Documentation ¶
Index ¶
- Constants
- type ADSB_ALTITUDE_TYPE
- type ADSB_EMITTER_TYPE
- type ADSB_FLAGS
- type AIS_FLAGS
- type AIS_NAV_STATUS
- type AIS_TYPE
- type ATTITUDE_TARGET_TYPEMASK
- type ActuatorControlTarget
- func (m *ActuatorControlTarget) Dict() map[string]interface{}
- func (m *ActuatorControlTarget) Marshal() ([]byte, error)
- func (v ActuatorControlTarget) MarshalEasyJSON(w *jwriter.Writer)
- func (v ActuatorControlTarget) MarshalJSON() ([]byte, error)
- func (m *ActuatorControlTarget) MsgID() message.MessageID
- func (m *ActuatorControlTarget) String() string
- func (m *ActuatorControlTarget) Unmarshal(data []byte) error
- func (v *ActuatorControlTarget) UnmarshalEasyJSON(l *jlexer.Lexer)
- func (v *ActuatorControlTarget) UnmarshalJSON(data []byte) error
- type AdsbVehicle
- func (m *AdsbVehicle) Dict() map[string]interface{}
- func (m *AdsbVehicle) Marshal() ([]byte, error)
- func (v AdsbVehicle) MarshalEasyJSON(w *jwriter.Writer)
- func (v AdsbVehicle) MarshalJSON() ([]byte, error)
- func (m *AdsbVehicle) MsgID() message.MessageID
- func (m *AdsbVehicle) String() string
- func (m *AdsbVehicle) Unmarshal(data []byte) error
- func (v *AdsbVehicle) UnmarshalEasyJSON(l *jlexer.Lexer)
- func (v *AdsbVehicle) UnmarshalJSON(data []byte) error
- type Altitude
- func (m *Altitude) Dict() map[string]interface{}
- func (m *Altitude) Marshal() ([]byte, error)
- func (v Altitude) MarshalEasyJSON(w *jwriter.Writer)
- func (v Altitude) MarshalJSON() ([]byte, error)
- func (m *Altitude) MsgID() message.MessageID
- func (m *Altitude) String() string
- func (m *Altitude) Unmarshal(data []byte) error
- func (v *Altitude) UnmarshalEasyJSON(l *jlexer.Lexer)
- func (v *Altitude) UnmarshalJSON(data []byte) error
- type AttPosMocap
- func (m *AttPosMocap) Dict() map[string]interface{}
- func (m *AttPosMocap) Marshal() ([]byte, error)
- func (v AttPosMocap) MarshalEasyJSON(w *jwriter.Writer)
- func (v AttPosMocap) MarshalJSON() ([]byte, error)
- func (m *AttPosMocap) MsgID() message.MessageID
- func (m *AttPosMocap) String() string
- func (m *AttPosMocap) Unmarshal(data []byte) error
- func (v *AttPosMocap) UnmarshalEasyJSON(l *jlexer.Lexer)
- func (v *AttPosMocap) UnmarshalJSON(data []byte) error
- type Attitude
- func (m *Attitude) Dict() map[string]interface{}
- func (m *Attitude) Marshal() ([]byte, error)
- func (v Attitude) MarshalEasyJSON(w *jwriter.Writer)
- func (v Attitude) MarshalJSON() ([]byte, error)
- func (m *Attitude) MsgID() message.MessageID
- func (m *Attitude) String() string
- func (m *Attitude) Unmarshal(data []byte) error
- func (v *Attitude) UnmarshalEasyJSON(l *jlexer.Lexer)
- func (v *Attitude) UnmarshalJSON(data []byte) error
- type AttitudeQuaternion
- func (m *AttitudeQuaternion) Dict() map[string]interface{}
- func (m *AttitudeQuaternion) Marshal() ([]byte, error)
- func (v AttitudeQuaternion) MarshalEasyJSON(w *jwriter.Writer)
- func (v AttitudeQuaternion) MarshalJSON() ([]byte, error)
- func (m *AttitudeQuaternion) MsgID() message.MessageID
- func (m *AttitudeQuaternion) String() string
- func (m *AttitudeQuaternion) Unmarshal(data []byte) error
- func (v *AttitudeQuaternion) UnmarshalEasyJSON(l *jlexer.Lexer)
- func (v *AttitudeQuaternion) UnmarshalJSON(data []byte) error
- type AttitudeQuaternionCov
- func (m *AttitudeQuaternionCov) Dict() map[string]interface{}
- func (m *AttitudeQuaternionCov) Marshal() ([]byte, error)
- func (v AttitudeQuaternionCov) MarshalEasyJSON(w *jwriter.Writer)
- func (v AttitudeQuaternionCov) MarshalJSON() ([]byte, error)
- func (m *AttitudeQuaternionCov) MsgID() message.MessageID
- func (m *AttitudeQuaternionCov) String() string
- func (m *AttitudeQuaternionCov) Unmarshal(data []byte) error
- func (v *AttitudeQuaternionCov) UnmarshalEasyJSON(l *jlexer.Lexer)
- func (v *AttitudeQuaternionCov) UnmarshalJSON(data []byte) error
- type AttitudeTarget
- func (m *AttitudeTarget) Dict() map[string]interface{}
- func (m *AttitudeTarget) Marshal() ([]byte, error)
- func (v AttitudeTarget) MarshalEasyJSON(w *jwriter.Writer)
- func (v AttitudeTarget) MarshalJSON() ([]byte, error)
- func (m *AttitudeTarget) MsgID() message.MessageID
- func (m *AttitudeTarget) String() string
- func (m *AttitudeTarget) Unmarshal(data []byte) error
- func (v *AttitudeTarget) UnmarshalEasyJSON(l *jlexer.Lexer)
- func (v *AttitudeTarget) UnmarshalJSON(data []byte) error
- type AuthKey
- func (m *AuthKey) Dict() map[string]interface{}
- func (m *AuthKey) Marshal() ([]byte, error)
- func (v AuthKey) MarshalEasyJSON(w *jwriter.Writer)
- func (v AuthKey) MarshalJSON() ([]byte, error)
- func (m *AuthKey) MsgID() message.MessageID
- func (m *AuthKey) String() string
- func (m *AuthKey) Unmarshal(data []byte) error
- func (v *AuthKey) UnmarshalEasyJSON(l *jlexer.Lexer)
- func (v *AuthKey) UnmarshalJSON(data []byte) error
- type AutopilotVersion
- func (m *AutopilotVersion) Dict() map[string]interface{}
- func (m *AutopilotVersion) Marshal() ([]byte, error)
- func (v AutopilotVersion) MarshalEasyJSON(w *jwriter.Writer)
- func (v AutopilotVersion) MarshalJSON() ([]byte, error)
- func (m *AutopilotVersion) MsgID() message.MessageID
- func (m *AutopilotVersion) String() string
- func (m *AutopilotVersion) Unmarshal(data []byte) error
- func (v *AutopilotVersion) UnmarshalEasyJSON(l *jlexer.Lexer)
- func (v *AutopilotVersion) UnmarshalJSON(data []byte) error
- type BatteryStatus
- func (m *BatteryStatus) Dict() map[string]interface{}
- func (m *BatteryStatus) Marshal() ([]byte, error)
- func (v BatteryStatus) MarshalEasyJSON(w *jwriter.Writer)
- func (v BatteryStatus) MarshalJSON() ([]byte, error)
- func (m *BatteryStatus) MsgID() message.MessageID
- func (m *BatteryStatus) String() string
- func (m *BatteryStatus) Unmarshal(data []byte) error
- func (v *BatteryStatus) UnmarshalEasyJSON(l *jlexer.Lexer)
- func (v *BatteryStatus) UnmarshalJSON(data []byte) error
- type CAMERA_CAP_FLAGS
- type CAMERA_MODE
- type CAMERA_TRACKING_MODE
- type CAMERA_TRACKING_STATUS_FLAGS
- type CAMERA_TRACKING_TARGET_DATA
- type CAMERA_ZOOM_TYPE
- type CELLULAR_CONFIG_RESPONSE
- type CELLULAR_NETWORK_FAILED_REASON
- type CELLULAR_NETWORK_RADIO_TYPE
- type CELLULAR_STATUS_FLAG
- type COMPONENT_CAP_FLAGS
- type COMP_METADATA_TYPE
- type CameraTrigger
- func (m *CameraTrigger) Dict() map[string]interface{}
- func (m *CameraTrigger) Marshal() ([]byte, error)
- func (v CameraTrigger) MarshalEasyJSON(w *jwriter.Writer)
- func (v CameraTrigger) MarshalJSON() ([]byte, error)
- func (m *CameraTrigger) MsgID() message.MessageID
- func (m *CameraTrigger) String() string
- func (m *CameraTrigger) Unmarshal(data []byte) error
- func (v *CameraTrigger) UnmarshalEasyJSON(l *jlexer.Lexer)
- func (v *CameraTrigger) UnmarshalJSON(data []byte) error
- type ChangeOperatorControl
- func (m *ChangeOperatorControl) Dict() map[string]interface{}
- func (m *ChangeOperatorControl) Marshal() ([]byte, error)
- func (v ChangeOperatorControl) MarshalEasyJSON(w *jwriter.Writer)
- func (v ChangeOperatorControl) MarshalJSON() ([]byte, error)
- func (m *ChangeOperatorControl) MsgID() message.MessageID
- func (m *ChangeOperatorControl) String() string
- func (m *ChangeOperatorControl) Unmarshal(data []byte) error
- func (v *ChangeOperatorControl) UnmarshalEasyJSON(l *jlexer.Lexer)
- func (v *ChangeOperatorControl) UnmarshalJSON(data []byte) error
- type ChangeOperatorControlAck
- func (m *ChangeOperatorControlAck) Dict() map[string]interface{}
- func (m *ChangeOperatorControlAck) Marshal() ([]byte, error)
- func (v ChangeOperatorControlAck) MarshalEasyJSON(w *jwriter.Writer)
- func (v ChangeOperatorControlAck) MarshalJSON() ([]byte, error)
- func (m *ChangeOperatorControlAck) MsgID() message.MessageID
- func (m *ChangeOperatorControlAck) String() string
- func (m *ChangeOperatorControlAck) Unmarshal(data []byte) error
- func (v *ChangeOperatorControlAck) UnmarshalEasyJSON(l *jlexer.Lexer)
- func (v *ChangeOperatorControlAck) UnmarshalJSON(data []byte) error
- type Collision
- func (m *Collision) Dict() map[string]interface{}
- func (m *Collision) Marshal() ([]byte, error)
- func (v Collision) MarshalEasyJSON(w *jwriter.Writer)
- func (v Collision) MarshalJSON() ([]byte, error)
- func (m *Collision) MsgID() message.MessageID
- func (m *Collision) String() string
- func (m *Collision) Unmarshal(data []byte) error
- func (v *Collision) UnmarshalEasyJSON(l *jlexer.Lexer)
- func (v *Collision) UnmarshalJSON(data []byte) error
- type CommandAck
- func (m *CommandAck) Dict() map[string]interface{}
- func (m *CommandAck) Marshal() ([]byte, error)
- func (v CommandAck) MarshalEasyJSON(w *jwriter.Writer)
- func (v CommandAck) MarshalJSON() ([]byte, error)
- func (m *CommandAck) MsgID() message.MessageID
- func (m *CommandAck) String() string
- func (m *CommandAck) Unmarshal(data []byte) error
- func (v *CommandAck) UnmarshalEasyJSON(l *jlexer.Lexer)
- func (v *CommandAck) UnmarshalJSON(data []byte) error
- type CommandCancel
- func (m *CommandCancel) Dict() map[string]interface{}
- func (m *CommandCancel) Marshal() ([]byte, error)
- func (v CommandCancel) MarshalEasyJSON(w *jwriter.Writer)
- func (v CommandCancel) MarshalJSON() ([]byte, error)
- func (m *CommandCancel) MsgID() message.MessageID
- func (m *CommandCancel) String() string
- func (m *CommandCancel) Unmarshal(data []byte) error
- func (v *CommandCancel) UnmarshalEasyJSON(l *jlexer.Lexer)
- func (v *CommandCancel) UnmarshalJSON(data []byte) error
- type CommandInt
- func (m *CommandInt) Dict() map[string]interface{}
- func (m *CommandInt) Marshal() ([]byte, error)
- func (v CommandInt) MarshalEasyJSON(w *jwriter.Writer)
- func (v CommandInt) MarshalJSON() ([]byte, error)
- func (m *CommandInt) MsgID() message.MessageID
- func (m *CommandInt) String() string
- func (m *CommandInt) Unmarshal(data []byte) error
- func (v *CommandInt) UnmarshalEasyJSON(l *jlexer.Lexer)
- func (v *CommandInt) UnmarshalJSON(data []byte) error
- type CommandLong
- func (m *CommandLong) Dict() map[string]interface{}
- func (m *CommandLong) Marshal() ([]byte, error)
- func (v CommandLong) MarshalEasyJSON(w *jwriter.Writer)
- func (v CommandLong) MarshalJSON() ([]byte, error)
- func (m *CommandLong) MsgID() message.MessageID
- func (m *CommandLong) String() string
- func (m *CommandLong) Unmarshal(data []byte) error
- func (v *CommandLong) UnmarshalEasyJSON(l *jlexer.Lexer)
- func (v *CommandLong) UnmarshalJSON(data []byte) error
- type ControlSystemState
- func (m *ControlSystemState) Dict() map[string]interface{}
- func (m *ControlSystemState) Marshal() ([]byte, error)
- func (v ControlSystemState) MarshalEasyJSON(w *jwriter.Writer)
- func (v ControlSystemState) MarshalJSON() ([]byte, error)
- func (m *ControlSystemState) MsgID() message.MessageID
- func (m *ControlSystemState) String() string
- func (m *ControlSystemState) Unmarshal(data []byte) error
- func (v *ControlSystemState) UnmarshalEasyJSON(l *jlexer.Lexer)
- func (v *ControlSystemState) UnmarshalJSON(data []byte) error
- type DataStream
- func (m *DataStream) Dict() map[string]interface{}
- func (m *DataStream) Marshal() ([]byte, error)
- func (v DataStream) MarshalEasyJSON(w *jwriter.Writer)
- func (v DataStream) MarshalJSON() ([]byte, error)
- func (m *DataStream) MsgID() message.MessageID
- func (m *DataStream) String() string
- func (m *DataStream) Unmarshal(data []byte) error
- func (v *DataStream) UnmarshalEasyJSON(l *jlexer.Lexer)
- func (v *DataStream) UnmarshalJSON(data []byte) error
- type DataTransmissionHandshake
- func (m *DataTransmissionHandshake) Dict() map[string]interface{}
- func (m *DataTransmissionHandshake) Marshal() ([]byte, error)
- func (v DataTransmissionHandshake) MarshalEasyJSON(w *jwriter.Writer)
- func (v DataTransmissionHandshake) MarshalJSON() ([]byte, error)
- func (m *DataTransmissionHandshake) MsgID() message.MessageID
- func (m *DataTransmissionHandshake) String() string
- func (m *DataTransmissionHandshake) Unmarshal(data []byte) error
- func (v *DataTransmissionHandshake) UnmarshalEasyJSON(l *jlexer.Lexer)
- func (v *DataTransmissionHandshake) UnmarshalJSON(data []byte) error
- type Debug
- func (m *Debug) Dict() map[string]interface{}
- func (m *Debug) Marshal() ([]byte, error)
- func (v Debug) MarshalEasyJSON(w *jwriter.Writer)
- func (v Debug) MarshalJSON() ([]byte, error)
- func (m *Debug) MsgID() message.MessageID
- func (m *Debug) String() string
- func (m *Debug) Unmarshal(data []byte) error
- func (v *Debug) UnmarshalEasyJSON(l *jlexer.Lexer)
- func (v *Debug) UnmarshalJSON(data []byte) error
- type DebugVect
- func (m *DebugVect) Dict() map[string]interface{}
- func (m *DebugVect) Marshal() ([]byte, error)
- func (v DebugVect) MarshalEasyJSON(w *jwriter.Writer)
- func (v DebugVect) MarshalJSON() ([]byte, error)
- func (m *DebugVect) MsgID() message.MessageID
- func (m *DebugVect) String() string
- func (m *DebugVect) Unmarshal(data []byte) error
- func (v *DebugVect) UnmarshalEasyJSON(l *jlexer.Lexer)
- func (v *DebugVect) UnmarshalJSON(data []byte) error
- type DistanceSensor
- func (m *DistanceSensor) Dict() map[string]interface{}
- func (m *DistanceSensor) Marshal() ([]byte, error)
- func (v DistanceSensor) MarshalEasyJSON(w *jwriter.Writer)
- func (v DistanceSensor) MarshalJSON() ([]byte, error)
- func (m *DistanceSensor) MsgID() message.MessageID
- func (m *DistanceSensor) String() string
- func (m *DistanceSensor) Unmarshal(data []byte) error
- func (v *DistanceSensor) UnmarshalEasyJSON(l *jlexer.Lexer)
- func (v *DistanceSensor) UnmarshalJSON(data []byte) error
- type ESC_CONNECTION_TYPE
- type ESC_FAILURE_FLAGS
- type ESTIMATOR_STATUS_FLAGS
- type EfiStatus
- func (m *EfiStatus) Dict() map[string]interface{}
- func (m *EfiStatus) Marshal() ([]byte, error)
- func (v EfiStatus) MarshalEasyJSON(w *jwriter.Writer)
- func (v EfiStatus) MarshalJSON() ([]byte, error)
- func (m *EfiStatus) MsgID() message.MessageID
- func (m *EfiStatus) String() string
- func (m *EfiStatus) Unmarshal(data []byte) error
- func (v *EfiStatus) UnmarshalEasyJSON(l *jlexer.Lexer)
- func (v *EfiStatus) UnmarshalJSON(data []byte) error
- type EncapsulatedData
- func (m *EncapsulatedData) Dict() map[string]interface{}
- func (m *EncapsulatedData) Marshal() ([]byte, error)
- func (v EncapsulatedData) MarshalEasyJSON(w *jwriter.Writer)
- func (v EncapsulatedData) MarshalJSON() ([]byte, error)
- func (m *EncapsulatedData) MsgID() message.MessageID
- func (m *EncapsulatedData) String() string
- func (m *EncapsulatedData) Unmarshal(data []byte) error
- func (v *EncapsulatedData) UnmarshalEasyJSON(l *jlexer.Lexer)
- func (v *EncapsulatedData) UnmarshalJSON(data []byte) error
- type EstimatorStatus
- func (m *EstimatorStatus) Dict() map[string]interface{}
- func (m *EstimatorStatus) Marshal() ([]byte, error)
- func (v EstimatorStatus) MarshalEasyJSON(w *jwriter.Writer)
- func (v EstimatorStatus) MarshalJSON() ([]byte, error)
- func (m *EstimatorStatus) MsgID() message.MessageID
- func (m *EstimatorStatus) String() string
- func (m *EstimatorStatus) Unmarshal(data []byte) error
- func (v *EstimatorStatus) UnmarshalEasyJSON(l *jlexer.Lexer)
- func (v *EstimatorStatus) UnmarshalJSON(data []byte) error
- type ExtendedSysState
- func (m *ExtendedSysState) Dict() map[string]interface{}
- func (m *ExtendedSysState) Marshal() ([]byte, error)
- func (v ExtendedSysState) MarshalEasyJSON(w *jwriter.Writer)
- func (v ExtendedSysState) MarshalJSON() ([]byte, error)
- func (m *ExtendedSysState) MsgID() message.MessageID
- func (m *ExtendedSysState) String() string
- func (m *ExtendedSysState) Unmarshal(data []byte) error
- func (v *ExtendedSysState) UnmarshalEasyJSON(l *jlexer.Lexer)
- func (v *ExtendedSysState) UnmarshalJSON(data []byte) error
- type FAILURE_TYPE
- type FAILURE_UNIT
- type FENCE_ACTION
- type FENCE_BREACH
- type FENCE_MITIGATE
- type FIRMWARE_VERSION_TYPE
- type FenceStatus
- func (m *FenceStatus) Dict() map[string]interface{}
- func (m *FenceStatus) Marshal() ([]byte, error)
- func (v FenceStatus) MarshalEasyJSON(w *jwriter.Writer)
- func (v FenceStatus) MarshalJSON() ([]byte, error)
- func (m *FenceStatus) MsgID() message.MessageID
- func (m *FenceStatus) String() string
- func (m *FenceStatus) Unmarshal(data []byte) error
- func (v *FenceStatus) UnmarshalEasyJSON(l *jlexer.Lexer)
- func (v *FenceStatus) UnmarshalJSON(data []byte) error
- type FileTransferProtocol
- func (m *FileTransferProtocol) Dict() map[string]interface{}
- func (m *FileTransferProtocol) Marshal() ([]byte, error)
- func (v FileTransferProtocol) MarshalEasyJSON(w *jwriter.Writer)
- func (v FileTransferProtocol) MarshalJSON() ([]byte, error)
- func (m *FileTransferProtocol) MsgID() message.MessageID
- func (m *FileTransferProtocol) String() string
- func (m *FileTransferProtocol) Unmarshal(data []byte) error
- func (v *FileTransferProtocol) UnmarshalEasyJSON(l *jlexer.Lexer)
- func (v *FileTransferProtocol) UnmarshalJSON(data []byte) error
- type FollowTarget
- func (m *FollowTarget) Dict() map[string]interface{}
- func (m *FollowTarget) Marshal() ([]byte, error)
- func (v FollowTarget) MarshalEasyJSON(w *jwriter.Writer)
- func (v FollowTarget) MarshalJSON() ([]byte, error)
- func (m *FollowTarget) MsgID() message.MessageID
- func (m *FollowTarget) String() string
- func (m *FollowTarget) Unmarshal(data []byte) error
- func (v *FollowTarget) UnmarshalEasyJSON(l *jlexer.Lexer)
- func (v *FollowTarget) UnmarshalJSON(data []byte) error
- type GIMBAL_DEVICE_CAP_FLAGS
- type GIMBAL_DEVICE_ERROR_FLAGS
- type GIMBAL_DEVICE_FLAGS
- type GIMBAL_MANAGER_CAP_FLAGS
- type GIMBAL_MANAGER_FLAGS
- type GPS_FIX_TYPE
- type GPS_INPUT_IGNORE_FLAGS
- type GRIPPER_ACTIONS
- type GlobalPositionInt
- func (m *GlobalPositionInt) Dict() map[string]interface{}
- func (m *GlobalPositionInt) Marshal() ([]byte, error)
- func (v GlobalPositionInt) MarshalEasyJSON(w *jwriter.Writer)
- func (v GlobalPositionInt) MarshalJSON() ([]byte, error)
- func (m *GlobalPositionInt) MsgID() message.MessageID
- func (m *GlobalPositionInt) String() string
- func (m *GlobalPositionInt) Unmarshal(data []byte) error
- func (v *GlobalPositionInt) UnmarshalEasyJSON(l *jlexer.Lexer)
- func (v *GlobalPositionInt) UnmarshalJSON(data []byte) error
- type GlobalPositionIntCov
- func (m *GlobalPositionIntCov) Dict() map[string]interface{}
- func (m *GlobalPositionIntCov) Marshal() ([]byte, error)
- func (v GlobalPositionIntCov) MarshalEasyJSON(w *jwriter.Writer)
- func (v GlobalPositionIntCov) MarshalJSON() ([]byte, error)
- func (m *GlobalPositionIntCov) MsgID() message.MessageID
- func (m *GlobalPositionIntCov) String() string
- func (m *GlobalPositionIntCov) Unmarshal(data []byte) error
- func (v *GlobalPositionIntCov) UnmarshalEasyJSON(l *jlexer.Lexer)
- func (v *GlobalPositionIntCov) UnmarshalJSON(data []byte) error
- type GlobalVisionPositionEstimate
- func (m *GlobalVisionPositionEstimate) Dict() map[string]interface{}
- func (m *GlobalVisionPositionEstimate) Marshal() ([]byte, error)
- func (v GlobalVisionPositionEstimate) MarshalEasyJSON(w *jwriter.Writer)
- func (v GlobalVisionPositionEstimate) MarshalJSON() ([]byte, error)
- func (m *GlobalVisionPositionEstimate) MsgID() message.MessageID
- func (m *GlobalVisionPositionEstimate) String() string
- func (m *GlobalVisionPositionEstimate) Unmarshal(data []byte) error
- func (v *GlobalVisionPositionEstimate) UnmarshalEasyJSON(l *jlexer.Lexer)
- func (v *GlobalVisionPositionEstimate) UnmarshalJSON(data []byte) error
- type Gps2Raw
- func (m *Gps2Raw) Dict() map[string]interface{}
- func (m *Gps2Raw) Marshal() ([]byte, error)
- func (v Gps2Raw) MarshalEasyJSON(w *jwriter.Writer)
- func (v Gps2Raw) MarshalJSON() ([]byte, error)
- func (m *Gps2Raw) MsgID() message.MessageID
- func (m *Gps2Raw) String() string
- func (m *Gps2Raw) Unmarshal(data []byte) error
- func (v *Gps2Raw) UnmarshalEasyJSON(l *jlexer.Lexer)
- func (v *Gps2Raw) UnmarshalJSON(data []byte) error
- type Gps2Rtk
- func (m *Gps2Rtk) Dict() map[string]interface{}
- func (m *Gps2Rtk) Marshal() ([]byte, error)
- func (v Gps2Rtk) MarshalEasyJSON(w *jwriter.Writer)
- func (v Gps2Rtk) MarshalJSON() ([]byte, error)
- func (m *Gps2Rtk) MsgID() message.MessageID
- func (m *Gps2Rtk) String() string
- func (m *Gps2Rtk) Unmarshal(data []byte) error
- func (v *Gps2Rtk) UnmarshalEasyJSON(l *jlexer.Lexer)
- func (v *Gps2Rtk) UnmarshalJSON(data []byte) error
- type GpsGlobalOrigin
- func (m *GpsGlobalOrigin) Dict() map[string]interface{}
- func (m *GpsGlobalOrigin) Marshal() ([]byte, error)
- func (v GpsGlobalOrigin) MarshalEasyJSON(w *jwriter.Writer)
- func (v GpsGlobalOrigin) MarshalJSON() ([]byte, error)
- func (m *GpsGlobalOrigin) MsgID() message.MessageID
- func (m *GpsGlobalOrigin) String() string
- func (m *GpsGlobalOrigin) Unmarshal(data []byte) error
- func (v *GpsGlobalOrigin) UnmarshalEasyJSON(l *jlexer.Lexer)
- func (v *GpsGlobalOrigin) UnmarshalJSON(data []byte) error
- type GpsInjectData
- func (m *GpsInjectData) Dict() map[string]interface{}
- func (m *GpsInjectData) Marshal() ([]byte, error)
- func (v GpsInjectData) MarshalEasyJSON(w *jwriter.Writer)
- func (v GpsInjectData) MarshalJSON() ([]byte, error)
- func (m *GpsInjectData) MsgID() message.MessageID
- func (m *GpsInjectData) String() string
- func (m *GpsInjectData) Unmarshal(data []byte) error
- func (v *GpsInjectData) UnmarshalEasyJSON(l *jlexer.Lexer)
- func (v *GpsInjectData) UnmarshalJSON(data []byte) error
- type GpsInput
- func (m *GpsInput) Dict() map[string]interface{}
- func (m *GpsInput) Marshal() ([]byte, error)
- func (v GpsInput) MarshalEasyJSON(w *jwriter.Writer)
- func (v GpsInput) MarshalJSON() ([]byte, error)
- func (m *GpsInput) MsgID() message.MessageID
- func (m *GpsInput) String() string
- func (m *GpsInput) Unmarshal(data []byte) error
- func (v *GpsInput) UnmarshalEasyJSON(l *jlexer.Lexer)
- func (v *GpsInput) UnmarshalJSON(data []byte) error
- type GpsRawInt
- func (m *GpsRawInt) Dict() map[string]interface{}
- func (m *GpsRawInt) Marshal() ([]byte, error)
- func (v GpsRawInt) MarshalEasyJSON(w *jwriter.Writer)
- func (v GpsRawInt) MarshalJSON() ([]byte, error)
- func (m *GpsRawInt) MsgID() message.MessageID
- func (m *GpsRawInt) String() string
- func (m *GpsRawInt) Unmarshal(data []byte) error
- func (v *GpsRawInt) UnmarshalEasyJSON(l *jlexer.Lexer)
- func (v *GpsRawInt) UnmarshalJSON(data []byte) error
- type GpsRtcmData
- func (m *GpsRtcmData) Dict() map[string]interface{}
- func (m *GpsRtcmData) Marshal() ([]byte, error)
- func (v GpsRtcmData) MarshalEasyJSON(w *jwriter.Writer)
- func (v GpsRtcmData) MarshalJSON() ([]byte, error)
- func (m *GpsRtcmData) MsgID() message.MessageID
- func (m *GpsRtcmData) String() string
- func (m *GpsRtcmData) Unmarshal(data []byte) error
- func (v *GpsRtcmData) UnmarshalEasyJSON(l *jlexer.Lexer)
- func (v *GpsRtcmData) UnmarshalJSON(data []byte) error
- type GpsRtk
- func (m *GpsRtk) Dict() map[string]interface{}
- func (m *GpsRtk) Marshal() ([]byte, error)
- func (v GpsRtk) MarshalEasyJSON(w *jwriter.Writer)
- func (v GpsRtk) MarshalJSON() ([]byte, error)
- func (m *GpsRtk) MsgID() message.MessageID
- func (m *GpsRtk) String() string
- func (m *GpsRtk) Unmarshal(data []byte) error
- func (v *GpsRtk) UnmarshalEasyJSON(l *jlexer.Lexer)
- func (v *GpsRtk) UnmarshalJSON(data []byte) error
- type GpsStatus
- func (m *GpsStatus) Dict() map[string]interface{}
- func (m *GpsStatus) Marshal() ([]byte, error)
- func (v GpsStatus) MarshalEasyJSON(w *jwriter.Writer)
- func (v GpsStatus) MarshalJSON() ([]byte, error)
- func (m *GpsStatus) MsgID() message.MessageID
- func (m *GpsStatus) String() string
- func (m *GpsStatus) Unmarshal(data []byte) error
- func (v *GpsStatus) UnmarshalEasyJSON(l *jlexer.Lexer)
- func (v *GpsStatus) UnmarshalJSON(data []byte) error
- type HL_FAILURE_FLAG
- type Heartbeat
- func (m *Heartbeat) Dict() map[string]interface{}
- func (m *Heartbeat) Marshal() ([]byte, error)
- func (v Heartbeat) MarshalEasyJSON(w *jwriter.Writer)
- func (v Heartbeat) MarshalJSON() ([]byte, error)
- func (m *Heartbeat) MsgID() message.MessageID
- func (m *Heartbeat) String() string
- func (m *Heartbeat) Unmarshal(data []byte) error
- func (v *Heartbeat) UnmarshalEasyJSON(l *jlexer.Lexer)
- func (v *Heartbeat) UnmarshalJSON(data []byte) error
- type HighLatency
- func (m *HighLatency) Dict() map[string]interface{}
- func (m *HighLatency) Marshal() ([]byte, error)
- func (v HighLatency) MarshalEasyJSON(w *jwriter.Writer)
- func (v HighLatency) MarshalJSON() ([]byte, error)
- func (m *HighLatency) MsgID() message.MessageID
- func (m *HighLatency) String() string
- func (m *HighLatency) Unmarshal(data []byte) error
- func (v *HighLatency) UnmarshalEasyJSON(l *jlexer.Lexer)
- func (v *HighLatency) UnmarshalJSON(data []byte) error
- type HighLatency2
- func (m *HighLatency2) Dict() map[string]interface{}
- func (m *HighLatency2) Marshal() ([]byte, error)
- func (v HighLatency2) MarshalEasyJSON(w *jwriter.Writer)
- func (v HighLatency2) MarshalJSON() ([]byte, error)
- func (m *HighLatency2) MsgID() message.MessageID
- func (m *HighLatency2) String() string
- func (m *HighLatency2) Unmarshal(data []byte) error
- func (v *HighLatency2) UnmarshalEasyJSON(l *jlexer.Lexer)
- func (v *HighLatency2) UnmarshalJSON(data []byte) error
- type HighresImu
- func (m *HighresImu) Dict() map[string]interface{}
- func (m *HighresImu) Marshal() ([]byte, error)
- func (v HighresImu) MarshalEasyJSON(w *jwriter.Writer)
- func (v HighresImu) MarshalJSON() ([]byte, error)
- func (m *HighresImu) MsgID() message.MessageID
- func (m *HighresImu) String() string
- func (m *HighresImu) Unmarshal(data []byte) error
- func (v *HighresImu) UnmarshalEasyJSON(l *jlexer.Lexer)
- func (v *HighresImu) UnmarshalJSON(data []byte) error
- type HilActuatorControls
- func (m *HilActuatorControls) Dict() map[string]interface{}
- func (m *HilActuatorControls) Marshal() ([]byte, error)
- func (v HilActuatorControls) MarshalEasyJSON(w *jwriter.Writer)
- func (v HilActuatorControls) MarshalJSON() ([]byte, error)
- func (m *HilActuatorControls) MsgID() message.MessageID
- func (m *HilActuatorControls) String() string
- func (m *HilActuatorControls) Unmarshal(data []byte) error
- func (v *HilActuatorControls) UnmarshalEasyJSON(l *jlexer.Lexer)
- func (v *HilActuatorControls) UnmarshalJSON(data []byte) error
- type HilControls
- func (m *HilControls) Dict() map[string]interface{}
- func (m *HilControls) Marshal() ([]byte, error)
- func (v HilControls) MarshalEasyJSON(w *jwriter.Writer)
- func (v HilControls) MarshalJSON() ([]byte, error)
- func (m *HilControls) MsgID() message.MessageID
- func (m *HilControls) String() string
- func (m *HilControls) Unmarshal(data []byte) error
- func (v *HilControls) UnmarshalEasyJSON(l *jlexer.Lexer)
- func (v *HilControls) UnmarshalJSON(data []byte) error
- type HilGps
- func (m *HilGps) Dict() map[string]interface{}
- func (m *HilGps) Marshal() ([]byte, error)
- func (v HilGps) MarshalEasyJSON(w *jwriter.Writer)
- func (v HilGps) MarshalJSON() ([]byte, error)
- func (m *HilGps) MsgID() message.MessageID
- func (m *HilGps) String() string
- func (m *HilGps) Unmarshal(data []byte) error
- func (v *HilGps) UnmarshalEasyJSON(l *jlexer.Lexer)
- func (v *HilGps) UnmarshalJSON(data []byte) error
- type HilOpticalFlow
- func (m *HilOpticalFlow) Dict() map[string]interface{}
- func (m *HilOpticalFlow) Marshal() ([]byte, error)
- func (v HilOpticalFlow) MarshalEasyJSON(w *jwriter.Writer)
- func (v HilOpticalFlow) MarshalJSON() ([]byte, error)
- func (m *HilOpticalFlow) MsgID() message.MessageID
- func (m *HilOpticalFlow) String() string
- func (m *HilOpticalFlow) Unmarshal(data []byte) error
- func (v *HilOpticalFlow) UnmarshalEasyJSON(l *jlexer.Lexer)
- func (v *HilOpticalFlow) UnmarshalJSON(data []byte) error
- type HilRcInputsRaw
- func (m *HilRcInputsRaw) Dict() map[string]interface{}
- func (m *HilRcInputsRaw) Marshal() ([]byte, error)
- func (v HilRcInputsRaw) MarshalEasyJSON(w *jwriter.Writer)
- func (v HilRcInputsRaw) MarshalJSON() ([]byte, error)
- func (m *HilRcInputsRaw) MsgID() message.MessageID
- func (m *HilRcInputsRaw) String() string
- func (m *HilRcInputsRaw) Unmarshal(data []byte) error
- func (v *HilRcInputsRaw) UnmarshalEasyJSON(l *jlexer.Lexer)
- func (v *HilRcInputsRaw) UnmarshalJSON(data []byte) error
- type HilSensor
- func (m *HilSensor) Dict() map[string]interface{}
- func (m *HilSensor) Marshal() ([]byte, error)
- func (v HilSensor) MarshalEasyJSON(w *jwriter.Writer)
- func (v HilSensor) MarshalJSON() ([]byte, error)
- func (m *HilSensor) MsgID() message.MessageID
- func (m *HilSensor) String() string
- func (m *HilSensor) Unmarshal(data []byte) error
- func (v *HilSensor) UnmarshalEasyJSON(l *jlexer.Lexer)
- func (v *HilSensor) UnmarshalJSON(data []byte) error
- type HilState
- func (m *HilState) Dict() map[string]interface{}
- func (m *HilState) Marshal() ([]byte, error)
- func (v HilState) MarshalEasyJSON(w *jwriter.Writer)
- func (v HilState) MarshalJSON() ([]byte, error)
- func (m *HilState) MsgID() message.MessageID
- func (m *HilState) String() string
- func (m *HilState) Unmarshal(data []byte) error
- func (v *HilState) UnmarshalEasyJSON(l *jlexer.Lexer)
- func (v *HilState) UnmarshalJSON(data []byte) error
- type HilStateQuaternion
- func (m *HilStateQuaternion) Dict() map[string]interface{}
- func (m *HilStateQuaternion) Marshal() ([]byte, error)
- func (v HilStateQuaternion) MarshalEasyJSON(w *jwriter.Writer)
- func (v HilStateQuaternion) MarshalJSON() ([]byte, error)
- func (m *HilStateQuaternion) MsgID() message.MessageID
- func (m *HilStateQuaternion) String() string
- func (m *HilStateQuaternion) Unmarshal(data []byte) error
- func (v *HilStateQuaternion) UnmarshalEasyJSON(l *jlexer.Lexer)
- func (v *HilStateQuaternion) UnmarshalJSON(data []byte) error
- type HomePosition
- func (m *HomePosition) Dict() map[string]interface{}
- func (m *HomePosition) Marshal() ([]byte, error)
- func (v HomePosition) MarshalEasyJSON(w *jwriter.Writer)
- func (v HomePosition) MarshalJSON() ([]byte, error)
- func (m *HomePosition) MsgID() message.MessageID
- func (m *HomePosition) String() string
- func (m *HomePosition) Unmarshal(data []byte) error
- func (v *HomePosition) UnmarshalEasyJSON(l *jlexer.Lexer)
- func (v *HomePosition) UnmarshalJSON(data []byte) error
- type LANDING_TARGET_TYPE
- type LandingTarget
- func (m *LandingTarget) Dict() map[string]interface{}
- func (m *LandingTarget) Marshal() ([]byte, error)
- func (v LandingTarget) MarshalEasyJSON(w *jwriter.Writer)
- func (v LandingTarget) MarshalJSON() ([]byte, error)
- func (m *LandingTarget) MsgID() message.MessageID
- func (m *LandingTarget) String() string
- func (m *LandingTarget) Unmarshal(data []byte) error
- func (v *LandingTarget) UnmarshalEasyJSON(l *jlexer.Lexer)
- func (v *LandingTarget) UnmarshalJSON(data []byte) error
- type LinkNodeStatus
- func (m *LinkNodeStatus) Dict() map[string]interface{}
- func (m *LinkNodeStatus) Marshal() ([]byte, error)
- func (v LinkNodeStatus) MarshalEasyJSON(w *jwriter.Writer)
- func (v LinkNodeStatus) MarshalJSON() ([]byte, error)
- func (m *LinkNodeStatus) MsgID() message.MessageID
- func (m *LinkNodeStatus) String() string
- func (m *LinkNodeStatus) Unmarshal(data []byte) error
- func (v *LinkNodeStatus) UnmarshalEasyJSON(l *jlexer.Lexer)
- func (v *LinkNodeStatus) UnmarshalJSON(data []byte) error
- type LocalPositionNed
- func (m *LocalPositionNed) Dict() map[string]interface{}
- func (m *LocalPositionNed) Marshal() ([]byte, error)
- func (v LocalPositionNed) MarshalEasyJSON(w *jwriter.Writer)
- func (v LocalPositionNed) MarshalJSON() ([]byte, error)
- func (m *LocalPositionNed) MsgID() message.MessageID
- func (m *LocalPositionNed) String() string
- func (m *LocalPositionNed) Unmarshal(data []byte) error
- func (v *LocalPositionNed) UnmarshalEasyJSON(l *jlexer.Lexer)
- func (v *LocalPositionNed) UnmarshalJSON(data []byte) error
- type LocalPositionNedCov
- func (m *LocalPositionNedCov) Dict() map[string]interface{}
- func (m *LocalPositionNedCov) Marshal() ([]byte, error)
- func (v LocalPositionNedCov) MarshalEasyJSON(w *jwriter.Writer)
- func (v LocalPositionNedCov) MarshalJSON() ([]byte, error)
- func (m *LocalPositionNedCov) MsgID() message.MessageID
- func (m *LocalPositionNedCov) String() string
- func (m *LocalPositionNedCov) Unmarshal(data []byte) error
- func (v *LocalPositionNedCov) UnmarshalEasyJSON(l *jlexer.Lexer)
- func (v *LocalPositionNedCov) UnmarshalJSON(data []byte) error
- type LocalPositionNedSystemGlobalOffset
- func (m *LocalPositionNedSystemGlobalOffset) Dict() map[string]interface{}
- func (m *LocalPositionNedSystemGlobalOffset) Marshal() ([]byte, error)
- func (v LocalPositionNedSystemGlobalOffset) MarshalEasyJSON(w *jwriter.Writer)
- func (v LocalPositionNedSystemGlobalOffset) MarshalJSON() ([]byte, error)
- func (m *LocalPositionNedSystemGlobalOffset) MsgID() message.MessageID
- func (m *LocalPositionNedSystemGlobalOffset) String() string
- func (m *LocalPositionNedSystemGlobalOffset) Unmarshal(data []byte) error
- func (v *LocalPositionNedSystemGlobalOffset) UnmarshalEasyJSON(l *jlexer.Lexer)
- func (v *LocalPositionNedSystemGlobalOffset) UnmarshalJSON(data []byte) error
- type LogData
- func (m *LogData) Dict() map[string]interface{}
- func (m *LogData) Marshal() ([]byte, error)
- func (v LogData) MarshalEasyJSON(w *jwriter.Writer)
- func (v LogData) MarshalJSON() ([]byte, error)
- func (m *LogData) MsgID() message.MessageID
- func (m *LogData) String() string
- func (m *LogData) Unmarshal(data []byte) error
- func (v *LogData) UnmarshalEasyJSON(l *jlexer.Lexer)
- func (v *LogData) UnmarshalJSON(data []byte) error
- type LogEntry
- func (m *LogEntry) Dict() map[string]interface{}
- func (m *LogEntry) Marshal() ([]byte, error)
- func (v LogEntry) MarshalEasyJSON(w *jwriter.Writer)
- func (v LogEntry) MarshalJSON() ([]byte, error)
- func (m *LogEntry) MsgID() message.MessageID
- func (m *LogEntry) String() string
- func (m *LogEntry) Unmarshal(data []byte) error
- func (v *LogEntry) UnmarshalEasyJSON(l *jlexer.Lexer)
- func (v *LogEntry) UnmarshalJSON(data []byte) error
- type LogErase
- func (m *LogErase) Dict() map[string]interface{}
- func (m *LogErase) Marshal() ([]byte, error)
- func (v LogErase) MarshalEasyJSON(w *jwriter.Writer)
- func (v LogErase) MarshalJSON() ([]byte, error)
- func (m *LogErase) MsgID() message.MessageID
- func (m *LogErase) String() string
- func (m *LogErase) Unmarshal(data []byte) error
- func (v *LogErase) UnmarshalEasyJSON(l *jlexer.Lexer)
- func (v *LogErase) UnmarshalJSON(data []byte) error
- type LogRequestData
- func (m *LogRequestData) Dict() map[string]interface{}
- func (m *LogRequestData) Marshal() ([]byte, error)
- func (v LogRequestData) MarshalEasyJSON(w *jwriter.Writer)
- func (v LogRequestData) MarshalJSON() ([]byte, error)
- func (m *LogRequestData) MsgID() message.MessageID
- func (m *LogRequestData) String() string
- func (m *LogRequestData) Unmarshal(data []byte) error
- func (v *LogRequestData) UnmarshalEasyJSON(l *jlexer.Lexer)
- func (v *LogRequestData) UnmarshalJSON(data []byte) error
- type LogRequestEnd
- func (m *LogRequestEnd) Dict() map[string]interface{}
- func (m *LogRequestEnd) Marshal() ([]byte, error)
- func (v LogRequestEnd) MarshalEasyJSON(w *jwriter.Writer)
- func (v LogRequestEnd) MarshalJSON() ([]byte, error)
- func (m *LogRequestEnd) MsgID() message.MessageID
- func (m *LogRequestEnd) String() string
- func (m *LogRequestEnd) Unmarshal(data []byte) error
- func (v *LogRequestEnd) UnmarshalEasyJSON(l *jlexer.Lexer)
- func (v *LogRequestEnd) UnmarshalJSON(data []byte) error
- type LogRequestList
- func (m *LogRequestList) Dict() map[string]interface{}
- func (m *LogRequestList) Marshal() ([]byte, error)
- func (v LogRequestList) MarshalEasyJSON(w *jwriter.Writer)
- func (v LogRequestList) MarshalJSON() ([]byte, error)
- func (m *LogRequestList) MsgID() message.MessageID
- func (m *LogRequestList) String() string
- func (m *LogRequestList) Unmarshal(data []byte) error
- func (v *LogRequestList) UnmarshalEasyJSON(l *jlexer.Lexer)
- func (v *LogRequestList) UnmarshalJSON(data []byte) error
- type MAG_CAL_STATUS
- type MAVLINK_DATA_STREAM_TYPE
- type MAV_ARM_AUTH_DENIED_REASON
- type MAV_AUTOPILOT
- type MAV_BATTERY_CHARGE_STATE
- type MAV_BATTERY_FAULT
- type MAV_BATTERY_FUNCTION
- type MAV_BATTERY_MODE
- type MAV_BATTERY_TYPE
- type MAV_CMD
- type MAV_CMD_ACK
- type MAV_COLLISION_ACTION
- type MAV_COLLISION_SRC
- type MAV_COLLISION_THREAT_LEVEL
- type MAV_COMPONENT
- type MAV_DATA_STREAM
- type MAV_DISTANCE_SENSOR
- type MAV_DO_REPOSITION_FLAGS
- type MAV_ESTIMATOR_TYPE
- type MAV_FRAME
- type MAV_GENERATOR_STATUS_FLAG
- type MAV_GOTO
- type MAV_LANDED_STATE
- type MAV_MISSION_RESULT
- type MAV_MISSION_TYPE
- type MAV_MODE
- type MAV_MODE_FLAG
- type MAV_MODE_FLAG_DECODE_POSITION
- type MAV_MOUNT_MODE
- type MAV_ODID_AUTH_TYPE
- type MAV_ODID_CATEGORY_EU
- type MAV_ODID_CLASSIFICATION_TYPE
- type MAV_ODID_CLASS_EU
- type MAV_ODID_DESC_TYPE
- type MAV_ODID_HEIGHT_REF
- type MAV_ODID_HOR_ACC
- type MAV_ODID_ID_TYPE
- type MAV_ODID_OPERATOR_ID_TYPE
- type MAV_ODID_OPERATOR_LOCATION_TYPE
- type MAV_ODID_SPEED_ACC
- type MAV_ODID_STATUS
- type MAV_ODID_TIME_ACC
- type MAV_ODID_UA_TYPE
- type MAV_ODID_VER_ACC
- type MAV_PARAM_EXT_TYPE
- type MAV_PARAM_TYPE
- type MAV_POWER_STATUS
- type MAV_PROTOCOL_CAPABILITY
- type MAV_RESULT
- type MAV_ROI
- type MAV_SENSOR_ORIENTATION
- type MAV_SEVERITY
- type MAV_STATE
- type MAV_SYS_STATUS_SENSOR
- type MAV_TUNNEL_PAYLOAD_TYPE
- type MAV_TYPE
- type MAV_VTOL_STATE
- type MAV_WINCH_STATUS_FLAG
- type MOTOR_TEST_ORDER
- type MOTOR_TEST_THROTTLE_TYPE
- type MagCalReport
- func (m *MagCalReport) Dict() map[string]interface{}
- func (m *MagCalReport) Marshal() ([]byte, error)
- func (v MagCalReport) MarshalEasyJSON(w *jwriter.Writer)
- func (v MagCalReport) MarshalJSON() ([]byte, error)
- func (m *MagCalReport) MsgID() message.MessageID
- func (m *MagCalReport) String() string
- func (m *MagCalReport) Unmarshal(data []byte) error
- func (v *MagCalReport) UnmarshalEasyJSON(l *jlexer.Lexer)
- func (v *MagCalReport) UnmarshalJSON(data []byte) error
- type ManualControl
- func (m *ManualControl) Dict() map[string]interface{}
- func (m *ManualControl) Marshal() ([]byte, error)
- func (v ManualControl) MarshalEasyJSON(w *jwriter.Writer)
- func (v ManualControl) MarshalJSON() ([]byte, error)
- func (m *ManualControl) MsgID() message.MessageID
- func (m *ManualControl) String() string
- func (m *ManualControl) Unmarshal(data []byte) error
- func (v *ManualControl) UnmarshalEasyJSON(l *jlexer.Lexer)
- func (v *ManualControl) UnmarshalJSON(data []byte) error
- type ManualSetpoint
- func (m *ManualSetpoint) Dict() map[string]interface{}
- func (m *ManualSetpoint) Marshal() ([]byte, error)
- func (v ManualSetpoint) MarshalEasyJSON(w *jwriter.Writer)
- func (v ManualSetpoint) MarshalJSON() ([]byte, error)
- func (m *ManualSetpoint) MsgID() message.MessageID
- func (m *ManualSetpoint) String() string
- func (m *ManualSetpoint) Unmarshal(data []byte) error
- func (v *ManualSetpoint) UnmarshalEasyJSON(l *jlexer.Lexer)
- func (v *ManualSetpoint) UnmarshalJSON(data []byte) error
- type MemoryVect
- func (m *MemoryVect) Dict() map[string]interface{}
- func (m *MemoryVect) Marshal() ([]byte, error)
- func (v MemoryVect) MarshalEasyJSON(w *jwriter.Writer)
- func (v MemoryVect) MarshalJSON() ([]byte, error)
- func (m *MemoryVect) MsgID() message.MessageID
- func (m *MemoryVect) String() string
- func (m *MemoryVect) Unmarshal(data []byte) error
- func (v *MemoryVect) UnmarshalEasyJSON(l *jlexer.Lexer)
- func (v *MemoryVect) UnmarshalJSON(data []byte) error
- type MessageInterval
- func (m *MessageInterval) Dict() map[string]interface{}
- func (m *MessageInterval) Marshal() ([]byte, error)
- func (v MessageInterval) MarshalEasyJSON(w *jwriter.Writer)
- func (v MessageInterval) MarshalJSON() ([]byte, error)
- func (m *MessageInterval) MsgID() message.MessageID
- func (m *MessageInterval) String() string
- func (m *MessageInterval) Unmarshal(data []byte) error
- func (v *MessageInterval) UnmarshalEasyJSON(l *jlexer.Lexer)
- func (v *MessageInterval) UnmarshalJSON(data []byte) error
- type MissionAck
- func (m *MissionAck) Dict() map[string]interface{}
- func (m *MissionAck) Marshal() ([]byte, error)
- func (v MissionAck) MarshalEasyJSON(w *jwriter.Writer)
- func (v MissionAck) MarshalJSON() ([]byte, error)
- func (m *MissionAck) MsgID() message.MessageID
- func (m *MissionAck) String() string
- func (m *MissionAck) Unmarshal(data []byte) error
- func (v *MissionAck) UnmarshalEasyJSON(l *jlexer.Lexer)
- func (v *MissionAck) UnmarshalJSON(data []byte) error
- type MissionChanged
- func (m *MissionChanged) Dict() map[string]interface{}
- func (m *MissionChanged) Marshal() ([]byte, error)
- func (v MissionChanged) MarshalEasyJSON(w *jwriter.Writer)
- func (v MissionChanged) MarshalJSON() ([]byte, error)
- func (m *MissionChanged) MsgID() message.MessageID
- func (m *MissionChanged) String() string
- func (m *MissionChanged) Unmarshal(data []byte) error
- func (v *MissionChanged) UnmarshalEasyJSON(l *jlexer.Lexer)
- func (v *MissionChanged) UnmarshalJSON(data []byte) error
- type MissionClearAll
- func (m *MissionClearAll) Dict() map[string]interface{}
- func (m *MissionClearAll) Marshal() ([]byte, error)
- func (v MissionClearAll) MarshalEasyJSON(w *jwriter.Writer)
- func (v MissionClearAll) MarshalJSON() ([]byte, error)
- func (m *MissionClearAll) MsgID() message.MessageID
- func (m *MissionClearAll) String() string
- func (m *MissionClearAll) Unmarshal(data []byte) error
- func (v *MissionClearAll) UnmarshalEasyJSON(l *jlexer.Lexer)
- func (v *MissionClearAll) UnmarshalJSON(data []byte) error
- type MissionCount
- func (m *MissionCount) Dict() map[string]interface{}
- func (m *MissionCount) Marshal() ([]byte, error)
- func (v MissionCount) MarshalEasyJSON(w *jwriter.Writer)
- func (v MissionCount) MarshalJSON() ([]byte, error)
- func (m *MissionCount) MsgID() message.MessageID
- func (m *MissionCount) String() string
- func (m *MissionCount) Unmarshal(data []byte) error
- func (v *MissionCount) UnmarshalEasyJSON(l *jlexer.Lexer)
- func (v *MissionCount) UnmarshalJSON(data []byte) error
- type MissionCurrent
- func (m *MissionCurrent) Dict() map[string]interface{}
- func (m *MissionCurrent) Marshal() ([]byte, error)
- func (v MissionCurrent) MarshalEasyJSON(w *jwriter.Writer)
- func (v MissionCurrent) MarshalJSON() ([]byte, error)
- func (m *MissionCurrent) MsgID() message.MessageID
- func (m *MissionCurrent) String() string
- func (m *MissionCurrent) Unmarshal(data []byte) error
- func (v *MissionCurrent) UnmarshalEasyJSON(l *jlexer.Lexer)
- func (v *MissionCurrent) UnmarshalJSON(data []byte) error
- type MissionItem
- func (m *MissionItem) Dict() map[string]interface{}
- func (m *MissionItem) Marshal() ([]byte, error)
- func (v MissionItem) MarshalEasyJSON(w *jwriter.Writer)
- func (v MissionItem) MarshalJSON() ([]byte, error)
- func (m *MissionItem) MsgID() message.MessageID
- func (m *MissionItem) String() string
- func (m *MissionItem) Unmarshal(data []byte) error
- func (v *MissionItem) UnmarshalEasyJSON(l *jlexer.Lexer)
- func (v *MissionItem) UnmarshalJSON(data []byte) error
- type MissionItemInt
- func (m *MissionItemInt) Dict() map[string]interface{}
- func (m *MissionItemInt) Marshal() ([]byte, error)
- func (v MissionItemInt) MarshalEasyJSON(w *jwriter.Writer)
- func (v MissionItemInt) MarshalJSON() ([]byte, error)
- func (m *MissionItemInt) MsgID() message.MessageID
- func (m *MissionItemInt) String() string
- func (m *MissionItemInt) Unmarshal(data []byte) error
- func (v *MissionItemInt) UnmarshalEasyJSON(l *jlexer.Lexer)
- func (v *MissionItemInt) UnmarshalJSON(data []byte) error
- type MissionItemReached
- func (m *MissionItemReached) Dict() map[string]interface{}
- func (m *MissionItemReached) Marshal() ([]byte, error)
- func (v MissionItemReached) MarshalEasyJSON(w *jwriter.Writer)
- func (v MissionItemReached) MarshalJSON() ([]byte, error)
- func (m *MissionItemReached) MsgID() message.MessageID
- func (m *MissionItemReached) String() string
- func (m *MissionItemReached) Unmarshal(data []byte) error
- func (v *MissionItemReached) UnmarshalEasyJSON(l *jlexer.Lexer)
- func (v *MissionItemReached) UnmarshalJSON(data []byte) error
- type MissionRequest
- func (m *MissionRequest) Dict() map[string]interface{}
- func (m *MissionRequest) Marshal() ([]byte, error)
- func (v MissionRequest) MarshalEasyJSON(w *jwriter.Writer)
- func (v MissionRequest) MarshalJSON() ([]byte, error)
- func (m *MissionRequest) MsgID() message.MessageID
- func (m *MissionRequest) String() string
- func (m *MissionRequest) Unmarshal(data []byte) error
- func (v *MissionRequest) UnmarshalEasyJSON(l *jlexer.Lexer)
- func (v *MissionRequest) UnmarshalJSON(data []byte) error
- type MissionRequestInt
- func (m *MissionRequestInt) Dict() map[string]interface{}
- func (m *MissionRequestInt) Marshal() ([]byte, error)
- func (v MissionRequestInt) MarshalEasyJSON(w *jwriter.Writer)
- func (v MissionRequestInt) MarshalJSON() ([]byte, error)
- func (m *MissionRequestInt) MsgID() message.MessageID
- func (m *MissionRequestInt) String() string
- func (m *MissionRequestInt) Unmarshal(data []byte) error
- func (v *MissionRequestInt) UnmarshalEasyJSON(l *jlexer.Lexer)
- func (v *MissionRequestInt) UnmarshalJSON(data []byte) error
- type MissionRequestList
- func (m *MissionRequestList) Dict() map[string]interface{}
- func (m *MissionRequestList) Marshal() ([]byte, error)
- func (v MissionRequestList) MarshalEasyJSON(w *jwriter.Writer)
- func (v MissionRequestList) MarshalJSON() ([]byte, error)
- func (m *MissionRequestList) MsgID() message.MessageID
- func (m *MissionRequestList) String() string
- func (m *MissionRequestList) Unmarshal(data []byte) error
- func (v *MissionRequestList) UnmarshalEasyJSON(l *jlexer.Lexer)
- func (v *MissionRequestList) UnmarshalJSON(data []byte) error
- type MissionRequestPartialList
- func (m *MissionRequestPartialList) Dict() map[string]interface{}
- func (m *MissionRequestPartialList) Marshal() ([]byte, error)
- func (v MissionRequestPartialList) MarshalEasyJSON(w *jwriter.Writer)
- func (v MissionRequestPartialList) MarshalJSON() ([]byte, error)
- func (m *MissionRequestPartialList) MsgID() message.MessageID
- func (m *MissionRequestPartialList) String() string
- func (m *MissionRequestPartialList) Unmarshal(data []byte) error
- func (v *MissionRequestPartialList) UnmarshalEasyJSON(l *jlexer.Lexer)
- func (v *MissionRequestPartialList) UnmarshalJSON(data []byte) error
- type MissionSetCurrent
- func (m *MissionSetCurrent) Dict() map[string]interface{}
- func (m *MissionSetCurrent) Marshal() ([]byte, error)
- func (v MissionSetCurrent) MarshalEasyJSON(w *jwriter.Writer)
- func (v MissionSetCurrent) MarshalJSON() ([]byte, error)
- func (m *MissionSetCurrent) MsgID() message.MessageID
- func (m *MissionSetCurrent) String() string
- func (m *MissionSetCurrent) Unmarshal(data []byte) error
- func (v *MissionSetCurrent) UnmarshalEasyJSON(l *jlexer.Lexer)
- func (v *MissionSetCurrent) UnmarshalJSON(data []byte) error
- type MissionWritePartialList
- func (m *MissionWritePartialList) Dict() map[string]interface{}
- func (m *MissionWritePartialList) Marshal() ([]byte, error)
- func (v MissionWritePartialList) MarshalEasyJSON(w *jwriter.Writer)
- func (v MissionWritePartialList) MarshalJSON() ([]byte, error)
- func (m *MissionWritePartialList) MsgID() message.MessageID
- func (m *MissionWritePartialList) String() string
- func (m *MissionWritePartialList) Unmarshal(data []byte) error
- func (v *MissionWritePartialList) UnmarshalEasyJSON(l *jlexer.Lexer)
- func (v *MissionWritePartialList) UnmarshalJSON(data []byte) error
- type NamedValueFloat
- func (m *NamedValueFloat) Dict() map[string]interface{}
- func (m *NamedValueFloat) Marshal() ([]byte, error)
- func (v NamedValueFloat) MarshalEasyJSON(w *jwriter.Writer)
- func (v NamedValueFloat) MarshalJSON() ([]byte, error)
- func (m *NamedValueFloat) MsgID() message.MessageID
- func (m *NamedValueFloat) String() string
- func (m *NamedValueFloat) Unmarshal(data []byte) error
- func (v *NamedValueFloat) UnmarshalEasyJSON(l *jlexer.Lexer)
- func (v *NamedValueFloat) UnmarshalJSON(data []byte) error
- type NamedValueInt
- func (m *NamedValueInt) Dict() map[string]interface{}
- func (m *NamedValueInt) Marshal() ([]byte, error)
- func (v NamedValueInt) MarshalEasyJSON(w *jwriter.Writer)
- func (v NamedValueInt) MarshalJSON() ([]byte, error)
- func (m *NamedValueInt) MsgID() message.MessageID
- func (m *NamedValueInt) String() string
- func (m *NamedValueInt) Unmarshal(data []byte) error
- func (v *NamedValueInt) UnmarshalEasyJSON(l *jlexer.Lexer)
- func (v *NamedValueInt) UnmarshalJSON(data []byte) error
- type NavControllerOutput
- func (m *NavControllerOutput) Dict() map[string]interface{}
- func (m *NavControllerOutput) Marshal() ([]byte, error)
- func (v NavControllerOutput) MarshalEasyJSON(w *jwriter.Writer)
- func (v NavControllerOutput) MarshalJSON() ([]byte, error)
- func (m *NavControllerOutput) MsgID() message.MessageID
- func (m *NavControllerOutput) String() string
- func (m *NavControllerOutput) Unmarshal(data []byte) error
- func (v *NavControllerOutput) UnmarshalEasyJSON(l *jlexer.Lexer)
- func (v *NavControllerOutput) UnmarshalJSON(data []byte) error
- type ORBIT_YAW_BEHAVIOUR
- type OpticalFlow
- func (m *OpticalFlow) Dict() map[string]interface{}
- func (m *OpticalFlow) Marshal() ([]byte, error)
- func (v OpticalFlow) MarshalEasyJSON(w *jwriter.Writer)
- func (v OpticalFlow) MarshalJSON() ([]byte, error)
- func (m *OpticalFlow) MsgID() message.MessageID
- func (m *OpticalFlow) String() string
- func (m *OpticalFlow) Unmarshal(data []byte) error
- func (v *OpticalFlow) UnmarshalEasyJSON(l *jlexer.Lexer)
- func (v *OpticalFlow) UnmarshalJSON(data []byte) error
- type OpticalFlowRad
- func (m *OpticalFlowRad) Dict() map[string]interface{}
- func (m *OpticalFlowRad) Marshal() ([]byte, error)
- func (v OpticalFlowRad) MarshalEasyJSON(w *jwriter.Writer)
- func (v OpticalFlowRad) MarshalJSON() ([]byte, error)
- func (m *OpticalFlowRad) MsgID() message.MessageID
- func (m *OpticalFlowRad) String() string
- func (m *OpticalFlowRad) Unmarshal(data []byte) error
- func (v *OpticalFlowRad) UnmarshalEasyJSON(l *jlexer.Lexer)
- func (v *OpticalFlowRad) UnmarshalJSON(data []byte) error
- type PARACHUTE_ACTION
- type PARAM_ACK
- type PARAM_TRANSACTION_ACTION
- type PARAM_TRANSACTION_TRANSPORT
- type POSITION_TARGET_TYPEMASK
- type PRECISION_LAND_MODE
- type ParamAckTransaction
- func (m *ParamAckTransaction) Dict() map[string]interface{}
- func (m *ParamAckTransaction) Marshal() ([]byte, error)
- func (v ParamAckTransaction) MarshalEasyJSON(w *jwriter.Writer)
- func (v ParamAckTransaction) MarshalJSON() ([]byte, error)
- func (m *ParamAckTransaction) MsgID() message.MessageID
- func (m *ParamAckTransaction) String() string
- func (m *ParamAckTransaction) Unmarshal(data []byte) error
- func (v *ParamAckTransaction) UnmarshalEasyJSON(l *jlexer.Lexer)
- func (v *ParamAckTransaction) UnmarshalJSON(data []byte) error
- type ParamMapRc
- func (m *ParamMapRc) Dict() map[string]interface{}
- func (m *ParamMapRc) Marshal() ([]byte, error)
- func (v ParamMapRc) MarshalEasyJSON(w *jwriter.Writer)
- func (v ParamMapRc) MarshalJSON() ([]byte, error)
- func (m *ParamMapRc) MsgID() message.MessageID
- func (m *ParamMapRc) String() string
- func (m *ParamMapRc) Unmarshal(data []byte) error
- func (v *ParamMapRc) UnmarshalEasyJSON(l *jlexer.Lexer)
- func (v *ParamMapRc) UnmarshalJSON(data []byte) error
- type ParamRequestList
- func (m *ParamRequestList) Dict() map[string]interface{}
- func (m *ParamRequestList) Marshal() ([]byte, error)
- func (v ParamRequestList) MarshalEasyJSON(w *jwriter.Writer)
- func (v ParamRequestList) MarshalJSON() ([]byte, error)
- func (m *ParamRequestList) MsgID() message.MessageID
- func (m *ParamRequestList) String() string
- func (m *ParamRequestList) Unmarshal(data []byte) error
- func (v *ParamRequestList) UnmarshalEasyJSON(l *jlexer.Lexer)
- func (v *ParamRequestList) UnmarshalJSON(data []byte) error
- type ParamRequestRead
- func (m *ParamRequestRead) Dict() map[string]interface{}
- func (m *ParamRequestRead) Marshal() ([]byte, error)
- func (v ParamRequestRead) MarshalEasyJSON(w *jwriter.Writer)
- func (v ParamRequestRead) MarshalJSON() ([]byte, error)
- func (m *ParamRequestRead) MsgID() message.MessageID
- func (m *ParamRequestRead) String() string
- func (m *ParamRequestRead) Unmarshal(data []byte) error
- func (v *ParamRequestRead) UnmarshalEasyJSON(l *jlexer.Lexer)
- func (v *ParamRequestRead) UnmarshalJSON(data []byte) error
- type ParamSet
- func (m *ParamSet) Dict() map[string]interface{}
- func (m *ParamSet) Marshal() ([]byte, error)
- func (v ParamSet) MarshalEasyJSON(w *jwriter.Writer)
- func (v ParamSet) MarshalJSON() ([]byte, error)
- func (m *ParamSet) MsgID() message.MessageID
- func (m *ParamSet) String() string
- func (m *ParamSet) Unmarshal(data []byte) error
- func (v *ParamSet) UnmarshalEasyJSON(l *jlexer.Lexer)
- func (v *ParamSet) UnmarshalJSON(data []byte) error
- type ParamValue
- func (m *ParamValue) Dict() map[string]interface{}
- func (m *ParamValue) Marshal() ([]byte, error)
- func (v ParamValue) MarshalEasyJSON(w *jwriter.Writer)
- func (v ParamValue) MarshalJSON() ([]byte, error)
- func (m *ParamValue) MsgID() message.MessageID
- func (m *ParamValue) String() string
- func (m *ParamValue) Unmarshal(data []byte) error
- func (v *ParamValue) UnmarshalEasyJSON(l *jlexer.Lexer)
- func (v *ParamValue) UnmarshalJSON(data []byte) error
- type Ping
- func (m *Ping) Dict() map[string]interface{}
- func (m *Ping) Marshal() ([]byte, error)
- func (v Ping) MarshalEasyJSON(w *jwriter.Writer)
- func (v Ping) MarshalJSON() ([]byte, error)
- func (m *Ping) MsgID() message.MessageID
- func (m *Ping) String() string
- func (m *Ping) Unmarshal(data []byte) error
- func (v *Ping) UnmarshalEasyJSON(l *jlexer.Lexer)
- func (v *Ping) UnmarshalJSON(data []byte) error
- type PositionTargetGlobalInt
- func (m *PositionTargetGlobalInt) Dict() map[string]interface{}
- func (m *PositionTargetGlobalInt) Marshal() ([]byte, error)
- func (v PositionTargetGlobalInt) MarshalEasyJSON(w *jwriter.Writer)
- func (v PositionTargetGlobalInt) MarshalJSON() ([]byte, error)
- func (m *PositionTargetGlobalInt) MsgID() message.MessageID
- func (m *PositionTargetGlobalInt) String() string
- func (m *PositionTargetGlobalInt) Unmarshal(data []byte) error
- func (v *PositionTargetGlobalInt) UnmarshalEasyJSON(l *jlexer.Lexer)
- func (v *PositionTargetGlobalInt) UnmarshalJSON(data []byte) error
- type PositionTargetLocalNed
- func (m *PositionTargetLocalNed) Dict() map[string]interface{}
- func (m *PositionTargetLocalNed) Marshal() ([]byte, error)
- func (v PositionTargetLocalNed) MarshalEasyJSON(w *jwriter.Writer)
- func (v PositionTargetLocalNed) MarshalJSON() ([]byte, error)
- func (m *PositionTargetLocalNed) MsgID() message.MessageID
- func (m *PositionTargetLocalNed) String() string
- func (m *PositionTargetLocalNed) Unmarshal(data []byte) error
- func (v *PositionTargetLocalNed) UnmarshalEasyJSON(l *jlexer.Lexer)
- func (v *PositionTargetLocalNed) UnmarshalJSON(data []byte) error
- type PowerStatus
- func (m *PowerStatus) Dict() map[string]interface{}
- func (m *PowerStatus) Marshal() ([]byte, error)
- func (v PowerStatus) MarshalEasyJSON(w *jwriter.Writer)
- func (v PowerStatus) MarshalJSON() ([]byte, error)
- func (m *PowerStatus) MsgID() message.MessageID
- func (m *PowerStatus) String() string
- func (m *PowerStatus) Unmarshal(data []byte) error
- func (v *PowerStatus) UnmarshalEasyJSON(l *jlexer.Lexer)
- func (v *PowerStatus) UnmarshalJSON(data []byte) error
- type RC_TYPE
- type RTK_BASELINE_COORDINATE_SYSTEM
- type RadioStatus
- func (m *RadioStatus) Dict() map[string]interface{}
- func (m *RadioStatus) Marshal() ([]byte, error)
- func (v RadioStatus) MarshalEasyJSON(w *jwriter.Writer)
- func (v RadioStatus) MarshalJSON() ([]byte, error)
- func (m *RadioStatus) MsgID() message.MessageID
