/**************************************************************************** * * (c) 2009-2016 QGROUNDCONTROL PROJECT * * QGroundControl is licensed according to the terms in the file * COPYING.md in the root of the source code directory. * ****************************************************************************/ /// @file /// @author Don Gagne #include "APMFirmwarePlugin.h" #include "AutoPilotPlugins/APM/APMAutoPilotPlugin.h" // FIXME: Hack #include "QGCMAVLink.h" #include "QGCApplication.h" #include QGC_LOGGING_CATEGORY(APMFirmwarePluginLog, "APMFirmwarePluginLog") static const QRegExp APM_COPTER_REXP("^(ArduCopter|APM:Copter)"); static const QRegExp APM_SOLO_REXP("^(APM:Copter solo-)"); static const QRegExp APM_PLANE_REXP("^(ArduPlane|APM:Plane)"); static const QRegExp APM_ROVER_REXP("^(ArduRover|APM:Rover)"); static const QRegExp APM_SUB_REXP("^(ArduSub|APM:Sub)"); static const QRegExp APM_PX4NUTTX_REXP("^PX4: .*NuttX: .*"); static const QRegExp APM_FRAME_REXP("^Frame: "); static const QRegExp APM_SYSID_REXP("^PX4v2 "); // Regex to parse version text coming from APM, gives out firmware type, major, minor and patch level numbers static const QRegExp VERSION_REXP("^(APM:Copter|APM:Plane|APM:Rover|APM:Sub|ArduCopter|ArduPlane|ArduRover|ArduSub) +[vV](\\d*)\\.*(\\d*)*\\.*(\\d*)*"); // minimum firmware versions that don't suffer from mavlink severity inversion bug. // https://github.com/diydrones/apm_planner/issues/788 static const QString MIN_SOLO_VERSION_WITH_CORRECT_SEVERITY_MSGS("APM:Copter solo-1.2.0"); static const QString MIN_COPTER_VERSION_WITH_CORRECT_SEVERITY_MSGS("APM:Copter V3.4.0"); static const QString MIN_PLANE_VERSION_WITH_CORRECT_SEVERITY_MSGS("APM:Plane V3.4.0"); static const QString MIN_SUB_VERSION_WITH_CORRECT_SEVERITY_MSGS("APM:Sub V3.4.0"); static const QString MIN_ROVER_VERSION_WITH_CORRECT_SEVERITY_MSGS("APM:Rover V2.6.0"); const char* APMFirmwarePlugin::_artooIP = "10.1.1.1"; ///< IP address of ARTOO controller const int APMFirmwarePlugin::_artooVideoHandshakePort = 5502; ///< Port for video handshake on ARTOO controller /* * @brief APMFirmwareVersion is a small class to represent the firmware version * It encabsules vehicleType, major version, minor version and patch level version * and provides accessors for the same. * isValid() can be used, to know whether version infromation is available or not * supports < operator */ APMFirmwareVersion::APMFirmwareVersion(const QString &versionText) { _major = 0; _minor = 0; _patch = 0; _parseVersion(versionText); } bool APMFirmwareVersion::isValid() const { return !_versionString.isEmpty(); } bool APMFirmwareVersion::isBeta() const { return _versionString.contains(QStringLiteral(".rc")); } bool APMFirmwareVersion::isDev() const { return _versionString.contains(QStringLiteral(".dev")); } bool APMFirmwareVersion::operator <(const APMFirmwareVersion& other) const { int myVersion = _major << 16 | _minor << 8 | _patch ; int otherVersion = other.majorNumber() << 16 | other.minorNumber() << 8 | other.patchNumber(); return myVersion < otherVersion; } void APMFirmwareVersion::_parseVersion(const QString &versionText) { if (versionText.isEmpty()) { return; } if (VERSION_REXP.indexIn(versionText) == -1) { qCWarning(APMFirmwarePluginLog) << "firmware version regex didn't match anything" << "version text to be parsed" << versionText; return; } QStringList capturedTexts = VERSION_REXP.capturedTexts(); if (capturedTexts.count() < 5) { qCWarning(APMFirmwarePluginLog) << "something wrong with parsing the version