'use strict';
TABS.configuration = {
DSHOT_PROTOCOL_MIN_VALUE: 5
};
TABS.configuration.initialize = function (callback, scrollPosition) {
var self = this;
if (GUI.active_tab != 'configuration') {
GUI.active_tab = 'configuration';
}
function load_config() {
MSP.send_message(MSPCodes.MSP_BF_CONFIG, false, false, load_serial_config);
}
function load_serial_config() {
var next_callback = load_rc_map;
if (semver.lt(CONFIG.apiVersion, "1.6.0")) {
MSP.send_message(MSPCodes.MSP_CF_SERIAL_CONFIG, false, false, next_callback);
} else {
next_callback();
}
}
function load_rc_map() {
MSP.send_message(MSPCodes.MSP_RX_MAP, false, false, load_misc);
}
function load_misc() {
MSP.send_message(MSPCodes.MSP_MISC, false, false, load_acc_trim);
}
function load_acc_trim() {
MSP.send_message(MSPCodes.MSP_ACC_TRIM, false, false, load_arming_config);
}
function load_arming_config() {
var next_callback = load_loop_time;
if (semver.gte(CONFIG.apiVersion, "1.8.0")) {
MSP.send_message(MSPCodes.MSP_ARMING_CONFIG, false, false, next_callback);
} else {
next_callback();
}
}
function load_loop_time() {
var next_callback = load_3d;
if (semver.gte(CONFIG.apiVersion, "1.8.0")) {
MSP.send_message(MSPCodes.MSP_LOOP_TIME, false, false, next_callback);
} else {
next_callback();
}
}
function load_3d() {
var next_callback = load_rc_deadband;
if (semver.gte(CONFIG.apiVersion, "1.14.0")) {
MSP.send_message(MSPCodes.MSP_3D, false, false, next_callback);
} else {
next_callback();
}
}
function load_rc_deadband() {
var next_callback = esc_protocol;
if (semver.gte(CONFIG.apiVersion, "1.17.0")) {
MSP.send_message(MSPCodes.MSP_RC_DEADBAND, false, false, next_callback);
} else {
next_callback();
}
}
function esc_protocol() {
var next_callback = sensor_config;
if (semver.gte(CONFIG.apiVersion, "1.16.0")) {
MSP.send_message(MSPCodes.MSP_ADVANCED_CONFIG, false, false, next_callback);
} else {
next_callback();
}
}
function sensor_config() {
var next_callback = load_sensor_alignment;
if (semver.gte(CONFIG.apiVersion, "1.16.0")) {
MSP.send_message(MSPCodes.MSP_SENSOR_CONFIG, false, false, next_callback);
} else {
next_callback();
}
}
function load_sensor_alignment() {
var next_callback = load_name;
if (semver.gte(CONFIG.apiVersion, "1.15.0")) {
MSP.send_message(MSPCodes.MSP_SENSOR_ALIGNMENT, false, false, next_callback);
} else {
next_callback();
}
}
function load_name() {
var next_callback = load_battery;
if (semver.gte(CONFIG.apiVersion, "1.20.0")) {
MSP.send_message(MSPCodes.MSP_NAME, false, false, next_callback);
} else {
next_callback();
}
}
function load_battery() {
var next_callback = load_current;
if (semver.gte(CONFIG.apiVersion, "1.31.0")) {
MSP.send_message(MSPCodes.MSP_VOLTAGE_METER_CONFIG, false, false, next_callback);
} else {
next_callback();
}
}
function load_current() {
var next_callback = load_rx_config;
if (semver.gte(CONFIG.apiVersion, "1.31.0")) {
MSP.send_message(MSPCodes.MSP_CURRENT_METER_CONFIG, false, false, next_callback);
} else {
next_callback();
}
}
function load_rx_config() {
var next_callback = load_html;
