rt-thread-official/bsp/hc32l136/Libraries/HC32L136_StdPeriph_Driver/inc/dmac.h

328 lines
15 KiB
C

/*****************************************************************************
* Copyright (C) 2016, Huada Semiconductor Co.,Ltd All rights reserved.
*
* This software is owned and published by:
* Huada Semiconductor Co.,Ltd ("HDSC").
*
* BY DOWNLOADING, INSTALLING OR USING THIS SOFTWARE, YOU AGREE TO BE BOUND
* BY ALL THE TERMS AND CONDITIONS OF THIS AGREEMENT.
*
* This software contains source code for use with HDSC
* components. This software is licensed by HDSC to be adapted only
* for use in systems utilizing HDSC components. HDSC shall not be
* responsible for misuse or illegal use of this software for devices not
* supported herein. HDSC is providing this software "AS IS" and will
* not be responsible for issues arising from incorrect user implementation
* of the software.
*
* Disclaimer:
* HDSC MAKES NO WARRANTY, EXPRESS OR IMPLIED, ARISING BY LAW OR OTHERWISE,
* REGARDING THE SOFTWARE (INCLUDING ANY ACOOMPANYING WRITTEN MATERIALS),
* ITS PERFORMANCE OR SUITABILITY FOR YOUR INTENDED USE, INCLUDING,
* WITHOUT LIMITATION, THE IMPLIED WARRANTY OF MERCHANTABILITY, THE IMPLIED
* WARRANTY OF FITNESS FOR A PARTICULAR PURPOSE OR USE, AND THE IMPLIED
* WARRANTY OF NONINFRINGEMENT.
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* NEGLIGENCE OR OTHERWISE) FOR ANY DAMAGES WHATSOEVER (INCLUDING, WITHOUT
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* LOSS OF BUSINESS INFORMATION, OR OTHER PECUNIARY LOSS) ARISING FROM USE OR
* INABILITY TO USE THE SOFTWARE, INCLUDING, WITHOUT LIMITATION, ANY DIRECT,
* INDIRECT, INCIDENTAL, SPECIAL OR CONSEQUENTIAL DAMAGES OR LOSS OF DATA,
* SAVINGS OR PROFITS,
* EVEN IF Disclaimer HAS BEEN ADVISED OF THE POSSIBILITY OF SUCH DAMAGES.
* YOU ASSUME ALL RESPONSIBILITIES FOR SELECTION OF THE SOFTWARE TO ACHIEVE YOUR
* INTENDED RESULTS, AND FOR THE INSTALLATION OF, USE OF, AND RESULTS OBTAINED
* FROM, THE SOFTWARE.
*
* This software may be replicated in part or whole for the licensed use,
* with the restriction that this Disclaimer and Copyright notice must be
* included with each copy of this software, whether used in part or whole,
* at all times.
*/
/******************************************************************************/
/** \file dma.h
**
** A detailed description is available at
** @link DmacGroup Dmac description @endlink
**
** - 2018-03-09 1.0 Hongjh First version for Device Driver Library of Dmac.
**
******************************************************************************/
#ifndef __DMAC_H__
#define __DMAC_H__
/*******************************************************************************
* Include files
******************************************************************************/
#include "ddl.h"
/* C binding of definitions if building with C++ compiler */
#ifdef __cplusplus
extern "C"
{
#endif
/**
*******************************************************************************
** \defgroup DmacGroup Direct Memory Access Control(DMAC)
**
******************************************************************************/
//@{
/*******************************************************************************
* Global type definitions ('typedef')
******************************************************************************/
/**
*******************************************************************************
** \brief DMA Channel
**
******************************************************************************/
typedef enum en_dma_channel
{
DmaCh0 = 0U, ///< DMA channel 0
DmaCh1 = 1U, ///< DMA channel 1
DmaChMax = 2U ///< DMA channel max
} en_dma_channel_t;
/**
*******************************************************************************
** \brief DMA priority
**
******************************************************************************/
typedef enum en_dma_priority
{
DmaPriorityFix = 0U, ///< DMA channel priority fix (CH0>CH1)
DmaPriorityLoop = 1U, ///< DMA channel priority loop
} en_dma_priority_t;
/**
*******************************************************************************
** \brief DMA transfer data width
**
******************************************************************************/
typedef enum en_dma_transfer_width
{
Dma8Bit = 0U, ///< 8 bit transfer via DMA
