void resetSerialConfig(serialConfig_t *serialConfig)
{
serialConfig->serial_port_1_scenario = lookupScenarioIndex(SCENARIO_MSP_CLI_TELEMETRY_GPS_PASTHROUGH);
serialConfig->serial_port_2_scenario = lookupScenarioIndex(SCENARIO_GPS_ONLY);
serialConfig->serial_port_3_scenario = lookupScenarioIndex(SCENARIO_UNUSED);
serialConfig->serial_port_4_scenario = lookupScenarioIndex(SCENARIO_UNUSED);
#ifdef STM32F303xC
serialConfig->serial_port_5_scenario = lookupScenarioIndex(SCENARIO_UNUSED);
#endif
serialConfig->msp_baudrate = 115200;
serialConfig->cli_baudrate = 115200;
serialConfig->gps_baudrate = 115200;
serialConfig->gps_passthrough_baudrate = 115200;
serialConfig->reboot_character = 'R';
void resetSerialConfig(serialConfig_t *serialConfig)
{
#ifdef SWAP_SERIAL_PORT_1_AND_2_DEFAULTS
serialConfig->serial_port_scenario[0] = lookupScenarioIndex(SCENARIO_UNUSED);
serialConfig->serial_port_scenario[1] = lookupScenarioIndex(SCENARIO_MSP_CLI_TELEMETRY_GPS_PASTHROUGH);
#else
serialConfig->serial_port_scenario[0] = lookupScenarioIndex(SCENARIO_MSP_CLI_TELEMETRY_GPS_PASTHROUGH);
serialConfig->serial_port_scenario[1] = lookupScenarioIndex(SCENARIO_UNUSED);
#endif
#if (SERIAL_PORT_COUNT > 2)
serialConfig->serial_port_scenario[2] = lookupScenarioIndex(SCENARIO_UNUSED);
#if (SERIAL_PORT_COUNT > 3)
serialConfig->serial_port_scenario[3] = lookupScenarioIndex(SCENARIO_UNUSED);
#if (SERIAL_PORT_COUNT > 4)
serialConfig->serial_port_scenario[4] = lookupScenarioIndex(SCENARIO_UNUSED);
#endif
#endif
#endif
serialConfig->msp_baudrate = 115200;
serialConfig->cli_baudrate = 115200;
serialConfig->gps_baudrate = 115200;
serialConfig->gps_passthrough_baudrate = 115200;
serialConfig->reboot_character = 'R';
}
void resetSerialConfig(serialConfig_t *serialConfig)
{
serialConfig->serial_port_scenario[FIRST_PORT_INDEX] = lookupScenarioIndex(SCENARIO_MSP_CLI_TELEMETRY_GPS_PASTHROUGH);
#ifdef CC3D
// Temporary workaround for CC3D non-functional VCP when using OpenPilot bootloader.
// This allows MSP connection via USART so the board can be reconfigured.
serialConfig->serial_port_scenario[SECOND_PORT_INDEX] = lookupScenarioIndex(SCENARIO_MSP_ONLY);
#else
serialConfig->serial_port_scenario[SECOND_PORT_INDEX] = lookupScenarioIndex(SCENARIO_UNUSED);
#endif
#if (SERIAL_PORT_COUNT > 2)
serialConfig->serial_port_scenario[2] = lookupScenarioIndex(SCENARIO_UNUSED);
#if (SERIAL_PORT_COUNT > 3)
serialConfig->serial_port_scenario[3] = lookupScenarioIndex(SCENARIO_UNUSED);
#if (SERIAL_PORT_COUNT > 4)
serialConfig->serial_port_scenario[4] = lookupScenarioIndex(SCENARIO_UNUSED);
#endif
#endif
#endif
serialConfig->msp_baudrate = 115200;
serialConfig->cli_baudrate = 115200;
serialConfig->gps_baudrate = 115200;
serialConfig->gps_passthrough_baudrate = 115200;
serialConfig->reboot_character = 'R';
}
// Default settings
static void resetConf(void)
{
int i;
int8_t servoRates[8] = { 30, 30, 100, 100, 100, 100, 100, 100 };
// Clear all configuration
memset(&masterConfig, 0, sizeof(master_t));
setProfile(0);
setControlRateProfile(0);
masterConfig.version = EEPROM_CONF_VERSION;
masterConfig.mixerMode = MIXER_QUADX;
featureClearAll();
#if defined(CJMCU) || defined(SPARKY)
featureSet(FEATURE_RX_PPM);
#endif
featureSet(FEATURE_VBAT);
// global settings
masterConfig.current_profile_index = 0; // default profile
masterConfig.gyro_cmpf_factor = 600; // default MWC
masterConfig.gyro_cmpfm_factor = 250; // default MWC
masterConfig.gyro_lpf = 42; // supported by all gyro drivers now. In case of ST gyro, will default to 32Hz instead
resetAccelerometerTrims(&masterConfig.accZero);
resetSensorAlignment(&masterConfig.sensorAlignmentConfig);
masterConfig.boardAlignment.rollDegrees = 0;
