE);
+}
+
+//*****************************************************************************
+//
+//! Disables transmitting and receiving.
+//!
+//! \param ulBase is the base address of the UART port.
+//!
+//! This function clears the UARTEN, TXE, and RXE bits, waits for the end of
+//! transmission of the current character, and flushes the transmit FIFO.
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+UARTDisable(unsigned long ulBase)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT(UARTBaseValid(ulBase));
+
+ //
+ // Wait for end of TX.
+ //
+ while(HWREG(ulBase + UART_O_FR) & UART_FR_BUSY)
+ {
+ }
+
+ //
+ // Disable the FIFO.
+ //
+ HWREG(ulBase + UART_O_LCRH) &= ~(UART_LCRH_FEN);
+
+ //
+ // Disable the UART.
+ //
+ HWREG(ulBase + UART_O_CTL) &= ~(UART_CTL_UARTEN | UART_CTL_TXE |
+ UART_CTL_RXE);
+}
+
+//*****************************************************************************
+//
+//! Enables the transmit and receive FIFOs.
+//!
+//! \param ulBase is the base address of the UART port.
+//!
+//! This functions enables the transmit and receive FIFOs in the UART.
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+UARTFIFOEnable(unsigned long ulBase)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT(UARTBaseValid(ulBase));
+
+ //
+ // Enable the FIFO.
+ //
+ HWREG(ulBase + UART_O_LCRH) |= UART_LCRH_FEN;
+}
+
+//*****************************************************************************
+//
+//! Disables the transmit and receive FIFOs.
+//!
+//! \param ulBase is the base address of the UART port.
+//!
+//! This functions disables the transmit and receive FIFOs in the UART.
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+UARTFIFODisable(unsigned long ulBase)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT(UARTBaseValid(ulBase));
+
+ //
+ // Disable the FIFO.
+ //
+ HWREG(ulBase + UART_O_LCRH) &= ~(UART_LCRH_FEN);
+}
+
+//*****************************************************************************
+//
+//! Sets the states of the RTS modem control signals.
+//!
+//! \param ulBase is the base address of the UART port.
+//! \param ulControl is a bit-mapped flag indicating which modem control bits
+//! should be set.
+//!
+//! This function sets the states of the RTS modem handshake outputs
+//! from the UART.
+//!
+//! The \e ulControl parameter is the logical OR of any of the following:
+//!
+//! - \b UART_OUTPUT_RTS - The Modem Control RTS signal
+//!
+//! \note The availability of hardware modem handshake signals varies with the
+//! part and UART in use. Please consult the datasheet for the part
+//! you are using to determine whether this support is available.
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+UARTModemControlSet(unsigned long ulBase, unsigned long ulControl)
+{
+ unsigned long ulTemp;
+
+ //
+ // Check the arguments.
+ //
+
+ ASSERT(ulBase == UARTA1_BASE);
+ ASSERT((ulControl & ~(UART_OUTPUT_RTS)) == 0);
+
+ //
+ // Set the appropriate modem control output bits.
+ //
+ ulTemp = HWREG(ulBase + UART_O_CTL);
+ ulTemp |= (ulControl & (UART_OUTPUT_RTS));
+ HWREG(ulBase + UART_O_CTL) = ulTemp;
+}
+
+//*****************************************************************************
+//
+//! Clears the states of the RTS modem control signals.
+//!
+//! \param ulBase is the base address of the UART port.
+//! \param ulControl is a bit-mapped flag indicating which modem control bits
+//! should be set.
+//!
+//! This function clears the states of the RTS modem handshake outputs
+//! from the UART.
+//!
+//! The \e ulControl parameter is the logical OR of any of the following:
+//!
+//! - \b UART_OUTPUT_RTS - The Modem Control RTS signal
+//!
+//! \note The availability of hardware modem handshake signals varies with the
+//! part and UART in use. Please consult the datasheet for the part
+//! you are using to determine whether this support is available.
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+UARTModemControlClear(unsigned long ulBase, unsigned long ulControl)
+{
+ unsigned long ulTemp;
+
+ //
+ // Check the arguments.
+ //
+ ASSERT(ulBase == UARTA1_BASE);
+ ASSERT((ulControl & ~(UART_OUTPUT_RTS)) == 0);
+
+ //
+ // Set the appropriate modem control output bits.
+ //
+ ulTemp = HWREG(ulBase + UART_O_CTL);
+ ulTemp &= ~(ulControl & (UART_OUTPUT_RTS));
+ HWREG(ulBase + UART_O_CTL) = ulTemp;
+}
+
+//*****************************************************************************
+//
+//! Gets the states of the RTS modem control signals.
+//!
+//! \param ulBase is the base address of the UART port.
+//!
+//! This function returns the current states of each of the UART modem
+//! control signal, RTS.
+//!
+//! \note The availability of hardware modem handshake signals varies with the
+//! part and UART in use. Please consult the datasheet for the part
+//! you are using to determine whether this support is available.
+//!
+//! \return Returns the states of the handshake output signal.
+//
+//*****************************************************************************
+unsigned long
+UARTModemControlGet(unsigned long ulBase)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT(ulBase == UARTA1_BASE);
+
+ return(HWREG(ulBase + UART_O_CTL) & (UART_OUTPUT_RTS));
+}
+
+//*****************************************************************************
+//
+//! Gets the states of the CTS modem status signal.
+//!
+//! \param ulBase is the base address of the UART port.
+//!
+//! This function returns the current states of the UART modem status signal,
+//! CTS.
+//!
+//! \note The availability of hardware modem handshake signals varies with the
+//! part and UART in use. Please consult the datasheet for the part
+//! you are using to determine whether this support is available.
+//!
+//! \return Returns the states of the handshake output signal
+//
+//*****************************************************************************
+unsigned long
+UARTModemStatusGet(unsigned long ulBase)
+{
+ //
+ // Check the arguments.
+ //
+
+ ASSERT(ulBase == UARTA1_BASE);
+
+ return(HWREG(ulBase + UART_O_FR) & (UART_INPUT_CTS));
+}
+
+//*****************************************************************************
+//
+//! Sets the UART hardware flow control mode to be used.
+//!
+//! \param ulBase is the base address of the UART port.
+//! \param ulMode indicates the flow control modes to be used. This parameter
+//! is a logical OR combination of values \b UART_FLOWCONTROL_TX and
+//! \b UART_FLOWCONTROL_RX to enable hardware transmit (CTS) and receive (RTS)
+//! flow control or \b UART_FLOWCONTROL_NONE to disable hardware flow control.
+//!
+//! This function sets the required hardware flow control modes. If \e ulMode
+//! contains flag \b UART_FLOWCONTROL_TX, data is only transmitted if the
+//! incoming CTS signal is asserted. If \e ulMode contains flag
+//! \b UART_FLOWCONTROL_RX, the RTS output is controlled by the hardware and is
+//! asserted only when there is space available in the receive FIFO. If no
+//! hardware flow control is required, \b UART_FLOWCONTROL_NONE should be
+//! passed.
+//!
+//! \note The availability of hardware flow control varies with the
+//! part and UART in use. Please consult the datasheet for the part you are
+//! using to determine whether this support is available.
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+UARTFlowControlSet(unsigned long ulBase, unsigned long ulMode)
+{
+ //
+ // Check the arguments.
+ //
+
+ ASSERT(UARTBaseValid(ulBase));
+ ASSERT((ulMode & ~(UART_FLOWCONTROL_TX | UART_FLOWCONTROL_RX)) == 0);
+
+ //
+ // Set the flow control mode as requested.
