micropython/ports/cc3200/hal/inc/hw_apps_config.h

748 lines
41 KiB
C

//*****************************************************************************
//
// 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__