esp-open-rtos/extras/rboot-ota/rboot-api.h

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#ifndef __RBOOT_API_H__
#define __RBOOT_API_H__
/** @defgroup rboot rBoot API
* @brief rBoot for ESP8266 API allows runtime code to access the rBoot configuration.
* Configuration may be read to use within the main firmware or updated to
* affect next boot behavior.
* @copyright 2015 Richard A Burton
* @author richardaburton@gmail.com
* @author OTA code based on SDK sample from Espressif
* @license See licence.txt for license terms.
* @{
*/
#include <rboot-integration.h>
#include <rboot.h>
#ifdef __cplusplus
extern "C" {
#endif
/** @brief Structure defining flash write status
* @note The user application should not modify the contents of this
* structure.
* @see rboot_write_flash
*/
typedef struct {
uint32 start_addr;
uint32 start_sector;
//uint32 max_sector_count;
int32 last_sector_erased;
uint8 extra_count;
uint8 extra_bytes[4];
} rboot_write_status;
/** @brief Read rBoot configuration from flash
* @retval rboot_config Copy of the rBoot configuration
* @note Returns rboot_config (defined in rboot.h) allowing you to modify any values
* in it, including the ROM layout.
*/
rboot_config ICACHE_FLASH_ATTR rboot_get_config(void);
/** @brief Write rBoot configuration to flash memory
* @param conf pointer to a rboot_config structure containing configuration to save
* @retval bool True on success
* @note Saves the rboot_config structure back to configuration sector (BOOT_CONFIG_SECTOR)
* of the flash, while maintaining the contents of the rest of the sector.
* You can use the rest of this sector for your app settings, as long as you
* protect this structure when you do so.
*/
bool ICACHE_FLASH_ATTR rboot_set_config(rboot_config *conf);
/** @brief Get index of current ROM
* @retval uint8 Index of the current ROM
* @note Get the currently selected boot ROM (this will be the currently
* running ROM, as long as you haven't changed it since boot or rBoot
* booted the rom in temporary boot mode, see rboot_get_last_boot_rom).
*/
uint8 ICACHE_FLASH_ATTR rboot_get_current_rom(void);
/** @brief Set the index of current ROM
* @param rom The index of the ROM to use on next boot
* @retval bool True on success
* @note Set the current boot ROM, which will be used when next restarted.
* @note This function re-writes the whole configuration to flash memory (not just the current ROM index)
*/
bool ICACHE_FLASH_ATTR rboot_set_current_rom(uint8 rom);
/** @brief Initialise flash write process
* @param start_addr Address on the SPI flash to begin write to
* @note Call once before starting to pass data to write to flash memory with rboot_write_flash function.
* start_addr is the address on the SPI flash to write from. Returns a status structure which
* must be passed back on each write. The contents of the structure should not
* be modified by the calling code.
*/
rboot_write_status ICACHE_FLASH_ATTR rboot_write_init(uint32 start_addr);
/** @brief Write data to flash memory
* @param status Pointer to rboot_write_status structure defining the write status
* @param data Pointer to a block of uint8 data elements to be written to flash
* @param len Quantity of uint8 data elements to write to flash
* @note Call repeatedly to write data to the flash, starting at the address
* specified on the prior call to rboot_write_init. Current write position is
* tracked automatically. This method is likely to be called each time a packet
* of OTA data is received over the network.
* @note Call rboot_write_init before calling this function to get the rboot_write_status structure
*/
bool ICACHE_FLASH_ATTR rboot_write_flash(rboot_write_status *status, uint8 *data, uint16 len);
#ifdef BOOT_RTC_ENABLED
/** @brief Get rBoot status/control data from RTC data area
* @param rtc Pointer to a rboot_rtc_data structure to be populated
* @retval bool True on success, false if no data/invalid checksum (in which
* case do not use the contents of the structure)
*/
bool ICACHE_FLASH_ATTR rboot_get_rtc_data(rboot_rtc_data *rtc);
/** @brief Set rBoot status/control data in RTC data area
* @param rtc pointer to a rboot_rtc_data structure
* @retval bool True on success
* @note The checksum will be calculated automatically for you.
*/
bool ICACHE_FLASH_ATTR rboot_set_rtc_data(rboot_rtc_data *rtc);
/** @brief Set temporary rom for next boot
* @param rom Rom slot number for next boot
* @retval bool True on success
* @note This call will tell rBoot to temporarily boot the specified rom on
* the next boot. This is does not update the stored rBoot config on
* the flash, so after another reset it will boot back to the original
* rom.
*/
bool ICACHE_FLASH_ATTR rboot_set_temp_rom(uint8 rom);
/** @brief Get the last booted rom slot number
* @param rom Pointer to rom slot number variable to populate
* @retval bool True on success, false if no data/invalid checksum
* @note This will find the currently running rom, even if booted as a
* temporary rom.
*/
bool ICACHE_FLASH_ATTR rboot_get_last_boot_rom(uint8 *rom);
/** @brief Get the last boot mode
* @param mode Pointer to mode variable to populate
* @retval bool True on success, false if no data/invalid checksum
* @note This will indicate the type of boot: MODE_STANDARD, MODE_GPIO_ROM or
* MODE_TEMP_ROM.
*/
bool ICACHE_FLASH_ATTR rboot_get_last_boot_mode(uint8 *mode);
#endif
/* ADDITIONS TO RBOOT-API FOR ESP-OPEN-RTOS FOLLOW */
/* Returns offset of given rboot slot, or (uint32_t)-1 if slot is invalid.
*/
uint32_t rboot_get_slot_offset(uint8_t slot);
/** @description Verify basic image parameters - headers, CRC8 checksum.
@param Offset of image to verify. Can use rboot_get_slot_offset() to find.
@param Optional pointer will return the total valid length of the image.
@param Optional pointer to a static human-readable error message if fails.
@return True for valid, False for invalid.
**/
bool rboot_verify_image(uint32_t offset, uint32_t *image_length, const char **error_message);
/* @description Digest callback prototype, designed to be compatible with
mbedtls digest functions (SHA, MD5, etc.)
See the ota_basic example to see an example of calculating the
SHA256 digest of an OTA image.
*/
typedef void (*rboot_digest_update_fn)(void * ctx, void *data, size_t data_len);
/** @description Calculate a digest over the image at the offset specified
@note This function is actually a generic function that hashes SPI
flash contents, doesn't know anything about rboot image format. Use
rboot_verify_image to ensure a well-formed OTA image.
@param offset - Starting offset of image to hash (should be 4 byte aligned.)
@param image_length - Length of image to hash (should be 4 byte aligned.)
@param update_fn - Function to update digest (see rboot_digest_update_fn for details)
@param update_ctx - Context argument for digest update function.
@return True if digest completes successfully, false if digest function failed part way through
**/
bool rboot_digest_image(uint32_t offset, uint32_t image_length, rboot_digest_update_fn update_fn, void *update_ctx);
#ifdef __cplusplus
}
#endif
/** @} */
#endif