/* * Copyright 2017-2023 NXP * All rights reserved. * * * SPDX-License-Identifier: BSD-3-Clause */ #ifndef FSL_FLEXRAM_H_ #define FSL_FLEXRAM_H_ #include "fsl_common.h" #include "fsl_flexram_allocate.h" /*! * @addtogroup flexram * @{ */ /****************************************************************************** * Definitions. *****************************************************************************/ /*! @name Driver version */ /*! @{ */ /*! @brief Driver version. */ #define FSL_FLEXRAM_DRIVER_VERSION (MAKE_VERSION(2U, 3U, 0U)) /*! @} */ /*! @brief Get ECC error detailed information. */ #ifndef FLEXRAM_ECC_ERROR_DETAILED_INFO #define FLEXRAM_ECC_ERROR_DETAILED_INFO \ 0U /* Define to zero means get raw ECC error information, which needs parse it by user. */ #endif /*! @brief Flexram write/read selection. */ enum { kFLEXRAM_Read = 0U, /*!< read */ kFLEXRAM_Write = 1U, /*!< write */ }; /*! @brief Interrupt status flag mask */ enum { kFLEXRAM_OCRAMAccessError = FLEXRAM_INT_STATUS_OCRAM_ERR_STATUS_MASK, /*!< OCRAM accesses unallocated address */ kFLEXRAM_DTCMAccessError = FLEXRAM_INT_STATUS_DTCM_ERR_STATUS_MASK, /*!< DTCM accesses unallocated address */ kFLEXRAM_ITCMAccessError = FLEXRAM_INT_STATUS_ITCM_ERR_STATUS_MASK, /*!< ITCM accesses unallocated address */ #if defined(FSL_FEATURE_FLEXRAM_HAS_MAGIC_ADDR) && FSL_FEATURE_FLEXRAM_HAS_MAGIC_ADDR kFLEXRAM_OCRAMMagicAddrMatch = FLEXRAM_INT_STATUS_OCRAM_MAM_STATUS_MASK, /*!< OCRAM magic address match */ kFLEXRAM_DTCMMagicAddrMatch = FLEXRAM_INT_STATUS_DTCM_MAM_STATUS_MASK, /*!< DTCM magic address match */ kFLEXRAM_ITCMMagicAddrMatch = FLEXRAM_INT_STATUS_ITCM_MAM_STATUS_MASK, /*!< ITCM magic address match */ #if defined(FSL_FEATURE_FLEXRAM_HAS_ECC) && FSL_FEATURE_FLEXRAM_HAS_ECC kFLEXRAM_OCRAMECCMultiError = FLEXRAM_INT_STATUS_OCRAM_ECC_ERRM_INT_MASK, kFLEXRAM_OCRAMECCSingleError = FLEXRAM_INT_STATUS_OCRAM_ECC_ERRS_INT_MASK, kFLEXRAM_ITCMECCMultiError = FLEXRAM_INT_STATUS_ITCM_ECC_ERRM_INT_MASK, kFLEXRAM_ITCMECCSingleError = FLEXRAM_INT_STATUS_ITCM_ECC_ERRS_INT_MASK, kFLEXRAM_D0TCMECCMultiError = FLEXRAM_INT_STATUS_D0TCM_ECC_ERRM_INT_MASK, kFLEXRAM_D0TCMECCSingleError = FLEXRAM_INT_STATUS_D0TCM_ECC_ERRS_INT_MASK, kFLEXRAM_D1TCMECCMultiError = FLEXRAM_INT_STATUS_D1TCM_ECC_ERRM_INT_MASK, kFLEXRAM_D1TCMECCSingleError = FLEXRAM_INT_STATUS_D1TCM_ECC_ERRS_INT_MASK, kFLEXRAM_InterruptStatusAll = FLEXRAM_INT_STATUS_OCRAM_ERR_STATUS_MASK | FLEXRAM_INT_STATUS_DTCM_ERR_STATUS_MASK | FLEXRAM_INT_STATUS_ITCM_ERR_STATUS_MASK | FLEXRAM_INT_STATUS_OCRAM_MAM_STATUS_MASK | FLEXRAM_INT_STATUS_DTCM_MAM_STATUS_MASK | FLEXRAM_INT_STATUS_ITCM_MAM_STATUS_MASK | FLEXRAM_INT_STATUS_OCRAM_ECC_ERRM_INT_MASK | FLEXRAM_INT_STATUS_OCRAM_ECC_ERRS_INT_MASK | FLEXRAM_INT_STATUS_ITCM_ECC_ERRM_INT_MASK | FLEXRAM_INT_STATUS_ITCM_ECC_ERRS_INT_MASK | FLEXRAM_INT_STATUS_D0TCM_ECC_ERRM_INT_MASK | FLEXRAM_INT_STATUS_D0TCM_ECC_ERRS_INT_MASK | FLEXRAM_INT_STATUS_D1TCM_ECC_ERRM_INT_MASK | FLEXRAM_INT_STATUS_D1TCM_ECC_ERRS_INT_MASK, #else kFLEXRAM_InterruptStatusAll = FLEXRAM_INT_STATUS_OCRAM_ERR_STATUS_MASK | FLEXRAM_INT_STATUS_DTCM_ERR_STATUS_MASK | FLEXRAM_INT_STATUS_ITCM_ERR_STATUS_MASK | FLEXRAM_INT_STATUS_OCRAM_MAM_STATUS_MASK | FLEXRAM_INT_STATUS_DTCM_MAM_STATUS_MASK | FLEXRAM_INT_STATUS_ITCM_MAM_STATUS_MASK, #endif /* FSL_FEATURE_FLEXRAM_HAS_ECC */ /*!