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-rw-r--r--drivers/fsl_edma.c2299
1 files changed, 2299 insertions, 0 deletions
diff --git a/drivers/fsl_edma.c b/drivers/fsl_edma.c
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+++ b/drivers/fsl_edma.c
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+/*
+ * The Clear BSD License
+ * Copyright (c) 2015, Freescale Semiconductor, Inc.
+ * Copyright 2016-2017 NXP
+ * All rights reserved.
+ *
+ * Redistribution and use in source and binary forms, with or without modification,
+ * are permitted (subject to the limitations in the disclaimer below) provided
+ * that the following conditions are met:
+ *
+ * o Redistributions of source code must retain the above copyright notice, this list
+ * of conditions and the following disclaimer.
+ *
+ * o Redistributions in binary form must reproduce the above copyright notice, this
+ * list of conditions and the following disclaimer in the documentation and/or
+ * other materials provided with the distribution.
+ *
+ * o Neither the name of the copyright holder nor the names of its
+ * contributors may be used to endorse or promote products derived from this
+ * software without specific prior written permission.
+ *
+ * NO EXPRESS OR IMPLIED LICENSES TO ANY PARTY'S PATENT RIGHTS ARE GRANTED BY THIS LICENSE.
+ * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND
+ * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
+ * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
+ * DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR
+ * ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
+ * (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
+ * LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON
+ * ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
+ * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
+ * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+ */
+
+#include "fsl_edma.h"
+
+/*******************************************************************************
+ * Definitions
+ ******************************************************************************/
+
+/* Component ID definition, used by tools. */
+#ifndef FSL_COMPONENT_ID
+#define FSL_COMPONENT_ID "platform.drivers.edma"
+#endif
+
+
+#define EDMA_TRANSFER_ENABLED_MASK 0x80U
+
+/*******************************************************************************
+ * Prototypes
+ ******************************************************************************/
+
+/*!
+ * @brief Get instance number for EDMA.
+ *
+ * @param base EDMA peripheral base address.
+ */
+static uint32_t EDMA_GetInstance(DMA_Type *base);
+
+/*******************************************************************************
+ * Variables
+ ******************************************************************************/
+
+/*! @brief Array to map EDMA instance number to base pointer. */
+static DMA_Type *const s_edmaBases[] = DMA_BASE_PTRS;
+
+#if !(defined(FSL_SDK_DISABLE_DRIVER_CLOCK_CONTROL) && FSL_SDK_DISABLE_DRIVER_CLOCK_CONTROL)
+/*! @brief Array to map EDMA instance number to clock name. */
+static const clock_ip_name_t s_edmaClockName[] = EDMA_CLOCKS;
+#endif /* FSL_SDK_DISABLE_DRIVER_CLOCK_CONTROL */
+
+/*! @brief Array to map EDMA instance number to IRQ number. */
+static const IRQn_Type s_edmaIRQNumber[][FSL_FEATURE_EDMA_MODULE_CHANNEL] = DMA_CHN_IRQS;
+
+/*! @brief Pointers to transfer handle for each EDMA channel. */
+static edma_handle_t *s_EDMAHandle[FSL_FEATURE_EDMA_MODULE_CHANNEL * FSL_FEATURE_SOC_EDMA_COUNT];
+
+/*******************************************************************************
+ * Code
+ ******************************************************************************/
+
+static uint32_t EDMA_GetInstance(DMA_Type *base)
+{
+ uint32_t instance;
+
+ /* Find the instance index from base address mappings. */
+ for (instance = 0; instance < ARRAY_SIZE(s_edmaBases); instance++)
+ {
+ if (s_edmaBases[instance] == base)
+ {
+ break;
+ }
+ }
+
+ assert(instance < ARRAY_SIZE(s_edmaBases));
+
+ return instance;
+}
+
+void EDMA_InstallTCD(DMA_Type *base, uint32_t channel, edma_tcd_t *tcd)
+{
+ assert(channel < FSL_FEATURE_EDMA_MODULE_CHANNEL);
+ assert(tcd != NULL);
+ assert(((uint32_t)tcd & 0x1FU) == 0);
+
+ /* Push tcd into hardware TCD register */
+ base->TCD[channel].SADDR = tcd->SADDR;
+ base->TCD[channel].SOFF = tcd->SOFF;
+ base->TCD[channel].ATTR = tcd->ATTR;
+ base->TCD[channel].NBYTES_MLNO = tcd->NBYTES;
+ base->TCD[channel].SLAST = tcd->SLAST;
+ base->TCD[channel].DADDR = tcd->DADDR;
+ base->TCD[channel].DOFF = tcd->DOFF;
+ base->TCD[channel].CITER_ELINKNO = tcd->CITER;
+ base->TCD[channel].DLAST_SGA = tcd->DLAST_SGA;
+ /* Clear DONE bit first, otherwise ESG cannot be set */
+ base->TCD[channel].CSR = 0;
+ base->TCD[channel].CSR = tcd->CSR;
+ base->TCD[channel].BITER_ELINKNO = tcd->BITER;
+}
+
+void EDMA_Init(DMA_Type *base, const edma_config_t *config)
+{
+ assert(config != NULL);
+
+ uint32_t tmpreg;
+
+#if !(defined(FSL_SDK_DISABLE_DRIVER_CLOCK_CONTROL) && FSL_SDK_DISABLE_DRIVER_CLOCK_CONTROL)
+ /* Ungate EDMA periphral clock */
+ CLOCK_EnableClock(s_edmaClockName[EDMA_GetInstance(base)]);
+#endif /* FSL_SDK_DISABLE_DRIVER_CLOCK_CONTROL */
+ /* Configure EDMA peripheral according to the configuration structure. */
+ tmpreg = base->CR;
+ tmpreg &= ~(DMA_CR_ERCA_MASK | DMA_CR_HOE_MASK | DMA_CR_CLM_MASK | DMA_CR_EDBG_MASK);
+ tmpreg |= (DMA_CR_ERCA(config->enableRoundRobinArbitration) | DMA_CR_HOE(config->enableHaltOnError) |
+ DMA_CR_CLM(config->enableContinuousLinkMode) | DMA_CR_EDBG(config->enableDebugMode) | DMA_CR_EMLM(true));
+ base->CR = tmpreg;
+}
+
+void EDMA_Deinit(DMA_Type *base)
+{
+#if !(defined(FSL_SDK_DISABLE_DRIVER_CLOCK_CONTROL) && FSL_SDK_DISABLE_DRIVER_CLOCK_CONTROL)
+ /* Gate EDMA periphral clock */
+ CLOCK_DisableClock(s_edmaClockName[EDMA_GetInstance(base)]);
+#endif /* FSL_SDK_DISABLE_DRIVER_CLOCK_CONTROL */
+}
+
+void EDMA_GetDefaultConfig(edma_config_t *config)
+{
+ assert(config != NULL);
+
+ config->enableRoundRobinArbitration = false;
+ config->enableHaltOnError = true;
+ config->enableContinuousLinkMode = false;
+ config->enableDebugMode = false;
+}
+
+void EDMA_ResetChannel(DMA_Type *base, uint32_t channel)
+{
+ assert(channel < FSL_FEATURE_EDMA_MODULE_CHANNEL);
+
+ EDMA_TcdReset((edma_tcd_t *)&base->TCD[channel]);
+}
+
+void EDMA_SetTransferConfig(DMA_Type *base, uint32_t channel, const edma_transfer_config_t *config, edma_tcd_t *nextTcd)
+{
+ assert(channel < FSL_FEATURE_EDMA_MODULE_CHANNEL);
+ assert(config != NULL);
+ assert(((uint32_t)nextTcd & 0x1FU) == 0);
+
+ EDMA_TcdSetTransferConfig((edma_tcd_t *)&base->TCD[channel], config, nextTcd);
+}
+
+void EDMA_SetMinorOffsetConfig(DMA_Type *base, uint32_t channel, const edma_minor_offset_config_t *config)
+{
+ assert(channel < FSL_FEATURE_EDMA_MODULE_CHANNEL);
+ assert(config != NULL);
+
+ uint32_t tmpreg;
+
+ tmpreg = base->TCD[channel].NBYTES_MLOFFYES;
+ tmpreg &= ~(DMA_NBYTES_MLOFFYES_SMLOE_MASK | DMA_NBYTES_MLOFFYES_DMLOE_MASK | DMA_NBYTES_MLOFFYES_MLOFF_MASK);
+ tmpreg |=
+ (DMA_NBYTES_MLOFFYES_SMLOE(config->enableSrcMinorOffset) |
+ DMA_NBYTES_MLOFFYES_DMLOE(config->enableDestMinorOffset) | DMA_NBYTES_MLOFFYES_MLOFF(config->minorOffset));
+ base->TCD[channel].NBYTES_MLOFFYES = tmpreg;
+}
+
+void EDMA_SetChannelLink(DMA_Type *base, uint32_t channel, edma_channel_link_type_t type, uint32_t linkedChannel)
+{
+ assert(channel < FSL_FEATURE_EDMA_MODULE_CHANNEL);
+ assert(linkedChannel < FSL_FEATURE_EDMA_MODULE_CHANNEL);
+
+ EDMA_TcdSetChannelLink((edma_tcd_t *)&base->TCD[channel], type, linkedChannel);
+}
+
+void EDMA_SetBandWidth(DMA_Type *base, uint32_t channel, edma_bandwidth_t bandWidth)
+{
+ assert(channel < FSL_FEATURE_EDMA_MODULE_CHANNEL);
+
+ base->TCD[channel].CSR = (base->TCD[channel].CSR & (~DMA_CSR_BWC_MASK)) | DMA_CSR_BWC(bandWidth);
+}
+
+void EDMA_SetModulo(DMA_Type *base, uint32_t channel, edma_modulo_t srcModulo, edma_modulo_t destModulo)
+{
+ assert(channel < FSL_FEATURE_EDMA_MODULE_CHANNEL);
+
+ uint32_t tmpreg;
+
+ tmpreg = base->TCD[channel].ATTR & (~(DMA_ATTR_SMOD_MASK | DMA_ATTR_DMOD_MASK));
+ base->TCD[channel].ATTR = tmpreg | DMA_ATTR_DMOD(destModulo) | DMA_ATTR_SMOD(srcModulo);
+}
+
+void EDMA_EnableChannelInterrupts(DMA_Type *base, uint32_t channel, uint32_t mask)
+{
+ assert(channel < FSL_FEATURE_EDMA_MODULE_CHANNEL);
+
+ /* Enable error interrupt */
+ if (mask & kEDMA_ErrorInterruptEnable)
+ {
+ base->EEI |= (0x1U << channel);
+ }
+
+ /* Enable Major interrupt */
+ if (mask & kEDMA_MajorInterruptEnable)
+ {
+ base->TCD[channel].CSR |= DMA_CSR_INTMAJOR_MASK;
+ }
+
+ /* Enable Half major interrupt */
+ if (mask & kEDMA_HalfInterruptEnable)
+ {
+ base->TCD[channel].CSR |= DMA_CSR_INTHALF_MASK;
+ }
+}
+
+void EDMA_DisableChannelInterrupts(DMA_Type *base, uint32_t channel, uint32_t mask)
+{
+ assert(channel < FSL_FEATURE_EDMA_MODULE_CHANNEL);
+
+ /* Disable error interrupt */
+ if (mask & kEDMA_ErrorInterruptEnable)
+ {
+ base->EEI &= ~(0x1U << channel);
+ }
+
+ /* Disable Major interrupt */
+ if (mask & kEDMA_MajorInterruptEnable)
+ {
+ base->TCD[channel].CSR &= ~DMA_CSR_INTMAJOR_MASK;
+ }
+
+ /* Disable Half major interrupt */
+ if (mask & kEDMA_HalfInterruptEnable)
+ {
+ base->TCD[channel].CSR &= ~DMA_CSR_INTHALF_MASK;
+ }
+}
+
+void EDMA_TcdReset(edma_tcd_t *tcd)
+{
+ assert(tcd != NULL);
+ assert(((uint32_t)tcd & 0x1FU) == 0);
+
+ /* Reset channel TCD */
+ tcd->SADDR = 0U;
+ tcd->SOFF = 0U;
+ tcd->ATTR = 0U;
+ tcd->NBYTES = 0U;
+ tcd->SLAST = 0U;
+ tcd->DADDR = 0U;
+ tcd->DOFF = 0U;
+ tcd->CITER = 0U;
+ tcd->DLAST_SGA = 0U;
+ /* Enable auto disable request feature */
+ tcd->CSR = DMA_CSR_DREQ(true);
+ tcd->BITER = 0U;
+}
+
+void EDMA_TcdSetTransferConfig(edma_tcd_t *tcd, const edma_transfer_config_t *config, edma_tcd_t *nextTcd)
+{
+ assert(tcd != NULL);
+ assert(((uint32_t)tcd & 0x1FU) == 0);
+ assert(config != NULL);
+ assert(((uint32_t)nextTcd & 0x1FU) == 0);
+
+ /* source address */
+ tcd->SADDR = config->srcAddr;
+ /* destination address */
+ tcd->DADDR = config->destAddr;
+ /* Source data and destination data transfer size */
+ tcd->ATTR = DMA_ATTR_SSIZE(config->srcTransferSize) | DMA_ATTR_DSIZE(config->destTransferSize);
+ /* Source address signed offset */
+ tcd->SOFF = config->srcOffset;
+ /* Destination address signed offset */
+ tcd->DOFF = config->destOffset;
+ /* Minor byte transfer count */
+ tcd->NBYTES = config->minorLoopBytes;
+ /* Current major iteration count */
+ tcd->CITER = config->majorLoopCounts;
+ /* Starting major iteration count */
+ tcd->BITER = config->majorLoopCounts;
+ /* Enable scatter/gather processing */
+ if (nextTcd != NULL)
+ {
+ tcd->DLAST_SGA = (uint32_t)nextTcd;
+ /*
+ Before call EDMA_TcdSetTransferConfig or EDMA_SetTransferConfig,
+ user must call EDMA_TcdReset or EDMA_ResetChannel which will set
+ DREQ, so must use "|" or "&" rather than "=".
