rt-thread-official/bsp/lm3s9b9x/Libraries/driverlib/udma.h

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2013-01-08 22:40:58 +08:00
//*****************************************************************************
//
// udma.h - Prototypes and macros for the uDMA controller.
//
// Copyright (c) 2007-2011 Texas Instruments Incorporated. All rights reserved.
// Software License Agreement
//
// Texas Instruments (TI) is supplying this software for use solely and
// exclusively on TI's microcontroller products. The software is owned by
// TI and/or its suppliers, and is protected under applicable copyright
// laws. You may not combine this software with "viral" open-source
// software in order to form a larger program.
//
// THIS SOFTWARE IS PROVIDED "AS IS" AND WITH ALL FAULTS.
// NO WARRANTIES, WHETHER EXPRESS, IMPLIED OR STATUTORY, INCLUDING, BUT
// NOT LIMITED TO, IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
// A PARTICULAR PURPOSE APPLY TO THIS SOFTWARE. TI SHALL NOT, UNDER ANY
// CIRCUMSTANCES, BE LIABLE FOR SPECIAL, INCIDENTAL, OR CONSEQUENTIAL
// DAMAGES, FOR ANY REASON WHATSOEVER.
//
// This is part of revision 8264 of the Stellaris Peripheral Driver Library.
//
//*****************************************************************************
#ifndef __UDMA_H__
#define __UDMA_H__
//*****************************************************************************
//
// If building with a C++ compiler, make all of the definitions in this header
// have a C binding.
//
//*****************************************************************************
#ifdef __cplusplus
extern "C"
{
#endif
//*****************************************************************************
//
//! \addtogroup udma_api
//! @{
//
//*****************************************************************************
//*****************************************************************************
//
// A structure that defines an entry in the channel control table. These
// fields are used by the uDMA controller and normally it is not necessary for
// software to directly read or write fields in the table.
//
//*****************************************************************************
typedef struct
{
//
// The ending source address of the data transfer.
//
volatile void *pvSrcEndAddr;
//
// The ending destination address of the data transfer.
//
volatile void *pvDstEndAddr;
//
// The channel control mode.
//
volatile unsigned long ulControl;
//
// An unused location.
//
volatile unsigned long ulSpare;
}
tDMAControlTable;
//*****************************************************************************
//
//! A helper macro for building scatter-gather task table entries.
//!
//! \param ulTransferCount is the count of items to transfer for this task.
//! \param ulItemSize is the bit size of the items to transfer for this task.
//! \param ulSrcIncrement is the bit size increment for source data.
//! \param pvSrcAddr is the starting address of the data to transfer.
//! \param ulDstIncrement is the bit size increment for destination data.
//! \param pvDstAddr is the starting address of the destination data.
//! \param ulArbSize is the arbitration size to use for the transfer task.
//! \param ulMode is the transfer mode for this task.
//!
//! This macro is intended to be used to help populate a table of uDMA tasks
//! for a scatter-gather transfer. This macro will calculate the values for
//! the fields of a task structure entry based on the input parameters.
//!
//! There are specific requirements for the values of each parameter. No
//! checking is done so it is up to the caller to ensure that correct values
//! are used for the parameters.
//!
//! The \e ulTransferCount parameter is the number of items that will be
//! transferred by this task. It must be in the range 1-1024.
//!
//! The \e ulItemSize parameter is the bit size of the transfer data. It must
//! be one of \b UDMA_SIZE_8, \b UDMA_SIZE_16, or \b UDMA_SIZE_32.
//!
//! The \e ulSrcIncrement parameter is the increment size for the source data.
//! It must be one of \b UDMA_SRC_INC_8, \b UDMA_SRC_INC_16,
//! \b UDMA_SRC_INC_32, or \b UDMA_SRC_INC_NONE.
//!
//! The \e pvSrcAddr parameter is a void pointer to the beginning of the source
//! data.
//!
//! The \e ulDstIncrement parameter is the increment size for the destination
//! data. It must be one of \b UDMA_DST_INC_8, \b UDMA_DST_INC_16,
//! \b UDMA_DST_INC_32, or \b UDMA_DST_INC_NONE.
//!
//! The \e pvDstAddr parameter is a void pointer to the beginning of the
//! location where the data will be transferred.