< all the interrupt status mask */ #else kFLEXRAM_InterruptStatusAll = FLEXRAM_INT_STATUS_OCRAM_ERR_STATUS_MASK | FLEXRAM_INT_STATUS_DTCM_ERR_STATUS_MASK | FLEXRAM_INT_STATUS_ITCM_ERR_STATUS_MASK, /*!< all the interrupt status mask */ #endif /* FSL_FEATURE_FLEXRAM_HAS_MAGIC_ADDR */ }; /*! @brief FLEXRAM TCM access mode. * Fast access mode expected to be finished in 1-cycle; * Wait access mode expected to be finished in 2-cycle. * Wait access mode is a feature of the flexram and it should be used when * the CPU clock is too fast to finish TCM access in 1-cycle. * Normally, fast mode is the default mode, the efficiency of the TCM access will better. */ typedef enum _flexram_tcm_access_mode { kFLEXRAM_TCMAccessFastMode = 0U, /*!< fast access mode */ kFLEXRAM_TCMAccessWaitMode = 1U, /*!< wait access mode */ } flexram_tcm_access_mode_t; /*! @brief FLEXRAM TCM support size */ enum { kFLEXRAM_TCMSize32KB = 32 * 1024U, /*!< TCM total size be 32KB */ kFLEXRAM_TCMSize64KB = 64 * 1024U, /*!< TCM total size be 64KB */ kFLEXRAM_TCMSize128KB = 128 * 1024U, /*!< TCM total size be 128KB */ kFLEXRAM_TCMSize256KB = 256 * 1024U, /*!< TCM total size be 256KB */ kFLEXRAM_TCMSize512KB = 512 * 1024U, /*!< TCM total size be 512KB */ }; #if (defined(FSL_FEATURE_FLEXRAM_HAS_ECC) && FSL_FEATURE_FLEXRAM_HAS_ECC) /*! @brief FLEXRAM memory type, such as OCRAM/ITCM/D0TCM/D1TCM */ typedef enum _flexram_memory_type { kFLEXRAM_OCRAM = 0U, /*!< Memory type OCRAM */ kFLEXRAM_ITCM = 1U, /*!< Memory type ITCM */ kFLEXRAM_D0TCM = 2U, /*!< Memory type D0TCM */ kFLEXRAM_D1TCM = 3U, /*!< Memory type D1TCM */ } flexram_memory_type_t; /*! @brief FLEXRAM error type, such as single bit error position, multi-bit error position */ typedef struct _flexram_ecc_error_type { uint8_t SingleBitPos; /*!< Bit position of the bit to inject ECC Error. */ uint8_t SecondBitPos; /*!< Bit position of the second bit to inject multi-bit ECC Error */ bool Fource1BitDataInversion; /*!< Force One 1-Bit Data Inversion (single-bit ECC error) on memory write access */ bool FourceOneNCDataInversion; /*!< Force One Non-correctable Data Inversion(multi-bit ECC error) on memory write access */ bool FourceConti1BitDataInversion; /*!< Force Continuous 1-Bit Data Inversions (single-bit ECC error) on memory write access */ bool FourceContiNCDataInversion; /*!