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inav-configurator/js/msp/MSPHelper.js
Alberto García Hierro 850632bfee Use async URL loading for the JSON setting definitions 
Chrome disallows synchronous URL loading, so all functions requiring
the JSON definitions for the settings over MSPv2 need to be async.
This required rewriting MSPHelper._getSetting() and all its callers
using promises.

Fixes #284
2017-10-17 19:49:50 +01:00

2372 lines
97 KiB
JavaScript
Raw Blame History

/*global $, SERVO_DATA, PID_names, ADJUSTMENT_RANGES, RXFAIL_CONFIG, SERVO_CONFIG*/
'use strict';
var mspHelper = (function (gui) {
var self = {};
self.BAUD_RATES_post1_6_3 = [
'AUTO',
'1200',
'2400',
'4800',
'9600',
'19200',
'38400',
'57600',
'115200',
'230400',
'250000',
'460800',
'921600'
];
self.BAUD_RATES_pre1_6_3 = [
'AUTO',
'9600',
'19200',
'38400',
'57600',
'115200',
'230400',
'250000'
];
self.SERIAL_PORT_FUNCTIONS = {
'MSP': 0,
'GPS': 1,
'TELEMETRY_FRSKY': 2,
'TELEMETRY_HOTT': 3,
'TELEMETRY_LTM': 4, // LTM replaced MSP
'TELEMETRY_SMARTPORT': 5,
'RX_SERIAL': 6,
'BLACKBOX': 7,
'TELEMETRY_MAVLINK': 8,
'TELEMETRY_IBUS': 9,
'RUNCAM_SPLIT_CONTROL' : 10,
'TBS_SMARTAUDIO': 11,
'IRC_TRAMP': 12
};
/**
*
* @param {MSP} dataHandler
*/
self.processData = function (dataHandler) {
var data = new DataView(dataHandler.message_buffer, 0), // DataView (allowing us to view arrayBuffer as struct/union)
offset = 0,
needle = 0,
i = 0,
buff = [],
identifier = '',
flags,
colorCount,
color;
if (!dataHandler.unsupported) switch (dataHandler.code) {
case MSPCodes.MSP_IDENT:
//FIXME remove this frame when proven not needed
console.log('Using deprecated msp command: MSP_IDENT');
// Deprecated
CONFIG.version = parseFloat((data.getUint8(0) / 100).toFixed(2));
CONFIG.multiType = data.getUint8(1);
CONFIG.msp_version = data.getUint8(2);
CONFIG.capability = data.getUint32(3, true);
break;
case MSPCodes.MSP_STATUS:
console.log('Using deprecated msp command: MSP_STATUS');
CONFIG.cycleTime = data.getUint16(0, true);
CONFIG.i2cError = data.getUint16(2, true);
CONFIG.activeSensors = data.getUint16(4, true);
CONFIG.mode = data.getUint32(6, true);
CONFIG.profile = data.getUint8(10);
gui.updateProfileChange();
gui.updateStatusBar();
/*
* Update sensor status only for older firmwares
* Newer firmwares use MSP_SENSOR_STATUS instead
*/
if (semver.lt(CONFIG.flightControllerVersion, "1.5.0")) {
sensor_status(CONFIG.activeSensors);
}
break;
case MSPCodes.MSP_STATUS_EX:
CONFIG.cycleTime = data.getUint16(0, true);
CONFIG.i2cError = data.getUint16(2, true);
CONFIG.activeSensors = data.getUint16(4, true);
/* For 1.7.4+ MSP_ACTIVEBOXES should be used to determine active modes */
if (semver.lt(CONFIG.flightControllerVersion, "1.7.4")) {
CONFIG.mode = data.getUint32(6, true);
}
CONFIG.profile = data.getUint8(10);
CONFIG.cpuload = data.getUint16(11, true);
if (semver.gte(CONFIG.flightControllerVersion, "1.5.0")) {
CONFIG.armingFlags = data.getUint16(13, true);
}
if (semver.lt(CONFIG.flightControllerVersion, "1.5.0")) {
sensor_status(CONFIG.activeSensors);
}
gui.updateStatusBar();
gui.updateProfileChange();
break;
case MSPCodes.MSP_ACTIVEBOXES:
var words = dataHandler.message_length_expected / 4;
CONFIG.mode = 0;
if (words == 1) {
CONFIG.mode = data.getUint32(0, true);
}
else if (words == 2) {
CONFIG.mode = data.getUint32(0, true) | (data.getUint32(4, true) << 32);
}
else {
console.log('MSP_ACTIVEBOXES doesn\'t support more than 53 bits at the moment');
}
break;
case MSPCodes.MSP_SENSOR_STATUS:
SENSOR_STATUS.isHardwareHealthy = data.getUint8(0);
SENSOR_STATUS.gyroHwStatus = data.getUint8(1);
SENSOR_STATUS.accHwStatus = data.getUint8(2);
SENSOR_STATUS.magHwStatus = data.getUint8(3);
SENSOR_STATUS.baroHwStatus = data.getUint8(4);
SENSOR_STATUS.gpsHwStatus = data.getUint8(5);
SENSOR_STATUS.rangeHwStatus = data.getUint8(6);
SENSOR_STATUS.speedHwStatus = data.getUint8(7);
SENSOR_STATUS.flowHwStatus = data.getUint8(8);
if (semver.gte(CONFIG.flightControllerVersion, "1.5.0")) {
sensor_status_ex(SENSOR_STATUS);
}
break;
case MSPCodes.MSP_RAW_IMU:
// 512 for mpu6050, 256 for mma
// currently we are unable to differentiate between the sensor types, so we are goign with 512
SENSOR_DATA.accelerometer[0] = data.getInt16(0, true) / 512;
SENSOR_DATA.accelerometer[1] = data.getInt16(2, true) / 512;
SENSOR_DATA.accelerometer[2] = data.getInt16(4, true) / 512;
// properly scaled
SENSOR_DATA.gyroscope[0] = data.getInt16(6, true) * (4 / 16.4);
SENSOR_DATA.gyroscope[1] = data.getInt16(8, true) * (4 / 16.4);
SENSOR_DATA.gyroscope[2] = data.getInt16(10, true) * (4 / 16.4);
// no clue about scaling factor
SENSOR_DATA.magnetometer[0] = data.getInt16(12, true) / 1090;
SENSOR_DATA.magnetometer[1] = data.getInt16(14, true) / 1090;
SENSOR_DATA.magnetometer[2] = data.getInt16(16, true) / 1090;
break;
case MSPCodes.MSP_SERVO:
var servoCount = dataHandler.message_length_expected / 2;
for (i = 0; i < servoCount; i++) {
SERVO_DATA[i] = data.getUint16(needle, true);
needle += 2;
}
break;
case MSPCodes.MSP_MOTOR:
var motorCount = dataHandler.message_length_expected / 2;
for (i = 0; i < motorCount; i++) {
MOTOR_DATA[i] = data.getUint16(needle, true);
needle += 2;
}
break;
case MSPCodes.MSP_RC:
RC.active_channels = dataHandler.message_length_expected / 2;
for (i = 0; i < RC.active_channels; i++) {
RC.channels[i] = data.getUint16((i * 2), true);
}
break;
case MSPCodes.MSP_RAW_GPS:
GPS_DATA.fix = data.getUint8(0);
GPS_DATA.numSat = data.getUint8(1);
GPS_DATA.lat = data.getInt32(2, true);
GPS_DATA.lon = data.getInt32(6, true);
GPS_DATA.alt = data.getInt16(10, true);
GPS_DATA.speed = data.getUint16(12, true);
GPS_DATA.ground_course = data.getUint16(14, true);
GPS_DATA.hdop = data.getUint16(16, true);
break;
case MSPCodes.MSP_COMP_GPS:
GPS_DATA.distanceToHome = data.getUint16(0, 1);
GPS_DATA.directionToHome = data.getUint16(2, 1);
GPS_DATA.update = data.getUint8(4);
break;
case MSPCodes.MSP_GPSSTATISTICS:
GPS_DATA.messageDt = data.getUint16(0, true);
GPS_DATA.errors = data.getUint32(2, true);
GPS_DATA.timeouts = data.getUint32(6, true);
GPS_DATA.packetCount = data.getUint32(10, true);
GPS_DATA.hdop = data.getUint16(14, true);
GPS_DATA.eph = data.getUint16(16, true);
GPS_DATA.epv = data.getUint16(18, true);
break;
case MSPCodes.MSP_ATTITUDE:
SENSOR_DATA.kinematics[0] = data.getInt16(0, true) / 10.0; // x
SENSOR_DATA.kinematics[1] = data.getInt16(2, true) / 10.0; // y
SENSOR_DATA.kinematics[2] = data.getInt16(4, true); // z
break;
case MSPCodes.MSP_ALTITUDE:
SENSOR_DATA.altitude = parseFloat((data.getInt32(0, true) / 100.0).toFixed(2)); // correct scale factor
// On 1.6 and above this provides also baro raw altitude
if (semver.gte(CONFIG.flightControllerVersion, "1.6.0")) {
SENSOR_DATA.barometer = parseFloat((data.getInt32(6, true) / 100.0).toFixed(2)); // correct scale factor
}
break;
case MSPCodes.MSP_SONAR:
SENSOR_DATA.sonar = data.getInt32(0, true);
break;
case MSPCodes.MSP_ANALOG:
ANALOG.voltage = data.getUint8(0) / 10.0;
ANALOG.mAhdrawn = data.getUint16(1, true);
ANALOG.rssi = data.getUint16(3, true); // 0-1023
ANALOG.amperage = data.getInt16(5, true) / 100; // A
//noinspection JSValidateTypes
dataHandler.analog_last_received_timestamp = Date.now();
break;
case MSPCodes.MSP_RC_TUNING:
RC_tuning.RC_RATE = parseFloat((data.getUint8(offset++) / 100).toFixed(2));
RC_tuning.RC_EXPO = parseFloat((data.getUint8(offset++) / 100).toFixed(2));
if (FC.isRatesInDps()) {
RC_tuning.roll_pitch_rate = 0;
RC_tuning.roll_rate = parseFloat((data.getUint8(offset++) * 10));
RC_tuning.pitch_rate = parseFloat((data.getUint8(offset++) * 10));
RC_tuning.yaw_rate = parseFloat((data.getUint8(offset++) * 10));
} else {
RC_tuning.roll_pitch_rate = 0;
RC_tuning.roll_rate = parseFloat((data.getUint8(offset++) / 100).toFixed(2));
RC_tuning.pitch_rate = parseFloat((data.getUint8(offset++) / 100).toFixed(2));
RC_tuning.yaw_rate = parseFloat((data.getUint8(offset++) / 100).toFixed(2));
}
RC_tuning.dynamic_THR_PID = parseInt(data.getUint8(offset++));
RC_tuning.throttle_MID = parseFloat((data.getUint8(offset++) / 100).toFixed(2));
RC_tuning.throttle_EXPO = parseFloat((data.getUint8(offset++) / 100).toFixed(2));
RC_tuning.dynamic_THR_breakpoint = data.getUint16(offset, true);
offset += 2;
RC_tuning.RC_YAW_EXPO = parseFloat((data.getUint8(offset++) / 100).toFixed(2));
break;
case MSPCodes.MSP_PID:
// PID data arrived, we need to scale it and save to appropriate bank / array
for (i = 0, needle = 0; i < (dataHandler.message_length_expected / 3); i++, needle += 3) {
PIDs[i][0] = data.getUint8(needle);
PIDs[i][1] = data.getUint8(needle + 1);
PIDs[i][2] = data.getUint8(needle + 2);
}
break;
case MSPCodes.MSP_ARMING_CONFIG:
ARMING_CONFIG.auto_disarm_delay = data.getUint8(0);
ARMING_CONFIG.disarm_kill_switch = data.getUint8(1);
break;