+ //
+ HWREG(ulBase + UART_O_CTL) = ((HWREG(ulBase + UART_O_CTL) &
+ ~(UART_FLOWCONTROL_TX |
+ UART_FLOWCONTROL_RX)) | ulMode);
+}
+
+//*****************************************************************************
+//
+//! Returns the UART hardware flow control mode currently in use.
+//!
+//! \param ulBase is the base address of the UART port.
+//!
+//! This function returns the current hardware flow control mode.
+//!
+//! \note The availability of hardware flow control varies with the
+//! part and UART in use. Please consult the datasheet for the part you are
+//! using to determine whether this support is available.
+//!
+//! \return Returns the current flow control mode in use. This is a
+//! logical OR combination of values \b UART_FLOWCONTROL_TX if transmit
+//! (CTS) flow control is enabled and \b UART_FLOWCONTROL_RX if receive (RTS)
+//! flow control is in use. If hardware flow control is disabled,
+//! \b UART_FLOWCONTROL_NONE is returned.
+//
+//*****************************************************************************
+unsigned long
+UARTFlowControlGet(unsigned long ulBase)
+{
+ //
+ // Check the arguments.
+ //
+
+ ASSERT(UARTBaseValid(ulBase));
+
+ return(HWREG(ulBase + UART_O_CTL) & (UART_FLOWCONTROL_TX |
+ UART_FLOWCONTROL_RX));
+}
+
+//*****************************************************************************
+//
+//! Sets the operating mode for the UART transmit interrupt.
+//!
+//! \param ulBase is the base address of the UART port.
+//! \param ulMode is the operating mode for the transmit interrupt. It may be
+//! \b UART_TXINT_MODE_EOT to trigger interrupts when the transmitter is idle
+//! or \b UART_TXINT_MODE_FIFO to trigger based on the current transmit FIFO
+//! level.
+//!
+//! This function allows the mode of the UART transmit interrupt to be set. By
+//! default, the transmit interrupt is asserted when the FIFO level falls past
+//! a threshold set via a call to UARTFIFOLevelSet(). Alternatively, if this
+//! function is called with \e ulMode set to \b UART_TXINT_MODE_EOT, the
+//! transmit interrupt is asserted once the transmitter is completely idle -
+//! the transmit FIFO is empty and all bits, including any stop bits, have
+//! cleared the transmitter.
+//!
+//! \note The availability of end-of-transmission mode varies with the
+//! part in use. Please consult the datasheet for the part you are
+//! using to determine whether this support is available.
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+UARTTxIntModeSet(unsigned long ulBase, unsigned long ulMode)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT(UARTBaseValid(ulBase));
+ ASSERT((ulMode == UART_TXINT_MODE_EOT) ||
+ (ulMode == UART_TXINT_MODE_FIFO));
+
+ //
+ // Set or clear the EOT bit of the UART control register as appropriate.
+ //
+ HWREG(ulBase + UART_O_CTL) = ((HWREG(ulBase + UART_O_CTL) &
+ ~(UART_TXINT_MODE_EOT |
+ UART_TXINT_MODE_FIFO)) | ulMode);
+}
+
+//*****************************************************************************
+//
+//! Returns the current operating mode for the UART transmit interrupt.
+//!
+//! \param ulBase is the base address of the UART port.
+//!
+//! This function returns the current operating mode for the UART transmit
+//! interrupt. The return value is \b UART_TXINT_MODE_EOT if the transmit
+//! interrupt is currently set to be asserted once the transmitter is
+//! completely idle - the transmit FIFO is empty and all bits, including any
+//! stop bits, have cleared the transmitter. The return value is
+//! \b UART_TXINT_MODE_FIFO if the interrupt is set to be asserted based upon
+//! the level of the transmit FIFO.
+//!
+//! \note The availability of end-of-transmission mode varies with the
+//! part in use. Please consult the datasheet for the part you are
+//! using to determine whether this support is available.
+//!
+//! \return Returns \b UART_TXINT_MODE_FIFO or \b UART_TXINT_MODE_EOT.
+//
+//*****************************************************************************
+unsigned long
+UARTTxIntModeGet(unsigned long ulBase)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT(UARTBaseValid(ulBase));
+
+ //
+ // Return the current transmit interrupt mode.
+ //
+ return(HWREG(ulBase + UART_O_CTL) & (UART_TXINT_MODE_EOT |
+ UART_TXINT_MODE_FIFO));
+}
+
+//*****************************************************************************
+//
+//! Determines if there are any characters in the receive FIFO.
+//!
+//! \param ulBase is the base address of the UART port.
+//!
+//! This function returns a flag indicating whether or not there is data
+//! available in the receive FIFO.
+//!
+//! \return Returns \b true if there is data in the receive FIFO or \b false
+//! if there is no data in the receive FIFO.
+//
+//*****************************************************************************
+tBoolean
+UARTCharsAvail(unsigned long ulBase)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT(UARTBaseValid(ulBase));
+
+ //
+ // Return the availability of characters.
+ //
+ return((HWREG(ulBase + UART_O_FR) & UART_FR_RXFE) ? false : true);
+}
+
+//*****************************************************************************
+//
+//! Determines if there is any space in the transmit FIFO.
+//!
+//! \param ulBase is the base address of the UART port.
+//!
+//! This function returns a flag indicating whether or not there is space
+//! available in the transmit FIFO.
+//!
+//! \return Returns \b true if there is space available in the transmit FIFO
+//! or \b false if there is no space available in the transmit FIFO.
+//
+//*****************************************************************************
+tBoolean
+UARTSpaceAvail(unsigned long ulBase)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT(UARTBaseValid(ulBase));
+
+ //
+ // Return the availability of space.
+ //
+ return((HWREG(ulBase + UART_O_FR) & UART_FR_TXFF) ? false : true);
+}
+
+//*****************************************************************************
+//
+//! Receives a character from the specified port.
+//!
+//! \param ulBase is the base address of the UART port.
+//!
+//! This function gets a character from the receive FIFO for the specified
+//! port.
+//!
+//!
+//! \return Returns the character read from the specified port, cast as a
+//! \e long. A \b -1 is returned if there are no characters present in the
+//! receive FIFO. The UARTCharsAvail() function should be called before
+//! attempting to call this function.
+//
+//*****************************************************************************
+long
+UARTCharGetNonBlocking(unsigned long ulBase)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT(UARTBaseValid(ulBase));
+
+ //
+ // See if there are any characters in the receive FIFO.
+ //
+ if(!(HWREG(ulBase + UART_O_FR) & UART_FR_RXFE))
+ {
+ //
+ // Read and return the next character.
+ //
+ return(HWREG(ulBase + UART_O_DR));
+ }
+ else
+ {
+ //
+ // There are no characters, so return a failure.
+ //
+ return(-1);
+ }
+}
+
+//*****************************************************************************
+//
+//! Waits for a character from the specified port.
+//!
+//! \param ulBase is the base address of the UART port.
+//!
+//! This function gets a character from the receive FIFO for the specified
+//! port. If there are no characters available, this function waits until a
+//! character is received before returning.
+//!
+//! \return Returns the character read from the specified port, cast as a
+//! \e long.
+//
+//*****************************************************************************
+long
+UARTCharGet(unsigned long ulBase)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT(UARTBaseValid(ulBase));
+
+ //
+ // Wait until a char is available.
+ //
+ while(HWREG(ulBase + UART_O_FR) & UART_FR_RXFE)
+ {
+ }
+
+ //
+ // Now get the char.
+ //
+ return(HWREG(ulBase + UART_O_DR));
+}
+
+//*****************************************************************************
+//
+//! Sends a character to the specified port.
+//!
+//! \param ulBase is the base address of the UART port.
+//! \param ucData is the character to be transmitted.
