Src/stm32h7xx_hal_mmc_ex.c - third_party/github/STMicroelectronics/stm32h7xx_hal_driver - Git at Google

 /**
   ******************************************************************************
   * @file    stm32h7xx_hal_mmc_ex.c
   * @author  MCD Application Team
   * @brief   MMC card Extended HAL module driver.
   *          This file provides firmware functions to manage the following
   *          functionalities of the Secure Digital (MMC) peripheral:
   *           + Extended features functions
   *
   @verbatim
   ==============================================================================
                         ##### How to use this driver #####
   ==============================================================================
   [..]
    The MMC Extension HAL driver can be used as follows:
    (+) Configure Buffer0 and Buffer1 start address and Buffer size using HAL_MMCEx_ConfigDMAMultiBuffer() function.

    (+) Start Read and Write for multibuffer mode using HAL_MMCEx_ReadBlocksDMAMultiBuffer() and
        HAL_MMCEx_WriteBlocksDMAMultiBuffer() functions.

   @endverbatim
   ******************************************************************************
   * @attention
   *
   * <h2><center>&copy; Copyright (c) 2017 STMicroelectronics.
   * All rights reserved.</center></h2>
   *
   * This software component is licensed by ST under BSD 3-Clause license,
   * the "License"; You may not use this file except in compliance with the
   * License. You may obtain a copy of the License at:
   *                       opensource.org/licenses/BSD-3-Clause
   *
   ******************************************************************************
   */

 /* Includes ------------------------------------------------------------------*/
 #include "stm32h7xx_hal.h"

 /** @addtogroup STM32H7xx_HAL_Driver
   * @{
   */

 /** @defgroup MMCEx MMCEx
   * @brief MMC Extended HAL module driver
   * @{
   */

 #ifdef HAL_MMC_MODULE_ENABLED

 /* Private typedef -----------------------------------------------------------*/
 /* Private define ------------------------------------------------------------*/
 /* Private macro -------------------------------------------------------------*/
 /* Private variables ---------------------------------------------------------*/
 /* Private function prototypes -----------------------------------------------*/
 /* Private functions ---------------------------------------------------------*/
 /* Exported functions --------------------------------------------------------*/
 /** @addtogroup MMCEx_Exported_Functions
   * @{
   */


 /** @addtogroup MMCEx_Exported_Functions_Group1
   *  @brief   Multibuffer functions
   *
 @verbatim
   ==============================================================================
           ##### Multibuffer functions #####
   ==============================================================================
   [..]
     This section provides functions allowing to configure the multibuffer mode and start read and write
     multibuffer mode for MMC HAL driver.

 @endverbatim
   * @{
   */

 /**
   * @brief  Configure DMA Dual Buffer mode. The Data transfer is managed by an Internal DMA.
   * @param  hmmc: MMC handle
   * @param  pDataBuffer0: Pointer to the buffer0 that will contain/receive the transferred data
   * @param  pDataBuffer1: Pointer to the buffer1 that will contain/receive the transferred data
   * @param  BufferSize: Size of Buffer0 in Blocks. Buffer0 and Buffer1 must have the same size.
   * @retval HAL status
   */
 HAL_StatusTypeDef HAL_MMCEx_ConfigDMAMultiBuffer(MMC_HandleTypeDef *hmmc, uint32_t *pDataBuffer0,
                                                  uint32_t *pDataBuffer1, uint32_t BufferSize)
 {
   if (hmmc->State == HAL_MMC_STATE_READY)
   {
     hmmc->Instance->IDMABASE0 = (uint32_t) pDataBuffer0 ;
     hmmc->Instance->IDMABASE1 = (uint32_t) pDataBuffer1 ;
     hmmc->Instance->IDMABSIZE = (uint32_t)(MMC_BLOCKSIZE * BufferSize);