case MSPCodes.MSP_LOOP_TIME:
FC_CONFIG.loopTime = data.getInt16(0, true);
break;
case MSPCodes.MSP_MISC: // 22 bytes
MISC.midrc = data.getInt16(offset, true);
offset += 2;
MISC.minthrottle = data.getUint16(offset, true); // 0-2000
offset += 2;
MISC.maxthrottle = data.getUint16(offset, true); // 0-2000
offset += 2;
MISC.mincommand = data.getUint16(offset, true); // 0-2000
offset += 2;
MISC.failsafe_throttle = data.getUint16(offset, true); // 1000-2000
offset += 2;
MISC.gps_type = data.getUint8(offset++);
MISC.sensors_baudrate = data.getUint8(offset++);
MISC.gps_ubx_sbas = data.getInt8(offset++);
MISC.multiwiicurrentoutput = data.getUint8(offset++);
MISC.rssi_channel = data.getUint8(offset++);
MISC.placeholder2 = data.getUint8(offset++);
MISC.mag_declination = data.getInt16(offset, 1) / 10; // -18000-18000
offset += 2;
MISC.vbatscale = data.getUint8(offset++); // 10-200
MISC.vbatmincellvoltage = data.getUint8(offset++) / 10; // 10-50
MISC.vbatmaxcellvoltage = data.getUint8(offset++) / 10; // 10-50
MISC.vbatwarningcellvoltage = data.getUint8(offset++) / 10; // 10-50
break;
case MSPCodes.MSP_3D:
_3D.deadband3d_low = data.getUint16(offset, true);
offset += 2;
_3D.deadband3d_high = data.getUint16(offset, true);
offset += 2;
_3D.neutral3d = data.getUint16(offset, true);
if (semver.lt(CONFIG.apiVersion, "1.17.0")) {
offset += 2;
_3D.deadband3d_throttle = data.getUint16(offset, true);
}
break;
case MSPCodes.MSP_MOTOR_PINS:
console.log(data);
break;
case MSPCodes.MSP_BOXNAMES:
//noinspection JSUndeclaredVariable
AUX_CONFIG = []; // empty the array as new data is coming in
buff = [];
for (i = 0; i < data.byteLength; i++) {
if (data.getUint8(i) == 0x3B) { // ; (delimeter char)
AUX_CONFIG.push(String.fromCharCode.apply(null, buff)); // convert bytes into ASCII and save as strings
// empty buffer
buff = [];
} else {
buff.push(data.getUint8(i));
}
}
break;
case MSPCodes.MSP_PIDNAMES:
//noinspection JSUndeclaredVariable
PID_names = []; // empty the array as new data is coming in
buff = [];
for (i = 0; i < data.byteLength; i++) {
if (data.getUint8(i) == 0x3B) { // ; (delimiter char)
PID_names.push(String.fromCharCode.apply(null, buff)); // convert bytes into ASCII and save as strings
// empty buffer
buff = [];
} else {
buff.push(data.getUint8(i));
}
}
break;
case MSPCodes.MSP_WP:
console.log(data);
break;
case MSPCodes.MSP_BOXIDS:
//noinspection JSUndeclaredVariable
AUX_CONFIG_IDS = []; // empty the array as new data is coming in
for (i = 0; i < data.byteLength; i++) {
AUX_CONFIG_IDS.push(data.getUint8(i));
}
break;
case MSPCodes.MSP_SERVO_MIX_RULES:
break;
case MSPCodes.MSP_SERVO_CONFIGURATIONS:
//noinspection JSUndeclaredVariable
SERVO_CONFIG = []; // empty the array as new data is coming in
if (data.byteLength % 14 == 0) {
for (i = 0; i < data.byteLength; i += 14) {
var arr = {
'min': data.getInt16(i + 0, true),
'max': data.getInt16(i + 2, true),
'middle': data.getInt16(i + 4, true),
'rate': data.getInt8(i + 6),
'indexOfChannelToForward': data.getInt8(i + 9),
'reversedInputSources': data.getUint32(i + 10)
};
SERVO_CONFIG.push(arr);
}
}
break;
case MSPCodes.MSP_RC_DEADBAND:
RC_deadband.deadband = data.getUint8(offset++);
RC_deadband.yaw_deadband = data.getUint8(offset++);
RC_deadband.alt_hold_deadband = data.getUint8(offset++);
if (semver.gte(CONFIG.apiVersion, "1.24.0")) {
_3D.deadband3d_throttle = data.getUint16(offset, true);
}
break;
case MSPCodes.MSP_SENSOR_ALIGNMENT:
SENSOR_ALIGNMENT.align_gyro = data.getUint8(offset++);
SENSOR_ALIGNMENT.align_acc = data.getUint8(offset++);
SENSOR_ALIGNMENT.align_mag = data.getUint8(offset++);
break;
case MSPCodes.MSP_SET_RAW_RC:
break;
case MSPCodes.MSP_SET_RAW_GPS:
break;
case MSPCodes.MSP_SET_PID:
console.log('PID settings saved');
break;
case MSPCodes.MSP_SET_RC_TUNING:
console.log('RC Tuning saved');
break;
case MSPCodes.MSP_ACC_CALIBRATION:
console.log('Accelerometer calibration executed');
break;
case MSPCodes.MSP_MAG_CALIBRATION:
console.log('Mag calibration executed');
break;
case MSPCodes.MSP_SET_MISC:
console.log('MISC Configuration saved');
break;
case MSPCodes.MSP_RESET_CONF:
console.log('Settings Reset');
break;
case MSPCodes.MSP_SELECT_SETTING:
console.log('Profile selected');
break;
case MSPCodes.MSP_SET_SERVO_CONFIGURATION:
console.log('Servo Configuration saved');
break;
case MSPCodes.MSP_EEPROM_WRITE:
console.log('Settings Saved in EEPROM');
break;
case MSPCodes.MSP_DEBUGMSG:
break;
case MSPCodes.MSP_DEBUG:
for (i = 0; i < 4; i++)
SENSOR_DATA.debug[i] = data.getInt16((2 * i), 1);
break;
case MSPCodes.MSP_SET_MOTOR:
console.log('Motor Speeds Updated');
break;
// Additional baseflight commands that are not compatible with MultiWii
case MSPCodes.MSP_UID:
CONFIG.uid[0] = data.getUint32(0, true);
CONFIG.uid[1] = data.getUint32(4, true);
CONFIG.uid[2] = data.getUint32(8, true);
break;
case MSPCodes.MSP_ACC_TRIM:
CONFIG.accelerometerTrims[0] = data.getInt16(0, true); // pitch
CONFIG.accelerometerTrims[1] = data.getInt16(2, true); // roll
break;
case MSPCodes.MSP_SET_ACC_TRIM:
console.log('Accelerometer trimms saved.');
break;
// Additional private MSP for baseflight configurator
case MSPCodes.MSP_RX_MAP:
//noinspection JSUndeclaredVariable
RC_MAP = []; // empty the array as new data is coming in
for (i = 0; i < data.byteLength; i++) {
RC_MAP.push(data.getUint8(i));
}
break;
case MSPCodes.MSP_SET_RX_MAP:
console.log('RCMAP saved');
break;
case MSPCodes.MSP_BF_CONFIG:
BF_CONFIG.mixerConfiguration = data.getUint8(0);
BF_CONFIG.features = data.getUint32(1, true);
BF_CONFIG.serialrx_type = data.getUint8(5);
BF_CONFIG.board_align_roll = data.getInt16(6, true); // -180 - 360
BF_CONFIG.board_align_pitch = data.getInt16(8, true); // -180 - 360
BF_CONFIG.board_align_yaw = data.getInt16(10, true); // -180 - 360
BF_CONFIG.currentscale = data.getInt16(12, true);
BF_CONFIG.currentoffset = data.getUint16(14, true);
break;
case MSPCodes.MSP_SET_BF_CONFIG:
console.log('BF_CONFIG saved');
break;
case MSPCodes.MSP_SET_REBOOT:
console.log('Reboot request accepted');
break;
//
// Cleanflight specific
//
case MSPCodes.MSP_API_VERSION:
CONFIG.mspProtocolVersion = data.getUint8(offset++);
CONFIG.apiVersion = data.getUint8(offset++) + '.' + data.getUint8(offset++) + '.0';
break;
case MSPCodes.MSP_FC_VARIANT:
for (offset = 0; offset < 4; offset++) {
identifier += String.fromCharCode(data.getUint8(offset));
}
CONFIG.flightControllerIdentifier = identifier;
break;
case MSPCodes.MSP_FC_VERSION:
CONFIG.flightControllerVersion = data.getUint8(offset++) + '.' + data.getUint8(offset++) + '.' + data.getUint8(offset++);
break;
case MSPCodes.MSP_BUILD_INFO:
var dateLength = 11;
buff = [];
for (i = 0; i < dateLength; i++) {
buff.push(data.getUint8(offset++));
}
buff.push(32); // ascii space
var timeLength = 8;
for (i = 0; i < timeLength; i++) {
buff.push(data.getUint8(offset++));
}
CONFIG.buildInfo = String.fromCharCode.apply(null, buff);
break;
case MSPCodes.MSP_BOARD_INFO:
for (offset = 0; offset < 4; offset++) {
identifier += String.fromCharCode(data.getUint8(offset));
}
CONFIG.boardIdentifier = identifier;
CONFIG.boardVersion = data.getUint16(offset, 1);
offset += 2;
break;
case MSPCodes.MSP_SET_CHANNEL_FORWARDING:
console.log('Channel forwarding saved');
break;
case MSPCodes.MSP_CF_SERIAL_CONFIG:
SERIAL_CONFIG.ports = [];
var bytesPerPort = 1 + 2 + 4;
var serialPortCount = data.byteLength / bytesPerPort;
for (i = 0; i < serialPortCount; i++) {
var BAUD_RATES = (semver.gte(CONFIG.flightControllerVersion, "1.6.3")) ? mspHelper.BAUD_RATES_post1_6_3 : mspHelper.BAUD_RATES_pre1_6_3;
var serialPort = {
identifier: data.getUint8(offset),
functions: mspHelper.serialPortFunctionMaskToFunctions(data.getUint16(offset + 1, true)),
msp_baudrate: BAUD_RATES[data.getUint8(offset + 3)],
sensors_baudrate: BAUD_RATES[data.getUint8(offset + 4)],
telemetry_baudrate: BAUD_RATES[data.getUint8(offset + 5)],
blackbox_baudrate: BAUD_RATES[data.getUint8(offset + 6)]
};
offset += bytesPerPort;
SERIAL_CONFIG.ports.push(serialPort);
}
break;
case MSPCodes.MSP_SET_CF_SERIAL_CONFIG:
console.log('Serial config saved');
break;
case MSPCodes.MSP_MODE_RANGES:
//noinspection JSUndeclaredVariable
MODE_RANGES = []; // empty the array as new data is coming in
var modeRangeCount = data.byteLength / 4; // 4 bytes per item.
for (i = 0; offset < data.byteLength && i < modeRangeCount; i++) {
var modeRange = {
id: data.getUint8(offset++),
auxChannelIndex: data.getUint8(offset++),
range: {
start: 900 + (data.getUint8(offset++) * 25),
end: 900 + (data.getUint8(offset++) * 25)
}
};
MODE_RANGES.push(modeRange);
}
break;
case MSPCodes.MSP_ADJUSTMENT_RANGES:
//noinspection JSUndeclaredVariable
ADJUSTMENT_RANGES = []; // empty the array as new data is coming in
var adjustmentRangeCount = data.byteLength / 6; // 6 bytes per item.
