'use strict'; TABS.configuration = {}; TABS.configuration.initialize = function (callback) { var self = this; if (GUI.active_tab != 'configuration') { GUI.active_tab = 'configuration'; googleAnalytics.sendAppView('Configuration'); } function check_compatibility() { if (bit_check(CONFIG.capability, 30)) { // new stuff supported, continue fetching configuration data load_config(); } else { // old version, deny access $('#content').text('We are sorry, but advanced configuration is only available for boards with latest firmware, please update'); if (callback) callback(); } } function load_config() { MSP.send_message(MSP_codes.MSP_CONFIG, false, false, load_rc_map); } function load_rc_map() { MSP.send_message(MSP_codes.MSP_RCMAP, false, false, load_misc); } function load_misc() { MSP.send_message(MSP_codes.MSP_MISC, false, false, load_acc_trim); } function load_acc_trim() { MSP.send_message(MSP_codes.MSP_ACC_TRIM, false, false, load_html); } function load_html() { $('#content').load("./tabs/configuration.html", process_html); } MSP.send_message(MSP_codes.MSP_IDENT, false, false, check_compatibility); function process_html() { // translate to user-selected language localize(); // generate mixer var mixerList = [ {name: 'Tricopter', image: 'tri'}, {name: 'Quad +', image: 'quad_p'}, {name: 'Quad X', image: 'quad_x'}, {name: 'Bicopter', image: 'custom'}, {name: 'Gimbal', image: 'custom'}, {name: 'Y6', image: 'y6'}, {name: 'Hex +', image: 'hex_p'}, {name: 'Flying Wing', image: 'flying_wing'}, {name: 'Y4', image: 'y4'}, {name: 'Hex X', image: 'hex_x'}, {name: 'Octo X8', image: 'octo_x8'}, {name: 'Octo Flat +', image: 'custom'}, {name: 'Octo Flat X', image: 'octo_flat_x'}, {name: 'Airplane', image: 'airplane'}, {name: 'Heli 120', image: 'custom'}, {name: 'Heli 90', image: 'custom'}, {name: 'V-tail Quad', image: 'vtail_quad'}, {name: 'Hex H', image: 'custom'}, {name: 'PPM to SERVO', image: 'custom'}, {name: 'Dualcopter', image: 'custom'}, {name: 'Singlecopter', image: 'custom'}, {name: 'Custom', image: 'custom'} ]; var mixer_list_e = $('select.mixerList'); for (var i = 0; i < mixerList.length; i++) { mixer_list_e.append(''); } mixer_list_e.change(function () { var val = parseInt($(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(); // generate features var featureNames = [ {name: 'PPM', description: 'Enable PPM input (and disable PWM input)'}, {name: 'VBAT', description: 'Enable Battery voltage monitoring'}, {name: 'INFLIGHT_ACC_CAL', description: 'Enable in-flight level calibration'}, {name: 'SERIALRX', description: 'Enable Serial-based receiver (SPEKSAT, SBUS, SUMD)'}, {name: 'MOTOR_STOP', description: 'Don\'t spin the motors when armed'}, {name: 'SERVO_TILT', description: 'Enable servo gimbal'}, {name: 'SOFTSERIAL', description: 'Enable 3rd serial port'}, {name: 'LED_RING', description: 'Enable LED ring support'}, {name: 'GPS', description: 'Enable GPS (PPM or 3rd serial port required)'}, {name: 'FAILSAFE', description: 'Enable failsafe settings on PPM/PWM signal loss'}, {name: 'SONAR', description: 'Enable sonar'}, {name: 'TELEMETRY', description: 'Enable FrSky- compatible telemetry output'}, {name: 'POWERMETER', description: 'Enable battery current monitoring'}, {name: 'VARIO', description: 'Enable VARIO'}, {name: '3D', description: 'Enable 3D mode (for use with reversible ESCs)'} ]; var features_e = $('.features'); for (var i = 0; i < featureNames.length; i++) { var element = $('