+//!
+//! This function writes the character \e ucData to the transmit FIFO for the
+//! specified port. This function does not block, so if there is no space
+//! available, then a \b false is returned, and the application must retry the
+//! function later.
+//!
+//! \return Returns \b true if the character was successfully placed in the
+//! transmit FIFO or \b false if there was no space available in the transmit
+//! FIFO.
+//
+//*****************************************************************************
+tBoolean
+UARTCharPutNonBlocking(unsigned long ulBase, unsigned char ucData)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT(UARTBaseValid(ulBase));
+
+ //
+ // See if there is space in the transmit FIFO.
+ //
+ if(!(HWREG(ulBase + UART_O_FR) & UART_FR_TXFF))
+ {
+ //
+ // Write this character to the transmit FIFO.
+ //
+ HWREG(ulBase + UART_O_DR) = ucData;
+
+ //
+ // Success.
+ //
+ return(true);
+ }
+ else
+ {
+ //
+ // There is no space in the transmit FIFO, so return a failure.
+ //
+ return(false);
+ }
+}
+
+//*****************************************************************************
+//
+//! Waits to send a character from the specified port.
+//!
+//! \param ulBase is the base address of the UART port.
+//! \param ucData is the character to be transmitted.
+//!
+//! This function sends the character \e ucData to the transmit FIFO for the
+//! specified port. If there is no space available in the transmit FIFO, this
+//! function waits until there is space available before returning.
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+UARTCharPut(unsigned long ulBase, unsigned char ucData)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT(UARTBaseValid(ulBase));
+
+ //
+ // Wait until space is available.
+ //
+ while(HWREG(ulBase + UART_O_FR) & UART_FR_TXFF)
+ {
+ }
+
+ //
+ // Send the char.
+ //
+ HWREG(ulBase + UART_O_DR) = ucData;
+}
+
+//*****************************************************************************
+//
+//! Causes a BREAK to be sent.
+//!
+//! \param ulBase is the base address of the UART port.
+//! \param bBreakState controls the output level.
+//!
+//! Calling this function with \e bBreakState set to \b true asserts a break
+//! condition on the UART. Calling this function with \e bBreakState set to
+//! \b false removes the break condition. For proper transmission of a break
+//! command, the break must be asserted for at least two complete frames.
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+UARTBreakCtl(unsigned long ulBase, tBoolean bBreakState)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT(UARTBaseValid(ulBase));
+
+ //
+ // Set the break condition as requested.
+ //
+ HWREG(ulBase + UART_O_LCRH) =
+ (bBreakState ?
+ (HWREG(ulBase + UART_O_LCRH) | UART_LCRH_BRK) :
+ (HWREG(ulBase + UART_O_LCRH) & ~(UART_LCRH_BRK)));
+}
+
+//*****************************************************************************
+//
+//! Determines whether the UART transmitter is busy or not.
+//!
+//! \param ulBase is the base address of the UART port.
+//!
+//! Allows the caller to determine whether all transmitted bytes have cleared
+//! the transmitter hardware. If \b false is returned, the transmit FIFO is
+//! empty and all bits of the last transmitted character, including all stop
+//! bits, have left the hardware shift register.
+//!
+//! \return Returns \b true if the UART is transmitting or \b false if all
+//! transmissions are complete.
+//
+//*****************************************************************************
+tBoolean
+UARTBusy(unsigned long ulBase)
+{
+ //
+ // Check the argument.
+ //
+ ASSERT(UARTBaseValid(ulBase));
+
+ //
+ // Determine if the UART is busy.
+ //
+ return((HWREG(ulBase + UART_O_FR) & UART_FR_BUSY) ? true : false);
+}
+
+//*****************************************************************************
+//
+//! Registers an interrupt handler for a UART interrupt.
+//!
+//! \param ulBase is the base address of the UART port.
+//! \param pfnHandler is a pointer to the function to be called when the
+//! UART interrupt occurs.
+//!
+//! This function does the actual registering of the interrupt handler. This
+//! function enables the global interrupt in the interrupt controller; specific
+//! UART interrupts must be enabled via UARTIntEnable(). It is the interrupt
+//! handler's responsibility to clear the interrupt source.
+//!
+//! \sa IntRegister() for important information about registering interrupt
+//! handlers.
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+UARTIntRegister(unsigned long ulBase, void (*pfnHandler)(void))
+{
+ unsigned long ulInt;
+
+ //
+ // Check the arguments.
+ //
+ ASSERT(UARTBaseValid(ulBase));
+
+ //
+ // Determine the interrupt number based on the UART port.
+ //
+#if 1
+ ulInt = UARTIntNumberGet(ulBase);
+#else
+
+ ulInt = ((ulBase == UART0_BASE) ? INT_UART0 :
+ ((ulBase == UART1_BASE) ? INT_UART1 : INT_UART2));
+#endif
+
+ //
+ // Register the interrupt handler.
+ //
+ IntRegister(ulInt, pfnHandler);
+
+ //
+ // Enable the UART interrupt.
+ //
+ IntEnable(ulInt);
+}
+
+//*****************************************************************************
+//
+//! Unregisters an interrupt handler for a UART interrupt.
+//!
+//! \param ulBase is the base address of the UART port.
+//!
+//! This function does the actual unregistering of the interrupt handler. It
+//! clears the handler to be called when a UART interrupt occurs. This
+//! function also masks off the interrupt in the interrupt controller so that
+//! the interrupt handler no longer is called.
+//!
+//! \sa IntRegister() for important information about registering interrupt
+//! handlers.
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+UARTIntUnregister(unsigned long ulBase)
+{
+ unsigned long ulInt;
+
+ //
+ // Check the arguments.
+ //
+ ASSERT(UARTBaseValid(ulBase));
+
+ //
+ // Determine the interrupt number based on the UART port.
+ //
+#if 1
+ ulInt = UARTIntNumberGet(ulBase);
+#else
+ ulInt = ((ulBase == UART0_BASE) ? INT_UART0 :
+ ((ulBase == UART1_BASE) ? INT_UART1 : INT_UART2));
+#endif
+
+ //
+ // Disable the interrupt.
+ //
+ IntDisable(ulInt);
+
+ //
+ // Unregister the interrupt handler.
+ //
+ IntUnregister(ulInt);
+}
+
+//*****************************************************************************
+//
+//! Enables individual UART interrupt sources.
+//!
+//! \param ulBase is the base address of the UART port.
+//! \param ulIntFlags is the bit mask of the interrupt sources to be enabled.
+//!
+//! This function enables the indicated UART interrupt sources. Only the
+//! sources that are enabled can be reflected to the processor interrupt;
+//! disabled sources have no effect on the processor.
+//!
+//! The \e ulIntFlags parameter is the logical OR of any of the following:
+//!
+//! - \b UART_INT_OE - Overrun Error interrupt
+//! - \b UART_INT_BE - Break Error interrupt
+//! - \b UART_INT_PE - Parity Error interrupt
+//! - \b UART_INT_FE - Framing Error interrupt
+//! - \b UART_INT_RT - Receive Timeout interrupt
+//! - \b UART_INT_TX - Transmit interrupt
+//! - \b UART_INT_RX - Receive interrupt
+//! - \b UART_INT_CTS - CTS interrupt
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+UARTIntEnable(unsigned long ulBase, unsigned long ulIntFlags)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT(UARTBaseValid(ulBase));
+
+ //
+ // Enable the specified interrupts.
+ //
+ HWREG(ulBase + UART_O_IM) |= ulIntFlags;
+}
+
+//*****************************************************************************
+//
+//! Disables individual UART interrupt sources.
+//!
+//! \param ulBase is the base address of the UART port.
