#pragma once

#define LED_ACTIVITY	1
#define LED_BOOTLOADER	2

/* board info forwarded from board-specific code to booloader */
struct boardinfo {
    uint32_t	board_type;
    uint32_t	board_rev;
    uint32_t	fw_size;
} __attribute__((packed));

extern struct boardinfo board_info;

void init_uarts(void);
int16_t cin(unsigned timeout_ms);
int cin_word(uint32_t *wp, unsigned timeout_ms);
void cout(uint8_t *data, uint32_t len);
void port_setbaud(uint32_t baudrate);

void flash_init();

uint32_t flash_func_read_word(uint32_t offset);
void flash_func_write_word(uint32_t offset, uint32_t v);
uint32_t flash_func_sector_size(uint32_t sector);
void flash_func_erase_sector(uint32_t sector);
uint32_t flash_func_read_otp(uint32_t idx);
uint32_t flash_func_read_sn(uint32_t idx);
void flash_set_keep_unlocked(bool);
void lock_bl_port(void);

uint32_t get_mcu_id(void);
uint32_t get_mcu_desc(uint32_t len, uint8_t *buf);
bool check_limit_flash_1M(void);

uint32_t board_get_rtc_signature(void);
void board_set_rtc_signature(uint32_t sig);

void led_on(unsigned led);
void led_off(unsigned led);
void led_toggle(unsigned led);

// printf to USB
void uprintf(const char *fmt, ...);

// generate a LED sequence forever
void led_pulses(uint8_t npulses);

typedef struct mcu_des_t {
    uint16_t mcuid;
    const char *desc;
    char  rev;
} mcu_des_t;

typedef struct mcu_rev_t {
    uint16_t revid;
    char  rev;
    bool limit_flash_size_1M;
} mcu_rev_t;