/* * Copyright 2017-2023 NXP * All rights reserved. * * * SPDX-License-Identifier: BSD-3-Clause */ #include "fsl_flexram.h" /******************************************************************************* * Definitions ******************************************************************************/ /* Component ID definition, used by tools. */ #ifndef FSL_COMPONENT_ID #define FSL_COMPONENT_ID "platform.drivers.flexram" #endif /******************************************************************************* * Prototypes ******************************************************************************/ /*! * @brief Gets the instance from the base address to be used to gate or ungate the module clock * * @param base FLEXRAM base address * * @return The FLEXRAM instance */ static uint32_t FLEXRAM_GetInstance(FLEXRAM_Type *base); /******************************************************************************* * Variables ******************************************************************************/ /*! @brief Pointers to FLEXRAM bases for each instance. */ static FLEXRAM_Type *const s_flexramBases[] = FLEXRAM_BASE_PTRS; #if !(defined(FSL_SDK_DISABLE_DRIVER_CLOCK_CONTROL) && FSL_SDK_DISABLE_DRIVER_CLOCK_CONTROL) /*! @brief Pointers to FLEXRAM clocks for each instance. */ static const clock_ip_name_t s_flexramClocks[] = FLEXRAM_CLOCKS; #endif /* FSL_SDK_DISABLE_DRIVER_CLOCK_CONTROL */ #if defined(FLEXRAM_ECC_ERROR_DETAILED_INFO) && FLEXRAM_ECC_ERROR_DETAILED_INFO /*! Look-up table to calculate single-bit error bit position for ITCM. */ static const uint8_t ItcmLookUpTable[64] = { 0xC1, 0x43, 0x9E, 0x83, 0x15, 0x4C, 0x4A, 0x8C, 0x31, 0x1C, 0xA2, 0xE0, 0x51, 0x2C, 0xC2, 0xD0, 0x19, 0x1A, 0x26, 0xEA, 0x29, 0x94, 0x16, 0x64, 0x37, 0xA4, 0x0D, 0xC4, 0x75, 0x38, 0x4F, 0x58, 0x46, 0x91, 0x86, 0x61, 0x49, 0x98, 0x89, 0x68, 0x32, 0x34, 0x07, 0xC8, 0x92, 0xA8, 0xA7, 0x54, 0xA1, 0xD9, 0x25, 0xF8, 0x0E, 0x0B, 0x8A, 0x2A, 0x52, 0x45, 0x13, 0x85, 0x62, 0x70, 0x23, 0xB0}; /*! Look-up table to calculate single-bit error bit position for DTCM. */ static const uint8_t DtcmLookUpTable[32] = {0x61, 0x51, 0x19, 0x45, 0x43, 0x31, 0x29, 0x13, 0x62, 0x52, 0x4A, 0x46, 0x32, 0x2A, 0x23, 0x1A, 0x2C, 0x64, 0x26, 0x25, 0x34, 0x16, 0x15, 0x54, 0x0B, 0x58, 