+//! \param ulIntFlags is the bit mask of the interrupt sources to be disabled.
+//!
+//! This function disables the indicated UART interrupt sources. Only the
+//! sources that are enabled can be reflected to the processor interrupt;
+//! disabled sources have no effect on the processor.
+//!
+//! The \e ulIntFlags parameter has the same definition as the \e ulIntFlags
+//! parameter to UARTIntEnable().
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+UARTIntDisable(unsigned long ulBase, unsigned long ulIntFlags)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT(UARTBaseValid(ulBase));
+
+ //
+ // Disable the specified interrupts.
+ //
+ HWREG(ulBase + UART_O_IM) &= ~(ulIntFlags);
+}
+
+//*****************************************************************************
+//
+//! Gets the current interrupt status.
+//!
+//! \param ulBase is the base address of the UART port.
+//! \param bMasked is \b false if the raw interrupt status is required and
+//! \b true if the masked interrupt status is required.
+//!
+//! This function returns the interrupt status for the specified UART. Either
+//! the raw interrupt status or the status of interrupts that are allowed to
+//! reflect to the processor can be returned.
+//!
+//! \return Returns the current interrupt status, enumerated as a bit field of
+//! values described in UARTIntEnable().
+//
+//*****************************************************************************
+unsigned long
+UARTIntStatus(unsigned long ulBase, tBoolean bMasked)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT(UARTBaseValid(ulBase));
+
+ //
+ // Return either the interrupt status or the raw interrupt status as
+ // requested.
+ //
+ if(bMasked)
+ {
+ return(HWREG(ulBase + UART_O_MIS));
+ }
+ else
+ {
+ return(HWREG(ulBase + UART_O_RIS));
+ }
+}
+
+//*****************************************************************************
+//
+//! Clears UART interrupt sources.
+//!
+//! \param ulBase is the base address of the UART port.
+//! \param ulIntFlags is a bit mask of the interrupt sources to be cleared.
+//!
+//! The specified UART interrupt sources are cleared, so that they no longer
+//! assert. This function must be called in the interrupt handler to keep the
+//! interrupt from being recognized again immediately upon exit.
+//!
+//! The \e ulIntFlags parameter has the same definition as the \e ulIntFlags
+//! parameter to UARTIntEnable().
+//!
+//! \note Because there is a write buffer in the Cortex-M3 processor, it may
+//! take several clock cycles before the interrupt source is actually cleared.
+//! Therefore, it is recommended that the interrupt source be cleared early in
+//! the interrupt handler (as opposed to the very last action) to avoid
+//! returning from the interrupt handler before the interrupt source is
+//! actually cleared. Failure to do so may result in the interrupt handler
+//! being immediately reentered (because the interrupt controller still sees
+//! the interrupt source asserted).
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+UARTIntClear(unsigned long ulBase, unsigned long ulIntFlags)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT(UARTBaseValid(ulBase));
+
+ //
+ // Clear the requested interrupt sources.
+ //
+ HWREG(ulBase + UART_O_ICR) = ulIntFlags;
+}
+
+//*****************************************************************************
+//
+//! Enable UART DMA operation.
+//!
+//! \param ulBase is the base address of the UART port.
+//! \param ulDMAFlags is a bit mask of the DMA features to enable.
+//!
+//! The specified UART DMA features are enabled. The UART can be
+//! configured to use DMA for transmit or receive, and to disable
+//! receive if an error occurs. The \e ulDMAFlags parameter is the
+//! logical OR of any of the following values:
+//!
+//! - UART_DMA_RX - enable DMA for receive
+//! - UART_DMA_TX - enable DMA for transmit
+//! - UART_DMA_ERR_RXSTOP - disable DMA receive on UART error
+//!
+//! \note The uDMA controller must also be set up before DMA can be used
+//! with the UART.
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+UARTDMAEnable(unsigned long ulBase, unsigned long ulDMAFlags)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT(UARTBaseValid(ulBase));
+
+ //
+ // Set the requested bits in the UART DMA control register.
+ //
+ HWREG(ulBase + UART_O_DMACTL) |= ulDMAFlags;
+}
+
+//*****************************************************************************
+//
+//! Disable UART DMA operation.
+//!
+//! \param ulBase is the base address of the UART port.
+//! \param ulDMAFlags is a bit mask of the DMA features to disable.
+//!
+//! This function is used to disable UART DMA features that were enabled
+//! by UARTDMAEnable(). The specified UART DMA features are disabled. The
+//! \e ulDMAFlags parameter is the logical OR of any of the following values:
+//!
+//! - UART_DMA_RX - disable DMA for receive
+//! - UART_DMA_TX - disable DMA for transmit
+//! - UART_DMA_ERR_RXSTOP - do not disable DMA receive on UART error
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+UARTDMADisable(unsigned long ulBase, unsigned long ulDMAFlags)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT(UARTBaseValid(ulBase));
+
+ //
+ // Clear the requested bits in the UART DMA control register.
+ //
+ HWREG(ulBase + UART_O_DMACTL) &= ~ulDMAFlags;
+}
+
+//*****************************************************************************
+//
+//! Gets current receiver errors.
+//!
+//! \param ulBase is the base address of the UART port.
+//!
+//! This function returns the current state of each of the 4 receiver error
+//! sources. The returned errors are equivalent to the four error bits
+//! returned via the previous call to UARTCharGet() or UARTCharGetNonBlocking()
+//! with the exception that the overrun error is set immediately the overrun
+//! occurs rather than when a character is next read.
+//!
+//! \return Returns a logical OR combination of the receiver error flags,
+//! \b UART_RXERROR_FRAMING, \b UART_RXERROR_PARITY, \b UART_RXERROR_BREAK
+//! and \b UART_RXERROR_OVERRUN.
+//
+//*****************************************************************************
+unsigned long
+UARTRxErrorGet(unsigned long ulBase)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT(UARTBaseValid(ulBase));
+
+ //
+ // Return the current value of the receive status register.
+ //
+ return(HWREG(ulBase + UART_O_RSR) & 0x0000000F);
+}
+
+//*****************************************************************************
+//
+//! Clears all reported receiver errors.
+//!
+//! \param ulBase is the base address of the UART port.
+//!
+//! This function is used to clear all receiver error conditions reported via
+//! UARTRxErrorGet(). If using the overrun, framing error, parity error or
+//! break interrupts, this function must be called after clearing the interrupt
+//! to ensure that later errors of the same type trigger another interrupt.
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+UARTRxErrorClear(unsigned long ulBase)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT(UARTBaseValid(ulBase));
+
+ //
+ // Any write to the Error Clear Register will clear all bits which are
+ // currently set.
+ //
+ HWREG(ulBase + UART_O_ECR) = 0;
+}
+
+//*****************************************************************************
+//
+// Close the Doxygen group.
+//! @}
+//
+//*****************************************************************************
diff --git a/cc3200/hal/uart.h b/cc3200/hal/uart.h
new file mode 100644
index 000000000..503cd2c9e
--- /dev/null
+++ b/cc3200/hal/uart.h
@@ -0,0 +1,234 @@
+//*****************************************************************************
+//
+// uart.h
+//
+// Defines and Macros for the UART.
+//
+// Copyright (C) 2014 Texas Instruments Incorporated - http://www.ti.com/
+//
+//
+// Redistribution and use in source and binary forms, with or without
+// modification, are permitted provided that the following conditions
+// are met:
+//
+// Redistributions of source code must retain the above copyright
+// notice, this list of conditions and the following disclaimer.
+//
+// Redistributions in binary form must reproduce the above copyright
+// notice, this list of conditions and the following disclaimer in the
+// documentation and/or other materials provided with the
+// distribution.