if (semver.gte(CONFIG.apiVersion, "1.31.0")) {
MSP.send_message(MSPCodes.MSP_RX_CONFIG, false, false, next_callback);
} else {
next_callback();
}
}
//Update Analog/Battery Data
function load_analog() {
MSP.send_message(MSPCodes.MSP_ANALOG, false, false, function () {
$('input[name="batteryvoltage"]').val([ANALOG.voltage.toFixed(1)]);
$('input[name="batterycurrent"]').val([ANALOG.amperage.toFixed(2)]);
});
}
function load_html() {
$('#content').load("./tabs/configuration.html", process_html);
}
load_config();
function process_html() {
var mixer_list_e = $('select.mixerList');
for (var selectIndex = 0; selectIndex < mixerList.length; selectIndex++) {
mixerList.forEach(function (mixerEntry, mixerIndex) {
if (mixerEntry.pos === selectIndex) {
mixer_list_e.append('');
}
});
}
mixer_list_e.change(function () {
var val = parseInt($(this).val());
BF_CONFIG.mixerConfiguration = val;
$('.mixerPreview img').attr('src', './resources/motor_order/' + mixerList[val - 1].image + '.svg');
});
// select current mixer configuration
mixer_list_e.val(BF_CONFIG.mixerConfiguration).change();
var features_e = $('.tab-configuration .features');
BF_CONFIG.features.generateElements(features_e);
// translate to user-selected language
localize();
var alignments = [
'CW 0°',
'CW 90°',
'CW 180°',
'CW 270°',
'CW 0° flip',
'CW 90° flip',
'CW 180° flip',
'CW 270° flip'
];
var orientation_gyro_e = $('select.gyroalign');
var orientation_acc_e = $('select.accalign');
var orientation_mag_e = $('select.magalign');
if (semver.lt(CONFIG.apiVersion, "1.15.0")) {
$('.tab-configuration .sensoralignment').hide();
} else {
for (var i = 0; i < alignments.length; i++) {
orientation_gyro_e.append('');
orientation_acc_e.append('');
orientation_mag_e.append('');
}
orientation_gyro_e.val(SENSOR_ALIGNMENT.align_gyro);
orientation_acc_e.val(SENSOR_ALIGNMENT.align_acc);
orientation_mag_e.val(SENSOR_ALIGNMENT.align_mag);
}
// ESC protocols
var escprotocols = [
'PWM',
'ONESHOT125',
'ONESHOT42',
'MULTISHOT'
];
if (semver.gte(CONFIG.apiVersion, "1.20.0")) {
escprotocols.push('BRUSHED');
}
if (semver.gte(CONFIG.apiVersion, "1.31.0")) {
escprotocols.push('DSHOT150');
escprotocols.push('DSHOT300');
escprotocols.push('DSHOT600');
if (semver.gte(CONFIG.apiVersion, "1.26.0")) {
if (PID_ADVANCED_CONFIG.fast_pwm_protocol === 8) {
escprotocols.push('DSHOT1200');
}
}
}
var esc_protocol_e = $('select.escprotocol');
for (var i = 0; i < escprotocols.length; i++) {
esc_protocol_e.append('');
}
esc_protocol_e.val(PID_ADVANCED_CONFIG.fast_pwm_protocol + 1);
esc_protocol_e.change(function () {
if ($(this).val() - 1 >= self.DSHOT_PROTOCOL_MIN_VALUE) {
$('div.minthrottle').hide();
$('div.maxthrottle').hide();
$('div.mincommand').hide();
$('div.digitalIdlePercent').show();
} else {
$('div.minthrottle').show();
$('div.maxthrottle').show();
$('div.mincommand').show();
$('div.digitalIdlePercent').hide();
}
}).change();
$('input[id="unsyncedPWMSwitch"]').prop('checked', PID_ADVANCED_CONFIG.use_unsyncedPwm !== 0);
$('input[name="unsyncedpwmfreq"]').val(PID_ADVANCED_CONFIG.motor_pwm_rate);