+
+ Clear the DREQ bit because scatter gather has been enabled, so the
+ previous transfer is not the last transfer, and channel request should
+ be enabled at the next transfer(the next TCD).
+ */
+ tcd->CSR = (tcd->CSR | DMA_CSR_ESG_MASK) & ~DMA_CSR_DREQ_MASK;
+ }
+}
+
+void EDMA_TcdSetMinorOffsetConfig(edma_tcd_t *tcd, const edma_minor_offset_config_t *config)
+{
+ assert(tcd != NULL);
+ assert(((uint32_t)tcd & 0x1FU) == 0);
+
+ uint32_t tmpreg;
+
+ tmpreg = tcd->NBYTES &
+ ~(DMA_NBYTES_MLOFFYES_SMLOE_MASK | DMA_NBYTES_MLOFFYES_DMLOE_MASK | DMA_NBYTES_MLOFFYES_MLOFF_MASK);
+ tmpreg |=
+ (DMA_NBYTES_MLOFFYES_SMLOE(config->enableSrcMinorOffset) |
+ DMA_NBYTES_MLOFFYES_DMLOE(config->enableDestMinorOffset) | DMA_NBYTES_MLOFFYES_MLOFF(config->minorOffset));
+ tcd->NBYTES = tmpreg;
+}
+
+void EDMA_TcdSetChannelLink(edma_tcd_t *tcd, edma_channel_link_type_t type, uint32_t linkedChannel)
+{
+ assert(tcd != NULL);
+ assert(((uint32_t)tcd & 0x1FU) == 0);
+ assert(linkedChannel < FSL_FEATURE_EDMA_MODULE_CHANNEL);
+
+ if (type == kEDMA_MinorLink) /* Minor link config */
+ {
+ uint32_t tmpreg;
+
+ /* Enable minor link */
+ tcd->CITER |= DMA_CITER_ELINKYES_ELINK_MASK;
+ tcd->BITER |= DMA_BITER_ELINKYES_ELINK_MASK;
+ /* Set likned channel */
+ tmpreg = tcd->CITER & (~DMA_CITER_ELINKYES_LINKCH_MASK);
+ tmpreg |= DMA_CITER_ELINKYES_LINKCH(linkedChannel);
+ tcd->CITER = tmpreg;
+ tmpreg = tcd->BITER & (~DMA_BITER_ELINKYES_LINKCH_MASK);
+ tmpreg |= DMA_BITER_ELINKYES_LINKCH(linkedChannel);
+ tcd->BITER = tmpreg;
+ }
+ else if (type == kEDMA_MajorLink) /* Major link config */
+ {
+ uint32_t tmpreg;
+
+ /* Enable major link */
+ tcd->CSR |= DMA_CSR_MAJORELINK_MASK;
+ /* Set major linked channel */
+ tmpreg = tcd->CSR & (~DMA_CSR_MAJORLINKCH_MASK);
+ tcd->CSR = tmpreg | DMA_CSR_MAJORLINKCH(linkedChannel);
+ }
+ else /* Link none */
+ {
+ tcd->CITER &= ~DMA_CITER_ELINKYES_ELINK_MASK;
+ tcd->BITER &= ~DMA_BITER_ELINKYES_ELINK_MASK;
+ tcd->CSR &= ~DMA_CSR_MAJORELINK_MASK;
+ }
+}
+
+void EDMA_TcdSetModulo(edma_tcd_t *tcd, edma_modulo_t srcModulo, edma_modulo_t destModulo)
+{
+ assert(tcd != NULL);
+ assert(((uint32_t)tcd & 0x1FU) == 0);
+
+ uint32_t tmpreg;
+
+ tmpreg = tcd->ATTR & (~(DMA_ATTR_SMOD_MASK | DMA_ATTR_DMOD_MASK));
+ tcd->ATTR = tmpreg | DMA_ATTR_DMOD(destModulo) | DMA_ATTR_SMOD(srcModulo);
+}
+
+void EDMA_TcdEnableInterrupts(edma_tcd_t *tcd, uint32_t mask)
+{
+ assert(tcd != NULL);
+
+ /* Enable Major interrupt */
+ if (mask & kEDMA_MajorInterruptEnable)
+ {
+ tcd->CSR |= DMA_CSR_INTMAJOR_MASK;
+ }
+
+ /* Enable Half major interrupt */
+ if (mask & kEDMA_HalfInterruptEnable)
+ {
+ tcd->CSR |= DMA_CSR_INTHALF_MASK;
+ }
+}
+
+void EDMA_TcdDisableInterrupts(edma_tcd_t *tcd, uint32_t mask)
+{
+ assert(tcd != NULL);
+
+ /* Disable Major interrupt */
+ if (mask & kEDMA_MajorInterruptEnable)
+ {
+ tcd->CSR &= ~DMA_CSR_INTMAJOR_MASK;
+ }
+
+ /* Disable Half major interrupt */
+ if (mask & kEDMA_HalfInterruptEnable)
+ {
+ tcd->CSR &= ~DMA_CSR_INTHALF_MASK;
+ }
+}
+
+uint32_t EDMA_GetRemainingMajorLoopCount(DMA_Type *base, uint32_t channel)
+{
+ assert(channel < FSL_FEATURE_EDMA_MODULE_CHANNEL);
+
+ uint32_t remainingCount = 0;
+
+ if (DMA_CSR_DONE_MASK & base->TCD[channel].CSR)
+ {
+ remainingCount = 0;
+ }
+ else
+ {
+ /* Calculate the unfinished bytes */
+ if (base->TCD[channel].CITER_ELINKNO & DMA_CITER_ELINKNO_ELINK_MASK)
+ {
+ remainingCount =
+ (base->TCD[channel].CITER_ELINKYES & DMA_CITER_ELINKYES_CITER_MASK) >> DMA_CITER_ELINKYES_CITER_SHIFT;
+ }
+ else
+ {
+ remainingCount =
+ (base->TCD[channel].CITER_ELINKNO & DMA_CITER_ELINKNO_CITER_MASK) >> DMA_CITER_ELINKNO_CITER_SHIFT;
+ }
+ }
+
+ return remainingCount;
+}
+
+uint32_t EDMA_GetChannelStatusFlags(DMA_Type *base, uint32_t channel)
+{
+ assert(channel < FSL_FEATURE_EDMA_MODULE_CHANNEL);
+
+ uint32_t retval = 0;
+
+ /* Get DONE bit flag */
+ retval |= ((base->TCD[channel].CSR & DMA_CSR_DONE_MASK) >> DMA_CSR_DONE_SHIFT);
+ /* Get ERROR bit flag */
+ retval |= (((base->ERR >> channel) & 0x1U) << 1U);
+ /* Get INT bit flag */
+ retval |= (((base->INT >> channel) & 0x1U) << 2U);
+
+ return retval;
+}
+
+void EDMA_ClearChannelStatusFlags(DMA_Type *base, uint32_t channel, uint32_t mask)
+{
+ assert(channel < FSL_FEATURE_EDMA_MODULE_CHANNEL);
+
+ /* Clear DONE bit flag */
+ if (mask & kEDMA_DoneFlag)
+ {
+ base->CDNE = channel;
+ }
+ /* Clear ERROR bit flag */
+ if (mask & kEDMA_ErrorFlag)
+ {
+ base->CERR = channel;
+ }
+ /* Clear INT bit flag */
+ if (mask & kEDMA_InterruptFlag)
+ {
+ base->CINT = channel;
+ }
+}
+
+static uint8_t Get_StartInstance(void)
+{
+ static uint8_t StartInstanceNum;
+
+#if defined(DMA0)
+ StartInstanceNum = EDMA_GetInstance(DMA0);
+#elif defined(DMA1)
+ StartInstanceNum = EDMA_GetInstance(DMA1);
+#elif defined(DMA2)
+ StartInstanceNum = EDMA_GetInstance(DMA2);
+#elif defined(DMA3)
+ StartInstanceNum = EDMA_GetInstance(DMA3);
+#endif
+
+ return StartInstanceNum;
+}
+
+void EDMA_CreateHandle(edma_handle_t *handle, DMA_Type *base, uint32_t channel)
+{
+ assert(handle != NULL);
+ assert(channel < FSL_FEATURE_EDMA_MODULE_CHANNEL);
+
+ uint32_t edmaInstance;
+ uint32_t channelIndex;
+ uint8_t StartInstance;
+ edma_tcd_t *tcdRegs;
+
+ /* Zero the handle */
+ memset(handle, 0, sizeof(*handle));
+
+ handle->base = base;
+ handle->channel = channel;
+ /* Get the DMA instance number */
+ edmaInstance = EDMA_GetInstance(base);
+ StartInstance = Get_StartInstance();
+ channelIndex = ((edmaInstance - StartInstance) * FSL_FEATURE_EDMA_MODULE_CHANNEL) + channel;
+ s_EDMAHandle[channelIndex] = handle;
+
+ /* Enable NVIC interrupt */
+ EnableIRQ(s_edmaIRQNumber[edmaInstance][channel]);
+
+ /*
+ Reset TCD registers to zero. Unlike the EDMA_TcdReset(DREQ will be set),
+ CSR will be 0. Because in order to suit EDMA busy check mechanism in
+ EDMA_SubmitTransfer, CSR must be set 0.
