/* * Copyright (c) 2015, Freescale Semiconductor, Inc. * Copyright 2016-2020 NXP * All rights reserved. * * SPDX-License-Identifier: BSD-3-Clause */ #ifndef _FSL_EEPROM_H_ #define _FSL_EEPROM_H_ #include "fsl_common.h" #include "fsl_power.h" /*! * @addtogroup eeprom * @{ */ /******************************************************************************* * Definitions ******************************************************************************/ /*! @name Driver version */ /*@{*/ /*! @brief EEPROM driver version 2.1.3. */ #define FSL_EEPROM_DRIVER_VERSION (MAKE_VERSION(2, 1, 3)) /*@}*/ /*! @brief EEPROM automatic program option */ typedef enum _eeprom_auto_program { kEEPROM_AutoProgramDisable = 0x0, /*!< Disable auto program */ kEEPROM_AutoProgramWriteWord = 0x1, /*!< Auto program triggered after 1 word is written */ kEEPROM_AutoProgramLastWord = 0x2 /*!< Auto program triggered after last word of a page written */ } eeprom_auto_program_t; /*! @brief EEPROM interrupt source */ typedef enum _eeprom_interrupt_enable { kEEPROM_ProgramFinishInterruptEnable = EEPROM_INTENSET_PROG_SET_EN_MASK, /*!< Interrupt while program finished */ } eeprom_interrupt_enable_t; /*! * @brief EEPROM region configuration structure. */ typedef struct _eeprom_config { eeprom_auto_program_t autoProgram; /*!< Automatic program feature. */ uint8_t readWaitPhase1; /*!< EEPROM read waiting phase 1 */ uint8_t readWaitPhase2; /*!< EEPROM read waiting phase 2 */ uint8_t writeWaitPhase1; /*!< EEPROM write waiting phase 1 */ uint8_t writeWaitPhase2; /*!< EEPROM write waiting phase 2 */ uint8_t writeWaitPhase3; /*!< EEPROM write waiting phase 3 */ bool lockTimingParam; /*!< If lock the read and write wait phase settings */ } eeprom_config_t; /******************************************************************************* * API ******************************************************************************/ #if defined(__cplusplus) extern "C" { #endif /* _cplusplus */ /*! * @name Initialization and deinitialization * @{ */ /*! * @brief Initializes the EEPROM with the user configuration structure. * * This function configures the EEPROM module with the user-defined configuration. This function also sets the * internal clock frequency to about 155kHz according to the source clock frequency. * * @param base EEPROM peripheral base address. * @param config The pointer to the configuration structure. * @param sourceClock_Hz EEPROM source clock frequency in Hz. */ void EEPROM_Init(EEPROM_Type *base, const eeprom_config_t *config, uint32_t sourceClock_Hz); /*! * @brief Get EEPROM default configure settings. * * @param config EEPROM config structure pointer. */ void EEPROM_GetDefaultConfig(eeprom_config_t *config); /*! * @brief Deinitializes the EEPROM regions. * * @param base EEPROM peripheral base address. */ void EEPROM_Deinit(EEPROM_Type *base); /* @}*/ /*! * @name Basic Control Operations * @{ */ /*! * @brief Set EEPROM automatic program feature. * * EEPROM write always needs a program and erase cycle to write the data into EEPROM. This program and erase cycle can * be finished automaticlly or manually. If users want to use or disable auto program feature, users can call this API. * * @param base EEPROM peripheral base address. * @param autoProgram EEPROM auto program feature need to set. */ static inline void EEPROM_SetAutoProgram(EEPROM_Type *base, eeprom_auto_program_t autoProgram) { base->AUTOPROG = (uint32_t)autoProgram; } /*! * @brief Set EEPROM to in/out power down mode. * * This function make EEPROM eneter or out of power mode. Notice that, users shall not put EEPROM into power down mode * while there is still any pending EEPROM operation. While EEPROM is wakes up from power down mode, any EEPROM * operation has to be suspended for 100 us. * * @param base EEPROM peripheral base address. * @param enable True means enter to power down mode, false means wake up. */ static inline void EEPROM_SetPowerDownMode(EEPROM_Type *base, bool enable) { base->PWRDWN = (uint32_t)enable; } /*! * @brief Enable EEPROM interrupt. * * @param base EEPROM peripheral base address. * @param mask EEPROM interrupt enable mask. It is a logic OR of members the * enumeration :: eeprom_interrupt_enable_t */ static inline void EEPROM_EnableInterrupt(EEPROM_Type *base, uint32_t mask) { base->INTENSET = mask; } /*! * @brief Disable EEPROM interrupt. * * @param base EEPROM peripheral base address. * @param mask EEPROM interrupt enable mask. It is a logic OR of members the * enumeration :: eeprom_interrupt_enable_t */ static inline void EEPROM_DisableInterrupt(EEPROM_Type *base, uint32_t mask) { base->INTENCLR = mask; } /*! * @brief Get the status of all interrupt flags for ERPROM. * * @param base EEPROM peripheral base address. * @return EEPROM interrupt flag status */ static inline uint32_t EEPROM_GetInterruptStatus(EEPROM_Type *base) { return base->INTSTAT; } /*! * @brief Clear interrupt flags manually. * * This API clears interrupt flags manually. Call this API will clear the corresponding bit in INSTAT register. * * @param base EEPROM peripheral base address. * @param