/* * Part of esp-open-rtos * Copyright (C) 2016 Alex Stewart * BSD Licensed as described in the file LICENSE */ #ifndef _SYSPARAM_H_ #define _SYSPARAM_H_ #include #ifndef DEFAULT_SYSPARAM_SECTORS #define DEFAULT_SYSPARAM_SECTORS 4 #endif /** @file sysparam.h * * Read/write "system parameters" to persistent flash. * * System parameters are stored as key/value pairs. Keys are string values * between 1 and 65535 characters long. Values can be any data up to 65535 * bytes in length (but are most commonly also text strings). Up to 126 key/ * value pairs can be stored at a time. * * Keys and values are stored in flash using a progressive list structure * which allows space-efficient storage and minimizes flash erase cycles, * improving write speed and increasing the lifespan of the flash memory. */ /** Status codes returned by all sysparam functions * * Error codes (`SYSPARAM_ERR_*`) all have values less than zero, and can be * returned by any function. Values greater than zero are non-error status * codes which may be returned by some functions to indicate various results. */ typedef enum { SYSPARAM_OK = 0, ///< Success SYSPARAM_NOTFOUND = 1, ///< Entry not found matching criteria SYSPARAM_PARSEFAILED = 2, ///< Unable to parse retrieved value SYSPARAM_ERR_NOINIT = -1, ///< sysparam_init() must be called first SYSPARAM_ERR_BADVALUE = -2, ///< One or more arguments were invalid SYSPARAM_ERR_FULL = -3, ///< No space left in sysparam area (or too many keys in use) SYSPARAM_ERR_IO = -4, ///< I/O error reading/writing flash SYSPARAM_ERR_CORRUPT = -5, ///< Sysparam region has bad/corrupted data SYSPARAM_ERR_NOMEM = -6, ///< Unable to allocate memory } sysparam_status_t; /** Structure used by sysparam_iter_next() to keep track of its current state * and return its results. This should be initialized by calling * sysparam_iter_start() and cleaned up afterward by calling * sysparam_iter_end(). */ typedef struct { char *key; uint8_t *value; size_t key_len; size_t value_len; bool binary; size_t bufsize; struct sysparam_context *ctx; } sysparam_iter_t; /** Initialize sysparam and set up the current area of flash to use. * * This must be called (and return successfully) before any other sysparam * routines (except sysparam_create_area()) are called. * * This should normally be taken care of automatically on boot by the OS * startup routines. It may be necessary to call it specially, however, if * the normal initialization failed, or after calling sysparam_create_area() * to reformat the current area. * * This routine will start at `base_addr` and scan all sectors up to * `top_addr` looking for a valid sysparam area. If `top_addr` is zero (or * equal to `base_addr`, then only the sector at `base_addr` will be checked. * * @param[in] base_addr The flash address to start looking for the start of * the (already present) sysparam area * @param[in] top_addr The flash address to stop looking for the sysparam * area * * @retval ::SYSPARAM_OK Initialization successful. * @retval ::SYSPARAM_NOTFOUND The specified address does not appear to * contain a sysparam area. It may be * necessary to call sysparam_create_area() to * create one first. * @retval ::SYSPARAM_ERR_CORRUPT Sysparam region has bad/corrupted data * @retval ::SYSPARAM_ERR_IO I/O error reading/writing flash */ sysparam_status_t sysparam_init(uint32_t base_addr, uint32_t top_addr); /** Create a new sysparam area in flash at the specified address. * * By default, this routine will scan the specified area to make sure it * appears to be empty (i.e. all 0xFF bytes) before setting it up as a new * sysparam area. If there appears to be other data already present, it will * not overwrite it. Setting `force` to `true` will cause it to clobber any * existing data instead. * * @param[in] base_addr The flash address at which it should start * (must be a multiple of the sector size) * @param[in] num_sectors The number of flash sectors to use for the sysparam * area. This should be an even number >= 2. Note * that the actual