$('input[name="digitalIdlePercent"]').val(PID_ADVANCED_CONFIG.digitalIdlePercent);
// Gyro and PID update
var gyroUse32kHz_e = $('input[id="gyroUse32kHz"]');
var gyro_select_e = $('select.gyroSyncDenom');
var pid_select_e = $('select.pidProcessDenom');
function addDenomOption(element, denom, baseFreq) {
element.append('');
}
var updateGyroDenom = function (gyroBaseFreq) {
var originalGyroDenom = gyro_select_e.val();
gyro_select_e.empty();
var denom = 1;
while (denom <= 8) {
addDenomOption(gyro_select_e, denom, gyroBaseFreq);
denom ++;
}
if (semver.gte(CONFIG.apiVersion, "1.25.0")) {
while (denom <= 32) {
addDenomOption(gyro_select_e, denom, gyroBaseFreq);
denom ++;
}
}
gyro_select_e.val(originalGyroDenom);
gyro_select_e.change();
};
if (semver.gte(CONFIG.apiVersion, "1.25.0")) {
gyroUse32kHz_e.prop('checked', PID_ADVANCED_CONFIG.gyroUse32kHz !== 0);
gyroUse32kHz_e.change(function () {
var gyroBaseFreq;
if ($(this).is(':checked')) {
gyroBaseFreq = 32;
} else {
gyroBaseFreq = 8;
}
updateGyroDenom(gyroBaseFreq);
}).change();
} else {
$('div.gyroUse32kHz').hide();
updateGyroDenom(8);
}
gyro_select_e.val(PID_ADVANCED_CONFIG.gyro_sync_denom);
gyro_select_e.change(function () {
var originalPidDenom = pid_select_e.val();
var pidBaseFreq = 8;
if (semver.gte(CONFIG.apiVersion, "1.25.0") && gyroUse32kHz_e.is(':checked')) {
pidBaseFreq = 32;
}
pidBaseFreq = pidBaseFreq / parseInt($(this).val());
pid_select_e.empty();
var denom = 1;
while (denom <= 8) {
addDenomOption(pid_select_e, denom, pidBaseFreq);
denom ++;
}
if (semver.gte(CONFIG.apiVersion, "1.24.0")) {
while (denom <= 16) {
addDenomOption(pid_select_e, denom, pidBaseFreq);
denom ++;
}
}
pid_select_e.val(originalPidDenom);
}).change();
pid_select_e.val(PID_ADVANCED_CONFIG.pid_process_denom);
$('input[id="accHardwareSwitch"]').prop('checked', SENSOR_CONFIG.acc_hardware !== 1);
$('input[id="baroHardwareSwitch"]').prop('checked', SENSOR_CONFIG.baro_hardware !== 1);
$('input[id="magHardwareSwitch"]').prop('checked', SENSOR_CONFIG.mag_hardware !== 1);
// Only show these sections for supported FW
if (semver.lt(CONFIG.apiVersion, "1.16.0")) {
$('.selectProtocol').hide();
$('.checkboxPwm').hide();
$('.selectPidProcessDenom').hide();
}
if (semver.lt(CONFIG.apiVersion, "1.16.0")) {
$('.hardwareSelection').hide();
}
$('input[name="vesselName"]').val(CONFIG.name);
if (semver.gte(CONFIG.apiVersion, "1.31.0")) {
$('input[name="fpvCamAngleDegrees"]').val(RX_CONFIG.fpvCamAngleDegrees);
} else {
$('div.fpvCamAngleDegrees').hide();
}
if (semver.lt(CONFIG.apiVersion, "1.20.0")) {
$('.miscSettings').hide();
}
// generate GPS
var gpsProtocols = [
'NMEA',
'UBLOX'
];
var gpsBaudRates = [
'115200',
'57600',
'38400',
'19200',
'9600'
];
var gpsSbas = [
'Auto-detect',
'European EGNOS',
'North American WAAS',
'Japanese MSAS',
'Indian GAGAN'
];
var gps_protocol_e = $('select.gps_protocol');
for (var i = 0; i < gpsProtocols.length; i++) {
gps_protocol_e.append('');
}
gps_protocol_e.change(function () {
MISC.gps_type = parseInt($(this).val());
