diff options
Diffstat (limited to 'bsps/arm/imxrt/mcux-sdk/drivers/semc/fsl_semc.h')
-rw-r--r-- | bsps/arm/imxrt/mcux-sdk/drivers/semc/fsl_semc.h | 924 |
1 files changed, 924 insertions, 0 deletions
diff --git a/bsps/arm/imxrt/mcux-sdk/drivers/semc/fsl_semc.h b/bsps/arm/imxrt/mcux-sdk/drivers/semc/fsl_semc.h new file mode 100644 index 0000000000..e6efec0d8e --- /dev/null +++ b/bsps/arm/imxrt/mcux-sdk/drivers/semc/fsl_semc.h @@ -0,0 +1,924 @@ +/* + * Copyright 2017-2022 NXP + * All rights reserved. + * + * SPDX-License-Identifier: BSD-3-Clause + */ +#ifndef _FSL_SEMC_H_ +#define _FSL_SEMC_H_ + +#include "fsl_common.h" + +/*! + * @addtogroup semc + * @{ + */ + +/******************************************************************************* + * Definitions + ******************************************************************************/ + +/*! @name Driver version */ +/*@{*/ +/*! @brief SEMC driver version. */ +#define FSL_SEMC_DRIVER_VERSION (MAKE_VERSION(2, 4, 3)) +/*@}*/ + +/*! @brief SEMC status, _semc_status. */ +enum +{ + kStatus_SEMC_InvalidDeviceType = MAKE_STATUS(kStatusGroup_SEMC, 0), /*!< Invalid device type. */ + kStatus_SEMC_IpCommandExecutionError = MAKE_STATUS(kStatusGroup_SEMC, 1), /*!< IP command execution error. */ + kStatus_SEMC_AxiCommandExecutionError = MAKE_STATUS(kStatusGroup_SEMC, 2), /*!< AXI command execution error. */ + kStatus_SEMC_InvalidMemorySize = MAKE_STATUS(kStatusGroup_SEMC, 3), /*!< Invalid memory sie. */ + kStatus_SEMC_InvalidIpcmdDataSize = MAKE_STATUS(kStatusGroup_SEMC, 4), /*!< Invalid IP command data size. */ + kStatus_SEMC_InvalidAddressPortWidth = MAKE_STATUS(kStatusGroup_SEMC, 5), /*!< Invalid address port width. */ + kStatus_SEMC_InvalidDataPortWidth = MAKE_STATUS(kStatusGroup_SEMC, 6), /*!< Invalid data port width. */ + kStatus_SEMC_InvalidSwPinmuxSelection = MAKE_STATUS(kStatusGroup_SEMC, 7), /*!< Invalid SW pinmux selection. */ + kStatus_SEMC_InvalidBurstLength = MAKE_STATUS(kStatusGroup_SEMC, 8), /*!< Invalid burst length */ + /*! Invalid column address bit width. */ + kStatus_SEMC_InvalidColumnAddressBitWidth = MAKE_STATUS(kStatusGroup_SEMC, 9), + kStatus_SEMC_InvalidBaseAddress = MAKE_STATUS(kStatusGroup_SEMC, 10), /*!< Invalid base address. */ + kStatus_SEMC_InvalidTimerSetting = MAKE_STATUS(kStatusGroup_SEMC, 11), /*!< Invalid timer setting. */ +}; + +/*! @brief SEMC memory device type. */ +typedef enum _semc_mem_type +{ + kSEMC_MemType_SDRAM = 0, /*!< SDRAM */ + kSEMC_MemType_SRAM, /*!< SRAM */ + kSEMC_MemType_NOR, /*!< NOR */ + kSEMC_MemType_NAND, /*!< NAND */ + kSEMC_MemType_8080 /*!< 8080. */ +} semc_mem_type_t; + +/*! @brief SEMC WAIT/RDY polarity. */ +typedef enum _semc_waitready_polarity +{ + kSEMC_LowActive = 0, /*!< Low active. */ + kSEMC_HighActive, /*!< High active. */ +} semc_waitready_polarity_t; + +/*! @brief SEMC SDRAM Chip selection . */ +typedef enum _semc_sdram_cs +{ + kSEMC_SDRAM_CS0 = 0, /*!< SEMC SDRAM CS0. */ + kSEMC_SDRAM_CS1, /*!< SEMC SDRAM CS1. */ + kSEMC_SDRAM_CS2, /*!< SEMC SDRAM CS2. */ + kSEMC_SDRAM_CS3 /*!< SEMC SDRAM CS3. */ +} semc_sdram_cs_t; + +/*! @brief SEMC SRAM Chip selection . */ +typedef enum _semc_sram_cs +{ +#if defined(FSL_FEATURE_SEMC_SUPPORT_SRAM_COUNT) && (FSL_FEATURE_SEMC_SUPPORT_SRAM_COUNT == 0x04U) + kSEMC_SRAM_CS0 = 0, /*!< SEMC SRAM CS0. */ + kSEMC_SRAM_CS1, /*!< SEMC SRAM CS1. */ + kSEMC_SRAM_CS2, /*!< SEMC SRAM CS2. */ + kSEMC_SRAM_CS3 /*!< SEMC SRAM CS3. */ +#else + kSEMC_SRAM_CS0 = 0, /*!< SEMC SRAM CS0. */ +#endif /* FSL_FEATURE_SEMC_SUPPORT_SRAM_COUNT */ +} semc_sram_cs_t; + +/*! @brief SEMC NAND device type. */ +typedef enum _semc_nand_access_type +{ + kSEMC_NAND_ACCESS_BY_AXI = 0, /*!< Access to NAND flash by AXI bus. */ + kSEMC_NAND_ACCESS_BY_IPCMD, /*!< Access to NAND flash by IP bus. */ +} semc_nand_access_type_t; + +/*! @brief SEMC interrupts . */ +typedef enum _semc_interrupt_enable +{ + kSEMC_IPCmdDoneInterrupt = SEMC_INTEN_IPCMDDONEEN_MASK, /*!< Ip command done interrupt. */ + kSEMC_IPCmdErrInterrupt = SEMC_INTEN_IPCMDERREN_MASK, /*!< Ip command error interrupt. */ + kSEMC_AXICmdErrInterrupt = SEMC_INTEN_AXICMDERREN_MASK, /*!< AXI command error interrupt. */ + kSEMC_AXIBusErrInterrupt = SEMC_INTEN_AXIBUSERREN_MASK /*!< AXI bus error interrupt. */ +} semc_interrupt_enable_t; + +/*! @brief SEMC IP command data size in bytes. */ +typedef enum _semc_ipcmd_datasize +{ + kSEMC_IPcmdDataSize_1bytes = 1, /*!< The IP command data size 1 byte. */ + kSEMC_IPcmdDataSize_2bytes, /*!< The IP command data size 2 byte. */ + kSEMC_IPcmdDataSize_3bytes, /*!< The IP command data size 3 byte. */ + kSEMC_IPcmdDataSize_4bytes /*!< The IP command data size 4 byte. */ +} semc_ipcmd_datasize_t; + +/*! @brief SEMC auto-refresh timing. */ +typedef enum _semc_refresh_time +{ + kSEMC_RefreshThreeClocks = 0x0U, /*!