+//
+// Neither the name of Texas Instruments Incorporated nor the names of
+// its contributors may be used to endorse or promote products derived
+// from this software without specific prior written permission.
+//
+// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
+// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
+// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
+// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
+// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
+// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
+// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
+// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
+// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
+// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
+// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+//
+//*****************************************************************************
+
+#ifndef __UART_H__
+#define __UART_H__
+
+//*****************************************************************************
+//
+// If building with a C++ compiler, make all of the definitions in this header
+// have a C binding.
+//
+//*****************************************************************************
+#ifdef __cplusplus
+extern "C"
+{
+#endif
+
+//*****************************************************************************
+//
+// Values that can be passed to UARTIntEnable, UARTIntDisable, and UARTIntClear
+// as the ulIntFlags parameter, and returned from UARTIntStatus.
+//
+//*****************************************************************************
+#define UART_INT_DMATX 0x20000 // DMA Tx Done interrupt Mask
+#define UART_INT_DMARX 0x10000 // DMA Rx Done interrupt Mask
+#define UART_INT_EOT 0x800 // End of transfer interrupt Mask
+#define UART_INT_OE 0x400 // Overrun Error Interrupt Mask
+#define UART_INT_BE 0x200 // Break Error Interrupt Mask
+#define UART_INT_PE 0x100 // Parity Error Interrupt Mask
+#define UART_INT_FE 0x080 // Framing Error Interrupt Mask
+#define UART_INT_RT 0x040 // Receive Timeout Interrupt Mask
+#define UART_INT_TX 0x020 // Transmit Interrupt Mask
+#define UART_INT_RX 0x010 // Receive Interrupt Mask
+#define UART_INT_CTS 0x002 // CTS Modem Interrupt Mask
+
+
+//*****************************************************************************
+//
+// Values that can be passed to UARTConfigSetExpClk as the ulConfig parameter
+// and returned by UARTConfigGetExpClk in the pulConfig parameter.
+// Additionally, the UART_CONFIG_PAR_* subset can be passed to
+// UARTParityModeSet as the ulParity parameter, and are returned by
+// UARTParityModeGet.
+//
+//*****************************************************************************
+#define UART_CONFIG_WLEN_MASK 0x00000060 // Mask for extracting word length
+#define UART_CONFIG_WLEN_8 0x00000060 // 8 bit data
+#define UART_CONFIG_WLEN_7 0x00000040 // 7 bit data
+#define UART_CONFIG_WLEN_6 0x00000020 // 6 bit data
+#define UART_CONFIG_WLEN_5 0x00000000 // 5 bit data
+#define UART_CONFIG_STOP_MASK 0x00000008 // Mask for extracting stop bits
+#define UART_CONFIG_STOP_ONE 0x00000000 // One stop bit
+#define UART_CONFIG_STOP_TWO 0x00000008 // Two stop bits
+#define UART_CONFIG_PAR_MASK 0x00000086 // Mask for extracting parity
+#define UART_CONFIG_PAR_NONE 0x00000000 // No parity
+#define UART_CONFIG_PAR_EVEN 0x00000006 // Even parity
+#define UART_CONFIG_PAR_ODD 0x00000002 // Odd parity
+#define UART_CONFIG_PAR_ONE 0x00000082 // Parity bit is one
+#define UART_CONFIG_PAR_ZERO 0x00000086 // Parity bit is zero
+
+//*****************************************************************************
+//
+// Values that can be passed to UARTFIFOLevelSet as the ulTxLevel parameter and
+// returned by UARTFIFOLevelGet in the pulTxLevel.
+//
+//*****************************************************************************
+#define UART_FIFO_TX1_8 0x00000000 // Transmit interrupt at 1/8 Full
+#define UART_FIFO_TX2_8 0x00000001 // Transmit interrupt at 1/4 Full
+#define UART_FIFO_TX4_8 0x00000002 // Transmit interrupt at 1/2 Full
+#define UART_FIFO_TX6_8 0x00000003 // Transmit interrupt at 3/4 Full
+#define UART_FIFO_TX7_8 0x00000004 // Transmit interrupt at 7/8 Full
+
+//*****************************************************************************
+//
+// Values that can be passed to UARTFIFOLevelSet as the ulRxLevel parameter and
+// returned by UARTFIFOLevelGet in the pulRxLevel.
+//
+//*****************************************************************************
+#define UART_FIFO_RX1_8 0x00000000 // Receive interrupt at 1/8 Full
+#define UART_FIFO_RX2_8 0x00000008 // Receive interrupt at 1/4 Full
+#define UART_FIFO_RX4_8 0x00000010 // Receive interrupt at 1/2 Full
+#define UART_FIFO_RX6_8 0x00000018 // Receive interrupt at 3/4 Full
+#define UART_FIFO_RX7_8 0x00000020 // Receive interrupt at 7/8 Full
+
+//*****************************************************************************
+//
+// Values that can be passed to UARTDMAEnable() and UARTDMADisable().
+//
+//*****************************************************************************
+#define UART_DMA_ERR_RXSTOP 0x00000004 // Stop DMA receive if UART error
+#define UART_DMA_TX 0x00000002 // Enable DMA for transmit
+#define UART_DMA_RX 0x00000001 // Enable DMA for receive
+
+//*****************************************************************************
+//
+// Values returned from UARTRxErrorGet().
+//
+//*****************************************************************************
+#define UART_RXERROR_OVERRUN 0x00000008
+#define UART_RXERROR_BREAK 0x00000004
+#define UART_RXERROR_PARITY 0x00000002
+#define UART_RXERROR_FRAMING 0x00000001
+
+//*****************************************************************************
+//
+// Values that can be passed to UARTModemControlSet()and UARTModemControlClear()
+// or returned from UARTModemControlGet().
+//
+//*****************************************************************************
+#define UART_OUTPUT_RTS 0x00000800
+
+//*****************************************************************************
+//
+// Values that can be returned from UARTModemStatusGet().
+//
+//*****************************************************************************
+#define UART_INPUT_CTS 0x00000001
+
+//*****************************************************************************
+//
+// Values that can be passed to UARTFlowControl() or returned from
+// UARTFlowControlGet().
+//
+//*****************************************************************************
+#define UART_FLOWCONTROL_TX 0x00008000
+#define UART_FLOWCONTROL_RX 0x00004000
+#define UART_FLOWCONTROL_NONE 0x00000000
+
+//*****************************************************************************
+//
+// Values that can be passed to UARTTxIntModeSet() or returned from
+// UARTTxIntModeGet().