0x1C, 0x4C, 0x38, 0x0E, 0x0D, 0x49}; #endif /* FLEXRAM_ECC_ERROR_DETAILED_INFO */ /******************************************************************************* * Code ******************************************************************************/ static uint32_t FLEXRAM_GetInstance(FLEXRAM_Type *base) { uint32_t instance; /* Find the instance index from base address mappings. */ for (instance = 0; instance < ARRAY_SIZE(s_flexramBases); instance++) { if (s_flexramBases[instance] == base) { break; } } assert(instance < ARRAY_SIZE(s_flexramBases)); return instance; } /*! * brief FLEXRAM module initialization function. * * param base FLEXRAM base address. */ void FLEXRAM_Init(FLEXRAM_Type *base) { #if !(defined(FSL_SDK_DISABLE_DRIVER_CLOCK_CONTROL) && FSL_SDK_DISABLE_DRIVER_CLOCK_CONTROL) /* Ungate ENET clock. */ CLOCK_EnableClock(s_flexramClocks[FLEXRAM_GetInstance(base)]); #endif /* FSL_SDK_DISABLE_DRIVER_CLOCK_CONTROL */ /* enable all the interrupt status */ base->INT_STAT_EN |= (uint32_t)kFLEXRAM_InterruptStatusAll; /* clear all the interrupt status */ base->INT_STATUS |= (uint32_t)kFLEXRAM_InterruptStatusAll; /* disable all the interrpt */ base->INT_SIG_EN = 0U; } /*! * brief Deinitializes the FLEXRAM. * */ void FLEXRAM_Deinit(FLEXRAM_Type *base) { #if !(defined(FSL_SDK_DISABLE_DRIVER_CLOCK_CONTROL) && FSL_SDK_DISABLE_DRIVER_CLOCK_CONTROL) /* Ungate ENET clock. */ CLOCK_DisableClock(s_flexramClocks[FLEXRAM_GetInstance(base)]); #endif /* FSL_SDK_DISABLE_DRIVER_CLOCK_CONTROL */ } #if (defined(FSL_FEATURE_FLEXRAM_HAS_ECC) && FSL_FEATURE_FLEXRAM_HAS_ECC) void FLEXRAM_EnableECC(FLEXRAM_Type *base, bool OcramECCEnable, bool TcmECCEnable) { if (true == OcramECCEnable) { base->FLEXRAM_CTRL |= FLEXRAM_FLEXRAM_CTRL_OCRAM_ECC_EN_MASK; } else { base->FLEXRAM_CTRL &= ~FLEXRAM_FLEXRAM_CTRL_OCRAM_ECC_EN_MASK; } if (true == TcmECCEnable) { base->FLEXRAM_CTRL |= FLEXRAM_FLEXRAM_CTRL_TCM_ECC_EN_MASK; } else { base->FLEXRAM_CTRL &= ~FLEXRAM_FLEXRAM_CTRL_TCM_ECC_EN_MASK; } } #if (defined(FSL_FEATURE_FLEXRAM_HAS_ECC_ERROR_INJECTION) && (FSL_FEATURE_FLEXRAM_HAS_ECC_ERROR_INJECTION)) void FLEXRAM_ErrorInjection(FLEXRAM_Type *base, flexram_memory_type_t memory, flexram_ecc_error_type_t *error) { assert(error != NULL); switch (memory) { case