527 lines
17 KiB
C
527 lines
17 KiB
C
/*
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* Copyright (c) 2015, Freescale Semiconductor, Inc.
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* All rights reserved.
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*
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* Redistribution and use in source and binary forms, with or without modification,
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* are permitted provided that the following conditions are met:
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*
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* o Redistributions of source code must retain the above copyright notice, this list
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* of conditions and the following disclaimer.
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*
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* o Redistributions in binary form must reproduce the above copyright notice, this
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* list of conditions and the following disclaimer in the documentation and/or
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* other materials provided with the distribution.
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*
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* o Neither the name of Freescale Semiconductor, Inc. nor the names of its
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* contributors may be used to endorse or promote products derived from this
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* software without specific prior written permission.
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*
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* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND
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* ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
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* WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
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* DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR
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* ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
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* (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
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* LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON
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* ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
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* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
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* SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
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*/
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#include "fsl_i2c_edma.h"
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/*******************************************************************************
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* Definitions
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******************************************************************************/
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/*<! @breif Structure definition for i2c_master_edma_private_handle_t. The structure is private. */
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typedef struct _i2c_master_edma_private_handle
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{
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I2C_Type *base;
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i2c_master_edma_handle_t *handle;
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} i2c_master_edma_private_handle_t;
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/*! @brief i2c master DMA transfer state. */
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enum _i2c_master_dma_transfer_states
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{
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kIdleState = 0x0U, /*!< I2C bus idle. */
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kTransferDataState = 0x1U, /*!< 7-bit address check state. */
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};
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/*! @brief Common sets of flags used by the driver. */
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enum _i2c_flag_constants
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{
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/*! All flags which are cleared by the driver upon starting a transfer. */
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#if defined(FSL_FEATURE_I2C_HAS_START_STOP_DETECT) && FSL_FEATURE_I2C_HAS_START_STOP_DETECT
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kClearFlags = kI2C_ArbitrationLostFlag | kI2C_IntPendingFlag | kI2C_StartDetectFlag | kI2C_StopDetectFlag,
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#elif defined(FSL_FEATURE_I2C_HAS_STOP_DETECT) && FSL_FEATURE_I2C_HAS_STOP_DETECT
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kClearFlags = kI2C_ArbitrationLostFlag | kI2C_IntPendingFlag | kI2C_StopDetectFlag,
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#else
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kClearFlags = kI2C_ArbitrationLostFlag | kI2C_IntPendingFlag,
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#endif
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};
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/*******************************************************************************
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* Prototypes
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******************************************************************************/
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/*!
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* @brief EDMA callback for I2C master EDMA driver.
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*
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* @param handle EDMA handler for I2C master EDMA driver
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* @param userData user param passed to the callback function
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*/
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static void I2C_MasterTransferCallbackEDMA(edma_handle_t *handle, void *userData, bool transferDone, uint32_t tcds);
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/*!
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* @brief Check and clear status operation.
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*
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* @param base I2C peripheral base address.
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* @param status current i2c hardware status.
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* @retval kStatus_Success No error found.
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* @retval kStatus_I2C_ArbitrationLost Transfer error, arbitration lost.
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* @retval kStatus_I2C_Nak Received Nak error.
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*/
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static status_t I2C_CheckAndClearError(I2C_Type *base, uint32_t status);
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/*!
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* @brief EDMA config for I2C master driver.
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*
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* @param base I2C peripheral base address.
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* @param handle pointer to i2c_master_edma_handle_t structure which stores the transfer state
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*/
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static void I2C_MasterTransferEDMAConfig(I2C_Type *base, i2c_master_edma_handle_t *handle);
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/*!
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* @brief Set up master transfer, send slave address and sub address(if any), wait until the
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* wait until address sent status return.
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*
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* @param base I2C peripheral base address.
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* @param handle pointer to i2c_master_edma_handle_t structure which stores the transfer state
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* @param xfer pointer to i2c_master_transfer_t structure
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*/
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static status_t I2C_InitTransferStateMachineEDMA(I2C_Type *base,
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i2c_master_edma_handle_t *handle,
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i2c_master_transfer_t *xfer);
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/*!
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* @brief Get the I2C instance from peripheral base address.