+//
+//*****************************************************************************
+#define UART_TXINT_MODE_FIFO 0x00000000
+#define UART_TXINT_MODE_EOT 0x00000010
+
+
+//*****************************************************************************
+//
+// API Function prototypes
+//
+//*****************************************************************************
+extern void UARTParityModeSet(unsigned long ulBase, unsigned long ulParity);
+extern unsigned long UARTParityModeGet(unsigned long ulBase);
+extern void UARTFIFOLevelSet(unsigned long ulBase, unsigned long ulTxLevel,
+ unsigned long ulRxLevel);
+extern void UARTFIFOLevelGet(unsigned long ulBase, unsigned long *pulTxLevel,
+ unsigned long *pulRxLevel);
+extern void UARTConfigSetExpClk(unsigned long ulBase, unsigned long ulUARTClk,
+ unsigned long ulBaud, unsigned long ulConfig);
+extern void UARTConfigGetExpClk(unsigned long ulBase, unsigned long ulUARTClk,
+ unsigned long *pulBaud,
+ unsigned long *pulConfig);
+extern void UARTEnable(unsigned long ulBase);
+extern void UARTDisable(unsigned long ulBase);
+extern void UARTFIFOEnable(unsigned long ulBase);
+extern void UARTFIFODisable(unsigned long ulBase);
+extern tBoolean UARTCharsAvail(unsigned long ulBase);
+extern tBoolean UARTSpaceAvail(unsigned long ulBase);
+extern long UARTCharGetNonBlocking(unsigned long ulBase);
+extern long UARTCharGet(unsigned long ulBase);
+extern tBoolean UARTCharPutNonBlocking(unsigned long ulBase,
+ unsigned char ucData);
+extern void UARTCharPut(unsigned long ulBase, unsigned char ucData);
+extern void UARTBreakCtl(unsigned long ulBase, tBoolean bBreakState);
+extern tBoolean UARTBusy(unsigned long ulBase);
+extern void UARTIntRegister(unsigned long ulBase, void(*pfnHandler)(void));
+extern void UARTIntUnregister(unsigned long ulBase);
+extern void UARTIntEnable(unsigned long ulBase, unsigned long ulIntFlags);
+extern void UARTIntDisable(unsigned long ulBase, unsigned long ulIntFlags);
+extern unsigned long UARTIntStatus(unsigned long ulBase, tBoolean bMasked);
+extern void UARTIntClear(unsigned long ulBase, unsigned long ulIntFlags);
+extern void UARTDMAEnable(unsigned long ulBase, unsigned long ulDMAFlags);
+extern void UARTDMADisable(unsigned long ulBase, unsigned long ulDMAFlags);
+extern unsigned long UARTRxErrorGet(unsigned long ulBase);
+extern void UARTRxErrorClear(unsigned long ulBase);
+extern void UARTModemControlSet(unsigned long ulBase,
+ unsigned long ulControl);
+extern void UARTModemControlClear(unsigned long ulBase,
+ unsigned long ulControl);
+extern unsigned long UARTModemControlGet(unsigned long ulBase);
+extern unsigned long UARTModemStatusGet(unsigned long ulBase);
+extern void UARTFlowControlSet(unsigned long ulBase, unsigned long ulMode);
+extern unsigned long UARTFlowControlGet(unsigned long ulBase);
+extern void UARTTxIntModeSet(unsigned long ulBase, unsigned long ulMode);
+extern unsigned long UARTTxIntModeGet(unsigned long ulBase);
+
+//*****************************************************************************
+//
+// Mark the end of the C bindings section for C++ compilers.
+//
+//*****************************************************************************
+#ifdef __cplusplus
+}
+#endif
+
+#endif // __UART_H__
diff --git a/cc3200/hal/utils.c b/cc3200/hal/utils.c
new file mode 100644
index 000000000..d0b13d7bf
--- /dev/null
+++ b/cc3200/hal/utils.c
@@ -0,0 +1,104 @@
+//*****************************************************************************
+//
+// utils.c
+//
+// Utility APIs
+//
+// Copyright (C) 2014 Texas Instruments Incorporated - http://www.ti.com/
+//
+//
+// Redistribution and use in source and binary forms, with or without
+// modification, are permitted provided that the following conditions
+// are met:
+//
+// Redistributions of source code must retain the above copyright
+// notice, this list of conditions and the following disclaimer.
+//
+// Redistributions in binary form must reproduce the above copyright
+// notice, this list of conditions and the following disclaimer in the
+// documentation and/or other materials provided with the
+// distribution.
+//
+// Neither the name of Texas Instruments Incorporated nor the names of
+// its contributors may be used to endorse or promote products derived
+// from this software without specific prior written permission.
+//
+// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
+// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
+// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
+// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
+// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
+// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
+// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
+// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
+// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
+// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
+// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+//
+//*****************************************************************************
+
+//*****************************************************************************
+//
+//! \addtogroup Utils_api
+//! @{
+//
+//*****************************************************************************
+#include "utils.h"
+
+
+//*****************************************************************************
+//
+//! Provides a small delay.
+//!
+//! \param ulCount is the number of delay loop iterations to perform.
+//!
+//! This function provides a means of generating a constant length delay. It
+//! is written in assembly to keep the delay consistent across tool chains,
+//! avoiding the need to tune the delay based on the tool chain in use.
+//!
+//! The loop takes 3 cycles/loop.
+//!
+//! \return None.
+//
+//*****************************************************************************
+#if defined(ewarm) || defined(DOXYGEN)
+void
+UtilsDelay(unsigned long ulCount)
+{
+ __asm(" subs r0, #1\n"
+ " bne.n UtilsDelay\n");
+}
+#endif
+
+#if defined(gcc)
+void __attribute__((naked))
+UtilsDelay(unsigned long ulCount)
+{
+ __asm(" subs r0, #1\n"
+ " bne UtilsDelay\n"
+ " bx lr");
+}
+#endif
+
+//
+// For CCS implement this function in pure assembly. This prevents the TI
+// compiler from doing funny things with the optimizer.
+//
+#if defined(ccs)
+ __asm(" .sect \".text:UtilsDelay\"\n"
+ " .clink\n"
+ " .thumbfunc UtilsDelay\n"
+ " .thumb\n"
+ " .global UtilsDelay\n"
+ "UtilsDelay:\n"
+ " subs r0, #1\n"
+ " bne.n UtilsDelay\n"
+ " bx lr\n");
+#endif
+
+//*****************************************************************************
+//
+// Close the Doxygen group.
+//! @}
+//
+//*****************************************************************************
diff --git a/cc3200/hal/utils.h b/cc3200/hal/utils.h
new file mode 100644
index 000000000..a6fa78dac
--- /dev/null
+++ b/cc3200/hal/utils.h
@@ -0,0 +1,71 @@
+//*****************************************************************************
+//
+// utils.h
+//
+// Prototypes and macros for utility APIs
+//
+// Copyright (C) 2014 Texas Instruments Incorporated - http://www.ti.com/
+//
+//
+// Redistribution and use in source and binary forms, with or without
+// modification, are permitted provided that the following conditions
+// are met:
+//
+// Redistributions of source code must retain the above copyright
+// notice, this list of conditions and the following disclaimer.
+//
+// Redistributions in binary form must reproduce the above copyright
+// notice, this list of conditions and the following disclaimer in the
+// documentation and/or other materials provided with the
+// distribution.
+//
+// Neither the name of Texas Instruments Incorporated nor the names of
+// its contributors may be used to endorse or promote products derived
+// from this software without specific prior written permission.
+//
+// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
+// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
+// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
+// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
+// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
+// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
+// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
+// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
+// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
+// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
+// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+//
+//*****************************************************************************
+
+#ifndef __UTILS_H__
+#define __UTILS_H__
+
+//*****************************************************************************
+//
+// If building with a C++ compiler, make all of the definitions in this header
+// have a C binding.
+//
+//*****************************************************************************
+#ifdef __cplusplus
+extern "C"
+{
+#endif
+
+//*****************************************************************************
+//
+// API Function prototypes
+//
+//*****************************************************************************
+extern void UtilsDelay(unsigned long ulCount);
+
+
+//*****************************************************************************
+//
+// Mark the end of the C bindings section for C++ compilers.
+//
+//*****************************************************************************
+#ifdef __cplusplus
+}
+#endif
+
+#endif //__UTILS_H__
diff --git a/cc3200/hal/wdt.c b/cc3200/hal/wdt.c
new file mode 100644
index 000000000..8d8a9e9df
--- /dev/null
+++ b/cc3200/hal/wdt.c
@@ -0,0 +1,491 @@
+//*****************************************************************************
+//
+// wdt.c
+//
+// Driver for the Watchdog Timer Module.
