/* * Copyright (c) 2015, Freescale Semiconductor, Inc. * Copyright 2016-2017 NXP * All rights reserved. * * SPDX-License-Identifier: BSD-3-Clause */ #ifndef _FSL_LPSPI_EDMA_H_ #define _FSL_LPSPI_EDMA_H_ #include "fsl_lpspi.h" #include "fsl_edma.h" /*! * @addtogroup lpspi_edma_driver * @{ */ /*********************************************************************************************************************** * Definitions **********************************************************************************************************************/ /*! @name Driver version */ /*@{*/ /*! @brief LPSPI EDMA driver version 2.0.2. */ #define FSL_LPSPI_EDMA_DRIVER_VERSION (MAKE_VERSION(2, 0, 2)) /*@}*/ /*! * @brief Forward declaration of the _lpspi_master_edma_handle typedefs. */ typedef struct _lpspi_master_edma_handle lpspi_master_edma_handle_t; /*! * @brief Forward declaration of the _lpspi_slave_edma_handle typedefs. */ typedef struct _lpspi_slave_edma_handle lpspi_slave_edma_handle_t; /*! * @brief Completion callback function pointer type. * * @param base LPSPI peripheral base address. * @param handle Pointer to the handle for the LPSPI master. * @param status Success or error code describing whether the transfer completed. * @param userData Arbitrary pointer-dataSized value passed from the application. */ typedef void (*lpspi_master_edma_transfer_callback_t)(LPSPI_Type *base, lpspi_master_edma_handle_t *handle, status_t status, void *userData); /*! * @brief Completion callback function pointer type. * * @param base LPSPI peripheral base address. * @param handle Pointer to the handle for the LPSPI slave. * @param status Success or error code describing whether the transfer completed. * @param userData Arbitrary pointer-dataSized value passed from the application. */ typedef void (*lpspi_slave_edma_transfer_callback_t)(LPSPI_Type *base, lpspi_slave_edma_handle_t *handle, status_t status, void *userData); /*! @brief LPSPI master eDMA transfer handle structure used for transactional API. */ struct _lpspi_master_edma_handle { volatile bool isPcsContinuous; /*!< Is PCS continuous in transfer. */ volatile bool isByteSwap; /*!< A flag that whether should byte swap. */ volatile uint8_t fifoSize; /*!< FIFO dataSize. */ volatile uint8_t rxWatermark; /*!< Rx watermark. */ volatile uint8_t bytesEachWrite; /*!< Bytes for each write TDR. */ volatile uint8_t bytesEachRead; /*!< Bytes for each read RDR. */ volatile uint8_t bytesLastRead; /*!< Bytes for last read RDR. */ volatile uint8_t isThereExtraRxBytes; /*!< Is there extra RX byte. */ uint8_t *volatile txData; /*!< Send buffer. */ uint8_t *volatile rxData; /*!< Receive buffer. */ volatile size_t txRemainingByteCount; /*!< Number of bytes remaining to send.*/ volatile size_t rxRemainingByteCount; /*!< Number of bytes remaining to receive.*/ volatile uint32_t writeRegRemainingTimes; /*!< Write TDR register remaining times. */ volatile uint32_t readRegRemainingTimes; /*!< Read RDR register remaining times. */ uint32_t totalByteCount; /*!< Number of transfer bytes*/ uint32_t txBuffIfNull; /*!< Used if there is not txData for DMA purpose.*/ uint32_t rxBuffIfNull; /*!< Used if there is not rxData for DMA purpose.*/ uint32_t transmitCommand; /*!< Used to write TCR for DMA purpose.*/ volatile uint8_t state; /*!< LPSPI transfer state , _lpspi_transfer_state.*/ uint8_t nbytes; /*!< eDMA minor byte transfer count initially configured. */ lpspi_master_edma_transfer_callback_t callback; /*!< Completion callback. */ void *userData; /*!< Callback user data. */ edma_handle_t *edmaRxRegToRxDataHandle; /*!<edma_handle_t handle point used for RxReg to RxData buff*/ edma_handle_t *edmaTxDataToTxRegHandle; /*!<edma_handle_t handle point used for TxData to TxReg buff*/ edma_tcd_t lpspiSoftwareTCD[3]; /*!<SoftwareTCD, internal used*/ }; /*! @brief LPSPI slave eDMA transfer handle structure used for transactional API.*/ struct _lpspi_slave_edma_handle { volatile bool isByteSwap; /*!< A flag that whether should byte swap. */ volatile uint8_t fifoSize; /*!