/* * Copyright (c) 2016, Freescale Semiconductor, Inc. * Copyright 2016-2017 NXP * All rights reserved. * * SPDX-License-Identifier: BSD-3-Clause */ #include "fsl_usart.h" #include "fsl_device_registers.h" #include "fsl_dma.h" #include "fsl_flexcomm.h" #include "fsl_usart_dma.h" /* Component ID definition, used by tools. */ #ifndef FSL_COMPONENT_ID #define FSL_COMPONENT_ID "platform.drivers.flexcomm_usart_dma" #endif /******************************************************************************* * Definitions ******************************************************************************/ enum { kUSART_TxIdle, /* TX idle. */ kUSART_TxBusy, /* TX busy. */ kUSART_RxIdle, /* RX idle. */ kUSART_RxBusy /* RX busy. */ }; /*! @brief Typedef for usart DMA interrupt handler. */ typedef void (*flexcomm_usart_dma_irq_handler_t)(USART_Type *base, usart_dma_handle_t *handle); /*base, false); /* Enable tx idle interrupt */ usartPrivateHandle->base->INTENSET = USART_INTENSET_TXIDLEEN_MASK; } static void USART_TransferReceiveDMACallback(dma_handle_t *handle, void *param, bool transferDone, uint32_t intmode) { assert(handle != NULL); assert(param != NULL); usart_dma_private_handle_t *usartPrivateHandle = (usart_dma_private_handle_t *)param; /* Disable UART RX DMA. */ USART_EnableRxDMA(usartPrivateHandle->base, false); usartPrivateHandle->handle->rxState = (uint8_t)kUSART_RxIdle; if (usartPrivateHandle->handle->callback != NULL) { usartPrivateHandle->handle->callback(usartPrivateHandle->base, usartPrivateHandle->handle, kStatus_USART_RxIdle, usartPrivateHandle->handle->userData); } } /*! * brief Initializes the USART handle which is used in transactional functions. * param base USART peripheral base address. * param handle Pointer to usart_dma_handle_t structure. * param callback Callback function. * param userData User data. * param txDmaHandle User-requested DMA handle for TX DMA transfer. * param rxDmaHandle User-requested DMA handle for RX DMA transfer. */ status_t USART_TransferCreateHandleDMA(USART_Type *base, usart_dma_handle_t *handle, usart_dma_transfer_callback_t callback, void *userData, dma_handle_t *txDmaHandle, dma_handle_t *rxDmaHandle) { uint32_t instance = 0; /* check 'base' */ assert(!(NULL == base)); if (NULL == base) { return kStatus_InvalidArgument; } /* check 'handle' */ assert(!(NULL == handle)); if (NULL == handle) { return kStatus_InvalidArgument; } instance = USART_GetInstance(base); (void)memset(handle, 0, sizeof(*handle)); /* assign 'base' and 'handle' */ s_dmaPrivateHandle[instance].base = base; s_dmaPrivateHandle[instance].handle = handle; /* set tx/rx 'idle' state */ handle->rxState = (uint8_t)kUSART_RxIdle; handle->txState = (uint8_t)kUSART_TxIdle; handle->callback = callback; handle->userData = userData; handle->rxDmaHandle = rxDmaHandle; handle->txDmaHandle = txDmaHandle; /* Set USART_TransferDMAHandleIRQ as DMA IRQ handler */ usart_dma_to_flexcomm_t handler; handler.usart_dma_handler = USART_TransferDMAHandleIRQ; FLEXCOMM_SetIRQHandler(base, handler.flexcomm_handler, handle); /* Enable NVIC IRQ. */ (void)EnableIRQ(s_usartIRQ[instance]); /* Configure TX. */ if (txDmaHandle != NULL) { DMA_SetCallback(txDmaHandle, USART_TransferSendDMACallback, &s_dmaPrivateHandle[instance]); } /* Configure RX. */ if (rxDmaHandle != NULL) { DMA_SetCallback(rxDmaHandle, USART_TransferReceiveDMACallback, &s_dmaPrivateHandle[instance]); } return kStatus_Success; } /*! * brief Sends data using DMA. * * This function sends data using DMA. This is a non-blocking function, which returns * right away. When all data is sent, the send callback function is called. * * param base USART peripheral base address. * param handle USART handle pointer. * param xfer USART DMA transfer structure. See #usart_transfer_t. * retval kStatus_Success if succeed, others failed. * retval kStatus_USART_TxBusy Previous transfer on going. * retval kStatus_InvalidArgument Invalid argument. */ status_t USART_TransferSendDMA(USART_Type *base, usart_dma_handle_t *handle, usart_transfer_t *xfer) { assert(handle != NULL); assert(handle->txDmaHandle != NULL); assert(xfer != NULL); assert(xfer->data != NULL); assert(xfer->dataSize != 0U); dma_transfer_config_t xferConfig; status_t status; uint32_t address = (uint32_t)&base->FIFOWR; /* If previous TX not finished. */ if ((uint8_t)kUSART_TxBusy == handle->txState) { status = kStatus_USART_TxBusy; } else { handle->txState = (uint8_t)kUSART_TxBusy; handle->txDataSizeAll = xfer->dataSize; /* Enable DMA request from txFIFO */ USART_EnableTxDMA(base, true); /* Prepare transfer. */ DMA_PrepareTransfer(&xferConfig, xfer->data, (uint32_t *)address, sizeof(uint8_t), xfer->dataSize, kDMA_MemoryToPeripheral, NULL); /* Submit transfer. */ (void)DMA_SubmitTransfer(handle->txDmaHandle, &xferConfig); DMA_StartTransfer(handle->txDmaHandle); status = kStatus_Success; } return status; } /*! * brief Receives data using DMA. * * This function receives data using DMA. This is a non-blocking function, which returns * right away. When all data is received, the receive callback function is called. * * param base USART peripheral base address. * param handle Pointer to usart_dma_handle_t structure. * param xfer USART DMA transfer structure. See #usart_transfer_t. * retval kStatus_Success if succeed, others failed. * retval kStatus_USART_RxBusy Previous transfer on going. * retval kStatus_InvalidArgument Invalid argument. */ status_t USART_TransferReceiveDMA(USART_Type *base, usart_dma_handle_t *handle, usart_transfer_t *xfer) { assert(handle != NULL); assert(handle->rxDmaHandle != NULL); assert(xfer != NULL); assert(xfer->data != NULL); assert(xfer->dataSize != 0U); dma_transfer_config_t xferConfig; status_t status; uint32_t address = (uint32_t)&base->FIFORD; /* If previous RX not finished. */ if ((uint8_t)kUSART_RxBusy == handle->rxState) { status = kStatus_USART_RxBusy; } else { handle->rxState = (uint8_t)kUSART_RxBusy; handle->rxDataSizeAll = xfer->dataSize; /* Enable DMA request from rxFIFO */ USART_EnableRxDMA(base, true); /* Prepare transfer. */ DMA_PrepareTransfer(&xferConfig, (uint32_t *)address, xfer->data, sizeof(uint8_t), xfer->dataSize, kDMA_PeripheralToMemory, NULL); /* Submit transfer. */ (void)DMA_SubmitTransfer(handle->rxDmaHandle, &xferConfig); DMA_StartTransfer(handle->rxDmaHandle); status = kStatus_Success; } return status; } /*! * brief Aborts the sent data using DMA. * * This function aborts send data using DMA. * * param base USART peripheral base address * param handle Pointer to usart_dma_handle_t structure */ void USART_TransferAbortSendDMA(USART_Type *base, usart_dma_handle_t *handle) { assert(NULL != handle); assert(NULL != handle->txDmaHandle); /* Stop transfer. */ DMA_AbortTransfer(handle->txDmaHandle); handle->txState = (uint8_t)kUSART_TxIdle; } /*! * brief Aborts the received data using DMA. * * This function aborts the received data using DMA. * * param base USART peripheral base address * param handle Pointer to usart_dma_handle_t structure */ void USART_TransferAbortReceiveDMA(USART_Type *base, usart_dma_handle_t *handle) { assert(NULL != handle); assert(NULL != handle->rxDmaHandle); /* Stop transfer. */ DMA_AbortTransfer(handle->rxDmaHandle); handle->rxState = (uint8_t)kUSART_RxIdle; } /*! * brief Get the number of bytes that have been received. * * This function gets the number of bytes that have been received. * * param base USART peripheral base address. * param handle USART handle pointer. * param count Receive bytes count. * retval kStatus_NoTransferInProgress No receive in progress. * retval kStatus_InvalidArgument Parameter is invalid. * retval kStatus_Success Get successfully through the parameter \p count; */ status_t USART_TransferGetReceiveCountDMA(USART_Type *base, usart_dma_handle_t *handle, uint32_t *count) { assert(NULL != handle); assert(NULL != handle->rxDmaHandle); assert(NULL != count); if ((uint8_t)kUSART_RxIdle == handle->rxState) { return kStatus_NoTransferInProgress; } *count = handle->rxDataSizeAll - DMA_GetRemainingBytes(handle->rxDmaHandle->base, handle->rxDmaHandle->channel); return kStatus_Success; } /*! * brief Get the number of bytes that have been sent. * * This function gets the number of bytes that have been sent. * * param base USART peripheral base address. * param handle USART handle pointer. * param count Sent bytes count. * retval kStatus_NoTransferInProgress No receive in progress. * retval kStatus_InvalidArgument Parameter is invalid. * retval kStatus_Success Get successfully through the parameter \p count; */ status_t USART_TransferGetSendCountDMA(USART_Type *base, usart_dma_handle_t *handle, uint32_t *count) { assert(NULL != handle); assert(NULL != handle->txDmaHandle); assert(NULL != count); if ((uint8_t)kUSART_TxIdle == handle->txState) { return kStatus_NoTransferInProgress; } *count = handle->txDataSizeAll - DMA_GetRemainingBytes(handle->txDmaHandle->base, handle->txDmaHandle->channel); return kStatus_Success; } void USART_TransferDMAHandleIRQ(USART_Type *base, usart_dma_handle_t *handle) { /* Check arguments */ assert((NULL != base) && (NULL != handle)); /* Tx idle interrupt happens means that all the tx data have been sent out to bus, set the tx state to idle */ handle->txState = (uint8_t)kUSART_TxIdle; /* Disable tx idle interrupt */ base->INTENCLR = USART_INTENCLR_TXIDLECLR_MASK; /* Invoke callback */ if (handle->callback != NULL) { handle->callback(base, handle, kStatus_USART_TxIdle, handle->userData); } }