/*
* This file is part of Cleanflight.
*
* Cleanflight is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* Cleanflight is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with Cleanflight. If not, see .
*/
#include
#include
#include "platform.h"
#include "build/debug.h"
#include "blackbox/blackbox.h"
#include "cms/cms.h"
#include "common/utils.h"
#include "drivers/adc.h"
#include "drivers/bus_i2c.h"
#include "drivers/bus_spi.h"
#include "drivers/light_led.h"
#include "drivers/camera_control.h"
#include "drivers/vtx_common.h"
#include "fc/config.h"
#include "fc/controlrate_profile.h"
#include "fc/fc_core.h"
#include "fc/rc_adjustments.h"
#include "fc/rc_controls.h"
#include "flight/altitude.h"
#include "flight/failsafe.h"
#include "flight/imu.h"
#include "flight/mixer.h"
#include "flight/navigation.h"
#include "flight/pid.h"
#include "flight/servos.h"
#include "interface/settings.h"
#include "io/beeper.h"
#include "io/dashboard.h"
#include "io/gimbal.h"
#include "io/gps.h"
#include "io/ledstrip.h"
#include "io/osd.h"
#include "io/vtx.h"
#include "io/vtx_control.h"
#include "io/vtx_rtc6705.h"
#include "pg/adc.h"
#include "pg/max7456.h"
#include "pg/pg.h"
#include "pg/pg_ids.h"
#include "pg/rx_pwm.h"
#include "pg/sdcard.h"
#include "rx/rx.h"
#include "rx/cc2500_frsky_common.h"
#include "rx/spektrum.h"
#include "sensors/acceleration.h"
#include "sensors/barometer.h"
#include "sensors/battery.h"
#include "sensors/boardalignment.h"
#include "sensors/compass.h"
#include "sensors/esc_sensor.h"
#include "sensors/gyro.h"
#include "sensors/rangefinder.h"
#include "telemetry/frsky.h"
#include "telemetry/telemetry.h"
// Sensor names (used in lookup tables for *_hardware settings and in status command output)
// sync with accelerationSensor_e
const char * const lookupTableAccHardware[] = {
"AUTO", "NONE", "ADXL345", "MPU6050", "MMA8452", "BMA280", "LSM303DLHC",
"MPU6000", "MPU6500", "MPU9250", "ICM20601", "ICM20602", "ICM20608", "ICM20649", "ICM20689",
"BMI160", "FAKE"
};
// sync with gyroSensor_e
const char * const lookupTableGyroHardware[] = {
"AUTO", "NONE", "MPU6050", "L3G4200D", "MPU3050", "L3GD20",
"MPU6000", "MPU6500", "MPU9250", "ICM20601", "ICM20602", "ICM20608G", "ICM20649", "ICM20689",
"BMI160", "FAKE"
};
#if defined(USE_SENSOR_NAMES) || defined(USE_BARO)
// sync with baroSensor_e
const char * const lookupTableBaroHardware[] = {
"AUTO", "NONE", "BMP085", "MS5611", "BMP280"
};
#endif
#if defined(USE_SENSOR_NAMES) || defined(USE_MAG)
// sync with magSensor_e
const char * const lookupTableMagHardware[] = {
"AUTO", "NONE", "HMC5883", "AK8975", "AK8963"
};
#endif
#if defined(USE_SENSOR_NAMES) || defined(USE_RANGEFINDER)
const char * const lookupTableRangefinderHardware[] = {
"NONE", "HCSR04", "TFMINI", "TF02"
};
#endif
static const char * const lookupTableOffOn[] = {
"OFF", "ON"
};
static const char * const lookupTableCrashRecovery[] = {
"OFF", "ON" ,"BEEP"
};
static const char * const lookupTableUnit[] = {
"IMPERIAL", "METRIC"
};
static const char * const lookupTableAlignment[] = {
"DEFAULT",
"CW0",
"CW90",
"CW180",
"CW270",
"CW0FLIP",
"CW90FLIP",
"CW180FLIP",
"CW270FLIP"
};
#ifdef USE_GPS
static const char * const lookupTableGPSProvider[] = {
"NMEA", "UBLOX"
};
static const char * const lookupTableGPSSBASMode[] = {
"AUTO", "EGNOS", "WAAS", "MSAS", "GAGAN"
};
#endif
static const char * const lookupTableCurrentSensor[] = {
"NONE", "ADC", "VIRTUAL", "ESC", "MSP"
};
static const char * const lookupTableBatterySensor[] = {
"NONE", "ADC", "ESC"
};
#ifdef USE_SERVOS
static const char * const lookupTableGimbalMode[] = {
"NORMAL", "MIXTILT"
};
#endif
#ifdef USE_BLACKBOX
static const char * const lookupTableBlackboxDevice[] = {
"NONE", "SPIFLASH", "SDCARD", "SERIAL"
};
static const char * const lookupTableBlackboxMode[] = {
"NORMAL", "MOTOR_TEST", "ALWAYS"
};
#endif
#ifdef USE_SERIAL_RX
static const char * const lookupTableSerialRX[] = {
"SPEK1024",
"SPEK2048",
"SBUS",
"SUMD",
"SUMH",
"XB-B",
"XB-B-RJ01",
"IBUS",
"JETIEXBUS",
"CRSF",
"SRXL",
"CUSTOM",
"FPORT",
};
#endif
#ifdef USE_RX_SPI
// sync with rx_spi_protocol_e
static const char * const lookupTableRxSpi[] = {
"V202_250K",
"V202_1M",
"SYMA_X",
"SYMA_X5C",
"CX10",
"CX10A",
"H8_3D",
"INAV",
"FRSKY_D",
"FRSKY_X",
"FLYSKY",
"FLYSKY_2A"
};
#endif
static const char * const lookupTableGyroLpf[] = {
"OFF",
"188HZ",
"98HZ",
"42HZ",
"20HZ",
"10HZ",
"5HZ",
"EXPERIMENTAL"
};
#ifdef USE_OSD
static const char * const lookupTableOsdType[] = {
"AUTO",
"PAL",
"NTSC"
};
#endif
#ifdef USE_CAMERA_CONTROL
static const char * const lookupTableCameraControlMode[] = {
"HARDWARE_PWM",
"SOFTWARE_PWM",
"DAC"
};
#endif
static const char * const lookupTableSuperExpoYaw[] = {
"OFF", "ON", "ALWAYS"
};
static const char * const lookupTablePwmProtocol[] = {
"OFF", "ONESHOT125", "ONESHOT42", "MULTISHOT", "BRUSHED",
#ifdef USE_DSHOT
"DSHOT150", "DSHOT300", "DSHOT600", "DSHOT1200", "PROSHOT1000"
#endif
};
static const char * const lookupTableRcInterpolation[] = {
"OFF", "PRESET", "AUTO", "MANUAL"
};
static const char * const lookupTableRcInterpolationChannels[] = {
"RP", "RPY", "RPYT"
};
static const char * const lookupTableLowpassType[] = {
"PT1", "BIQUAD", "FIR"
};
static const char * const lookupTableFailsafe[] = {
"AUTO-LAND", "DROP"
};
static const char * const lookupTableBusType[] = {
"NONE", "I2C", "SPI", "SLAVE"
};
#ifdef USE_MAX7456
static const char * const lookupTableMax7456Clock[] = {
"HALF", "DEFAULT", "FULL"
};
#endif
#ifdef USE_GYRO_OVERFLOW_CHECK
static const char * const lookupTableGyroOverflowCheck[] = {
"OFF", "YAW", "ALL"
};
#endif
const lookupTableEntry_t lookupTables[] = {
{ lookupTableOffOn, sizeof(lookupTableOffOn) / sizeof(char *) },
{ lookupTableUnit, sizeof(lookupTableUnit) / sizeof(char *) },
{ lookupTableAlignment, sizeof(lookupTableAlignment) / sizeof(char *) },
#ifdef USE_GPS
{ lookupTableGPSProvider, sizeof(lookupTableGPSProvider) / sizeof(char *) },
{ lookupTableGPSSBASMode, sizeof(lookupTableGPSSBASMode) / sizeof(char *) },
#endif
#ifdef USE_BLACKBOX
{ lookupTableBlackboxDevice, sizeof(lookupTableBlackboxDevice) / sizeof(char *) },
{ lookupTableBlackboxMode, sizeof(lookupTableBlackboxMode) / sizeof(char *) },
#endif
{ lookupTableCurrentSensor, sizeof(lookupTableCurrentSensor) / sizeof(char *) },
{ lookupTableBatterySensor, sizeof(lookupTableBatterySensor) / sizeof(char *) },
#ifdef USE_SERVOS
{ lookupTableGimbalMode, sizeof(lookupTableGimbalMode) / sizeof(char *) },
#endif
#ifdef USE_SERIAL_RX
{ lookupTableSerialRX, sizeof(lookupTableSerialRX) / sizeof(char *) },
#endif
#ifdef USE_RX_SPI
{ lookupTableRxSpi, sizeof(lookupTableRxSpi) / sizeof(char *) },
#endif
{ lookupTableGyroLpf, sizeof(lookupTableGyroLpf) / sizeof(char *) },
{ lookupTableGyroHardware, sizeof(lookupTableGyroHardware) / sizeof(char *) },
{ lookupTableAccHardware, sizeof(lookupTableAccHardware) / sizeof(char *) },
#ifdef USE_BARO
{ lookupTableBaroHardware, sizeof(lookupTableBaroHardware) / sizeof(char *) },
#endif
#ifdef USE_MAG
{ lookupTableMagHardware, sizeof(lookupTableMagHardware) / sizeof(char *) },
#endif
{ debugModeNames, sizeof(debugModeNames) / sizeof(char *) },
{ lookupTableSuperExpoYaw, sizeof(lookupTableSuperExpoYaw) / sizeof(char *) },
{ lookupTablePwmProtocol, sizeof(lookupTablePwmProtocol) / sizeof(char *) },
{ lookupTableRcInterpolation, sizeof(lookupTableRcInterpolation) / sizeof(char *) },
{ lookupTableRcInterpolationChannels, sizeof(lookupTableRcInterpolationChannels) / sizeof(char *) },
{ lookupTableLowpassType, sizeof(lookupTableLowpassType) / sizeof(char *) },