- func (m *RadioStatus) String() string
- func (m *RadioStatus) Unmarshal(data []byte) error
- func (v *RadioStatus) UnmarshalEasyJSON(l *jlexer.Lexer)
- func (v *RadioStatus) UnmarshalJSON(data []byte) error
- type RawImu
- func (m *RawImu) Dict() map[string]interface{}
- func (m *RawImu) Marshal() ([]byte, error)
- func (v RawImu) MarshalEasyJSON(w *jwriter.Writer)
- func (v RawImu) MarshalJSON() ([]byte, error)
- func (m *RawImu) MsgID() message.MessageID
- func (m *RawImu) String() string
- func (m *RawImu) Unmarshal(data []byte) error
- func (v *RawImu) UnmarshalEasyJSON(l *jlexer.Lexer)
- func (v *RawImu) UnmarshalJSON(data []byte) error
- type RawPressure
- func (m *RawPressure) Dict() map[string]interface{}
- func (m *RawPressure) Marshal() ([]byte, error)
- func (v RawPressure) MarshalEasyJSON(w *jwriter.Writer)
- func (v RawPressure) MarshalJSON() ([]byte, error)
- func (m *RawPressure) MsgID() message.MessageID
- func (m *RawPressure) String() string
- func (m *RawPressure) Unmarshal(data []byte) error
- func (v *RawPressure) UnmarshalEasyJSON(l *jlexer.Lexer)
- func (v *RawPressure) UnmarshalJSON(data []byte) error
- type RcChannels
- func (m *RcChannels) Dict() map[string]interface{}
- func (m *RcChannels) Marshal() ([]byte, error)
- func (v RcChannels) MarshalEasyJSON(w *jwriter.Writer)
- func (v RcChannels) MarshalJSON() ([]byte, error)
- func (m *RcChannels) MsgID() message.MessageID
- func (m *RcChannels) String() string
- func (m *RcChannels) Unmarshal(data []byte) error
- func (v *RcChannels) UnmarshalEasyJSON(l *jlexer.Lexer)
- func (v *RcChannels) UnmarshalJSON(data []byte) error
- type RcChannelsOverride
- func (m *RcChannelsOverride) Dict() map[string]interface{}
- func (m *RcChannelsOverride) Marshal() ([]byte, error)
- func (v RcChannelsOverride) MarshalEasyJSON(w *jwriter.Writer)
- func (v RcChannelsOverride) MarshalJSON() ([]byte, error)
- func (m *RcChannelsOverride) MsgID() message.MessageID
- func (m *RcChannelsOverride) String() string
- func (m *RcChannelsOverride) Unmarshal(data []byte) error
- func (v *RcChannelsOverride) UnmarshalEasyJSON(l *jlexer.Lexer)
- func (v *RcChannelsOverride) UnmarshalJSON(data []byte) error
- type RcChannelsRaw
- func (m *RcChannelsRaw) Dict() map[string]interface{}
- func (m *RcChannelsRaw) Marshal() ([]byte, error)
- func (v RcChannelsRaw) MarshalEasyJSON(w *jwriter.Writer)
- func (v RcChannelsRaw) MarshalJSON() ([]byte, error)
- func (m *RcChannelsRaw) MsgID() message.MessageID
- func (m *RcChannelsRaw) String() string
- func (m *RcChannelsRaw) Unmarshal(data []byte) error
- func (v *RcChannelsRaw) UnmarshalEasyJSON(l *jlexer.Lexer)
- func (v *RcChannelsRaw) UnmarshalJSON(data []byte) error
- type RcChannelsScaled
- func (m *RcChannelsScaled) Dict() map[string]interface{}
- func (m *RcChannelsScaled) Marshal() ([]byte, error)
- func (v RcChannelsScaled) MarshalEasyJSON(w *jwriter.Writer)
- func (v RcChannelsScaled) MarshalJSON() ([]byte, error)
- func (m *RcChannelsScaled) MsgID() message.MessageID
- func (m *RcChannelsScaled) String() string
- func (m *RcChannelsScaled) Unmarshal(data []byte) error
- func (v *RcChannelsScaled) UnmarshalEasyJSON(l *jlexer.Lexer)
- func (v *RcChannelsScaled) UnmarshalJSON(data []byte) error
- type RequestDataStream
- func (m *RequestDataStream) Dict() map[string]interface{}
- func (m *RequestDataStream) Marshal() ([]byte, error)
- func (v RequestDataStream) MarshalEasyJSON(w *jwriter.Writer)
- func (v RequestDataStream) MarshalJSON() ([]byte, error)
- func (m *RequestDataStream) MsgID() message.MessageID
- func (m *RequestDataStream) String() string
- func (m *RequestDataStream) Unmarshal(data []byte) error
- func (v *RequestDataStream) UnmarshalEasyJSON(l *jlexer.Lexer)
- func (v *RequestDataStream) UnmarshalJSON(data []byte) error
- type ResourceRequest
- func (m *ResourceRequest) Dict() map[string]interface{}
- func (m *ResourceRequest) Marshal() ([]byte, error)
- func (v ResourceRequest) MarshalEasyJSON(w *jwriter.Writer)
- func (v ResourceRequest) MarshalJSON() ([]byte, error)
- func (m *ResourceRequest) MsgID() message.MessageID
- func (m *ResourceRequest) String() string
- func (m *ResourceRequest) Unmarshal(data []byte) error
- func (v *ResourceRequest) UnmarshalEasyJSON(l *jlexer.Lexer)
- func (v *ResourceRequest) UnmarshalJSON(data []byte) error
- type SERIAL_CONTROL_DEV
- type SERIAL_CONTROL_FLAG
- type SET_FOCUS_TYPE
- type STORAGE_STATUS
- type STORAGE_TYPE
- type SafetyAllowedArea
- func (m *SafetyAllowedArea) Dict() map[string]interface{}
- func (m *SafetyAllowedArea) Marshal() ([]byte, error)
- func (v SafetyAllowedArea) MarshalEasyJSON(w *jwriter.Writer)
- func (v SafetyAllowedArea) MarshalJSON() ([]byte, error)
- func (m *SafetyAllowedArea) MsgID() message.MessageID
- func (m *SafetyAllowedArea) String() string
- func (m *SafetyAllowedArea) Unmarshal(data []byte) error
- func (v *SafetyAllowedArea) UnmarshalEasyJSON(l *jlexer.Lexer)
- func (v *SafetyAllowedArea) UnmarshalJSON(data []byte) error
- type SafetySetAllowedArea
- func (m *SafetySetAllowedArea) Dict() map[string]interface{}
- func (m *SafetySetAllowedArea) Marshal() ([]byte, error)
- func (v SafetySetAllowedArea) MarshalEasyJSON(w *jwriter.Writer)
- func (v SafetySetAllowedArea) MarshalJSON() ([]byte, error)
- func (m *SafetySetAllowedArea) MsgID() message.MessageID
- func (m *SafetySetAllowedArea) String() string
- func (m *SafetySetAllowedArea) Unmarshal(data []byte) error
- func (v *SafetySetAllowedArea) UnmarshalEasyJSON(l *jlexer.Lexer)
- func (v *SafetySetAllowedArea) UnmarshalJSON(data []byte) error
- type ScaledImu
- func (m *ScaledImu) Dict() map[string]interface{}
- func (m *ScaledImu) Marshal() ([]byte, error)
- func (v ScaledImu) MarshalEasyJSON(w *jwriter.Writer)
- func (v ScaledImu) MarshalJSON() ([]byte, error)
- func (m *ScaledImu) MsgID() message.MessageID
- func (m *ScaledImu) String() string
- func (m *ScaledImu) Unmarshal(data []byte) error
- func (v *ScaledImu) UnmarshalEasyJSON(l *jlexer.Lexer)
- func (v *ScaledImu) UnmarshalJSON(data []byte) error
- type ScaledImu2
- func (m *ScaledImu2) Dict() map[string]interface{}
- func (m *ScaledImu2) Marshal() ([]byte, error)
- func (v ScaledImu2) MarshalEasyJSON(w *jwriter.Writer)
- func (v ScaledImu2) MarshalJSON() ([]byte, error)
- func (m *ScaledImu2) MsgID() message.MessageID
- func (m *ScaledImu2) String() string
- func (m *ScaledImu2) Unmarshal(data []byte) error
- func (v *ScaledImu2) UnmarshalEasyJSON(l *jlexer.Lexer)
- func (v *ScaledImu2) UnmarshalJSON(data []byte) error
- type ScaledImu3
- func (m *ScaledImu3) Dict() map[string]interface{}
- func (m *ScaledImu3) Marshal() ([]byte, error)
- func (v ScaledImu3) MarshalEasyJSON(w *jwriter.Writer)
- func (v ScaledImu3) MarshalJSON() ([]byte, error)
- func (m *ScaledImu3) MsgID() message.MessageID
- func (m *ScaledImu3) String() string
- func (m *ScaledImu3) Unmarshal(data []byte) error
- func (v *ScaledImu3) UnmarshalEasyJSON(l *jlexer.Lexer)
- func (v *ScaledImu3) UnmarshalJSON(data []byte) error
- type ScaledPressure
- func (m *ScaledPressure) Dict() map[string]interface{}
- func (m *ScaledPressure) Marshal() ([]byte, error)
- func (v ScaledPressure) MarshalEasyJSON(w *jwriter.Writer)
- func (v ScaledPressure) MarshalJSON() ([]byte, error)
- func (m *ScaledPressure) MsgID() message.MessageID
- func (m *ScaledPressure) String() string
- func (m *ScaledPressure) Unmarshal(data []byte) error
- func (v *ScaledPressure) UnmarshalEasyJSON(l *jlexer.Lexer)
- func (v *ScaledPressure) UnmarshalJSON(data []byte) error
- type ScaledPressure2
- func (m *ScaledPressure2) Dict() map[string]interface{}
- func (m *ScaledPressure2) Marshal() ([]byte, error)
- func (v ScaledPressure2) MarshalEasyJSON(w *jwriter.Writer)
- func (v ScaledPressure2) MarshalJSON() ([]byte, error)
- func (m *ScaledPressure2) MsgID() message.MessageID
- func (m *ScaledPressure2) String() string
- func (m *ScaledPressure2) Unmarshal(data []byte) error
- func (v *ScaledPressure2) UnmarshalEasyJSON(l *jlexer.Lexer)
- func (v *ScaledPressure2) UnmarshalJSON(data []byte) error
- type ScaledPressure3
- func (m *ScaledPressure3) Dict() map[string]interface{}
- func (m *ScaledPressure3) Marshal() ([]byte, error)
- func (v ScaledPressure3) MarshalEasyJSON(w *jwriter.Writer)
- func (v ScaledPressure3) MarshalJSON() ([]byte, error)
- func (m *ScaledPressure3) MsgID() message.MessageID
- func (m *ScaledPressure3) String() string
- func (m *ScaledPressure3) Unmarshal(data []byte) error
- func (v *ScaledPressure3) UnmarshalEasyJSON(l *jlexer.Lexer)
- func (v *ScaledPressure3) UnmarshalJSON(data []byte) error
- type SerialControl
- func (m *SerialControl) Dict() map[string]interface{}
- func (m *SerialControl) Marshal() ([]byte, error)
- func (v SerialControl) MarshalEasyJSON(w *jwriter.Writer)
- func (v SerialControl) MarshalJSON() ([]byte, error)
- func (m *SerialControl) MsgID() message.MessageID
- func (m *SerialControl) String() string
- func (m *SerialControl) Unmarshal(data []byte) error
- func (v *SerialControl) UnmarshalEasyJSON(l *jlexer.Lexer)
- func (v *SerialControl) UnmarshalJSON(data []byte) error
- type ServoOutputRaw
- func (m *ServoOutputRaw) Dict() map[string]interface{}
- func (m *ServoOutputRaw) Marshal() ([]byte, error)
- func (v ServoOutputRaw) MarshalEasyJSON(w *jwriter.Writer)
- func (v ServoOutputRaw) MarshalJSON() ([]byte, error)
- func (m *ServoOutputRaw) MsgID() message.MessageID
- func (m *ServoOutputRaw) String() string
- func (m *ServoOutputRaw) Unmarshal(data []byte) error
- func (v *ServoOutputRaw) UnmarshalEasyJSON(l *jlexer.Lexer)
- func (v *ServoOutputRaw) UnmarshalJSON(data []byte) error
- type SetActuatorControlTarget
- func (m *SetActuatorControlTarget) Dict() map[string]interface{}
- func (m *SetActuatorControlTarget) Marshal() ([]byte, error)
- func (v SetActuatorControlTarget) MarshalEasyJSON(w *jwriter.Writer)
- func (v SetActuatorControlTarget) MarshalJSON() ([]byte, error)
- func (m *SetActuatorControlTarget) MsgID() message.MessageID
- func (m *SetActuatorControlTarget) String() string
- func (m *SetActuatorControlTarget) Unmarshal(data []byte) error
- func (v *SetActuatorControlTarget) UnmarshalEasyJSON(l *jlexer.Lexer)
- func (v *SetActuatorControlTarget) UnmarshalJSON(data []byte) error
- type SetAttitudeTarget
- func (m *SetAttitudeTarget) Dict() map[string]interface{}
- func (m *SetAttitudeTarget) Marshal() ([]byte, error)
- func (v SetAttitudeTarget) MarshalEasyJSON(w *jwriter.Writer)
- func (v SetAttitudeTarget) MarshalJSON() ([]byte, error)
- func (m *SetAttitudeTarget) MsgID() message.MessageID
- func (m *SetAttitudeTarget) String() string
- func (m *SetAttitudeTarget) Unmarshal(data []byte) error
- func (v *SetAttitudeTarget) UnmarshalEasyJSON(l *jlexer.Lexer)
- func (v *SetAttitudeTarget) UnmarshalJSON(data []byte) error
- type SetGpsGlobalOrigin
- func (m *SetGpsGlobalOrigin) Dict() map[string]interface{}
- func (m *SetGpsGlobalOrigin) Marshal() ([]byte, error)
- func (v SetGpsGlobalOrigin) MarshalEasyJSON(w *jwriter.Writer)
- func (v SetGpsGlobalOrigin) MarshalJSON() ([]byte, error)
- func (m *SetGpsGlobalOrigin) MsgID() message.MessageID
- func (m *SetGpsGlobalOrigin) String() string
- func (m *SetGpsGlobalOrigin) Unmarshal(data []byte) error
- func (v *SetGpsGlobalOrigin) UnmarshalEasyJSON(l *jlexer.Lexer)
- func (v *SetGpsGlobalOrigin) UnmarshalJSON(data []byte) error
- type SetHomePosition
- func (m *SetHomePosition) Dict() map[string]interface{}
- func (m *SetHomePosition) Marshal() ([]byte, error)
- func (v SetHomePosition) MarshalEasyJSON(w *jwriter.Writer)
- func (v SetHomePosition) MarshalJSON() ([]byte, error)
- func (m *SetHomePosition) MsgID() message.MessageID
- func (m *SetHomePosition) String() string
- func (m *SetHomePosition) Unmarshal(data []byte) error
- func (v *SetHomePosition) UnmarshalEasyJSON(l *jlexer.Lexer)
- func (v *SetHomePosition) UnmarshalJSON(data []byte) error
- type SetMode
- func (m *SetMode) Dict() map[string]interface{}
- func (m *SetMode) Marshal() ([]byte, error)
- func (v SetMode) MarshalEasyJSON(w *jwriter.Writer)
- func (v SetMode) MarshalJSON() ([]byte, error)
- func (m *SetMode) MsgID() message.MessageID
- func (m *SetMode) String() string
- func (m *SetMode) Unmarshal(data []byte) error
- func (v *SetMode) UnmarshalEasyJSON(l *jlexer.Lexer)
- func (v *SetMode) UnmarshalJSON(data []byte) error
- type SetPositionTargetGlobalInt
- func (m *SetPositionTargetGlobalInt) Dict() map[string]interface{}
- func (m *SetPositionTargetGlobalInt) Marshal() ([]byte, error)
- func (v SetPositionTargetGlobalInt) MarshalEasyJSON(w *jwriter.Writer)
- func (v SetPositionTargetGlobalInt) MarshalJSON() ([]byte, error)
- func (m *SetPositionTargetGlobalInt) MsgID() message.MessageID
- func (m *SetPositionTargetGlobalInt) String() string
- func (m *SetPositionTargetGlobalInt) Unmarshal(data []byte) error
- func (v *SetPositionTargetGlobalInt) UnmarshalEasyJSON(l *jlexer.Lexer)
- func (v *SetPositionTargetGlobalInt) UnmarshalJSON(data []byte) error
- type SetPositionTargetLocalNed
- func (m *SetPositionTargetLocalNed) Dict() map[string]interface{}
- func (m *SetPositionTargetLocalNed) Marshal() ([]byte, error)
- func (v SetPositionTargetLocalNed) MarshalEasyJSON(w *jwriter.Writer)
- func (v SetPositionTargetLocalNed) MarshalJSON() ([]byte, error)
- func (m *SetPositionTargetLocalNed) MsgID() message.MessageID
- func (m *SetPositionTargetLocalNed) String() string
- func (m *SetPositionTargetLocalNed) Unmarshal(data []byte) error
- func (v *SetPositionTargetLocalNed) UnmarshalEasyJSON(l *jlexer.Lexer)
- func (v *SetPositionTargetLocalNed) UnmarshalJSON(data []byte) error
- type SimState
- func (m *SimState) Dict() map[string]interface{}
- func (m *SimState) Marshal() ([]byte, error)
- func (v SimState) MarshalEasyJSON(w *jwriter.Writer)
- func (v SimState) MarshalJSON() ([]byte, error)
- func (m *SimState) MsgID() message.MessageID
- func (m *SimState) String() string
- func (m *SimState) Unmarshal(data []byte) error
- func (v *SimState) UnmarshalEasyJSON(l *jlexer.Lexer)
- func (v *SimState) UnmarshalJSON(data []byte) error
- type Statustext
- func (m *Statustext) Dict() map[string]interface{}
- func (m *Statustext) Marshal() ([]byte, error)
- func (v Statustext) MarshalEasyJSON(w *jwriter.Writer)
- func (v Statustext) MarshalJSON() ([]byte, error)
- func (m *Statustext) MsgID() message.MessageID
- func (m *Statustext) String() string
- func (m *Statustext) Unmarshal(data []byte) error
- func (v *Statustext) UnmarshalEasyJSON(l *jlexer.Lexer)
- func (v *Statustext) UnmarshalJSON(data []byte) error
- type SysStatus
- func (m *SysStatus) Dict() map[string]interface{}
- func (m *SysStatus) Marshal() ([]byte, error)
- func (v SysStatus) MarshalEasyJSON(w *jwriter.Writer)
- func (v SysStatus) MarshalJSON() ([]byte, error)
- func (m *SysStatus) MsgID() message.MessageID
- func (m *SysStatus) String() string
- func (m *SysStatus) Unmarshal(data []byte) error
- func (v *SysStatus) UnmarshalEasyJSON(l *jlexer.Lexer)
- func (v *SysStatus) UnmarshalJSON(data []byte) error
- type SystemTime
- func (m *SystemTime) Dict() map[string]interface{}
- func (m *SystemTime) Marshal() ([]byte, error)
- func (v SystemTime) MarshalEasyJSON(w *jwriter.Writer)
- func (v SystemTime) MarshalJSON() ([]byte, error)
- func (m *SystemTime) MsgID() message.MessageID
- func (m *SystemTime) String() string
- func (m *SystemTime) Unmarshal(data []byte) error
- func (v *SystemTime) UnmarshalEasyJSON(l *jlexer.Lexer)
- func (v *SystemTime) UnmarshalJSON(data []byte) error
- type TUNE_FORMAT
- type TerrainCheck
- func (m *TerrainCheck) Dict() map[string]interface{}
- func (m *TerrainCheck) Marshal() ([]byte, error)
- func (v TerrainCheck) MarshalEasyJSON(w *jwriter.Writer)
- func (v TerrainCheck) MarshalJSON() ([]byte, error)
- func (m *TerrainCheck) MsgID() message.MessageID
- func (m *TerrainCheck) String() string
- func (m *TerrainCheck) Unmarshal(data []byte) error
- func (v *TerrainCheck) UnmarshalEasyJSON(l *jlexer.Lexer)
- func (v *TerrainCheck) UnmarshalJSON(data []byte) error
- type TerrainData
- func (m *TerrainData) Dict() map[string]interface{}
- func (m *TerrainData) Marshal() ([]byte, error)
- func (v TerrainData) MarshalEasyJSON(w *jwriter.Writer)
- func (v TerrainData) MarshalJSON() ([]byte, error)
- func (m *TerrainData) MsgID() message.MessageID
- func (m *TerrainData) String() string
- func (m *TerrainData) Unmarshal(data []byte) error
- func (v *TerrainData) UnmarshalEasyJSON(l *jlexer.Lexer)
- func (v *TerrainData) UnmarshalJSON(data []byte) error
- type TerrainReport
- func (m *TerrainReport) Dict() map[string]interface{}
- func (m *TerrainReport) Marshal() ([]byte, error)
- func (v TerrainReport) MarshalEasyJSON(w *jwriter.Writer)
- func (v TerrainReport) MarshalJSON() ([]byte, error)
- func (m *TerrainReport) MsgID() message.MessageID
- func (m *TerrainReport) String() string
- func (m *TerrainReport) Unmarshal(data []byte) error
- func (v *TerrainReport) UnmarshalEasyJSON(l *jlexer.Lexer)
- func (v *TerrainReport) UnmarshalJSON(data []byte) error
- type TerrainRequest
- func (m *TerrainRequest) Dict() map[string]interface{}
- func (m *TerrainRequest) Marshal() ([]byte, error)
- func (v TerrainRequest) MarshalEasyJSON(w *jwriter.Writer)
- func (v TerrainRequest) MarshalJSON() ([]byte, error)
- func (m *TerrainRequest) MsgID() message.MessageID
- func (m *TerrainRequest) String() string
- func (m *TerrainRequest) Unmarshal(data []byte) error
- func (v *TerrainRequest) UnmarshalEasyJSON(l *jlexer.Lexer)
- func (v *TerrainRequest) UnmarshalJSON(data []byte) error
- type Timesync
- func (m *Timesync) Dict() map[string]interface{}
- func (m *Timesync) Marshal() ([]byte, error)
- func (v Timesync) MarshalEasyJSON(w *jwriter.Writer)
- func (v Timesync) MarshalJSON() ([]byte, error)
- func (m *Timesync) MsgID() message.MessageID
- func (m *Timesync) String() string
- func (m *Timesync) Unmarshal(data []byte) error
- func (v *Timesync) UnmarshalEasyJSON(l *jlexer.Lexer)
- func (v *Timesync) UnmarshalJSON(data []byte) error
- type UAVCAN_NODE_HEALTH
- type UAVCAN_NODE_MODE
- type UTM_DATA_AVAIL_FLAGS
- type UTM_FLIGHT_STATE
- type V2Extension
- func (m *V2Extension) Dict() map[string]interface{}
- func (m *V2Extension) Marshal() ([]byte, error)
- func (v V2Extension) MarshalEasyJSON(w *jwriter.Writer)
- func (v V2Extension) MarshalJSON() ([]byte, error)
- func (m *V2Extension) MsgID() message.MessageID
- func (m *V2Extension) String() string
- func (m *V2Extension) Unmarshal(data []byte) error
- func (v *V2Extension) UnmarshalEasyJSON(l *jlexer.Lexer)
- func (v *V2Extension) UnmarshalJSON(data []byte) error
- type VIDEO_STREAM_STATUS_FLAGS
- type VIDEO_STREAM_TYPE
- type VTOL_TRANSITION_HEADING
- type VfrHud
- func (m *VfrHud) Dict() map[string]interface{}
- func (m *VfrHud) Marshal() ([]byte, error)
- func (v VfrHud) MarshalEasyJSON(w *jwriter.Writer)
- func (v VfrHud) MarshalJSON() ([]byte, error)
- func (m *VfrHud) MsgID() message.MessageID
- func (m *VfrHud) String() string
- func (m *VfrHud) Unmarshal(data []byte) error
- func (v *VfrHud) UnmarshalEasyJSON(l *jlexer.Lexer)
- func (v *VfrHud) UnmarshalJSON(data []byte) error
- type Vibration
- func (m *Vibration) Dict() map[string]interface{}
- func (m *Vibration) Marshal() ([]byte, error)
- func (v Vibration) MarshalEasyJSON(w *jwriter.Writer)
- func (v Vibration) MarshalJSON() ([]byte, error)
- func (m *Vibration) MsgID() message.MessageID
- func (m *Vibration) String() string
- func (m *Vibration) Unmarshal(data []byte) error
- func (v *Vibration) UnmarshalEasyJSON(l *jlexer.Lexer)
- func (v *Vibration) UnmarshalJSON(data []byte) error
- type ViconPositionEstimate
- func (m *ViconPositionEstimate) Dict() map[string]interface{}
- func (m *ViconPositionEstimate) Marshal() ([]byte, error)
- func (v ViconPositionEstimate) MarshalEasyJSON(w *jwriter.Writer)
- func (v ViconPositionEstimate) MarshalJSON() ([]byte, error)
- func (m *ViconPositionEstimate) MsgID() message.MessageID
- func (m *ViconPositionEstimate) String() string
- func (m *ViconPositionEstimate) Unmarshal(data []byte) error
- func (v *ViconPositionEstimate) UnmarshalEasyJSON(l *jlexer.Lexer)
- func (v *ViconPositionEstimate) UnmarshalJSON(data []byte) error
- type VisionPositionEstimate
- func (m *VisionPositionEstimate) Dict() map[string]interface{}
- func (m *VisionPositionEstimate) Marshal() ([]byte, error)
- func (v VisionPositionEstimate) MarshalEasyJSON(w *jwriter.Writer)
- func (v VisionPositionEstimate) MarshalJSON() ([]byte, error)
- func (m *VisionPositionEstimate) MsgID() message.MessageID
- func (m *VisionPositionEstimate) String() string
- func (m *VisionPositionEstimate) Unmarshal(data []byte) error
- func (v *VisionPositionEstimate) UnmarshalEasyJSON(l *jlexer.Lexer)
- func (v *VisionPositionEstimate) UnmarshalJSON(data []byte) error
- type VisionSpeedEstimate
- func (m *VisionSpeedEstimate) Dict() map[string]interface{}
- func (m *VisionSpeedEstimate) Marshal() ([]byte, error)
- func (v VisionSpeedEstimate) MarshalEasyJSON(w *jwriter.Writer)
- func (v VisionSpeedEstimate) MarshalJSON() ([]byte, error)
- func (m *VisionSpeedEstimate) MsgID() message.MessageID
- func (m *VisionSpeedEstimate) String() string
- func (m *VisionSpeedEstimate) Unmarshal(data []byte) error
- func (v *VisionSpeedEstimate) UnmarshalEasyJSON(l *jlexer.Lexer)
- func (v *VisionSpeedEstimate) UnmarshalJSON(data []byte) error
- type WIFI_CONFIG_AP_MODE
- type WIFI_CONFIG_AP_RESPONSE
- type WINCH_ACTIONS
- type WindCov
- func (m *WindCov) Dict() map[string]interface{}
- func (m *WindCov) Marshal() ([]byte, error)
- func (v WindCov) MarshalEasyJSON(w *jwriter.Writer)
- func (v WindCov) MarshalJSON() ([]byte, error)
- func (m *WindCov) MsgID() message.MessageID
- func (m *WindCov) String() string
- func (m *WindCov) Unmarshal(data []byte) error
- func (v *WindCov) UnmarshalEasyJSON(l *jlexer.Lexer)
- func (v *WindCov) UnmarshalJSON(data []byte) error
Constants ¶
const ( SYS_STATUS_FIELD_ONBOARD_CONTROL_SENSORS_PRESENT = "SysStatus.OnboardControlSensorsPresent" SYS_STATUS_FIELD_ONBOARD_CONTROL_SENSORS_ENABLED = "SysStatus.OnboardControlSensorsEnabled" SYS_STATUS_FIELD_ONBOARD_CONTROL_SENSORS_HEALTH = "SysStatus.OnboardControlSensorsHealth" SYS_STATUS_FIELD_LOAD = "SysStatus.Load" SYS_STATUS_FIELD_VOLTAGE_BATTERY = "SysStatus.VoltageBattery" SYS_STATUS_FIELD_CURRENT_BATTERY = "SysStatus.CurrentBattery" SYS_STATUS_FIELD_DROP_RATE_COMM = "SysStatus.DropRateComm" SYS_STATUS_FIELD_ERRORS_COMM = "SysStatus.ErrorsComm" SYS_STATUS_FIELD_ERRORS_COUNT1 = "SysStatus.ErrorsCount1" SYS_STATUS_FIELD_ERRORS_COUNT2 = "SysStatus.ErrorsCount2" SYS_STATUS_FIELD_ERRORS_COUNT3 = "SysStatus.ErrorsCount3" SYS_STATUS_FIELD_ERRORS_COUNT4 = "SysStatus.ErrorsCount4" SYS_STATUS_FIELD_BATTERY_REMAINING = "SysStatus.BatteryRemaining" )
const ( SYSTEM_TIME_FIELD_TIME_UNIX_USEC = "SystemTime.TimeUnixUsec" SYSTEM_TIME_FIELD_TIME_BOOT_MS = "SystemTime.TimeBootMs" )
const ( PING_FIELD_TIME_USEC = "Ping.TimeUsec" PING_FIELD_SEQ = "Ping.Seq" PING_FIELD_TARGET_SYSTEM = "Ping.TargetSystem" PING_FIELD_TARGET_COMPONENT = "Ping.TargetComponent" )
const ( CHANGE_OPERATOR_CONTROL_FIELD_TARGET_SYSTEM = "ChangeOperatorControl.TargetSystem" CHANGE_OPERATOR_CONTROL_FIELD_CONTROL_REQUEST = "ChangeOperatorControl.ControlRequest" CHANGE_OPERATOR_CONTROL_FIELD_VERSION = "ChangeOperatorControl.Version" CHANGE_OPERATOR_CONTROL_FIELD_PASSKEY = "ChangeOperatorControl.Passkey" )
const ( CHANGE_OPERATOR_CONTROL_ACK_FIELD_GCS_SYSTEM_ID = "ChangeOperatorControlAck.GcsSystemID" CHANGE_OPERATOR_CONTROL_ACK_FIELD_CONTROL_REQUEST = "ChangeOperatorControlAck.ControlRequest" CHANGE_OPERATOR_CONTROL_ACK_FIELD_ACK = "ChangeOperatorControlAck.Ack" )
const ( LINK_NODE_STATUS_FIELD_TIMESTAMP = "LinkNodeStatus.Timestamp" LINK_NODE_STATUS_FIELD_TX_RATE = "LinkNodeStatus.TxRate" LINK_NODE_STATUS_FIELD_RX_RATE = "LinkNodeStatus.RxRate" LINK_NODE_STATUS_FIELD_MESSAGES_SENT = "LinkNodeStatus.MessagesSent" LINK_NODE_STATUS_FIELD_MESSAGES_RECEIVED = "LinkNodeStatus.MessagesReceived" LINK_NODE_STATUS_FIELD_MESSAGES_LOST = "LinkNodeStatus.MessagesLost" LINK_NODE_STATUS_FIELD_RX_PARSE_ERR = "LinkNodeStatus.RxParseErr" LINK_NODE_STATUS_FIELD_TX_OVERFLOWS = "LinkNodeStatus.TxOverflows" LINK_NODE_STATUS_FIELD_RX_OVERFLOWS = "LinkNodeStatus.RxOverflows" LINK_NODE_STATUS_FIELD_TX_BUF = "LinkNodeStatus.TxBuf" LINK_NODE_STATUS_FIELD_RX_BUF = "LinkNodeStatus.RxBuf" )
const ( SET_MODE_FIELD_CUSTOM_MODE = "SetMode.CustomMode" SET_MODE_FIELD_TARGET_SYSTEM = "SetMode.TargetSystem" SET_MODE_FIELD_BASE_MODE = "SetMode.BaseMode" )
const ( PARAM_ACK_TRANSACTION_FIELD_PARAM_VALUE = "ParamAckTransaction.ParamValue" PARAM_ACK_TRANSACTION_FIELD_TARGET_SYSTEM = "ParamAckTransaction.TargetSystem" PARAM_ACK_TRANSACTION_FIELD_TARGET_COMPONENT = "ParamAckTransaction.TargetComponent" PARAM_ACK_TRANSACTION_FIELD_PARAM_ID = "ParamAckTransaction.ParamID" PARAM_ACK_TRANSACTION_FIELD_PARAM_TYPE = "ParamAckTransaction.ParamType" PARAM_ACK_TRANSACTION_FIELD_PARAM_RESULT = "ParamAckTransaction.ParamResult" )
const ( PARAM_REQUEST_READ_FIELD_PARAM_INDEX = "ParamRequestRead.ParamIndex" PARAM_REQUEST_READ_FIELD_TARGET_SYSTEM = "ParamRequestRead.TargetSystem" PARAM_REQUEST_READ_FIELD_TARGET_COMPONENT = "ParamRequestRead.TargetComponent" PARAM_REQUEST_READ_FIELD_PARAM_ID = "ParamRequestRead.ParamID" )
const ( PARAM_REQUEST_LIST_FIELD_TARGET_SYSTEM = "ParamRequestList.TargetSystem" PARAM_REQUEST_LIST_FIELD_TARGET_COMPONENT = "ParamRequestList.TargetComponent" )
const ( PARAM_VALUE_FIELD_PARAM_VALUE = "ParamValue.ParamValue" PARAM_VALUE_FIELD_PARAM_COUNT = "ParamValue.ParamCount" PARAM_VALUE_FIELD_PARAM_INDEX = "ParamValue.ParamIndex" PARAM_VALUE_FIELD_PARAM_ID = "ParamValue.ParamID" PARAM_VALUE_FIELD_PARAM_TYPE = "ParamValue.ParamType" )
const ( PARAM_SET_FIELD_PARAM_VALUE = "ParamSet.ParamValue" PARAM_SET_FIELD_TARGET_SYSTEM = "ParamSet.TargetSystem" PARAM_SET_FIELD_TARGET_COMPONENT = "ParamSet.TargetComponent" PARAM_SET_FIELD_PARAM_ID = "ParamSet.ParamID" PARAM_SET_FIELD_PARAM_TYPE = "ParamSet.ParamType" )
const ( GPS_RAW_INT_FIELD_TIME_USEC = "GpsRawInt.TimeUsec" GPS_RAW_INT_FIELD_LAT = "GpsRawInt.Lat" GPS_RAW_INT_FIELD_LON = "GpsRawInt.Lon" GPS_RAW_INT_FIELD_ALT = "GpsRawInt.Alt" GPS_RAW_INT_FIELD_EPH = "GpsRawInt.Eph" GPS_RAW_INT_FIELD_EPV = "GpsRawInt.Epv" GPS_RAW_INT_FIELD_VEL = "GpsRawInt.Vel" GPS_RAW_INT_FIELD_COG = "GpsRawInt.Cog" GPS_RAW_INT_FIELD_FIX_TYPE = "GpsRawInt.FixType" GPS_RAW_INT_FIELD_SATELLITES_VISIBLE = "GpsRawInt.SatellitesVisible" )
const ( GPS_STATUS_FIELD_SATELLITES_VISIBLE = "GpsStatus.SatellitesVisible" GPS_STATUS_FIELD_SATELLITE_PRN = "GpsStatus.SatellitePrn" GPS_STATUS_FIELD_SATELLITE_USED = "GpsStatus.SatelliteUsed" GPS_STATUS_FIELD_SATELLITE_ELEVATION = "GpsStatus.SatelliteElevation" GPS_STATUS_FIELD_SATELLITE_AZIMUTH = "GpsStatus.SatelliteAzimuth" GPS_STATUS_FIELD_SATELLITE_SNR = "GpsStatus.SatelliteSnr" )
const ( SCALED_IMU_FIELD_TIME_BOOT_MS = "ScaledImu.TimeBootMs" SCALED_IMU_FIELD_XACC = "ScaledImu.Xacc" SCALED_IMU_FIELD_YACC = "ScaledImu.Yacc" SCALED_IMU_FIELD_ZACC = "ScaledImu.Zacc" SCALED_IMU_FIELD_XGYRO = "ScaledImu.Xgyro" SCALED_IMU_FIELD_YGYRO = "ScaledImu.Ygyro" SCALED_IMU_FIELD_ZGYRO = "ScaledImu.Zgyro" SCALED_IMU_FIELD_XMAG = "ScaledImu.Xmag" SCALED_IMU_FIELD_YMAG = "ScaledImu.Ymag" SCALED_IMU_FIELD_ZMAG = "ScaledImu.Zmag" )
const ( RAW_IMU_FIELD_TIME_USEC = "RawImu.TimeUsec" RAW_IMU_FIELD_XACC = "RawImu.Xacc" RAW_IMU_FIELD_YACC = "RawImu.Yacc" RAW_IMU_FIELD_ZACC = "RawImu.Zacc" RAW_IMU_FIELD_XGYRO = "RawImu.Xgyro" RAW_IMU_FIELD_YGYRO = "RawImu.Ygyro" RAW_IMU_FIELD_ZGYRO = "RawImu.Zgyro" RAW_IMU_FIELD_XMAG = "RawImu.Xmag" RAW_IMU_FIELD_YMAG = "RawImu.Ymag" RAW_IMU_FIELD_ZMAG = "RawImu.Zmag" )
const ( RAW_PRESSURE_FIELD_TIME_USEC = "RawPressure.TimeUsec" RAW_PRESSURE_FIELD_PRESS_ABS = "RawPressure.PressAbs" RAW_PRESSURE_FIELD_PRESS_DIFF1 = "RawPressure.PressDiff1" RAW_PRESSURE_FIELD_PRESS_DIFF2 = "RawPressure.PressDiff2" RAW_PRESSURE_FIELD_TEMPERATURE = "RawPressure.Temperature" )
const ( SCALED_PRESSURE_FIELD_TIME_BOOT_MS = "ScaledPressure.TimeBootMs" SCALED_PRESSURE_FIELD_PRESS_ABS = "ScaledPressure.PressAbs" SCALED_PRESSURE_FIELD_PRESS_DIFF = "ScaledPressure.PressDiff" SCALED_PRESSURE_FIELD_TEMPERATURE = "ScaledPressure.Temperature" )
const ( ATTITUDE_FIELD_TIME_BOOT_MS = "Attitude.TimeBootMs" ATTITUDE_FIELD_ROLL = "Attitude.Roll" ATTITUDE_FIELD_PITCH = "Attitude.Pitch" ATTITUDE_FIELD_YAW = "Attitude.Yaw" ATTITUDE_FIELD_ROLLSPEED = "Attitude.Rollspeed" ATTITUDE_FIELD_PITCHSPEED = "Attitude.Pitchspeed" ATTITUDE_FIELD_YAWSPEED = "Attitude.Yawspeed" )
const ( ATTITUDE_QUATERNION_FIELD_TIME_BOOT_MS = "AttitudeQuaternion.TimeBootMs" ATTITUDE_QUATERNION_FIELD_Q1 = "AttitudeQuaternion.Q1" ATTITUDE_QUATERNION_FIELD_Q2 = "AttitudeQuaternion.Q2" ATTITUDE_QUATERNION_FIELD_Q3 = "AttitudeQuaternion.Q3" ATTITUDE_QUATERNION_FIELD_Q4 = "AttitudeQuaternion.Q4" ATTITUDE_QUATERNION_FIELD_ROLLSPEED = "AttitudeQuaternion.Rollspeed" ATTITUDE_QUATERNION_FIELD_PITCHSPEED = "AttitudeQuaternion.Pitchspeed" ATTITUDE_QUATERNION_FIELD_YAWSPEED = "AttitudeQuaternion.Yawspeed" )
const ( LOCAL_POSITION_NED_FIELD_TIME_BOOT_MS = "LocalPositionNed.TimeBootMs" LOCAL_POSITION_NED_FIELD_X = "LocalPositionNed.X" LOCAL_POSITION_NED_FIELD_Y = "LocalPositionNed.Y" LOCAL_POSITION_NED_FIELD_Z = "LocalPositionNed.Z" LOCAL_POSITION_NED_FIELD_VX = "LocalPositionNed.Vx" LOCAL_POSITION_NED_FIELD_VY = "LocalPositionNed.Vy" LOCAL_POSITION_NED_FIELD_VZ = "LocalPositionNed.Vz" )
const ( GLOBAL_POSITION_INT_FIELD_TIME_BOOT_MS = "GlobalPositionInt.TimeBootMs" GLOBAL_POSITION_INT_FIELD_LAT = "GlobalPositionInt.Lat" GLOBAL_POSITION_INT_FIELD_LON = "GlobalPositionInt.Lon" GLOBAL_POSITION_INT_FIELD_ALT = "GlobalPositionInt.Alt" GLOBAL_POSITION_INT_FIELD_RELATIVE_ALT = "GlobalPositionInt.RelativeAlt" GLOBAL_POSITION_INT_FIELD_VX = "GlobalPositionInt.Vx" GLOBAL_POSITION_INT_FIELD_VY = "GlobalPositionInt.Vy" GLOBAL_POSITION_INT_FIELD_VZ = "GlobalPositionInt.Vz" GLOBAL_POSITION_INT_FIELD_HDG = "GlobalPositionInt.Hdg" )
const ( RC_CHANNELS_SCALED_FIELD_TIME_BOOT_MS = "RcChannelsScaled.TimeBootMs" RC_CHANNELS_SCALED_FIELD_CHAN1_SCALED = "RcChannelsScaled.Chan1Scaled" RC_CHANNELS_SCALED_FIELD_CHAN2_SCALED = "RcChannelsScaled.Chan2Scaled" RC_CHANNELS_SCALED_FIELD_CHAN3_SCALED = "RcChannelsScaled.Chan3Scaled" RC_CHANNELS_SCALED_FIELD_CHAN4_SCALED = "RcChannelsScaled.Chan4Scaled" RC_CHANNELS_SCALED_FIELD_CHAN5_SCALED = "RcChannelsScaled.Chan5Scaled" RC_CHANNELS_SCALED_FIELD_CHAN6_SCALED = "RcChannelsScaled.Chan6Scaled" RC_CHANNELS_SCALED_FIELD_CHAN7_SCALED = "RcChannelsScaled.Chan7Scaled" RC_CHANNELS_SCALED_FIELD_CHAN8_SCALED = "RcChannelsScaled.Chan8Scaled" RC_CHANNELS_SCALED_FIELD_PORT = "RcChannelsScaled.Port" RC_CHANNELS_SCALED_FIELD_RSSI = "RcChannelsScaled.Rssi" )
const ( RC_CHANNELS_RAW_FIELD_TIME_BOOT_MS = "RcChannelsRaw.TimeBootMs" RC_CHANNELS_RAW_FIELD_CHAN1_RAW = "RcChannelsRaw.Chan1Raw" RC_CHANNELS_RAW_FIELD_CHAN2_RAW = "RcChannelsRaw.Chan2Raw" RC_CHANNELS_RAW_FIELD_CHAN3_RAW = "RcChannelsRaw.Chan3Raw" RC_CHANNELS_RAW_FIELD_CHAN4_RAW = "RcChannelsRaw.Chan4Raw" RC_CHANNELS_RAW_FIELD_CHAN5_RAW = "RcChannelsRaw.Chan5Raw" RC_CHANNELS_RAW_FIELD_CHAN6_RAW = "RcChannelsRaw.Chan6Raw" RC_CHANNELS_RAW_FIELD_CHAN7_RAW = "RcChannelsRaw.Chan7Raw" RC_CHANNELS_RAW_FIELD_CHAN8_RAW = "RcChannelsRaw.Chan8Raw" RC_CHANNELS_RAW_FIELD_PORT = "RcChannelsRaw.Port" RC_CHANNELS_RAW_FIELD_RSSI = "RcChannelsRaw.Rssi" )
const ( SERVO_OUTPUT_RAW_FIELD_TIME_USEC = "ServoOutputRaw.TimeUsec" SERVO_OUTPUT_RAW_FIELD_SERVO1_RAW = "ServoOutputRaw.Servo1Raw" SERVO_OUTPUT_RAW_FIELD_SERVO2_RAW = "ServoOutputRaw.Servo2Raw" SERVO_OUTPUT_RAW_FIELD_SERVO3_RAW = "ServoOutputRaw.Servo3Raw" SERVO_OUTPUT_RAW_FIELD_SERVO4_RAW = "ServoOutputRaw.Servo4Raw" SERVO_OUTPUT_RAW_FIELD_SERVO5_RAW = "ServoOutputRaw.Servo5Raw" SERVO_OUTPUT_RAW_FIELD_SERVO6_RAW = "ServoOutputRaw.Servo6Raw" SERVO_OUTPUT_RAW_FIELD_SERVO7_RAW = "ServoOutputRaw.Servo7Raw" SERVO_OUTPUT_RAW_FIELD_SERVO8_RAW = "ServoOutputRaw.Servo8Raw" SERVO_OUTPUT_RAW_FIELD_PORT = "ServoOutputRaw.Port" )
const ( MISSION_REQUEST_PARTIAL_LIST_FIELD_START_INDEX = "MissionRequestPartialList.StartIndex" MISSION_REQUEST_PARTIAL_LIST_FIELD_END_INDEX = "MissionRequestPartialList.EndIndex" MISSION_REQUEST_PARTIAL_LIST_FIELD_TARGET_SYSTEM = "MissionRequestPartialList.TargetSystem" MISSION_REQUEST_PARTIAL_LIST_FIELD_TARGET_COMPONENT = "MissionRequestPartialList.TargetComponent" )
const ( MISSION_WRITE_PARTIAL_LIST_FIELD_START_INDEX = "MissionWritePartialList.StartIndex" MISSION_WRITE_PARTIAL_LIST_FIELD_END_INDEX = "MissionWritePartialList.EndIndex" MISSION_WRITE_PARTIAL_LIST_FIELD_TARGET_SYSTEM = "MissionWritePartialList.TargetSystem" MISSION_WRITE_PARTIAL_LIST_FIELD_TARGET_COMPONENT = "MissionWritePartialList.TargetComponent" )
const ( MISSION_ITEM_FIELD_PARAM1 = "MissionItem.Param1" MISSION_ITEM_FIELD_PARAM2 = "MissionItem.Param2" MISSION_ITEM_FIELD_PARAM3 = "MissionItem.Param3" MISSION_ITEM_FIELD_PARAM4 = "MissionItem.Param4" MISSION_ITEM_FIELD_X = "MissionItem.X" MISSION_ITEM_FIELD_Y = "MissionItem.Y" MISSION_ITEM_FIELD_Z = "MissionItem.Z" MISSION_ITEM_FIELD_SEQ = "MissionItem.Seq" MISSION_ITEM_FIELD_COMMAND = "MissionItem.Command" MISSION_ITEM_FIELD_TARGET_SYSTEM = "MissionItem.TargetSystem" MISSION_ITEM_FIELD_TARGET_COMPONENT = "MissionItem.TargetComponent" MISSION_ITEM_FIELD_FRAME = "MissionItem.Frame" MISSION_ITEM_FIELD_CURRENT = "MissionItem.Current" MISSION_ITEM_FIELD_AUTOCONTINUE = "MissionItem.Autocontinue" )
const ( MISSION_REQUEST_FIELD_SEQ = "MissionRequest.Seq" MISSION_REQUEST_FIELD_TARGET_SYSTEM = "MissionRequest.TargetSystem" MISSION_REQUEST_FIELD_TARGET_COMPONENT = "MissionRequest.TargetComponent" )
const ( MISSION_SET_CURRENT_FIELD_SEQ = "MissionSetCurrent.Seq" MISSION_SET_CURRENT_FIELD_TARGET_SYSTEM = "MissionSetCurrent.TargetSystem" MISSION_SET_CURRENT_FIELD_TARGET_COMPONENT = "MissionSetCurrent.TargetComponent" )
const ( MISSION_REQUEST_LIST_FIELD_TARGET_SYSTEM = "MissionRequestList.TargetSystem" MISSION_REQUEST_LIST_FIELD_TARGET_COMPONENT = "MissionRequestList.TargetComponent" )
const ( MISSION_COUNT_FIELD_COUNT = "MissionCount.Count" MISSION_COUNT_FIELD_TARGET_SYSTEM = "MissionCount.TargetSystem" MISSION_COUNT_FIELD_TARGET_COMPONENT = "MissionCount.TargetComponent" )
const ( MISSION_CLEAR_ALL_FIELD_TARGET_SYSTEM = "MissionClearAll.TargetSystem" MISSION_CLEAR_ALL_FIELD_TARGET_COMPONENT = "MissionClearAll.TargetComponent" )
const ( MISSION_ACK_FIELD_TARGET_SYSTEM = "MissionAck.TargetSystem" MISSION_ACK_FIELD_TARGET_COMPONENT = "MissionAck.TargetComponent" MISSION_ACK_FIELD_TYPE = "MissionAck.Type" )
const ( SET_GPS_GLOBAL_ORIGIN_FIELD_LATITUDE = "SetGpsGlobalOrigin.Latitude" SET_GPS_GLOBAL_ORIGIN_FIELD_LONGITUDE = "SetGpsGlobalOrigin.Longitude" SET_GPS_GLOBAL_ORIGIN_FIELD_ALTITUDE = "SetGpsGlobalOrigin.Altitude" SET_GPS_GLOBAL_ORIGIN_FIELD_TARGET_SYSTEM = "SetGpsGlobalOrigin.TargetSystem" )
const ( GPS_GLOBAL_ORIGIN_FIELD_LATITUDE = "GpsGlobalOrigin.Latitude" GPS_GLOBAL_ORIGIN_FIELD_LONGITUDE = "GpsGlobalOrigin.Longitude" GPS_GLOBAL_ORIGIN_FIELD_ALTITUDE = "GpsGlobalOrigin.Altitude" )
const ( PARAM_MAP_RC_FIELD_PARAM_VALUE0 = "ParamMapRc.ParamValue0" PARAM_MAP_RC_FIELD_SCALE = "ParamMapRc.Scale" PARAM_MAP_RC_FIELD_PARAM_VALUE_MIN = "ParamMapRc.ParamValueMin" PARAM_MAP_RC_FIELD_PARAM_VALUE_MAX = "ParamMapRc.ParamValueMax" PARAM_MAP_RC_FIELD_PARAM_INDEX = "ParamMapRc.ParamIndex" PARAM_MAP_RC_FIELD_TARGET_SYSTEM = "ParamMapRc.TargetSystem" PARAM_MAP_RC_FIELD_TARGET_COMPONENT = "ParamMapRc.TargetComponent" PARAM_MAP_RC_FIELD_PARAM_ID = "ParamMapRc.ParamID" PARAM_MAP_RC_FIELD_PARAMETER_RC_CHANNEL_INDEX = "ParamMapRc.ParameterRcChannelIndex" )
const ( MISSION_REQUEST_INT_FIELD_SEQ = "MissionRequestInt.Seq" MISSION_REQUEST_INT_FIELD_TARGET_SYSTEM = "MissionRequestInt.TargetSystem" MISSION_REQUEST_INT_FIELD_TARGET_COMPONENT = "MissionRequestInt.TargetComponent" )
const ( MISSION_CHANGED_FIELD_START_INDEX = "MissionChanged.StartIndex" MISSION_CHANGED_FIELD_END_INDEX = "MissionChanged.EndIndex" MISSION_CHANGED_FIELD_ORIGIN_SYSID = "MissionChanged.OriginSysid" MISSION_CHANGED_FIELD_ORIGIN_COMPID = "MissionChanged.OriginCompid" MISSION_CHANGED_FIELD_MISSION_TYPE = "MissionChanged.MissionType" )
const ( SAFETY_SET_ALLOWED_AREA_FIELD_P1X = "SafetySetAllowedArea.P1x" SAFETY_SET_ALLOWED_AREA_FIELD_P1Y = "SafetySetAllowedArea.P1y" SAFETY_SET_ALLOWED_AREA_FIELD_P1Z = "SafetySetAllowedArea.P1z" SAFETY_SET_ALLOWED_AREA_FIELD_P2X = "SafetySetAllowedArea.P2x" SAFETY_SET_ALLOWED_AREA_FIELD_P2Y = "SafetySetAllowedArea.P2y" SAFETY_SET_ALLOWED_AREA_FIELD_P2Z = "SafetySetAllowedArea.P2z" SAFETY_SET_ALLOWED_AREA_FIELD_TARGET_SYSTEM = "SafetySetAllowedArea.TargetSystem" SAFETY_SET_ALLOWED_AREA_FIELD_TARGET_COMPONENT = "SafetySetAllowedArea.TargetComponent" SAFETY_SET_ALLOWED_AREA_FIELD_FRAME = "SafetySetAllowedArea.Frame" )
const ( SAFETY_ALLOWED_AREA_FIELD_P1X = "SafetyAllowedArea.P1x" SAFETY_ALLOWED_AREA_FIELD_P1Y = "SafetyAllowedArea.P1y" SAFETY_ALLOWED_AREA_FIELD_P1Z = "SafetyAllowedArea.P1z" SAFETY_ALLOWED_AREA_FIELD_P2X = "SafetyAllowedArea.P2x" SAFETY_ALLOWED_AREA_FIELD_P2Y = "SafetyAllowedArea.P2y" SAFETY_ALLOWED_AREA_FIELD_P2Z = "SafetyAllowedArea.P2z" SAFETY_ALLOWED_AREA_FIELD_FRAME = "SafetyAllowedArea.Frame" )
const ( ATTITUDE_QUATERNION_COV_FIELD_TIME_USEC = "AttitudeQuaternionCov.TimeUsec" ATTITUDE_QUATERNION_COV_FIELD_Q = "AttitudeQuaternionCov.Q" ATTITUDE_QUATERNION_COV_FIELD_ROLLSPEED = "AttitudeQuaternionCov.Rollspeed" ATTITUDE_QUATERNION_COV_FIELD_PITCHSPEED = "AttitudeQuaternionCov.Pitchspeed" ATTITUDE_QUATERNION_COV_FIELD_YAWSPEED = "AttitudeQuaternionCov.Yawspeed" ATTITUDE_QUATERNION_COV_FIELD_COVARIANCE = "AttitudeQuaternionCov.Covariance" )
const ( NAV_CONTROLLER_OUTPUT_FIELD_NAV_ROLL = "NavControllerOutput.NavRoll" NAV_CONTROLLER_OUTPUT_FIELD_NAV_PITCH = "NavControllerOutput.NavPitch" NAV_CONTROLLER_OUTPUT_FIELD_ALT_ERROR = "NavControllerOutput.AltError" NAV_CONTROLLER_OUTPUT_FIELD_ASPD_ERROR = "NavControllerOutput.AspdError" NAV_CONTROLLER_OUTPUT_FIELD_XTRACK_ERROR = "NavControllerOutput.XtrackError" NAV_CONTROLLER_OUTPUT_FIELD_NAV_BEARING = "NavControllerOutput.NavBearing" NAV_CONTROLLER_OUTPUT_FIELD_TARGET_BEARING = "NavControllerOutput.TargetBearing" NAV_CONTROLLER_OUTPUT_FIELD_WP_DIST = "NavControllerOutput.WpDist" )
const ( GLOBAL_POSITION_INT_COV_FIELD_TIME_USEC = "GlobalPositionIntCov.TimeUsec" GLOBAL_POSITION_INT_COV_FIELD_LAT = "GlobalPositionIntCov.Lat" GLOBAL_POSITION_INT_COV_FIELD_LON = "GlobalPositionIntCov.Lon" GLOBAL_POSITION_INT_COV_FIELD_ALT = "GlobalPositionIntCov.Alt" GLOBAL_POSITION_INT_COV_FIELD_RELATIVE_ALT = "GlobalPositionIntCov.RelativeAlt" GLOBAL_POSITION_INT_COV_FIELD_VX = "GlobalPositionIntCov.Vx" GLOBAL_POSITION_INT_COV_FIELD_VY = "GlobalPositionIntCov.Vy" GLOBAL_POSITION_INT_COV_FIELD_VZ = "GlobalPositionIntCov.Vz" GLOBAL_POSITION_INT_COV_FIELD_COVARIANCE = "GlobalPositionIntCov.Covariance" GLOBAL_POSITION_INT_COV_FIELD_ESTIMATOR_TYPE = "GlobalPositionIntCov.EstimatorType" )
const ( LOCAL_POSITION_NED_COV_FIELD_TIME_USEC = "LocalPositionNedCov.TimeUsec" LOCAL_POSITION_NED_COV_FIELD_X = "LocalPositionNedCov.X" LOCAL_POSITION_NED_COV_FIELD_Y = "LocalPositionNedCov.Y" LOCAL_POSITION_NED_COV_FIELD_Z = "LocalPositionNedCov.Z" LOCAL_POSITION_NED_COV_FIELD_VX = "LocalPositionNedCov.Vx" LOCAL_POSITION_NED_COV_FIELD_VY = "LocalPositionNedCov.Vy" LOCAL_POSITION_NED_COV_FIELD_VZ = "LocalPositionNedCov.Vz" LOCAL_POSITION_NED_COV_FIELD_AX = "LocalPositionNedCov.Ax" LOCAL_POSITION_NED_COV_FIELD_AY = "LocalPositionNedCov.Ay" LOCAL_POSITION_NED_COV_FIELD_AZ = "LocalPositionNedCov.Az" LOCAL_POSITION_NED_COV_FIELD_COVARIANCE = "LocalPositionNedCov.Covariance" LOCAL_POSITION_NED_COV_FIELD_ESTIMATOR_TYPE = "LocalPositionNedCov.EstimatorType" )
const ( RC_CHANNELS_FIELD_TIME_BOOT_MS = "RcChannels.TimeBootMs" RC_CHANNELS_FIELD_CHAN1_RAW = "RcChannels.Chan1Raw" RC_CHANNELS_FIELD_CHAN2_RAW = "RcChannels.Chan2Raw" RC_CHANNELS_FIELD_CHAN3_RAW = "RcChannels.Chan3Raw" RC_CHANNELS_FIELD_CHAN4_RAW = "RcChannels.Chan4Raw" RC_CHANNELS_FIELD_CHAN5_RAW = "RcChannels.Chan5Raw" RC_CHANNELS_FIELD_CHAN6_RAW = "RcChannels.Chan6Raw" RC_CHANNELS_FIELD_CHAN7_RAW = "RcChannels.Chan7Raw" RC_CHANNELS_FIELD_CHAN8_RAW = "RcChannels.Chan8Raw" RC_CHANNELS_FIELD_CHAN9_RAW = "RcChannels.Chan9Raw" RC_CHANNELS_FIELD_CHAN10_RAW = "RcChannels.Chan10Raw" RC_CHANNELS_FIELD_CHAN11_RAW = "RcChannels.Chan11Raw" RC_CHANNELS_FIELD_CHAN12_RAW = "RcChannels.Chan12Raw" RC_CHANNELS_FIELD_CHAN13_RAW = "RcChannels.Chan13Raw" RC_CHANNELS_FIELD_CHAN14_RAW = "RcChannels.Chan14Raw" RC_CHANNELS_FIELD_CHAN15_RAW = "RcChannels.Chan15Raw" RC_CHANNELS_FIELD_CHAN16_RAW = "RcChannels.Chan16Raw" RC_CHANNELS_FIELD_CHAN17_RAW = "RcChannels.Chan17Raw" RC_CHANNELS_FIELD_CHAN18_RAW = "RcChannels.Chan18Raw" RC_CHANNELS_FIELD_CHANCOUNT = "RcChannels.Chancount" RC_CHANNELS_FIELD_RSSI = "RcChannels.Rssi" )
const ( REQUEST_DATA_STREAM_FIELD_REQ_MESSAGE_RATE = "RequestDataStream.ReqMessageRate" REQUEST_DATA_STREAM_FIELD_TARGET_SYSTEM = "RequestDataStream.TargetSystem" REQUEST_DATA_STREAM_FIELD_TARGET_COMPONENT = "RequestDataStream.TargetComponent" REQUEST_DATA_STREAM_FIELD_REQ_STREAM_ID = "RequestDataStream.ReqStreamID" REQUEST_DATA_STREAM_FIELD_START_STOP = "RequestDataStream.StartStop" )
const ( DATA_STREAM_FIELD_MESSAGE_RATE = "DataStream.MessageRate" DATA_STREAM_FIELD_STREAM_ID = "DataStream.StreamID" DATA_STREAM_FIELD_ON_OFF = "DataStream.OnOff" )
const ( MANUAL_CONTROL_FIELD_X = "ManualControl.X" MANUAL_CONTROL_FIELD_Y = "ManualControl.Y" MANUAL_CONTROL_FIELD_Z = "ManualControl.Z" MANUAL_CONTROL_FIELD_R = "ManualControl.R" MANUAL_CONTROL_FIELD_BUTTONS = "ManualControl.Buttons" MANUAL_CONTROL_FIELD_TARGET = "ManualControl.Target" )
const ( RC_CHANNELS_OVERRIDE_FIELD_CHAN1_RAW = "RcChannelsOverride.Chan1Raw" RC_CHANNELS_OVERRIDE_FIELD_CHAN2_RAW = "RcChannelsOverride.Chan2Raw" RC_CHANNELS_OVERRIDE_FIELD_CHAN3_RAW = "RcChannelsOverride.Chan3Raw" RC_CHANNELS_OVERRIDE_FIELD_CHAN4_RAW = "RcChannelsOverride.Chan4Raw" RC_CHANNELS_OVERRIDE_FIELD_CHAN5_RAW = "RcChannelsOverride.Chan5Raw" RC_CHANNELS_OVERRIDE_FIELD_CHAN6_RAW = "RcChannelsOverride.Chan6Raw" RC_CHANNELS_OVERRIDE_FIELD_CHAN7_RAW = "RcChannelsOverride.Chan7Raw" RC_CHANNELS_OVERRIDE_FIELD_CHAN8_RAW = "RcChannelsOverride.Chan8Raw" RC_CHANNELS_OVERRIDE_FIELD_TARGET_SYSTEM = "RcChannelsOverride.TargetSystem" RC_CHANNELS_OVERRIDE_FIELD_TARGET_COMPONENT = "RcChannelsOverride.TargetComponent" )
const ( MISSION_ITEM_INT_FIELD_PARAM1 = "MissionItemInt.Param1" MISSION_ITEM_INT_FIELD_PARAM2 = "MissionItemInt.Param2" MISSION_ITEM_INT_FIELD_PARAM3 = "MissionItemInt.Param3" MISSION_ITEM_INT_FIELD_PARAM4 = "MissionItemInt.Param4" MISSION_ITEM_INT_FIELD_X = "MissionItemInt.X" MISSION_ITEM_INT_FIELD_Y = "MissionItemInt.Y" MISSION_ITEM_INT_FIELD_Z = "MissionItemInt.Z" MISSION_ITEM_INT_FIELD_SEQ = "MissionItemInt.Seq" MISSION_ITEM_INT_FIELD_COMMAND = "MissionItemInt.Command" MISSION_ITEM_INT_FIELD_TARGET_SYSTEM = "MissionItemInt.TargetSystem" MISSION_ITEM_INT_FIELD_TARGET_COMPONENT = "MissionItemInt.TargetComponent" MISSION_ITEM_INT_FIELD_FRAME = "MissionItemInt.Frame" MISSION_ITEM_INT_FIELD_CURRENT = "MissionItemInt.Current" MISSION_ITEM_INT_FIELD_AUTOCONTINUE = "MissionItemInt.Autocontinue" )
const ( VFR_HUD_FIELD_AIRSPEED = "VfrHud.Airspeed" VFR_HUD_FIELD_GROUNDSPEED = "VfrHud.Groundspeed" VFR_HUD_FIELD_ALT = "VfrHud.Alt" VFR_HUD_FIELD_CLIMB = "VfrHud.Climb" VFR_HUD_FIELD_HEADING = "VfrHud.Heading" VFR_HUD_FIELD_THROTTLE = "VfrHud.Throttle" )
const ( COMMAND_INT_FIELD_PARAM1 = "CommandInt.Param1" COMMAND_INT_FIELD_PARAM2 = "CommandInt.Param2" COMMAND_INT_FIELD_PARAM3 = "CommandInt.Param3" COMMAND_INT_FIELD_PARAM4 = "CommandInt.Param4" COMMAND_INT_FIELD_X = "CommandInt.X" COMMAND_INT_FIELD_Y = "CommandInt.Y" COMMAND_INT_FIELD_Z = "CommandInt.Z" COMMAND_INT_FIELD_COMMAND = "CommandInt.Command" COMMAND_INT_FIELD_TARGET_SYSTEM = "CommandInt.TargetSystem" COMMAND_INT_FIELD_TARGET_COMPONENT = "CommandInt.TargetComponent" COMMAND_INT_FIELD_FRAME = "CommandInt.Frame" COMMAND_INT_FIELD_CURRENT = "CommandInt.Current" COMMAND_INT_FIELD_AUTOCONTINUE = "CommandInt.Autocontinue" )
const ( COMMAND_LONG_FIELD_PARAM1 = "CommandLong.Param1" COMMAND_LONG_FIELD_PARAM2 = "CommandLong.Param2" COMMAND_LONG_FIELD_PARAM3 = "CommandLong.Param3" COMMAND_LONG_FIELD_PARAM4 = "CommandLong.Param4" COMMAND_LONG_FIELD_PARAM5 = "CommandLong.Param5" COMMAND_LONG_FIELD_PARAM6 = "CommandLong.Param6" COMMAND_LONG_FIELD_PARAM7 = "CommandLong.Param7" COMMAND_LONG_FIELD_COMMAND = "CommandLong.Command" COMMAND_LONG_FIELD_TARGET_SYSTEM = "CommandLong.TargetSystem" COMMAND_LONG_FIELD_TARGET_COMPONENT = "CommandLong.TargetComponent" COMMAND_LONG_FIELD_CONFIRMATION = "CommandLong.Confirmation" )
const ( COMMAND_ACK_FIELD_COMMAND = "CommandAck.Command" COMMAND_ACK_FIELD_RESULT = "CommandAck.Result" )
const ( COMMAND_CANCEL_FIELD_COMMAND = "CommandCancel.Command" COMMAND_CANCEL_FIELD_TARGET_SYSTEM = "CommandCancel.TargetSystem" COMMAND_CANCEL_FIELD_TARGET_COMPONENT = "CommandCancel.TargetComponent" )
const ( MANUAL_SETPOINT_FIELD_TIME_BOOT_MS = "ManualSetpoint.TimeBootMs" MANUAL_SETPOINT_FIELD_ROLL = "ManualSetpoint.Roll" MANUAL_SETPOINT_FIELD_PITCH = "ManualSetpoint.Pitch" MANUAL_SETPOINT_FIELD_YAW = "ManualSetpoint.Yaw" MANUAL_SETPOINT_FIELD_THRUST = "ManualSetpoint.Thrust" MANUAL_SETPOINT_FIELD_MODE_SWITCH = "ManualSetpoint.ModeSwitch" MANUAL_SETPOINT_FIELD_MANUAL_OVERRIDE_SWITCH = "ManualSetpoint.ManualOverrideSwitch" )
const ( SET_ATTITUDE_TARGET_FIELD_TIME_BOOT_MS = "SetAttitudeTarget.TimeBootMs" SET_ATTITUDE_TARGET_FIELD_Q = "SetAttitudeTarget.Q" SET_ATTITUDE_TARGET_FIELD_BODY_ROLL_RATE = "SetAttitudeTarget.BodyRollRate" SET_ATTITUDE_TARGET_FIELD_BODY_PITCH_RATE = "SetAttitudeTarget.BodyPitchRate" SET_ATTITUDE_TARGET_FIELD_BODY_YAW_RATE = "SetAttitudeTarget.BodyYawRate" SET_ATTITUDE_TARGET_FIELD_THRUST = "SetAttitudeTarget.Thrust" SET_ATTITUDE_TARGET_FIELD_TARGET_SYSTEM = "SetAttitudeTarget.TargetSystem" SET_ATTITUDE_TARGET_FIELD_TARGET_COMPONENT = "SetAttitudeTarget.TargetComponent" SET_ATTITUDE_TARGET_FIELD_TYPE_MASK = "SetAttitudeTarget.TypeMask" )
const ( ATTITUDE_TARGET_FIELD_TIME_BOOT_MS = "AttitudeTarget.TimeBootMs" ATTITUDE_TARGET_FIELD_Q = "AttitudeTarget.Q" ATTITUDE_TARGET_FIELD_BODY_ROLL_RATE = "AttitudeTarget.BodyRollRate" ATTITUDE_TARGET_FIELD_BODY_PITCH_RATE = "AttitudeTarget.BodyPitchRate" ATTITUDE_TARGET_FIELD_BODY_YAW_RATE = "AttitudeTarget.BodyYawRate" ATTITUDE_TARGET_FIELD_THRUST = "AttitudeTarget.Thrust" ATTITUDE_TARGET_FIELD_TYPE_MASK = "AttitudeTarget.TypeMask" )
const ( SET_POSITION_TARGET_LOCAL_NED_FIELD_TIME_BOOT_MS = "SetPositionTargetLocalNed.TimeBootMs" SET_POSITION_TARGET_LOCAL_NED_FIELD_X = "SetPositionTargetLocalNed.X" SET_POSITION_TARGET_LOCAL_NED_FIELD_Y = "SetPositionTargetLocalNed.Y" SET_POSITION_TARGET_LOCAL_NED_FIELD_Z = "SetPositionTargetLocalNed.Z" SET_POSITION_TARGET_LOCAL_NED_FIELD_VX = "SetPositionTargetLocalNed.Vx" SET_POSITION_TARGET_LOCAL_NED_FIELD_VY = "SetPositionTargetLocalNed.Vy" SET_POSITION_TARGET_LOCAL_NED_FIELD_VZ = "SetPositionTargetLocalNed.Vz" SET_POSITION_TARGET_LOCAL_NED_FIELD_AFX = "SetPositionTargetLocalNed.Afx" SET_POSITION_TARGET_LOCAL_NED_FIELD_AFY = "SetPositionTargetLocalNed.Afy" SET_POSITION_TARGET_LOCAL_NED_FIELD_AFZ = "SetPositionTargetLocalNed.Afz" SET_POSITION_TARGET_LOCAL_NED_FIELD_YAW = "SetPositionTargetLocalNed.Yaw" SET_POSITION_TARGET_LOCAL_NED_FIELD_YAW_RATE = "SetPositionTargetLocalNed.YawRate" SET_POSITION_TARGET_LOCAL_NED_FIELD_TYPE_MASK = "SetPositionTargetLocalNed.TypeMask" SET_POSITION_TARGET_LOCAL_NED_FIELD_TARGET_SYSTEM = "SetPositionTargetLocalNed.TargetSystem" SET_POSITION_TARGET_LOCAL_NED_FIELD_TARGET_COMPONENT = "SetPositionTargetLocalNed.TargetComponent" SET_POSITION_TARGET_LOCAL_NED_FIELD_COORDINATE_FRAME = "SetPositionTargetLocalNed.CoordinateFrame" )
const ( POSITION_TARGET_LOCAL_NED_FIELD_TIME_BOOT_MS = "PositionTargetLocalNed.TimeBootMs" POSITION_TARGET_LOCAL_NED_FIELD_X = "PositionTargetLocalNed.X" POSITION_TARGET_LOCAL_NED_FIELD_Y = "PositionTargetLocalNed.Y" POSITION_TARGET_LOCAL_NED_FIELD_Z = "PositionTargetLocalNed.Z" POSITION_TARGET_LOCAL_NED_FIELD_VX = "PositionTargetLocalNed.Vx" POSITION_TARGET_LOCAL_NED_FIELD_VY = "PositionTargetLocalNed.Vy" POSITION_TARGET_LOCAL_NED_FIELD_VZ = "PositionTargetLocalNed.Vz" POSITION_TARGET_LOCAL_NED_FIELD_AFX = "PositionTargetLocalNed.Afx" POSITION_TARGET_LOCAL_NED_FIELD_AFY = "PositionTargetLocalNed.Afy" POSITION_TARGET_LOCAL_NED_FIELD_AFZ = "PositionTargetLocalNed.Afz" POSITION_TARGET_LOCAL_NED_FIELD_YAW = "PositionTargetLocalNed.Yaw" POSITION_TARGET_LOCAL_NED_FIELD_YAW_RATE = "PositionTargetLocalNed.YawRate" POSITION_TARGET_LOCAL_NED_FIELD_TYPE_MASK = "PositionTargetLocalNed.TypeMask" POSITION_TARGET_LOCAL_NED_FIELD_COORDINATE_FRAME = "PositionTargetLocalNed.CoordinateFrame" )
const ( SET_POSITION_TARGET_GLOBAL_INT_FIELD_TIME_BOOT_MS = "SetPositionTargetGlobalInt.TimeBootMs" SET_POSITION_TARGET_GLOBAL_INT_FIELD_LAT_INT = "SetPositionTargetGlobalInt.LatInt" SET_POSITION_TARGET_GLOBAL_INT_FIELD_LON_INT = "SetPositionTargetGlobalInt.LonInt" SET_POSITION_TARGET_GLOBAL_INT_FIELD_ALT = "SetPositionTargetGlobalInt.Alt" SET_POSITION_TARGET_GLOBAL_INT_FIELD_VX = "SetPositionTargetGlobalInt.Vx" SET_POSITION_TARGET_GLOBAL_INT_FIELD_VY = "SetPositionTargetGlobalInt.Vy" SET_POSITION_TARGET_GLOBAL_INT_FIELD_VZ = "SetPositionTargetGlobalInt.Vz" SET_POSITION_TARGET_GLOBAL_INT_FIELD_AFX = "SetPositionTargetGlobalInt.Afx" SET_POSITION_TARGET_GLOBAL_INT_FIELD_AFY = "SetPositionTargetGlobalInt.Afy" SET_POSITION_TARGET_GLOBAL_INT_FIELD_AFZ = "SetPositionTargetGlobalInt.Afz" SET_POSITION_TARGET_GLOBAL_INT_FIELD_YAW = "SetPositionTargetGlobalInt.Yaw" SET_POSITION_TARGET_GLOBAL_INT_FIELD_YAW_RATE = "SetPositionTargetGlobalInt.YawRate" SET_POSITION_TARGET_GLOBAL_INT_FIELD_TYPE_MASK = "SetPositionTargetGlobalInt.TypeMask" SET_POSITION_TARGET_GLOBAL_INT_FIELD_TARGET_SYSTEM = "SetPositionTargetGlobalInt.TargetSystem" SET_POSITION_TARGET_GLOBAL_INT_FIELD_TARGET_COMPONENT = "SetPositionTargetGlobalInt.TargetComponent" SET_POSITION_TARGET_GLOBAL_INT_FIELD_COORDINATE_FRAME = "SetPositionTargetGlobalInt.CoordinateFrame" )
const ( POSITION_TARGET_GLOBAL_INT_FIELD_TIME_BOOT_MS = "PositionTargetGlobalInt.TimeBootMs" POSITION_TARGET_GLOBAL_INT_FIELD_LAT_INT = "PositionTargetGlobalInt.LatInt" POSITION_TARGET_GLOBAL_INT_FIELD_LON_INT = "PositionTargetGlobalInt.LonInt" POSITION_TARGET_GLOBAL_INT_FIELD_ALT = "PositionTargetGlobalInt.Alt" POSITION_TARGET_GLOBAL_INT_FIELD_VX = "PositionTargetGlobalInt.Vx" POSITION_TARGET_GLOBAL_INT_FIELD_VY = "PositionTargetGlobalInt.Vy" POSITION_TARGET_GLOBAL_INT_FIELD_VZ = "PositionTargetGlobalInt.Vz" POSITION_TARGET_GLOBAL_INT_FIELD_AFX = "PositionTargetGlobalInt.Afx" POSITION_TARGET_GLOBAL_INT_FIELD_AFY = "PositionTargetGlobalInt.Afy" POSITION_TARGET_GLOBAL_INT_FIELD_AFZ = "PositionTargetGlobalInt.Afz" POSITION_TARGET_GLOBAL_INT_FIELD_YAW = "PositionTargetGlobalInt.Yaw" POSITION_TARGET_GLOBAL_INT_FIELD_YAW_RATE = "PositionTargetGlobalInt.YawRate" POSITION_TARGET_GLOBAL_INT_FIELD_TYPE_MASK = "PositionTargetGlobalInt.TypeMask" POSITION_TARGET_GLOBAL_INT_FIELD_COORDINATE_FRAME = "PositionTargetGlobalInt.CoordinateFrame" )
const ( LOCAL_POSITION_NED_SYSTEM_GLOBAL_OFFSET_FIELD_TIME_BOOT_MS = "LocalPositionNedSystemGlobalOffset.TimeBootMs" LOCAL_POSITION_NED_SYSTEM_GLOBAL_OFFSET_FIELD_X = "LocalPositionNedSystemGlobalOffset.X" LOCAL_POSITION_NED_SYSTEM_GLOBAL_OFFSET_FIELD_Y = "LocalPositionNedSystemGlobalOffset.Y" LOCAL_POSITION_NED_SYSTEM_GLOBAL_OFFSET_FIELD_Z = "LocalPositionNedSystemGlobalOffset.Z" LOCAL_POSITION_NED_SYSTEM_GLOBAL_OFFSET_FIELD_ROLL = "LocalPositionNedSystemGlobalOffset.Roll" LOCAL_POSITION_NED_SYSTEM_GLOBAL_OFFSET_FIELD_PITCH = "LocalPositionNedSystemGlobalOffset.Pitch" LOCAL_POSITION_NED_SYSTEM_GLOBAL_OFFSET_FIELD_YAW = "LocalPositionNedSystemGlobalOffset.Yaw" )
const ( HIL_STATE_FIELD_TIME_USEC = "HilState.TimeUsec" HIL_STATE_FIELD_ROLL = "HilState.Roll" HIL_STATE_FIELD_PITCH = "HilState.Pitch" HIL_STATE_FIELD_YAW = "HilState.Yaw" HIL_STATE_FIELD_ROLLSPEED = "HilState.Rollspeed" HIL_STATE_FIELD_PITCHSPEED = "HilState.Pitchspeed" HIL_STATE_FIELD_YAWSPEED = "HilState.Yawspeed" HIL_STATE_FIELD_LAT = "HilState.Lat" HIL_STATE_FIELD_LON = "HilState.Lon" HIL_STATE_FIELD_ALT = "HilState.Alt" HIL_STATE_FIELD_VX = "HilState.Vx" HIL_STATE_FIELD_VY = "HilState.Vy" HIL_STATE_FIELD_VZ = "HilState.Vz" HIL_STATE_FIELD_XACC = "HilState.Xacc" HIL_STATE_FIELD_YACC = "HilState.Yacc" HIL_STATE_FIELD_ZACC = "HilState.Zacc" )
const ( HIL_CONTROLS_FIELD_TIME_USEC = "HilControls.TimeUsec" HIL_CONTROLS_FIELD_ROLL_AILERONS = "HilControls.RollAilerons" HIL_CONTROLS_FIELD_PITCH_ELEVATOR = "HilControls.PitchElevator" HIL_CONTROLS_FIELD_YAW_RUDDER = "HilControls.YawRudder" HIL_CONTROLS_FIELD_THROTTLE = "HilControls.Throttle" HIL_CONTROLS_FIELD_AUX1 = "HilControls.Aux1" HIL_CONTROLS_FIELD_AUX2 = "HilControls.Aux2" HIL_CONTROLS_FIELD_AUX3 = "HilControls.Aux3" HIL_CONTROLS_FIELD_AUX4 = "HilControls.Aux4" HIL_CONTROLS_FIELD_MODE = "HilControls.Mode" HIL_CONTROLS_FIELD_NAV_MODE = "HilControls.NavMode" )
const ( HIL_RC_INPUTS_RAW_FIELD_TIME_USEC = "HilRcInputsRaw.TimeUsec" HIL_RC_INPUTS_RAW_FIELD_CHAN1_RAW = "HilRcInputsRaw.Chan1Raw" HIL_RC_INPUTS_RAW_FIELD_CHAN2_RAW = "HilRcInputsRaw.Chan2Raw" HIL_RC_INPUTS_RAW_FIELD_CHAN3_RAW = "HilRcInputsRaw.Chan3Raw" HIL_RC_INPUTS_RAW_FIELD_CHAN4_RAW = "HilRcInputsRaw.Chan4Raw" HIL_RC_INPUTS_RAW_FIELD_CHAN5_RAW = "HilRcInputsRaw.Chan5Raw" HIL_RC_INPUTS_RAW_FIELD_CHAN6_RAW = "HilRcInputsRaw.Chan6Raw" HIL_RC_INPUTS_RAW_FIELD_CHAN7_RAW = "HilRcInputsRaw.Chan7Raw" HIL_RC_INPUTS_RAW_FIELD_CHAN8_RAW = "HilRcInputsRaw.Chan8Raw" HIL_RC_INPUTS_RAW_FIELD_CHAN9_RAW = "HilRcInputsRaw.Chan9Raw" HIL_RC_INPUTS_RAW_FIELD_CHAN10_RAW = "HilRcInputsRaw.Chan10Raw" HIL_RC_INPUTS_RAW_FIELD_CHAN11_RAW = "HilRcInputsRaw.Chan11Raw" HIL_RC_INPUTS_RAW_FIELD_CHAN12_RAW = "HilRcInputsRaw.Chan12Raw" HIL_RC_INPUTS_RAW_FIELD_RSSI = "HilRcInputsRaw.Rssi" )
const ( HIL_ACTUATOR_CONTROLS_FIELD_TIME_USEC = "HilActuatorControls.TimeUsec" HIL_ACTUATOR_CONTROLS_FIELD_FLAGS = "HilActuatorControls.Flags" HIL_ACTUATOR_CONTROLS_FIELD_CONTROLS = "HilActuatorControls.Controls" HIL_ACTUATOR_CONTROLS_FIELD_MODE = "HilActuatorControls.Mode" )
const ( OPTICAL_FLOW_FIELD_TIME_USEC = "OpticalFlow.TimeUsec" OPTICAL_FLOW_FIELD_FLOW_COMP_M_X = "OpticalFlow.FlowCompMX" OPTICAL_FLOW_FIELD_FLOW_COMP_M_Y = "OpticalFlow.FlowCompMY" OPTICAL_FLOW_FIELD_GROUND_DISTANCE = "OpticalFlow.GroundDistance" OPTICAL_FLOW_FIELD_FLOW_X = "OpticalFlow.FlowX" OPTICAL_FLOW_FIELD_FLOW_Y = "OpticalFlow.FlowY" OPTICAL_FLOW_FIELD_SENSOR_ID = "OpticalFlow.SensorID" OPTICAL_FLOW_FIELD_QUALITY = "OpticalFlow.Quality" )
const ( GLOBAL_VISION_POSITION_ESTIMATE_FIELD_USEC = "GlobalVisionPositionEstimate.Usec" GLOBAL_VISION_POSITION_ESTIMATE_FIELD_X = "GlobalVisionPositionEstimate.X" GLOBAL_VISION_POSITION_ESTIMATE_FIELD_Y = "GlobalVisionPositionEstimate.Y" GLOBAL_VISION_POSITION_ESTIMATE_FIELD_Z = "GlobalVisionPositionEstimate.Z" GLOBAL_VISION_POSITION_ESTIMATE_FIELD_ROLL = "GlobalVisionPositionEstimate.Roll" GLOBAL_VISION_POSITION_ESTIMATE_FIELD_PITCH = "GlobalVisionPositionEstimate.Pitch" GLOBAL_VISION_POSITION_ESTIMATE_FIELD_YAW = "GlobalVisionPositionEstimate.Yaw" )
const ( VISION_POSITION_ESTIMATE_FIELD_USEC = "VisionPositionEstimate.Usec" VISION_POSITION_ESTIMATE_FIELD_X = "VisionPositionEstimate.X" VISION_POSITION_ESTIMATE_FIELD_Y = "VisionPositionEstimate.Y" VISION_POSITION_ESTIMATE_FIELD_Z = "VisionPositionEstimate.Z" VISION_POSITION_ESTIMATE_FIELD_ROLL = "VisionPositionEstimate.Roll" VISION_POSITION_ESTIMATE_FIELD_PITCH = "VisionPositionEstimate.Pitch" VISION_POSITION_ESTIMATE_FIELD_YAW = "VisionPositionEstimate.Yaw" )
const ( VISION_SPEED_ESTIMATE_FIELD_USEC = "VisionSpeedEstimate.Usec" VISION_SPEED_ESTIMATE_FIELD_X = "VisionSpeedEstimate.X" VISION_SPEED_ESTIMATE_FIELD_Y = "VisionSpeedEstimate.Y" VISION_SPEED_ESTIMATE_FIELD_Z = "VisionSpeedEstimate.Z" )