amount of useable parameter space * will be roughly half this amount. * @param[in] force Proceed even if the space does not appear to be empty * * @retval ::SYSPARAM_OK Area (re)created successfully. * @retval ::SYSPARAM_NOTFOUND `force` was not specified, and the area at * `base_addr` appears to have other data. No * action taken. * @retval ::SYSPARAM_ERR_BADVALUE The `num_sectors` value was not even (or * was zero) * @retval ::SYSPARAM_ERR_IO I/O error reading/writing flash * * Note: This routine can create a sysparam area in another location than the * one currently being used, but does not change which area is currently used * (you will need to call sysparam_init() again if you want to do that). If * you reformat the area currently being used, you will also need to call * sysparam_init() again afterward before you will be able to continue using * it. */ sysparam_status_t sysparam_create_area(uint32_t base_addr, uint16_t num_sectors, bool force); /** Get the start address and size of the currently active sysparam area * * Fills in `base_addr` and `num_sectors` with the location and size of the * currently active sysparam area. The returned values correspond to the * arguments passed to the sysparam_create_area() call when the area was * originally created. * * @param[out] base_addr The flash address at which the sysparam area starts * @param[out] num_sectors The number of flash sectors used by the sysparam * area * * @retval ::SYSPARAM_OK Completed successfully * @retval ::SYSPARAM_ERR_NOINIT No current sysparam area is active */ sysparam_status_t sysparam_get_info(uint32_t *base_addr, uint32_t *num_sectors); /** Compact the sysparam area. * * This also flattens the log. * * @retval ::SYSPARAM_OK Completed successfully * @retval ::SYSPARAM_ERR_NOINIT No current sysparam area is active * @retval ::SYSPARAM_ERR_CORRUPT Sysparam region has bad/corrupted data * @retval ::SYSPARAM_ERR_IO I/O error reading/writing flash */ sysparam_status_t sysparam_compact(); /** Get the value associated with a key * * This is the core "get value" function. It will retrieve the value for the * specified key in a freshly malloc()'d buffer and return it. Raw values can * contain any data (including zero bytes), so the `actual_length` parameter * should be used to determine the length of the data in the buffer. * * It is up to the caller to free() the returned buffer when done using it. * * Note: If the status result is anything other than ::SYSPARAM_OK, the value * in `destptr` is not changed. This means it is possible to set a default * value before calling this function which will be left as-is if a sysparam * value could not be successfully read. * * @param[in] key Key name (zero-terminated string) * @param[out] destptr Pointer to a location to hold the address of the * returned data buffer * @param[out] actual_length Pointer to a location to hold the length of the * returned data buffer (may be NULL) * @param[out] is_binary Pointer to a bool to hold whether the returned * value is "binary" or not (may be NULL) * * @retval ::SYSPARAM_OK Value successfully retrieved. * @retval ::SYSPARAM_NOTFOUND Key/value not found. No buffer returned. * @retval ::SYSPARAM_ERR_NOINIT sysparam_init() must be called first * @retval ::SYSPARAM_ERR_NOMEM Unable to allocate memory * @retval ::SYSPARAM_ERR_CORRUPT Sysparam region has bad/corrupted data * @retval ::SYSPARAM_ERR_IO I/O error reading/writing flash */ sysparam_status_t sysparam_get_data(const char *key, uint8_t **destptr, size_t *actual_length, bool *is_binary); /** Get the value associated with a key (static value buffer) * * This performs the same function as sysparam_get_data() but without * allocating memory for the result value. It can thus be used before the heap * has been configured or in other cases where using the heap would be a * problem (i.e. in an OOM handler, etc). It requires that the caller pass in * a suitably sized buffer for the value to be read (if the supplied buffer is * not large enough, the returned