< The refresh timing with three bus clocks. */ + kSEMC_RefreshSixClocks, /*!< The refresh timing with six bus clocks. */ + kSEMC_RefreshNineClocks /*!< The refresh timing with nine bus clocks. */ +} semc_refresh_time_t; + +/*! @brief CAS latency */ +typedef enum _semc_caslatency +{ + kSEMC_LatencyOne = 1, /*!< Latency 1. */ + kSEMC_LatencyTwo, /*!< Latency 2. */ + kSEMC_LatencyThree, /*!< Latency 3. */ +} semc_caslatency_t; + +/*! @brief SEMC sdram column address bit number. */ +typedef enum _semc_sdram_column_bit_num +{ + kSEMC_SdramColunm_12bit = 0x0U, /*!< 12 bit. */ + kSEMC_SdramColunm_11bit, /*!< 11 bit. */ + kSEMC_SdramColunm_10bit, /*!< 10 bit. */ + kSEMC_SdramColunm_9bit, /*!< 9 bit. */ +#if defined(FSL_FEATURE_SEMC_SDRAM_SUPPORT_COLUMN_ADDRESS_8BIT) && (FSL_FEATURE_SEMC_SDRAM_SUPPORT_COLUMN_ADDRESS_8BIT) + kSEMC_SdramColunm_8bit, /*!< 8 bit. */ +#endif /* FSL_FEATURE_SEMC_SDRAM_SUPPORT_COLUMN_ADDRESS_8BIT */ +} semc_sdram_column_bit_num_t; + +/*! @brief SEMC sdram burst length. */ +typedef enum _semc_sdram_burst_len +{ +/*! According to ERR050577, Auto-refresh command may possibly fail to be triggered during + long time back-to-back write (or read) when SDRAM controller's burst length is greater than 1. */ +#if defined(FSL_FEATURE_SEMC_ERRATA_050577) && (FSL_FEATURE_SEMC_ERRATA_050577 == 0x01U) + kSEMC_Sdram_BurstLen1 = 0, /*!< Burst length 1*/ +#else + kSEMC_Sdram_BurstLen1 = 0, /*!< Burst length 1*/ + kSEMC_Sdram_BurstLen2, /*!< Burst length 2*/ + kSEMC_Sdram_BurstLen4, /*!< Burst length 4*/ + kSEMC_Sdram_BurstLen8 /*!< Burst length 8*/ +#endif /* FSL_FEATURE_SEMC_ERRATA_050577 */ +} sem_sdram_burst_len_t; + +/*! @brief SEMC nand column address bit number. */ +typedef enum _semc_nand_column_bit_num +{ + kSEMC_NandColum_16bit = 0x0U, /*!< 16 bit. */ + kSEMC_NandColum_15bit, /*!< 15 bit. */ + kSEMC_NandColum_14bit, /*!< 14 bit. */ + kSEMC_NandColum_13bit, /*!< 13 bit. */ + kSEMC_NandColum_12bit, /*!< 12 bit. */ + kSEMC_NandColum_11bit, /*!< 11 bit. */ + kSEMC_NandColum_10bit, /*!< 10 bit. */ + kSEMC_NandColum_9bit, /*!< 9 bit. */ +} semc_nand_column_bit_num_t; + +/*! @brief SEMC nand burst length. */ +typedef enum _semc_nand_burst_len +{ + kSEMC_Nand_BurstLen1 = 0, /*!< Burst length 1*/ + kSEMC_Nand_BurstLen2, /*!< Burst length 2*/ + kSEMC_Nand_BurstLen4, /*!< Burst length 4*/ + kSEMC_Nand_BurstLen8, /*!< Burst length 8*/ + kSEMC_Nand_BurstLen16, /*!< Burst length 16*/ + kSEMC_Nand_BurstLen32, /*!< Burst length 32*/ + kSEMC_Nand_BurstLen64 /*!< Burst length 64*/ +} sem_nand_burst_len_t; + +/*! @brief SEMC nor/sram column address bit number. */ +typedef enum _semc_norsram_column_bit_num +{ + kSEMC_NorColum_12bit = 0x0U, /*!< 12 bit. */ + kSEMC_NorColum_11bit, /*!< 11 bit. */ + kSEMC_NorColum_10bit, /*!< 10 bit. */ + kSEMC_NorColum_9bit, /*!< 9 bit. */ + kSEMC_NorColum_8bit, /*!< 8 bit. */ + kSEMC_NorColum_7bit, /*!< 7 bit. */ + kSEMC_NorColum_6bit, /*!< 6 bit. */ + kSEMC_NorColum_5bit, /*!< 5 bit. */ + kSEMC_NorColum_4bit, /*!< 4 bit. */ + kSEMC_NorColum_3bit, /*!< 3 bit. */ + kSEMC_NorColum_2bit /*!< 2 bit. */ +} semc_norsram_column_bit_num_t; + +/*! @brief SEMC nor/sram burst length. */ +typedef enum _semc_norsram_burst_len +{ + kSEMC_Nor_BurstLen1 = 0, /*!< Burst length 1*/ + kSEMC_Nor_BurstLen2, /*!< Burst length 2*/ + kSEMC_Nor_BurstLen4, /*!< Burst length 4*/ + kSEMC_Nor_BurstLen8, /*!< Burst length 8*/ + kSEMC_Nor_BurstLen16, /*!< Burst length 16*/ + kSEMC_Nor_BurstLen32, /*!< Burst length 32*/ + kSEMC_Nor_BurstLen64 /*!< Burst length 64*/ +} sem_norsram_burst_len_t; + +/*! @brief SEMC dbi column address bit number. */ +typedef enum _semc_dbi_column_bit_num +{ + kSEMC_Dbi_Colum_12bit = 0x0U, /*!< 12 bit. */ + kSEMC_Dbi_Colum_11bit, /*!< 11 bit. */ + kSEMC_Dbi_Colum_10bit, /*!< 10 bit. */ + kSEMC_Dbi_Colum_9bit, /*!< 9 bit. */ + kSEMC_Dbi_Colum_8bit, /*!< 8 bit. */ + kSEMC_Dbi_Colum_7bit, /*!< 7 bit. */ + kSEMC_Dbi_Colum_6bit, /*!< 6 bit. */ + kSEMC_Dbi_Colum_5bit, /*!< 5 bit. */ + kSEMC_Dbi_Colum_4bit, /*!< 4 bit. */ + kSEMC_Dbi_Colum_3bit, /*!< 3 bit. */ + kSEMC_Dbi_Colum_2bit /*!< 2 bit. */ +} semc_dbi_column_bit_num_t; + +/*! @brief SEMC dbi burst length. */ +typedef enum _semc_dbi_burst_len +{ + kSEMC_Dbi_BurstLen1 = 0, /*!< Burst length 1*/ + kSEMC_Dbi_BurstLen2, /*!< Burst length 2*/ + kSEMC_Dbi_Dbi_BurstLen4, /*!< Burst length 4*/ + kSEMC_Dbi_BurstLen8, /*!< Burst length 8*/ + kSEMC_Dbi_BurstLen16, /*!< Burst length 16*/ + kSEMC_Dbi_BurstLen32, /*!< Burst length 32*/ + kSEMC_Dbi_BurstLen64 /*!< Burst length 64*/ +} sem_dbi_burst_len_t; + +/*! @brief SEMC IOMUXC. */ +typedef enum _semc_iomux_pin +{ + kSEMC_MUXA8 = SEMC_IOCR_MUX_A8_SHIFT, /*!