//!
//! The \e ulArbSize parameter is the arbitration size for the transfer, and
//! must be one of \b UDMA_ARB_1, \b UDMA_ARB_2, \b UDMA_ARB_4, and so on
//! up to \b UDMA_ARB_1024. This is used to select the arbitration size in
//! powers of 2, from 1 to 1024.
//!
//! The \e ulMode parameter is the mode to use for this transfer task. It
//! must be one of \b UDMA_MODE_BASIC, \b UDMA_MODE_AUTO,
//! \b UDMA_MODE_MEM_SCATTER_GATHER, or \b UDMA_MODE_PER_SCATTER_GATHER. Note
//! that normally all tasks will be one of the scatter-gather modes while the
//! last task is a task list will be AUTO or BASIC.
//!
//! This macro is intended to be used to initialize individual entries of
//! a structure of tDMAControlTable type, like this:
//!
//! \verbatim
//! tDMAControlTable MyTaskList[] =
//! {
//! uDMATaskStructEntry(Task1Count, UDMA_SIZE_8,
//! UDMA_SRC_INC_8, MySourceBuf,
//! UDMA_DST_INC_8, MyDestBuf,
//! UDMA_ARB_8, UDMA_MODE_MEM_SCATTER_GATHER),
//! uDMATaskStructEntry(Task2Count, ... ),
//! }
//! \endverbatim
//!
//! \return Nothing; this is not a function.
//
//*****************************************************************************
#define uDMATaskStructEntry(ulTransferCount, \
ulItemSize, \
ulSrcIncrement, \
pvSrcAddr, \
ulDstIncrement, \
pvDstAddr, \
ulArbSize, \
ulMode) \
{ \
(((ulSrcIncrement) == UDMA_SRC_INC_NONE) ? (void *)(pvSrcAddr) : \
((void *)(&((unsigned char *)(pvSrcAddr))[((ulTransferCount) << \
((ulSrcIncrement) >> 26)) - 1]))), \
(((ulDstIncrement) == UDMA_DST_INC_NONE) ? (void *)(pvDstAddr) : \
((void *)(&((unsigned char *)(pvDstAddr))[((ulTransferCount) << \
((ulDstIncrement) >> 30)) - 1]))), \
(ulSrcIncrement) | (ulDstIncrement) | (ulItemSize) | (ulArbSize) | \
(((ulTransferCount) - 1) << 4) | \
((((ulMode) == UDMA_MODE_MEM_SCATTER_GATHER) || \
((ulMode) == UDMA_MODE_PER_SCATTER_GATHER)) ? \
(ulMode) | UDMA_MODE_ALT_SELECT : (ulMode)), 0 \
}
//*****************************************************************************
//
// Close the Doxygen group.
//! @}
//
//*****************************************************************************
//*****************************************************************************
//
// Flags that can be passed to uDMAChannelAttributeEnable(),
// uDMAChannelAttributeDisable(), and returned from uDMAChannelAttributeGet().
//
//*****************************************************************************
#define UDMA_ATTR_USEBURST 0x00000001
#define UDMA_ATTR_ALTSELECT 0x00000002
#define UDMA_ATTR_HIGH_PRIORITY 0x00000004
#define UDMA_ATTR_REQMASK 0x00000008
#define UDMA_ATTR_ALL 0x0000000F
//*****************************************************************************
//
// DMA control modes that can be passed to uDMAModeSet() and returned
// uDMAModeGet().
//
//*****************************************************************************
#define UDMA_MODE_STOP 0x00000000
#define UDMA_MODE_BASIC 0x00000001
#define UDMA_MODE_AUTO 0x00000002
#define UDMA_MODE_PINGPONG 0x00000003
#define UDMA_MODE_MEM_SCATTER_GATHER \
0x00000004
#define UDMA_MODE_PER_SCATTER_GATHER \
0x00000006
#define UDMA_MODE_ALT_SELECT 0x00000001
//*****************************************************************************
//
// Channel configuration values that can be passed to uDMAControlSet().