for (i = 0; offset < data.byteLength && i < adjustmentRangeCount; i++) {
var adjustmentRange = {
slotIndex: data.getUint8(offset++),
auxChannelIndex: data.getUint8(offset++),
range: {
start: 900 + (data.getUint8(offset++) * 25),
end: 900 + (data.getUint8(offset++) * 25)
},
adjustmentFunction: data.getUint8(offset++),
auxSwitchChannelIndex: data.getUint8(offset++)
};
ADJUSTMENT_RANGES.push(adjustmentRange);
}
break;
case MSPCodes.MSP_CHANNEL_FORWARDING:
for (i = 0; i < data.byteLength && i < SERVO_CONFIG.length; i++) {
var channelIndex = data.getUint8(i);
if (channelIndex < 255) {
SERVO_CONFIG[i].indexOfChannelToForward = channelIndex;
} else {
SERVO_CONFIG[i].indexOfChannelToForward = undefined;
}
}
break;
case MSPCodes.MSP_RX_CONFIG:
RX_CONFIG.serialrx_provider = data.getUint8(offset);
offset++;
RX_CONFIG.maxcheck = data.getUint16(offset, true);
offset += 2;
RX_CONFIG.midrc = data.getUint16(offset, true);
offset += 2;
RX_CONFIG.mincheck = data.getUint16(offset, true);
offset += 2;
RX_CONFIG.spektrum_sat_bind = data.getUint8(offset);
offset++;
RX_CONFIG.rx_min_usec = data.getUint16(offset, true);
offset += 2;
RX_CONFIG.rx_max_usec = data.getUint16(offset, true);
offset += 2;
if (semver.gte(CONFIG.apiVersion, "1.21.0")) {
offset += 4; // 4 null bytes for betaflight compatibility
RX_CONFIG.spirx_protocol = data.getUint8(offset);
offset++;
RX_CONFIG.spirx_id = data.getUint32(offset, true);
offset += 4;
RX_CONFIG.spirx_channel_count = data.getUint8(offset);
offset += 1;
}
if (semver.gt(CONFIG.flightControllerVersion, "1.7.3")) {
// unused byte for fpvCamAngleDegrees, for compatiblity with betaflight
offset += 1;
RX_CONFIG.receiver_type = data.getUint8(offset);
offset += 1;
}
break;
case MSPCodes.MSP_FAILSAFE_CONFIG:
FAILSAFE_CONFIG.failsafe_delay = data.getUint8(offset);
offset++;
FAILSAFE_CONFIG.failsafe_off_delay = data.getUint8(offset);
offset++;
FAILSAFE_CONFIG.failsafe_throttle = data.getUint16(offset, true);
offset += 2;
FAILSAFE_CONFIG.failsafe_kill_switch = data.getUint8(offset);
offset++;
FAILSAFE_CONFIG.failsafe_throttle_low_delay = data.getUint16(offset, true);
offset += 2;
FAILSAFE_CONFIG.failsafe_procedure = data.getUint8(offset);
offset++;
if (semver.gte(CONFIG.flightControllerVersion, "1.7.3")) {
FAILSAFE_CONFIG.failsafe_recovery_delay = data.getUint8(offset);
offset++;
FAILSAFE_CONFIG.failsafe_fw_roll_angle = data.getUint16(offset, true);
offset += 2;
FAILSAFE_CONFIG.failsafe_fw_pitch_angle = data.getUint16(offset, true);
offset += 2;
FAILSAFE_CONFIG.failsafe_fw_yaw_rate = data.getUint16(offset, true);
offset += 2;
FAILSAFE_CONFIG.failsafe_stick_motion_threshold = data.getUint16(offset, true);
offset += 2;
}
if (semver.gte(CONFIG.flightControllerVersion, "1.7.4")) {
FAILSAFE_CONFIG.failsafe_min_distance = data.getUint16(offset, true);
offset += 2;
FAILSAFE_CONFIG.failsafe_min_distance_procedure = data.getUint8(offset);
offset++;
}
break;
case MSPCodes.MSP_RXFAIL_CONFIG:
//noinspection JSUndeclaredVariable
RXFAIL_CONFIG = []; // empty the array as new data is coming in
var channelCount = data.byteLength / 3;
for (i = 0; offset < data.byteLength && i < channelCount; i++, offset++) {
var rxfailChannel = {
mode: data.getUint8(offset++),
value: data.getUint16(offset++, true)
};
RXFAIL_CONFIG.push(rxfailChannel);
}
break;
case MSPCodes.MSP_LED_STRIP_CONFIG:
//noinspection JSUndeclaredVariable
LED_STRIP = [];
var ledCount = data.byteLength / 7; // v1.4.0 and below incorrectly reported 4 bytes per led.
if (semver.gte(CONFIG.apiVersion, "1.20.0"))
ledCount = data.byteLength / 4;
var directionMask,
directions,
directionLetterIndex,
functions,
led;
for (i = 0; offset < data.byteLength && i < ledCount; i++) {
if (semver.lt(CONFIG.apiVersion, "1.20.0")) {
directionMask = data.getUint16(offset, true);
offset += 2;
directions = [];
for (directionLetterIndex = 0; directionLetterIndex < MSP.ledDirectionLetters.length; directionLetterIndex++) {
if (bit_check(directionMask, directionLetterIndex)) {
directions.push(MSP.ledDirectionLetters[directionLetterIndex]);
}
}
var functionMask = data.getUint16(offset, 1);
offset += 2;
functions = [];
for (var functionLetterIndex = 0; functionLetterIndex < MSP.ledFunctionLetters.length; functionLetterIndex++) {
if (bit_check(functionMask, functionLetterIndex)) {
functions.push(MSP.ledFunctionLetters[functionLetterIndex]);
}
}
led = {
directions: directions,
functions: functions,
x: data.getUint8(offset++),
y: data.getUint8(offset++),
color: data.getUint8(offset++)
};
LED_STRIP.push(led);
} else {
var mask = data.getUint32(offset, 1);
offset += 4;
var functionId = (mask >> 8) & 0xF;
functions = [];
for (var baseFunctionLetterIndex = 0; baseFunctionLetterIndex < MSP.ledBaseFunctionLetters.length; baseFunctionLetterIndex++) {
if (functionId == baseFunctionLetterIndex) {
functions.push(MSP.ledBaseFunctionLetters[baseFunctionLetterIndex]);
break;
}
}
var overlayMask = (mask >> 12) & 0x3F;
for (var overlayLetterIndex = 0; overlayLetterIndex < MSP.ledOverlayLetters.length; overlayLetterIndex++) {
if (bit_check(overlayMask, overlayLetterIndex)) {
functions.push(MSP.ledOverlayLetters[overlayLetterIndex]);
}
}
directionMask = (mask >> 22) & 0x3F;
directions = [];
for (directionLetterIndex = 0; directionLetterIndex < MSP.ledDirectionLetters.length; directionLetterIndex++) {
if (bit_check(directionMask, directionLetterIndex)) {
directions.push(MSP.ledDirectionLetters[directionLetterIndex]);
}
}
led = {
y: (mask) & 0xF,
x: (mask >> 4) & 0xF,
functions: functions,
color: (mask >> 18) & 0xF,
directions: directions,
parameters: (mask >> 28) & 0xF
};
LED_STRIP.push(led);
}
}
break;
case MSPCodes.MSP_SET_LED_STRIP_CONFIG:
console.log('Led strip config saved');
break;
case MSPCodes.MSP_LED_COLORS:
//noinspection JSUndeclaredVariable
LED_COLORS = [];
colorCount = data.byteLength / 4;
for (i = 0; offset < data.byteLength && i < colorCount; i++) {
var h = data.getUint16(offset, true);
var s = data.getUint8(offset + 2);
var v = data.getUint8(offset + 3);
offset += 4;
color = {
h: h,
s: s,
v: v
};
LED_COLORS.push(color);
}
break;
case MSPCodes.MSP_SET_LED_COLORS:
console.log('Led strip colors saved');
break;
case MSPCodes.MSP_LED_STRIP_MODECOLOR:
if (semver.gte(CONFIG.apiVersion, "1.19.0")) {
//noinspection JSUndeclaredVariable
LED_MODE_COLORS = [];
colorCount = data.byteLength / 3;
for (i = 0; offset < data.byteLength && i < colorCount; i++) {
var mode = data.getUint8(offset++);
var direction = data.getUint8(offset++);
color = data.getUint8(offset++);
LED_MODE_COLORS.push({
mode: mode,
direction: direction,
color: color
});
}
}
break;
case MSPCodes.MSP_SET_LED_STRIP_MODECOLOR:
console.log('Led strip mode colors saved');
break;
case MSPCodes.MSP_DATAFLASH_SUMMARY:
if (data.byteLength >= 13) {
flags = data.getUint8(0);
DATAFLASH.ready = (flags & 1) != 0;
DATAFLASH.supported = (flags & 2) != 0 || DATAFLASH.ready;
DATAFLASH.sectors = data.getUint32(1, 1);
DATAFLASH.totalSize = data.getUint32(5, 1);
DATAFLASH.usedSize = data.getUint32(9, 1);
} else {
// Firmware version too old to support MSP_DATAFLASH_SUMMARY
DATAFLASH.ready = false;
DATAFLASH.supported = false;
DATAFLASH.sectors = 0;
DATAFLASH.totalSize = 0;
DATAFLASH.usedSize = 0;
}
update_dataflash_global();
break;
case MSPCodes.MSP_DATAFLASH_READ:
// No-op, let callback handle it
break;
case MSPCodes.MSP_DATAFLASH_ERASE:
console.log("Data flash erase begun...");
break;
case MSPCodes.MSP_SDCARD_SUMMARY:
flags = data.getUint8(0);
SDCARD.supported = (flags & 0x01) != 0;
SDCARD.state = data.getUint8(1);
SDCARD.filesystemLastError = data.getUint8(2);
SDCARD.freeSizeKB = data.getUint32(3, true);
SDCARD.totalSizeKB = data.getUint32(7, true);
break;
case MSPCodes.MSP_BLACKBOX_CONFIG:
BLACKBOX.supported = (data.getUint8(0) & 1) != 0;
BLACKBOX.blackboxDevice = data.getUint8(1);
BLACKBOX.blackboxRateNum = data.getUint8(2);
BLACKBOX.blackboxRateDenom = data.getUint8(3);
break;
case MSPCodes.MSP_SET_BLACKBOX_CONFIG:
console.log("Blackbox config saved");
break;
case MSPCodes.MSP_TRANSPONDER_CONFIG:
TRANSPONDER.supported = (data.getUint8(offset++) & 1) != 0;
TRANSPONDER.data = [];
var bytesRemaining = data.byteLength - offset;
for (i = 0; i < bytesRemaining; i++) {
TRANSPONDER.data.push(data.getUint8(offset++));
}
break;
case MSPCodes.MSP_SET_TRANSPONDER_CONFIG:
console.log("Transponder config saved");
break;
case MSPCodes.MSP_ADVANCED_CONFIG:
ADVANCED_CONFIG.gyroSyncDenominator = data.getUint8(offset);
offset++;
ADVANCED_CONFIG.pidProcessDenom = data.getUint8(offset);
offset++;
ADVANCED_CONFIG.useUnsyncedPwm = data.getUint8(offset);