< MUX A8 pin. */ + kSEMC_MUXCSX0 = SEMC_IOCR_MUX_CSX0_SHIFT, /*!< MUX CSX0 pin */ + kSEMC_MUXCSX1 = SEMC_IOCR_MUX_CSX1_SHIFT, /*!< MUX CSX1 Pin.*/ + kSEMC_MUXCSX2 = SEMC_IOCR_MUX_CSX2_SHIFT, /*!< MUX CSX2 Pin. */ + kSEMC_MUXCSX3 = SEMC_IOCR_MUX_CSX3_SHIFT, /*!< MUX CSX3 Pin. */ + kSEMC_MUXRDY = SEMC_IOCR_MUX_RDY_SHIFT /*!< MUX RDY pin. */ +} semc_iomux_pin; + +/*! @brief SEMC NOR/PSRAM Address bit 27 A27. */ +typedef enum _semc_iomux_nora27_pin +{ + kSEMC_MORA27_NONE = 0, /*!< No NOR/SRAM A27 pin. */ + kSEMC_NORA27_MUXCSX3 = SEMC_IOCR_MUX_CSX3_SHIFT, /*!< MUX CSX3 Pin. */ + kSEMC_NORA27_MUXRDY = SEMC_IOCR_MUX_RDY_SHIFT /*!< MUX RDY pin. */ +} semc_iomux_nora27_pin; + +/*! @brief SEMC port size. */ +typedef enum _semc_port_size +{ + kSEMC_PortSize8Bit = 0, /*!< 8-Bit port size. */ + kSEMC_PortSize16Bit, /*!< 16-Bit port size. */ +#if defined(FSL_FEATURE_SEMC_SUPPORT_SDRAM_PS_BITWIDTH) && (FSL_FEATURE_SEMC_SUPPORT_SDRAM_PS_BITWIDTH == 0x02U) + kSEMC_PortSize32Bit /*!< 32-Bit port size. */ +#endif /* FSL_FEATURE_SEMC_SUPPORT_SDRAM_PS_BITWIDTH */ +} smec_port_size_t; + +/*! @brief SEMC address mode. */ +typedef enum _semc_addr_mode +{ + kSEMC_AddrDataMux = 0, /*!< SEMC address/data mux mode. */ + kSEMC_AdvAddrdataMux, /*!< Advanced address/data mux mode. */ + kSEMC_AddrDataNonMux /*!< Address/data non-mux mode. */ +} semc_addr_mode_t; + +/*! @brief SEMC DQS read strobe mode. */ +typedef enum _semc_dqs_mode +{ + kSEMC_Loopbackinternal = 0, /*!< Dummy read strobe loopbacked internally. */ + kSEMC_Loopbackdqspad, /*!< Dummy read strobe loopbacked from DQS pad. */ +} semc_dqs_mode_t; + +/*! @brief SEMC ADV signal active polarity. */ +typedef enum _semc_adv_polarity +{ + kSEMC_AdvActiveLow = 0, /*!< Adv active low. */ + kSEMC_AdvActiveHigh, /*!< Adv active high. */ +} semc_adv_polarity_t; + +/*! @brief SEMC sync mode. */ +typedef enum _semc_sync_mode +{ + kSEMC_AsyncMode = 0, /*!< Async mode. */ + kSEMC_SyncMode, /*!< Sync mode. */ +} semc_sync_mode_t; + +/*! @brief SEMC ADV signal level control. */ +typedef enum _semc_adv_level_control +{ + kSEMC_AdvHigh = 0, /*!< Adv is high during address hold state. */ + kSEMC_AdvLow, /*!< Adv is low during address hold state. */ +} semc_adv_level_control_t; + +/*! @brief SEMC RDY signal active polarity. */ +typedef enum _semc_rdy_polarity +{ + kSEMC_RdyActiveLow = 0, /*!< Adv active low. */ + kSEMC_RdyActivehigh, /*!< Adv active low. */ +} semc_rdy_polarity_t; + +/*! @brief SEMC IP command for NAND: address mode. */ +typedef enum _semc_ipcmd_nand_addrmode +{ + kSEMC_NANDAM_ColumnRow = 0x0U, /*!< Address mode: column and row address(5Byte-CA0/CA1/RA0/RA1/RA2). */ + kSEMC_NANDAM_ColumnCA0, /*!< Address mode: column address only(1 Byte-CA0). */ + kSEMC_NANDAM_ColumnCA0CA1, /*!< Address mode: column address only(2 Byte-CA0/CA1). */ + kSEMC_NANDAM_RawRA0, /*!< Address mode: row address only(1 Byte-RA0). */ + kSEMC_NANDAM_RawRA0RA1, /*!< Address mode: row address only(2 Byte-RA0/RA1). */ + kSEMC_NANDAM_RawRA0RA1RA2 /*!< Address mode: row address only(3 Byte-RA0). */ +} semc_ipcmd_nand_addrmode_t; + +/*! @brief SEMC IP command for NAND: command mode. */ +typedef enum _semc_ipcmd_nand_cmdmode +{ + kSEMC_NANDCM_Command = 0x2U, /*!< command. */ + kSEMC_NANDCM_CommandHold, /*!< Command hold. */ + kSEMC_NANDCM_CommandAddress, /*!< Command address. */ + kSEMC_NANDCM_CommandAddressHold, /*!< Command address hold. */ + kSEMC_NANDCM_CommandAddressRead, /*!< Command address read. */ + kSEMC_NANDCM_CommandAddressWrite, /*!< Command address write. */ + kSEMC_NANDCM_CommandRead, /*!< Command read. */ + kSEMC_NANDCM_CommandWrite, /*!< Command write. */ + kSEMC_NANDCM_Read, /*!< Read. */ + kSEMC_NANDCM_Write /*!< Write. */ +} semc_ipcmd_nand_cmdmode_t; + +/*! @brief SEMC NAND address option. */ +typedef enum _semc_nand_address_option +{ + kSEMC_NandAddrOption_5byte_CA2RA3 = 0U, /*!< CA0+CA1+RA0+RA1+RA2 */ + kSEMC_NandAddrOption_4byte_CA2RA2 = 2U, /*!< CA0+CA1+RA0+RA1 */ + kSEMC_NandAddrOption_3byte_CA2RA1 = 4U, /*!< CA0+CA1+RA0 */ + kSEMC_NandAddrOption_4byte_CA1RA3 = 1U, /*!< CA0+RA0+RA1+RA2 */ + kSEMC_NandAddrOption_3byte_CA1RA2 = 3U, /*!< CA0+RA0+RA1 */ + kSEMC_NandAddrOption_2byte_CA1RA1 = 7U, /*!< CA0+RA0 */ +} semc_nand_address_option_t; + +/*! @brief SEMC IP command for NOR. */ +typedef enum _semc_ipcmd_nor_dbi +{ + kSEMC_NORDBICM_Read = 0x2U, /*!< NOR read. */ + kSEMC_NORDBICM_Write /*!< NOR write. */ +} semc_ipcmd_nor_dbi_t; + +/*! @brief SEMC IP command for SRAM. */ +typedef enum _semc_ipcmd_sram +{ + kSEMC_SRAMCM_ArrayRead = 0x2U, /*!< SRAM memory array read. */ + kSEMC_SRAMCM_ArrayWrite, /*!< SRAM memory array write. */ + kSEMC_SRAMCM_RegRead, /*!< SRAM memory register read. */ + kSEMC_SRAMCM_RegWrite /*!