//
//*****************************************************************************
#define UDMA_DST_INC_8 0x00000000
#define UDMA_DST_INC_16 0x40000000
#define UDMA_DST_INC_32 0x80000000
#define UDMA_DST_INC_NONE 0xc0000000
#define UDMA_SRC_INC_8 0x00000000
#define UDMA_SRC_INC_16 0x04000000
#define UDMA_SRC_INC_32 0x08000000
#define UDMA_SRC_INC_NONE 0x0c000000
#define UDMA_SIZE_8 0x00000000
#define UDMA_SIZE_16 0x11000000
#define UDMA_SIZE_32 0x22000000
#define UDMA_ARB_1 0x00000000
#define UDMA_ARB_2 0x00004000
#define UDMA_ARB_4 0x00008000
#define UDMA_ARB_8 0x0000c000
#define UDMA_ARB_16 0x00010000
#define UDMA_ARB_32 0x00014000
#define UDMA_ARB_64 0x00018000
#define UDMA_ARB_128 0x0001c000
#define UDMA_ARB_256 0x00020000
#define UDMA_ARB_512 0x00024000
#define UDMA_ARB_1024 0x00028000
#define UDMA_NEXT_USEBURST 0x00000008
//*****************************************************************************
//
// Channel numbers to be passed to API functions that require a channel number
// ID.
//
//*****************************************************************************
#define UDMA_CHANNEL_USBEP1RX 0
#define UDMA_CHANNEL_USBEP1TX 1
#define UDMA_CHANNEL_USBEP2RX 2
#define UDMA_CHANNEL_USBEP2TX 3
#define UDMA_CHANNEL_USBEP3RX 4
#define UDMA_CHANNEL_USBEP3TX 5
#define UDMA_CHANNEL_ETH0RX 6
#define UDMA_CHANNEL_ETH0TX 7
#define UDMA_CHANNEL_UART0RX 8
#define UDMA_CHANNEL_UART0TX 9
#define UDMA_CHANNEL_SSI0RX 10
#define UDMA_CHANNEL_SSI0TX 11
#define UDMA_CHANNEL_ADC0 14
#define UDMA_CHANNEL_ADC1 15
#define UDMA_CHANNEL_ADC2 16
#define UDMA_CHANNEL_ADC3 17
#define UDMA_CHANNEL_TMR0A 18
#define UDMA_CHANNEL_TMR0B 19
#define UDMA_CHANNEL_TMR1A 20
#define UDMA_CHANNEL_TMR1B 21
#define UDMA_CHANNEL_UART1RX 22
#define UDMA_CHANNEL_UART1TX 23
#define UDMA_CHANNEL_SSI1RX 24
#define UDMA_CHANNEL_SSI1TX 25
#define UDMA_CHANNEL_I2S0RX 28
#define UDMA_CHANNEL_I2S0TX 29
#define UDMA_CHANNEL_SW 30
//*****************************************************************************
//
// Flags to be OR'd with the channel ID to indicate if the primary or alternate
// control structure should be used.
//
//*****************************************************************************
#define UDMA_PRI_SELECT 0x00000000
#define UDMA_ALT_SELECT 0x00000020
//*****************************************************************************
//
// uDMA interrupt sources, to be passed to uDMAIntRegister() and
// uDMAIntUnregister().
//
//*****************************************************************************
#define UDMA_INT_SW 62
#define UDMA_INT_ERR 63
//*****************************************************************************
//
// Channel numbers to be passed to API functions that require a channel number
// ID. These are for secondary peripheral assignments.
