#ifndef PID_FLASH_H #define PID_FLASH_H #include #include /* * pid_flash — persistent PID storage for Issue #531 (auto-tune). * * Stores Kp, Ki, Kd in the last 64 bytes of STM32F722 flash sector 7 * (0x0807FFC0). Magic word validates presence of saved params. * Sector 7 is 128KB starting at 0x08060000; firmware never exceeds sector 6. * * Flash writes require an erase of the full sector (128KB) before re-writing. * The store address is the very last 64-byte block so future expansion can * grow toward lower addresses within sector 7 without conflict. */ #define PID_FLASH_SECTOR FLASH_SECTOR_7 #define PID_FLASH_SECTOR_VOLTAGE VOLTAGE_RANGE_3 /* 2.7V-3.6V, 32-bit parallelism */ /* Sector 7: 128KB at 0x08060000; store in last 64 bytes */ #define PID_FLASH_STORE_ADDR 0x0807FFC0UL #define PID_FLASH_MAGIC 0x534C5401UL /* 'SLT\x01' — version 1 */ typedef struct __attribute__((packed)) { uint32_t magic; /* PID_FLASH_MAGIC when valid */ float kp; float ki; float kd; uint8_t _pad[48]; /* padding to 64 bytes */ } pid_flash_t; /* ---- Gain schedule flash storage (Issue #550) ---- */ /* Maximum number of speed-band entries in the gain schedule table */ #define PID_SCHED_MAX_BANDS 6u /* * Sector 7 layout (128KB at 0x08060000): * 0x0807FF40 pid_sched_flash_t (128 bytes) — gain schedule record * 0x0807FFC0 pid_flash_t ( 64 bytes) — single PID record (existing) * Both records are written in a single sector erase via pid_flash_save_all(). */ #define PID_SCHED_FLASH_ADDR 0x0807FF40UL #define PID_SCHED_MAGIC 0x534C5402UL /* 'SLT\x02' — version 2 */ typedef struct __attribute__((packed)) { float speed_mps; /* velocity breakpoint (m/s) */ float kp; float ki; float kd; } pid_sched_entry_t; /* 16 bytes */ typedef struct __attribute__((packed)) { uint32_t magic; /* PID_SCHED_MAGIC when valid */ uint8_t num_bands; /* valid entries (1..PID_SCHED_MAX_BANDS) */ uint8_t flags; /* reserved, must be 0 */ uint8_t _pad0[2]; pid_sched_entry_t bands[PID_SCHED_MAX_BANDS]; /* 6 × 16 = 96 bytes */ uint8_t _pad1[24]; /* total = 4+1+1+2+96+24 = 128 bytes */ } pid_sched_flash_t; /* 128 bytes */ /* * pid_flash_load() — read saved PID from flash. * Returns true and fills *kp/*ki/*kd if magic is valid. * Returns false if no valid params stored (caller keeps defaults). */ bool pid_flash_load(float *kp, float *ki, float *kd); /* * pid_flash_save() — erase sector 7 and write Kp/Ki/Kd (single-PID only). * Use pid_flash_save_all() to save both single-PID and schedule atomically. * Must not be called while armed (flash erase takes ~1s and stalls the CPU). * Returns true on success. */ bool pid_flash_save(float kp, float ki, float kd); /* * pid_flash_load_schedule() — read gain schedule from flash. * Returns true and fills out_entries[0..n-1] and *out_n if magic is valid. * Returns false if no valid schedule stored. */ bool pid_flash_load_schedule(pid_sched_entry_t *out_entries, uint8_t *out_n); /* * pid_flash_save_all() — erase sector 7 once and atomically write both: * - pid_sched_flash_t at PID_SCHED_FLASH_ADDR (0x0807FF40) * - pid_flash_t at PID_FLASH_STORE_ADDR (0x0807FFC0) * Must not be called while armed. Returns true on success. */ bool pid_flash_save_all(float kp_single, float ki_single, float kd_single, const pid_sched_entry_t *entries, uint8_t num_bands); #endif /* PID_FLASH_H */