text, not hitting anything" << VERSION_REXP.captureCount() << VERSION_REXP.capturedTexts(); return; } // successful extraction of version numbers // even though we could have collected the version string atleast // but if the parsing has faild, not much point _versionString = versionText; _vehicleType = capturedTexts[1]; _major = capturedTexts[2].toInt(); _minor = capturedTexts[3].toInt(); _patch = capturedTexts[4].toInt(); } /* * @brief APMCustomMode encapsulates the custom modes for APM */ APMCustomMode::APMCustomMode(uint32_t mode, bool settable) : _mode(mode), _settable(settable) { } void APMCustomMode::setEnumToStringMapping(const QMap& enumToString) { _enumToString = enumToString; } QString APMCustomMode::modeString() const { QString mode = _enumToString.value(modeAsInt()); if (mode.isEmpty()) { mode = "mode" + QString::number(modeAsInt()); } return mode; } APMFirmwarePlugin::APMFirmwarePlugin(void) : _coaxialMotors(false) , _textSeverityAdjustmentNeeded(false) { } bool APMFirmwarePlugin::isCapable(FirmwareCapabilities capabilities) { return (capabilities & (SetFlightModeCapability | PauseVehicleCapability)) == capabilities; } QList APMFirmwarePlugin::componentsForVehicle(AutoPilotPlugin* vehicle) { Q_UNUSED(vehicle); return QList(); } QStringList APMFirmwarePlugin::flightModes(Vehicle* vehicle) { Q_UNUSED(vehicle) QStringList flightModesList; foreach (const APMCustomMode& customMode, _supportedModes) { if (customMode.canBeSet()) { flightModesList << customMode.modeString(); } } return flightModesList; } QString APMFirmwarePlugin::flightMode(uint8_t base_mode, uint32_t custom_mode) const { QString flightMode = "Unknown"; if (base_mode & MAV_MODE_FLAG_CUSTOM_MODE_ENABLED) { foreach (const APMCustomMode& customMode, _supportedModes) { if (customMode.modeAsInt() == custom_mode) { flightMode = customMode.modeString(); } } } return flightMode; } bool APMFirmwarePlugin::setFlightMode(const QString& flightMode, uint8_t* base_mode, uint32_t* custom_mode) { *base_mode = 0; *custom_mode = 0; bool found = false; foreach(const APMCustomMode& mode, _supportedModes) { if (flightMode.compare(mode.modeString(), Qt::CaseInsensitive) == 0) { *base_mode = MAV_MODE_FLAG_CUSTOM_MODE_ENABLED; *custom_mode = mode.modeAsInt(); found = true; break; } } if (!found) { qCWarning(APMFirmwarePluginLog) << "Unknown flight Mode" << flightMode; } return found; } int APMFirmwarePlugin::manualControlReservedButtonCount(void) { // We don't know whether the firmware is going to used any of these buttons. // So reserve them all. return -1; } void APMFirmwarePlugin::_handleParamValue(Vehicle* vehicle, mavlink_message_t* message) { Q_UNUSED(vehicle); mavlink_param_value_t paramValue; mavlink_param_union_t paramUnion; // APM stack passes all parameter values in mavlink_param_union_t.param_float no matter what // type they are. Fix that up to correct usage. mavlink_msg_param_value_decode(message, ¶mValue); switch (paramValue.param_type) { case MAV_PARAM_TYPE_UINT8: paramUnion.param_uint8 = (uint8_t)paramValue.param_value; break; case MAV_PARAM_TYPE_INT8: paramUnion.param_int8 = (int8_t)paramValue.param_value; break; case MAV_PARAM_TYPE_UINT16: paramUnion.param_uint16 = (uint16_t)paramValue.param_value; break; case MAV_PARAM_TYPE_INT16: paramUnion.param_int16 = (int16_t)paramValue.param_value; break; case MAV_PARAM_TYPE_UINT32: paramUnion.param_uint32 = (uint32_t)paramValue.param_value; break; case MAV_PARAM_TYPE_INT32: paramUnion.param_int32 = (int32_t)paramValue.param_value; break; case