offset++;
ADVANCED_CONFIG.motorPwmProtocol = data.getUint8(offset);
offset++;
ADVANCED_CONFIG.motorPwmRate = data.getUint16(offset, true);
offset += 2;
ADVANCED_CONFIG.servoPwmRate = data.getUint16(offset, true);
offset += 2;
ADVANCED_CONFIG.gyroSync = data.getUint8(offset);
break;
case MSPCodes.MSP_SET_ADVANCED_CONFIG:
console.log("Advanced config saved");
break;
case MSPCodes.MSP_FILTER_CONFIG:
FILTER_CONFIG.gyroSoftLpfHz = data.getUint8(0);
FILTER_CONFIG.dtermLpfHz = data.getUint16(1, true);
FILTER_CONFIG.yawLpfHz = data.getUint16(3, true);
FILTER_CONFIG.gyroNotchHz1 = data.getUint16(5, true);
FILTER_CONFIG.gyroNotchCutoff1 = data.getUint16(7, true);
FILTER_CONFIG.dtermNotchHz = data.getUint16(9, true);
FILTER_CONFIG.dtermNotchCutoff = data.getUint16(11, true);
FILTER_CONFIG.gyroNotchHz2 = data.getUint16(13, true);
FILTER_CONFIG.gyroNotchCutoff2 = data.getUint16(15, true);
break;
case MSPCodes.MSP_SET_FILTER_CONFIG:
console.log("Filter config saved");
break;
case MSPCodes.MSP_PID_ADVANCED:
PID_ADVANCED.rollPitchItermIgnoreRate = data.getUint16(0, true);
PID_ADVANCED.yawItermIgnoreRate = data.getUint16(2, true);
PID_ADVANCED.yawPLimit = data.getUint16(4, true);
if (semver.gte(CONFIG.flightControllerVersion, "1.6.0")) {
PID_ADVANCED.dtermSetpointWeight = data.getUint8(9);
PID_ADVANCED.pidSumLimit = data.getUint16(10, true);
}
PID_ADVANCED.axisAccelerationLimitRollPitch = data.getUint16(13, true);
PID_ADVANCED.axisAccelerationLimitYaw = data.getUint16(15, true);
break;
case MSPCodes.MSP_SET_PID_ADVANCED:
console.log("PID advanced saved");
break;
case MSPCodes.MSP_SENSOR_CONFIG:
SENSOR_CONFIG.accelerometer = data.getUint8(0, true);
SENSOR_CONFIG.barometer = data.getUint8(1, true);
SENSOR_CONFIG.magnetometer = data.getUint8(2, true);
SENSOR_CONFIG.pitot = data.getUint8(3, true);
SENSOR_CONFIG.rangefinder = data.getUint8(4, true);
SENSOR_CONFIG.opflow = data.getUint8(5, true);
break;
case MSPCodes.MSP_SET_SENSOR_CONFIG:
console.log("Sensor config saved");
break;
case MSPCodes.MSP_INAV_PID:
INAV_PID_CONFIG.asynchronousMode = data.getUint8(0);
INAV_PID_CONFIG.accelerometerTaskFrequency = data.getUint16(1, true);
INAV_PID_CONFIG.attitudeTaskFrequency = data.getUint16(3, true);
INAV_PID_CONFIG.magHoldRateLimit = data.getUint8(5);
INAV_PID_CONFIG.magHoldErrorLpfFrequency = data.getUint8(6);
INAV_PID_CONFIG.yawJumpPreventionLimit = data.getUint16(7, true);
INAV_PID_CONFIG.gyroscopeLpf = data.getUint8(9);
INAV_PID_CONFIG.accSoftLpfHz = data.getUint8(10);
break;
case MSPCodes.MSP_SET_INAV_PID:
console.log("MSP_INAV_PID saved");
break;
case MSPCodes.MSP_NAV_POSHOLD:
NAV_POSHOLD.userControlMode = data.getUint8(0);
NAV_POSHOLD.maxSpeed = data.getUint16(1, true);
NAV_POSHOLD.maxClimbRate = data.getUint16(3, true);
NAV_POSHOLD.maxManualSpeed = data.getUint16(5, true);
NAV_POSHOLD.maxManualClimbRate = data.getUint16(7, true);
NAV_POSHOLD.maxBankAngle = data.getUint8(9);
NAV_POSHOLD.useThrottleMidForAlthold = data.getUint8(10);
NAV_POSHOLD.hoverThrottle = data.getUint16(11, true);
break;
case MSPCodes.MSP_SET_NAV_POSHOLD:
console.log('NAV_POSHOLD saved');
break;
case MSPCodes.MSP_POSITION_ESTIMATION_CONFIG:
POSITION_ESTIMATOR.w_z_baro_p = data.getUint16(0, true) / 100;
POSITION_ESTIMATOR.w_z_gps_p = data.getUint16(2, true) / 100;
POSITION_ESTIMATOR.w_z_gps_v = data.getUint16(4, true) / 100;
POSITION_ESTIMATOR.w_xy_gps_p = data.getUint16(6, true) / 100;
POSITION_ESTIMATOR.w_xy_gps_v = data.getUint16(8, true) / 100;
POSITION_ESTIMATOR.gps_min_sats = data.getUint8(10);
POSITION_ESTIMATOR.use_gps_velned = data.getUint8(11);
break;
case MSPCodes.MSP_SET_POSITION_ESTIMATION_CONFIG:
console.log('POSITION_ESTIMATOR saved');
break;
case MSPCodes.MSP_RTH_AND_LAND_CONFIG:
RTH_AND_LAND_CONFIG.minRthDistance = data.getUint16(0, true);
RTH_AND_LAND_CONFIG.rthClimbFirst = data.getUint8(2);
RTH_AND_LAND_CONFIG.rthClimbIgnoreEmergency = data.getUint8(3);
RTH_AND_LAND_CONFIG.rthTailFirst = data.getUint8(4);
RTH_AND_LAND_CONFIG.rthAllowLanding = data.getUint8(5);
RTH_AND_LAND_CONFIG.rthAltControlMode = data.getUint8(6);
RTH_AND_LAND_CONFIG.rthAbortThreshold = data.getUint16(7, true);
RTH_AND_LAND_CONFIG.rthAltitude = data.getUint16(9, true);
RTH_AND_LAND_CONFIG.landDescentRate = data.getUint16(11, true);
RTH_AND_LAND_CONFIG.landSlowdownMinAlt = data.getUint16(13, true);
RTH_AND_LAND_CONFIG.landSlowdownMaxAlt = data.getUint16(15, true);
RTH_AND_LAND_CONFIG.emergencyDescentRate = data.getUint16(17, true);
break;
case MSPCodes.MSP_SET_RTH_AND_LAND_CONFIG:
console.log('RTH_AND_LAND_CONFIG saved');
break;
case MSPCodes.MSP_FW_CONFIG:
FW_CONFIG.cruiseThrottle = data.getUint16(0, true);
FW_CONFIG.minThrottle = data.getUint16(2, true);
FW_CONFIG.maxThrottle = data.getUint16(4, true);
FW_CONFIG.maxBankAngle = data.getUint8(6);
FW_CONFIG.maxClimbAngle = data.getUint8(7);
FW_CONFIG.maxDiveAngle = data.getUint8(8);
FW_CONFIG.pitchToThrottle = data.getUint8(9);
FW_CONFIG.loiterRadius = data.getUint16(10, true);
break;
case MSPCodes.MSP_SET_FW_CONFIG:
console.log('FW_CONFIG saved');
break;
case MSPCodes.MSP_SET_MODE_RANGE:
console.log('Mode range saved');
break;
case MSPCodes.MSP_SET_ADJUSTMENT_RANGE:
console.log('Adjustment range saved');
break;
case MSPCodes.MSP_SET_LOOP_TIME:
console.log('Looptime saved');
break;
case MSPCodes.MSP_SET_ARMING_CONFIG:
console.log('Arming config saved');
break;
case MSPCodes.MSP_SET_RESET_CURR_PID:
console.log('Current PID profile reset');
break;
case MSPCodes.MSP_SET_3D:
console.log('3D settings saved');
break;
case MSPCodes.MSP_SET_RC_DEADBAND:
console.log('Rc controls settings saved');
break;
case MSPCodes.MSP_SET_SENSOR_ALIGNMENT:
console.log('Sensor alignment saved');
break;
case MSPCodes.MSP_SET_RX_CONFIG:
console.log('Rx config saved');
break;
case MSPCodes.MSP_SET_RXFAIL_CONFIG:
console.log('Rxfail config saved');
break;
case MSPCodes.MSP_SET_FAILSAFE_CONFIG:
console.log('Failsafe config saved');
break;
case MSPCodes.MSP_OSD_CONFIG:
break;
case MSPCodes.MSP_SET_OSD_CONFIG:
console.log('OSD config set');
break;
case MSPCodes.MSP_OSD_CHAR_READ:
break;
case MSPCodes.MSP_OSD_CHAR_WRITE:
console.log('OSD char uploaded');
break;
case MSPCodes.MSPV2_SETTING:
break;
case MSPCodes.MSPV2_SET_SETTING:
console.log("Setting set");
break;
default:
console.log('Unknown code detected: ' + dataHandler.code);
} else {
console.log('FC reports unsupported message error: ' + dataHandler.code);
}
// trigger callbacks, cleanup/remove callback after trigger
for (i = dataHandler.callbacks.length - 1; i >= 0; i--) { // iterating in reverse because we use .splice which modifies array length
if (i < dataHandler.callbacks.length) {
if (dataHandler.callbacks[i].code == dataHandler.code) {
// save callback reference
var callback = dataHandler.callbacks[i].onFinish;
// remove timeout
clearTimeout(dataHandler.callbacks[i].timer);
/*
* Compute roundtrip
*/
if (dataHandler.callbacks[i]) {
helper.mspQueue.putRoundtrip(new Date().getTime() - dataHandler.callbacks[i].createdOn);
helper.mspQueue.putHardwareRoundtrip(new Date().getTime() - dataHandler.callbacks[i].sentOn);
}
// remove object from array
dataHandler.callbacks.splice(i, 1);
// fire callback
if (callback) callback({'command': dataHandler.code, 'data': data, 'length': dataHandler.message_length_expected});
}
}
}
};
self.crunch = function (code) {
var buffer = [],
i;
switch (code) {
case MSPCodes.MSP_SET_BF_CONFIG:
buffer.push(BF_CONFIG.mixerConfiguration);
buffer.push(specificByte(BF_CONFIG.features, 0));
buffer.push(specificByte(BF_CONFIG.features, 1));
buffer.push(specificByte(BF_CONFIG.features, 2));
buffer.push(specificByte(BF_CONFIG.features, 3));
buffer.push(BF_CONFIG.serialrx_type);
buffer.push(specificByte(BF_CONFIG.board_align_roll, 0));
buffer.push(specificByte(BF_CONFIG.board_align_roll, 1));
buffer.push(specificByte(BF_CONFIG.board_align_pitch, 0));
buffer.push(specificByte(BF_CONFIG.board_align_pitch, 1));
buffer.push(specificByte(BF_CONFIG.board_align_yaw, 0));
buffer.push(specificByte(BF_CONFIG.board_align_yaw, 1));
buffer.push(lowByte(BF_CONFIG.currentscale));
buffer.push(highByte(BF_CONFIG.currentscale));
buffer.push(lowByte(BF_CONFIG.currentoffset));
buffer.push(highByte(BF_CONFIG.currentoffset));
break;
case MSPCodes.MSP_SET_PID:
for (i = 0; i < PIDs.length; i++) {
buffer.push(parseInt(PIDs[i][0]));
buffer.push(parseInt(PIDs[i][1]));
buffer.push(parseInt(PIDs[i][2]));
}
break;
case MSPCodes.MSP_SET_RC_TUNING:
buffer.push(Math.round(RC_tuning.RC_RATE * 100));
buffer.push(Math.round(RC_tuning.RC_EXPO * 100));
if (FC.isRatesInDps()) {