+ */
+ tcdRegs = (edma_tcd_t *)&handle->base->TCD[handle->channel];
+ tcdRegs->SADDR = 0;
+ tcdRegs->SOFF = 0;
+ tcdRegs->ATTR = 0;
+ tcdRegs->NBYTES = 0;
+ tcdRegs->SLAST = 0;
+ tcdRegs->DADDR = 0;
+ tcdRegs->DOFF = 0;
+ tcdRegs->CITER = 0;
+ tcdRegs->DLAST_SGA = 0;
+ tcdRegs->CSR = 0;
+ tcdRegs->BITER = 0;
+}
+
+void EDMA_InstallTCDMemory(edma_handle_t *handle, edma_tcd_t *tcdPool, uint32_t tcdSize)
+{
+ assert(handle != NULL);
+ assert(((uint32_t)tcdPool & 0x1FU) == 0);
+
+ /* Initialize tcd queue attibute. */
+ handle->header = 0;
+ handle->tail = 0;
+ handle->tcdUsed = 0;
+ handle->tcdSize = tcdSize;
+ handle->flags = 0;
+ handle->tcdPool = tcdPool;
+}
+
+void EDMA_SetCallback(edma_handle_t *handle, edma_callback callback, void *userData)
+{
+ assert(handle != NULL);
+
+ handle->callback = callback;
+ handle->userData = userData;
+}
+
+void EDMA_PrepareTransfer(edma_transfer_config_t *config,
+ void *srcAddr,
+ uint32_t srcWidth,
+ void *destAddr,
+ uint32_t destWidth,
+ uint32_t bytesEachRequest,
+ uint32_t transferBytes,
+ edma_transfer_type_t type)
+{
+ assert(config != NULL);
+ assert(srcAddr != NULL);
+ assert(destAddr != NULL);
+ assert((srcWidth == 1U) || (srcWidth == 2U) || (srcWidth == 4U) || (srcWidth == 16U) || (srcWidth == 32U));
+ assert((destWidth == 1U) || (destWidth == 2U) || (destWidth == 4U) || (destWidth == 16U) || (destWidth == 32U));
+ assert(transferBytes % bytesEachRequest == 0);
+
+ config->destAddr = (uint32_t)destAddr;
+ config->srcAddr = (uint32_t)srcAddr;
+ config->minorLoopBytes = bytesEachRequest;
+ config->majorLoopCounts = transferBytes / bytesEachRequest;
+ switch (srcWidth)
+ {
+ case 1U:
+ config->srcTransferSize = kEDMA_TransferSize1Bytes;
+ break;
+ case 2U:
+ config->srcTransferSize = kEDMA_TransferSize2Bytes;
+ break;
+ case 4U:
+ config->srcTransferSize = kEDMA_TransferSize4Bytes;
+ break;
+ case 16U:
+ config->srcTransferSize = kEDMA_TransferSize16Bytes;
+ break;
+ case 32U:
+ config->srcTransferSize = kEDMA_TransferSize32Bytes;
+ break;
+ default:
+ break;
+ }
+ switch (destWidth)
+ {
+ case 1U:
+ config->destTransferSize = kEDMA_TransferSize1Bytes;
+ break;
+ case 2U:
+ config->destTransferSize = kEDMA_TransferSize2Bytes;
+ break;
+ case 4U:
+ config->destTransferSize = kEDMA_TransferSize4Bytes;
+ break;
+ case 16U:
+ config->destTransferSize = kEDMA_TransferSize16Bytes;
+ break;
+ case 32U:
+ config->destTransferSize = kEDMA_TransferSize32Bytes;
+ break;
+ default:
+ break;
+ }
+ switch (type)
+ {
+ case kEDMA_MemoryToMemory:
+ config->destOffset = destWidth;
+ config->srcOffset = srcWidth;
+ break;
+ case kEDMA_MemoryToPeripheral:
+ config->destOffset = 0U;
+ config->srcOffset = srcWidth;
+ break;
+ case kEDMA_PeripheralToMemory:
+ config->destOffset = destWidth;
+ config->srcOffset = 0U;
+ break;
+ default:
+ break;
+ }
+}
+
+status_t EDMA_SubmitTransfer(edma_handle_t *handle, const edma_transfer_config_t *config)
+{
+ assert(handle != NULL);
+ assert(config != NULL);
+
+ edma_tcd_t *tcdRegs = (edma_tcd_t *)&handle->base->TCD[handle->channel];
+
+ if (handle->tcdPool == NULL)
+ {
+ /*
+ Check if EDMA is busy: if the given channel started transfer, CSR will be not zero. Because
+ if it is the last transfer, DREQ will be set. If not, ESG will be set. So in order to suit
+ this check mechanism, EDMA_CreatHandle will clear CSR register.
+ */
+ if ((tcdRegs->CSR != 0) && ((tcdRegs->CSR & DMA_CSR_DONE_MASK) == 0))
+ {
+ return kStatus_EDMA_Busy;
+ }
+ else
+ {
+ EDMA_SetTransferConfig(handle->base, handle->channel, config, NULL);
+ /* Enable auto disable request feature */
+ handle->base->TCD[handle->channel].CSR |= DMA_CSR_DREQ_MASK;
+ /* Enable major interrupt */
+ handle->base->TCD[handle->channel].CSR |= DMA_CSR_INTMAJOR_MASK;
+
+ return kStatus_Success;
+ }
+ }
+ else /* Use the TCD queue. */
+ {
+ uint32_t primask;
+ uint32_t csr;
+ int8_t currentTcd;
+ int8_t previousTcd;
+ int8_t nextTcd;
+
+ /* Check if tcd pool is full. */
+ primask = DisableGlobalIRQ();
+ if (handle->tcdUsed >= handle->tcdSize)
+ {
+ EnableGlobalIRQ(primask);
+
+ return kStatus_EDMA_QueueFull;
+ }
+ currentTcd = handle->tail;
+ handle->tcdUsed++;
+ /* Calculate index of next TCD */
+ nextTcd = currentTcd + 1U;
+ if (nextTcd == handle->tcdSize)
+ {
+ nextTcd = 0U;
+ }
+ /* Advance queue tail index */
+ handle->tail = nextTcd;
+ EnableGlobalIRQ(primask);
+ /* Calculate index of previous TCD */
+ previousTcd = currentTcd ? currentTcd - 1U : handle->tcdSize - 1U;
+ /* Configure current TCD block. */
+ EDMA_TcdReset(&handle->tcdPool[currentTcd]);
+ EDMA_TcdSetTransferConfig(&handle->tcdPool[currentTcd], config, NULL);
+ /* Enable major interrupt */
+ handle->tcdPool[currentTcd].CSR |= DMA_CSR_INTMAJOR_MASK;
+ /* Link current TCD with next TCD for identification of current TCD */
+ handle->tcdPool[currentTcd].DLAST_SGA = (uint32_t)&handle->tcdPool[nextTcd];
+ /* Chain from previous descriptor unless tcd pool size is 1(this descriptor is its own predecessor). */
+ if (currentTcd != previousTcd)
+ {
+ /* Enable scatter/gather feature in the previous TCD block. */
+ csr = (handle->tcdPool[previousTcd].CSR | DMA_CSR_ESG_MASK) & ~DMA_CSR_DREQ_MASK;
+ handle->tcdPool[previousTcd].CSR = csr;
+ /*
+ Check if the TCD blcok in the registers is the previous one (points to current TCD block). It
+ is used to check if the previous TCD linked has been loaded in TCD register. If so, it need to
+ link the TCD register in case link the current TCD with the dead chain when TCD loading occurs
+ before link the previous TCD block.
+ */
+ if (tcdRegs->DLAST_SGA == (uint32_t)&handle->tcdPool[currentTcd])
+ {
+ /* Clear the DREQ bits for the dynamic scatter gather */
+ tcdRegs->CSR |= DMA_CSR_DREQ_MASK;
+ /* Enable scatter/gather also in the TCD registers. */
+ csr = tcdRegs->CSR | DMA_CSR_ESG_MASK;
+ /* Must write the CSR register one-time, because the transfer maybe finished anytime. */
+ tcdRegs->CSR = csr;
+ /*
+ It is very important to check the ESG bit!
+ Because this hardware design: if DONE bit is set, the ESG bit can not be set. So it can
+ be used to check if the dynamic TCD link operation is successful. If ESG bit is not set
+ and the DLAST_SGA is not the next TCD address(it means the dynamic TCD link succeed and
+ the current TCD block has been loaded into TCD registers), it means transfer finished
+ and TCD link operation fail, so must install TCD content into TCD registers and enable
+ transfer again. And if ESG is set, it means transfer has notfinished, so TCD dynamic
+ link succeed.
+ */
+ if (tcdRegs->CSR & DMA_CSR_ESG_MASK)
+ {
+ tcdRegs->CSR &= ~DMA_CSR_DREQ_MASK;
+ return kStatus_Success;
+ }
+ /*
+ Check whether the current TCD block is already loaded in the TCD registers. It is another
+ condition when ESG bit is not set: it means the dynamic TCD link succeed and the current
+ TCD block has been loaded into TCD registers.
+ */
+ if (tcdRegs->DLAST_SGA == (uint32_t)&handle->tcdPool[nextTcd])
+ {
+ return kStatus_Success;
+ }
+ /*
+ If go to this, means the previous transfer finished, and the DONE bit is set.
+ So shall configure TCD registers.
+ */
+ }
+ else if (tcdRegs->DLAST_SGA != 0)
+ {
+ /* The current TCD block has been linked successfully. */
+ return kStatus_Success;
+ }
+ else
+ {
+ /*
+ DLAST_SGA is 0 and it means the first submit transfer, so shall configure
+ TCD registers.
+ */
+ }
+ }
+ /* There is no live chain, TCD block need to be installed in TCD registers. */
+ EDMA_InstallTCD(handle->base, handle->channel, &handle->tcdPool[currentTcd]);
+ /* Enable channel request again. */
+ if (handle->flags & EDMA_TRANSFER_ENABLED_MASK)
+ {
+ handle->base->SERQ = DMA_SERQ_SERQ(handle->channel);
+ }
+
+ return kStatus_Success;
+ }
+}
+
+void EDMA_StartTransfer(edma_handle_t *handle)
+{
+ assert(handle != NULL);
+
+ if (handle->tcdPool == NULL)
+ {
+ handle->base->SERQ = DMA_SERQ_SERQ(handle->channel);
+ }
+ else /* Use the TCD queue. */
+ {
+ uint32_t primask;
+ edma_tcd_t *tcdRegs = (edma_tcd_t *)&handle->base->TCD[handle->channel];
+
+ handle->flags |= EDMA_TRANSFER_ENABLED_MASK;
+
+ /* Check if there was at least one descriptor submitted since reset (TCD in registers is valid) */
+ if (tcdRegs->DLAST_SGA != 0U)
+ {
+ primask = DisableGlobalIRQ();
+ /* Check if channel request is actually disable. */
+ if ((handle->base->ERQ & (1U << handle->channel)) == 0U)
+ {
+ /* Check if transfer is paused. */
+ if ((!(tcdRegs->CSR & DMA_CSR_DONE_MASK)) || (tcdRegs->CSR & DMA_CSR_ESG_MASK))
+ {
+ /*
+ Re-enable channel request must be as soon as possible, so must put it into
+ critical section to avoid task switching or interrupt service routine.
+ */
+ handle->base->SERQ = DMA_SERQ_SERQ(handle->channel);
+ }
+ }
+ EnableGlobalIRQ(primask);
+ }
+ }
+}
+
+void EDMA_StopTransfer(edma_handle_t *handle)
+{
+ assert(handle != NULL);
+
+ handle->flags &= (~EDMA_TRANSFER_ENABLED_MASK);
+ handle->base->CERQ = DMA_CERQ_CERQ(handle->channel);
+}
+
+void EDMA_AbortTransfer(edma_handle_t *handle)
+{
+ handle->base->CERQ = DMA_CERQ_CERQ(handle->channel);
+ /*
+ Clear CSR to release channel. Because if the given channel started transfer,
+ CSR will be not zero. Because if it is the last transfer, DREQ will be set.
+ If not, ESG will be set.