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*
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* @param base I2C peripheral base address.
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* @return I2C instance.
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*/
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extern uint32_t I2C_GetInstance(I2C_Type *base);
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/*******************************************************************************
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* Variables
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******************************************************************************/
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/*<! Private handle only used for internally. */
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static i2c_master_edma_private_handle_t s_edmaPrivateHandle[FSL_FEATURE_SOC_I2C_COUNT];
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/*******************************************************************************
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* Codes
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******************************************************************************/
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static void I2C_MasterTransferCallbackEDMA(edma_handle_t *handle, void *userData, bool transferDone, uint32_t tcds)
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{
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i2c_master_edma_private_handle_t *i2cPrivateHandle = (i2c_master_edma_private_handle_t *)userData;
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status_t result = kStatus_Success;
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/* Disable DMA. */
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I2C_EnableDMA(i2cPrivateHandle->base, false);
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/* Send stop if kI2C_TransferNoStop flag is not asserted. */
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if (!(i2cPrivateHandle->handle->transfer.flags & kI2C_TransferNoStopFlag))
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{
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if (i2cPrivateHandle->handle->transfer.direction == kI2C_Read)
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{
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/* Change to send NAK at the last byte. */
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i2cPrivateHandle->base->C1 |= I2C_C1_TXAK_MASK;
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/* Wait the last data to be received. */
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while (!(i2cPrivateHandle->base->S & kI2C_TransferCompleteFlag))
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{
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}
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/* Send stop signal. */
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result = I2C_MasterStop(i2cPrivateHandle->base);
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/* Read the last data byte. */
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*(i2cPrivateHandle->handle->transfer.data + i2cPrivateHandle->handle->transfer.dataSize - 1) =
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i2cPrivateHandle->base->D;
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}
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else
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{
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/* Wait the last data to be sent. */
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while (!(i2cPrivateHandle->base->S & kI2C_TransferCompleteFlag))
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{
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}
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/* Send stop signal. */
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result = I2C_MasterStop(i2cPrivateHandle->base);
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}
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}
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i2cPrivateHandle->handle->state = kIdleState;
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if (i2cPrivateHandle->handle->completionCallback)
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{
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i2cPrivateHandle->handle->completionCallback(i2cPrivateHandle->base, i2cPrivateHandle->handle, result,
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i2cPrivateHandle->handle->userData);
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}
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}
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static status_t I2C_CheckAndClearError(I2C_Type *base, uint32_t status)
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{
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status_t result = kStatus_Success;
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/* Check arbitration lost. */
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if (status & kI2C_ArbitrationLostFlag)
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{
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/* Clear arbitration lost flag. */
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base->S = kI2C_ArbitrationLostFlag;
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result = kStatus_I2C_ArbitrationLost;
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}
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/* Check NAK */
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else if (status & kI2C_ReceiveNakFlag)
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{
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result = kStatus_I2C_Nak;
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}
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else
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{
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}
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return result;
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}
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static status_t I2C_InitTransferStateMachineEDMA(I2C_Type *base,
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i2c_master_edma_handle_t *handle,
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i2c_master_transfer_t *xfer)
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{
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assert(handle);
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assert(xfer);
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status_t result = kStatus_Success;
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uint16_t timeout = UINT16_MAX;
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if (handle->state != kIdleState)
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{
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return kStatus_I2C_Busy;
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}
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else
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{
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i2c_direction_t direction = xfer->direction;
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/* Init the handle member. */
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handle->transfer = *xfer;
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/* Save total transfer size. */
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handle->transferSize = xfer->dataSize;
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handle->state = kTransferDataState;
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/* Wait until ready to complete. */
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while ((!(base->S & kI2C_TransferCompleteFlag)) && (--timeout))
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{
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}
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/* Failed to start the transfer. */
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if (timeout == 0)
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{
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return kStatus_I2C_Timeout;
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}
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/* Clear all status before transfer. */
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I2C_MasterClearStatusFlags(base, kClearFlags);
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/* Change to send write address when it's a read operation with command. */
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if ((xfer->subaddressSize > 0) && (xfer->direction == kI2C_Read))
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{
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direction = kI2C_Write;
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}
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/* If repeated start is requested, send repeated start. */
