/** ****************************************************************************** * @file dct.h * @author * @version * @brief Device Configuration Table API for storing information in NVRAM(flash). ****************************************************************************** * @attention * * This module is a confidential and proprietary property of RealTek and possession or use of this module requires written permission of RealTek. * * Copyright(c) 2016, Realtek Semiconductor Corporation. All rights reserved. ****************************************************************************** */ #ifndef __RTK_DCT_H__ #define __RTK_DCT_H__ #include #include /** * @defgroup dct dct * @brief device configuration table API. * * DCT module have below functions * - dct init, deinit * - dct module register, unregister, open, close * - dct variable set, get ,delete * @{ */ /** * @brief DCT error number. */ enum{ DCT_SUCCESS = 0, /*!< success */ DCT_ERROR = -1, /*!< error */ DCT_ERR_CRC = -2, /*!< crc error */ DCT_ERR_NO_SPACE = -3, /*!< no space error */ DCT_ERR_NO_MEMORY = -4, /*!< alloc memory error */ DCT_ERR_FLASH_RW = -5, /*!< flash r/w error */ DCT_ERR_NOT_FIND = -6, /*!< not find error */ DCT_ERR_INVALID = -7, /*!< invalid operation error */ DCT_ERR_SIZE_OVER = -8, /*!< varialbe length over max size error */ DCT_ERR_MODULE_BUSY = -9, /*!< module mutex time out */ }; /** * @brief The structure is the module handler for DCT operation. */ #define MODULE_NAME_SIZE 32 /*!< max size of the module name */ typedef struct _dct_handle_t{ uint32_t module_state; /*!< the module state */ uint8_t module_name[MODULE_NAME_SIZE+1]; /*!< the module name */ uint8_t module_idx; /*!< the module index */ uint16_t used_variable_num; /*!< the number of variable had used */ uint32_t variable_crc; /*!< the crc of all variables */ uint8_t cache_dirty; /*!< the dirty flag of cache */ uint8_t *variable_cache; /*!< the buffer point of variable cache*/ }dct_handle_t; /** * @brief Format device configuration table. * @param[in] begin_address : DCT begin address of flash * @param[in] module_number : total module number * @param[in] variable_name_size : size of variable name * @param[in] variable_value_size : size of variable size * @param[in] enable_backup : enable backup function to backup module, it need double module size * @return 0 : SUCCESS * @return <0 : ERROR */ int32_t dct_format(uint32_t begin_address, uint16_t module_number, uint16_t variable_name_size, uint16_t variable_value_size, uint8_t enable_backup); /** * @brief Initialize device configuration table. * @param[in] begin_address : DCT begin address of flash * @return 0 : SUCCESS * @return <0 : ERROR */ int32_t dct_init(uint32_t begin_address); /** * @brief Deinitialize device configuration table. */ void dct_deinit(void); /** * @brief Register module in DCT. * @param[in] module_name : module name * @return 0 : SUCCESS * @return <0 : ERROR */ int32_t dct_register_module(char *module_name); /** * @brief Unregister and delete module in DCT. * @param[in] module_name : module name * @return 0 : SUCCESS * @return <0 : ERROR */ int32_t dct_unregister_module(char *module_name); /** * @brief Open module in DCT. * @param[out] dct_handle : setup module informations in dct handler * @param[in] module_name : module name * @return 0 : SUCCESS * @return <0 : ERROR */ int32_t dct_open_module(dct_handle_t *dct_handle, char *module_name); /** * @brief Close module in DCT. * @param[in] dct_handle : dct handler * @return 0 : SUCCESS * @return <0 : ERROR */ int32_t dct_close_module(dct_handle_t *dct_handle); /** * @brief Write variable name and value in opened module. * @param[in] dct_handle : dct handler * @param[in] variable_name : variable name which you want to store in module * @param[in] variable_value : variable value which you want to store in module * @return 0 : SUCCESS * @return <0 : ERROR */ int32_t dct_set_variable(dct_handle_t *dct_handle, char *variable_name, char *variable_value); /** * @brief read value of variable name in opened module. * @param[in] dct_handle : dct handler * @param[in] variable_name : variable name which you want to get from module * @param[out] buffer : read variable value * @param[in] buffer_size : the buffer size * @return 0 : SUCCESS * @return <0 : ERROR */ int32_t dct_get_variable(dct_handle_t *dct_handle, char *variable_name, char *buffer, uint16_t buffer_size); /** * @brief delete variable name and value in opened module. * @param[in] dct_handle : dct handler * @param[in] variable_name : variable name which you want to delete in module * @return 0 : SUCCESS * @return <0 : ERROR */ int32_t dct_delete_variable(dct_handle_t *dct_handle, char *variable_name); /** * @brief Remaining variable amount in opened module. * @param[in] dct_handle : dct handler * @return integer : Remaining variable amount * @return <0 : ERROR */ int32_t dct_remain_variable(dct_handle_t *dct_handle); /*\@}*/ #endif // #ifndef __RTK_DCT_H__