{ lookupTableFailsafe, sizeof(lookupTableFailsafe) / sizeof(char *) },
{ lookupTableCrashRecovery, sizeof(lookupTableCrashRecovery) / sizeof(char *) },
#ifdef USE_OSD
{ lookupTableOsdType, sizeof(lookupTableOsdType) / sizeof(char *) },
#endif
#ifdef USE_CAMERA_CONTROL
{ lookupTableCameraControlMode, sizeof(lookupTableCameraControlMode) / sizeof(char *) },
#endif
{ lookupTableBusType, sizeof(lookupTableBusType) / sizeof(char *) },
#ifdef USE_MAX7456
{ lookupTableMax7456Clock, sizeof(lookupTableMax7456Clock) / sizeof(char *) },
#endif
#ifdef USE_RANGEFINDER
{ lookupTableRangefinderHardware, sizeof(lookupTableRangefinderHardware) / sizeof(char *) },
#endif
#ifdef USE_GYRO_OVERFLOW_CHECK
{ lookupTableGyroOverflowCheck, sizeof(lookupTableGyroOverflowCheck) / sizeof(char *) },
#endif
};
const clivalue_t valueTable[] = {
// PG_GYRO_CONFIG
{ "align_gyro", VAR_UINT8 | MASTER_VALUE | MODE_LOOKUP, .config.lookup = { TABLE_ALIGNMENT }, PG_GYRO_CONFIG, offsetof(gyroConfig_t, gyro_align) },
{ "gyro_lpf", VAR_UINT8 | MASTER_VALUE | MODE_LOOKUP, .config.lookup = { TABLE_GYRO_LPF }, PG_GYRO_CONFIG, offsetof(gyroConfig_t, gyro_lpf) },
#if defined(USE_GYRO_SPI_ICM20649)
{ "gyro_high_range", VAR_UINT8 | MASTER_VALUE | MODE_LOOKUP, .config.lookup = { TABLE_OFF_ON }, PG_GYRO_CONFIG, offsetof(gyroConfig_t, gyro_high_fsr) },
#endif
{ "gyro_sync_denom", VAR_UINT8 | MASTER_VALUE, .config.minmax = { 1, 32 }, PG_GYRO_CONFIG, offsetof(gyroConfig_t, gyro_sync_denom) },
{ "gyro_lowpass_type", VAR_UINT8 | MASTER_VALUE | MODE_LOOKUP, .config.lookup = { TABLE_LOWPASS_TYPE }, PG_GYRO_CONFIG, offsetof(gyroConfig_t, gyro_soft_lpf_type) },
{ "gyro_lowpass_hz", VAR_UINT8 | MASTER_VALUE, .config.minmax = { 0, 255 }, PG_GYRO_CONFIG, offsetof(gyroConfig_t, gyro_soft_lpf_hz) },
{ "gyro_notch1_hz", VAR_UINT16 | MASTER_VALUE, .config.minmax = { 0, 16000 }, PG_GYRO_CONFIG, offsetof(gyroConfig_t, gyro_soft_notch_hz_1) },
{ "gyro_notch1_cutoff", VAR_UINT16 | MASTER_VALUE, .config.minmax = { 0, 16000 }, PG_GYRO_CONFIG, offsetof(gyroConfig_t, gyro_soft_notch_cutoff_1) },
{ "gyro_notch2_hz", VAR_UINT16 | MASTER_VALUE, .config.minmax = { 0, 16000 }, PG_GYRO_CONFIG, offsetof(gyroConfig_t, gyro_soft_notch_hz_2) },
{ "gyro_notch2_cutoff", VAR_UINT16 | MASTER_VALUE, .config.minmax = { 0, 16000 }, PG_GYRO_CONFIG, offsetof(gyroConfig_t, gyro_soft_notch_cutoff_2) },
{ "moron_threshold", VAR_UINT8 | MASTER_VALUE, .config.minmax = { 0, 200 }, PG_GYRO_CONFIG, offsetof(gyroConfig_t, gyroMovementCalibrationThreshold) },
#ifdef USE_GYRO_OVERFLOW_CHECK
{ "gyro_overflow_detect", VAR_UINT8 | MASTER_VALUE | MODE_LOOKUP, .config.lookup = { TABLE_GYRO_OVERFLOW_CHECK }, PG_GYRO_CONFIG, offsetof(gyroConfig_t, checkOverflow) },
#endif
#if defined(GYRO_USES_SPI)
#if defined(USE_GYRO_SPI_MPU6500) || defined(USE_GYRO_SPI_MPU9250) || defined(USE_GYRO_SPI_ICM20689)
{ "gyro_use_32khz", VAR_UINT8 | MASTER_VALUE | MODE_LOOKUP, .config.lookup = { TABLE_OFF_ON }, PG_GYRO_CONFIG, offsetof(gyroConfig_t, gyro_use_32khz) },
#endif
#endif
#ifdef USE_DUAL_GYRO
{ "gyro_to_use", VAR_UINT8 | MASTER_VALUE, .config.minmax = { 0, 1 }, PG_GYRO_CONFIG, offsetof(gyroConfig_t, gyro_to_use) },
#endif
// PG_ACCELEROMETER_CONFIG
{ "align_acc", VAR_UINT8 | MASTER_VALUE | MODE_LOOKUP, .config.lookup = { TABLE_ALIGNMENT }, PG_ACCELEROMETER_CONFIG, offsetof(accelerometerConfig_t, acc_align) },
{ "acc_hardware", VAR_UINT8 | MASTER_VALUE | MODE_LOOKUP, .config.lookup = { TABLE_ACC_HARDWARE }, PG_ACCELEROMETER_CONFIG, offsetof(accelerometerConfig_t, acc_hardware) },
#if defined(USE_GYRO_SPI_ICM20649)
{ "acc_high_range", VAR_UINT8 | MASTER_VALUE | MODE_LOOKUP, .config.lookup = { TABLE_OFF_ON }, PG_ACCELEROMETER_CONFIG, offsetof(accelerometerConfig_t, acc_high_fsr) },
#endif
{ "acc_lpf_hz", VAR_UINT16 | MASTER_VALUE, .config.minmax = { 0, 400 }, PG_ACCELEROMETER_CONFIG, offsetof(accelerometerConfig_t, acc_lpf_hz) },
{ "acc_trim_pitch", VAR_INT16 | MASTER_VALUE, .config.minmax = { -300, 300 }, PG_ACCELEROMETER_CONFIG, offsetof(accelerometerConfig_t, accelerometerTrims.values.pitch) },
{ "acc_trim_roll", VAR_INT16 | MASTER_VALUE, .config.minmax = { -300, 300 }, PG_ACCELEROMETER_CONFIG, offsetof(accelerometerConfig_t, accelerometerTrims.values.roll) },
// PG_COMPASS_CONFIG
#ifdef USE_MAG
{ "align_mag", VAR_UINT8 | MASTER_VALUE | MODE_LOOKUP, .config.lookup = { TABLE_ALIGNMENT }, PG_COMPASS_CONFIG, offsetof(compassConfig_t, mag_align) },
{ "mag_bustype", VAR_UINT8 | MASTER_VALUE | MODE_LOOKUP, .config.lookup = { TABLE_BUS_TYPE }, PG_COMPASS_CONFIG, offsetof(compassConfig_t, mag_bustype) },
{ "mag_i2c_device", VAR_UINT8 | MASTER_VALUE, .config.minmax = { 0, I2CDEV_COUNT }, PG_COMPASS_CONFIG, offsetof(compassConfig_t, mag_i2c_device) },
{ "mag_i2c_address", VAR_UINT8 | MASTER_VALUE, .config.minmax = { 0, I2C_ADDR7_MAX }, PG_COMPASS_CONFIG, offsetof(compassConfig_t, mag_i2c_address) },
{ "mag_spi_device", VAR_UINT8 | MASTER_VALUE, .config.minmax = { 0, SPIDEV_COUNT }, PG_COMPASS_CONFIG, offsetof(compassConfig_t, mag_spi_device) },
{ "mag_hardware", VAR_UINT8 | MASTER_VALUE | MODE_LOOKUP, .config.lookup = { TABLE_MAG_HARDWARE }, PG_COMPASS_CONFIG, offsetof(compassConfig_t, mag_hardware) },
{ "mag_declination", VAR_INT16 | MASTER_VALUE, .config.minmax = { -18000, 18000 }, PG_COMPASS_CONFIG, offsetof(compassConfig_t, mag_declination) },
{ "magzero_x", VAR_INT16 | MASTER_VALUE, .config.minmax = { INT16_MIN, INT16_MAX }, PG_COMPASS_CONFIG, offsetof(compassConfig_t, magZero.raw[X]) },
{ "magzero_y", VAR_INT16 | MASTER_VALUE, .config.minmax = { INT16_MIN, INT16_MAX }, PG_COMPASS_CONFIG, offsetof(compassConfig_t, magZero.raw[Y]) },
{ "magzero_z", VAR_INT16 | MASTER_VALUE, .config.minmax = { INT16_MIN, INT16_MAX }, PG_COMPASS_CONFIG, offsetof(compassConfig_t, magZero.raw[Z]) },
#endif
// PG_BAROMETER_CONFIG
#ifdef USE_BARO
{ "baro_bustype", VAR_UINT8 | MASTER_VALUE | MODE_LOOKUP, .config.lookup = { TABLE_BUS_TYPE }, PG_BAROMETER_CONFIG, offsetof(barometerConfig_t, baro_bustype) },
{ "baro_spi_device", VAR_UINT8 | MASTER_VALUE, .config.minmax = { 0, 5 }, PG_BAROMETER_CONFIG, offsetof(barometerConfig_t, baro_spi_device) },
{ "baro_i2c_device", VAR_UINT8 | MASTER_VALUE, .config.minmax = { 0, 5 }, PG_BAROMETER_CONFIG, offsetof(barometerConfig_t, baro_i2c_device) },
{ "baro_i2c_address", VAR_UINT8 | MASTER_VALUE, .config.minmax = { 0, I2C_ADDR7_MAX }, PG_BAROMETER_CONFIG, offsetof(barometerConfig_t, baro_i2c_address) },
{ "baro_hardware", VAR_UINT8 | MASTER_VALUE | MODE_LOOKUP, .config.lookup = { TABLE_BARO_HARDWARE }, PG_BAROMETER_CONFIG, offsetof(barometerConfig_t, baro_hardware) },
{ "baro_tab_size", VAR_UINT8 | MASTER_VALUE, .config.minmax = { 0, BARO_SAMPLE_COUNT_MAX }, PG_BAROMETER_CONFIG, offsetof(barometerConfig_t, baro_sample_count) },
{ "baro_noise_lpf", VAR_UINT16 | MASTER_VALUE, .config.minmax = { 0, 1000 }, PG_BAROMETER_CONFIG, offsetof(barometerConfig_t, baro_noise_lpf) },
{ "baro_cf_vel", VAR_UINT16 | MASTER_VALUE, .config.minmax = { 0, 1000 }, PG_BAROMETER_CONFIG, offsetof(barometerConfig_t, baro_cf_vel) },
{ "baro_cf_alt", VAR_UINT16 | MASTER_VALUE, .config.minmax = { 0, 1000 }, PG_BAROMETER_CONFIG, offsetof(barometerConfig_t, baro_cf_alt) },
#endif
// PG_RX_CONFIG
{ "mid_rc", VAR_UINT16 | MASTER_VALUE, .config.minmax = { 1200, 1700 }, PG_RX_CONFIG, offsetof(rxConfig_t, midrc) },
{ "min_check", VAR_UINT16 | MASTER_VALUE, .config.minmax = { PWM_RANGE_ZERO, PWM_RANGE_MAX }, PG_RX_CONFIG, offsetof(rxConfig_t, mincheck) },