< SRAM memory register write. */ +} semc_ipcmd_sram_t; + +/*! @brief SEMC IP command for SDARM. */ +typedef enum _semc_ipcmd_sdram +{ + kSEMC_SDRAMCM_Read = 0x8U, /*!< SDRAM memory read. */ + kSEMC_SDRAMCM_Write, /*!< SDRAM memory write. */ + kSEMC_SDRAMCM_Modeset, /*!< SDRAM MODE SET. */ + kSEMC_SDRAMCM_Active, /*!< SDRAM active. */ + kSEMC_SDRAMCM_AutoRefresh, /*!< SDRAM auto-refresh. */ + kSEMC_SDRAMCM_SelfRefresh, /*!< SDRAM self-refresh. */ + kSEMC_SDRAMCM_Precharge, /*!< SDRAM precharge. */ + kSEMC_SDRAMCM_Prechargeall /*!< SDRAM precharge all. */ +} semc_ipcmd_sdram_t; + +/*! @brief SEMC SDRAM configuration structure. + * + * 1. The memory size in the configuration is in the unit of KB. So memsize_kbytes + * should be set as 2^2, 2^3, 2^4 .etc which is base 2KB exponential function. + * Take refer to BR0~BR3 register in RM for details. + * 2. The prescalePeriod_N16Cycle is in unit of 16 clock cycle. It is a exception for prescaleTimer_n16cycle = 0, + * it means the prescaler timer period is 256 * 16 clock cycles. For precalerIf precalerTimer_n16cycle not equal to 0, + * The prescaler timer period is prescalePeriod_N16Cycle * 16 clock cycles. + * idleTimeout_NprescalePeriod, refreshUrgThreshold_NprescalePeriod, refreshPeriod_NprescalePeriod are + * similar to prescalePeriod_N16Cycle. + * + */ +typedef struct _semc_sdram_config +{ + semc_iomux_pin csxPinMux; /*!< CS pin mux. The kSEMC_MUXA8 is not valid in sdram pin mux setting. */ + uint32_t address; /*!< The base address. */ + uint32_t memsize_kbytes; /*!< The memory size in unit of kbytes. */ + smec_port_size_t portSize; /*!< Port size. */ + sem_sdram_burst_len_t burstLen; /*!< Burst length. */ + semc_sdram_column_bit_num_t columnAddrBitNum; /*!< Column address bit number. */ + semc_caslatency_t casLatency; /*!< CAS latency. */ + uint8_t tPrecharge2Act_Ns; /*!< Precharge to active wait time in unit of nanosecond. */ + uint8_t tAct2ReadWrite_Ns; /*!< Act to read/write wait time in unit of nanosecond. */ + uint8_t tRefreshRecovery_Ns; /*!< Refresh recovery time in unit of nanosecond. */ + uint8_t tWriteRecovery_Ns; /*!< write recovery time in unit of nanosecond. */ + uint8_t tCkeOff_Ns; /*!< CKE off minimum time in unit of nanosecond. */ + uint8_t tAct2Prechage_Ns; /*!< Active to precharge in unit of nanosecond. */ + uint8_t tSelfRefRecovery_Ns; /*!< Self refresh recovery time in unit of nanosecond. */ + uint8_t tRefresh2Refresh_Ns; /*!< Refresh to refresh wait time in unit of nanosecond. */ + uint8_t tAct2Act_Ns; /*!< Active to active wait time in unit of nanosecond. */ + uint32_t tPrescalePeriod_Ns; /*!< Prescaler timer period should not be larger than 256 * 16 * clock cycle. */ + uint32_t tIdleTimeout_Ns; /*!< Idle timeout in unit of prescale time period. */ + uint32_t refreshPeriod_nsPerRow; /*!< Refresh timer period like 64ms * 1000000/8192 . */ + uint32_t refreshUrgThreshold; /*!< Refresh urgent threshold. */ + uint8_t refreshBurstLen; /*!< Refresh burst length. */ +#if defined(FSL_FEATURE_SEMC_HAS_DELAY_CHAIN_CONTROL) && (FSL_FEATURE_SEMC_HAS_DELAY_CHAIN_CONTROL) + uint8_t delayChain; /*!< Delay chain, which adds delays on DQS clock to compensate timings while DQS is faster than + read data. */ +#endif /* FSL_FEATURE_SEMC_HAS_DELAY_CHAIN_CONTROL */ +} semc_sdram_config_t; + +/*! @brief SEMC NAND device timing configuration structure. */ +typedef struct _semc_nand_timing_config +{ + uint8_t tCeSetup_Ns; /*!< CE setup time: tCS. */ + uint8_t tCeHold_Ns; /*!< CE hold time: tCH. */ + uint8_t tCeInterval_Ns; /*!< CE interval time:tCEITV. */ + uint8_t tWeLow_Ns; /*!< WE low time: tWP. */ + uint8_t tWeHigh_Ns; /*!< WE high time: tWH. */ + uint8_t tReLow_Ns; /*!< RE low time: tRP. */ + uint8_t tReHigh_Ns; /*!< RE high time: tREH. */ + uint8_t tTurnAround_Ns; /*!< Turnaround time for async mode: tTA. */ + uint8_t tWehigh2Relow_Ns; /*!< WE# high to RE# wait time: tWHR. */ + uint8_t tRehigh2Welow_Ns; /*!< RE# high to WE# low wait time: tRHW. */ + uint8_t tAle2WriteStart_Ns; /*!< ALE to write start wait time: tADL. */ + uint8_t tReady2Relow_Ns; /*!< Ready to RE# low min wait time: tRR. */ + uint8_t tWehigh2Busy_Ns; /*!< WE# high to busy wait time: tWB. */ +} semc_nand_timing_config_t; + +/*! @brief SEMC NAND configuration structure. */ +typedef struct _semc_nand_config +{ + semc_iomux_pin cePinMux; /*!< The CE pin mux setting. The kSEMC_MUXRDY is not valid for CE pin setting. */ + uint32_t axiAddress; /*!< The base address for AXI nand. */ + uint32_t axiMemsize_kbytes; /*!< The memory size in unit of kbytes for AXI nand. */ + uint32_t ipgAddress; /*!< The base address for IPG nand . */ + uint32_t ipgMemsize_kbytes; /*!< The memory size in unit of kbytes for IPG nand. */ + semc_rdy_polarity_t rdyactivePolarity; /*!