< Force Continuous Non-correctable Data Inversions (multi-bit ECC error) on memory write access */ } flexram_ecc_error_type_t; /*! @brief FLEXRAM ocram ecc single error information, including single error information, error address, error data */ typedef struct _flexram_ocram_ecc_single_error_info { #if defined(FLEXRAM_ECC_ERROR_DETAILED_INFO) && FLEXRAM_ECC_ERROR_DETAILED_INFO uint8_t OcramSingleErrorECCCipher; /*!< OCRAM corresponding ECC cipher of OCRAM single-bit ECC error. */ uint8_t OcramSingleErrorECCSyndrome; /*!< OCRAM corresponding ECC syndrome of OCRAM single-bit ECC error, which can be used to locate the Error bit using a look-up table. */ #else uint32_t OcramSingleErrorInfo; /*!< Ocram single error information, user should parse it by themself. */ #endif /*FLEXRAM_ECC_ERROR_DETAILED_INFO*/ uint32_t OcramSingleErrorAddr; /*!< Ocram single error address */ uint32_t OcramSingleErrorDataLSB; /*!< Ocram single error data LSB */ uint32_t OcramSingleErrorDataMSB; /*!< Ocram single error data MSB */ } flexram_ocram_ecc_single_error_info_t; /*! @brief FLEXRAM ocram ecc multiple error information, including multiple error information, error address, error data */ typedef struct _flexram_ocram_ecc_multi_error_info { #if defined(FLEXRAM_ECC_ERROR_DETAILED_INFO) && FLEXRAM_ECC_ERROR_DETAILED_INFO uint8_t OcramMultiErrorECCCipher; /*!< OCRAM corresponding ECC cipher of OCRAM multi-bit ECC error. */ #else uint32_t OcramMultiErrorInfo; /*!< Ocram single error information, user should parse it by themself. */ #endif /*FLEXRAM_ECC_ERROR_DETAILED_INFO*/ uint32_t OcramMultiErrorAddr; /*!< Ocram multiple error address */ uint32_t OcramMultiErrorDataLSB; /*!< Ocram multiple error data LSB */ uint32_t OcramMultiErrorDataMSB; /*!< Ocram multiple error data MSB */ } flexram_ocram_ecc_multi_error_info_t; /*! @brief FLEXRAM itcm ecc single error information, including single error information, error address, error data */ typedef struct _flexram_itcm_ecc_single_error_info { #if defined(FLEXRAM_ECC_ERROR_DETAILED_INFO) && FLEXRAM_ECC_ERROR_DETAILED_INFO uint8_t ItcmSingleErrorTCMWriteRead; /*!< itcm single-bit ECC error corresponding tcm_wr value, which is to tell whether it is a write access(0x01) or a read access(0x00). */ uint8_t ItcmSingleErrorTCMAccessSize; /*!< itcm single-bit ECC error corresponding tcm access size, which should be 3 (64bit). */ uint8_t ItcmSingleErrorTCMMaster; /*!< itcm single-bit ECC error corresponding tcm_master, which is to tell the requester of the current access. */ uint8_t ItcmSingleErrorTCMPrivilege; /*!< itcm single-bit ECC error corresponding tcm_priv, which is to tell the privilege level of access. */ uint8_t ItcmSingleErrorBitPostion; /*!< itcm single-bit ECC error corresponding bit postion. */ #else uint32_t ItcmSingleErrorInfo; /*!< itcm single error information, user should parse it by themself. */ #endif /*FLEXRAM_ECC_ERROR_DETAILED_INFO*/ uint32_t ItcmSingleErrorAddr; /*!< itcm single error address */ uint32_t ItcmSingleErrorDataLSB; /*!< itcm single error data LSB */ uint32_t ItcmSingleErrorDataMSB; /*!