     return HAL_OK;
   }
   else
   {
     return HAL_BUSY;
   }
 }

 /**
   * @brief  Reads block(s) from a specified address in a card. The received Data will be stored in Buffer0 and Buffer1.
   *         Buffer0, Buffer1 and BufferSize need to be configured by function HAL_MMCEx_ConfigDMAMultiBuffer before
   *         call this function.
   * @param  hmmc: MMC handle
   * @param  BlockAdd: Block Address from where data is to be read
   * @param  NumberOfBlocks: Total number of blocks to read
   * @retval HAL status
   */
 HAL_StatusTypeDef HAL_MMCEx_ReadBlocksDMAMultiBuffer(MMC_HandleTypeDef *hmmc, uint32_t BlockAdd,
                                                      uint32_t NumberOfBlocks)
 {
   SDMMC_DataInitTypeDef config;
   uint32_t DmaBase0_reg;
   uint32_t DmaBase1_reg;
   uint32_t errorstate;
   uint32_t add = BlockAdd;

   if (hmmc->State == HAL_MMC_STATE_READY)
   {
     if ((BlockAdd + NumberOfBlocks) > (hmmc->MmcCard.LogBlockNbr))
     {
       hmmc->ErrorCode |= HAL_MMC_ERROR_ADDR_OUT_OF_RANGE;
       return HAL_ERROR;
     }

     /* Check the case of 4kB blocks (field DATA SECTOR SIZE of extended CSD register) */
     if (((hmmc->Ext_CSD[(MMC_EXT_CSD_DATA_SEC_SIZE_INDEX / 4)] >> MMC_EXT_CSD_DATA_SEC_SIZE_POS) & 0x000000FFU) != 0x0U)
     {
       if ((NumberOfBlocks % 8U) != 0U)
       {
         /* The number of blocks should be a multiple of 8 sectors of 512 bytes = 4 KBytes */
         hmmc->ErrorCode |= HAL_MMC_ERROR_BLOCK_LEN_ERR;
         return HAL_ERROR;
       }

       if ((BlockAdd % 8U) != 0U)
       {
         /* The address should be aligned to 8 (corresponding to 4 KBytes blocks) */
         hmmc->ErrorCode |= HAL_MMC_ERROR_ADDR_MISALIGNED;
         return HAL_ERROR;
       }
     }

     DmaBase0_reg = hmmc->Instance->IDMABASE0;
     DmaBase1_reg = hmmc->Instance->IDMABASE1;

     if ((hmmc->Instance->IDMABSIZE == 0U) || (DmaBase0_reg == 0U) || (DmaBase1_reg == 0U))
     {
       hmmc->ErrorCode = HAL_MMC_ERROR_ADDR_OUT_OF_RANGE;
       return HAL_ERROR;
     }

     /* Initialize data control register */
     hmmc->Instance->DCTRL = 0;

     hmmc->ErrorCode = HAL_MMC_ERROR_NONE;
     hmmc->State = HAL_MMC_STATE_BUSY;

     if ((hmmc->MmcCard.CardType) != MMC_HIGH_CAPACITY_CARD)
     {
       add *= 512U;
     }

     /* Configure the MMC DPSM (Data Path State Machine) */
     config.DataTimeOut   = SDMMC_DATATIMEOUT;
     config.DataLength    = MMC_BLOCKSIZE * NumberOfBlocks;
     config.DataBlockSize = SDMMC_DATABLOCK_SIZE_512B;
     config.TransferDir   = SDMMC_TRANSFER_DIR_TO_SDMMC;
     config.TransferMode  = SDMMC_TRANSFER_MODE_BLOCK;
     config.DPSM          = SDMMC_DPSM_DISABLE;
     (void)SDMMC_ConfigData(hmmc->Instance, &config);

     hmmc->Instance->DCTRL |= SDMMC_DCTRL_FIFORST;

     __SDMMC_CMDTRANS_ENABLE(hmmc->Instance);

     hmmc->Instance->IDMACTRL = SDMMC_ENABLE_IDMA_DOUBLE_BUFF0;

     /* Read Blocks in DMA mode */
     hmmc->Context = (MMC_CONTEXT_READ_MULTIPLE_BLOCK | MMC_CONTEXT_DMA);

     /* Read Multi Block command */
     errorstate = SDMMC_CmdReadMultiBlock(hmmc->Instance, add);
     if (errorstate != HAL_MMC_ERROR_NONE)
     {
       hmmc->State = HAL_MMC_STATE_READY;
       hmmc->ErrorCode |= errorstate;
       return HAL_ERROR;
     }