MAV_PARAM_TYPE_REAL32: paramUnion.param_float = paramValue.param_value; break; default: qCCritical(APMFirmwarePluginLog) << "Invalid/Unsupported data type used in parameter:" << paramValue.param_type; } paramValue.param_value = paramUnion.param_float; mavlink_msg_param_value_encode(message->sysid, message->compid, message, ¶mValue); } void APMFirmwarePlugin::_handleParamSet(Vehicle* vehicle, mavlink_message_t* message) { Q_UNUSED(vehicle); mavlink_param_set_t paramSet; mavlink_param_union_t paramUnion; // APM stack passes all parameter values in mavlink_param_union_t.param_float no matter what // type they are. Fix it back to the wrong way on the way out. mavlink_msg_param_set_decode(message, ¶mSet); paramUnion.param_float = paramSet.param_value; switch (paramSet.param_type) { case MAV_PARAM_TYPE_UINT8: paramSet.param_value = paramUnion.param_uint8; break; case MAV_PARAM_TYPE_INT8: paramSet.param_value = paramUnion.param_int8; break; case MAV_PARAM_TYPE_UINT16: paramSet.param_value = paramUnion.param_uint16; break; case MAV_PARAM_TYPE_INT16: paramSet.param_value = paramUnion.param_int16; break; case MAV_PARAM_TYPE_UINT32: paramSet.param_value = paramUnion.param_uint32; break; case MAV_PARAM_TYPE_INT32: paramSet.param_value = paramUnion.param_int32; break; case MAV_PARAM_TYPE_REAL32: // Already in param_float break; default: qCCritical(APMFirmwarePluginLog) << "Invalid/Unsupported data type used in parameter:" << paramSet.param_type; } mavlink_msg_param_set_encode(message->sysid, message->compid, message, ¶mSet); } bool APMFirmwarePlugin::_handleStatusText(Vehicle* vehicle, mavlink_message_t* message) { QString messageText; mavlink_statustext_t statusText; mavlink_msg_statustext_decode(message, &statusText); if (vehicle->firmwareMajorVersion() == Vehicle::versionNotSetValue || statusText.severity < MAV_SEVERITY_NOTICE) { messageText = _getMessageText(message); qCDebug(APMFirmwarePluginLog) << messageText; if (!messageText.contains(APM_SOLO_REXP)) { // if don't know firmwareVersion yet, try and see if this message contains it if (messageText.contains(APM_COPTER_REXP) || messageText.contains(APM_PLANE_REXP) || messageText.contains(APM_ROVER_REXP) || messageText.contains(APM_SUB_REXP)) { // found version string APMFirmwareVersion firmwareVersion(messageText); _textSeverityAdjustmentNeeded = _isTextSeverityAdjustmentNeeded(firmwareVersion); vehicle->setFirmwareVersion(firmwareVersion.majorNumber(), firmwareVersion.minorNumber(), firmwareVersion.patchNumber()); int supportedMajorNumber = -1; int supportedMinorNumber = -1; switch (vehicle->vehicleType()) { case MAV_TYPE_FIXED_WING: supportedMajorNumber = 3; supportedMinorNumber = 2; break; case MAV_TYPE_QUADROTOR: case MAV_TYPE_COAXIAL: case MAV_TYPE_HELICOPTER: case MAV_TYPE_SUBMARINE: case MAV_TYPE_HEXAROTOR: case MAV_TYPE_OCTOROTOR: case MAV_TYPE_TRICOPTER: supportedMajorNumber = 3; supportedMinorNumber = 2; break; default: break; } if (supportedMajorNumber != -1) { if (firmwareVersion.majorNumber() < supportedMajorNumber || firmwareVersion.minorNumber() < supportedMinorNumber) { qgcApp()->showMessage(QString("QGroundControl fully supports Version %1.