< itcm single error data MSB */ } flexram_itcm_ecc_single_error_info_t; /*! @brief FLEXRAM itcm ecc multiple error information, including multiple error information, error address, error data */ typedef struct _flexram_itcm_ecc_multi_error_info { #if defined(FLEXRAM_ECC_ERROR_DETAILED_INFO) && FLEXRAM_ECC_ERROR_DETAILED_INFO uint8_t ItcmMultiErrorTCMWriteRead; /*!< itcm multiple-bit ECC error corresponding tcm_wr value, which is to tell whether it is a write access(0x01) or a read access(0x00). */ uint8_t ItcmMultiErrorTCMAccessSize; /*!< itcm multiple-bit ECC error corresponding tcm access size, which should be 3 (64bit). */ uint8_t ItcmMultiErrorTCMMaster; /*!< itcm multiple-bit ECC error corresponding tcm_master, which is to tell the requester of the current access. */ uint8_t ItcmMultiErrorTCMPrivilege; /*!< itcm multiple-bit ECC error corresponding tcm_priv, which is to tell the privilege level of access. */ uint8_t ItcmMultiErrorECCSyndrome; /*!< itcm multiple-bit ECC error corresponding syndrome, which can not be used to locate the Error bit using a look-up table. */ #else uint32_t ItcmMultiErrorInfo; /*!< itcm multiple error information, user should parse it by themself. */ #endif /*FLEXRAM_ECC_ERROR_DETAILED_INFO*/ uint32_t ItcmMultiErrorAddr; /*!< itcm multiple error address */ uint32_t ItcmMultiErrorDataLSB; /*!< itcm multiple error data LSB */ uint32_t ItcmMultiErrorDataMSB; /*!< itcm multiple error data MSB */ } flexram_itcm_ecc_multi_error_info_t; /*! @brief FLEXRAM dtcm ecc single error information, including single error information, error address, error data */ typedef struct _flexram_dtcm_ecc_single_error_info { #if defined(FLEXRAM_ECC_ERROR_DETAILED_INFO) && FLEXRAM_ECC_ERROR_DETAILED_INFO uint8_t DtcmSingleErrorTCMWriteRead; /*!< dtcm single-bit ECC error corresponding tcm_wr value, which is to tell whether it is a write access(0x01) or a read access(0x00). */ uint8_t DtcmSingleErrorTCMAccessSize; /*!< dtcm single-bit ECC error corresponding tcm access size, which should be 2 (32bit). */ uint8_t DtcmSingleErrorTCMMaster; /*!< dtcm single-bit ECC error corresponding tcm_master, which is to tell the requester of the current access. */ uint8_t DtcmSingleErrorTCMPrivilege; /*!< dtcm single-bit ECC error corresponding tcm_priv, which is to tell the privilege level of access. */ uint8_t DtcmSingleErrorBitPostion; /*!< dtcm single-bit ECC error corresponding bit postion. */ #else uint32_t DtcmSingleErrorInfo; /*!< dtcm single error information, user should parse it by themself. */ #endif /*FLEXRAM_ECC_ERROR_DETAILED_INFO*/ uint32_t DtcmSingleErrorAddr; /*!< dtcm single error address */ uint32_t DtcmSingleErrorData; /*!< dtcm single error data */ } flexram_dtcm_ecc_single_error_info_t; /*! @brief FLEXRAM dtcm ecc multiple error information, including multiple error information, error address, error data */ typedef struct _flexram_dtcm_ecc_multi_error_info { #if defined(FLEXRAM_ECC_ERROR_DETAILED_INFO) && FLEXRAM_ECC_ERROR_DETAILED_INFO uint8_t DtcmMultiErrorTCMWriteRead; /*!