< Wait ready polarity. */ + bool edoModeEnabled; /*!< EDO mode enabled. */ + semc_nand_column_bit_num_t columnAddrBitNum; /*!< Column address bit number. */ + semc_nand_address_option_t arrayAddrOption; /*!< Address option. */ + sem_nand_burst_len_t burstLen; /*!< Burst length. */ + smec_port_size_t portSize; /*!< Port size. */ + semc_nand_timing_config_t *timingConfig; /*!< SEMC nand timing configuration. */ +} semc_nand_config_t; + +/*! @brief SEMC NOR configuration structure. */ +typedef struct _semc_nor_config +{ + semc_iomux_pin cePinMux; /*!< The CE# pin mux setting. */ + semc_iomux_nora27_pin addr27; /*!< The Addr bit 27 pin mux setting. */ + uint32_t address; /*!< The base address. */ + uint32_t memsize_kbytes; /*!< The memory size in unit of kbytes. */ + uint8_t addrPortWidth; /*!< The address port width. */ + semc_rdy_polarity_t rdyactivePolarity; /*!< Wait ready polarity. */ + semc_adv_polarity_t advActivePolarity; /*!< ADV# polarity. */ + semc_norsram_column_bit_num_t columnAddrBitNum; /*!< Column address bit number. */ + semc_addr_mode_t addrMode; /*!< Address mode. */ + sem_norsram_burst_len_t burstLen; /*!< Burst length. */ + smec_port_size_t portSize; /*!< Port size. */ + uint8_t tCeSetup_Ns; /*!< The CE setup time. */ + uint8_t tCeHold_Ns; /*!< The CE hold time. */ + uint8_t tCeInterval_Ns; /*!< CE interval minimum time. */ + uint8_t tAddrSetup_Ns; /*!< The address setup time. */ + uint8_t tAddrHold_Ns; /*!< The address hold time. */ + uint8_t tWeLow_Ns; /*!< WE low time for async mode. */ + uint8_t tWeHigh_Ns; /*!< WE high time for async mode. */ + uint8_t tReLow_Ns; /*!< RE low time for async mode. */ + uint8_t tReHigh_Ns; /*!< RE high time for async mode. */ + uint8_t tTurnAround_Ns; /*!< Turnaround time for async mode. */ + uint8_t tAddr2WriteHold_Ns; /*!< Address to write data hold time for async mode. */ +#if defined(FSL_FEATURE_SEMC_HAS_NOR_WDS_TIME) && (FSL_FEATURE_SEMC_HAS_NOR_WDS_TIME) + uint8_t tWriteSetup_Ns; /*!< Write data setup time for sync mode.*/ +#endif +#if defined(FSL_FEATURE_SEMC_HAS_NOR_WDH_TIME) && (FSL_FEATURE_SEMC_HAS_NOR_WDH_TIME) + uint8_t tWriteHold_Ns; /*!< Write hold time for sync mode. */ +#endif +#if defined(FSL_FEATURE_SEMC_HAS_NOR_LC_TIME) && (FSL_FEATURE_SEMC_HAS_NOR_LC_TIME) + uint8_t latencyCount; /*!< Latency count for sync mode. */ +#endif +#if defined(FSL_FEATURE_SEMC_HAS_NOR_RD_TIME) && (FSL_FEATURE_SEMC_HAS_NOR_RD_TIME) + uint8_t readCycle; /*!< Read cycle time for sync mode. */ +#endif +#if defined(FSL_FEATURE_SEMC_HAS_DELAY_CHAIN_CONTROL) && (FSL_FEATURE_SEMC_HAS_DELAY_CHAIN_CONTROL) + uint8_t delayChain; /*!< Delay chain, which adds delays on DQS clock to compensate timings while DQS is faster than + read data. */ +#endif /* FSL_FEATURE_SEMC_HAS_DELAY_CHAIN_CONTROL */ +} semc_nor_config_t; + +/*! @brief SEMC SRAM configuration structure. */ +typedef struct _semc_sram_config +{ + semc_iomux_pin cePinMux; /*!< The CE# pin mux setting. */ + semc_iomux_nora27_pin addr27; /*!< The Addr bit 27 pin mux setting. */ + uint32_t address; /*!< The base address. */ + uint32_t memsize_kbytes; /*!< The memory size in unit of kbytes. */ + uint8_t addrPortWidth; /*!< The address port width. */ + semc_adv_polarity_t advActivePolarity; /*!< ADV# polarity 1: active high, 0: active low. */ + semc_addr_mode_t addrMode; /*!< Address mode. */ + sem_norsram_burst_len_t burstLen; /*!< Burst length. */ + smec_port_size_t portSize; /*!< Port size. */ +#if defined(SEMC_SRAMCR4_SYNCEN_MASK) && (SEMC_SRAMCR4_SYNCEN_MASK) + semc_sync_mode_t syncMode; /*!< Sync mode. */ +#endif /* SEMC_SRAMCR4_SYNCEN_MASK */ +#if defined(SEMC_SRAMCR0_WAITEN_MASK) && (SEMC_SRAMCR0_WAITEN_MASK) + bool waitEnable; /*!< Wait enable. */ +#endif /* SEMC_SRAMCR0_WAITEN_MASK */ +#if defined(SEMC_SRAMCR0_WAITSP_MASK) && (SEMC_SRAMCR0_WAITSP_MASK) + uint8_t waitSample; /*!< Wait sample. */ +#endif /* SEMC_SRAMCR0_WAITSP_MASK */ +#if defined(SEMC_SRAMCR4_ADVH_MASK) && (SEMC_SRAMCR4_ADVH_MASK) + semc_adv_level_control_t advLevelCtrl; /*!< ADV# level control during address hold state, 1: low, 0: high. */ +#endif /* SEMC_SRAMCR4_ADVH_MASK */ + uint8_t tCeSetup_Ns; /*!< The CE setup time. */ + uint8_t tCeHold_Ns; /*!< The CE hold time. */ + uint8_t tCeInterval_Ns; /*!< CE interval minimum time. */ +#if defined(FSL_FEATURE_SEMC_HAS_SRAM_RDH_TIME) && (FSL_FEATURE_SEMC_HAS_SRAM_RDH_TIME) + uint8_t readHoldTime_Ns; /*!< read hold time. */ +#endif /* FSL_FEATURE_SEMC_HAS_SRAM_RDH_TIME */ + uint8_t tAddrSetup_Ns; /*!< The address setup time. */ + uint8_t tAddrHold_Ns; /*!< The address hold time. */ + uint8_t tWeLow_Ns; /*!< WE low time for async mode. */ + uint8_t tWeHigh_Ns; /*!