//
//*****************************************************************************
#define UDMA_SEC_CHANNEL_UART2RX_0 \
0
#define UDMA_SEC_CHANNEL_UART2TX_1 \
1
#define UDMA_SEC_CHANNEL_TMR3A 2
#define UDMA_SEC_CHANNEL_TMR3B 3
#define UDMA_SEC_CHANNEL_TMR2A_4 \
4
#define UDMA_SEC_CHANNEL_TMR2B_5 \
5
#define UDMA_SEC_CHANNEL_TMR2A_6 \
6
#define UDMA_SEC_CHANNEL_TMR2B_7 \
7
#define UDMA_SEC_CHANNEL_UART1RX \
8
#define UDMA_SEC_CHANNEL_UART1TX \
9
#define UDMA_SEC_CHANNEL_SSI1RX 10
#define UDMA_SEC_CHANNEL_SSI1TX 11
#define UDMA_SEC_CHANNEL_UART2RX_12 \
12
#define UDMA_SEC_CHANNEL_UART2TX_13 \
13
#define UDMA_SEC_CHANNEL_TMR2A_14 \
14
#define UDMA_SEC_CHANNEL_TMR2B_15 \
15
#define UDMA_SEC_CHANNEL_TMR1A 18
#define UDMA_SEC_CHANNEL_TMR1B 19
#define UDMA_SEC_CHANNEL_EPI0RX 20
#define UDMA_SEC_CHANNEL_EPI0TX 21
#define UDMA_SEC_CHANNEL_ADC10 24
#define UDMA_SEC_CHANNEL_ADC11 25
#define UDMA_SEC_CHANNEL_ADC12 26
#define UDMA_SEC_CHANNEL_ADC13 27
#define UDMA_SEC_CHANNEL_SW 30
//*****************************************************************************
//
// uDMA default/secondary peripheral selections, to be passed to
// uDMAChannelSelectSecondary() and uDMAChannelSelectDefault().
//
//*****************************************************************************
#define UDMA_DEF_USBEP1RX_SEC_UART2RX \
0x00000001
#define UDMA_DEF_USBEP1TX_SEC_UART2TX \
0x00000002
#define UDMA_DEF_USBEP2RX_SEC_TMR3A \
0x00000004
#define UDMA_DEF_USBEP2TX_SEC_TMR3B \
0x00000008
#define UDMA_DEF_USBEP3RX_SEC_TMR2A \
0x00000010
#define UDMA_DEF_USBEP3TX_SEC_TMR2B \
0x00000020
#define UDMA_DEF_ETH0RX_SEC_TMR2A \
0x00000040
#define UDMA_DEF_ETH0TX_SEC_TMR2B \
0x00000080
#define UDMA_DEF_UART0RX_SEC_UART1RX \
0x00000100
#define UDMA_DEF_UART0TX_SEC_UART1TX \
0x00000200
#define UDMA_DEF_SSI0RX_SEC_SSI1RX \
0x00000400
#define UDMA_DEF_SSI0TX_SEC_SSI1TX \
0x00000800
#define UDMA_DEF_RESERVED_SEC_UART2RX \
0x00001000
#define UDMA_DEF_RESERVED_SEC_UART2TX \
0x00002000
#define UDMA_DEF_ADC00_SEC_TMR2A \
0x00004000
#define UDMA_DEF_ADC01_SEC_TMR2B \
0x00008000
#define UDMA_DEF_ADC02_SEC_RESERVED \
0x00010000
#define UDMA_DEF_ADC03_SEC_RESERVED \
0x00020000
#define UDMA_DEF_TMR0A_SEC_TMR1A \
0x00040000
#define UDMA_DEF_TMR0B_SEC_TMR1B \
0x00080000
#define UDMA_DEF_TMR1A_SEC_EPI0RX \
0x00100000
#define UDMA_DEF_TMR1B_SEC_EPI0TX \
0x00200000
#define UDMA_DEF_UART1RX_SEC_RESERVED \
0x00400000
#define UDMA_DEF_UART1TX_SEC_RESERVED \
0x00800000
#define UDMA_DEF_SSI1RX_SEC_ADC10 \
0x01000000
#define UDMA_DEF_SSI1TX_SEC_ADC11 \
0x02000000
#define UDMA_DEF_RESERVED_SEC_ADC12 \
0x04000000
#define UDMA_DEF_RESERVED_SEC_ADC13 \
0x08000000
#define UDMA_DEF_I2S0RX_SEC_RESERVED \
0x10000000
#define UDMA_DEF_I2S0TX_SEC_RESERVED \
0x20000000
//*****************************************************************************
//
// Values that can be passed to uDMAChannelMapConfigure() to select peripheral
// mapping for each channel. The channels named RESERVED may be assigned
// to a peripheral in future parts.