const ( VICON_POSITION_ESTIMATE_FIELD_USEC = "ViconPositionEstimate.Usec" VICON_POSITION_ESTIMATE_FIELD_X = "ViconPositionEstimate.X" VICON_POSITION_ESTIMATE_FIELD_Y = "ViconPositionEstimate.Y" VICON_POSITION_ESTIMATE_FIELD_Z = "ViconPositionEstimate.Z" VICON_POSITION_ESTIMATE_FIELD_ROLL = "ViconPositionEstimate.Roll" VICON_POSITION_ESTIMATE_FIELD_PITCH = "ViconPositionEstimate.Pitch" VICON_POSITION_ESTIMATE_FIELD_YAW = "ViconPositionEstimate.Yaw" )
const ( HIGHRES_IMU_FIELD_TIME_USEC = "HighresImu.TimeUsec" HIGHRES_IMU_FIELD_XACC = "HighresImu.Xacc" HIGHRES_IMU_FIELD_YACC = "HighresImu.Yacc" HIGHRES_IMU_FIELD_ZACC = "HighresImu.Zacc" HIGHRES_IMU_FIELD_XGYRO = "HighresImu.Xgyro" HIGHRES_IMU_FIELD_YGYRO = "HighresImu.Ygyro" HIGHRES_IMU_FIELD_ZGYRO = "HighresImu.Zgyro" HIGHRES_IMU_FIELD_XMAG = "HighresImu.Xmag" HIGHRES_IMU_FIELD_YMAG = "HighresImu.Ymag" HIGHRES_IMU_FIELD_ZMAG = "HighresImu.Zmag" HIGHRES_IMU_FIELD_ABS_PRESSURE = "HighresImu.AbsPressure" HIGHRES_IMU_FIELD_DIFF_PRESSURE = "HighresImu.DiffPressure" HIGHRES_IMU_FIELD_PRESSURE_ALT = "HighresImu.PressureAlt" HIGHRES_IMU_FIELD_TEMPERATURE = "HighresImu.Temperature" HIGHRES_IMU_FIELD_FIELDS_UPDATED = "HighresImu.FieldsUpdated" )
const ( OPTICAL_FLOW_RAD_FIELD_TIME_USEC = "OpticalFlowRad.TimeUsec" OPTICAL_FLOW_RAD_FIELD_INTEGRATION_TIME_US = "OpticalFlowRad.IntegrationTimeUs" OPTICAL_FLOW_RAD_FIELD_INTEGRATED_X = "OpticalFlowRad.IntegratedX" OPTICAL_FLOW_RAD_FIELD_INTEGRATED_Y = "OpticalFlowRad.IntegratedY" OPTICAL_FLOW_RAD_FIELD_INTEGRATED_XGYRO = "OpticalFlowRad.IntegratedXgyro" OPTICAL_FLOW_RAD_FIELD_INTEGRATED_YGYRO = "OpticalFlowRad.IntegratedYgyro" OPTICAL_FLOW_RAD_FIELD_INTEGRATED_ZGYRO = "OpticalFlowRad.IntegratedZgyro" OPTICAL_FLOW_RAD_FIELD_TIME_DELTA_DISTANCE_US = "OpticalFlowRad.TimeDeltaDistanceUs" OPTICAL_FLOW_RAD_FIELD_DISTANCE = "OpticalFlowRad.Distance" OPTICAL_FLOW_RAD_FIELD_TEMPERATURE = "OpticalFlowRad.Temperature" OPTICAL_FLOW_RAD_FIELD_SENSOR_ID = "OpticalFlowRad.SensorID" OPTICAL_FLOW_RAD_FIELD_QUALITY = "OpticalFlowRad.Quality" )
const ( HIL_SENSOR_FIELD_TIME_USEC = "HilSensor.TimeUsec" HIL_SENSOR_FIELD_XACC = "HilSensor.Xacc" HIL_SENSOR_FIELD_YACC = "HilSensor.Yacc" HIL_SENSOR_FIELD_ZACC = "HilSensor.Zacc" HIL_SENSOR_FIELD_XGYRO = "HilSensor.Xgyro" HIL_SENSOR_FIELD_YGYRO = "HilSensor.Ygyro" HIL_SENSOR_FIELD_ZGYRO = "HilSensor.Zgyro" HIL_SENSOR_FIELD_XMAG = "HilSensor.Xmag" HIL_SENSOR_FIELD_YMAG = "HilSensor.Ymag" HIL_SENSOR_FIELD_ZMAG = "HilSensor.Zmag" HIL_SENSOR_FIELD_ABS_PRESSURE = "HilSensor.AbsPressure" HIL_SENSOR_FIELD_DIFF_PRESSURE = "HilSensor.DiffPressure" HIL_SENSOR_FIELD_PRESSURE_ALT = "HilSensor.PressureAlt" HIL_SENSOR_FIELD_TEMPERATURE = "HilSensor.Temperature" HIL_SENSOR_FIELD_FIELDS_UPDATED = "HilSensor.FieldsUpdated" )
const ( SIM_STATE_FIELD_Q1 = "SimState.Q1" SIM_STATE_FIELD_Q2 = "SimState.Q2" SIM_STATE_FIELD_Q3 = "SimState.Q3" SIM_STATE_FIELD_Q4 = "SimState.Q4" SIM_STATE_FIELD_ROLL = "SimState.Roll" SIM_STATE_FIELD_PITCH = "SimState.Pitch" SIM_STATE_FIELD_YAW = "SimState.Yaw" SIM_STATE_FIELD_XACC = "SimState.Xacc" SIM_STATE_FIELD_YACC = "SimState.Yacc" SIM_STATE_FIELD_ZACC = "SimState.Zacc" SIM_STATE_FIELD_XGYRO = "SimState.Xgyro" SIM_STATE_FIELD_YGYRO = "SimState.Ygyro" SIM_STATE_FIELD_ZGYRO = "SimState.Zgyro" SIM_STATE_FIELD_LAT = "SimState.Lat" SIM_STATE_FIELD_LON = "SimState.Lon" SIM_STATE_FIELD_ALT = "SimState.Alt" SIM_STATE_FIELD_STD_DEV_HORZ = "SimState.StdDevHorz" SIM_STATE_FIELD_STD_DEV_VERT = "SimState.StdDevVert" SIM_STATE_FIELD_VN = "SimState.Vn" SIM_STATE_FIELD_VE = "SimState.Ve" SIM_STATE_FIELD_VD = "SimState.Vd" )
const ( RADIO_STATUS_FIELD_RXERRORS = "RadioStatus.Rxerrors" RADIO_STATUS_FIELD_FIXED = "RadioStatus.Fixed" RADIO_STATUS_FIELD_RSSI = "RadioStatus.Rssi" RADIO_STATUS_FIELD_REMRSSI = "RadioStatus.Remrssi" RADIO_STATUS_FIELD_TXBUF = "RadioStatus.Txbuf" RADIO_STATUS_FIELD_NOISE = "RadioStatus.Noise" RADIO_STATUS_FIELD_REMNOISE = "RadioStatus.Remnoise" )
const ( FILE_TRANSFER_PROTOCOL_FIELD_TARGET_NETWORK = "FileTransferProtocol.TargetNetwork" FILE_TRANSFER_PROTOCOL_FIELD_TARGET_SYSTEM = "FileTransferProtocol.TargetSystem" FILE_TRANSFER_PROTOCOL_FIELD_TARGET_COMPONENT = "FileTransferProtocol.TargetComponent" FILE_TRANSFER_PROTOCOL_FIELD_PAYLOAD = "FileTransferProtocol.Payload" )
const ( TIMESYNC_FIELD_TC1 = "Timesync.Tc1" TIMESYNC_FIELD_TS1 = "Timesync.Ts1" )
const ( CAMERA_TRIGGER_FIELD_TIME_USEC = "CameraTrigger.TimeUsec" CAMERA_TRIGGER_FIELD_SEQ = "CameraTrigger.Seq" )
const ( HIL_GPS_FIELD_TIME_USEC = "HilGps.TimeUsec" HIL_GPS_FIELD_LAT = "HilGps.Lat" HIL_GPS_FIELD_LON = "HilGps.Lon" HIL_GPS_FIELD_ALT = "HilGps.Alt" HIL_GPS_FIELD_EPH = "HilGps.Eph" HIL_GPS_FIELD_EPV = "HilGps.Epv" HIL_GPS_FIELD_VEL = "HilGps.Vel" HIL_GPS_FIELD_VN = "HilGps.Vn" HIL_GPS_FIELD_VE = "HilGps.Ve" HIL_GPS_FIELD_VD = "HilGps.Vd" HIL_GPS_FIELD_COG = "HilGps.Cog" HIL_GPS_FIELD_FIX_TYPE = "HilGps.FixType" HIL_GPS_FIELD_SATELLITES_VISIBLE = "HilGps.SatellitesVisible" )
const ( HIL_OPTICAL_FLOW_FIELD_TIME_USEC = "HilOpticalFlow.TimeUsec" HIL_OPTICAL_FLOW_FIELD_INTEGRATION_TIME_US = "HilOpticalFlow.IntegrationTimeUs" HIL_OPTICAL_FLOW_FIELD_INTEGRATED_X = "HilOpticalFlow.IntegratedX" HIL_OPTICAL_FLOW_FIELD_INTEGRATED_Y = "HilOpticalFlow.IntegratedY" HIL_OPTICAL_FLOW_FIELD_INTEGRATED_XGYRO = "HilOpticalFlow.IntegratedXgyro" HIL_OPTICAL_FLOW_FIELD_INTEGRATED_YGYRO = "HilOpticalFlow.IntegratedYgyro" HIL_OPTICAL_FLOW_FIELD_INTEGRATED_ZGYRO = "HilOpticalFlow.IntegratedZgyro" HIL_OPTICAL_FLOW_FIELD_TIME_DELTA_DISTANCE_US = "HilOpticalFlow.TimeDeltaDistanceUs" HIL_OPTICAL_FLOW_FIELD_DISTANCE = "HilOpticalFlow.Distance" HIL_OPTICAL_FLOW_FIELD_TEMPERATURE = "HilOpticalFlow.Temperature" HIL_OPTICAL_FLOW_FIELD_SENSOR_ID = "HilOpticalFlow.SensorID" HIL_OPTICAL_FLOW_FIELD_QUALITY = "HilOpticalFlow.Quality" )
const ( HIL_STATE_QUATERNION_FIELD_TIME_USEC = "HilStateQuaternion.TimeUsec" HIL_STATE_QUATERNION_FIELD_ATTITUDE_QUATERNION = "HilStateQuaternion.AttitudeQuaternion" HIL_STATE_QUATERNION_FIELD_ROLLSPEED = "HilStateQuaternion.Rollspeed" HIL_STATE_QUATERNION_FIELD_PITCHSPEED = "HilStateQuaternion.Pitchspeed" HIL_STATE_QUATERNION_FIELD_YAWSPEED = "HilStateQuaternion.Yawspeed" HIL_STATE_QUATERNION_FIELD_LAT = "HilStateQuaternion.Lat" HIL_STATE_QUATERNION_FIELD_LON = "HilStateQuaternion.Lon" HIL_STATE_QUATERNION_FIELD_ALT = "HilStateQuaternion.Alt" HIL_STATE_QUATERNION_FIELD_VX = "HilStateQuaternion.Vx" HIL_STATE_QUATERNION_FIELD_VY = "HilStateQuaternion.Vy" HIL_STATE_QUATERNION_FIELD_VZ = "HilStateQuaternion.Vz" HIL_STATE_QUATERNION_FIELD_IND_AIRSPEED = "HilStateQuaternion.IndAirspeed" HIL_STATE_QUATERNION_FIELD_TRUE_AIRSPEED = "HilStateQuaternion.TrueAirspeed" HIL_STATE_QUATERNION_FIELD_XACC = "HilStateQuaternion.Xacc" HIL_STATE_QUATERNION_FIELD_YACC = "HilStateQuaternion.Yacc" HIL_STATE_QUATERNION_FIELD_ZACC = "HilStateQuaternion.Zacc" )
const ( SCALED_IMU2_FIELD_TIME_BOOT_MS = "ScaledImu2.TimeBootMs" SCALED_IMU2_FIELD_XACC = "ScaledImu2.Xacc" SCALED_IMU2_FIELD_YACC = "ScaledImu2.Yacc" SCALED_IMU2_FIELD_ZACC = "ScaledImu2.Zacc" SCALED_IMU2_FIELD_XGYRO = "ScaledImu2.Xgyro" SCALED_IMU2_FIELD_YGYRO = "ScaledImu2.Ygyro" SCALED_IMU2_FIELD_ZGYRO = "ScaledImu2.Zgyro" SCALED_IMU2_FIELD_XMAG = "ScaledImu2.Xmag" SCALED_IMU2_FIELD_YMAG = "ScaledImu2.Ymag" SCALED_IMU2_FIELD_ZMAG = "ScaledImu2.Zmag" )
const ( LOG_REQUEST_LIST_FIELD_START = "LogRequestList.Start" LOG_REQUEST_LIST_FIELD_END = "LogRequestList.End" LOG_REQUEST_LIST_FIELD_TARGET_SYSTEM = "LogRequestList.TargetSystem" LOG_REQUEST_LIST_FIELD_TARGET_COMPONENT = "LogRequestList.TargetComponent" )
const ( LOG_ENTRY_FIELD_TIME_UTC = "LogEntry.TimeUtc" LOG_ENTRY_FIELD_SIZE = "LogEntry.Size" LOG_ENTRY_FIELD_ID = "LogEntry.ID" LOG_ENTRY_FIELD_NUM_LOGS = "LogEntry.NumLogs" LOG_ENTRY_FIELD_LAST_LOG_NUM = "LogEntry.LastLogNum" )
const ( LOG_REQUEST_DATA_FIELD_OFS = "LogRequestData.Ofs" LOG_REQUEST_DATA_FIELD_COUNT = "LogRequestData.Count" LOG_REQUEST_DATA_FIELD_ID = "LogRequestData.ID" LOG_REQUEST_DATA_FIELD_TARGET_SYSTEM = "LogRequestData.TargetSystem" LOG_REQUEST_DATA_FIELD_TARGET_COMPONENT = "LogRequestData.TargetComponent" )
const ( LOG_DATA_FIELD_OFS = "LogData.Ofs" LOG_DATA_FIELD_ID = "LogData.ID" LOG_DATA_FIELD_COUNT = "LogData.Count" LOG_DATA_FIELD_DATA = "LogData.Data" )
const ( LOG_ERASE_FIELD_TARGET_SYSTEM = "LogErase.TargetSystem" LOG_ERASE_FIELD_TARGET_COMPONENT = "LogErase.TargetComponent" )
const ( LOG_REQUEST_END_FIELD_TARGET_SYSTEM = "LogRequestEnd.TargetSystem" LOG_REQUEST_END_FIELD_TARGET_COMPONENT = "LogRequestEnd.TargetComponent" )
const ( GPS_INJECT_DATA_FIELD_TARGET_SYSTEM = "GpsInjectData.TargetSystem" GPS_INJECT_DATA_FIELD_TARGET_COMPONENT = "GpsInjectData.TargetComponent" GPS_INJECT_DATA_FIELD_LEN = "GpsInjectData.Len" GPS_INJECT_DATA_FIELD_DATA = "GpsInjectData.Data" )
const ( GPS2_RAW_FIELD_TIME_USEC = "Gps2Raw.TimeUsec" GPS2_RAW_FIELD_LAT = "Gps2Raw.Lat" GPS2_RAW_FIELD_LON = "Gps2Raw.Lon" GPS2_RAW_FIELD_ALT = "Gps2Raw.Alt" GPS2_RAW_FIELD_DGPS_AGE = "Gps2Raw.DgpsAge" GPS2_RAW_FIELD_EPH = "Gps2Raw.Eph" GPS2_RAW_FIELD_EPV = "Gps2Raw.Epv" GPS2_RAW_FIELD_VEL = "Gps2Raw.Vel" GPS2_RAW_FIELD_COG = "Gps2Raw.Cog" GPS2_RAW_FIELD_FIX_TYPE = "Gps2Raw.FixType" GPS2_RAW_FIELD_SATELLITES_VISIBLE = "Gps2Raw.SatellitesVisible" GPS2_RAW_FIELD_DGPS_NUMCH = "Gps2Raw.DgpsNumch" )
const ( POWER_STATUS_FIELD_VCC = "PowerStatus.Vcc" POWER_STATUS_FIELD_VSERVO = "PowerStatus.Vservo" POWER_STATUS_FIELD_FLAGS = "PowerStatus.Flags" )
const ( SERIAL_CONTROL_FIELD_BAUDRATE = "SerialControl.Baudrate" SERIAL_CONTROL_FIELD_TIMEOUT = "SerialControl.Timeout" SERIAL_CONTROL_FIELD_DEVICE = "SerialControl.Device" SERIAL_CONTROL_FIELD_FLAGS = "SerialControl.Flags" SERIAL_CONTROL_FIELD_COUNT = "SerialControl.Count" SERIAL_CONTROL_FIELD_DATA = "SerialControl.Data" )
const ( GPS_RTK_FIELD_TIME_LAST_BASELINE_MS = "GpsRtk.TimeLastBaselineMs" GPS_RTK_FIELD_TOW = "GpsRtk.Tow" GPS_RTK_FIELD_BASELINE_A_MM = "GpsRtk.BaselineAMm" GPS_RTK_FIELD_BASELINE_B_MM = "GpsRtk.BaselineBMm" GPS_RTK_FIELD_BASELINE_C_MM = "GpsRtk.BaselineCMm" GPS_RTK_FIELD_ACCURACY = "GpsRtk.Accuracy" GPS_RTK_FIELD_IAR_NUM_HYPOTHESES = "GpsRtk.IarNumHypotheses" GPS_RTK_FIELD_WN = "GpsRtk.Wn" GPS_RTK_FIELD_RTK_RECEIVER_ID = "GpsRtk.RtkReceiverID" GPS_RTK_FIELD_RTK_HEALTH = "GpsRtk.RtkHealth" GPS_RTK_FIELD_RTK_RATE = "GpsRtk.RtkRate" GPS_RTK_FIELD_NSATS = "GpsRtk.Nsats" GPS_RTK_FIELD_BASELINE_COORDS_TYPE = "GpsRtk.BaselineCoordsType" )
const ( GPS2_RTK_FIELD_TIME_LAST_BASELINE_MS = "Gps2Rtk.TimeLastBaselineMs" GPS2_RTK_FIELD_TOW = "Gps2Rtk.Tow" GPS2_RTK_FIELD_BASELINE_A_MM = "Gps2Rtk.BaselineAMm" GPS2_RTK_FIELD_BASELINE_B_MM = "Gps2Rtk.BaselineBMm" GPS2_RTK_FIELD_BASELINE_C_MM = "Gps2Rtk.BaselineCMm" GPS2_RTK_FIELD_ACCURACY = "Gps2Rtk.Accuracy" GPS2_RTK_FIELD_IAR_NUM_HYPOTHESES = "Gps2Rtk.IarNumHypotheses" GPS2_RTK_FIELD_WN = "Gps2Rtk.Wn" GPS2_RTK_FIELD_RTK_RECEIVER_ID = "Gps2Rtk.RtkReceiverID" GPS2_RTK_FIELD_RTK_HEALTH = "Gps2Rtk.RtkHealth" GPS2_RTK_FIELD_RTK_RATE = "Gps2Rtk.RtkRate" GPS2_RTK_FIELD_NSATS = "Gps2Rtk.Nsats" GPS2_RTK_FIELD_BASELINE_COORDS_TYPE = "Gps2Rtk.BaselineCoordsType" )
const ( SCALED_IMU3_FIELD_TIME_BOOT_MS = "ScaledImu3.TimeBootMs" SCALED_IMU3_FIELD_XACC = "ScaledImu3.Xacc" SCALED_IMU3_FIELD_YACC = "ScaledImu3.Yacc" SCALED_IMU3_FIELD_ZACC = "ScaledImu3.Zacc" SCALED_IMU3_FIELD_XGYRO = "ScaledImu3.Xgyro" SCALED_IMU3_FIELD_YGYRO = "ScaledImu3.Ygyro" SCALED_IMU3_FIELD_ZGYRO = "ScaledImu3.Zgyro" SCALED_IMU3_FIELD_XMAG = "ScaledImu3.Xmag" SCALED_IMU3_FIELD_YMAG = "ScaledImu3.Ymag" SCALED_IMU3_FIELD_ZMAG = "ScaledImu3.Zmag" )
const ( DATA_TRANSMISSION_HANDSHAKE_FIELD_SIZE = "DataTransmissionHandshake.Size" DATA_TRANSMISSION_HANDSHAKE_FIELD_WIDTH = "DataTransmissionHandshake.Width" DATA_TRANSMISSION_HANDSHAKE_FIELD_HEIGHT = "DataTransmissionHandshake.Height" DATA_TRANSMISSION_HANDSHAKE_FIELD_PACKETS = "DataTransmissionHandshake.Packets" DATA_TRANSMISSION_HANDSHAKE_FIELD_TYPE = "DataTransmissionHandshake.Type" DATA_TRANSMISSION_HANDSHAKE_FIELD_PAYLOAD = "DataTransmissionHandshake.Payload" DATA_TRANSMISSION_HANDSHAKE_FIELD_JPG_QUALITY = "DataTransmissionHandshake.JpgQuality" )
const ( ENCAPSULATED_DATA_FIELD_SEQNR = "EncapsulatedData.Seqnr" ENCAPSULATED_DATA_FIELD_DATA = "EncapsulatedData.Data" )
const ( DISTANCE_SENSOR_FIELD_TIME_BOOT_MS = "DistanceSensor.TimeBootMs" DISTANCE_SENSOR_FIELD_MIN_DISTANCE = "DistanceSensor.MinDistance" DISTANCE_SENSOR_FIELD_MAX_DISTANCE = "DistanceSensor.MaxDistance" DISTANCE_SENSOR_FIELD_CURRENT_DISTANCE = "DistanceSensor.CurrentDistance" DISTANCE_SENSOR_FIELD_TYPE = "DistanceSensor.Type" DISTANCE_SENSOR_FIELD_ID = "DistanceSensor.ID" DISTANCE_SENSOR_FIELD_ORIENTATION = "DistanceSensor.Orientation" DISTANCE_SENSOR_FIELD_COVARIANCE = "DistanceSensor.Covariance" )
const ( TERRAIN_REQUEST_FIELD_MASK = "TerrainRequest.Mask" TERRAIN_REQUEST_FIELD_LAT = "TerrainRequest.Lat" TERRAIN_REQUEST_FIELD_LON = "TerrainRequest.Lon" TERRAIN_REQUEST_FIELD_GRID_SPACING = "TerrainRequest.GridSpacing" )
const ( TERRAIN_DATA_FIELD_LAT = "TerrainData.Lat" TERRAIN_DATA_FIELD_LON = "TerrainData.Lon" TERRAIN_DATA_FIELD_GRID_SPACING = "TerrainData.GridSpacing" TERRAIN_DATA_FIELD_DATA = "TerrainData.Data" TERRAIN_DATA_FIELD_GRIDBIT = "TerrainData.Gridbit" )
const ( TERRAIN_CHECK_FIELD_LAT = "TerrainCheck.Lat" TERRAIN_CHECK_FIELD_LON = "TerrainCheck.Lon" )
const ( TERRAIN_REPORT_FIELD_LAT = "TerrainReport.Lat" TERRAIN_REPORT_FIELD_LON = "TerrainReport.Lon" TERRAIN_REPORT_FIELD_TERRAIN_HEIGHT = "TerrainReport.TerrainHeight" TERRAIN_REPORT_FIELD_CURRENT_HEIGHT = "TerrainReport.CurrentHeight" TERRAIN_REPORT_FIELD_SPACING = "TerrainReport.Spacing" TERRAIN_REPORT_FIELD_PENDING = "TerrainReport.Pending" TERRAIN_REPORT_FIELD_LOADED = "TerrainReport.Loaded" )
const ( SCALED_PRESSURE2_FIELD_TIME_BOOT_MS = "ScaledPressure2.TimeBootMs" SCALED_PRESSURE2_FIELD_PRESS_ABS = "ScaledPressure2.PressAbs" SCALED_PRESSURE2_FIELD_PRESS_DIFF = "ScaledPressure2.PressDiff" SCALED_PRESSURE2_FIELD_TEMPERATURE = "ScaledPressure2.Temperature" )
const ( ATT_POS_MOCAP_FIELD_TIME_USEC = "AttPosMocap.TimeUsec" ATT_POS_MOCAP_FIELD_Q = "AttPosMocap.Q" ATT_POS_MOCAP_FIELD_X = "AttPosMocap.X" ATT_POS_MOCAP_FIELD_Y = "AttPosMocap.Y" ATT_POS_MOCAP_FIELD_Z = "AttPosMocap.Z" )
const ( SET_ACTUATOR_CONTROL_TARGET_FIELD_TIME_USEC = "SetActuatorControlTarget.TimeUsec" SET_ACTUATOR_CONTROL_TARGET_FIELD_CONTROLS = "SetActuatorControlTarget.Controls" SET_ACTUATOR_CONTROL_TARGET_FIELD_GROUP_MLX = "SetActuatorControlTarget.GroupMlx" SET_ACTUATOR_CONTROL_TARGET_FIELD_TARGET_SYSTEM = "SetActuatorControlTarget.TargetSystem" SET_ACTUATOR_CONTROL_TARGET_FIELD_TARGET_COMPONENT = "SetActuatorControlTarget.TargetComponent" )
const ( ACTUATOR_CONTROL_TARGET_FIELD_TIME_USEC = "ActuatorControlTarget.TimeUsec" ACTUATOR_CONTROL_TARGET_FIELD_CONTROLS = "ActuatorControlTarget.Controls" ACTUATOR_CONTROL_TARGET_FIELD_GROUP_MLX = "ActuatorControlTarget.GroupMlx" )
const ( ALTITUDE_FIELD_TIME_USEC = "Altitude.TimeUsec" ALTITUDE_FIELD_ALTITUDE_MONOTONIC = "Altitude.AltitudeMonotonic" ALTITUDE_FIELD_ALTITUDE_AMSL = "Altitude.AltitudeAmsl" ALTITUDE_FIELD_ALTITUDE_LOCAL = "Altitude.AltitudeLocal" ALTITUDE_FIELD_ALTITUDE_RELATIVE = "Altitude.AltitudeRelative" ALTITUDE_FIELD_ALTITUDE_TERRAIN = "Altitude.AltitudeTerrain" ALTITUDE_FIELD_BOTTOM_CLEARANCE = "Altitude.BottomClearance" )
const ( RESOURCE_REQUEST_FIELD_REQUEST_ID = "ResourceRequest.RequestID" RESOURCE_REQUEST_FIELD_URI_TYPE = "ResourceRequest.URIType" RESOURCE_REQUEST_FIELD_URI = "ResourceRequest.URI" RESOURCE_REQUEST_FIELD_TRANSFER_TYPE = "ResourceRequest.TransferType" RESOURCE_REQUEST_FIELD_STORAGE = "ResourceRequest.Storage" )
const ( SCALED_PRESSURE3_FIELD_TIME_BOOT_MS = "ScaledPressure3.TimeBootMs" SCALED_PRESSURE3_FIELD_PRESS_ABS = "ScaledPressure3.PressAbs" SCALED_PRESSURE3_FIELD_PRESS_DIFF = "ScaledPressure3.PressDiff" SCALED_PRESSURE3_FIELD_TEMPERATURE = "ScaledPressure3.Temperature" )
const ( FOLLOW_TARGET_FIELD_TIMESTAMP = "FollowTarget.Timestamp" FOLLOW_TARGET_FIELD_CUSTOM_STATE = "FollowTarget.CustomState" FOLLOW_TARGET_FIELD_LAT = "FollowTarget.Lat" FOLLOW_TARGET_FIELD_LON = "FollowTarget.Lon" FOLLOW_TARGET_FIELD_ALT = "FollowTarget.Alt" FOLLOW_TARGET_FIELD_VEL = "FollowTarget.Vel" FOLLOW_TARGET_FIELD_ACC = "FollowTarget.Acc" FOLLOW_TARGET_FIELD_ATTITUDE_Q = "FollowTarget.AttitudeQ" FOLLOW_TARGET_FIELD_RATES = "FollowTarget.Rates" FOLLOW_TARGET_FIELD_POSITION_COV = "FollowTarget.PositionCov" FOLLOW_TARGET_FIELD_EST_CAPABILITIES = "FollowTarget.EstCapabilities" )
const ( CONTROL_SYSTEM_STATE_FIELD_TIME_USEC = "ControlSystemState.TimeUsec" CONTROL_SYSTEM_STATE_FIELD_X_ACC = "ControlSystemState.XAcc" CONTROL_SYSTEM_STATE_FIELD_Y_ACC = "ControlSystemState.YAcc" CONTROL_SYSTEM_STATE_FIELD_Z_ACC = "ControlSystemState.ZAcc" CONTROL_SYSTEM_STATE_FIELD_X_VEL = "ControlSystemState.XVel" CONTROL_SYSTEM_STATE_FIELD_Y_VEL = "ControlSystemState.YVel" CONTROL_SYSTEM_STATE_FIELD_Z_VEL = "ControlSystemState.ZVel" CONTROL_SYSTEM_STATE_FIELD_X_POS = "ControlSystemState.XPos" CONTROL_SYSTEM_STATE_FIELD_Y_POS = "ControlSystemState.YPos" CONTROL_SYSTEM_STATE_FIELD_Z_POS = "ControlSystemState.ZPos" CONTROL_SYSTEM_STATE_FIELD_AIRSPEED = "ControlSystemState.Airspeed" CONTROL_SYSTEM_STATE_FIELD_VEL_VARIANCE = "ControlSystemState.VelVariance" CONTROL_SYSTEM_STATE_FIELD_POS_VARIANCE = "ControlSystemState.PosVariance" CONTROL_SYSTEM_STATE_FIELD_Q = "ControlSystemState.Q" CONTROL_SYSTEM_STATE_FIELD_ROLL_RATE = "ControlSystemState.RollRate" CONTROL_SYSTEM_STATE_FIELD_PITCH_RATE = "ControlSystemState.PitchRate" CONTROL_SYSTEM_STATE_FIELD_YAW_RATE = "ControlSystemState.YawRate" )
const ( BATTERY_STATUS_FIELD_CURRENT_CONSUMED = "BatteryStatus.CurrentConsumed" BATTERY_STATUS_FIELD_ENERGY_CONSUMED = "BatteryStatus.EnergyConsumed" BATTERY_STATUS_FIELD_TEMPERATURE = "BatteryStatus.Temperature" BATTERY_STATUS_FIELD_VOLTAGES = "BatteryStatus.Voltages" BATTERY_STATUS_FIELD_CURRENT_BATTERY = "BatteryStatus.CurrentBattery" BATTERY_STATUS_FIELD_ID = "BatteryStatus.ID" BATTERY_STATUS_FIELD_BATTERY_FUNCTION = "BatteryStatus.BatteryFunction" BATTERY_STATUS_FIELD_TYPE = "BatteryStatus.Type" BATTERY_STATUS_FIELD_BATTERY_REMAINING = "BatteryStatus.BatteryRemaining" )
const ( AUTOPILOT_VERSION_FIELD_CAPABILITIES = "AutopilotVersion.Capabilities" AUTOPILOT_VERSION_FIELD_UID = "AutopilotVersion.UID" AUTOPILOT_VERSION_FIELD_FLIGHT_SW_VERSION = "AutopilotVersion.FlightSwVersion" AUTOPILOT_VERSION_FIELD_MIDDLEWARE_SW_VERSION = "AutopilotVersion.MiddlewareSwVersion" AUTOPILOT_VERSION_FIELD_OS_SW_VERSION = "AutopilotVersion.OsSwVersion" AUTOPILOT_VERSION_FIELD_BOARD_VERSION = "AutopilotVersion.BoardVersion" AUTOPILOT_VERSION_FIELD_VENDOR_ID = "AutopilotVersion.VendorID" AUTOPILOT_VERSION_FIELD_PRODUCT_ID = "AutopilotVersion.ProductID" AUTOPILOT_VERSION_FIELD_FLIGHT_CUSTOM_VERSION = "AutopilotVersion.FlightCustomVersion" AUTOPILOT_VERSION_FIELD_MIDDLEWARE_CUSTOM_VERSION = "AutopilotVersion.MiddlewareCustomVersion" AUTOPILOT_VERSION_FIELD_OS_CUSTOM_VERSION = "AutopilotVersion.OsCustomVersion" )
const ( LANDING_TARGET_FIELD_TIME_USEC = "LandingTarget.TimeUsec" LANDING_TARGET_FIELD_ANGLE_X = "LandingTarget.AngleX" LANDING_TARGET_FIELD_ANGLE_Y = "LandingTarget.AngleY" LANDING_TARGET_FIELD_DISTANCE = "LandingTarget.Distance" LANDING_TARGET_FIELD_SIZE_X = "LandingTarget.SizeX" LANDING_TARGET_FIELD_SIZE_Y = "LandingTarget.SizeY" LANDING_TARGET_FIELD_TARGET_NUM = "LandingTarget.TargetNum" LANDING_TARGET_FIELD_FRAME = "LandingTarget.Frame" )
const ( FENCE_STATUS_FIELD_BREACH_TIME = "FenceStatus.BreachTime" FENCE_STATUS_FIELD_BREACH_COUNT = "FenceStatus.BreachCount" FENCE_STATUS_FIELD_BREACH_STATUS = "FenceStatus.BreachStatus" FENCE_STATUS_FIELD_BREACH_TYPE = "FenceStatus.BreachType" )
const ( MAG_CAL_REPORT_FIELD_FITNESS = "MagCalReport.Fitness" MAG_CAL_REPORT_FIELD_OFS_X = "MagCalReport.OfsX" MAG_CAL_REPORT_FIELD_OFS_Y = "MagCalReport.OfsY" MAG_CAL_REPORT_FIELD_OFS_Z = "MagCalReport.OfsZ" MAG_CAL_REPORT_FIELD_DIAG_X = "MagCalReport.DiagX" MAG_CAL_REPORT_FIELD_DIAG_Y = "MagCalReport.DiagY" MAG_CAL_REPORT_FIELD_DIAG_Z = "MagCalReport.DiagZ" MAG_CAL_REPORT_FIELD_OFFDIAG_X = "MagCalReport.OffdiagX" MAG_CAL_REPORT_FIELD_OFFDIAG_Y = "MagCalReport.OffdiagY" MAG_CAL_REPORT_FIELD_OFFDIAG_Z = "MagCalReport.OffdiagZ" MAG_CAL_REPORT_FIELD_COMPASS_ID = "MagCalReport.CompassID" MAG_CAL_REPORT_FIELD_CAL_MASK = "MagCalReport.CalMask" MAG_CAL_REPORT_FIELD_CAL_STATUS = "MagCalReport.CalStatus" MAG_CAL_REPORT_FIELD_AUTOSAVED = "MagCalReport.Autosaved" )
const ( EFI_STATUS_FIELD_ECU_INDEX = "EfiStatus.EcuIndex" EFI_STATUS_FIELD_RPM = "EfiStatus.Rpm" EFI_STATUS_FIELD_FUEL_CONSUMED = "EfiStatus.FuelConsumed" EFI_STATUS_FIELD_FUEL_FLOW = "EfiStatus.FuelFlow" EFI_STATUS_FIELD_ENGINE_LOAD = "EfiStatus.EngineLoad" EFI_STATUS_FIELD_THROTTLE_POSITION = "EfiStatus.ThrottlePosition" EFI_STATUS_FIELD_SPARK_DWELL_TIME = "EfiStatus.SparkDwellTime" EFI_STATUS_FIELD_BAROMETRIC_PRESSURE = "EfiStatus.BarometricPressure" EFI_STATUS_FIELD_INTAKE_MANIFOLD_PRESSURE = "EfiStatus.IntakeManifoldPressure" EFI_STATUS_FIELD_INTAKE_MANIFOLD_TEMPERATURE = "EfiStatus.IntakeManifoldTemperature" EFI_STATUS_FIELD_CYLINDER_HEAD_TEMPERATURE = "EfiStatus.CylinderHeadTemperature" EFI_STATUS_FIELD_IGNITION_TIMING = "EfiStatus.IgnitionTiming" EFI_STATUS_FIELD_INJECTION_TIME = "EfiStatus.InjectionTime" EFI_STATUS_FIELD_EXHAUST_GAS_TEMPERATURE = "EfiStatus.ExhaustGasTemperature" EFI_STATUS_FIELD_THROTTLE_OUT = "EfiStatus.ThrottleOut" EFI_STATUS_FIELD_PT_COMPENSATION = "EfiStatus.PtCompensation" EFI_STATUS_FIELD_HEALTH = "EfiStatus.Health" )
const ( ESTIMATOR_STATUS_FIELD_TIME_USEC = "EstimatorStatus.TimeUsec" ESTIMATOR_STATUS_FIELD_VEL_RATIO = "EstimatorStatus.VelRatio" ESTIMATOR_STATUS_FIELD_POS_HORIZ_RATIO = "EstimatorStatus.PosHorizRatio" ESTIMATOR_STATUS_FIELD_POS_VERT_RATIO = "EstimatorStatus.PosVertRatio" ESTIMATOR_STATUS_FIELD_MAG_RATIO = "EstimatorStatus.MagRatio" ESTIMATOR_STATUS_FIELD_HAGL_RATIO = "EstimatorStatus.HaglRatio" ESTIMATOR_STATUS_FIELD_TAS_RATIO = "EstimatorStatus.TasRatio" ESTIMATOR_STATUS_FIELD_POS_HORIZ_ACCURACY = "EstimatorStatus.PosHorizAccuracy" ESTIMATOR_STATUS_FIELD_POS_VERT_ACCURACY = "EstimatorStatus.PosVertAccuracy" ESTIMATOR_STATUS_FIELD_FLAGS = "EstimatorStatus.Flags" )
const ( WIND_COV_FIELD_TIME_USEC = "WindCov.TimeUsec" WIND_COV_FIELD_WIND_X = "WindCov.WindX" WIND_COV_FIELD_WIND_Y = "WindCov.WindY" WIND_COV_FIELD_WIND_Z = "WindCov.WindZ" WIND_COV_FIELD_VAR_HORIZ = "WindCov.VarHoriz" WIND_COV_FIELD_VAR_VERT = "WindCov.VarVert" WIND_COV_FIELD_WIND_ALT = "WindCov.WindAlt" WIND_COV_FIELD_HORIZ_ACCURACY = "WindCov.HorizAccuracy" WIND_COV_FIELD_VERT_ACCURACY = "WindCov.VertAccuracy" )
const ( GPS_INPUT_FIELD_TIME_USEC = "GpsInput.TimeUsec" GPS_INPUT_FIELD_TIME_WEEK_MS = "GpsInput.TimeWeekMs" GPS_INPUT_FIELD_LAT = "GpsInput.Lat" GPS_INPUT_FIELD_LON = "GpsInput.Lon" GPS_INPUT_FIELD_ALT = "GpsInput.Alt" GPS_INPUT_FIELD_HDOP = "GpsInput.Hdop" GPS_INPUT_FIELD_VDOP = "GpsInput.Vdop" GPS_INPUT_FIELD_VN = "GpsInput.Vn" GPS_INPUT_FIELD_VE = "GpsInput.Ve" GPS_INPUT_FIELD_VD = "GpsInput.Vd" GPS_INPUT_FIELD_SPEED_ACCURACY = "GpsInput.SpeedAccuracy" GPS_INPUT_FIELD_HORIZ_ACCURACY = "GpsInput.HorizAccuracy" GPS_INPUT_FIELD_VERT_ACCURACY = "GpsInput.VertAccuracy" GPS_INPUT_FIELD_IGNORE_FLAGS = "GpsInput.IgnoreFlags" GPS_INPUT_FIELD_TIME_WEEK = "GpsInput.TimeWeek" GPS_INPUT_FIELD_GPS_ID = "GpsInput.GpsID" GPS_INPUT_FIELD_FIX_TYPE = "GpsInput.FixType" GPS_INPUT_FIELD_SATELLITES_VISIBLE = "GpsInput.SatellitesVisible" )
const ( GPS_RTCM_DATA_FIELD_FLAGS = "GpsRtcmData.Flags" GPS_RTCM_DATA_FIELD_LEN = "GpsRtcmData.Len" GPS_RTCM_DATA_FIELD_DATA = "GpsRtcmData.Data" )
const ( HIGH_LATENCY_FIELD_CUSTOM_MODE = "HighLatency.CustomMode" HIGH_LATENCY_FIELD_LATITUDE = "HighLatency.Latitude" HIGH_LATENCY_FIELD_LONGITUDE = "HighLatency.Longitude" HIGH_LATENCY_FIELD_ROLL = "HighLatency.Roll" HIGH_LATENCY_FIELD_PITCH = "HighLatency.Pitch" HIGH_LATENCY_FIELD_HEADING = "HighLatency.Heading" HIGH_LATENCY_FIELD_HEADING_SP = "HighLatency.HeadingSp" HIGH_LATENCY_FIELD_ALTITUDE_AMSL = "HighLatency.AltitudeAmsl" HIGH_LATENCY_FIELD_ALTITUDE_SP = "HighLatency.AltitudeSp" HIGH_LATENCY_FIELD_WP_DISTANCE = "HighLatency.WpDistance" HIGH_LATENCY_FIELD_BASE_MODE = "HighLatency.BaseMode" HIGH_LATENCY_FIELD_LANDED_STATE = "HighLatency.LandedState" HIGH_LATENCY_FIELD_THROTTLE = "HighLatency.Throttle" HIGH_LATENCY_FIELD_AIRSPEED = "HighLatency.Airspeed" HIGH_LATENCY_FIELD_AIRSPEED_SP = "HighLatency.AirspeedSp" HIGH_LATENCY_FIELD_GROUNDSPEED = "HighLatency.Groundspeed" HIGH_LATENCY_FIELD_CLIMB_RATE = "HighLatency.ClimbRate" HIGH_LATENCY_FIELD_GPS_NSAT = "HighLatency.GpsNsat" HIGH_LATENCY_FIELD_GPS_FIX_TYPE = "HighLatency.GpsFixType" HIGH_LATENCY_FIELD_BATTERY_REMAINING = "HighLatency.BatteryRemaining" HIGH_LATENCY_FIELD_TEMPERATURE = "HighLatency.Temperature" HIGH_LATENCY_FIELD_TEMPERATURE_AIR = "HighLatency.TemperatureAir" HIGH_LATENCY_FIELD_FAILSAFE = "HighLatency.Failsafe" HIGH_LATENCY_FIELD_WP_NUM = "HighLatency.WpNum" )
const ( HIGH_LATENCY2_FIELD_TIMESTAMP = "HighLatency2.Timestamp" HIGH_LATENCY2_FIELD_LATITUDE = "HighLatency2.Latitude" HIGH_LATENCY2_FIELD_LONGITUDE = "HighLatency2.Longitude" HIGH_LATENCY2_FIELD_CUSTOM_MODE = "HighLatency2.CustomMode" HIGH_LATENCY2_FIELD_ALTITUDE = "HighLatency2.Altitude" HIGH_LATENCY2_FIELD_TARGET_ALTITUDE = "HighLatency2.TargetAltitude" HIGH_LATENCY2_FIELD_TARGET_DISTANCE = "HighLatency2.TargetDistance" HIGH_LATENCY2_FIELD_WP_NUM = "HighLatency2.WpNum" HIGH_LATENCY2_FIELD_FAILURE_FLAGS = "HighLatency2.FailureFlags" HIGH_LATENCY2_FIELD_TYPE = "HighLatency2.Type" HIGH_LATENCY2_FIELD_AUTOPILOT = "HighLatency2.Autopilot" HIGH_LATENCY2_FIELD_HEADING = "HighLatency2.Heading" HIGH_LATENCY2_FIELD_TARGET_HEADING = "HighLatency2.TargetHeading" HIGH_LATENCY2_FIELD_THROTTLE = "HighLatency2.Throttle" HIGH_LATENCY2_FIELD_AIRSPEED = "HighLatency2.Airspeed" HIGH_LATENCY2_FIELD_AIRSPEED_SP = "HighLatency2.AirspeedSp" HIGH_LATENCY2_FIELD_GROUNDSPEED = "HighLatency2.Groundspeed" HIGH_LATENCY2_FIELD_WINDSPEED = "HighLatency2.Windspeed" HIGH_LATENCY2_FIELD_WIND_HEADING = "HighLatency2.WindHeading" HIGH_LATENCY2_FIELD_EPH = "HighLatency2.Eph" HIGH_LATENCY2_FIELD_EPV = "HighLatency2.Epv" HIGH_LATENCY2_FIELD_TEMPERATURE_AIR = "HighLatency2.TemperatureAir" HIGH_LATENCY2_FIELD_CLIMB_RATE = "HighLatency2.ClimbRate" HIGH_LATENCY2_FIELD_BATTERY = "HighLatency2.Battery" HIGH_LATENCY2_FIELD_CUSTOM0 = "HighLatency2.Custom0" HIGH_LATENCY2_FIELD_CUSTOM1 = "HighLatency2.Custom1" HIGH_LATENCY2_FIELD_CUSTOM2 = "HighLatency2.Custom2" )
const ( VIBRATION_FIELD_TIME_USEC = "Vibration.TimeUsec" VIBRATION_FIELD_VIBRATION_X = "Vibration.VibrationX" VIBRATION_FIELD_VIBRATION_Y = "Vibration.VibrationY" VIBRATION_FIELD_VIBRATION_Z = "Vibration.VibrationZ" VIBRATION_FIELD_CLIPPING_0 = "Vibration.Clipping0" VIBRATION_FIELD_CLIPPING_1 = "Vibration.Clipping1" VIBRATION_FIELD_CLIPPING_2 = "Vibration.Clipping2" )
const ( HOME_POSITION_FIELD_LATITUDE = "HomePosition.Latitude" HOME_POSITION_FIELD_LONGITUDE = "HomePosition.Longitude" HOME_POSITION_FIELD_ALTITUDE = "HomePosition.Altitude" HOME_POSITION_FIELD_X = "HomePosition.X" HOME_POSITION_FIELD_Y = "HomePosition.Y" HOME_POSITION_FIELD_Z = "HomePosition.Z" HOME_POSITION_FIELD_Q = "HomePosition.Q" HOME_POSITION_FIELD_APPROACH_X = "HomePosition.ApproachX" HOME_POSITION_FIELD_APPROACH_Y = "HomePosition.ApproachY" HOME_POSITION_FIELD_APPROACH_Z = "HomePosition.ApproachZ" )
const ( SET_HOME_POSITION_FIELD_LATITUDE = "SetHomePosition.Latitude" SET_HOME_POSITION_FIELD_LONGITUDE = "SetHomePosition.Longitude" SET_HOME_POSITION_FIELD_ALTITUDE = "SetHomePosition.Altitude" SET_HOME_POSITION_FIELD_X = "SetHomePosition.X" SET_HOME_POSITION_FIELD_Y = "SetHomePosition.Y" SET_HOME_POSITION_FIELD_Z = "SetHomePosition.Z" SET_HOME_POSITION_FIELD_Q = "SetHomePosition.Q" SET_HOME_POSITION_FIELD_APPROACH_X = "SetHomePosition.ApproachX" SET_HOME_POSITION_FIELD_APPROACH_Y = "SetHomePosition.ApproachY" SET_HOME_POSITION_FIELD_APPROACH_Z = "SetHomePosition.ApproachZ" SET_HOME_POSITION_FIELD_TARGET_SYSTEM = "SetHomePosition.TargetSystem" )
const ( MESSAGE_INTERVAL_FIELD_INTERVAL_US = "MessageInterval.IntervalUs" MESSAGE_INTERVAL_FIELD_MESSAGE_ID = "MessageInterval.MessageID" )
const ( EXTENDED_SYS_STATE_FIELD_VTOL_STATE = "ExtendedSysState.VtolState" EXTENDED_SYS_STATE_FIELD_LANDED_STATE = "ExtendedSysState.LandedState" )
const ( ADSB_VEHICLE_FIELD_ICAO_ADDRESS = "AdsbVehicle.IcaoAddress" ADSB_VEHICLE_FIELD_LAT = "AdsbVehicle.Lat" ADSB_VEHICLE_FIELD_LON = "AdsbVehicle.Lon" ADSB_VEHICLE_FIELD_ALTITUDE = "AdsbVehicle.Altitude" ADSB_VEHICLE_FIELD_HEADING = "AdsbVehicle.Heading" ADSB_VEHICLE_FIELD_HOR_VELOCITY = "AdsbVehicle.HorVelocity" ADSB_VEHICLE_FIELD_VER_VELOCITY = "AdsbVehicle.VerVelocity" ADSB_VEHICLE_FIELD_FLAGS = "AdsbVehicle.Flags" ADSB_VEHICLE_FIELD_SQUAWK = "AdsbVehicle.Squawk" ADSB_VEHICLE_FIELD_ALTITUDE_TYPE = "AdsbVehicle.AltitudeType" ADSB_VEHICLE_FIELD_CALLSIGN = "AdsbVehicle.Callsign" ADSB_VEHICLE_FIELD_EMITTER_TYPE = "AdsbVehicle.EmitterType" ADSB_VEHICLE_FIELD_TSLC = "AdsbVehicle.Tslc" )
const ( COLLISION_FIELD_ID = "Collision.ID" COLLISION_FIELD_TIME_TO_MINIMUM_DELTA = "Collision.TimeToMinimumDelta" COLLISION_FIELD_ALTITUDE_MINIMUM_DELTA = "Collision.AltitudeMinimumDelta" COLLISION_FIELD_HORIZONTAL_MINIMUM_DELTA = "Collision.HorizontalMinimumDelta" COLLISION_FIELD_SRC = "Collision.Src" COLLISION_FIELD_ACTION = "Collision.Action" COLLISION_FIELD_THREAT_LEVEL = "Collision.ThreatLevel" )
const ( V2_EXTENSION_FIELD_MESSAGE_TYPE = "V2Extension.MessageType" V2_EXTENSION_FIELD_TARGET_NETWORK = "V2Extension.TargetNetwork" V2_EXTENSION_FIELD_TARGET_SYSTEM = "V2Extension.TargetSystem" V2_EXTENSION_FIELD_TARGET_COMPONENT = "V2Extension.TargetComponent" V2_EXTENSION_FIELD_PAYLOAD = "V2Extension.Payload" )
const ( MEMORY_VECT_FIELD_ADDRESS = "MemoryVect.Address" MEMORY_VECT_FIELD_VER = "MemoryVect.Ver" MEMORY_VECT_FIELD_TYPE = "MemoryVect.Type" MEMORY_VECT_FIELD_VALUE = "MemoryVect.Value" )
const ( DEBUG_VECT_FIELD_TIME_USEC = "DebugVect.TimeUsec" DEBUG_VECT_FIELD_X = "DebugVect.X" DEBUG_VECT_FIELD_Y = "DebugVect.Y" DEBUG_VECT_FIELD_Z = "DebugVect.Z" DEBUG_VECT_FIELD_NAME = "DebugVect.Name" )
const ( NAMED_VALUE_FLOAT_FIELD_TIME_BOOT_MS = "NamedValueFloat.TimeBootMs" NAMED_VALUE_FLOAT_FIELD_VALUE = "NamedValueFloat.Value" NAMED_VALUE_FLOAT_FIELD_NAME = "NamedValueFloat.Name" )
const ( NAMED_VALUE_INT_FIELD_TIME_BOOT_MS = "NamedValueInt.TimeBootMs" NAMED_VALUE_INT_FIELD_VALUE = "NamedValueInt.Value" NAMED_VALUE_INT_FIELD_NAME = "NamedValueInt.Name" )
const ( STATUSTEXT_FIELD_SEVERITY = "Statustext.Severity" STATUSTEXT_FIELD_TEXT = "Statustext.Text" )
const ( DEBUG_FIELD_TIME_BOOT_MS = "Debug.TimeBootMs" DEBUG_FIELD_VALUE = "Debug.Value" DEBUG_FIELD_IND = "Debug.Ind" )
const ( HEARTBEAT_FIELD_CUSTOM_MODE = "Heartbeat.CustomMode" HEARTBEAT_FIELD_TYPE = "Heartbeat.Type" HEARTBEAT_FIELD_AUTOPILOT = "Heartbeat.Autopilot" HEARTBEAT_FIELD_BASE_MODE = "Heartbeat.BaseMode" HEARTBEAT_FIELD_SYSTEM_STATUS = "Heartbeat.SystemStatus" HEARTBEAT_FIELD_MAVLINK_VERSION = "Heartbeat.MavlinkVersion" )
const ( MSG_ID_SYS_STATUS message.MessageID = 1 MSG_ID_SYSTEM_TIME message.MessageID = 2 MSG_ID_PING message.MessageID = 4 MSG_ID_CHANGE_OPERATOR_CONTROL message.MessageID = 5 MSG_ID_CHANGE_OPERATOR_CONTROL_ACK message.MessageID = 6 MSG_ID_AUTH_KEY message.MessageID = 7 MSG_ID_LINK_NODE_STATUS message.MessageID = 8 MSG_ID_SET_MODE message.MessageID = 11 MSG_ID_PARAM_ACK_TRANSACTION message.MessageID = 19 MSG_ID_PARAM_REQUEST_READ message.MessageID = 20 MSG_ID_PARAM_REQUEST_LIST message.MessageID = 21 MSG_ID_PARAM_VALUE message.MessageID = 22 MSG_ID_PARAM_SET message.MessageID = 23 MSG_ID_GPS_RAW_INT message.MessageID = 24 MSG_ID_GPS_STATUS message.MessageID = 25 MSG_ID_SCALED_IMU message.MessageID = 26 MSG_ID_RAW_IMU message.MessageID = 27 MSG_ID_RAW_PRESSURE message.MessageID = 28 MSG_ID_SCALED_PRESSURE message.MessageID = 29 MSG_ID_ATTITUDE message.MessageID = 30 MSG_ID_ATTITUDE_QUATERNION message.MessageID = 31 MSG_ID_LOCAL_POSITION_NED message.MessageID = 32 MSG_ID_GLOBAL_POSITION_INT message.MessageID = 33 MSG_ID_RC_CHANNELS_SCALED message.MessageID = 34 MSG_ID_RC_CHANNELS_RAW message.MessageID = 35 MSG_ID_SERVO_OUTPUT_RAW message.MessageID = 36 MSG_ID_MISSION_REQUEST_PARTIAL_LIST message.MessageID = 37 MSG_ID_MISSION_WRITE_PARTIAL_LIST message.MessageID = 38 MSG_ID_MISSION_ITEM message.MessageID = 39 MSG_ID_MISSION_REQUEST message.MessageID = 40 MSG_ID_MISSION_SET_CURRENT message.MessageID = 41 MSG_ID_MISSION_CURRENT message.MessageID = 42 MSG_ID_MISSION_REQUEST_LIST message.MessageID = 43 MSG_ID_MISSION_COUNT message.MessageID = 44 MSG_ID_MISSION_CLEAR_ALL message.MessageID = 45 MSG_ID_MISSION_ITEM_REACHED message.MessageID = 46 MSG_ID_MISSION_ACK message.MessageID = 47 MSG_ID_SET_GPS_GLOBAL_ORIGIN message.MessageID = 48 MSG_ID_GPS_GLOBAL_ORIGIN message.MessageID = 49 MSG_ID_PARAM_MAP_RC message.MessageID = 50 MSG_ID_MISSION_REQUEST_INT message.MessageID = 51 MSG_ID_MISSION_CHANGED message.MessageID = 52 MSG_ID_SAFETY_SET_ALLOWED_AREA message.MessageID = 54 MSG_ID_SAFETY_ALLOWED_AREA message.MessageID = 55 MSG_ID_ATTITUDE_QUATERNION_COV message.MessageID = 61 MSG_ID_NAV_CONTROLLER_OUTPUT message.MessageID = 62 MSG_ID_GLOBAL_POSITION_INT_COV message.MessageID = 63 MSG_ID_LOCAL_POSITION_NED_COV message.MessageID = 64 MSG_ID_RC_CHANNELS message.MessageID = 65 MSG_ID_REQUEST_DATA_STREAM message.MessageID = 66 MSG_ID_DATA_STREAM message.MessageID = 67 MSG_ID_MANUAL_CONTROL message.MessageID = 69 MSG_ID_RC_CHANNELS_OVERRIDE message.MessageID = 70 MSG_ID_MISSION_ITEM_INT message.MessageID = 73 MSG_ID_VFR_HUD message.MessageID = 74 MSG_ID_COMMAND_INT message.MessageID = 75 MSG_ID_COMMAND_LONG message.MessageID = 76 MSG_ID_COMMAND_ACK message.MessageID = 77 MSG_ID_COMMAND_CANCEL message.MessageID = 80 MSG_ID_MANUAL_SETPOINT message.MessageID = 81 MSG_ID_SET_ATTITUDE_TARGET message.MessageID = 82 MSG_ID_ATTITUDE_TARGET message.MessageID = 83 MSG_ID_SET_POSITION_TARGET_LOCAL_NED message.MessageID = 84 MSG_ID_POSITION_TARGET_LOCAL_NED message.MessageID = 85 MSG_ID_SET_POSITION_TARGET_GLOBAL_INT message.MessageID = 86 MSG_ID_POSITION_TARGET_GLOBAL_INT message.MessageID = 87 MSG_ID_LOCAL_POSITION_NED_SYSTEM_GLOBAL_OFFSET message.MessageID = 89 MSG_ID_HIL_STATE message.MessageID = 90 MSG_ID_HIL_CONTROLS message.MessageID = 91 MSG_ID_HIL_RC_INPUTS_RAW message.MessageID = 92 MSG_ID_HIL_ACTUATOR_CONTROLS message.MessageID = 93 MSG_ID_OPTICAL_FLOW message.MessageID = 100 MSG_ID_GLOBAL_VISION_POSITION_ESTIMATE message.MessageID = 101 MSG_ID_VISION_POSITION_ESTIMATE message.MessageID = 102 MSG_ID_VISION_SPEED_ESTIMATE message.MessageID = 103 MSG_ID_VICON_POSITION_ESTIMATE message.MessageID = 104 MSG_ID_HIGHRES_IMU message.MessageID = 105 MSG_ID_OPTICAL_FLOW_RAD message.MessageID = 106 MSG_ID_HIL_SENSOR message.MessageID = 107 MSG_ID_SIM_STATE message.MessageID = 108 MSG_ID_RADIO_STATUS message.MessageID = 109 MSG_ID_FILE_TRANSFER_PROTOCOL message.MessageID = 110 MSG_ID_TIMESYNC message.MessageID = 111 MSG_ID_CAMERA_TRIGGER message.MessageID = 112 MSG_ID_HIL_GPS message.MessageID = 113 MSG_ID_HIL_OPTICAL_FLOW message.MessageID = 114 MSG_ID_HIL_STATE_QUATERNION message.MessageID = 115 MSG_ID_SCALED_IMU2 message.MessageID = 116 MSG_ID_LOG_REQUEST_LIST message.MessageID = 117 MSG_ID_LOG_ENTRY message.MessageID = 118 MSG_ID_LOG_REQUEST_DATA message.MessageID = 119 MSG_ID_LOG_DATA message.MessageID = 120 MSG_ID_LOG_ERASE message.MessageID = 121 MSG_ID_LOG_REQUEST_END message.MessageID = 122 MSG_ID_GPS_INJECT_DATA message.MessageID = 123 MSG_ID_GPS2_RAW message.MessageID = 124 MSG_ID_POWER_STATUS message.MessageID = 125 MSG_ID_SERIAL_CONTROL message.MessageID = 126 MSG_ID_GPS_RTK message.MessageID = 127 MSG_ID_GPS2_RTK message.MessageID = 128 MSG_ID_SCALED_IMU3 message.MessageID = 129 MSG_ID_DATA_TRANSMISSION_HANDSHAKE message.MessageID = 130 MSG_ID_ENCAPSULATED_DATA message.MessageID = 131 MSG_ID_DISTANCE_SENSOR message.MessageID = 132 MSG_ID_TERRAIN_REQUEST message.MessageID = 133 MSG_ID_TERRAIN_DATA message.MessageID = 134 MSG_ID_TERRAIN_CHECK message.MessageID = 135 MSG_ID_TERRAIN_REPORT message.MessageID = 136 MSG_ID_SCALED_PRESSURE2 message.MessageID = 137 MSG_ID_ATT_POS_MOCAP message.MessageID = 138 MSG_ID_SET_ACTUATOR_CONTROL_TARGET message.MessageID = 139 MSG_ID_ACTUATOR_CONTROL_TARGET message.MessageID = 140 MSG_ID_ALTITUDE message.MessageID = 141 MSG_ID_RESOURCE_REQUEST message.MessageID = 142 MSG_ID_SCALED_PRESSURE3 message.MessageID = 143 MSG_ID_FOLLOW_TARGET message.MessageID = 144 MSG_ID_CONTROL_SYSTEM_STATE message.MessageID = 146 MSG_ID_BATTERY_STATUS message.MessageID = 147 MSG_ID_AUTOPILOT_VERSION message.MessageID = 148 MSG_ID_LANDING_TARGET message.MessageID = 149 MSG_ID_FENCE_STATUS message.MessageID = 162 MSG_ID_MAG_CAL_REPORT message.MessageID = 192 MSG_ID_EFI_STATUS message.MessageID = 225 MSG_ID_ESTIMATOR_STATUS message.MessageID = 230 MSG_ID_WIND_COV message.MessageID = 231 MSG_ID_GPS_INPUT message.MessageID = 232 MSG_ID_GPS_RTCM_DATA message.MessageID = 233 MSG_ID_HIGH_LATENCY message.MessageID = 234 MSG_ID_HIGH_LATENCY2 message.MessageID = 235 MSG_ID_VIBRATION message.MessageID = 241 MSG_ID_HOME_POSITION message.MessageID = 242 MSG_ID_SET_HOME_POSITION message.MessageID = 243 MSG_ID_MESSAGE_INTERVAL message.MessageID = 244 MSG_ID_EXTENDED_SYS_STATE message.MessageID = 245 MSG_ID_ADSB_VEHICLE message.MessageID = 246 MSG_ID_COLLISION message.MessageID = 247 MSG_ID_V2_EXTENSION message.MessageID = 248 MSG_ID_MEMORY_VECT message.MessageID = 249 MSG_ID_DEBUG_VECT message.MessageID = 250 MSG_ID_NAMED_VALUE_FLOAT message.MessageID = 251 MSG_ID_NAMED_VALUE_INT message.MessageID = 252 MSG_ID_STATUSTEXT message.MessageID = 253 MSG_ID_DEBUG message.MessageID = 254 MSG_ID_HEARTBEAT message.MessageID = 0 )
Message IDs
const (
AUTH_KEY_FIELD_KEY = "AuthKey.Key"
)
const (
MISSION_CURRENT_FIELD_SEQ = "MissionCurrent.Seq"
)
const (
MISSION_ITEM_REACHED_FIELD_SEQ = "MissionItemReached.Seq"
)
const (
// Version of mavgen which generate this code or user defined (by mavgen flag -v) version of dialect
Version = ""
)
Variables ¶
This section is empty.
Functions ¶
This section is empty.
Types ¶
type ADSB_ALTITUDE_TYPE ¶
type ADSB_ALTITUDE_TYPE int
ADSB_ALTITUDE_TYPE type. Enumeration of the ADSB altimeter types
const ( // ADSB_ALTITUDE_TYPE_PRESSURE_QNH enum. Altitude reported from a Baro source using QNH reference ADSB_ALTITUDE_TYPE_PRESSURE_QNH ADSB_ALTITUDE_TYPE = 0 // ADSB_ALTITUDE_TYPE_GEOMETRIC enum. Altitude reported from a GNSS source ADSB_ALTITUDE_TYPE_GEOMETRIC ADSB_ALTITUDE_TYPE = 1 )
func (ADSB_ALTITUDE_TYPE) Bitmask ¶
func (e ADSB_ALTITUDE_TYPE) Bitmask() string
Bitmask return string representetion of intersects ADSB_ALTITUDE_TYPE enums
func (ADSB_ALTITUDE_TYPE) MarshalBinary ¶
func (e ADSB_ALTITUDE_TYPE) MarshalBinary() (data []byte, err error)
MarshalBinary generic func
func (ADSB_ALTITUDE_TYPE) String ¶
func (e ADSB_ALTITUDE_TYPE) String() string
func (*ADSB_ALTITUDE_TYPE) UnmarshalBinary ¶
func (e *ADSB_ALTITUDE_TYPE) UnmarshalBinary(data []byte) error
UnmarshalBinary generic func
type ADSB_EMITTER_TYPE ¶
type ADSB_EMITTER_TYPE int
ADSB_EMITTER_TYPE type. ADSB classification for the type of vehicle emitting the transponder signal
const ( // ADSB_EMITTER_TYPE_NO_INFO enum ADSB_EMITTER_TYPE_NO_INFO ADSB_EMITTER_TYPE = 0 // ADSB_EMITTER_TYPE_LIGHT enum ADSB_EMITTER_TYPE_LIGHT ADSB_EMITTER_TYPE = 1 // ADSB_EMITTER_TYPE_SMALL enum ADSB_EMITTER_TYPE_SMALL ADSB_EMITTER_TYPE = 2 // ADSB_EMITTER_TYPE_LARGE enum ADSB_EMITTER_TYPE_LARGE ADSB_EMITTER_TYPE = 3 // ADSB_EMITTER_TYPE_HIGH_VORTEX_LARGE enum ADSB_EMITTER_TYPE_HIGH_VORTEX_LARGE ADSB_EMITTER_TYPE = 4 // ADSB_EMITTER_TYPE_HEAVY enum ADSB_EMITTER_TYPE_HEAVY ADSB_EMITTER_TYPE = 5 // ADSB_EMITTER_TYPE_HIGHLY_MANUV enum ADSB_EMITTER_TYPE_HIGHLY_MANUV ADSB_EMITTER_TYPE = 6 // ADSB_EMITTER_TYPE_ROTOCRAFT enum ADSB_EMITTER_TYPE_ROTOCRAFT ADSB_EMITTER_TYPE = 7 // ADSB_EMITTER_TYPE_UNASSIGNED enum ADSB_EMITTER_TYPE_UNASSIGNED ADSB_EMITTER_TYPE = 8 // ADSB_EMITTER_TYPE_GLIDER enum ADSB_EMITTER_TYPE_GLIDER ADSB_EMITTER_TYPE = 9 // ADSB_EMITTER_TYPE_LIGHTER_AIR enum ADSB_EMITTER_TYPE_LIGHTER_AIR ADSB_EMITTER_TYPE = 10 // ADSB_EMITTER_TYPE_PARACHUTE enum ADSB_EMITTER_TYPE_PARACHUTE ADSB_EMITTER_TYPE = 11 // ADSB_EMITTER_TYPE_ULTRA_LIGHT enum ADSB_EMITTER_TYPE_ULTRA_LIGHT ADSB_EMITTER_TYPE = 12 // ADSB_EMITTER_TYPE_UNASSIGNED2 enum ADSB_EMITTER_TYPE_UNASSIGNED2 ADSB_EMITTER_TYPE = 13 // ADSB_EMITTER_TYPE_UAV enum ADSB_EMITTER_TYPE_UAV ADSB_EMITTER_TYPE = 14 // ADSB_EMITTER_TYPE_SPACE enum ADSB_EMITTER_TYPE_SPACE ADSB_EMITTER_TYPE = 15 // ADSB_EMITTER_TYPE_UNASSGINED3 enum ADSB_EMITTER_TYPE_UNASSGINED3 ADSB_EMITTER_TYPE = 16 // ADSB_EMITTER_TYPE_EMERGENCY_SURFACE enum ADSB_EMITTER_TYPE_EMERGENCY_SURFACE ADSB_EMITTER_TYPE = 17 // ADSB_EMITTER_TYPE_SERVICE_SURFACE enum ADSB_EMITTER_TYPE_SERVICE_SURFACE ADSB_EMITTER_TYPE = 18 // ADSB_EMITTER_TYPE_POINT_OBSTACLE enum ADSB_EMITTER_TYPE_POINT_OBSTACLE ADSB_EMITTER_TYPE = 19 )
func (ADSB_EMITTER_TYPE) Bitmask ¶
func (e ADSB_EMITTER_TYPE) Bitmask() string
Bitmask return string representetion of intersects ADSB_EMITTER_TYPE enums
func (ADSB_EMITTER_TYPE) MarshalBinary ¶
func (e ADSB_EMITTER_TYPE) MarshalBinary() (data []byte, err error)
MarshalBinary generic func
func (ADSB_EMITTER_TYPE) String ¶
func (e ADSB_EMITTER_TYPE) String() string
func (*ADSB_EMITTER_TYPE) UnmarshalBinary ¶
func (e *ADSB_EMITTER_TYPE) UnmarshalBinary(data []byte) error
UnmarshalBinary generic func
type ADSB_FLAGS ¶
type ADSB_FLAGS int
ADSB_FLAGS type. These flags indicate status such as data validity of each data source. Set = data valid
const ( // ADSB_FLAGS_VALID_COORDS enum ADSB_FLAGS_VALID_COORDS ADSB_FLAGS = 1 // ADSB_FLAGS_VALID_ALTITUDE enum ADSB_FLAGS_VALID_ALTITUDE ADSB_FLAGS = 2 // ADSB_FLAGS_VALID_HEADING enum ADSB_FLAGS_VALID_HEADING ADSB_FLAGS = 4 // ADSB_FLAGS_VALID_VELOCITY enum ADSB_FLAGS_VALID_VELOCITY ADSB_FLAGS = 8 // ADSB_FLAGS_VALID_CALLSIGN enum ADSB_FLAGS_VALID_CALLSIGN ADSB_FLAGS = 16 // ADSB_FLAGS_VALID_SQUAWK enum ADSB_FLAGS_VALID_SQUAWK ADSB_FLAGS = 32 // ADSB_FLAGS_SIMULATED enum ADSB_FLAGS_SIMULATED ADSB_FLAGS = 64 // ADSB_FLAGS_VERTICAL_VELOCITY_VALID enum ADSB_FLAGS_VERTICAL_VELOCITY_VALID ADSB_FLAGS = 128 // ADSB_FLAGS_BARO_VALID enum ADSB_FLAGS_BARO_VALID ADSB_FLAGS = 256 // ADSB_FLAGS_SOURCE_UAT enum ADSB_FLAGS_SOURCE_UAT ADSB_FLAGS = 32768 )
func (ADSB_FLAGS) Bitmask ¶
func (e ADSB_FLAGS) Bitmask() string
Bitmask return string representetion of intersects ADSB_FLAGS enums
func (ADSB_FLAGS) MarshalBinary ¶
func (e ADSB_FLAGS) MarshalBinary() (data []byte, err error)
MarshalBinary generic func
func (ADSB_FLAGS) String ¶
func (e ADSB_FLAGS) String() string
func (*ADSB_FLAGS) UnmarshalBinary ¶
func (e *ADSB_FLAGS) UnmarshalBinary(data []byte) error
UnmarshalBinary generic func
type AIS_FLAGS ¶
type AIS_FLAGS int
AIS_FLAGS type. These flags are used in the AIS_VESSEL.fields bitmask to indicate validity of data in the other message fields. When set, the data is valid.
const ( // AIS_FLAGS_POSITION_ACCURACY enum. 1 = Position accuracy less than 10m, 0 = position accuracy greater than 10m AIS_FLAGS_POSITION_ACCURACY AIS_FLAGS = 1 // AIS_FLAGS_VALID_COG enum AIS_FLAGS_VALID_COG AIS_FLAGS = 2 // AIS_FLAGS_VALID_VELOCITY enum AIS_FLAGS_VALID_VELOCITY AIS_FLAGS = 4 // AIS_FLAGS_HIGH_VELOCITY enum. 1 = Velocity over 52.5765m/s (102.2 knots) AIS_FLAGS_HIGH_VELOCITY AIS_FLAGS = 8 // AIS_FLAGS_VALID_TURN_RATE enum AIS_FLAGS_VALID_TURN_RATE AIS_FLAGS = 16 // AIS_FLAGS_TURN_RATE_SIGN_ONLY enum. Only the sign of the returned turn rate value is valid, either greater than 5deg/30s or less than -5deg/30s AIS_FLAGS_TURN_RATE_SIGN_ONLY AIS_FLAGS = 32 // AIS_FLAGS_VALID_DIMENSIONS enum AIS_FLAGS_VALID_DIMENSIONS AIS_FLAGS = 64 // AIS_FLAGS_LARGE_BOW_DIMENSION enum. Distance to bow is larger than 511m AIS_FLAGS_LARGE_BOW_DIMENSION AIS_FLAGS = 128 // AIS_FLAGS_LARGE_STERN_DIMENSION enum. Distance to stern is larger than 511m AIS_FLAGS_LARGE_STERN_DIMENSION AIS_FLAGS = 256 // AIS_FLAGS_LARGE_PORT_DIMENSION enum. Distance to port side is larger than 63m AIS_FLAGS_LARGE_PORT_DIMENSION AIS_FLAGS = 512 // AIS_FLAGS_LARGE_STARBOARD_DIMENSION enum. Distance to starboard side is larger than 63m AIS_FLAGS_LARGE_STARBOARD_DIMENSION AIS_FLAGS = 1024 // AIS_FLAGS_VALID_CALLSIGN enum AIS_FLAGS_VALID_CALLSIGN AIS_FLAGS = 2048 // AIS_FLAGS_VALID_NAME enum AIS_FLAGS_VALID_NAME AIS_FLAGS = 4096 )
func (AIS_FLAGS) MarshalBinary ¶
MarshalBinary generic func
func (*AIS_FLAGS) UnmarshalBinary ¶
UnmarshalBinary generic func
type AIS_NAV_STATUS ¶
type AIS_NAV_STATUS int
AIS_NAV_STATUS type. Navigational status of AIS vessel, enum duplicated from AIS standard, https://gpsd.gitlab.io/gpsd/AIVDM.html
const ( // UNDER_WAY enum. Under way using engine UNDER_WAY AIS_NAV_STATUS = 0 // AIS_NAV_ANCHORED enum AIS_NAV_ANCHORED AIS_NAV_STATUS = 1 // AIS_NAV_UN_COMMANDED enum AIS_NAV_UN_COMMANDED AIS_NAV_STATUS = 2 // AIS_NAV_RESTRICTED_MANOEUVERABILITY enum AIS_NAV_RESTRICTED_MANOEUVERABILITY AIS_NAV_STATUS = 3 // AIS_NAV_DRAUGHT_CONSTRAINED enum AIS_NAV_DRAUGHT_CONSTRAINED AIS_NAV_STATUS = 4 // AIS_NAV_MOORED enum AIS_NAV_MOORED AIS_NAV_STATUS = 5 // AIS_NAV_AGROUND enum AIS_NAV_AGROUND AIS_NAV_STATUS = 6 // AIS_NAV_FISHING enum AIS_NAV_FISHING AIS_NAV_STATUS = 7 // AIS_NAV_SAILING enum AIS_NAV_SAILING AIS_NAV_STATUS = 8 // AIS_NAV_RESERVED_HSC enum AIS_NAV_RESERVED_HSC AIS_NAV_STATUS = 9 // AIS_NAV_RESERVED_WIG enum AIS_NAV_RESERVED_WIG AIS_NAV_STATUS = 10 // AIS_NAV_RESERVED_1 enum AIS_NAV_RESERVED_1 AIS_NAV_STATUS = 11 // AIS_NAV_RESERVED_2 enum AIS_NAV_RESERVED_2 AIS_NAV_STATUS = 12 // AIS_NAV_RESERVED_3 enum AIS_NAV_RESERVED_3 AIS_NAV_STATUS = 13 // AIS_NAV_AIS_SART enum. Search And Rescue Transponder AIS_NAV_AIS_SART AIS_NAV_STATUS = 14 // AIS_NAV_UNKNOWN enum. Not available (default) AIS_NAV_UNKNOWN AIS_NAV_STATUS = 15 )
func (AIS_NAV_STATUS) Bitmask ¶
func (e AIS_NAV_STATUS) Bitmask() string
Bitmask return string representetion of intersects AIS_NAV_STATUS enums
func (AIS_NAV_STATUS) MarshalBinary ¶
func (e AIS_NAV_STATUS) MarshalBinary() (data []byte, err error)
MarshalBinary generic func
func (AIS_NAV_STATUS) String ¶
func (e AIS_NAV_STATUS) String() string
func (*AIS_NAV_STATUS) UnmarshalBinary ¶
func (e *AIS_NAV_STATUS) UnmarshalBinary(data []byte) error
UnmarshalBinary generic func
type AIS_TYPE ¶
type AIS_TYPE int
AIS_TYPE type. Type of AIS vessel, enum duplicated from AIS standard, https://gpsd.gitlab.io/gpsd/AIVDM.html
const ( // AIS_TYPE_UNKNOWN enum. Not available (default) AIS_TYPE_UNKNOWN AIS_TYPE = 0 // AIS_TYPE_RESERVED_1 enum AIS_TYPE_RESERVED_1 AIS_TYPE = 1 // AIS_TYPE_RESERVED_2 enum AIS_TYPE_RESERVED_2 AIS_TYPE = 2 // AIS_TYPE_RESERVED_3 enum AIS_TYPE_RESERVED_3 AIS_TYPE = 3 // AIS_TYPE_RESERVED_4 enum AIS_TYPE_RESERVED_4 AIS_TYPE = 4 // AIS_TYPE_RESERVED_5 enum AIS_TYPE_RESERVED_5 AIS_TYPE = 5 // AIS_TYPE_RESERVED_6 enum AIS_TYPE_RESERVED_6 AIS_TYPE = 6 // AIS_TYPE_RESERVED_7 enum AIS_TYPE_RESERVED_7 AIS_TYPE = 7 // AIS_TYPE_RESERVED_8 enum AIS_TYPE_RESERVED_8 AIS_TYPE = 8 // AIS_TYPE_RESERVED_9 enum AIS_TYPE_RESERVED_9 AIS_TYPE = 9 // AIS_TYPE_RESERVED_10 enum AIS_TYPE_RESERVED_10 AIS_TYPE = 10 // AIS_TYPE_RESERVED_11 enum AIS_TYPE_RESERVED_11 AIS_TYPE = 11 // AIS_TYPE_RESERVED_12 enum AIS_TYPE_RESERVED_12 AIS_TYPE = 12 // AIS_TYPE_RESERVED_13 enum AIS_TYPE_RESERVED_13 AIS_TYPE = 13 // AIS_TYPE_RESERVED_14 enum AIS_TYPE_RESERVED_14 AIS_TYPE = 14 // AIS_TYPE_RESERVED_15 enum AIS_TYPE_RESERVED_15 AIS_TYPE = 15 // AIS_TYPE_RESERVED_16 enum AIS_TYPE_RESERVED_16 AIS_TYPE = 16 // AIS_TYPE_RESERVED_17 enum AIS_TYPE_RESERVED_17 AIS_TYPE = 17 // AIS_TYPE_RESERVED_18 enum AIS_TYPE_RESERVED_18 AIS_TYPE = 18 // AIS_TYPE_RESERVED_19 enum AIS_TYPE_RESERVED_19 AIS_TYPE = 19 // AIS_TYPE_WIG enum. Wing In Ground effect AIS_TYPE_WIG AIS_TYPE = 20 // AIS_TYPE_WIG_HAZARDOUS_A enum AIS_TYPE_WIG_HAZARDOUS_A AIS_TYPE = 21 // AIS_TYPE_WIG_HAZARDOUS_B enum AIS_TYPE_WIG_HAZARDOUS_B AIS_TYPE = 22 // AIS_TYPE_WIG_HAZARDOUS_C enum AIS_TYPE_WIG_HAZARDOUS_C AIS_TYPE = 23 // AIS_TYPE_WIG_HAZARDOUS_D enum AIS_TYPE_WIG_HAZARDOUS_D AIS_TYPE = 24 // AIS_TYPE_WIG_RESERVED_1 enum AIS_TYPE_WIG_RESERVED_1 AIS_TYPE = 25 // AIS_TYPE_WIG_RESERVED_2 enum AIS_TYPE_WIG_RESERVED_2 AIS_TYPE = 26 // AIS_TYPE_WIG_RESERVED_3 enum AIS_TYPE_WIG_RESERVED_3 AIS_TYPE = 27 // AIS_TYPE_WIG_RESERVED_4 enum AIS_TYPE_WIG_RESERVED_4 AIS_TYPE = 28 // AIS_TYPE_WIG_RESERVED_5 enum AIS_TYPE_WIG_RESERVED_5 AIS_TYPE = 29 // AIS_TYPE_FISHING enum AIS_TYPE_FISHING AIS_TYPE = 30 // AIS_TYPE_TOWING enum AIS_TYPE_TOWING AIS_TYPE = 31 // AIS_TYPE_TOWING_LARGE enum. Towing: length exceeds 200m or breadth exceeds 25m AIS_TYPE_TOWING_LARGE AIS_TYPE = 32 // AIS_TYPE_DREDGING enum. Dredging or other underwater ops AIS_TYPE_DREDGING AIS_TYPE = 33 // AIS_TYPE_DIVING enum AIS_TYPE_DIVING AIS_TYPE = 34 // AIS_TYPE_MILITARY enum AIS_TYPE_MILITARY AIS_TYPE = 35 // AIS_TYPE_SAILING enum AIS_TYPE_SAILING AIS_TYPE = 36 // AIS_TYPE_PLEASURE enum AIS_TYPE_PLEASURE AIS_TYPE = 37 // AIS_TYPE_RESERVED_20 enum AIS_TYPE_RESERVED_20 AIS_TYPE = 38 // AIS_TYPE_RESERVED_21 enum AIS_TYPE_RESERVED_21 AIS_TYPE = 39 // AIS_TYPE_HSC enum. High Speed Craft AIS_TYPE_HSC AIS_TYPE = 40 // AIS_TYPE_HSC_HAZARDOUS_A enum AIS_TYPE_HSC_HAZARDOUS_A AIS_TYPE = 41 // AIS_TYPE_HSC_HAZARDOUS_B enum AIS_TYPE_HSC_HAZARDOUS_B AIS_TYPE = 42 // AIS_TYPE_HSC_HAZARDOUS_C enum AIS_TYPE_HSC_HAZARDOUS_C AIS_TYPE = 43 // AIS_TYPE_HSC_HAZARDOUS_D enum AIS_TYPE_HSC_HAZARDOUS_D AIS_TYPE = 44 // AIS_TYPE_HSC_RESERVED_1 enum AIS_TYPE_HSC_RESERVED_1 AIS_TYPE = 45 // AIS_TYPE_HSC_RESERVED_2 enum AIS_TYPE_HSC_RESERVED_2 AIS_TYPE = 46 // AIS_TYPE_HSC_RESERVED_3 enum AIS_TYPE_HSC_RESERVED_3 AIS_TYPE = 47 // AIS_TYPE_HSC_RESERVED_4 enum AIS_TYPE_HSC_RESERVED_4 AIS_TYPE = 48 // AIS_TYPE_HSC_UNKNOWN enum AIS_TYPE_HSC_UNKNOWN AIS_TYPE = 49 // AIS_TYPE_PILOT enum AIS_TYPE_PILOT AIS_TYPE = 50 // AIS_TYPE_SAR enum. Search And Rescue vessel AIS_TYPE_SAR AIS_TYPE = 51 // AIS_TYPE_TUG enum AIS_TYPE_TUG AIS_TYPE = 52 // AIS_TYPE_PORT_TENDER enum AIS_TYPE_PORT_TENDER AIS_TYPE = 53 // AIS_TYPE_ANTI_POLLUTION enum. Anti-pollution equipment AIS_TYPE_ANTI_POLLUTION AIS_TYPE = 54 // AIS_TYPE_LAW_ENFORCEMENT enum AIS_TYPE_LAW_ENFORCEMENT AIS_TYPE = 55 // AIS_TYPE_SPARE_LOCAL_1 enum AIS_TYPE_SPARE_LOCAL_1 AIS_TYPE = 56 // AIS_TYPE_SPARE_LOCAL_2 enum AIS_TYPE_SPARE_LOCAL_2 AIS_TYPE = 57 // AIS_TYPE_MEDICAL_TRANSPORT enum AIS_TYPE_MEDICAL_TRANSPORT AIS_TYPE = 58 // AIS_TYPE_NONECOMBATANT enum. Noncombatant ship according to RR Resolution No. 18 AIS_TYPE_NONECOMBATANT AIS_TYPE = 59 // AIS_TYPE_PASSENGER enum AIS_TYPE_PASSENGER AIS_TYPE = 60 // AIS_TYPE_PASSENGER_HAZARDOUS_A enum AIS_TYPE_PASSENGER_HAZARDOUS_A AIS_TYPE = 61 // AIS_TYPE_PASSENGER_HAZARDOUS_B enum AIS_TYPE_PASSENGER_HAZARDOUS_B AIS_TYPE = 62 // AIS_TYPE_AIS_TYPE_PASSENGER_HAZARDOUS_C enum AIS_TYPE_AIS_TYPE_PASSENGER_HAZARDOUS_C AIS_TYPE = 63 // AIS_TYPE_PASSENGER_HAZARDOUS_D enum AIS_TYPE_PASSENGER_HAZARDOUS_D AIS_TYPE = 64 // AIS_TYPE_PASSENGER_RESERVED_1 enum AIS_TYPE_PASSENGER_RESERVED_1 AIS_TYPE = 65 // AIS_TYPE_PASSENGER_RESERVED_2 enum AIS_TYPE_PASSENGER_RESERVED_2 AIS_TYPE = 66 // AIS_TYPE_PASSENGER_RESERVED_3 enum AIS_TYPE_PASSENGER_RESERVED_3 AIS_TYPE = 67 // AIS_TYPE_AIS_TYPE_PASSENGER_RESERVED_4 enum AIS_TYPE_AIS_TYPE_PASSENGER_RESERVED_4 AIS_TYPE = 68 // AIS_TYPE_PASSENGER_UNKNOWN enum AIS_TYPE_PASSENGER_UNKNOWN AIS_TYPE = 69 // AIS_TYPE_CARGO enum AIS_TYPE_CARGO AIS_TYPE = 70 // AIS_TYPE_CARGO_HAZARDOUS_A enum AIS_TYPE_CARGO_HAZARDOUS_A AIS_TYPE = 71 // AIS_TYPE_CARGO_HAZARDOUS_B enum AIS_TYPE_CARGO_HAZARDOUS_B AIS_TYPE = 72 // AIS_TYPE_CARGO_HAZARDOUS_C enum AIS_TYPE_CARGO_HAZARDOUS_C AIS_TYPE = 73 // AIS_TYPE_CARGO_HAZARDOUS_D enum AIS_TYPE_CARGO_HAZARDOUS_D AIS_TYPE = 74 // AIS_TYPE_CARGO_RESERVED_1 enum AIS_TYPE_CARGO_RESERVED_1 AIS_TYPE = 75 // AIS_TYPE_CARGO_RESERVED_2 enum AIS_TYPE_CARGO_RESERVED_2 AIS_TYPE = 76 // AIS_TYPE_CARGO_RESERVED_3 enum AIS_TYPE_CARGO_RESERVED_3 AIS_TYPE = 77 // AIS_TYPE_CARGO_RESERVED_4 enum AIS_TYPE_CARGO_RESERVED_4 AIS_TYPE = 78 // AIS_TYPE_CARGO_UNKNOWN enum AIS_TYPE_CARGO_UNKNOWN AIS_TYPE = 79 // AIS_TYPE_TANKER enum AIS_TYPE_TANKER AIS_TYPE = 80 // AIS_TYPE_TANKER_HAZARDOUS_A enum AIS_TYPE_TANKER_HAZARDOUS_A AIS_TYPE = 81 // AIS_TYPE_TANKER_HAZARDOUS_B enum AIS_TYPE_TANKER_HAZARDOUS_B AIS_TYPE = 82 // AIS_TYPE_TANKER_HAZARDOUS_C enum AIS_TYPE_TANKER_HAZARDOUS_C AIS_TYPE = 83 // AIS_TYPE_TANKER_HAZARDOUS_D enum AIS_TYPE_TANKER_HAZARDOUS_D AIS_TYPE = 84 // AIS_TYPE_TANKER_RESERVED_1 enum AIS_TYPE_TANKER_RESERVED_1 AIS_TYPE = 85 // AIS_TYPE_TANKER_RESERVED_2 enum AIS_TYPE_TANKER_RESERVED_2 AIS_TYPE = 86 // AIS_TYPE_TANKER_RESERVED_3 enum AIS_TYPE_TANKER_RESERVED_3 AIS_TYPE = 87 // AIS_TYPE_TANKER_RESERVED_4 enum AIS_TYPE_TANKER_RESERVED_4 AIS_TYPE = 88 // AIS_TYPE_TANKER_UNKNOWN enum AIS_TYPE_TANKER_UNKNOWN AIS_TYPE = 89 // AIS_TYPE_OTHER enum AIS_TYPE_OTHER AIS_TYPE = 90 // AIS_TYPE_OTHER_HAZARDOUS_A enum AIS_TYPE_OTHER_HAZARDOUS_A AIS_TYPE = 91 // AIS_TYPE_OTHER_HAZARDOUS_B enum AIS_TYPE_OTHER_HAZARDOUS_B AIS_TYPE = 92 // AIS_TYPE_OTHER_HAZARDOUS_C enum AIS_TYPE_OTHER_HAZARDOUS_C AIS_TYPE = 93 // AIS_TYPE_OTHER_HAZARDOUS_D enum AIS_TYPE_OTHER_HAZARDOUS_D AIS_TYPE = 94 // AIS_TYPE_OTHER_RESERVED_1 enum AIS_TYPE_OTHER_RESERVED_1 AIS_TYPE = 95 // AIS_TYPE_OTHER_RESERVED_2 enum AIS_TYPE_OTHER_RESERVED_2 AIS_TYPE = 96 // AIS_TYPE_OTHER_RESERVED_3 enum AIS_TYPE_OTHER_RESERVED_3 AIS_TYPE = 97 // AIS_TYPE_OTHER_RESERVED_4 enum AIS_TYPE_OTHER_RESERVED_4 AIS_TYPE = 98 // AIS_TYPE_OTHER_UNKNOWN enum AIS_TYPE_OTHER_UNKNOWN AIS_TYPE = 99 )
func (AIS_TYPE) MarshalBinary ¶
MarshalBinary generic func
func (*AIS_TYPE) UnmarshalBinary ¶
UnmarshalBinary generic func
type ATTITUDE_TARGET_TYPEMASK ¶
type ATTITUDE_TARGET_TYPEMASK int
ATTITUDE_TARGET_TYPEMASK type. Bitmap to indicate which dimensions should be ignored by the vehicle: a value of 0b00000000 indicates that none of the setpoint dimensions should be ignored.
const ( // ATTITUDE_TARGET_TYPEMASK_BODY_ROLL_RATE_IGNORE enum. Ignore body roll rate ATTITUDE_TARGET_TYPEMASK_BODY_ROLL_RATE_IGNORE ATTITUDE_TARGET_TYPEMASK = 1 // ATTITUDE_TARGET_TYPEMASK_BODY_PITCH_RATE_IGNORE enum. Ignore body pitch rate ATTITUDE_TARGET_TYPEMASK_BODY_PITCH_RATE_IGNORE ATTITUDE_TARGET_TYPEMASK = 2 // ATTITUDE_TARGET_TYPEMASK_BODY_YAW_RATE_IGNORE enum. Ignore body yaw rate ATTITUDE_TARGET_TYPEMASK_BODY_YAW_RATE_IGNORE ATTITUDE_TARGET_TYPEMASK = 4 // ATTITUDE_TARGET_TYPEMASK_THROTTLE_IGNORE enum. Ignore throttle ATTITUDE_TARGET_TYPEMASK_THROTTLE_IGNORE ATTITUDE_TARGET_TYPEMASK = 64 // ATTITUDE_TARGET_TYPEMASK_ATTITUDE_IGNORE enum. Ignore attitude ATTITUDE_TARGET_TYPEMASK_ATTITUDE_IGNORE ATTITUDE_TARGET_TYPEMASK = 128 )
func (ATTITUDE_TARGET_TYPEMASK) Bitmask ¶
func (e ATTITUDE_TARGET_TYPEMASK) Bitmask() string
Bitmask return string representetion of intersects ATTITUDE_TARGET_TYPEMASK enums
func (ATTITUDE_TARGET_TYPEMASK) MarshalBinary ¶
func (e ATTITUDE_TARGET_TYPEMASK) MarshalBinary() (data []byte, err error)
MarshalBinary generic func
func (ATTITUDE_TARGET_TYPEMASK) String ¶
func (e ATTITUDE_TARGET_TYPEMASK) String() string
func (*ATTITUDE_TARGET_TYPEMASK) UnmarshalBinary ¶
func (e *ATTITUDE_TARGET_TYPEMASK) UnmarshalBinary(data []byte) error
UnmarshalBinary generic func
type ActuatorControlTarget ¶
type ActuatorControlTarget struct { TimeUsec uint64 `json:"TimeUsec" ` // [ us ] Timestamp (UNIX Epoch time or time since system boot). The receiving end can infer timestamp format (since 1.1.1970 or since system boot) by checking for the magnitude of the number. Controls []float32 `json:"Controls" len:"8" ` // Actuator controls. Normed to -1..+1 where 0 is neutral position. Throttle for single rotation direction motors is 0..1, negative range for reverse direction. Standard mapping for attitude controls (group 0): (index 0-7): roll, pitch, yaw, throttle, flaps, spoilers, airbrakes, landing gear. Load a pass-through mixer to repurpose them as generic outputs. GroupMlx uint8 `json:"GroupMlx" ` // Actuator group. The "_mlx" indicates this is a multi-instance message and a MAVLink parser should use this field to difference between instances. }
ActuatorControlTarget struct (generated typeinfo) Set the vehicle attitude and body angular rates.