Dma16Bit = 1U, ///< 16 bit transfer via DMA
Dma32Bit = 2U ///< 32 bit transfer via DMA
} en_dma_transfer_width_t;
/**
*******************************************************************************
** \brief DMA transfer mode
**
******************************************************************************/
typedef enum en_dma_transfer_mode
{
DmaBlock = 0U, ///< block transfer via DMA
DmaBurst = 1U, ///< burst transfer via DMA
} en_dma_transfer_mode_t;
/**
*******************************************************************************
** \brief DMA flag
**
******************************************************************************/
typedef enum en_dma_stat
{
DEFAULT = 0U, ///< Reserve
DmaAddOverflow = 1U, ///< DMA address overflow
DmaHALT = 2U, ///< DMA HALT
DmaAccSCRErr = 3U, ///< DMA access source address error
DmaAccDestErr = 4U, ///< DMA access dest address error
DmaTransferComplete = 5U, ///< DMA transfer complete
DmaTransferPause = 7U, ///< DMA transfer pause
} en_dma_stat_t;
/**
*******************************************************************************
** \brief DMA address mode
**
******************************************************************************/
typedef enum en_address_mode
{
AddressIncrease = 0U, ///< Address increased
AddressFix = 1U, ///< Address fixed
} en_address_mode_t;
/**
*******************************************************************************
** \brief DMA repeat tranfer
**
******************************************************************************/
typedef enum en_dma_msk
{
OneTranfer = 0U, ///< One Tranfer
ContinuousTranfer = 1U, ///< Continuous Tranfer
} en_dma_msk_t;
/**
*******************************************************************************
** \brief DMA trigger selection
**
******************************************************************************/
typedef enum stc_dma_trig_sel
{
SWTrig = 0U, ///< Select DMA software trig
SPI0RXTrig = 32U, ///< Select DMA hardware trig 0
SPI0TXTrig = 33U, ///< Select DMA hardware trig 1
SPI1RXTrig = 34U, ///< Select DMA hardware trig 2
SPI1TXTrig = 35U, ///< Select DMA hardware trig 3
ADCJQRTrig = 36U, ///< Select DMA hardware trig 4
ADCSQRTrig = 37U, ///< Select DMA hardware trig 5
LCDTxTrig = 38U, ///< Select DMA hardware trig 6
Uart0RxTrig = 40U, ///< Select DMA hardware trig 8
Uart0TxTrig = 41U, ///< Select DMA hardware trig 9
Uart1RxTrig = 42U, ///< Select DMA hardware trig 10
Uart1TxTrig = 43U, ///< Select DMA hardware trig 11
LpUart0RxTrig = 44U, ///< Select DMA hardware trig 12
LpUart0TxTrig = 45U, ///< Select DMA hardware trig 13
LpUart1RxTrig = 46U, ///< Select DMA hardware trig 14
LpUart1TxTrig = 47U, ///< Select DMA hardware trig 15
TIM0ATrig = 50U, ///< Select DMA hardware trig 18
TIM0BTrig = 51U, ///< Select DMA hardware trig 19
TIM1ATrig = 52U, ///< Select DMA hardware trig 20
TIM1BTrig = 53U, ///< Select DMA hardware trig 21
TIM2ATrig = 54U, ///< Select DMA hardware trig 22
TIM2BTrig = 55U, ///< Select DMA hardware trig 23
TIM3ATrig = 56U, ///< Select DMA hardware trig 24
TIM3BTrig = 57U, ///< Select DMA hardware trig 25
TIM4ATrig = 58U, ///< Select DMA hardware trig 26
TIM4BTrig = 59U, ///< Select DMA hardware trig 27
TIM5ATrig = 60U, ///< Select DMA hardware trig 28
TIM5BTrig = 61U, ///< Select DMA hardware trig 29
TIM6ATrig = 62U, ///< Select DMA hardware trig 30
TIM6BTrig = 63U, ///< Select DMA hardware trig 31
}en_dma_trig_sel_t;
/**
*******************************************************************************
** \brief DMA interrupt selection
**
******************************************************************************/
typedef struct stc_dma_irq
{
boolean_t TrnErrIrq; ///< Select DMA transfer error interrupt
boolean_t TrnCpltIrq; ///< Select DMA transfer completion interrupt
}stc_dma_irq_sel_t;
/**
*******************************************************************************
** \brief DMA configuration
**
******************************************************************************/
typedef struct stc_dma_config
{
en_dma_transfer_mode_t enMode;
uint16_t u16BlockSize; ///< Transfer Block counter
uint16_t u16TransferCnt; ///< Transfer counter
en_dma_transfer_width_t enTransferWidth; ///< DMA transfer width (see #en_dma_transfer_width_t for details)