//
//*****************************************************************************
//
// Channel 0
//
#define UDMA_CH0_USB0EP1RX 0x00000000
#define UDMA_CH0_UART2RX 0x00010000
#define UDMA_CH0_RESERVED2 0x00020000
#define UDMA_CH0_TIMER4A 0x00030000
#define UDMA_CH0_RESERVED4 0x00040000
//
// Channel 1
//
#define UDMA_CH1_USB0EP1TX 0x00000001
#define UDMA_CH1_UART2TX 0x00010001
#define UDMA_CH1_RESERVED2 0x00020001
#define UDMA_CH1_TIMER4B 0x00030001
#define UDMA_CH1_RESERVED4 0x00040001
//
// Channel 2
//
#define UDMA_CH2_USB0EP2RX 0x00000002
#define UDMA_CH2_TIMER3A 0x00010002
#define UDMA_CH2_RESERVED2 0x00020002
#define UDMA_CH2_RESERVED3 0x00030002
#define UDMA_CH2_RESERVED4 0x00040002
//
// Channel 3
//
#define UDMA_CH3_USB0EP2TX 0x00000003
#define UDMA_CH3_TIMER3B 0x00010003
#define UDMA_CH3_RESERVED2 0x00020003
#define UDMA_CH3_LPC0_3 0x00030003
#define UDMA_CH3_RESERVED4 0x00040003
//
// Channel 4
//
#define UDMA_CH4_USB0EP3RX 0x00000004
#define UDMA_CH4_TIMER2A 0x00010004
#define UDMA_CH4_RESERVED2 0x00020004
#define UDMA_CH4_GPIOA 0x00030004
#define UDMA_CH4_RESERVED4 0x00040004
//
// Channel 5
//
#define UDMA_CH5_USB0EP3TX 0x00000005
#define UDMA_CH5_TIMER2B 0x00010005
#define UDMA_CH5_RESERVED2 0x00020005
#define UDMA_CH5_GPIOB 0x00030005
#define UDMA_CH5_RESERVED4 0x00040005
//
// Channel 6
//
#define UDMA_CH6_RESERVED0 0x00000006
#define UDMA_CH6_TIMER2A 0x00010006
#define UDMA_CH6_UART5RX 0x00020006
#define UDMA_CH6_GPIOC 0x00030006
#define UDMA_CH6_I2C0RX 0x00040006
//
// Channel 7
//
#define UDMA_CH7_RESERVED0 0x00000007
#define UDMA_CH7_TIMER2B 0x00010007
#define UDMA_CH7_UART5TX 0x00020007
#define UDMA_CH7_GPIOD 0x00030007
#define UDMA_CH7_I2C0TX 0x00040007
//
// Channel 8
//
#define UDMA_CH8_UART0RX 0x00000008
#define UDMA_CH8_UART1RX 0x00010008
#define UDMA_CH8_RESERVED2 0x00020008
#define UDMA_CH8_TIMER5A 0x00030008
#define UDMA_CH8_I2C1RX 0x00040008
//
// Channel 9
//
#define UDMA_CH9_UART0TX 0x00000009
#define UDMA_CH9_UART1TX 0x00010009
#define UDMA_CH9_RESERVED2 0x00020009
#define UDMA_CH9_TIMER5B 0x00030009
#define UDMA_CH9_I2C1TX 0x00040009
//
// Channel 10
//
#define UDMA_CH10_SSI0RX 0x0000000A
#define UDMA_CH10_SSI1RX 0x0001000A
#define UDMA_CH10_UART6RX 0x0002000A
#define UDMA_CH10_WTIMER0A 0x0003000A
#define UDMA_CH10_I2C2RX 0x0004000A
//
// Channel 11
//
#define UDMA_CH11_SSI0TX 0x0000000B
#define UDMA_CH11_SSI1TX 0x0001000B
#define UDMA_CH11_UART6TX 0x0002000B
#define UDMA_CH11_WTIMER0B 0x0003000B
#define UDMA_CH11_I2C2TX 0x0004000B
//
// Channel 12
//
#define UDMA_CH12_RESERVED0 0x0000000C
#define UDMA_CH12_UART2RX 0x0001000C
#define UDMA_CH12_SSI2RX 0x0002000C
#define UDMA_CH12_WTIMER1A 0x0003000C
#define UDMA_CH12_GPIOK 0x0004000C
//
// Channel 13
//
#define UDMA_CH13_RESERVED0 0x0000000D
#define UDMA_CH13_UART2TX 0x0001000D
#define UDMA_CH13_SSI2TX 0x0002000D
#define UDMA_CH13_WTIMER1B 0x0003000D
#define UDMA_CH13_GPIOL 0x0004000D
//
// Channel 14
//