func (*ActuatorControlTarget) Dict ¶
func (m *ActuatorControlTarget) Dict() map[string]interface{}
ToMap (generated function)
func (*ActuatorControlTarget) Marshal ¶
func (m *ActuatorControlTarget) Marshal() ([]byte, error)
Marshal (generated function)
func (ActuatorControlTarget) MarshalEasyJSON ¶ added in v1.5.0
func (v ActuatorControlTarget) MarshalEasyJSON(w *jwriter.Writer)
MarshalEasyJSON supports easyjson.Marshaler interface
func (ActuatorControlTarget) MarshalJSON ¶ added in v1.5.0
func (v ActuatorControlTarget) MarshalJSON() ([]byte, error)
MarshalJSON supports json.Marshaler interface
func (*ActuatorControlTarget) MsgID ¶
func (m *ActuatorControlTarget) MsgID() message.MessageID
MsgID (generated function)
func (*ActuatorControlTarget) String ¶
func (m *ActuatorControlTarget) String() string
String (generated function)
func (*ActuatorControlTarget) Unmarshal ¶
func (m *ActuatorControlTarget) Unmarshal(data []byte) error
Unmarshal (generated function)
func (*ActuatorControlTarget) UnmarshalEasyJSON ¶ added in v1.5.0
func (v *ActuatorControlTarget) UnmarshalEasyJSON(l *jlexer.Lexer)
UnmarshalEasyJSON supports easyjson.Unmarshaler interface
func (*ActuatorControlTarget) UnmarshalJSON ¶ added in v1.5.0
func (v *ActuatorControlTarget) UnmarshalJSON(data []byte) error
UnmarshalJSON supports json.Unmarshaler interface
type AdsbVehicle ¶
type AdsbVehicle struct { IcaoAddress uint32 `json:"IcaoAddress" ` // ICAO address Lat int32 `json:"Lat" ` // [ degE7 ] Latitude Lon int32 `json:"Lon" ` // [ degE7 ] Longitude Altitude int32 `json:"Altitude" ` // [ mm ] Altitude(ASL) Heading uint16 `json:"Heading" ` // [ cdeg ] Course over ground HorVelocity uint16 `json:"HorVelocity" ` // [ cm/s ] The horizontal velocity VerVelocity int16 `json:"VerVelocity" ` // [ cm/s ] The vertical velocity. Positive is up Flags ADSB_FLAGS `json:"Flags" ` // Bitmap to indicate various statuses including valid data fields Squawk uint16 `json:"Squawk" ` // Squawk code AltitudeType ADSB_ALTITUDE_TYPE `json:"AltitudeType" ` // ADSB altitude type. Callsign string `json:"Callsign" len:"9" ` // The callsign, 8+null EmitterType ADSB_EMITTER_TYPE `json:"EmitterType" ` // ADSB emitter type. Tslc uint8 `json:"Tslc" ` // [ s ] Time since last communication in seconds }
AdsbVehicle struct (generated typeinfo) The location and information of an ADSB vehicle
func (*AdsbVehicle) Dict ¶
func (m *AdsbVehicle) Dict() map[string]interface{}
ToMap (generated function)
func (*AdsbVehicle) Marshal ¶
func (m *AdsbVehicle) Marshal() ([]byte, error)
Marshal (generated function)
func (AdsbVehicle) MarshalEasyJSON ¶ added in v1.5.0
func (v AdsbVehicle) MarshalEasyJSON(w *jwriter.Writer)
MarshalEasyJSON supports easyjson.Marshaler interface
func (AdsbVehicle) MarshalJSON ¶ added in v1.5.0
func (v AdsbVehicle) MarshalJSON() ([]byte, error)
MarshalJSON supports json.Marshaler interface
func (*AdsbVehicle) MsgID ¶
func (m *AdsbVehicle) MsgID() message.MessageID
MsgID (generated function)
func (*AdsbVehicle) Unmarshal ¶
func (m *AdsbVehicle) Unmarshal(data []byte) error
Unmarshal (generated function)
func (*AdsbVehicle) UnmarshalEasyJSON ¶ added in v1.5.0
func (v *AdsbVehicle) UnmarshalEasyJSON(l *jlexer.Lexer)
UnmarshalEasyJSON supports easyjson.Unmarshaler interface
func (*AdsbVehicle) UnmarshalJSON ¶ added in v1.5.0
func (v *AdsbVehicle) UnmarshalJSON(data []byte) error
UnmarshalJSON supports json.Unmarshaler interface
type Altitude ¶
type Altitude struct { TimeUsec uint64 `json:"TimeUsec" ` // [ us ] Timestamp (UNIX Epoch time or time since system boot). The receiving end can infer timestamp format (since 1.1.1970 or since system boot) by checking for the magnitude of the number. AltitudeMonotonic float32 `json:"AltitudeMonotonic" ` // [ m ] This altitude measure is initialized on system boot and monotonic (it is never reset, but represents the local altitude change). The only guarantee on this field is that it will never be reset and is consistent within a flight. The recommended value for this field is the uncorrected barometric altitude at boot time. This altitude will also drift and vary between flights. AltitudeAmsl float32 `json:"AltitudeAmsl" ` // [ m ] This altitude measure is strictly above mean sea level and might be non-monotonic (it might reset on events like GPS lock or when a new QNH value is set). It should be the altitude to which global altitude waypoints are compared to. Note that it is *not* the GPS altitude, however, most GPS modules already output MSL by default and not the WGS84 altitude. AltitudeLocal float32 `json:"AltitudeLocal" ` // [ m ] This is the local altitude in the local coordinate frame. It is not the altitude above home, but in reference to the coordinate origin (0, 0, 0). It is up-positive. AltitudeRelative float32 `json:"AltitudeRelative" ` // [ m ] This is the altitude above the home position. It resets on each change of the current home position. AltitudeTerrain float32 `json:"AltitudeTerrain" ` // [ m ] This is the altitude above terrain. It might be fed by a terrain database or an altimeter. Values smaller than -1000 should be interpreted as unknown. BottomClearance float32 `json:"BottomClearance" ` // [ m ] This is not the altitude, but the clear space below the system according to the fused clearance estimate. It generally should max out at the maximum range of e.g. the laser altimeter. It is generally a moving target. A negative value indicates no measurement available. }
Altitude struct (generated typeinfo) The current system altitude.
func (Altitude) MarshalEasyJSON ¶ added in v1.5.0
MarshalEasyJSON supports easyjson.Marshaler interface
func (Altitude) MarshalJSON ¶ added in v1.5.0
MarshalJSON supports json.Marshaler interface
func (*Altitude) UnmarshalEasyJSON ¶ added in v1.5.0
UnmarshalEasyJSON supports easyjson.Unmarshaler interface
func (*Altitude) UnmarshalJSON ¶ added in v1.5.0
UnmarshalJSON supports json.Unmarshaler interface
type AttPosMocap ¶
type AttPosMocap struct { TimeUsec uint64 `json:"TimeUsec" ` // [ us ] Timestamp (UNIX Epoch time or time since system boot). The receiving end can infer timestamp format (since 1.1.1970 or since system boot) by checking for the magnitude of the number. Q []float32 `json:"Q" len:"4" ` // Attitude quaternion (w, x, y, z order, zero-rotation is 1, 0, 0, 0) X float32 `json:"X" ` // [ m ] X position (NED) Y float32 `json:"Y" ` // [ m ] Y position (NED) Z float32 `json:"Z" ` // [ m ] Z position (NED) }
AttPosMocap struct (generated typeinfo) Motion capture attitude and position
func (*AttPosMocap) Dict ¶
func (m *AttPosMocap) Dict() map[string]interface{}
ToMap (generated function)
func (*AttPosMocap) Marshal ¶
func (m *AttPosMocap) Marshal() ([]byte, error)
Marshal (generated function)
func (AttPosMocap) MarshalEasyJSON ¶ added in v1.5.0
func (v AttPosMocap) MarshalEasyJSON(w *jwriter.Writer)
MarshalEasyJSON supports easyjson.Marshaler interface
func (AttPosMocap) MarshalJSON ¶ added in v1.5.0
func (v AttPosMocap) MarshalJSON() ([]byte, error)
MarshalJSON supports json.Marshaler interface
func (*AttPosMocap) MsgID ¶
func (m *AttPosMocap) MsgID() message.MessageID
MsgID (generated function)
func (*AttPosMocap) Unmarshal ¶
func (m *AttPosMocap) Unmarshal(data []byte) error
Unmarshal (generated function)
func (*AttPosMocap) UnmarshalEasyJSON ¶ added in v1.5.0
func (v *AttPosMocap) UnmarshalEasyJSON(l *jlexer.Lexer)
UnmarshalEasyJSON supports easyjson.Unmarshaler interface
func (*AttPosMocap) UnmarshalJSON ¶ added in v1.5.0
func (v *AttPosMocap) UnmarshalJSON(data []byte) error
UnmarshalJSON supports json.Unmarshaler interface
type Attitude ¶
type Attitude struct { TimeBootMs uint32 `json:"TimeBootMs" ` // [ ms ] Timestamp (time since system boot). Roll float32 `json:"Roll" ` // [ rad ] Roll angle (-pi..+pi) Pitch float32 `json:"Pitch" ` // [ rad ] Pitch angle (-pi..+pi) Yaw float32 `json:"Yaw" ` // [ rad ] Yaw angle (-pi..+pi) Rollspeed float32 `json:"Rollspeed" ` // [ rad/s ] Roll angular speed Pitchspeed float32 `json:"Pitchspeed" ` // [ rad/s ] Pitch angular speed Yawspeed float32 `json:"Yawspeed" ` // [ rad/s ] Yaw angular speed }
Attitude struct (generated typeinfo) The attitude in the aeronautical frame (right-handed, Z-down, X-front, Y-right).
func (Attitude) MarshalEasyJSON ¶ added in v1.5.0
MarshalEasyJSON supports easyjson.Marshaler interface
func (Attitude) MarshalJSON ¶ added in v1.5.0
MarshalJSON supports json.Marshaler interface
func (*Attitude) UnmarshalEasyJSON ¶ added in v1.5.0
UnmarshalEasyJSON supports easyjson.Unmarshaler interface
func (*Attitude) UnmarshalJSON ¶ added in v1.5.0
UnmarshalJSON supports json.Unmarshaler interface
type AttitudeQuaternion ¶
type AttitudeQuaternion struct { TimeBootMs uint32 `json:"TimeBootMs" ` // [ ms ] Timestamp (time since system boot). Q1 float32 `json:"Q1" ` // Quaternion component 1, w (1 in null-rotation) Q2 float32 `json:"Q2" ` // Quaternion component 2, x (0 in null-rotation) Q3 float32 `json:"Q3" ` // Quaternion component 3, y (0 in null-rotation) Q4 float32 `json:"Q4" ` // Quaternion component 4, z (0 in null-rotation) Rollspeed float32 `json:"Rollspeed" ` // [ rad/s ] Roll angular speed Pitchspeed float32 `json:"Pitchspeed" ` // [ rad/s ] Pitch angular speed Yawspeed float32 `json:"Yawspeed" ` // [ rad/s ] Yaw angular speed }
AttitudeQuaternion struct (generated typeinfo) The attitude in the aeronautical frame (right-handed, Z-down, X-front, Y-right), expressed as quaternion. Quaternion order is w, x, y, z and a zero rotation would be expressed as (1 0 0 0).
func (*AttitudeQuaternion) Dict ¶
func (m *AttitudeQuaternion) Dict() map[string]interface{}
ToMap (generated function)
func (*AttitudeQuaternion) Marshal ¶
func (m *AttitudeQuaternion) Marshal() ([]byte, error)
Marshal (generated function)
func (AttitudeQuaternion) MarshalEasyJSON ¶ added in v1.5.0
func (v AttitudeQuaternion) MarshalEasyJSON(w *jwriter.Writer)
MarshalEasyJSON supports easyjson.Marshaler interface
func (AttitudeQuaternion) MarshalJSON ¶ added in v1.5.0
func (v AttitudeQuaternion) MarshalJSON() ([]byte, error)
MarshalJSON supports json.Marshaler interface
func (*AttitudeQuaternion) MsgID ¶
func (m *AttitudeQuaternion) MsgID() message.MessageID
MsgID (generated function)
func (*AttitudeQuaternion) String ¶
func (m *AttitudeQuaternion) String() string
String (generated function)
func (*AttitudeQuaternion) Unmarshal ¶
func (m *AttitudeQuaternion) Unmarshal(data []byte) error
Unmarshal (generated function)
func (*AttitudeQuaternion) UnmarshalEasyJSON ¶ added in v1.5.0
func (v *AttitudeQuaternion) UnmarshalEasyJSON(l *jlexer.Lexer)
UnmarshalEasyJSON supports easyjson.Unmarshaler interface
func (*AttitudeQuaternion) UnmarshalJSON ¶ added in v1.5.0
func (v *AttitudeQuaternion) UnmarshalJSON(data []byte) error
UnmarshalJSON supports json.Unmarshaler interface
type AttitudeQuaternionCov ¶
type AttitudeQuaternionCov struct { TimeUsec uint64 `json:"TimeUsec" ` // [ us ] Timestamp (UNIX Epoch time or time since system boot). The receiving end can infer timestamp format (since 1.1.1970 or since system boot) by checking for the magnitude of the number. Q []float32 `json:"Q" len:"4" ` // Quaternion components, w, x, y, z (1 0 0 0 is the null-rotation) Rollspeed float32 `json:"Rollspeed" ` // [ rad/s ] Roll angular speed Pitchspeed float32 `json:"Pitchspeed" ` // [ rad/s ] Pitch angular speed Yawspeed float32 `json:"Yawspeed" ` // [ rad/s ] Yaw angular speed Covariance []float32 `json:"Covariance" len:"9" ` // Row-major representation of a 3x3 attitude covariance matrix (states: roll, pitch, yaw; first three entries are the first ROW, next three entries are the second row, etc.). If unknown, assign NaN value to first element in the array. }
AttitudeQuaternionCov struct (generated typeinfo) The attitude in the aeronautical frame (right-handed, Z-down, X-front, Y-right), expressed as quaternion. Quaternion order is w, x, y, z and a zero rotation would be expressed as (1 0 0 0).
func (*AttitudeQuaternionCov) Dict ¶
func (m *AttitudeQuaternionCov) Dict() map[string]interface{}
ToMap (generated function)
func (*AttitudeQuaternionCov) Marshal ¶
func (m *AttitudeQuaternionCov) Marshal() ([]byte, error)
Marshal (generated function)
func (AttitudeQuaternionCov) MarshalEasyJSON ¶ added in v1.5.0
func (v AttitudeQuaternionCov) MarshalEasyJSON(w *jwriter.Writer)
MarshalEasyJSON supports easyjson.Marshaler interface
func (AttitudeQuaternionCov) MarshalJSON ¶ added in v1.5.0
func (v AttitudeQuaternionCov) MarshalJSON() ([]byte, error)
MarshalJSON supports json.Marshaler interface
func (*AttitudeQuaternionCov) MsgID ¶
func (m *AttitudeQuaternionCov) MsgID() message.MessageID
MsgID (generated function)
func (*AttitudeQuaternionCov) String ¶
func (m *AttitudeQuaternionCov) String() string
String (generated function)
func (*AttitudeQuaternionCov) Unmarshal ¶
func (m *AttitudeQuaternionCov) Unmarshal(data []byte) error
Unmarshal (generated function)
func (*AttitudeQuaternionCov) UnmarshalEasyJSON ¶ added in v1.5.0
func (v *AttitudeQuaternionCov) UnmarshalEasyJSON(l *jlexer.Lexer)
UnmarshalEasyJSON supports easyjson.Unmarshaler interface
func (*AttitudeQuaternionCov) UnmarshalJSON ¶ added in v1.5.0
func (v *AttitudeQuaternionCov) UnmarshalJSON(data []byte) error
UnmarshalJSON supports json.Unmarshaler interface
type AttitudeTarget ¶
type AttitudeTarget struct { TimeBootMs uint32 `json:"TimeBootMs" ` // [ ms ] Timestamp (time since system boot). Q []float32 `json:"Q" len:"4" ` // Attitude quaternion (w, x, y, z order, zero-rotation is 1, 0, 0, 0) BodyRollRate float32 `json:"BodyRollRate" ` // [ rad/s ] Body roll rate BodyPitchRate float32 `json:"BodyPitchRate" ` // [ rad/s ] Body pitch rate BodyYawRate float32 `json:"BodyYawRate" ` // [ rad/s ] Body yaw rate Thrust float32 `json:"Thrust" ` // Collective thrust, normalized to 0 .. 1 (-1 .. 1 for vehicles capable of reverse trust) TypeMask ATTITUDE_TARGET_TYPEMASK `json:"TypeMask" ` // Bitmap to indicate which dimensions should be ignored by the vehicle. }
AttitudeTarget struct (generated typeinfo) Reports the current commanded attitude of the vehicle as specified by the autopilot. This should match the commands sent in a SET_ATTITUDE_TARGET message if the vehicle is being controlled this way.
func (*AttitudeTarget) Dict ¶
func (m *AttitudeTarget) Dict() map[string]interface{}
ToMap (generated function)
func (*AttitudeTarget) Marshal ¶
func (m *AttitudeTarget) Marshal() ([]byte, error)
Marshal (generated function)
func (AttitudeTarget) MarshalEasyJSON ¶ added in v1.5.0
func (v AttitudeTarget) MarshalEasyJSON(w *jwriter.Writer)
MarshalEasyJSON supports easyjson.Marshaler interface
func (AttitudeTarget) MarshalJSON ¶ added in v1.5.0
func (v AttitudeTarget) MarshalJSON() ([]byte, error)
MarshalJSON supports json.Marshaler interface
func (*AttitudeTarget) MsgID ¶
func (m *AttitudeTarget) MsgID() message.MessageID
MsgID (generated function)
func (*AttitudeTarget) String ¶
func (m *AttitudeTarget) String() string
String (generated function)
func (*AttitudeTarget) Unmarshal ¶
func (m *AttitudeTarget) Unmarshal(data []byte) error
Unmarshal (generated function)
func (*AttitudeTarget) UnmarshalEasyJSON ¶ added in v1.5.0
func (v *AttitudeTarget) UnmarshalEasyJSON(l *jlexer.Lexer)
UnmarshalEasyJSON supports easyjson.Unmarshaler interface
func (*AttitudeTarget) UnmarshalJSON ¶ added in v1.5.0
func (v *AttitudeTarget) UnmarshalJSON(data []byte) error
UnmarshalJSON supports json.Unmarshaler interface
type AuthKey ¶
type AuthKey struct {
Key string `json:"Key" len:"32" ` // key
}
AuthKey struct (generated typeinfo) Emit an encrypted signature / key identifying this system. PLEASE NOTE: This protocol has been kept simple, so transmitting the key requires an encrypted channel for true safety.
func (AuthKey) MarshalEasyJSON ¶ added in v1.5.0
MarshalEasyJSON supports easyjson.Marshaler interface
func (AuthKey) MarshalJSON ¶ added in v1.5.0
MarshalJSON supports json.Marshaler interface
func (*AuthKey) UnmarshalEasyJSON ¶ added in v1.5.0
UnmarshalEasyJSON supports easyjson.Unmarshaler interface
func (*AuthKey) UnmarshalJSON ¶ added in v1.5.0
UnmarshalJSON supports json.Unmarshaler interface
type AutopilotVersion ¶
type AutopilotVersion struct { Capabilities MAV_PROTOCOL_CAPABILITY `json:"Capabilities" ` // Bitmap of capabilities UID uint64 `json:"UID" ` // UID if provided by hardware (see uid2) FlightSwVersion uint32 `json:"FlightSwVersion" ` // Firmware version number MiddlewareSwVersion uint32 `json:"MiddlewareSwVersion" ` // Middleware version number OsSwVersion uint32 `json:"OsSwVersion" ` // Operating system version number BoardVersion uint32 `json:"BoardVersion" ` // HW / board version (last 8 bytes should be silicon ID, if any) VendorID uint16 `json:"VendorID" ` // ID of the board vendor ProductID uint16 `json:"ProductID" ` // ID of the product FlightCustomVersion []uint8 `json:"FlightCustomVersion" len:"8" ` // Custom version field, commonly the first 8 bytes of the git hash. This is not an unique identifier, but should allow to identify the commit using the main version number even for very large code bases. MiddlewareCustomVersion []uint8 `json:"MiddlewareCustomVersion" len:"8" ` // Custom version field, commonly the first 8 bytes of the git hash. This is not an unique identifier, but should allow to identify the commit using the main version number even for very large code bases. OsCustomVersion []uint8 `json:"OsCustomVersion" len:"8" ` // Custom version field, commonly the first 8 bytes of the git hash. This is not an unique identifier, but should allow to identify the commit using the main version number even for very large code bases. }
AutopilotVersion struct (generated typeinfo) Version and capability of autopilot software. This should be emitted in response to a request with MAV_CMD_REQUEST_MESSAGE.
func (*AutopilotVersion) Dict ¶
func (m *AutopilotVersion) Dict() map[string]interface{}
ToMap (generated function)
func (*AutopilotVersion) Marshal ¶
func (m *AutopilotVersion) Marshal() ([]byte, error)
Marshal (generated function)
func (AutopilotVersion) MarshalEasyJSON ¶ added in v1.5.0
func (v AutopilotVersion) MarshalEasyJSON(w *jwriter.Writer)
MarshalEasyJSON supports easyjson.Marshaler interface
func (AutopilotVersion) MarshalJSON ¶ added in v1.5.0
func (v AutopilotVersion) MarshalJSON() ([]byte, error)
MarshalJSON supports json.Marshaler interface
func (*AutopilotVersion) MsgID ¶
func (m *AutopilotVersion) MsgID() message.MessageID
MsgID (generated function)
func (*AutopilotVersion) String ¶
func (m *AutopilotVersion) String() string
String (generated function)
func (*AutopilotVersion) Unmarshal ¶
func (m *AutopilotVersion) Unmarshal(data []byte) error
Unmarshal (generated function)
func (*AutopilotVersion) UnmarshalEasyJSON ¶ added in v1.5.0
func (v *AutopilotVersion) UnmarshalEasyJSON(l *jlexer.Lexer)
UnmarshalEasyJSON supports easyjson.Unmarshaler interface
func (*AutopilotVersion) UnmarshalJSON ¶ added in v1.5.0
func (v *AutopilotVersion) UnmarshalJSON(data []byte) error
UnmarshalJSON supports json.Unmarshaler interface
type BatteryStatus ¶
type BatteryStatus struct { CurrentConsumed int32 `json:"CurrentConsumed" ` // [ mAh ] Consumed charge, -1: autopilot does not provide consumption estimate EnergyConsumed int32 `json:"EnergyConsumed" ` // [ hJ ] Consumed energy, -1: autopilot does not provide energy consumption estimate Temperature int16 `json:"Temperature" ` // [ cdegC ] Temperature of the battery. INT16_MAX for unknown temperature. Voltages []uint16 `json:"Voltages" len:"10" ` // [ mV ] Battery voltage of cells 1 to 10 (see voltages_ext for cells 11-14). Cells in this field above the valid cell count for this battery should have the UINT16_MAX value. If individual cell voltages are unknown or not measured for this battery, then the overall battery voltage should be filled in cell 0, with all others set to UINT16_MAX. If the voltage of the battery is greater than (UINT16_MAX - 1), then cell 0 should be set to (UINT16_MAX - 1), and cell 1 to the remaining voltage. This can be extended to multiple cells if the total voltage is greater than 2 * (UINT16_MAX - 1). CurrentBattery int16 `json:"CurrentBattery" ` // [ cA ] Battery current, -1: autopilot does not measure the current ID uint8 `json:"ID" ` // Battery ID BatteryFunction MAV_BATTERY_FUNCTION `json:"BatteryFunction" ` // Function of the battery Type MAV_BATTERY_TYPE `json:"Type" ` // Type (chemistry) of the battery BatteryRemaining int8 `json:"BatteryRemaining" ` // [ % ] Remaining battery energy. Values: [0-100], -1: autopilot does not estimate the remaining battery. }
BatteryStatus struct (generated typeinfo) Battery information. Updates GCS with flight controller battery status. Smart batteries also use this message, but may additionally send SMART_BATTERY_INFO.
func (*BatteryStatus) Dict ¶
func (m *BatteryStatus) Dict() map[string]interface{}
ToMap (generated function)
func (*BatteryStatus) Marshal ¶
func (m *BatteryStatus) Marshal() ([]byte, error)
Marshal (generated function)
func (BatteryStatus) MarshalEasyJSON ¶ added in v1.5.0
func (v BatteryStatus) MarshalEasyJSON(w *jwriter.Writer)
MarshalEasyJSON supports easyjson.Marshaler interface
func (BatteryStatus) MarshalJSON ¶ added in v1.5.0
func (v BatteryStatus) MarshalJSON() ([]byte, error)
MarshalJSON supports json.Marshaler interface
func (*BatteryStatus) MsgID ¶
func (m *BatteryStatus) MsgID() message.MessageID
MsgID (generated function)
func (*BatteryStatus) Unmarshal ¶
func (m *BatteryStatus) Unmarshal(data []byte) error
Unmarshal (generated function)
func (*BatteryStatus) UnmarshalEasyJSON ¶ added in v1.5.0
func (v *BatteryStatus) UnmarshalEasyJSON(l *jlexer.Lexer)
UnmarshalEasyJSON supports easyjson.Unmarshaler interface
func (*BatteryStatus) UnmarshalJSON ¶ added in v1.5.0
func (v *BatteryStatus) UnmarshalJSON(data []byte) error
UnmarshalJSON supports json.Unmarshaler interface
type CAMERA_CAP_FLAGS ¶
type CAMERA_CAP_FLAGS int
CAMERA_CAP_FLAGS type. Camera capability flags (Bitmap)
const ( // CAMERA_CAP_FLAGS_CAPTURE_VIDEO enum. Camera is able to record video CAMERA_CAP_FLAGS_CAPTURE_VIDEO CAMERA_CAP_FLAGS = 1 // CAMERA_CAP_FLAGS_CAPTURE_IMAGE enum. Camera is able to capture images CAMERA_CAP_FLAGS_CAPTURE_IMAGE CAMERA_CAP_FLAGS = 2 // CAMERA_CAP_FLAGS_HAS_MODES enum. Camera has separate Video and Image/Photo modes (MAV_CMD_SET_CAMERA_MODE) CAMERA_CAP_FLAGS_HAS_MODES CAMERA_CAP_FLAGS = 4 // CAMERA_CAP_FLAGS_CAN_CAPTURE_IMAGE_IN_VIDEO_MODE enum. Camera can capture images while in video mode CAMERA_CAP_FLAGS_CAN_CAPTURE_IMAGE_IN_VIDEO_MODE CAMERA_CAP_FLAGS = 8 // CAMERA_CAP_FLAGS_CAN_CAPTURE_VIDEO_IN_IMAGE_MODE enum. Camera can capture videos while in Photo/Image mode CAMERA_CAP_FLAGS_CAN_CAPTURE_VIDEO_IN_IMAGE_MODE CAMERA_CAP_FLAGS = 16 // CAMERA_CAP_FLAGS_HAS_IMAGE_SURVEY_MODE enum. Camera has image survey mode (MAV_CMD_SET_CAMERA_MODE) CAMERA_CAP_FLAGS_HAS_IMAGE_SURVEY_MODE CAMERA_CAP_FLAGS = 32 // CAMERA_CAP_FLAGS_HAS_BASIC_ZOOM enum. Camera has basic zoom control (MAV_CMD_SET_CAMERA_ZOOM) CAMERA_CAP_FLAGS_HAS_BASIC_ZOOM CAMERA_CAP_FLAGS = 64 // CAMERA_CAP_FLAGS_HAS_BASIC_FOCUS enum. Camera has basic focus control (MAV_CMD_SET_CAMERA_FOCUS) CAMERA_CAP_FLAGS_HAS_BASIC_FOCUS CAMERA_CAP_FLAGS = 128 // CAMERA_CAP_FLAGS_HAS_VIDEO_STREAM enum. Camera has video streaming capabilities (request VIDEO_STREAM_INFORMATION with MAV_CMD_REQUEST_MESSAGE for video streaming info) CAMERA_CAP_FLAGS_HAS_VIDEO_STREAM CAMERA_CAP_FLAGS = 256 // CAMERA_CAP_FLAGS_HAS_TRACKING_POINT enum. Camera supports tracking of a point on the camera view CAMERA_CAP_FLAGS_HAS_TRACKING_POINT CAMERA_CAP_FLAGS = 512 // CAMERA_CAP_FLAGS_HAS_TRACKING_RECTANGLE enum. Camera supports tracking of a selection rectangle on the camera view CAMERA_CAP_FLAGS_HAS_TRACKING_RECTANGLE CAMERA_CAP_FLAGS = 1024 // CAMERA_CAP_FLAGS_HAS_TRACKING_GEO_STATUS enum. Camera supports tracking geo status (CAMERA_TRACKING_GEO_STATUS) CAMERA_CAP_FLAGS_HAS_TRACKING_GEO_STATUS CAMERA_CAP_FLAGS = 2048 )
func (CAMERA_CAP_FLAGS) Bitmask ¶
func (e CAMERA_CAP_FLAGS) Bitmask() string
Bitmask return string representetion of intersects CAMERA_CAP_FLAGS enums
func (CAMERA_CAP_FLAGS) MarshalBinary ¶
func (e CAMERA_CAP_FLAGS) MarshalBinary() (data []byte, err error)
MarshalBinary generic func
func (CAMERA_CAP_FLAGS) String ¶
func (e CAMERA_CAP_FLAGS) String() string
func (*CAMERA_CAP_FLAGS) UnmarshalBinary ¶
func (e *CAMERA_CAP_FLAGS) UnmarshalBinary(data []byte) error
UnmarshalBinary generic func
type CAMERA_MODE ¶
type CAMERA_MODE int
CAMERA_MODE type. Camera Modes.
const ( // CAMERA_MODE_IMAGE enum. Camera is in image/photo capture mode CAMERA_MODE_IMAGE CAMERA_MODE = 0 // CAMERA_MODE_VIDEO enum. Camera is in video capture mode CAMERA_MODE_VIDEO CAMERA_MODE = 1 // CAMERA_MODE_IMAGE_SURVEY enum. Camera is in image survey capture mode. It allows for camera controller to do specific settings for surveys CAMERA_MODE_IMAGE_SURVEY CAMERA_MODE = 2 )
func (CAMERA_MODE) Bitmask ¶
func (e CAMERA_MODE) Bitmask() string
Bitmask return string representetion of intersects CAMERA_MODE enums
func (CAMERA_MODE) MarshalBinary ¶
func (e CAMERA_MODE) MarshalBinary() (data []byte, err error)
MarshalBinary generic func
func (CAMERA_MODE) String ¶
func (e CAMERA_MODE) String() string
func (*CAMERA_MODE) UnmarshalBinary ¶
func (e *CAMERA_MODE) UnmarshalBinary(data []byte) error
UnmarshalBinary generic func
type CAMERA_TRACKING_MODE ¶
type CAMERA_TRACKING_MODE int
CAMERA_TRACKING_MODE type. Camera tracking modes
const ( // CAMERA_TRACKING_MODE_NONE enum. Not tracking CAMERA_TRACKING_MODE_NONE CAMERA_TRACKING_MODE = 0 // CAMERA_TRACKING_MODE_POINT enum. Target is a point CAMERA_TRACKING_MODE_POINT CAMERA_TRACKING_MODE = 1 // CAMERA_TRACKING_MODE_RECTANGLE enum. Target is a rectangle CAMERA_TRACKING_MODE_RECTANGLE CAMERA_TRACKING_MODE = 2 )
func (CAMERA_TRACKING_MODE) Bitmask ¶
func (e CAMERA_TRACKING_MODE) Bitmask() string
Bitmask return string representetion of intersects CAMERA_TRACKING_MODE enums
func (CAMERA_TRACKING_MODE) MarshalBinary ¶
func (e CAMERA_TRACKING_MODE) MarshalBinary() (data []byte, err error)
MarshalBinary generic func
func (CAMERA_TRACKING_MODE) String ¶
func (e CAMERA_TRACKING_MODE) String() string
func (*CAMERA_TRACKING_MODE) UnmarshalBinary ¶
func (e *CAMERA_TRACKING_MODE) UnmarshalBinary(data []byte) error
UnmarshalBinary generic func
type CAMERA_TRACKING_STATUS_FLAGS ¶
type CAMERA_TRACKING_STATUS_FLAGS int
CAMERA_TRACKING_STATUS_FLAGS type. Camera tracking status flags
const ( // CAMERA_TRACKING_STATUS_FLAGS_IDLE enum. Camera is not tracking CAMERA_TRACKING_STATUS_FLAGS_IDLE CAMERA_TRACKING_STATUS_FLAGS = 0 // CAMERA_TRACKING_STATUS_FLAGS_ACTIVE enum. Camera is tracking CAMERA_TRACKING_STATUS_FLAGS_ACTIVE CAMERA_TRACKING_STATUS_FLAGS = 1 // CAMERA_TRACKING_STATUS_FLAGS_ERROR enum. Camera tracking in error state CAMERA_TRACKING_STATUS_FLAGS_ERROR CAMERA_TRACKING_STATUS_FLAGS = 2 )
func (CAMERA_TRACKING_STATUS_FLAGS) Bitmask ¶
func (e CAMERA_TRACKING_STATUS_FLAGS) Bitmask() string
Bitmask return string representetion of intersects CAMERA_TRACKING_STATUS_FLAGS enums
func (CAMERA_TRACKING_STATUS_FLAGS) MarshalBinary ¶
func (e CAMERA_TRACKING_STATUS_FLAGS) MarshalBinary() (data []byte, err error)
MarshalBinary generic func
func (CAMERA_TRACKING_STATUS_FLAGS) String ¶
func (e CAMERA_TRACKING_STATUS_FLAGS) String() string
func (*CAMERA_TRACKING_STATUS_FLAGS) UnmarshalBinary ¶
func (e *CAMERA_TRACKING_STATUS_FLAGS) UnmarshalBinary(data []byte) error
UnmarshalBinary generic func
type CAMERA_TRACKING_TARGET_DATA ¶
type CAMERA_TRACKING_TARGET_DATA int
CAMERA_TRACKING_TARGET_DATA type. Camera tracking target data (shows where tracked target is within image)
const ( // CAMERA_TRACKING_TARGET_DATA_NONE enum. No target data CAMERA_TRACKING_TARGET_DATA_NONE CAMERA_TRACKING_TARGET_DATA = 0 // CAMERA_TRACKING_TARGET_DATA_EMBEDDED enum. Target data embedded in image data (proprietary) CAMERA_TRACKING_TARGET_DATA_EMBEDDED CAMERA_TRACKING_TARGET_DATA = 1 // CAMERA_TRACKING_TARGET_DATA_RENDERED enum. Target data rendered in image CAMERA_TRACKING_TARGET_DATA_RENDERED CAMERA_TRACKING_TARGET_DATA = 2 // CAMERA_TRACKING_TARGET_DATA_IN_STATUS enum. Target data within status message (Point or Rectangle) CAMERA_TRACKING_TARGET_DATA_IN_STATUS CAMERA_TRACKING_TARGET_DATA = 4 )
func (CAMERA_TRACKING_TARGET_DATA) Bitmask ¶
func (e CAMERA_TRACKING_TARGET_DATA) Bitmask() string
Bitmask return string representetion of intersects CAMERA_TRACKING_TARGET_DATA enums
func (CAMERA_TRACKING_TARGET_DATA) MarshalBinary ¶
func (e CAMERA_TRACKING_TARGET_DATA) MarshalBinary() (data []byte, err error)
MarshalBinary generic func
func (CAMERA_TRACKING_TARGET_DATA) String ¶
func (e CAMERA_TRACKING_TARGET_DATA) String() string
func (*CAMERA_TRACKING_TARGET_DATA) UnmarshalBinary ¶
func (e *CAMERA_TRACKING_TARGET_DATA) UnmarshalBinary(data []byte) error
UnmarshalBinary generic func
type CAMERA_ZOOM_TYPE ¶
type CAMERA_ZOOM_TYPE int
CAMERA_ZOOM_TYPE type. Zoom types for MAV_CMD_SET_CAMERA_ZOOM
const ( // ZOOM_TYPE_STEP enum. Zoom one step increment (-1 for wide, 1 for tele) ZOOM_TYPE_STEP CAMERA_ZOOM_TYPE = 0 // ZOOM_TYPE_CONTINUOUS enum. Continuous zoom up/down until stopped (-1 for wide, 1 for tele, 0 to stop zooming) ZOOM_TYPE_CONTINUOUS CAMERA_ZOOM_TYPE = 1 // ZOOM_TYPE_RANGE enum. Zoom value as proportion of full camera range (a value between 0.0 and 100.0) ZOOM_TYPE_RANGE CAMERA_ZOOM_TYPE = 2 // ZOOM_TYPE_FOCAL_LENGTH enum. Zoom value/variable focal length in milimetres. Note that there is no message to get the valid zoom range of the camera, so this can type can only be used for cameras where the zoom range is known (implying that this cannot reliably be used in a GCS for an arbitrary camera) ZOOM_TYPE_FOCAL_LENGTH CAMERA_ZOOM_TYPE = 3 )
func (CAMERA_ZOOM_TYPE) Bitmask ¶
func (e CAMERA_ZOOM_TYPE) Bitmask() string
Bitmask return string representetion of intersects CAMERA_ZOOM_TYPE enums
func (CAMERA_ZOOM_TYPE) MarshalBinary ¶
func (e CAMERA_ZOOM_TYPE) MarshalBinary() (data []byte, err error)
MarshalBinary generic func
func (CAMERA_ZOOM_TYPE) String ¶
func (e CAMERA_ZOOM_TYPE) String() string
func (*CAMERA_ZOOM_TYPE) UnmarshalBinary ¶
func (e *CAMERA_ZOOM_TYPE) UnmarshalBinary(data []byte) error
UnmarshalBinary generic func
type CELLULAR_CONFIG_RESPONSE ¶
type CELLULAR_CONFIG_RESPONSE int
CELLULAR_CONFIG_RESPONSE type. Possible responses from a CELLULAR_CONFIG message.
const ( // CELLULAR_CONFIG_RESPONSE_ACCEPTED enum. Changes accepted CELLULAR_CONFIG_RESPONSE_ACCEPTED CELLULAR_CONFIG_RESPONSE = 0 // CELLULAR_CONFIG_RESPONSE_APN_ERROR enum. Invalid APN CELLULAR_CONFIG_RESPONSE_APN_ERROR CELLULAR_CONFIG_RESPONSE = 1 // CELLULAR_CONFIG_RESPONSE_PIN_ERROR enum. Invalid PIN CELLULAR_CONFIG_RESPONSE_PIN_ERROR CELLULAR_CONFIG_RESPONSE = 2 // CELLULAR_CONFIG_RESPONSE_REJECTED enum. Changes rejected CELLULAR_CONFIG_RESPONSE_REJECTED CELLULAR_CONFIG_RESPONSE = 3 // CELLULAR_CONFIG_BLOCKED_PUK_REQUIRED enum. PUK is required to unblock SIM card CELLULAR_CONFIG_BLOCKED_PUK_REQUIRED CELLULAR_CONFIG_RESPONSE = 4 )
func (CELLULAR_CONFIG_RESPONSE) Bitmask ¶
func (e CELLULAR_CONFIG_RESPONSE) Bitmask() string
Bitmask return string representetion of intersects CELLULAR_CONFIG_RESPONSE enums
func (CELLULAR_CONFIG_RESPONSE) MarshalBinary ¶
func (e CELLULAR_CONFIG_RESPONSE) MarshalBinary() (data []byte, err error)
MarshalBinary generic func
func (CELLULAR_CONFIG_RESPONSE) String ¶
func (e CELLULAR_CONFIG_RESPONSE) String() string
func (*CELLULAR_CONFIG_RESPONSE) UnmarshalBinary ¶
func (e *CELLULAR_CONFIG_RESPONSE) UnmarshalBinary(data []byte) error
UnmarshalBinary generic func
type CELLULAR_NETWORK_FAILED_REASON ¶
type CELLULAR_NETWORK_FAILED_REASON int
CELLULAR_NETWORK_FAILED_REASON type. These flags are used to diagnose the failure state of CELLULAR_STATUS
const ( // CELLULAR_NETWORK_FAILED_REASON_NONE enum. No error CELLULAR_NETWORK_FAILED_REASON_NONE CELLULAR_NETWORK_FAILED_REASON = 0 // CELLULAR_NETWORK_FAILED_REASON_UNKNOWN enum. Error state is unknown CELLULAR_NETWORK_FAILED_REASON_UNKNOWN CELLULAR_NETWORK_FAILED_REASON = 1 // CELLULAR_NETWORK_FAILED_REASON_SIM_MISSING enum. SIM is required for the modem but missing CELLULAR_NETWORK_FAILED_REASON_SIM_MISSING CELLULAR_NETWORK_FAILED_REASON = 2 // CELLULAR_NETWORK_FAILED_REASON_SIM_ERROR enum. SIM is available, but not usuable for connection CELLULAR_NETWORK_FAILED_REASON_SIM_ERROR CELLULAR_NETWORK_FAILED_REASON = 3 )
func (CELLULAR_NETWORK_FAILED_REASON) Bitmask ¶
func (e CELLULAR_NETWORK_FAILED_REASON) Bitmask() string
Bitmask return string representetion of intersects CELLULAR_NETWORK_FAILED_REASON enums
func (CELLULAR_NETWORK_FAILED_REASON) MarshalBinary ¶
func (e CELLULAR_NETWORK_FAILED_REASON) MarshalBinary() (data []byte, err error)
MarshalBinary generic func
func (CELLULAR_NETWORK_FAILED_REASON) String ¶
func (e CELLULAR_NETWORK_FAILED_REASON) String() string
func (*CELLULAR_NETWORK_FAILED_REASON) UnmarshalBinary ¶
func (e *CELLULAR_NETWORK_FAILED_REASON) UnmarshalBinary(data []byte) error
UnmarshalBinary generic func
type CELLULAR_NETWORK_RADIO_TYPE ¶
type CELLULAR_NETWORK_RADIO_TYPE int
CELLULAR_NETWORK_RADIO_TYPE type. Cellular network radio type
const ( // CELLULAR_NETWORK_RADIO_TYPE_NONE enum CELLULAR_NETWORK_RADIO_TYPE_NONE CELLULAR_NETWORK_RADIO_TYPE = 0 // CELLULAR_NETWORK_RADIO_TYPE_GSM enum CELLULAR_NETWORK_RADIO_TYPE_GSM CELLULAR_NETWORK_RADIO_TYPE = 1 // CELLULAR_NETWORK_RADIO_TYPE_CDMA enum CELLULAR_NETWORK_RADIO_TYPE_CDMA CELLULAR_NETWORK_RADIO_TYPE = 2 // CELLULAR_NETWORK_RADIO_TYPE_WCDMA enum CELLULAR_NETWORK_RADIO_TYPE_WCDMA CELLULAR_NETWORK_RADIO_TYPE = 3 // CELLULAR_NETWORK_RADIO_TYPE_LTE enum CELLULAR_NETWORK_RADIO_TYPE_LTE CELLULAR_NETWORK_RADIO_TYPE = 4 )
func (CELLULAR_NETWORK_RADIO_TYPE) Bitmask ¶
func (e CELLULAR_NETWORK_RADIO_TYPE) Bitmask() string
Bitmask return string representetion of intersects CELLULAR_NETWORK_RADIO_TYPE enums
func (CELLULAR_NETWORK_RADIO_TYPE) MarshalBinary ¶
func (e CELLULAR_NETWORK_RADIO_TYPE) MarshalBinary() (data []byte, err error)
MarshalBinary generic func
func (CELLULAR_NETWORK_RADIO_TYPE) String ¶
func (e CELLULAR_NETWORK_RADIO_TYPE) String() string
func (*CELLULAR_NETWORK_RADIO_TYPE) UnmarshalBinary ¶
func (e *CELLULAR_NETWORK_RADIO_TYPE) UnmarshalBinary(data []byte) error
UnmarshalBinary generic func
type CELLULAR_STATUS_FLAG ¶
type CELLULAR_STATUS_FLAG int
CELLULAR_STATUS_FLAG type. These flags encode the cellular network status
const ( // CELLULAR_STATUS_FLAG_UNKNOWN enum. State unknown or not reportable CELLULAR_STATUS_FLAG_UNKNOWN CELLULAR_STATUS_FLAG = 0 // CELLULAR_STATUS_FLAG_FAILED enum. Modem is unusable CELLULAR_STATUS_FLAG_FAILED CELLULAR_STATUS_FLAG = 1 // CELLULAR_STATUS_FLAG_INITIALIZING enum. Modem is being initialized CELLULAR_STATUS_FLAG_INITIALIZING CELLULAR_STATUS_FLAG = 2 // CELLULAR_STATUS_FLAG_LOCKED enum. Modem is locked CELLULAR_STATUS_FLAG_LOCKED CELLULAR_STATUS_FLAG = 3 // CELLULAR_STATUS_FLAG_DISABLED enum. Modem is not enabled and is powered down CELLULAR_STATUS_FLAG_DISABLED CELLULAR_STATUS_FLAG = 4 // CELLULAR_STATUS_FLAG_DISABLING enum. Modem is currently transitioning to the CELLULAR_STATUS_FLAG_DISABLED state CELLULAR_STATUS_FLAG_DISABLING CELLULAR_STATUS_FLAG = 5 // CELLULAR_STATUS_FLAG_ENABLING enum. Modem is currently transitioning to the CELLULAR_STATUS_FLAG_ENABLED state CELLULAR_STATUS_FLAG_ENABLING CELLULAR_STATUS_FLAG = 6 // CELLULAR_STATUS_FLAG_ENABLED enum. Modem is enabled and powered on but not registered with a network provider and not available for data connections CELLULAR_STATUS_FLAG_ENABLED CELLULAR_STATUS_FLAG = 7 // CELLULAR_STATUS_FLAG_SEARCHING enum. Modem is searching for a network provider to register CELLULAR_STATUS_FLAG_SEARCHING CELLULAR_STATUS_FLAG = 8 // CELLULAR_STATUS_FLAG_REGISTERED enum. Modem is registered with a network provider, and data connections and messaging may be available for use CELLULAR_STATUS_FLAG_REGISTERED CELLULAR_STATUS_FLAG = 9 // CELLULAR_STATUS_FLAG_DISCONNECTING enum. Modem is disconnecting and deactivating the last active packet data bearer. This state will not be entered if more than one packet data bearer is active and one of the active bearers is deactivated CELLULAR_STATUS_FLAG_DISCONNECTING CELLULAR_STATUS_FLAG = 10 // CELLULAR_STATUS_FLAG_CONNECTING enum. Modem is activating and connecting the first packet data bearer. Subsequent bearer activations when another bearer is already active do not cause this state to be entered CELLULAR_STATUS_FLAG_CONNECTING CELLULAR_STATUS_FLAG = 11 // CELLULAR_STATUS_FLAG_CONNECTED enum. One or more packet data bearers is active and connected CELLULAR_STATUS_FLAG_CONNECTED CELLULAR_STATUS_FLAG = 12 )
func (CELLULAR_STATUS_FLAG) Bitmask ¶
func (e CELLULAR_STATUS_FLAG) Bitmask() string
Bitmask return string representetion of intersects CELLULAR_STATUS_FLAG enums
func (CELLULAR_STATUS_FLAG) MarshalBinary ¶
func (e CELLULAR_STATUS_FLAG) MarshalBinary() (data []byte, err error)
MarshalBinary generic func
func (CELLULAR_STATUS_FLAG) String ¶
func (e CELLULAR_STATUS_FLAG) String() string
func (*CELLULAR_STATUS_FLAG) UnmarshalBinary ¶
func (e *CELLULAR_STATUS_FLAG) UnmarshalBinary(data []byte) error
UnmarshalBinary generic func
type COMPONENT_CAP_FLAGS ¶
type COMPONENT_CAP_FLAGS int
COMPONENT_CAP_FLAGS type. Component capability flags (Bitmap)
const ( // COMPONENT_CAP_FLAGS_PARAM enum. Component has parameters, and supports the parameter protocol (PARAM messages) COMPONENT_CAP_FLAGS_PARAM COMPONENT_CAP_FLAGS = 1 // COMPONENT_CAP_FLAGS_PARAM_EXT enum. Component has parameters, and supports the extended parameter protocol (PARAM_EXT messages) COMPONENT_CAP_FLAGS_PARAM_EXT COMPONENT_CAP_FLAGS = 2 )
func (COMPONENT_CAP_FLAGS) Bitmask ¶
func (e COMPONENT_CAP_FLAGS) Bitmask() string
Bitmask return string representetion of intersects COMPONENT_CAP_FLAGS enums
func (COMPONENT_CAP_FLAGS) MarshalBinary ¶
func (e COMPONENT_CAP_FLAGS) MarshalBinary() (data []byte, err error)
MarshalBinary generic func
func (COMPONENT_CAP_FLAGS) String ¶
func (e COMPONENT_CAP_FLAGS) String() string
func (*COMPONENT_CAP_FLAGS) UnmarshalBinary ¶
func (e *COMPONENT_CAP_FLAGS) UnmarshalBinary(data []byte) error
UnmarshalBinary generic func
type COMP_METADATA_TYPE ¶
type COMP_METADATA_TYPE int
COMP_METADATA_TYPE type. Possible values for COMPONENT_INFORMATION.comp_metadata_type.
const ( // COMP_METADATA_TYPE_VERSION enum. Version information which also includes information on other optional supported COMP_METADATA_TYPE's. Must be supported. Only downloadable from vehicle COMP_METADATA_TYPE_VERSION COMP_METADATA_TYPE = 0 // COMP_METADATA_TYPE_PARAMETER enum. Parameter meta data COMP_METADATA_TYPE_PARAMETER COMP_METADATA_TYPE = 1 // COMP_METADATA_TYPE_COMMANDS enum. Meta data which specifies the commands the vehicle supports. (WIP) COMP_METADATA_TYPE_COMMANDS COMP_METADATA_TYPE = 2 )
func (COMP_METADATA_TYPE) Bitmask ¶
func (e COMP_METADATA_TYPE) Bitmask() string
Bitmask return string representetion of intersects COMP_METADATA_TYPE enums
func (COMP_METADATA_TYPE) MarshalBinary ¶
func (e COMP_METADATA_TYPE) MarshalBinary() (data []byte, err error)
MarshalBinary generic func
func (COMP_METADATA_TYPE) String ¶
func (e COMP_METADATA_TYPE) String() string
func (*COMP_METADATA_TYPE) UnmarshalBinary ¶
func (e *COMP_METADATA_TYPE) UnmarshalBinary(data []byte) error
UnmarshalBinary generic func
type CameraTrigger ¶
type CameraTrigger struct { TimeUsec uint64 `json:"TimeUsec" ` // [ us ] Timestamp for image frame (UNIX Epoch time or time since system boot). The receiving end can infer timestamp format (since 1.1.1970 or since system boot) by checking for the magnitude of the number. Seq uint32 `json:"Seq" ` // Image frame sequence }
CameraTrigger struct (generated typeinfo) Camera-IMU triggering and synchronisation message.
func (*CameraTrigger) Dict ¶
func (m *CameraTrigger) Dict() map[string]interface{}
ToMap (generated function)
func (*CameraTrigger) Marshal ¶
func (m *CameraTrigger) Marshal() ([]byte, error)
Marshal (generated function)
func (CameraTrigger) MarshalEasyJSON ¶ added in v1.5.0
func (v CameraTrigger) MarshalEasyJSON(w *jwriter.Writer)
MarshalEasyJSON supports easyjson.Marshaler interface
func (CameraTrigger) MarshalJSON ¶ added in v1.5.0
func (v CameraTrigger) MarshalJSON() ([]byte, error)
MarshalJSON supports json.Marshaler interface
func (*CameraTrigger) MsgID ¶
func (m *CameraTrigger) MsgID() message.MessageID
MsgID (generated function)
func (*CameraTrigger) Unmarshal ¶
func (m *CameraTrigger) Unmarshal(data []byte) error
Unmarshal (generated function)
func (*CameraTrigger) UnmarshalEasyJSON ¶ added in v1.5.0
func (v *CameraTrigger) UnmarshalEasyJSON(l *jlexer.Lexer)
UnmarshalEasyJSON supports easyjson.Unmarshaler interface
func (*CameraTrigger) UnmarshalJSON ¶ added in v1.5.0
func (v *CameraTrigger) UnmarshalJSON(data []byte) error
UnmarshalJSON supports json.Unmarshaler interface
type ChangeOperatorControl ¶
type ChangeOperatorControl struct { TargetSystem uint8 `json:"TargetSystem" ` // System the GCS requests control for ControlRequest uint8 `json:"ControlRequest" ` // 0: request control of this MAV, 1: Release control of this MAV Version uint8 `json:"Version" ` // [ rad ] 0: key as plaintext, 1-255: future, different hashing/encryption variants. The GCS should in general use the safest mode possible initially and then gradually move down the encryption level if it gets a NACK message indicating an encryption mismatch. Passkey string `json:"Passkey" len:"25" ` // Password / Key, depending on version plaintext or encrypted. 25 or less characters, NULL terminated. The characters may involve A-Z, a-z, 0-9, and "!?,.-" }
ChangeOperatorControl struct (generated typeinfo) Request to control this MAV
func (*ChangeOperatorControl) Dict ¶
func (m *ChangeOperatorControl) Dict() map[string]interface{}
ToMap (generated function)
func (*ChangeOperatorControl) Marshal ¶
func (m *ChangeOperatorControl) Marshal() ([]byte, error)
Marshal (generated function)
func (ChangeOperatorControl) MarshalEasyJSON ¶ added in v1.5.0
func (v ChangeOperatorControl) MarshalEasyJSON(w *jwriter.Writer)
MarshalEasyJSON supports easyjson.Marshaler interface
func (ChangeOperatorControl) MarshalJSON ¶ added in v1.5.0
func (v ChangeOperatorControl) MarshalJSON() ([]byte, error)
MarshalJSON supports json.Marshaler interface
func (*ChangeOperatorControl) MsgID ¶
func (m *ChangeOperatorControl) MsgID() message.MessageID
MsgID (generated function)
func (*ChangeOperatorControl) String ¶
func (m *ChangeOperatorControl) String() string
String (generated function)
func (*ChangeOperatorControl) Unmarshal ¶
func (m *ChangeOperatorControl) Unmarshal(data []byte) error
Unmarshal (generated function)
func (*ChangeOperatorControl) UnmarshalEasyJSON ¶ added in v1.5.0
func (v *ChangeOperatorControl) UnmarshalEasyJSON(l *jlexer.Lexer)
UnmarshalEasyJSON supports easyjson.Unmarshaler interface
func (*ChangeOperatorControl) UnmarshalJSON ¶ added in v1.5.0
func (v *ChangeOperatorControl) UnmarshalJSON(data []byte) error
UnmarshalJSON supports json.Unmarshaler interface
type ChangeOperatorControlAck ¶
type ChangeOperatorControlAck struct { GcsSystemID uint8 `json:"GcsSystemID" ` // ID of the GCS this message ControlRequest uint8 `json:"ControlRequest" ` // 0: request control of this MAV, 1: Release control of this MAV Ack uint8 `json:"Ack" ` // 0: ACK, 1: NACK: Wrong passkey, 2: NACK: Unsupported passkey encryption method, 3: NACK: Already under control }
ChangeOperatorControlAck struct (generated typeinfo) Accept / deny control of this MAV
func (*ChangeOperatorControlAck) Dict ¶
func (m *ChangeOperatorControlAck) Dict() map[string]interface{}
ToMap (generated function)
func (*ChangeOperatorControlAck) Marshal ¶
func (m *ChangeOperatorControlAck) Marshal() ([]byte, error)
Marshal (generated function)
func (ChangeOperatorControlAck) MarshalEasyJSON ¶ added in v1.5.0
func (v ChangeOperatorControlAck) MarshalEasyJSON(w *jwriter.Writer)
MarshalEasyJSON supports easyjson.Marshaler interface
func (ChangeOperatorControlAck) MarshalJSON ¶ added in v1.5.0
func (v ChangeOperatorControlAck) MarshalJSON() ([]byte, error)
MarshalJSON supports json.Marshaler interface
func (*ChangeOperatorControlAck) MsgID ¶
func (m *ChangeOperatorControlAck) MsgID() message.MessageID
MsgID (generated function)
func (*ChangeOperatorControlAck) String ¶
func (m *ChangeOperatorControlAck) String() string
String (generated function)
func (*ChangeOperatorControlAck) Unmarshal ¶
func (m *ChangeOperatorControlAck) Unmarshal(data []byte) error
Unmarshal (generated function)
func (*ChangeOperatorControlAck) UnmarshalEasyJSON ¶ added in v1.5.0
func (v *ChangeOperatorControlAck) UnmarshalEasyJSON(l *jlexer.Lexer)
UnmarshalEasyJSON supports easyjson.Unmarshaler interface
func (*ChangeOperatorControlAck) UnmarshalJSON ¶ added in v1.5.0
func (v *ChangeOperatorControlAck) UnmarshalJSON(data []byte) error
UnmarshalJSON supports json.Unmarshaler interface
type Collision ¶
type Collision struct { ID uint32 `json:"ID" ` // Unique identifier, domain based on src field TimeToMinimumDelta float32 `json:"TimeToMinimumDelta" ` // [ s ] Estimated time until collision occurs AltitudeMinimumDelta float32 `json:"AltitudeMinimumDelta" ` // [ m ] Closest vertical distance between vehicle and object HorizontalMinimumDelta float32 `json:"HorizontalMinimumDelta" ` // [ m ] Closest horizontal distance between vehicle and object Src MAV_COLLISION_SRC `json:"Src" ` // Collision data source Action MAV_COLLISION_ACTION `json:"Action" ` // Action that is being taken to avoid this collision ThreatLevel MAV_COLLISION_THREAT_LEVEL `json:"ThreatLevel" ` // How concerned the aircraft is about this collision }
Collision struct (generated typeinfo) Information about a potential collision
func (Collision) MarshalEasyJSON ¶ added in v1.5.0
MarshalEasyJSON supports easyjson.Marshaler interface
func (Collision) MarshalJSON ¶ added in v1.5.0
MarshalJSON supports json.Marshaler interface
func (*Collision) UnmarshalEasyJSON ¶ added in v1.5.0
UnmarshalEasyJSON supports easyjson.Unmarshaler interface
func (*Collision) UnmarshalJSON ¶ added in v1.5.0
UnmarshalJSON supports json.Unmarshaler interface
type CommandAck ¶
type CommandAck struct { Command MAV_CMD `json:"Command" ` // Command ID (of acknowledged command). Result MAV_RESULT `json:"Result" ` // Result of command. }
CommandAck struct (generated typeinfo) Report status of a command. Includes feedback whether the command was executed. The command microservice is documented at https://mavlink.io/en/services/command.html
func (*CommandAck) Dict ¶
func (m *CommandAck) Dict() map[string]interface{}
ToMap (generated function)
func (*CommandAck) Marshal ¶
func (m *CommandAck) Marshal() ([]byte, error)
Marshal (generated function)
func (CommandAck) MarshalEasyJSON ¶ added in v1.5.0
func (v CommandAck) MarshalEasyJSON(w *jwriter.Writer)
MarshalEasyJSON supports easyjson.Marshaler interface
func (CommandAck) MarshalJSON ¶ added in v1.5.0
func (v CommandAck) MarshalJSON() ([]byte, error)
MarshalJSON supports json.Marshaler interface
func (*CommandAck) MsgID ¶
func (m *CommandAck) MsgID() message.MessageID
MsgID (generated function)
func (*CommandAck) Unmarshal ¶
func (m *CommandAck) Unmarshal(data []byte) error
Unmarshal (generated function)
func (*CommandAck) UnmarshalEasyJSON ¶ added in v1.5.0
func (v *CommandAck) UnmarshalEasyJSON(l *jlexer.Lexer)
UnmarshalEasyJSON supports easyjson.Unmarshaler interface
func (*CommandAck) UnmarshalJSON ¶ added in v1.5.0
func (v *CommandAck) UnmarshalJSON(data []byte) error
UnmarshalJSON supports json.Unmarshaler interface
type CommandCancel ¶
type CommandCancel struct { Command MAV_CMD `json:"Command" ` // Command ID (of command to cancel). TargetSystem uint8 `json:"TargetSystem" ` // System executing long running command. Should not be broadcast (0). TargetComponent uint8 `json:"TargetComponent" ` // Component executing long running command. }
CommandCancel struct (generated typeinfo) Cancel a long running command. The target system should respond with a COMMAND_ACK to the original command with result=MAV_RESULT_CANCELLED if the long running process was cancelled. If it has already completed, the cancel action can be ignored. The cancel action can be retried until some sort of acknowledgement to the original command has been received. The command microservice is documented at https://mavlink.io/en/services/command.html
func (*CommandCancel) Dict ¶
func (m *CommandCancel) Dict() map[string]interface{}
ToMap (generated function)
func (*CommandCancel) Marshal ¶
func (m *CommandCancel) Marshal() ([]byte, error)
Marshal (generated function)
func (CommandCancel) MarshalEasyJSON ¶ added in v1.5.0
func (v CommandCancel) MarshalEasyJSON(w *jwriter.Writer)
MarshalEasyJSON supports easyjson.Marshaler interface
func (CommandCancel) MarshalJSON ¶ added in v1.5.0
func (v CommandCancel) MarshalJSON() ([]byte, error)
MarshalJSON supports json.Marshaler interface
func (*CommandCancel) MsgID ¶
func (m *CommandCancel) MsgID() message.MessageID
MsgID (generated function)
func (*CommandCancel) Unmarshal ¶
func (m *CommandCancel) Unmarshal(data []byte) error
Unmarshal (generated function)
func (*CommandCancel) UnmarshalEasyJSON ¶ added in v1.5.0
func (v *CommandCancel) UnmarshalEasyJSON(l *jlexer.Lexer)
UnmarshalEasyJSON supports easyjson.Unmarshaler interface
func (*CommandCancel) UnmarshalJSON ¶ added in v1.5.0
func (v *CommandCancel) UnmarshalJSON(data []byte) error
UnmarshalJSON supports json.Unmarshaler interface
type CommandInt ¶
type CommandInt struct { Param1 float32 `json:"Param1" ` // PARAM1, see MAV_CMD enum Param2 float32 `json:"Param2" ` // PARAM2, see MAV_CMD enum Param3 float32 `json:"Param3" ` // PARAM3, see MAV_CMD enum Param4 float32 `json:"Param4" ` // PARAM4, see MAV_CMD enum X int32 `json:"X" ` // PARAM5 / local: x position in meters * 1e4, global: latitude in degrees * 10^7 Y int32 `json:"Y" ` // PARAM6 / local: y position in meters * 1e4, global: longitude in degrees * 10^7 Z float32 `json:"Z" ` // PARAM7 / z position: global: altitude in meters (relative or absolute, depending on frame). Command MAV_CMD `json:"Command" ` // The scheduled action for the mission item. TargetSystem uint8 `json:"TargetSystem" ` // System ID TargetComponent uint8 `json:"TargetComponent" ` // Component ID Frame MAV_FRAME `json:"Frame" ` // The coordinate system of the COMMAND. Current uint8 `json:"Current" ` // Not used. Autocontinue uint8 `json:"Autocontinue" ` // Not used (set 0). }
CommandInt struct (generated typeinfo) Message encoding a command with parameters as scaled integers. Scaling depends on the actual command value. The command microservice is documented at https://mavlink.io/en/services/command.html
func (*CommandInt) Dict ¶
func (m *CommandInt) Dict() map[string]interface{}
ToMap (generated function)
func (*CommandInt) Marshal ¶
func (m *CommandInt) Marshal() ([]byte, error)
Marshal (generated function)
func (CommandInt) MarshalEasyJSON ¶ added in v1.5.0
func (v CommandInt) MarshalEasyJSON(w *jwriter.Writer)
MarshalEasyJSON supports easyjson.Marshaler interface
func (CommandInt) MarshalJSON ¶ added in v1.5.0
func (v CommandInt) MarshalJSON() ([]byte, error)
MarshalJSON supports json.Marshaler interface
func (*CommandInt) MsgID ¶
func (m *CommandInt) MsgID() message.MessageID
MsgID (generated function)
func (*CommandInt) Unmarshal ¶
func (m *CommandInt) Unmarshal(data []byte) error
Unmarshal (generated function)
func (*CommandInt) UnmarshalEasyJSON ¶ added in v1.5.0
func (v *CommandInt) UnmarshalEasyJSON(l *jlexer.Lexer)
UnmarshalEasyJSON supports easyjson.Unmarshaler interface
func (*CommandInt) UnmarshalJSON ¶ added in v1.5.0
func (v *CommandInt) UnmarshalJSON(data []byte) error
UnmarshalJSON supports json.Unmarshaler interface
type CommandLong ¶
type CommandLong struct { Param1 float32 `json:"Param1" ` // Parameter 1 (for the specific command). Param2 float32 `json:"Param2" ` // Parameter 2 (for the specific command). Param3 float32 `json:"Param3" ` // Parameter 3 (for the specific command). Param4 float32 `json:"Param4" ` // Parameter 4 (for the specific command). Param5 float32 `json:"Param5" ` // Parameter 5 (for the specific command). Param6 float32 `json:"Param6" ` // Parameter 6 (for the specific command). Param7 float32 `json:"Param7" ` // Parameter 7 (for the specific command). Command MAV_CMD `json:"Command" ` // Command ID (of command to send). TargetSystem uint8 `json:"TargetSystem" ` // System which should execute the command TargetComponent uint8 `json:"TargetComponent" ` // Component which should execute the command, 0 for all components Confirmation uint8 `json:"Confirmation" ` // 0: First transmission of this command. 1-255: Confirmation transmissions (e.g. for kill command) }
CommandLong struct (generated typeinfo) Send a command with up to seven parameters to the MAV. The command microservice is documented at https://mavlink.io/en/services/command.html
func (*CommandLong) Dict ¶
func (m *CommandLong) Dict() map[string]interface{}
ToMap (generated function)
func (*CommandLong) Marshal ¶
func (m *CommandLong) Marshal() ([]byte, error)
Marshal (generated function)
func (CommandLong) MarshalEasyJSON ¶ added in v1.5.0
func (v CommandLong) MarshalEasyJSON(w *jwriter.Writer)
MarshalEasyJSON supports easyjson.Marshaler interface
func (CommandLong) MarshalJSON ¶ added in v1.5.0
func (v CommandLong) MarshalJSON() ([]byte, error)
MarshalJSON supports json.Marshaler interface
func (*CommandLong) MsgID ¶
func (m *CommandLong) MsgID() message.MessageID
MsgID (generated function)
func (*CommandLong) Unmarshal ¶
func (m *CommandLong) Unmarshal(data []byte) error
Unmarshal (generated function)
func (*CommandLong) UnmarshalEasyJSON ¶ added in v1.5.0
func (v *CommandLong) UnmarshalEasyJSON(l *jlexer.Lexer)
UnmarshalEasyJSON supports easyjson.Unmarshaler interface
func (*CommandLong) UnmarshalJSON ¶ added in v1.5.0
func (v *CommandLong) UnmarshalJSON(data []byte) error
UnmarshalJSON supports json.Unmarshaler interface
type ControlSystemState ¶
type ControlSystemState struct { TimeUsec uint64 `json:"TimeUsec" ` // [ us ] Timestamp (UNIX Epoch time or time since system boot). The receiving end can infer timestamp format (since 1.1.1970 or since system boot) by checking for the magnitude of the number. XAcc float32 `json:"XAcc" ` // [ m/s/s ] X acceleration in body frame YAcc float32 `json:"YAcc" ` // [ m/s/s ] Y acceleration in body frame ZAcc float32 `json:"ZAcc" ` // [ m/s/s ] Z acceleration in body frame XVel float32 `json:"XVel" ` // [ m/s ] X velocity in body frame YVel float32 `json:"YVel" ` // [ m/s ] Y velocity in body frame ZVel float32 `json:"ZVel" ` // [ m/s ] Z velocity in body frame XPos float32 `json:"XPos" ` // [ m ] X position in local frame YPos float32 `json:"YPos" ` // [ m ] Y position in local frame ZPos float32 `json:"ZPos" ` // [ m ] Z position in local frame Airspeed float32 `json:"Airspeed" ` // [ m/s ] Airspeed, set to -1 if unknown VelVariance []float32 `json:"VelVariance" len:"3" ` // Variance of body velocity estimate PosVariance []float32 `json:"PosVariance" len:"3" ` // Variance in local position Q []float32 `json:"Q" len:"4" ` // The attitude, represented as Quaternion RollRate float32 `json:"RollRate" ` // [ rad/s ] Angular rate in roll axis PitchRate float32 `json:"PitchRate" ` // [ rad/s ] Angular rate in pitch axis YawRate float32 `json:"YawRate" ` // [ rad/s ] Angular rate in yaw axis }
ControlSystemState struct (generated typeinfo) The smoothed, monotonic system state used to feed the control loops of the system.
func (*ControlSystemState) Dict ¶
func (m *ControlSystemState) Dict() map[string]interface{}
ToMap (generated function)
func (*ControlSystemState) Marshal ¶
func (m *ControlSystemState) Marshal() ([]byte, error)
Marshal (generated function)
func (ControlSystemState) MarshalEasyJSON ¶ added in v1.5.0
func (v ControlSystemState) MarshalEasyJSON(w *jwriter.Writer)
MarshalEasyJSON supports easyjson.Marshaler interface
func (ControlSystemState) MarshalJSON ¶ added in v1.5.0
func (v ControlSystemState) MarshalJSON() ([]byte, error)
MarshalJSON supports json.Marshaler interface
func (*ControlSystemState) MsgID ¶
func (m *ControlSystemState) MsgID() message.MessageID
MsgID (generated function)
func (*ControlSystemState) String ¶
func (m *ControlSystemState) String() string
String (generated function)
func (*ControlSystemState) Unmarshal ¶
func (m *ControlSystemState) Unmarshal(data []byte) error
Unmarshal (generated function)
func (*ControlSystemState) UnmarshalEasyJSON ¶ added in v1.5.0
func (v *ControlSystemState) UnmarshalEasyJSON(l *jlexer.Lexer)
UnmarshalEasyJSON supports easyjson.Unmarshaler interface
func (*ControlSystemState) UnmarshalJSON ¶ added in v1.5.0
func (v *ControlSystemState) UnmarshalJSON(data []byte) error
UnmarshalJSON supports json.Unmarshaler interface
type DataStream ¶
type DataStream struct { MessageRate uint16 `json:"MessageRate" ` // [ Hz ] The message rate StreamID uint8 `json:"StreamID" ` // The ID of the requested data stream OnOff uint8 `json:"OnOff" ` // 1 stream is enabled, 0 stream is stopped. }
DataStream struct (generated typeinfo) Data stream status information.
func (*DataStream) Dict ¶
func (m *DataStream) Dict() map[string]interface{}
ToMap (generated function)
func (*DataStream) Marshal ¶
func (m *DataStream) Marshal() ([]byte, error)
Marshal (generated function)
func (DataStream) MarshalEasyJSON ¶ added in v1.5.0
func (v DataStream) MarshalEasyJSON(w *jwriter.Writer)
MarshalEasyJSON supports easyjson.Marshaler interface
func (DataStream) MarshalJSON ¶ added in v1.5.0
func (v DataStream) MarshalJSON() ([]byte, error)
MarshalJSON supports json.Marshaler interface
func (*DataStream) MsgID ¶
func (m *DataStream) MsgID() message.MessageID
MsgID (generated function)
func (*DataStream) Unmarshal ¶
func (m *DataStream) Unmarshal(data []byte) error
Unmarshal (generated function)
func (*DataStream) UnmarshalEasyJSON ¶ added in v1.5.0
func (v *DataStream) UnmarshalEasyJSON(l *jlexer.Lexer)
UnmarshalEasyJSON supports easyjson.Unmarshaler interface
func (*DataStream) UnmarshalJSON ¶ added in v1.5.0
func (v *DataStream) UnmarshalJSON(data []byte) error
UnmarshalJSON supports json.Unmarshaler interface
type DataTransmissionHandshake ¶
type DataTransmissionHandshake struct { Size uint32 `json:"Size" ` // [ bytes ] total data size (set on ACK only). Width uint16 `json:"Width" ` // Width of a matrix or image. Height uint16 `json:"Height" ` // Height of a matrix or image. Packets uint16 `json:"Packets" ` // Number of packets being sent (set on ACK only). Type MAVLINK_DATA_STREAM_TYPE `json:"Type" ` // Type of requested/acknowledged data. Payload uint8 `json:"Payload" ` // [ bytes ] Payload size per packet (normally 253 byte, see DATA field size in message ENCAPSULATED_DATA) (set on ACK only). JpgQuality uint8 `json:"JpgQuality" ` // [ % ] JPEG quality. Values: [1-100]. }
DataTransmissionHandshake struct (generated typeinfo) Handshake message to initiate, control and stop image streaming when using the Image Transmission Protocol: https://mavlink.io/en/services/image_transmission.html.
func (*DataTransmissionHandshake) Dict ¶
func (m *DataTransmissionHandshake) Dict() map[string]interface{}
ToMap (generated function)
func (*DataTransmissionHandshake) Marshal ¶
func (m *DataTransmissionHandshake) Marshal() ([]byte, error)
Marshal (generated function)
func (DataTransmissionHandshake) MarshalEasyJSON ¶ added in v1.5.0
func (v DataTransmissionHandshake) MarshalEasyJSON(w *jwriter.Writer)
MarshalEasyJSON supports easyjson.Marshaler interface
func (DataTransmissionHandshake) MarshalJSON ¶ added in v1.5.0
func (v DataTransmissionHandshake) MarshalJSON() ([]byte, error)
MarshalJSON supports json.Marshaler interface
func (*DataTransmissionHandshake) MsgID ¶
func (m *DataTransmissionHandshake) MsgID() message.MessageID
MsgID (generated function)
func (*DataTransmissionHandshake) String ¶
func (m *DataTransmissionHandshake) String() string
String (generated function)
func (*DataTransmissionHandshake) Unmarshal ¶
func (m *DataTransmissionHandshake) Unmarshal(data []byte) error
Unmarshal (generated function)
func (*DataTransmissionHandshake) UnmarshalEasyJSON ¶ added in v1.5.0
func (v *DataTransmissionHandshake) UnmarshalEasyJSON(l *jlexer.Lexer)
UnmarshalEasyJSON supports easyjson.Unmarshaler interface
func (*DataTransmissionHandshake) UnmarshalJSON ¶ added in v1.5.0
func (v *DataTransmissionHandshake) UnmarshalJSON(data []byte) error
UnmarshalJSON supports json.Unmarshaler interface
type Debug ¶
type Debug struct { TimeBootMs uint32 `json:"TimeBootMs" ` // [ ms ] Timestamp (time since system boot). Value float32 `json:"Value" ` // DEBUG value Ind uint8 `json:"Ind" ` // index of debug variable }
Debug struct (generated typeinfo) Send a debug value. The index is used to discriminate between values. These values show up in the plot of QGroundControl as DEBUG N.
func (Debug) MarshalEasyJSON ¶ added in v1.5.0
MarshalEasyJSON supports easyjson.Marshaler interface
func (Debug) MarshalJSON ¶ added in v1.5.0
MarshalJSON supports json.Marshaler interface
func (*Debug) UnmarshalEasyJSON ¶ added in v1.5.0
UnmarshalEasyJSON supports easyjson.Unmarshaler interface
func (*Debug) UnmarshalJSON ¶ added in v1.5.0
UnmarshalJSON supports json.Unmarshaler interface
type DebugVect ¶
type DebugVect struct { TimeUsec uint64 `json:"TimeUsec" ` // [ us ] Timestamp (UNIX Epoch time or time since system boot). The receiving end can infer timestamp format (since 1.1.1970 or since system boot) by checking for the magnitude of the number. X float32 `json:"X" ` // x Y float32 `json:"Y" ` // y Z float32 `json:"Z" ` // z Name string `json:"Name" len:"10" ` // Name }
DebugVect struct (generated typeinfo) To debug something using a named 3D vector.
func (DebugVect) MarshalEasyJSON ¶ added in v1.5.0
MarshalEasyJSON supports easyjson.Marshaler interface
func (DebugVect) MarshalJSON ¶ added in v1.5.0
MarshalJSON supports json.Marshaler interface
func (*DebugVect) UnmarshalEasyJSON ¶ added in v1.5.0
UnmarshalEasyJSON supports easyjson.Unmarshaler interface
func (*DebugVect) UnmarshalJSON ¶ added in v1.5.0
UnmarshalJSON supports json.Unmarshaler interface
type DistanceSensor ¶
type DistanceSensor struct { TimeBootMs uint32 `json:"TimeBootMs" ` // [ ms ] Timestamp (time since system boot). MinDistance uint16 `json:"MinDistance" ` // [ cm ] Minimum distance the sensor can measure MaxDistance uint16 `json:"MaxDistance" ` // [ cm ] Maximum distance the sensor can measure CurrentDistance uint16 `json:"CurrentDistance" ` // [ cm ] Current distance reading Type MAV_DISTANCE_SENSOR `json:"Type" ` // Type of distance sensor. ID uint8 `json:"ID" ` // Onboard ID of the sensor Orientation MAV_SENSOR_ORIENTATION `json:"Orientation" ` // Direction the sensor faces. downward-facing: ROTATION_PITCH_270, upward-facing: ROTATION_PITCH_90, backward-facing: ROTATION_PITCH_180, forward-facing: ROTATION_NONE, left-facing: ROTATION_YAW_90, right-facing: ROTATION_YAW_270 Covariance uint8 `json:"Covariance" ` // [ cm^2 ] Measurement variance. Max standard deviation is 6cm. 255 if unknown. }
DistanceSensor struct (generated typeinfo) Distance sensor information for an onboard rangefinder.
func (*DistanceSensor) Dict ¶
func (m *DistanceSensor) Dict() map[string]interface{}
ToMap (generated function)
func (*DistanceSensor) Marshal ¶
func (m *DistanceSensor) Marshal() ([]byte, error)
Marshal (generated function)
func (DistanceSensor) MarshalEasyJSON ¶ added in v1.5.0
func (v DistanceSensor) MarshalEasyJSON(w *jwriter.Writer)
MarshalEasyJSON supports easyjson.Marshaler interface
func (DistanceSensor) MarshalJSON ¶ added in v1.5.0
func (v DistanceSensor) MarshalJSON() ([]byte, error)
MarshalJSON supports json.Marshaler interface
func (*DistanceSensor) MsgID ¶
func (m *DistanceSensor) MsgID() message.MessageID
MsgID (generated function)
func (*DistanceSensor) String ¶
func (m *DistanceSensor) String() string
String (generated function)
func (*DistanceSensor) Unmarshal ¶
func (m *DistanceSensor) Unmarshal(data []byte) error
Unmarshal (generated function)
func (*DistanceSensor) UnmarshalEasyJSON ¶ added in v1.5.0
func (v *DistanceSensor) UnmarshalEasyJSON(l *jlexer.Lexer)
UnmarshalEasyJSON supports easyjson.Unmarshaler interface
func (*DistanceSensor) UnmarshalJSON ¶ added in v1.5.0
func (v *DistanceSensor) UnmarshalJSON(data []byte) error
UnmarshalJSON supports json.Unmarshaler interface
type ESC_CONNECTION_TYPE ¶
type ESC_CONNECTION_TYPE int
ESC_CONNECTION_TYPE type. Indicates the ESC connection type.
const ( // ESC_CONNECTION_TYPE_PPM enum. Traditional PPM ESC ESC_CONNECTION_TYPE_PPM ESC_CONNECTION_TYPE = 0 // ESC_CONNECTION_TYPE_SERIAL enum. Serial Bus connected ESC ESC_CONNECTION_TYPE_SERIAL ESC_CONNECTION_TYPE = 1 // ESC_CONNECTION_TYPE_ONESHOT enum. One Shot PPM ESC ESC_CONNECTION_TYPE_ONESHOT ESC_CONNECTION_TYPE = 2 // ESC_CONNECTION_TYPE_I2C enum. I2C ESC ESC_CONNECTION_TYPE_I2C ESC_CONNECTION_TYPE = 3 // ESC_CONNECTION_TYPE_CAN enum. CAN-Bus ESC ESC_CONNECTION_TYPE_CAN ESC_CONNECTION_TYPE = 4 // ESC_CONNECTION_TYPE_DSHOT enum. DShot ESC ESC_CONNECTION_TYPE_DSHOT ESC_CONNECTION_TYPE = 5 )
func (ESC_CONNECTION_TYPE) Bitmask ¶
func (e ESC_CONNECTION_TYPE) Bitmask() string
Bitmask return string representetion of intersects ESC_CONNECTION_TYPE enums
func (ESC_CONNECTION_TYPE) MarshalBinary ¶
func (e ESC_CONNECTION_TYPE) MarshalBinary() (data []byte, err error)
MarshalBinary generic func
func (ESC_CONNECTION_TYPE) String ¶
func (e ESC_CONNECTION_TYPE) String() string
func (*ESC_CONNECTION_TYPE) UnmarshalBinary ¶
func (e *ESC_CONNECTION_TYPE) UnmarshalBinary(data []byte) error
UnmarshalBinary generic func
type ESC_FAILURE_FLAGS ¶
type ESC_FAILURE_FLAGS int
ESC_FAILURE_FLAGS type. Flags to report ESC failures.