buffer.push(Math.round(RC_tuning.roll_rate / 10));
buffer.push(Math.round(RC_tuning.pitch_rate / 10));
buffer.push(Math.round(RC_tuning.yaw_rate / 10));
} else {
buffer.push(Math.round(RC_tuning.roll_rate * 100));
buffer.push(Math.round(RC_tuning.pitch_rate * 100));
buffer.push(Math.round(RC_tuning.yaw_rate * 100));
}
buffer.push(RC_tuning.dynamic_THR_PID);
buffer.push(Math.round(RC_tuning.throttle_MID * 100));
buffer.push(Math.round(RC_tuning.throttle_EXPO * 100));
buffer.push(lowByte(RC_tuning.dynamic_THR_breakpoint));
buffer.push(highByte(RC_tuning.dynamic_THR_breakpoint));
buffer.push(Math.round(RC_tuning.RC_YAW_EXPO * 100));
break;
case MSPCodes.MSP_SET_RX_MAP:
for (i = 0; i < RC_MAP.length; i++) {
buffer.push(RC_MAP[i]);
}
break;
case MSPCodes.MSP_SET_ACC_TRIM:
buffer.push(lowByte(CONFIG.accelerometerTrims[0]));
buffer.push(highByte(CONFIG.accelerometerTrims[0]));
buffer.push(lowByte(CONFIG.accelerometerTrims[1]));
buffer.push(highByte(CONFIG.accelerometerTrims[1]));
break;
case MSPCodes.MSP_SET_ARMING_CONFIG:
buffer.push(ARMING_CONFIG.auto_disarm_delay);
buffer.push(ARMING_CONFIG.disarm_kill_switch);
break;
case MSPCodes.MSP_SET_LOOP_TIME:
buffer.push(lowByte(FC_CONFIG.loopTime));
buffer.push(highByte(FC_CONFIG.loopTime));
break;
case MSPCodes.MSP_SET_MISC:
buffer.push(lowByte(MISC.midrc));
buffer.push(highByte(MISC.midrc));
buffer.push(lowByte(MISC.minthrottle));
buffer.push(highByte(MISC.minthrottle));
buffer.push(lowByte(MISC.maxthrottle));
buffer.push(highByte(MISC.maxthrottle));
buffer.push(lowByte(MISC.mincommand));
buffer.push(highByte(MISC.mincommand));
buffer.push(lowByte(MISC.failsafe_throttle));
buffer.push(highByte(MISC.failsafe_throttle));
buffer.push(MISC.gps_type);
buffer.push(MISC.sensors_baudrate);
buffer.push(MISC.gps_ubx_sbas);
buffer.push(MISC.multiwiicurrentoutput);
buffer.push(MISC.rssi_channel);
buffer.push(MISC.placeholder2);
buffer.push(lowByte(Math.round(MISC.mag_declination * 10)));
buffer.push(highByte(Math.round(MISC.mag_declination * 10)));
buffer.push(MISC.vbatscale);
buffer.push(Math.round(MISC.vbatmincellvoltage * 10));
buffer.push(Math.round(MISC.vbatmaxcellvoltage * 10));
buffer.push(Math.round(MISC.vbatwarningcellvoltage * 10));
break;
case MSPCodes.MSP_SET_RX_CONFIG:
buffer.push(RX_CONFIG.serialrx_provider);
buffer.push(lowByte(RX_CONFIG.maxcheck));
buffer.push(highByte(RX_CONFIG.maxcheck));
buffer.push(lowByte(RX_CONFIG.midrc));
buffer.push(highByte(RX_CONFIG.midrc));
buffer.push(lowByte(RX_CONFIG.mincheck));
buffer.push(highByte(RX_CONFIG.mincheck));
buffer.push(RX_CONFIG.spektrum_sat_bind);
buffer.push(lowByte(RX_CONFIG.rx_min_usec));
buffer.push(highByte(RX_CONFIG.rx_min_usec));
buffer.push(lowByte(RX_CONFIG.rx_max_usec));
buffer.push(highByte(RX_CONFIG.rx_max_usec));
if (semver.gte(CONFIG.apiVersion, "1.21.0")) {
buffer.push(0); // 4 null bytes for betaflight compatibility
buffer.push(0);
buffer.push(0);
buffer.push(0);
buffer.push(RX_CONFIG.spirx_protocol);
// spirx_id - 4 bytes
buffer.push32(RX_CONFIG.spirx_id);
buffer.push(RX_CONFIG.spirx_channel_count);
}
if (semver.gt(CONFIG.flightControllerVersion, "1.7.3")) {
// unused byte for fpvCamAngleDegrees, for compatiblity with betaflight
buffer.push(0);
// receiver type in RX_CONFIG rather than in BF_CONFIG.features
buffer.push(RX_CONFIG.receiver_type);
}
break;
case MSPCodes.MSP_SET_FAILSAFE_CONFIG:
buffer.push(FAILSAFE_CONFIG.failsafe_delay);
buffer.push(FAILSAFE_CONFIG.failsafe_off_delay);
buffer.push(lowByte(FAILSAFE_CONFIG.failsafe_throttle));
buffer.push(highByte(FAILSAFE_CONFIG.failsafe_throttle));
buffer.push(FAILSAFE_CONFIG.failsafe_kill_switch);
buffer.push(lowByte(FAILSAFE_CONFIG.failsafe_throttle_low_delay));
buffer.push(highByte(FAILSAFE_CONFIG.failsafe_throttle_low_delay));
buffer.push(FAILSAFE_CONFIG.failsafe_procedure);
if (semver.gte(CONFIG.flightControllerVersion, "1.7.3")) {
buffer.push(FAILSAFE_CONFIG.failsafe_recovery_delay);
buffer.push(lowByte(FAILSAFE_CONFIG.failsafe_fw_roll_angle));
buffer.push(highByte(FAILSAFE_CONFIG.failsafe_fw_roll_angle));
buffer.push(lowByte(FAILSAFE_CONFIG.failsafe_fw_pitch_angle));
buffer.push(highByte(FAILSAFE_CONFIG.failsafe_fw_pitch_angle));
buffer.push(lowByte(FAILSAFE_CONFIG.failsafe_fw_yaw_rate));
buffer.push(highByte(FAILSAFE_CONFIG.failsafe_fw_yaw_rate));
buffer.push(lowByte(FAILSAFE_CONFIG.failsafe_stick_motion_threshold));
buffer.push(highByte(FAILSAFE_CONFIG.failsafe_stick_motion_threshold));
}
if (semver.gte(CONFIG.flightControllerVersion, "1.7.4")) {
buffer.push(lowByte(FAILSAFE_CONFIG.failsafe_min_distance));
buffer.push(highByte(FAILSAFE_CONFIG.failsafe_min_distance));
buffer.push(FAILSAFE_CONFIG.failsafe_min_distance_procedure);
}
break;
case MSPCodes.MSP_SET_TRANSPONDER_CONFIG:
for (i = 0; i < TRANSPONDER.data.length; i++) {
buffer.push(TRANSPONDER.data[i]);
}
break;
case MSPCodes.MSP_SET_CHANNEL_FORWARDING:
for (i = 0; i < SERVO_CONFIG.length; i++) {
var out = SERVO_CONFIG[i].indexOfChannelToForward;
if (out == undefined) {
out = 255; // Cleanflight defines "CHANNEL_FORWARDING_DISABLED" as "(uint8_t)0xFF"
}
buffer.push(out);
}
break;
case MSPCodes.MSP_SET_CF_SERIAL_CONFIG:
for (i = 0; i < SERIAL_CONFIG.ports.length; i++) {
var serialPort = SERIAL_CONFIG.ports[i];
buffer.push(serialPort.identifier);
var functionMask = mspHelper.SERIAL_PORT_FUNCTIONSToMask(serialPort.functions);
buffer.push(specificByte(functionMask, 0));
buffer.push(specificByte(functionMask, 1));
var BAUD_RATES = (semver.gte(CONFIG.flightControllerVersion, "1.6.3")) ? mspHelper.BAUD_RATES_post1_6_3 : mspHelper.BAUD_RATES_pre1_6_3;
buffer.push(BAUD_RATES.indexOf(serialPort.msp_baudrate));
buffer.push(BAUD_RATES.indexOf(serialPort.sensors_baudrate));
buffer.push(BAUD_RATES.indexOf(serialPort.telemetry_baudrate));
buffer.push(BAUD_RATES.indexOf(serialPort.blackbox_baudrate));
}
break;
case MSPCodes.MSP_SET_3D:
buffer.push(lowByte(_3D.deadband3d_low));
buffer.push(highByte(_3D.deadband3d_low));
buffer.push(lowByte(_3D.deadband3d_high));
buffer.push(highByte(_3D.deadband3d_high));
buffer.push(lowByte(_3D.neutral3d));
buffer.push(highByte(_3D.neutral3d));
if (semver.lt(CONFIG.apiVersion, "1.17.0")) {
buffer.push(lowByte(_3D.deadband3d_throttle));
buffer.push(highByte(_3D.deadband3d_throttle));
}
break;
case MSPCodes.MSP_SET_RC_DEADBAND:
buffer.push(RC_deadband.deadband);
buffer.push(RC_deadband.yaw_deadband);
buffer.push(RC_deadband.alt_hold_deadband);
if (semver.gte(CONFIG.apiVersion, "1.24.0")) {
buffer.push(lowByte(_3D.deadband3d_throttle));
buffer.push(highByte(_3D.deadband3d_throttle));
}
break;
case MSPCodes.MSP_SET_SENSOR_ALIGNMENT:
buffer.push(SENSOR_ALIGNMENT.align_gyro);
buffer.push(SENSOR_ALIGNMENT.align_acc);
buffer.push(SENSOR_ALIGNMENT.align_mag);
break;
case MSPCodes.MSP_SET_ADVANCED_CONFIG:
buffer.push(ADVANCED_CONFIG.gyroSyncDenominator);
buffer.push(ADVANCED_CONFIG.pidProcessDenom);
buffer.push(ADVANCED_CONFIG.useUnsyncedPwm);
buffer.push(ADVANCED_CONFIG.motorPwmProtocol);
buffer.push(lowByte(ADVANCED_CONFIG.motorPwmRate));
buffer.push(highByte(ADVANCED_CONFIG.motorPwmRate));
buffer.push(lowByte(ADVANCED_CONFIG.servoPwmRate));
buffer.push(highByte(ADVANCED_CONFIG.servoPwmRate));
buffer.push(ADVANCED_CONFIG.gyroSync);
break;
case MSPCodes.MSP_SET_INAV_PID:
buffer.push(INAV_PID_CONFIG.asynchronousMode);
buffer.push(lowByte(INAV_PID_CONFIG.accelerometerTaskFrequency));
buffer.push(highByte(INAV_PID_CONFIG.accelerometerTaskFrequency));
buffer.push(lowByte(INAV_PID_CONFIG.attitudeTaskFrequency));
buffer.push(highByte(INAV_PID_CONFIG.attitudeTaskFrequency));
buffer.push(INAV_PID_CONFIG.magHoldRateLimit);
buffer.push(INAV_PID_CONFIG.magHoldErrorLpfFrequency);
buffer.push(lowByte(INAV_PID_CONFIG.yawJumpPreventionLimit));
buffer.push(highByte(INAV_PID_CONFIG.yawJumpPreventionLimit));
buffer.push(INAV_PID_CONFIG.gyroscopeLpf);
buffer.push(INAV_PID_CONFIG.accSoftLpfHz);
buffer.push(0); //reserved
buffer.push(0); //reserved
buffer.push(0); //reserved
buffer.push(0); //reserved
break;
case MSPCodes.MSP_SET_NAV_POSHOLD:
buffer.push(NAV_POSHOLD.userControlMode);
buffer.push(lowByte(NAV_POSHOLD.maxSpeed));
buffer.push(highByte(NAV_POSHOLD.maxSpeed));
buffer.push(lowByte(NAV_POSHOLD.maxClimbRate));
buffer.push(highByte(NAV_POSHOLD.maxClimbRate));
buffer.push(lowByte(NAV_POSHOLD.maxManualSpeed));
buffer.push(highByte(NAV_POSHOLD.maxManualSpeed));
buffer.push(lowByte(NAV_POSHOLD.maxManualClimbRate));
buffer.push(highByte(NAV_POSHOLD.maxManualClimbRate));
buffer.push(NAV_POSHOLD.maxBankAngle);
buffer.push(NAV_POSHOLD.useThrottleMidForAlthold);