< dtcm multiple-bit ECC error corresponding tcm_wr value, which is to tell whether it is a write access(0x01) or a read access(0x00). */ uint8_t DtcmMultiErrorTCMAccessSize; /*!< dtcm multiple-bit ECC error corresponding tcm access size, which should be 3 (64bit). */ uint8_t DtcmMultiErrorTCMMaster; /*!< dtcm multiple-bit ECC error corresponding tcm_master, which is to tell the requester of the current access. */ uint8_t DtcmMultiErrorTCMPrivilege; /*!< dtcm multiple-bit ECC error corresponding tcm_priv, which is to tell the privilege level of access. */ uint8_t DtcmMultiErrorECCSyndrome; /*!< dtcm multiple-bit ECC error corresponding syndrome, which can not be used to locate the Error bit using a look-up table. */ #else uint32_t DtcmMultiErrorInfo; /*!< dtcm multiple error information, user should parse it by themself. */ #endif /*FLEXRAM_ECC_ERROR_DETAILED_INFO*/ uint32_t DtcmMultiErrorAddr; /*!< dtcm multiple error address */ uint32_t DtcmMultiErrorData; /*!< dtcm multiple error data */ } flexram_dtcm_ecc_multi_error_info_t; #endif /* FSL_FEATURE_FLEXRAM_HAS_ECC */ /******************************************************************************* * APIs ******************************************************************************/ #if defined(__cplusplus) extern "C" { #endif /*! * @name Initialization and de-initialization * @{ */ /*! * @brief FLEXRAM module initialization function. * * @param base FLEXRAM base address. */ void FLEXRAM_Init(FLEXRAM_Type *base); /*! * @brief De-initializes the FLEXRAM. * */ void FLEXRAM_Deinit(FLEXRAM_Type *base); /*! @} */ /*! * @name Status * @{ */ /*! * @brief FLEXRAM module gets interrupt status. * * @param base FLEXRAM base address. */ static inline uint32_t FLEXRAM_GetInterruptStatus(FLEXRAM_Type *base) { return base->INT_STATUS & (uint32_t)kFLEXRAM_InterruptStatusAll; } /*! * @brief FLEXRAM module clears interrupt status. * * @param base FLEXRAM base address. * @param status Status to be cleared. */ static inline void FLEXRAM_ClearInterruptStatus(FLEXRAM_Type *base, uint32_t status) { base->INT_STATUS |= status; } /*! * @brief FLEXRAM module enables interrupt status. * * @param base FLEXRAM base address. * @param status Status to be enabled. */ static inline void FLEXRAM_EnableInterruptStatus(FLEXRAM_Type *base, uint32_t status) { base->INT_STAT_EN |= status; } /*! * @brief FLEXRAM module disable interrupt status. * * @param base FLEXRAM base address. * @param status Status to be disabled. */ static inline void FLEXRAM_DisableInterruptStatus(FLEXRAM_Type *base, uint32_t status) { base->INT_STAT_EN &= ~status; } /*! @} */ /*! * @name Interrupts * @{ */ /*! * @brief FLEXRAM module enables interrupt. * * @param base FLEXRAM base address. * @param