const ( // ESC_FAILURE_NONE enum. No ESC failure ESC_FAILURE_NONE ESC_FAILURE_FLAGS = 0 // ESC_FAILURE_OVER_CURRENT enum. Over current failure ESC_FAILURE_OVER_CURRENT ESC_FAILURE_FLAGS = 1 // ESC_FAILURE_OVER_VOLTAGE enum. Over voltage failure ESC_FAILURE_OVER_VOLTAGE ESC_FAILURE_FLAGS = 2 // ESC_FAILURE_OVER_TEMPERATURE enum. Over temperature failure ESC_FAILURE_OVER_TEMPERATURE ESC_FAILURE_FLAGS = 4 // ESC_FAILURE_OVER_RPM enum. Over RPM failure ESC_FAILURE_OVER_RPM ESC_FAILURE_FLAGS = 8 // ESC_FAILURE_INCONSISTENT_CMD enum. Inconsistent command failure i.e. out of bounds ESC_FAILURE_INCONSISTENT_CMD ESC_FAILURE_FLAGS = 16 // ESC_FAILURE_MOTOR_STUCK enum. Motor stuck failure ESC_FAILURE_MOTOR_STUCK ESC_FAILURE_FLAGS = 32 // ESC_FAILURE_GENERIC enum. Generic ESC failure ESC_FAILURE_GENERIC ESC_FAILURE_FLAGS = 64 )
func (ESC_FAILURE_FLAGS) Bitmask ¶
func (e ESC_FAILURE_FLAGS) Bitmask() string
Bitmask return string representetion of intersects ESC_FAILURE_FLAGS enums
func (ESC_FAILURE_FLAGS) MarshalBinary ¶
func (e ESC_FAILURE_FLAGS) MarshalBinary() (data []byte, err error)
MarshalBinary generic func
func (ESC_FAILURE_FLAGS) String ¶
func (e ESC_FAILURE_FLAGS) String() string
func (*ESC_FAILURE_FLAGS) UnmarshalBinary ¶
func (e *ESC_FAILURE_FLAGS) UnmarshalBinary(data []byte) error
UnmarshalBinary generic func
type ESTIMATOR_STATUS_FLAGS ¶
type ESTIMATOR_STATUS_FLAGS int
ESTIMATOR_STATUS_FLAGS type. Flags in ESTIMATOR_STATUS message
const ( // ESTIMATOR_ATTITUDE enum. True if the attitude estimate is good ESTIMATOR_ATTITUDE ESTIMATOR_STATUS_FLAGS = 1 // ESTIMATOR_VELOCITY_HORIZ enum. True if the horizontal velocity estimate is good ESTIMATOR_VELOCITY_HORIZ ESTIMATOR_STATUS_FLAGS = 2 // ESTIMATOR_VELOCITY_VERT enum. True if the vertical velocity estimate is good ESTIMATOR_VELOCITY_VERT ESTIMATOR_STATUS_FLAGS = 4 // ESTIMATOR_POS_HORIZ_REL enum. True if the horizontal position (relative) estimate is good ESTIMATOR_POS_HORIZ_REL ESTIMATOR_STATUS_FLAGS = 8 // ESTIMATOR_POS_HORIZ_ABS enum. True if the horizontal position (absolute) estimate is good ESTIMATOR_POS_HORIZ_ABS ESTIMATOR_STATUS_FLAGS = 16 // ESTIMATOR_POS_VERT_ABS enum. True if the vertical position (absolute) estimate is good ESTIMATOR_POS_VERT_ABS ESTIMATOR_STATUS_FLAGS = 32 // ESTIMATOR_POS_VERT_AGL enum. True if the vertical position (above ground) estimate is good ESTIMATOR_POS_VERT_AGL ESTIMATOR_STATUS_FLAGS = 64 // ESTIMATOR_CONST_POS_MODE enum. True if the EKF is in a constant position mode and is not using external measurements (eg GPS or optical flow) ESTIMATOR_CONST_POS_MODE ESTIMATOR_STATUS_FLAGS = 128 // ESTIMATOR_PRED_POS_HORIZ_REL enum. True if the EKF has sufficient data to enter a mode that will provide a (relative) position estimate ESTIMATOR_PRED_POS_HORIZ_REL ESTIMATOR_STATUS_FLAGS = 256 // ESTIMATOR_PRED_POS_HORIZ_ABS enum. True if the EKF has sufficient data to enter a mode that will provide a (absolute) position estimate ESTIMATOR_PRED_POS_HORIZ_ABS ESTIMATOR_STATUS_FLAGS = 512 // ESTIMATOR_GPS_GLITCH enum. True if the EKF has detected a GPS glitch ESTIMATOR_GPS_GLITCH ESTIMATOR_STATUS_FLAGS = 1024 // ESTIMATOR_ACCEL_ERROR enum. True if the EKF has detected bad accelerometer data ESTIMATOR_ACCEL_ERROR ESTIMATOR_STATUS_FLAGS = 2048 )
func (ESTIMATOR_STATUS_FLAGS) Bitmask ¶
func (e ESTIMATOR_STATUS_FLAGS) Bitmask() string
Bitmask return string representetion of intersects ESTIMATOR_STATUS_FLAGS enums
func (ESTIMATOR_STATUS_FLAGS) MarshalBinary ¶
func (e ESTIMATOR_STATUS_FLAGS) MarshalBinary() (data []byte, err error)
MarshalBinary generic func
func (ESTIMATOR_STATUS_FLAGS) String ¶
func (e ESTIMATOR_STATUS_FLAGS) String() string
func (*ESTIMATOR_STATUS_FLAGS) UnmarshalBinary ¶
func (e *ESTIMATOR_STATUS_FLAGS) UnmarshalBinary(data []byte) error
UnmarshalBinary generic func
type EfiStatus ¶
type EfiStatus struct { EcuIndex float32 `json:"EcuIndex" ` // ECU index Rpm float32 `json:"Rpm" ` // RPM FuelConsumed float32 `json:"FuelConsumed" ` // [ cm^3 ] Fuel consumed FuelFlow float32 `json:"FuelFlow" ` // [ cm^3/min ] Fuel flow rate EngineLoad float32 `json:"EngineLoad" ` // [ % ] Engine load ThrottlePosition float32 `json:"ThrottlePosition" ` // [ % ] Throttle position SparkDwellTime float32 `json:"SparkDwellTime" ` // [ ms ] Spark dwell time BarometricPressure float32 `json:"BarometricPressure" ` // [ kPa ] Barometric pressure IntakeManifoldPressure float32 `json:"IntakeManifoldPressure" ` // [ kPa ] Intake manifold pressure( IntakeManifoldTemperature float32 `json:"IntakeManifoldTemperature" ` // [ degC ] Intake manifold temperature CylinderHeadTemperature float32 `json:"CylinderHeadTemperature" ` // [ degC ] Cylinder head temperature IgnitionTiming float32 `json:"IgnitionTiming" ` // [ deg ] Ignition timing (Crank angle degrees) InjectionTime float32 `json:"InjectionTime" ` // [ ms ] Injection time ExhaustGasTemperature float32 `json:"ExhaustGasTemperature" ` // [ degC ] Exhaust gas temperature ThrottleOut float32 `json:"ThrottleOut" ` // [ % ] Output throttle PtCompensation float32 `json:"PtCompensation" ` // Pressure/temperature compensation Health uint8 `json:"Health" ` // EFI health status }
EfiStatus struct (generated typeinfo) EFI status output
func (EfiStatus) MarshalEasyJSON ¶ added in v1.5.0
MarshalEasyJSON supports easyjson.Marshaler interface
func (EfiStatus) MarshalJSON ¶ added in v1.5.0
MarshalJSON supports json.Marshaler interface
func (*EfiStatus) UnmarshalEasyJSON ¶ added in v1.5.0
UnmarshalEasyJSON supports easyjson.Unmarshaler interface
func (*EfiStatus) UnmarshalJSON ¶ added in v1.5.0
UnmarshalJSON supports json.Unmarshaler interface
type EncapsulatedData ¶
type EncapsulatedData struct { Seqnr uint16 `json:"Seqnr" ` // sequence number (starting with 0 on every transmission) Data []uint8 `json:"Data" len:"253" ` // image data bytes }
EncapsulatedData struct (generated typeinfo) Data packet for images sent using the Image Transmission Protocol: https://mavlink.io/en/services/image_transmission.html.
func (*EncapsulatedData) Dict ¶
func (m *EncapsulatedData) Dict() map[string]interface{}
ToMap (generated function)
func (*EncapsulatedData) Marshal ¶
func (m *EncapsulatedData) Marshal() ([]byte, error)
Marshal (generated function)
func (EncapsulatedData) MarshalEasyJSON ¶ added in v1.5.0
func (v EncapsulatedData) MarshalEasyJSON(w *jwriter.Writer)
MarshalEasyJSON supports easyjson.Marshaler interface
func (EncapsulatedData) MarshalJSON ¶ added in v1.5.0
func (v EncapsulatedData) MarshalJSON() ([]byte, error)
MarshalJSON supports json.Marshaler interface
func (*EncapsulatedData) MsgID ¶
func (m *EncapsulatedData) MsgID() message.MessageID
MsgID (generated function)
func (*EncapsulatedData) String ¶
func (m *EncapsulatedData) String() string
String (generated function)
func (*EncapsulatedData) Unmarshal ¶
func (m *EncapsulatedData) Unmarshal(data []byte) error
Unmarshal (generated function)
func (*EncapsulatedData) UnmarshalEasyJSON ¶ added in v1.5.0
func (v *EncapsulatedData) UnmarshalEasyJSON(l *jlexer.Lexer)
UnmarshalEasyJSON supports easyjson.Unmarshaler interface
func (*EncapsulatedData) UnmarshalJSON ¶ added in v1.5.0
func (v *EncapsulatedData) UnmarshalJSON(data []byte) error
UnmarshalJSON supports json.Unmarshaler interface
type EstimatorStatus ¶
type EstimatorStatus struct { TimeUsec uint64 `json:"TimeUsec" ` // [ us ] Timestamp (UNIX Epoch time or time since system boot). The receiving end can infer timestamp format (since 1.1.1970 or since system boot) by checking for the magnitude of the number. VelRatio float32 `json:"VelRatio" ` // Velocity innovation test ratio PosHorizRatio float32 `json:"PosHorizRatio" ` // Horizontal position innovation test ratio PosVertRatio float32 `json:"PosVertRatio" ` // Vertical position innovation test ratio MagRatio float32 `json:"MagRatio" ` // Magnetometer innovation test ratio HaglRatio float32 `json:"HaglRatio" ` // Height above terrain innovation test ratio TasRatio float32 `json:"TasRatio" ` // True airspeed innovation test ratio PosHorizAccuracy float32 `json:"PosHorizAccuracy" ` // [ m ] Horizontal position 1-STD accuracy relative to the EKF local origin PosVertAccuracy float32 `json:"PosVertAccuracy" ` // [ m ] Vertical position 1-STD accuracy relative to the EKF local origin Flags ESTIMATOR_STATUS_FLAGS `json:"Flags" ` // Bitmap indicating which EKF outputs are valid. }
EstimatorStatus struct (generated typeinfo) Estimator status message including flags, innovation test ratios and estimated accuracies. The flags message is an integer bitmask containing information on which EKF outputs are valid. See the ESTIMATOR_STATUS_FLAGS enum definition for further information. The innovation test ratios show the magnitude of the sensor innovation divided by the innovation check threshold. Under normal operation the innovation test ratios should be below 0.5 with occasional values up to 1.0. Values greater than 1.0 should be rare under normal operation and indicate that a measurement has been rejected by the filter. The user should be notified if an innovation test ratio greater than 1.0 is recorded. Notifications for values in the range between 0.5 and 1.0 should be optional and controllable by the user.
func (*EstimatorStatus) Dict ¶
func (m *EstimatorStatus) Dict() map[string]interface{}
ToMap (generated function)
func (*EstimatorStatus) Marshal ¶
func (m *EstimatorStatus) Marshal() ([]byte, error)
Marshal (generated function)
func (EstimatorStatus) MarshalEasyJSON ¶ added in v1.5.0
func (v EstimatorStatus) MarshalEasyJSON(w *jwriter.Writer)
MarshalEasyJSON supports easyjson.Marshaler interface
func (EstimatorStatus) MarshalJSON ¶ added in v1.5.0
func (v EstimatorStatus) MarshalJSON() ([]byte, error)
MarshalJSON supports json.Marshaler interface
func (*EstimatorStatus) MsgID ¶
func (m *EstimatorStatus) MsgID() message.MessageID
MsgID (generated function)
func (*EstimatorStatus) String ¶
func (m *EstimatorStatus) String() string
String (generated function)
func (*EstimatorStatus) Unmarshal ¶
func (m *EstimatorStatus) Unmarshal(data []byte) error
Unmarshal (generated function)
func (*EstimatorStatus) UnmarshalEasyJSON ¶ added in v1.5.0
func (v *EstimatorStatus) UnmarshalEasyJSON(l *jlexer.Lexer)
UnmarshalEasyJSON supports easyjson.Unmarshaler interface
func (*EstimatorStatus) UnmarshalJSON ¶ added in v1.5.0
func (v *EstimatorStatus) UnmarshalJSON(data []byte) error
UnmarshalJSON supports json.Unmarshaler interface
type ExtendedSysState ¶
type ExtendedSysState struct { VtolState MAV_VTOL_STATE `json:"VtolState" ` // The VTOL state if applicable. Is set to MAV_VTOL_STATE_UNDEFINED if UAV is not in VTOL configuration. LandedState MAV_LANDED_STATE `json:"LandedState" ` // The landed state. Is set to MAV_LANDED_STATE_UNDEFINED if landed state is unknown. }
ExtendedSysState struct (generated typeinfo) Provides state for additional features
func (*ExtendedSysState) Dict ¶
func (m *ExtendedSysState) Dict() map[string]interface{}
ToMap (generated function)
func (*ExtendedSysState) Marshal ¶
func (m *ExtendedSysState) Marshal() ([]byte, error)
Marshal (generated function)
func (ExtendedSysState) MarshalEasyJSON ¶ added in v1.5.0
func (v ExtendedSysState) MarshalEasyJSON(w *jwriter.Writer)
MarshalEasyJSON supports easyjson.Marshaler interface
func (ExtendedSysState) MarshalJSON ¶ added in v1.5.0
func (v ExtendedSysState) MarshalJSON() ([]byte, error)
MarshalJSON supports json.Marshaler interface
func (*ExtendedSysState) MsgID ¶
func (m *ExtendedSysState) MsgID() message.MessageID
MsgID (generated function)
func (*ExtendedSysState) String ¶
func (m *ExtendedSysState) String() string
String (generated function)
func (*ExtendedSysState) Unmarshal ¶
func (m *ExtendedSysState) Unmarshal(data []byte) error
Unmarshal (generated function)
func (*ExtendedSysState) UnmarshalEasyJSON ¶ added in v1.5.0
func (v *ExtendedSysState) UnmarshalEasyJSON(l *jlexer.Lexer)
UnmarshalEasyJSON supports easyjson.Unmarshaler interface
func (*ExtendedSysState) UnmarshalJSON ¶ added in v1.5.0
func (v *ExtendedSysState) UnmarshalJSON(data []byte) error
UnmarshalJSON supports json.Unmarshaler interface
type FAILURE_TYPE ¶
type FAILURE_TYPE int
FAILURE_TYPE type. List of possible failure type to inject.
const ( // FAILURE_TYPE_OK enum. No failure injected, used to reset a previous failure FAILURE_TYPE_OK FAILURE_TYPE = 0 // FAILURE_TYPE_OFF enum. Sets unit off, so completely non-responsive FAILURE_TYPE_OFF FAILURE_TYPE = 1 // FAILURE_TYPE_STUCK enum. Unit is stuck e.g. keeps reporting the same value FAILURE_TYPE_STUCK FAILURE_TYPE = 2 // FAILURE_TYPE_GARBAGE enum. Unit is reporting complete garbage FAILURE_TYPE_GARBAGE FAILURE_TYPE = 3 // FAILURE_TYPE_WRONG enum. Unit is consistently wrong FAILURE_TYPE_WRONG FAILURE_TYPE = 4 // FAILURE_TYPE_SLOW enum. Unit is slow, so e.g. reporting at slower than expected rate FAILURE_TYPE_SLOW FAILURE_TYPE = 5 // FAILURE_TYPE_DELAYED enum. Data of unit is delayed in time FAILURE_TYPE_DELAYED FAILURE_TYPE = 6 // FAILURE_TYPE_INTERMITTENT enum. Unit is sometimes working, sometimes not FAILURE_TYPE_INTERMITTENT FAILURE_TYPE = 7 )
func (FAILURE_TYPE) Bitmask ¶
func (e FAILURE_TYPE) Bitmask() string
Bitmask return string representetion of intersects FAILURE_TYPE enums
func (FAILURE_TYPE) MarshalBinary ¶
func (e FAILURE_TYPE) MarshalBinary() (data []byte, err error)
MarshalBinary generic func
func (FAILURE_TYPE) String ¶
func (e FAILURE_TYPE) String() string
func (*FAILURE_TYPE) UnmarshalBinary ¶
func (e *FAILURE_TYPE) UnmarshalBinary(data []byte) error
UnmarshalBinary generic func
type FAILURE_UNIT ¶
type FAILURE_UNIT int
FAILURE_UNIT type. List of possible units where failures can be injected.
const ( // FAILURE_UNIT_SENSOR_GYRO enum FAILURE_UNIT_SENSOR_GYRO FAILURE_UNIT = 0 // FAILURE_UNIT_SENSOR_ACCEL enum FAILURE_UNIT_SENSOR_ACCEL FAILURE_UNIT = 1 // FAILURE_UNIT_SENSOR_MAG enum FAILURE_UNIT_SENSOR_MAG FAILURE_UNIT = 2 // FAILURE_UNIT_SENSOR_BARO enum FAILURE_UNIT_SENSOR_BARO FAILURE_UNIT = 3 // FAILURE_UNIT_SENSOR_GPS enum FAILURE_UNIT_SENSOR_GPS FAILURE_UNIT = 4 // FAILURE_UNIT_SENSOR_OPTICAL_FLOW enum FAILURE_UNIT_SENSOR_OPTICAL_FLOW FAILURE_UNIT = 5 // FAILURE_UNIT_SENSOR_VIO enum FAILURE_UNIT_SENSOR_VIO FAILURE_UNIT = 6 // FAILURE_UNIT_SENSOR_DISTANCE_SENSOR enum FAILURE_UNIT_SENSOR_DISTANCE_SENSOR FAILURE_UNIT = 7 // FAILURE_UNIT_SENSOR_AIRSPEED enum FAILURE_UNIT_SENSOR_AIRSPEED FAILURE_UNIT = 8 // FAILURE_UNIT_SYSTEM_BATTERY enum FAILURE_UNIT_SYSTEM_BATTERY FAILURE_UNIT = 100 // FAILURE_UNIT_SYSTEM_MOTOR enum FAILURE_UNIT_SYSTEM_MOTOR FAILURE_UNIT = 101 // FAILURE_UNIT_SYSTEM_SERVO enum FAILURE_UNIT_SYSTEM_SERVO FAILURE_UNIT = 102 // FAILURE_UNIT_SYSTEM_AVOIDANCE enum FAILURE_UNIT_SYSTEM_AVOIDANCE FAILURE_UNIT = 103 // FAILURE_UNIT_SYSTEM_RC_SIGNAL enum FAILURE_UNIT_SYSTEM_RC_SIGNAL FAILURE_UNIT = 104 // FAILURE_UNIT_SYSTEM_MAVLINK_SIGNAL enum FAILURE_UNIT_SYSTEM_MAVLINK_SIGNAL FAILURE_UNIT = 105 )
func (FAILURE_UNIT) Bitmask ¶
func (e FAILURE_UNIT) Bitmask() string
Bitmask return string representetion of intersects FAILURE_UNIT enums
func (FAILURE_UNIT) MarshalBinary ¶
func (e FAILURE_UNIT) MarshalBinary() (data []byte, err error)
MarshalBinary generic func
func (FAILURE_UNIT) String ¶
func (e FAILURE_UNIT) String() string
func (*FAILURE_UNIT) UnmarshalBinary ¶
func (e *FAILURE_UNIT) UnmarshalBinary(data []byte) error
UnmarshalBinary generic func
type FENCE_ACTION ¶
type FENCE_ACTION int
FENCE_ACTION type
const ( // FENCE_ACTION_NONE enum. Disable fenced mode FENCE_ACTION_NONE FENCE_ACTION = 0 // FENCE_ACTION_GUIDED enum. Switched to guided mode to return point (fence point 0) FENCE_ACTION_GUIDED FENCE_ACTION = 1 // FENCE_ACTION_REPORT enum. Report fence breach, but don't take action FENCE_ACTION_REPORT FENCE_ACTION = 2 // FENCE_ACTION_GUIDED_THR_PASS enum. Switched to guided mode to return point (fence point 0) with manual throttle control FENCE_ACTION_GUIDED_THR_PASS FENCE_ACTION = 3 // FENCE_ACTION_RTL enum. Switch to RTL (return to launch) mode and head for the return point FENCE_ACTION_RTL FENCE_ACTION = 4 )
func (FENCE_ACTION) Bitmask ¶
func (e FENCE_ACTION) Bitmask() string
Bitmask return string representetion of intersects FENCE_ACTION enums
func (FENCE_ACTION) MarshalBinary ¶
func (e FENCE_ACTION) MarshalBinary() (data []byte, err error)
MarshalBinary generic func
func (FENCE_ACTION) String ¶
func (e FENCE_ACTION) String() string
func (*FENCE_ACTION) UnmarshalBinary ¶
func (e *FENCE_ACTION) UnmarshalBinary(data []byte) error
UnmarshalBinary generic func
type FENCE_BREACH ¶
type FENCE_BREACH int
FENCE_BREACH type
const ( // FENCE_BREACH_NONE enum. No last fence breach FENCE_BREACH_NONE FENCE_BREACH = 0 // FENCE_BREACH_MINALT enum. Breached minimum altitude FENCE_BREACH_MINALT FENCE_BREACH = 1 // FENCE_BREACH_MAXALT enum. Breached maximum altitude FENCE_BREACH_MAXALT FENCE_BREACH = 2 // FENCE_BREACH_BOUNDARY enum. Breached fence boundary FENCE_BREACH_BOUNDARY FENCE_BREACH = 3 )
func (FENCE_BREACH) Bitmask ¶
func (e FENCE_BREACH) Bitmask() string
Bitmask return string representetion of intersects FENCE_BREACH enums
func (FENCE_BREACH) MarshalBinary ¶
func (e FENCE_BREACH) MarshalBinary() (data []byte, err error)
MarshalBinary generic func
func (FENCE_BREACH) String ¶
func (e FENCE_BREACH) String() string
func (*FENCE_BREACH) UnmarshalBinary ¶
func (e *FENCE_BREACH) UnmarshalBinary(data []byte) error
UnmarshalBinary generic func
type FENCE_MITIGATE ¶
type FENCE_MITIGATE int
FENCE_MITIGATE type. Actions being taken to mitigate/prevent fence breach
const ( // FENCE_MITIGATE_UNKNOWN enum. Unknown FENCE_MITIGATE_UNKNOWN FENCE_MITIGATE = 0 // FENCE_MITIGATE_NONE enum. No actions being taken FENCE_MITIGATE_NONE FENCE_MITIGATE = 1 // FENCE_MITIGATE_VEL_LIMIT enum. Velocity limiting active to prevent breach FENCE_MITIGATE_VEL_LIMIT FENCE_MITIGATE = 2 )
func (FENCE_MITIGATE) Bitmask ¶
func (e FENCE_MITIGATE) Bitmask() string
Bitmask return string representetion of intersects FENCE_MITIGATE enums
func (FENCE_MITIGATE) MarshalBinary ¶
func (e FENCE_MITIGATE) MarshalBinary() (data []byte, err error)
MarshalBinary generic func
func (FENCE_MITIGATE) String ¶
func (e FENCE_MITIGATE) String() string
func (*FENCE_MITIGATE) UnmarshalBinary ¶
func (e *FENCE_MITIGATE) UnmarshalBinary(data []byte) error
UnmarshalBinary generic func
type FIRMWARE_VERSION_TYPE ¶
type FIRMWARE_VERSION_TYPE int
FIRMWARE_VERSION_TYPE type. These values define the type of firmware release. These values indicate the first version or release of this type. For example the first alpha release would be 64, the second would be 65.
const ( // FIRMWARE_VERSION_TYPE_DEV enum. development release FIRMWARE_VERSION_TYPE_DEV FIRMWARE_VERSION_TYPE = 0 // FIRMWARE_VERSION_TYPE_ALPHA enum. alpha release FIRMWARE_VERSION_TYPE_ALPHA FIRMWARE_VERSION_TYPE = 64 // FIRMWARE_VERSION_TYPE_BETA enum. beta release FIRMWARE_VERSION_TYPE_BETA FIRMWARE_VERSION_TYPE = 128 // FIRMWARE_VERSION_TYPE_RC enum. release candidate FIRMWARE_VERSION_TYPE_RC FIRMWARE_VERSION_TYPE = 192 // FIRMWARE_VERSION_TYPE_OFFICIAL enum. official stable release FIRMWARE_VERSION_TYPE_OFFICIAL FIRMWARE_VERSION_TYPE = 255 )
func (FIRMWARE_VERSION_TYPE) Bitmask ¶
func (e FIRMWARE_VERSION_TYPE) Bitmask() string
Bitmask return string representetion of intersects FIRMWARE_VERSION_TYPE enums
func (FIRMWARE_VERSION_TYPE) MarshalBinary ¶
func (e FIRMWARE_VERSION_TYPE) MarshalBinary() (data []byte, err error)
MarshalBinary generic func
func (FIRMWARE_VERSION_TYPE) String ¶
func (e FIRMWARE_VERSION_TYPE) String() string
func (*FIRMWARE_VERSION_TYPE) UnmarshalBinary ¶
func (e *FIRMWARE_VERSION_TYPE) UnmarshalBinary(data []byte) error
UnmarshalBinary generic func
type FenceStatus ¶
type FenceStatus struct { BreachTime uint32 `json:"BreachTime" ` // [ ms ] Time (since boot) of last breach. BreachCount uint16 `json:"BreachCount" ` // Number of fence breaches. BreachStatus uint8 `json:"BreachStatus" ` // Breach status (0 if currently inside fence, 1 if outside). BreachType FENCE_BREACH `json:"BreachType" ` // Last breach type. }
FenceStatus struct (generated typeinfo) Status of geo-fencing. Sent in extended status stream when fencing enabled.
func (*FenceStatus) Dict ¶
func (m *FenceStatus) Dict() map[string]interface{}
ToMap (generated function)
func (*FenceStatus) Marshal ¶
func (m *FenceStatus) Marshal() ([]byte, error)
Marshal (generated function)
func (FenceStatus) MarshalEasyJSON ¶ added in v1.5.0
func (v FenceStatus) MarshalEasyJSON(w *jwriter.Writer)
MarshalEasyJSON supports easyjson.Marshaler interface
func (FenceStatus) MarshalJSON ¶ added in v1.5.0
func (v FenceStatus) MarshalJSON() ([]byte, error)
MarshalJSON supports json.Marshaler interface
func (*FenceStatus) MsgID ¶
func (m *FenceStatus) MsgID() message.MessageID
MsgID (generated function)
func (*FenceStatus) Unmarshal ¶
func (m *FenceStatus) Unmarshal(data []byte) error
Unmarshal (generated function)
func (*FenceStatus) UnmarshalEasyJSON ¶ added in v1.5.0
func (v *FenceStatus) UnmarshalEasyJSON(l *jlexer.Lexer)
UnmarshalEasyJSON supports easyjson.Unmarshaler interface
func (*FenceStatus) UnmarshalJSON ¶ added in v1.5.0
func (v *FenceStatus) UnmarshalJSON(data []byte) error
UnmarshalJSON supports json.Unmarshaler interface
type FileTransferProtocol ¶
type FileTransferProtocol struct { TargetNetwork uint8 `json:"TargetNetwork" ` // Network ID (0 for broadcast) TargetSystem uint8 `json:"TargetSystem" ` // System ID (0 for broadcast) TargetComponent uint8 `json:"TargetComponent" ` // Component ID (0 for broadcast) Payload []uint8 `json:"Payload" len:"251" ` // Variable length payload. The length is defined by the remaining message length when subtracting the header and other fields. The entire content of this block is opaque unless you understand any the encoding message_type. The particular encoding used can be extension specific and might not always be documented as part of the mavlink specification. }
FileTransferProtocol struct (generated typeinfo) File transfer message
func (*FileTransferProtocol) Dict ¶
func (m *FileTransferProtocol) Dict() map[string]interface{}
ToMap (generated function)
func (*FileTransferProtocol) Marshal ¶
func (m *FileTransferProtocol) Marshal() ([]byte, error)
Marshal (generated function)
func (FileTransferProtocol) MarshalEasyJSON ¶ added in v1.5.0
func (v FileTransferProtocol) MarshalEasyJSON(w *jwriter.Writer)
MarshalEasyJSON supports easyjson.Marshaler interface
func (FileTransferProtocol) MarshalJSON ¶ added in v1.5.0
func (v FileTransferProtocol) MarshalJSON() ([]byte, error)
MarshalJSON supports json.Marshaler interface
func (*FileTransferProtocol) MsgID ¶
func (m *FileTransferProtocol) MsgID() message.MessageID
MsgID (generated function)
func (*FileTransferProtocol) String ¶
func (m *FileTransferProtocol) String() string
String (generated function)
func (*FileTransferProtocol) Unmarshal ¶
func (m *FileTransferProtocol) Unmarshal(data []byte) error
Unmarshal (generated function)
func (*FileTransferProtocol) UnmarshalEasyJSON ¶ added in v1.5.0
func (v *FileTransferProtocol) UnmarshalEasyJSON(l *jlexer.Lexer)
UnmarshalEasyJSON supports easyjson.Unmarshaler interface
func (*FileTransferProtocol) UnmarshalJSON ¶ added in v1.5.0
func (v *FileTransferProtocol) UnmarshalJSON(data []byte) error
UnmarshalJSON supports json.Unmarshaler interface
type FollowTarget ¶
type FollowTarget struct { Timestamp uint64 `json:"Timestamp" ` // [ ms ] Timestamp (time since system boot). CustomState uint64 `json:"CustomState" ` // button states or switches of a tracker device Lat int32 `json:"Lat" ` // [ degE7 ] Latitude (WGS84) Lon int32 `json:"Lon" ` // [ degE7 ] Longitude (WGS84) Alt float32 `json:"Alt" ` // [ m ] Altitude (MSL) Vel []float32 `json:"Vel" len:"3" ` // [ m/s ] target velocity (0,0,0) for unknown Acc []float32 `json:"Acc" len:"3" ` // [ m/s/s ] linear target acceleration (0,0,0) for unknown AttitudeQ []float32 `json:"AttitudeQ" len:"4" ` // (1 0 0 0 for unknown) Rates []float32 `json:"Rates" len:"3" ` // (0 0 0 for unknown) PositionCov []float32 `json:"PositionCov" len:"3" ` // eph epv EstCapabilities uint8 `json:"EstCapabilities" ` // bit positions for tracker reporting capabilities (POS = 0, VEL = 1, ACCEL = 2, ATT + RATES = 3) }
FollowTarget struct (generated typeinfo) Current motion information from a designated system
func (*FollowTarget) Dict ¶
func (m *FollowTarget) Dict() map[string]interface{}
ToMap (generated function)
func (*FollowTarget) Marshal ¶
func (m *FollowTarget) Marshal() ([]byte, error)
Marshal (generated function)
func (FollowTarget) MarshalEasyJSON ¶ added in v1.5.0
func (v FollowTarget) MarshalEasyJSON(w *jwriter.Writer)
MarshalEasyJSON supports easyjson.Marshaler interface
func (FollowTarget) MarshalJSON ¶ added in v1.5.0
func (v FollowTarget) MarshalJSON() ([]byte, error)
MarshalJSON supports json.Marshaler interface
func (*FollowTarget) MsgID ¶
func (m *FollowTarget) MsgID() message.MessageID
MsgID (generated function)
func (*FollowTarget) Unmarshal ¶
func (m *FollowTarget) Unmarshal(data []byte) error
Unmarshal (generated function)
func (*FollowTarget) UnmarshalEasyJSON ¶ added in v1.5.0
func (v *FollowTarget) UnmarshalEasyJSON(l *jlexer.Lexer)
UnmarshalEasyJSON supports easyjson.Unmarshaler interface
func (*FollowTarget) UnmarshalJSON ¶ added in v1.5.0
func (v *FollowTarget) UnmarshalJSON(data []byte) error
UnmarshalJSON supports json.Unmarshaler interface
type GIMBAL_DEVICE_CAP_FLAGS ¶
type GIMBAL_DEVICE_CAP_FLAGS int
GIMBAL_DEVICE_CAP_FLAGS type. Gimbal device (low level) capability flags (bitmap)
const ( // GIMBAL_DEVICE_CAP_FLAGS_HAS_RETRACT enum. Gimbal device supports a retracted position GIMBAL_DEVICE_CAP_FLAGS_HAS_RETRACT GIMBAL_DEVICE_CAP_FLAGS = 1 // GIMBAL_DEVICE_CAP_FLAGS_HAS_NEUTRAL enum. Gimbal device supports a horizontal, forward looking position, stabilized GIMBAL_DEVICE_CAP_FLAGS_HAS_NEUTRAL GIMBAL_DEVICE_CAP_FLAGS = 2 // GIMBAL_DEVICE_CAP_FLAGS_HAS_ROLL_AXIS enum. Gimbal device supports rotating around roll axis GIMBAL_DEVICE_CAP_FLAGS_HAS_ROLL_AXIS GIMBAL_DEVICE_CAP_FLAGS = 4 // GIMBAL_DEVICE_CAP_FLAGS_HAS_ROLL_FOLLOW enum. Gimbal device supports to follow a roll angle relative to the vehicle GIMBAL_DEVICE_CAP_FLAGS_HAS_ROLL_FOLLOW GIMBAL_DEVICE_CAP_FLAGS = 8 // GIMBAL_DEVICE_CAP_FLAGS_HAS_ROLL_LOCK enum. Gimbal device supports locking to an roll angle (generally that's the default with roll stabilized) GIMBAL_DEVICE_CAP_FLAGS_HAS_ROLL_LOCK GIMBAL_DEVICE_CAP_FLAGS = 16 // GIMBAL_DEVICE_CAP_FLAGS_HAS_PITCH_AXIS enum. Gimbal device supports rotating around pitch axis GIMBAL_DEVICE_CAP_FLAGS_HAS_PITCH_AXIS GIMBAL_DEVICE_CAP_FLAGS = 32 // GIMBAL_DEVICE_CAP_FLAGS_HAS_PITCH_FOLLOW enum. Gimbal device supports to follow a pitch angle relative to the vehicle GIMBAL_DEVICE_CAP_FLAGS_HAS_PITCH_FOLLOW GIMBAL_DEVICE_CAP_FLAGS = 64 // GIMBAL_DEVICE_CAP_FLAGS_HAS_PITCH_LOCK enum. Gimbal device supports locking to an pitch angle (generally that's the default with pitch stabilized) GIMBAL_DEVICE_CAP_FLAGS_HAS_PITCH_LOCK GIMBAL_DEVICE_CAP_FLAGS = 128 // GIMBAL_DEVICE_CAP_FLAGS_HAS_YAW_AXIS enum. Gimbal device supports rotating around yaw axis GIMBAL_DEVICE_CAP_FLAGS_HAS_YAW_AXIS GIMBAL_DEVICE_CAP_FLAGS = 256 // GIMBAL_DEVICE_CAP_FLAGS_HAS_YAW_FOLLOW enum. Gimbal device supports to follow a yaw angle relative to the vehicle (generally that's the default) GIMBAL_DEVICE_CAP_FLAGS_HAS_YAW_FOLLOW GIMBAL_DEVICE_CAP_FLAGS = 512 // GIMBAL_DEVICE_CAP_FLAGS_HAS_YAW_LOCK enum. Gimbal device supports locking to an absolute heading (often this is an option available) GIMBAL_DEVICE_CAP_FLAGS_HAS_YAW_LOCK GIMBAL_DEVICE_CAP_FLAGS = 1024 // GIMBAL_DEVICE_CAP_FLAGS_SUPPORTS_INFINITE_YAW enum. Gimbal device supports yawing/panning infinetely (e.g. using slip disk) GIMBAL_DEVICE_CAP_FLAGS_SUPPORTS_INFINITE_YAW GIMBAL_DEVICE_CAP_FLAGS = 2048 )
func (GIMBAL_DEVICE_CAP_FLAGS) Bitmask ¶
func (e GIMBAL_DEVICE_CAP_FLAGS) Bitmask() string
Bitmask return string representetion of intersects GIMBAL_DEVICE_CAP_FLAGS enums
func (GIMBAL_DEVICE_CAP_FLAGS) MarshalBinary ¶
func (e GIMBAL_DEVICE_CAP_FLAGS) MarshalBinary() (data []byte, err error)
MarshalBinary generic func
func (GIMBAL_DEVICE_CAP_FLAGS) String ¶
func (e GIMBAL_DEVICE_CAP_FLAGS) String() string
func (*GIMBAL_DEVICE_CAP_FLAGS) UnmarshalBinary ¶
func (e *GIMBAL_DEVICE_CAP_FLAGS) UnmarshalBinary(data []byte) error
UnmarshalBinary generic func
type GIMBAL_DEVICE_ERROR_FLAGS ¶
type GIMBAL_DEVICE_ERROR_FLAGS int
GIMBAL_DEVICE_ERROR_FLAGS type. Gimbal device (low level) error flags (bitmap, 0 means no error)
const ( // GIMBAL_DEVICE_ERROR_FLAGS_AT_ROLL_LIMIT enum. Gimbal device is limited by hardware roll limit GIMBAL_DEVICE_ERROR_FLAGS_AT_ROLL_LIMIT GIMBAL_DEVICE_ERROR_FLAGS = 1 // GIMBAL_DEVICE_ERROR_FLAGS_AT_PITCH_LIMIT enum. Gimbal device is limited by hardware pitch limit GIMBAL_DEVICE_ERROR_FLAGS_AT_PITCH_LIMIT GIMBAL_DEVICE_ERROR_FLAGS = 2 // GIMBAL_DEVICE_ERROR_FLAGS_AT_YAW_LIMIT enum. Gimbal device is limited by hardware yaw limit GIMBAL_DEVICE_ERROR_FLAGS_AT_YAW_LIMIT GIMBAL_DEVICE_ERROR_FLAGS = 4 // GIMBAL_DEVICE_ERROR_FLAGS_ENCODER_ERROR enum. There is an error with the gimbal encoders GIMBAL_DEVICE_ERROR_FLAGS_ENCODER_ERROR GIMBAL_DEVICE_ERROR_FLAGS = 8 // GIMBAL_DEVICE_ERROR_FLAGS_POWER_ERROR enum. There is an error with the gimbal power source GIMBAL_DEVICE_ERROR_FLAGS_POWER_ERROR GIMBAL_DEVICE_ERROR_FLAGS = 16 // GIMBAL_DEVICE_ERROR_FLAGS_MOTOR_ERROR enum. There is an error with the gimbal motor's GIMBAL_DEVICE_ERROR_FLAGS_MOTOR_ERROR GIMBAL_DEVICE_ERROR_FLAGS = 32 // GIMBAL_DEVICE_ERROR_FLAGS_SOFTWARE_ERROR enum. There is an error with the gimbal's software GIMBAL_DEVICE_ERROR_FLAGS_SOFTWARE_ERROR GIMBAL_DEVICE_ERROR_FLAGS = 64 // GIMBAL_DEVICE_ERROR_FLAGS_COMMS_ERROR enum. There is an error with the gimbal's communication GIMBAL_DEVICE_ERROR_FLAGS_COMMS_ERROR GIMBAL_DEVICE_ERROR_FLAGS = 128 // GIMBAL_DEVICE_ERROR_FLAGS_CALIBRATION_RUNNING enum. Gimbal is currently calibrating GIMBAL_DEVICE_ERROR_FLAGS_CALIBRATION_RUNNING GIMBAL_DEVICE_ERROR_FLAGS = 256 )
func (GIMBAL_DEVICE_ERROR_FLAGS) Bitmask ¶
func (e GIMBAL_DEVICE_ERROR_FLAGS) Bitmask() string
Bitmask return string representetion of intersects GIMBAL_DEVICE_ERROR_FLAGS enums
func (GIMBAL_DEVICE_ERROR_FLAGS) MarshalBinary ¶
func (e GIMBAL_DEVICE_ERROR_FLAGS) MarshalBinary() (data []byte, err error)
MarshalBinary generic func
func (GIMBAL_DEVICE_ERROR_FLAGS) String ¶
func (e GIMBAL_DEVICE_ERROR_FLAGS) String() string
func (*GIMBAL_DEVICE_ERROR_FLAGS) UnmarshalBinary ¶
func (e *GIMBAL_DEVICE_ERROR_FLAGS) UnmarshalBinary(data []byte) error
UnmarshalBinary generic func
type GIMBAL_DEVICE_FLAGS ¶
type GIMBAL_DEVICE_FLAGS int
GIMBAL_DEVICE_FLAGS type. Flags for gimbal device (lower level) operation.
const ( // GIMBAL_DEVICE_FLAGS_RETRACT enum. Set to retracted safe position (no stabilization), takes presedence over all other flags GIMBAL_DEVICE_FLAGS_RETRACT GIMBAL_DEVICE_FLAGS = 1 // GIMBAL_DEVICE_FLAGS_NEUTRAL enum. Set to neutral position (horizontal, forward looking, with stabiliziation), takes presedence over all other flags except RETRACT GIMBAL_DEVICE_FLAGS_NEUTRAL GIMBAL_DEVICE_FLAGS = 2 // GIMBAL_DEVICE_FLAGS_ROLL_LOCK enum. Lock roll angle to absolute angle relative to horizon (not relative to drone). This is generally the default with a stabilizing gimbal GIMBAL_DEVICE_FLAGS_ROLL_LOCK GIMBAL_DEVICE_FLAGS = 4 // GIMBAL_DEVICE_FLAGS_PITCH_LOCK enum. Lock pitch angle to absolute angle relative to horizon (not relative to drone). This is generally the default GIMBAL_DEVICE_FLAGS_PITCH_LOCK GIMBAL_DEVICE_FLAGS = 8 // GIMBAL_DEVICE_FLAGS_YAW_LOCK enum. Lock yaw angle to absolute angle relative to North (not relative to drone). If this flag is set, the quaternion is in the Earth frame with the x-axis pointing North (yaw absolute). If this flag is not set, the quaternion frame is in the Earth frame rotated so that the x-axis is pointing forward (yaw relative to vehicle) GIMBAL_DEVICE_FLAGS_YAW_LOCK GIMBAL_DEVICE_FLAGS = 16 )
func (GIMBAL_DEVICE_FLAGS) Bitmask ¶
func (e GIMBAL_DEVICE_FLAGS) Bitmask() string
Bitmask return string representetion of intersects GIMBAL_DEVICE_FLAGS enums
func (GIMBAL_DEVICE_FLAGS) MarshalBinary ¶
func (e GIMBAL_DEVICE_FLAGS) MarshalBinary() (data []byte, err error)
MarshalBinary generic func
func (GIMBAL_DEVICE_FLAGS) String ¶
func (e GIMBAL_DEVICE_FLAGS) String() string
func (*GIMBAL_DEVICE_FLAGS) UnmarshalBinary ¶
func (e *GIMBAL_DEVICE_FLAGS) UnmarshalBinary(data []byte) error
UnmarshalBinary generic func
type GIMBAL_MANAGER_CAP_FLAGS ¶
type GIMBAL_MANAGER_CAP_FLAGS int
GIMBAL_MANAGER_CAP_FLAGS type. Gimbal manager high level capability flags (bitmap). The first 16 bits are identical to the GIMBAL_DEVICE_CAP_FLAGS which are identical with GIMBAL_DEVICE_FLAGS. However, the gimbal manager does not need to copy the flags from the gimbal but can also enhance the capabilities and thus add flags.
const ( // GIMBAL_MANAGER_CAP_FLAGS_HAS_RETRACT enum. Based on GIMBAL_DEVICE_CAP_FLAGS_HAS_RETRACT GIMBAL_MANAGER_CAP_FLAGS_HAS_RETRACT GIMBAL_MANAGER_CAP_FLAGS = 1 // GIMBAL_MANAGER_CAP_FLAGS_HAS_NEUTRAL enum. Based on GIMBAL_DEVICE_CAP_FLAGS_HAS_NEUTRAL GIMBAL_MANAGER_CAP_FLAGS_HAS_NEUTRAL GIMBAL_MANAGER_CAP_FLAGS = 2 // GIMBAL_MANAGER_CAP_FLAGS_HAS_ROLL_AXIS enum. Based on GIMBAL_DEVICE_CAP_FLAGS_HAS_ROLL_AXIS GIMBAL_MANAGER_CAP_FLAGS_HAS_ROLL_AXIS GIMBAL_MANAGER_CAP_FLAGS = 4 // GIMBAL_MANAGER_CAP_FLAGS_HAS_ROLL_FOLLOW enum. Based on GIMBAL_DEVICE_CAP_FLAGS_HAS_ROLL_FOLLOW GIMBAL_MANAGER_CAP_FLAGS_HAS_ROLL_FOLLOW GIMBAL_MANAGER_CAP_FLAGS = 8 // GIMBAL_MANAGER_CAP_FLAGS_HAS_ROLL_LOCK enum. Based on GIMBAL_DEVICE_CAP_FLAGS_HAS_ROLL_LOCK GIMBAL_MANAGER_CAP_FLAGS_HAS_ROLL_LOCK GIMBAL_MANAGER_CAP_FLAGS = 16 // GIMBAL_MANAGER_CAP_FLAGS_HAS_PITCH_AXIS enum. Based on GIMBAL_DEVICE_CAP_FLAGS_HAS_PITCH_AXIS GIMBAL_MANAGER_CAP_FLAGS_HAS_PITCH_AXIS GIMBAL_MANAGER_CAP_FLAGS = 32 // GIMBAL_MANAGER_CAP_FLAGS_HAS_PITCH_FOLLOW enum. Based on GIMBAL_DEVICE_CAP_FLAGS_HAS_PITCH_FOLLOW GIMBAL_MANAGER_CAP_FLAGS_HAS_PITCH_FOLLOW GIMBAL_MANAGER_CAP_FLAGS = 64 // GIMBAL_MANAGER_CAP_FLAGS_HAS_PITCH_LOCK enum. Based on GIMBAL_DEVICE_CAP_FLAGS_HAS_PITCH_LOCK GIMBAL_MANAGER_CAP_FLAGS_HAS_PITCH_LOCK GIMBAL_MANAGER_CAP_FLAGS = 128 // GIMBAL_MANAGER_CAP_FLAGS_HAS_YAW_AXIS enum. Based on GIMBAL_DEVICE_CAP_FLAGS_HAS_YAW_AXIS GIMBAL_MANAGER_CAP_FLAGS_HAS_YAW_AXIS GIMBAL_MANAGER_CAP_FLAGS = 256 // GIMBAL_MANAGER_CAP_FLAGS_HAS_YAW_FOLLOW enum. Based on GIMBAL_DEVICE_CAP_FLAGS_HAS_YAW_FOLLOW GIMBAL_MANAGER_CAP_FLAGS_HAS_YAW_FOLLOW GIMBAL_MANAGER_CAP_FLAGS = 512 // GIMBAL_MANAGER_CAP_FLAGS_HAS_YAW_LOCK enum. Based on GIMBAL_DEVICE_CAP_FLAGS_HAS_YAW_LOCK GIMBAL_MANAGER_CAP_FLAGS_HAS_YAW_LOCK GIMBAL_MANAGER_CAP_FLAGS = 1024 // GIMBAL_MANAGER_CAP_FLAGS_SUPPORTS_INFINITE_YAW enum. Based on GIMBAL_DEVICE_CAP_FLAGS_SUPPORTS_INFINITE_YAW GIMBAL_MANAGER_CAP_FLAGS_SUPPORTS_INFINITE_YAW GIMBAL_MANAGER_CAP_FLAGS = 2048 // GIMBAL_MANAGER_CAP_FLAGS_CAN_POINT_LOCATION_LOCAL enum. Gimbal manager supports to point to a local position GIMBAL_MANAGER_CAP_FLAGS_CAN_POINT_LOCATION_LOCAL GIMBAL_MANAGER_CAP_FLAGS = 65536 // GIMBAL_MANAGER_CAP_FLAGS_CAN_POINT_LOCATION_GLOBAL enum. Gimbal manager supports to point to a global latitude, longitude, altitude position GIMBAL_MANAGER_CAP_FLAGS_CAN_POINT_LOCATION_GLOBAL GIMBAL_MANAGER_CAP_FLAGS = 131072 )
func (GIMBAL_MANAGER_CAP_FLAGS) Bitmask ¶
func (e GIMBAL_MANAGER_CAP_FLAGS) Bitmask() string
Bitmask return string representetion of intersects GIMBAL_MANAGER_CAP_FLAGS enums
func (GIMBAL_MANAGER_CAP_FLAGS) MarshalBinary ¶
func (e GIMBAL_MANAGER_CAP_FLAGS) MarshalBinary() (data []byte, err error)
MarshalBinary generic func
func (GIMBAL_MANAGER_CAP_FLAGS) String ¶
func (e GIMBAL_MANAGER_CAP_FLAGS) String() string
func (*GIMBAL_MANAGER_CAP_FLAGS) UnmarshalBinary ¶
func (e *GIMBAL_MANAGER_CAP_FLAGS) UnmarshalBinary(data []byte) error
UnmarshalBinary generic func
type GIMBAL_MANAGER_FLAGS ¶
type GIMBAL_MANAGER_FLAGS int
GIMBAL_MANAGER_FLAGS type. Flags for high level gimbal manager operation The first 16 bytes are identical to the GIMBAL_DEVICE_FLAGS.
const ( // GIMBAL_MANAGER_FLAGS_RETRACT enum. Based on GIMBAL_DEVICE_FLAGS_RETRACT GIMBAL_MANAGER_FLAGS_RETRACT GIMBAL_MANAGER_FLAGS = 1 // GIMBAL_MANAGER_FLAGS_NEUTRAL enum. Based on GIMBAL_DEVICE_FLAGS_NEUTRAL GIMBAL_MANAGER_FLAGS_NEUTRAL GIMBAL_MANAGER_FLAGS = 2 // GIMBAL_MANAGER_FLAGS_ROLL_LOCK enum. Based on GIMBAL_DEVICE_FLAGS_ROLL_LOCK GIMBAL_MANAGER_FLAGS_ROLL_LOCK GIMBAL_MANAGER_FLAGS = 4 // GIMBAL_MANAGER_FLAGS_PITCH_LOCK enum. Based on GIMBAL_DEVICE_FLAGS_PITCH_LOCK GIMBAL_MANAGER_FLAGS_PITCH_LOCK GIMBAL_MANAGER_FLAGS = 8 // GIMBAL_MANAGER_FLAGS_YAW_LOCK enum. Based on GIMBAL_DEVICE_FLAGS_YAW_LOCK GIMBAL_MANAGER_FLAGS_YAW_LOCK GIMBAL_MANAGER_FLAGS = 16 )
func (GIMBAL_MANAGER_FLAGS) Bitmask ¶
func (e GIMBAL_MANAGER_FLAGS) Bitmask() string
Bitmask return string representetion of intersects GIMBAL_MANAGER_FLAGS enums
func (GIMBAL_MANAGER_FLAGS) MarshalBinary ¶
func (e GIMBAL_MANAGER_FLAGS) MarshalBinary() (data []byte, err error)
MarshalBinary generic func
func (GIMBAL_MANAGER_FLAGS) String ¶
func (e GIMBAL_MANAGER_FLAGS) String() string
func (*GIMBAL_MANAGER_FLAGS) UnmarshalBinary ¶
func (e *GIMBAL_MANAGER_FLAGS) UnmarshalBinary(data []byte) error
UnmarshalBinary generic func
type GPS_FIX_TYPE ¶
type GPS_FIX_TYPE int
GPS_FIX_TYPE type. Type of GPS fix
const ( // GPS_FIX_TYPE_NO_GPS enum. No GPS connected GPS_FIX_TYPE_NO_GPS GPS_FIX_TYPE = 0 // GPS_FIX_TYPE_NO_FIX enum. No position information, GPS is connected GPS_FIX_TYPE_NO_FIX GPS_FIX_TYPE = 1 // GPS_FIX_TYPE_2D_FIX enum. 2D position GPS_FIX_TYPE_2D_FIX GPS_FIX_TYPE = 2 // GPS_FIX_TYPE_3D_FIX enum. 3D position GPS_FIX_TYPE_3D_FIX GPS_FIX_TYPE = 3 // GPS_FIX_TYPE_DGPS enum. DGPS/SBAS aided 3D position GPS_FIX_TYPE_DGPS GPS_FIX_TYPE = 4 // GPS_FIX_TYPE_RTK_FLOAT enum. RTK float, 3D position GPS_FIX_TYPE_RTK_FLOAT GPS_FIX_TYPE = 5 // GPS_FIX_TYPE_RTK_FIXED enum. RTK Fixed, 3D position GPS_FIX_TYPE_RTK_FIXED GPS_FIX_TYPE = 6 // GPS_FIX_TYPE_STATIC enum. Static fixed, typically used for base stations GPS_FIX_TYPE_STATIC GPS_FIX_TYPE = 7 // GPS_FIX_TYPE_PPP enum. PPP, 3D position GPS_FIX_TYPE_PPP GPS_FIX_TYPE = 8 )
func (GPS_FIX_TYPE) Bitmask ¶
func (e GPS_FIX_TYPE) Bitmask() string
Bitmask return string representetion of intersects GPS_FIX_TYPE enums
func (GPS_FIX_TYPE) MarshalBinary ¶
func (e GPS_FIX_TYPE) MarshalBinary() (data []byte, err error)
MarshalBinary generic func
func (GPS_FIX_TYPE) String ¶
func (e GPS_FIX_TYPE) String() string
func (*GPS_FIX_TYPE) UnmarshalBinary ¶
func (e *GPS_FIX_TYPE) UnmarshalBinary(data []byte) error
UnmarshalBinary generic func
type GPS_INPUT_IGNORE_FLAGS ¶
type GPS_INPUT_IGNORE_FLAGS int
GPS_INPUT_IGNORE_FLAGS type
const ( // GPS_INPUT_IGNORE_FLAG_ALT enum. ignore altitude field GPS_INPUT_IGNORE_FLAG_ALT GPS_INPUT_IGNORE_FLAGS = 1 // GPS_INPUT_IGNORE_FLAG_HDOP enum. ignore hdop field GPS_INPUT_IGNORE_FLAG_HDOP GPS_INPUT_IGNORE_FLAGS = 2 // GPS_INPUT_IGNORE_FLAG_VDOP enum. ignore vdop field GPS_INPUT_IGNORE_FLAG_VDOP GPS_INPUT_IGNORE_FLAGS = 4 // GPS_INPUT_IGNORE_FLAG_VEL_HORIZ enum. ignore horizontal velocity field (vn and ve) GPS_INPUT_IGNORE_FLAG_VEL_HORIZ GPS_INPUT_IGNORE_FLAGS = 8 // GPS_INPUT_IGNORE_FLAG_VEL_VERT enum. ignore vertical velocity field (vd) GPS_INPUT_IGNORE_FLAG_VEL_VERT GPS_INPUT_IGNORE_FLAGS = 16 // GPS_INPUT_IGNORE_FLAG_SPEED_ACCURACY enum. ignore speed accuracy field GPS_INPUT_IGNORE_FLAG_SPEED_ACCURACY GPS_INPUT_IGNORE_FLAGS = 32 // GPS_INPUT_IGNORE_FLAG_HORIZONTAL_ACCURACY enum. ignore horizontal accuracy field GPS_INPUT_IGNORE_FLAG_HORIZONTAL_ACCURACY GPS_INPUT_IGNORE_FLAGS = 64 // GPS_INPUT_IGNORE_FLAG_VERTICAL_ACCURACY enum. ignore vertical accuracy field GPS_INPUT_IGNORE_FLAG_VERTICAL_ACCURACY GPS_INPUT_IGNORE_FLAGS = 128 )
func (GPS_INPUT_IGNORE_FLAGS) Bitmask ¶
func (e GPS_INPUT_IGNORE_FLAGS) Bitmask() string
Bitmask return string representetion of intersects GPS_INPUT_IGNORE_FLAGS enums
func (GPS_INPUT_IGNORE_FLAGS) MarshalBinary ¶
func (e GPS_INPUT_IGNORE_FLAGS) MarshalBinary() (data []byte, err error)
MarshalBinary generic func
func (GPS_INPUT_IGNORE_FLAGS) String ¶
func (e GPS_INPUT_IGNORE_FLAGS) String() string
func (*GPS_INPUT_IGNORE_FLAGS) UnmarshalBinary ¶
func (e *GPS_INPUT_IGNORE_FLAGS) UnmarshalBinary(data []byte) error
UnmarshalBinary generic func
type GRIPPER_ACTIONS ¶
type GRIPPER_ACTIONS int
GRIPPER_ACTIONS type. Gripper actions.
const ( // GRIPPER_ACTION_RELEASE enum. Gripper release cargo GRIPPER_ACTION_RELEASE GRIPPER_ACTIONS = 0 // GRIPPER_ACTION_GRAB enum. Gripper grab onto cargo GRIPPER_ACTION_GRAB GRIPPER_ACTIONS = 1 )
func (GRIPPER_ACTIONS) Bitmask ¶
func (e GRIPPER_ACTIONS) Bitmask() string
Bitmask return string representetion of intersects GRIPPER_ACTIONS enums
func (GRIPPER_ACTIONS) MarshalBinary ¶
func (e GRIPPER_ACTIONS) MarshalBinary() (data []byte, err error)
MarshalBinary generic func
func (GRIPPER_ACTIONS) String ¶
func (e GRIPPER_ACTIONS) String() string
func (*GRIPPER_ACTIONS) UnmarshalBinary ¶
func (e *GRIPPER_ACTIONS) UnmarshalBinary(data []byte) error
UnmarshalBinary generic func
type GlobalPositionInt ¶
type GlobalPositionInt struct { TimeBootMs uint32 `json:"TimeBootMs" ` // [ ms ] Timestamp (time since system boot). Lat int32 `json:"Lat" ` // [ degE7 ] Latitude, expressed Lon int32 `json:"Lon" ` // [ degE7 ] Longitude, expressed Alt int32 `json:"Alt" ` // [ mm ] Altitude (MSL). Note that virtually all GPS modules provide both WGS84 and MSL. RelativeAlt int32 `json:"RelativeAlt" ` // [ mm ] Altitude above ground Vx int16 `json:"Vx" ` // [ cm/s ] Ground X Speed (Latitude, positive north) Vy int16 `json:"Vy" ` // [ cm/s ] Ground Y Speed (Longitude, positive east) Vz int16 `json:"Vz" ` // [ cm/s ] Ground Z Speed (Altitude, positive down) Hdg uint16 `json:"Hdg" ` // [ cdeg ] Vehicle heading (yaw angle), 0.0..359.99 degrees. If unknown, set to: UINT16_MAX }
GlobalPositionInt struct (generated typeinfo) The filtered global position (e.g. fused GPS and accelerometers). The position is in GPS-frame (right-handed, Z-up). It
is designed as scaled integer message since the resolution of float is not sufficient.
func (*GlobalPositionInt) Dict ¶
func (m *GlobalPositionInt) Dict() map[string]interface{}
ToMap (generated function)
func (*GlobalPositionInt) Marshal ¶
func (m *GlobalPositionInt) Marshal() ([]byte, error)
Marshal (generated function)
func (GlobalPositionInt) MarshalEasyJSON ¶ added in v1.5.0
func (v GlobalPositionInt) MarshalEasyJSON(w *jwriter.Writer)
MarshalEasyJSON supports easyjson.Marshaler interface
func (GlobalPositionInt) MarshalJSON ¶ added in v1.5.0
func (v GlobalPositionInt) MarshalJSON() ([]byte, error)
MarshalJSON supports json.Marshaler interface
func (*GlobalPositionInt) MsgID ¶
func (m *GlobalPositionInt) MsgID() message.MessageID
MsgID (generated function)
func (*GlobalPositionInt) String ¶
func (m *GlobalPositionInt) String() string
String (generated function)
func (*GlobalPositionInt) Unmarshal ¶
func (m *GlobalPositionInt) Unmarshal(data []byte) error
Unmarshal (generated function)
func (*GlobalPositionInt) UnmarshalEasyJSON ¶ added in v1.5.0
func (v *GlobalPositionInt) UnmarshalEasyJSON(l *jlexer.Lexer)
UnmarshalEasyJSON supports easyjson.Unmarshaler interface
func (*GlobalPositionInt) UnmarshalJSON ¶ added in v1.5.0
func (v *GlobalPositionInt) UnmarshalJSON(data []byte) error
UnmarshalJSON supports json.Unmarshaler interface
type GlobalPositionIntCov ¶
type GlobalPositionIntCov struct { TimeUsec uint64 `json:"TimeUsec" ` // [ us ] Timestamp (UNIX Epoch time or time since system boot). The receiving end can infer timestamp format (since 1.1.1970 or since system boot) by checking for the magnitude of the number. Lat int32 `json:"Lat" ` // [ degE7 ] Latitude Lon int32 `json:"Lon" ` // [ degE7 ] Longitude Alt int32 `json:"Alt" ` // [ mm ] Altitude in meters above MSL RelativeAlt int32 `json:"RelativeAlt" ` // [ mm ] Altitude above ground Vx float32 `json:"Vx" ` // [ m/s ] Ground X Speed (Latitude) Vy float32 `json:"Vy" ` // [ m/s ] Ground Y Speed (Longitude) Vz float32 `json:"Vz" ` // [ m/s ] Ground Z Speed (Altitude) Covariance []float32 `json:"Covariance" len:"36" ` // Row-major representation of a 6x6 position and velocity 6x6 cross-covariance matrix (states: lat, lon, alt, vx, vy, vz; first six entries are the first ROW, next six entries are the second row, etc.). If unknown, assign NaN value to first element in the array. EstimatorType MAV_ESTIMATOR_TYPE `json:"EstimatorType" ` // Class id of the estimator this estimate originated from. }
GlobalPositionIntCov struct (generated typeinfo) The filtered global position (e.g. fused GPS and accelerometers). The position is in GPS-frame (right-handed, Z-up). It is designed as scaled integer message since the resolution of float is not sufficient. NOTE: This message is intended for onboard networks / companion computers and higher-bandwidth links and optimized for accuracy and completeness. Please use the GLOBAL_POSITION_INT message for a minimal subset.
func (*GlobalPositionIntCov) Dict ¶
func (m *GlobalPositionIntCov) Dict() map[string]interface{}
ToMap (generated function)
func (*GlobalPositionIntCov) Marshal ¶
func (m *GlobalPositionIntCov) Marshal() ([]byte, error)
Marshal (generated function)
func (GlobalPositionIntCov) MarshalEasyJSON ¶ added in v1.5.0
func (v GlobalPositionIntCov) MarshalEasyJSON(w *jwriter.Writer)
MarshalEasyJSON supports easyjson.Marshaler interface
func (GlobalPositionIntCov) MarshalJSON ¶ added in v1.5.0
func (v GlobalPositionIntCov) MarshalJSON() ([]byte, error)
MarshalJSON supports json.Marshaler interface
func (*GlobalPositionIntCov) MsgID ¶
func (m *GlobalPositionIntCov) MsgID() message.MessageID
MsgID (generated function)
func (*GlobalPositionIntCov) String ¶
func (m *GlobalPositionIntCov) String() string
String (generated function)
func (*GlobalPositionIntCov) Unmarshal ¶
func (m *GlobalPositionIntCov) Unmarshal(data []byte) error
Unmarshal (generated function)
func (*GlobalPositionIntCov) UnmarshalEasyJSON ¶ added in v1.5.0
func (v *GlobalPositionIntCov) UnmarshalEasyJSON(l *jlexer.Lexer)
UnmarshalEasyJSON supports easyjson.Unmarshaler interface
func (*GlobalPositionIntCov) UnmarshalJSON ¶ added in v1.5.0
func (v *GlobalPositionIntCov) UnmarshalJSON(data []byte) error
UnmarshalJSON supports json.Unmarshaler interface
type GlobalVisionPositionEstimate ¶
type GlobalVisionPositionEstimate struct { Usec uint64 `json:"Usec" ` // [ us ] Timestamp (UNIX time or since system boot) X float32 `json:"X" ` // [ m ] Global X position Y float32 `json:"Y" ` // [ m ] Global Y position Z float32 `json:"Z" ` // [ m ] Global Z position Roll float32 `json:"Roll" ` // [ rad ] Roll angle Pitch float32 `json:"Pitch" ` // [ rad ] Pitch angle Yaw float32 `json:"Yaw" ` // [ rad ] Yaw angle }
GlobalVisionPositionEstimate struct (generated typeinfo) Global position/attitude estimate from a vision source.
func (*GlobalVisionPositionEstimate) Dict ¶
func (m *GlobalVisionPositionEstimate) Dict() map[string]interface{}
ToMap (generated function)
func (*GlobalVisionPositionEstimate) Marshal ¶
func (m *GlobalVisionPositionEstimate) Marshal() ([]byte, error)
Marshal (generated function)
func (GlobalVisionPositionEstimate) MarshalEasyJSON ¶ added in v1.5.0
func (v GlobalVisionPositionEstimate) MarshalEasyJSON(w *jwriter.Writer)
MarshalEasyJSON supports easyjson.Marshaler interface
func (GlobalVisionPositionEstimate) MarshalJSON ¶ added in v1.5.0
func (v GlobalVisionPositionEstimate) MarshalJSON() ([]byte, error)
MarshalJSON supports json.Marshaler interface
func (*GlobalVisionPositionEstimate) MsgID ¶
func (m *GlobalVisionPositionEstimate) MsgID() message.MessageID
MsgID (generated function)
func (*GlobalVisionPositionEstimate) String ¶
func (m *GlobalVisionPositionEstimate) String() string
String (generated function)
func (*GlobalVisionPositionEstimate) Unmarshal ¶
func (m *GlobalVisionPositionEstimate) Unmarshal(data []byte) error
Unmarshal (generated function)
func (*GlobalVisionPositionEstimate) UnmarshalEasyJSON ¶ added in v1.5.0
func (v *GlobalVisionPositionEstimate) UnmarshalEasyJSON(l *jlexer.Lexer)
UnmarshalEasyJSON supports easyjson.Unmarshaler interface
func (*GlobalVisionPositionEstimate) UnmarshalJSON ¶ added in v1.5.0
func (v *GlobalVisionPositionEstimate) UnmarshalJSON(data []byte) error
UnmarshalJSON supports json.Unmarshaler interface
type Gps2Raw ¶
type Gps2Raw struct { TimeUsec uint64 `json:"TimeUsec" ` // [ us ] Timestamp (UNIX Epoch time or time since system boot). The receiving end can infer timestamp format (since 1.1.1970 or since system boot) by checking for the magnitude of the number. Lat int32 `json:"Lat" ` // [ degE7 ] Latitude (WGS84) Lon int32 `json:"Lon" ` // [ degE7 ] Longitude (WGS84) Alt int32 `json:"Alt" ` // [ mm ] Altitude (MSL). Positive for up. DgpsAge uint32 `json:"DgpsAge" ` // [ ms ] Age of DGPS info Eph uint16 `json:"Eph" ` // GPS HDOP horizontal dilution of position (unitless). If unknown, set to: UINT16_MAX Epv uint16 `json:"Epv" ` // GPS VDOP vertical dilution of position (unitless). If unknown, set to: UINT16_MAX Vel uint16 `json:"Vel" ` // [ cm/s ] GPS ground speed. If unknown, set to: UINT16_MAX Cog uint16 `json:"Cog" ` // [ cdeg ] Course over ground (NOT heading, but direction of movement): 0.0..359.99 degrees. If unknown, set to: UINT16_MAX FixType GPS_FIX_TYPE `json:"FixType" ` // GPS fix type. SatellitesVisible uint8 `json:"SatellitesVisible" ` // Number of satellites visible. If unknown, set to 255 DgpsNumch uint8 `json:"DgpsNumch" ` // Number of DGPS satellites }
Gps2Raw struct (generated typeinfo) Second GPS data.
func (Gps2Raw) MarshalEasyJSON ¶ added in v1.5.0
MarshalEasyJSON supports easyjson.Marshaler interface
func (Gps2Raw) MarshalJSON ¶ added in v1.5.0
MarshalJSON supports json.Marshaler interface
func (*Gps2Raw) UnmarshalEasyJSON ¶ added in v1.5.0
UnmarshalEasyJSON supports easyjson.Unmarshaler interface
func (*Gps2Raw) UnmarshalJSON ¶ added in v1.5.0
UnmarshalJSON supports json.Unmarshaler interface
type Gps2Rtk ¶
type Gps2Rtk struct { TimeLastBaselineMs uint32 `json:"TimeLastBaselineMs" ` // [ ms ] Time since boot of last baseline message received. Tow uint32 `json:"Tow" ` // [ ms ] GPS Time of Week of last baseline BaselineAMm int32 `json:"BaselineAMm" ` // [ mm ] Current baseline in ECEF x or NED north component. BaselineBMm int32 `json:"BaselineBMm" ` // [ mm ] Current baseline in ECEF y or NED east component. BaselineCMm int32 `json:"BaselineCMm" ` // [ mm ] Current baseline in ECEF z or NED down component. Accuracy uint32 `json:"Accuracy" ` // Current estimate of baseline accuracy. IarNumHypotheses int32 `json:"IarNumHypotheses" ` // Current number of integer ambiguity hypotheses. Wn uint16 `json:"Wn" ` // GPS Week Number of last baseline RtkReceiverID uint8 `json:"RtkReceiverID" ` // Identification of connected RTK receiver. RtkHealth uint8 `json:"RtkHealth" ` // GPS-specific health report for RTK data. RtkRate uint8 `json:"RtkRate" ` // [ Hz ] Rate of baseline messages being received by GPS Nsats uint8 `json:"Nsats" ` // Current number of sats used for RTK calculation. BaselineCoordsType RTK_BASELINE_COORDINATE_SYSTEM `json:"BaselineCoordsType" ` // Coordinate system of baseline }
Gps2Rtk struct (generated typeinfo) RTK GPS data. Gives information on the relative baseline calculation the GPS is reporting
func (Gps2Rtk) MarshalEasyJSON ¶ added in v1.5.0
MarshalEasyJSON supports easyjson.Marshaler interface
func (Gps2Rtk) MarshalJSON ¶ added in v1.5.0
MarshalJSON supports json.Marshaler interface
func (*Gps2Rtk) UnmarshalEasyJSON ¶ added in v1.5.0
UnmarshalEasyJSON supports easyjson.Unmarshaler interface
func (*Gps2Rtk) UnmarshalJSON ¶ added in v1.5.0
UnmarshalJSON supports json.Unmarshaler interface
type GpsGlobalOrigin ¶
type GpsGlobalOrigin struct { Latitude int32 `json:"Latitude" ` // [ degE7 ] Latitude (WGS84) Longitude int32 `json:"Longitude" ` // [ degE7 ] Longitude (WGS84) Altitude int32 `json:"Altitude" ` // [ mm ] Altitude (MSL). Positive for up. }
GpsGlobalOrigin struct (generated typeinfo) Publishes the GPS co-ordinates of the vehicle local origin (0,0,0) position. Emitted whenever a new GPS-Local position mapping is requested or set - e.g. following SET_GPS_GLOBAL_ORIGIN message.
func (*GpsGlobalOrigin) Dict ¶
func (m *GpsGlobalOrigin) Dict() map[string]interface{}
ToMap (generated function)
func (*GpsGlobalOrigin) Marshal ¶
func (m *GpsGlobalOrigin) Marshal() ([]byte, error)
Marshal (generated function)
func (GpsGlobalOrigin) MarshalEasyJSON ¶ added in v1.5.0
func (v GpsGlobalOrigin) MarshalEasyJSON(w *jwriter.Writer)
MarshalEasyJSON supports easyjson.Marshaler interface
func (GpsGlobalOrigin) MarshalJSON ¶ added in v1.5.0
func (v GpsGlobalOrigin) MarshalJSON() ([]byte, error)
MarshalJSON supports json.Marshaler interface
func (*GpsGlobalOrigin) MsgID ¶
func (m *GpsGlobalOrigin) MsgID() message.MessageID
MsgID (generated function)
func (*GpsGlobalOrigin) String ¶
func (m *GpsGlobalOrigin) String() string
String (generated function)
func (*GpsGlobalOrigin) Unmarshal ¶
func (m *GpsGlobalOrigin) Unmarshal(data []byte) error
Unmarshal (generated function)
func (*GpsGlobalOrigin) UnmarshalEasyJSON ¶ added in v1.5.0
func (v *GpsGlobalOrigin) UnmarshalEasyJSON(l *jlexer.Lexer)
UnmarshalEasyJSON supports easyjson.Unmarshaler interface
func (*GpsGlobalOrigin) UnmarshalJSON ¶ added in v1.5.0
func (v *GpsGlobalOrigin) UnmarshalJSON(data []byte) error
UnmarshalJSON supports json.Unmarshaler interface
type GpsInjectData ¶
type GpsInjectData struct { TargetSystem uint8 `json:"TargetSystem" ` // System ID TargetComponent uint8 `json:"TargetComponent" ` // Component ID Len uint8 `json:"Len" ` // [ bytes ] Data length Data []uint8 `json:"Data" len:"110" ` // Raw data (110 is enough for 12 satellites of RTCMv2) }
GpsInjectData struct (generated typeinfo) Data for injecting into the onboard GPS (used for DGPS)
func (*GpsInjectData) Dict ¶
func (m *GpsInjectData) Dict() map[string]interface{}
ToMap (generated function)
func (*GpsInjectData) Marshal ¶
func (m *GpsInjectData) Marshal() ([]byte, error)
Marshal (generated function)
func (GpsInjectData) MarshalEasyJSON ¶ added in v1.5.0
func (v GpsInjectData) MarshalEasyJSON(w *jwriter.Writer)
MarshalEasyJSON supports easyjson.Marshaler interface
func (GpsInjectData) MarshalJSON ¶ added in v1.5.0
func (v GpsInjectData) MarshalJSON() ([]byte, error)
MarshalJSON supports json.Marshaler interface
func (*GpsInjectData) MsgID ¶
func (m *GpsInjectData) MsgID() message.MessageID
MsgID (generated function)
func (*GpsInjectData) Unmarshal ¶
func (m *GpsInjectData) Unmarshal(data []byte) error
Unmarshal (generated function)
func (*GpsInjectData) UnmarshalEasyJSON ¶ added in v1.5.0
func (v *GpsInjectData) UnmarshalEasyJSON(l *jlexer.Lexer)
UnmarshalEasyJSON supports easyjson.Unmarshaler interface
func (*GpsInjectData) UnmarshalJSON ¶ added in v1.5.0
func (v *GpsInjectData) UnmarshalJSON(data []byte) error
UnmarshalJSON supports json.Unmarshaler interface
type GpsInput ¶
type GpsInput struct { TimeUsec uint64 `json:"TimeUsec" ` // [ us ] Timestamp (UNIX Epoch time or time since system boot). The receiving end can infer timestamp format (since 1.1.1970 or since system boot) by checking for the magnitude of the number. TimeWeekMs uint32 `json:"TimeWeekMs" ` // [ ms ] GPS time (from start of GPS week) Lat int32 `json:"Lat" ` // [ degE7 ] Latitude (WGS84) Lon int32 `json:"Lon" ` // [ degE7 ] Longitude (WGS84) Alt float32 `json:"Alt" ` // [ m ] Altitude (MSL). Positive for up. Hdop float32 `json:"Hdop" ` // GPS HDOP horizontal dilution of position (unitless). If unknown, set to: UINT16_MAX Vdop float32 `json:"Vdop" ` // GPS VDOP vertical dilution of position (unitless). If unknown, set to: UINT16_MAX Vn float32 `json:"Vn" ` // [ m/s ] GPS velocity in north direction in earth-fixed NED frame Ve float32 `json:"Ve" ` // [ m/s ] GPS velocity in east direction in earth-fixed NED frame Vd float32 `json:"Vd" ` // [ m/s ] GPS velocity in down direction in earth-fixed NED frame SpeedAccuracy float32 `json:"SpeedAccuracy" ` // [ m/s ] GPS speed accuracy HorizAccuracy float32 `json:"HorizAccuracy" ` // [ m ] GPS horizontal accuracy VertAccuracy float32 `json:"VertAccuracy" ` // [ m ] GPS vertical accuracy IgnoreFlags GPS_INPUT_IGNORE_FLAGS `json:"IgnoreFlags" ` // Bitmap indicating which GPS input flags fields to ignore. All other fields must be provided. TimeWeek uint16 `json:"TimeWeek" ` // GPS week number GpsID uint8 `json:"GpsID" ` // ID of the GPS for multiple GPS inputs FixType uint8 `json:"FixType" ` // 0-1: no fix, 2: 2D fix, 3: 3D fix. 4: 3D with DGPS. 5: 3D with RTK SatellitesVisible uint8 `json:"SatellitesVisible" ` // Number of satellites visible. }
GpsInput struct (generated typeinfo) GPS sensor input message. This is a raw sensor value sent by the GPS. This is NOT the global position estimate of the system.
func (GpsInput) MarshalEasyJSON ¶ added in v1.5.0
MarshalEasyJSON supports easyjson.Marshaler interface
func (GpsInput) MarshalJSON ¶ added in v1.5.0
MarshalJSON supports json.Marshaler interface
func (*GpsInput) UnmarshalEasyJSON ¶ added in v1.5.0
UnmarshalEasyJSON supports easyjson.Unmarshaler interface
func (*GpsInput) UnmarshalJSON ¶ added in v1.5.0
UnmarshalJSON supports json.Unmarshaler interface
type GpsRawInt ¶
type GpsRawInt struct { TimeUsec uint64 `json:"TimeUsec" ` // [ us ] Timestamp (UNIX Epoch time or time since system boot). The receiving end can infer timestamp format (since 1.1.1970 or since system boot) by checking for the magnitude of the number. Lat int32 `json:"Lat" ` // [ degE7 ] Latitude (WGS84, EGM96 ellipsoid) Lon int32 `json:"Lon" ` // [ degE7 ] Longitude (WGS84, EGM96 ellipsoid) Alt int32 `json:"Alt" ` // [ mm ] Altitude (MSL). Positive for up. Note that virtually all GPS modules provide the MSL altitude in addition to the WGS84 altitude. Eph uint16 `json:"Eph" ` // GPS HDOP horizontal dilution of position (unitless). If unknown, set to: UINT16_MAX Epv uint16 `json:"Epv" ` // GPS VDOP vertical dilution of position (unitless). If unknown, set to: UINT16_MAX Vel uint16 `json:"Vel" ` // [ cm/s ] GPS ground speed. If unknown, set to: UINT16_MAX Cog uint16 `json:"Cog" ` // [ cdeg ] Course over ground (NOT heading, but direction of movement) in degrees * 100, 0.0..359.99 degrees. If unknown, set to: UINT16_MAX FixType GPS_FIX_TYPE `json:"FixType" ` // GPS fix type. SatellitesVisible uint8 `json:"SatellitesVisible" ` // Number of satellites visible. If unknown, set to 255 }
GpsRawInt struct (generated typeinfo) The global position, as returned by the Global Positioning System (GPS). This is
NOT the global position estimate of the system, but rather a RAW sensor value. See message GLOBAL_POSITION for the global position estimate.