});
gps_protocol_e.val(MISC.gps_type);
var gps_baudrate_e = $('select.gps_baudrate');
for (var i = 0; i < gpsBaudRates.length; i++) {
gps_baudrate_e.append('');
}
if (semver.lt(CONFIG.apiVersion, "1.6.0")) {
gps_baudrate_e.change(function () {
SERIAL_CONFIG.gpsBaudRate = parseInt($(this).val());
});
gps_baudrate_e.val(SERIAL_CONFIG.gpsBaudRate);
} else {
gps_baudrate_e.prop("disabled", true);
gps_baudrate_e.parent().hide();
}
var gps_ubx_sbas_e = $('select.gps_ubx_sbas');
for (var i = 0; i < gpsSbas.length; i++) {
gps_ubx_sbas_e.append('');
}
gps_ubx_sbas_e.change(function () {
MISC.gps_ubx_sbas = parseInt($(this).val());
});
gps_ubx_sbas_e.val(MISC.gps_ubx_sbas);
// generate serial RX
var serialRXtypes = [
'SPEKTRUM1024',
'SPEKTRUM2048',
'SBUS',
'SUMD',
'SUMH',
'XBUS_MODE_B',
'XBUS_MODE_B_RJ01'
];
if (semver.gte(CONFIG.apiVersion, "1.15.0")) {
serialRXtypes.push('IBUS');
}
if ((CONFIG.flightControllerIdentifier === 'BTFL' && semver.gte(CONFIG.flightControllerVersion, "2.6.0")) ||
(CONFIG.flightControllerIdentifier === 'CLFL' && semver.gte(CONFIG.apiVersion, "1.31.0"))) {
serialRXtypes.push('JETIEXBUS');
}
if (semver.gte(CONFIG.apiVersion, "1.31.0")) {
serialRXtypes.push('CRSF');
}
if (semver.gte(CONFIG.apiVersion, "1.24.0")) {
serialRXtypes.push('Spektrum Bidir SRXL');
}
if (semver.gte(CONFIG.apiVersion, "1.35.0")) {
serialRXtypes.push('TARGET_CUSTOM');
}
var serialRX_e = $('select.serialRX');
for (var i = 0; i < serialRXtypes.length; i++) {
serialRX_e.append('');
}
serialRX_e.change(function () {
RX_CONFIG.serialrx_provider = parseInt($(this).val());
});
// select current serial RX type
serialRX_e.val(RX_CONFIG.serialrx_provider);
// for some odd reason chrome 38+ changes scroll according to the touched select element
// i am guessing this is a bug, since this wasn't happening on 37
// code below is a temporary fix, which we will be able to remove in the future (hopefully)
$('#content').scrollTop((scrollPosition) ? scrollPosition : 0);
// fill board alignment
$('input[name="board_align_roll"]').val(BF_CONFIG.board_align_roll);
$('input[name="board_align_pitch"]').val(BF_CONFIG.board_align_pitch);
$('input[name="board_align_yaw"]').val(BF_CONFIG.board_align_yaw);
// fill accel trims
$('input[name="roll"]').val(CONFIG.accelerometerTrims[1]);
$('input[name="pitch"]').val(CONFIG.accelerometerTrims[0]);
// fill magnetometer
$('input[name="mag_declination"]').val(MISC.mag_declination.toFixed(2));
//fill motor disarm params and FC loop time
if(semver.gte(CONFIG.apiVersion, "1.8.0")) {
$('input[name="autodisarmdelay"]').val(ARMING_CONFIG.auto_disarm_delay);
$('input[id="disarmkillswitch"]').prop('checked', ARMING_CONFIG.disarm_kill_switch !== 0);
$('div.disarm').show();
$('div.cycles').show();
}
// fill throttle
$('input[name="minthrottle"]').val(MISC.minthrottle);
$('input[name="maxthrottle"]').val(MISC.maxthrottle);
$('input[name="mincommand"]').val(MISC.mincommand);
// fill battery
if (semver.gte(CONFIG.apiVersion, "1.31.0")) {
var batteryMeterTypes = [
'Onboard ADC',
