sl-firmware
fa75c442a7
Archive STM32 firmware to legacy/stm32/: - src/, include/, lib/USB_CDC/, platformio.ini, test stubs, flash_firmware.py - test/test_battery_adc.c, test_hw_button.c, test_pid_schedule.c, test_vesc_can.c, test_can_watchdog.c - USB_CDC_BUG.md Rename: stm32_protocol → esp32_protocol, mamba_protocol → balance_protocol, stm32_cmd_node → esp32_cmd_node, stm32_cmd_params → esp32_cmd_params, stm32_cmd.launch.py → esp32_cmd.launch.py, test_stm32_protocol → test_esp32_protocol, test_stm32_cmd_node → test_esp32_cmd_node Content cleanup across all files: - Mamba F722S → ESP32-S3 BALANCE - BlackPill → ESP32-S3 IO - STM32F722/F7xx → ESP32-S3 - stm32Mode/Version/Port → esp32Mode/Version/Port - STM32 State/Mode labels → ESP32 State/Mode - Jetson Nano → Jetson Orin Nano Super - /dev/stm32 → /dev/esp32 - stm32_bridge → esp32_bridge - STM32 HAL → ESP-IDF docs/SALTYLAB.md: - Update "Drone FC Details" to describe ESP32-S3 BALANCE board (Waveshare ESP32-S3 Touch LCD 1.28) - Replace verbose "Self-Balancing Control" STM32 section with brief note pointing to SAUL-TEE-SYSTEM-REFERENCE.md TEAM.md: Update Embedded Firmware Engineer role to ESP32-S3 / ESP-IDF No new functionality — cleanup only. Co-Authored-By: Claude Sonnet 4.6 <noreply@anthropic.com>
177 lines
5.2 KiB
C
177 lines
5.2 KiB
C
#include "pid_flash.h"
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#include "stm32f7xx_hal.h"
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#include <string.h>
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bool pid_flash_load(float *kp, float *ki, float *kd)
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{
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const pid_flash_t *p = (const pid_flash_t *)PID_FLASH_STORE_ADDR;
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if (p->magic != PID_FLASH_MAGIC) return false;
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/* Basic sanity bounds — same as JLINK_CMD_PID_SET handler */
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if (p->kp < 0.0f || p->kp > 500.0f) return false;
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if (p->ki < 0.0f || p->ki > 50.0f) return false;
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if (p->kd < 0.0f || p->kd > 50.0f) return false;
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*kp = p->kp;
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*ki = p->ki;
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*kd = p->kd;
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return true;
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}
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bool pid_flash_save(float kp, float ki, float kd)
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{
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HAL_StatusTypeDef rc;
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/* Unlock flash */
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rc = HAL_FLASH_Unlock();
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if (rc != HAL_OK) return false;
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/* Erase sector 7 */
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FLASH_EraseInitTypeDef erase = {
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.TypeErase = FLASH_TYPEERASE_SECTORS,
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.Sector = PID_FLASH_SECTOR,
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.NbSectors = 1,
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.VoltageRange = PID_FLASH_SECTOR_VOLTAGE,
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};
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uint32_t sector_error = 0;
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rc = HAL_FLASHEx_Erase(&erase, §or_error);
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if (rc != HAL_OK || sector_error != 0xFFFFFFFFUL) {
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HAL_FLASH_Lock();
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return false;
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}
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/* Build record */
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pid_flash_t rec;
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memset(&rec, 0xFF, sizeof(rec));
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rec.magic = PID_FLASH_MAGIC;
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rec.kp = kp;
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rec.ki = ki;
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rec.kd = kd;
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/* Write 64 bytes as 16 × 32-bit words */
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const uint32_t *src = (const uint32_t *)&rec;
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uint32_t addr = PID_FLASH_STORE_ADDR;
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for (uint8_t i = 0; i < sizeof(rec) / 4u; i++) {
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rc = HAL_FLASH_Program(FLASH_TYPEPROGRAM_WORD, addr, src[i]);
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if (rc != HAL_OK) {
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HAL_FLASH_Lock();
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return false;
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}
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addr += 4u;
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}
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HAL_FLASH_Lock();
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/* Verify readback */
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const pid_flash_t *stored = (const pid_flash_t *)PID_FLASH_STORE_ADDR;
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return (stored->magic == PID_FLASH_MAGIC &&
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stored->kp == kp &&
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stored->ki == ki &&
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stored->kd == kd);
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}
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/* ---- Helper: write arbitrary bytes as 32-bit words ---- */
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/*
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* Writes 'len' bytes from 'src' to flash at 'addr'.