func (GpsRawInt) MarshalEasyJSON ¶ added in v1.5.0
MarshalEasyJSON supports easyjson.Marshaler interface
func (GpsRawInt) MarshalJSON ¶ added in v1.5.0
MarshalJSON supports json.Marshaler interface
func (*GpsRawInt) UnmarshalEasyJSON ¶ added in v1.5.0
UnmarshalEasyJSON supports easyjson.Unmarshaler interface
func (*GpsRawInt) UnmarshalJSON ¶ added in v1.5.0
UnmarshalJSON supports json.Unmarshaler interface
type GpsRtcmData ¶
type GpsRtcmData struct { Flags uint8 `json:"Flags" ` // LSB: 1 means message is fragmented, next 2 bits are the fragment ID, the remaining 5 bits are used for the sequence ID. Messages are only to be flushed to the GPS when the entire message has been reconstructed on the autopilot. The fragment ID specifies which order the fragments should be assembled into a buffer, while the sequence ID is used to detect a mismatch between different buffers. The buffer is considered fully reconstructed when either all 4 fragments are present, or all the fragments before the first fragment with a non full payload is received. This management is used to ensure that normal GPS operation doesn't corrupt RTCM data, and to recover from a unreliable transport delivery order. Len uint8 `json:"Len" ` // [ bytes ] data length Data []uint8 `json:"Data" len:"180" ` // RTCM message (may be fragmented) }
GpsRtcmData struct (generated typeinfo) RTCM message for injecting into the onboard GPS (used for DGPS)
func (*GpsRtcmData) Dict ¶
func (m *GpsRtcmData) Dict() map[string]interface{}
ToMap (generated function)
func (*GpsRtcmData) Marshal ¶
func (m *GpsRtcmData) Marshal() ([]byte, error)
Marshal (generated function)
func (GpsRtcmData) MarshalEasyJSON ¶ added in v1.5.0
func (v GpsRtcmData) MarshalEasyJSON(w *jwriter.Writer)
MarshalEasyJSON supports easyjson.Marshaler interface
func (GpsRtcmData) MarshalJSON ¶ added in v1.5.0
func (v GpsRtcmData) MarshalJSON() ([]byte, error)
MarshalJSON supports json.Marshaler interface
func (*GpsRtcmData) MsgID ¶
func (m *GpsRtcmData) MsgID() message.MessageID
MsgID (generated function)
func (*GpsRtcmData) Unmarshal ¶
func (m *GpsRtcmData) Unmarshal(data []byte) error
Unmarshal (generated function)
func (*GpsRtcmData) UnmarshalEasyJSON ¶ added in v1.5.0
func (v *GpsRtcmData) UnmarshalEasyJSON(l *jlexer.Lexer)
UnmarshalEasyJSON supports easyjson.Unmarshaler interface
func (*GpsRtcmData) UnmarshalJSON ¶ added in v1.5.0
func (v *GpsRtcmData) UnmarshalJSON(data []byte) error
UnmarshalJSON supports json.Unmarshaler interface
type GpsRtk ¶
type GpsRtk struct { TimeLastBaselineMs uint32 `json:"TimeLastBaselineMs" ` // [ ms ] Time since boot of last baseline message received. Tow uint32 `json:"Tow" ` // [ ms ] GPS Time of Week of last baseline BaselineAMm int32 `json:"BaselineAMm" ` // [ mm ] Current baseline in ECEF x or NED north component. BaselineBMm int32 `json:"BaselineBMm" ` // [ mm ] Current baseline in ECEF y or NED east component. BaselineCMm int32 `json:"BaselineCMm" ` // [ mm ] Current baseline in ECEF z or NED down component. Accuracy uint32 `json:"Accuracy" ` // Current estimate of baseline accuracy. IarNumHypotheses int32 `json:"IarNumHypotheses" ` // Current number of integer ambiguity hypotheses. Wn uint16 `json:"Wn" ` // GPS Week Number of last baseline RtkReceiverID uint8 `json:"RtkReceiverID" ` // Identification of connected RTK receiver. RtkHealth uint8 `json:"RtkHealth" ` // GPS-specific health report for RTK data. RtkRate uint8 `json:"RtkRate" ` // [ Hz ] Rate of baseline messages being received by GPS Nsats uint8 `json:"Nsats" ` // Current number of sats used for RTK calculation. BaselineCoordsType RTK_BASELINE_COORDINATE_SYSTEM `json:"BaselineCoordsType" ` // Coordinate system of baseline }
GpsRtk struct (generated typeinfo) RTK GPS data. Gives information on the relative baseline calculation the GPS is reporting
func (GpsRtk) MarshalEasyJSON ¶ added in v1.5.0
MarshalEasyJSON supports easyjson.Marshaler interface
func (GpsRtk) MarshalJSON ¶ added in v1.5.0
MarshalJSON supports json.Marshaler interface
func (*GpsRtk) UnmarshalEasyJSON ¶ added in v1.5.0
UnmarshalEasyJSON supports easyjson.Unmarshaler interface
func (*GpsRtk) UnmarshalJSON ¶ added in v1.5.0
UnmarshalJSON supports json.Unmarshaler interface
type GpsStatus ¶
type GpsStatus struct { SatellitesVisible uint8 `json:"SatellitesVisible" ` // Number of satellites visible SatellitePrn []uint8 `json:"SatellitePrn" len:"20" ` // Global satellite ID SatelliteUsed []uint8 `json:"SatelliteUsed" len:"20" ` // 0: Satellite not used, 1: used for localization SatelliteElevation []uint8 `json:"SatelliteElevation" len:"20" ` // [ deg ] Elevation (0: right on top of receiver, 90: on the horizon) of satellite SatelliteAzimuth []uint8 `json:"SatelliteAzimuth" len:"20" ` // [ deg ] Direction of satellite, 0: 0 deg, 255: 360 deg. SatelliteSnr []uint8 `json:"SatelliteSnr" len:"20" ` // [ dB ] Signal to noise ratio of satellite }
GpsStatus struct (generated typeinfo) The positioning status, as reported by GPS. This message is intended to display status information about each satellite visible to the receiver. See message GLOBAL_POSITION for the global position estimate. This message can contain information for up to 20 satellites.
func (GpsStatus) MarshalEasyJSON ¶ added in v1.5.0
MarshalEasyJSON supports easyjson.Marshaler interface
func (GpsStatus) MarshalJSON ¶ added in v1.5.0
MarshalJSON supports json.Marshaler interface
func (*GpsStatus) UnmarshalEasyJSON ¶ added in v1.5.0
UnmarshalEasyJSON supports easyjson.Unmarshaler interface
func (*GpsStatus) UnmarshalJSON ¶ added in v1.5.0
UnmarshalJSON supports json.Unmarshaler interface
type HL_FAILURE_FLAG ¶
type HL_FAILURE_FLAG int
HL_FAILURE_FLAG type. Flags to report failure cases over the high latency telemtry.
const ( // HL_FAILURE_FLAG_GPS enum. GPS failure HL_FAILURE_FLAG_GPS HL_FAILURE_FLAG = 1 // HL_FAILURE_FLAG_DIFFERENTIAL_PRESSURE enum. Differential pressure sensor failure HL_FAILURE_FLAG_DIFFERENTIAL_PRESSURE HL_FAILURE_FLAG = 2 // HL_FAILURE_FLAG_ABSOLUTE_PRESSURE enum. Absolute pressure sensor failure HL_FAILURE_FLAG_ABSOLUTE_PRESSURE HL_FAILURE_FLAG = 4 // HL_FAILURE_FLAG_3D_ACCEL enum. Accelerometer sensor failure HL_FAILURE_FLAG_3D_ACCEL HL_FAILURE_FLAG = 8 // HL_FAILURE_FLAG_3D_GYRO enum. Gyroscope sensor failure HL_FAILURE_FLAG_3D_GYRO HL_FAILURE_FLAG = 16 // HL_FAILURE_FLAG_3D_MAG enum. Magnetometer sensor failure HL_FAILURE_FLAG_3D_MAG HL_FAILURE_FLAG = 32 // HL_FAILURE_FLAG_TERRAIN enum. Terrain subsystem failure HL_FAILURE_FLAG_TERRAIN HL_FAILURE_FLAG = 64 // HL_FAILURE_FLAG_BATTERY enum. Battery failure/critical low battery HL_FAILURE_FLAG_BATTERY HL_FAILURE_FLAG = 128 // HL_FAILURE_FLAG_RC_RECEIVER enum. RC receiver failure/no rc connection HL_FAILURE_FLAG_RC_RECEIVER HL_FAILURE_FLAG = 256 // HL_FAILURE_FLAG_OFFBOARD_LINK enum. Offboard link failure HL_FAILURE_FLAG_OFFBOARD_LINK HL_FAILURE_FLAG = 512 // HL_FAILURE_FLAG_ENGINE enum. Engine failure HL_FAILURE_FLAG_ENGINE HL_FAILURE_FLAG = 1024 // HL_FAILURE_FLAG_GEOFENCE enum. Geofence violation HL_FAILURE_FLAG_GEOFENCE HL_FAILURE_FLAG = 2048 // HL_FAILURE_FLAG_ESTIMATOR enum. Estimator failure, for example measurement rejection or large variances HL_FAILURE_FLAG_ESTIMATOR HL_FAILURE_FLAG = 4096 // HL_FAILURE_FLAG_MISSION enum. Mission failure HL_FAILURE_FLAG_MISSION HL_FAILURE_FLAG = 8192 )
func (HL_FAILURE_FLAG) Bitmask ¶
func (e HL_FAILURE_FLAG) Bitmask() string
Bitmask return string representetion of intersects HL_FAILURE_FLAG enums
func (HL_FAILURE_FLAG) MarshalBinary ¶
func (e HL_FAILURE_FLAG) MarshalBinary() (data []byte, err error)
MarshalBinary generic func
func (HL_FAILURE_FLAG) String ¶
func (e HL_FAILURE_FLAG) String() string
func (*HL_FAILURE_FLAG) UnmarshalBinary ¶
func (e *HL_FAILURE_FLAG) UnmarshalBinary(data []byte) error
UnmarshalBinary generic func
type Heartbeat ¶
type Heartbeat struct { CustomMode uint32 `json:"CustomMode" ` // A bitfield for use for autopilot-specific flags Type MAV_TYPE `json:"Type" ` // Vehicle or component type. For a flight controller component the vehicle type (quadrotor, helicopter, etc.). For other components the component type (e.g. camera, gimbal, etc.). This should be used in preference to component id for identifying the component type. Autopilot MAV_AUTOPILOT `json:"Autopilot" ` // Autopilot type / class. Use MAV_AUTOPILOT_INVALID for components that are not flight controllers. BaseMode MAV_MODE_FLAG `json:"BaseMode" ` // System mode bitmap. SystemStatus MAV_STATE `json:"SystemStatus" ` // System status flag. MavlinkVersion uint8 `json:"MavlinkVersion" ` // MAVLink version, not writable by user, gets added by protocol because of magic data type: uint8_t_mavlink_version }
Heartbeat struct (generated typeinfo) The heartbeat message shows that a system or component is present and responding. The type and autopilot fields (along with the message component id), allow the receiving system to treat further messages from this system appropriately (e.g. by laying out the user interface based on the autopilot). This microservice is documented at https://mavlink.io/en/services/heartbeat.html
func (Heartbeat) MarshalEasyJSON ¶ added in v1.5.0
MarshalEasyJSON supports easyjson.Marshaler interface
func (Heartbeat) MarshalJSON ¶ added in v1.5.0
MarshalJSON supports json.Marshaler interface
func (*Heartbeat) UnmarshalEasyJSON ¶ added in v1.5.0
UnmarshalEasyJSON supports easyjson.Unmarshaler interface
func (*Heartbeat) UnmarshalJSON ¶ added in v1.5.0
UnmarshalJSON supports json.Unmarshaler interface
type HighLatency ¶
type HighLatency struct { CustomMode uint32 `json:"CustomMode" ` // A bitfield for use for autopilot-specific flags. Latitude int32 `json:"Latitude" ` // [ degE7 ] Latitude Longitude int32 `json:"Longitude" ` // [ degE7 ] Longitude Roll int16 `json:"Roll" ` // [ cdeg ] roll Pitch int16 `json:"Pitch" ` // [ cdeg ] pitch Heading uint16 `json:"Heading" ` // [ cdeg ] heading HeadingSp int16 `json:"HeadingSp" ` // [ cdeg ] heading setpoint AltitudeAmsl int16 `json:"AltitudeAmsl" ` // [ m ] Altitude above mean sea level AltitudeSp int16 `json:"AltitudeSp" ` // [ m ] Altitude setpoint relative to the home position WpDistance uint16 `json:"WpDistance" ` // [ m ] distance to target BaseMode MAV_MODE_FLAG `json:"BaseMode" ` // Bitmap of enabled system modes. LandedState MAV_LANDED_STATE `json:"LandedState" ` // The landed state. Is set to MAV_LANDED_STATE_UNDEFINED if landed state is unknown. Throttle int8 `json:"Throttle" ` // [ % ] throttle (percentage) Airspeed uint8 `json:"Airspeed" ` // [ m/s ] airspeed AirspeedSp uint8 `json:"AirspeedSp" ` // [ m/s ] airspeed setpoint Groundspeed uint8 `json:"Groundspeed" ` // [ m/s ] groundspeed ClimbRate int8 `json:"ClimbRate" ` // [ m/s ] climb rate GpsNsat uint8 `json:"GpsNsat" ` // Number of satellites visible. If unknown, set to 255 GpsFixType GPS_FIX_TYPE `json:"GpsFixType" ` // GPS Fix type. BatteryRemaining uint8 `json:"BatteryRemaining" ` // [ % ] Remaining battery (percentage) Temperature int8 `json:"Temperature" ` // [ degC ] Autopilot temperature (degrees C) TemperatureAir int8 `json:"TemperatureAir" ` // [ degC ] Air temperature (degrees C) from airspeed sensor Failsafe uint8 `json:"Failsafe" ` // failsafe (each bit represents a failsafe where 0=ok, 1=failsafe active (bit0:RC, bit1:batt, bit2:GPS, bit3:GCS, bit4:fence) WpNum uint8 `json:"WpNum" ` // current waypoint number }
HighLatency struct (generated typeinfo) Message appropriate for high latency connections like Iridium
func (*HighLatency) Dict ¶
func (m *HighLatency) Dict() map[string]interface{}
ToMap (generated function)
func (*HighLatency) Marshal ¶
func (m *HighLatency) Marshal() ([]byte, error)
Marshal (generated function)
func (HighLatency) MarshalEasyJSON ¶ added in v1.5.0
func (v HighLatency) MarshalEasyJSON(w *jwriter.Writer)
MarshalEasyJSON supports easyjson.Marshaler interface
func (HighLatency) MarshalJSON ¶ added in v1.5.0
func (v HighLatency) MarshalJSON() ([]byte, error)
MarshalJSON supports json.Marshaler interface
func (*HighLatency) MsgID ¶
func (m *HighLatency) MsgID() message.MessageID
MsgID (generated function)
func (*HighLatency) Unmarshal ¶
func (m *HighLatency) Unmarshal(data []byte) error
Unmarshal (generated function)
func (*HighLatency) UnmarshalEasyJSON ¶ added in v1.5.0
func (v *HighLatency) UnmarshalEasyJSON(l *jlexer.Lexer)
UnmarshalEasyJSON supports easyjson.Unmarshaler interface
func (*HighLatency) UnmarshalJSON ¶ added in v1.5.0
func (v *HighLatency) UnmarshalJSON(data []byte) error
UnmarshalJSON supports json.Unmarshaler interface
type HighLatency2 ¶
type HighLatency2 struct { Timestamp uint32 `json:"Timestamp" ` // [ ms ] Timestamp (milliseconds since boot or Unix epoch) Latitude int32 `json:"Latitude" ` // [ degE7 ] Latitude Longitude int32 `json:"Longitude" ` // [ degE7 ] Longitude CustomMode uint16 `json:"CustomMode" ` // A bitfield for use for autopilot-specific flags (2 byte version). Altitude int16 `json:"Altitude" ` // [ m ] Altitude above mean sea level TargetAltitude int16 `json:"TargetAltitude" ` // [ m ] Altitude setpoint TargetDistance uint16 `json:"TargetDistance" ` // [ dam ] Distance to target waypoint or position WpNum uint16 `json:"WpNum" ` // Current waypoint number FailureFlags HL_FAILURE_FLAG `json:"FailureFlags" ` // Bitmap of failure flags. Type MAV_TYPE `json:"Type" ` // Type of the MAV (quadrotor, helicopter, etc.) Autopilot MAV_AUTOPILOT `json:"Autopilot" ` // Autopilot type / class. Use MAV_AUTOPILOT_INVALID for components that are not flight controllers. Heading uint8 `json:"Heading" ` // [ deg/2 ] Heading TargetHeading uint8 `json:"TargetHeading" ` // [ deg/2 ] Heading setpoint Throttle uint8 `json:"Throttle" ` // [ % ] Throttle Airspeed uint8 `json:"Airspeed" ` // [ m/s*5 ] Airspeed AirspeedSp uint8 `json:"AirspeedSp" ` // [ m/s*5 ] Airspeed setpoint Groundspeed uint8 `json:"Groundspeed" ` // [ m/s*5 ] Groundspeed Windspeed uint8 `json:"Windspeed" ` // [ m/s*5 ] Windspeed WindHeading uint8 `json:"WindHeading" ` // [ deg/2 ] Wind heading Eph uint8 `json:"Eph" ` // [ dm ] Maximum error horizontal position since last message Epv uint8 `json:"Epv" ` // [ dm ] Maximum error vertical position since last message TemperatureAir int8 `json:"TemperatureAir" ` // [ degC ] Air temperature from airspeed sensor ClimbRate int8 `json:"ClimbRate" ` // [ dm/s ] Maximum climb rate magnitude since last message Battery int8 `json:"Battery" ` // [ % ] Battery level (-1 if field not provided). Custom0 int8 `json:"Custom0" ` // Field for custom payload. Custom1 int8 `json:"Custom1" ` // Field for custom payload. Custom2 int8 `json:"Custom2" ` // Field for custom payload. }
HighLatency2 struct (generated typeinfo) Message appropriate for high latency connections like Iridium (version 2)
func (*HighLatency2) Dict ¶
func (m *HighLatency2) Dict() map[string]interface{}
ToMap (generated function)
func (*HighLatency2) Marshal ¶
func (m *HighLatency2) Marshal() ([]byte, error)
Marshal (generated function)
func (HighLatency2) MarshalEasyJSON ¶ added in v1.5.0
func (v HighLatency2) MarshalEasyJSON(w *jwriter.Writer)
MarshalEasyJSON supports easyjson.Marshaler interface
func (HighLatency2) MarshalJSON ¶ added in v1.5.0
func (v HighLatency2) MarshalJSON() ([]byte, error)
MarshalJSON supports json.Marshaler interface
func (*HighLatency2) MsgID ¶
func (m *HighLatency2) MsgID() message.MessageID
MsgID (generated function)
func (*HighLatency2) Unmarshal ¶
func (m *HighLatency2) Unmarshal(data []byte) error
Unmarshal (generated function)
func (*HighLatency2) UnmarshalEasyJSON ¶ added in v1.5.0
func (v *HighLatency2) UnmarshalEasyJSON(l *jlexer.Lexer)
UnmarshalEasyJSON supports easyjson.Unmarshaler interface
func (*HighLatency2) UnmarshalJSON ¶ added in v1.5.0
func (v *HighLatency2) UnmarshalJSON(data []byte) error
UnmarshalJSON supports json.Unmarshaler interface
type HighresImu ¶
type HighresImu struct { TimeUsec uint64 `json:"TimeUsec" ` // [ us ] Timestamp (UNIX Epoch time or time since system boot). The receiving end can infer timestamp format (since 1.1.1970 or since system boot) by checking for the magnitude of the number. Xacc float32 `json:"Xacc" ` // [ m/s/s ] X acceleration Yacc float32 `json:"Yacc" ` // [ m/s/s ] Y acceleration Zacc float32 `json:"Zacc" ` // [ m/s/s ] Z acceleration Xgyro float32 `json:"Xgyro" ` // [ rad/s ] Angular speed around X axis Ygyro float32 `json:"Ygyro" ` // [ rad/s ] Angular speed around Y axis Zgyro float32 `json:"Zgyro" ` // [ rad/s ] Angular speed around Z axis Xmag float32 `json:"Xmag" ` // [ gauss ] X Magnetic field Ymag float32 `json:"Ymag" ` // [ gauss ] Y Magnetic field Zmag float32 `json:"Zmag" ` // [ gauss ] Z Magnetic field AbsPressure float32 `json:"AbsPressure" ` // [ hPa ] Absolute pressure DiffPressure float32 `json:"DiffPressure" ` // [ hPa ] Differential pressure PressureAlt float32 `json:"PressureAlt" ` // Altitude calculated from pressure Temperature float32 `json:"Temperature" ` // [ degC ] Temperature FieldsUpdated uint16 `json:"FieldsUpdated" ` // Bitmap for fields that have updated since last message, bit 0 = xacc, bit 12: temperature }
HighresImu struct (generated typeinfo) The IMU readings in SI units in NED body frame
func (*HighresImu) Dict ¶
func (m *HighresImu) Dict() map[string]interface{}
ToMap (generated function)
func (*HighresImu) Marshal ¶
func (m *HighresImu) Marshal() ([]byte, error)
Marshal (generated function)
func (HighresImu) MarshalEasyJSON ¶ added in v1.5.0
func (v HighresImu) MarshalEasyJSON(w *jwriter.Writer)
MarshalEasyJSON supports easyjson.Marshaler interface
func (HighresImu) MarshalJSON ¶ added in v1.5.0
func (v HighresImu) MarshalJSON() ([]byte, error)
MarshalJSON supports json.Marshaler interface
func (*HighresImu) MsgID ¶
func (m *HighresImu) MsgID() message.MessageID
MsgID (generated function)
func (*HighresImu) Unmarshal ¶
func (m *HighresImu) Unmarshal(data []byte) error
Unmarshal (generated function)
func (*HighresImu) UnmarshalEasyJSON ¶ added in v1.5.0
func (v *HighresImu) UnmarshalEasyJSON(l *jlexer.Lexer)
UnmarshalEasyJSON supports easyjson.Unmarshaler interface
func (*HighresImu) UnmarshalJSON ¶ added in v1.5.0
func (v *HighresImu) UnmarshalJSON(data []byte) error
UnmarshalJSON supports json.Unmarshaler interface
type HilActuatorControls ¶
type HilActuatorControls struct { TimeUsec uint64 `json:"TimeUsec" ` // [ us ] Timestamp (UNIX Epoch time or time since system boot). The receiving end can infer timestamp format (since 1.1.1970 or since system boot) by checking for the magnitude of the number. Flags uint64 `json:"Flags" ` // Flags as bitfield, 1: indicate simulation using lockstep. Controls []float32 `json:"Controls" len:"16" ` // Control outputs -1 .. 1. Channel assignment depends on the simulated hardware. Mode MAV_MODE_FLAG `json:"Mode" ` // System mode. Includes arming state. }
HilActuatorControls struct (generated typeinfo) Sent from autopilot to simulation. Hardware in the loop control outputs (replacement for HIL_CONTROLS)
func (*HilActuatorControls) Dict ¶
func (m *HilActuatorControls) Dict() map[string]interface{}
ToMap (generated function)
func (*HilActuatorControls) Marshal ¶
func (m *HilActuatorControls) Marshal() ([]byte, error)
Marshal (generated function)
func (HilActuatorControls) MarshalEasyJSON ¶ added in v1.5.0
func (v HilActuatorControls) MarshalEasyJSON(w *jwriter.Writer)
MarshalEasyJSON supports easyjson.Marshaler interface
func (HilActuatorControls) MarshalJSON ¶ added in v1.5.0
func (v HilActuatorControls) MarshalJSON() ([]byte, error)
MarshalJSON supports json.Marshaler interface
func (*HilActuatorControls) MsgID ¶
func (m *HilActuatorControls) MsgID() message.MessageID
MsgID (generated function)
func (*HilActuatorControls) String ¶
func (m *HilActuatorControls) String() string
String (generated function)
func (*HilActuatorControls) Unmarshal ¶
func (m *HilActuatorControls) Unmarshal(data []byte) error
Unmarshal (generated function)
func (*HilActuatorControls) UnmarshalEasyJSON ¶ added in v1.5.0
func (v *HilActuatorControls) UnmarshalEasyJSON(l *jlexer.Lexer)
UnmarshalEasyJSON supports easyjson.Unmarshaler interface
func (*HilActuatorControls) UnmarshalJSON ¶ added in v1.5.0
func (v *HilActuatorControls) UnmarshalJSON(data []byte) error
UnmarshalJSON supports json.Unmarshaler interface
type HilControls ¶
type HilControls struct { TimeUsec uint64 `json:"TimeUsec" ` // [ us ] Timestamp (UNIX Epoch time or time since system boot). The receiving end can infer timestamp format (since 1.1.1970 or since system boot) by checking for the magnitude of the number. RollAilerons float32 `json:"RollAilerons" ` // Control output -1 .. 1 PitchElevator float32 `json:"PitchElevator" ` // Control output -1 .. 1 YawRudder float32 `json:"YawRudder" ` // Control output -1 .. 1 Throttle float32 `json:"Throttle" ` // Throttle 0 .. 1 Aux1 float32 `json:"Aux1" ` // Aux 1, -1 .. 1 Aux2 float32 `json:"Aux2" ` // Aux 2, -1 .. 1 Aux3 float32 `json:"Aux3" ` // Aux 3, -1 .. 1 Aux4 float32 `json:"Aux4" ` // Aux 4, -1 .. 1 Mode MAV_MODE `json:"Mode" ` // System mode. }
HilControls struct (generated typeinfo) Sent from autopilot to simulation. Hardware in the loop control outputs
func (*HilControls) Dict ¶
func (m *HilControls) Dict() map[string]interface{}
ToMap (generated function)
func (*HilControls) Marshal ¶
func (m *HilControls) Marshal() ([]byte, error)
Marshal (generated function)
func (HilControls) MarshalEasyJSON ¶ added in v1.5.0
func (v HilControls) MarshalEasyJSON(w *jwriter.Writer)
MarshalEasyJSON supports easyjson.Marshaler interface
func (HilControls) MarshalJSON ¶ added in v1.5.0
func (v HilControls) MarshalJSON() ([]byte, error)
MarshalJSON supports json.Marshaler interface
func (*HilControls) MsgID ¶
func (m *HilControls) MsgID() message.MessageID
MsgID (generated function)
func (*HilControls) Unmarshal ¶
func (m *HilControls) Unmarshal(data []byte) error
Unmarshal (generated function)
func (*HilControls) UnmarshalEasyJSON ¶ added in v1.5.0
func (v *HilControls) UnmarshalEasyJSON(l *jlexer.Lexer)
UnmarshalEasyJSON supports easyjson.Unmarshaler interface
func (*HilControls) UnmarshalJSON ¶ added in v1.5.0
func (v *HilControls) UnmarshalJSON(data []byte) error
UnmarshalJSON supports json.Unmarshaler interface
type HilGps ¶
type HilGps struct { TimeUsec uint64 `json:"TimeUsec" ` // [ us ] Timestamp (UNIX Epoch time or time since system boot). The receiving end can infer timestamp format (since 1.1.1970 or since system boot) by checking for the magnitude of the number. Lat int32 `json:"Lat" ` // [ degE7 ] Latitude (WGS84) Lon int32 `json:"Lon" ` // [ degE7 ] Longitude (WGS84) Alt int32 `json:"Alt" ` // [ mm ] Altitude (MSL). Positive for up. Eph uint16 `json:"Eph" ` // GPS HDOP horizontal dilution of position (unitless). If unknown, set to: UINT16_MAX Epv uint16 `json:"Epv" ` // GPS VDOP vertical dilution of position (unitless). If unknown, set to: UINT16_MAX Vel uint16 `json:"Vel" ` // [ cm/s ] GPS ground speed. If unknown, set to: 65535 Vn int16 `json:"Vn" ` // [ cm/s ] GPS velocity in north direction in earth-fixed NED frame Ve int16 `json:"Ve" ` // [ cm/s ] GPS velocity in east direction in earth-fixed NED frame Vd int16 `json:"Vd" ` // [ cm/s ] GPS velocity in down direction in earth-fixed NED frame Cog uint16 `json:"Cog" ` // [ cdeg ] Course over ground (NOT heading, but direction of movement), 0.0..359.99 degrees. If unknown, set to: 65535 FixType uint8 `json:"FixType" ` // 0-1: no fix, 2: 2D fix, 3: 3D fix. Some applications will not use the value of this field unless it is at least two, so always correctly fill in the fix. SatellitesVisible uint8 `json:"SatellitesVisible" ` // Number of satellites visible. If unknown, set to 255 }
HilGps struct (generated typeinfo) The global position, as returned by the Global Positioning System (GPS). This is
NOT the global position estimate of the sytem, but rather a RAW sensor value. See message GLOBAL_POSITION for the global position estimate.
func (HilGps) MarshalEasyJSON ¶ added in v1.5.0
MarshalEasyJSON supports easyjson.Marshaler interface
func (HilGps) MarshalJSON ¶ added in v1.5.0
MarshalJSON supports json.Marshaler interface
func (*HilGps) UnmarshalEasyJSON ¶ added in v1.5.0
UnmarshalEasyJSON supports easyjson.Unmarshaler interface
func (*HilGps) UnmarshalJSON ¶ added in v1.5.0
UnmarshalJSON supports json.Unmarshaler interface
type HilOpticalFlow ¶
type HilOpticalFlow struct { TimeUsec uint64 `json:"TimeUsec" ` // [ us ] Timestamp (UNIX Epoch time or time since system boot). The receiving end can infer timestamp format (since 1.1.1970 or since system boot) by checking for the magnitude of the number. IntegrationTimeUs uint32 `json:"IntegrationTimeUs" ` // [ us ] Integration time. Divide integrated_x and integrated_y by the integration time to obtain average flow. The integration time also indicates the. IntegratedX float32 `json:"IntegratedX" ` // [ rad ] Flow in radians around X axis (Sensor RH rotation about the X axis induces a positive flow. Sensor linear motion along the positive Y axis induces a negative flow.) IntegratedY float32 `json:"IntegratedY" ` // [ rad ] Flow in radians around Y axis (Sensor RH rotation about the Y axis induces a positive flow. Sensor linear motion along the positive X axis induces a positive flow.) IntegratedXgyro float32 `json:"IntegratedXgyro" ` // [ rad ] RH rotation around X axis IntegratedYgyro float32 `json:"IntegratedYgyro" ` // [ rad ] RH rotation around Y axis IntegratedZgyro float32 `json:"IntegratedZgyro" ` // [ rad ] RH rotation around Z axis TimeDeltaDistanceUs uint32 `json:"TimeDeltaDistanceUs" ` // [ us ] Time since the distance was sampled. Distance float32 `json:"Distance" ` // [ m ] Distance to the center of the flow field. Positive value (including zero): distance known. Negative value: Unknown distance. Temperature int16 `json:"Temperature" ` // [ cdegC ] Temperature SensorID uint8 `json:"SensorID" ` // Sensor ID Quality uint8 `json:"Quality" ` // Optical flow quality / confidence. 0: no valid flow, 255: maximum quality }
HilOpticalFlow struct (generated typeinfo) Simulated optical flow from a flow sensor (e.g. PX4FLOW or optical mouse sensor)
func (*HilOpticalFlow) Dict ¶
func (m *HilOpticalFlow) Dict() map[string]interface{}
ToMap (generated function)
func (*HilOpticalFlow) Marshal ¶
func (m *HilOpticalFlow) Marshal() ([]byte, error)
Marshal (generated function)
func (HilOpticalFlow) MarshalEasyJSON ¶ added in v1.5.0
func (v HilOpticalFlow) MarshalEasyJSON(w *jwriter.Writer)
MarshalEasyJSON supports easyjson.Marshaler interface
func (HilOpticalFlow) MarshalJSON ¶ added in v1.5.0
func (v HilOpticalFlow) MarshalJSON() ([]byte, error)
MarshalJSON supports json.Marshaler interface
func (*HilOpticalFlow) MsgID ¶
func (m *HilOpticalFlow) MsgID() message.MessageID
MsgID (generated function)
func (*HilOpticalFlow) String ¶
func (m *HilOpticalFlow) String() string
String (generated function)
func (*HilOpticalFlow) Unmarshal ¶
func (m *HilOpticalFlow) Unmarshal(data []byte) error
Unmarshal (generated function)
func (*HilOpticalFlow) UnmarshalEasyJSON ¶ added in v1.5.0
func (v *HilOpticalFlow) UnmarshalEasyJSON(l *jlexer.Lexer)
UnmarshalEasyJSON supports easyjson.Unmarshaler interface
func (*HilOpticalFlow) UnmarshalJSON ¶ added in v1.5.0
func (v *HilOpticalFlow) UnmarshalJSON(data []byte) error
UnmarshalJSON supports json.Unmarshaler interface
type HilRcInputsRaw ¶
type HilRcInputsRaw struct { TimeUsec uint64 `json:"TimeUsec" ` // [ us ] Timestamp (UNIX Epoch time or time since system boot). The receiving end can infer timestamp format (since 1.1.1970 or since system boot) by checking for the magnitude of the number. Chan1Raw uint16 `json:"Chan1Raw" ` // [ us ] RC channel 1 value Chan2Raw uint16 `json:"Chan2Raw" ` // [ us ] RC channel 2 value Chan3Raw uint16 `json:"Chan3Raw" ` // [ us ] RC channel 3 value Chan4Raw uint16 `json:"Chan4Raw" ` // [ us ] RC channel 4 value Chan5Raw uint16 `json:"Chan5Raw" ` // [ us ] RC channel 5 value Chan6Raw uint16 `json:"Chan6Raw" ` // [ us ] RC channel 6 value Chan7Raw uint16 `json:"Chan7Raw" ` // [ us ] RC channel 7 value Chan8Raw uint16 `json:"Chan8Raw" ` // [ us ] RC channel 8 value Chan9Raw uint16 `json:"Chan9Raw" ` // [ us ] RC channel 9 value Chan10Raw uint16 `json:"Chan10Raw" ` // [ us ] RC channel 10 value Chan11Raw uint16 `json:"Chan11Raw" ` // [ us ] RC channel 11 value Chan12Raw uint16 `json:"Chan12Raw" ` // [ us ] RC channel 12 value Rssi uint8 `json:"Rssi" ` // Receive signal strength indicator in device-dependent units/scale. Values: [0-254], 255: invalid/unknown. }
HilRcInputsRaw struct (generated typeinfo) Sent from simulation to autopilot. The RAW values of the RC channels received. The standard PPM modulation is as follows: 1000 microseconds: 0%, 2000 microseconds: 100%. Individual receivers/transmitters might violate this specification.
func (*HilRcInputsRaw) Dict ¶
func (m *HilRcInputsRaw) Dict() map[string]interface{}
ToMap (generated function)
func (*HilRcInputsRaw) Marshal ¶
func (m *HilRcInputsRaw) Marshal() ([]byte, error)
Marshal (generated function)
func (HilRcInputsRaw) MarshalEasyJSON ¶ added in v1.5.0
func (v HilRcInputsRaw) MarshalEasyJSON(w *jwriter.Writer)
MarshalEasyJSON supports easyjson.Marshaler interface
func (HilRcInputsRaw) MarshalJSON ¶ added in v1.5.0
func (v HilRcInputsRaw) MarshalJSON() ([]byte, error)
MarshalJSON supports json.Marshaler interface
func (*HilRcInputsRaw) MsgID ¶
func (m *HilRcInputsRaw) MsgID() message.MessageID
MsgID (generated function)
func (*HilRcInputsRaw) String ¶
func (m *HilRcInputsRaw) String() string
String (generated function)
func (*HilRcInputsRaw) Unmarshal ¶
func (m *HilRcInputsRaw) Unmarshal(data []byte) error
Unmarshal (generated function)
func (*HilRcInputsRaw) UnmarshalEasyJSON ¶ added in v1.5.0
func (v *HilRcInputsRaw) UnmarshalEasyJSON(l *jlexer.Lexer)
UnmarshalEasyJSON supports easyjson.Unmarshaler interface
func (*HilRcInputsRaw) UnmarshalJSON ¶ added in v1.5.0
func (v *HilRcInputsRaw) UnmarshalJSON(data []byte) error
UnmarshalJSON supports json.Unmarshaler interface
type HilSensor ¶
type HilSensor struct { TimeUsec uint64 `json:"TimeUsec" ` // [ us ] Timestamp (UNIX Epoch time or time since system boot). The receiving end can infer timestamp format (since 1.1.1970 or since system boot) by checking for the magnitude of the number. Xacc float32 `json:"Xacc" ` // [ m/s/s ] X acceleration Yacc float32 `json:"Yacc" ` // [ m/s/s ] Y acceleration Zacc float32 `json:"Zacc" ` // [ m/s/s ] Z acceleration Xgyro float32 `json:"Xgyro" ` // [ rad/s ] Angular speed around X axis in body frame Ygyro float32 `json:"Ygyro" ` // [ rad/s ] Angular speed around Y axis in body frame Zgyro float32 `json:"Zgyro" ` // [ rad/s ] Angular speed around Z axis in body frame Xmag float32 `json:"Xmag" ` // [ gauss ] X Magnetic field Ymag float32 `json:"Ymag" ` // [ gauss ] Y Magnetic field Zmag float32 `json:"Zmag" ` // [ gauss ] Z Magnetic field AbsPressure float32 `json:"AbsPressure" ` // [ hPa ] Absolute pressure DiffPressure float32 `json:"DiffPressure" ` // [ hPa ] Differential pressure (airspeed) PressureAlt float32 `json:"PressureAlt" ` // Altitude calculated from pressure Temperature float32 `json:"Temperature" ` // [ degC ] Temperature FieldsUpdated uint32 `json:"FieldsUpdated" ` // Bitmap for fields that have updated since last message, bit 0 = xacc, bit 12: temperature, bit 31: full reset of attitude/position/velocities/etc was performed in sim. }
HilSensor struct (generated typeinfo) The IMU readings in SI units in NED body frame
func (HilSensor) MarshalEasyJSON ¶ added in v1.5.0
MarshalEasyJSON supports easyjson.Marshaler interface
func (HilSensor) MarshalJSON ¶ added in v1.5.0
MarshalJSON supports json.Marshaler interface
func (*HilSensor) UnmarshalEasyJSON ¶ added in v1.5.0
UnmarshalEasyJSON supports easyjson.Unmarshaler interface
func (*HilSensor) UnmarshalJSON ¶ added in v1.5.0
UnmarshalJSON supports json.Unmarshaler interface
type HilState ¶
type HilState struct { TimeUsec uint64 `json:"TimeUsec" ` // [ us ] Timestamp (UNIX Epoch time or time since system boot). The receiving end can infer timestamp format (since 1.1.1970 or since system boot) by checking for the magnitude of the number. Roll float32 `json:"Roll" ` // [ rad ] Roll angle Pitch float32 `json:"Pitch" ` // [ rad ] Pitch angle Yaw float32 `json:"Yaw" ` // [ rad ] Yaw angle Rollspeed float32 `json:"Rollspeed" ` // [ rad/s ] Body frame roll / phi angular speed Pitchspeed float32 `json:"Pitchspeed" ` // [ rad/s ] Body frame pitch / theta angular speed Yawspeed float32 `json:"Yawspeed" ` // [ rad/s ] Body frame yaw / psi angular speed Lat int32 `json:"Lat" ` // [ degE7 ] Latitude Lon int32 `json:"Lon" ` // [ degE7 ] Longitude Alt int32 `json:"Alt" ` // [ mm ] Altitude Vx int16 `json:"Vx" ` // [ cm/s ] Ground X Speed (Latitude) Vy int16 `json:"Vy" ` // [ cm/s ] Ground Y Speed (Longitude) Vz int16 `json:"Vz" ` // [ cm/s ] Ground Z Speed (Altitude) Xacc int16 `json:"Xacc" ` // [ mG ] X acceleration Yacc int16 `json:"Yacc" ` // [ mG ] Y acceleration Zacc int16 `json:"Zacc" ` // [ mG ] Z acceleration }
HilState struct (generated typeinfo) Sent from simulation to autopilot. This packet is useful for high throughput applications such as hardware in the loop simulations.
func (HilState) MarshalEasyJSON ¶ added in v1.5.0
MarshalEasyJSON supports easyjson.Marshaler interface
func (HilState) MarshalJSON ¶ added in v1.5.0
MarshalJSON supports json.Marshaler interface
func (*HilState) UnmarshalEasyJSON ¶ added in v1.5.0
UnmarshalEasyJSON supports easyjson.Unmarshaler interface
func (*HilState) UnmarshalJSON ¶ added in v1.5.0
UnmarshalJSON supports json.Unmarshaler interface
type HilStateQuaternion ¶
type HilStateQuaternion struct { TimeUsec uint64 `json:"TimeUsec" ` // [ us ] Timestamp (UNIX Epoch time or time since system boot). The receiving end can infer timestamp format (since 1.1.1970 or since system boot) by checking for the magnitude of the number. AttitudeQuaternion []float32 `json:"AttitudeQuaternion" len:"4" ` // Vehicle attitude expressed as normalized quaternion in w, x, y, z order (with 1 0 0 0 being the null-rotation) Rollspeed float32 `json:"Rollspeed" ` // [ rad/s ] Body frame roll / phi angular speed Pitchspeed float32 `json:"Pitchspeed" ` // [ rad/s ] Body frame pitch / theta angular speed Yawspeed float32 `json:"Yawspeed" ` // [ rad/s ] Body frame yaw / psi angular speed Lat int32 `json:"Lat" ` // [ degE7 ] Latitude Lon int32 `json:"Lon" ` // [ degE7 ] Longitude Alt int32 `json:"Alt" ` // [ mm ] Altitude Vx int16 `json:"Vx" ` // [ cm/s ] Ground X Speed (Latitude) Vy int16 `json:"Vy" ` // [ cm/s ] Ground Y Speed (Longitude) Vz int16 `json:"Vz" ` // [ cm/s ] Ground Z Speed (Altitude) IndAirspeed uint16 `json:"IndAirspeed" ` // [ cm/s ] Indicated airspeed TrueAirspeed uint16 `json:"TrueAirspeed" ` // [ cm/s ] True airspeed Xacc int16 `json:"Xacc" ` // [ mG ] X acceleration Yacc int16 `json:"Yacc" ` // [ mG ] Y acceleration Zacc int16 `json:"Zacc" ` // [ mG ] Z acceleration }
HilStateQuaternion struct (generated typeinfo) Sent from simulation to autopilot, avoids in contrast to HIL_STATE singularities. This packet is useful for high throughput applications such as hardware in the loop simulations.
func (*HilStateQuaternion) Dict ¶
func (m *HilStateQuaternion) Dict() map[string]interface{}
ToMap (generated function)
func (*HilStateQuaternion) Marshal ¶
func (m *HilStateQuaternion) Marshal() ([]byte, error)
Marshal (generated function)
func (HilStateQuaternion) MarshalEasyJSON ¶ added in v1.5.0
func (v HilStateQuaternion) MarshalEasyJSON(w *jwriter.Writer)
MarshalEasyJSON supports easyjson.Marshaler interface
func (HilStateQuaternion) MarshalJSON ¶ added in v1.5.0
func (v HilStateQuaternion) MarshalJSON() ([]byte, error)
MarshalJSON supports json.Marshaler interface
func (*HilStateQuaternion) MsgID ¶
func (m *HilStateQuaternion) MsgID() message.MessageID
MsgID (generated function)
func (*HilStateQuaternion) String ¶
func (m *HilStateQuaternion) String() string
String (generated function)
func (*HilStateQuaternion) Unmarshal ¶
func (m *HilStateQuaternion) Unmarshal(data []byte) error
Unmarshal (generated function)
func (*HilStateQuaternion) UnmarshalEasyJSON ¶ added in v1.5.0
func (v *HilStateQuaternion) UnmarshalEasyJSON(l *jlexer.Lexer)
UnmarshalEasyJSON supports easyjson.Unmarshaler interface
func (*HilStateQuaternion) UnmarshalJSON ¶ added in v1.5.0
func (v *HilStateQuaternion) UnmarshalJSON(data []byte) error
UnmarshalJSON supports json.Unmarshaler interface
type HomePosition ¶
type HomePosition struct { Latitude int32 `json:"Latitude" ` // [ degE7 ] Latitude (WGS84) Longitude int32 `json:"Longitude" ` // [ degE7 ] Longitude (WGS84) Altitude int32 `json:"Altitude" ` // [ mm ] Altitude (MSL). Positive for up. X float32 `json:"X" ` // [ m ] Local X position of this position in the local coordinate frame Y float32 `json:"Y" ` // [ m ] Local Y position of this position in the local coordinate frame Z float32 `json:"Z" ` // [ m ] Local Z position of this position in the local coordinate frame Q []float32 `json:"Q" len:"4" ` // World to surface normal and heading transformation of the takeoff position. Used to indicate the heading and slope of the ground ApproachX float32 `json:"ApproachX" ` // [ m ] Local X position of the end of the approach vector. Multicopters should set this position based on their takeoff path. Grass-landing fixed wing aircraft should set it the same way as multicopters. Runway-landing fixed wing aircraft should set it to the opposite direction of the takeoff, assuming the takeoff happened from the threshold / touchdown zone. ApproachY float32 `json:"ApproachY" ` // [ m ] Local Y position of the end of the approach vector. Multicopters should set this position based on their takeoff path. Grass-landing fixed wing aircraft should set it the same way as multicopters. Runway-landing fixed wing aircraft should set it to the opposite direction of the takeoff, assuming the takeoff happened from the threshold / touchdown zone. ApproachZ float32 `json:"ApproachZ" ` // [ m ] Local Z position of the end of the approach vector. Multicopters should set this position based on their takeoff path. Grass-landing fixed wing aircraft should set it the same way as multicopters. Runway-landing fixed wing aircraft should set it to the opposite direction of the takeoff, assuming the takeoff happened from the threshold / touchdown zone. }
HomePosition struct (generated typeinfo) This message can be requested by sending the MAV_CMD_GET_HOME_POSITION command. The position the system will return to and land on. The position is set automatically by the system during the takeoff in case it was not explicitly set by the operator before or after. The global and local positions encode the position in the respective coordinate frames, while the q parameter encodes the orientation of the surface. Under normal conditions it describes the heading and terrain slope, which can be used by the aircraft to adjust the approach. The approach 3D vector describes the point to which the system should fly in normal flight mode and then perform a landing sequence along the vector.
func (*HomePosition) Dict ¶
func (m *HomePosition) Dict() map[string]interface{}
ToMap (generated function)
func (*HomePosition) Marshal ¶
func (m *HomePosition) Marshal() ([]byte, error)
Marshal (generated function)
func (HomePosition) MarshalEasyJSON ¶ added in v1.5.0
func (v HomePosition) MarshalEasyJSON(w *jwriter.Writer)
MarshalEasyJSON supports easyjson.Marshaler interface
func (HomePosition) MarshalJSON ¶ added in v1.5.0
func (v HomePosition) MarshalJSON() ([]byte, error)
MarshalJSON supports json.Marshaler interface
func (*HomePosition) MsgID ¶
func (m *HomePosition) MsgID() message.MessageID
MsgID (generated function)
func (*HomePosition) Unmarshal ¶
func (m *HomePosition) Unmarshal(data []byte) error
Unmarshal (generated function)
func (*HomePosition) UnmarshalEasyJSON ¶ added in v1.5.0
func (v *HomePosition) UnmarshalEasyJSON(l *jlexer.Lexer)
UnmarshalEasyJSON supports easyjson.Unmarshaler interface
func (*HomePosition) UnmarshalJSON ¶ added in v1.5.0
func (v *HomePosition) UnmarshalJSON(data []byte) error
UnmarshalJSON supports json.Unmarshaler interface
type LANDING_TARGET_TYPE ¶
type LANDING_TARGET_TYPE int
LANDING_TARGET_TYPE type. Type of landing target
const ( // LANDING_TARGET_TYPE_LIGHT_BEACON enum. Landing target signaled by light beacon (ex: IR-LOCK) LANDING_TARGET_TYPE_LIGHT_BEACON LANDING_TARGET_TYPE = 0 // LANDING_TARGET_TYPE_RADIO_BEACON enum. Landing target signaled by radio beacon (ex: ILS, NDB) LANDING_TARGET_TYPE_RADIO_BEACON LANDING_TARGET_TYPE = 1 // LANDING_TARGET_TYPE_VISION_FIDUCIAL enum. Landing target represented by a fiducial marker (ex: ARTag) LANDING_TARGET_TYPE_VISION_FIDUCIAL LANDING_TARGET_TYPE = 2 // LANDING_TARGET_TYPE_VISION_OTHER enum. Landing target represented by a pre-defined visual shape/feature (ex: X-marker, H-marker, square) LANDING_TARGET_TYPE_VISION_OTHER LANDING_TARGET_TYPE = 3 )
func (LANDING_TARGET_TYPE) Bitmask ¶
func (e LANDING_TARGET_TYPE) Bitmask() string
Bitmask return string representetion of intersects LANDING_TARGET_TYPE enums
func (LANDING_TARGET_TYPE) MarshalBinary ¶
func (e LANDING_TARGET_TYPE) MarshalBinary() (data []byte, err error)
MarshalBinary generic func
func (LANDING_TARGET_TYPE) String ¶
func (e LANDING_TARGET_TYPE) String() string
func (*LANDING_TARGET_TYPE) UnmarshalBinary ¶
func (e *LANDING_TARGET_TYPE) UnmarshalBinary(data []byte) error
UnmarshalBinary generic func
type LandingTarget ¶
type LandingTarget struct { TimeUsec uint64 `json:"TimeUsec" ` // [ us ] Timestamp (UNIX Epoch time or time since system boot). The receiving end can infer timestamp format (since 1.1.1970 or since system boot) by checking for the magnitude of the number. AngleX float32 `json:"AngleX" ` // [ rad ] X-axis angular offset of the target from the center of the image AngleY float32 `json:"AngleY" ` // [ rad ] Y-axis angular offset of the target from the center of the image Distance float32 `json:"Distance" ` // [ m ] Distance to the target from the vehicle SizeX float32 `json:"SizeX" ` // [ rad ] Size of target along x-axis SizeY float32 `json:"SizeY" ` // [ rad ] Size of target along y-axis TargetNum uint8 `json:"TargetNum" ` // The ID of the target if multiple targets are present Frame MAV_FRAME `json:"Frame" ` // Coordinate frame used for following fields. }
LandingTarget struct (generated typeinfo) The location of a landing target. See: https://mavlink.io/en/services/landing_target.html
func (*LandingTarget) Dict ¶
func (m *LandingTarget) Dict() map[string]interface{}
ToMap (generated function)
func (*LandingTarget) Marshal ¶
func (m *LandingTarget) Marshal() ([]byte, error)
Marshal (generated function)
func (LandingTarget) MarshalEasyJSON ¶ added in v1.5.0
func (v LandingTarget) MarshalEasyJSON(w *jwriter.Writer)
MarshalEasyJSON supports easyjson.Marshaler interface
func (LandingTarget) MarshalJSON ¶ added in v1.5.0
func (v LandingTarget) MarshalJSON() ([]byte, error)
MarshalJSON supports json.Marshaler interface
func (*LandingTarget) MsgID ¶
func (m *LandingTarget) MsgID() message.MessageID
MsgID (generated function)
func (*LandingTarget) Unmarshal ¶
func (m *LandingTarget) Unmarshal(data []byte) error
Unmarshal (generated function)
func (*LandingTarget) UnmarshalEasyJSON ¶ added in v1.5.0
func (v *LandingTarget) UnmarshalEasyJSON(l *jlexer.Lexer)
UnmarshalEasyJSON supports easyjson.Unmarshaler interface
func (*LandingTarget) UnmarshalJSON ¶ added in v1.5.0
func (v *LandingTarget) UnmarshalJSON(data []byte) error
UnmarshalJSON supports json.Unmarshaler interface
type LinkNodeStatus ¶
type LinkNodeStatus struct { Timestamp uint64 `json:"Timestamp" ` // [ ms ] Timestamp (time since system boot). TxRate uint32 `json:"TxRate" ` // [ bytes/s ] Transmit rate RxRate uint32 `json:"RxRate" ` // [ bytes/s ] Receive rate MessagesSent uint32 `json:"MessagesSent" ` // Messages sent MessagesReceived uint32 `json:"MessagesReceived" ` // Messages received (estimated from counting seq) MessagesLost uint32 `json:"MessagesLost" ` // Messages lost (estimated from counting seq) RxParseErr uint16 `json:"RxParseErr" ` // [ bytes ] Number of bytes that could not be parsed correctly. TxOverflows uint16 `json:"TxOverflows" ` // [ bytes ] Transmit buffer overflows. This number wraps around as it reaches UINT16_MAX RxOverflows uint16 `json:"RxOverflows" ` // [ bytes ] Receive buffer overflows. This number wraps around as it reaches UINT16_MAX TxBuf uint8 `json:"TxBuf" ` // [ % ] Remaining free transmit buffer space RxBuf uint8 `json:"RxBuf" ` // [ % ] Remaining free receive buffer space }
LinkNodeStatus struct (generated typeinfo) Status generated in each node in the communication chain and injected into MAVLink stream.
func (*LinkNodeStatus) Dict ¶
func (m *LinkNodeStatus) Dict() map[string]interface{}
ToMap (generated function)
func (*LinkNodeStatus) Marshal ¶
func (m *LinkNodeStatus) Marshal() ([]byte, error)
Marshal (generated function)
func (LinkNodeStatus) MarshalEasyJSON ¶ added in v1.5.0
func (v LinkNodeStatus) MarshalEasyJSON(w *jwriter.Writer)
MarshalEasyJSON supports easyjson.Marshaler interface
func (LinkNodeStatus) MarshalJSON ¶ added in v1.5.0
func (v LinkNodeStatus) MarshalJSON() ([]byte, error)
MarshalJSON supports json.Marshaler interface
func (*LinkNodeStatus) MsgID ¶
func (m *LinkNodeStatus) MsgID() message.MessageID
MsgID (generated function)
func (*LinkNodeStatus) String ¶
func (m *LinkNodeStatus) String() string
String (generated function)
func (*LinkNodeStatus) Unmarshal ¶
func (m *LinkNodeStatus) Unmarshal(data []byte) error
Unmarshal (generated function)
func (*LinkNodeStatus) UnmarshalEasyJSON ¶ added in v1.5.0
func (v *LinkNodeStatus) UnmarshalEasyJSON(l *jlexer.Lexer)
UnmarshalEasyJSON supports easyjson.Unmarshaler interface
func (*LinkNodeStatus) UnmarshalJSON ¶ added in v1.5.0
func (v *LinkNodeStatus) UnmarshalJSON(data []byte) error
UnmarshalJSON supports json.Unmarshaler interface
type LocalPositionNed ¶
type LocalPositionNed struct { TimeBootMs uint32 `json:"TimeBootMs" ` // [ ms ] Timestamp (time since system boot). X float32 `json:"X" ` // [ m ] X Position Y float32 `json:"Y" ` // [ m ] Y Position Z float32 `json:"Z" ` // [ m ] Z Position Vx float32 `json:"Vx" ` // [ m/s ] X Speed Vy float32 `json:"Vy" ` // [ m/s ] Y Speed Vz float32 `json:"Vz" ` // [ m/s ] Z Speed }
LocalPositionNed struct (generated typeinfo) The filtered local position (e.g. fused computer vision and accelerometers). Coordinate frame is right-handed, Z-axis down (aeronautical frame, NED / north-east-down convention)
func (*LocalPositionNed) Dict ¶
func (m *LocalPositionNed) Dict() map[string]interface{}
ToMap (generated function)
func (*LocalPositionNed) Marshal ¶
func (m *LocalPositionNed) Marshal() ([]byte, error)
Marshal (generated function)
func (LocalPositionNed) MarshalEasyJSON ¶ added in v1.5.0
func (v LocalPositionNed) MarshalEasyJSON(w *jwriter.Writer)
MarshalEasyJSON supports easyjson.Marshaler interface
func (LocalPositionNed) MarshalJSON ¶ added in v1.5.0
func (v LocalPositionNed) MarshalJSON() ([]byte, error)
MarshalJSON supports json.Marshaler interface
func (*LocalPositionNed) MsgID ¶
func (m *LocalPositionNed) MsgID() message.MessageID
MsgID (generated function)
func (*LocalPositionNed) String ¶
func (m *LocalPositionNed) String() string
String (generated function)
func (*LocalPositionNed) Unmarshal ¶
func (m *LocalPositionNed) Unmarshal(data []byte) error
Unmarshal (generated function)
func (*LocalPositionNed) UnmarshalEasyJSON ¶ added in v1.5.0
func (v *LocalPositionNed) UnmarshalEasyJSON(l *jlexer.Lexer)
UnmarshalEasyJSON supports easyjson.Unmarshaler interface
func (*LocalPositionNed) UnmarshalJSON ¶ added in v1.5.0
func (v *LocalPositionNed) UnmarshalJSON(data []byte) error
UnmarshalJSON supports json.Unmarshaler interface
type LocalPositionNedCov ¶
type LocalPositionNedCov struct { TimeUsec uint64 `json:"TimeUsec" ` // [ us ] Timestamp (UNIX Epoch time or time since system boot). The receiving end can infer timestamp format (since 1.1.1970 or since system boot) by checking for the magnitude of the number. X float32 `json:"X" ` // [ m ] X Position Y float32 `json:"Y" ` // [ m ] Y Position Z float32 `json:"Z" ` // [ m ] Z Position Vx float32 `json:"Vx" ` // [ m/s ] X Speed Vy float32 `json:"Vy" ` // [ m/s ] Y Speed Vz float32 `json:"Vz" ` // [ m/s ] Z Speed Ax float32 `json:"Ax" ` // [ m/s/s ] X Acceleration Ay float32 `json:"Ay" ` // [ m/s/s ] Y Acceleration Az float32 `json:"Az" ` // [ m/s/s ] Z Acceleration Covariance []float32 `json:"Covariance" len:"45" ` // Row-major representation of position, velocity and acceleration 9x9 cross-covariance matrix upper right triangle (states: x, y, z, vx, vy, vz, ax, ay, az; first nine entries are the first ROW, next eight entries are the second row, etc.). If unknown, assign NaN value to first element in the array. EstimatorType MAV_ESTIMATOR_TYPE `json:"EstimatorType" ` // Class id of the estimator this estimate originated from. }
LocalPositionNedCov struct (generated typeinfo) The filtered local position (e.g. fused computer vision and accelerometers). Coordinate frame is right-handed, Z-axis down (aeronautical frame, NED / north-east-down convention)
func (*LocalPositionNedCov) Dict ¶
func (m *LocalPositionNedCov) Dict() map[string]interface{}
ToMap (generated function)
func (*LocalPositionNedCov) Marshal ¶
func (m *LocalPositionNedCov) Marshal() ([]byte, error)
Marshal (generated function)
func (LocalPositionNedCov) MarshalEasyJSON ¶ added in v1.5.0
func (v LocalPositionNedCov) MarshalEasyJSON(w *jwriter.Writer)
MarshalEasyJSON supports easyjson.Marshaler interface
func (LocalPositionNedCov) MarshalJSON ¶ added in v1.5.0
func (v LocalPositionNedCov) MarshalJSON() ([]byte, error)
MarshalJSON supports json.Marshaler interface
func (*LocalPositionNedCov) MsgID ¶
func (m *LocalPositionNedCov) MsgID() message.MessageID
MsgID (generated function)
func (*LocalPositionNedCov) String ¶
func (m *LocalPositionNedCov) String() string
String (generated function)
func (*LocalPositionNedCov) Unmarshal ¶
func (m *LocalPositionNedCov) Unmarshal(data []byte) error
Unmarshal (generated function)
func (*LocalPositionNedCov) UnmarshalEasyJSON ¶ added in v1.5.0
func (v *LocalPositionNedCov) UnmarshalEasyJSON(l *jlexer.Lexer)
UnmarshalEasyJSON supports easyjson.Unmarshaler interface
func (*LocalPositionNedCov) UnmarshalJSON ¶ added in v1.5.0
func (v *LocalPositionNedCov) UnmarshalJSON(data []byte) error
UnmarshalJSON supports json.Unmarshaler interface
type LocalPositionNedSystemGlobalOffset ¶
type LocalPositionNedSystemGlobalOffset struct { TimeBootMs uint32 `json:"TimeBootMs" ` // [ ms ] Timestamp (time since system boot). X float32 `json:"X" ` // [ m ] X Position Y float32 `json:"Y" ` // [ m ] Y Position Z float32 `json:"Z" ` // [ m ] Z Position Roll float32 `json:"Roll" ` // [ rad ] Roll Pitch float32 `json:"Pitch" ` // [ rad ] Pitch Yaw float32 `json:"Yaw" ` // [ rad ] Yaw }
LocalPositionNedSystemGlobalOffset struct (generated typeinfo) The offset in X, Y, Z and yaw between the LOCAL_POSITION_NED messages of MAV X and the global coordinate frame in NED coordinates. Coordinate frame is right-handed, Z-axis down (aeronautical frame, NED / north-east-down convention)
func (*LocalPositionNedSystemGlobalOffset) Dict ¶
func (m *LocalPositionNedSystemGlobalOffset) Dict() map[string]interface{}
ToMap (generated function)
func (*LocalPositionNedSystemGlobalOffset) Marshal ¶
func (m *LocalPositionNedSystemGlobalOffset) Marshal() ([]byte, error)
Marshal (generated function)
func (LocalPositionNedSystemGlobalOffset) MarshalEasyJSON ¶ added in v1.5.0
func (v LocalPositionNedSystemGlobalOffset) MarshalEasyJSON(w *jwriter.Writer)
MarshalEasyJSON supports easyjson.Marshaler interface
func (LocalPositionNedSystemGlobalOffset) MarshalJSON ¶ added in v1.5.0
func (v LocalPositionNedSystemGlobalOffset) MarshalJSON() ([]byte, error)
MarshalJSON supports json.Marshaler interface
func (*LocalPositionNedSystemGlobalOffset) MsgID ¶
func (m *LocalPositionNedSystemGlobalOffset) MsgID() message.MessageID
MsgID (generated function)
func (*LocalPositionNedSystemGlobalOffset) String ¶
func (m *LocalPositionNedSystemGlobalOffset) String() string
String (generated function)
func (*LocalPositionNedSystemGlobalOffset) Unmarshal ¶
func (m *LocalPositionNedSystemGlobalOffset) Unmarshal(data []byte) error
Unmarshal (generated function)
func (*LocalPositionNedSystemGlobalOffset) UnmarshalEasyJSON ¶ added in v1.5.0
func (v *LocalPositionNedSystemGlobalOffset) UnmarshalEasyJSON(l *jlexer.Lexer)
UnmarshalEasyJSON supports easyjson.Unmarshaler interface
func (*LocalPositionNedSystemGlobalOffset) UnmarshalJSON ¶ added in v1.5.0
func (v *LocalPositionNedSystemGlobalOffset) UnmarshalJSON(data []byte) error
UnmarshalJSON supports json.Unmarshaler interface
type LogData ¶
type LogData struct { Ofs uint32 `json:"Ofs" ` // Offset into the log ID uint16 `json:"ID" ` // Log id (from LOG_ENTRY reply) Count uint8 `json:"Count" ` // [ bytes ] Number of bytes (zero for end of log) Data []uint8 `json:"Data" len:"90" ` // log data }
LogData struct (generated typeinfo) Reply to LOG_REQUEST_DATA
func (LogData) MarshalEasyJSON ¶ added in v1.5.0
MarshalEasyJSON supports easyjson.Marshaler interface
func (LogData) MarshalJSON ¶ added in v1.5.0
MarshalJSON supports json.Marshaler interface
func (*LogData) UnmarshalEasyJSON ¶ added in v1.5.0
UnmarshalEasyJSON supports easyjson.Unmarshaler interface
func (*LogData) UnmarshalJSON ¶ added in v1.5.0
UnmarshalJSON supports json.Unmarshaler interface
type LogEntry ¶
type LogEntry struct { TimeUtc uint32 `json:"TimeUtc" ` // [ s ] UTC timestamp of log since 1970, or 0 if not available Size uint32 `json:"Size" ` // [ bytes ] Size of the log (may be approximate) ID uint16 `json:"ID" ` // Log id NumLogs uint16 `json:"NumLogs" ` // Total number of logs LastLogNum uint16 `json:"LastLogNum" ` // High log number }
LogEntry struct (generated typeinfo) Reply to LOG_REQUEST_LIST
func (LogEntry) MarshalEasyJSON ¶ added in v1.5.0
MarshalEasyJSON supports easyjson.Marshaler interface
func (LogEntry) MarshalJSON ¶ added in v1.5.0
MarshalJSON supports json.Marshaler interface
func (*LogEntry) UnmarshalEasyJSON ¶ added in v1.5.0
UnmarshalEasyJSON supports easyjson.Unmarshaler interface
func (*LogEntry) UnmarshalJSON ¶ added in v1.5.0
UnmarshalJSON supports json.Unmarshaler interface
type LogErase ¶
type LogErase struct { TargetSystem uint8 `json:"TargetSystem" ` // System ID TargetComponent uint8 `json:"TargetComponent" ` // Component ID }
LogErase struct (generated typeinfo) Erase all logs
func (LogErase) MarshalEasyJSON ¶ added in v1.5.0
MarshalEasyJSON supports easyjson.Marshaler interface
func (LogErase) MarshalJSON ¶ added in v1.5.0
MarshalJSON supports json.Marshaler interface
func (*LogErase) UnmarshalEasyJSON ¶ added in v1.5.0
UnmarshalEasyJSON supports easyjson.Unmarshaler interface
func (*LogErase) UnmarshalJSON ¶ added in v1.5.0
UnmarshalJSON supports json.Unmarshaler interface
type LogRequestData ¶
type LogRequestData struct { Ofs uint32 `json:"Ofs" ` // Offset into the log Count uint32 `json:"Count" ` // [ bytes ] Number of bytes ID uint16 `json:"ID" ` // Log id (from LOG_ENTRY reply) TargetSystem uint8 `json:"TargetSystem" ` // System ID TargetComponent uint8 `json:"TargetComponent" ` // Component ID }
LogRequestData struct (generated typeinfo) Request a chunk of a log
func (*LogRequestData) Dict ¶
func (m *LogRequestData) Dict() map[string]interface{}
ToMap (generated function)
func (*LogRequestData) Marshal ¶
func (m *LogRequestData) Marshal() ([]byte, error)
Marshal (generated function)
func (LogRequestData) MarshalEasyJSON ¶ added in v1.5.0
func (v LogRequestData) MarshalEasyJSON(w *jwriter.Writer)
MarshalEasyJSON supports easyjson.Marshaler interface
func (LogRequestData) MarshalJSON ¶ added in v1.5.0
func (v LogRequestData) MarshalJSON() ([]byte, error)
MarshalJSON supports json.Marshaler interface
func (*LogRequestData) MsgID ¶
func (m *LogRequestData) MsgID() message.MessageID
MsgID (generated function)
func (*LogRequestData) String ¶
func (m *LogRequestData) String() string
String (generated function)
func (*LogRequestData) Unmarshal ¶
func (m *LogRequestData) Unmarshal(data []byte) error
Unmarshal (generated function)
func (*LogRequestData) UnmarshalEasyJSON ¶ added in v1.5.0
func (v *LogRequestData) UnmarshalEasyJSON(l *jlexer.Lexer)
UnmarshalEasyJSON supports easyjson.Unmarshaler interface
func (*LogRequestData) UnmarshalJSON ¶ added in v1.5.0
func (v *LogRequestData) UnmarshalJSON(data []byte) error
UnmarshalJSON supports json.Unmarshaler interface
type LogRequestEnd ¶
type LogRequestEnd struct { TargetSystem uint8 `json:"TargetSystem" ` // System ID TargetComponent uint8 `json:"TargetComponent" ` // Component ID }
LogRequestEnd struct (generated typeinfo) Stop log transfer and resume normal logging
func (*LogRequestEnd) Dict ¶
func (m *LogRequestEnd) Dict() map[string]interface{}
ToMap (generated function)
func (*LogRequestEnd) Marshal ¶
func (m *LogRequestEnd) Marshal() ([]byte, error)
Marshal (generated function)
func (LogRequestEnd) MarshalEasyJSON ¶ added in v1.5.0
func (v LogRequestEnd) MarshalEasyJSON(w *jwriter.Writer)
MarshalEasyJSON supports easyjson.Marshaler interface
func (LogRequestEnd) MarshalJSON ¶ added in v1.5.0
func (v LogRequestEnd) MarshalJSON() ([]byte, error)
MarshalJSON supports json.Marshaler interface
func (*LogRequestEnd) MsgID ¶
func (m *LogRequestEnd) MsgID() message.MessageID
MsgID (generated function)
func (*LogRequestEnd) Unmarshal ¶
func (m *LogRequestEnd) Unmarshal(data []byte) error
Unmarshal (generated function)
func (*LogRequestEnd) UnmarshalEasyJSON ¶ added in v1.5.0
func (v *LogRequestEnd) UnmarshalEasyJSON(l *jlexer.Lexer)
UnmarshalEasyJSON supports easyjson.Unmarshaler interface
func (*LogRequestEnd) UnmarshalJSON ¶ added in v1.5.0
func (v *LogRequestEnd) UnmarshalJSON(data []byte) error
UnmarshalJSON supports json.Unmarshaler interface
type LogRequestList ¶
type LogRequestList struct { Start uint16 `json:"Start" ` // First log id (0 for first available) End uint16 `json:"End" ` // Last log id (0xffff for last available) TargetSystem uint8 `json:"TargetSystem" ` // System ID TargetComponent uint8 `json:"TargetComponent" ` // Component ID }
LogRequestList struct (generated typeinfo) Request a list of available logs. On some systems calling this may stop on-board logging until LOG_REQUEST_END is called. If there are no log files available this request shall be answered with one LOG_ENTRY message with id = 0 and num_logs = 0.
func (*LogRequestList) Dict ¶
func (m *LogRequestList) Dict() map[string]interface{}
ToMap (generated function)
func (*LogRequestList) Marshal ¶
func (m *LogRequestList) Marshal() ([]byte, error)
Marshal (generated function)
func (LogRequestList) MarshalEasyJSON ¶ added in v1.5.0
func (v LogRequestList) MarshalEasyJSON(w *jwriter.Writer)
MarshalEasyJSON supports easyjson.Marshaler interface
func (LogRequestList) MarshalJSON ¶ added in v1.5.0
func (v LogRequestList) MarshalJSON() ([]byte, error)
MarshalJSON supports json.Marshaler interface
func (*LogRequestList) MsgID ¶
func (m *LogRequestList) MsgID() message.MessageID
MsgID (generated function)
func (*LogRequestList) String ¶
func (m *LogRequestList) String() string
String (generated function)
func (*LogRequestList) Unmarshal ¶
func (m *LogRequestList) Unmarshal(data []byte) error
Unmarshal (generated function)
func (*LogRequestList) UnmarshalEasyJSON ¶ added in v1.5.0
func (v *LogRequestList) UnmarshalEasyJSON(l *jlexer.Lexer)
UnmarshalEasyJSON supports easyjson.Unmarshaler interface
func (*LogRequestList) UnmarshalJSON ¶ added in v1.5.0
func (v *LogRequestList) UnmarshalJSON(data []byte) error
UnmarshalJSON supports json.Unmarshaler interface
type MAG_CAL_STATUS ¶
type MAG_CAL_STATUS int
MAG_CAL_STATUS type
const ( // MAG_CAL_NOT_STARTED enum MAG_CAL_NOT_STARTED MAG_CAL_STATUS = 0 // MAG_CAL_WAITING_TO_START enum MAG_CAL_WAITING_TO_START MAG_CAL_STATUS = 1 // MAG_CAL_RUNNING_STEP_ONE enum MAG_CAL_RUNNING_STEP_ONE MAG_CAL_STATUS = 2 // MAG_CAL_RUNNING_STEP_TWO enum MAG_CAL_RUNNING_STEP_TWO MAG_CAL_STATUS = 3 // MAG_CAL_SUCCESS enum MAG_CAL_SUCCESS MAG_CAL_STATUS = 4 // MAG_CAL_FAILED enum MAG_CAL_FAILED MAG_CAL_STATUS = 5 // MAG_CAL_BAD_ORIENTATION enum MAG_CAL_BAD_ORIENTATION MAG_CAL_STATUS = 6 // MAG_CAL_BAD_RADIUS enum MAG_CAL_BAD_RADIUS MAG_CAL_STATUS = 7 )
func (MAG_CAL_STATUS) Bitmask ¶
func (e MAG_CAL_STATUS) Bitmask() string
Bitmask return string representetion of intersects MAG_CAL_STATUS enums
func (MAG_CAL_STATUS) MarshalBinary ¶
func (e MAG_CAL_STATUS) MarshalBinary() (data []byte, err error)
MarshalBinary generic func
func (MAG_CAL_STATUS) String ¶
func (e MAG_CAL_STATUS) String() string
func (*MAG_CAL_STATUS) UnmarshalBinary ¶
func (e *MAG_CAL_STATUS) UnmarshalBinary(data []byte) error
UnmarshalBinary generic func
type MAVLINK_DATA_STREAM_TYPE ¶
type MAVLINK_DATA_STREAM_TYPE int
MAVLINK_DATA_STREAM_TYPE type
const ( // MAVLINK_DATA_STREAM_IMG_JPEG enum MAVLINK_DATA_STREAM_IMG_JPEG MAVLINK_DATA_STREAM_TYPE = 0 // MAVLINK_DATA_STREAM_IMG_BMP enum MAVLINK_DATA_STREAM_IMG_BMP MAVLINK_DATA_STREAM_TYPE = 1 // MAVLINK_DATA_STREAM_IMG_RAW8U enum MAVLINK_DATA_STREAM_IMG_RAW8U MAVLINK_DATA_STREAM_TYPE = 2 // MAVLINK_DATA_STREAM_IMG_RAW32U enum MAVLINK_DATA_STREAM_IMG_RAW32U MAVLINK_DATA_STREAM_TYPE = 3 // MAVLINK_DATA_STREAM_IMG_PGM enum MAVLINK_DATA_STREAM_IMG_PGM MAVLINK_DATA_STREAM_TYPE = 4 // MAVLINK_DATA_STREAM_IMG_PNG enum MAVLINK_DATA_STREAM_IMG_PNG MAVLINK_DATA_STREAM_TYPE = 5 )
func (MAVLINK_DATA_STREAM_TYPE) Bitmask ¶
func (e MAVLINK_DATA_STREAM_TYPE) Bitmask() string
Bitmask return string representetion of intersects MAVLINK_DATA_STREAM_TYPE enums
func (MAVLINK_DATA_STREAM_TYPE) MarshalBinary ¶
func (e MAVLINK_DATA_STREAM_TYPE) MarshalBinary() (data []byte, err error)
MarshalBinary generic func
func (MAVLINK_DATA_STREAM_TYPE) String ¶
func (e MAVLINK_DATA_STREAM_TYPE) String() string
func (*MAVLINK_DATA_STREAM_TYPE) UnmarshalBinary ¶
func (e *MAVLINK_DATA_STREAM_TYPE) UnmarshalBinary(data []byte) error
UnmarshalBinary generic func
type MAV_ARM_AUTH_DENIED_REASON ¶
type MAV_ARM_AUTH_DENIED_REASON int
MAV_ARM_AUTH_DENIED_REASON type
const ( // MAV_ARM_AUTH_DENIED_REASON_GENERIC enum. Not a specific reason MAV_ARM_AUTH_DENIED_REASON_GENERIC MAV_ARM_AUTH_DENIED_REASON = 0 // MAV_ARM_AUTH_DENIED_REASON_NONE enum. Authorizer will send the error as string to GCS MAV_ARM_AUTH_DENIED_REASON_NONE MAV_ARM_AUTH_DENIED_REASON = 1 // MAV_ARM_AUTH_DENIED_REASON_INVALID_WAYPOINT enum. At least one waypoint have a invalid value MAV_ARM_AUTH_DENIED_REASON_INVALID_WAYPOINT MAV_ARM_AUTH_DENIED_REASON = 2 // MAV_ARM_AUTH_DENIED_REASON_TIMEOUT enum. Timeout in the authorizer process(in case it depends on network) MAV_ARM_AUTH_DENIED_REASON_TIMEOUT MAV_ARM_AUTH_DENIED_REASON = 3 // MAV_ARM_AUTH_DENIED_REASON_AIRSPACE_IN_USE enum. Airspace of the mission in use by another vehicle, second result parameter can have the waypoint id that caused it to be denied MAV_ARM_AUTH_DENIED_REASON_AIRSPACE_IN_USE MAV_ARM_AUTH_DENIED_REASON = 4 // MAV_ARM_AUTH_DENIED_REASON_BAD_WEATHER enum. Weather is not good to fly MAV_ARM_AUTH_DENIED_REASON_BAD_WEATHER MAV_ARM_AUTH_DENIED_REASON = 5 )
func (MAV_ARM_AUTH_DENIED_REASON) Bitmask ¶
func (e MAV_ARM_AUTH_DENIED_REASON) Bitmask() string
Bitmask return string representetion of intersects MAV_ARM_AUTH_DENIED_REASON enums
func (MAV_ARM_AUTH_DENIED_REASON) MarshalBinary ¶
func (e MAV_ARM_AUTH_DENIED_REASON) MarshalBinary() (data []byte, err error)
MarshalBinary generic func
func (MAV_ARM_AUTH_DENIED_REASON) String ¶
func (e MAV_ARM_AUTH_DENIED_REASON) String() string
func (*MAV_ARM_AUTH_DENIED_REASON) UnmarshalBinary ¶
func (e *MAV_ARM_AUTH_DENIED_REASON) UnmarshalBinary(data []byte) error
UnmarshalBinary generic func
type MAV_AUTOPILOT ¶
type MAV_AUTOPILOT int
MAV_AUTOPILOT type. Micro air vehicle / autopilot classes. This identifies the individual model.
const ( // MAV_AUTOPILOT_GENERIC enum. Generic autopilot, full support for everything MAV_AUTOPILOT_GENERIC MAV_AUTOPILOT = 0 // MAV_AUTOPILOT_RESERVED enum. Reserved for future use MAV_AUTOPILOT_RESERVED MAV_AUTOPILOT = 1 // MAV_AUTOPILOT_SLUGS enum. SLUGS autopilot, http://slugsuav.soe.ucsc.edu MAV_AUTOPILOT_SLUGS MAV_AUTOPILOT = 2 // MAV_AUTOPILOT_ARDUPILOTMEGA enum. ArduPilot - Plane/Copter/Rover/Sub/Tracker, https://ardupilot.org MAV_AUTOPILOT_ARDUPILOTMEGA MAV_AUTOPILOT = 3 // MAV_AUTOPILOT_OPENPILOT enum. OpenPilot, http://openpilot.org MAV_AUTOPILOT_OPENPILOT MAV_AUTOPILOT = 4 // MAV_AUTOPILOT_GENERIC_WAYPOINTS_ONLY enum. Generic autopilot only supporting simple waypoints MAV_AUTOPILOT_GENERIC_WAYPOINTS_ONLY MAV_AUTOPILOT = 5 // MAV_AUTOPILOT_GENERIC_WAYPOINTS_AND_SIMPLE_NAVIGATION_ONLY enum. Generic autopilot supporting waypoints and other simple navigation commands MAV_AUTOPILOT_GENERIC_WAYPOINTS_AND_SIMPLE_NAVIGATION_ONLY MAV_AUTOPILOT = 6 // MAV_AUTOPILOT_GENERIC_MISSION_FULL enum. Generic autopilot supporting the full mission command set MAV_AUTOPILOT_GENERIC_MISSION_FULL MAV_AUTOPILOT = 7 // MAV_AUTOPILOT_INVALID enum. No valid autopilot, e.g. a GCS or other MAVLink component MAV_AUTOPILOT_INVALID MAV_AUTOPILOT = 8 // MAV_AUTOPILOT_PPZ enum. PPZ UAV - http://nongnu.org/paparazzi MAV_AUTOPILOT_PPZ MAV_AUTOPILOT = 9 // MAV_AUTOPILOT_UDB enum. UAV Dev Board MAV_AUTOPILOT_UDB MAV_AUTOPILOT = 10 // MAV_AUTOPILOT_FP enum. FlexiPilot MAV_AUTOPILOT_FP MAV_AUTOPILOT = 11 // MAV_AUTOPILOT_PX4 enum. PX4 Autopilot - http://px4.io/ MAV_AUTOPILOT_PX4 MAV_AUTOPILOT = 12 // MAV_AUTOPILOT_SMACCMPILOT enum. SMACCMPilot - http://smaccmpilot.org MAV_AUTOPILOT_SMACCMPILOT MAV_AUTOPILOT = 13 // MAV_AUTOPILOT_AUTOQUAD enum. AutoQuad -- http://autoquad.org MAV_AUTOPILOT_AUTOQUAD MAV_AUTOPILOT = 14 // MAV_AUTOPILOT_ARMAZILA enum. Armazila -- http://armazila.com MAV_AUTOPILOT_ARMAZILA MAV_AUTOPILOT = 15 // MAV_AUTOPILOT_AEROB enum. Aerob -- http://aerob.ru MAV_AUTOPILOT_AEROB MAV_AUTOPILOT = 16 // MAV_AUTOPILOT_ASLUAV enum. ASLUAV autopilot -- http://www.asl.ethz.ch MAV_AUTOPILOT_ASLUAV MAV_AUTOPILOT = 17 // MAV_AUTOPILOT_SMARTAP enum. SmartAP Autopilot - http://sky-drones.com MAV_AUTOPILOT_SMARTAP MAV_AUTOPILOT = 18 // MAV_AUTOPILOT_AIRRAILS enum. AirRails - http://uaventure.com MAV_AUTOPILOT_AIRRAILS MAV_AUTOPILOT = 19 )
func (MAV_AUTOPILOT) Bitmask ¶
func (e MAV_AUTOPILOT) Bitmask() string
Bitmask return string representetion of intersects MAV_AUTOPILOT enums
func (MAV_AUTOPILOT) MarshalBinary ¶
func (e MAV_AUTOPILOT) MarshalBinary() (data []byte, err error)
MarshalBinary generic func
func (MAV_AUTOPILOT) String ¶
func (e MAV_AUTOPILOT) String() string
func (*MAV_AUTOPILOT) UnmarshalBinary ¶
func (e *MAV_AUTOPILOT) UnmarshalBinary(data []byte) error
UnmarshalBinary generic func
type MAV_BATTERY_CHARGE_STATE ¶
type MAV_BATTERY_CHARGE_STATE int
MAV_BATTERY_CHARGE_STATE type. Enumeration for battery charge states.
const ( // MAV_BATTERY_CHARGE_STATE_UNDEFINED enum. Low battery state is not provided MAV_BATTERY_CHARGE_STATE_UNDEFINED MAV_BATTERY_CHARGE_STATE = 0 // MAV_BATTERY_CHARGE_STATE_OK enum. Battery is not in low state. Normal operation MAV_BATTERY_CHARGE_STATE_OK MAV_BATTERY_CHARGE_STATE = 1 // MAV_BATTERY_CHARGE_STATE_LOW enum. Battery state is low, warn and monitor close MAV_BATTERY_CHARGE_STATE_LOW MAV_BATTERY_CHARGE_STATE = 2 // MAV_BATTERY_CHARGE_STATE_CRITICAL enum. Battery state is critical, return or abort immediately MAV_BATTERY_CHARGE_STATE_CRITICAL MAV_BATTERY_CHARGE_STATE = 3 // MAV_BATTERY_CHARGE_STATE_EMERGENCY enum. Battery state is too low for ordinary abort sequence. Perform fastest possible emergency stop to prevent damage MAV_BATTERY_CHARGE_STATE_EMERGENCY MAV_BATTERY_CHARGE_STATE = 4 // MAV_BATTERY_CHARGE_STATE_FAILED enum. Battery failed, damage unavoidable. Possible causes (faults) are listed in MAV_BATTERY_FAULT MAV_BATTERY_CHARGE_STATE_FAILED MAV_BATTERY_CHARGE_STATE = 5 // MAV_BATTERY_CHARGE_STATE_UNHEALTHY enum. Battery is diagnosed to be defective or an error occurred, usage is discouraged / prohibited. Possible causes (faults) are listed in MAV_BATTERY_FAULT MAV_BATTERY_CHARGE_STATE_UNHEALTHY MAV_BATTERY_CHARGE_STATE = 6 // MAV_BATTERY_CHARGE_STATE_CHARGING enum. Battery is charging MAV_BATTERY_CHARGE_STATE_CHARGING MAV_BATTERY_CHARGE_STATE = 7 )
func (MAV_BATTERY_CHARGE_STATE) Bitmask ¶
func (e MAV_BATTERY_CHARGE_STATE) Bitmask() string
Bitmask return string representetion of intersects MAV_BATTERY_CHARGE_STATE enums
func (MAV_BATTERY_CHARGE_STATE) MarshalBinary ¶
func (e MAV_BATTERY_CHARGE_STATE) MarshalBinary() (data []byte, err error)
MarshalBinary generic func
func (MAV_BATTERY_CHARGE_STATE) String ¶
func (e MAV_BATTERY_CHARGE_STATE) String() string
func (*MAV_BATTERY_CHARGE_STATE) UnmarshalBinary ¶
func (e *MAV_BATTERY_CHARGE_STATE) UnmarshalBinary(data []byte) error
UnmarshalBinary generic func
type MAV_BATTERY_FAULT ¶
type MAV_BATTERY_FAULT int
MAV_BATTERY_FAULT type. Smart battery supply status/fault flags (bitmask) for health indication. The battery must also report either MAV_BATTERY_CHARGE_STATE_FAILED or MAV_BATTERY_CHARGE_STATE_UNHEALTHY if any of these are set.