%2 and above. You are using a version prior to that. This combination is untested, you may run into unpredictable results.").arg(supportedMajorNumber).arg(supportedMinorNumber)); } } } } // APM user facing calibration messages come through as high severity, we need to parse them out // and lower the severity on them so that they don't pop in the users face. if (messageText.contains("Place vehicle") || messageText.contains("Calibration successful")) { _adjustCalibrationMessageSeverity(message); return true; } } // adjust mesasge if needed if (_textSeverityAdjustmentNeeded) { _adjustSeverity(message); } if (messageText.isEmpty()) { messageText = _getMessageText(message); } // The following messages are incorrectly labeled as warning message. // Fixed in newer firmware (unreleased at this point), but still in older firmware. if (messageText.contains(APM_COPTER_REXP) || messageText.contains(APM_PLANE_REXP) || messageText.contains(APM_ROVER_REXP) || messageText.contains(APM_SUB_REXP) || messageText.contains(APM_PX4NUTTX_REXP) || messageText.contains(APM_FRAME_REXP) || messageText.contains(APM_SYSID_REXP)) { _setInfoSeverity(message); } if (messageText.contains(APM_SOLO_REXP)) { qDebug() << "Found Solo"; vehicle->setSoloFirmware(true); // Fix up severity _setInfoSeverity(message); // Start TCP video handshake with ARTOO _soloVideoHandshake(vehicle); } else if (messageText.contains(APM_FRAME_REXP)) { // We need to parse the Frame: message in order to determine whether the motors are coaxial or not QRegExp frameTypeRegex("^Frame: (\\S*)"); if (frameTypeRegex.indexIn(messageText) != -1) { QString frameType = frameTypeRegex.cap(1); if (!frameType.isEmpty() && (frameType == QStringLiteral("Y6") || frameType == QStringLiteral("OCTA_QUAD") || frameType == QStringLiteral("COAX"))) { _coaxialMotors = true; } } } if (messageText.startsWith("PreArm")) { // ArduPilot PreArm messages can come across very frequently especially on Solo, which seems to send them once a second. // Filter them out if they come too quickly. if (_noisyPrearmMap.contains(messageText) && _noisyPrearmMap[messageText].msecsTo(QTime::currentTime()) < (10 * 1000)) { return false; } _noisyPrearmMap[messageText] = QTime::currentTime(); vehicle->setPrearmError(messageText); } return true; } void APMFirmwarePlugin::_handleHeartbeat(Vehicle* vehicle, mavlink_message_t* message) { bool flying = false; // We pull Vehicle::flying state from HEARTBEAT on ArduPilot. This is a firmware specific test. if (vehicle->armed()) { mavlink_heartbeat_t heartbeat; mavlink_msg_heartbeat_decode(message, &heartbeat); flying = heartbeat.system_status == MAV_STATE_ACTIVE; if (!flying && vehicle->flying()) { // If we were previously flying, and we go into critical or emergency assume we are still flying flying = heartbeat.system_status == MAV_STATE_CRITICAL || heartbeat.system_status == MAV_STATE_EMERGENCY; } } vehicle->setFlying(flying); } bool APMFirmwarePlugin::adjustIncomingMavlinkMessage(Vehicle* vehicle, mavlink_message_t* message) { //-- Don't process messages to/from UDP Bridge. It doesn't suffer from these issues if (message->compid == MAV_COMP_ID_UDP_BRIDGE) { return true; } switch (message->msgid) { case MAVLINK_MSG_ID_PARAM_VALUE: _handleParamValue(vehicle, message); break; case MAVLINK_MSG_ID_STATUSTEXT: return _handleStatusText(vehicle, message); case MAVLINK_MSG_ID_HEARTBEAT: _handleHeartbeat(vehicle, message); break; } return true; } void APMFirmwarePlugin::adjustOutgoingMavlinkMessage(Vehicle* vehicle, mavlink_message_t* message) { //-- Don't process messages to/from UDP Bridge. It doesn't suffer from these issues if (message->compid == MAV_COMP_ID_UDP_BRIDGE) { return; } switch (message->msgid) { case MAVLINK_MSG_ID_PARAM_SET: _handleParamSet(vehicle, message); break; } } QString APMFirmwarePlugin::_getMessageText(mavlink_message_t* message) const { QByteArray