mask EEPROM interrupt flag need to be cleared. It is a logic OR of members of * enumeration:: eeprom_interrupt_enable_t */ static inline void EEPROM_ClearInterruptFlag(EEPROM_Type *base, uint32_t mask) { base->INTSTATCLR = mask; } /*! * @brief Get the status of enabled interrupt flags for ERPROM. * * @param base EEPROM peripheral base address. * @return EEPROM enabled interrupt flag status */ static inline uint32_t EEPROM_GetEnabledInterruptStatus(EEPROM_Type *base) { return base->INTEN; } /*! * @brief Set interrupt flags manually. * * This API trigger a interrupt manually, users can no need to wait for hardware trigger interrupt. Call this API will * set the corresponding bit in INSTAT register. * * @param base EEPROM peripheral base address. * @param mask EEPROM interrupt flag need to be set. It is a logic OR of members of * enumeration:: eeprom_interrupt_enable_t */ static inline void EEPROM_SetInterruptFlag(EEPROM_Type *base, uint32_t mask) { base->INTSTATSET = mask; } /*! * @brief Write a word data in address of EEPROM. * * Users can write a page or at least a word data into EEPROM address. * * @param base EEPROM peripheral base address. * @param offset Offset from the begining address of EEPROM. This value shall be 4-byte aligned. * @param data Data need be write. */ status_t EEPROM_WriteWord(EEPROM_Type *base, uint32_t offset, uint32_t data); /*! * @brief Write data from a user allocated buffer in address of EEPROM. * * Users can write any bytes data into EEPROM address by wBuf. * * @param base EEPROM peripheral base address. * @param offset Offset from the begining address of EEPROM. * @param wBuf Data need be write. * @param size Number of bytes to write. */ void EEPROM_Write(EEPROM_Type *base, uint32_t offset, void *wBuf, uint32_t size); /*! * @name Data Check Operations * @{ */ #if !(defined(FSL_FEATURE_EEPROM_PAGE_COUNT) && FSL_FEATURE_EEPROM_PAGE_COUNT) /*! * @brief read eeprom device status manually. * * This API read eeprom device status manually. Call this API will read the corresponding bit in STATUS register. * * @param base EEPROM peripheral base address. */ static inline uint32_t EEPROM_GetDeviceStatus(EEPROM_Type *base) { return base->STATUS; } /*! * @brief read ecc error count manually. * * This API read ecc error count manually. Call this API will read the corresponding bit in ECCERRCNT register. * * @param base EEPROM peripheral base address. */ static inline uint32_t EEPROM_GetEccErrorCount(EEPROM_Type *base) { return base->ECCERRCNT; } /*! * @brief set ecc error count manually. * * This API set ecc error count manually. Call this API will set the corresponding bit in ECCERRCNT register. * * @param base EEPROM peripheral base address. * @param mask The mask of ecc error status. */ static inline void EEPROM_SetEccErrorCount(EEPROM_Type *base, uint32_t mask) { base->ECCERRCNT = mask; } /*! * @brief set checksum start address manually. * * This API set checksum start address manually. Call this API will set the corresponding bit in MSSTART register. * * @param base EEPROM peripheral base address. * @param mask The mask of checksum start address. */ static inline void EEPROM_SetCheckStartAddress(EEPROM_Type *base, uint32_t mask) { base->MSSTART = mask; } /*! * @brief set checksum stop address manually. * * This API set checksum stop address manually. Call this API will set the corresponding bit in MSSTOP register. * * @param base EEPROM peripheral base address. * @param mask The mask of checksum stop address. */ static inline void EEPROM_SetCheckStopAddress(EEPROM_Type *base, uint32_t mask) { base->MSSTOP = mask; } /*! * @brief read data signature manually. * * This API read data signature manually. Call this API will clear the corresponding bit in MSDATASIG register. * * @param base EEPROM peripheral base address.sss * */ static inline uint32_t EEPROM_GetDataSignature(EEPROM_Type *base) { return base->MSDATASIG; } /*! * @brief read parity signature manually. * * This API read parity signature manually. Call this API will clear the corresponding bit in MSPARSIG register. * * @param base EEPROM peripheral base address. */ static inline uint32_t EEPROM_GetParitySignature(EEPROM_Type *base) { return base->MSPARSIG; } /*! * @brief Write a row data into EEPROM. * * Users can write a row or at least a word data into EEPROM address. * * @param base EEPROM peripheral base address. * @param rowNum Row number to be written. * @param data Data need be write. This array data size shall equals to the row size. */ status_t EEPROM_WriteRow(EEPROM_Type *base, uint32_t rowNum, uint32_t *data); /*! * @brief Write a page data into EEPROM. * * Users can write a page or at least a word data into EEPROM address. * * @param base EEPROM peripheral base address. * @param pageNum Page number to be written. * @param data Data need be write. This array data size shall equals to the page size. */ #else status_t EEPROM_WritePage(EEPROM_Type *base, uint32_t pageNum, uint32_t *data); #endif /* FSL_FEATURE_EEPROM_PAGE_COUNT */ /* @} */ #if defined(__cplusplus) } #endif /*! @}*/ #endif /*_FSL_EEPROM_H_*/