     __HAL_MMC_ENABLE_IT(hmmc, (SDMMC_IT_DCRCFAIL | SDMMC_IT_DTIMEOUT | SDMMC_IT_RXOVERR | SDMMC_IT_DATAEND |
                                SDMMC_FLAG_IDMATE | SDMMC_FLAG_IDMABTC));

     return HAL_OK;
   }
   else
   {
     return HAL_BUSY;
   }

 }

 /**
   * @brief  Write block(s) to a specified address in a card. The transferred Data are stored in Buffer0 and Buffer1.
   *         Buffer0, Buffer1 and BufferSize need to be configured by function HAL_MMCEx_ConfigDMAMultiBuffer before
   *         call this function.
   * @param  hmmc: MMC handle
   * @param  BlockAdd: Block Address from where data is to be read
   * @param  NumberOfBlocks: Total number of blocks to read
   * @retval HAL status
   */
 HAL_StatusTypeDef HAL_MMCEx_WriteBlocksDMAMultiBuffer(MMC_HandleTypeDef *hmmc, uint32_t BlockAdd,
                                                       uint32_t NumberOfBlocks)
 {
   SDMMC_DataInitTypeDef config;
   uint32_t errorstate;
   uint32_t DmaBase0_reg;
   uint32_t DmaBase1_reg;
   uint32_t add = BlockAdd;

   if (hmmc->State == HAL_MMC_STATE_READY)
   {
     if ((BlockAdd + NumberOfBlocks) > (hmmc->MmcCard.LogBlockNbr))
     {
       hmmc->ErrorCode |= HAL_MMC_ERROR_ADDR_OUT_OF_RANGE;
       return HAL_ERROR;
     }

     /* Check the case of 4kB blocks (field DATA SECTOR SIZE of extended CSD register) */
     if (((hmmc->Ext_CSD[(MMC_EXT_CSD_DATA_SEC_SIZE_INDEX / 4)] >> MMC_EXT_CSD_DATA_SEC_SIZE_POS) & 0x000000FFU) != 0x0U)
     {
       if ((NumberOfBlocks % 8U) != 0U)
       {
         /* The number of blocks should be a multiple of 8 sectors of 512 bytes = 4 KBytes */
         hmmc->ErrorCode |= HAL_MMC_ERROR_BLOCK_LEN_ERR;
         return HAL_ERROR;
       }

       if ((BlockAdd % 8U) != 0U)
       {
         /* The address should be aligned to 8 (corresponding to 4 KBytes blocks) */
         hmmc->ErrorCode |= HAL_MMC_ERROR_ADDR_MISALIGNED;
         return HAL_ERROR;
       }
     }

     DmaBase0_reg = hmmc->Instance->IDMABASE0;
     DmaBase1_reg = hmmc->Instance->IDMABASE1;

     if ((hmmc->Instance->IDMABSIZE == 0U) || (DmaBase0_reg == 0U) || (DmaBase1_reg == 0U))
     {
       hmmc->ErrorCode = HAL_MMC_ERROR_ADDR_OUT_OF_RANGE;
       return HAL_ERROR;
     }

     /* Initialize data control register */
     hmmc->Instance->DCTRL = 0;

     hmmc->ErrorCode = HAL_MMC_ERROR_NONE;

     hmmc->State = HAL_MMC_STATE_BUSY;

     if ((hmmc->MmcCard.CardType) != MMC_HIGH_CAPACITY_CARD)
     {
       add *= 512U;
     }

     /* Configure the MMC DPSM (Data Path State Machine) */
     config.DataTimeOut   = SDMMC_DATATIMEOUT;
     config.DataLength    = MMC_BLOCKSIZE * NumberOfBlocks;
     config.DataBlockSize = SDMMC_DATABLOCK_SIZE_512B;
     config.TransferDir   = SDMMC_TRANSFER_DIR_TO_CARD;
     config.TransferMode  = SDMMC_TRANSFER_MODE_BLOCK;
     config.DPSM          = SDMMC_DPSM_DISABLE;
     (void)SDMMC_ConfigData(hmmc->Instance, &config);

     __SDMMC_CMDTRANS_ENABLE(hmmc->Instance);

     hmmc->Instance->IDMACTRL = SDMMC_ENABLE_IDMA_DOUBLE_BUFF0;

     /* Write Blocks in DMA mode */
     hmmc->Context = (MMC_CONTEXT_WRITE_MULTIPLE_BLOCK | MMC_CONTEXT_DMA);

