// alternative defaults settings for AlienFlight targets
void targetConfiguration(master_t *config)
{
config->mag_hardware = MAG_NONE; // disabled by default
if (hardwareRevision == AFF4_REV_1) {
config->rxConfig.serialrx_provider = SERIALRX_SPEKTRUM2048;
config->rxConfig.spektrum_sat_bind = 5;
config->rxConfig.spektrum_sat_bind_autoreset = 1;
} else {
config->rxConfig.serialrx_provider = SERIALRX_SBUS;
config->rxConfig.sbus_inversion = 0;
config->serialConfig.portConfigs[SERIAL_PORT_USART2].functionMask = FUNCTION_TELEMETRY_FRSKY;
config->telemetryConfig.telemetry_inversion = 0;
intFeatureSet(FEATURE_CURRENT_METER | FEATURE_VBAT, &config->enabledFeatures);
config->batteryConfig.currentMeterOffset = 2500;
config->batteryConfig.currentMeterScale = -667;
}
config->motorConfig.motorPwmRate = 32000;
config->gyro_sync_denom = 1;
config->pid_process_denom = 1;
config->profile[0].pidProfile.P8[ROLL] = 53;
config->profile[0].pidProfile.I8[ROLL] = 45;
config->profile[0].pidProfile.D8[ROLL] = 52;
config->profile[0].pidProfile.P8[PITCH] = 53;
config->profile[0].pidProfile.I8[PITCH] = 45;
config->profile[0].pidProfile.D8[PITCH] = 52;
config->profile[0].pidProfile.P8[YAW] = 64;
config->profile[0].pidProfile.D8[YAW] = 18;
config->customMotorMixer[0] = (motorMixer_t){ 1.0f, -0.414178f, 1.0f, -1.0f }; // REAR_R
config->customMotorMixer[1] = (motorMixer_t){ 1.0f, -0.414178f, -1.0f, 1.0f }; // FRONT_R
config->customMotorMixer[2] = (motorMixer_t){ 1.0f, 0.414178f, 1.0f, 1.0f }; // REAR_L
config->customMotorMixer[3] = (motorMixer_t){ 1.0f, 0.414178f, -1.0f, -1.0f }; // FRONT_L
config->customMotorMixer[4] = (motorMixer_t){ 1.0f, -1.0f, -0.414178f, -1.0f }; // MIDFRONT_R
config->customMotorMixer[5] = (motorMixer_t){ 1.0f, 1.0f, -0.414178f, 1.0f }; // MIDFRONT_L
config->customMotorMixer[6] = (motorMixer_t){ 1.0f, -1.0f, 0.414178f, 1.0f }; // MIDREAR_R
config->customMotorMixer[7] = (motorMixer_t){ 1.0f, 1.0f, 0.414178f, -1.0f }; // MIDREAR_L
}
void createDefaultConfig(master_t *config)
{
// Clear all configuration
memset(config, 0, sizeof(master_t));
uint32_t *featuresPtr = &config->enabledFeatures;
intFeatureClearAll(featuresPtr);
intFeatureSet(DEFAULT_RX_FEATURE | FEATURE_FAILSAFE , featuresPtr);
#ifdef DEFAULT_FEATURES
intFeatureSet(DEFAULT_FEATURES, featuresPtr);
#endif
#ifdef OSD
intFeatureSet(FEATURE_OSD, featuresPtr);
osdResetConfig(&config->osdProfile);
#endif
#ifdef BOARD_HAS_VOLTAGE_DIVIDER
// only enable the VBAT feature by default if the board has a voltage divider otherwise
// the user may see incorrect readings and unexpected issues with pin mappings may occur.