{ "max_check", VAR_UINT16 | MASTER_VALUE, .config.minmax = { PWM_RANGE_ZERO, PWM_RANGE_MAX }, PG_RX_CONFIG, offsetof(rxConfig_t, maxcheck) },
{ "rssi_channel", VAR_INT8 | MASTER_VALUE, .config.minmax = { 0, MAX_SUPPORTED_RC_CHANNEL_COUNT }, PG_RX_CONFIG, offsetof(rxConfig_t, rssi_channel) },
{ "rssi_scale", VAR_UINT8 | MASTER_VALUE, .config.minmax = { RSSI_SCALE_MIN, RSSI_SCALE_MAX }, PG_RX_CONFIG, offsetof(rxConfig_t, rssi_scale) },
{ "rssi_invert", VAR_INT8 | MASTER_VALUE | MODE_LOOKUP, .config.lookup = { TABLE_OFF_ON }, PG_RX_CONFIG, offsetof(rxConfig_t, rssi_invert) },
{ "rc_interp", VAR_UINT8 | MASTER_VALUE | MODE_LOOKUP, .config.lookup = { TABLE_RC_INTERPOLATION }, PG_RX_CONFIG, offsetof(rxConfig_t, rcInterpolation) },
{ "rc_interp_ch", VAR_UINT8 | MASTER_VALUE | MODE_LOOKUP, .config.lookup = { TABLE_RC_INTERPOLATION_CHANNELS }, PG_RX_CONFIG, offsetof(rxConfig_t, rcInterpolationChannels) },
{ "rc_interp_int", VAR_UINT8 | MASTER_VALUE, .config.minmax = { 1, 50 }, PG_RX_CONFIG, offsetof(rxConfig_t, rcInterpolationInterval) },
{ "fpv_mix_degrees", VAR_UINT8 | MASTER_VALUE, .config.minmax = { 0, 50 }, PG_RX_CONFIG, offsetof(rxConfig_t, fpvCamAngleDegrees) },
{ "max_aux_channels", VAR_UINT8 | MASTER_VALUE, .config.minmax = { 0, MAX_AUX_CHANNEL_COUNT }, PG_RX_CONFIG, offsetof(rxConfig_t, max_aux_channel) },
#ifdef USE_SERIAL_RX
{ "serialrx_provider", VAR_UINT8 | MASTER_VALUE | MODE_LOOKUP, .config.lookup = { TABLE_SERIAL_RX }, PG_RX_CONFIG, offsetof(rxConfig_t, serialrx_provider) },
{ "serialrx_inverted", VAR_UINT8 | MASTER_VALUE | MODE_LOOKUP, .config.lookup = { TABLE_OFF_ON }, PG_RX_CONFIG, offsetof(rxConfig_t, serialrx_inverted) },
#endif
#ifdef USE_SPEKTRUM_BIND
{ "spektrum_sat_bind", VAR_UINT8 | MASTER_VALUE, .config.minmax = { SPEKTRUM_SAT_BIND_DISABLED, SPEKTRUM_SAT_BIND_MAX}, PG_RX_CONFIG, offsetof(rxConfig_t, spektrum_sat_bind) },
{ "spektrum_sat_bind_autoreset",VAR_UINT8 | MASTER_VALUE | MODE_LOOKUP, .config.lookup = { TABLE_OFF_ON }, PG_RX_CONFIG, offsetof(rxConfig_t, spektrum_sat_bind_autoreset) },
#endif
{ "airmode_start_throttle", VAR_UINT16 | MASTER_VALUE, .config.minmax = { 1000, 2000 }, PG_RX_CONFIG, offsetof(rxConfig_t, airModeActivateThreshold) },
{ "rx_min_usec", VAR_UINT16 | MASTER_VALUE, .config.minmax = { PWM_PULSE_MIN, PWM_PULSE_MAX }, PG_RX_CONFIG, offsetof(rxConfig_t, rx_min_usec) },
{ "rx_max_usec", VAR_UINT16 | MASTER_VALUE, .config.minmax = { PWM_PULSE_MIN, PWM_PULSE_MAX }, PG_RX_CONFIG, offsetof(rxConfig_t, rx_max_usec) },
{ "serialrx_halfduplex", VAR_UINT8 | MASTER_VALUE | MODE_LOOKUP, .config.lookup = { TABLE_OFF_ON }, PG_RX_CONFIG, offsetof(rxConfig_t, halfDuplex) },
#ifdef USE_RX_SPI
{ "rx_spi_protocol", VAR_UINT8 | MASTER_VALUE | MODE_LOOKUP, .config.lookup = { TABLE_RX_SPI }, PG_RX_CONFIG, offsetof(rxConfig_t, rx_spi_protocol) },
#endif
// PG_ADC_CONFIG
#if defined(ADC)
{ "adc_device", VAR_INT8 | MASTER_VALUE, .config.minmax = { 0, ADCDEV_COUNT }, PG_ADC_CONFIG, offsetof(adcConfig_t, device) },
#endif
// PG_PWM_CONFIG
#if defined(USE_PWM)
{ "input_filtering_mode", VAR_INT8 | MASTER_VALUE | MODE_LOOKUP, .config.lookup = { TABLE_OFF_ON }, PG_PWM_CONFIG, offsetof(pwmConfig_t, inputFilteringMode) },
#endif
// PG_BLACKBOX_CONFIG
#ifdef USE_BLACKBOX
{ "blackbox_p_ratio", VAR_UINT16 | MASTER_VALUE, .config.minmax = { 0, INT16_MAX }, PG_BLACKBOX_CONFIG, offsetof(blackboxConfig_t, p_denom) },
{ "blackbox_device", VAR_UINT8 | MASTER_VALUE | MODE_LOOKUP, .config.lookup = { TABLE_BLACKBOX_DEVICE }, PG_BLACKBOX_CONFIG, offsetof(blackboxConfig_t, device) },
{ "blackbox_record_acc", VAR_UINT8 | MASTER_VALUE | MODE_LOOKUP, .config.lookup = { TABLE_OFF_ON }, PG_BLACKBOX_CONFIG, offsetof(blackboxConfig_t, record_acc) },
{ "blackbox_mode", VAR_UINT8 | MASTER_VALUE | MODE_LOOKUP, .config.lookup = { TABLE_BLACKBOX_MODE }, PG_BLACKBOX_CONFIG, offsetof(blackboxConfig_t, mode) },
#endif
// PG_MOTOR_CONFIG
{ "min_throttle", VAR_UINT16 | MASTER_VALUE, .config.minmax = { PWM_RANGE_ZERO, PWM_RANGE_MAX }, PG_MOTOR_CONFIG, offsetof(motorConfig_t, minthrottle) },
{ "max_throttle", VAR_UINT16 | MASTER_VALUE, .config.minmax = { PWM_RANGE_ZERO, PWM_RANGE_MAX }, PG_MOTOR_CONFIG, offsetof(motorConfig_t, maxthrottle) },
{ "min_command", VAR_UINT16 | MASTER_VALUE, .config.minmax = { PWM_RANGE_ZERO, PWM_RANGE_MAX }, PG_MOTOR_CONFIG, offsetof(motorConfig_t, mincommand) },
#ifdef USE_DSHOT
{ "dshot_idle_value", VAR_UINT16 | MASTER_VALUE, .config.minmax = { 0, 2000 }, PG_MOTOR_CONFIG, offsetof(motorConfig_t, digitalIdleOffsetValue) },
#endif
{ "use_unsynced_pwm", VAR_UINT8 | MASTER_VALUE | MODE_LOOKUP, .config.lookup = { TABLE_OFF_ON }, PG_MOTOR_CONFIG, offsetof(motorConfig_t, dev.useUnsyncedPwm) },
{ "motor_pwm_protocol", VAR_UINT8 | MASTER_VALUE | MODE_LOOKUP, .config.lookup = { TABLE_MOTOR_PWM_PROTOCOL }, PG_MOTOR_CONFIG, offsetof(motorConfig_t, dev.motorPwmProtocol) },
{ "motor_pwm_rate", VAR_UINT16 | MASTER_VALUE, .config.minmax = { 200, 32000 }, PG_MOTOR_CONFIG, offsetof(motorConfig_t, dev.motorPwmRate) },
{ "motor_pwm_inversion", VAR_UINT8 | MASTER_VALUE | MODE_LOOKUP, .config.lookup = { TABLE_OFF_ON }, PG_MOTOR_CONFIG, offsetof(motorConfig_t, dev.motorPwmInversion) },
// PG_THROTTLE_CORRECTION_CONFIG
{ "thr_corr_value", VAR_UINT8 | MASTER_VALUE, .config.minmax = { 0, 150 }, PG_THROTTLE_CORRECTION_CONFIG, offsetof(throttleCorrectionConfig_t, throttle_correction_value) },
{ "thr_corr_angle", VAR_UINT16 | MASTER_VALUE, .config.minmax = { 1, 900 }, PG_THROTTLE_CORRECTION_CONFIG, offsetof(throttleCorrectionConfig_t, throttle_correction_angle) },
// PG_FAILSAFE_CONFIG
{ "failsafe_delay", VAR_UINT8 | MASTER_VALUE, .config.minmax = { 0, 200 }, PG_FAILSAFE_CONFIG, offsetof(failsafeConfig_t, failsafe_delay) },
{ "failsafe_off_delay", VAR_UINT8 | MASTER_VALUE, .config.minmax = { 0, 200 }, PG_FAILSAFE_CONFIG, offsetof(failsafeConfig_t, failsafe_off_delay) },
{ "failsafe_throttle", VAR_UINT16 | MASTER_VALUE, .config.minmax = { PWM_RANGE_MIN, PWM_RANGE_MAX }, PG_FAILSAFE_CONFIG, offsetof(failsafeConfig_t, failsafe_throttle) },
{ "failsafe_kill_switch", VAR_UINT8 | MASTER_VALUE | MODE_LOOKUP, .config.lookup = { TABLE_OFF_ON }, PG_FAILSAFE_CONFIG, offsetof(failsafeConfig_t, failsafe_kill_switch) },
{ "failsafe_throttle_low_delay",VAR_UINT16 | MASTER_VALUE, .config.minmax = { 0, 300 }, PG_FAILSAFE_CONFIG, offsetof(failsafeConfig_t, failsafe_throttle_low_delay) },
{ "failsafe_procedure", VAR_UINT8 | MASTER_VALUE | MODE_LOOKUP, .config.lookup = { TABLE_FAILSAFE }, PG_FAILSAFE_CONFIG, offsetof(failsafeConfig_t, failsafe_procedure) },
// PG_BOARDALIGNMENT_CONFIG
{ "align_board_roll", VAR_INT16 | MASTER_VALUE, .config.minmax = { -180, 360 }, PG_BOARD_ALIGNMENT, offsetof(boardAlignment_t, rollDegrees) },
{ "align_board_pitch", VAR_INT16 | MASTER_VALUE, .config.minmax = { -180, 360 }, PG_BOARD_ALIGNMENT, offsetof(boardAlignment_t, pitchDegrees) },
{ "align_board_yaw", VAR_INT16 | MASTER_VALUE, .config.minmax = { -180, 360 }, PG_BOARD_ALIGNMENT, offsetof(boardAlignment_t, yawDegrees) },
// PG_GIMBAL_CONFIG
#ifdef USE_SERVOS
{ "gimbal_mode", VAR_UINT8 | MASTER_VALUE | MODE_LOOKUP, .config.lookup = { TABLE_GIMBAL_MODE }, PG_GIMBAL_CONFIG, offsetof(gimbalConfig_t, mode) },
#endif
// PG_BATTERY_CONFIG
{ "bat_capacity", VAR_UINT16 | MASTER_VALUE, .config.minmax = { 0, 20000 }, PG_BATTERY_CONFIG, offsetof(batteryConfig_t, batteryCapacity) },
{ "vbat_max_cell_voltage", VAR_UINT8 | MASTER_VALUE, .config.minmax = { 10, 50 }, PG_BATTERY_CONFIG, offsetof(batteryConfig_t, vbatmaxcellvoltage) },