+ */
+ handle->base->TCD[handle->channel].CSR = 0;
+ /* Cancel all next TCD transfer. */
+ handle->base->TCD[handle->channel].DLAST_SGA = 0;
+
+ /* Handle the tcd */
+ if (handle->tcdPool != NULL)
+ {
+ handle->header = 0;
+ handle->tail = 0;
+ handle->tcdUsed = 0;
+ }
+}
+
+void EDMA_HandleIRQ(edma_handle_t *handle)
+{
+ assert(handle != NULL);
+
+ /* Clear EDMA interrupt flag */
+ handle->base->CINT = handle->channel;
+ if ((handle->tcdPool == NULL) && (handle->callback != NULL))
+ {
+ (handle->callback)(handle, handle->userData, true, 0);
+ }
+ else /* Use the TCD queue. Please refer to the API descriptions in the eDMA header file for detailed information. */
+ {
+ uint32_t sga = handle->base->TCD[handle->channel].DLAST_SGA;
+ uint32_t sga_index;
+ int32_t tcds_done;
+ uint8_t new_header;
+ bool transfer_done;
+
+ /* Check if transfer is already finished. */
+ transfer_done = ((handle->base->TCD[handle->channel].CSR & DMA_CSR_DONE_MASK) != 0);
+ /* Get the offset of the next transfer TCD blcoks to be loaded into the eDMA engine. */
+ sga -= (uint32_t)handle->tcdPool;
+ /* Get the index of the next transfer TCD blcoks to be loaded into the eDMA engine. */
+ sga_index = sga / sizeof(edma_tcd_t);
+ /* Adjust header positions. */
+ if (transfer_done)
+ {
+ /* New header shall point to the next TCD to be loaded (current one is already finished) */
+ new_header = sga_index;
+ }
+ else
+ {
+ /* New header shall point to this descriptor currently loaded (not finished yet) */
+ new_header = sga_index ? sga_index - 1U : handle->tcdSize - 1U;
+ }
+ /* Calculate the number of finished TCDs */
+ if (new_header == handle->header)
+ {
+ if (handle->tcdUsed == handle->tcdSize)
+ {
+ tcds_done = handle->tcdUsed;
+ }
+ else
+ {
+ /* No TCD in the memory are going to be loaded or internal error occurs. */
+ tcds_done = 0;
+ }
+ }
+ else
+ {
+ tcds_done = new_header - handle->header;
+ if (tcds_done < 0)
+ {
+ tcds_done += handle->tcdSize;
+ }
+ }
+ /* Advance header which points to the TCD to be loaded into the eDMA engine from memory. */
+ handle->header = new_header;
+ /* Release TCD blocks. tcdUsed is the TCD number which can be used/loaded in the memory pool. */
+ handle->tcdUsed -= tcds_done;
+ /* Invoke callback function. */
+ if (handle->callback)
+ {
+ (handle->callback)(handle, handle->userData, transfer_done, tcds_done);
+ }
+ }
+}
+
+/* 8 channels (Shared): kl28 */
+#if defined(FSL_FEATURE_EDMA_MODULE_CHANNEL) && FSL_FEATURE_EDMA_MODULE_CHANNEL == 8U
+
+#if defined(DMA0)
+void DMA0_04_DriverIRQHandler(void)
+{
+ if ((EDMA_GetChannelStatusFlags(DMA0, 0U) & kEDMA_InterruptFlag) != 0U)
+ {
+ EDMA_HandleIRQ(s_EDMAHandle[0]);
+ }
+ if ((EDMA_GetChannelStatusFlags(DMA0, 4U) & kEDMA_InterruptFlag) != 0U)
+ {
+ EDMA_HandleIRQ(s_EDMAHandle[4]);
+ }
+ /* Add for ARM errata 838869, affects Cortex-M4, Cortex-M4F Store immediate overlapping
+ exception return operation might vector to incorrect interrupt */
+#if defined __CORTEX_M && (__CORTEX_M == 4U)
+ __DSB();
+#endif
+}
+
+void DMA0_15_DriverIRQHandler(void)
+{
+ if ((EDMA_GetChannelStatusFlags(DMA0, 1U) & kEDMA_InterruptFlag) != 0U)
+ {
+ EDMA_HandleIRQ(s_EDMAHandle[1]);
+ }
+ if ((EDMA_GetChannelStatusFlags(DMA0, 5U) & kEDMA_InterruptFlag) != 0U)
+ {
+ EDMA_HandleIRQ(s_EDMAHandle[5]);
+ }
+ /* Add for ARM errata 838869, affects Cortex-M4, Cortex-M4F Store immediate overlapping
+ exception return operation might vector to incorrect interrupt */
+#if defined __CORTEX_M && (__CORTEX_M == 4U)
+ __DSB();
+#endif
+}
+
+void DMA0_26_DriverIRQHandler(void)
+{
+ if ((EDMA_GetChannelStatusFlags(DMA0, 2U) & kEDMA_InterruptFlag) != 0U)
+ {
+ EDMA_HandleIRQ(s_EDMAHandle[2]);
+ }
+ if ((EDMA_GetChannelStatusFlags(DMA0, 6U) & kEDMA_InterruptFlag) != 0U)
+ {
+ EDMA_HandleIRQ(s_EDMAHandle[6]);
+ }
+ /* Add for ARM errata 838869, affects Cortex-M4, Cortex-M4F Store immediate overlapping
+ exception return operation might vector to incorrect interrupt */
+#if defined __CORTEX_M && (__CORTEX_M == 4U)
+ __DSB();
+#endif
+}
+
+void DMA0_37_DriverIRQHandler(void)
+{
+ if ((EDMA_GetChannelStatusFlags(DMA0, 3U) & kEDMA_InterruptFlag) != 0U)
+ {
+ EDMA_HandleIRQ(s_EDMAHandle[3]);
+ }
+ if ((EDMA_GetChannelStatusFlags(DMA0, 7U) & kEDMA_InterruptFlag) != 0U)
+ {
+ EDMA_HandleIRQ(s_EDMAHandle[7]);
+ }
+ /* Add for ARM errata 838869, affects Cortex-M4, Cortex-M4F Store immediate overlapping
+ exception return operation might vector to incorrect interrupt */
+#if defined __CORTEX_M && (__CORTEX_M == 4U)
+ __DSB();
+#endif
+}
+#endif
+
+#if defined(DMA1)
+
+#if defined(DMA0)
+void DMA1_04_DriverIRQHandler(void)
+{
+ if ((EDMA_GetChannelStatusFlags(DMA1, 0U) & kEDMA_InterruptFlag) != 0U)
+ {
+ EDMA_HandleIRQ(s_EDMAHandle[8]);
+ }
+ if ((EDMA_GetChannelStatusFlags(DMA1, 4U) & kEDMA_InterruptFlag) != 0U)
+ {
+ EDMA_HandleIRQ(s_EDMAHandle[12]);
+ }
+ /* Add for ARM errata 838869, affects Cortex-M4, Cortex-M4F Store immediate overlapping
+ exception return operation might vector to incorrect interrupt */
+#if defined __CORTEX_M && (__CORTEX_M == 4U)
+ __DSB();
+#endif
+}
+
+void DMA1_15_DriverIRQHandler(void)
+{
+ if ((EDMA_GetChannelStatusFlags(DMA1, 1U) & kEDMA_InterruptFlag) != 0U)
+ {
+ EDMA_HandleIRQ(s_EDMAHandle[9]);
+ }
+ if ((EDMA_GetChannelStatusFlags(DMA1, 5U) & kEDMA_InterruptFlag) != 0U)
+ {
+ EDMA_HandleIRQ(s_EDMAHandle[13]);
+ }
+ /* Add for ARM errata 838869, affects Cortex-M4, Cortex-M4F Store immediate overlapping
+ exception return operation might vector to incorrect interrupt */
+#if defined __CORTEX_M && (__CORTEX_M == 4U)
+ __DSB();
+#endif
+}
+
+void DMA1_26_DriverIRQHandler(void)
+{
+ if ((EDMA_GetChannelStatusFlags(DMA1, 2U) & kEDMA_InterruptFlag) != 0U)
+ {
+ EDMA_HandleIRQ(s_EDMAHandle[10]);
+ }
+ if ((EDMA_GetChannelStatusFlags(DMA1, 6U) & kEDMA_InterruptFlag) != 0U)
+ {
+ EDMA_HandleIRQ(s_EDMAHandle[14]);
+ }
+ /* Add for ARM errata 838869, affects Cortex-M4, Cortex-M4F Store immediate overlapping
+ exception return operation might vector to incorrect interrupt */
+#if defined __CORTEX_M && (__CORTEX_M == 4U)
+ __DSB();
+#endif
+}
+
+void DMA1_37_DriverIRQHandler(void)
+{
+ if ((EDMA_GetChannelStatusFlags(DMA1, 3U) & kEDMA_InterruptFlag) != 0U)
+ {
+ EDMA_HandleIRQ(s_EDMAHandle[11]);
+ }
+ if ((EDMA_GetChannelStatusFlags(DMA1, 7U) & kEDMA_InterruptFlag) != 0U)
+ {
+ EDMA_HandleIRQ(s_EDMAHandle[15]);
+ }
+ /* Add for ARM errata 838869, affects Cortex-M4, Cortex-M4F Store immediate overlapping
+ exception return operation might vector to incorrect interrupt */
+#if defined __CORTEX_M && (__CORTEX_M == 4U)
+ __DSB();
+#endif
+}
+
+#else
+void DMA1_04_DriverIRQHandler(void)
+{
+ if ((EDMA_GetChannelStatusFlags(DMA1, 0U) & kEDMA_InterruptFlag) != 0U)
+ {
+ EDMA_HandleIRQ(s_EDMAHandle[0]);
+ }
+ if ((EDMA_GetChannelStatusFlags(DMA1, 4U) & kEDMA_InterruptFlag) != 0U)
+ {
+ EDMA_HandleIRQ(s_EDMAHandle[4]);
+ }
+ /* Add for ARM errata 838869, affects Cortex-M4, Cortex-M4F Store immediate overlapping
+ exception return operation might vector to incorrect interrupt */
+#if defined __CORTEX_M && (__CORTEX_M == 4U)
+ __DSB();
+#endif
+}
+
+void DMA1_15_DriverIRQHandler(void)
+{
+ if ((EDMA_GetChannelStatusFlags(DMA1, 1U) & kEDMA_InterruptFlag) != 0U)
+ {
+ EDMA_HandleIRQ(s_EDMAHandle[1]);
+ }
+ if ((EDMA_GetChannelStatusFlags(DMA1, 5U) & kEDMA_InterruptFlag) != 0U)
+ {
+ EDMA_HandleIRQ(s_EDMAHandle[5]);
+ }
+ /* Add for ARM errata 838869, affects Cortex-M4, Cortex-M4F Store immediate overlapping
+ exception return operation might vector to incorrect interrupt */
+#if defined __CORTEX_M && (__CORTEX_M == 4U)
+ __DSB();
+#endif
+}
+
+void DMA1_26_DriverIRQHandler(void)
+{
+ if ((EDMA_GetChannelStatusFlags(DMA1, 2U) & kEDMA_InterruptFlag) != 0U)
+ {
+ EDMA_HandleIRQ(s_EDMAHandle[2]);
+ }
+ if ((EDMA_GetChannelStatusFlags(DMA1, 6U) & kEDMA_InterruptFlag) != 0U)
+ {
+ EDMA_HandleIRQ(s_EDMAHandle[6]);
+ }
+ /* Add for ARM errata 838869, affects Cortex-M4, Cortex-M4F Store immediate overlapping
+ exception return operation might vector to incorrect interrupt */
+#if defined __CORTEX_M && (__CORTEX_M == 4U)
+ __DSB();
+#endif
+}
+
+void DMA1_37_DriverIRQHandler(void)
+{
+ if ((EDMA_GetChannelStatusFlags(DMA1, 3U) & kEDMA_InterruptFlag) != 0U)
+ {
+ EDMA_HandleIRQ(s_EDMAHandle[3]);
+ }
+ if ((EDMA_GetChannelStatusFlags(DMA1, 7U) & kEDMA_InterruptFlag) != 0U)
+ {
+ EDMA_HandleIRQ(s_EDMAHandle[7]);
+ }
+ /* Add for ARM errata 838869, affects Cortex-M4, Cortex-M4F Store immediate overlapping
+ exception return operation might vector to incorrect interrupt */
+#if defined __CORTEX_M && (__CORTEX_M == 4U)
+ __DSB();
+#endif
+}
+#endif
+#endif
+#endif /* 8 channels (Shared) */
+
+/* 16 channels (Shared): K32H844P */
+#if defined(FSL_FEATURE_EDMA_MODULE_CHANNEL) && FSL_FEATURE_EDMA_MODULE_CHANNEL == 16U
+