     /* Write Multi Block command */
     errorstate = SDMMC_CmdWriteMultiBlock(hmmc->Instance, add);
     if (errorstate != HAL_MMC_ERROR_NONE)
     {
       hmmc->State = HAL_MMC_STATE_READY;
       hmmc->ErrorCode |= errorstate;
       return HAL_ERROR;
     }

     __HAL_MMC_ENABLE_IT(hmmc, (SDMMC_IT_DCRCFAIL | SDMMC_IT_DTIMEOUT | SDMMC_IT_TXUNDERR | SDMMC_IT_DATAEND |
                                SDMMC_FLAG_IDMATE | SDMMC_FLAG_IDMABTC));

     return HAL_OK;
   }
   else
   {
     return HAL_BUSY;
   }
 }


 /**
   * @brief  Change the DMA Buffer0 or Buffer1 address on the fly.
   * @param  hmmc:           pointer to a MMC_HandleTypeDef structure.
   * @param  Buffer:        the buffer to be changed, This parameter can be one of
   *                        the following values: MMC_DMA_BUFFER0 or MMC_DMA_BUFFER1
   * @param  pDataBuffer:   The new address
   * @note   The BUFFER0 address can be changed only when the current transfer use
   *         BUFFER1 and the BUFFER1 address can be changed only when the current
   *         transfer use BUFFER0.
   * @retval HAL status
   */
 HAL_StatusTypeDef HAL_MMCEx_ChangeDMABuffer(MMC_HandleTypeDef *hmmc, HAL_MMCEx_DMABuffer_MemoryTypeDef Buffer,
                                             uint32_t *pDataBuffer)
 {
   if (Buffer == MMC_DMA_BUFFER0)
   {
     /* change the buffer0 address */
     hmmc->Instance->IDMABASE0 = (uint32_t)pDataBuffer;
   }
   else
   {
     /* change the memory1 address */
     hmmc->Instance->IDMABASE1 = (uint32_t)pDataBuffer;
   }

   return HAL_OK;
 }


 /**
   * @}
   */

 /**
   * @}
   */

 #endif /* HAL_MMC_MODULE_ENABLED */

 /**
   * @}
   */

 /**
   * @}
   */

 /************************ (C) COPYRIGHT STMicroelectronics *****END OF FILE****/
	/**
	******************************************************************************
	* @file stm32h7xx_hal_mmc_ex.c
	* @author MCD Application Team
	* @brief MMC card Extended HAL module driver.
	* This file provides firmware functions to manage the following
	* functionalities of the Secure Digital (MMC) peripheral:
	* + Extended features functions
	*
	@verbatim
	==============================================================================
	##### How to use this driver #####
	==============================================================================
	[..]
	The MMC Extension HAL driver can be used as follows:
	(+) Configure Buffer0 and Buffer1 start address and Buffer size using HAL_MMCEx_ConfigDMAMultiBuffer() function.

	(+) Start Read and Write for multibuffer mode using HAL_MMCEx_ReadBlocksDMAMultiBuffer() and
	HAL_MMCEx_WriteBlocksDMAMultiBuffer() functions.

	@endverbatim
	******************************************************************************
	* @attention
	*
	* <h2><center>© Copyright (c) 2017 STMicroelectronics.
	* All rights reserved.</center></h2>
	*
	* This software component is licensed by ST under BSD 3-Clause license,
	* the "License"; You may not use this file except in compliance with the
	* License. You may obtain a copy of the License at:
	* opensource.org/licenses/BSD-3-Clause
	*
	******************************************************************************
	*/

	/* Includes ------------------------------------------------------------------*/
	#include "stm32h7xx_hal.h"

	/** @addtogroup STM32H7xx_HAL_Driver
	* @{
	*/

	/** @defgroup MMCEx MMCEx
	* @brief MMC Extended HAL module driver
	* @{
	*/

	#ifdef HAL_MMC_MODULE_ENABLED

	/* Private typedef -----------------------------------------------------------*/
	/* Private define ------------------------------------------------------------*/
	/* Private macro -------------------------------------------------------------*/
	/* Private variables ---------------------------------------------------------*/
	/* Private function prototypes -----------------------------------------------*/
	/* Private functions ---------------------------------------------------------*/
	/* Exported functions --------------------------------------------------------*/
	/** @addtogroup MMCEx_Exported_Functions
	* @{
	*/



	/** @addtogroup MMCEx_Exported_Functions_Group1
	* @brief Multibuffer functions
	*
	@verbatim
	==============================================================================
	##### Multibuffer functions #####
	==============================================================================
	[..]
	This section provides functions allowing to configure the multibuffer mode and start read and write
	multibuffer mode for MMC HAL driver.