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if (handle->transfer.flags & kI2C_TransferRepeatedStartFlag)
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{
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result = I2C_MasterRepeatedStart(base, handle->transfer.slaveAddress, direction);
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}
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else /* For normal transfer, send start. */
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{
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result = I2C_MasterStart(base, handle->transfer.slaveAddress, direction);
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}
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/* Send subaddress. */
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if (handle->transfer.subaddressSize)
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{
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do
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{
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/* Wait until data transfer complete. */
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while (!(base->S & kI2C_IntPendingFlag))
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{
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}
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/* Clear interrupt pending flag. */
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base->S = kI2C_IntPendingFlag;
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handle->transfer.subaddressSize--;
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base->D = ((handle->transfer.subaddress) >> (8 * handle->transfer.subaddressSize));
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/* Check if there's transfer error. */
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result = I2C_CheckAndClearError(base, base->S);
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if (result)
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{
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return result;
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}
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} while ((handle->transfer.subaddressSize > 0) && (result == kStatus_Success));
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if (handle->transfer.direction == kI2C_Read)
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{
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/* Wait until data transfer complete. */
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while (!(base->S & kI2C_IntPendingFlag))
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{
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}
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/* Clear pending flag. */
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base->S = kI2C_IntPendingFlag;
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/* Send repeated start and slave address. */
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result = I2C_MasterRepeatedStart(base, handle->transfer.slaveAddress, kI2C_Read);
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}
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}
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if (result)
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{
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return result;
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}
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/* Wait until data transfer complete. */
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while (!(base->S & kI2C_IntPendingFlag))
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{
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}
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/* Clear pending flag. */
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base->S = kI2C_IntPendingFlag;
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/* Check if there's transfer error. */
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result = I2C_CheckAndClearError(base, base->S);
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}
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return result;
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}
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static void I2C_MasterTransferEDMAConfig(I2C_Type *base, i2c_master_edma_handle_t *handle)
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{
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edma_transfer_config_t transfer_config;
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if (handle->transfer.direction == kI2C_Read)
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{
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transfer_config.srcAddr = (uint32_t)I2C_GetDataRegAddr(base);
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transfer_config.destAddr = (uint32_t)(handle->transfer.data);
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/* Send stop if kI2C_TransferNoStop flag is not asserted. */
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if (!(handle->transfer.flags & kI2C_TransferNoStopFlag))
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{
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transfer_config.majorLoopCounts = (handle->transfer.dataSize - 1);
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}
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else
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{
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transfer_config.majorLoopCounts = handle->transfer.dataSize;
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}
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transfer_config.srcTransferSize = kEDMA_TransferSize1Bytes;
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transfer_config.srcOffset = 0;
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transfer_config.destTransferSize = kEDMA_TransferSize1Bytes;
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transfer_config.destOffset = 1;
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transfer_config.minorLoopBytes = 1;
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}
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else
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{
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transfer_config.srcAddr = (uint32_t)(handle->transfer.data + 1);
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transfer_config.destAddr = (uint32_t)I2C_GetDataRegAddr(base);
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transfer_config.majorLoopCounts = (handle->transfer.dataSize - 1);
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transfer_config.srcTransferSize = kEDMA_TransferSize1Bytes;
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transfer_config.srcOffset = 1;
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transfer_config.destTransferSize = kEDMA_TransferSize1Bytes;
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transfer_config.destOffset = 0;
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transfer_config.minorLoopBytes = 1;
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}
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EDMA_SubmitTransfer(handle->dmaHandle, &transfer_config);
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EDMA_StartTransfer(handle->dmaHandle);
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}
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void I2C_MasterCreateEDMAHandle(I2C_Type *base,
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i2c_master_edma_handle_t *handle,
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i2c_master_edma_transfer_callback_t callback,
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void *userData,
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edma_handle_t *edmaHandle)
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{
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assert(handle);
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assert(edmaHandle);
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uint32_t instance = I2C_GetInstance(base);
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/* Zero handle. */
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memset(handle, 0, sizeof(*handle));
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/* Set the user callback and userData. */
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handle->completionCallback = callback;
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handle->userData = userData;
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/* Set the base for the handle. */
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base = base;
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/* Set the handle for EDMA. */
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handle->dmaHandle = edmaHandle;
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s_edmaPrivateHandle[instance].base = base;