+void DMA0_08_DriverIRQHandler(void)
+{
+ if ((EDMA_GetChannelStatusFlags(DMA0, 0U) & kEDMA_InterruptFlag) != 0U)
+ {
+ EDMA_HandleIRQ(s_EDMAHandle[0]);
+ }
+ if ((EDMA_GetChannelStatusFlags(DMA0, 8U) & kEDMA_InterruptFlag) != 0U)
+ {
+ EDMA_HandleIRQ(s_EDMAHandle[8]);
+ }
+ /* Add for ARM errata 838869, affects Cortex-M4, Cortex-M4F Store immediate overlapping
+ exception return operation might vector to incorrect interrupt */
+#if defined __CORTEX_M && (__CORTEX_M == 4U)
+ __DSB();
+#endif
+}
+
+void DMA0_19_DriverIRQHandler(void)
+{
+ if ((EDMA_GetChannelStatusFlags(DMA0, 1U) & kEDMA_InterruptFlag) != 0U)
+ {
+ EDMA_HandleIRQ(s_EDMAHandle[1]);
+ }
+ if ((EDMA_GetChannelStatusFlags(DMA0, 9U) & kEDMA_InterruptFlag) != 0U)
+ {
+ EDMA_HandleIRQ(s_EDMAHandle[9]);
+ }
+ /* Add for ARM errata 838869, affects Cortex-M4, Cortex-M4F Store immediate overlapping
+ exception return operation might vector to incorrect interrupt */
+#if defined __CORTEX_M && (__CORTEX_M == 4U)
+ __DSB();
+#endif
+}
+
+void DMA0_210_DriverIRQHandler(void)
+{
+ if ((EDMA_GetChannelStatusFlags(DMA0, 2U) & kEDMA_InterruptFlag) != 0U)
+ {
+ EDMA_HandleIRQ(s_EDMAHandle[2]);
+ }
+ if ((EDMA_GetChannelStatusFlags(DMA0, 10U) & kEDMA_InterruptFlag) != 0U)
+ {
+ EDMA_HandleIRQ(s_EDMAHandle[10]);
+ }
+ /* Add for ARM errata 838869, affects Cortex-M4, Cortex-M4F Store immediate overlapping
+ exception return operation might vector to incorrect interrupt */
+#if defined __CORTEX_M && (__CORTEX_M == 4U)
+ __DSB();
+#endif
+}
+
+void DMA0_311_DriverIRQHandler(void)
+{
+ if ((EDMA_GetChannelStatusFlags(DMA0, 3U) & kEDMA_InterruptFlag) != 0U)
+ {
+ EDMA_HandleIRQ(s_EDMAHandle[3]);
+ }
+ if ((EDMA_GetChannelStatusFlags(DMA0, 11U) & kEDMA_InterruptFlag) != 0U)
+ {
+ EDMA_HandleIRQ(s_EDMAHandle[11]);
+ }
+ /* Add for ARM errata 838869, affects Cortex-M4, Cortex-M4F Store immediate overlapping
+ exception return operation might vector to incorrect interrupt */
+#if defined __CORTEX_M && (__CORTEX_M == 4U)
+ __DSB();
+#endif
+}
+
+void DMA0_412_DriverIRQHandler(void)
+{
+ if ((EDMA_GetChannelStatusFlags(DMA0, 4U) & kEDMA_InterruptFlag) != 0U)
+ {
+ EDMA_HandleIRQ(s_EDMAHandle[4]);
+ }
+ if ((EDMA_GetChannelStatusFlags(DMA0, 12U) & kEDMA_InterruptFlag) != 0U)
+ {
+ EDMA_HandleIRQ(s_EDMAHandle[12]);
+ }
+ /* Add for ARM errata 838869, affects Cortex-M4, Cortex-M4F Store immediate overlapping
+ exception return operation might vector to incorrect interrupt */
+#if defined __CORTEX_M && (__CORTEX_M == 4U)
+ __DSB();
+#endif
+}
+
+void DMA0_513_DriverIRQHandler(void)
+{
+ if ((EDMA_GetChannelStatusFlags(DMA0, 5U) & kEDMA_InterruptFlag) != 0U)
+ {
+ EDMA_HandleIRQ(s_EDMAHandle[5]);
+ }
+ if ((EDMA_GetChannelStatusFlags(DMA0, 13U) & kEDMA_InterruptFlag) != 0U)
+ {
+ EDMA_HandleIRQ(s_EDMAHandle[13]);
+ }
+ /* Add for ARM errata 838869, affects Cortex-M4, Cortex-M4F Store immediate overlapping
+ exception return operation might vector to incorrect interrupt */
+#if defined __CORTEX_M && (__CORTEX_M == 4U)
+ __DSB();
+#endif
+}
+
+void DMA0_614_DriverIRQHandler(void)
+{
+ if ((EDMA_GetChannelStatusFlags(DMA0, 6U) & kEDMA_InterruptFlag) != 0U)
+ {
+ EDMA_HandleIRQ(s_EDMAHandle[6]);
+ }
+ if ((EDMA_GetChannelStatusFlags(DMA0, 14U) & kEDMA_InterruptFlag) != 0U)
+ {
+ EDMA_HandleIRQ(s_EDMAHandle[14]);
+ }
+ /* Add for ARM errata 838869, affects Cortex-M4, Cortex-M4F Store immediate overlapping
+ exception return operation might vector to incorrect interrupt */
+#if defined __CORTEX_M && (__CORTEX_M == 4U)
+ __DSB();
+#endif
+}
+
+void DMA0_715_DriverIRQHandler(void)
+{
+ if ((EDMA_GetChannelStatusFlags(DMA0, 7U) & kEDMA_InterruptFlag) != 0U)
+ {
+ EDMA_HandleIRQ(s_EDMAHandle[7]);
+ }
+ if ((EDMA_GetChannelStatusFlags(DMA0, 15U) & kEDMA_InterruptFlag) != 0U)
+ {
+ EDMA_HandleIRQ(s_EDMAHandle[15]);
+ }
+ /* Add for ARM errata 838869, affects Cortex-M4, Cortex-M4F Store immediate overlapping
+ exception return operation might vector to incorrect interrupt */
+#if defined __CORTEX_M && (__CORTEX_M == 4U)
+ __DSB();
+#endif
+}
+
+#if defined(DMA1)
+void DMA1_08_DriverIRQHandler(void)
+{
+ if ((EDMA_GetChannelStatusFlags(DMA1, 0U) & kEDMA_InterruptFlag) != 0U)
+ {
+ EDMA_HandleIRQ(s_EDMAHandle[16]);
+ }
+ if ((EDMA_GetChannelStatusFlags(DMA1, 8U) & kEDMA_InterruptFlag) != 0U)
+ {
+ EDMA_HandleIRQ(s_EDMAHandle[24]);
+ }
+ /* Add for ARM errata 838869, affects Cortex-M4, Cortex-M4F Store immediate overlapping
+ exception return operation might vector to incorrect interrupt */
+#if defined __CORTEX_M && (__CORTEX_M == 4U)
+ __DSB();
+#endif
+}
+
+void DMA1_19_DriverIRQHandler(void)
+{
+ if ((EDMA_GetChannelStatusFlags(DMA1, 1U) & kEDMA_InterruptFlag) != 0U)
+ {
+ EDMA_HandleIRQ(s_EDMAHandle[17]);
+ }
+ if ((EDMA_GetChannelStatusFlags(DMA1, 9U) & kEDMA_InterruptFlag) != 0U)
+ {
+ EDMA_HandleIRQ(s_EDMAHandle[25]);
+ }
+ /* Add for ARM errata 838869, affects Cortex-M4, Cortex-M4F Store immediate overlapping
+ exception return operation might vector to incorrect interrupt */
+#if defined __CORTEX_M && (__CORTEX_M == 4U)
+ __DSB();
+#endif
+}
+
+void DMA1_210_DriverIRQHandler(void)
+{
+ if ((EDMA_GetChannelStatusFlags(DMA1, 2U) & kEDMA_InterruptFlag) != 0U)
+ {
+ EDMA_HandleIRQ(s_EDMAHandle[18]);
+ }
+ if ((EDMA_GetChannelStatusFlags(DMA1, 10U) & kEDMA_InterruptFlag) != 0U)
+ {
+ EDMA_HandleIRQ(s_EDMAHandle[26]);
+ }
+ /* Add for ARM errata 838869, affects Cortex-M4, Cortex-M4F Store immediate overlapping
+ exception return operation might vector to incorrect interrupt */
+#if defined __CORTEX_M && (__CORTEX_M == 4U)
+ __DSB();
+#endif
+}
+
+void DMA1_311_DriverIRQHandler(void)
+{
+ if ((EDMA_GetChannelStatusFlags(DMA1, 3U) & kEDMA_InterruptFlag) != 0U)
+ {
+ EDMA_HandleIRQ(s_EDMAHandle[19]);
+ }
+ if ((EDMA_GetChannelStatusFlags(DMA1, 11U) & kEDMA_InterruptFlag) != 0U)
+ {
+ EDMA_HandleIRQ(s_EDMAHandle[27]);
+ }
+ /* Add for ARM errata 838869, affects Cortex-M4, Cortex-M4F Store immediate overlapping
+ exception return operation might vector to incorrect interrupt */
+#if defined __CORTEX_M && (__CORTEX_M == 4U)
+ __DSB();
+#endif
+}
+
+void DMA1_412_DriverIRQHandler(void)
+{
+ if ((EDMA_GetChannelStatusFlags(DMA1, 4U) & kEDMA_InterruptFlag) != 0U)
+ {
+ EDMA_HandleIRQ(s_EDMAHandle[20]);
+ }
+ if ((EDMA_GetChannelStatusFlags(DMA1, 12U) & kEDMA_InterruptFlag) != 0U)
+ {
+ EDMA_HandleIRQ(s_EDMAHandle[28]);
+ }
+ /* Add for ARM errata 838869, affects Cortex-M4, Cortex-M4F Store immediate overlapping
+ exception return operation might vector to incorrect interrupt */
+#if defined __CORTEX_M && (__CORTEX_M == 4U)
+ __DSB();
+#endif
+}
+
+void DMA1_513_DriverIRQHandler(void)
+{
+ if ((EDMA_GetChannelStatusFlags(DMA1, 5U) & kEDMA_InterruptFlag) != 0U)
+ {
+ EDMA_HandleIRQ(s_EDMAHandle[21]);
+ }
+ if ((EDMA_GetChannelStatusFlags(DMA1, 13U) & kEDMA_InterruptFlag) != 0U)
+ {
+ EDMA_HandleIRQ(s_EDMAHandle[29]);
+ }
+ /* Add for ARM errata 838869, affects Cortex-M4, Cortex-M4F Store immediate overlapping
+ exception return operation might vector to incorrect interrupt */
+#if defined __CORTEX_M && (__CORTEX_M == 4U)
+ __DSB();
+#endif
+}
+
+void DMA1_614_DriverIRQHandler(void)
+{
+ if ((EDMA_GetChannelStatusFlags(DMA1, 6U) & kEDMA_InterruptFlag) != 0U)
+ {
+ EDMA_HandleIRQ(s_EDMAHandle[22]);
+ }
+ if ((EDMA_GetChannelStatusFlags(DMA1, 14U) & kEDMA_InterruptFlag) != 0U)
+ {
+ EDMA_HandleIRQ(s_EDMAHandle[30]);
+ }
+ /* Add for ARM errata 838869, affects Cortex-M4, Cortex-M4F Store immediate overlapping
+ exception return operation might vector to incorrect interrupt */
+#if defined __CORTEX_M && (__CORTEX_M == 4U)
+ __DSB();
+#endif
+}
+
+void DMA1_715_DriverIRQHandler(void)
+{
+ if ((EDMA_GetChannelStatusFlags(DMA1, 7U) & kEDMA_InterruptFlag) != 0U)
+ {
+ EDMA_HandleIRQ(s_EDMAHandle[23]);
+ }
+ if ((EDMA_GetChannelStatusFlags(DMA1, 15U) & kEDMA_InterruptFlag) != 0U)
+ {
+ EDMA_HandleIRQ(s_EDMAHandle[31]);
+ }
+ /* Add for ARM errata 838869, affects Cortex-M4, Cortex-M4F Store immediate overlapping
+ exception return operation might vector to incorrect interrupt */
+#if defined __CORTEX_M && (__CORTEX_M == 4U)
+ __DSB();
+#endif
+}
+#endif
+#endif /* 16 channels (Shared) */
+
+/* 32 channels (Shared): k80 */
+#if defined(FSL_FEATURE_EDMA_MODULE_CHANNEL) && FSL_FEATURE_EDMA_MODULE_CHANNEL == 32U
+
+void DMA0_DMA16_DriverIRQHandler(void)
+{
+ if ((EDMA_GetChannelStatusFlags(DMA0, 0U) & kEDMA_InterruptFlag) != 0U)
+ {
+ EDMA_HandleIRQ(s_EDMAHandle[0]);
+ }
+ if ((EDMA_GetChannelStatusFlags(DMA0, 16U) & kEDMA_InterruptFlag) != 0U)
+ {
+ EDMA_HandleIRQ(s_EDMAHandle[16]);
+ }
+ /* Add for ARM errata 838869, affects Cortex-M4, Cortex-M4F Store immediate overlapping
+ exception return operation might vector to incorrect interrupt */
+#if defined __CORTEX_M && (__CORTEX_M == 4U)
+ __DSB();
+#endif
+}
+