{ "vbat_full_cell_voltage", VAR_UINT8 | MASTER_VALUE, .config.minmax = { 10, 50 }, PG_BATTERY_CONFIG, offsetof(batteryConfig_t, vbatfullcellvoltage) },
{ "vbat_min_cell_voltage", VAR_UINT8 | MASTER_VALUE, .config.minmax = { 10, 50 }, PG_BATTERY_CONFIG, offsetof(batteryConfig_t, vbatmincellvoltage) },
{ "vbat_warning_cell_voltage", VAR_UINT8 | MASTER_VALUE, .config.minmax = { 10, 50 }, PG_BATTERY_CONFIG, offsetof(batteryConfig_t, vbatwarningcellvoltage) },
{ "vbat_hysteresis", VAR_UINT8 | MASTER_VALUE, .config.minmax = { 0, 250 }, PG_BATTERY_CONFIG, offsetof(batteryConfig_t, vbathysteresis) },
{ "current_meter", VAR_UINT8 | MASTER_VALUE | MODE_LOOKUP, .config.lookup = { TABLE_CURRENT_METER }, PG_BATTERY_CONFIG, offsetof(batteryConfig_t, currentMeterSource) },
{ "battery_meter", VAR_UINT8 | MASTER_VALUE | MODE_LOOKUP, .config.lookup = { TABLE_VOLTAGE_METER }, PG_BATTERY_CONFIG, offsetof(batteryConfig_t, voltageMeterSource) },
{ "vbat_detect_cell_voltage", VAR_UINT8 | MASTER_VALUE, .config.minmax = { 0, 200 }, PG_BATTERY_CONFIG, offsetof(batteryConfig_t, vbatnotpresentcellvoltage) },
{ "use_vbat_alerts", VAR_UINT8 | MASTER_VALUE | MODE_LOOKUP, .config.lookup = { TABLE_OFF_ON }, PG_BATTERY_CONFIG, offsetof(batteryConfig_t, useVBatAlerts) },
{ "use_cbat_alerts", VAR_UINT8 | MASTER_VALUE | MODE_LOOKUP, .config.lookup = { TABLE_OFF_ON }, PG_BATTERY_CONFIG, offsetof(batteryConfig_t, useConsumptionAlerts) },
{ "cbat_alert_percent", VAR_UINT8 | MASTER_VALUE, .config.minmax = { 0, 100 }, PG_BATTERY_CONFIG, offsetof(batteryConfig_t, consumptionWarningPercentage) },
{ "vbat_cutoff_percent", VAR_UINT8 | MASTER_VALUE, .config.minmax = { 0, 100 }, PG_BATTERY_CONFIG, offsetof(batteryConfig_t, lvcPercentage) },
// PG_VOLTAGE_SENSOR_ADC_CONFIG
{ "vbat_scale", VAR_UINT8 | MASTER_VALUE, .config.minmax = { VBAT_SCALE_MIN, VBAT_SCALE_MAX }, PG_VOLTAGE_SENSOR_ADC_CONFIG, offsetof(voltageSensorADCConfig_t, vbatscale) },
// PG_CURRENT_SENSOR_ADC_CONFIG
{ "ibata_scale", VAR_INT16 | MASTER_VALUE, .config.minmax = { -16000, 16000 }, PG_CURRENT_SENSOR_ADC_CONFIG, offsetof(currentSensorADCConfig_t, scale) },
{ "ibata_offset", VAR_INT16 | MASTER_VALUE, .config.minmax = { -16000, 16000 }, PG_CURRENT_SENSOR_ADC_CONFIG, offsetof(currentSensorADCConfig_t, offset) },
// PG_CURRENT_SENSOR_ADC_CONFIG
#ifdef USE_VIRTUAL_CURRENT_METER
{ "ibatv_scale", VAR_INT16 | MASTER_VALUE, .config.minmax = { -16000, 16000 }, PG_CURRENT_SENSOR_VIRTUAL_CONFIG, offsetof(currentSensorVirtualConfig_t, scale) },
{ "ibatv_offset", VAR_INT16 | MASTER_VALUE, .config.minmax = { -16000, 16000 }, PG_CURRENT_SENSOR_VIRTUAL_CONFIG, offsetof(currentSensorVirtualConfig_t, offset) },
#endif
#ifdef BEEPER
// PG_BEEPER_DEV_CONFIG
{ "beeper_inversion", VAR_UINT8 | MASTER_VALUE | MODE_LOOKUP, .config.lookup = { TABLE_OFF_ON }, PG_BEEPER_DEV_CONFIG, offsetof(beeperDevConfig_t, isInverted) },
{ "beeper_od", VAR_UINT8 | MASTER_VALUE | MODE_LOOKUP, .config.lookup = { TABLE_OFF_ON }, PG_BEEPER_DEV_CONFIG, offsetof(beeperDevConfig_t, isOpenDrain) },
{ "beeper_frequency", VAR_INT16 | MASTER_VALUE, .config.minmax = { 0, 16000 }, PG_BEEPER_DEV_CONFIG, offsetof(beeperDevConfig_t, frequency) },
// PG_BEEPER_CONFIG
#ifdef USE_DSHOT
{ "beeper_dshot_beacon_tone", VAR_UINT8 | MASTER_VALUE, .config.minmax = {0, DSHOT_CMD_BEACON5 }, PG_BEEPER_CONFIG, offsetof(beeperConfig_t, dshotBeaconTone) },
#endif
#endif
// PG_MIXER_CONFIG
{ "yaw_motors_reversed", VAR_INT8 | MASTER_VALUE | MODE_LOOKUP, .config.lookup = { TABLE_OFF_ON }, PG_MIXER_CONFIG, offsetof(mixerConfig_t, yaw_motors_reversed) },
// PG_MOTOR_3D_CONFIG
{ "3d_deadband_low", VAR_UINT16 | MASTER_VALUE, .config.minmax = { PWM_RANGE_ZERO, PWM_RANGE_MAX }, PG_MOTOR_3D_CONFIG, offsetof(flight3DConfig_t, deadband3d_low) }, // FIXME upper limit should match code in the mixer, 1500 currently
{ "3d_deadband_high", VAR_UINT16 | MASTER_VALUE, .config.minmax = { PWM_RANGE_ZERO, PWM_RANGE_MAX }, PG_MOTOR_3D_CONFIG, offsetof(flight3DConfig_t, deadband3d_high) }, // FIXME lower limit should match code in the mixer, 1500 currently,
{ "3d_neutral", VAR_UINT16 | MASTER_VALUE, .config.minmax = { PWM_RANGE_ZERO, PWM_RANGE_MAX }, PG_MOTOR_3D_CONFIG, offsetof(flight3DConfig_t, neutral3d) },
{ "3d_deadband_throttle", VAR_UINT16 | MASTER_VALUE, .config.minmax = { PWM_RANGE_ZERO, PWM_RANGE_MAX }, PG_MOTOR_3D_CONFIG, offsetof(flight3DConfig_t, deadband3d_throttle) },
// PG_SERVO_CONFIG
#ifdef USE_SERVOS
{ "servo_center_pulse", VAR_UINT16 | MASTER_VALUE, .config.minmax = { PWM_RANGE_ZERO, PWM_RANGE_MAX }, PG_SERVO_CONFIG, offsetof(servoConfig_t, dev.servoCenterPulse) },
{ "servo_pwm_rate", VAR_UINT16 | MASTER_VALUE, .config.minmax = { 50, 498 }, PG_SERVO_CONFIG, offsetof(servoConfig_t, dev.servoPwmRate) },
{ "servo_lowpass_hz", VAR_UINT16 | MASTER_VALUE, .config.minmax = { 0, 400}, PG_SERVO_CONFIG, offsetof(servoConfig_t, servo_lowpass_freq) },
{ "tri_unarmed_servo", VAR_INT8 | MASTER_VALUE | MODE_LOOKUP, .config.lookup = { TABLE_OFF_ON }, PG_SERVO_CONFIG, offsetof(servoConfig_t, tri_unarmed_servo) },
{ "channel_forwarding_start", VAR_UINT8 | MASTER_VALUE, .config.minmax = { AUX1, MAX_SUPPORTED_RC_CHANNEL_COUNT }, PG_SERVO_CONFIG, offsetof(servoConfig_t, channelForwardingStartChannel) },
#endif
// PG_CONTROLRATE_PROFILES
{ "rc_rate", VAR_UINT8 | PROFILE_RATE_VALUE, .config.minmax = { 0, 255 }, PG_CONTROL_RATE_PROFILES, offsetof(controlRateConfig_t, rcRate8) },
{ "rc_rate_yaw", VAR_UINT8 | PROFILE_RATE_VALUE, .config.minmax = { 0, 255 }, PG_CONTROL_RATE_PROFILES, offsetof(controlRateConfig_t, rcYawRate8) },
{ "rc_expo", VAR_UINT8 | PROFILE_RATE_VALUE, .config.minmax = { 0, 100 }, PG_CONTROL_RATE_PROFILES, offsetof(controlRateConfig_t, rcExpo8) },
{ "rc_expo_yaw", VAR_UINT8 | PROFILE_RATE_VALUE, .config.minmax = { 0, 100 }, PG_CONTROL_RATE_PROFILES, offsetof(controlRateConfig_t, rcYawExpo8) },
{ "thr_mid", VAR_UINT8 | PROFILE_RATE_VALUE, .config.minmax = { 0, 100 }, PG_CONTROL_RATE_PROFILES, offsetof(controlRateConfig_t, thrMid8) },
{ "thr_expo", VAR_UINT8 | PROFILE_RATE_VALUE, .config.minmax = { 0, 100 }, PG_CONTROL_RATE_PROFILES, offsetof(controlRateConfig_t, thrExpo8) },
{ "roll_srate", VAR_UINT8 | PROFILE_RATE_VALUE, .config.minmax = { 0, CONTROL_RATE_CONFIG_ROLL_PITCH_RATE_MAX }, PG_CONTROL_RATE_PROFILES, offsetof(controlRateConfig_t, rates[FD_ROLL]) },
{ "pitch_srate", VAR_UINT8 | PROFILE_RATE_VALUE, .config.minmax = { 0, CONTROL_RATE_CONFIG_ROLL_PITCH_RATE_MAX }, PG_CONTROL_RATE_PROFILES, offsetof(controlRateConfig_t, rates[FD_PITCH]) },
{ "yaw_srate", VAR_UINT8 | PROFILE_RATE_VALUE, .config.minmax = { 0, CONTROL_RATE_CONFIG_YAW_RATE_MAX }, PG_CONTROL_RATE_PROFILES, offsetof(controlRateConfig_t, rates[FD_YAW]) },
{ "tpa_rate", VAR_UINT8 | PROFILE_RATE_VALUE, .config.minmax = { 0, CONTROL_RATE_CONFIG_TPA_MAX}, PG_CONTROL_RATE_PROFILES, offsetof(controlRateConfig_t, dynThrPID) },
{ "tpa_breakpoint", VAR_UINT16 | PROFILE_RATE_VALUE, .config.minmax = { PWM_RANGE_MIN, PWM_RANGE_MAX}, PG_CONTROL_RATE_PROFILES, offsetof(controlRateConfig_t, tpa_breakpoint) },
// PG_SERIAL_CONFIG
{ "reboot_character", VAR_UINT8 | MASTER_VALUE, .config.minmax = { 48, 126 }, PG_SERIAL_CONFIG, offsetof(serialConfig_t, reboot_character) },
{ "serial_update_rate_hz", VAR_UINT16 | MASTER_VALUE, .config.minmax = { 100, 2000 }, PG_SERIAL_CONFIG, offsetof(serialConfig_t, serial_update_rate_hz) },
// PG_IMU_CONFIG
{ "accxy_deadband", VAR_UINT8 | MASTER_VALUE, .config.minmax = { 0, 100 }, PG_IMU_CONFIG, offsetof(imuConfig_t, accDeadband.xy) },