kFLEXRAM_OCRAM: base->OCRAM_ECC_ERROR_INJEC = FLEXRAM_OCRAM_ECC_ERROR_INJEC_OCRAM_ERR1BIT(error->SingleBitPos) | FLEXRAM_OCRAM_ECC_ERROR_INJEC_OCRAM_ERR2BIT(error->SecondBitPos) | FLEXRAM_OCRAM_ECC_ERROR_INJEC_OCRAM_FR11BI(error->Fource1BitDataInversion) | FLEXRAM_OCRAM_ECC_ERROR_INJEC_OCRAM_FR1NCI(error->FourceOneNCDataInversion) | FLEXRAM_OCRAM_ECC_ERROR_INJEC_OCRAM_FRC1BI(error->FourceConti1BitDataInversion) | FLEXRAM_OCRAM_ECC_ERROR_INJEC_OCRAM_FRCNCI(error->FourceContiNCDataInversion); break; case kFLEXRAM_ITCM: base->ITCM_ECC_ERROR_INJEC = FLEXRAM_ITCM_ECC_ERROR_INJEC_ITCM_ERR1BIT(error->SingleBitPos) | FLEXRAM_ITCM_ECC_ERROR_INJEC_ITCM_ERR2BIT(error->SecondBitPos) | FLEXRAM_ITCM_ECC_ERROR_INJEC_ITCM_FR11BI(error->Fource1BitDataInversion) | FLEXRAM_ITCM_ECC_ERROR_INJEC_ITCM_FR1NCI(error->FourceOneNCDataInversion) | FLEXRAM_ITCM_ECC_ERROR_INJEC_ITCM_FRC1BI(error->FourceConti1BitDataInversion) | FLEXRAM_ITCM_ECC_ERROR_INJEC_ITCM_FRCNCI(error->FourceContiNCDataInversion); break; case kFLEXRAM_D0TCM: base->D0TCM_ECC_ERROR_INJEC = FLEXRAM_D0TCM_ECC_ERROR_INJEC_D0TCM_ERR1BIT(error->SingleBitPos) | FLEXRAM_D0TCM_ECC_ERROR_INJEC_D0TCM_ERR2BIT(error->SecondBitPos) | FLEXRAM_D0TCM_ECC_ERROR_INJEC_D0TCM_FR11BI(error->Fource1BitDataInversion) | FLEXRAM_D0TCM_ECC_ERROR_INJEC_D0TCM_FR1NCI(error->FourceOneNCDataInversion) | FLEXRAM_D0TCM_ECC_ERROR_INJEC_D0TCM_FRC1BI(error->FourceConti1BitDataInversion) | FLEXRAM_D0TCM_ECC_ERROR_INJEC_D0TCM_FRCNCI(error->FourceContiNCDataInversion); break; case kFLEXRAM_D1TCM: base->D1TCM_ECC_ERROR_INJEC = FLEXRAM_D1TCM_ECC_ERROR_INJEC_D1TCM_ERR1BIT(error->SingleBitPos) | FLEXRAM_D1TCM_ECC_ERROR_INJEC_D1TCM_ERR2BIT(error->SecondBitPos) | FLEXRAM_D1TCM_ECC_ERROR_INJEC_D1TCM_FR11BI(error->Fource1BitDataInversion) | FLEXRAM_D1TCM_ECC_ERROR_INJEC_D1TCM_FR1NCI(error->FourceOneNCDataInversion) | FLEXRAM_D1TCM_ECC_ERROR_INJEC_D1TCM_FRC1BI(error->FourceConti1BitDataInversion) | FLEXRAM_D1TCM_ECC_ERROR_INJEC_D1TCM_FRCNCI(error->FourceContiNCDataInversion); break; default: assert(NULL); break; } __DSB(); } #endif /* FSL_FEATURE_FLEXRAM_HAS_ECC_ERROR_INJECTION */ void FLEXRAM_GetOcramSingleErroInfo(FLEXRAM_Type *base, flexram_ocram_ecc_single_error_info_t *info) { assert(NULL != info); #if