#define UDMA_CH14_ADC0_0 0x0000000E
#define UDMA_CH14_TIMER2A 0x0001000E
#define UDMA_CH14_SSI3RX 0x0002000E
#define UDMA_CH14_GPIOE 0x0003000E
#define UDMA_CH14_GPIOM 0x0004000E
//
// Channel 15
//
#define UDMA_CH15_ADC0_1 0x0000000F
#define UDMA_CH15_TIMER2B 0x0001000F
#define UDMA_CH15_SSI3TX 0x0002000F
#define UDMA_CH15_GPIOF 0x0003000F
#define UDMA_CH15_GPION 0x0004000F
//
// Channel 16
//
#define UDMA_CH16_ADC0_2 0x00000010
#define UDMA_CH16_RESERVED1 0x00010010
#define UDMA_CH16_UART3RX 0x00020010
#define UDMA_CH16_WTIMER2A 0x00030010
#define UDMA_CH16_GPIOP 0x00040010
//
// Channel 17
//
#define UDMA_CH17_ADC0_3 0x00000011
#define UDMA_CH17_RESERVED1 0x00010011
#define UDMA_CH17_UART3TX 0x00020011
#define UDMA_CH17_WTIMER2B 0x00030011
#define UDMA_CH17_RESERVED4 0x00040011
//
// Channel 18
//
#define UDMA_CH18_TIMER0A 0x00000012
#define UDMA_CH18_TIMER1A 0x00010012
#define UDMA_CH18_UART4RX 0x00020012
#define UDMA_CH18_GPIOB 0x00030012
#define UDMA_CH18_I2C3RX 0x00040012
//
// Channel 19
//
#define UDMA_CH19_TIMER0B 0x00000013
#define UDMA_CH19_TIMER1B 0x00010013
#define UDMA_CH19_UART4TX 0x00020013
#define UDMA_CH19_GPIOG 0x00030013
#define UDMA_CH19_I2C3TX 0x00040013
//
// Channel 20
//
#define UDMA_CH20_TIMER1A 0x00000014
#define UDMA_CH20_RESERVED1 0x00010014
#define UDMA_CH20_UART7RX 0x00020014
#define UDMA_CH20_GPIOH 0x00030014
#define UDMA_CH20_I2C4RX 0x00040014
//
// Channel 21
//
#define UDMA_CH21_TIMER1B 0x00000015
#define UDMA_CH21_RESERVED1 0x00010015
#define UDMA_CH21_UART7TX 0x00020015
#define UDMA_CH21_GPIOJ 0x00030015
#define UDMA_CH21_I2C4TX 0x00040015
//
// Channel 22
//
#define UDMA_CH22_UART1RX 0x00000016
#define UDMA_CH22_RESERVED1 0x00010016
#define UDMA_CH22_RESERVED2 0x00020016
#define UDMA_CH22_LPC0_2 0x00030016
#define UDMA_CH22_I2C5RX 0x00040016
//
// Channel 23
//
#define UDMA_CH23_UART1TX 0x00000017
#define UDMA_CH23_RESERVED1 0x00010017
#define UDMA_CH23_RESERVED2 0x00020017
#define UDMA_CH23_LPC0_1 0x00030017
#define UDMA_CH23_I2C5TX 0x00040017
//
// Channel 24
//
#define UDMA_CH24_SSI1RX 0x00000018
#define UDMA_CH24_ADC1_0 0x00010018
#define UDMA_CH24_RESERVED2 0x00020018
#define UDMA_CH24_WTIMER3A 0x00030018
#define UDMA_CH24_GPIOQ 0x00040018
//
// Channel 25
//
#define UDMA_CH25_SSI1TX 0x00000019
#define UDMA_CH25_ADC1_1 0x00010019
#define UDMA_CH25_RESERVED2 0x00020019
#define UDMA_CH25_WTIMER3B 0x00030019
#define UDMA_CH25_RESERVED4 0x00040019
//
// Channel 26
//
#define UDMA_CH26_RESERVED0 0x0000001A
#define UDMA_CH26_ADC1_2 0x0001001A
#define UDMA_CH26_RESERVED2 0x0002001A
#define UDMA_CH26_WTIMER4A 0x0003001A
#define UDMA_CH26_RESERVED4 0x0004001A
//
// Channel 27
//
#define UDMA_CH27_RESERVED0 0x0000001B
#define UDMA_CH27_ADC1_3 0x0001001B
#define UDMA_CH27_RESERVED2 0x0002001B
#define UDMA_CH27_WTIMER4B 0x0003001B
#define UDMA_CH27_RESERVED4 0x0004001B
//
// Channel 28
//
#define UDMA_CH28_RESERVED0 0x0000001C
#define UDMA_CH28_RESERVED1 0x0001001C
#define UDMA_CH28_RESERVED2 0x0002001C