buffer.push(lowByte(NAV_POSHOLD.hoverThrottle));
buffer.push(highByte(NAV_POSHOLD.hoverThrottle));
break;
case MSPCodes.MSP_SET_POSITION_ESTIMATION_CONFIG:
buffer.push(lowByte(POSITION_ESTIMATOR.w_z_baro_p * 100));
buffer.push(highByte(POSITION_ESTIMATOR.w_z_baro_p * 100));
buffer.push(lowByte(POSITION_ESTIMATOR.w_z_gps_p * 100));
buffer.push(highByte(POSITION_ESTIMATOR.w_z_gps_p * 100));
buffer.push(lowByte(POSITION_ESTIMATOR.w_z_gps_v * 100));
buffer.push(highByte(POSITION_ESTIMATOR.w_z_gps_v * 100));
buffer.push(lowByte(POSITION_ESTIMATOR.w_xy_gps_p * 100));
buffer.push(highByte(POSITION_ESTIMATOR.w_xy_gps_p * 100));
buffer.push(lowByte(POSITION_ESTIMATOR.w_xy_gps_v * 100));
buffer.push(highByte(POSITION_ESTIMATOR.w_xy_gps_v * 100));
buffer.push(POSITION_ESTIMATOR.gps_min_sats);
buffer.push(POSITION_ESTIMATOR.use_gps_velned);
break;
case MSPCodes.MSP_SET_RTH_AND_LAND_CONFIG:
buffer.push(lowByte(RTH_AND_LAND_CONFIG.minRthDistance));
buffer.push(highByte(RTH_AND_LAND_CONFIG.minRthDistance));
buffer.push(RTH_AND_LAND_CONFIG.rthClimbFirst);
buffer.push(RTH_AND_LAND_CONFIG.rthClimbIgnoreEmergency);
buffer.push(RTH_AND_LAND_CONFIG.rthTailFirst);
buffer.push(RTH_AND_LAND_CONFIG.rthAllowLanding);
buffer.push(RTH_AND_LAND_CONFIG.rthAltControlMode);
buffer.push(lowByte(RTH_AND_LAND_CONFIG.rthAbortThreshold));
buffer.push(highByte(RTH_AND_LAND_CONFIG.rthAbortThreshold));
buffer.push(lowByte(RTH_AND_LAND_CONFIG.rthAltitude));
buffer.push(highByte(RTH_AND_LAND_CONFIG.rthAltitude));
buffer.push(lowByte(RTH_AND_LAND_CONFIG.landDescentRate));
buffer.push(highByte(RTH_AND_LAND_CONFIG.landDescentRate));
buffer.push(lowByte(RTH_AND_LAND_CONFIG.landSlowdownMinAlt));
buffer.push(highByte(RTH_AND_LAND_CONFIG.landSlowdownMinAlt));
buffer.push(lowByte(RTH_AND_LAND_CONFIG.landSlowdownMaxAlt));
buffer.push(highByte(RTH_AND_LAND_CONFIG.landSlowdownMaxAlt));
buffer.push(lowByte(RTH_AND_LAND_CONFIG.emergencyDescentRate));
buffer.push(highByte(RTH_AND_LAND_CONFIG.emergencyDescentRate));
break;
case MSPCodes.MSP_SET_FW_CONFIG:
buffer.push(lowByte(FW_CONFIG.cruiseThrottle));
buffer.push(highByte(FW_CONFIG.cruiseThrottle));
buffer.push(lowByte(FW_CONFIG.minThrottle));
buffer.push(highByte(FW_CONFIG.minThrottle));
buffer.push(lowByte(FW_CONFIG.maxThrottle));
buffer.push(highByte(FW_CONFIG.maxThrottle));
buffer.push(FW_CONFIG.maxBankAngle);
buffer.push(FW_CONFIG.maxClimbAngle);
buffer.push(FW_CONFIG.maxDiveAngle);
buffer.push(FW_CONFIG.pitchToThrottle);
buffer.push(lowByte(FW_CONFIG.loiterRadius));
buffer.push(highByte(FW_CONFIG.loiterRadius));
break;
case MSPCodes.MSP_SET_FILTER_CONFIG:
buffer.push(FILTER_CONFIG.gyroSoftLpfHz);
buffer.push(lowByte(FILTER_CONFIG.dtermLpfHz));
buffer.push(highByte(FILTER_CONFIG.dtermLpfHz));
buffer.push(lowByte(FILTER_CONFIG.yawLpfHz));
buffer.push(highByte(FILTER_CONFIG.yawLpfHz));
buffer.push(lowByte(FILTER_CONFIG.gyroNotchHz1));
buffer.push(highByte(FILTER_CONFIG.gyroNotchHz1));
buffer.push(lowByte(FILTER_CONFIG.gyroNotchCutoff1));
buffer.push(highByte(FILTER_CONFIG.gyroNotchCutoff1));
buffer.push(lowByte(FILTER_CONFIG.dtermNotchHz));
buffer.push(highByte(FILTER_CONFIG.dtermNotchHz));
buffer.push(lowByte(FILTER_CONFIG.dtermNotchCutoff));
buffer.push(highByte(FILTER_CONFIG.dtermNotchCutoff));
buffer.push(lowByte(FILTER_CONFIG.gyroNotchHz2));
buffer.push(highByte(FILTER_CONFIG.gyroNotchHz2));
buffer.push(lowByte(FILTER_CONFIG.gyroNotchCutoff2));
buffer.push(highByte(FILTER_CONFIG.gyroNotchCutoff2));
break;
case MSPCodes.MSP_SET_PID_ADVANCED:
buffer.push(lowByte(PID_ADVANCED.rollPitchItermIgnoreRate));
buffer.push(highByte(PID_ADVANCED.rollPitchItermIgnoreRate));
buffer.push(lowByte(PID_ADVANCED.yawItermIgnoreRate));
buffer.push(highByte(PID_ADVANCED.yawItermIgnoreRate));
buffer.push(lowByte(PID_ADVANCED.yawPLimit));
buffer.push(highByte(PID_ADVANCED.yawPLimit));
buffer.push(0); //BF: currentProfile->pidProfile.deltaMethod
buffer.push(0); //BF: currentProfile->pidProfile.vbatPidCompensation
buffer.push(0); //BF: currentProfile->pidProfile.setpointRelaxRatio
if (semver.gte(CONFIG.flightControllerVersion, "1.6.0")) {
buffer.push(PID_ADVANCED.dtermSetpointWeight);
buffer.push(lowByte(PID_ADVANCED.pidSumLimit));
buffer.push(highByte(PID_ADVANCED.pidSumLimit));
} else {
buffer.push(0);
buffer.push(0); // reserved
buffer.push(0); // reserved
}
buffer.push(0); //BF: currentProfile->pidProfile.itermThrottleGain
buffer.push(lowByte(PID_ADVANCED.axisAccelerationLimitRollPitch));
buffer.push(highByte(PID_ADVANCED.axisAccelerationLimitRollPitch));
buffer.push(lowByte(PID_ADVANCED.axisAccelerationLimitYaw));
buffer.push(highByte(PID_ADVANCED.axisAccelerationLimitYaw));
break;
case MSPCodes.MSP_SET_SENSOR_CONFIG:
buffer.push(SENSOR_CONFIG.accelerometer);
buffer.push(SENSOR_CONFIG.barometer);
buffer.push(SENSOR_CONFIG.magnetometer);
buffer.push(SENSOR_CONFIG.pitot);
buffer.push(SENSOR_CONFIG.rangefinder);
buffer.push(SENSOR_CONFIG.opflow);
break;
default:
return false;
}
return buffer;
};
/**
* Set raw Rx values over MSP protocol.
*
* Channels is an array of 16-bit unsigned integer channel values to be sent. 8 channels is probably the maximum.
*/
self.setRawRx = function (channels) {
var buffer = [];
for (var i = 0; i < channels.length; i++) {
buffer.push(specificByte(channels[i], 0));
buffer.push(specificByte(channels[i], 1));
}
MSP.send_message(MSPCodes.MSP_SET_RAW_RC, buffer, false);
};
self.sendBlackboxConfiguration = function (onDataCallback) {
var message = [
BLACKBOX.blackboxDevice & 0xFF,
BLACKBOX.blackboxRateNum & 0xFF,
BLACKBOX.blackboxRateDenom & 0xFF
];
//noinspection JSUnusedLocalSymbols
MSP.send_message(MSPCodes.MSP_SET_BLACKBOX_CONFIG, message, false, function (response) {
onDataCallback();
});
};
self.sendServoConfigurations = function (onCompleteCallback) {
var nextFunction = send_next_servo_configuration;
var servoIndex = 0;
if (SERVO_CONFIG.length == 0) {
onCompleteCallback();
} else {
nextFunction();
}
function send_next_servo_configuration() {
var buffer = [];
// send one at a time, with index
var servoConfiguration = SERVO_CONFIG[servoIndex];
buffer.push(servoIndex);
buffer.push(lowByte(servoConfiguration.min));
buffer.push(highByte(servoConfiguration.min));
buffer.push(lowByte(servoConfiguration.max));
buffer.push(highByte(servoConfiguration.max));
buffer.push(lowByte(servoConfiguration.middle));
buffer.push(highByte(servoConfiguration.middle));
buffer.push(lowByte(servoConfiguration.rate));
buffer.push(0);
buffer.push(0);
var out = servoConfiguration.indexOfChannelToForward;
if (out == undefined) {
out = 255; // Cleanflight defines "CHANNEL_FORWARDING_DISABLED" as "(uint8_t)0xFF"
}
buffer.push(out);
buffer.push(specificByte(servoConfiguration.reversedInputSources, 0));
buffer.push(specificByte(servoConfiguration.reversedInputSources, 1));
buffer.push(specificByte(servoConfiguration.reversedInputSources, 2));
buffer.push(specificByte(servoConfiguration.reversedInputSources, 3));
// prepare for next iteration
servoIndex++;
if (servoIndex == SERVO_CONFIG.length) {
nextFunction = onCompleteCallback;
}
MSP.send_message(MSPCodes.MSP_SET_SERVO_CONFIGURATION, buffer, false, nextFunction);
}
//FIXME looks like this is not used and not ever implemented
//noinspection JSUnusedLocalSymbols
function send_channel_forwarding() {
var buffer = [];
for (var i = 0; i < SERVO_CONFIG.length; i++) {
var out = SERVO_CONFIG[i].indexOfChannelToForward;
if (out == undefined) {
out = 255; // Cleanflight defines "CHANNEL_FORWARDING_DISABLED" as "(uint8_t)0xFF"
}
buffer.push(out);
}
nextFunction = onCompleteCallback;
MSP.send_message(MSPCodes.MSP_SET_CHANNEL_FORWARDING, buffer, false, nextFunction);
}
};
self.sendModeRanges = function (onCompleteCallback) {
var nextFunction = send_next_mode_range;
var modeRangeIndex = 0;
if (MODE_RANGES.length == 0) {
onCompleteCallback();
} else {
send_next_mode_range();
}
function send_next_mode_range() {
var modeRange = MODE_RANGES[modeRangeIndex];
var buffer = [];
buffer.push(modeRangeIndex);
buffer.push(modeRange.id);
buffer.push(modeRange.auxChannelIndex);
buffer.push((modeRange.range.start - 900) / 25);
buffer.push((modeRange.range.end - 900) / 25);
// prepare for next iteration
modeRangeIndex++;
if (modeRangeIndex == MODE_RANGES.length) {
nextFunction = onCompleteCallback;
}
MSP.send_message(MSPCodes.MSP_SET_MODE_RANGE, buffer, false, nextFunction);
}
};
/**
* Send a request to read a block of data from the dataflash at the given address and pass that address and a dataview
* of the returned data to the given callback (or null for the data if an error occured).