defined(FLEXRAM_ECC_ERROR_DETAILED_INFO) && FLEXRAM_ECC_ERROR_DETAILED_INFO info->OcramSingleErrorECCCipher = (uint8_t)((base->OCRAM_ECC_SINGLE_ERROR_INFO & FLEXRAM_OCRAM_ECC_SINGLE_ERROR_INFO_OCRAM_ECCS_ERRED_ECC_MASK) >> FLEXRAM_OCRAM_ECC_SINGLE_ERROR_INFO_OCRAM_ECCS_ERRED_ECC_SHIFT); info->OcramSingleErrorECCSyndrome = (uint8_t)((base->OCRAM_ECC_SINGLE_ERROR_INFO & FLEXRAM_OCRAM_ECC_SINGLE_ERROR_INFO_OCRAM_ECCS_ERRED_SYN_MASK) >> FLEXRAM_OCRAM_ECC_SINGLE_ERROR_INFO_OCRAM_ECCS_ERRED_SYN_SHIFT); #else info->OcramSingleErrorInfo = base->OCRAM_ECC_SINGLE_ERROR_INFO; #endif /*FLEXRAM_ECC_ERROR_DETAILED_INFO*/ info->OcramSingleErrorAddr = base->OCRAM_ECC_SINGLE_ERROR_ADDR; info->OcramSingleErrorDataLSB = base->OCRAM_ECC_SINGLE_ERROR_DATA_LSB; info->OcramSingleErrorDataMSB = base->OCRAM_ECC_SINGLE_ERROR_DATA_MSB; } void FLEXRAM_GetOcramMultiErroInfo(FLEXRAM_Type *base, flexram_ocram_ecc_multi_error_info_t *info) { assert(NULL != info); #if defined(FLEXRAM_ECC_ERROR_DETAILED_INFO) && FLEXRAM_ECC_ERROR_DETAILED_INFO info->OcramMultiErrorECCCipher = (uint8_t)((base->OCRAM_ECC_MULTI_ERROR_INFO & FLEXRAM_OCRAM_ECC_MULTI_ERROR_INFO_OCRAM_ECCM_ERRED_ECC_MASK) >> FLEXRAM_OCRAM_ECC_MULTI_ERROR_INFO_OCRAM_ECCM_ERRED_ECC_SHIFT); #else info->OcramMultiErrorInfo = base->OCRAM_ECC_MULTI_ERROR_INFO; #endif /*FLEXRAM_ECC_ERROR_DETAILED_INFO*/ info->OcramMultiErrorAddr = base->OCRAM_ECC_MULTI_ERROR_ADDR; info->OcramMultiErrorDataLSB = base->OCRAM_ECC_MULTI_ERROR_DATA_LSB; info->OcramMultiErrorDataMSB = base->OCRAM_ECC_MULTI_ERROR_DATA_MSB; } void FLEXRAM_GetItcmSingleErroInfo(FLEXRAM_Type *base, flexram_itcm_ecc_single_error_info_t *info) { assert(NULL != info); #if defined(FLEXRAM_ECC_ERROR_DETAILED_INFO) && FLEXRAM_ECC_ERROR_DETAILED_INFO /* ECC error corresponding syndrome, which can be used to locate the Error bit using a look-up table. */ uint8_t singleErrorECCSyndrome = 0x00U; info->ItcmSingleErrorTCMWriteRead = (uint8_t)((base->ITCM_ECC_SINGLE_ERROR_INFO & FLEXRAM_ITCM_ECC_SINGLE_ERROR_INFO_ITCM_ECCS_EFW_MASK) >> FLEXRAM_ITCM_ECC_SINGLE_ERROR_INFO_ITCM_ECCS_EFW_SHIFT); info->ItcmSingleErrorTCMAccessSize = (uint8_t)((base->ITCM_ECC_SINGLE_ERROR_INFO & FLEXRAM_ITCM_ECC_SINGLE_ERROR_INFO_ITCM_ECCS_EFSIZ_MASK) >> FLEXRAM_ITCM_ECC_SINGLE_ERROR_INFO_ITCM_ECCS_EFSIZ_SHIFT); info->ItcmSingleErrorTCMMaster = (uint8_t)((base->ITCM_ECC_SINGLE_ERROR_INFO & FLEXRAM_ITCM_ECC_SINGLE_ERROR_INFO_ITCM_ECCS_EFMST_MASK) >> FLEXRAM_ITCM_ECC_SINGLE_ERROR_INFO_ITCM_ECCS_EFMST_SHIFT); info->ItcmSingleErrorTCMPrivilege = (uint8_t)((base->ITCM_ECC_SINGLE_ERROR_INFO & FLEXRAM_ITCM_ECC_SINGLE_ERROR_INFO_ITCM_ECCS_EFPRT_MASK) >> FLEXRAM_ITCM_ECC_SINGLE_ERROR_INFO_ITCM_ECCS_EFPRT_SHIFT); singleErrorECCSyndrome = (uint8_t)((base->ITCM_ECC_SINGLE_ERROR_INFO & FLEXRAM_ITCM_ECC_SINGLE_ERROR_INFO_ITCM_ECCS_EFSYN_MASK) >> FLEXRAM_ITCM_ECC_SINGLE_ERROR_INFO_ITCM_ECCS_EFSYN_SHIFT); for (uint8_t i = 0x00U; i < sizeof(ItcmLookUpTable) / sizeof(ItcmLookUpTable[0]); i++) { if (singleErrorECCSyndrome == ItcmLookUpTable[i]) { info->ItcmSingleErrorBitPostion = i; break; } } #else info->ItcmSingleErrorInfo = base->ITCM_ECC_SINGLE_ERROR_INFO; #endif /*FLEXRAM_ECC_ERROR_DETAILED_INFO*/ info->ItcmSingleErrorAddr = base->ITCM_ECC_SINGLE_ERROR_ADDR; info->ItcmSingleErrorDataLSB = base->ITCM_ECC_SINGLE_ERROR_DATA_LSB; info->ItcmSingleErrorDataMSB = base->ITCM_ECC_SINGLE_ERROR_DATA_MSB; } void FLEXRAM_GetItcmMultiErroInfo(FLEXRAM_Type *base, flexram_itcm_ecc_multi_error_info_t *info) { assert(NULL != info); #if defined(FLEXRAM_ECC_ERROR_DETAILED_INFO) && FLEXRAM_ECC_ERROR_DETAILED_INFO info->ItcmMultiErrorTCMWriteRead = (uint8_t)((base->ITCM_ECC_MULTI_ERROR_INFO & FLEXRAM_ITCM_ECC_MULTI_ERROR_INFO_ITCM_ECCS_EFW_MASK) >> FLEXRAM_ITCM_ECC_MULTI_ERROR_INFO_ITCM_ECCS_EFW_SHIFT); info->ItcmMultiErrorTCMAccessSize = (uint8_t)((base->ITCM_ECC_MULTI_ERROR_INFO & FLEXRAM_ITCM_ECC_MULTI_ERROR_INFO_ITCM_ECCS_EFSIZ_MASK) >> FLEXRAM_ITCM_ECC_MULTI_ERROR_INFO_ITCM_ECCS_EFSIZ_SHIFT); info->ItcmMultiErrorTCMMaster = (uint8_t)((base->ITCM_ECC_MULTI_ERROR_INFO & FLEXRAM_ITCM_ECC_MULTI_ERROR_INFO_ITCM_ECCS_EFMST_MASK) >> FLEXRAM_ITCM_ECC_MULTI_ERROR_INFO_ITCM_ECCS_EFMST_SHIFT); info->ItcmMultiErrorTCMPrivilege = (uint8_t)((base->ITCM_ECC_MULTI_ERROR_INFO & FLEXRAM_ITCM_ECC_MULTI_ERROR_INFO_ITCM_ECCS_EFPRT_MASK) >> FLEXRAM_ITCM_ECC_MULTI_ERROR_INFO_ITCM_ECCS_EFPRT_SHIFT); info->ItcmMultiErrorECCSyndrome = (uint8_t)((base->ITCM_ECC_MULTI_ERROR_INFO & FLEXRAM_ITCM_ECC_MULTI_ERROR_INFO_ITCM_ECCS_EFSYN_MASK) >> FLEXRAM_ITCM_ECC_MULTI_ERROR_INFO_ITCM_ECCS_EFSYN_SHIFT); #else