{ "accz_deadband", VAR_UINT8 | MASTER_VALUE, .config.minmax = { 0, 100 }, PG_IMU_CONFIG, offsetof(imuConfig_t, accDeadband.z) },
{ "acc_unarmedcal", VAR_UINT8 | MASTER_VALUE | MODE_LOOKUP, .config.lookup = { TABLE_OFF_ON }, PG_IMU_CONFIG, offsetof(imuConfig_t, acc_unarmedcal) },
{ "imu_dcm_kp", VAR_UINT16 | MASTER_VALUE, .config.minmax = { 0, 32000 }, PG_IMU_CONFIG, offsetof(imuConfig_t, dcm_kp) },
{ "imu_dcm_ki", VAR_UINT16 | MASTER_VALUE, .config.minmax = { 0, 32000 }, PG_IMU_CONFIG, offsetof(imuConfig_t, dcm_ki) },
{ "small_angle", VAR_UINT8 | MASTER_VALUE, .config.minmax = { 0, 180 }, PG_IMU_CONFIG, offsetof(imuConfig_t, small_angle) },
// PG_ARMING_CONFIG
{ "auto_disarm_delay", VAR_UINT8 | MASTER_VALUE, .config.minmax = { 0, 60 }, PG_ARMING_CONFIG, offsetof(armingConfig_t, auto_disarm_delay) },
{ "disarm_kill_switch", VAR_UINT8 | MASTER_VALUE | MODE_LOOKUP, .config.lookup = { TABLE_OFF_ON }, PG_ARMING_CONFIG, offsetof(armingConfig_t, disarm_kill_switch) },
{ "gyro_cal_on_first_arm", VAR_UINT8 | MASTER_VALUE | MODE_LOOKUP, .config.lookup = { TABLE_OFF_ON }, PG_ARMING_CONFIG, offsetof(armingConfig_t, gyro_cal_on_first_arm) },
// PG_GPS_CONFIG
#ifdef USE_GPS
{ "gps_provider", VAR_UINT8 | MASTER_VALUE | MODE_LOOKUP, .config.lookup = { TABLE_GPS_PROVIDER }, PG_GPS_CONFIG, offsetof(gpsConfig_t, provider) },
{ "gps_sbas_mode", VAR_UINT8 | MASTER_VALUE | MODE_LOOKUP, .config.lookup = { TABLE_GPS_SBAS_MODE }, PG_GPS_CONFIG, offsetof(gpsConfig_t, sbasMode) },
{ "gps_auto_config", VAR_UINT8 | MASTER_VALUE | MODE_LOOKUP, .config.lookup = { TABLE_OFF_ON }, PG_GPS_CONFIG, offsetof(gpsConfig_t, autoConfig) },
{ "gps_auto_baud", VAR_UINT8 | MASTER_VALUE | MODE_LOOKUP, .config.lookup = { TABLE_OFF_ON }, PG_GPS_CONFIG, offsetof(gpsConfig_t, autoBaud) },
#endif
// PG_NAVIGATION_CONFIG
#ifdef USE_NAV
{ "gps_wp_radius", VAR_UINT16 | MASTER_VALUE, .config.minmax = { 0, 2000 }, PG_NAVIGATION_CONFIG, offsetof(navigationConfig_t, gps_wp_radius) },
{ "nav_controls_heading", VAR_UINT8 | MASTER_VALUE | MODE_LOOKUP, .config.lookup = { TABLE_OFF_ON }, PG_NAVIGATION_CONFIG, offsetof(navigationConfig_t, nav_controls_heading) },
{ "nav_speed_min", VAR_UINT16 | MASTER_VALUE, .config.minmax = { 10, 2000 }, PG_NAVIGATION_CONFIG, offsetof(navigationConfig_t, nav_speed_min) },
{ "nav_speed_max", VAR_UINT16 | MASTER_VALUE, .config.minmax = { 10, 2000 }, PG_NAVIGATION_CONFIG, offsetof(navigationConfig_t, nav_speed_max) },
{ "nav_slew_rate", VAR_UINT8 | MASTER_VALUE, .config.minmax = { 0, 100 }, PG_NAVIGATION_CONFIG, offsetof(navigationConfig_t, nav_slew_rate) },
#endif
// PG_AIRPLANE_CONFIG
#if defined(USE_ALT_HOLD)
{ "fixedwing_althold_reversed", VAR_INT8 | MASTER_VALUE | MODE_LOOKUP, .config.lookup = { TABLE_OFF_ON }, PG_AIRPLANE_CONFIG, offsetof(airplaneConfig_t, fixedwing_althold_reversed) },
#endif
// PG_RC_CONTROLS_CONFIG
{ "alt_hold_deadband", VAR_UINT8 | MASTER_VALUE, .config.minmax = { 1, 250 }, PG_RC_CONTROLS_CONFIG, offsetof(rcControlsConfig_t, alt_hold_deadband) },
{ "alt_hold_fast_change", VAR_UINT8 | MASTER_VALUE | MODE_LOOKUP, .config.lookup = { TABLE_OFF_ON }, PG_RC_CONTROLS_CONFIG, offsetof(rcControlsConfig_t, alt_hold_fast_change) },
{ "deadband", VAR_UINT8 | MASTER_VALUE, .config.minmax = { 0, 32 }, PG_RC_CONTROLS_CONFIG, offsetof(rcControlsConfig_t, deadband) },
{ "yaw_deadband", VAR_UINT8 | MASTER_VALUE, .config.minmax = { 0, 100 }, PG_RC_CONTROLS_CONFIG, offsetof(rcControlsConfig_t, yaw_deadband) },
{ "yaw_control_reversed", VAR_INT8 | MASTER_VALUE | MODE_LOOKUP, .config.lookup = { TABLE_OFF_ON }, PG_RC_CONTROLS_CONFIG, offsetof(rcControlsConfig_t, yaw_control_reversed) },
// PG_PID_CONFIG
{ "pid_process_denom", VAR_UINT8 | MASTER_VALUE, .config.minmax = { 1, MAX_PID_PROCESS_DENOM }, PG_PID_CONFIG, offsetof(pidConfig_t, pid_process_denom) },
// PG_PID_PROFILE
{ "dterm_lowpass_type", VAR_UINT8 | PROFILE_VALUE | MODE_LOOKUP, .config.lookup = { TABLE_LOWPASS_TYPE }, PG_PID_PROFILE, offsetof(pidProfile_t, dterm_filter_type) },
{ "dterm_lowpass", VAR_INT16 | PROFILE_VALUE, .config.minmax = { 0, 16000 }, PG_PID_PROFILE, offsetof(pidProfile_t, dterm_lpf_hz) },
{ "dterm_notch_hz", VAR_UINT16 | PROFILE_VALUE, .config.minmax = { 0, 16000 }, PG_PID_PROFILE, offsetof(pidProfile_t, dterm_notch_hz) },
{ "dterm_notch_cutoff", VAR_UINT16 | PROFILE_VALUE, .config.minmax = { 0, 16000 }, PG_PID_PROFILE, offsetof(pidProfile_t, dterm_notch_cutoff) },
{ "vbat_pid_gain", VAR_UINT8 | PROFILE_VALUE | MODE_LOOKUP, .config.lookup = { TABLE_OFF_ON }, PG_PID_PROFILE, offsetof(pidProfile_t, vbatPidCompensation) },
{ "pid_at_min_throttle", VAR_UINT8 | PROFILE_VALUE | MODE_LOOKUP, .config.lookup = { TABLE_OFF_ON }, PG_PID_PROFILE, offsetof(pidProfile_t, pidAtMinThrottle) },
{ "anti_gravity_threshold", VAR_UINT16 | PROFILE_VALUE, .config.minmax = { 20, 1000 }, PG_PID_PROFILE, offsetof(pidProfile_t, itermThrottleThreshold) },
{ "anti_gravity_gain", VAR_UINT16 | PROFILE_VALUE, .config.minmax = { 1000, 30000 }, PG_PID_PROFILE, offsetof(pidProfile_t, itermAcceleratorGain) },
{ "setpoint_relax_ratio", VAR_UINT8 | PROFILE_VALUE, .config.minmax = { 0, 100 }, PG_PID_PROFILE, offsetof(pidProfile_t, setpointRelaxRatio) },
{ "dterm_setpoint_weight", VAR_UINT8 | PROFILE_VALUE, .config.minmax = { 0, 254 }, PG_PID_PROFILE, offsetof(pidProfile_t, dtermSetpointWeight) },
{ "acc_limit_yaw", VAR_UINT16 | PROFILE_VALUE, .config.minmax = { 1, 500 }, PG_PID_PROFILE, offsetof(pidProfile_t, yawRateAccelLimit) },
{ "acc_limit", VAR_UINT16 | PROFILE_VALUE, .config.minmax = { 1, 500 }, PG_PID_PROFILE, offsetof(pidProfile_t, rateAccelLimit) },
{ "crash_dthreshold", VAR_UINT16 | PROFILE_VALUE, .config.minmax = { 0, 2000 }, PG_PID_PROFILE, offsetof(pidProfile_t, crash_dthreshold) },
{ "crash_gthreshold", VAR_UINT16 | PROFILE_VALUE, .config.minmax = { 0, 2000 }, PG_PID_PROFILE, offsetof(pidProfile_t, crash_gthreshold) },
{ "crash_setpoint_threshold", VAR_UINT16 | PROFILE_VALUE, .config.minmax = { 0, 2000 }, PG_PID_PROFILE, offsetof(pidProfile_t, crash_setpoint_threshold) },
{ "crash_time", VAR_UINT16 | PROFILE_VALUE, .config.minmax = { 0, 5000 }, PG_PID_PROFILE, offsetof(pidProfile_t, crash_time) },
{ "crash_delay", VAR_UINT16 | PROFILE_VALUE, .config.minmax = { 0, 500 }, PG_PID_PROFILE, offsetof(pidProfile_t, crash_delay) },
{ "crash_recovery_angle", VAR_UINT8 | PROFILE_VALUE, .config.minmax = { 0, 30 }, PG_PID_PROFILE, offsetof(pidProfile_t, crash_recovery_angle) },
{ "crash_recovery_rate", VAR_UINT8 | PROFILE_VALUE, .config.minmax = { 0, 255 }, PG_PID_PROFILE, offsetof(pidProfile_t, crash_recovery_rate) },
{ "crash_limit_yaw", VAR_UINT16 | PROFILE_VALUE, .config.minmax = { 0, 1000 }, PG_PID_PROFILE, offsetof(pidProfile_t, crash_limit_yaw) },
{ "crash_recovery", VAR_UINT8 | PROFILE_VALUE | MODE_LOOKUP, .config.lookup = { TABLE_CRASH_RECOVERY }, PG_PID_PROFILE, offsetof(pidProfile_t, crash_recovery) },
{ "iterm_windup", VAR_UINT8 | PROFILE_VALUE, .config.minmax = { 30, 100 }, PG_PID_PROFILE, offsetof(pidProfile_t, itermWindupPointPercent) },
{ "iterm_limit", VAR_UINT16 | PROFILE_VALUE, .config.minmax = { 0, 500 }, PG_PID_PROFILE, offsetof(pidProfile_t, itermLimit) },
{ "pidsum_limit", VAR_UINT16 | PROFILE_VALUE, .config.minmax = { 100, 1000 }, PG_PID_PROFILE, offsetof(pidProfile_t, pidSumLimit) },
{ "pidsum_limit_yaw", VAR_UINT16 | PROFILE_VALUE, .config.minmax = { 100, 1000 }, PG_PID_PROFILE, offsetof(pidProfile_t, pidSumLimitYaw) },
{ "yaw_lowpass", VAR_UINT16 | PROFILE_VALUE, .config.minmax = { 0, 500 }, PG_PID_PROFILE, offsetof(pidProfile_t, yaw_lpf_hz) },