+//
+// Copyright (C) 2014 Texas Instruments Incorporated - http://www.ti.com/
+//
+//
+// Redistribution and use in source and binary forms, with or without
+// modification, are permitted provided that the following conditions
+// are met:
+//
+// Redistributions of source code must retain the above copyright
+// notice, this list of conditions and the following disclaimer.
+//
+// Redistributions in binary form must reproduce the above copyright
+// notice, this list of conditions and the following disclaimer in the
+// documentation and/or other materials provided with the
+// distribution.
+//
+// Neither the name of Texas Instruments Incorporated nor the names of
+// its contributors may be used to endorse or promote products derived
+// from this software without specific prior written permission.
+//
+// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
+// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
+// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
+// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
+// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
+// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
+// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
+// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
+// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
+// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
+// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+//
+//*****************************************************************************
+
+//*****************************************************************************
+//
+//! \addtogroup WDT_Watchdog_Timer_api
+//! @{
+//
+//*****************************************************************************
+
+#include "inc/hw_ints.h"
+#include "inc/hw_memmap.h"
+#include "inc/hw_types.h"
+#include "inc/hw_wdt.h"
+#include "debug.h"
+#include "interrupt.h"
+#include "wdt.h"
+
+//*****************************************************************************
+//
+//! Determines if the watchdog timer is enabled.
+//!
+//! \param ulBase is the base address of the watchdog timer module.
+//!
+//! This will check to see if the watchdog timer is enabled.
+//!
+//! \return Returns \b true if the watchdog timer is enabled, and \b false
+//! if it is not.
+//
+//*****************************************************************************
+tBoolean
+WatchdogRunning(unsigned long ulBase)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT((ulBase == WDT_BASE));
+
+ //
+ // See if the watchdog timer module is enabled, and return.
+ //
+ return(HWREG(ulBase + WDT_O_CTL) & WDT_CTL_INTEN);
+}
+
+//*****************************************************************************
+//
+//! Enables the watchdog timer.
+//!
+//! \param ulBase is the base address of the watchdog timer module.
+//!
+//! This will enable the watchdog timer counter and interrupt.
+//!
+//! \note This function will have no effect if the watchdog timer has
+//! been locked.
+//!
+//! \sa WatchdogLock(), WatchdogUnlock()
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+WatchdogEnable(unsigned long ulBase)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT((ulBase == WDT_BASE));
+
+ //
+ // Enable the watchdog timer module.
+ //
+ HWREG(ulBase + WDT_O_CTL) |= WDT_CTL_INTEN;
+}
+
+//*****************************************************************************
+//
+//! Enables the watchdog timer lock mechanism.
+//!
+//! \param ulBase is the base address of the watchdog timer module.
+//!
+//! Locks out write access to the watchdog timer configuration registers.
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+WatchdogLock(unsigned long ulBase)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT((ulBase == WDT_BASE));
+
+ //
+ // Lock out watchdog register writes. Writing anything to the WDT_O_LOCK
+ // register causes the lock to go into effect.
+ //
+ HWREG(ulBase + WDT_O_LOCK) = WDT_LOCK_LOCKED;
+}
+
+//*****************************************************************************
+//
+//! Disables the watchdog timer lock mechanism.
+//!
+//! \param ulBase is the base address of the watchdog timer module.
+//!
+//! Enables write access to the watchdog timer configuration registers.
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+WatchdogUnlock(unsigned long ulBase)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT((ulBase == WDT_BASE));
+
+ //
+ // Unlock watchdog register writes.
+ //
+ HWREG(ulBase + WDT_O_LOCK) = WDT_LOCK_UNLOCK;
+}
+
+//*****************************************************************************
+//
+//! Gets the state of the watchdog timer lock mechanism.
+//!
+//! \param ulBase is the base address of the watchdog timer module.
+//!
+//! Returns the lock state of the watchdog timer registers.
+//!
+//! \return Returns \b true if the watchdog timer registers are locked, and
+//! \b false if they are not locked.
+//
+//*****************************************************************************
+tBoolean
+WatchdogLockState(unsigned long ulBase)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT((ulBase == WDT_BASE));
+
+ //
+ // Get the lock state.
+ //
+ return((HWREG(ulBase + WDT_O_LOCK) == WDT_LOCK_LOCKED) ? true : false);
+}
+
+//*****************************************************************************
+//
+//! Sets the watchdog timer reload value.
+//!
+//! \param ulBase is the base address of the watchdog timer module.
+//! \param ulLoadVal is the load value for the watchdog timer.
+//!
+//! This function sets the value to load into the watchdog timer when the count
+//! reaches zero for the first time; if the watchdog timer is running when this
+//! function is called, then the value will be immediately loaded into the
+//! watchdog timer counter. If the \e ulLoadVal parameter is 0, then an
+//! interrupt is immediately generated.
+//!
+//! \note This function will have no effect if the watchdog timer has
+//! been locked.
+//!
+//! \sa WatchdogLock(), WatchdogUnlock(), WatchdogReloadGet()
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+WatchdogReloadSet(unsigned long ulBase, unsigned long ulLoadVal)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT((ulBase == WDT_BASE));
+
+ //
+ // Set the load register.
+ //
+ HWREG(ulBase + WDT_O_LOAD) = ulLoadVal;
+}
+
+//*****************************************************************************
+//
+//! Gets the watchdog timer reload value.
+//!
+//! \param ulBase is the base address of the watchdog timer module.
+//!
+//! This function gets the value that is loaded into the watchdog timer when
+//! the count reaches zero for the first time.
+//!
+//! \sa WatchdogReloadSet()
+//!
+//! \return None.
+//
+//*****************************************************************************
+unsigned long
+WatchdogReloadGet(unsigned long ulBase)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT((ulBase == WDT_BASE));
+
+ //
+ // Get the load register.
+ //
+ return(HWREG(ulBase + WDT_O_LOAD));
+}
+
+//*****************************************************************************
+//
+//! Gets the current watchdog timer value.
+//!
+//! \param ulBase is the base address of the watchdog timer module.
+//!
+//! This function reads the current value of the watchdog timer.
+//!
+//! \return Returns the current value of the watchdog timer.
+//
+//*****************************************************************************
+unsigned long
+WatchdogValueGet(unsigned long ulBase)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT((ulBase == WDT_BASE));
+
+ //
+ // Get the current watchdog timer register value.
+ //
+ return(HWREG(ulBase + WDT_O_VALUE));
+}
+
+//*****************************************************************************
+//
+//! Registers an interrupt handler for watchdog timer interrupt.
+//!
+//! \param ulBase is the base address of the watchdog timer module.
+//! \param pfnHandler is a pointer to the function to be called when the
+//! watchdog timer interrupt occurs.
+//!
+//! This function does the actual registering of the interrupt handler. This
+//! will enable the global interrupt in the interrupt controller; the watchdog
+//! timer interrupt must be enabled via WatchdogEnable(). It is the interrupt
+//! handler's responsibility to clear the interrupt source via
+//! WatchdogIntClear().
+//!
+//! \sa IntRegister() for important information about registering interrupt
+//! handlers.
+//!
+//! \note This function will only register the standard watchdog interrupt
+//! handler. To register the NMI watchdog handler, use IntRegister()
+//! to register the handler for the \b FAULT_NMI interrupt.
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+WatchdogIntRegister(unsigned long ulBase, void (*pfnHandler)(void))
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT((ulBase == WDT_BASE));
+
+ //
+ // Register the interrupt handler and
+ // Enable the watchdog timer interrupt.
+ //
+ IntRegister(INT_WDT, pfnHandler);
+ IntEnable(INT_WDT);
+}
+
+//*****************************************************************************
+//
+//! Unregisters an interrupt handler for the watchdog timer interrupt.