'ESC Sensor'
];
var batteryMeterType_e = $('select.batterymetertype');
for (i = 0; i < batteryMeterTypes.length; i++) {
batteryMeterType_e.append('');
}
batteryMeterType_e.change(function () {
MISC.batterymetertype = parseInt($(this).val());
checkUpdateVbatControls();
});
batteryMeterType_e.val(MISC.batterymetertype).change();
} else {
$('div.batterymetertype').hide();
}
$('input[name="mincellvoltage"]').val(MISC.vbatmincellvoltage);
$('input[name="maxcellvoltage"]').val(MISC.vbatmaxcellvoltage);
$('input[name="warningcellvoltage"]').val(MISC.vbatwarningcellvoltage);
$('input[name="voltagescale"]').val(MISC.vbatscale);
// fill current
var currentMeterTypes = [
'None',
'Onboard ADC',
'Virtual'
];
if (semver.gte(CONFIG.apiVersion, "1.31.0")) {
currentMeterTypes.push('ESC Sensor');
}
var currentMeterType_e = $('select.currentmetertype');
for (i = 0; i < currentMeterTypes.length; i++) {
currentMeterType_e.append('');
}
currentMeterType_e.change(function () {
BF_CONFIG.currentmetertype = parseInt($(this).val());
checkUpdateCurrentControls();
});
currentMeterType_e.val(BF_CONFIG.currentmetertype).change();
$('input[name="currentscale"]').val(BF_CONFIG.currentscale);
$('input[name="currentoffset"]').val(BF_CONFIG.currentoffset);
$('input[name="multiwiicurrentoutput"]').prop('checked', MISC.multiwiicurrentoutput !== 0);
//fill 3D
if (semver.lt(CONFIG.apiVersion, "1.14.0")) {
$('.tab-configuration ._3d').hide();
} else {
$('input[name="3ddeadbandlow"]').val(_3D.deadband3d_low);
$('input[name="3ddeadbandhigh"]').val(_3D.deadband3d_high);
$('input[name="3dneutral"]').val(_3D.neutral3d);
$('input[name="3ddeadbandthrottle"]').val(_3D.deadband3d_throttle);
}
// UI hooks
function checkShowDisarmDelay() {
if (BF_CONFIG.features.isEnabled('MOTOR_STOP')) {
$('div.disarmdelay').show();
} else {
$('div.disarmdelay').hide();
}
}
function checkShowSerialRxBox() {
if (BF_CONFIG.features.isEnabled('RX_SERIAL')) {
$('div.serialRXBox').show();
} else {
$('div.serialRXBox').hide();
}
}
function checkUpdateVbatControls() {
if (BF_CONFIG.features.isEnabled('VBAT')) {
$('.vbatmonitoring').show();
if (semver.gte(CONFIG.apiVersion, "1.31.0")) {
$('select.batterymetertype').show();
if (MISC.batterymetertype !== 0) {
$('.vbatCalibration').hide();
}
} else {
$('select.batterymetertype').hide();
}
} else {
$('.vbatmonitoring').hide();
}
}
function checkUpdateCurrentControls() {
if (BF_CONFIG.features.isEnabled('CURRENT_METER')) {
$('.currentMonitoring').show();
switch(BF_CONFIG.currentmetertype) {
case 0:
$('.currentCalibration').hide();
$('.currentOutput').hide();
break;
case 3:
$('.currentCalibration').hide();
}
if (BF_CONFIG.currentmetertype !== 1 && BF_CONFIG.currentmetertype !== 2) {
$('.currentCalibration').hide();
}
} else {
$('.currentMonitoring').hide();
}
}
function checkUpdateGpsControls() {
if (BF_CONFIG.features.isEnabled('GPS')) {
$('.gpsSettings').show();
} else {
$('.gpsSettings').hide();
}
}
function checkUpdate3dControls() {
if (BF_CONFIG.features.isEnabled('3D')) {
$('._3dSettings').show();
} else {
