/**************************************************************************** * * (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 "ArduCopterFirmwarePlugin.h" #include "QGCApplication.h" #include "MissionManager.h" #include "ParameterManager.h" bool ArduCopterFirmwarePlugin::_remapParamNameIntialized = false; FirmwarePlugin::remapParamNameMajorVersionMap_t ArduCopterFirmwarePlugin::_remapParamName; APMCopterMode::APMCopterMode(uint32_t mode, bool settable) : APMCustomMode(mode, settable) { QMap enumToString; enumToString.insert(STABILIZE, "Stabilize"); enumToString.insert(ACRO, "Acro"); enumToString.insert(ALT_HOLD, "Altitude Hold"); enumToString.insert(AUTO, "Auto"); enumToString.insert(GUIDED, "Guided"); enumToString.insert(LOITER, "Loiter"); enumToString.insert(RTL, "RTL"); enumToString.insert(CIRCLE, "Circle"); enumToString.insert(LAND, "Land"); enumToString.insert(DRIFT, "Drift"); enumToString.insert(SPORT, "Sport"); enumToString.insert(FLIP, "Flip"); enumToString.insert(AUTOTUNE, "Autotune"); enumToString.insert(POS_HOLD, "Position Hold"); enumToString.insert(BRAKE, "Brake"); enumToString.insert(THROW, "Throw"); enumToString.insert(AVOID_ADSB,"Avoid ADSB"); enumToString.insert(GUIDED_NOGPS,"Guided No GPS"); setEnumToStringMapping(enumToString); } ArduCopterFirmwarePlugin::ArduCopterFirmwarePlugin(void) { QList supportedFlightModes; supportedFlightModes << APMCopterMode(APMCopterMode::STABILIZE ,true); supportedFlightModes << APMCopterMode(APMCopterMode::ACRO ,true); supportedFlightModes << APMCopterMode(APMCopterMode::ALT_HOLD ,true); supportedFlightModes << APMCopterMode(APMCopterMode::AUTO ,true); supportedFlightModes << APMCopterMode(APMCopterMode::GUIDED ,true); supportedFlightModes << APMCopterMode(APMCopterMode::LOITER ,true); supportedFlightModes << APMCopterMode(APMCopterMode::RTL ,true); supportedFlightModes << APMCopterMode(APMCopterMode::CIRCLE ,true); supportedFlightModes << APMCopterMode(APMCopterMode::LAND ,true); supportedFlightModes << APMCopterMode(APMCopterMode::DRIFT ,true); supportedFlightModes << APMCopterMode(APMCopterMode::SPORT ,true); supportedFlightModes << APMCopterMode(APMCopterMode::FLIP ,true); supportedFlightModes << APMCopterMode(APMCopterMode::AUTOTUNE ,true); supportedFlightModes << APMCopterMode(APMCopterMode::POS_HOLD ,true); supportedFlightModes << APMCopterMode(APMCopterMode::BRAKE ,true); supportedFlightModes << APMCopterMode(APMCopterMode::THROW ,true); supportedFlightModes << APMCopterMode(APMCopterMode::AVOID_ADSB,true); supportedFlightModes << APMCopterMode(APMCopterMode::GUIDED_NOGPS,true); setSupportedModes(supportedFlightModes); if (!_remapParamNameIntialized) { FirmwarePlugin::remapParamNameMap_t& remapV3_4 = _remapParamName[3][4]; remapV3_4["ATC_ANG_RLL_P"] = QStringLiteral("STB_RLL_P"); remapV3_4["ATC_ANG_PIT_P"] = QStringLiteral("STB_PIT_P"); remapV3_4["ATC_ANG_YAW_P"] = QStringLiteral("STB_YAW_P"); remapV3_4["ATC_RAT_RLL_P"] = QStringLiteral("RATE_RLL_P"); remapV3_4["ATC_RAT_RLL_I"] = QStringLiteral("RATE_RLL_I"); remapV3_4["ATC_RAT_RLL_IMAX"] = QStringLiteral("RATE_RLL_IMAX"); remapV3_4["ATC_RAT_RLL_D"] = QStringLiteral("RATE_RLL_D"); remapV3_4["ATC_RAT_RLL_FILT"] = QStringLiteral("RATE_RLL_FILT_HZ"); remapV3_4["ATC_RAT_PIT_P"] = QStringLiteral("RATE_PIT_P"); remapV3_4["ATC_RAT_PIT_I"] = QStringLiteral("RATE_PIT_I"); remapV3_4["ATC_RAT_PIT_IMAX"] = QStringLiteral("RATE_PIT_IMAX"); remapV3_4["ATC_RAT_PIT_D"] = QStringLiteral("RATE_PIT_D"); remapV3_4["ATC_RAT_PIT_FILT"] = QStringLiteral("RATE_PIT_FILT_HZ"); remapV3_4["ATC_RAT_YAW_P"] = QStringLiteral("RATE_YAW_P"); remapV3_4["ATC_RAT_YAW_I"] = QStringLiteral("RATE_YAW_I"); remapV3_4["ATC_RAT_YAW_IMAX"] = QStringLiteral("RATE_YAW_IMAX"); remapV3_4["ATC_RAT_YAW_D"] = QStringLiteral("RATE_YAW_D"); remapV3_4["ATC_RAT_YAW_FILT"] = QStringLiteral("RATE_YAW_FILT_HZ"); FirmwarePlugin::remapParamNameMap_t& remapV3_5 = _remapParamName[3][5]; remapV3_5["SERVO5_FUNCTION"] = QStringLiteral("RC5_FUNCTION"); remapV3_5["SERVO6_FUNCTION"] = QStringLiteral("RC6_FUNCTION"); remapV3_5["SERVO7_FUNCTION"] = QStringLiteral("RC7_FUNCTION"); remapV3_5["SERVO8_FUNCTION"] = QStringLiteral("RC8_FUNCTION"); remapV3_5["SERVO9_FUNCTION"] = QStringLiteral("RC9_FUNCTION"); remapV3_5["SERVO10_FUNCTION"] = QStringLiteral("RC10_FUNCTION"); remapV3_5["SERVO11_FUNCTION"] = QStringLiteral("RC11_FUNCTION"); remapV3_5["SERVO12_FUNCTION"] = QStringLiteral("RC12_FUNCTION"); remapV3_5["SERVO13_FUNCTION"] = QStringLiteral("RC13_FUNCTION"); remapV3_5["SERVO14_FUNCTION"] = QStringLiteral("RC14_FUNCTION"); remapV3_5["SERVO5_MIN"] = QStringLiteral("RC5_MIN"); remapV3_5["SERVO6_MIN"] = QStringLiteral("RC6_MIN"); remapV3_5["SERVO7_MIN"] = QStringLiteral("RC7_MIN"); remapV3_5["SERVO8_MIN"] = QStringLiteral("RC8_MIN"); remapV3_5["SERVO9_MIN"] = QStringLiteral("RC9_MIN"); remapV3_5["SERVO10_MIN"] = QStringLiteral("RC10_MIN"); remapV3_5["SERVO11_MIN"] = QStringLiteral("RC11_MIN"); remapV3_5["SERVO12_MIN"] = QStringLiteral("RC12_MIN"); remapV3_5["SERVO13_MIN"] = QStringLiteral("RC13_MIN"); remapV3_5["SERVO14_MIN"] = QStringLiteral("RC14_MIN"); remapV3_5["SERVO5_MAX"] = QStringLiteral("RC5_MAX"); remapV3_5["SERVO6_MAX"] = QStringLiteral("RC6_MAX"); remapV3_5["SERVO7_MAX"] = QStringLiteral("RC7_MAX"); remapV3_5["SERVO8_MAX"] = QStringLiteral("RC8_MAX"); remapV3_5["SERVO9_MAX"] = QStringLiteral("RC9_MAX"); remapV3_5["SERVO10_MAX"] = QStringLiteral("RC10_MAX"); remapV3_5["SERVO11_MAX"] = QStringLiteral("RC11_MAX"); remapV3_5["SERVO12_MAX"] = QStringLiteral("RC12_MAX"); remapV3_5["SERVO13_MAX"] = QStringLiteral("RC13_MAX"); remapV3_5["SERVO14_MAX"] = QStringLiteral("RC14_MAX"); remapV3_5["SERVO5_REVERSED"] = QStringLiteral("RC5_REVERSED"); remapV3_5["SERVO6_REVERSED"] = QStringLiteral("RC6_REVERSED"); remapV3_5["SERVO7_REVERSED"] = QStringLiteral("RC7_REVERSED"); remapV3_5["SERVO8_REVERSED"] = QStringLiteral("RC8_REVERSED"); remapV3_5["SERVO9_REVERSED"] = QStringLiteral("RC9_REVERSED"); remapV3_5["SERVO10_REVERSED"] = QStringLiteral("RC10_REVERSED"); remapV3_5["SERVO11_REVERSED"] = QStringLiteral("RC11_REVERSED"); remapV3_5["SERVO12_REVERSED"] = QStringLiteral("RC12_REVERSED"); remapV3_5["SERVO13_REVERSED"] = QStringLiteral("RC13_REVERSED"); remapV3_5["SERVO14_REVERSED"] = QStringLiteral("RC14_REVERSED"); _remapParamNameIntialized = true; } } int ArduCopterFirmwarePlugin::remapParamNameHigestMinorVersionNumber(int majorVersionNumber) const { // Remapping supports up to 3.5 return majorVersionNumber == 3 ? 5 : Vehicle::versionNotSetValue; } bool ArduCopterFirmwarePlugin::isCapable(const Vehicle* vehicle, FirmwareCapabilities capabilities) { Q_UNUSED(vehicle); uint32_t vehicleCapabilities = SetFlightModeCapability | GuidedModeCapability | PauseVehicleCapability; return (capabilities & vehicleCapabilities) == capabilities; } void ArduCopterFirmwarePlugin::guidedModeRTL(Vehicle* vehicle) { vehicle->setFlightMode("RTL"); } void ArduCopterFirmwarePlugin::guidedModeLand(Vehicle* vehicle) { vehicle->setFlightMode("Land"); } void ArduCopterFirmwarePlugin::guidedModeTakeoff(Vehicle* vehicle) { if (!