masterConfig.boardAlignment.pitchDegrees = 0;
masterConfig.boardAlignment.yawDegrees = 0;
masterConfig.acc_hardware = ACC_DEFAULT; // default/autodetect
masterConfig.max_angle_inclination = 500; // 50 degrees
masterConfig.yaw_control_direction = 1;
masterConfig.gyroConfig.gyroMovementCalibrationThreshold = 32;
masterConfig.mag_hardware = MAG_DEFAULT; // default/autodetect
resetBatteryConfig(&masterConfig.batteryConfig);
resetTelemetryConfig(&masterConfig.telemetryConfig);
masterConfig.rxConfig.serialrx_provider = 0;
masterConfig.rxConfig.spektrum_sat_bind = 0;
masterConfig.rxConfig.midrc = 1500;
masterConfig.rxConfig.mincheck = 1100;
masterConfig.rxConfig.maxcheck = 1900;
masterConfig.rxConfig.rssi_channel = 0;
masterConfig.rxConfig.rssi_scale = RSSI_SCALE_DEFAULT;
masterConfig.inputFilteringMode = INPUT_FILTERING_DISABLED;
masterConfig.retarded_arm = 0;
masterConfig.disarm_kill_switch = 1;
masterConfig.auto_disarm_delay = 5;
masterConfig.small_angle = 25;
masterConfig.airplaneConfig.flaps_speed = 0;
masterConfig.airplaneConfig.fixedwing_althold_dir = 1;
// Motor/ESC/Servo
resetEscAndServoConfig(&masterConfig.escAndServoConfig);
resetFlight3DConfig(&masterConfig.flight3DConfig);
#ifdef BRUSHED_MOTORS
masterConfig.motor_pwm_rate = BRUSHED_MOTORS_PWM_RATE;
#else
masterConfig.motor_pwm_rate = BRUSHLESS_MOTORS_PWM_RATE;
#endif
masterConfig.servo_pwm_rate = 50;
#ifdef GPS
// gps/nav stuff
masterConfig.gpsConfig.provider = GPS_NMEA;
masterConfig.gpsConfig.sbasMode = SBAS_AUTO;
masterConfig.gpsConfig.autoConfig = GPS_AUTOCONFIG_ON;
masterConfig.gpsConfig.autoBaud = GPS_AUTOBAUD_OFF;
#endif
resetSerialConfig(&masterConfig.serialConfig);
masterConfig.looptime = 3500;
masterConfig.emf_avoidance = 0;
resetPidProfile(¤tProfile->pidProfile);
resetControlRateConfig(&masterConfig.controlRateProfiles[0]);
// for (i = 0; i < CHECKBOXITEMS; i++)
// cfg.activate[i] = 0;
resetRollAndPitchTrims(¤tProfile->accelerometerTrims);
currentProfile->mag_declination = 0;
currentProfile->acc_lpf_factor = 4;
currentProfile->accz_lpf_cutoff = 5.0f;
currentProfile->accDeadband.xy = 40;
currentProfile->accDeadband.z = 40;
resetBarometerConfig(¤tProfile->barometerConfig);
currentProfile->acc_unarmedcal = 1;
// Radio
parseRcChannels("AETR1234", &masterConfig.rxConfig);
resetRcControlsConfig(¤tProfile->rcControlsConfig);
currentProfile->throttle_correction_value = 0; // could 10 with althold or 40 for fpv
currentProfile->throttle_correction_angle = 800; // could be 80.0 deg with atlhold or 45.0 for fpv
// Failsafe Variables
currentProfile->failsafeConfig.failsafe_delay = 10; // 1sec
currentProfile->failsafeConfig.failsafe_off_delay = 200; // 20sec
currentProfile->failsafeConfig.failsafe_throttle = 1200; // decent default which should always be below hover throttle for people.
currentProfile->failsafeConfig.failsafe_min_usec = 985; // any of first 4 channels below this value will trigger failsafe
currentProfile->failsafeConfig.failsafe_max_usec = 2115; // any of first 4 channels above this value will trigger failsafe
// servos
for (i = 0; i < 8; i++) {
currentProfile->servoConf[i].min = DEFAULT_SERVO_MIN;
currentProfile->servoConf[i].max = DEFAULT_SERVO_MAX;
currentProfile->servoConf[i].middle = DEFAULT_SERVO_MIDDLE;
currentProfile->servoConf[i].rate = servoRates[i];
currentProfile->servoConf[i].forwardFromChannel = CHANNEL_FORWARDING_DISABLED;
}
currentProfile->mixerConfig.yaw_direction = 1;
currentProfile->mixerConfig.tri_unarmed_servo = 1;
// gimbal
currentProfile->gimbalConfig.gimbal_flags = GIMBAL_NORMAL;
#ifdef GPS
resetGpsProfile(¤tProfile->gpsProfile);
#endif
// custom mixer. clear by defaults.