+void DMA1_DMA17_DriverIRQHandler(void)
+{
+ if ((EDMA_GetChannelStatusFlags(DMA0, 1U) & kEDMA_InterruptFlag) != 0U)
+ {
+ EDMA_HandleIRQ(s_EDMAHandle[1]);
+ }
+ if ((EDMA_GetChannelStatusFlags(DMA0, 17U) & kEDMA_InterruptFlag) != 0U)
+ {
+ EDMA_HandleIRQ(s_EDMAHandle[17]);
+ }
+ /* Add for ARM errata 838869, affects Cortex-M4, Cortex-M4F Store immediate overlapping
+ exception return operation might vector to incorrect interrupt */
+#if defined __CORTEX_M && (__CORTEX_M == 4U)
+ __DSB();
+#endif
+}
+
+void DMA2_DMA18_DriverIRQHandler(void)
+{
+ if ((EDMA_GetChannelStatusFlags(DMA0, 2U) & kEDMA_InterruptFlag) != 0U)
+ {
+ EDMA_HandleIRQ(s_EDMAHandle[2]);
+ }
+ if ((EDMA_GetChannelStatusFlags(DMA0, 18U) & kEDMA_InterruptFlag) != 0U)
+ {
+ EDMA_HandleIRQ(s_EDMAHandle[18]);
+ }
+ /* Add for ARM errata 838869, affects Cortex-M4, Cortex-M4F Store immediate overlapping
+ exception return operation might vector to incorrect interrupt */
+#if defined __CORTEX_M && (__CORTEX_M == 4U)
+ __DSB();
+#endif
+}
+
+void DMA3_DMA19_DriverIRQHandler(void)
+{
+ if ((EDMA_GetChannelStatusFlags(DMA0, 3U) & kEDMA_InterruptFlag) != 0U)
+ {
+ EDMA_HandleIRQ(s_EDMAHandle[3]);
+ }
+ if ((EDMA_GetChannelStatusFlags(DMA0, 19U) & kEDMA_InterruptFlag) != 0U)
+ {
+ EDMA_HandleIRQ(s_EDMAHandle[19]);
+ }
+ /* Add for ARM errata 838869, affects Cortex-M4, Cortex-M4F Store immediate overlapping
+ exception return operation might vector to incorrect interrupt */
+#if defined __CORTEX_M && (__CORTEX_M == 4U)
+ __DSB();
+#endif
+}
+
+void DMA4_DMA20_DriverIRQHandler(void)
+{
+ if ((EDMA_GetChannelStatusFlags(DMA0, 4U) & kEDMA_InterruptFlag) != 0U)
+ {
+ EDMA_HandleIRQ(s_EDMAHandle[4]);
+ }
+ if ((EDMA_GetChannelStatusFlags(DMA0, 20U) & kEDMA_InterruptFlag) != 0U)
+ {
+ EDMA_HandleIRQ(s_EDMAHandle[20]);
+ }
+ /* Add for ARM errata 838869, affects Cortex-M4, Cortex-M4F Store immediate overlapping
+ exception return operation might vector to incorrect interrupt */
+#if defined __CORTEX_M && (__CORTEX_M == 4U)
+ __DSB();
+#endif
+}
+
+void DMA5_DMA21_DriverIRQHandler(void)
+{
+ if ((EDMA_GetChannelStatusFlags(DMA0, 5U) & kEDMA_InterruptFlag) != 0U)
+ {
+ EDMA_HandleIRQ(s_EDMAHandle[5]);
+ }
+ if ((EDMA_GetChannelStatusFlags(DMA0, 21U) & kEDMA_InterruptFlag) != 0U)
+ {
+ EDMA_HandleIRQ(s_EDMAHandle[21]);
+ }
+ /* Add for ARM errata 838869, affects Cortex-M4, Cortex-M4F Store immediate overlapping
+ exception return operation might vector to incorrect interrupt */
+#if defined __CORTEX_M && (__CORTEX_M == 4U)
+ __DSB();
+#endif
+}
+
+void DMA6_DMA22_DriverIRQHandler(void)
+{
+ if ((EDMA_GetChannelStatusFlags(DMA0, 6U) & kEDMA_InterruptFlag) != 0U)
+ {
+ EDMA_HandleIRQ(s_EDMAHandle[6]);
+ }
+ if ((EDMA_GetChannelStatusFlags(DMA0, 22U) & kEDMA_InterruptFlag) != 0U)
+ {
+ EDMA_HandleIRQ(s_EDMAHandle[22]);
+ }
+ /* Add for ARM errata 838869, affects Cortex-M4, Cortex-M4F Store immediate overlapping
+ exception return operation might vector to incorrect interrupt */
+#if defined __CORTEX_M && (__CORTEX_M == 4U)
+ __DSB();
+#endif
+}
+
+void DMA7_DMA23_DriverIRQHandler(void)
+{
+ if ((EDMA_GetChannelStatusFlags(DMA0, 7U) & kEDMA_InterruptFlag) != 0U)
+ {
+ EDMA_HandleIRQ(s_EDMAHandle[7]);
+ }
+ if ((EDMA_GetChannelStatusFlags(DMA0, 23U) & kEDMA_InterruptFlag) != 0U)
+ {
+ EDMA_HandleIRQ(s_EDMAHandle[23]);
+ }
+ /* Add for ARM errata 838869, affects Cortex-M4, Cortex-M4F Store immediate overlapping
+ exception return operation might vector to incorrect interrupt */
+#if defined __CORTEX_M && (__CORTEX_M == 4U)
+ __DSB();
+#endif
+}
+
+void DMA8_DMA24_DriverIRQHandler(void)
+{
+ if ((EDMA_GetChannelStatusFlags(DMA0, 8U) & kEDMA_InterruptFlag) != 0U)
+ {
+ EDMA_HandleIRQ(s_EDMAHandle[8]);
+ }
+ if ((EDMA_GetChannelStatusFlags(DMA0, 24U) & kEDMA_InterruptFlag) != 0U)
+ {
+ EDMA_HandleIRQ(s_EDMAHandle[24]);
+ }
+ /* Add for ARM errata 838869, affects Cortex-M4, Cortex-M4F Store immediate overlapping
+ exception return operation might vector to incorrect interrupt */
+#if defined __CORTEX_M && (__CORTEX_M == 4U)
+ __DSB();
+#endif
+}
+
+void DMA9_DMA25_DriverIRQHandler(void)
+{
+ if ((EDMA_GetChannelStatusFlags(DMA0, 9U) & kEDMA_InterruptFlag) != 0U)
+ {
+ EDMA_HandleIRQ(s_EDMAHandle[9]);
+ }
+ if ((EDMA_GetChannelStatusFlags(DMA0, 25U) & kEDMA_InterruptFlag) != 0U)
+ {
+ EDMA_HandleIRQ(s_EDMAHandle[25]);
+ }
+ /* Add for ARM errata 838869, affects Cortex-M4, Cortex-M4F Store immediate overlapping
+ exception return operation might vector to incorrect interrupt */
+#if defined __CORTEX_M && (__CORTEX_M == 4U)
+ __DSB();
+#endif
+}
+
+void DMA10_DMA26_DriverIRQHandler(void)
+{
+ if ((EDMA_GetChannelStatusFlags(DMA0, 10U) & kEDMA_InterruptFlag) != 0U)
+ {
+ EDMA_HandleIRQ(s_EDMAHandle[10]);
+ }
+ if ((EDMA_GetChannelStatusFlags(DMA0, 26U) & kEDMA_InterruptFlag) != 0U)
+ {
+ EDMA_HandleIRQ(s_EDMAHandle[26]);
+ }
+ /* Add for ARM errata 838869, affects Cortex-M4, Cortex-M4F Store immediate overlapping
+ exception return operation might vector to incorrect interrupt */
+#if defined __CORTEX_M && (__CORTEX_M == 4U)
+ __DSB();
+#endif
+}
+
+void DMA11_DMA27_DriverIRQHandler(void)
+{
+ if ((EDMA_GetChannelStatusFlags(DMA0, 11U) & kEDMA_InterruptFlag) != 0U)
+ {
+ EDMA_HandleIRQ(s_EDMAHandle[11]);
+ }
+ if ((EDMA_GetChannelStatusFlags(DMA0, 27U) & kEDMA_InterruptFlag) != 0U)
+ {
+ EDMA_HandleIRQ(s_EDMAHandle[27]);
+ }
+ /* Add for ARM errata 838869, affects Cortex-M4, Cortex-M4F Store immediate overlapping
+ exception return operation might vector to incorrect interrupt */
+#if defined __CORTEX_M && (__CORTEX_M == 4U)
+ __DSB();
+#endif
+}
+
+void DMA12_DMA28_DriverIRQHandler(void)
+{
+ if ((EDMA_GetChannelStatusFlags(DMA0, 12U) & kEDMA_InterruptFlag) != 0U)
+ {
+ EDMA_HandleIRQ(s_EDMAHandle[12]);
+ }
+ if ((EDMA_GetChannelStatusFlags(DMA0, 28U) & kEDMA_InterruptFlag) != 0U)
+ {
+ EDMA_HandleIRQ(s_EDMAHandle[28]);
+ }
+ /* Add for ARM errata 838869, affects Cortex-M4, Cortex-M4F Store immediate overlapping
+ exception return operation might vector to incorrect interrupt */
+#if defined __CORTEX_M && (__CORTEX_M == 4U)
+ __DSB();
+#endif
+}
+
+void DMA13_DMA29_DriverIRQHandler(void)
+{
+ if ((EDMA_GetChannelStatusFlags(DMA0, 13U) & kEDMA_InterruptFlag) != 0U)
+ {
+ EDMA_HandleIRQ(s_EDMAHandle[13]);
+ }
+ if ((EDMA_GetChannelStatusFlags(DMA0, 29U) & kEDMA_InterruptFlag) != 0U)
+ {
+ EDMA_HandleIRQ(s_EDMAHandle[29]);
+ }
+ /* Add for ARM errata 838869, affects Cortex-M4, Cortex-M4F Store immediate overlapping
+ exception return operation might vector to incorrect interrupt */
+#if defined __CORTEX_M && (__CORTEX_M == 4U)
+ __DSB();
+#endif
+}
+
+void DMA14_DMA30_DriverIRQHandler(void)
+{
+ if ((EDMA_GetChannelStatusFlags(DMA0, 14U) & kEDMA_InterruptFlag) != 0U)
+ {
+ EDMA_HandleIRQ(s_EDMAHandle[14]);
+ }
+ if ((EDMA_GetChannelStatusFlags(DMA0, 30U) & kEDMA_InterruptFlag) != 0U)
+ {
+ EDMA_HandleIRQ(s_EDMAHandle[30]);
+ }
+ /* Add for ARM errata 838869, affects Cortex-M4, Cortex-M4F Store immediate overlapping
+ exception return operation might vector to incorrect interrupt */
+#if defined __CORTEX_M && (__CORTEX_M == 4U)
+ __DSB();
+#endif
+}
+
+void DMA15_DMA31_DriverIRQHandler(void)
+{
+ if ((EDMA_GetChannelStatusFlags(DMA0, 15U) & kEDMA_InterruptFlag) != 0U)
+ {
+ EDMA_HandleIRQ(s_EDMAHandle[15]);
+ }
+ if ((EDMA_GetChannelStatusFlags(DMA0, 31U) & kEDMA_InterruptFlag) != 0U)
+ {
+ EDMA_HandleIRQ(s_EDMAHandle[31]);
+ }
+ /* Add for ARM errata 838869, affects Cortex-M4, Cortex-M4F Store immediate overlapping
+ exception return operation might vector to incorrect interrupt */
+#if defined __CORTEX_M && (__CORTEX_M == 4U)
+ __DSB();
+#endif
+}
+#endif /* 32 channels (Shared) */
+
+/* 32 channels (Shared): MCIMX7U5_M4 */
+#if defined(FSL_FEATURE_EDMA_MODULE_CHANNEL) && FSL_FEATURE_EDMA_MODULE_CHANNEL == 32U
+
+void DMA0_0_4_DriverIRQHandler(void)
+{
+ if ((EDMA_GetChannelStatusFlags(DMA0, 0U) & kEDMA_InterruptFlag) != 0U)
+ {
+ EDMA_HandleIRQ(s_EDMAHandle[0]);
+ }
+ if ((EDMA_GetChannelStatusFlags(DMA0, 4U) & kEDMA_InterruptFlag) != 0U)
+ {
+ EDMA_HandleIRQ(s_EDMAHandle[4]);
+ }
+ /* Add for ARM errata 838869, affects Cortex-M4, Cortex-M4F Store immediate overlapping
+ exception return operation might vector to incorrect interrupt */
+#if defined __CORTEX_M && (__CORTEX_M == 4U)
+ __DSB();
+#endif
+}
+
+void DMA0_1_5_DriverIRQHandler(void)
+{
+ if ((EDMA_GetChannelStatusFlags(DMA0, 1U) & kEDMA_InterruptFlag) != 0U)
+ {
+ EDMA_HandleIRQ(s_EDMAHandle[1]);
+ }
+ if ((EDMA_GetChannelStatusFlags(DMA0, 5U) & kEDMA_InterruptFlag) != 0U)
+ {
+ EDMA_HandleIRQ(s_EDMAHandle[5]);
+ }
+ /* Add for ARM errata 838869, affects Cortex-M4, Cortex-M4F Store immediate overlapping
+ exception return operation might vector to incorrect interrupt */
+#if defined __CORTEX_M && (__CORTEX_M == 4U)
+ __DSB();