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s_edmaPrivateHandle[instance].handle = handle;
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EDMA_SetCallback(edmaHandle, (edma_callback)I2C_MasterTransferCallbackEDMA, &s_edmaPrivateHandle[instance]);
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}
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status_t I2C_MasterTransferEDMA(I2C_Type *base, i2c_master_edma_handle_t *handle, i2c_master_transfer_t *xfer)
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{
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assert(handle);
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assert(xfer);
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status_t result;
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uint8_t tmpReg;
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volatile uint8_t dummy = 0;
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/* Add this to avoid build warning. */
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dummy++;
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/* Disable dma xfer. */
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I2C_EnableDMA(base, false);
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/* Send address and command buffer(if there is), until senddata phase or receive data phase. */
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result = I2C_InitTransferStateMachineEDMA(base, handle, xfer);
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if (result)
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{
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/* Send stop if received Nak. */
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if (result == kStatus_I2C_Nak)
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{
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if (I2C_MasterStop(base) != kStatus_Success)
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{
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result = kStatus_I2C_Timeout;
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}
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}
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/* Reset the state to idle state. */
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handle->state = kIdleState;
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return result;
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}
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/* Configure dma transfer. */
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/* For i2c send, need to send 1 byte first to trigger the dma, for i2c read,
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need to send stop before reading the last byte, so the dma transfer size should
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be (xSize - 1). */
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if (handle->transfer.dataSize > 1)
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{
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I2C_MasterTransferEDMAConfig(base, handle);
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if (handle->transfer.direction == kI2C_Read)
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{
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/* Change direction for receive. */
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base->C1 &= ~I2C_C1_TX_MASK;
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/* Read dummy to release the bus. */
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dummy = base->D;
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/* Enabe dma transfer. */
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I2C_EnableDMA(base, true);
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}
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else
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{
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/* Enabe dma transfer. */
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I2C_EnableDMA(base, true);
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/* Send the first data. */
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base->D = *handle->transfer.data;
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}
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}
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else /* If transfer size is 1, use polling method. */
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{
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if (handle->transfer.direction == kI2C_Read)
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{
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tmpReg = base->C1;
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/* Change direction to Rx. */
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tmpReg &= ~I2C_C1_TX_MASK;
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/* Configure send NAK */
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tmpReg |= I2C_C1_TXAK_MASK;
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base->C1 = tmpReg;
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/* Read dummy to release the bus. */
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dummy = base->D;
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}
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else
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{
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base->D = *handle->transfer.data;
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}
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/* Wait until data transfer complete. */
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while (!(base->S & kI2C_IntPendingFlag))
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{
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}
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/* Clear pending flag. */
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base->S = kI2C_IntPendingFlag;
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/* Send stop if kI2C_TransferNoStop flag is not asserted. */
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if (!(handle->transfer.flags & kI2C_TransferNoStopFlag))
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{
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result = I2C_MasterStop(base);
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}
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/* Read the last byte of data. */
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if (handle->transfer.direction == kI2C_Read)
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{
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*handle->transfer.data = base->D;
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}
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/* Reset the state to idle. */
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handle->state = kIdleState;
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}
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return result;
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}
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status_t I2C_MasterTransferGetCountEDMA(I2C_Type *base, i2c_master_edma_handle_t *handle, size_t *count)
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{
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assert(handle->dmaHandle);
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if (!count)
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{
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return kStatus_InvalidArgument;
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}
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if (kIdleState != handle->state)
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{
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*count = (handle->transferSize - EDMA_GetRemainingBytes(handle->dmaHandle->base, handle->dmaHandle->channel));
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}
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else
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{
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*count = handle->transferSize;
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}
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return kStatus_Success;
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}
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void I2C_MasterTransferAbortEDMA(I2C_Type *base, i2c_master_edma_handle_t *handle)
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{
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EDMA_AbortTransfer(handle->dmaHandle);
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/* Disable dma transfer. */
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I2C_EnableDMA(base, false);
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/* Reset the state to idle. */
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handle->state = kIdleState;
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}
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