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* len must be a multiple of 4. Flash must already be unlocked.
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* Returns HAL_OK on success, or first failure status.
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*/
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static HAL_StatusTypeDef flash_write_words(uint32_t addr,
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const void *src,
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uint32_t len)
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{
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const uint32_t *p = (const uint32_t *)src;
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HAL_StatusTypeDef rc = HAL_OK;
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for (uint32_t i = 0; i < len / 4u; i++) {
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rc = HAL_FLASH_Program(FLASH_TYPEPROGRAM_WORD, addr, p[i]);
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if (rc != HAL_OK) return rc;
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addr += 4u;
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}
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return HAL_OK;
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}
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/* ---- pid_flash_load_schedule() ---- */
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bool pid_flash_load_schedule(pid_sched_entry_t *out_entries, uint8_t *out_n)
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{
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const pid_sched_flash_t *p = (const pid_sched_flash_t *)PID_SCHED_FLASH_ADDR;
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if (p->magic != PID_SCHED_MAGIC) return false;
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if (p->num_bands == 0u || p->num_bands > PID_SCHED_MAX_BANDS) return false;
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*out_n = p->num_bands;
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for (uint8_t i = 0; i < p->num_bands; i++) {
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out_entries[i] = p->bands[i];
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}
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return true;
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}
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/* ---- pid_flash_save_all() ---- */
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bool pid_flash_save_all(float kp_single, float ki_single, float kd_single,
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const pid_sched_entry_t *entries, uint8_t num_bands)
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{
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if (num_bands == 0u || num_bands > PID_SCHED_MAX_BANDS) return false;
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HAL_StatusTypeDef rc;
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rc = HAL_FLASH_Unlock();
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if (rc != HAL_OK) return false;
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/* Single erase of sector 7 covers both records */
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FLASH_EraseInitTypeDef erase = {
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.TypeErase = FLASH_TYPEERASE_SECTORS,
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.Sector = PID_FLASH_SECTOR,
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.NbSectors = 1,
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.VoltageRange = PID_FLASH_SECTOR_VOLTAGE,
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};
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uint32_t sector_error = 0;
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rc = HAL_FLASHEx_Erase(&erase, §or_error);
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if (rc != HAL_OK || sector_error != 0xFFFFFFFFUL) {
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HAL_FLASH_Lock();
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return false;
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}
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/* Build and write schedule record at PID_SCHED_FLASH_ADDR */
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pid_sched_flash_t srec;
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memset(&srec, 0xFF, sizeof(srec));
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srec.magic = PID_SCHED_MAGIC;
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srec.num_bands = num_bands;
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srec.flags = 0u;
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for (uint8_t i = 0; i < num_bands; i++) {
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srec.bands[i] = entries[i];
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}
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rc = flash_write_words(PID_SCHED_FLASH_ADDR, &srec, sizeof(srec));
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if (rc != HAL_OK) {
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HAL_FLASH_Lock();
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return false;
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}
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/* Build and write single-PID record at PID_FLASH_STORE_ADDR */
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pid_flash_t prec;
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memset(&prec, 0xFF, sizeof(prec));
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prec.magic = PID_FLASH_MAGIC;
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prec.kp = kp_single;
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prec.ki = ki_single;
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prec.kd = kd_single;
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rc = flash_write_words(PID_FLASH_STORE_ADDR, &prec, sizeof(prec));
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if (rc != HAL_OK) {
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HAL_FLASH_Lock();
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return false;
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}
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HAL_FLASH_Lock();
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/* Verify both records */
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const pid_sched_flash_t *sv = (const pid_sched_flash_t *)PID_SCHED_FLASH_ADDR;
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const pid_flash_t *pv = (const pid_flash_t *)PID_FLASH_STORE_ADDR;
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return (sv->magic == PID_SCHED_MAGIC &&
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sv->num_bands == num_bands &&
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pv->magic == PID_FLASH_MAGIC &&
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pv->kp == kp_single &&
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pv->ki == ki_single &&
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pv->kd == kd_single);
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}
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