const ( // MAV_BATTERY_FAULT_DEEP_DISCHARGE enum. Battery has deep discharged MAV_BATTERY_FAULT_DEEP_DISCHARGE MAV_BATTERY_FAULT = 1 // MAV_BATTERY_FAULT_SPIKES enum. Voltage spikes MAV_BATTERY_FAULT_SPIKES MAV_BATTERY_FAULT = 2 // MAV_BATTERY_FAULT_CELL_FAIL enum. One or more cells have failed. Battery should also report MAV_BATTERY_CHARGE_STATE_FAILE (and should not be used) MAV_BATTERY_FAULT_CELL_FAIL MAV_BATTERY_FAULT = 4 // MAV_BATTERY_FAULT_OVER_CURRENT enum. Over-current fault MAV_BATTERY_FAULT_OVER_CURRENT MAV_BATTERY_FAULT = 8 // MAV_BATTERY_FAULT_OVER_TEMPERATURE enum. Over-temperature fault MAV_BATTERY_FAULT_OVER_TEMPERATURE MAV_BATTERY_FAULT = 16 // MAV_BATTERY_FAULT_UNDER_TEMPERATURE enum. Under-temperature fault MAV_BATTERY_FAULT_UNDER_TEMPERATURE MAV_BATTERY_FAULT = 32 // MAV_BATTERY_FAULT_INCOMPATIBLE_VOLTAGE enum. Vehicle voltage is not compatible with this battery (batteries on same power rail should have similar voltage) MAV_BATTERY_FAULT_INCOMPATIBLE_VOLTAGE MAV_BATTERY_FAULT = 64 )
func (MAV_BATTERY_FAULT) Bitmask ¶
func (e MAV_BATTERY_FAULT) Bitmask() string
Bitmask return string representetion of intersects MAV_BATTERY_FAULT enums
func (MAV_BATTERY_FAULT) MarshalBinary ¶
func (e MAV_BATTERY_FAULT) MarshalBinary() (data []byte, err error)
MarshalBinary generic func
func (MAV_BATTERY_FAULT) String ¶
func (e MAV_BATTERY_FAULT) String() string
func (*MAV_BATTERY_FAULT) UnmarshalBinary ¶
func (e *MAV_BATTERY_FAULT) UnmarshalBinary(data []byte) error
UnmarshalBinary generic func
type MAV_BATTERY_FUNCTION ¶
type MAV_BATTERY_FUNCTION int
MAV_BATTERY_FUNCTION type. Enumeration of battery functions
const ( // MAV_BATTERY_FUNCTION_UNKNOWN enum. Battery function is unknown MAV_BATTERY_FUNCTION_UNKNOWN MAV_BATTERY_FUNCTION = 0 // MAV_BATTERY_FUNCTION_ALL enum. Battery supports all flight systems MAV_BATTERY_FUNCTION_ALL MAV_BATTERY_FUNCTION = 1 // MAV_BATTERY_FUNCTION_PROPULSION enum. Battery for the propulsion system MAV_BATTERY_FUNCTION_PROPULSION MAV_BATTERY_FUNCTION = 2 // MAV_BATTERY_FUNCTION_AVIONICS enum. Avionics battery MAV_BATTERY_FUNCTION_AVIONICS MAV_BATTERY_FUNCTION = 3 // MAV_BATTERY_TYPE_PAYLOAD enum. Payload battery MAV_BATTERY_TYPE_PAYLOAD MAV_BATTERY_FUNCTION = 4 )
func (MAV_BATTERY_FUNCTION) Bitmask ¶
func (e MAV_BATTERY_FUNCTION) Bitmask() string
Bitmask return string representetion of intersects MAV_BATTERY_FUNCTION enums
func (MAV_BATTERY_FUNCTION) MarshalBinary ¶
func (e MAV_BATTERY_FUNCTION) MarshalBinary() (data []byte, err error)
MarshalBinary generic func
func (MAV_BATTERY_FUNCTION) String ¶
func (e MAV_BATTERY_FUNCTION) String() string
func (*MAV_BATTERY_FUNCTION) UnmarshalBinary ¶
func (e *MAV_BATTERY_FUNCTION) UnmarshalBinary(data []byte) error
UnmarshalBinary generic func
type MAV_BATTERY_MODE ¶
type MAV_BATTERY_MODE int
MAV_BATTERY_MODE type. Battery mode. Note, the normal operation mode (i.e. when flying) should be reported as MAV_BATTERY_MODE_UNKNOWN to allow message trimming in normal flight.
const ( // MAV_BATTERY_MODE_UNKNOWN enum. Battery mode not supported/unknown battery mode/normal operation MAV_BATTERY_MODE_UNKNOWN MAV_BATTERY_MODE = 0 // MAV_BATTERY_MODE_AUTO_DISCHARGING enum. Battery is auto discharging (towards storage level) MAV_BATTERY_MODE_AUTO_DISCHARGING MAV_BATTERY_MODE = 1 // MAV_BATTERY_MODE_HOT_SWAP enum. Battery in hot-swap mode (current limited to prevent spikes that might damage sensitive electrical circuits) MAV_BATTERY_MODE_HOT_SWAP MAV_BATTERY_MODE = 2 )
func (MAV_BATTERY_MODE) Bitmask ¶
func (e MAV_BATTERY_MODE) Bitmask() string
Bitmask return string representetion of intersects MAV_BATTERY_MODE enums
func (MAV_BATTERY_MODE) MarshalBinary ¶
func (e MAV_BATTERY_MODE) MarshalBinary() (data []byte, err error)
MarshalBinary generic func
func (MAV_BATTERY_MODE) String ¶
func (e MAV_BATTERY_MODE) String() string
func (*MAV_BATTERY_MODE) UnmarshalBinary ¶
func (e *MAV_BATTERY_MODE) UnmarshalBinary(data []byte) error
UnmarshalBinary generic func
type MAV_BATTERY_TYPE ¶
type MAV_BATTERY_TYPE int
MAV_BATTERY_TYPE type. Enumeration of battery types
const ( // MAV_BATTERY_TYPE_UNKNOWN enum. Not specified MAV_BATTERY_TYPE_UNKNOWN MAV_BATTERY_TYPE = 0 // MAV_BATTERY_TYPE_LIPO enum. Lithium polymer battery MAV_BATTERY_TYPE_LIPO MAV_BATTERY_TYPE = 1 // MAV_BATTERY_TYPE_LIFE enum. Lithium-iron-phosphate battery MAV_BATTERY_TYPE_LIFE MAV_BATTERY_TYPE = 2 // MAV_BATTERY_TYPE_LION enum. Lithium-ION battery MAV_BATTERY_TYPE_LION MAV_BATTERY_TYPE = 3 // MAV_BATTERY_TYPE_NIMH enum. Nickel metal hydride battery MAV_BATTERY_TYPE_NIMH MAV_BATTERY_TYPE = 4 )
func (MAV_BATTERY_TYPE) Bitmask ¶
func (e MAV_BATTERY_TYPE) Bitmask() string
Bitmask return string representetion of intersects MAV_BATTERY_TYPE enums
func (MAV_BATTERY_TYPE) MarshalBinary ¶
func (e MAV_BATTERY_TYPE) MarshalBinary() (data []byte, err error)
MarshalBinary generic func
func (MAV_BATTERY_TYPE) String ¶
func (e MAV_BATTERY_TYPE) String() string
func (*MAV_BATTERY_TYPE) UnmarshalBinary ¶
func (e *MAV_BATTERY_TYPE) UnmarshalBinary(data []byte) error
UnmarshalBinary generic func
type MAV_CMD ¶
type MAV_CMD int
MAV_CMD type. Commands to be executed by the MAV. They can be executed on user request, or as part of a mission script. If the action is used in a mission, the parameter mapping to the waypoint/mission message is as follows: Param 1, Param 2, Param 3, Param 4, X: Param 5, Y:Param 6, Z:Param 7. This command list is similar what ARINC 424 is for commercial aircraft: A data format how to interpret waypoint/mission data. NaN and INT32_MAX may be used in float/integer params (respectively) to indicate optional/default values (e.g. to use the component's current yaw or latitude rather than a specific value). See https://mavlink.io/en/guide/xml_schema.html#MAV_CMD for information about the structure of the MAV_CMD entries
const ( // MAV_CMD_NAV_WAYPOINT enum. Navigate to waypoint. Params: 1) Hold time. (ignored by fixed wing, time to stay at waypoint for rotary wing); 2) Acceptance radius (if the sphere with this radius is hit, the waypoint counts as reached); 3) 0 to pass through the WP, if > 0 radius to pass by WP. Positive value for clockwise orbit, negative value for counter-clockwise orbit. Allows trajectory control.; 4) Desired yaw angle at waypoint (rotary wing). NaN to use the current system yaw heading mode (e.g. yaw towards next waypoint, yaw to home, etc.).; 5) Latitude; 6) Longitude; 7) Altitude; MAV_CMD_NAV_WAYPOINT MAV_CMD = 16 // MAV_CMD_NAV_LOITER_UNLIM enum. Loiter around this waypoint an unlimited amount of time. Params: 1) Empty; 2) Empty; 3) Loiter radius around waypoint for forward-only moving vehicles (not multicopters). If positive loiter clockwise, else counter-clockwise; 4) Desired yaw angle. NaN to use the current system yaw heading mode (e.g. yaw towards next waypoint, yaw to home, etc.).; 5) Latitude; 6) Longitude; 7) Altitude; MAV_CMD_NAV_LOITER_UNLIM MAV_CMD = 17 // MAV_CMD_NAV_LOITER_TURNS enum. Loiter around this waypoint for X turns. Params: 1) Number of turns.; 2) Leave loiter circle only once heading towards the next waypoint (0 = False); 3) Loiter radius around waypoint for forward-only moving vehicles (not multicopters). If positive loiter clockwise, else counter-clockwise; 4) Loiter circle exit location and/or path to next waypoint ("xtrack") for forward-only moving vehicles (not multicopters). 0 for the vehicle to converge towards the center xtrack when it leaves the loiter (the line between the centers of the current and next waypoint), 1 to converge to the direct line between the location that the vehicle exits the loiter radius and the next waypoint. Otherwise the angle (in degrees) between the tangent of the loiter circle and the center xtrack at which the vehicle must leave the loiter (and converge to the center xtrack). NaN to use the current system default xtrack behaviour.; 5) Latitude; 6) Longitude; 7) Altitude; MAV_CMD_NAV_LOITER_TURNS MAV_CMD = 18 // MAV_CMD_NAV_LOITER_TIME enum. Loiter at the specified latitude, longitude and altitude for a certain amount of time. Multicopter vehicles stop at the point (within a vehicle-specific acceptance radius). Forward-only moving vehicles (e.g. fixed-wing) circle the point with the specified radius/direction. If the Heading Required parameter (2) is non-zero forward moving aircraft will only leave the loiter circle once heading towards the next waypoint. Params: 1) Loiter time (only starts once Lat, Lon and Alt is reached).; 2) Leave loiter circle only once heading towards the next waypoint (0 = False); 3) Loiter radius around waypoint for forward-only moving vehicles (not multicopters). If positive loiter clockwise, else counter-clockwise.; 4) Loiter circle exit location and/or path to next waypoint ("xtrack") for forward-only moving vehicles (not multicopters). 0 for the vehicle to converge towards the center xtrack when it leaves the loiter (the line between the centers of the current and next waypoint), 1 to converge to the direct line between the location that the vehicle exits the loiter radius and the next waypoint. Otherwise the angle (in degrees) between the tangent of the loiter circle and the center xtrack at which the vehicle must leave the loiter (and converge to the center xtrack). NaN to use the current system default xtrack behaviour.; 5) Latitude; 6) Longitude; 7) Altitude; MAV_CMD_NAV_LOITER_TIME MAV_CMD = 19 // MAV_CMD_NAV_RETURN_TO_LAUNCH enum. Return to launch location. Params: 1) Empty; 2) Empty; 3) Empty; 4) Empty; 5) Empty; 6) Empty; 7) Empty; MAV_CMD_NAV_RETURN_TO_LAUNCH MAV_CMD = 20 // MAV_CMD_NAV_LAND enum. Land at location. Params: 1) Minimum target altitude if landing is aborted (0 = undefined/use system default).; 2) Precision land mode.; 3) Empty.; 4) Desired yaw angle. NaN to use the current system yaw heading mode (e.g. yaw towards next waypoint, yaw to home, etc.).; 5) Latitude.; 6) Longitude.; 7) Landing altitude (ground level in current frame).; MAV_CMD_NAV_LAND MAV_CMD = 21 // MAV_CMD_NAV_TAKEOFF enum. Takeoff from ground / hand. Vehicles that support multiple takeoff modes (e.g. VTOL quadplane) should take off using the currently configured mode. Params: 1) Minimum pitch (if airspeed sensor present), desired pitch without sensor; 2) Empty; 3) Empty; 4) Yaw angle (if magnetometer present), ignored without magnetometer. NaN to use the current system yaw heading mode (e.g. yaw towards next waypoint, yaw to home, etc.).; 5) Latitude; 6) Longitude; 7) Altitude; MAV_CMD_NAV_TAKEOFF MAV_CMD = 22 // MAV_CMD_NAV_LAND_LOCAL enum. Land at local position (local frame only). Params: 1) Landing target number (if available); 2) Maximum accepted offset from desired landing position - computed magnitude from spherical coordinates: d = sqrt(x^2 + y^2 + z^2), which gives the maximum accepted distance between the desired landing position and the position where the vehicle is about to land; 3) Landing descend rate; 4) Desired yaw angle; 5) Y-axis position; 6) X-axis position; 7) Z-axis / ground level position; MAV_CMD_NAV_LAND_LOCAL MAV_CMD = 23 // MAV_CMD_NAV_TAKEOFF_LOCAL enum. Takeoff from local position (local frame only). Params: 1) Minimum pitch (if airspeed sensor present), desired pitch without sensor; 2) Empty; 3) Takeoff ascend rate; 4) Yaw angle (if magnetometer or another yaw estimation source present), ignored without one of these; 5) Y-axis position; 6) X-axis position; 7) Z-axis position; MAV_CMD_NAV_TAKEOFF_LOCAL MAV_CMD = 24 // MAV_CMD_NAV_FOLLOW enum. Vehicle following, i.e. this waypoint represents the position of a moving vehicle. Params: 1) Following logic to use (e.g. loitering or sinusoidal following) - depends on specific autopilot implementation; 2) Ground speed of vehicle to be followed; 3) Radius around waypoint. If positive loiter clockwise, else counter-clockwise; 4) Desired yaw angle.; 5) Latitude; 6) Longitude; 7) Altitude; MAV_CMD_NAV_FOLLOW MAV_CMD = 25 // MAV_CMD_NAV_CONTINUE_AND_CHANGE_ALT enum. Continue on the current course and climb/descend to specified altitude. When the altitude is reached continue to the next command (i.e., don't proceed to the next command until the desired altitude is reached. Params: 1) Climb or Descend (0 = Neutral, command completes when within 5m of this command's altitude, 1 = Climbing, command completes when at or above this command's altitude, 2 = Descending, command completes when at or below this command's altitude.; 2) Empty; 3) Empty; 4) Empty; 5) Empty; 6) Empty; 7) Desired altitude; MAV_CMD_NAV_CONTINUE_AND_CHANGE_ALT MAV_CMD = 30 // MAV_CMD_NAV_LOITER_TO_ALT enum. Begin loiter at the specified Latitude and Longitude. If Lat=Lon=0, then loiter at the current position. Don't consider the navigation command complete (don't leave loiter) until the altitude has been reached. Additionally, if the Heading Required parameter is non-zero the aircraft will not leave the loiter until heading toward the next waypoint. Params: 1) Leave loiter circle only once heading towards the next waypoint (0 = False); 2) Loiter radius around waypoint for forward-only moving vehicles (not multicopters). If positive loiter clockwise, negative counter-clockwise, 0 means no change to standard loiter.; 3) Empty; 4) Loiter circle exit location and/or path to next waypoint ("xtrack") for forward-only moving vehicles (not multicopters). 0 for the vehicle to converge towards the center xtrack when it leaves the loiter (the line between the centers of the current and next waypoint), 1 to converge to the direct line between the location that the vehicle exits the loiter radius and the next waypoint. Otherwise the angle (in degrees) between the tangent of the loiter circle and the center xtrack at which the vehicle must leave the loiter (and converge to the center xtrack). NaN to use the current system default xtrack behaviour.; 5) Latitude; 6) Longitude; 7) Altitude; MAV_CMD_NAV_LOITER_TO_ALT MAV_CMD = 31 // MAV_CMD_DO_FOLLOW enum. Begin following a target. Params: 1) System ID (of the FOLLOW_TARGET beacon). Send 0 to disable follow-me and return to the default position hold mode.; 2) Reserved; 3) Reserved; 4) Altitude mode: 0: Keep current altitude, 1: keep altitude difference to target, 2: go to a fixed altitude above home.; 5) Altitude above home. (used if mode=2); 6) Reserved; 7) Time to land in which the MAV should go to the default position hold mode after a message RX timeout.; MAV_CMD_DO_FOLLOW MAV_CMD = 32 // MAV_CMD_DO_FOLLOW_REPOSITION enum. Reposition the MAV after a follow target command has been sent. Params: 1) Camera q1 (where 0 is on the ray from the camera to the tracking device); 2) Camera q2; 3) Camera q3; 4) Camera q4; 5) altitude offset from target; 6) X offset from target; 7) Y offset from target; MAV_CMD_DO_FOLLOW_REPOSITION MAV_CMD = 33 // MAV_CMD_DO_ORBIT enum. Start orbiting on the circumference of a circle defined by the parameters. Setting any value NaN results in using defaults. Params: 1) Radius of the circle. positive: Orbit clockwise. negative: Orbit counter-clockwise.; 2) Tangential Velocity. NaN: Vehicle configuration default.; 3) Yaw behavior of the vehicle.; 4) Reserved (e.g. for dynamic center beacon options); 5) Center point latitude (if no MAV_FRAME specified) / X coordinate according to MAV_FRAME. NaN: Use current vehicle position or current center if already orbiting.; 6) Center point longitude (if no MAV_FRAME specified) / Y coordinate according to MAV_FRAME. NaN: Use current vehicle position or current center if already orbiting.; 7) Center point altitude (MSL) (if no MAV_FRAME specified) / Z coordinate according to MAV_FRAME. NaN: Use current vehicle position or current center if already orbiting.; MAV_CMD_DO_ORBIT MAV_CMD = 34 // MAV_CMD_NAV_ROI enum. Sets the region of interest (ROI) for a sensor set or the vehicle itself. This can then be used by the vehicle's control system to control the vehicle attitude and the attitude of various sensors such as cameras. Params: 1) Region of interest mode.; 2) Waypoint index/ target ID. (see MAV_ROI enum); 3) ROI index (allows a vehicle to manage multiple ROI's); 4) Empty; 5) x the location of the fixed ROI (see MAV_FRAME); 6) y; 7) z; MAV_CMD_NAV_ROI MAV_CMD = 80 // MAV_CMD_NAV_PATHPLANNING enum. Control autonomous path planning on the MAV. Params: 1) 0: Disable local obstacle avoidance / local path planning (without resetting map), 1: Enable local path planning, 2: Enable and reset local path planning; 2) 0: Disable full path planning (without resetting map), 1: Enable, 2: Enable and reset map/occupancy grid, 3: Enable and reset planned route, but not occupancy grid; 3) Empty; 4) Yaw angle at goal; 5) Latitude/X of goal; 6) Longitude/Y of goal; 7) Altitude/Z of goal; MAV_CMD_NAV_PATHPLANNING MAV_CMD = 81 // MAV_CMD_NAV_SPLINE_WAYPOINT enum. Navigate to waypoint using a spline path. Params: 1) Hold time. (ignored by fixed wing, time to stay at waypoint for rotary wing); 2) Empty; 3) Empty; 4) Empty; 5) Latitude/X of goal; 6) Longitude/Y of goal; 7) Altitude/Z of goal; MAV_CMD_NAV_SPLINE_WAYPOINT MAV_CMD = 82 // MAV_CMD_NAV_VTOL_TAKEOFF enum. Takeoff from ground using VTOL mode, and transition to forward flight with specified heading. The command should be ignored by vehicles that dont support both VTOL and fixed-wing flight (multicopters, boats,etc.). Params: 1) Empty; 2) Front transition heading.; 3) Empty; 4) Yaw angle. NaN to use the current system yaw heading mode (e.g. yaw towards next waypoint, yaw to home, etc.).; 5) Latitude; 6) Longitude; 7) Altitude; MAV_CMD_NAV_VTOL_TAKEOFF MAV_CMD = 84 // MAV_CMD_NAV_VTOL_LAND enum. Land using VTOL mode. Params: 1) Empty; 2) Empty; 3) Approach altitude (with the same reference as the Altitude field). NaN if unspecified.; 4) Yaw angle. NaN to use the current system yaw heading mode (e.g. yaw towards next waypoint, yaw to home, etc.).; 5) Latitude; 6) Longitude; 7) Altitude (ground level); MAV_CMD_NAV_VTOL_LAND MAV_CMD = 85 // MAV_CMD_NAV_GUIDED_ENABLE enum. hand control over to an external controller. Params: 1) On / Off (> 0.5f on); 2) Empty; 3) Empty; 4) Empty; 5) Empty; 6) Empty; 7) Empty; MAV_CMD_NAV_GUIDED_ENABLE MAV_CMD = 92 // MAV_CMD_NAV_DELAY enum. Delay the next navigation command a number of seconds or until a specified time. Params: 1) Delay (-1 to enable time-of-day fields); 2) hour (24h format, UTC, -1 to ignore); 3) minute (24h format, UTC, -1 to ignore); 4) second (24h format, UTC, -1 to ignore); 5) Empty; 6) Empty; 7) Empty; MAV_CMD_NAV_DELAY MAV_CMD = 93 // MAV_CMD_NAV_PAYLOAD_PLACE enum. Descend and place payload. Vehicle moves to specified location, descends until it detects a hanging payload has reached the ground, and then releases the payload. If ground is not detected before the reaching the maximum descent value (param1), the command will complete without releasing the payload. Params: 1) Maximum distance to descend.; 2) Empty; 3) Empty; 4) Empty; 5) Latitude; 6) Longitude; 7) Altitude; MAV_CMD_NAV_PAYLOAD_PLACE MAV_CMD = 94 // MAV_CMD_NAV_LAST enum. NOP - This command is only used to mark the upper limit of the NAV/ACTION commands in the enumeration. Params: 1) Empty; 2) Empty; 3) Empty; 4) Empty; 5) Empty; 6) Empty; 7) Empty; MAV_CMD_NAV_LAST MAV_CMD = 95 // MAV_CMD_CONDITION_DELAY enum. Delay mission state machine. Params: 1) Delay; 2) Empty; 3) Empty; 4) Empty; 5) Empty; 6) Empty; 7) Empty; MAV_CMD_CONDITION_DELAY MAV_CMD = 112 // MAV_CMD_CONDITION_CHANGE_ALT enum. Ascend/descend to target altitude at specified rate. Delay mission state machine until desired altitude reached. Params: 1) Descent / Ascend rate.; 2) Empty; 3) Empty; 4) Empty; 5) Empty; 6) Empty; 7) Target Altitude; MAV_CMD_CONDITION_CHANGE_ALT MAV_CMD = 113 // MAV_CMD_CONDITION_DISTANCE enum. Delay mission state machine until within desired distance of next NAV point. Params: 1) Distance.; 2) Empty; 3) Empty; 4) Empty; 5) Empty; 6) Empty; 7) Empty; MAV_CMD_CONDITION_DISTANCE MAV_CMD = 114 // MAV_CMD_CONDITION_YAW enum. Reach a certain target angle. Params: 1) target angle, 0 is north; 2) angular speed; 3) direction: -1: counter clockwise, 1: clockwise; 4) 0: absolute angle, 1: relative offset; 5) Empty; 6) Empty; 7) Empty; MAV_CMD_CONDITION_YAW MAV_CMD = 115 // MAV_CMD_CONDITION_LAST enum. NOP - This command is only used to mark the upper limit of the CONDITION commands in the enumeration. Params: 1) Empty; 2) Empty; 3) Empty; 4) Empty; 5) Empty; 6) Empty; 7) Empty; MAV_CMD_CONDITION_LAST MAV_CMD = 159 // MAV_CMD_DO_SET_MODE enum. Set system mode. Params: 1) Mode; 2) Custom mode - this is system specific, please refer to the individual autopilot specifications for details.; 3) Custom sub mode - this is system specific, please refer to the individual autopilot specifications for details.; 4) Empty; 5) Empty; 6) Empty; 7) Empty; MAV_CMD_DO_SET_MODE MAV_CMD = 176 // MAV_CMD_DO_JUMP enum. Jump to the desired command in the mission list. Repeat this action only the specified number of times. Params: 1) Sequence number; 2) Repeat count; 3) Empty; 4) Empty; 5) Empty; 6) Empty; 7) Empty; MAV_CMD_DO_JUMP MAV_CMD = 177 // MAV_CMD_DO_CHANGE_SPEED enum. Change speed and/or throttle set points. Params: 1) Speed type (0=Airspeed, 1=Ground Speed, 2=Climb Speed, 3=Descent Speed); 2) Speed (-1 indicates no change); 3) Throttle (-1 indicates no change); 4) 0: absolute, 1: relative; 5) Empty; 6) Empty; 7) Empty; MAV_CMD_DO_CHANGE_SPEED MAV_CMD = 178 // MAV_CMD_DO_SET_HOME enum. Changes the home location either to the current location or a specified location. Params: 1) Use current (1=use current location, 0=use specified location); 2) Empty; 3) Empty; 4) Yaw angle. NaN to use default heading; 5) Latitude; 6) Longitude; 7) Altitude; MAV_CMD_DO_SET_HOME MAV_CMD = 179 // MAV_CMD_DO_SET_PARAMETER enum. Set a system parameter. Caution! Use of this command requires knowledge of the numeric enumeration value of the parameter. Params: 1) Parameter number; 2) Parameter value; 3) Empty; 4) Empty; 5) Empty; 6) Empty; 7) Empty; MAV_CMD_DO_SET_PARAMETER MAV_CMD = 180 // MAV_CMD_DO_SET_RELAY enum. Set a relay to a condition. Params: 1) Relay instance number.; 2) Setting. (1=on, 0=off, others possible depending on system hardware); 3) Empty; 4) Empty; 5) Empty; 6) Empty; 7) Empty; MAV_CMD_DO_SET_RELAY MAV_CMD = 181 // MAV_CMD_DO_REPEAT_RELAY enum. Cycle a relay on and off for a desired number of cycles with a desired period. Params: 1) Relay instance number.; 2) Cycle count.; 3) Cycle time.; 4) Empty; 5) Empty; 6) Empty; 7) Empty; MAV_CMD_DO_REPEAT_RELAY MAV_CMD = 182 // MAV_CMD_DO_SET_SERVO enum. Set a servo to a desired PWM value. Params: 1) Servo instance number.; 2) Pulse Width Modulation.; 3) Empty; 4) Empty; 5) Empty; 6) Empty; 7) Empty; MAV_CMD_DO_SET_SERVO MAV_CMD = 183 // MAV_CMD_DO_REPEAT_SERVO enum. Cycle a between its nominal setting and a desired PWM for a desired number of cycles with a desired period. Params: 1) Servo instance number.; 2) Pulse Width Modulation.; 3) Cycle count.; 4) Cycle time.; 5) Empty; 6) Empty; 7) Empty; MAV_CMD_DO_REPEAT_SERVO MAV_CMD = 184 // MAV_CMD_DO_FLIGHTTERMINATION enum. Terminate flight immediately. Params: 1) Flight termination activated if > 0.5; 2) Empty; 3) Empty; 4) Empty; 5) Empty; 6) Empty; 7) Empty; MAV_CMD_DO_FLIGHTTERMINATION MAV_CMD = 185 // MAV_CMD_DO_CHANGE_ALTITUDE enum. Change altitude set point. Params: 1) Altitude.; 2) Frame of new altitude.; 3) Empty; 4) Empty; 5) Empty; 6) Empty; 7) Empty; MAV_CMD_DO_CHANGE_ALTITUDE MAV_CMD = 186 // MAV_CMD_DO_SET_ACTUATOR enum. Sets actuators (e.g. servos) to a desired value. The actuator numbers are mapped to specific outputs (e.g. on any MAIN or AUX PWM or UAVCAN) using a flight-stack specific mechanism (i.e. a parameter). Params: 1) Actuator 1 value, scaled from [-1 to 1]. NaN to ignore.; 2) Actuator 2 value, scaled from [-1 to 1]. NaN to ignore.; 3) Actuator 3 value, scaled from [-1 to 1]. NaN to ignore.; 4) Actuator 4 value, scaled from [-1 to 1]. NaN to ignore.; 5) Actuator 5 value, scaled from [-1 to 1]. NaN to ignore.; 6) Actuator 6 value, scaled from [-1 to 1]. NaN to ignore.; 7) Index of actuator set (i.e if set to 1, Actuator 1 becomes Actuator 7); MAV_CMD_DO_SET_ACTUATOR MAV_CMD = 187 // MAV_CMD_DO_LAND_START enum. Mission command to perform a landing. This is used as a marker in a mission to tell the autopilot where a sequence of mission items that represents a landing starts. It may also be sent via a COMMAND_LONG to trigger a landing, in which case the nearest (geographically) landing sequence in the mission will be used. The Latitude/Longitude is optional, and may be set to 0 if not needed. If specified then it will be used to help find the closest landing sequence. Params: 1) Empty; 2) Empty; 3) Empty; 4) Empty; 5) Latitude; 6) Longitude; 7) Empty; MAV_CMD_DO_LAND_START MAV_CMD = 189 // MAV_CMD_DO_RALLY_LAND enum. Mission command to perform a landing from a rally point. Params: 1) Break altitude; 2) Landing speed; 3) Empty; 4) Empty; 5) Empty; 6) Empty; 7) Empty; MAV_CMD_DO_RALLY_LAND MAV_CMD = 190 // MAV_CMD_DO_GO_AROUND enum. Mission command to safely abort an autonomous landing. Params: 1) Altitude; 2) Empty; 3) Empty; 4) Empty; 5) Empty; 6) Empty; 7) Empty; MAV_CMD_DO_GO_AROUND MAV_CMD = 191 // MAV_CMD_DO_REPOSITION enum. Reposition the vehicle to a specific WGS84 global position. Params: 1) Ground speed, less than 0 (-1) for default; 2) Bitmask of option flags.; 3) Reserved; 4) Yaw heading. NaN to use the current system yaw heading mode (e.g. yaw towards next waypoint, yaw to home, etc.). For planes indicates loiter direction (0: clockwise, 1: counter clockwise); 5) Latitude; 6) Longitude; 7) Altitude; MAV_CMD_DO_REPOSITION MAV_CMD = 192 // MAV_CMD_DO_PAUSE_CONTINUE enum. If in a GPS controlled position mode, hold the current position or continue. Params: 1) 0: Pause current mission or reposition command, hold current position. 1: Continue mission. A VTOL capable vehicle should enter hover mode (multicopter and VTOL planes). A plane should loiter with the default loiter radius.; 2) Reserved; 3) Reserved; 4) Reserved; 5) Reserved; 6) Reserved; 7) Reserved; MAV_CMD_DO_PAUSE_CONTINUE MAV_CMD = 193 // MAV_CMD_DO_SET_REVERSE enum. Set moving direction to forward or reverse. Params: 1) Direction (0=Forward, 1=Reverse); 2) Empty; 3) Empty; 4) Empty; 5) Empty; 6) Empty; 7) Empty; MAV_CMD_DO_SET_REVERSE MAV_CMD = 194 // MAV_CMD_DO_SET_ROI_LOCATION enum. Sets the region of interest (ROI) to a location. This can then be used by the vehicle's control system to control the vehicle attitude and the attitude of various sensors such as cameras. This command can be sent to a gimbal manager but not to a gimbal device. A gimbal is not to react to this message. Params: 1) Component ID of gimbal device to address (or 1-6 for non-MAVLink gimbal), 0 for all gimbal device components. Send command multiple times for more than one gimbal (but not all gimbals).; 2) Empty; 3) Empty; 4) Empty; 5) Latitude of ROI location; 6) Longitude of ROI location; 7) Altitude of ROI location; MAV_CMD_DO_SET_ROI_LOCATION MAV_CMD = 195 // MAV_CMD_DO_SET_ROI_WPNEXT_OFFSET enum. Sets the region of interest (ROI) to be toward next waypoint, with optional pitch/roll/yaw offset. This can then be used by the vehicle's control system to control the vehicle attitude and the attitude of various sensors such as cameras. This command can be sent to a gimbal manager but not to a gimbal device. A gimbal device is not to react to this message. Params: 1) Component ID of gimbal device to address (or 1-6 for non-MAVLink gimbal), 0 for all gimbal device components. Send command multiple times for more than one gimbal (but not all gimbals).; 2) Empty; 3) Empty; 4) Empty; 5) Pitch offset from next waypoint, positive pitching up; 6) Roll offset from next waypoint, positive rolling to the right; 7) Yaw offset from next waypoint, positive yawing to the right; MAV_CMD_DO_SET_ROI_WPNEXT_OFFSET MAV_CMD = 196 // MAV_CMD_DO_SET_ROI_NONE enum. Cancels any previous ROI command returning the vehicle/sensors to default flight characteristics. This can then be used by the vehicle's control system to control the vehicle attitude and the attitude of various sensors such as cameras. This command can be sent to a gimbal manager but not to a gimbal device. A gimbal device is not to react to this message. After this command the gimbal manager should go back to manual input if available, and otherwise assume a neutral position. Params: 1) Component ID of gimbal device to address (or 1-6 for non-MAVLink gimbal), 0 for all gimbal device components. Send command multiple times for more than one gimbal (but not all gimbals).; 2) Empty; 3) Empty; 4) Empty; 5) Empty; 6) Empty; 7) Empty; MAV_CMD_DO_SET_ROI_NONE MAV_CMD = 197 // MAV_CMD_DO_SET_ROI_SYSID enum. Mount tracks system with specified system ID. Determination of target vehicle position may be done with GLOBAL_POSITION_INT or any other means. This command can be sent to a gimbal manager but not to a gimbal device. A gimbal device is not to react to this message. Params: 1) System ID; 2) Component ID of gimbal device to address (or 1-6 for non-MAVLink gimbal), 0 for all gimbal device components. Send command multiple times for more than one gimbal (but not all gimbals).; MAV_CMD_DO_SET_ROI_SYSID MAV_CMD = 198 // MAV_CMD_DO_CONTROL_VIDEO enum. Control onboard camera system. Params: 1) Camera ID (-1 for all); 2) Transmission: 0: disabled, 1: enabled compressed, 2: enabled raw; 3) Transmission mode: 0: video stream, >0: single images every n seconds; 4) Recording: 0: disabled, 1: enabled compressed, 2: enabled raw; 5) Empty; 6) Empty; 7) Empty; MAV_CMD_DO_CONTROL_VIDEO MAV_CMD = 200 // MAV_CMD_DO_SET_ROI enum. Sets the region of interest (ROI) for a sensor set or the vehicle itself. This can then be used by the vehicle's control system to control the vehicle attitude and the attitude of various sensors such as cameras. Params: 1) Region of interest mode.; 2) Waypoint index/ target ID (depends on param 1).; 3) Region of interest index. (allows a vehicle to manage multiple ROI's); 4) Empty; 5) MAV_ROI_WPNEXT: pitch offset from next waypoint, MAV_ROI_LOCATION: latitude; 6) MAV_ROI_WPNEXT: roll offset from next waypoint, MAV_ROI_LOCATION: longitude; 7) MAV_ROI_WPNEXT: yaw offset from next waypoint, MAV_ROI_LOCATION: altitude; MAV_CMD_DO_SET_ROI MAV_CMD = 201 // MAV_CMD_DO_DIGICAM_CONFIGURE enum. Configure digital camera. This is a fallback message for systems that have not yet implemented PARAM_EXT_XXX messages and camera definition files (see https://mavlink.io/en/services/camera_def.html ). Params: 1) Modes: P, TV, AV, M, Etc.; 2) Shutter speed: Divisor number for one second.; 3) Aperture: F stop number.; 4) ISO number e.g. 80, 100, 200, Etc.; 5) Exposure type enumerator.; 6) Command Identity.; 7) Main engine cut-off time before camera trigger. (0 means no cut-off); MAV_CMD_DO_DIGICAM_CONFIGURE MAV_CMD = 202 // MAV_CMD_DO_DIGICAM_CONTROL enum. Control digital camera. This is a fallback message for systems that have not yet implemented PARAM_EXT_XXX messages and camera definition files (see https://mavlink.io/en/services/camera_def.html ). Params: 1) Session control e.g. show/hide lens; 2) Zoom's absolute position; 3) Zooming step value to offset zoom from the current position; 4) Focus Locking, Unlocking or Re-locking; 5) Shooting Command; 6) Command Identity; 7) Test shot identifier. If set to 1, image will only be captured, but not counted towards internal frame count.; MAV_CMD_DO_DIGICAM_CONTROL MAV_CMD = 203 // MAV_CMD_DO_MOUNT_CONFIGURE enum. Mission command to configure a camera or antenna mount. Params: 1) Mount operation mode; 2) stabilize roll? (1 = yes, 0 = no); 3) stabilize pitch? (1 = yes, 0 = no); 4) stabilize yaw? (1 = yes, 0 = no); 5) roll input (0 = angle body frame, 1 = angular rate, 2 = angle absolute frame); 6) pitch input (0 = angle body frame, 1 = angular rate, 2 = angle absolute frame); 7) yaw input (0 = angle body frame, 1 = angular rate, 2 = angle absolute frame); MAV_CMD_DO_MOUNT_CONFIGURE MAV_CMD = 204 // MAV_CMD_DO_MOUNT_CONTROL enum. Mission command to control a camera or antenna mount. Params: 1) pitch depending on mount mode (degrees or degrees/second depending on pitch input).; 2) roll depending on mount mode (degrees or degrees/second depending on roll input).; 3) yaw depending on mount mode (degrees or degrees/second depending on yaw input).; 4) altitude depending on mount mode.; 5) latitude, set if appropriate mount mode.; 6) longitude, set if appropriate mount mode.; 7) Mount mode.; MAV_CMD_DO_MOUNT_CONTROL MAV_CMD = 205 // MAV_CMD_DO_SET_CAM_TRIGG_DIST enum. Mission command to set camera trigger distance for this flight. The camera is triggered each time this distance is exceeded. This command can also be used to set the shutter integration time for the camera. Params: 1) Camera trigger distance. 0 to stop triggering.; 2) Camera shutter integration time. -1 or 0 to ignore; 3) Trigger camera once immediately. (0 = no trigger, 1 = trigger); 4) Empty; 5) Empty; 6) Empty; 7) Empty; MAV_CMD_DO_SET_CAM_TRIGG_DIST MAV_CMD = 206 // MAV_CMD_DO_FENCE_ENABLE enum. Mission command to enable the geofence. Params: 1) enable? (0=disable, 1=enable, 2=disable_floor_only); 2) Empty; 3) Empty; 4) Empty; 5) Empty; 6) Empty; 7) Empty; MAV_CMD_DO_FENCE_ENABLE MAV_CMD = 207 // MAV_CMD_DO_PARACHUTE enum. Mission item/command to release a parachute or enable/disable auto release. Params: 1) Action; 2) Empty; 3) Empty; 4) Empty; 5) Empty; 6) Empty; 7) Empty; MAV_CMD_DO_PARACHUTE MAV_CMD = 208 // MAV_CMD_DO_MOTOR_TEST enum. Mission command to perform motor test. Params: 1) Motor instance number. (from 1 to max number of motors on the vehicle); 2) Throttle type.; 3) Throttle.; 4) Timeout.; 5) Motor count. (number of motors to test to test in sequence, waiting for the timeout above between them; 0=1 motor, 1=1 motor, 2=2 motors...); 6) Motor test order.; 7) Empty; MAV_CMD_DO_MOTOR_TEST MAV_CMD = 209 // MAV_CMD_DO_INVERTED_FLIGHT enum. Change to/from inverted flight. Params: 1) Inverted flight. (0=normal, 1=inverted); 2) Empty; 3) Empty; 4) Empty; 5) Empty; 6) Empty; 7) Empty; MAV_CMD_DO_INVERTED_FLIGHT MAV_CMD = 210 // MAV_CMD_DO_GRIPPER enum. Mission command to operate a gripper. Params: 1) Gripper instance number.; 2) Gripper action to perform.; 3) Empty; 4) Empty; 5) Empty; 6) Empty; 7) Empty; MAV_CMD_DO_GRIPPER MAV_CMD = 211 // MAV_CMD_DO_AUTOTUNE_ENABLE enum. Enable/disable autotune. Params: 1) Enable (1: enable, 0:disable).; 2) Empty.; 3) Empty.; 4) Empty.; 5) Empty.; 6) Empty.; 7) Empty.; MAV_CMD_DO_AUTOTUNE_ENABLE MAV_CMD = 212 // MAV_CMD_NAV_SET_YAW_SPEED enum. Sets a desired vehicle turn angle and speed change. Params: 1) Yaw angle to adjust steering by.; 2) Speed.; 3) Final angle. (0=absolute, 1=relative); 4) Empty; 5) Empty; 6) Empty; 7) Empty; MAV_CMD_NAV_SET_YAW_SPEED MAV_CMD = 213 // MAV_CMD_DO_SET_CAM_TRIGG_INTERVAL enum. Mission command to set camera trigger interval for this flight. If triggering is enabled, the camera is triggered each time this interval expires. This command can also be used to set the shutter integration time for the camera. Params: 1) Camera trigger cycle time. -1 or 0 to ignore.; 2) Camera shutter integration time. Should be less than trigger cycle time. -1 or 0 to ignore.; 3) Empty; 4) Empty; 5) Empty; 6) Empty; 7) Empty; MAV_CMD_DO_SET_CAM_TRIGG_INTERVAL MAV_CMD = 214 // MAV_CMD_DO_MOUNT_CONTROL_QUAT enum. Mission command to control a camera or antenna mount, using a quaternion as reference. Params: 1) quaternion param q1, w (1 in null-rotation); 2) quaternion param q2, x (0 in null-rotation); 3) quaternion param q3, y (0 in null-rotation); 4) quaternion param q4, z (0 in null-rotation); 5) Empty; 6) Empty; 7) Empty; MAV_CMD_DO_MOUNT_CONTROL_QUAT MAV_CMD = 220 // MAV_CMD_DO_GUIDED_MASTER enum. set id of master controller. Params: 1) System ID; 2) Component ID; 3) Empty; 4) Empty; 5) Empty; 6) Empty; 7) Empty; MAV_CMD_DO_GUIDED_MASTER MAV_CMD = 221 // MAV_CMD_DO_GUIDED_LIMITS enum. Set limits for external control. Params: 1) Timeout - maximum time that external controller will be allowed to control vehicle. 0 means no timeout.; 2) Altitude (MSL) min - if vehicle moves below this alt, the command will be aborted and the mission will continue. 0 means no lower altitude limit.; 3) Altitude (MSL) max - if vehicle moves above this alt, the command will be aborted and the mission will continue. 0 means no upper altitude limit.; 4) Horizontal move limit - if vehicle moves more than this distance from its location at the moment the command was executed, the command will be aborted and the mission will continue. 0 means no horizontal move limit.; 5) Empty; 6) Empty; 7) Empty; MAV_CMD_DO_GUIDED_LIMITS MAV_CMD = 222 // MAV_CMD_DO_ENGINE_CONTROL enum. Control vehicle engine. This is interpreted by the vehicles engine controller to change the target engine state. It is intended for vehicles with internal combustion engines. Params: 1) 0: Stop engine, 1:Start Engine; 2) 0: Warm start, 1:Cold start. Controls use of choke where applicable; 3) Height delay. This is for commanding engine start only after the vehicle has gained the specified height. Used in VTOL vehicles during takeoff to start engine after the aircraft is off the ground. Zero for no delay.; 4) Empty; 5) Empty; 5) Empty; 6) Empty; 7) Empty; MAV_CMD_DO_ENGINE_CONTROL MAV_CMD = 223 // MAV_CMD_DO_SET_MISSION_CURRENT enum. Set the mission item with sequence number seq as current item. This means that the MAV will continue to this mission item on the shortest path (not following the mission items in-between). Params: 1) Mission sequence value to set; 2) Empty; 3) Empty; 4) Empty; 5) Empty; 5) Empty; 6) Empty; 7) Empty; MAV_CMD_DO_SET_MISSION_CURRENT MAV_CMD = 224 // MAV_CMD_DO_LAST enum. NOP - This command is only used to mark the upper limit of the DO commands in the enumeration. Params: 1) Empty; 2) Empty; 3) Empty; 4) Empty; 5) Empty; 6) Empty; 7) Empty; MAV_CMD_DO_LAST MAV_CMD = 240 // MAV_CMD_PREFLIGHT_CALIBRATION enum. Trigger calibration. This command will be only accepted if in pre-flight mode. Except for Temperature Calibration, only one sensor should be set in a single message and all others should be zero. Params: 1) 1: gyro calibration, 3: gyro temperature calibration; 2) 1: magnetometer calibration; 3) 1: ground pressure calibration; 4) 1: radio RC calibration, 2: RC trim calibration; 5) 1: accelerometer calibration, 2: board level calibration, 3: accelerometer temperature calibration, 4: simple accelerometer calibration; 6) 1: APM: compass/motor interference calibration (PX4: airspeed calibration, deprecated), 2: airspeed calibration; 7) 1: ESC calibration, 3: barometer temperature calibration; MAV_CMD_PREFLIGHT_CALIBRATION MAV_CMD = 241 // MAV_CMD_PREFLIGHT_SET_SENSOR_OFFSETS enum. Set sensor offsets. This command will be only accepted if in pre-flight mode. Params: 1) Sensor to adjust the offsets for: 0: gyros, 1: accelerometer, 2: magnetometer, 3: barometer, 4: optical flow, 5: second magnetometer, 6: third magnetometer; 2) X axis offset (or generic dimension 1), in the sensor's raw units; 3) Y axis offset (or generic dimension 2), in the sensor's raw units; 4) Z axis offset (or generic dimension 3), in the sensor's raw units; 5) Generic dimension 4, in the sensor's raw units; 6) Generic dimension 5, in the sensor's raw units; 7) Generic dimension 6, in the sensor's raw units; MAV_CMD_PREFLIGHT_SET_SENSOR_OFFSETS MAV_CMD = 242 // MAV_CMD_PREFLIGHT_UAVCAN enum. Trigger UAVCAN configuration (actuator ID assignment and direction mapping). Note that this maps to the legacy UAVCAN v0 function UAVCAN_ENUMERATE, which is intended to be executed just once during initial vehicle configuration (it is not a normal pre-flight command and has been poorly named). Params: 1) 1: Trigger actuator ID assignment and direction mapping. 0: Cancel command.; 2) Reserved; 3) Reserved; 4) Reserved; 5) Reserved; 6) Reserved; 7) Reserved; MAV_CMD_PREFLIGHT_UAVCAN MAV_CMD = 243 // MAV_CMD_PREFLIGHT_STORAGE enum. Request storage of different parameter values and logs. This command will be only accepted if in pre-flight mode. Params: 1) Parameter storage: 0: READ FROM FLASH/EEPROM, 1: WRITE CURRENT TO FLASH/EEPROM, 2: Reset to defaults; 2) Mission storage: 0: READ FROM FLASH/EEPROM, 1: WRITE CURRENT TO FLASH/EEPROM, 2: Reset to defaults; 3) Onboard logging: 0: Ignore, 1: Start default rate logging, -1: Stop logging, > 1: logging rate (e.g. set to 1000 for 1000 Hz logging); 4) Reserved; 5) Empty; 6) Empty; 7) Empty; MAV_CMD_PREFLIGHT_STORAGE MAV_CMD = 245 // MAV_CMD_PREFLIGHT_REBOOT_SHUTDOWN enum. Request the reboot or shutdown of system components. Params: 1) 0: Do nothing for autopilot, 1: Reboot autopilot, 2: Shutdown autopilot, 3: Reboot autopilot and keep it in the bootloader until upgraded.; 2) 0: Do nothing for onboard computer, 1: Reboot onboard computer, 2: Shutdown onboard computer, 3: Reboot onboard computer and keep it in the bootloader until upgraded.; 3) WIP: 0: Do nothing for camera, 1: Reboot onboard camera, 2: Shutdown onboard camera, 3: Reboot onboard camera and keep it in the bootloader until upgraded; 4) WIP: 0: Do nothing for mount (e.g. gimbal), 1: Reboot mount, 2: Shutdown mount, 3: Reboot mount and keep it in the bootloader until upgraded; 5) Reserved (set to 0); 6) Reserved (set to 0); 7) WIP: ID (e.g. camera ID -1 for all IDs); MAV_CMD_PREFLIGHT_REBOOT_SHUTDOWN MAV_CMD = 246 // MAV_CMD_DO_UPGRADE enum. Request a target system to start an upgrade of one (or all) of its components. For example, the command might be sent to a companion computer to cause it to upgrade a connected flight controller. The system doing the upgrade will report progress using the normal command protocol sequence for a long running operation. Command protocol information: https://mavlink.io/en/services/command.html. Params: 1) Component id of the component to be upgraded. If set to 0, all components should be upgraded.; 2) 0: Do not reboot component after the action is executed, 1: Reboot component after the action is executed.; 3) Reserved; 4) Reserved; 5) Reserved; 6) Reserved; 7) WIP: upgrade progress report rate (can be used for more granular control).; MAV_CMD_DO_UPGRADE MAV_CMD = 247 // MAV_CMD_OVERRIDE_GOTO enum. Override current mission with command to pause mission, pause mission and move to position, continue/resume mission. When param 1 indicates that the mission is paused (MAV_GOTO_DO_HOLD), param 2 defines whether it holds in place or moves to another position. Params: 1) MAV_GOTO_DO_HOLD: pause mission and either hold or move to specified position (depending on param2), MAV_GOTO_DO_CONTINUE: resume mission.; 2) MAV_GOTO_HOLD_AT_CURRENT_POSITION: hold at current position, MAV_GOTO_HOLD_AT_SPECIFIED_POSITION: hold at specified position.; 3) Coordinate frame of hold point.; 4) Desired yaw angle.; 5) Latitude/X position.; 6) Longitude/Y position.; 7) Altitude/Z position.; MAV_CMD_OVERRIDE_GOTO MAV_CMD = 252 // MAV_CMD_OBLIQUE_SURVEY enum. Mission command to set a Camera Auto Mount Pivoting Oblique Survey (Replaces CAM_TRIGG_DIST for this purpose). The camera is triggered each time this distance is exceeded, then the mount moves to the next position. Params 4~6 set-up the angle limits and number of positions for oblique survey, where mount-enabled vehicles automatically roll the camera between shots to emulate an oblique camera setup (providing an increased HFOV). This command can also be used to set the shutter integration time for the camera. Params: 1) Camera trigger distance. 0 to stop triggering.; 2) Camera shutter integration time. 0 to ignore; 3) The minimum interval in which the camera is capable of taking subsequent pictures repeatedly. 0 to ignore.; 4) Total number of roll positions at which the camera will capture photos (images captures spread evenly across the limits defined by param5).; 5) Angle limits that the camera can be rolled to left and right of center.; 6) Fixed pitch angle that the camera will hold in oblique mode if the mount is actuated in the pitch axis.; 7) Empty; MAV_CMD_OBLIQUE_SURVEY MAV_CMD = 260 // MAV_CMD_MISSION_START enum. start running a mission. Params: 1) first_item: the first mission item to run; 2) last_item: the last mission item to run (after this item is run, the mission ends); MAV_CMD_MISSION_START MAV_CMD = 300 // MAV_CMD_COMPONENT_ARM_DISARM enum. Arms / Disarms a component. Params: 1) 0: disarm, 1: arm; 2) 0: arm-disarm unless prevented by safety checks (i.e. when landed), 21196: force arming/disarming (e.g. allow arming to override preflight checks and disarming in flight); MAV_CMD_COMPONENT_ARM_DISARM MAV_CMD = 400 // MAV_CMD_ILLUMINATOR_ON_OFF enum. Turns illuminators ON/OFF. An illuminator is a light source that is used for lighting up dark areas external to the sytstem: e.g. a torch or searchlight (as opposed to a light source for illuminating the system itself, e.g. an indicator light). Params: 1) 0: Illuminators OFF, 1: Illuminators ON; MAV_CMD_ILLUMINATOR_ON_OFF MAV_CMD = 405 // MAV_CMD_GET_HOME_POSITION enum. Request the home position from the vehicle. Params: 1) Reserved; 2) Reserved; 3) Reserved; 4) Reserved; 5) Reserved; 6) Reserved; 7) Reserved; MAV_CMD_GET_HOME_POSITION MAV_CMD = 410 // MAV_CMD_INJECT_FAILURE enum. Inject artificial failure for testing purposes. Note that autopilots should implement an additional protection before accepting this command such as a specific param setting. Params: 1) The unit which is affected by the failure.; 2) The type how the failure manifests itself.; 3) Instance affected by failure (0 to signal all).; MAV_CMD_INJECT_FAILURE MAV_CMD = 420 // MAV_CMD_START_RX_PAIR enum. Starts receiver pairing. Params: 1) 0:Spektrum.; 2) RC type.; MAV_CMD_START_RX_PAIR MAV_CMD = 500 // MAV_CMD_GET_MESSAGE_INTERVAL enum. Request the interval between messages for a particular MAVLink message ID. The receiver should ACK the command and then emit its response in a MESSAGE_INTERVAL message. Params: 1) The MAVLink message ID; MAV_CMD_GET_MESSAGE_INTERVAL MAV_CMD = 510 // MAV_CMD_SET_MESSAGE_INTERVAL enum. Set the interval between messages for a particular MAVLink message ID. This interface replaces REQUEST_DATA_STREAM. Params: 1) The MAVLink message ID; 2) The interval between two messages. Set to -1 to disable and 0 to request default rate.; 7) Target address of message stream (if message has target address fields). 0: Flight-stack default (recommended), 1: address of requestor, 2: broadcast.; MAV_CMD_SET_MESSAGE_INTERVAL MAV_CMD = 511 // MAV_CMD_REQUEST_MESSAGE enum. Request the target system(s) emit a single instance of a specified message (i.e. a "one-shot" version of MAV_CMD_SET_MESSAGE_INTERVAL). Params: 1) The MAVLink message ID of the requested message.; 2) Use for index ID, if required. Otherwise, the use of this parameter (if any) must be defined in the requested message. By default assumed not used (0).; 3) The use of this parameter (if any), must be defined in the requested message. By default assumed not used (0).; 4) The use of this parameter (if any), must be defined in the requested message. By default assumed not used (0).; 5) The use of this parameter (if any), must be defined in the requested message. By default assumed not used (0).; 6) The use of this parameter (if any), must be defined in the requested message. By default assumed not used (0).; 7) Target address for requested message (if message has target address fields). 0: Flight-stack default, 1: address of requestor, 2: broadcast.; MAV_CMD_REQUEST_MESSAGE MAV_CMD = 512 // MAV_CMD_REQUEST_PROTOCOL_VERSION enum. Request MAVLink protocol version compatibility. All receivers should ACK the command and then emit their capabilities in an PROTOCOL_VERSION message. Params: 1) 1: Request supported protocol versions by all nodes on the network; 2) Reserved (all remaining params); MAV_CMD_REQUEST_PROTOCOL_VERSION MAV_CMD = 519 // MAV_CMD_REQUEST_AUTOPILOT_CAPABILITIES enum. Request autopilot capabilities. The receiver should ACK the command and then emit its capabilities in an AUTOPILOT_VERSION message. Params: 1) 1: Request autopilot version; 2) Reserved (all remaining params); MAV_CMD_REQUEST_AUTOPILOT_CAPABILITIES MAV_CMD = 520 // MAV_CMD_REQUEST_CAMERA_INFORMATION enum. Request camera information (CAMERA_INFORMATION). Params: 1) 0: No action 1: Request camera capabilities; 2) Reserved (all remaining params); MAV_CMD_REQUEST_CAMERA_INFORMATION MAV_CMD = 521 // MAV_CMD_REQUEST_CAMERA_SETTINGS enum. Request camera settings (CAMERA_SETTINGS). Params: 1) 0: No Action 1: Request camera settings; 2) Reserved (all remaining params); MAV_CMD_REQUEST_CAMERA_SETTINGS MAV_CMD = 522 // MAV_CMD_REQUEST_STORAGE_INFORMATION enum. Request storage information (STORAGE_INFORMATION). Use the command's target_component to target a specific component's storage. Params: 1) Storage ID (0 for all, 1 for first, 2 for second, etc.); 2) 0: No Action 1: Request storage information; 3) Reserved (all remaining params); MAV_CMD_REQUEST_STORAGE_INFORMATION MAV_CMD = 525 // MAV_CMD_STORAGE_FORMAT enum. Format a storage medium. Once format is complete, a STORAGE_INFORMATION message is sent. Use the command's target_component to target a specific component's storage. Params: 1) Storage ID (1 for first, 2 for second, etc.); 2) Format storage (and reset image log). 0: No action 1: Format storage; 3) Reset Image Log (without formatting storage medium). This will reset CAMERA_CAPTURE_STATUS.image_count and CAMERA_IMAGE_CAPTURED.image_index. 0: No action 1: Reset Image Log; 4) Reserved (all remaining params); MAV_CMD_STORAGE_FORMAT MAV_CMD = 526 // MAV_CMD_REQUEST_CAMERA_CAPTURE_STATUS enum. Request camera capture status (CAMERA_CAPTURE_STATUS). Params: 1) 0: No Action 1: Request camera capture status; 2) Reserved (all remaining params); MAV_CMD_REQUEST_CAMERA_CAPTURE_STATUS MAV_CMD = 527 // MAV_CMD_REQUEST_FLIGHT_INFORMATION enum. Request flight information (FLIGHT_INFORMATION). Params: 1) 1: Request flight information; 2) Reserved (all remaining params); MAV_CMD_REQUEST_FLIGHT_INFORMATION MAV_CMD = 528 // MAV_CMD_RESET_CAMERA_SETTINGS enum. Reset all camera settings to Factory Default. Params: 1) 0: No Action 1: Reset all settings; 2) Reserved (all remaining params); MAV_CMD_RESET_CAMERA_SETTINGS MAV_CMD = 529 // MAV_CMD_SET_CAMERA_MODE enum. Set camera running mode. Use NaN for reserved values. GCS will send a MAV_CMD_REQUEST_VIDEO_STREAM_STATUS command after a mode change if the camera supports video streaming. Params: 1) Reserved (Set to 0); 2) Camera mode; 3) ; 4) ; 7) ; MAV_CMD_SET_CAMERA_MODE MAV_CMD = 530 // MAV_CMD_SET_CAMERA_ZOOM enum. Set camera zoom. Camera must respond with a CAMERA_SETTINGS message (on success). Params: 1) Zoom type; 2) Zoom value. The range of valid values depend on the zoom type.; 3) ; 4) ; 7) ; MAV_CMD_SET_CAMERA_ZOOM MAV_CMD = 531 // MAV_CMD_SET_CAMERA_FOCUS enum. Set camera focus. Camera must respond with a CAMERA_SETTINGS message (on success). Params: 1) Focus type; 2) Focus value; 3) ; 4) ; 7) ; MAV_CMD_SET_CAMERA_FOCUS MAV_CMD = 532 // MAV_CMD_JUMP_TAG enum. Tagged jump target. Can be jumped to with MAV_CMD_DO_JUMP_TAG. Params: 1) Tag.; MAV_CMD_JUMP_TAG MAV_CMD = 600 // MAV_CMD_DO_JUMP_TAG enum. Jump to the matching tag in the mission list. Repeat this action for the specified number of times. A mission should contain a single matching tag for each jump. If this is not the case then a jump to a missing tag should complete the mission, and a jump where there are multiple matching tags should always select the one with the lowest mission sequence number. Params: 1) Target tag to jump to.; 2) Repeat count.; MAV_CMD_DO_JUMP_TAG MAV_CMD = 601 // MAV_CMD_PARAM_TRANSACTION enum. Request to start or end a parameter transaction. Multiple kinds of transport layers can be used to exchange parameters in the transaction (param, param_ext and mavftp). The command response can either be a success/failure or an in progress in case the receiving side takes some time to apply the parameters. Params: 1) Action to be performed (start, commit, cancel, etc.); 2) Possible transport layers to set and get parameters via mavlink during a parameter transaction.; 3) Identifier for a specific transaction.; MAV_CMD_PARAM_TRANSACTION MAV_CMD = 900 // MAV_CMD_DO_GIMBAL_MANAGER_PITCHYAW enum. High level setpoint to be sent to a gimbal manager to set a gimbal attitude. It is possible to set combinations of the values below. E.g. an angle as well as a desired angular rate can be used to get to this angle at a certain angular rate, or an angular rate only will result in continuous turning. NaN is to be used to signal unset. Note: a gimbal is never to react to this command but only the gimbal manager. Params: 1) Pitch angle (positive to pitch up, relative to vehicle for FOLLOW mode, relative to world horizon for LOCK mode).; 2) Yaw angle (positive to yaw to the right, relative to vehicle for FOLLOW mode, absolute to North for LOCK mode).; 3) Pitch rate (positive to pitch up).; 4) Yaw rate (positive to yaw to the right).; 5) Gimbal manager flags to use.; 7) Component ID of gimbal device to address (or 1-6 for non-MAVLink gimbal), 0 for all gimbal device components. Send command multiple times for more than one gimbal (but not all gimbals).; MAV_CMD_DO_GIMBAL_MANAGER_PITCHYAW MAV_CMD = 1000 // MAV_CMD_DO_GIMBAL_MANAGER_CONFIGURE enum. Gimbal configuration to set which sysid/compid is in primary and secondary control. Params: 1) Sysid for primary control (0: no one in control, -1: leave unchanged, -2: set itself in control (for missions where the own sysid is still unknown), -3: remove control if currently in control).; 2) Compid for primary control (0: no one in control, -1: leave unchanged, -2: set itself in control (for missions where the own sysid is still unknown), -3: remove control if currently in control).; 3) Sysid for secondary control (0: no one in control, -1: leave unchanged, -2: set itself in control (for missions where the own sysid is still unknown), -3: remove control if currently in control).; 4) Compid for secondary control (0: no one in control, -1: leave unchanged, -2: set itself in control (for missions where the own sysid is still unknown), -3: remove control if currently in control).; 7) Component ID of gimbal device to address (or 1-6 for non-MAVLink gimbal), 0 for all gimbal device components. Send command multiple times for more than one gimbal (but not all gimbals).; MAV_CMD_DO_GIMBAL_MANAGER_CONFIGURE MAV_CMD = 1001 // MAV_CMD_IMAGE_START_CAPTURE enum. Start image capture sequence. Sends CAMERA_IMAGE_CAPTURED after each capture. Use NaN for reserved values. Params: 1) Reserved (Set to 0); 2) Desired elapsed time between two consecutive pictures (in seconds). Minimum values depend on hardware (typically greater than 2 seconds).; 3) Total number of images to capture. 0 to capture forever/until MAV_CMD_IMAGE_STOP_CAPTURE.; 4) Capture sequence number starting from 1. This is only valid for single-capture (param3 == 1), otherwise set to 0. Increment the capture ID for each capture command to prevent double captures when a command is re-transmitted.; 5) ; 6) ; 7) ; MAV_CMD_IMAGE_START_CAPTURE MAV_CMD = 2000 // MAV_CMD_IMAGE_STOP_CAPTURE enum. Stop image capture sequence Use NaN for reserved values. Params: 1) Reserved (Set to 0); 2) ; 3) ; 4) ; 7) ; MAV_CMD_IMAGE_STOP_CAPTURE MAV_CMD = 2001 // MAV_CMD_REQUEST_CAMERA_IMAGE_CAPTURE enum. Re-request a CAMERA_IMAGE_CAPTURED message. Params: 1) Sequence number for missing CAMERA_IMAGE_CAPTURED message; 2) ; 3) ; 4) ; 7) ; MAV_CMD_REQUEST_CAMERA_IMAGE_CAPTURE MAV_CMD = 2002 // MAV_CMD_DO_TRIGGER_CONTROL enum. Enable or disable on-board camera triggering system. Params: 1) Trigger enable/disable (0 for disable, 1 for start), -1 to ignore; 2) 1 to reset the trigger sequence, -1 or 0 to ignore; 3) 1 to pause triggering, but without switching the camera off or retracting it. -1 to ignore; MAV_CMD_DO_TRIGGER_CONTROL MAV_CMD = 2003 // MAV_CMD_CAMERA_TRACK_POINT enum. If the camera supports point visual tracking (CAMERA_CAP_FLAGS_HAS_TRACKING_POINT is set), this command allows to initiate the tracking. Params: 1) Point to track x value (normalized 0..1, 0 is left, 1 is right).; 2) Point to track y value (normalized 0..1, 0 is top, 1 is bottom).; 3) Point radius (normalized 0..1, 0 is image left, 1 is image right).; MAV_CMD_CAMERA_TRACK_POINT MAV_CMD = 2004 // MAV_CMD_CAMERA_TRACK_RECTANGLE enum. If the camera supports rectangle visual tracking (CAMERA_CAP_FLAGS_HAS_TRACKING_RECTANGLE is set), this command allows to initiate the tracking. Params: 1) Top left corner of rectangle x value (normalized 0..1, 0 is left, 1 is right).; 2) Top left corner of rectangle y value (normalized 0..1, 0 is top, 1 is bottom).; 3) Bottom right corner of rectangle x value (normalized 0..1, 0 is left, 1 is right).; 4) Bottom right corner of rectangle y value (normalized 0..1, 0 is top, 1 is bottom).; MAV_CMD_CAMERA_TRACK_RECTANGLE MAV_CMD = 2005 // MAV_CMD_CAMERA_STOP_TRACKING enum. Stops ongoing tracking MAV_CMD_CAMERA_STOP_TRACKING MAV_CMD = 2010 // MAV_CMD_VIDEO_START_CAPTURE enum. Starts video capture (recording). Params: 1) Video Stream ID (0 for all streams); 2) Frequency CAMERA_CAPTURE_STATUS messages should be sent while recording (0 for no messages, otherwise frequency); 3) ; 4) ; 5) ; 6) ; 7) ; MAV_CMD_VIDEO_START_CAPTURE MAV_CMD = 2500 // MAV_CMD_VIDEO_STOP_CAPTURE enum. Stop the current video capture (recording). Params: 1) Video Stream ID (0 for all streams); 2) ; 3) ; 4) ; 5) ; 6) ; 7) ; MAV_CMD_VIDEO_STOP_CAPTURE MAV_CMD = 2501 // MAV_CMD_VIDEO_START_STREAMING enum. Start video streaming. Params: 1) Video Stream ID (0 for all streams, 1 for first, 2 for second, etc.); MAV_CMD_VIDEO_START_STREAMING MAV_CMD = 2502 // MAV_CMD_VIDEO_STOP_STREAMING enum. Stop the given video stream. Params: 1) Video Stream ID (0 for all streams, 1 for first, 2 for second, etc.); MAV_CMD_VIDEO_STOP_STREAMING MAV_CMD = 2503 // MAV_CMD_REQUEST_VIDEO_STREAM_INFORMATION enum. Request video stream information (VIDEO_STREAM_INFORMATION). Params: 1) Video Stream ID (0 for all streams, 1 for first, 2 for second, etc.); MAV_CMD_REQUEST_VIDEO_STREAM_INFORMATION MAV_CMD = 2504 // MAV_CMD_REQUEST_VIDEO_STREAM_STATUS enum. Request video stream status (VIDEO_STREAM_STATUS). Params: 1) Video Stream ID (0 for all streams, 1 for first, 2 for second, etc.); MAV_CMD_REQUEST_VIDEO_STREAM_STATUS MAV_CMD = 2505 // MAV_CMD_LOGGING_START enum. Request to start streaming logging data over MAVLink (see also LOGGING_DATA message). Params: 1) Format: 0: ULog; 2) Reserved (set to 0); 3) Reserved (set to 0); 4) Reserved (set to 0); 5) Reserved (set to 0); 6) Reserved (set to 0); 7) Reserved (set to 0); MAV_CMD_LOGGING_START MAV_CMD = 2510 // MAV_CMD_LOGGING_STOP enum. Request to stop streaming log data over MAVLink. Params: 1) Reserved (set to 0); 2) Reserved (set to 0); 3) Reserved (set to 0); 4) Reserved (set to 0); 5) Reserved (set to 0); 6) Reserved (set to 0); 7) Reserved (set to 0); MAV_CMD_LOGGING_STOP MAV_CMD = 2511 // MAV_CMD_AIRFRAME_CONFIGURATION enum. Params: 1) Landing gear ID (default: 0, -1 for all); 2) Landing gear position (Down: 0, Up: 1, NaN for no change); 3) ; 4) ; 5) ; 6) ; 7) ; MAV_CMD_AIRFRAME_CONFIGURATION MAV_CMD = 2520 // MAV_CMD_CONTROL_HIGH_LATENCY enum. Request to start/stop transmitting over the high latency telemetry. Params: 1) Control transmission over high latency telemetry (0: stop, 1: start); 2) Empty; 3) Empty; 4) Empty; 5) Empty; 6) Empty; 7) Empty; MAV_CMD_CONTROL_HIGH_LATENCY MAV_CMD = 2600 // MAV_CMD_PANORAMA_CREATE enum. Create a panorama at the current position. Params: 1) Viewing angle horizontal of the panorama (+- 0.5 the total angle); 2) Viewing angle vertical of panorama.; 3) Speed of the horizontal rotation.; 4) Speed of the vertical rotation.; MAV_CMD_PANORAMA_CREATE MAV_CMD = 2800 // MAV_CMD_DO_VTOL_TRANSITION enum. Request VTOL transition. Params: 1) The target VTOL state. Only MAV_VTOL_STATE_MC and MAV_VTOL_STATE_FW can be used.; MAV_CMD_DO_VTOL_TRANSITION MAV_CMD = 3000 // MAV_CMD_ARM_AUTHORIZATION_REQUEST enum. Request authorization to arm the vehicle to a external entity, the arm authorizer is responsible to request all data that is needs from the vehicle before authorize or deny the request. If approved the progress of command_ack message should be set with period of time that this authorization is valid in seconds or in case it was denied it should be set with one of the reasons in ARM_AUTH_DENIED_REASON. Params: 1) Vehicle system id, this way ground station can request arm authorization on behalf of any vehicle; MAV_CMD_ARM_AUTHORIZATION_REQUEST MAV_CMD = 3001 // MAV_CMD_SET_GUIDED_SUBMODE_STANDARD enum. This command sets the submode to standard guided when vehicle is in guided mode. The vehicle holds position and altitude and the user can input the desired velocities along all three axes MAV_CMD_SET_GUIDED_SUBMODE_STANDARD MAV_CMD = 4000 // MAV_CMD_SET_GUIDED_SUBMODE_CIRCLE enum. This command sets submode circle when vehicle is in guided mode. Vehicle flies along a circle facing the center of the circle. The user can input the velocity along the circle and change the radius. If no input is given the vehicle will hold position. Params: 1) Radius of desired circle in CIRCLE_MODE; 2) User defined; 3) User defined; 4) User defined; 5) Target latitude of center of circle in CIRCLE_MODE; 6) Target longitude of center of circle in CIRCLE_MODE; MAV_CMD_SET_GUIDED_SUBMODE_CIRCLE MAV_CMD = 4001 // MAV_CMD_CONDITION_GATE enum. Delay mission state machine until gate has been reached. Params: 1) Geometry: 0: orthogonal to path between previous and next waypoint.; 2) Altitude: 0: ignore altitude; 3) Empty; 4) Empty; 5) Latitude; 6) Longitude; 7) Altitude; MAV_CMD_CONDITION_GATE MAV_CMD = 4501 // MAV_CMD_NAV_FENCE_RETURN_POINT enum. Fence return point (there can only be one such point in a geofence definition). If rally points are supported they should be used instead. Params: 1) Reserved; 2) Reserved; 3) Reserved; 4) Reserved; 5) Latitude; 6) Longitude; 7) Altitude; MAV_CMD_NAV_FENCE_RETURN_POINT MAV_CMD = 5000 // MAV_CMD_NAV_FENCE_POLYGON_VERTEX_INCLUSION enum. Fence vertex for an inclusion polygon (the polygon must not be self-intersecting). The vehicle must stay within this area. Minimum of 3 vertices required. Params: 1) Polygon vertex count; 2) Vehicle must be inside ALL inclusion zones in a single group, vehicle must be inside at least one group, must be the same for all points in each polygon; 3) Reserved; 4) Reserved; 5) Latitude; 6) Longitude; 7) Reserved; MAV_CMD_NAV_FENCE_POLYGON_VERTEX_INCLUSION MAV_CMD = 5001 // MAV_CMD_NAV_FENCE_POLYGON_VERTEX_EXCLUSION enum. Fence vertex for an exclusion polygon (the polygon must not be self-intersecting). The vehicle must stay outside this area. Minimum of 3 vertices required. Params: 1) Polygon vertex count; 2) Reserved; 3) Reserved; 4) Reserved; 5) Latitude; 6) Longitude; 7) Reserved; MAV_CMD_NAV_FENCE_POLYGON_VERTEX_EXCLUSION MAV_CMD = 5002 // MAV_CMD_NAV_FENCE_CIRCLE_INCLUSION enum. Circular fence area. The vehicle must stay inside this area. Params: 1) Radius.; 2) Vehicle must be inside ALL inclusion zones in a single group, vehicle must be inside at least one group; 3) Reserved; 4) Reserved; 5) Latitude; 6) Longitude; 7) Reserved; MAV_CMD_NAV_FENCE_CIRCLE_INCLUSION MAV_CMD = 5003 // MAV_CMD_NAV_FENCE_CIRCLE_EXCLUSION enum. Circular fence area. The vehicle must stay outside this area. Params: 1) Radius.; 2) Reserved; 3) Reserved; 4) Reserved; 5) Latitude; 6) Longitude; 7) Reserved; MAV_CMD_NAV_FENCE_CIRCLE_EXCLUSION MAV_CMD = 5004 // MAV_CMD_NAV_RALLY_POINT enum. Rally point. You can have multiple rally points defined. Params: 1) Reserved; 2) Reserved; 3) Reserved; 4) Reserved; 5) Latitude; 6) Longitude; 7) Altitude; MAV_CMD_NAV_RALLY_POINT MAV_CMD = 5100 // MAV_CMD_UAVCAN_GET_NODE_INFO enum. Commands the vehicle to respond with a sequence of messages UAVCAN_NODE_INFO, one message per every UAVCAN node that is online. Note that some of the response messages can be lost, which the receiver can detect easily by checking whether every received UAVCAN_NODE_STATUS has a matching message UAVCAN_NODE_INFO received earlier; if not, this command should be sent again in order to request re-transmission of the node information messages. Params: 1) Reserved (set to 0); 2) Reserved (set to 0); 3) Reserved (set to 0); 4) Reserved (set to 0); 5) Reserved (set to 0); 6) Reserved (set to 0); 7) Reserved (set to 0); MAV_CMD_UAVCAN_GET_NODE_INFO MAV_CMD = 5200 // MAV_CMD_PAYLOAD_PREPARE_DEPLOY enum. Deploy payload on a Lat / Lon / Alt position. This includes the navigation to reach the required release position and velocity. Params: 1) Operation mode. 0: prepare single payload deploy (overwriting previous requests), but do not execute it. 1: execute payload deploy immediately (rejecting further deploy commands during execution, but allowing abort). 2: add payload deploy to existing deployment list.; 2) Desired approach vector in compass heading. A negative value indicates the system can define the approach vector at will.; 3) Desired ground speed at release time. This can be overridden by the airframe in case it needs to meet minimum airspeed. A negative value indicates the system can define the ground speed at will.; 4) Minimum altitude clearance to the release position. A negative value indicates the system can define the clearance at will.; 5) Latitude. Note, if used in MISSION_ITEM (deprecated) the units are degrees (unscaled); 6) Longitude. Note, if used in MISSION_ITEM (deprecated) the units are degrees (unscaled); 7) Altitude (MSL); MAV_CMD_PAYLOAD_PREPARE_DEPLOY MAV_CMD = 30001 // MAV_CMD_PAYLOAD_CONTROL_DEPLOY enum. Control the payload deployment. Params: 1) Operation mode. 0: Abort deployment, continue normal mission. 1: switch to payload deployment mode. 100: delete first payload deployment request. 101: delete all payload deployment requests.; 2) Reserved; 3) Reserved; 4) Reserved; 5) Reserved; 6) Reserved; 7) Reserved; MAV_CMD_PAYLOAD_CONTROL_DEPLOY MAV_CMD = 30002 // MAV_CMD_FIXED_MAG_CAL_YAW enum. Magnetometer calibration based on provided known yaw. This allows for fast calibration using WMM field tables in the vehicle, given only the known yaw of the vehicle. If Latitude and longitude are both zero then use the current vehicle location. Params: 1) Yaw of vehicle in earth frame.; 2) CompassMask, 0 for all.; 3) Latitude.; 4) Longitude.; 5) Empty.; 6) Empty.; 7) Empty.; MAV_CMD_FIXED_MAG_CAL_YAW MAV_CMD = 42006 // MAV_CMD_DO_WINCH enum. Command to operate winch. Params: 1) Winch instance number.; 2) Action to perform.; 3) Length of cable to release (negative to wind).; 4) Release rate (negative to wind).; 5) Empty.; 6) Empty.; 7) Empty.; MAV_CMD_DO_WINCH MAV_CMD = 42600 // MAV_CMD_WAYPOINT_USER_1 enum. User defined waypoint item. Ground Station will show the Vehicle as flying through this item. Params: 1) User defined; 2) User defined; 3) User defined; 4) User defined; 5) Latitude unscaled; 6) Longitude unscaled; 7) Altitude (MSL); MAV_CMD_WAYPOINT_USER_1 MAV_CMD = 31000 // MAV_CMD_WAYPOINT_USER_2 enum. User defined waypoint item. Ground Station will show the Vehicle as flying through this item. Params: 1) User defined; 2) User defined; 3) User defined; 4) User defined; 5) Latitude unscaled; 6) Longitude unscaled; 7) Altitude (MSL); MAV_CMD_WAYPOINT_USER_2 MAV_CMD = 31001 // MAV_CMD_WAYPOINT_USER_3 enum. User defined waypoint item. Ground Station will show the Vehicle as flying through this item. Params: 1) User defined; 2) User defined; 3) User defined; 4) User defined; 5) Latitude unscaled; 6) Longitude unscaled; 7) Altitude (MSL); MAV_CMD_WAYPOINT_USER_3 MAV_CMD = 31002 // MAV_CMD_WAYPOINT_USER_4 enum. User defined waypoint item. Ground Station will show the Vehicle as flying through this item. Params: 1) User defined; 2) User defined; 3) User defined; 4) User defined; 5) Latitude unscaled; 6) Longitude unscaled; 7) Altitude (MSL); MAV_CMD_WAYPOINT_USER_4 MAV_CMD = 31003 // MAV_CMD_WAYPOINT_USER_5 enum. User defined waypoint item. Ground Station will show the Vehicle as flying through this item. Params: 1) User defined; 2) User defined; 3) User defined; 4) User defined; 5) Latitude unscaled; 6) Longitude unscaled; 7) Altitude (MSL); MAV_CMD_WAYPOINT_USER_5 MAV_CMD = 31004 // MAV_CMD_SPATIAL_USER_1 enum. User defined spatial item. Ground Station will not show the Vehicle as flying through this item. Example: ROI item. Params: 1) User defined; 2) User defined; 3) User defined; 4) User defined; 5) Latitude unscaled; 6) Longitude unscaled; 7) Altitude (MSL); MAV_CMD_SPATIAL_USER_1 MAV_CMD = 31005 // MAV_CMD_SPATIAL_USER_2 enum. User defined spatial item. Ground Station will not show the Vehicle as flying through this item. Example: ROI item. Params: 1) User defined; 2) User defined; 3) User defined; 4) User defined; 5) Latitude unscaled; 6) Longitude unscaled; 7) Altitude (MSL); MAV_CMD_SPATIAL_USER_2 MAV_CMD = 31006 // MAV_CMD_SPATIAL_USER_3 enum. User defined spatial item. Ground Station will not show the Vehicle as flying through this item. Example: ROI item. Params: 1) User defined; 2) User defined; 3) User defined; 4) User defined; 5) Latitude unscaled; 6) Longitude unscaled; 7) Altitude (MSL); MAV_CMD_SPATIAL_USER_3 MAV_CMD = 31007 // MAV_CMD_SPATIAL_USER_4 enum. User defined spatial item. Ground Station will not show the Vehicle as flying through this item. Example: ROI item. Params: 1) User defined; 2) User defined; 3) User defined; 4) User defined; 5) Latitude unscaled; 6) Longitude unscaled; 7) Altitude (MSL); MAV_CMD_SPATIAL_USER_4 MAV_CMD = 31008 // MAV_CMD_SPATIAL_USER_5 enum. User defined spatial item. Ground Station will not show the Vehicle as flying through this item. Example: ROI item. Params: 1) User defined; 2) User defined; 3) User defined; 4) User defined; 5) Latitude unscaled; 6) Longitude unscaled; 7) Altitude (MSL); MAV_CMD_SPATIAL_USER_5 MAV_CMD = 31009 // MAV_CMD_USER_1 enum. User defined command. Ground Station will not show the Vehicle as flying through this item. Example: MAV_CMD_DO_SET_PARAMETER item. Params: 1) User defined; 2) User defined; 3) User defined; 4) User defined; 5) User defined; 6) User defined; 7) User defined; MAV_CMD_USER_1 MAV_CMD = 31010 // MAV_CMD_USER_2 enum. User defined command. Ground Station will not show the Vehicle as flying through this item. Example: MAV_CMD_DO_SET_PARAMETER item. Params: 1) User defined; 2) User defined; 3) User defined; 4) User defined; 5) User defined; 6) User defined; 7) User defined; MAV_CMD_USER_2 MAV_CMD = 31011 // MAV_CMD_USER_3 enum. User defined command. Ground Station will not show the Vehicle as flying through this item. Example: MAV_CMD_DO_SET_PARAMETER item. Params: 1) User defined; 2) User defined; 3) User defined; 4) User defined; 5) User defined; 6) User defined; 7) User defined; MAV_CMD_USER_3 MAV_CMD = 31012 // MAV_CMD_USER_4 enum. User defined command. Ground Station will not show the Vehicle as flying through this item. Example: MAV_CMD_DO_SET_PARAMETER item. Params: 1) User defined; 2) User defined; 3) User defined; 4) User defined; 5) User defined; 6) User defined; 7) User defined; MAV_CMD_USER_4 MAV_CMD = 31013 // MAV_CMD_USER_5 enum. User defined command. Ground Station will not show the Vehicle as flying through this item. Example: MAV_CMD_DO_SET_PARAMETER item. Params: 1) User defined; 2) User defined; 3) User defined; 4) User defined; 5) User defined; 6) User defined; 7) User defined; MAV_CMD_USER_5 MAV_CMD = 31014 )
func (MAV_CMD) MarshalBinary ¶
MarshalBinary generic func
func (*MAV_CMD) UnmarshalBinary ¶
UnmarshalBinary generic func
type MAV_CMD_ACK ¶
type MAV_CMD_ACK int
MAV_CMD_ACK type. ACK / NACK / ERROR values as a result of MAV_CMDs and for mission item transmission.