info->ItcmMultiErrorInfo = base->ITCM_ECC_MULTI_ERROR_INFO; #endif /*FLEXRAM_ECC_ERROR_DETAILED_INFO*/ info->ItcmMultiErrorAddr = base->ITCM_ECC_MULTI_ERROR_ADDR; info->ItcmMultiErrorDataLSB = base->ITCM_ECC_MULTI_ERROR_DATA_LSB; info->ItcmMultiErrorDataMSB = base->ITCM_ECC_MULTI_ERROR_DATA_MSB; } void FLEXRAM_GetDtcmSingleErroInfo(FLEXRAM_Type *base, flexram_dtcm_ecc_single_error_info_t *info, uint8_t bank) { assert(NULL != info); assert((0x00U == bank) || (0x01U == bank)); if (0x00U == bank) { #if defined(FLEXRAM_ECC_ERROR_DETAILED_INFO) && FLEXRAM_ECC_ERROR_DETAILED_INFO /* ECC error corresponding syndrome, which can be used to locate the Error bit using a look-up table. */ uint8_t singleErrorECCSyndrome = 0x00U; info->DtcmSingleErrorTCMWriteRead = (uint8_t)((base->D0TCM_ECC_SINGLE_ERROR_INFO & FLEXRAM_D0TCM_ECC_SINGLE_ERROR_INFO_D0TCM_ECCS_EFW_MASK) >> FLEXRAM_D0TCM_ECC_SINGLE_ERROR_INFO_D0TCM_ECCS_EFW_SHIFT); info->DtcmSingleErrorTCMAccessSize = (uint8_t)((base->D0TCM_ECC_SINGLE_ERROR_INFO & FLEXRAM_D0TCM_ECC_SINGLE_ERROR_INFO_D0TCM_ECCS_EFSIZ_MASK) >> FLEXRAM_D0TCM_ECC_SINGLE_ERROR_INFO_D0TCM_ECCS_EFSIZ_SHIFT); info->DtcmSingleErrorTCMMaster = (uint8_t)((base->D0TCM_ECC_SINGLE_ERROR_INFO & FLEXRAM_D0TCM_ECC_SINGLE_ERROR_INFO_D0TCM_ECCS_EFMST_MASK) >> FLEXRAM_D0TCM_ECC_SINGLE_ERROR_INFO_D0TCM_ECCS_EFMST_SHIFT); info->DtcmSingleErrorTCMPrivilege = (uint8_t)((base->D0TCM_ECC_SINGLE_ERROR_INFO & FLEXRAM_D0TCM_ECC_SINGLE_ERROR_INFO_D0TCM_ECCS_EFPRT_MASK) >> FLEXRAM_D0TCM_ECC_SINGLE_ERROR_INFO_D0TCM_ECCS_EFPRT_SHIFT); singleErrorECCSyndrome = (uint8_t)((base->D0TCM_ECC_SINGLE_ERROR_INFO & FLEXRAM_D0TCM_ECC_SINGLE_ERROR_INFO_D0TCM_ECCS_EFSYN_MASK) >> FLEXRAM_D0TCM_ECC_SINGLE_ERROR_INFO_D0TCM_ECCS_EFSYN_SHIFT); for (uint8_t i = 0x00U; i < sizeof(ItcmLookUpTable) / sizeof(ItcmLookUpTable[0]); i++) { if (singleErrorECCSyndrome == ItcmLookUpTable[i]) { info->DtcmSingleErrorBitPostion = i; break; } } #else info->DtcmSingleErrorInfo = base->D0TCM_ECC_SINGLE_ERROR_INFO; #endif /*FLEXRAM_ECC_ERROR_DETAILED_INFO*/ info->DtcmSingleErrorAddr = base->D0TCM_ECC_SINGLE_ERROR_ADDR; info->DtcmSingleErrorData = base->D0TCM_ECC_SINGLE_ERROR_DATA; } else { #if