#define UDMA_CH28_WTIMER5A 0x0003001C
#define UDMA_CH28_RESERVED4 0x0004001C
//
// Channel 29
//
#define UDMA_CH29_RESERVED0 0x0000001D
#define UDMA_CH29_RESERVED1 0x0001001D
#define UDMA_CH29_RESERVED2 0x0002001D
#define UDMA_CH29_WTIMER5B 0x0003001D
#define UDMA_CH29_RESERVED4 0x0004001D
//
// Channel 30
//
#define UDMA_CH30_SW 0x0000001E
#define UDMA_CH30_RESERVED1 0x0001001E
#define UDMA_CH30_RESERVED2 0x0002001E
#define UDMA_CH30_RESERVED3 0x0003001E
#define UDMA_CH30_RESERVED4 0x0004001E
//
// Channel 31
//
#define UDMA_CH31_RESERVED0 0x0000001F
#define UDMA_CH31_RESERVED1 0x0001001F
#define UDMA_CH31_RESERVED2 0x0002001F
#define UDMA_CH31_LPC0_0 0x0003001F
#define UDMA_CH31_RESERVED4 0x0004001F
//*****************************************************************************
//
// API Function prototypes
//
//*****************************************************************************
extern void uDMAEnable(void);
extern void uDMADisable(void);
extern unsigned long uDMAErrorStatusGet(void);
extern void uDMAErrorStatusClear(void);
extern void uDMAChannelEnable(unsigned long ulChannelNum);
extern void uDMAChannelDisable(unsigned long ulChannelNum);
extern tBoolean uDMAChannelIsEnabled(unsigned long ulChannelNum);
extern void uDMAControlBaseSet(void *pControlTable);
extern void *uDMAControlBaseGet(void);
extern void *uDMAControlAlternateBaseGet(void);
extern void uDMAChannelRequest(unsigned long ulChannelNum);
extern void uDMAChannelAttributeEnable(unsigned long ulChannelNum,
unsigned long ulAttr);
extern void uDMAChannelAttributeDisable(unsigned long ulChannelNum,
unsigned long ulAttr);
extern unsigned long uDMAChannelAttributeGet(unsigned long ulChannelNum);
extern void uDMAChannelControlSet(unsigned long ulChannelStructIndex,
unsigned long ulControl);
extern void uDMAChannelTransferSet(unsigned long ulChannelStructIndex,
unsigned long ulMode, void *pvSrcAddr,
void *pvDstAddr,
unsigned long ulTransferSize);
extern void uDMAChannelScatterGatherSet(unsigned long ulChannelNum,
unsigned ulTaskCount, void *pvTaskList,
unsigned long ulIsPeriphSG);
extern unsigned long uDMAChannelSizeGet(unsigned long ulChannelStructIndex);
extern unsigned long uDMAChannelModeGet(unsigned long ulChannelStructIndex);
extern void uDMAIntRegister(unsigned long ulIntChannel,
void (*pfnHandler)(void));
extern void uDMAIntUnregister(unsigned long ulIntChannel);
extern void uDMAChannelSelectDefault(unsigned long ulDefPeriphs);
extern void uDMAChannelSelectSecondary(unsigned long ulSecPeriphs);
extern unsigned long uDMAIntStatus(void);
extern void uDMAIntClear(unsigned long ulChanMask);
extern void uDMAChannelAssign(unsigned long ulMapping);
//*****************************************************************************
//
// Mark the end of the C bindings section for C++ compilers.
//
//*****************************************************************************
#ifdef __cplusplus
}
#endif
#endif // __UDMA_H__