	@endverbatim
	* @{
	*/

	/**
	* @brief Configure DMA Dual Buffer mode. The Data transfer is managed by an Internal DMA.
	* @param hmmc: MMC handle
	* @param pDataBuffer0: Pointer to the buffer0 that will contain/receive the transferred data
	* @param pDataBuffer1: Pointer to the buffer1 that will contain/receive the transferred data
	* @param BufferSize: Size of Buffer0 in Blocks. Buffer0 and Buffer1 must have the same size.
	* @retval HAL status
	*/
	HAL_StatusTypeDef HAL_MMCEx_ConfigDMAMultiBuffer(MMC_HandleTypeDef hmmc, uint32_t pDataBuffer0,
	uint32_t *pDataBuffer1, uint32_t BufferSize)
	{
	if (hmmc->State == HAL_MMC_STATE_READY)
	{
	hmmc->Instance->IDMABASE0 = (uint32_t) pDataBuffer0 ;
	hmmc->Instance->IDMABASE1 = (uint32_t) pDataBuffer1 ;
	hmmc->Instance->IDMABSIZE = (uint32_t)(MMC_BLOCKSIZE * BufferSize);

	return HAL_OK;
	}
	else
	{
	return HAL_BUSY;
	}
	}

	/**
	* @brief Reads block(s) from a specified address in a card. The received Data will be stored in Buffer0 and Buffer1.
	* Buffer0, Buffer1 and BufferSize need to be configured by function HAL_MMCEx_ConfigDMAMultiBuffer before
	* call this function.
	* @param hmmc: MMC handle
	* @param BlockAdd: Block Address from where data is to be read
	* @param NumberOfBlocks: Total number of blocks to read
	* @retval HAL status
	*/
	HAL_StatusTypeDef HAL_MMCEx_ReadBlocksDMAMultiBuffer(MMC_HandleTypeDef *hmmc, uint32_t BlockAdd,
	uint32_t NumberOfBlocks)
	{
	SDMMC_DataInitTypeDef config;
	uint32_t DmaBase0_reg;
	uint32_t DmaBase1_reg;
	uint32_t errorstate;
	uint32_t add = BlockAdd;

	if (hmmc->State == HAL_MMC_STATE_READY)
	{
	if ((BlockAdd + NumberOfBlocks) > (hmmc->MmcCard.LogBlockNbr))
	{
	hmmc->ErrorCode \|= HAL_MMC_ERROR_ADDR_OUT_OF_RANGE;
	return HAL_ERROR;
	}

	/* Check the case of 4kB blocks (field DATA SECTOR SIZE of extended CSD register) */
	if (((hmmc->Ext_CSD[(MMC_EXT_CSD_DATA_SEC_SIZE_INDEX / 4)] >> MMC_EXT_CSD_DATA_SEC_SIZE_POS) & 0x000000FFU) != 0x0U)
	{
	if ((NumberOfBlocks % 8U) != 0U)
	{
	/* The number of blocks should be a multiple of 8 sectors of 512 bytes = 4 KBytes */
	hmmc->ErrorCode \|= HAL_MMC_ERROR_BLOCK_LEN_ERR;
	return HAL_ERROR;
	}

	if ((BlockAdd % 8U) != 0U)
	{
	/* The address should be aligned to 8 (corresponding to 4 KBytes blocks) */
	hmmc->ErrorCode \|= HAL_MMC_ERROR_ADDR_MISALIGNED;
	return HAL_ERROR;
	}
	}

	DmaBase0_reg = hmmc->Instance->IDMABASE0;
	DmaBase1_reg = hmmc->Instance->IDMABASE1;

	if ((hmmc->Instance->IDMABSIZE == 0U) \|\| (DmaBase0_reg == 0U) \|\| (DmaBase1_reg == 0U))
	{
	hmmc->ErrorCode = HAL_MMC_ERROR_ADDR_OUT_OF_RANGE;
	return HAL_ERROR;
	}