status Status interrupt to be enabled. */ static inline void FLEXRAM_EnableInterruptSignal(FLEXRAM_Type *base, uint32_t status) { base->INT_SIG_EN |= status; } /*! * @brief FLEXRAM module disables interrupt. * * @param base FLEXRAM base address. * @param status Status interrupt to be disabled. */ static inline void FLEXRAM_DisableInterruptSignal(FLEXRAM_Type *base, uint32_t status) { base->INT_SIG_EN &= ~status; } /*! @} */ /*! * @brief FLEXRAM module sets TCM read access mode * * @param base FLEXRAM base address. * @param mode Access mode. */ static inline void FLEXRAM_SetTCMReadAccessMode(FLEXRAM_Type *base, flexram_tcm_access_mode_t mode) { base->TCM_CTRL &= ~FLEXRAM_TCM_CTRL_TCM_RWAIT_EN_MASK; base->TCM_CTRL |= (uint32_t)mode; } /*! * @brief FLEXRAM module set TCM write access mode * * @param base FLEXRAM base address. * @param mode Access mode. */ static inline void FLEXRAM_SetTCMWriteAccessMode(FLEXRAM_Type *base, flexram_tcm_access_mode_t mode) { base->TCM_CTRL &= ~FLEXRAM_TCM_CTRL_TCM_WWAIT_EN_MASK; base->TCM_CTRL |= (uint32_t)mode; } /*! * @brief FLEXRAM module force ram clock on * * @param base FLEXRAM base address. * @param enable Enable or disable clock force on. */ static inline void FLEXRAM_EnableForceRamClockOn(FLEXRAM_Type *base, bool enable) { if (enable) { base->TCM_CTRL |= FLEXRAM_TCM_CTRL_FORCE_CLK_ON_MASK; } else { base->TCM_CTRL &= ~FLEXRAM_TCM_CTRL_FORCE_CLK_ON_MASK; } } #if defined(FSL_FEATURE_FLEXRAM_HAS_MAGIC_ADDR) && FSL_FEATURE_FLEXRAM_HAS_MAGIC_ADDR /*! * @brief FLEXRAM OCRAM magic addr configuration. * When read/write access hit magic address, it will generate interrupt. * @param base FLEXRAM base address. * @param magicAddr Magic address, the actual address bits [18:3] is corresponding to the register field [16:1]. * @param rwSel Read/write selection. 0 for read access while 1 for write access. */ static inline void FLEXRAM_SetOCRAMMagicAddr(FLEXRAM_Type *base, uint16_t magicAddr, uint32_t rwSel) { base->OCRAM_MAGIC_ADDR = FLEXRAM_OCRAM_MAGIC_ADDR_OCRAM_WR_RD_SEL(rwSel) | FLEXRAM_OCRAM_MAGIC_ADDR_OCRAM_MAGIC_ADDR((uint32_t)magicAddr >> 3); } /*! * @brief FLEXRAM DTCM magic addr configuration. * When read/write access hits magic address, it will generate interrupt. * @param base FLEXRAM base address. * @param magicAddr Magic address, the actual address bits [18:3] is corresponding to the register field [16:1]. * @param rwSel Read/write selection. 0 for read access while 1 write access. */ static inline void FLEXRAM_SetDTCMMagicAddr(FLEXRAM_Type *base, uint16_t magicAddr, uint32_t rwSel) { base->DTCM_MAGIC_ADDR = FLEXRAM_DTCM_MAGIC_ADDR_DTCM_WR_RD_SEL(rwSel) | FLEXRAM_DTCM_MAGIC_ADDR_DTCM_MAGIC_ADDR((uint32_t)magicAddr >> 3); } /*! * @brief FLEXRAM ITCM magic addr configuration. * When read/write access hits magic address, it will generate interrupt. * @param base FLEXRAM base address. * @param magicAddr Magic address, the actual address bits [18:3] is corresponding to the register field [16:1]. * @param rwSel Read/write selection. 