< FIFO dataSize. */ volatile uint8_t rxWatermark; /*!< Rx watermark. */ volatile uint8_t bytesEachWrite; /*!< Bytes for each write TDR. */ volatile uint8_t bytesEachRead; /*!< Bytes for each read RDR. */ volatile uint8_t bytesLastRead; /*!< Bytes for last read RDR. */ volatile uint8_t isThereExtraRxBytes; /*!< Is there extra RX byte. */ uint8_t nbytes; /*!< eDMA minor byte transfer count initially configured. */ uint8_t *volatile txData; /*!< Send buffer. */ uint8_t *volatile rxData; /*!< Receive buffer. */ volatile size_t txRemainingByteCount; /*!< Number of bytes remaining to send.*/ volatile size_t rxRemainingByteCount; /*!< Number of bytes remaining to receive.*/ volatile uint32_t writeRegRemainingTimes; /*!< Write TDR register remaining times. */ volatile uint32_t readRegRemainingTimes; /*!< Read RDR register remaining times. */ uint32_t totalByteCount; /*!< Number of transfer bytes*/ uint32_t txBuffIfNull; /*!< Used if there is not txData for DMA purpose.*/ uint32_t rxBuffIfNull; /*!< Used if there is not rxData for DMA purpose.*/ volatile uint8_t state; /*!< LPSPI transfer state.*/ uint32_t errorCount; /*!< Error count for slave transfer.*/ lpspi_slave_edma_transfer_callback_t callback; /*!< Completion callback. */ void *userData; /*!< Callback user data. */ edma_handle_t *edmaRxRegToRxDataHandle; /*!<edma_handle_t handle point used for RxReg to RxData buff*/ edma_handle_t *edmaTxDataToTxRegHandle; /*!<edma_handle_t handle point used for TxData to TxReg*/ edma_tcd_t lpspiSoftwareTCD[2]; /*!<SoftwareTCD, internal used*/ }; /*********************************************************************************************************************** * API **********************************************************************************************************************/ #if defined(__cplusplus) extern "C" { #endif /*_cplusplus*/ /*Transactional APIs*/ /*! * @brief Initializes the LPSPI master eDMA handle. * * This function initializes the LPSPI eDMA handle which can be used for other LPSPI transactional APIs. Usually, for a * specified LPSPI instance, call this API once to get the initialized handle. * * Note that the LPSPI eDMA has a separated (Rx and Rx as two sources) or shared (Rx and Tx are the same source) DMA * request source. * (1) For a separated DMA request source, enable and set the Rx DMAMUX source for edmaRxRegToRxDataHandle and * Tx DMAMUX source for edmaIntermediaryToTxRegHandle. * (2) For a shared DMA request source, enable and set the Rx/Rx DMAMUX source for edmaRxRegToRxDataHandle. * * @param base LPSPI peripheral base address. * @param handle LPSPI handle pointer to lpspi_master_edma_handle_t. * @param callback LPSPI callback. * @param userData callback function parameter. * @param edmaRxRegToRxDataHandle edmaRxRegToRxDataHandle pointer to edma_handle_t. * @param edmaTxDataToTxRegHandle edmaTxDataToTxRegHandle pointer to edma_handle_t. */ void LPSPI_MasterTransferCreateHandleEDMA(LPSPI_Type *base, lpspi_master_edma_handle_t *handle, lpspi_master_edma_transfer_callback_t callback, void *userData, edma_handle_t *edmaRxRegToRxDataHandle, edma_handle_t *edmaTxDataToTxRegHandle); /*! * @brief LPSPI master transfer data using eDMA. * * This function transfers data using eDMA. This is a non-blocking function, which returns right away. When all data * is transferred, the callback function is called. * * Note: * The transfer data size should be an integer multiple of bytesPerFrame if bytesPerFrame is less than or equal to 4. * For bytesPerFrame greater than 4: * The transfer data size should be equal to bytesPerFrame if the bytesPerFrame is not an integer multiple of 4. * Otherwise, the transfer data size can be an integer multiple of bytesPerFrame. * * @param base LPSPI peripheral base address. * @param handle pointer to lpspi_master_edma_handle_t structure which stores the transfer state. * @param transfer pointer to lpspi_transfer_t structure. * @return status of status_t. */ status_t LPSPI_MasterTransferEDMA(LPSPI_Type *base, lpspi_master_edma_handle_t *handle, lpspi_transfer_t *transfer); /*! * @brief LPSPI master aborts a transfer which is using eDMA. * * This function aborts a transfer which is using eDMA. * * @param base LPSPI peripheral base address. * @param handle pointer to lpspi_master_edma_handle_t structure which stores the transfer state. */ void LPSPI_MasterTransferAbortEDMA(LPSPI_Type *base, lpspi_master_edma_handle_t *handle); /*! * @brief Gets the master eDMA transfer remaining bytes. * * This function gets the master eDMA transfer remaining bytes. * * @param base LPSPI peripheral base address. * @param handle pointer to lpspi_master_edma_handle_t structure which stores the transfer state. * @param count Number of bytes transferred so far by the EDMA transaction. * @return status of status_t. */ status_t LPSPI_MasterTransferGetCountEDMA(LPSPI_Type *base, lpspi_master_edma_handle_t *handle, size_t *count); /*! * @brief Initializes the LPSPI slave eDMA handle. * * This function initializes the LPSPI eDMA handle which can be used for other LPSPI transactional APIs. Usually, for a * specified LPSPI instance, call this API once to get the initialized handle. * * Note that LPSPI eDMA has a separated (Rx and Tx as two sources) or shared (Rx and Tx as the same source) DMA request * source. * * (1) For a separated DMA request source, enable and set the Rx DMAMUX source for edmaRxRegToRxDataHandle and * Tx DMAMUX source for edmaTxDataToTxRegHandle. * (2) For a shared DMA request source, enable and set the Rx/Rx DMAMUX source for edmaRxRegToRxDataHandle . * * @param base LPSPI peripheral base address. * @param handle LPSPI handle pointer to lpspi_slave_edma_handle_t. * @param callback LPSPI callback. * @param userData callback function parameter. * @param edmaRxRegToRxDataHandle edmaRxRegToRxDataHandle pointer to edma_handle_t. * @param edmaTxDataToTxRegHandle edmaTxDataToTxRegHandle pointer to edma_handle_t. */ void LPSPI_SlaveTransferCreateHandleEDMA(LPSPI_Type *base, lpspi_slave_edma_handle_t *handle, lpspi_slave_edma_transfer_callback_t callback, void *userData, edma_handle_t *edmaRxRegToRxDataHandle, edma_handle_t *edmaTxDataToTxRegHandle); /*! * @brief LPSPI slave transfers data using eDMA. * * This function transfers data using eDMA. This is a non-blocking function, which return right away. When all data * is transferred, the callback function is called. * * Note: * The transfer data size should be an integer multiple of bytesPerFrame if bytesPerFrame is less than or equal to 4. * For bytesPerFrame greater than 4: * The transfer data size should be equal to bytesPerFrame if the bytesPerFrame is not an integer multiple of 4. * Otherwise, the transfer data size can be an integer multiple of bytesPerFrame. * * @param base LPSPI peripheral base address. * @param handle pointer to lpspi_slave_edma_handle_t structure which stores the transfer state. * @param transfer pointer to lpspi_transfer_t structure. * @return status of status_t. */ status_t LPSPI_SlaveTransferEDMA(LPSPI_Type *base, lpspi_slave_edma_handle_t *handle, lpspi_transfer_t *transfer); /*! * @brief LPSPI slave aborts a transfer which is using eDMA. * * This function aborts a transfer which is using eDMA. * * @param base LPSPI peripheral base address. * @param handle pointer to lpspi_slave_edma_handle_t structure which stores the transfer state. */ void LPSPI_SlaveTransferAbortEDMA(LPSPI_Type *base, lpspi_slave_edma_handle_t *handle); /*! * @brief Gets the slave eDMA transfer remaining bytes. * * This function gets the slave eDMA transfer remaining bytes. * * @param base LPSPI peripheral base address. * @param handle pointer to lpspi_slave_edma_handle_t structure which stores the transfer state. * @param count Number of bytes transferred so far by the eDMA transaction. * @return status of status_t. */ status_t LPSPI_SlaveTransferGetCountEDMA(LPSPI_Type *base, lpspi_slave_edma_handle_t *handle, size_t *count); #if defined(__cplusplus) } #endif /*_cplusplus*/ /*! *@} */ #endif /*_FSL_LPSPI_EDMA_H_*/