$('._3dSettings').hide();
}
}
$('input.feature', features_e).change(function () {
var element = $(this);
BF_CONFIG.features.updateData(element);
updateTabList(BF_CONFIG.features);
switch (element.attr('name')) {
case 'MOTOR_STOP':
checkShowDisarmDelay();
break;
case 'VBAT':
checkUpdateVbatControls();
break;
case 'CURRENT_METER':
checkUpdateCurrentControls();
break;
case 'GPS':
checkUpdateGpsControls();
break;
case '3D':
checkUpdate3dControls();
break;
default:
break;
}
});
$(features_e).filter('select').change(function () {
var element = $(this);
BF_CONFIG.features.updateData(element);
updateTabList(BF_CONFIG.features);
switch (element.attr('name')) {
case 'rxMode':
checkShowSerialRxBox();
break;
default:
break;
}
});
checkShowDisarmDelay();
checkShowSerialRxBox();
checkUpdateVbatControls();
checkUpdateCurrentControls();
checkUpdateGpsControls();
checkUpdate3dControls();
$("input[id='unsyncedPWMSwitch']").change(function() {
if ($(this).is(':checked')) {
$('div.unsyncedpwmfreq').show();
} else {
$('div.unsyncedpwmfreq').hide();
}
}).change();
$('a.save').click(function () {
// gather data that doesn't have automatic change event bound
BF_CONFIG.board_align_roll = parseInt($('input[name="board_align_roll"]').val());
BF_CONFIG.board_align_pitch = parseInt($('input[name="board_align_pitch"]').val());
BF_CONFIG.board_align_yaw = parseInt($('input[name="board_align_yaw"]').val());
CONFIG.accelerometerTrims[1] = parseInt($('input[name="roll"]').val());
CONFIG.accelerometerTrims[0] = parseInt($('input[name="pitch"]').val());
MISC.mag_declination = parseFloat($('input[name="mag_declination"]').val());
// motor disarm
if(semver.gte(CONFIG.apiVersion, "1.8.0")) {
ARMING_CONFIG.auto_disarm_delay = parseInt($('input[name="autodisarmdelay"]').val());
ARMING_CONFIG.disarm_kill_switch = $('input[id="disarmkillswitch"]').is(':checked') ? 1 : 0;
}
MISC.minthrottle = parseInt($('input[name="minthrottle"]').val());
MISC.maxthrottle = parseInt($('input[name="maxthrottle"]').val());
MISC.mincommand = parseInt($('input[name="mincommand"]').val());
MISC.vbatmincellvoltage = parseFloat($('input[name="mincellvoltage"]').val());
MISC.vbatmaxcellvoltage = parseFloat($('input[name="maxcellvoltage"]').val());
MISC.vbatwarningcellvoltage = parseFloat($('input[name="warningcellvoltage"]').val());
MISC.vbatscale = parseInt($('input[name="voltagescale"]').val());
BF_CONFIG.currentscale = parseInt($('input[name="currentscale"]').val());
BF_CONFIG.currentoffset = parseInt($('input[name="currentoffset"]').val());
MISC.multiwiicurrentoutput = $('input[name="multiwiicurrentoutput"]').is(':checked') ? 1 : 0;
if(semver.gte(CONFIG.apiVersion, "1.14.0")) {
_3D.deadband3d_low = parseInt($('input[name="3ddeadbandlow"]').val());
_3D.deadband3d_high = parseInt($('input[name="3ddeadbandhigh"]').val());
_3D.neutral3d = parseInt($('input[name="3dneutral"]').val());
_3D.deadband3d_throttle = ($('input[name="3ddeadbandthrottle"]').val());
}
SENSOR_ALIGNMENT.align_gyro = parseInt(orientation_gyro_e.val());