'); element.find('input').attr('checked', bit_check(BF_CONFIG.features, i)); features_e.append(element); } // generate GPS var gpsTypes = [ 'NMEA', 'UBLOX', 'MTK_NMEA', 'MTK_BINARY', 'MAG_BINARY' ]; var gpsBauds = [ '115200', '57600', '38400', '19200', '9600' ]; var gpsSbas = [ 'Auto-detect', 'European EGNOS', 'North American WAAS', 'Japanese MSAS', 'Indian GAGAN' ]; var gps_type_e = $('select.gps_type'); for (var i = 0; i < gpsTypes.length; i++) { gps_type_e.append(''); } gps_type_e.change(function () { MISC.gps_type = parseInt($(this).val()); }); var gps_baudrate_e = $('select.gps_baudrate'); for (var i = 0; i < gpsBauds.length; i++) { gps_baudrate_e.append(''); } gps_baudrate_e.change(function () { MISC.gps_baudrate = parseInt($(this).val()); }); 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()); }); // select current gps configuration gps_type_e.val(MISC.gps_type); gps_baudrate_e.val(MISC.gps_baudrate); gps_ubx_sbas_e.val(MISC.gps_ubx_sbas); // generate serial RX var serialRXtypes = [ 'SPEKTRUM1024', 'SPEKTRUM2048', 'SBUS', 'SUMD' ]; var serialRX_e = $('select.serialRX'); for (var i = 0; i < serialRXtypes.length; i++) { serialRX_e.append(''); } serialRX_e.change(function () { BF_CONFIG.serialrx_type = parseInt($(this).val()); }); // select current serial RX type serialRX_e.val(BF_CONFIG.serialrx_type); // 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 / 10); // fill throttle $('input[name="minthrottle"]').val(MISC.minthrottle); $('input[name="midthrottle"]').val(MISC.midrc); $('input[name="maxthrottle"]').val(MISC.maxthrottle); $('input[name="failsafe_throttle"]').val(MISC.failsafe_throttle); $('input[name="mincommand"]').val(MISC.mincommand); // fill battery $('input[name="mincellvoltage"]').val(MISC.vbatmincellvoltage); $('input[name="maxcellvoltage"]').val(MISC.vbatmaxcellvoltage); $('input[name="voltagescale"]').val(MISC.vbatscale); // fill current $('input[name="currentscale"]').val(BF_CONFIG.currentscale); $('input[name="currentoffset"]').val(BF_CONFIG.currentoffset); $('input[name="multiwiicurrentoutput"]').prop('checked', MISC.multiwiicurrentoutput); // UI hooks $('input', features_e).change(function () { var element = $(this), index = $('input', features_e).index(element), state = element.is(':checked'); if (state) { BF_CONFIG.features = bit_set(BF_CONFIG.features, index); } else { BF_CONFIG.features = bit_clear(BF_CONFIG.features, index); } }); $('a.save').click(function () { // gather data that doesn't have automatic change event bound BF_CONFIG.board_align_roll = parseInt($('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($('input[name="mag_declination"]').val()) * 10; MISC.minthrottle = parseInt($('input[name="minthrottle"]').val()); MISC.midrc = parseInt($('input[name="midthrottle"]').val()); MISC.maxthrottle = parseInt($('input[name="maxthrottle"]').val()); MISC.failsafe_throttle = parseInt($('input[name="failsafe_throttle"]').val()); MISC.mincommand = parseInt($('input[name="mincommand"]').val()); MISC.vbatmincellvoltage = parseFloat($('input[name="mincellvoltage"]').val()) * 10; MISC.vbatmaxcellvoltage = parseFloat($('input[name="maxcellvoltage"]').val()) * 10; 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'); // ~~ boolean to decimal conversion function save_misc() { MSP.send_message(MSP_codes.MSP_SET_MISC, MSP.crunch(MSP_codes.MSP_SET_MISC), false, save_acc_trim); } function save_acc_trim() { MSP.send_message(MSP_codes.MSP_SET_ACC_TRIM, MSP.crunch(MSP_codes.MSP_SET_ACC_TRIM), false, save_to_eeprom); } function save_to_eeprom() { MSP.send_message(MSP_codes.MSP_EEPROM_WRITE, false, false, reboot); } function reboot() { GUI.log(chrome.i18n.getMessage('configurationEepromSaved')); GUI.tab_switch_cleanup(function() { MSP.send_message(MSP_codes.MSP_SET_REBOOT, false, false, reinitialize); }); } function reinitialize() { GUI.log(chrome.i18n.getMessage('deviceRebooting')); GUI.timeout_add('waiting_for_bootup', function waiting_for_bootup() { MSP.send_message(MSP_codes.MSP_IDENT, false, false, function () { GUI.log(chrome.i18n.getMessage('deviceReady')); TABS.configuration.initialize(); }); }, 1500); // 1500 ms seems to be just the right amount of delay to prevent data request timeouts } MSP.send_message(MSP_codes.MSP_SET_CONFIG, MSP.crunch(MSP_codes.MSP_SET_CONFIG), false, save_misc); }); // status data pulled via separate timer with static speed GUI.interval_add('status_pull', function status_pull() { MSP.send_message(MSP_codes.MSP_STATUS); }, 250, true); if (callback) callback(); } }; TABS.configuration.cleanup = function (callback) { if (callback) callback(); };