b; b.resize(MAVLINK_MSG_STATUSTEXT_FIELD_TEXT_LEN+1); mavlink_msg_statustext_get_text(message, b.data()); // Ensure NUL-termination b[b.length()-1] = '\0'; return QString(b); } bool APMFirmwarePlugin::_isTextSeverityAdjustmentNeeded(const APMFirmwareVersion& firmwareVersion) { if (!firmwareVersion.isValid()) { return false; } bool adjustmentNeeded = false; if (firmwareVersion.vehicleType().contains(APM_COPTER_REXP)) { if (firmwareVersion < APMFirmwareVersion(MIN_COPTER_VERSION_WITH_CORRECT_SEVERITY_MSGS)) { adjustmentNeeded = true; } } else if (firmwareVersion.vehicleType().contains(APM_PLANE_REXP)) { if (firmwareVersion < APMFirmwareVersion(MIN_PLANE_VERSION_WITH_CORRECT_SEVERITY_MSGS)) { adjustmentNeeded = true; } } else if (firmwareVersion.vehicleType().contains(APM_ROVER_REXP)) { if (firmwareVersion < APMFirmwareVersion(MIN_ROVER_VERSION_WITH_CORRECT_SEVERITY_MSGS)) { adjustmentNeeded = true; } } else if (firmwareVersion.vehicleType().contains(APM_SUB_REXP)) { if (firmwareVersion < APMFirmwareVersion(MIN_SUB_VERSION_WITH_CORRECT_SEVERITY_MSGS)) { adjustmentNeeded = true; } } return adjustmentNeeded; } void APMFirmwarePlugin::_adjustSeverity(mavlink_message_t* message) const { // lets make QGC happy with right severity values mavlink_statustext_t statusText; mavlink_msg_statustext_decode(message, &statusText); switch(statusText.severity) { case MAV_SEVERITY_ALERT: /* SEVERITY_LOW according to old codes */ statusText.severity = MAV_SEVERITY_WARNING; break; case MAV_SEVERITY_CRITICAL: /*SEVERITY_MEDIUM according to old codes */ statusText.severity = MAV_SEVERITY_ALERT; break; case MAV_SEVERITY_ERROR: /*SEVERITY_HIGH according to old codes */ statusText.severity = MAV_SEVERITY_CRITICAL; break; } mavlink_msg_statustext_encode(message->sysid, message->compid, message, &statusText); } void APMFirmwarePlugin::_setInfoSeverity(mavlink_message_t* message) const { mavlink_statustext_t statusText; mavlink_msg_statustext_decode(message, &statusText); statusText.severity = MAV_SEVERITY_INFO; mavlink_msg_statustext_encode(message->sysid, message->compid, message, &statusText); } void APMFirmwarePlugin::_adjustCalibrationMessageSeverity(mavlink_message_t* message) const { mavlink_statustext_t statusText; mavlink_msg_statustext_decode(message, &statusText); statusText.severity = MAV_SEVERITY_INFO; mavlink_msg_statustext_encode(message->sysid, message->compid, message, &statusText); } void APMFirmwarePlugin::initializeVehicle(Vehicle* vehicle) { // Streams are not started automatically on APM stack vehicle->requestDataStream(MAV_DATA_STREAM_RAW_SENSORS, 2); vehicle->requestDataStream(MAV_DATA_STREAM_EXTENDED_STATUS, 2); vehicle->requestDataStream(MAV_DATA_STREAM_RC_CHANNELS, 2); vehicle->requestDataStream(MAV_DATA_STREAM_POSITION, 3); vehicle->requestDataStream(MAV_DATA_STREAM_EXTRA1, 10); vehicle->requestDataStream(MAV_DATA_STREAM_EXTRA2, 10); vehicle->requestDataStream(MAV_DATA_STREAM_EXTRA3, 3); } void APMFirmwarePlugin::setSupportedModes(QList supportedModes) { _supportedModes = supportedModes; } bool APMFirmwarePlugin::sendHomePositionToVehicle(void) { // APM stack wants the home position sent in the first position return true; } void APMFirmwarePlugin::addMetaDataToFact(QObject* parameterMetaData, Fact* fact, MAV_TYPE vehicleType) { APMParameterMetaData* apmMetaData = qobject_cast(parameterMetaData); if (apmMetaData) { apmMetaData->addMetaDataToFact(fact, vehicleType); } else { qWarning() << "Internal error: pointer passed to APMFirmwarePlugin::addMetaDataToFact not APMParameterMetaData"; } } QList