#ifndef __FLASH_API_H__ #define __FLASH_API_H__ #include "ets_sys.h" #include "user_config.h" #include "cpu_esp8266.h" #define FLASH_SIZE_2MBIT (2 * 1024 * 1024) #define FLASH_SIZE_4MBIT (4 * 1024 * 1024) #define FLASH_SIZE_8MBIT (8 * 1024 * 1024) #define FLASH_SIZE_16MBIT (16 * 1024 * 1024) #define FLASH_SIZE_32MBIT (32 * 1024 * 1024) #define FLASH_SIZE_64MBIT (64 * 1024 * 1024) #define FLASH_SIZE_128MBIT (128 * 1024 * 1024) #define FLASH_SIZE_256KBYTE (FLASH_SIZE_2MBIT / 8) #define FLASH_SIZE_512KBYTE (FLASH_SIZE_4MBIT / 8) #define FLASH_SIZE_1MBYTE (FLASH_SIZE_8MBIT / 8) #define FLASH_SIZE_2MBYTE (FLASH_SIZE_16MBIT / 8) #define FLASH_SIZE_4MBYTE (FLASH_SIZE_32MBIT / 8) #define FLASH_SIZE_8MBYTE (FLASH_SIZE_64MBIT / 8) #define FLASH_SIZE_16MBYTE (FLASH_SIZE_128MBIT/ 8) #define FLASH_SAFEMODE_ENTER() \ do { \ extern SpiFlashChip * flashchip; \ flashchip->chip_size = FLASH_SIZE_16MBYTE #define FLASH_SAFEMODE_LEAVE() \ flashchip->chip_size = flash_rom_get_size_byte(); \ } while(0) /****************************************************************************** * ROM Function definition * Note: It is unsafe to use ROM function, but it may efficient. * SPIEraseSector * SpiFlashOpResult SPIEraseSector(uint16 sec); * The 1st parameter is flash sector number. * Note: Must disable cache read before using it. * SPIRead * SpiFlashOpResult SPIRead(uint32_t src_addr, uint32_t *des_addr, uint32_t size); * The 1st parameter is source addresses. * The 2nd parameter is destination addresses. * The 3rd parameter is size. * Note: Must disable cache read before using it. * SPIWrite * SpiFlashOpResult SPIWrite(uint32_t des_addr, uint32_t *src_addr, uint32_t size); * The 1st parameter is destination addresses. * The 2nd parameter is source addresses. * The 3rd parameter is size. * Note: Must disable cache read before using it. *******************************************************************************/ typedef struct { uint8_t header_magic; uint8_t segment_count; enum { MODE_QIO = 0, MODE_QOUT = 1, MODE_DIO = 2, MODE_DOUT = 15, } mode : 8; enum { SPEED_40MHZ = 0, SPEED_26MHZ = 1, SPEED_20MHZ = 2, SPEED_80MHZ = 15, } speed : 4; enum { SIZE_4MBIT = 0, SIZE_2MBIT = 1, SIZE_8MBIT = 2, SIZE_16MBIT = 3, SIZE_32MBIT = 4, SIZE_16MBIT_8M_8M = 5, SIZE_32MBIT_8M_8M = 6, } size : 4; uint32_t entry_point; uint32_t memory_offset; uint32_t segment_size; } ICACHE_STORE_TYPEDEF_ATTR SPIFlashInfo; uint32_t flash_detect_size_byte(void); uint32_t flash_safe_get_size_byte(void); uint16_t flash_safe_get_sec_num(void); SpiFlashOpResult flash_safe_read(uint32 src_addr, uint32 *des_addr, uint32 size); SpiFlashOpResult flash_safe_write(uint32 des_addr, uint32 *src_addr, uint32 size); SpiFlashOpResult flash_safe_erase_sector(uint16 sec); SPIFlashInfo flash_rom_getinfo(void); uint8_t flash_rom_get_size_type(void); uint32_t flash_rom_get_size_byte(void); bool flash_rom_set_size_type(uint8_t); bool flash_rom_set_size_byte(uint32_t); uint16_t flash_rom_get_sec_num(void); uint8_t flash_rom_get_mode(void); uint32_t flash_rom_get_speed(void); bool flash_init_data_written(void); bool flash_init_data_default(void); bool flash_init_data_blank(void); uint8_t byte_of_aligned_array(const uint8_t* aligned_array, uint32_t index); uint16_t word_of_aligned_array(const uint16_t *aligned_array, uint32_t index); // uint8_t flash_rom_get_checksum(void); // uint8_t flash_rom_calc_checksum(void); #endif // __FLASH_API_H__