*/
self.dataflashRead = function (address, onDataCallback) {
var buffer = [];
buffer.push(address & 0xFF);
buffer.push((address >> 8) & 0xFF);
buffer.push((address >> 16) & 0xFF);
buffer.push((address >> 24) & 0xFF);
// For API > 2.0.0 we support requesting payload size - request 4KiB and let firmware decide what actual size to send
if (CONFIG.apiVersion && semver.gte(CONFIG.apiVersion, "2.0.0")) {
buffer.push(lowByte(4096));
buffer.push(highByte(4096));
}
MSP.send_message(MSPCodes.MSP_DATAFLASH_READ, buffer, false, function (response) {
var chunkAddress = response.data.getUint32(0, 1);
// Verify that the address of the memory returned matches what the caller asked for
if (chunkAddress == address) {
/* Strip that address off the front of the reply and deliver it separately so the caller doesn't have to
* figure out the reply format:
*/
onDataCallback(address, new DataView(response.data.buffer, response.data.byteOffset + 4, response.data.buffer.byteLength - 4));
} else {
// Report error
onDataCallback(address, null);
}
});
};
self.sendRxFailConfig = function (onCompleteCallback) {
var nextFunction = send_next_rxfail_config;
var rxFailIndex = 0;
if (RXFAIL_CONFIG.length == 0) {
onCompleteCallback();
} else {
send_next_rxfail_config();
}
function send_next_rxfail_config() {
var rxFail = RXFAIL_CONFIG[rxFailIndex];
var buffer = [];
buffer.push(rxFailIndex);
buffer.push(rxFail.mode);
buffer.push(lowByte(rxFail.value));
buffer.push(highByte(rxFail.value));
// prepare for next iteration
rxFailIndex++;
if (rxFailIndex == RXFAIL_CONFIG.length) {
nextFunction = onCompleteCallback;
}
MSP.send_message(MSPCodes.MSP_SET_RXFAIL_CONFIG, buffer, false, nextFunction);
}
};
/**
* @return {number}
*/
self.SERIAL_PORT_FUNCTIONSToMask = function (functions) {
var mask = 0;
for (var index = 0; index < functions.length; index++) {
var key = functions[index];
var bitIndex = mspHelper.SERIAL_PORT_FUNCTIONS[key];
if (bitIndex >= 0) {
mask = bit_set(mask, bitIndex);
}
}
return mask;
};
self.serialPortFunctionMaskToFunctions = function (functionMask) {
var functions = [];
var keys = Object.keys(mspHelper.SERIAL_PORT_FUNCTIONS);
for (var index = 0; index < keys.length; index++) {
var key = keys[index];
var bit = mspHelper.SERIAL_PORT_FUNCTIONS[key];
if (bit_check(functionMask, bit)) {
functions.push(key);
}
}
return functions;
};
self.sendServoMixRules = function (onCompleteCallback) {
// TODO implement
onCompleteCallback();
};
self.sendAdjustmentRanges = function (onCompleteCallback) {
var nextFunction = send_next_adjustment_range;
var adjustmentRangeIndex = 0;
if (ADJUSTMENT_RANGES.length == 0) {
onCompleteCallback();
} else {
send_next_adjustment_range();
}
function send_next_adjustment_range() {
var adjustmentRange = ADJUSTMENT_RANGES[adjustmentRangeIndex];
var buffer = [];
buffer.push(adjustmentRangeIndex);
buffer.push(adjustmentRange.slotIndex);
buffer.push(adjustmentRange.auxChannelIndex);
buffer.push((adjustmentRange.range.start - 900) / 25);
buffer.push((adjustmentRange.range.end - 900) / 25);
buffer.push(adjustmentRange.adjustmentFunction);
buffer.push(adjustmentRange.auxSwitchChannelIndex);
// prepare for next iteration
adjustmentRangeIndex++;
if (adjustmentRangeIndex == ADJUSTMENT_RANGES.length) {
nextFunction = onCompleteCallback;
}
MSP.send_message(MSPCodes.MSP_SET_ADJUSTMENT_RANGE, buffer, false, nextFunction);
}
};
self.sendLedStripColors = function (onCompleteCallback) {
if (LED_COLORS.length == 0) {
onCompleteCallback();
} else {
var buffer = [];
for (var colorIndex = 0; colorIndex < LED_COLORS.length; colorIndex++) {
var color = LED_COLORS[colorIndex];
buffer.push(specificByte(color.h, 0));
buffer.push(specificByte(color.h, 1));
buffer.push(color.s);
buffer.push(color.v);
}
MSP.send_message(MSPCodes.MSP_SET_LED_COLORS, buffer, false, onCompleteCallback);
}
};
self.sendLedStripConfig = function (onCompleteCallback) {
var nextFunction = send_next_led_strip_config;
var ledIndex = 0;
if (LED_STRIP.length == 0) {
onCompleteCallback();
} else {
send_next_led_strip_config();
}
function send_next_led_strip_config() {
var led = LED_STRIP[ledIndex];
/*
var led = {
directions: directions,
functions: functions,
x: data.getUint8(offset++, 1),
y: data.getUint8(offset++, 1),
color: data.getUint8(offset++, 1)
};
*/
var buffer = [],
directionLetterIndex,
functionLetterIndex,
bitIndex;
buffer.push(ledIndex);
if (semver.lt(CONFIG.apiVersion, "1.20.0")) {
var directionMask = 0;
for (directionLetterIndex = 0; directionLetterIndex < led.directions.length; directionLetterIndex++) {
bitIndex = MSP.ledDirectionLetters.indexOf(led.directions[directionLetterIndex]);
if (bitIndex >= 0) {
directionMask = bit_set(directionMask, bitIndex);
}
}
buffer.push(specificByte(directionMask, 0));
buffer.push(specificByte(directionMask, 1));
var functionMask = 0;
for (functionLetterIndex = 0; functionLetterIndex < led.functions.length; functionLetterIndex++) {
bitIndex = MSP.ledFunctionLetters.indexOf(led.functions[functionLetterIndex]);
if (bitIndex >= 0) {
functionMask = bit_set(functionMask, bitIndex);
}
}
buffer.push(specificByte(functionMask, 0));
buffer.push(specificByte(functionMask, 1));
buffer.push(led.x);
buffer.push(led.y);
buffer.push(led.color);
} else {
var mask = 0;
/*
ledDirectionLetters: ['n', 'e', 's', 'w', 'u', 'd'], // in LSB bit order
ledFunctionLetters: ['i', 'w', 'f', 'a', 't', 'r', 'c', 'g', 's', 'b', 'l'], // in LSB bit order
ledBaseFunctionLetters: ['c', 'f', 'a', 'l', 's', 'g', 'r'], // in LSB bit
ledOverlayLetters: ['t', 'o', 'b', 'n', 'i', 'w'], // in LSB bit
*/
mask |= (led.y << 0);
mask |= (led.x << 4);
for (functionLetterIndex = 0; functionLetterIndex < led.functions.length; functionLetterIndex++) {
var fnIndex = MSP.ledBaseFunctionLetters.indexOf(led.functions[functionLetterIndex]);
if (fnIndex >= 0) {
mask |= (fnIndex << 8);
break;
}
}
for (var overlayLetterIndex = 0; overlayLetterIndex < led.functions.length; overlayLetterIndex++) {
bitIndex = MSP.ledOverlayLetters.indexOf(led.functions[overlayLetterIndex]);
if (bitIndex >= 0) {
mask |= bit_set(mask, bitIndex + 12);
}
}
mask |= (led.color << 18);
for (directionLetterIndex = 0; directionLetterIndex < led.directions.length; directionLetterIndex++) {
bitIndex = MSP.ledDirectionLetters.indexOf(led.directions[directionLetterIndex]);
if (bitIndex >= 0) {
mask |= bit_set(mask, bitIndex + 22);
}
}
mask |= (0 << 28); // parameters
buffer.push(specificByte(mask, 0));
buffer.push(specificByte(mask, 1));
buffer.push(specificByte(mask, 2));
buffer.push(specificByte(mask, 3));
}
// prepare for next iteration
ledIndex++;
if (ledIndex == LED_STRIP.length) {
nextFunction = onCompleteCallback;
}
MSP.send_message(MSPCodes.MSP_SET_LED_STRIP_CONFIG, buffer, false, nextFunction);
}
};
self.sendLedStripModeColors = function (onCompleteCallback) {
var nextFunction = send_next_led_strip_mode_color;
var index = 0;
if (LED_MODE_COLORS.length == 0) {
onCompleteCallback();
} else {
send_next_led_strip_mode_color();
}
function send_next_led_strip_mode_color() {
var buffer = [];
var mode_color = LED_MODE_COLORS[index];
buffer.push(mode_color.mode);
buffer.push(mode_color.direction);
buffer.push(mode_color.color);
// prepare for next iteration
index++;
if (index == LED_MODE_COLORS.length) {
nextFunction = onCompleteCallback;
}
MSP.send_message(MSPCodes.MSP_SET_LED_STRIP_MODECOLOR, buffer, false, nextFunction);
}
};
/*
* Basic sending methods used for chaining purposes
*/
/**
* @deprecated
* @param callback
*/
self.loadMspIdent = function (callback) {
MSP.send_message(MSPCodes.MSP_IDENT, false, false, callback);
};
self.loadINAVPidConfig = function(callback) {
if (semver.gt(CONFIG.flightControllerVersion, "1.3.0")) {
MSP.send_message(MSPCodes.MSP_INAV_PID, false, false, callback);
} else {
callback();
}
};
self.loadLoopTime = function (callback) {
MSP.send_message(MSPCodes.MSP_LOOP_TIME, false, false, callback);
};
self.loadAdvancedConfig = function(callback) {
if (semver.gte(CONFIG.flightControllerVersion, "1.3.0")) {
MSP.send_message(MSPCodes.MSP_ADVANCED_CONFIG, false, false, callback);
} else {
callback();
}
};
self.loadFilterConfig = function (callback) {
if (semver.gte(CONFIG.flightControllerVersion, "1.4.0")) {
MSP.send_message(MSPCodes.MSP_FILTER_CONFIG, false, false, callback);
} else {
callback();
}
};
self.loadPidAdvanced = function (callback) {
if (semver.gte(CONFIG.flightControllerVersion, "1.4.0")) {
MSP.send_message(MSPCodes.MSP_PID_ADVANCED, false, false, callback);
} else {
callback();
}
};
self.loadRcTuningData = function (callback) {
MSP.send_message(MSPCodes.MSP_RC_TUNING, false, false, callback);
};
self.loadPidData = function (callback) {
MSP.send_message(MSPCodes.MSP_PID, false, false, callback);
};
self.loadPidNames = function (callback) {
MSP.send_message(MSPCodes.MSP_PIDNAMES, false, false, callback);
};
self.loadStatus = function (callback) {
MSP.send_message(MSPCodes.MSP_STATUS, false, false, callback);
};
self.loadBfConfig = function (callback) {
MSP.send_message(MSPCodes.MSP_BF_CONFIG, false, false, callback);
};
self.queryFcStatus = function (callback) {