{ "p_pitch", VAR_UINT8 | PROFILE_VALUE, .config.minmax = { 0, 200 }, PG_PID_PROFILE, offsetof(pidProfile_t, pid[PID_PITCH].P) },
{ "i_pitch", VAR_UINT8 | PROFILE_VALUE, .config.minmax = { 0, 200 }, PG_PID_PROFILE, offsetof(pidProfile_t, pid[PID_PITCH].I) },
{ "d_pitch", VAR_UINT8 | PROFILE_VALUE, .config.minmax = { 0, 200 }, PG_PID_PROFILE, offsetof(pidProfile_t, pid[PID_PITCH].D) },
{ "p_roll", VAR_UINT8 | PROFILE_VALUE, .config.minmax = { 0, 200 }, PG_PID_PROFILE, offsetof(pidProfile_t, pid[PID_ROLL].P) },
{ "i_roll", VAR_UINT8 | PROFILE_VALUE, .config.minmax = { 0, 200 }, PG_PID_PROFILE, offsetof(pidProfile_t, pid[PID_ROLL].I) },
{ "d_roll", VAR_UINT8 | PROFILE_VALUE, .config.minmax = { 0, 200 }, PG_PID_PROFILE, offsetof(pidProfile_t, pid[PID_ROLL].D) },
{ "p_yaw", VAR_UINT8 | PROFILE_VALUE, .config.minmax = { 0, 200 }, PG_PID_PROFILE, offsetof(pidProfile_t, pid[PID_YAW].P) },
{ "i_yaw", VAR_UINT8 | PROFILE_VALUE, .config.minmax = { 0, 200 }, PG_PID_PROFILE, offsetof(pidProfile_t, pid[PID_YAW].I) },
{ "d_yaw", VAR_UINT8 | PROFILE_VALUE, .config.minmax = { 0, 200 }, PG_PID_PROFILE, offsetof(pidProfile_t, pid[PID_YAW].D) },
#ifdef USE_ALT_HOLD
{ "p_alt", VAR_UINT8 | PROFILE_VALUE, .config.minmax = { 0, 200 }, PG_PID_PROFILE, offsetof(pidProfile_t, pid[PID_ALT].P) },
{ "i_alt", VAR_UINT8 | PROFILE_VALUE, .config.minmax = { 0, 200 }, PG_PID_PROFILE, offsetof(pidProfile_t, pid[PID_ALT].I) },
{ "d_alt", VAR_UINT8 | PROFILE_VALUE, .config.minmax = { 0, 200 }, PG_PID_PROFILE, offsetof(pidProfile_t, pid[PID_ALT].D) },
{ "p_vel", VAR_UINT8 | PROFILE_VALUE, .config.minmax = { 0, 200 }, PG_PID_PROFILE, offsetof(pidProfile_t, pid[PID_VEL].P) },
{ "i_vel", VAR_UINT8 | PROFILE_VALUE, .config.minmax = { 0, 200 }, PG_PID_PROFILE, offsetof(pidProfile_t, pid[PID_VEL].I) },
{ "d_vel", VAR_UINT8 | PROFILE_VALUE, .config.minmax = { 0, 200 }, PG_PID_PROFILE, offsetof(pidProfile_t, pid[PID_VEL].D) },
#endif
{ "p_level", VAR_UINT8 | PROFILE_VALUE, .config.minmax = { 0, 200 }, PG_PID_PROFILE, offsetof(pidProfile_t, pid[PID_LEVEL].P) },
{ "i_level", VAR_UINT8 | PROFILE_VALUE, .config.minmax = { 0, 200 }, PG_PID_PROFILE, offsetof(pidProfile_t, pid[PID_LEVEL].I) },
{ "d_level", VAR_UINT8 | PROFILE_VALUE, .config.minmax = { 0, 200 }, PG_PID_PROFILE, offsetof(pidProfile_t, pid[PID_LEVEL].D) },
{ "level_limit", VAR_UINT8 | PROFILE_VALUE, .config.minmax = { 10, 90 }, PG_PID_PROFILE, offsetof(pidProfile_t, levelAngleLimit) },
{ "horizon_tilt_effect", VAR_UINT8 | PROFILE_VALUE, .config.minmax = { 0, 250 }, PG_PID_PROFILE, offsetof(pidProfile_t, horizon_tilt_effect) },
{ "horizon_tilt_expert_mode", VAR_UINT8 | PROFILE_VALUE | MODE_LOOKUP, .config.lookup = { TABLE_OFF_ON }, PG_PID_PROFILE, offsetof(pidProfile_t, horizon_tilt_expert_mode) },
#ifdef USE_NAV
{ "gps_pos_p", VAR_UINT8 | PROFILE_VALUE, .config.minmax = { 0, 200 }, PG_PID_PROFILE, offsetof(pidProfile_t, pid[PID_POS].P) },
{ "gps_pos_i", VAR_UINT8 | PROFILE_VALUE, .config.minmax = { 0, 200 }, PG_PID_PROFILE, offsetof(pidProfile_t, pid[PID_POS].I) },
{ "gps_pos_d", VAR_UINT8 | PROFILE_VALUE, .config.minmax = { 0, 200 }, PG_PID_PROFILE, offsetof(pidProfile_t, pid[PID_POS].D) },
{ "gps_posr_p", VAR_UINT8 | PROFILE_VALUE, .config.minmax = { 0, 200 }, PG_PID_PROFILE, offsetof(pidProfile_t, pid[PID_POSR].P) },
{ "gps_posr_i", VAR_UINT8 | PROFILE_VALUE, .config.minmax = { 0, 200 }, PG_PID_PROFILE, offsetof(pidProfile_t, pid[PID_POSR].I) },
{ "gps_posr_d", VAR_UINT8 | PROFILE_VALUE, .config.minmax = { 0, 200 }, PG_PID_PROFILE, offsetof(pidProfile_t, pid[PID_POSR].D) },
{ "gps_nav_p", VAR_UINT8 | PROFILE_VALUE, .config.minmax = { 0, 200 }, PG_PID_PROFILE, offsetof(pidProfile_t, pid[PID_NAVR].P) },
{ "gps_nav_i", VAR_UINT8 | PROFILE_VALUE, .config.minmax = { 0, 200 }, PG_PID_PROFILE, offsetof(pidProfile_t, pid[PID_NAVR].I) },
{ "gps_nav_d", VAR_UINT8 | PROFILE_VALUE, .config.minmax = { 0, 200 }, PG_PID_PROFILE, offsetof(pidProfile_t, pid[PID_NAVR].D) },
#endif
// PG_TELEMETRY_CONFIG
#ifdef USE_TELEMETRY
{ "tlm_switch", VAR_UINT8 | MASTER_VALUE | MODE_LOOKUP, .config.lookup = { TABLE_OFF_ON }, PG_TELEMETRY_CONFIG, offsetof(telemetryConfig_t, telemetry_switch) },
{ "tlm_inverted", VAR_UINT8 | MASTER_VALUE | MODE_LOOKUP, .config.lookup = { TABLE_OFF_ON }, PG_TELEMETRY_CONFIG, offsetof(telemetryConfig_t, telemetry_inverted) },
{ "tlm_halfduplex", VAR_UINT8 | MASTER_VALUE | MODE_LOOKUP, .config.lookup = { TABLE_OFF_ON }, PG_TELEMETRY_CONFIG, offsetof(telemetryConfig_t, halfDuplex) },
#if defined(USE_TELEMETRY_FRSKY)
#if defined(USE_GPS)
{ "frsky_default_lat", VAR_INT16 | MASTER_VALUE, .config.minmax = { -9000, 9000 }, PG_TELEMETRY_CONFIG, offsetof(telemetryConfig_t, gpsNoFixLatitude) },
{ "frsky_default_long", VAR_INT16 | MASTER_VALUE, .config.minmax = { -18000, 18000 }, PG_TELEMETRY_CONFIG, offsetof(telemetryConfig_t, gpsNoFixLongitude) },
{ "frsky_gps_format", VAR_UINT8 | MASTER_VALUE, .config.minmax = { 0, FRSKY_FORMAT_NMEA }, PG_TELEMETRY_CONFIG, offsetof(telemetryConfig_t, frsky_coordinate_format) },
{ "frsky_unit", VAR_UINT8 | MASTER_VALUE | MODE_LOOKUP, .config.lookup = { TABLE_UNIT }, PG_TELEMETRY_CONFIG, offsetof(telemetryConfig_t, frsky_unit) },
#endif
{ "frsky_vfas_precision", VAR_UINT8 | MASTER_VALUE, .config.minmax = { FRSKY_VFAS_PRECISION_LOW, FRSKY_VFAS_PRECISION_HIGH }, PG_TELEMETRY_CONFIG, offsetof(telemetryConfig_t, frsky_vfas_precision) },
#endif // USE_TELEMETRY_FRSKY
{ "hott_alarm_int", VAR_UINT8 | MASTER_VALUE, .config.minmax = { 0, 120 }, PG_TELEMETRY_CONFIG, offsetof(telemetryConfig_t, hottAlarmSoundInterval) },
{ "pid_in_tlm", VAR_UINT8 | MASTER_VALUE | MODE_LOOKUP, .config.lookup = {TABLE_OFF_ON }, PG_TELEMETRY_CONFIG, offsetof(telemetryConfig_t, pidValuesAsTelemetry) },
#if defined(USE_TELEMETRY_IBUS)
{ "report_cell_voltage", VAR_UINT8 | MASTER_VALUE | MODE_LOOKUP, .config.lookup = { TABLE_OFF_ON }, PG_TELEMETRY_CONFIG, offsetof(telemetryConfig_t, report_cell_voltage) },
#endif
#endif // USE_TELEMETRY
// PG_LED_STRIP_CONFIG
#ifdef USE_LED_STRIP
{ "ledstrip_visual_beeper", VAR_UINT8 | MASTER_VALUE | MODE_LOOKUP, .config.lookup = { TABLE_OFF_ON }, PG_LED_STRIP_CONFIG, offsetof(ledStripConfig_t, ledstrip_visual_beeper) },
#endif
// PG_SDCARD_CONFIG
#ifdef USE_SDCARD
{ "sdcard_dma", VAR_UINT8 | MASTER_VALUE | MODE_LOOKUP, .config.lookup = { TABLE_OFF_ON }, PG_SDCARD_CONFIG, offsetof(sdcardConfig_t, useDma) },
#endif
// PG_OSD_CONFIG
#ifdef USE_OSD
{ "osd_units", VAR_UINT8 | MASTER_VALUE | MODE_LOOKUP, .config.lookup = { TABLE_UNIT }, PG_OSD_CONFIG, offsetof(osdConfig_t, units) },
{ "osd_warnings", VAR_UINT16 | MASTER_VALUE, .config.minmax = { 0, INT16_MAX }, PG_OSD_CONFIG, offsetof(osdConfig_t, enabledWarnings) },
{ "osd_rssi_alarm", VAR_UINT8 | MASTER_VALUE, .config.minmax = { 0, 100 }, PG_OSD_CONFIG, offsetof(osdConfig_t, rssi_alarm) },
{ "osd_cap_alarm", VAR_UINT16 | MASTER_VALUE, .config.minmax = { 0, 20000 }, PG_OSD_CONFIG, offsetof(osdConfig_t, cap_alarm) },
{ "osd_alt_alarm", VAR_UINT16 | MASTER_VALUE, .config.minmax = { 0, 10000 }, PG_OSD_CONFIG, offsetof(osdConfig_t, alt_alarm) },
{ "osd_ah_max_pit", VAR_UINT8 | MASTER_VALUE, .config.minmax = { 0, 90 }, PG_OSD_CONFIG, offsetof(osdConfig_t, ahMaxPitch) },
{ "osd_ah_max_rol", VAR_UINT8 | MASTER_VALUE, .config.minmax = { 0, 90 }, PG_OSD_CONFIG, offsetof(osdConfig_t, ahMaxRoll) },
{ "osd_tim1", VAR_UINT16 | MASTER_VALUE, .config.minmax = { 0, INT16_MAX }, PG_OSD_CONFIG, offsetof(osdConfig_t, timers[OSD_TIMER_1]) },