	/* Initialize data control register */
	hmmc->Instance->DCTRL = 0;

	hmmc->ErrorCode = HAL_MMC_ERROR_NONE;
	hmmc->State = HAL_MMC_STATE_BUSY;

	if ((hmmc->MmcCard.CardType) != MMC_HIGH_CAPACITY_CARD)
	{
	add *= 512U;
	}

	/* Configure the MMC DPSM (Data Path State Machine) */
	config.DataTimeOut = SDMMC_DATATIMEOUT;
	config.DataLength = MMC_BLOCKSIZE * NumberOfBlocks;
	config.DataBlockSize = SDMMC_DATABLOCK_SIZE_512B;
	config.TransferDir = SDMMC_TRANSFER_DIR_TO_SDMMC;
	config.TransferMode = SDMMC_TRANSFER_MODE_BLOCK;
	config.DPSM = SDMMC_DPSM_DISABLE;
	(void)SDMMC_ConfigData(hmmc->Instance, &config);

	hmmc->Instance->DCTRL \|= SDMMC_DCTRL_FIFORST;

	__SDMMC_CMDTRANS_ENABLE(hmmc->Instance);

	hmmc->Instance->IDMACTRL = SDMMC_ENABLE_IDMA_DOUBLE_BUFF0;

	/* Read Blocks in DMA mode */
	hmmc->Context = (MMC_CONTEXT_READ_MULTIPLE_BLOCK \| MMC_CONTEXT_DMA);

	/* Read Multi Block command */
	errorstate = SDMMC_CmdReadMultiBlock(hmmc->Instance, add);
	if (errorstate != HAL_MMC_ERROR_NONE)
	{
	hmmc->State = HAL_MMC_STATE_READY;
	hmmc->ErrorCode \|= errorstate;
	return HAL_ERROR;
	}

	__HAL_MMC_ENABLE_IT(hmmc, (SDMMC_IT_DCRCFAIL \| SDMMC_IT_DTIMEOUT \| SDMMC_IT_RXOVERR \| SDMMC_IT_DATAEND \|
	SDMMC_FLAG_IDMATE \| SDMMC_FLAG_IDMABTC));

	return HAL_OK;
	}
	else
	{
	return HAL_BUSY;
	}

	}

	/**
	* @brief Write block(s) to a specified address in a card. The transferred Data are stored in Buffer0 and Buffer1.
	* Buffer0, Buffer1 and BufferSize need to be configured by function HAL_MMCEx_ConfigDMAMultiBuffer before
	* call this function.
	* @param hmmc: MMC handle
	* @param BlockAdd: Block Address from where data is to be read
	* @param NumberOfBlocks: Total number of blocks to read
	* @retval HAL status
	*/
	HAL_StatusTypeDef HAL_MMCEx_WriteBlocksDMAMultiBuffer(MMC_HandleTypeDef *hmmc, uint32_t BlockAdd,
	uint32_t NumberOfBlocks)
	{
	SDMMC_DataInitTypeDef config;
	uint32_t errorstate;
	uint32_t DmaBase0_reg;
	uint32_t DmaBase1_reg;
	uint32_t add = BlockAdd;

	if (hmmc->State == HAL_MMC_STATE_READY)
	{
	if ((BlockAdd + NumberOfBlocks) > (hmmc->MmcCard.LogBlockNbr))
	{
	hmmc->ErrorCode \|= HAL_MMC_ERROR_ADDR_OUT_OF_RANGE;
	return HAL_ERROR;
	}

	/* Check the case of 4kB blocks (field DATA SECTOR SIZE of extended CSD register) */
	if (((hmmc->Ext_CSD[(MMC_EXT_CSD_DATA_SEC_SIZE_INDEX / 4)] >> MMC_EXT_CSD_DATA_SEC_SIZE_POS) & 0x000000FFU) != 0x0U)
	{
	if ((NumberOfBlocks % 8U) != 0U)
	{
	/* The number of blocks should be a multiple of 8 sectors of 512 bytes = 4 KBytes */
	hmmc->ErrorCode \|= HAL_MMC_ERROR_BLOCK_LEN_ERR;
	return HAL_ERROR;
	}

	if ((BlockAdd % 8U) != 0U)
	{
	/* The address should be aligned to 8 (corresponding to 4 KBytes blocks) */
	hmmc->ErrorCode \|= HAL_MMC_ERROR_ADDR_MISALIGNED;
	return HAL_ERROR;
	}
	}