intFeatureSet(FEATURE_VBAT, featuresPtr);
#endif
config->version = EEPROM_CONF_VERSION;
config->mixerMode = MIXER_QUADX;
// global settings
config->current_profile_index = 0; // default profile
config->dcm_kp = 2500; // 1.0 * 10000
config->dcm_ki = 0; // 0.003 * 10000
config->gyro_lpf = 0; // 256HZ default
#ifdef STM32F10X
config->gyro_sync_denom = 8;
config->pid_process_denom = 1;
#elif defined(USE_GYRO_SPI_MPU6000) || defined(USE_GYRO_SPI_MPU6500) || defined(USE_GYRO_SPI_ICM20689)
config->gyro_sync_denom = 1;
config->pid_process_denom = 4;
#else
config->gyro_sync_denom = 4;
config->pid_process_denom = 2;
#endif
config->gyro_soft_type = FILTER_PT1;
config->gyro_soft_lpf_hz = 90;
config->gyro_soft_notch_hz_1 = 400;
config->gyro_soft_notch_cutoff_1 = 300;
config->gyro_soft_notch_hz_2 = 200;
config->gyro_soft_notch_cutoff_2 = 100;
config->debug_mode = DEBUG_NONE;
resetAccelerometerTrims(&config->accZero);
resetSensorAlignment(&config->sensorAlignmentConfig);
config->boardAlignment.rollDegrees = 0;
config->boardAlignment.pitchDegrees = 0;
config->boardAlignment.yawDegrees = 0;
config->acc_hardware = ACC_DEFAULT; // default/autodetect
config->max_angle_inclination = 700; // 70 degrees
config->yaw_control_direction = 1;
config->gyroConfig.gyroMovementCalibrationThreshold = 32;
// xxx_hardware: 0:default/autodetect, 1: disable
config->mag_hardware = 1;
config->baro_hardware = 1;
resetBatteryConfig(&config->batteryConfig);
#ifndef SKIP_RX_PWM_PPM
resetPpmConfig(&config->ppmConfig);
resetPwmConfig(&config->pwmConfig);
#endif
#ifdef TELEMETRY
resetTelemetryConfig(&config->telemetryConfig);
#endif
#ifdef USE_ADC
resetAdcConfig(&config->adcConfig);
#endif
#ifdef BEEPER
resetBeeperConfig(&config->beeperConfig);
#endif
#ifdef SONAR
resetSonarConfig(&config->sonarConfig);
#endif
#ifdef USE_SDCARD
intFeatureSet(FEATURE_SDCARD, featuresPtr);
resetsdcardConfig(&config->sdcardConfig);
#endif
#ifdef SERIALRX_PROVIDER
config->rxConfig.serialrx_provider = SERIALRX_PROVIDER;
#else
config->rxConfig.serialrx_provider = 0;
#endif
config->rxConfig.rx_spi_protocol = RX_SPI_DEFAULT_PROTOCOL;
config->rxConfig.sbus_inversion = 1;
config->rxConfig.spektrum_sat_bind = 0;
config->rxConfig.spektrum_sat_bind_autoreset = 1;
config->rxConfig.midrc = 1500;
config->rxConfig.mincheck = 1100;
config->rxConfig.maxcheck = 1900;
config->rxConfig.rx_min_usec = 885; // any of first 4 channels below this value will trigger rx loss detection
config->rxConfig.rx_max_usec = 2115; // any of first 4 channels above this value will trigger rx loss detection
for (int i = 0; i < MAX_SUPPORTED_RC_CHANNEL_COUNT; i++) {
rxFailsafeChannelConfiguration_t *channelFailsafeConfiguration = &config->rxConfig.failsafe_channel_configurations[i];
channelFailsafeConfiguration->mode = (i < NON_AUX_CHANNEL_COUNT) ? RX_FAILSAFE_MODE_AUTO : RX_FAILSAFE_MODE_HOLD;
channelFailsafeConfiguration->step = (i == THROTTLE) ? CHANNEL_VALUE_TO_RXFAIL_STEP(config->rxConfig.rx_min_usec) : CHANNEL_VALUE_TO_RXFAIL_STEP(config->rxConfig.midrc);
}
config->rxConfig.rssi_channel = 0;
config->rxConfig.rssi_scale = RSSI_SCALE_DEFAULT;
config->rxConfig.rssi_ppm_invert = 0;
config->rxConfig.rcInterpolation = RC_SMOOTHING_AUTO;
config->rxConfig.rcInterpolationInterval = 19;
config->rxConfig.fpvCamAngleDegrees = 0;
config->rxConfig.max_aux_channel = MAX_AUX_CHANNELS;
config->rxConfig.airModeActivateThreshold = 1350;
resetAllRxChannelRangeConfigurations(config->rxConfig.channelRanges);
config->inputFilteringMode = INPUT_FILTERING_DISABLED;
config->gyro_cal_on_first_arm = 0; // TODO - Cleanup retarded arm support
config->disarm_kill_switch = 1;
config->auto_disarm_delay = 5;
config->small_angle = 25;
config->airplaneConfig.fixedwing_althold_dir = 1;
// Motor/ESC/Servo
resetMixerConfig(&config->mixerConfig);
resetMotorConfig(&config->motorConfig);
#ifdef USE_SERVOS
resetServoMixerConfig(&config->servoMixerConfig);
resetServoConfig(&config->servoConfig);
#endif
resetFlight3DConfig(&config->flight3DConfig);
#ifdef LED_STRIP
resetLedStripConfig(&config->ledStripConfig);
#endif
#ifdef GPS
// gps/nav stuff
config->gpsConfig.provider = GPS_NMEA;
config->gpsConfig.sbasMode = SBAS_AUTO;
config->gpsConfig.autoConfig = GPS_AUTOCONFIG_ON;
config->gpsConfig.autoBaud = GPS_AUTOBAUD_OFF;
#endif
resetSerialConfig(&config->serialConfig);
resetProfile(&config->profile[0]);
resetRollAndPitchTrims(&config->accelerometerTrims);
config->mag_declination = 0;
config->acc_lpf_hz = 10.0f;
config->accDeadband.xy = 40;
config->accDeadband.z = 40;
config->acc_unarmedcal = 1;
#ifdef BARO
resetBarometerConfig(&config->barometerConfig);
#endif
// Radio
#ifdef RX_CHANNELS_TAER
parseRcChannels("TAER1234", &config->rxConfig);
#else
parseRcChannels("AETR1234", &config->rxConfig);
#endif
resetRcControlsConfig(&config->rcControlsConfig);
config->throttle_correction_value = 0; // could 10 with althold or 40 for fpv
config->throttle_correction_angle = 800; // could be 80.0 deg with atlhold or 45.0 for fpv
// Failsafe Variables
config->failsafeConfig.failsafe_delay = 10; // 1sec
config->failsafeConfig.failsafe_off_delay = 10; // 1sec
config->failsafeConfig.failsafe_throttle = 1000; // default throttle off.