< WE high time for async mode. */ + uint8_t tReLow_Ns; /*!< RE low time for async mode. */ + uint8_t tReHigh_Ns; /*!< RE high time for async mode. */ + uint8_t tTurnAround_Ns; /*!< Turnaround time for async mode. */ + uint8_t tAddr2WriteHold_Ns; /*!< Address to write data hold time for async mode. */ +#if defined(FSL_FEATURE_SEMC_HAS_SRAM_WDS_TIME) && (FSL_FEATURE_SEMC_HAS_SRAM_WDS_TIME) + uint8_t tWriteSetup_Ns; /*!<Write data setup time for sync mode. */ +#endif +#if defined(FSL_FEATURE_SEMC_HAS_SRAM_WDH_TIME) && (FSL_FEATURE_SEMC_HAS_SRAM_WDH_TIME) + uint8_t tWriteHold_Ns; /*!<Write hold time for sync mode. */ +#endif +#if defined(FSL_FEATURE_SEMC_HAS_SRAM_LC_TIME) && (FSL_FEATURE_SEMC_HAS_SRAM_LC_TIME) + uint8_t latencyCount; /*!<Latency count for sync mode. */ +#endif +#if defined(FSL_FEATURE_SEMC_HAS_SRAM_RD_TIME) && (FSL_FEATURE_SEMC_HAS_SRAM_RD_TIME) + uint8_t readCycle; /*!<Read cycle time for sync mode. */ +#endif +#if defined(FSL_FEATURE_SEMC_HAS_DELAY_CHAIN_CONTROL) && (FSL_FEATURE_SEMC_HAS_DELAY_CHAIN_CONTROL) + uint8_t delayChain; /*!< Delay chain, which adds delays on DQS clock to compensate timings while DQS is faster than + read data. */ +#endif /* FSL_FEATURE_SEMC_HAS_DELAY_CHAIN_CONTROL */ +} semc_sram_config_t; + +/*! @brief SEMC DBI configuration structure. */ +typedef struct _semc_dbi_config +{ + semc_iomux_pin csxPinMux; /*!< The CE# pin mux. */ + uint32_t address; /*!< The base address. */ + uint32_t memsize_kbytes; /*!< The memory size in unit of 4kbytes. */ + semc_dbi_column_bit_num_t columnAddrBitNum; /*!< Column address bit number. */ + sem_dbi_burst_len_t burstLen; /*!< Burst length. */ + smec_port_size_t portSize; /*!< Port size. */ + uint8_t tCsxSetup_Ns; /*!< The CSX setup time. */ + uint8_t tCsxHold_Ns; /*!< The CSX hold time. */ + uint8_t tWexLow_Ns; /*!< WEX low time. */ + uint8_t tWexHigh_Ns; /*!< WEX high time. */ + uint8_t tRdxLow_Ns; /*!< RDX low time. */ + uint8_t tRdxHigh_Ns; /*!< RDX high time. */ + uint8_t tCsxInterval_Ns; /*!< Write data setup time.*/ +} semc_dbi_config_t; + +/*! @brief SEMC AXI queue a weight setting structure. */ +typedef struct _semc_queuea_weight_struct +{ + uint32_t qos : 4; /*!< weight of qos for queue 0 . */ + uint32_t aging : 4; /*!< weight of aging for queue 0.*/ + uint32_t slaveHitSwith : 8; /*!< weight of read/write switch for queue 0.*/ + uint32_t slaveHitNoswitch : 8; /*!< weight of read/write no switch for queue 0 .*/ +} semc_queuea_weight_struct_t; + +/*! @brief SEMC AXI queue a weight setting union. */ +typedef union _semc_queuea_weight +{ + semc_queuea_weight_struct_t queueaConfig; /*!< Structure configuration for queueA. */ + uint32_t queueaValue; /*!< Configuration value for queueA which could directly write to the reg. */ +} semc_queuea_weight_t; + +/*! @brief SEMC AXI queue b weight setting structure. */ +typedef struct _semc_queueb_weight_struct +{ + uint32_t qos : 4; /*!< weight of qos for queue 1. */ + uint32_t aging : 4; /*!< weight of aging for queue 1.*/ + uint32_t slaveHitSwith : 8; /*!< weight of read/write switch for queue 1.*/ + uint32_t weightPagehit : 8; /*!< weight of page hit for queue 1 only .*/ + uint32_t bankRotation : 8; /*!< weight of bank rotation for queue 1 only .*/ +} semc_queueb_weight_struct_t; + +/*! @brief SEMC AXI queue b weight setting union. */ +typedef union _semc_queueb_weight +{ + semc_queueb_weight_struct_t queuebConfig; /*!< Structure configuration for queueB. */ + uint32_t queuebValue; /*!< Configuration value for queueB which could directly write to the reg. */ +} semc_queueb_weight_t; + +/*! @brief SEMC AXI queue weight setting. */ +typedef struct _semc_axi_queueweight +{ + bool queueaEnable; /*!< Enable queue a. */ + semc_queuea_weight_t queueaWeight; /*!< Weight settings for queue a. */ + bool queuebEnable; /*!< Enable queue b. */ + semc_queueb_weight_t queuebWeight; /*!< Weight settings for queue b. */ +} semc_axi_queueweight_t; + +/*! + * @brief SEMC configuration structure. + * + * busTimeoutCycles: when busTimeoutCycles is zero, the bus timeout cycle is + * 255*1024. otherwise the bus timeout cycles is busTimeoutCycles*1024. + * cmdTimeoutCycles: is used for command execution timeout cycles. it's + * similar to the busTimeoutCycles. + */ +typedef struct _semc_config_t +{ + semc_dqs_mode_t dqsMode; /*!< Dummy read strobe mode: use enum in "semc_dqs_mode_t". */ + uint8_t cmdTimeoutCycles; /*!< Command execution timeout cycles. */ + uint8_t busTimeoutCycles; /*!< Bus timeout cycles. */ + semc_axi_queueweight_t queueWeight; /*!