+#endif
+}
+
+void DMA0_2_6_DriverIRQHandler(void)
+{
+ if ((EDMA_GetChannelStatusFlags(DMA0, 2U) & kEDMA_InterruptFlag) != 0U)
+ {
+ EDMA_HandleIRQ(s_EDMAHandle[2]);
+ }
+ if ((EDMA_GetChannelStatusFlags(DMA0, 6U) & kEDMA_InterruptFlag) != 0U)
+ {
+ EDMA_HandleIRQ(s_EDMAHandle[6]);
+ }
+ /* Add for ARM errata 838869, affects Cortex-M4, Cortex-M4F Store immediate overlapping
+ exception return operation might vector to incorrect interrupt */
+#if defined __CORTEX_M && (__CORTEX_M == 4U)
+ __DSB();
+#endif
+}
+
+void DMA0_3_7_DriverIRQHandler(void)
+{
+ if ((EDMA_GetChannelStatusFlags(DMA0, 3U) & kEDMA_InterruptFlag) != 0U)
+ {
+ EDMA_HandleIRQ(s_EDMAHandle[3]);
+ }
+ if ((EDMA_GetChannelStatusFlags(DMA0, 7U) & kEDMA_InterruptFlag) != 0U)
+ {
+ EDMA_HandleIRQ(s_EDMAHandle[7]);
+ }
+ /* Add for ARM errata 838869, affects Cortex-M4, Cortex-M4F Store immediate overlapping
+ exception return operation might vector to incorrect interrupt */
+#if defined __CORTEX_M && (__CORTEX_M == 4U)
+ __DSB();
+#endif
+}
+
+void DMA0_8_12_DriverIRQHandler(void)
+{
+ if ((EDMA_GetChannelStatusFlags(DMA0, 8U) & kEDMA_InterruptFlag) != 0U)
+ {
+ EDMA_HandleIRQ(s_EDMAHandle[8]);
+ }
+ if ((EDMA_GetChannelStatusFlags(DMA0, 12U) & kEDMA_InterruptFlag) != 0U)
+ {
+ EDMA_HandleIRQ(s_EDMAHandle[12]);
+ }
+ /* Add for ARM errata 838869, affects Cortex-M4, Cortex-M4F Store immediate overlapping
+ exception return operation might vector to incorrect interrupt */
+#if defined __CORTEX_M && (__CORTEX_M == 4U)
+ __DSB();
+#endif
+}
+
+void DMA0_9_13_DriverIRQHandler(void)
+{
+ if ((EDMA_GetChannelStatusFlags(DMA0, 9U) & kEDMA_InterruptFlag) != 0U)
+ {
+ EDMA_HandleIRQ(s_EDMAHandle[9]);
+ }
+ if ((EDMA_GetChannelStatusFlags(DMA0, 13U) & kEDMA_InterruptFlag) != 0U)
+ {
+ EDMA_HandleIRQ(s_EDMAHandle[13]);
+ }
+ /* Add for ARM errata 838869, affects Cortex-M4, Cortex-M4F Store immediate overlapping
+ exception return operation might vector to incorrect interrupt */
+#if defined __CORTEX_M && (__CORTEX_M == 4U)
+ __DSB();
+#endif
+}
+
+void DMA0_10_14_DriverIRQHandler(void)
+{
+ if ((EDMA_GetChannelStatusFlags(DMA0, 10U) & kEDMA_InterruptFlag) != 0U)
+ {
+ EDMA_HandleIRQ(s_EDMAHandle[10]);
+ }
+ if ((EDMA_GetChannelStatusFlags(DMA0, 14U) & kEDMA_InterruptFlag) != 0U)
+ {
+ EDMA_HandleIRQ(s_EDMAHandle[14]);
+ }
+ /* Add for ARM errata 838869, affects Cortex-M4, Cortex-M4F Store immediate overlapping
+ exception return operation might vector to incorrect interrupt */
+#if defined __CORTEX_M && (__CORTEX_M == 4U)
+ __DSB();
+#endif
+}
+
+void DMA0_11_15_DriverIRQHandler(void)
+{
+ if ((EDMA_GetChannelStatusFlags(DMA0, 11U) & kEDMA_InterruptFlag) != 0U)
+ {
+ EDMA_HandleIRQ(s_EDMAHandle[11]);
+ }
+ if ((EDMA_GetChannelStatusFlags(DMA0, 15U) & kEDMA_InterruptFlag) != 0U)
+ {
+ EDMA_HandleIRQ(s_EDMAHandle[15]);
+ }
+ /* Add for ARM errata 838869, affects Cortex-M4, Cortex-M4F Store immediate overlapping
+ exception return operation might vector to incorrect interrupt */
+#if defined __CORTEX_M && (__CORTEX_M == 4U)
+ __DSB();
+#endif
+}
+
+void DMA0_16_20_DriverIRQHandler(void)
+{
+ if ((EDMA_GetChannelStatusFlags(DMA0, 16U) & kEDMA_InterruptFlag) != 0U)
+ {
+ EDMA_HandleIRQ(s_EDMAHandle[16]);
+ }
+ if ((EDMA_GetChannelStatusFlags(DMA0, 20U) & kEDMA_InterruptFlag) != 0U)
+ {
+ EDMA_HandleIRQ(s_EDMAHandle[20]);
+ }
+ /* Add for ARM errata 838869, affects Cortex-M4, Cortex-M4F Store immediate overlapping
+ exception return operation might vector to incorrect interrupt */
+#if defined __CORTEX_M && (__CORTEX_M == 4U)
+ __DSB();
+#endif
+}
+
+void DMA0_17_21_DriverIRQHandler(void)
+{
+ if ((EDMA_GetChannelStatusFlags(DMA0, 17U) & kEDMA_InterruptFlag) != 0U)
+ {
+ EDMA_HandleIRQ(s_EDMAHandle[17]);
+ }
+ if ((EDMA_GetChannelStatusFlags(DMA0, 21U) & kEDMA_InterruptFlag) != 0U)
+ {
+ EDMA_HandleIRQ(s_EDMAHandle[21]);
+ }
+ /* Add for ARM errata 838869, affects Cortex-M4, Cortex-M4F Store immediate overlapping
+ exception return operation might vector to incorrect interrupt */
+#if defined __CORTEX_M && (__CORTEX_M == 4U)
+ __DSB();
+#endif
+}
+
+void DMA0_18_22_DriverIRQHandler(void)
+{
+ if ((EDMA_GetChannelStatusFlags(DMA0, 18U) & kEDMA_InterruptFlag) != 0U)
+ {
+ EDMA_HandleIRQ(s_EDMAHandle[18]);
+ }
+ if ((EDMA_GetChannelStatusFlags(DMA0, 22U) & kEDMA_InterruptFlag) != 0U)
+ {
+ EDMA_HandleIRQ(s_EDMAHandle[22]);
+ }
+ /* Add for ARM errata 838869, affects Cortex-M4, Cortex-M4F Store immediate overlapping
+ exception return operation might vector to incorrect interrupt */
+#if defined __CORTEX_M && (__CORTEX_M == 4U)
+ __DSB();
+#endif
+}
+
+void DMA0_19_23_DriverIRQHandler(void)
+{
+ if ((EDMA_GetChannelStatusFlags(DMA0, 19U) & kEDMA_InterruptFlag) != 0U)
+ {
+ EDMA_HandleIRQ(s_EDMAHandle[19]);
+ }
+ if ((EDMA_GetChannelStatusFlags(DMA0, 23U) & kEDMA_InterruptFlag) != 0U)
+ {
+ EDMA_HandleIRQ(s_EDMAHandle[23]);
+ }
+ /* Add for ARM errata 838869, affects Cortex-M4, Cortex-M4F Store immediate overlapping
+ exception return operation might vector to incorrect interrupt */
+#if defined __CORTEX_M && (__CORTEX_M == 4U)
+ __DSB();
+#endif
+}
+
+void DMA0_24_28_DriverIRQHandler(void)
+{
+ if ((EDMA_GetChannelStatusFlags(DMA0, 24U) & kEDMA_InterruptFlag) != 0U)
+ {
+ EDMA_HandleIRQ(s_EDMAHandle[24]);
+ }
+ if ((EDMA_GetChannelStatusFlags(DMA0, 28U) & kEDMA_InterruptFlag) != 0U)
+ {
+ EDMA_HandleIRQ(s_EDMAHandle[28]);
+ }
+ /* Add for ARM errata 838869, affects Cortex-M4, Cortex-M4F Store immediate overlapping
+ exception return operation might vector to incorrect interrupt */
+#if defined __CORTEX_M && (__CORTEX_M == 4U)
+ __DSB();
+#endif
+}
+
+void DMA0_25_29_DriverIRQHandler(void)
+{
+ if ((EDMA_GetChannelStatusFlags(DMA0, 25U) & kEDMA_InterruptFlag) != 0U)
+ {
+ EDMA_HandleIRQ(s_EDMAHandle[25]);
+ }
+ if ((EDMA_GetChannelStatusFlags(DMA0, 29U) & kEDMA_InterruptFlag) != 0U)
+ {
+ EDMA_HandleIRQ(s_EDMAHandle[29]);
+ }
+ /* Add for ARM errata 838869, affects Cortex-M4, Cortex-M4F Store immediate overlapping
+ exception return operation might vector to incorrect interrupt */
+#if defined __CORTEX_M && (__CORTEX_M == 4U)
+ __DSB();
+#endif
+}
+
+void DMA0_26_30_DriverIRQHandler(void)
+{
+ if ((EDMA_GetChannelStatusFlags(DMA0, 26U) & kEDMA_InterruptFlag) != 0U)
+ {
+ EDMA_HandleIRQ(s_EDMAHandle[26]);
+ }
+ if ((EDMA_GetChannelStatusFlags(DMA0, 30U) & kEDMA_InterruptFlag) != 0U)
+ {
+ EDMA_HandleIRQ(s_EDMAHandle[30]);
+ }
+ /* Add for ARM errata 838869, affects Cortex-M4, Cortex-M4F Store immediate overlapping
+ exception return operation might vector to incorrect interrupt */
+#if defined __CORTEX_M && (__CORTEX_M == 4U)
+ __DSB();
+#endif
+}
+
+void DMA0_27_31_DriverIRQHandler(void)
+{
+ if ((EDMA_GetChannelStatusFlags(DMA0, 27U) & kEDMA_InterruptFlag) != 0U)
+ {
+ EDMA_HandleIRQ(s_EDMAHandle[27]);
+ }
+ if ((EDMA_GetChannelStatusFlags(DMA0, 31U) & kEDMA_InterruptFlag) != 0U)
+ {
+ EDMA_HandleIRQ(s_EDMAHandle[31]);
+ }
+ /* Add for ARM errata 838869, affects Cortex-M4, Cortex-M4F Store immediate overlapping
+ exception return operation might vector to incorrect interrupt */
+#if defined __CORTEX_M && (__CORTEX_M == 4U)
+ __DSB();
+#endif
+}
+#endif /* 32 channels (Shared): MCIMX7U5 */
+
+/* 4 channels (No Shared): kv10 */
+#if defined(FSL_FEATURE_EDMA_MODULE_CHANNEL) && FSL_FEATURE_EDMA_MODULE_CHANNEL > 0
+
+void DMA0_DriverIRQHandler(void)
+{
+ EDMA_HandleIRQ(s_EDMAHandle[0]);
+ /* Add for ARM errata 838869, affects Cortex-M4, Cortex-M4F Store immediate overlapping
+ exception return operation might vector to incorrect interrupt */
+#if defined __CORTEX_M && (__CORTEX_M == 4U)
+ __DSB();
+#endif
+}
+
+void DMA1_DriverIRQHandler(void)
+{
+ EDMA_HandleIRQ(s_EDMAHandle[1]);
+ /* Add for ARM errata 838869, affects Cortex-M4, Cortex-M4F Store immediate overlapping
+ exception return operation might vector to incorrect interrupt */
+#if defined __CORTEX_M && (__CORTEX_M == 4U)
+ __DSB();
+#endif
+}
+
+void DMA2_DriverIRQHandler(void)
+{
+ EDMA_HandleIRQ(s_EDMAHandle[2]);
+ /* Add for ARM errata 838869, affects Cortex-M4, Cortex-M4F Store immediate overlapping
+ exception return operation might vector to incorrect interrupt */
+#if defined __CORTEX_M && (__CORTEX_M == 4U)
+ __DSB();
+#endif
+}
+
+void DMA3_DriverIRQHandler(void)
+{
+ EDMA_HandleIRQ(s_EDMAHandle[3]);
+ /* Add for ARM errata 838869, affects Cortex-M4, Cortex-M4F Store immediate overlapping
+ exception return operation might vector to incorrect interrupt */
+#if defined __CORTEX_M && (__CORTEX_M == 4U)
+ __DSB();
+#endif
+}
+
+/* 8 channels (No Shared) */
+#if defined(FSL_FEATURE_EDMA_MODULE_CHANNEL) && FSL_FEATURE_EDMA_MODULE_CHANNEL > 4U
+
+void DMA4_DriverIRQHandler(void)
+{
+ EDMA_HandleIRQ(s_EDMAHandle[4]);
+ /* Add for ARM errata 838869, affects Cortex-M4, Cortex-M4F Store immediate overlapping
