// Calculate remaining recording time based on current settings static uint16_t estimate_remaining_time(void) { uint32_t bytes_per_second;
blackbox_log_header *log = blackbox_get_log(0); if(log) { blackbox_erase_log(log); } }
// Implementation would scan flash for log headers // For brevity: erase first 512KB (oldest quarter) flash_erase_sector(0, 512 * 1024);
// Configuration structure typedef struct adaptive_bb_s { uint8_t resolution; // 0=low, 1=normal, 2=high uint8_t auto_erase; // auto-erase oldest logs uint8_t priority_mode; // 0=quality, 1=duration uint16_t max_log_seconds; uint8_t dynamic_rate; // adjust rate based on flash remaining } adaptive_bb_t; 2m flash - use fmuv3 firmware
return flash_status.free_bytes / bytes_per_second; }
uint8_t percent = flash_status.percent_used;
// Feature flag for FMUV3 target #if defined(USE_ADAPTIVE_BLACKBOX) && defined(FLASH_M25P16) #define USE_ADAPTIVE_BLACKBOX_FEATURE #endif Add to src/main/target/MATEKF405/target.h : // Calculate remaining recording time based on current
// Rate calculation: 1kHz = ~2KB/sec (gyro+accel+debug) switch(adaptive_bb_config.resolution) { case 0: // Low (500Hz gyro, no accel) bytes_per_second = 800; break; case 1: // Normal (1kHz gyro, 1kHz accel) bytes_per_second = 2000; break; case 2: // High (2kHz gyro, 1kHz accel, debug) bytes_per_second = 4000; break; default: bytes_per_second = 2000; }
// CLI command handler void adaptive_blackbox_cli(char *cmdline) { char *arg = strtok(cmdline, " ");
if(strcmp(arg, "adaptive_bb") == 0) { char *subcmd = strtok(NULL, " "); if(subcmd == NULL) { // Show status cliPrintLinef("Adaptive Blackbox Status:"); cliPrintLinef("Flash total: %u bytes", flash_status.total_bytes); cliPrintLinef("Free: %u bytes (%u%%)", flash_status.free_bytes, 100 - flash_status.percent_used); cliPrintLinef("Est. recording: %d seconds", flash_status.estimated_log_seconds); cliPrintLinef("Resolution: %s", adaptive_bb_config.resolution == 0 ? "Low" : adaptive_bb_config.resolution == 1 ? "Normal" : "High"); cliPrintLinef("Auto erase: %s", adaptive_bb_config.auto_erase ? "ON" : "OFF"); cliPrintLinef("Dynamic rate: %s", adaptive_bb_config.dynamic_rate ? "ON" : "OFF"); } else if(strcmp(subcmd, "resolution") == 0) { uint8_t val = atoi(strtok(NULL, " ")); if(val <= 2) { adaptive_bb_config.resolution = val; cliPrintLinef("Resolution set to %d", val); } } else if(strcmp(subcmd, "auto_erase") == 0) { adaptive_bb_config.auto_erase = atoi(strtok(NULL, " ")); cliPrintLinef("Auto erase set to %d", adaptive_bb_config.auto_erase); } else if(strcmp(subcmd, "max_time") == 0) { adaptive_bb_config.max_log_seconds = atoi(strtok(NULL, " ")); cliPrintLinef("Max log time set to %d seconds", adaptive_bb_config.max_log_seconds); } else if(strcmp(subcmd, "dynamic") == 0) { adaptive_bb_config.dynamic_rate = atoi(strtok(NULL, " ")); cliPrintLinef("Dynamic rate set to %d", adaptive_bb_config.dynamic_rate); } } } "Normal" : "High")
static adaptive_bb_t adaptive_bb_config = { .resolution = 1, .auto_erase = 1, .priority_mode = 0, .max_log_seconds = 180, // 3 minutes max by default .dynamic_rate = 1 };
// Find oldest log (simplified - would need blackbox log iterator) uint32_t oldest_log_address = 0; uint32_t oldest_log_size = 0;