/* * Copyright (c) 2015, Freescale Semiconductor, Inc. * Copyright 2016-2019 NXP * All rights reserved. * * SPDX-License-Identifier: BSD-3-Clause */ #include "fsl_flexcan_edma.h" /******************************************************************************* * Definitions ******************************************************************************/ /* Component ID definition, used by tools. */ #ifndef FSL_COMPONENT_ID #define FSL_COMPONENT_ID "platform.drivers.flexcan_edma" #endif /*base, flexcanPrivateHandle->handle); if (NULL != flexcanPrivateHandle->handle->callback) { flexcanPrivateHandle->handle->callback(flexcanPrivateHandle->base, flexcanPrivateHandle->handle, kStatus_FLEXCAN_RxFifoIdle, flexcanPrivateHandle->handle->userData); } } } /*! * brief Initializes the FlexCAN handle, which is used in transactional functions. * * param base FlexCAN peripheral base address. * param handle Pointer to flexcan_edma_handle_t structure. * param callback The callback function. * param userData The parameter of the callback function. * param rxFifoEdmaHandle User-requested DMA handle for Rx FIFO DMA transfer. */ void FLEXCAN_TransferCreateHandleEDMA(CAN_Type *base, flexcan_edma_handle_t *handle, flexcan_edma_transfer_callback_t callback, void *userData, edma_handle_t *rxFifoEdmaHandle) { assert(NULL != handle); uint32_t instance = FLEXCAN_GetInstance(base); s_flexcanEdmaPrivateHandle[instance].base = base; s_flexcanEdmaPrivateHandle[instance].handle = handle; (void)memset(handle, 0, sizeof(flexcan_edma_handle_t)); handle->rxFifoState = (uint8_t)KFLEXCAN_RxFifoIdle; handle->rxFifoEdmaHandle = rxFifoEdmaHandle; /* Register Callback. */ handle->callback = callback; handle->userData = userData; /* Configure Rx FIFO DMA. */ EDMA_SetCallback(handle->rxFifoEdmaHandle, FLEXCAN_ReceiveFifoEDMACallback, &s_flexcanEdmaPrivateHandle[instance]); } /*! * brief Prepares the eDMA transfer configuration for FLEXCAN Legacy RX FIFO. * * This function prepares the eDMA transfer configuration structure according to FLEXCAN Legacy RX FIFO. * * param base FlexCAN peripheral base address. * param pFifoXfer FlexCAN Rx FIFO EDMA transfer structure, see #flexcan_fifo_transfer_t. * param pEdmaConfig The user configuration structure of type edma_transfer_t. * */ void FLEXCAN_PrepareTransfConfiguration(CAN_Type *base, flexcan_fifo_transfer_t *pFifoXfer, edma_transfer_config_t *pEdmaConfig) { assert(NULL != pFifoXfer); assert(NULL != pFifoXfer->frame); assert(NULL != pEdmaConfig); flexcan_frame_t *fifoAddr = (flexcan_frame_t *)FLEXCAN_GetRxFifoHeadAddr(base); #if (defined(FSL_FEATURE_EDMA_SUPPORT_16_BYTES_TRANSFER) && FSL_FEATURE_EDMA_SUPPORT_16_BYTES_TRANSFER) EDMA_PrepareTransfer(pEdmaConfig, (void *)fifoAddr, sizeof(flexcan_frame_t), (void *)pFifoXfer->frame, sizeof(uint32_t), sizeof(flexcan_frame_t), sizeof(flexcan_frame_t), kEDMA_PeripheralToMemory); #else /* The Data Size of FLEXCAN Legacy RX FIFO output port is 16 Bytes, but lots of chips not support 16Bytes width DMA * transfer. These chips always support 4Byte width memory transfer, so we need prepare Memory to Memory mode by 4 * Bytes width mode. */ EDMA_PrepareTransfer(pEdmaConfig, (void *)fifoAddr, 4U, (void *)pFifoXfer->frame, sizeof(uint32_t), sizeof(flexcan_frame_t), sizeof(flexcan_frame_t), kEDMA_MemoryToMemory); #endif } /*! * brief Start Transfer Data from the FLEXCAN Legacy Rx FIFO using eDMA. * * This function to Update edma transfer confiugration and Start eDMA transfer * * param base FlexCAN peripheral base address. * param handle Pointer to flexcan_edma_handle_t structure. * param pEdmaConfig The user configuration structure of type edma_transfer_t. * retval kStatus_Success if succeed, others failed. * retval kStatus_FLEXCAN_RxFifoBusy Previous transfer ongoing. */ status_t FLEXCAN_StartTransferDatafromRxFIFO(CAN_Type *base, flexcan_edma_handle_t *handle, edma_transfer_config_t *pEdmaConfig) { assert(NULL != handle->rxFifoEdmaHandle); assert(NULL != pEdmaConfig); status_t status; /* If previous Rx FIFO receive not finished. */ if ((uint8_t)KFLEXCAN_RxFifoBusy == handle->rxFifoState) { status = kStatus_FLEXCAN_RxFifoBusy; } else { handle->rxFifoState = (uint8_t)KFLEXCAN_RxFifoBusy; /* Enable FlexCAN Rx FIFO EDMA. */ FLEXCAN_EnableRxFifoDMA(base, true); /* Submit configuration. */ (void)EDMA_SubmitTransfer(handle->rxFifoEdmaHandle, (const edma_transfer_config_t *)pEdmaConfig); /* Start transfer. */ EDMA_StartTransfer(handle->rxFifoEdmaHandle); status = kStatus_Success; } return status; } /*! * brief Receives the CAN Message from the Rx FIFO using eDMA. * * This function receives the CAN Message using eDMA. This is a non-blocking function, which returns * right away. After the CAN Message is received, the receive callback function is called. * * param base FlexCAN peripheral base address. * param handle Pointer to flexcan_edma_handle_t structure. * param pFifoXfer FlexCAN Rx FIFO EDMA transfer structure, see #flexcan_fifo_transfer_t. * retval kStatus_Success if succeed, others failed. * retval kStatus_FLEXCAN_RxFifoBusy Previous transfer ongoing. */ status_t FLEXCAN_TransferReceiveFifoEDMA(CAN_Type *base, flexcan_edma_handle_t *handle, flexcan_fifo_transfer_t *pFifoXfer) { assert(NULL != handle->rxFifoEdmaHandle); edma_transfer_config_t dmaXferConfig; status_t status; /* Prepare transfer. */ FLEXCAN_PrepareTransfConfiguration(base, pFifoXfer, &dmaXferConfig); /* Submit configuration and start edma transfer. */ status = FLEXCAN_StartTransferDatafromRxFIFO(base, handle, &dmaXferConfig); return status; } /*! * brief Aborts the receive process which used eDMA. * * This function aborts the receive process which used eDMA. * * param base FlexCAN peripheral base address. * param handle Pointer to flexcan_edma_handle_t structure. */ void FLEXCAN_TransferAbortReceiveFifoEDMA(CAN_Type *base, flexcan_edma_handle_t *handle) { assert(NULL != handle->rxFifoEdmaHandle); /* Stop transfer. */ EDMA_AbortTransfer(handle->rxFifoEdmaHandle); handle->rxFifoState = (uint8_t)KFLEXCAN_RxFifoIdle; /* Disable FlexCAN Rx FIFO EDMA. */ FLEXCAN_EnableRxFifoDMA(base, false); }