{ "osd_tim2", VAR_UINT16 | MASTER_VALUE, .config.minmax = { 0, INT16_MAX }, PG_OSD_CONFIG, offsetof(osdConfig_t, timers[OSD_TIMER_2]) },
{ "osd_vbat_pos", VAR_UINT16 | MASTER_VALUE, .config.minmax = { 0, OSD_POSCFG_MAX }, PG_OSD_CONFIG, offsetof(osdConfig_t, item_pos[OSD_MAIN_BATT_VOLTAGE]) },
{ "osd_rssi_pos", VAR_UINT16 | MASTER_VALUE, .config.minmax = { 0, OSD_POSCFG_MAX }, PG_OSD_CONFIG, offsetof(osdConfig_t, item_pos[OSD_RSSI_VALUE]) },
{ "osd_tim_1_pos", VAR_UINT16 | MASTER_VALUE, .config.minmax = { 0, OSD_POSCFG_MAX }, PG_OSD_CONFIG, offsetof(osdConfig_t, item_pos[OSD_ITEM_TIMER_1]) },
{ "osd_tim_2_pos", VAR_UINT16 | MASTER_VALUE, .config.minmax = { 0, OSD_POSCFG_MAX }, PG_OSD_CONFIG, offsetof(osdConfig_t, item_pos[OSD_ITEM_TIMER_2]) },
{ "osd_remaining_time_estimate_pos", VAR_UINT16 | MASTER_VALUE, .config.minmax = { 0, OSD_POSCFG_MAX }, PG_OSD_CONFIG, offsetof(osdConfig_t, item_pos[OSD_REMAINING_TIME_ESTIMATE]) },
{ "osd_flymode_pos", VAR_UINT16 | MASTER_VALUE, .config.minmax = { 0, OSD_POSCFG_MAX }, PG_OSD_CONFIG, offsetof(osdConfig_t, item_pos[OSD_FLYMODE]) },
{ "osd_throttle_pos", VAR_UINT16 | MASTER_VALUE, .config.minmax = { 0, OSD_POSCFG_MAX }, PG_OSD_CONFIG, offsetof(osdConfig_t, item_pos[OSD_THROTTLE_POS]) },
{ "osd_vtx_channel_pos", VAR_UINT16 | MASTER_VALUE, .config.minmax = { 0, OSD_POSCFG_MAX }, PG_OSD_CONFIG, offsetof(osdConfig_t, item_pos[OSD_VTX_CHANNEL]) },
{ "osd_crosshairs", VAR_UINT16 | MASTER_VALUE, .config.minmax = { 0, OSD_POSCFG_MAX }, PG_OSD_CONFIG, offsetof(osdConfig_t, item_pos[OSD_CROSSHAIRS]) },
{ "osd_ah_sbar", VAR_UINT16 | MASTER_VALUE, .config.minmax = { 0, OSD_POSCFG_MAX }, PG_OSD_CONFIG, offsetof(osdConfig_t, item_pos[OSD_HORIZON_SIDEBARS]) },
{ "osd_ah_pos", VAR_UINT16 | MASTER_VALUE, .config.minmax = { 0, OSD_POSCFG_MAX }, PG_OSD_CONFIG, offsetof(osdConfig_t, item_pos[OSD_ARTIFICIAL_HORIZON]) },
{ "osd_current_pos", VAR_UINT16 | MASTER_VALUE, .config.minmax = { 0, OSD_POSCFG_MAX }, PG_OSD_CONFIG, offsetof(osdConfig_t, item_pos[OSD_CURRENT_DRAW]) },
{ "osd_mah_drawn_pos", VAR_UINT16 | MASTER_VALUE, .config.minmax = { 0, OSD_POSCFG_MAX }, PG_OSD_CONFIG, offsetof(osdConfig_t, item_pos[OSD_MAH_DRAWN]) },
{ "osd_craft_name_pos", VAR_UINT16 | MASTER_VALUE, .config.minmax = { 0, OSD_POSCFG_MAX }, PG_OSD_CONFIG, offsetof(osdConfig_t, item_pos[OSD_CRAFT_NAME]) },
{ "osd_gps_speed_pos", VAR_UINT16 | MASTER_VALUE, .config.minmax = { 0, OSD_POSCFG_MAX }, PG_OSD_CONFIG, offsetof(osdConfig_t, item_pos[OSD_GPS_SPEED]) },
{ "osd_gps_lon_pos", VAR_UINT16 | MASTER_VALUE, .config.minmax = { 0, OSD_POSCFG_MAX }, PG_OSD_CONFIG, offsetof(osdConfig_t, item_pos[OSD_GPS_LON]) },
{ "osd_gps_lat_pos", VAR_UINT16 | MASTER_VALUE, .config.minmax = { 0, OSD_POSCFG_MAX }, PG_OSD_CONFIG, offsetof(osdConfig_t, item_pos[OSD_GPS_LAT]) },
{ "osd_gps_sats_pos", VAR_UINT16 | MASTER_VALUE, .config.minmax = { 0, OSD_POSCFG_MAX }, PG_OSD_CONFIG, offsetof(osdConfig_t, item_pos[OSD_GPS_SATS]) },
{ "osd_home_dir_pos", VAR_UINT16 | MASTER_VALUE, .config.minmax = { 0, OSD_POSCFG_MAX }, PG_OSD_CONFIG, offsetof(osdConfig_t, item_pos[OSD_HOME_DIR]) },
{ "osd_home_dist_pos", VAR_UINT16 | MASTER_VALUE, .config.minmax = { 0, OSD_POSCFG_MAX }, PG_OSD_CONFIG, offsetof(osdConfig_t, item_pos[OSD_HOME_DIST]) },
{ "osd_compass_bar_pos", VAR_UINT16 | MASTER_VALUE, .config.minmax = { 0, OSD_POSCFG_MAX }, PG_OSD_CONFIG, offsetof(osdConfig_t, item_pos[OSD_COMPASS_BAR]) },
{ "osd_altitude_pos", VAR_UINT16 | MASTER_VALUE, .config.minmax = { 0, OSD_POSCFG_MAX }, PG_OSD_CONFIG, offsetof(osdConfig_t, item_pos[OSD_ALTITUDE]) },
{ "osd_pid_roll_pos", VAR_UINT16 | MASTER_VALUE, .config.minmax = { 0, OSD_POSCFG_MAX }, PG_OSD_CONFIG, offsetof(osdConfig_t, item_pos[OSD_ROLL_PIDS]) },
{ "osd_pid_pitch_pos", VAR_UINT16 | MASTER_VALUE, .config.minmax = { 0, OSD_POSCFG_MAX }, PG_OSD_CONFIG, offsetof(osdConfig_t, item_pos[OSD_PITCH_PIDS]) },
{ "osd_pid_yaw_pos", VAR_UINT16 | MASTER_VALUE, .config.minmax = { 0, OSD_POSCFG_MAX }, PG_OSD_CONFIG, offsetof(osdConfig_t, item_pos[OSD_YAW_PIDS]) },
{ "osd_debug_pos", VAR_UINT16 | MASTER_VALUE, .config.minmax = { 0, OSD_POSCFG_MAX }, PG_OSD_CONFIG, offsetof(osdConfig_t, item_pos[OSD_DEBUG]) },
{ "osd_power_pos", VAR_UINT16 | MASTER_VALUE, .config.minmax = { 0, OSD_POSCFG_MAX }, PG_OSD_CONFIG, offsetof(osdConfig_t, item_pos[OSD_POWER]) },
{ "osd_pidrate_profile_pos", VAR_UINT16 | MASTER_VALUE, .config.minmax = { 0, OSD_POSCFG_MAX }, PG_OSD_CONFIG, offsetof(osdConfig_t, item_pos[OSD_PIDRATE_PROFILE]) },
{ "osd_warnings_pos", VAR_UINT16 | MASTER_VALUE, .config.minmax = { 0, OSD_POSCFG_MAX }, PG_OSD_CONFIG, offsetof(osdConfig_t, item_pos[OSD_WARNINGS]) },
{ "osd_avg_cell_voltage_pos", VAR_UINT16 | MASTER_VALUE, .config.minmax = { 0, OSD_POSCFG_MAX }, PG_OSD_CONFIG, offsetof(osdConfig_t, item_pos[OSD_AVG_CELL_VOLTAGE]) },
{ "osd_pit_ang_pos", VAR_UINT16 | MASTER_VALUE, .config.minmax = { 0, OSD_POSCFG_MAX }, PG_OSD_CONFIG, offsetof(osdConfig_t, item_pos[OSD_PITCH_ANGLE]) },
{ "osd_rol_ang_pos", VAR_UINT16 | MASTER_VALUE, .config.minmax = { 0, OSD_POSCFG_MAX }, PG_OSD_CONFIG, offsetof(osdConfig_t, item_pos[OSD_ROLL_ANGLE]) },
{ "osd_battery_usage_pos", VAR_UINT16 | MASTER_VALUE, .config.minmax = { 0, OSD_POSCFG_MAX }, PG_OSD_CONFIG, offsetof(osdConfig_t, item_pos[OSD_MAIN_BATT_USAGE]) },
{ "osd_disarmed_pos", VAR_UINT16 | MASTER_VALUE, .config.minmax = { 0, OSD_POSCFG_MAX }, PG_OSD_CONFIG, offsetof(osdConfig_t, item_pos[OSD_DISARMED]) },
{ "osd_nheading_pos", VAR_UINT16 | MASTER_VALUE, .config.minmax = { 0, OSD_POSCFG_MAX }, PG_OSD_CONFIG, offsetof(osdConfig_t, item_pos[OSD_NUMERICAL_HEADING]) },
{ "osd_nvario_pos", VAR_UINT16 | MASTER_VALUE, .config.minmax = { 0, OSD_POSCFG_MAX }, PG_OSD_CONFIG, offsetof(osdConfig_t, item_pos[OSD_NUMERICAL_VARIO]) },
{ "osd_esc_tmp_pos", VAR_UINT16 | MASTER_VALUE, .config.minmax = { 0, OSD_POSCFG_MAX }, PG_OSD_CONFIG, offsetof(osdConfig_t, item_pos[OSD_ESC_TMP]) },
{ "osd_esc_rpm_pos", VAR_UINT16 | MASTER_VALUE, .config.minmax = { 0, OSD_POSCFG_MAX }, PG_OSD_CONFIG, offsetof(osdConfig_t, item_pos[OSD_ESC_RPM]) },
{ "osd_rtc_date_time_pos", VAR_UINT16 | MASTER_VALUE, .config.minmax = { 0, OSD_POSCFG_MAX }, PG_OSD_CONFIG, offsetof(osdConfig_t, item_pos[OSD_RTC_DATETIME]) },
{ "osd_adjustment_range_pos", VAR_UINT16 | MASTER_VALUE, .config.minmax = { 0, OSD_POSCFG_MAX }, PG_OSD_CONFIG, offsetof(osdConfig_t, item_pos[OSD_ADJUSTMENT_RANGE]) },
{ "osd_stat_max_spd", VAR_UINT8 | MASTER_VALUE | MODE_LOOKUP, .config.lookup = { TABLE_OFF_ON }, PG_OSD_CONFIG, offsetof(osdConfig_t, enabled_stats[OSD_STAT_MAX_SPEED])},
{ "osd_stat_max_dist", VAR_UINT8 | MASTER_VALUE | MODE_LOOKUP, .config.lookup = { TABLE_OFF_ON }, PG_OSD_CONFIG, offsetof(osdConfig_t, enabled_stats[OSD_STAT_MAX_DISTANCE])},
{ "osd_stat_min_batt", VAR_UINT8 | MASTER_VALUE | MODE_LOOKUP, .config.lookup = { TABLE_OFF_ON }, PG_OSD_CONFIG, offsetof(osdConfig_t, enabled_stats[OSD_STAT_MIN_BATTERY])},
{ "osd_stat_min_rssi", VAR_UINT8 | MASTER_VALUE | MODE_LOOKUP, .config.lookup = { TABLE_OFF_ON }, PG_OSD_CONFIG, offsetof(osdConfig_t, enabled_stats[OSD_STAT_MIN_RSSI])},
{ "osd_stat_max_curr", VAR_UINT8 | MASTER_VALUE | MODE_LOOKUP, .config.lookup = { TABLE_OFF_ON }, PG_OSD_CONFIG, offsetof(osdConfig_t, enabled_stats[OSD_STAT_MAX_CURRENT])},
{ "osd_stat_used_mah", VAR_UINT8 | MASTER_VALUE | MODE_LOOKUP, .config.lookup = { TABLE_OFF_ON }, PG_OSD_CONFIG, offsetof(osdConfig_t, enabled_stats[OSD_STAT_USED_MAH])},
{ "osd_stat_max_alt", VAR_UINT8 | MASTER_VALUE | MODE_LOOKUP, .config.lookup = { TABLE_OFF_ON }, PG_OSD_CONFIG, offsetof(osdConfig_t, enabled_stats[OSD_STAT_MAX_ALTITUDE])},