SENSOR_ALIGNMENT.align_acc = parseInt(orientation_acc_e.val());
SENSOR_ALIGNMENT.align_mag = parseInt(orientation_mag_e.val());
PID_ADVANCED_CONFIG.fast_pwm_protocol = parseInt(esc_protocol_e.val()-1);
PID_ADVANCED_CONFIG.use_unsyncedPwm = $('input[id="unsyncedPWMSwitch"]').is(':checked') ? 1 : 0;
PID_ADVANCED_CONFIG.motor_pwm_rate = parseInt($('input[name="unsyncedpwmfreq"]').val());
PID_ADVANCED_CONFIG.gyro_sync_denom = parseInt(gyro_select_e.val());
PID_ADVANCED_CONFIG.pid_process_denom = parseInt(pid_select_e.val());
PID_ADVANCED_CONFIG.digitalIdlePercent = parseFloat($('input[name="digitalIdlePercent"]').val());
if (semver.gte(CONFIG.apiVersion, "1.25.0")) {
PID_ADVANCED_CONFIG.gyroUse32kHz = $('input[id="gyroUse32kHz"]').is(':checked') ? 1 : 0;
}
if (semver.gte(CONFIG.apiVersion, "1.31.0")) {
RX_CONFIG.fpvCamAngleDegrees = parseInt($('input[name="fpvCamAngleDegrees"]').val());
}
function save_serial_config() {
if (semver.lt(CONFIG.apiVersion, "1.6.0")) {
MSP.send_message(MSPCodes.MSP_SET_CF_SERIAL_CONFIG, mspHelper.crunch(MSPCodes.MSP_SET_CF_SERIAL_CONFIG), false, save_misc);
} else {
save_misc();
}
}
function save_misc() {
MSP.send_message(MSPCodes.MSP_SET_MISC, mspHelper.crunch(MSPCodes.MSP_SET_MISC), false, save_3d);
}
function save_3d() {
var next_callback = save_rc_deadband;
if(semver.gte(CONFIG.apiVersion, "1.14.0")) {
MSP.send_message(MSPCodes.MSP_SET_3D, mspHelper.crunch(MSPCodes.MSP_SET_3D), false, next_callback);
} else {
next_callback();
}
}
function save_rc_deadband() {
var next_callback = save_sensor_alignment;
if(semver.gte(CONFIG.apiVersion, "1.17.0")) {
MSP.send_message(MSPCodes.MSP_SET_RC_DEADBAND, mspHelper.crunch(MSPCodes.MSP_SET_RC_DEADBAND), false, next_callback);
} else {
next_callback();
}
}
function save_sensor_alignment() {
var next_callback = save_esc_protocol;
if(semver.gte(CONFIG.apiVersion, "1.15.0")) {
MSP.send_message(MSPCodes.MSP_SET_SENSOR_ALIGNMENT, mspHelper.crunch(MSPCodes.MSP_SET_SENSOR_ALIGNMENT), false, next_callback);
} else {
next_callback();
}
}
function save_esc_protocol() {
var next_callback = save_acc_trim;
if (semver.gte(CONFIG.apiVersion, "1.16.0")) {
MSP.send_message(MSPCodes.MSP_SET_ADVANCED_CONFIG, mspHelper.crunch(MSPCodes.MSP_SET_ADVANCED_CONFIG), false, next_callback);
} else {
next_callback();
}
}
function save_acc_trim() {
MSP.send_message(MSPCodes.MSP_SET_ACC_TRIM, mspHelper.crunch(MSPCodes.MSP_SET_ACC_TRIM), false
, semver.gte(CONFIG.apiVersion, "1.8.0") ? save_arming_config : save_to_eeprom);
}
function save_arming_config() {
MSP.send_message(MSPCodes.MSP_SET_ARMING_CONFIG, mspHelper.crunch(MSPCodes.MSP_SET_ARMING_CONFIG), false, save_looptime_config);
}
function save_looptime_config() {
var next_callback = save_sensor_config;
if (semver.lt(CONFIG.apiVersion, "1.16.0")) {
FC_CONFIG.loopTime = PID_ADVANCED_CONFIG.gyro_sync_denom * 125;
MSP.send_message(MSPCodes.MSP_SET_LOOP_TIME, mspHelper.crunch(MSPCodes.MSP_SET_LOOP_TIME), false, next_callback);
} else {
next_callback();
}
}
function save_sensor_config() {
var next_callback = save_name;