for (i = 0; i < MAX_SUPPORTED_MOTORS; i++)
masterConfig.customMixer[i].throttle = 0.0f;
#ifdef LED_STRIP
applyDefaultColors(masterConfig.colors, CONFIGURABLE_COLOR_COUNT);
applyDefaultLedStripConfig(masterConfig.ledConfigs);
#endif
#ifdef BLACKBOX
masterConfig.blackbox_rate_num = 1;
masterConfig.blackbox_rate_denom = 1;
#endif
// alternative defaults settings for ALIENWIIF1 and ALIENWIIF3 targets
#ifdef ALIENWII32
featureSet(FEATURE_RX_SERIAL);
featureSet(FEATURE_MOTOR_STOP);
featureSet(FEATURE_FAILSAFE);
featureClear(FEATURE_VBAT);
#ifdef ALIENWIIF3
masterConfig.serialConfig.serial_port_scenario[2] = lookupScenarioIndex(SCENARIO_SERIAL_RX_ONLY);
#else
masterConfig.serialConfig.serial_port_scenario[1] = lookupScenarioIndex(SCENARIO_SERIAL_RX_ONLY);
#endif
masterConfig.rxConfig.serialrx_provider = 1;
masterConfig.rxConfig.spektrum_sat_bind = 5;
masterConfig.escAndServoConfig.minthrottle = 1000;
masterConfig.escAndServoConfig.maxthrottle = 2000;
masterConfig.motor_pwm_rate = 32000;
masterConfig.looptime = 2000;
currentProfile->pidProfile.pidController = 3;
currentProfile->pidProfile.P8[ROLL] = 36;
currentProfile->pidProfile.P8[PITCH] = 36;
currentProfile->failsafeConfig.failsafe_delay = 2;
currentProfile->failsafeConfig.failsafe_off_delay = 0;
currentProfile->failsafeConfig.failsafe_throttle = 1000;
currentControlRateProfile->rcRate8 = 130;
currentControlRateProfile->rollPitchRate = 20;
currentControlRateProfile->yawRate = 60;
currentControlRateProfile->yawRate = 100;
parseRcChannels("TAER1234", &masterConfig.rxConfig);
// { 1.0f, -0.5f, 1.0f, -1.0f }, // REAR_R
masterConfig.customMixer[0].throttle = 1.0f;
masterConfig.customMixer[0].roll = -0.5f;
masterConfig.customMixer[0].pitch = 1.0f;
masterConfig.customMixer[0].yaw = -1.0f;
// { 1.0f, -0.5f, -1.0f, 1.0f }, // FRONT_R
masterConfig.customMixer[1].throttle = 1.0f;
masterConfig.customMixer[1].roll = -0.5f;
masterConfig.customMixer[1].pitch = -1.0f;
masterConfig.customMixer[1].yaw = 1.0f;
// { 1.0f, 0.5f, 1.0f, 1.0f }, // REAR_L
masterConfig.customMixer[2].throttle = 1.0f;
masterConfig.customMixer[2].roll = 0.5f;
masterConfig.customMixer[2].pitch = 1.0f;
masterConfig.customMixer[2].yaw = 1.0f;
// { 1.0f, 0.5f, -1.0f, -1.0f }, // FRONT_L
masterConfig.customMixer[3].throttle = 1.0f;
masterConfig.customMixer[3].roll = 0.5f;
masterConfig.customMixer[3].pitch = -1.0f;
masterConfig.customMixer[3].yaw = -1.0f;
// { 1.0f, -1.0f, -0.5f, -1.0f }, // MIDFRONT_R
masterConfig.customMixer[4].throttle = 1.0f;
masterConfig.customMixer[4].roll = -1.0f;
masterConfig.customMixer[4].pitch = -0.5f;
masterConfig.customMixer[4].yaw = -1.0f;
// { 1.0f, 1.0f, -0.5f, 1.0f }, // MIDFRONT_L
masterConfig.customMixer[5].throttle = 1.0f;
masterConfig.customMixer[5].roll = 1.0f;
masterConfig.customMixer[5].pitch = -0.5f;
masterConfig.customMixer[5].yaw = 1.0f;
// { 1.0f, -1.0f, 0.5f, 1.0f }, // MIDREAR_R
masterConfig.customMixer[6].throttle = 1.0f;
masterConfig.customMixer[6].roll = -1.0f;
masterConfig.customMixer[6].pitch = 0.5f;
masterConfig.customMixer[6].yaw = 1.0f;
// { 1.0f, 1.0f, 0.5f, -1.0f }, // MIDREAR_L
masterConfig.customMixer[7].throttle = 1.0f;
masterConfig.customMixer[7].roll = 1.0f;
masterConfig.customMixer[7].pitch = 0.5f;
masterConfig.customMixer[7].yaw = -1.0f;
#endif
// copy first profile into remaining profile
for (i = 1; i < MAX_PROFILE_COUNT; i++) {
memcpy(&masterConfig.profile[i], currentProfile, sizeof(profile_t));
}
// copy first control rate config into remaining profile
for (i = 1; i < MAX_CONTROL_RATE_PROFILE_COUNT; i++) {
memcpy(&masterConfig.controlRateProfiles[i], currentControlRateProfile, sizeof(controlRateConfig_t));
}
for (i = 1; i < MAX_PROFILE_COUNT; i++) {
masterConfig.profile[i].defaultRateProfileIndex = i % MAX_CONTROL_RATE_PROFILE_COUNT;
}
}