+ exception return operation might vector to incorrect interrupt */
+#if defined __CORTEX_M && (__CORTEX_M == 4U)
+ __DSB();
+#endif
+}
+
+void DMA5_DriverIRQHandler(void)
+{
+ EDMA_HandleIRQ(s_EDMAHandle[5]);
+ /* Add for ARM errata 838869, affects Cortex-M4, Cortex-M4F Store immediate overlapping
+ exception return operation might vector to incorrect interrupt */
+#if defined __CORTEX_M && (__CORTEX_M == 4U)
+ __DSB();
+#endif
+}
+
+void DMA6_DriverIRQHandler(void)
+{
+ EDMA_HandleIRQ(s_EDMAHandle[6]);
+ /* Add for ARM errata 838869, affects Cortex-M4, Cortex-M4F Store immediate overlapping
+ exception return operation might vector to incorrect interrupt */
+#if defined __CORTEX_M && (__CORTEX_M == 4U)
+ __DSB();
+#endif
+}
+
+void DMA7_DriverIRQHandler(void)
+{
+ EDMA_HandleIRQ(s_EDMAHandle[7]);
+ /* Add for ARM errata 838869, affects Cortex-M4, Cortex-M4F Store immediate overlapping
+ exception return operation might vector to incorrect interrupt */
+#if defined __CORTEX_M && (__CORTEX_M == 4U)
+ __DSB();
+#endif
+}
+#endif /* FSL_FEATURE_EDMA_MODULE_CHANNEL == 8 */
+
+/* 16 channels (No Shared) */
+#if defined(FSL_FEATURE_EDMA_MODULE_CHANNEL) && FSL_FEATURE_EDMA_MODULE_CHANNEL > 8U
+
+void DMA8_DriverIRQHandler(void)
+{
+ EDMA_HandleIRQ(s_EDMAHandle[8]);
+ /* Add for ARM errata 838869, affects Cortex-M4, Cortex-M4F Store immediate overlapping
+ exception return operation might vector to incorrect interrupt */
+#if defined __CORTEX_M && (__CORTEX_M == 4U)
+ __DSB();
+#endif
+}
+
+void DMA9_DriverIRQHandler(void)
+{
+ EDMA_HandleIRQ(s_EDMAHandle[9]);
+ /* Add for ARM errata 838869, affects Cortex-M4, Cortex-M4F Store immediate overlapping
+ exception return operation might vector to incorrect interrupt */
+#if defined __CORTEX_M && (__CORTEX_M == 4U)
+ __DSB();
+#endif
+}
+
+void DMA10_DriverIRQHandler(void)
+{
+ EDMA_HandleIRQ(s_EDMAHandle[10]);
+ /* Add for ARM errata 838869, affects Cortex-M4, Cortex-M4F Store immediate overlapping
+ exception return operation might vector to incorrect interrupt */
+#if defined __CORTEX_M && (__CORTEX_M == 4U)
+ __DSB();
+#endif
+}
+
+void DMA11_DriverIRQHandler(void)
+{
+ EDMA_HandleIRQ(s_EDMAHandle[11]);
+ /* Add for ARM errata 838869, affects Cortex-M4, Cortex-M4F Store immediate overlapping
+ exception return operation might vector to incorrect interrupt */
+#if defined __CORTEX_M && (__CORTEX_M == 4U)
+ __DSB();
+#endif
+}
+
+void DMA12_DriverIRQHandler(void)
+{
+ EDMA_HandleIRQ(s_EDMAHandle[12]);
+ /* Add for ARM errata 838869, affects Cortex-M4, Cortex-M4F Store immediate overlapping
+ exception return operation might vector to incorrect interrupt */
+#if defined __CORTEX_M && (__CORTEX_M == 4U)
+ __DSB();
+#endif
+}
+
+void DMA13_DriverIRQHandler(void)
+{
+ EDMA_HandleIRQ(s_EDMAHandle[13]);
+ /* Add for ARM errata 838869, affects Cortex-M4, Cortex-M4F Store immediate overlapping
+ exception return operation might vector to incorrect interrupt */
+#if defined __CORTEX_M && (__CORTEX_M == 4U)
+ __DSB();
+#endif
+}
+
+void DMA14_DriverIRQHandler(void)
+{
+ EDMA_HandleIRQ(s_EDMAHandle[14]);
+ /* Add for ARM errata 838869, affects Cortex-M4, Cortex-M4F Store immediate overlapping
+ exception return operation might vector to incorrect interrupt */
+#if defined __CORTEX_M && (__CORTEX_M == 4U)
+ __DSB();
+#endif
+}
+
+void DMA15_DriverIRQHandler(void)
+{
+ EDMA_HandleIRQ(s_EDMAHandle[15]);
+ /* Add for ARM errata 838869, affects Cortex-M4, Cortex-M4F Store immediate overlapping
+ exception return operation might vector to incorrect interrupt */
+#if defined __CORTEX_M && (__CORTEX_M == 4U)
+ __DSB();
+#endif
+}
+#endif /* FSL_FEATURE_EDMA_MODULE_CHANNEL == 16 */
+
+/* 32 channels (No Shared) */
+#if defined(FSL_FEATURE_EDMA_MODULE_CHANNEL) && FSL_FEATURE_EDMA_MODULE_CHANNEL > 16U
+
+void DMA16_DriverIRQHandler(void)
+{
+ EDMA_HandleIRQ(s_EDMAHandle[16]);
+ /* Add for ARM errata 838869, affects Cortex-M4, Cortex-M4F Store immediate overlapping
+ exception return operation might vector to incorrect interrupt */
+#if defined __CORTEX_M && (__CORTEX_M == 4U)
+ __DSB();
+#endif
+}
+
+void DMA17_DriverIRQHandler(void)
+{
+ EDMA_HandleIRQ(s_EDMAHandle[17]);
+ /* Add for ARM errata 838869, affects Cortex-M4, Cortex-M4F Store immediate overlapping
+ exception return operation might vector to incorrect interrupt */
+#if defined __CORTEX_M && (__CORTEX_M == 4U)
+ __DSB();
+#endif
+}
+
+void DMA18_DriverIRQHandler(void)
+{
+ EDMA_HandleIRQ(s_EDMAHandle[18]);
+ /* Add for ARM errata 838869, affects Cortex-M4, Cortex-M4F Store immediate overlapping
+ exception return operation might vector to incorrect interrupt */
+#if defined __CORTEX_M && (__CORTEX_M == 4U)
+ __DSB();
+#endif
+}
+
+void DMA19_DriverIRQHandler(void)
+{
+ EDMA_HandleIRQ(s_EDMAHandle[19]);
+ /* Add for ARM errata 838869, affects Cortex-M4, Cortex-M4F Store immediate overlapping
+ exception return operation might vector to incorrect interrupt */
+#if defined __CORTEX_M && (__CORTEX_M == 4U)
+ __DSB();
+#endif
+}
+
+void DMA20_DriverIRQHandler(void)
+{
+ EDMA_HandleIRQ(s_EDMAHandle[20]);
+ /* Add for ARM errata 838869, affects Cortex-M4, Cortex-M4F Store immediate overlapping
+ exception return operation might vector to incorrect interrupt */
+#if defined __CORTEX_M && (__CORTEX_M == 4U)
+ __DSB();
+#endif
+}
+
+void DMA21_DriverIRQHandler(void)
+{
+ EDMA_HandleIRQ(s_EDMAHandle[21]);
+ /* Add for ARM errata 838869, affects Cortex-M4, Cortex-M4F Store immediate overlapping
+ exception return operation might vector to incorrect interrupt */
+#if defined __CORTEX_M && (__CORTEX_M == 4U)
+ __DSB();
+#endif
+}
+
+void DMA22_DriverIRQHandler(void)
+{
+ EDMA_HandleIRQ(s_EDMAHandle[22]);
+ /* Add for ARM errata 838869, affects Cortex-M4, Cortex-M4F Store immediate overlapping
+ exception return operation might vector to incorrect interrupt */
+#if defined __CORTEX_M && (__CORTEX_M == 4U)
+ __DSB();
+#endif
+}
+
+void DMA23_DriverIRQHandler(void)
+{
+ EDMA_HandleIRQ(s_EDMAHandle[23]);
+ /* Add for ARM errata 838869, affects Cortex-M4, Cortex-M4F Store immediate overlapping
+ exception return operation might vector to incorrect interrupt */
+#if defined __CORTEX_M && (__CORTEX_M == 4U)
+ __DSB();
+#endif
+}
+
+void DMA24_DriverIRQHandler(void)
+{
+ EDMA_HandleIRQ(s_EDMAHandle[24]);
+ /* Add for ARM errata 838869, affects Cortex-M4, Cortex-M4F Store immediate overlapping
+ exception return operation might vector to incorrect interrupt */
+#if defined __CORTEX_M && (__CORTEX_M == 4U)
+ __DSB();
+#endif
+}
+
+void DMA25_DriverIRQHandler(void)
+{
+ EDMA_HandleIRQ(s_EDMAHandle[25]);
+ /* Add for ARM errata 838869, affects Cortex-M4, Cortex-M4F Store immediate overlapping
+ exception return operation might vector to incorrect interrupt */
+#if defined __CORTEX_M && (__CORTEX_M == 4U)
+ __DSB();
+#endif
+}
+
+void DMA26_DriverIRQHandler(void)
+{
+ EDMA_HandleIRQ(s_EDMAHandle[26]);
+ /* Add for ARM errata 838869, affects Cortex-M4, Cortex-M4F Store immediate overlapping
+ exception return operation might vector to incorrect interrupt */
+#if defined __CORTEX_M && (__CORTEX_M == 4U)
+ __DSB();
+#endif
+}
+
+void DMA27_DriverIRQHandler(void)
+{
+ EDMA_HandleIRQ(s_EDMAHandle[27]);
+ /* Add for ARM errata 838869, affects Cortex-M4, Cortex-M4F Store immediate overlapping
+ exception return operation might vector to incorrect interrupt */
+#if defined __CORTEX_M && (__CORTEX_M == 4U)
+ __DSB();
+#endif
+}
+
+void DMA28_DriverIRQHandler(void)
+{
+ EDMA_HandleIRQ(s_EDMAHandle[28]);
+ /* Add for ARM errata 838869, affects Cortex-M4, Cortex-M4F Store immediate overlapping
+ exception return operation might vector to incorrect interrupt */
+#if defined __CORTEX_M && (__CORTEX_M == 4U)
+ __DSB();
+#endif
+}
+
+void DMA29_DriverIRQHandler(void)
+{
+ EDMA_HandleIRQ(s_EDMAHandle[29]);
+ /* Add for ARM errata 838869, affects Cortex-M4, Cortex-M4F Store immediate overlapping
+ exception return operation might vector to incorrect interrupt */
+#if defined __CORTEX_M && (__CORTEX_M == 4U)
+ __DSB();
+#endif
+}
+
+void DMA30_DriverIRQHandler(void)
+{
+ EDMA_HandleIRQ(s_EDMAHandle[30]);
+ /* Add for ARM errata 838869, affects Cortex-M4, Cortex-M4F Store immediate overlapping
+ exception return operation might vector to incorrect interrupt */
+#if defined __CORTEX_M && (__CORTEX_M == 4U)
+ __DSB();
+#endif
+}
+
+void DMA31_DriverIRQHandler(void)
+{
+ EDMA_HandleIRQ(s_EDMAHandle[31]);
+ /* Add for ARM errata 838869, affects Cortex-M4, Cortex-M4F Store immediate overlapping
+ exception return operation might vector to incorrect interrupt */
+#if defined __CORTEX_M && (__CORTEX_M == 4U)
+ __DSB();
+#endif
+}
+#endif /* FSL_FEATURE_EDMA_MODULE_CHANNEL == 32 */
+
+#endif /* 4/8/16/32 channels (No Shared) */



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