if (semver.gte(CONFIG.apiVersion, "1.16.0")) {
SENSOR_CONFIG.acc_hardware = $('input[id="accHardwareSwitch"]').is(':checked') ? 0 : 1;
SENSOR_CONFIG.baro_hardware = $('input[id="baroHardwareSwitch"]').is(':checked') ? 0 : 1;
SENSOR_CONFIG.mag_hardware = $('input[id="magHardwareSwitch"]').is(':checked') ? 0 : 1;
MSP.send_message(MSPCodes.MSP_SET_SENSOR_CONFIG, mspHelper.crunch(MSPCodes.MSP_SET_SENSOR_CONFIG), false, next_callback);
} else {
next_callback();
}
}
function save_name() {
var next_callback = save_battery;
if (semver.gte(CONFIG.apiVersion, "1.20.0")) {
CONFIG.name = $.trim($('input[name="vesselName"]').val());
MSP.send_message(MSPCodes.MSP_SET_NAME, mspHelper.crunch(MSPCodes.MSP_SET_NAME), false, next_callback);
} else {
next_callback();
}
}
function save_battery() {
var next_callback = save_current;
if (semver.gte(CONFIG.apiVersion, "1.31.0")) {
MSP.send_message(MSPCodes.MSP_SET_VOLTAGE_METER_CONFIG, mspHelper.crunch(MSPCodes.MSP_SET_VOLTAGE_METER_CONFIG), false, next_callback);
} else {
next_callback();
}
}
function save_current() {
var next_callback = save_rx_config;
if (semver.gte(CONFIG.apiVersion, "1.31.0")) {
MSP.send_message(MSPCodes.MSP_SET_CURRENT_METER_CONFIG, mspHelper.crunch(MSPCodes.MSP_SET_CURRENT_METER_CONFIG), false, next_callback);
} else {
next_callback();
}
}
function save_rx_config() {
var next_callback = save_to_eeprom;
if (semver.gte(CONFIG.apiVersion, "1.31.0")) {
MSP.send_message(MSPCodes.MSP_SET_RX_CONFIG, mspHelper.crunch(MSPCodes.MSP_SET_RX_CONFIG), false, next_callback);
} else {
next_callback();
}
}
function save_to_eeprom() {
MSP.send_message(MSPCodes.MSP_EEPROM_WRITE, false, false, reboot);
}
function reboot() {
GUI.log(chrome.i18n.getMessage('configurationEepromSaved'));
GUI.tab_switch_cleanup(function() {
MSP.send_message(MSPCodes.MSP_SET_REBOOT, false, false, reinitialize);
});
}
function reinitialize() {
GUI.log(chrome.i18n.getMessage('deviceRebooting'));
if (BOARD.find_board_definition(CONFIG.boardIdentifier).vcp) { // VCP-based flight controls may crash old drivers, we catch and reconnect
$('a.connect').click();
GUI.timeout_add('start_connection',function start_connection() {
$('a.connect').click();
},2500);
} else {
GUI.timeout_add('waiting_for_bootup', function waiting_for_bootup() {
MSP.send_message(MSPCodes.MSP_STATUS, false, false, function() {
GUI.log(chrome.i18n.getMessage('deviceReady'));
TABS.configuration.initialize(false, $('#content').scrollTop());
});
},1500); // 1500 ms seems to be just the right amount of delay to prevent data request timeouts
}
}
MSP.send_message(MSPCodes.MSP_SET_BF_CONFIG, mspHelper.crunch(MSPCodes.MSP_SET_BF_CONFIG), false, save_serial_config);
});
// status data pulled via separate timer with static speed
GUI.interval_add('status_pull', function status_pull() {
MSP.send_message(MSPCodes.MSP_STATUS);
}, 250, true);
GUI.interval_add('config_load_analog', load_analog, 250, true); // 4 fps
GUI.content_ready(callback);
}
};
TABS.configuration.cleanup = function (callback) {
if (callback) callback();
};