APMFirmwarePlugin::supportedMissionCommands(void) { QList list; list << MAV_CMD_NAV_WAYPOINT << MAV_CMD_NAV_SPLINE_WAYPOINT << MAV_CMD_NAV_LOITER_UNLIM << MAV_CMD_NAV_LOITER_TURNS << MAV_CMD_NAV_LOITER_TIME << MAV_CMD_NAV_LOITER_TO_ALT << MAV_CMD_NAV_RETURN_TO_LAUNCH << MAV_CMD_NAV_LAND << MAV_CMD_NAV_TAKEOFF << MAV_CMD_NAV_GUIDED_ENABLE << MAV_CMD_DO_SET_ROI << MAV_CMD_DO_GUIDED_LIMITS << MAV_CMD_DO_JUMP << MAV_CMD_DO_CHANGE_SPEED << MAV_CMD_DO_SET_CAM_TRIGG_DIST << MAV_CMD_DO_SET_RELAY << MAV_CMD_DO_REPEAT_RELAY << MAV_CMD_DO_SET_SERVO << MAV_CMD_DO_REPEAT_SERVO << MAV_CMD_DO_DIGICAM_CONFIGURE << MAV_CMD_DO_DIGICAM_CONTROL << MAV_CMD_DO_MOUNT_CONTROL << MAV_CMD_DO_SET_HOME << MAV_CMD_DO_LAND_START << MAV_CMD_DO_FENCE_ENABLE << MAV_CMD_DO_PARACHUTE << MAV_CMD_DO_INVERTED_FLIGHT << MAV_CMD_DO_GRIPPER << MAV_CMD_CONDITION_DELAY << MAV_CMD_CONDITION_CHANGE_ALT << MAV_CMD_CONDITION_DISTANCE << MAV_CMD_CONDITION_YAW << MAV_CMD_NAV_VTOL_TAKEOFF << MAV_CMD_NAV_VTOL_LAND << MAV_CMD_NAV_CONTINUE_AND_CHANGE_ALT; return list; } void APMFirmwarePlugin::missionCommandOverrides(QString& commonJsonFilename, QString& fixedWingJsonFilename, QString& multiRotorJsonFilename) const { commonJsonFilename = QStringLiteral(":/json/APM/MavCmdInfoCommon.json"); fixedWingJsonFilename = QStringLiteral(":/json/APM/MavCmdInfoFixedWing.json"); multiRotorJsonFilename = QStringLiteral(":/json/APM/MavCmdInfoMultiRotor.json"); } QObject* APMFirmwarePlugin::loadParameterMetaData(const QString& metaDataFile) { Q_UNUSED(metaDataFile); APMParameterMetaData* metaData = new APMParameterMetaData(); metaData->loadParameterFactMetaDataFile(metaDataFile); return metaData; } bool APMFirmwarePlugin::isGuidedMode(const Vehicle* vehicle) const { return vehicle->flightMode() == "Guided"; } void APMFirmwarePlugin::pauseVehicle(Vehicle* vehicle) { // Best we can do in this case vehicle->setFlightMode("Loiter"); } void APMFirmwarePlugin::_soloVideoHandshake(Vehicle* vehicle) { Q_UNUSED(vehicle); QTcpSocket* socket = new QTcpSocket(); socket->connectToHost(_artooIP, _artooVideoHandshakePort); QObject::connect(socket, static_cast(&QTcpSocket::error), this, &APMFirmwarePlugin::_artooSocketError); } void APMFirmwarePlugin::_artooSocketError(QAbstractSocket::SocketError socketError) { qgcApp()->showMessage(tr("Error during Solo video link setup: %1").arg(socketError)); } QString APMFirmwarePlugin::getParameterMetaDataFile(Vehicle* vehicle) { switch (vehicle->vehicleType()) { case MAV_TYPE_QUADROTOR: case MAV_TYPE_HEXAROTOR: case MAV_TYPE_OCTOROTOR: case MAV_TYPE_TRICOPTER: case MAV_TYPE_COAXIAL: case MAV_TYPE_HELICOPTER: if (vehicle->firmwareMajorVersion() < 3 || (vehicle->firmwareMajorVersion() == 3 && vehicle->firmwareMinorVersion() <= 3)) { return QStringLiteral(":/FirmwarePlugin/APM/APMParameterFactMetaData.Copter.3.3.xml"); } else { return QStringLiteral(":/FirmwarePlugin/APM/APMParameterFactMetaData.Copter.3.4.xml"); } case MAV_TYPE_FIXED_WING: if (vehicle->firmwareMajorVersion() < 3 || (vehicle->firmwareMajorVersion() == 3 && vehicle->firmwareMinorVersion() <= 3)) { return QStringLiteral(":/FirmwarePlugin/APM/APMParameterFactMetaData.Plane.3.3.xml"); } else { return QStringLiteral(":/FirmwarePlugin/APM/APMParameterFactMetaData.Plane.3.5.xml"); } case MAV_TYPE_GROUND_ROVER: case MAV_TYPE_SURFACE_BOAT: return QStringLiteral(":/FirmwarePlugin/APM/APMParameterFactMetaData.Rover.3.0.xml"); case MAV_TYPE_SUBMARINE: return QStringLiteral(":/FirmwarePlugin/APM/APMParameterFactMetaData.Sub.3.4.xml"); default: return QString(); } }