0 for read access while 1 for write access. */ static inline void FLEXRAM_SetITCMMagicAddr(FLEXRAM_Type *base, uint16_t magicAddr, uint32_t rwSel) { base->ITCM_MAGIC_ADDR = FLEXRAM_ITCM_MAGIC_ADDR_ITCM_WR_RD_SEL(rwSel) | FLEXRAM_ITCM_MAGIC_ADDR_ITCM_MAGIC_ADDR((uint32_t)magicAddr >> 3); } #endif /* FSL_FEATURE_FLEXRAM_HAS_MAGIC_ADDR */ #if (defined(FSL_FEATURE_FLEXRAM_HAS_ECC) && FSL_FEATURE_FLEXRAM_HAS_ECC) /*! * @brief FLEXRAM get ocram ecc single error information. * @param base FLEXRAM base address. * @param OcramECCEnable ocram ecc enablement. * @param TcmECCEnable tcm(itcm/d0tcm/d1tcm) ecc enablement. */ void FLEXRAM_EnableECC(FLEXRAM_Type *base, bool OcramECCEnable, bool TcmECCEnable); #if (defined(FSL_FEATURE_FLEXRAM_HAS_ECC_ERROR_INJECTION) && (FSL_FEATURE_FLEXRAM_HAS_ECC_ERROR_INJECTION)) /*! * @brief FLEXRAM ECC error injection. * @param base FLEXRAM base address. * @param memory memory type, such as OCRAM/ITCM/DTCM. * @param error ECC error type. */ void FLEXRAM_ErrorInjection(FLEXRAM_Type *base, flexram_memory_type_t memory, flexram_ecc_error_type_t *error); #endif /* FSL_FEATURE_FLEXRAM_HAS_ECC_ERROR_INJECTION */ /*! * @brief FLEXRAM get ocram ecc single error information. * @param base FLEXRAM base address. * @param info ecc error information. */ void FLEXRAM_GetOcramSingleErroInfo(FLEXRAM_Type *base, flexram_ocram_ecc_single_error_info_t *info); /*! * @brief FLEXRAM get ocram ecc multiple error information. * @param base FLEXRAM base address. * @param info ecc error information. */ void FLEXRAM_GetOcramMultiErroInfo(FLEXRAM_Type *base, flexram_ocram_ecc_multi_error_info_t *info); /*! * @brief FLEXRAM get itcm ecc single error information. * @param base FLEXRAM base address. * @param info ecc error information. */ void FLEXRAM_GetItcmSingleErroInfo(FLEXRAM_Type *base, flexram_itcm_ecc_single_error_info_t *info); /*! * @brief FLEXRAM get itcm ecc multiple error information. * @param base FLEXRAM base address. * @param info ecc error information. */ void FLEXRAM_GetItcmMultiErroInfo(FLEXRAM_Type *base, flexram_itcm_ecc_multi_error_info_t *info); /*! * @brief FLEXRAM get d0tcm ecc single error information. * @param base FLEXRAM base address. * @param info ecc error information. * @param bank DTCM bank, 0 is D0TCM, 1 is D1TCM. */ void FLEXRAM_GetDtcmSingleErroInfo(FLEXRAM_Type *base, flexram_dtcm_ecc_single_error_info_t *info, uint8_t bank); /*! * @brief FLEXRAM get d0tcm ecc multiple error information. * @param base FLEXRAM base address. * @param info ecc error information. * @param bank DTCM bank, 0 is D0TCM, 1 is D1TCM. */ void FLEXRAM_GetDtcmMultiErroInfo(FLEXRAM_Type *base, flexram_dtcm_ecc_multi_error_info_t *info, uint8_t bank); #endif /* FSL_FEATURE_FLEXRAM_HAS_ECC */ #if defined(__cplusplus) } #endif /*! @}*/ #endif