en_address_mode_t enSrcAddrMode; ///< Source address mode(see #en_source_address_mode_t for details)
en_address_mode_t enDstAddrMode; ///< Destination address mode(see #en_dest_address_mode_t for details)
boolean_t bSrcAddrReloadCtl; ///< Source address reload(TRUE: reload;FALSE: reload forbidden)
boolean_t bDestAddrReloadCtl; ///< Dest address reload(TRUE: reload;FALSE: reload forbidden)
boolean_t bSrcBcTcReloadCtl; ///< Bc/Tc address reload(TRUE: reload;FALSE: reload forbidden)
uint32_t u32SrcAddress; ///< Source address>
uint32_t u32DstAddress; ///< Dest address>
boolean_t bMsk; ///0: clear the bit (CONFA:ENS) after tarnfer;1: remain the bit (CONFA:ENS) after tarnfer
en_dma_trig_sel_t enRequestNum; ///< DMA trigger request number
} stc_dma_config_t;
/**
******************************************************************************
** \brief DMA中断回调函数
*****************************************************************************/
typedef struct stc_dma_irq_calbakfn_pt
{
/*! Dma传输完成中断回调函数指针*/
func_ptr_t pfnDma0TranferCompleteIrq;
/*! Dma传输完成中断回调函数指针*/
func_ptr_t pfnDma1TranferCompleteIrq;
/*! Dma传输错误中断回调函数指针*/
func_ptr_t pfnDma0TranferErrIrq;
/*! Dma传输错误中断回调函数指针*/
func_ptr_t pfnDma1TranferErrIrq;
}stc_dma_irq_calbakfn_pt_t;
/*******************************************************************************
* Global pre-processor symbols/macros ('#define')
******************************************************************************/
/*******************************************************************************
* Global variable definitions ('extern')
******************************************************************************/
/*******************************************************************************
* Global function prototypes (definition in C source)
******************************************************************************/
en_result_t Dma_InitChannel(en_dma_channel_t enCh, stc_dma_config_t* pstcConfig);
void Dma_SwTrigger(en_dma_channel_t enCh);
void Dma_Enable(void);
void Dma_Disable(void);
void Dma_Start(en_dma_channel_t enCh);
void Dma_Stop(en_dma_channel_t enCh);
en_result_t Dma_EnableChannel(en_dma_channel_t enCh);
en_result_t Dma_DisableChannel(en_dma_channel_t enCh);
en_result_t Dma_SetTriggerSel(en_dma_channel_t enCh, en_dma_trig_sel_t enTrgSel);
en_result_t Dma_SetSourceAddress(en_dma_channel_t enCh, uint32_t u32Address);
en_result_t Dma_SetDestinationAddress(en_dma_channel_t enCh, uint32_t u32Address);
en_result_t Dma_SetBlockSize(en_dma_channel_t enCh, uint16_t u16BlkSize);
en_result_t Dma_SetTransferCnt(en_dma_channel_t enCh, uint16_t u16TrnCnt);
en_result_t Dma_SetSourceIncMode(en_dma_channel_t enCh, en_address_mode_t enMode);
en_result_t Dma_SetDestinationIncMode(en_dma_channel_t enCh, en_address_mode_t enMode);
en_result_t Dma_EnableSourceRload(en_dma_channel_t enCh);
en_result_t Dma_DisableSourceRload(en_dma_channel_t enCh);
en_result_t Dma_EnableDestinationRload(en_dma_channel_t enCh);
en_result_t Dma_DisableDestinationRload(en_dma_channel_t enCh);
en_result_t Dma_EnableContinusTranfer(en_dma_channel_t enCh);
en_result_t Dma_DisableContinusTranfer(en_dma_channel_t enCh);
en_result_t Dma_EnableBcTcReload(en_dma_channel_t enCh);
en_result_t Dma_DisableBcTcReload(en_dma_channel_t enCh);
void Dma_HaltTranfer(void);
void Dma_RecoverTranfer(void);
en_result_t Dma_PauseChannelTranfer(en_dma_channel_t enCh);
en_result_t Dma_RecoverChannelTranfer(en_dma_channel_t enCh);
en_result_t Dma_SetTransferWidth(en_dma_channel_t enCh, en_dma_transfer_width_t enWidth);
en_result_t Dma_SetChPriority(en_dma_priority_t enPrio);
en_result_t Dma_EnableChannelIrq(en_dma_channel_t enCh);
en_result_t Dma_DisableChannelIrq(en_dma_channel_t enCh);
en_result_t Dma_EnableChannelErrIrq(en_dma_channel_t enCh);
en_result_t Dma_DisableChannelErrIrq(en_dma_channel_t enCh);
en_result_t Dma_ConfigIrq(en_dma_channel_t enCh,stc_dma_irq_sel_t* stcDmaIrqCfg,stc_dma_irq_calbakfn_pt_t* pstcDmaIrqCalbaks);
en_dma_stat_t Dma_GetStat(en_dma_channel_t enCh);
void Dma_ClrStat(en_dma_channel_t enCh);
//@} // DmacGroup
#ifdef __cplusplus
}
#endif
#endif /* __DMAC_H__ */
/*******************************************************************************
* EOF (not truncated)
******************************************************************************/