< AXI queue weight. */ +} semc_config_t; + +/******************************************************************************* + * API + ******************************************************************************/ + +#if defined(__cplusplus) +extern "C" { +#endif + +/*! + * @name SEMC Initialization and De-initialization + * @{ + */ + +/*! + * @brief Gets the SEMC default basic configuration structure. + * + * The purpose of this API is to get the default SEMC + * configure structure for SEMC_Init(). User may use the initialized + * structure unchanged in SEMC_Init(), or modify some fields of the + * structure before calling SEMC_Init(). + * Example: + @code + semc_config_t config; + SEMC_GetDefaultConfig(&config); + @endcode + * @param config The SEMC configuration structure pointer. + */ +void SEMC_GetDefaultConfig(semc_config_t *config); + +/*! + * @brief Initializes SEMC. + * This function ungates the SEMC clock and initializes SEMC. + * This function must be called before calling any other SEMC driver functions. + * + * @param base SEMC peripheral base address. + * @param configure The SEMC configuration structure pointer. + */ +void SEMC_Init(SEMC_Type *base, semc_config_t *configure); + +/*! + * @brief Deinitializes the SEMC module and gates the clock. + * + * This function gates the SEMC clock. As a result, the SEMC module doesn't work after + * calling this function, for some IDE, calling this API may cause the next downloading + * operation failed. so, please call this API cautiously. Additional, users can + * using "#define FSL_SDK_DISABLE_DRIVER_CLOCK_CONTROL (1)" to disable the clock control + * operation in drivers. + * + * @param base SEMC peripheral base address. + */ +void SEMC_Deinit(SEMC_Type *base); + +/* @} */ + +/*! + * @name SEMC Configuration Operation For Each Memory Type + * @{ + */ + +/*! + * @brief Configures SDRAM controller in SEMC. + * + * @param base SEMC peripheral base address. + * @param cs The chip selection. + * @param config The sdram configuration. + * @param clkSrc_Hz The SEMC clock frequency. + */ +status_t SEMC_ConfigureSDRAM(SEMC_Type *base, semc_sdram_cs_t cs, semc_sdram_config_t *config, uint32_t clkSrc_Hz); + +/*! + * @brief Configures NAND controller in SEMC. + * + * @param base SEMC peripheral base address. + * @param config The nand configuration. + * @param clkSrc_Hz The SEMC clock frequency. + */ +status_t SEMC_ConfigureNAND(SEMC_Type *base, semc_nand_config_t *config, uint32_t clkSrc_Hz); + +/*! + * @brief Configures NOR controller in SEMC. + * + * @param base SEMC peripheral base address. + * @param config The nor configuration. + * @param clkSrc_Hz The SEMC clock frequency. + */ +status_t SEMC_ConfigureNOR(SEMC_Type *base, semc_nor_config_t *config, uint32_t clkSrc_Hz); + +/*! + * @brief Configures SRAM controller in SEMC. + * + * @param base SEMC peripheral base address. + * @param cs The chip selection. + * @param config The sram configuration. + * @param clkSrc_Hz The SEMC clock frequency. + */ +status_t SEMC_ConfigureSRAMWithChipSelection(SEMC_Type *base, + semc_sram_cs_t cs, + semc_sram_config_t *config, + uint32_t clkSrc_Hz); + +/*! + * @brief Configures SRAM controller in SEMC. + * @deprecated Do not use this function. It has been superceded by @ref SEMC_ConfigureSRAMWithChipSelection. + * @param base SEMC peripheral base address. + * @param config The sram configuration. + * @param clkSrc_Hz The SEMC clock frequency. + */ +status_t SEMC_ConfigureSRAM(SEMC_Type *base, semc_sram_config_t *config, uint32_t clkSrc_Hz); + +/*! + * @brief Configures DBI controller in SEMC. + * + * @param base SEMC peripheral base address. + * @param config The dbi configuration. + * @param clkSrc_Hz The SEMC clock frequency. + */ +status_t SEMC_ConfigureDBI(SEMC_Type *base, semc_dbi_config_t *config, uint32_t clkSrc_Hz); + +/* @} */ + +/*! + * @name SEMC Interrupt Operation + * @{ + */ + +/*! + * @brief Enables the SEMC interrupt. + * + * This function enables the SEMC interrupts according to the provided mask. The mask + * is a logical OR of enumeration members. See @ref semc_interrupt_enable_t. + * For example, to enable the IP command done and error interrupt, do the following. + * @code + * SEMC_EnableInterrupts(ENET, kSEMC_IPCmdDoneInterrupt | kSEMC_IPCmdErrInterrupt); + * @endcode + * + * @param base SEMC peripheral base address. + * @param mask SEMC interrupts to enable. This is a logical OR of the + * enumeration :: semc_interrupt_enable_t. + */ +static inline void SEMC_EnableInterrupts(SEMC_Type *base, uint32_t mask) +{ + base->INTEN |= mask; +} + +/*! + * @brief Disables the SEMC interrupt. + * + * This function disables the SEMC interrupts according to the provided mask. The mask + * is a logical OR of enumeration members. See @ref semc_interrupt_enable_t. + * For example, to disable the IP command done and error interrupt, do the following. + * @code + * SEMC_DisableInterrupts(ENET, kSEMC_IPCmdDoneInterrupt | kSEMC_IPCmdErrInterrupt); + * @endcode + * + * @param base SEMC peripheral base address. + * @param mask SEMC interrupts to disable. This is a logical OR of the + * enumeration :: semc_interrupt_enable_t. + */ +static inline void SEMC_DisableInterrupts(SEMC_Type *base, uint32_t mask) +{ + base->INTEN &= ~mask; +} + +/*! + * @brief Gets the SEMC status. + * + * This function gets the SEMC interrupts event status. + * User can use the a logical OR of enumeration member as a mask. + * See @ref semc_interrupt_enable_t. + * + * @param base SEMC peripheral base address. + * @return status flag, use status flag in semc_interrupt_enable_t to get the related status. + */ +static inline bool SEMC_GetStatusFlag(SEMC_Type *base) +{ + return (base->INTR != 0x00U) ? true : false; +} + +/*! + * @brief Clears the SEMC status flag state. + * + * The following status register flags can be cleared SEMC interrupt status. + * + * @param base SEMC base pointer + * @param mask The status flag mask, a logical OR of enumeration member @ref semc_interrupt_enable_t. + */ +static inline void SEMC_ClearStatusFlags(SEMC_Type *base, uint32_t mask) +{ + base->INTR |= mask; +} + +/* @} */ + +/*! + * @name SEMC Memory Access Operation + * @{ + */ + +/*! + * @brief Check if SEMC is in idle. + * + * @param base SEMC peripheral base address. + * @return True SEMC is in idle, false is not in idle. + */ +static inline bool SEMC_IsInIdle(SEMC_Type *base) +{ + return ((base->STS0 & SEMC_STS0_IDLE_MASK) != 0x00U) ? true : false; +} + +/*! + * @brief SEMC IP command access. + * + * @param base SEMC peripheral base address. + * @param memType SEMC memory type. refer to "semc_mem_type_t" + * @param address SEMC device address. + * @param command SEMC IP command. + * For NAND device, we should use the SEMC_BuildNandIPCommand to get the right nand command. + * For NOR/DBI device, take refer to "semc_ipcmd_nor_dbi_t". + * For SRAM device, take refer to "semc_ipcmd_sram_t". + * For SDRAM device, take refer to "semc_ipcmd_sdram_t". + * @param write Data for write access. + * @param read Data pointer for read data out. + */ +status_t SEMC_SendIPCommand( + SEMC_Type *base, semc_mem_type_t memType, uint32_t address, uint32_t command, uint32_t write, uint32_t *read); + +/*! + * @brief Build SEMC IP command for NAND. + * + * This function build SEMC NAND IP command. The command is build of user command code, + * SEMC address mode and SEMC command mode. + * + * @param userCommand NAND device normal command. + * @param addrMode NAND address mode. Refer to "semc_ipcmd_nand_addrmode_t". + * @param cmdMode NAND command mode. Refer to "semc_ipcmd_nand_cmdmode_t". + */ +static inline uint16_t SEMC_BuildNandIPCommand(uint8_t userCommand, + semc_ipcmd_nand_addrmode_t addrMode, + semc_ipcmd_nand_cmdmode_t cmdMode) +{ + return ((uint16_t)userCommand << 8U) | ((uint16_t)addrMode << 4U) | ((uint16_t)cmdMode & 0x000FU); +} + +/*! + * @brief Check if the NAND device is ready. + * + * @param base SEMC peripheral base address. + * @return True NAND is ready, false NAND is not ready. + */ +static inline bool SEMC_IsNandReady(SEMC_Type *base) +{ + return ((base->STS0 & SEMC_STS0_NARDY_MASK) != 0x00U) ? true : false; +} + +/*! + * @brief SEMC NAND device memory write through IP command. + * + * @param base SEMC peripheral base address. + * @param address SEMC NAND device address. + * @param data Data for write access. + * @param size_bytes Data length. + */ +status_t SEMC_IPCommandNandWrite(SEMC_Type *base, uint32_t address, uint8_t *data, uint32_t size_bytes); + +/*! + * @brief SEMC NAND device memory read through IP command. + * + * @param base SEMC peripheral base address. + * @param address SEMC NAND device address. + * @param data Data pointer for data read out. + * @param size_bytes Data length. + */ +status_t SEMC_IPCommandNandRead(SEMC_Type *base, uint32_t address, uint8_t *data, uint32_t size_bytes); + +/*! + * @brief SEMC NOR device memory write through IP command. + * + * @param base SEMC peripheral base address. + * @param address SEMC NOR device address. + * @param data Data for write access. + * @param size_bytes Data length. + */ +status_t SEMC_IPCommandNorWrite(SEMC_Type *base, uint32_t address, uint8_t *data, uint32_t size_bytes); + +/*! + * @brief SEMC NOR device memory read through IP command. + * + * @param base SEMC peripheral base address. + * @param address SEMC NOR device address. + * @param data Data pointer for data read out. + * @param size_bytes Data length. + */ +status_t SEMC_IPCommandNorRead(SEMC_Type *base, uint32_t address, uint8_t *data, uint32_t size_bytes); + +/* @} */ + +#if defined(__cplusplus) +} +#endif + +/*! @}*/ + +#endif /* _FSL_SEMC_H_*/ |