{ "osd_stat_bbox", VAR_UINT8 | MASTER_VALUE | MODE_LOOKUP, .config.lookup = { TABLE_OFF_ON }, PG_OSD_CONFIG, offsetof(osdConfig_t, enabled_stats[OSD_STAT_BLACKBOX])},
{ "osd_stat_endbatt", VAR_UINT8 | MASTER_VALUE | MODE_LOOKUP, .config.lookup = { TABLE_OFF_ON }, PG_OSD_CONFIG, offsetof(osdConfig_t, enabled_stats[OSD_STAT_END_BATTERY])},
{ "osd_stat_bb_no", VAR_UINT8 | MASTER_VALUE | MODE_LOOKUP, .config.lookup = { TABLE_OFF_ON }, PG_OSD_CONFIG, offsetof(osdConfig_t, enabled_stats[OSD_STAT_BLACKBOX_NUMBER])},
{ "osd_stat_tim_1", VAR_UINT8 | MASTER_VALUE | MODE_LOOKUP, .config.lookup = { TABLE_OFF_ON }, PG_OSD_CONFIG, offsetof(osdConfig_t, enabled_stats[OSD_STAT_TIMER_1])},
{ "osd_stat_tim_2", VAR_UINT8 | MASTER_VALUE | MODE_LOOKUP, .config.lookup = { TABLE_OFF_ON }, PG_OSD_CONFIG, offsetof(osdConfig_t, enabled_stats[OSD_STAT_TIMER_2])},
#endif
// PG_SYSTEM_CONFIG
#ifndef SKIP_TASK_STATISTICS
{ "task_statistics", VAR_INT8 | MASTER_VALUE | MODE_LOOKUP, .config.lookup = { TABLE_OFF_ON }, PG_SYSTEM_CONFIG, offsetof(systemConfig_t, task_statistics) },
#endif
{ "debug_mode", VAR_UINT8 | MASTER_VALUE | MODE_LOOKUP, .config.lookup = { TABLE_DEBUG }, PG_SYSTEM_CONFIG, offsetof(systemConfig_t, debug_mode) },
#if defined(STM32F4) && !defined(DISABLE_OVERCLOCK)
{ "cpu_overclock", VAR_UINT8 | MASTER_VALUE | MODE_LOOKUP, .config.lookup = { TABLE_OFF_ON }, PG_SYSTEM_CONFIG, offsetof(systemConfig_t, cpu_overclock) },
#endif
{ "pwr_on_arm_grace", VAR_UINT8 | MASTER_VALUE, .config.minmax = { 0, 30 }, PG_SYSTEM_CONFIG, offsetof(systemConfig_t, powerOnArmingGraceTime) },
// PG_VTX_CONFIG
#ifdef VTX_COMMON
{ "vtx_band", VAR_UINT8 | MASTER_VALUE, .config.minmax = { 0, VTX_SETTINGS_MAX_BAND }, PG_VTX_SETTINGS_CONFIG, offsetof(vtxSettingsConfig_t, band) },
{ "vtx_channel", VAR_UINT8 | MASTER_VALUE, .config.minmax = { VTX_SETTINGS_MIN_CHANNEL, VTX_SETTINGS_MAX_CHANNEL }, PG_VTX_SETTINGS_CONFIG, offsetof(vtxSettingsConfig_t, channel) },
{ "vtx_power", VAR_UINT8 | MASTER_VALUE, .config.minmax = { VTX_SETTINGS_MIN_POWER, VTX_SETTINGS_POWER_COUNT }, PG_VTX_SETTINGS_CONFIG, offsetof(vtxSettingsConfig_t, power) },
{ "vtx_low_power_disarm", VAR_UINT8 | MASTER_VALUE | MODE_LOOKUP, .config.lookup = { TABLE_OFF_ON }, PG_VTX_SETTINGS_CONFIG, offsetof(vtxSettingsConfig_t, lowPowerDisarm) },
#ifdef VTX_SETTINGS_FREQCMD
{ "vtx_freq", VAR_UINT16 | MASTER_VALUE, .config.minmax = { 0, VTX_SETTINGS_MAX_FREQUENCY_MHZ }, PG_VTX_SETTINGS_CONFIG, offsetof(vtxSettingsConfig_t, freq) },
{ "vtx_pit_mode_freq", VAR_UINT16 | MASTER_VALUE, .config.minmax = { 0, VTX_SETTINGS_MAX_FREQUENCY_MHZ }, PG_VTX_SETTINGS_CONFIG, offsetof(vtxSettingsConfig_t, pitModeFreq) },
#endif
#endif
// PG_VTX_CONFIG
#if defined(VTX_CONTROL) && defined(VTX_COMMON)
{ "vtx_halfduplex", VAR_UINT8 | MASTER_VALUE | MODE_LOOKUP, .config.lookup = { TABLE_OFF_ON }, PG_VTX_CONFIG, offsetof(vtxConfig_t, halfDuplex) },
#endif
// PG_VCD_CONFIG
#ifdef USE_MAX7456
{ "vcd_video_system", VAR_UINT8 | MASTER_VALUE, .config.minmax = { 0, 2 }, PG_VCD_CONFIG, offsetof(vcdProfile_t, video_system) },
{ "vcd_h_offset", VAR_INT8 | MASTER_VALUE, .config.minmax = { -32, 31 }, PG_VCD_CONFIG, offsetof(vcdProfile_t, h_offset) },
{ "vcd_v_offset", VAR_INT8 | MASTER_VALUE, .config.minmax = { -15, 16 }, PG_VCD_CONFIG, offsetof(vcdProfile_t, v_offset) },
#endif
// PG_MAX7456_CONFIG
#ifdef USE_MAX7456
{ "max7456_clock", VAR_UINT8 | MASTER_VALUE | MODE_LOOKUP, .config.lookup = { TABLE_MAX7456_CLOCK }, PG_MAX7456_CONFIG, offsetof(max7456Config_t, clockConfig) },
#endif
// PG_DISPLAY_PORT_MSP_CONFIG
#ifdef USE_MSP_DISPLAYPORT
{ "displayport_msp_col_adjust", VAR_INT8 | MASTER_VALUE, .config.minmax = { -6, 0 }, PG_DISPLAY_PORT_MSP_CONFIG, offsetof(displayPortProfile_t, colAdjust) },
{ "displayport_msp_row_adjust", VAR_INT8 | MASTER_VALUE, .config.minmax = { -3, 0 }, PG_DISPLAY_PORT_MSP_CONFIG, offsetof(displayPortProfile_t, rowAdjust) },
#endif
// PG_DISPLAY_PORT_MSP_CONFIG
#ifdef USE_MAX7456
{ "displayport_max7456_col_adjust", VAR_INT8| MASTER_VALUE, .config.minmax = { -6, 0 }, PG_DISPLAY_PORT_MAX7456_CONFIG, offsetof(displayPortProfile_t, colAdjust) },
{ "displayport_max7456_row_adjust", VAR_INT8| MASTER_VALUE, .config.minmax = { -3, 0 }, PG_DISPLAY_PORT_MAX7456_CONFIG, offsetof(displayPortProfile_t, rowAdjust) },
{ "displayport_max7456_inv", VAR_UINT8| MASTER_VALUE | MODE_LOOKUP, .config.lookup = { TABLE_OFF_ON }, PG_DISPLAY_PORT_MAX7456_CONFIG, offsetof(displayPortProfile_t, invert) },
{ "displayport_max7456_blk", VAR_UINT8| MASTER_VALUE, .config.minmax = { 0, 3 }, PG_DISPLAY_PORT_MAX7456_CONFIG, offsetof(displayPortProfile_t, blackBrightness) },
{ "displayport_max7456_wht", VAR_UINT8| MASTER_VALUE, .config.minmax = { 0, 3 }, PG_DISPLAY_PORT_MAX7456_CONFIG, offsetof(displayPortProfile_t, whiteBrightness) },
#endif
#ifdef USE_ESC_SENSOR
{ "esc_sensor_halfduplex", VAR_UINT8 | MASTER_VALUE | MODE_LOOKUP, .config.lookup = { TABLE_OFF_ON }, PG_ESC_SENSOR_CONFIG, offsetof(escSensorConfig_t, halfDuplex) },
#endif
#ifdef USE_RX_FRSKY_SPI
{ "frsky_spi_autobind", VAR_UINT8 | MASTER_VALUE | MODE_LOOKUP, .config.lookup = { TABLE_OFF_ON }, PG_RX_FRSKY_SPI_CONFIG, offsetof(rxFrSkySpiConfig_t, autoBind) },
{ "frsky_spi_tx_id", VAR_UINT8 | MASTER_VALUE | MODE_ARRAY, .config.array.length = 2, PG_RX_FRSKY_SPI_CONFIG, offsetof(rxFrSkySpiConfig_t, bindTxId) },
{ "frsky_spi_offset", VAR_INT8 | MASTER_VALUE, .config.minmax = { -127, 127 }, PG_RX_FRSKY_SPI_CONFIG, offsetof(rxFrSkySpiConfig_t, bindOffset) },
{ "frsky_spi_bind_hop_data", VAR_UINT8 | MASTER_VALUE | MODE_ARRAY, .config.array.length = 50, PG_RX_FRSKY_SPI_CONFIG, offsetof(rxFrSkySpiConfig_t, bindHopData) },
{ "frsky_x_rx_num", VAR_UINT8 | MASTER_VALUE, .config.minmax = { 0, 255 }, PG_RX_FRSKY_SPI_CONFIG, offsetof(rxFrSkySpiConfig_t, rxNum) },
#endif
{ "led_inversion", VAR_UINT8 | MASTER_VALUE, .config.minmax = { 0, ((1 << STATUS_LED_NUMBER) - 1) }, PG_STATUS_LED_CONFIG, offsetof(statusLedConfig_t, inversion) },
#ifdef USE_DASHBOARD
{ "dashboard_i2c_bus", VAR_UINT8 | MASTER_VALUE, .config.minmax = { 0, I2CDEV_COUNT }, PG_DASHBOARD_CONFIG, offsetof(dashboardConfig_t, device) },
{ "dashboard_i2c_addr", VAR_UINT8 | MASTER_VALUE, .config.minmax = { I2C_ADDR7_MIN, I2C_ADDR7_MAX }, PG_DASHBOARD_CONFIG, offsetof(dashboardConfig_t, address) },
#endif
// PG_CAMERA_CONTROL_CONFIG
#ifdef USE_CAMERA_CONTROL
{ "camera_control_mode", VAR_UINT8 | MASTER_VALUE | MODE_LOOKUP, .config.lookup = { TABLE_CAMERA_CONTROL_MODE }, PG_CAMERA_CONTROL_CONFIG, offsetof(cameraControlConfig_t, mode) },
{ "camera_control_ref_voltage", VAR_UINT16 | MASTER_VALUE, .config.minmax = { 200, 400 }, PG_CAMERA_CONTROL_CONFIG, offsetof(cameraControlConfig_t, refVoltage) },
{ "camera_control_key_delay", VAR_UINT16 | MASTER_VALUE, .config.minmax = { 100, 500 }, PG_CAMERA_CONTROL_CONFIG, offsetof(cameraControlConfig_t, keyDelayMs) },
{ "camera_control_internal_resistance", VAR_UINT16 | MASTER_VALUE, .config.minmax = { 10, 1000 }, PG_CAMERA_CONTROL_CONFIG, offsetof(cameraControlConfig_t, internalResistance) },
#endif
// PG_RANGEFINDER_CONFIG
#ifdef USE_RANGEFINDER
{ "rangefinder_hardware", VAR_UINT8 | MASTER_VALUE | MODE_LOOKUP, .config.lookup = { TABLE_RANGEFINDER_HARDWARE }, PG_RANGEFINDER_CONFIG, offsetof(rangefinderConfig_t, rangefinder_hardware) },
#endif
};
const uint16_t valueTableEntryCount = ARRAYLEN(valueTable);
void settingsBuildCheck() {
BUILD_BUG_ON(LOOKUP_TABLE_COUNT != ARRAYLEN(lookupTables));
}