defined(FLEXRAM_ECC_ERROR_DETAILED_INFO) && FLEXRAM_ECC_ERROR_DETAILED_INFO /* ECC error corresponding syndrome, which can be used to locate the Error bit using a look-up table. */ uint8_t singleErrorECCSyndrome = 0x00U; info->DtcmSingleErrorTCMWriteRead = (uint8_t)((base->D1TCM_ECC_SINGLE_ERROR_INFO & FLEXRAM_D1TCM_ECC_SINGLE_ERROR_INFO_D1TCM_ECCS_EFW_MASK) >> FLEXRAM_D1TCM_ECC_SINGLE_ERROR_INFO_D1TCM_ECCS_EFW_SHIFT); info->DtcmSingleErrorTCMAccessSize = (uint8_t)((base->D1TCM_ECC_SINGLE_ERROR_INFO & FLEXRAM_D1TCM_ECC_SINGLE_ERROR_INFO_D1TCM_ECCS_EFSIZ_MASK) >> FLEXRAM_D1TCM_ECC_SINGLE_ERROR_INFO_D1TCM_ECCS_EFSIZ_SHIFT); info->DtcmSingleErrorTCMMaster = (uint8_t)((base->D1TCM_ECC_SINGLE_ERROR_INFO & FLEXRAM_D1TCM_ECC_SINGLE_ERROR_INFO_D1TCM_ECCS_EFMST_MASK) >> FLEXRAM_D1TCM_ECC_SINGLE_ERROR_INFO_D1TCM_ECCS_EFMST_SHIFT); info->DtcmSingleErrorTCMPrivilege = (uint8_t)((base->D1TCM_ECC_SINGLE_ERROR_INFO & FLEXRAM_D1TCM_ECC_SINGLE_ERROR_INFO_D1TCM_ECCS_EFPRT_MASK) >> FLEXRAM_D1TCM_ECC_SINGLE_ERROR_INFO_D1TCM_ECCS_EFPRT_SHIFT); singleErrorECCSyndrome = (uint8_t)((base->D1TCM_ECC_SINGLE_ERROR_INFO & FLEXRAM_D1TCM_ECC_SINGLE_ERROR_INFO_D1TCM_ECCS_EFSYN_MASK) >> FLEXRAM_D1TCM_ECC_SINGLE_ERROR_INFO_D1TCM_ECCS_EFSYN_SHIFT); for (uint8_t i = 0x00U; i < sizeof(DtcmLookUpTable) / sizeof(DtcmLookUpTable[0]); i++) { if (singleErrorECCSyndrome == DtcmLookUpTable[i]) { info->DtcmSingleErrorBitPostion = i; break; } } #else info->DtcmSingleErrorInfo = base->D1TCM_ECC_SINGLE_ERROR_INFO; #endif /*FLEXRAM_ECC_ERROR_DETAILED_INFO*/ info->DtcmSingleErrorAddr = base->D1TCM_ECC_SINGLE_ERROR_ADDR; info->DtcmSingleErrorData = base->D1TCM_ECC_SINGLE_ERROR_DATA; } } void FLEXRAM_GetDtcmMultiErroInfo(FLEXRAM_Type *base, flexram_dtcm_ecc_multi_error_info_t *info, uint8_t bank) { assert(NULL != info); assert((0x00U == bank) || (0x01U == bank)); if (0x00U == bank) { #if defined(FLEXRAM_ECC_ERROR_DETAILED_INFO) && FLEXRAM_ECC_ERROR_DETAILED_INFO info->DtcmMultiErrorTCMWriteRead = (uint8_t)((base->D0TCM_ECC_MULTI_ERROR_INFO & FLEXRAM_D0TCM_ECC_MULTI_ERROR_INFO_D0TCM_ECCS_EFW_MASK) >> FLEXRAM_D0TCM_ECC_MULTI_ERROR_INFO_D0TCM_ECCS_EFW_SHIFT); info->DtcmMultiErrorTCMAccessSize = (uint8_t)((base->D0TCM_ECC_MULTI_ERROR_INFO & FLEXRAM_D0TCM_ECC_MULTI_ERROR_INFO_D0TCM_ECCS_EFSIZ_MASK) >> FLEXRAM_D0TCM_ECC_MULTI_ERROR_INFO_D0TCM_ECCS_EFSIZ_SHIFT); info->DtcmMultiErrorTCMMaster = (uint8_t)((base->D0TCM_ECC_MULTI_ERROR_INFO & FLEXRAM_D0TCM_ECC_MULTI_ERROR_INFO_D0TCM_ECCS_EFMST_MASK) >> FLEXRAM_D0TCM_ECC_MULTI_ERROR_INFO_D0TCM_ECCS_EFMST_SHIFT); info->DtcmMultiErrorTCMPrivilege = (uint8_t)((base->D0TCM_ECC_MULTI_ERROR_INFO & FLEXRAM_D0TCM_ECC_MULTI_ERROR_INFO_D0TCM_ECCS_EFPRT_MASK) >> FLEXRAM_D0TCM_ECC_MULTI_ERROR_INFO_D0TCM_ECCS_EFPRT_SHIFT); info->DtcmMultiErrorECCSyndrome = (uint8_t)((base->D0TCM_ECC_MULTI_ERROR_INFO & FLEXRAM_D0TCM_ECC_MULTI_ERROR_INFO_D0TCM_ECCS_EFSYN_MASK) >> FLEXRAM_D0TCM_ECC_MULTI_ERROR_INFO_D0TCM_ECCS_EFSYN_SHIFT); #else info->DtcmMultiErrorInfo = base->D0TCM_ECC_MULTI_ERROR_INFO; #endif /*FLEXRAM_ECC_ERROR_DETAILED_INFO*/ info->DtcmMultiErrorAddr = base->D0TCM_ECC_MULTI_ERROR_ADDR; info->DtcmMultiErrorData = base->D0TCM_ECC_MULTI_ERROR_DATA; } else { #if defined(FLEXRAM_ECC_ERROR_DETAILED_INFO) && FLEXRAM_ECC_ERROR_DETAILED_INFO info->DtcmMultiErrorTCMWriteRead = (uint8_t)((base->D1TCM_ECC_MULTI_ERROR_INFO & FLEXRAM_D1TCM_ECC_MULTI_ERROR_INFO_ITCM_ECCS_EFW_MASK) >> FLEXRAM_D1TCM_ECC_MULTI_ERROR_INFO_D1TCM_ECCS_EFW_SHIFT); info->DtcmMultiErrorTCMAccessSize = (uint8_t)((base->D1TCM_ECC_MULTI_ERROR_INFO & FLEXRAM_D1TCM_ECC_MULTI_ERROR_INFO_ITCM_ECCS_EFSIZ_MASK) >> FLEXRAM_D1TCM_ECC_MULTI_ERROR_INFO_D1TCM_ECCS_EFSIZ_SHIFT); info->DtcmMultiErrorTCMMaster = (uint8_t)((base->D1TCM_ECC_MULTI_ERROR_INFO & FLEXRAM_D1TCM_ECC_MULTI_ERROR_INFO_ITCM_ECCS_EFMST_MASK) >> FLEXRAM_D1TCM_ECC_MULTI_ERROR_INFO_D1TCM_ECCS_EFMST_SHIFT); info->DtcmMultiErrorTCMPrivilege = (uint8_t)((base->D1TCM_ECC_MULTI_ERROR_INFO & FLEXRAM_D1TCM_ECC_MULTI_ERROR_INFO_ITCM_ECCS_EFPRT_MASK) >> FLEXRAM_D1TCM_ECC_MULTI_ERROR_INFO_D1TCM_ECCS_EFPRT_SHIFT); info->DtcmMultiErrorECCSyndrome = (uint8_t)((base->D1TCM_ECC_MULTI_ERROR_INFO & FLEXRAM_D1TCM_ECC_MULTI_ERROR_INFO_ITCM_ECCS_EFSYN_MASK) >> FLEXRAM_D1TCM_ECC_MULTI_ERROR_INFO_D1TCM_ECCS_EFSYN_SHIFT); #else info->DtcmMultiErrorInfo = base->D1TCM_ECC_MULTI_ERROR_INFO; #endif /*FLEXRAM_ECC_ERROR_DETAILED_INFO*/ info->DtcmMultiErrorAddr = base->D1TCM_ECC_MULTI_ERROR_ADDR; info->DtcmMultiErrorData = base->D1TCM_ECC_MULTI_ERROR_DATA; } } #endif /* FSL_FEATURE_FLEXRAM_HAS_ECC */