MSP.send_message(MSPCodes.MSP_STATUS_EX, false, false, callback);
};
self.loadMisc = function (callback) {
MSP.send_message(MSPCodes.MSP_MISC, false, false, callback);
};
self.loadArmingConfig = function (callback) {
MSP.send_message(MSPCodes.MSP_ARMING_CONFIG, false, false, callback);
};
self.loadRxConfig = function (callback) {
if (semver.gte(CONFIG.apiVersion, "1.21.0")) {
MSP.send_message(MSPCodes.MSP_RX_CONFIG, false, false, callback);
} else {
callback();
}
};
self.load3dConfig = function (callback) {
MSP.send_message(MSPCodes.MSP_3D, false, false, callback);
};
self.loadSensorAlignment = function (callback) {
MSP.send_message(MSPCodes.MSP_SENSOR_ALIGNMENT, false, false, callback);
};
self.loadSensorConfig = function (callback) {
if (semver.gte(CONFIG.flightControllerVersion, "1.5.0")) {
MSP.send_message(MSPCodes.MSP_SENSOR_CONFIG, false, false, callback);
} else {
callback();
}
};
self.loadSensorStatus = function (callback) {
if (semver.gte(CONFIG.flightControllerVersion, "1.5.0")) {
MSP.send_message(MSPCodes.MSP_SENSOR_STATUS, false, false, callback);
} else {
callback();
}
};
self.loadRcDeadband = function (callback) {
MSP.send_message(MSPCodes.MSP_RC_DEADBAND, false, false, callback);
};
self.loadRcMap = function (callback) {
MSP.send_message(MSPCodes.MSP_RX_MAP, false, false, callback);
};
self.loadRcData = function (callback) {
MSP.send_message(MSPCodes.MSP_RC, false, false, callback);
};
self.loadAccTrim = function (callback) {
MSP.send_message(MSPCodes.MSP_ACC_TRIM, false, false, callback);
};
self.loadAnalog = function (callback) {
MSP.send_message(MSPCodes.MSP_ANALOG, false, false, callback);
};
self.saveToEeprom = function saveToEeprom(callback) {
MSP.send_message(MSPCodes.MSP_EEPROM_WRITE, false, false, callback);
};
self.saveINAVPidConfig = function (callback) {
if (semver.gt(CONFIG.flightControllerVersion, "1.3.0")) {
MSP.send_message(MSPCodes.MSP_SET_INAV_PID, mspHelper.crunch(MSPCodes.MSP_SET_INAV_PID), false, callback);
} else {
callback();
}
};
self.saveLooptimeConfig = function (callback) {
MSP.send_message(MSPCodes.MSP_SET_LOOP_TIME, mspHelper.crunch(MSPCodes.MSP_SET_LOOP_TIME), false, callback);
};
self.saveAdvancedConfig = function (callback) {
if (semver.gte(CONFIG.flightControllerVersion, "1.3.0")) {
MSP.send_message(MSPCodes.MSP_SET_ADVANCED_CONFIG, mspHelper.crunch(MSPCodes.MSP_SET_ADVANCED_CONFIG), false, callback);
} else {
callback();
}
};
self.saveFilterConfig = function (callback) {
if (semver.gte(CONFIG.flightControllerVersion, "1.4.0")) {
MSP.send_message(MSPCodes.MSP_SET_FILTER_CONFIG, mspHelper.crunch(MSPCodes.MSP_SET_FILTER_CONFIG), false, callback);
} else {
callback();
}
};
self.savePidData = function (callback) {
MSP.send_message(MSPCodes.MSP_SET_PID, mspHelper.crunch(MSPCodes.MSP_SET_PID), false, callback);
};
self.saveRcTuningData = function (callback) {
MSP.send_message(MSPCodes.MSP_SET_RC_TUNING, mspHelper.crunch(MSPCodes.MSP_SET_RC_TUNING), false, callback);
};
self.savePidAdvanced = function (callback) {
if (semver.gte(CONFIG.flightControllerVersion, "1.4.0")) {
MSP.send_message(MSPCodes.MSP_SET_PID_ADVANCED, mspHelper.crunch(MSPCodes.MSP_SET_PID_ADVANCED), false, callback);
} else {
callback();
}
};
self.saveBfConfig = function (callback) {
MSP.send_message(MSPCodes.MSP_SET_BF_CONFIG, mspHelper.crunch(MSPCodes.MSP_SET_BF_CONFIG), false, callback);
};
self.saveMisc = function (callback) {
MSP.send_message(MSPCodes.MSP_SET_MISC, mspHelper.crunch(MSPCodes.MSP_SET_MISC), false, callback);
};
self.save3dConfig = function (callback) {
MSP.send_message(MSPCodes.MSP_SET_3D, mspHelper.crunch(MSPCodes.MSP_SET_3D), false, callback);
};
self.saveSensorAlignment = function (callback) {
MSP.send_message(MSPCodes.MSP_SET_SENSOR_ALIGNMENT, mspHelper.crunch(MSPCodes.MSP_SET_SENSOR_ALIGNMENT), false, callback);
};
self.saveAccTrim = function (callback) {
MSP.send_message(MSPCodes.MSP_SET_ACC_TRIM, mspHelper.crunch(MSPCodes.MSP_SET_ACC_TRIM), false, callback);
};
self.saveArmingConfig = function (callback) {
MSP.send_message(MSPCodes.MSP_SET_ARMING_CONFIG, mspHelper.crunch(MSPCodes.MSP_SET_ARMING_CONFIG), false, callback);
};
self.saveRxConfig = function (callback) {
if(semver.gte(CONFIG.apiVersion, "1.21.0")) {
MSP.send_message(MSPCodes.MSP_SET_RX_CONFIG, mspHelper.crunch(MSPCodes.MSP_SET_RX_CONFIG), false, callback);
} else {
callback();
}
};
self.saveSensorConfig = function (callback) {
if(semver.gte(CONFIG.flightControllerVersion, "1.5.0")) {
MSP.send_message(MSPCodes.MSP_SET_SENSOR_CONFIG, mspHelper.crunch(MSPCodes.MSP_SET_SENSOR_CONFIG), false, callback);
} else {
callback();
}
};
self.loadNavPosholdConfig = function (callback) {
if (semver.gte(CONFIG.flightControllerVersion, "1.6.0")) {
MSP.send_message(MSPCodes.MSP_NAV_POSHOLD, false, false, callback);
} else {
callback();
}
};
self.saveNavPosholdConfig = function (callback) {
if (semver.gte(CONFIG.flightControllerVersion, "1.6.0")) {
MSP.send_message(MSPCodes.MSP_SET_NAV_POSHOLD, mspHelper.crunch(MSPCodes.MSP_SET_NAV_POSHOLD), false, callback);
} else {
callback();
}
};
self.loadPositionEstimationConfig = function (callback) {
if (semver.gte(CONFIG.flightControllerVersion, "1.6.0")) {
MSP.send_message(MSPCodes.MSP_POSITION_ESTIMATION_CONFIG, false, false, callback);
} else {
callback();
}
};
self.savePositionEstimationConfig = function (callback) {
if (semver.gte(CONFIG.flightControllerVersion, "1.6.0")) {
MSP.send_message(MSPCodes.MSP_SET_POSITION_ESTIMATION_CONFIG, mspHelper.crunch(MSPCodes.MSP_SET_POSITION_ESTIMATION_CONFIG), false, callback);
} else {
callback();
}
};
self.loadRthAndLandConfig = function (callback) {
if (semver.gte(CONFIG.flightControllerVersion, "1.7.1")) {
MSP.send_message(MSPCodes.MSP_RTH_AND_LAND_CONFIG, false, false, callback);
} else {
callback();
}
};
self.saveRthAndLandConfig = function (callback) {
if (semver.gte(CONFIG.flightControllerVersion, "1.7.1")) {
MSP.send_message(MSPCodes.MSP_SET_RTH_AND_LAND_CONFIG, mspHelper.crunch(MSPCodes.MSP_SET_RTH_AND_LAND_CONFIG), false, callback);
} else {
callback();
}
};
self.loadFwConfig = function (callback) {
if (semver.gte(CONFIG.flightControllerVersion, "1.7.1")) {
MSP.send_message(MSPCodes.MSP_FW_CONFIG, false, false, callback);
} else {
callback();
}
};
self.saveFwConfig = function (callback) {
if (semver.gte(CONFIG.flightControllerVersion, "1.7.1")) {
MSP.send_message(MSPCodes.MSP_SET_FW_CONFIG, mspHelper.crunch(MSPCodes.MSP_SET_FW_CONFIG), false, callback);
} else {
callback();
}
};
self._getSetting = function(name) {
var promise;
if (this._settings) {
promise = Promise.resolve(this._settings);
} else {
promise = new Promise(function(resolve, reject) {
var $this = this;
$.ajax({
url: chrome.runtime.getURL('/resources/settings.json'),
dataType: 'json',
error: function(jqXHR, text, error) {
reject(error);
},
success: function(data) {
$this._settings = data;
resolve(data);
}
});
});
}
return promise.then(function (data) {
return data[name];
});
};
self._encodeSettingName = function(name, data) {
for (var ii = 0; ii < name.length; ii++) {
data.push(name.charCodeAt(ii));
}
data.push(0);
};
self.getSetting = function(name, callback) {
var $this = this;
return this._getSetting(name).then(function (setting) {
var data = [];
$this._encodeSettingName(name, data);
MSP.send_message(MSPCodes.MSPV2_SETTING, data, false, function(resp) {
var value;
switch (setting.type) {
case "uint8_t":
value = resp.data.getUint8(0);
break;
case "int8_t":
value = resp.data.getInt8(0);
break;
case "uint16_t":
value = resp.data.getUint16(0, true);
break;
case "int16_t":
value = resp.data.getInt16(0, true);
break;
case "uint32_t":
value = resp.data.getUint32(0, true);
break;
case "float":
var fi32 = resp.data.getUint32(0, true);
var buf = new ArrayBuffer(4);
(new Uint32Array(buf))[0] = fi32;
value = (new Float32Array(buf))[0];
break;
default:
throw "Unknown setting type " + setting.type;
}
if (setting.table) {
value = setting.table.values[value];
}
if (callback) {
callback(value, setting);
}
});
});
};
self.encodeSetting = function(name, value) {
var $this = this;
return this._getSetting(name).then(function (setting) {
if (setting.table) {
var found = false;
for (var ii = 0; ii < setting.table.values.length; ii++) {
if (setting.table.values[ii] == value) {
value = ii;
found = true;
break;
}
}
if (!found) {
throw 'Invalid value "' + value + '" for setting ' + name;
}
}
var data = [];
$this._encodeSettingName(name, data);
switch (setting.type) {
case "uint8_t":
case "int8_t":
data.push8(value);
break;
case "uint16_t":
case "int16_t":
data.push16(value);
break;
case "uint32_t":
data.push32(value);
break;
case "float":
var buf = new ArrayBuffer(4);
(new Float32Array(buf))[0] = value;
var if32 = (new Uint32Array(buf))[0];
data.push32(if32);
break;
default:
throw "Unknown setting type " + setting.type;
}
return data;
});
};
self.setSetting = function(name, value, callback) {
this.encodeSetting(name, value).then(function (data) {
MSP.send_message(MSPCodes.MSPV2_SET_SETTING, data, false, callback);
});
};
return self;
})(GUI);
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