_armVehicleAndValidate(vehicle)) { qgcApp()->showMessage(tr("Unable to takeoff: Vehicle failed to arm.")); return; } vehicle->sendMavCommand(vehicle->defaultComponentId(), MAV_CMD_NAV_TAKEOFF, true, // show error 0.0f, 0.0f, 0.0f, 0.0f, 0.0f, 0.0f, 2.5); } void ArduCopterFirmwarePlugin::guidedModeGotoLocation(Vehicle* vehicle, const QGeoCoordinate& gotoCoord) { if (qIsNaN(vehicle->altitudeRelative()->rawValue().toDouble())) { qgcApp()->showMessage(QStringLiteral("Unable to go to location, vehicle position not known.")); return; } QGeoCoordinate coordWithAltitude = gotoCoord; coordWithAltitude.setAltitude(vehicle->altitudeRelative()->rawValue().toDouble()); vehicle->missionManager()->writeArduPilotGuidedMissionItem(coordWithAltitude, false /* altChangeOnly */); } void ArduCopterFirmwarePlugin::guidedModeChangeAltitude(Vehicle* vehicle, double altitudeChange) { if (qIsNaN(vehicle->altitudeRelative()->rawValue().toDouble())) { qgcApp()->showMessage(QStringLiteral("Unable to change altitude, vehicle altitude not known.")); return; } // Don't allow altitude to fall below 3 meters above home double currentAltRel = vehicle->altitudeRelative()->rawValue().toDouble(); if (altitudeChange <= 0 && currentAltRel <= 3) { return; } if (currentAltRel + altitudeChange < 3) { altitudeChange = 3 - currentAltRel; } setGuidedMode(vehicle, true); mavlink_message_t msg; mavlink_set_position_target_local_ned_t cmd; memset(&cmd, 0, sizeof(cmd)); cmd.target_system = vehicle->id(); cmd.target_component = vehicle->defaultComponentId(); cmd.coordinate_frame = MAV_FRAME_LOCAL_OFFSET_NED; cmd.type_mask = 0xFFF8; // Only x/y/z valid cmd.x = 0.0f; cmd.y = 0.0f; cmd.z = -(altitudeChange); MAVLinkProtocol* mavlink = qgcApp()->toolbox()->mavlinkProtocol(); mavlink_msg_set_position_target_local_ned_encode_chan(mavlink->getSystemId(), mavlink->getComponentId(), vehicle->priorityLink()->mavlinkChannel(), &msg, &cmd); vehicle->sendMessageOnLink(vehicle->priorityLink(), msg); } void ArduCopterFirmwarePlugin::pauseVehicle(Vehicle* vehicle) { vehicle->setFlightMode("Brake"); } void ArduCopterFirmwarePlugin::setGuidedMode(Vehicle* vehicle, bool guidedMode) { if (guidedMode) { vehicle->setFlightMode("Guided"); } else { pauseVehicle(vehicle); } } bool ArduCopterFirmwarePlugin::multiRotorCoaxialMotors(Vehicle* vehicle) { Q_UNUSED(vehicle); return _coaxialMotors; } bool ArduCopterFirmwarePlugin::multiRotorXConfig(Vehicle* vehicle) { return vehicle->parameterManager()->getParameter(FactSystem::defaultComponentId, "FRAME")->rawValue().toInt() != 0; } QString ArduCopterFirmwarePlugin::geoFenceRadiusParam(Vehicle* vehicle) { Q_UNUSED(vehicle); return QStringLiteral("FENCE_RADIUS"); } bool ArduCopterFirmwarePlugin::vehicleYawsToNextWaypointInMission(const Vehicle* vehicle) const { if (vehicle->isOfflineEditingVehicle()) { return FirmwarePlugin::vehicleYawsToNextWaypointInMission(vehicle); } else { if (vehicle->multiRotor() && vehicle->parameterManager()->parameterExists(FactSystem::defaultComponentId, QStringLiteral("WP_YAW_BEHAVIOR"))) { Fact* yawMode = vehicle->parameterManager()->getParameter(FactSystem::defaultComponentId, QStringLiteral("WP_YAW_BEHAVIOR")); return yawMode && yawMode->rawValue().toInt() != 0; } } return true; }