+//!
+//! \param ulBase is the base address of the watchdog timer module.
+//!
+//! This function does the actual unregistering of the interrupt handler. This
+//! function will clear the handler to be called when a watchdog timer
+//! interrupt occurs. This will also mask off the interrupt in the interrupt
+//! controller so that the interrupt handler no longer is called.
+//!
+//! \sa IntRegister() for important information about registering interrupt
+//! handlers.
+//!
+//! \note This function will only unregister the standard watchdog interrupt
+//! handler. To unregister the NMI watchdog handler, use IntUnregister()
+//! to unregister the handler for the \b FAULT_NMI interrupt.
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+WatchdogIntUnregister(unsigned long ulBase)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT((ulBase == WDT_BASE));
+
+ //
+ // Disable the interrupt
+ IntDisable(INT_WDT);
+
+ //
+ // Unregister the interrupt handler.
+ //
+ IntUnregister(INT_WDT);
+}
+
+//*****************************************************************************
+//
+//! Gets the current watchdog timer interrupt status.
+//!
+//! \param ulBase is the base address of the watchdog timer module.
+//! \param bMasked is \b false if the raw interrupt status is required and
+//! \b true if the masked interrupt status is required.
+//!
+//! This returns the interrupt status for the watchdog timer module. Either
+//! the raw interrupt status or the status of interrupt that is allowed to
+//! reflect to the processor can be returned.
+//!
+//! \return Returns the current interrupt status, where a 1 indicates that the
+//! watchdog interrupt is active, and a 0 indicates that it is not active.
+//
+//*****************************************************************************
+unsigned long
+WatchdogIntStatus(unsigned long ulBase, tBoolean bMasked)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT((ulBase == WDT_BASE));
+
+ //
+ // Return either the interrupt status or the raw interrupt status as
+ // requested.
+ //
+ if(bMasked)
+ {
+ return(HWREG(ulBase + WDT_O_MIS));
+ }
+ else
+ {
+ return(HWREG(ulBase + WDT_O_RIS));
+ }
+}
+
+//*****************************************************************************
+//
+//! Clears the watchdog timer interrupt.
+//!
+//! \param ulBase is the base address of the watchdog timer module.
+//!
+//! The watchdog timer interrupt source is cleared, so that it no longer
+//! asserts.
+//!
+//! \note Because there is a write buffer in the Cortex-M3 processor, it may
+//! take several clock cycles before the interrupt source is actually cleared.
+//! Therefore, it is recommended that the interrupt source be cleared early in
+//! the interrupt handler (as opposed to the very last action) to avoid
+//! returning from the interrupt handler before the interrupt source is
+//! actually cleared. Failure to do so may result in the interrupt handler
+//! being immediately reentered (because the interrupt controller still sees
+//! the interrupt source asserted).
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+WatchdogIntClear(unsigned long ulBase)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT((ulBase == WDT_BASE));
+
+ //
+ // Clear the interrupt source.
+ //
+ HWREG(ulBase + WDT_O_ICR) = WDT_INT_TIMEOUT;
+}
+
+//*****************************************************************************
+//
+//! Enables stalling of the watchdog timer during debug events.
+//!
+//! \param ulBase is the base address of the watchdog timer module.
+//!
+//! This function allows the watchdog timer to stop counting when the processor
+//! is stopped by the debugger. By doing so, the watchdog is prevented from
+//! expiring (typically almost immediately from a human time perspective) and
+//! resetting the system (if reset is enabled). The watchdog will instead
+//! expired after the appropriate number of processor cycles have been executed
+//! while debugging (or at the appropriate time after the processor has been
+//! restarted).
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+WatchdogStallEnable(unsigned long ulBase)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT((ulBase == WDT_BASE));
+
+ //
+ // Enable timer stalling.
+ //
+ HWREG(ulBase + WDT_O_TEST) |= WDT_TEST_STALL;
+}
+
+//*****************************************************************************
+//
+//! Disables stalling of the watchdog timer during debug events.
+//!
+//! \param ulBase is the base address of the watchdog timer module.
+//!
+//! This function disables the debug mode stall of the watchdog timer. By
+//! doing so, the watchdog timer continues to count regardless of the processor
+//! debug state.
+//!
+//! \return None.
+//
+//*****************************************************************************
+void
+WatchdogStallDisable(unsigned long ulBase)
+{
+ //
+ // Check the arguments.
+ //
+ ASSERT((ulBase == WDT_BASE));
+
+ //
+ // Disable timer stalling.
+ //
+ HWREG(ulBase + WDT_O_TEST) &= ~(WDT_TEST_STALL);
+}
+
+//*****************************************************************************
+//
+// Close the Doxygen group.
+//! @}
+//
+//*****************************************************************************
diff --git a/cc3200/hal/wdt.h b/cc3200/hal/wdt.h
new file mode 100644
index 000000000..2e52db42b
--- /dev/null
+++ b/cc3200/hal/wdt.h
@@ -0,0 +1,82 @@
+//*****************************************************************************
+//
+// wdt.h - Prototypes for the Watchdog Timer API
+//
+// Copyright (C) 2014 Texas Instruments Incorporated - http://www.ti.com/
+//
+//
+// Redistribution and use in source and binary forms, with or without
+// modification, are permitted provided that the following conditions
+// are met:
+//
+// Redistributions of source code must retain the above copyright
+// notice, this list of conditions and the following disclaimer.
+//
+// Redistributions in binary form must reproduce the above copyright
+// notice, this list of conditions and the following disclaimer in the
+// documentation and/or other materials provided with the
+// distribution.
+//
+// Neither the name of Texas Instruments Incorporated nor the names of
+// its contributors may be used to endorse or promote products derived
+// from this software without specific prior written permission.
+//
+// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
+// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
+// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
+// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
+// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
+// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
+// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
+// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
+// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
+// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
+// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+//
+//*****************************************************************************
+
+#ifndef __WATCHDOG_H__
+#define __WATCHDOG_H__
+
+//*****************************************************************************
+//
+// If building with a C++ compiler, make all of the definitions in this header
+// have a C binding.
+//
+//*****************************************************************************
+#ifdef __cplusplus
+extern "C"
+{
+#endif
+
+
+//*****************************************************************************
+//
+// Prototypes for the APIs.
+//
+//*****************************************************************************
+extern tBoolean WatchdogRunning(unsigned long ulBase);
+extern void WatchdogEnable(unsigned long ulBase);
+extern void WatchdogLock(unsigned long ulBase);
+extern void WatchdogUnlock(unsigned long ulBase);
+extern tBoolean WatchdogLockState(unsigned long ulBase);
+extern void WatchdogReloadSet(unsigned long ulBase, unsigned long ulLoadVal);
+extern unsigned long WatchdogReloadGet(unsigned long ulBase);
+extern unsigned long WatchdogValueGet(unsigned long ulBase);
+extern void WatchdogIntRegister(unsigned long ulBase, void(*pfnHandler)(void));
+extern void WatchdogIntUnregister(unsigned long ulBase);
+extern unsigned long WatchdogIntStatus(unsigned long ulBase, tBoolean bMasked);
+extern void WatchdogIntClear(unsigned long ulBase);
+extern void WatchdogStallEnable(unsigned long ulBase);
+extern void WatchdogStallDisable(unsigned long ulBase);
+
+//*****************************************************************************
+//
+// Mark the end of the C bindings section for C++ compilers.
+//
+//*****************************************************************************
+#ifdef __cplusplus
+}
+#endif
+
+#endif // __WATCHDOG_H__
generated by cgit v1.2.3 (git 2.25.1) at 2026-03-17 18:54:02 +0000