config->failsafeConfig.failsafe_kill_switch = 0; // default failsafe switch action is identical to rc link loss
config->failsafeConfig.failsafe_throttle_low_delay = 100; // default throttle low delay for "just disarm" on failsafe condition
config->failsafeConfig.failsafe_procedure = FAILSAFE_PROCEDURE_DROP_IT;// default full failsafe procedure is 0: auto-landing
#ifdef USE_SERVOS
// servos
for (int i = 0; i < MAX_SUPPORTED_SERVOS; i++) {
config->servoConf[i].min = DEFAULT_SERVO_MIN;
config->servoConf[i].max = DEFAULT_SERVO_MAX;
config->servoConf[i].middle = DEFAULT_SERVO_MIDDLE;
config->servoConf[i].rate = 100;
config->servoConf[i].angleAtMin = DEFAULT_SERVO_MIN_ANGLE;
config->servoConf[i].angleAtMax = DEFAULT_SERVO_MAX_ANGLE;
config->servoConf[i].forwardFromChannel = CHANNEL_FORWARDING_DISABLED;
}
// gimbal
config->gimbalConfig.mode = GIMBAL_MODE_NORMAL;
#endif
#ifdef GPS
resetGpsProfile(&config->gpsProfile);
#endif
// custom mixer. clear by defaults.
for (int i = 0; i < MAX_SUPPORTED_MOTORS; i++) {
config->customMotorMixer[i].throttle = 0.0f;
}
#ifdef VTX
config->vtx_band = 4; //Fatshark/Airwaves
config->vtx_channel = 1; //CH1
config->vtx_mode = 0; //CH+BAND mode
config->vtx_mhz = 5740; //F0
#endif
#ifdef TRANSPONDER
static const uint8_t defaultTransponderData[6] = { 0x12, 0x34, 0x56, 0x78, 0x9A, 0xBC }; // Note, this is NOT a valid transponder code, it's just for testing production hardware
memcpy(config->transponderData, &defaultTransponderData, sizeof(defaultTransponderData));
#endif
#ifdef BLACKBOX
#if defined(ENABLE_BLACKBOX_LOGGING_ON_SPIFLASH_BY_DEFAULT)
intFeatureSet(FEATURE_BLACKBOX, featuresPtr);
config->blackbox_device = BLACKBOX_DEVICE_FLASH;
#elif defined(ENABLE_BLACKBOX_LOGGING_ON_SDCARD_BY_DEFAULT)
intFeatureSet(FEATURE_BLACKBOX, featuresPtr);
config->blackbox_device = BLACKBOX_DEVICE_SDCARD;
#else
config->blackbox_device = BLACKBOX_DEVICE_SERIAL;
#endif
config->blackbox_rate_num = 1;
config->blackbox_rate_denom = 1;
config->blackbox_on_motor_test = 0; // default off
#endif // BLACKBOX
#ifdef SERIALRX_UART
if (featureConfigured(FEATURE_RX_SERIAL)) {
int serialIndex = findSerialPortIndexByIdentifier(SERIALRX_UART);
if (serialIndex >= 0) {
config->serialConfig.portConfigs[serialIndex].functionMask = FUNCTION_RX_SERIAL;
}
}
#endif
#if defined(TARGET_CONFIG)
targetConfiguration(config);
#endif
// copy first profile into remaining profile
for (int i = 1; i < MAX_PROFILE_COUNT; i++) {
memcpy(&config->profile[i], &config->profile[0], sizeof(profile_t));
}
}
void featureSet(uint32_t mask)
{
intFeatureSet(mask, &featureConfigMutable()->enabledFeatures);
}
void featureSet(uint32_t mask)
{
intFeatureSet(mask, &masterConfig);
}