value will be truncated and the full required * length will be returned in `actual_length`). * * @param[in] key Key name (zero-terminated string) * @param[in] dest Pointer to a buffer to hold the returned value. * @param[in] dest_size Length of the supplied buffer in bytes. * @param[out] actual_length Pointer to a location to hold the actual length * of the data which was associated with the key * (may be NULL). * @param[out] is_binary Pointer to a bool to hold whether the returned * value is "binary" or not (may be NULL) * * @retval ::SYSPARAM_OK Value successfully retrieved * @retval ::SYSPARAM_NOTFOUND Key/value not found * @retval ::SYSPARAM_ERR_NOINIT sysparam_init() must be called first * @retval ::SYSPARAM_ERR_NOMEM The supplied buffer is too small * @retval ::SYSPARAM_ERR_CORRUPT Sysparam region has bad/corrupted data * @retval ::SYSPARAM_ERR_IO I/O error reading/writing flash */ sysparam_status_t sysparam_get_data_static(const char *key, uint8_t *dest, size_t dest_size, size_t *actual_length, bool *is_binary); /** Get the string value associated with a key * * This routine can be used if you know that the value in a key will (or at * least should) be a string. It will return a zero-terminated char buffer * containing the value retrieved. * * It is up to the caller to free() the returned buffer when done using it. * * Note: If the status result is anything other than ::SYSPARAM_OK, the value * in `destptr` is not changed. This means it is possible to set a default * value before calling this function which will be left as-is if a sysparam * value could not be successfully read. * * @param[in] key Key name (zero-terminated string) * @param[out] destptr Pointer to a location to hold the address of the * returned data buffer * * @retval ::SYSPARAM_OK Value successfully retrieved. * @retval ::SYSPARAM_NOTFOUND Key/value not found. * @retval ::SYSPARAM_PARSEFAILED The retrieved value was a binary value * @retval ::SYSPARAM_ERR_NOINIT sysparam_init() must be called first * @retval ::SYSPARAM_ERR_NOMEM Unable to allocate memory * @retval ::SYSPARAM_ERR_CORRUPT Sysparam region has bad/corrupted data * @retval ::SYSPARAM_ERR_IO I/O error reading/writing flash */ sysparam_status_t sysparam_get_string(const char *key, char **destptr); /** Get the int32_t value associated with a key * * This routine can be used if you know that the value in a key will (or at * least should) be an int32_t value. This is done without allocating any * memory. * * Note: If the status result is anything other than ::SYSPARAM_OK, the value * in `result` is not changed. This means it is possible to set a default * value before calling this function which will be left as-is if a sysparam * value could not be successfully read. * * @param[in] key Key name (zero-terminated string) * @param[out] result Pointer to a location to hold returned integer value * * @retval ::SYSPARAM_OK Value successfully retrieved. * @retval ::SYSPARAM_NOTFOUND Key/value not found. * @retval ::SYSPARAM_PARSEFAILED The retrieved value could not be parsed as * an integer. * @retval ::SYSPARAM_ERR_NOINIT sysparam_init() must be called first * @retval ::SYSPARAM_ERR_NOMEM Unable to allocate memory * @retval ::SYSPARAM_ERR_CORRUPT Sysparam region has bad/corrupted data * @retval ::SYSPARAM_ERR_IO I/O error reading/writing flash */ sysparam_status_t sysparam_get_int32(const char *key, int32_t *result); /** Get the int8_t value associated with a key * * This routine can be used if you know that the value in a key will (or at * least should) be a uint8_t binary value. This is done without allocating any * memory. * * Note: If the status result is anything other than ::SYSPARAM_OK, the value * in `result` is not changed. This means it is possible to set a default * value before calling this function which will be left as-is if a sysparam * value could not be successfully read. * * @param[in] key Key name (zero-terminated string) * @param[out] result Pointer to a location to hold returned boolean value * * @retval ::SYSPARAM_OK Value successfully retrieved. * @retval ::SYSPARAM_NOTFOUND Key/value not found. * @retval ::SYSPARAM_PARSEFAILED The retrieved value could not be parsed as a * boolean setting. * @retval ::SYSPARAM_ERR_NOINIT sysparam_init() must be called first * @retval ::SYSPARAM_ERR_NOMEM Unable to allocate memory * @retval ::SYSPARAM_ERR_CORRUPT Sysparam region has bad/corrupted data * @retval ::SYSPARAM_ERR_IO I/O error reading/writing flash */ sysparam_status_t sysparam_get_int8(const char *key, int8_t *result); /** Get the boolean value associated with a key * * This routine can be used if you know that the value in a key will (or at * least should) be a boolean setting. It will read the specified value as a * text string and attempt to parse it as a boolean value. * * It will recognize the following (case-insensitive) strings: * * True: "yes", "y", "true", "t", "1" * * False: "no", "n", "false", "f", "0" * * Note: If the status result is anything other than ::SYSPARAM_OK, the value * in `result` is not changed. This means it is possible to set a default * value before calling this function which will be left as-is if a sysparam * value could not be successfully read. * * @param[in] key Key name (zero-terminated string) * @param[out] result Pointer to a location to hold returned boolean value * * @retval ::SYSPARAM_OK Value successfully retrieved. * @retval ::SYSPARAM_NOTFOUND Key/value not found. * @retval ::SYSPARAM_PARSEFAILED The retrieved value could not be parsed as a * boolean setting. * @retval ::SYSPARAM_ERR_NOINIT sysparam_init() must be called first * @retval ::SYSPARAM_ERR_NOMEM Unable to allocate memory * @retval ::SYSPARAM_ERR_CORRUPT Sysparam region has bad/corrupted data * @retval ::SYSPARAM_ERR_IO I/O error reading/writing flash */ sysparam_status_t sysparam_get_bool(const char *key, bool *result); /** Set the value associated with a key * * The supplied value can be any data, up to 255 bytes in length. If `value` * is NULL or `value_len` is 0, this is treated as a request to delete any * current entry matching `key`. This is done without allocating any memory. * * If `binary` is true, the data will be considered binary (unprintable) data, * and this will be annotated in the saved entry. This does not affect the * saving or loading process in any way, but may be used by some applications * to (for example) print binary data differently than text entries when * printing parameter values. * * @param[in] key Key name (zero-terminated string) * @param[in] value Pointer to a buffer containing the value data * @param[in] value_len Length of the data in the buffer * @param[in] binary Whether the data should be considered "binary" * (unprintable) data * * @retval ::SYSPARAM_OK Value successfully set. * @retval ::SYSPARAM_ERR_NOINIT sysparam_init() must be called first * @retval ::SYSPARAM_ERR_BADVALUE Either an empty key was provided or * value_len is too large * @retval ::SYSPARAM_ERR_FULL No space left in sysparam area * (or too many keys in use) * @retval ::SYSPARAM_ERR_NOMEM Unable to allocate memory * @retval ::SYSPARAM_ERR_CORRUPT Sysparam region has bad/corrupted data * @retval ::SYSPARAM_ERR_IO I/O error reading/writing flash */ sysparam_status_t sysparam_set_data(const char *key, const uint8_t *value, size_t value_len, bool binary); /** Set a key's value from a string * * Performs the same function as sysparam_set_data(), but accepts a * zero-terminated string value instead. * * @param[in] key Key name (zero-terminated string) * @param[in] value Value to set (zero-terminated string) * * @retval ::SYSPARAM_OK Value successfully set. * @retval ::SYSPARAM_ERR_BADVALUE Either an empty key was provided or the * length of `value` is too large * @retval ::SYSPARAM_ERR_FULL No space left in sysparam area * (or too many keys in use) * @retval ::SYSPARAM_ERR_NOMEM Unable to allocate memory * @retval ::SYSPARAM_ERR_CORRUPT Sysparam region has bad/corrupted data * @retval ::SYSPARAM_ERR_IO I/O error reading/writing flash */ sysparam_status_t sysparam_set_string(const char *key, const char *value); /** Set a key's value as a number * * Write an int32_t binary value to the specified key. This does the inverse of * the sysparam_get_int32() function. This is done without allocating any * memory. * * @param[in] key Key name (zero-terminated string) * @param[in] value Value to set * * @retval ::SYSPARAM_OK Value successfully set. * @retval ::SYSPARAM_ERR_BADVALUE An empty key was provided. * @retval ::SYSPARAM_ERR_FULL No space left in sysparam area * (or too many keys in use) * @retval ::SYSPARAM_ERR_NOMEM Unable to allocate memory * @retval ::SYSPARAM_ERR_CORRUPT Sysparam region has bad/corrupted data * @retval ::SYSPARAM_ERR_IO I/O error reading/writing flash */ sysparam_status_t sysparam_set_int32(const char *key, int32_t value); /** Set a key's value as a number * * Write an int8_t binary value to the specified key. This does the inverse of * the sysparam_get_int8() function. This is done without allocating any * memory. * * @param[in] key Key name (zero-terminated string) * @param[in] value Value to set * * @retval ::SYSPARAM_OK Value successfully set. * @retval ::SYSPARAM_ERR_BADVALUE An empty key was provided. * @retval ::SYSPARAM_ERR_FULL No space left in sysparam area * (or too many keys in use) * @retval ::SYSPARAM_ERR_NOMEM Unable to allocate memory * @retval ::SYSPARAM_ERR_CORRUPT Sysparam region has bad/corrupted data * @retval ::SYSPARAM_ERR_IO I/O error reading/writing flash */ sysparam_status_t sysparam_set_int8(const char *key, int8_t value); /** Set a key's value as a boolean (yes/no) string * * Converts a bool value to a corresponding text string and writes it to the * specified key. This does the inverse of the sysparam_get_bool() * function. * * @param[in] key Key name (zero-terminated string) * @param[in] value Value to set * * @retval ::SYSPARAM_OK Value successfully set. * @retval ::SYSPARAM_ERR_BADVALUE An empty key was provided. * @retval ::SYSPARAM_ERR_FULL No space left in sysparam area * (or too many keys in use) * @retval ::SYSPARAM_ERR_NOMEM Unable to allocate memory * @retval ::SYSPARAM_ERR_CORRUPT Sysparam region has bad/corrupted data * @retval ::SYSPARAM_ERR_IO I/O error reading/writing flash */ sysparam_status_t sysparam_set_bool(const char *key, bool value); /** Begin iterating through all key/value pairs * * This function initializes a sysparam_iter_t structure to prepare it for * iterating through the list of key/value pairs using sysparam_iter_next(). * This does not fetch any items (the first successive call to * sysparam_iter_next() will return the first key/value in the list). * * NOTE: When done, you must call sysparam_iter_end() to free the resources * associated with `iter`, or you will leak memory. * * @param[in] iter A pointer to a sysparam_iter_t structure to initialize * * @retval ::SYSPARAM_OK Initialization successful * @retval ::SYSPARAM_ERR_NOMEM Unable to allocate memory */ sysparam_status_t sysparam_iter_start(sysparam_iter_t *iter); /** Fetch the next key/value pair * * This will retrieve the next key and value from the sysparam area, placing * them in `iter->key`, and `iter->value` (and updating `iter->key_len` and * `iter->value_len`). * * NOTE: `iter->key` and `iter->value` are static buffers local to the `iter` * structure, and will be overwritten with the next call to * sysparam_iter_next() using the same `iter`. They should *not* be free()d * after use. * * @param[in] iter The iterator structure to update * * @retval ::SYSPARAM_OK Next key/value retrieved * @retval ::SYSPARAM_ERR_NOMEM Unable to allocate memory * @retval ::SYSPARAM_ERR_CORRUPT Sysparam region has bad/corrupted data * @retval ::SYSPARAM_ERR_IO I/O error reading/writing flash */ sysparam_status_t sysparam_iter_next(sysparam_iter_t *iter); /** Finish iterating through keys/values * * Cleans up and releases resources allocated by sysparam_iter_start() / * sysparam_iter_next(). */ void sysparam_iter_end(sysparam_iter_t *iter); #endif /* _SYSPARAM_H_ */