	DmaBase0_reg = hmmc->Instance->IDMABASE0;
	DmaBase1_reg = hmmc->Instance->IDMABASE1;

	if ((hmmc->Instance->IDMABSIZE == 0U) \|\| (DmaBase0_reg == 0U) \|\| (DmaBase1_reg == 0U))
	{
	hmmc->ErrorCode = HAL_MMC_ERROR_ADDR_OUT_OF_RANGE;
	return HAL_ERROR;
	}

	/* Initialize data control register */
	hmmc->Instance->DCTRL = 0;

	hmmc->ErrorCode = HAL_MMC_ERROR_NONE;

	hmmc->State = HAL_MMC_STATE_BUSY;

	if ((hmmc->MmcCard.CardType) != MMC_HIGH_CAPACITY_CARD)
	{
	add *= 512U;
	}

	/* Configure the MMC DPSM (Data Path State Machine) */
	config.DataTimeOut = SDMMC_DATATIMEOUT;
	config.DataLength = MMC_BLOCKSIZE * NumberOfBlocks;
	config.DataBlockSize = SDMMC_DATABLOCK_SIZE_512B;
	config.TransferDir = SDMMC_TRANSFER_DIR_TO_CARD;
	config.TransferMode = SDMMC_TRANSFER_MODE_BLOCK;
	config.DPSM = SDMMC_DPSM_DISABLE;
	(void)SDMMC_ConfigData(hmmc->Instance, &config);

	__SDMMC_CMDTRANS_ENABLE(hmmc->Instance);

	hmmc->Instance->IDMACTRL = SDMMC_ENABLE_IDMA_DOUBLE_BUFF0;

	/* Write Blocks in DMA mode */
	hmmc->Context = (MMC_CONTEXT_WRITE_MULTIPLE_BLOCK \| MMC_CONTEXT_DMA);

	/* Write Multi Block command */
	errorstate = SDMMC_CmdWriteMultiBlock(hmmc->Instance, add);
	if (errorstate != HAL_MMC_ERROR_NONE)
	{
	hmmc->State = HAL_MMC_STATE_READY;
	hmmc->ErrorCode \|= errorstate;
	return HAL_ERROR;
	}

	__HAL_MMC_ENABLE_IT(hmmc, (SDMMC_IT_DCRCFAIL \| SDMMC_IT_DTIMEOUT \| SDMMC_IT_TXUNDERR \| SDMMC_IT_DATAEND \|
	SDMMC_FLAG_IDMATE \| SDMMC_FLAG_IDMABTC));

	return HAL_OK;
	}
	else
	{
	return HAL_BUSY;
	}
	}


	/**
	* @brief Change the DMA Buffer0 or Buffer1 address on the fly.
	* @param hmmc: pointer to a MMC_HandleTypeDef structure.
	* @param Buffer: the buffer to be changed, This parameter can be one of
	* the following values: MMC_DMA_BUFFER0 or MMC_DMA_BUFFER1
	* @param pDataBuffer: The new address
	* @note The BUFFER0 address can be changed only when the current transfer use
	* BUFFER1 and the BUFFER1 address can be changed only when the current
	* transfer use BUFFER0.
	* @retval HAL status
	*/
	HAL_StatusTypeDef HAL_MMCEx_ChangeDMABuffer(MMC_HandleTypeDef *hmmc, HAL_MMCEx_DMABuffer_MemoryTypeDef Buffer,
	uint32_t *pDataBuffer)
	{
	if (Buffer == MMC_DMA_BUFFER0)
	{
	/* change the buffer0 address */
	hmmc->Instance->IDMABASE0 = (uint32_t)pDataBuffer;
	}
	else
	{
	/* change the memory1 address */
	hmmc->Instance->IDMABASE1 = (uint32_t)pDataBuffer;
	}

	return HAL_OK;
	}


	/**
	* @}
	*/

	/**
	* @}
	*/

	#endif /* HAL_MMC_MODULE_ENABLED */

	/**
	* @}
	*/

	/**
	* @}
	*/

	/********************** (C) COPYRIGHT STMicroelectronics *END OF FILE**/