const ( // MAV_CMD_ACK_OK enum. Command / mission item is ok MAV_CMD_ACK_OK MAV_CMD_ACK = 0 // MAV_CMD_ACK_ERR_FAIL enum. Generic error message if none of the other reasons fails or if no detailed error reporting is implemented MAV_CMD_ACK_ERR_FAIL MAV_CMD_ACK = 1 // MAV_CMD_ACK_ERR_ACCESS_DENIED enum. The system is refusing to accept this command from this source / communication partner MAV_CMD_ACK_ERR_ACCESS_DENIED MAV_CMD_ACK = 2 // MAV_CMD_ACK_ERR_NOT_SUPPORTED enum. Command or mission item is not supported, other commands would be accepted MAV_CMD_ACK_ERR_NOT_SUPPORTED MAV_CMD_ACK = 3 // MAV_CMD_ACK_ERR_COORDINATE_FRAME_NOT_SUPPORTED enum. The coordinate frame of this command / mission item is not supported MAV_CMD_ACK_ERR_COORDINATE_FRAME_NOT_SUPPORTED MAV_CMD_ACK = 4 // MAV_CMD_ACK_ERR_COORDINATES_OUT_OF_RANGE enum. The coordinate frame of this command is ok, but he coordinate values exceed the safety limits of this system. This is a generic error, please use the more specific error messages below if possible MAV_CMD_ACK_ERR_COORDINATES_OUT_OF_RANGE MAV_CMD_ACK = 5 // MAV_CMD_ACK_ERR_X_LAT_OUT_OF_RANGE enum. The X or latitude value is out of range MAV_CMD_ACK_ERR_X_LAT_OUT_OF_RANGE MAV_CMD_ACK = 6 // MAV_CMD_ACK_ERR_Y_LON_OUT_OF_RANGE enum. The Y or longitude value is out of range MAV_CMD_ACK_ERR_Y_LON_OUT_OF_RANGE MAV_CMD_ACK = 7 // MAV_CMD_ACK_ERR_Z_ALT_OUT_OF_RANGE enum. The Z or altitude value is out of range MAV_CMD_ACK_ERR_Z_ALT_OUT_OF_RANGE MAV_CMD_ACK = 8 )
func (MAV_CMD_ACK) Bitmask ¶
func (e MAV_CMD_ACK) Bitmask() string
Bitmask return string representetion of intersects MAV_CMD_ACK enums
func (MAV_CMD_ACK) MarshalBinary ¶
func (e MAV_CMD_ACK) MarshalBinary() (data []byte, err error)
MarshalBinary generic func
func (MAV_CMD_ACK) String ¶
func (e MAV_CMD_ACK) String() string
func (*MAV_CMD_ACK) UnmarshalBinary ¶
func (e *MAV_CMD_ACK) UnmarshalBinary(data []byte) error
UnmarshalBinary generic func
type MAV_COLLISION_ACTION ¶
type MAV_COLLISION_ACTION int
MAV_COLLISION_ACTION type. Possible actions an aircraft can take to avoid a collision.
const ( // MAV_COLLISION_ACTION_NONE enum. Ignore any potential collisions MAV_COLLISION_ACTION_NONE MAV_COLLISION_ACTION = 0 // MAV_COLLISION_ACTION_REPORT enum. Report potential collision MAV_COLLISION_ACTION_REPORT MAV_COLLISION_ACTION = 1 // MAV_COLLISION_ACTION_ASCEND_OR_DESCEND enum. Ascend or Descend to avoid threat MAV_COLLISION_ACTION_ASCEND_OR_DESCEND MAV_COLLISION_ACTION = 2 // MAV_COLLISION_ACTION_MOVE_HORIZONTALLY enum. Move horizontally to avoid threat MAV_COLLISION_ACTION_MOVE_HORIZONTALLY MAV_COLLISION_ACTION = 3 // MAV_COLLISION_ACTION_MOVE_PERPENDICULAR enum. Aircraft to move perpendicular to the collision's velocity vector MAV_COLLISION_ACTION_MOVE_PERPENDICULAR MAV_COLLISION_ACTION = 4 // MAV_COLLISION_ACTION_RTL enum. Aircraft to fly directly back to its launch point MAV_COLLISION_ACTION_RTL MAV_COLLISION_ACTION = 5 // MAV_COLLISION_ACTION_HOVER enum. Aircraft to stop in place MAV_COLLISION_ACTION_HOVER MAV_COLLISION_ACTION = 6 )
func (MAV_COLLISION_ACTION) Bitmask ¶
func (e MAV_COLLISION_ACTION) Bitmask() string
Bitmask return string representetion of intersects MAV_COLLISION_ACTION enums
func (MAV_COLLISION_ACTION) MarshalBinary ¶
func (e MAV_COLLISION_ACTION) MarshalBinary() (data []byte, err error)
MarshalBinary generic func
func (MAV_COLLISION_ACTION) String ¶
func (e MAV_COLLISION_ACTION) String() string
func (*MAV_COLLISION_ACTION) UnmarshalBinary ¶
func (e *MAV_COLLISION_ACTION) UnmarshalBinary(data []byte) error
UnmarshalBinary generic func
type MAV_COLLISION_SRC ¶
type MAV_COLLISION_SRC int
MAV_COLLISION_SRC type. Source of information about this collision.
const ( // MAV_COLLISION_SRC_ADSB enum. ID field references ADSB_VEHICLE packets MAV_COLLISION_SRC_ADSB MAV_COLLISION_SRC = 0 // MAV_COLLISION_SRC_MAVLINK_GPS_GLOBAL_INT enum. ID field references MAVLink SRC ID MAV_COLLISION_SRC_MAVLINK_GPS_GLOBAL_INT MAV_COLLISION_SRC = 1 )
func (MAV_COLLISION_SRC) Bitmask ¶
func (e MAV_COLLISION_SRC) Bitmask() string
Bitmask return string representetion of intersects MAV_COLLISION_SRC enums
func (MAV_COLLISION_SRC) MarshalBinary ¶
func (e MAV_COLLISION_SRC) MarshalBinary() (data []byte, err error)
MarshalBinary generic func
func (MAV_COLLISION_SRC) String ¶
func (e MAV_COLLISION_SRC) String() string
func (*MAV_COLLISION_SRC) UnmarshalBinary ¶
func (e *MAV_COLLISION_SRC) UnmarshalBinary(data []byte) error
UnmarshalBinary generic func
type MAV_COLLISION_THREAT_LEVEL ¶
type MAV_COLLISION_THREAT_LEVEL int
MAV_COLLISION_THREAT_LEVEL type. Aircraft-rated danger from this threat.
const ( // MAV_COLLISION_THREAT_LEVEL_NONE enum. Not a threat MAV_COLLISION_THREAT_LEVEL_NONE MAV_COLLISION_THREAT_LEVEL = 0 // MAV_COLLISION_THREAT_LEVEL_LOW enum. Craft is mildly concerned about this threat MAV_COLLISION_THREAT_LEVEL_LOW MAV_COLLISION_THREAT_LEVEL = 1 // MAV_COLLISION_THREAT_LEVEL_HIGH enum. Craft is panicking, and may take actions to avoid threat MAV_COLLISION_THREAT_LEVEL_HIGH MAV_COLLISION_THREAT_LEVEL = 2 )
func (MAV_COLLISION_THREAT_LEVEL) Bitmask ¶
func (e MAV_COLLISION_THREAT_LEVEL) Bitmask() string
Bitmask return string representetion of intersects MAV_COLLISION_THREAT_LEVEL enums
func (MAV_COLLISION_THREAT_LEVEL) MarshalBinary ¶
func (e MAV_COLLISION_THREAT_LEVEL) MarshalBinary() (data []byte, err error)
MarshalBinary generic func
func (MAV_COLLISION_THREAT_LEVEL) String ¶
func (e MAV_COLLISION_THREAT_LEVEL) String() string
func (*MAV_COLLISION_THREAT_LEVEL) UnmarshalBinary ¶
func (e *MAV_COLLISION_THREAT_LEVEL) UnmarshalBinary(data []byte) error
UnmarshalBinary generic func
type MAV_COMPONENT ¶
type MAV_COMPONENT int
MAV_COMPONENT type. Component ids (values) for the different types and instances of onboard hardware/software that might make up a MAVLink system (autopilot, cameras, servos, GPS systems, avoidance systems etc.). Components must use the appropriate ID in their source address when sending messages. Components can also use IDs to determine if they are the intended recipient of an incoming message. The MAV_COMP_ID_ALL value is used to indicate messages that must be processed by all components. When creating new entries, components that can have multiple instances (e.g. cameras, servos etc.) should be allocated sequential values. An appropriate number of values should be left free after these components to allow the number of instances to be expanded.
const ( // MAV_COMP_ID_ALL enum. Target id (target_component) used to broadcast messages to all components of the receiving system. Components should attempt to process messages with this component ID and forward to components on any other interfaces. Note: This is not a valid *source* component id for a message MAV_COMP_ID_ALL MAV_COMPONENT = 0 // MAV_COMP_ID_AUTOPILOT1 enum. System flight controller component ("autopilot"). Only one autopilot is expected in a particular system MAV_COMP_ID_AUTOPILOT1 MAV_COMPONENT = 1 // MAV_COMP_ID_USER1 enum. Id for a component on privately managed MAVLink network. Can be used for any purpose but may not be published by components outside of the private network MAV_COMP_ID_USER1 MAV_COMPONENT = 25 // MAV_COMP_ID_USER2 enum. Id for a component on privately managed MAVLink network. Can be used for any purpose but may not be published by components outside of the private network MAV_COMP_ID_USER2 MAV_COMPONENT = 26 // MAV_COMP_ID_USER3 enum. Id for a component on privately managed MAVLink network. Can be used for any purpose but may not be published by components outside of the private network MAV_COMP_ID_USER3 MAV_COMPONENT = 27 // MAV_COMP_ID_USER4 enum. Id for a component on privately managed MAVLink network. Can be used for any purpose but may not be published by components outside of the private network MAV_COMP_ID_USER4 MAV_COMPONENT = 28 // MAV_COMP_ID_USER5 enum. Id for a component on privately managed MAVLink network. Can be used for any purpose but may not be published by components outside of the private network MAV_COMP_ID_USER5 MAV_COMPONENT = 29 // MAV_COMP_ID_USER6 enum. Id for a component on privately managed MAVLink network. Can be used for any purpose but may not be published by components outside of the private network MAV_COMP_ID_USER6 MAV_COMPONENT = 30 // MAV_COMP_ID_USER7 enum. Id for a component on privately managed MAVLink network. Can be used for any purpose but may not be published by components outside of the private network MAV_COMP_ID_USER7 MAV_COMPONENT = 31 // MAV_COMP_ID_USER8 enum. Id for a component on privately managed MAVLink network. Can be used for any purpose but may not be published by components outside of the private network MAV_COMP_ID_USER8 MAV_COMPONENT = 32 // MAV_COMP_ID_USER9 enum. Id for a component on privately managed MAVLink network. Can be used for any purpose but may not be published by components outside of the private network MAV_COMP_ID_USER9 MAV_COMPONENT = 33 // MAV_COMP_ID_USER10 enum. Id for a component on privately managed MAVLink network. Can be used for any purpose but may not be published by components outside of the private network MAV_COMP_ID_USER10 MAV_COMPONENT = 34 // MAV_COMP_ID_USER11 enum. Id for a component on privately managed MAVLink network. Can be used for any purpose but may not be published by components outside of the private network MAV_COMP_ID_USER11 MAV_COMPONENT = 35 // MAV_COMP_ID_USER12 enum. Id for a component on privately managed MAVLink network. Can be used for any purpose but may not be published by components outside of the private network MAV_COMP_ID_USER12 MAV_COMPONENT = 36 // MAV_COMP_ID_USER13 enum. Id for a component on privately managed MAVLink network. Can be used for any purpose but may not be published by components outside of the private network MAV_COMP_ID_USER13 MAV_COMPONENT = 37 // MAV_COMP_ID_USER14 enum. Id for a component on privately managed MAVLink network. Can be used for any purpose but may not be published by components outside of the private network MAV_COMP_ID_USER14 MAV_COMPONENT = 38 // MAV_COMP_ID_USER15 enum. Id for a component on privately managed MAVLink network. Can be used for any purpose but may not be published by components outside of the private network MAV_COMP_ID_USER15 MAV_COMPONENT = 39 // MAV_COMP_ID_USER16 enum. Id for a component on privately managed MAVLink network. Can be used for any purpose but may not be published by components outside of the private network MAV_COMP_ID_USER16 MAV_COMPONENT = 40 // MAV_COMP_ID_USER17 enum. Id for a component on privately managed MAVLink network. Can be used for any purpose but may not be published by components outside of the private network MAV_COMP_ID_USER17 MAV_COMPONENT = 41 // MAV_COMP_ID_USER18 enum. Id for a component on privately managed MAVLink network. Can be used for any purpose but may not be published by components outside of the private network MAV_COMP_ID_USER18 MAV_COMPONENT = 42 // MAV_COMP_ID_USER19 enum. Id for a component on privately managed MAVLink network. Can be used for any purpose but may not be published by components outside of the private network MAV_COMP_ID_USER19 MAV_COMPONENT = 43 // MAV_COMP_ID_USER20 enum. Id for a component on privately managed MAVLink network. Can be used for any purpose but may not be published by components outside of the private network MAV_COMP_ID_USER20 MAV_COMPONENT = 44 // MAV_COMP_ID_USER21 enum. Id for a component on privately managed MAVLink network. Can be used for any purpose but may not be published by components outside of the private network MAV_COMP_ID_USER21 MAV_COMPONENT = 45 // MAV_COMP_ID_USER22 enum. Id for a component on privately managed MAVLink network. Can be used for any purpose but may not be published by components outside of the private network MAV_COMP_ID_USER22 MAV_COMPONENT = 46 // MAV_COMP_ID_USER23 enum. Id for a component on privately managed MAVLink network. Can be used for any purpose but may not be published by components outside of the private network MAV_COMP_ID_USER23 MAV_COMPONENT = 47 // MAV_COMP_ID_USER24 enum. Id for a component on privately managed MAVLink network. Can be used for any purpose but may not be published by components outside of the private network MAV_COMP_ID_USER24 MAV_COMPONENT = 48 // MAV_COMP_ID_USER25 enum. Id for a component on privately managed MAVLink network. Can be used for any purpose but may not be published by components outside of the private network MAV_COMP_ID_USER25 MAV_COMPONENT = 49 // MAV_COMP_ID_USER26 enum. Id for a component on privately managed MAVLink network. Can be used for any purpose but may not be published by components outside of the private network MAV_COMP_ID_USER26 MAV_COMPONENT = 50 // MAV_COMP_ID_USER27 enum. Id for a component on privately managed MAVLink network. Can be used for any purpose but may not be published by components outside of the private network MAV_COMP_ID_USER27 MAV_COMPONENT = 51 // MAV_COMP_ID_USER28 enum. Id for a component on privately managed MAVLink network. Can be used for any purpose but may not be published by components outside of the private network MAV_COMP_ID_USER28 MAV_COMPONENT = 52 // MAV_COMP_ID_USER29 enum. Id for a component on privately managed MAVLink network. Can be used for any purpose but may not be published by components outside of the private network MAV_COMP_ID_USER29 MAV_COMPONENT = 53 // MAV_COMP_ID_USER30 enum. Id for a component on privately managed MAVLink network. Can be used for any purpose but may not be published by components outside of the private network MAV_COMP_ID_USER30 MAV_COMPONENT = 54 // MAV_COMP_ID_USER31 enum. Id for a component on privately managed MAVLink network. Can be used for any purpose but may not be published by components outside of the private network MAV_COMP_ID_USER31 MAV_COMPONENT = 55 // MAV_COMP_ID_USER32 enum. Id for a component on privately managed MAVLink network. Can be used for any purpose but may not be published by components outside of the private network MAV_COMP_ID_USER32 MAV_COMPONENT = 56 // MAV_COMP_ID_USER33 enum. Id for a component on privately managed MAVLink network. Can be used for any purpose but may not be published by components outside of the private network MAV_COMP_ID_USER33 MAV_COMPONENT = 57 // MAV_COMP_ID_USER34 enum. Id for a component on privately managed MAVLink network. Can be used for any purpose but may not be published by components outside of the private network MAV_COMP_ID_USER34 MAV_COMPONENT = 58 // MAV_COMP_ID_USER35 enum. Id for a component on privately managed MAVLink network. Can be used for any purpose but may not be published by components outside of the private network MAV_COMP_ID_USER35 MAV_COMPONENT = 59 // MAV_COMP_ID_USER36 enum. Id for a component on privately managed MAVLink network. Can be used for any purpose but may not be published by components outside of the private network MAV_COMP_ID_USER36 MAV_COMPONENT = 60 // MAV_COMP_ID_USER37 enum. Id for a component on privately managed MAVLink network. Can be used for any purpose but may not be published by components outside of the private network MAV_COMP_ID_USER37 MAV_COMPONENT = 61 // MAV_COMP_ID_USER38 enum. Id for a component on privately managed MAVLink network. Can be used for any purpose but may not be published by components outside of the private network MAV_COMP_ID_USER38 MAV_COMPONENT = 62 // MAV_COMP_ID_USER39 enum. Id for a component on privately managed MAVLink network. Can be used for any purpose but may not be published by components outside of the private network MAV_COMP_ID_USER39 MAV_COMPONENT = 63 // MAV_COMP_ID_USER40 enum. Id for a component on privately managed MAVLink network. Can be used for any purpose but may not be published by components outside of the private network MAV_COMP_ID_USER40 MAV_COMPONENT = 64 // MAV_COMP_ID_USER41 enum. Id for a component on privately managed MAVLink network. Can be used for any purpose but may not be published by components outside of the private network MAV_COMP_ID_USER41 MAV_COMPONENT = 65 // MAV_COMP_ID_USER42 enum. Id for a component on privately managed MAVLink network. Can be used for any purpose but may not be published by components outside of the private network MAV_COMP_ID_USER42 MAV_COMPONENT = 66 // MAV_COMP_ID_USER43 enum. Id for a component on privately managed MAVLink network. Can be used for any purpose but may not be published by components outside of the private network MAV_COMP_ID_USER43 MAV_COMPONENT = 67 // MAV_COMP_ID_TELEMETRY_RADIO enum. Telemetry radio (e.g. SiK radio, or other component that emits RADIO_STATUS messages) MAV_COMP_ID_TELEMETRY_RADIO MAV_COMPONENT = 68 // MAV_COMP_ID_USER45 enum. Id for a component on privately managed MAVLink network. Can be used for any purpose but may not be published by components outside of the private network MAV_COMP_ID_USER45 MAV_COMPONENT = 69 // MAV_COMP_ID_USER46 enum. Id for a component on privately managed MAVLink network. Can be used for any purpose but may not be published by components outside of the private network MAV_COMP_ID_USER46 MAV_COMPONENT = 70 // MAV_COMP_ID_USER47 enum. Id for a component on privately managed MAVLink network. Can be used for any purpose but may not be published by components outside of the private network MAV_COMP_ID_USER47 MAV_COMPONENT = 71 // MAV_COMP_ID_USER48 enum. Id for a component on privately managed MAVLink network. Can be used for any purpose but may not be published by components outside of the private network MAV_COMP_ID_USER48 MAV_COMPONENT = 72 // MAV_COMP_ID_USER49 enum. Id for a component on privately managed MAVLink network. Can be used for any purpose but may not be published by components outside of the private network MAV_COMP_ID_USER49 MAV_COMPONENT = 73 // MAV_COMP_ID_USER50 enum. Id for a component on privately managed MAVLink network. Can be used for any purpose but may not be published by components outside of the private network MAV_COMP_ID_USER50 MAV_COMPONENT = 74 // MAV_COMP_ID_USER51 enum. Id for a component on privately managed MAVLink network. Can be used for any purpose but may not be published by components outside of the private network MAV_COMP_ID_USER51 MAV_COMPONENT = 75 // MAV_COMP_ID_USER52 enum. Id for a component on privately managed MAVLink network. Can be used for any purpose but may not be published by components outside of the private network MAV_COMP_ID_USER52 MAV_COMPONENT = 76 // MAV_COMP_ID_USER53 enum. Id for a component on privately managed MAVLink network. Can be used for any purpose but may not be published by components outside of the private network MAV_COMP_ID_USER53 MAV_COMPONENT = 77 // MAV_COMP_ID_USER54 enum. Id for a component on privately managed MAVLink network. Can be used for any purpose but may not be published by components outside of the private network MAV_COMP_ID_USER54 MAV_COMPONENT = 78 // MAV_COMP_ID_USER55 enum. Id for a component on privately managed MAVLink network. Can be used for any purpose but may not be published by components outside of the private network MAV_COMP_ID_USER55 MAV_COMPONENT = 79 // MAV_COMP_ID_USER56 enum. Id for a component on privately managed MAVLink network. Can be used for any purpose but may not be published by components outside of the private network MAV_COMP_ID_USER56 MAV_COMPONENT = 80 // MAV_COMP_ID_USER57 enum. Id for a component on privately managed MAVLink network. Can be used for any purpose but may not be published by components outside of the private network MAV_COMP_ID_USER57 MAV_COMPONENT = 81 // MAV_COMP_ID_USER58 enum. Id for a component on privately managed MAVLink network. Can be used for any purpose but may not be published by components outside of the private network MAV_COMP_ID_USER58 MAV_COMPONENT = 82 // MAV_COMP_ID_USER59 enum. Id for a component on privately managed MAVLink network. Can be used for any purpose but may not be published by components outside of the private network MAV_COMP_ID_USER59 MAV_COMPONENT = 83 // MAV_COMP_ID_USER60 enum. Id for a component on privately managed MAVLink network. Can be used for any purpose but may not be published by components outside of the private network MAV_COMP_ID_USER60 MAV_COMPONENT = 84 // MAV_COMP_ID_USER61 enum. Id for a component on privately managed MAVLink network. Can be used for any purpose but may not be published by components outside of the private network MAV_COMP_ID_USER61 MAV_COMPONENT = 85 // MAV_COMP_ID_USER62 enum. Id for a component on privately managed MAVLink network. Can be used for any purpose but may not be published by components outside of the private network MAV_COMP_ID_USER62 MAV_COMPONENT = 86 // MAV_COMP_ID_USER63 enum. Id for a component on privately managed MAVLink network. Can be used for any purpose but may not be published by components outside of the private network MAV_COMP_ID_USER63 MAV_COMPONENT = 87 // MAV_COMP_ID_USER64 enum. Id for a component on privately managed MAVLink network. Can be used for any purpose but may not be published by components outside of the private network MAV_COMP_ID_USER64 MAV_COMPONENT = 88 // MAV_COMP_ID_USER65 enum. Id for a component on privately managed MAVLink network. Can be used for any purpose but may not be published by components outside of the private network MAV_COMP_ID_USER65 MAV_COMPONENT = 89 // MAV_COMP_ID_USER66 enum. Id for a component on privately managed MAVLink network. Can be used for any purpose but may not be published by components outside of the private network MAV_COMP_ID_USER66 MAV_COMPONENT = 90 // MAV_COMP_ID_USER67 enum. Id for a component on privately managed MAVLink network. Can be used for any purpose but may not be published by components outside of the private network MAV_COMP_ID_USER67 MAV_COMPONENT = 91 // MAV_COMP_ID_USER68 enum. Id for a component on privately managed MAVLink network. Can be used for any purpose but may not be published by components outside of the private network MAV_COMP_ID_USER68 MAV_COMPONENT = 92 // MAV_COMP_ID_USER69 enum. Id for a component on privately managed MAVLink network. Can be used for any purpose but may not be published by components outside of the private network MAV_COMP_ID_USER69 MAV_COMPONENT = 93 // MAV_COMP_ID_USER70 enum. Id for a component on privately managed MAVLink network. Can be used for any purpose but may not be published by components outside of the private network MAV_COMP_ID_USER70 MAV_COMPONENT = 94 // MAV_COMP_ID_USER71 enum. Id for a component on privately managed MAVLink network. Can be used for any purpose but may not be published by components outside of the private network MAV_COMP_ID_USER71 MAV_COMPONENT = 95 // MAV_COMP_ID_USER72 enum. Id for a component on privately managed MAVLink network. Can be used for any purpose but may not be published by components outside of the private network MAV_COMP_ID_USER72 MAV_COMPONENT = 96 // MAV_COMP_ID_USER73 enum. Id for a component on privately managed MAVLink network. Can be used for any purpose but may not be published by components outside of the private network MAV_COMP_ID_USER73 MAV_COMPONENT = 97 // MAV_COMP_ID_USER74 enum. Id for a component on privately managed MAVLink network. Can be used for any purpose but may not be published by components outside of the private network MAV_COMP_ID_USER74 MAV_COMPONENT = 98 // MAV_COMP_ID_USER75 enum. Id for a component on privately managed MAVLink network. Can be used for any purpose but may not be published by components outside of the private network MAV_COMP_ID_USER75 MAV_COMPONENT = 99 // MAV_COMP_ID_CAMERA enum. Camera #1 MAV_COMP_ID_CAMERA MAV_COMPONENT = 100 // MAV_COMP_ID_CAMERA2 enum. Camera #2 MAV_COMP_ID_CAMERA2 MAV_COMPONENT = 101 // MAV_COMP_ID_CAMERA3 enum. Camera #3 MAV_COMP_ID_CAMERA3 MAV_COMPONENT = 102 // MAV_COMP_ID_CAMERA4 enum. Camera #4 MAV_COMP_ID_CAMERA4 MAV_COMPONENT = 103 // MAV_COMP_ID_CAMERA5 enum. Camera #5 MAV_COMP_ID_CAMERA5 MAV_COMPONENT = 104 // MAV_COMP_ID_CAMERA6 enum. Camera #6 MAV_COMP_ID_CAMERA6 MAV_COMPONENT = 105 // MAV_COMP_ID_SERVO1 enum. Servo #1 MAV_COMP_ID_SERVO1 MAV_COMPONENT = 140 // MAV_COMP_ID_SERVO2 enum. Servo #2 MAV_COMP_ID_SERVO2 MAV_COMPONENT = 141 // MAV_COMP_ID_SERVO3 enum. Servo #3 MAV_COMP_ID_SERVO3 MAV_COMPONENT = 142 // MAV_COMP_ID_SERVO4 enum. Servo #4 MAV_COMP_ID_SERVO4 MAV_COMPONENT = 143 // MAV_COMP_ID_SERVO5 enum. Servo #5 MAV_COMP_ID_SERVO5 MAV_COMPONENT = 144 // MAV_COMP_ID_SERVO6 enum. Servo #6 MAV_COMP_ID_SERVO6 MAV_COMPONENT = 145 // MAV_COMP_ID_SERVO7 enum. Servo #7 MAV_COMP_ID_SERVO7 MAV_COMPONENT = 146 // MAV_COMP_ID_SERVO8 enum. Servo #8 MAV_COMP_ID_SERVO8 MAV_COMPONENT = 147 // MAV_COMP_ID_SERVO9 enum. Servo #9 MAV_COMP_ID_SERVO9 MAV_COMPONENT = 148 // MAV_COMP_ID_SERVO10 enum. Servo #10 MAV_COMP_ID_SERVO10 MAV_COMPONENT = 149 // MAV_COMP_ID_SERVO11 enum. Servo #11 MAV_COMP_ID_SERVO11 MAV_COMPONENT = 150 // MAV_COMP_ID_SERVO12 enum. Servo #12 MAV_COMP_ID_SERVO12 MAV_COMPONENT = 151 // MAV_COMP_ID_SERVO13 enum. Servo #13 MAV_COMP_ID_SERVO13 MAV_COMPONENT = 152 // MAV_COMP_ID_SERVO14 enum. Servo #14 MAV_COMP_ID_SERVO14 MAV_COMPONENT = 153 // MAV_COMP_ID_GIMBAL enum. Gimbal #1 MAV_COMP_ID_GIMBAL MAV_COMPONENT = 154 // MAV_COMP_ID_LOG enum. Logging component MAV_COMP_ID_LOG MAV_COMPONENT = 155 // MAV_COMP_ID_ADSB enum. Automatic Dependent Surveillance-Broadcast (ADS-B) component MAV_COMP_ID_ADSB MAV_COMPONENT = 156 // MAV_COMP_ID_OSD enum. On Screen Display (OSD) devices for video links MAV_COMP_ID_OSD MAV_COMPONENT = 157 // MAV_COMP_ID_PERIPHERAL enum. Generic autopilot peripheral component ID. Meant for devices that do not implement the parameter microservice MAV_COMP_ID_PERIPHERAL MAV_COMPONENT = 158 // MAV_COMP_ID_QX1_GIMBAL enum. Gimbal ID for QX1 MAV_COMP_ID_QX1_GIMBAL MAV_COMPONENT = 159 // MAV_COMP_ID_FLARM enum. FLARM collision alert component MAV_COMP_ID_FLARM MAV_COMPONENT = 160 // MAV_COMP_ID_GIMBAL2 enum. Gimbal #2 MAV_COMP_ID_GIMBAL2 MAV_COMPONENT = 171 // MAV_COMP_ID_GIMBAL3 enum. Gimbal #3 MAV_COMP_ID_GIMBAL3 MAV_COMPONENT = 172 // MAV_COMP_ID_GIMBAL4 enum. Gimbal #4 MAV_COMP_ID_GIMBAL4 MAV_COMPONENT = 173 // MAV_COMP_ID_GIMBAL5 enum. Gimbal #5 MAV_COMP_ID_GIMBAL5 MAV_COMPONENT = 174 // MAV_COMP_ID_GIMBAL6 enum. Gimbal #6 MAV_COMP_ID_GIMBAL6 MAV_COMPONENT = 175 // MAV_COMP_ID_MISSIONPLANNER enum. Component that can generate/supply a mission flight plan (e.g. GCS or developer API) MAV_COMP_ID_MISSIONPLANNER MAV_COMPONENT = 190 // MAV_COMP_ID_ONBOARD_COMPUTER enum. Component that lives on the onboard computer (companion computer) and has some generic functionalities, such as settings system parameters and monitoring the status of some processes that don't directly speak mavlink and so on MAV_COMP_ID_ONBOARD_COMPUTER MAV_COMPONENT = 191 // MAV_COMP_ID_PATHPLANNER enum. Component that finds an optimal path between points based on a certain constraint (e.g. minimum snap, shortest path, cost, etc.) MAV_COMP_ID_PATHPLANNER MAV_COMPONENT = 195 // MAV_COMP_ID_OBSTACLE_AVOIDANCE enum. Component that plans a collision free path between two points MAV_COMP_ID_OBSTACLE_AVOIDANCE MAV_COMPONENT = 196 // MAV_COMP_ID_VISUAL_INERTIAL_ODOMETRY enum. Component that provides position estimates using VIO techniques MAV_COMP_ID_VISUAL_INERTIAL_ODOMETRY MAV_COMPONENT = 197 // MAV_COMP_ID_PAIRING_MANAGER enum. Component that manages pairing of vehicle and GCS MAV_COMP_ID_PAIRING_MANAGER MAV_COMPONENT = 198 // MAV_COMP_ID_IMU enum. Inertial Measurement Unit (IMU) #1 MAV_COMP_ID_IMU MAV_COMPONENT = 200 // MAV_COMP_ID_IMU_2 enum. Inertial Measurement Unit (IMU) #2 MAV_COMP_ID_IMU_2 MAV_COMPONENT = 201 // MAV_COMP_ID_IMU_3 enum. Inertial Measurement Unit (IMU) #3 MAV_COMP_ID_IMU_3 MAV_COMPONENT = 202 // MAV_COMP_ID_GPS enum. GPS #1 MAV_COMP_ID_GPS MAV_COMPONENT = 220 // MAV_COMP_ID_GPS2 enum. GPS #2 MAV_COMP_ID_GPS2 MAV_COMPONENT = 221 // MAV_COMP_ID_ODID_TXRX_1 enum. Open Drone ID transmitter/receiver (Bluetooth/WiFi/Internet) MAV_COMP_ID_ODID_TXRX_1 MAV_COMPONENT = 236 // MAV_COMP_ID_ODID_TXRX_2 enum. Open Drone ID transmitter/receiver (Bluetooth/WiFi/Internet) MAV_COMP_ID_ODID_TXRX_2 MAV_COMPONENT = 237 // MAV_COMP_ID_ODID_TXRX_3 enum. Open Drone ID transmitter/receiver (Bluetooth/WiFi/Internet) MAV_COMP_ID_ODID_TXRX_3 MAV_COMPONENT = 238 // MAV_COMP_ID_UDP_BRIDGE enum. Component to bridge MAVLink to UDP (i.e. from a UART) MAV_COMP_ID_UDP_BRIDGE MAV_COMPONENT = 240 // MAV_COMP_ID_UART_BRIDGE enum. Component to bridge to UART (i.e. from UDP) MAV_COMP_ID_UART_BRIDGE MAV_COMPONENT = 241 // MAV_COMP_ID_TUNNEL_NODE enum. Component handling TUNNEL messages (e.g. vendor specific GUI of a component) MAV_COMP_ID_TUNNEL_NODE MAV_COMPONENT = 242 // MAV_COMP_ID_SYSTEM_CONTROL enum. Component for handling system messages (e.g. to ARM, takeoff, etc.) MAV_COMP_ID_SYSTEM_CONTROL MAV_COMPONENT = 250 )
func (MAV_COMPONENT) Bitmask ¶
func (e MAV_COMPONENT) Bitmask() string
Bitmask return string representetion of intersects MAV_COMPONENT enums
func (MAV_COMPONENT) MarshalBinary ¶
func (e MAV_COMPONENT) MarshalBinary() (data []byte, err error)
MarshalBinary generic func
func (MAV_COMPONENT) String ¶
func (e MAV_COMPONENT) String() string
func (*MAV_COMPONENT) UnmarshalBinary ¶
func (e *MAV_COMPONENT) UnmarshalBinary(data []byte) error
UnmarshalBinary generic func
type MAV_DATA_STREAM ¶
type MAV_DATA_STREAM int
MAV_DATA_STREAM type. A data stream is not a fixed set of messages, but rather a recommendation to the autopilot software. Individual autopilots may or may not obey the recommended messages.
const ( // MAV_DATA_STREAM_ALL enum. Enable all data streams MAV_DATA_STREAM_ALL MAV_DATA_STREAM = 0 // MAV_DATA_STREAM_RAW_SENSORS enum. Enable IMU_RAW, GPS_RAW, GPS_STATUS packets MAV_DATA_STREAM_RAW_SENSORS MAV_DATA_STREAM = 1 // MAV_DATA_STREAM_EXTENDED_STATUS enum. Enable GPS_STATUS, CONTROL_STATUS, AUX_STATUS MAV_DATA_STREAM_EXTENDED_STATUS MAV_DATA_STREAM = 2 // MAV_DATA_STREAM_RC_CHANNELS enum. Enable RC_CHANNELS_SCALED, RC_CHANNELS_RAW, SERVO_OUTPUT_RAW MAV_DATA_STREAM_RC_CHANNELS MAV_DATA_STREAM = 3 // MAV_DATA_STREAM_RAW_CONTROLLER enum. Enable ATTITUDE_CONTROLLER_OUTPUT, POSITION_CONTROLLER_OUTPUT, NAV_CONTROLLER_OUTPUT MAV_DATA_STREAM_RAW_CONTROLLER MAV_DATA_STREAM = 4 // MAV_DATA_STREAM_POSITION enum. Enable LOCAL_POSITION, GLOBAL_POSITION/GLOBAL_POSITION_INT messages MAV_DATA_STREAM_POSITION MAV_DATA_STREAM = 6 // MAV_DATA_STREAM_EXTRA1 enum. Dependent on the autopilot MAV_DATA_STREAM_EXTRA1 MAV_DATA_STREAM = 10 // MAV_DATA_STREAM_EXTRA2 enum. Dependent on the autopilot MAV_DATA_STREAM_EXTRA2 MAV_DATA_STREAM = 11 // MAV_DATA_STREAM_EXTRA3 enum. Dependent on the autopilot MAV_DATA_STREAM_EXTRA3 MAV_DATA_STREAM = 12 )
func (MAV_DATA_STREAM) Bitmask ¶
func (e MAV_DATA_STREAM) Bitmask() string
Bitmask return string representetion of intersects MAV_DATA_STREAM enums
func (MAV_DATA_STREAM) MarshalBinary ¶
func (e MAV_DATA_STREAM) MarshalBinary() (data []byte, err error)
MarshalBinary generic func
func (MAV_DATA_STREAM) String ¶
func (e MAV_DATA_STREAM) String() string
func (*MAV_DATA_STREAM) UnmarshalBinary ¶
func (e *MAV_DATA_STREAM) UnmarshalBinary(data []byte) error
UnmarshalBinary generic func
type MAV_DISTANCE_SENSOR ¶
type MAV_DISTANCE_SENSOR int
MAV_DISTANCE_SENSOR type. Enumeration of distance sensor types
const ( // MAV_DISTANCE_SENSOR_LASER enum. Laser rangefinder, e.g. LightWare SF02/F or PulsedLight units MAV_DISTANCE_SENSOR_LASER MAV_DISTANCE_SENSOR = 0 // MAV_DISTANCE_SENSOR_ULTRASOUND enum. Ultrasound rangefinder, e.g. MaxBotix units MAV_DISTANCE_SENSOR_ULTRASOUND MAV_DISTANCE_SENSOR = 1 // MAV_DISTANCE_SENSOR_INFRARED enum. Infrared rangefinder, e.g. Sharp units MAV_DISTANCE_SENSOR_INFRARED MAV_DISTANCE_SENSOR = 2 // MAV_DISTANCE_SENSOR_RADAR enum. Radar type, e.g. uLanding units MAV_DISTANCE_SENSOR_RADAR MAV_DISTANCE_SENSOR = 3 // MAV_DISTANCE_SENSOR_UNKNOWN enum. Broken or unknown type, e.g. analog units MAV_DISTANCE_SENSOR_UNKNOWN MAV_DISTANCE_SENSOR = 4 )
func (MAV_DISTANCE_SENSOR) Bitmask ¶
func (e MAV_DISTANCE_SENSOR) Bitmask() string
Bitmask return string representetion of intersects MAV_DISTANCE_SENSOR enums
func (MAV_DISTANCE_SENSOR) MarshalBinary ¶
func (e MAV_DISTANCE_SENSOR) MarshalBinary() (data []byte, err error)
MarshalBinary generic func
func (MAV_DISTANCE_SENSOR) String ¶
func (e MAV_DISTANCE_SENSOR) String() string
func (*MAV_DISTANCE_SENSOR) UnmarshalBinary ¶
func (e *MAV_DISTANCE_SENSOR) UnmarshalBinary(data []byte) error
UnmarshalBinary generic func
type MAV_DO_REPOSITION_FLAGS ¶
type MAV_DO_REPOSITION_FLAGS int
MAV_DO_REPOSITION_FLAGS type. Bitmap of options for the MAV_CMD_DO_REPOSITION
const ( // MAV_DO_REPOSITION_FLAGS_CHANGE_MODE enum. The aircraft should immediately transition into guided. This should not be set for follow me applications MAV_DO_REPOSITION_FLAGS_CHANGE_MODE MAV_DO_REPOSITION_FLAGS = 1 )
func (MAV_DO_REPOSITION_FLAGS) Bitmask ¶
func (e MAV_DO_REPOSITION_FLAGS) Bitmask() string
Bitmask return string representetion of intersects MAV_DO_REPOSITION_FLAGS enums
func (MAV_DO_REPOSITION_FLAGS) MarshalBinary ¶
func (e MAV_DO_REPOSITION_FLAGS) MarshalBinary() (data []byte, err error)
MarshalBinary generic func
func (MAV_DO_REPOSITION_FLAGS) String ¶
func (e MAV_DO_REPOSITION_FLAGS) String() string
func (*MAV_DO_REPOSITION_FLAGS) UnmarshalBinary ¶
func (e *MAV_DO_REPOSITION_FLAGS) UnmarshalBinary(data []byte) error
UnmarshalBinary generic func
type MAV_ESTIMATOR_TYPE ¶
type MAV_ESTIMATOR_TYPE int
MAV_ESTIMATOR_TYPE type. Enumeration of estimator types
const ( // MAV_ESTIMATOR_TYPE_UNKNOWN enum. Unknown type of the estimator MAV_ESTIMATOR_TYPE_UNKNOWN MAV_ESTIMATOR_TYPE = 0 // MAV_ESTIMATOR_TYPE_NAIVE enum. This is a naive estimator without any real covariance feedback MAV_ESTIMATOR_TYPE_NAIVE MAV_ESTIMATOR_TYPE = 1 // MAV_ESTIMATOR_TYPE_VISION enum. Computer vision based estimate. Might be up to scale MAV_ESTIMATOR_TYPE_VISION MAV_ESTIMATOR_TYPE = 2 // MAV_ESTIMATOR_TYPE_VIO enum. Visual-inertial estimate MAV_ESTIMATOR_TYPE_VIO MAV_ESTIMATOR_TYPE = 3 // MAV_ESTIMATOR_TYPE_GPS enum. Plain GPS estimate MAV_ESTIMATOR_TYPE_GPS MAV_ESTIMATOR_TYPE = 4 // MAV_ESTIMATOR_TYPE_GPS_INS enum. Estimator integrating GPS and inertial sensing MAV_ESTIMATOR_TYPE_GPS_INS MAV_ESTIMATOR_TYPE = 5 // MAV_ESTIMATOR_TYPE_MOCAP enum. Estimate from external motion capturing system MAV_ESTIMATOR_TYPE_MOCAP MAV_ESTIMATOR_TYPE = 6 // MAV_ESTIMATOR_TYPE_LIDAR enum. Estimator based on lidar sensor input MAV_ESTIMATOR_TYPE_LIDAR MAV_ESTIMATOR_TYPE = 7 // MAV_ESTIMATOR_TYPE_AUTOPILOT enum. Estimator on autopilot MAV_ESTIMATOR_TYPE_AUTOPILOT MAV_ESTIMATOR_TYPE = 8 )
func (MAV_ESTIMATOR_TYPE) Bitmask ¶
func (e MAV_ESTIMATOR_TYPE) Bitmask() string
Bitmask return string representetion of intersects MAV_ESTIMATOR_TYPE enums
func (MAV_ESTIMATOR_TYPE) MarshalBinary ¶
func (e MAV_ESTIMATOR_TYPE) MarshalBinary() (data []byte, err error)
MarshalBinary generic func
func (MAV_ESTIMATOR_TYPE) String ¶
func (e MAV_ESTIMATOR_TYPE) String() string
func (*MAV_ESTIMATOR_TYPE) UnmarshalBinary ¶
func (e *MAV_ESTIMATOR_TYPE) UnmarshalBinary(data []byte) error
UnmarshalBinary generic func
type MAV_FRAME ¶
type MAV_FRAME int
MAV_FRAME type
const ( // MAV_FRAME_GLOBAL enum. Global (WGS84) coordinate frame + MSL altitude. First value / x: latitude, second value / y: longitude, third value / z: positive altitude over mean sea level (MSL) MAV_FRAME_GLOBAL MAV_FRAME = 0 // MAV_FRAME_LOCAL_NED enum. Local coordinate frame, Z-down (x: North, y: East, z: Down) MAV_FRAME_LOCAL_NED MAV_FRAME = 1 // MAV_FRAME_MISSION enum. NOT a coordinate frame, indicates a mission command MAV_FRAME_MISSION MAV_FRAME = 2 // MAV_FRAME_GLOBAL_RELATIVE_ALT enum. Global (WGS84) coordinate frame + altitude relative to the home position. First value / x: latitude, second value / y: longitude, third value / z: positive altitude with 0 being at the altitude of the home location MAV_FRAME_GLOBAL_RELATIVE_ALT MAV_FRAME = 3 // MAV_FRAME_LOCAL_ENU enum. Local coordinate frame, Z-up (x: East, y: North, z: Up) MAV_FRAME_LOCAL_ENU MAV_FRAME = 4 // MAV_FRAME_GLOBAL_INT enum. Global (WGS84) coordinate frame (scaled) + MSL altitude. First value / x: latitude in degrees*1.0e-7, second value / y: longitude in degrees*1.0e-7, third value / z: positive altitude over mean sea level (MSL) MAV_FRAME_GLOBAL_INT MAV_FRAME = 5 // MAV_FRAME_GLOBAL_RELATIVE_ALT_INT enum. Global (WGS84) coordinate frame (scaled) + altitude relative to the home position. First value / x: latitude in degrees*10e-7, second value / y: longitude in degrees*10e-7, third value / z: positive altitude with 0 being at the altitude of the home location MAV_FRAME_GLOBAL_RELATIVE_ALT_INT MAV_FRAME = 6 // MAV_FRAME_LOCAL_OFFSET_NED enum. Offset to the current local frame. Anything expressed in this frame should be added to the current local frame position MAV_FRAME_LOCAL_OFFSET_NED MAV_FRAME = 7 // MAV_FRAME_BODY_NED enum. Setpoint in body NED frame. This makes sense if all position control is externalized - e.g. useful to command 2 m/s^2 acceleration to the right MAV_FRAME_BODY_NED MAV_FRAME = 8 // MAV_FRAME_BODY_OFFSET_NED enum. Offset in body NED frame. This makes sense if adding setpoints to the current flight path, to avoid an obstacle - e.g. useful to command 2 m/s^2 acceleration to the east MAV_FRAME_BODY_OFFSET_NED MAV_FRAME = 9 // MAV_FRAME_GLOBAL_TERRAIN_ALT enum. Global (WGS84) coordinate frame with AGL altitude (at the waypoint coordinate). First value / x: latitude in degrees, second value / y: longitude in degrees, third value / z: positive altitude in meters with 0 being at ground level in terrain model MAV_FRAME_GLOBAL_TERRAIN_ALT MAV_FRAME = 10 // MAV_FRAME_GLOBAL_TERRAIN_ALT_INT enum. Global (WGS84) coordinate frame (scaled) with AGL altitude (at the waypoint coordinate). First value / x: latitude in degrees*10e-7, second value / y: longitude in degrees*10e-7, third value / z: positive altitude in meters with 0 being at ground level in terrain model MAV_FRAME_GLOBAL_TERRAIN_ALT_INT MAV_FRAME = 11 // MAV_FRAME_BODY_FRD enum. Body fixed frame of reference, Z-down (x: Forward, y: Right, z: Down) MAV_FRAME_BODY_FRD MAV_FRAME = 12 // MAV_FRAME_RESERVED_13 enum. MAV_FRAME_BODY_FLU - Body fixed frame of reference, Z-up (x: Forward, y: Left, z: Up) MAV_FRAME_RESERVED_13 MAV_FRAME = 13 // MAV_FRAME_RESERVED_14 enum. MAV_FRAME_MOCAP_NED - Odometry local coordinate frame of data given by a motion capture system, Z-down (x: North, y: East, z: Down) MAV_FRAME_RESERVED_14 MAV_FRAME = 14 // MAV_FRAME_RESERVED_15 enum. MAV_FRAME_MOCAP_ENU - Odometry local coordinate frame of data given by a motion capture system, Z-up (x: East, y: North, z: Up) MAV_FRAME_RESERVED_15 MAV_FRAME = 15 // MAV_FRAME_RESERVED_16 enum. MAV_FRAME_VISION_NED - Odometry local coordinate frame of data given by a vision estimation system, Z-down (x: North, y: East, z: Down) MAV_FRAME_RESERVED_16 MAV_FRAME = 16 // MAV_FRAME_RESERVED_17 enum. MAV_FRAME_VISION_ENU - Odometry local coordinate frame of data given by a vision estimation system, Z-up (x: East, y: North, z: Up) MAV_FRAME_RESERVED_17 MAV_FRAME = 17 // MAV_FRAME_RESERVED_18 enum. MAV_FRAME_ESTIM_NED - Odometry local coordinate frame of data given by an estimator running onboard the vehicle, Z-down (x: North, y: East, z: Down) MAV_FRAME_RESERVED_18 MAV_FRAME = 18 // MAV_FRAME_RESERVED_19 enum. MAV_FRAME_ESTIM_ENU - Odometry local coordinate frame of data given by an estimator running onboard the vehicle, Z-up (x: East, y: North, z: Up) MAV_FRAME_RESERVED_19 MAV_FRAME = 19 // MAV_FRAME_LOCAL_FRD enum. Forward, Right, Down coordinate frame. This is a local frame with Z-down and arbitrary F/R alignment (i.e. not aligned with NED/earth frame) MAV_FRAME_LOCAL_FRD MAV_FRAME = 20 // MAV_FRAME_LOCAL_FLU enum. Forward, Left, Up coordinate frame. This is a local frame with Z-up and arbitrary F/L alignment (i.e. not aligned with ENU/earth frame) MAV_FRAME_LOCAL_FLU MAV_FRAME = 21 )
func (MAV_FRAME) MarshalBinary ¶
MarshalBinary generic func
func (*MAV_FRAME) UnmarshalBinary ¶
UnmarshalBinary generic func
type MAV_GENERATOR_STATUS_FLAG ¶
type MAV_GENERATOR_STATUS_FLAG int
MAV_GENERATOR_STATUS_FLAG type. Flags to report status/failure cases for a power generator (used in GENERATOR_STATUS). Note that FAULTS are conditions that cause the generator to fail. Warnings are conditions that require attention before the next use (they indicate the system is not operating properly).
const ( // MAV_GENERATOR_STATUS_FLAG_OFF enum. Generator is off MAV_GENERATOR_STATUS_FLAG_OFF MAV_GENERATOR_STATUS_FLAG = 1 // MAV_GENERATOR_STATUS_FLAG_READY enum. Generator is ready to start generating power MAV_GENERATOR_STATUS_FLAG_READY MAV_GENERATOR_STATUS_FLAG = 2 // MAV_GENERATOR_STATUS_FLAG_GENERATING enum. Generator is generating power MAV_GENERATOR_STATUS_FLAG_GENERATING MAV_GENERATOR_STATUS_FLAG = 4 // MAV_GENERATOR_STATUS_FLAG_CHARGING enum. Generator is charging the batteries (generating enough power to charge and provide the load) MAV_GENERATOR_STATUS_FLAG_CHARGING MAV_GENERATOR_STATUS_FLAG = 8 // MAV_GENERATOR_STATUS_FLAG_REDUCED_POWER enum. Generator is operating at a reduced maximum power MAV_GENERATOR_STATUS_FLAG_REDUCED_POWER MAV_GENERATOR_STATUS_FLAG = 16 // MAV_GENERATOR_STATUS_FLAG_MAXPOWER enum. Generator is providing the maximum output MAV_GENERATOR_STATUS_FLAG_MAXPOWER MAV_GENERATOR_STATUS_FLAG = 32 // MAV_GENERATOR_STATUS_FLAG_OVERTEMP_WARNING enum. Generator is near the maximum operating temperature, cooling is insufficient MAV_GENERATOR_STATUS_FLAG_OVERTEMP_WARNING MAV_GENERATOR_STATUS_FLAG = 64 // MAV_GENERATOR_STATUS_FLAG_OVERTEMP_FAULT enum. Generator hit the maximum operating temperature and shutdown MAV_GENERATOR_STATUS_FLAG_OVERTEMP_FAULT MAV_GENERATOR_STATUS_FLAG = 128 // MAV_GENERATOR_STATUS_FLAG_ELECTRONICS_OVERTEMP_WARNING enum. Power electronics are near the maximum operating temperature, cooling is insufficient MAV_GENERATOR_STATUS_FLAG_ELECTRONICS_OVERTEMP_WARNING MAV_GENERATOR_STATUS_FLAG = 256 // MAV_GENERATOR_STATUS_FLAG_ELECTRONICS_OVERTEMP_FAULT enum. Power electronics hit the maximum operating temperature and shutdown MAV_GENERATOR_STATUS_FLAG_ELECTRONICS_OVERTEMP_FAULT MAV_GENERATOR_STATUS_FLAG = 512 // MAV_GENERATOR_STATUS_FLAG_ELECTRONICS_FAULT enum. Power electronics experienced a fault and shutdown MAV_GENERATOR_STATUS_FLAG_ELECTRONICS_FAULT MAV_GENERATOR_STATUS_FLAG = 1024 // MAV_GENERATOR_STATUS_FLAG_POWERSOURCE_FAULT enum. The power source supplying the generator failed e.g. mechanical generator stopped, tether is no longer providing power, solar cell is in shade, hydrogen reaction no longer happening MAV_GENERATOR_STATUS_FLAG_POWERSOURCE_FAULT MAV_GENERATOR_STATUS_FLAG = 2048 // MAV_GENERATOR_STATUS_FLAG_COMMUNICATION_WARNING enum. Generator controller having communication problems MAV_GENERATOR_STATUS_FLAG_COMMUNICATION_WARNING MAV_GENERATOR_STATUS_FLAG = 4096 // MAV_GENERATOR_STATUS_FLAG_COOLING_WARNING enum. Power electronic or generator cooling system error MAV_GENERATOR_STATUS_FLAG_COOLING_WARNING MAV_GENERATOR_STATUS_FLAG = 8192 // MAV_GENERATOR_STATUS_FLAG_POWER_RAIL_FAULT enum. Generator controller power rail experienced a fault MAV_GENERATOR_STATUS_FLAG_POWER_RAIL_FAULT MAV_GENERATOR_STATUS_FLAG = 16384 // MAV_GENERATOR_STATUS_FLAG_OVERCURRENT_FAULT enum. Generator controller exceeded the overcurrent threshold and shutdown to prevent damage MAV_GENERATOR_STATUS_FLAG_OVERCURRENT_FAULT MAV_GENERATOR_STATUS_FLAG = 32768 // MAV_GENERATOR_STATUS_FLAG_BATTERY_OVERCHARGE_CURRENT_FAULT enum. Generator controller detected a high current going into the batteries and shutdown to prevent battery damage MAV_GENERATOR_STATUS_FLAG_BATTERY_OVERCHARGE_CURRENT_FAULT MAV_GENERATOR_STATUS_FLAG = 65536 // MAV_GENERATOR_STATUS_FLAG_OVERVOLTAGE_FAULT enum. Generator controller exceeded it's overvoltage threshold and shutdown to prevent it exceeding the voltage rating MAV_GENERATOR_STATUS_FLAG_OVERVOLTAGE_FAULT MAV_GENERATOR_STATUS_FLAG = 131072 // MAV_GENERATOR_STATUS_FLAG_BATTERY_UNDERVOLT_FAULT enum. Batteries are under voltage (generator will not start) MAV_GENERATOR_STATUS_FLAG_BATTERY_UNDERVOLT_FAULT MAV_GENERATOR_STATUS_FLAG = 262144 // MAV_GENERATOR_STATUS_FLAG_START_INHIBITED enum. Generator start is inhibited by e.g. a safety switch MAV_GENERATOR_STATUS_FLAG_START_INHIBITED MAV_GENERATOR_STATUS_FLAG = 524288 // MAV_GENERATOR_STATUS_FLAG_MAINTENANCE_REQUIRED enum. Generator requires maintenance MAV_GENERATOR_STATUS_FLAG_MAINTENANCE_REQUIRED MAV_GENERATOR_STATUS_FLAG = 1048576 // MAV_GENERATOR_STATUS_FLAG_WARMING_UP enum. Generator is not ready to generate yet MAV_GENERATOR_STATUS_FLAG_WARMING_UP MAV_GENERATOR_STATUS_FLAG = 2097152 // MAV_GENERATOR_STATUS_FLAG_IDLE enum. Generator is idle MAV_GENERATOR_STATUS_FLAG_IDLE MAV_GENERATOR_STATUS_FLAG = 4194304 )
func (MAV_GENERATOR_STATUS_FLAG) Bitmask ¶
func (e MAV_GENERATOR_STATUS_FLAG) Bitmask() string
Bitmask return string representetion of intersects MAV_GENERATOR_STATUS_FLAG enums
func (MAV_GENERATOR_STATUS_FLAG) MarshalBinary ¶
func (e MAV_GENERATOR_STATUS_FLAG) MarshalBinary() (data []byte, err error)
MarshalBinary generic func
func (MAV_GENERATOR_STATUS_FLAG) String ¶
func (e MAV_GENERATOR_STATUS_FLAG) String() string
func (*MAV_GENERATOR_STATUS_FLAG) UnmarshalBinary ¶
func (e *MAV_GENERATOR_STATUS_FLAG) UnmarshalBinary(data []byte) error
UnmarshalBinary generic func
type MAV_GOTO ¶
type MAV_GOTO int
MAV_GOTO type. Actions that may be specified in MAV_CMD_OVERRIDE_GOTO to override mission execution.
const ( // MAV_GOTO_DO_HOLD enum. Hold at the current position MAV_GOTO_DO_HOLD MAV_GOTO = 0 // MAV_GOTO_DO_CONTINUE enum. Continue with the next item in mission execution MAV_GOTO_DO_CONTINUE MAV_GOTO = 1 // MAV_GOTO_HOLD_AT_CURRENT_POSITION enum. Hold at the current position of the system MAV_GOTO_HOLD_AT_CURRENT_POSITION MAV_GOTO = 2 // MAV_GOTO_HOLD_AT_SPECIFIED_POSITION enum. Hold at the position specified in the parameters of the DO_HOLD action MAV_GOTO_HOLD_AT_SPECIFIED_POSITION MAV_GOTO = 3 )
func (MAV_GOTO) MarshalBinary ¶
MarshalBinary generic func
func (*MAV_GOTO) UnmarshalBinary ¶
UnmarshalBinary generic func
type MAV_LANDED_STATE ¶
type MAV_LANDED_STATE int
MAV_LANDED_STATE type. Enumeration of landed detector states
const ( // MAV_LANDED_STATE_UNDEFINED enum. MAV landed state is unknown MAV_LANDED_STATE_UNDEFINED MAV_LANDED_STATE = 0 // MAV_LANDED_STATE_ON_GROUND enum. MAV is landed (on ground) MAV_LANDED_STATE_ON_GROUND MAV_LANDED_STATE = 1 // MAV_LANDED_STATE_IN_AIR enum. MAV is in air MAV_LANDED_STATE_IN_AIR MAV_LANDED_STATE = 2 // MAV_LANDED_STATE_TAKEOFF enum. MAV currently taking off MAV_LANDED_STATE_TAKEOFF MAV_LANDED_STATE = 3 // MAV_LANDED_STATE_LANDING enum. MAV currently landing MAV_LANDED_STATE_LANDING MAV_LANDED_STATE = 4 )
func (MAV_LANDED_STATE) Bitmask ¶
func (e MAV_LANDED_STATE) Bitmask() string
Bitmask return string representetion of intersects MAV_LANDED_STATE enums
func (MAV_LANDED_STATE) MarshalBinary ¶
func (e MAV_LANDED_STATE) MarshalBinary() (data []byte, err error)
MarshalBinary generic func
func (MAV_LANDED_STATE) String ¶
func (e MAV_LANDED_STATE) String() string
func (*MAV_LANDED_STATE) UnmarshalBinary ¶
func (e *MAV_LANDED_STATE) UnmarshalBinary(data []byte) error
UnmarshalBinary generic func
type MAV_MISSION_RESULT ¶
type MAV_MISSION_RESULT int
MAV_MISSION_RESULT type. Result of mission operation (in a MISSION_ACK message).
const ( // MAV_MISSION_ACCEPTED enum. mission accepted OK MAV_MISSION_ACCEPTED MAV_MISSION_RESULT = 0 // MAV_MISSION_ERROR enum. Generic error / not accepting mission commands at all right now MAV_MISSION_ERROR MAV_MISSION_RESULT = 1 // MAV_MISSION_UNSUPPORTED_FRAME enum. Coordinate frame is not supported MAV_MISSION_UNSUPPORTED_FRAME MAV_MISSION_RESULT = 2 // MAV_MISSION_UNSUPPORTED enum. Command is not supported MAV_MISSION_UNSUPPORTED MAV_MISSION_RESULT = 3 // MAV_MISSION_NO_SPACE enum. Mission items exceed storage space MAV_MISSION_NO_SPACE MAV_MISSION_RESULT = 4 // MAV_MISSION_INVALID enum. One of the parameters has an invalid value MAV_MISSION_INVALID MAV_MISSION_RESULT = 5 // MAV_MISSION_INVALID_PARAM1 enum. param1 has an invalid value MAV_MISSION_INVALID_PARAM1 MAV_MISSION_RESULT = 6 // MAV_MISSION_INVALID_PARAM2 enum. param2 has an invalid value MAV_MISSION_INVALID_PARAM2 MAV_MISSION_RESULT = 7 // MAV_MISSION_INVALID_PARAM3 enum. param3 has an invalid value MAV_MISSION_INVALID_PARAM3 MAV_MISSION_RESULT = 8 // MAV_MISSION_INVALID_PARAM4 enum. param4 has an invalid value MAV_MISSION_INVALID_PARAM4 MAV_MISSION_RESULT = 9 // MAV_MISSION_INVALID_PARAM5_X enum. x / param5 has an invalid value MAV_MISSION_INVALID_PARAM5_X MAV_MISSION_RESULT = 10 // MAV_MISSION_INVALID_PARAM6_Y enum. y / param6 has an invalid value MAV_MISSION_INVALID_PARAM6_Y MAV_MISSION_RESULT = 11 // MAV_MISSION_INVALID_PARAM7 enum. z / param7 has an invalid value MAV_MISSION_INVALID_PARAM7 MAV_MISSION_RESULT = 12 // MAV_MISSION_INVALID_SEQUENCE enum. Mission item received out of sequence MAV_MISSION_INVALID_SEQUENCE MAV_MISSION_RESULT = 13 // MAV_MISSION_DENIED enum. Not accepting any mission commands from this communication partner MAV_MISSION_DENIED MAV_MISSION_RESULT = 14 // MAV_MISSION_OPERATION_CANCELLED enum. Current mission operation cancelled (e.g. mission upload, mission download) MAV_MISSION_OPERATION_CANCELLED MAV_MISSION_RESULT = 15 )
func (MAV_MISSION_RESULT) Bitmask ¶
func (e MAV_MISSION_RESULT) Bitmask() string
Bitmask return string representetion of intersects MAV_MISSION_RESULT enums
func (MAV_MISSION_RESULT) MarshalBinary ¶
func (e MAV_MISSION_RESULT) MarshalBinary() (data []byte, err error)
MarshalBinary generic func
func (MAV_MISSION_RESULT) String ¶
func (e MAV_MISSION_RESULT) String() string
func (*MAV_MISSION_RESULT) UnmarshalBinary ¶
func (e *MAV_MISSION_RESULT) UnmarshalBinary(data []byte) error
UnmarshalBinary generic func
type MAV_MISSION_TYPE ¶
type MAV_MISSION_TYPE int
MAV_MISSION_TYPE type. Type of mission items being requested/sent in mission protocol.
const ( // MAV_MISSION_TYPE_MISSION enum. Items are mission commands for main mission MAV_MISSION_TYPE_MISSION MAV_MISSION_TYPE = 0 // MAV_MISSION_TYPE_FENCE enum. Specifies GeoFence area(s). Items are MAV_CMD_NAV_FENCE_ GeoFence items MAV_MISSION_TYPE_FENCE MAV_MISSION_TYPE = 1 // MAV_MISSION_TYPE_RALLY enum. Specifies the rally points for the vehicle. Rally points are alternative RTL points. Items are MAV_CMD_NAV_RALLY_POINT rally point items MAV_MISSION_TYPE_RALLY MAV_MISSION_TYPE = 2 // MAV_MISSION_TYPE_ALL enum. Only used in MISSION_CLEAR_ALL to clear all mission types MAV_MISSION_TYPE_ALL MAV_MISSION_TYPE = 255 )
func (MAV_MISSION_TYPE) Bitmask ¶
func (e MAV_MISSION_TYPE) Bitmask() string
Bitmask return string representetion of intersects MAV_MISSION_TYPE enums
func (MAV_MISSION_TYPE) MarshalBinary ¶
func (e MAV_MISSION_TYPE) MarshalBinary() (data []byte, err error)
MarshalBinary generic func
func (MAV_MISSION_TYPE) String ¶
func (e MAV_MISSION_TYPE) String() string
func (*MAV_MISSION_TYPE) UnmarshalBinary ¶
func (e *MAV_MISSION_TYPE) UnmarshalBinary(data []byte) error
UnmarshalBinary generic func
type MAV_MODE ¶
type MAV_MODE int
MAV_MODE type. These defines are predefined OR-combined mode flags. There is no need to use values from this enum, but it simplifies the use of the mode flags. Note that manual input is enabled in all modes as a safety override.
const ( // MAV_MODE_PREFLIGHT enum. System is not ready to fly, booting, calibrating, etc. No flag is set MAV_MODE_PREFLIGHT MAV_MODE = 0 // MAV_MODE_STABILIZE_DISARMED enum. System is allowed to be active, under assisted RC control MAV_MODE_STABILIZE_DISARMED MAV_MODE = 80 // MAV_MODE_STABILIZE_ARMED enum. System is allowed to be active, under assisted RC control MAV_MODE_STABILIZE_ARMED MAV_MODE = 208 // MAV_MODE_MANUAL_DISARMED enum. System is allowed to be active, under manual (RC) control, no stabilization MAV_MODE_MANUAL_DISARMED MAV_MODE = 64 // MAV_MODE_MANUAL_ARMED enum. System is allowed to be active, under manual (RC) control, no stabilization MAV_MODE_MANUAL_ARMED MAV_MODE = 192 // MAV_MODE_GUIDED_DISARMED enum. System is allowed to be active, under autonomous control, manual setpoint MAV_MODE_GUIDED_DISARMED MAV_MODE = 88 // MAV_MODE_GUIDED_ARMED enum. System is allowed to be active, under autonomous control, manual setpoint MAV_MODE_GUIDED_ARMED MAV_MODE = 216 // MAV_MODE_AUTO_DISARMED enum. System is allowed to be active, under autonomous control and navigation (the trajectory is decided onboard and not pre-programmed by waypoints) MAV_MODE_AUTO_DISARMED MAV_MODE = 92 // MAV_MODE_AUTO_ARMED enum. System is allowed to be active, under autonomous control and navigation (the trajectory is decided onboard and not pre-programmed by waypoints) MAV_MODE_AUTO_ARMED MAV_MODE = 220 // MAV_MODE_TEST_DISARMED enum. UNDEFINED mode. This solely depends on the autopilot - use with caution, intended for developers only MAV_MODE_TEST_DISARMED MAV_MODE = 66 // MAV_MODE_TEST_ARMED enum. UNDEFINED mode. This solely depends on the autopilot - use with caution, intended for developers only MAV_MODE_TEST_ARMED MAV_MODE = 194 )
func (MAV_MODE) MarshalBinary ¶
MarshalBinary generic func
func (*MAV_MODE) UnmarshalBinary ¶
UnmarshalBinary generic func
type MAV_MODE_FLAG ¶
type MAV_MODE_FLAG int
MAV_MODE_FLAG type. These flags encode the MAV mode.
const ( // MAV_MODE_FLAG_SAFETY_ARMED enum. 0b10000000 MAV safety set to armed. Motors are enabled / running / can start. Ready to fly. Additional note: this flag is to be ignore when sent in the command MAV_CMD_DO_SET_MODE and MAV_CMD_COMPONENT_ARM_DISARM shall be used instead. The flag can still be used to report the armed state MAV_MODE_FLAG_SAFETY_ARMED MAV_MODE_FLAG = 128 // MAV_MODE_FLAG_MANUAL_INPUT_ENABLED enum. 0b01000000 remote control input is enabled MAV_MODE_FLAG_MANUAL_INPUT_ENABLED MAV_MODE_FLAG = 64 // MAV_MODE_FLAG_HIL_ENABLED enum. 0b00100000 hardware in the loop simulation. All motors / actuators are blocked, but internal software is full operational MAV_MODE_FLAG_HIL_ENABLED MAV_MODE_FLAG = 32 // MAV_MODE_FLAG_STABILIZE_ENABLED enum. 0b00010000 system stabilizes electronically its attitude (and optionally position). It needs however further control inputs to move around MAV_MODE_FLAG_STABILIZE_ENABLED MAV_MODE_FLAG = 16 // MAV_MODE_FLAG_GUIDED_ENABLED enum. 0b00001000 guided mode enabled, system flies waypoints / mission items MAV_MODE_FLAG_GUIDED_ENABLED MAV_MODE_FLAG = 8 // MAV_MODE_FLAG_AUTO_ENABLED enum. 0b00000100 autonomous mode enabled, system finds its own goal positions. Guided flag can be set or not, depends on the actual implementation MAV_MODE_FLAG_AUTO_ENABLED MAV_MODE_FLAG = 4 // MAV_MODE_FLAG_TEST_ENABLED enum. 0b00000010 system has a test mode enabled. This flag is intended for temporary system tests and should not be used for stable implementations MAV_MODE_FLAG_TEST_ENABLED MAV_MODE_FLAG = 2 // MAV_MODE_FLAG_CUSTOM_MODE_ENABLED enum. 0b00000001 Reserved for future use MAV_MODE_FLAG_CUSTOM_MODE_ENABLED MAV_MODE_FLAG = 1 )
func (MAV_MODE_FLAG) Bitmask ¶
func (e MAV_MODE_FLAG) Bitmask() string
Bitmask return string representetion of intersects MAV_MODE_FLAG enums
func (MAV_MODE_FLAG) MarshalBinary ¶
func (e MAV_MODE_FLAG) MarshalBinary() (data []byte, err error)
MarshalBinary generic func
func (MAV_MODE_FLAG) String ¶
func (e MAV_MODE_FLAG) String() string
func (*MAV_MODE_FLAG) UnmarshalBinary ¶
func (e *MAV_MODE_FLAG) UnmarshalBinary(data []byte) error
UnmarshalBinary generic func
type MAV_MODE_FLAG_DECODE_POSITION ¶
type MAV_MODE_FLAG_DECODE_POSITION int
MAV_MODE_FLAG_DECODE_POSITION type. These values encode the bit positions of the decode position. These values can be used to read the value of a flag bit by combining the base_mode variable with AND with the flag position value. The result will be either 0 or 1, depending on if the flag is set or not.
const ( // MAV_MODE_FLAG_DECODE_POSITION_SAFETY enum. First bit: 10000000 MAV_MODE_FLAG_DECODE_POSITION_SAFETY MAV_MODE_FLAG_DECODE_POSITION = 128 // MAV_MODE_FLAG_DECODE_POSITION_MANUAL enum. Second bit: 01000000 MAV_MODE_FLAG_DECODE_POSITION_MANUAL MAV_MODE_FLAG_DECODE_POSITION = 64 // MAV_MODE_FLAG_DECODE_POSITION_HIL enum. Third bit: 00100000 MAV_MODE_FLAG_DECODE_POSITION_HIL MAV_MODE_FLAG_DECODE_POSITION = 32 // MAV_MODE_FLAG_DECODE_POSITION_STABILIZE enum. Fourth bit: 00010000 MAV_MODE_FLAG_DECODE_POSITION_STABILIZE MAV_MODE_FLAG_DECODE_POSITION = 16 // MAV_MODE_FLAG_DECODE_POSITION_GUIDED enum. Fifth bit: 00001000 MAV_MODE_FLAG_DECODE_POSITION_GUIDED MAV_MODE_FLAG_DECODE_POSITION = 8 // MAV_MODE_FLAG_DECODE_POSITION_AUTO enum. Sixth bit: 00000100 MAV_MODE_FLAG_DECODE_POSITION_AUTO MAV_MODE_FLAG_DECODE_POSITION = 4 // MAV_MODE_FLAG_DECODE_POSITION_TEST enum. Seventh bit: 00000010 MAV_MODE_FLAG_DECODE_POSITION_TEST MAV_MODE_FLAG_DECODE_POSITION = 2 // MAV_MODE_FLAG_DECODE_POSITION_CUSTOM_MODE enum. Eighth bit: 00000001 MAV_MODE_FLAG_DECODE_POSITION_CUSTOM_MODE MAV_MODE_FLAG_DECODE_POSITION = 1 )
func (MAV_MODE_FLAG_DECODE_POSITION) Bitmask ¶
func (e MAV_MODE_FLAG_DECODE_POSITION) Bitmask() string
Bitmask return string representetion of intersects MAV_MODE_FLAG_DECODE_POSITION enums
func (MAV_MODE_FLAG_DECODE_POSITION) MarshalBinary ¶
func (e MAV_MODE_FLAG_DECODE_POSITION) MarshalBinary() (data []byte, err error)
MarshalBinary generic func
func (MAV_MODE_FLAG_DECODE_POSITION) String ¶
func (e MAV_MODE_FLAG_DECODE_POSITION) String() string
func (*MAV_MODE_FLAG_DECODE_POSITION) UnmarshalBinary ¶
func (e *MAV_MODE_FLAG_DECODE_POSITION) UnmarshalBinary(data []byte) error
UnmarshalBinary generic func
type MAV_MOUNT_MODE ¶
type MAV_MOUNT_MODE int
MAV_MOUNT_MODE type. Enumeration of possible mount operation modes. This message is used by obsolete/deprecated gimbal messages.
const ( // MAV_MOUNT_MODE_RETRACT enum. Load and keep safe position (Roll,Pitch,Yaw) from permant memory and stop stabilization MAV_MOUNT_MODE_RETRACT MAV_MOUNT_MODE = 0 // MAV_MOUNT_MODE_NEUTRAL enum. Load and keep neutral position (Roll,Pitch,Yaw) from permanent memory MAV_MOUNT_MODE_NEUTRAL MAV_MOUNT_MODE = 1 // MAV_MOUNT_MODE_MAVLINK_TARGETING enum. Load neutral position and start MAVLink Roll,Pitch,Yaw control with stabilization MAV_MOUNT_MODE_MAVLINK_TARGETING MAV_MOUNT_MODE = 2 // MAV_MOUNT_MODE_RC_TARGETING enum. Load neutral position and start RC Roll,Pitch,Yaw control with stabilization MAV_MOUNT_MODE_RC_TARGETING MAV_MOUNT_MODE = 3 // MAV_MOUNT_MODE_GPS_POINT enum. Load neutral position and start to point to Lat,Lon,Alt MAV_MOUNT_MODE_GPS_POINT MAV_MOUNT_MODE = 4 // MAV_MOUNT_MODE_SYSID_TARGET enum. Gimbal tracks system with specified system ID MAV_MOUNT_MODE_SYSID_TARGET MAV_MOUNT_MODE = 5 // MAV_MOUNT_MODE_HOME_LOCATION enum. Gimbal tracks home location MAV_MOUNT_MODE_HOME_LOCATION MAV_MOUNT_MODE = 6 )
func (MAV_MOUNT_MODE) Bitmask ¶
func (e MAV_MOUNT_MODE) Bitmask() string
Bitmask return string representetion of intersects MAV_MOUNT_MODE enums
func (MAV_MOUNT_MODE) MarshalBinary ¶
func (e MAV_MOUNT_MODE) MarshalBinary() (data []byte, err error)
MarshalBinary generic func
func (MAV_MOUNT_MODE) String ¶
func (e MAV_MOUNT_MODE) String() string
func (*MAV_MOUNT_MODE) UnmarshalBinary ¶
func (e *MAV_MOUNT_MODE) UnmarshalBinary(data []byte) error
UnmarshalBinary generic func
type MAV_ODID_AUTH_TYPE ¶
type MAV_ODID_AUTH_TYPE int
MAV_ODID_AUTH_TYPE type
const ( // MAV_ODID_AUTH_TYPE_NONE enum. No authentication type is specified MAV_ODID_AUTH_TYPE_NONE MAV_ODID_AUTH_TYPE = 0 // MAV_ODID_AUTH_TYPE_UAS_ID_SIGNATURE enum. Signature for the UAS (Unmanned Aircraft System) ID MAV_ODID_AUTH_TYPE_UAS_ID_SIGNATURE MAV_ODID_AUTH_TYPE = 1 // MAV_ODID_AUTH_TYPE_OPERATOR_ID_SIGNATURE enum. Signature for the Operator ID MAV_ODID_AUTH_TYPE_OPERATOR_ID_SIGNATURE MAV_ODID_AUTH_TYPE = 2 // MAV_ODID_AUTH_TYPE_MESSAGE_SET_SIGNATURE enum. Signature for the entire message set MAV_ODID_AUTH_TYPE_MESSAGE_SET_SIGNATURE MAV_ODID_AUTH_TYPE = 3 // MAV_ODID_AUTH_TYPE_NETWORK_REMOTE_ID enum. Authentication is provided by Network Remote ID MAV_ODID_AUTH_TYPE_NETWORK_REMOTE_ID MAV_ODID_AUTH_TYPE = 4 )
func (MAV_ODID_AUTH_TYPE) Bitmask ¶
func (e MAV_ODID_AUTH_TYPE) Bitmask() string
Bitmask return string representetion of intersects MAV_ODID_AUTH_TYPE enums
func (MAV_ODID_AUTH_TYPE) MarshalBinary ¶
func (e MAV_ODID_AUTH_TYPE) MarshalBinary() (data []byte, err error)
MarshalBinary generic func
func (MAV_ODID_AUTH_TYPE) String ¶
func (e MAV_ODID_AUTH_TYPE) String() string
func (*MAV_ODID_AUTH_TYPE) UnmarshalBinary ¶
func (e *MAV_ODID_AUTH_TYPE) UnmarshalBinary(data []byte) error
UnmarshalBinary generic func
type MAV_ODID_CATEGORY_EU ¶
type MAV_ODID_CATEGORY_EU int
MAV_ODID_CATEGORY_EU type
const ( // MAV_ODID_CATEGORY_EU_UNDECLARED enum. The category for the UA, according to the EU specification, is undeclared MAV_ODID_CATEGORY_EU_UNDECLARED MAV_ODID_CATEGORY_EU = 0 // MAV_ODID_CATEGORY_EU_OPEN enum. The category for the UA, according to the EU specification, is the Open category MAV_ODID_CATEGORY_EU_OPEN MAV_ODID_CATEGORY_EU = 1 // MAV_ODID_CATEGORY_EU_SPECIFIC enum. The category for the UA, according to the EU specification, is the Specific category MAV_ODID_CATEGORY_EU_SPECIFIC MAV_ODID_CATEGORY_EU = 2 // MAV_ODID_CATEGORY_EU_CERTIFIED enum. The category for the UA, according to the EU specification, is the Certified category MAV_ODID_CATEGORY_EU_CERTIFIED MAV_ODID_CATEGORY_EU = 3 )
func (MAV_ODID_CATEGORY_EU) Bitmask ¶
func (e MAV_ODID_CATEGORY_EU) Bitmask() string
Bitmask return string representetion of intersects MAV_ODID_CATEGORY_EU enums
func (MAV_ODID_CATEGORY_EU) MarshalBinary ¶
func (e MAV_ODID_CATEGORY_EU) MarshalBinary() (data []byte, err error)
MarshalBinary generic func
func (MAV_ODID_CATEGORY_EU) String ¶
func (e MAV_ODID_CATEGORY_EU) String() string
func (*MAV_ODID_CATEGORY_EU) UnmarshalBinary ¶
func (e *MAV_ODID_CATEGORY_EU) UnmarshalBinary(data []byte) error
UnmarshalBinary generic func
type MAV_ODID_CLASSIFICATION_TYPE ¶
type MAV_ODID_CLASSIFICATION_TYPE int
MAV_ODID_CLASSIFICATION_TYPE type
const ( // MAV_ODID_CLASSIFICATION_TYPE_UNDECLARED enum. The classification type for the UA is undeclared MAV_ODID_CLASSIFICATION_TYPE_UNDECLARED MAV_ODID_CLASSIFICATION_TYPE = 0 // MAV_ODID_CLASSIFICATION_TYPE_EU enum. The classification type for the UA follows EU (European Union) specifications MAV_ODID_CLASSIFICATION_TYPE_EU MAV_ODID_CLASSIFICATION_TYPE = 1 )
func (MAV_ODID_CLASSIFICATION_TYPE) Bitmask ¶
func (e MAV_ODID_CLASSIFICATION_TYPE) Bitmask() string
Bitmask return string representetion of intersects MAV_ODID_CLASSIFICATION_TYPE enums
func (MAV_ODID_CLASSIFICATION_TYPE) MarshalBinary ¶
func (e MAV_ODID_CLASSIFICATION_TYPE) MarshalBinary() (data []byte, err error)
MarshalBinary generic func
func (MAV_ODID_CLASSIFICATION_TYPE) String ¶
func (e MAV_ODID_CLASSIFICATION_TYPE) String() string
func (*MAV_ODID_CLASSIFICATION_TYPE) UnmarshalBinary ¶
func (e *MAV_ODID_CLASSIFICATION_TYPE) UnmarshalBinary(data []byte) error
UnmarshalBinary generic func
type MAV_ODID_CLASS_EU ¶
type MAV_ODID_CLASS_EU int
MAV_ODID_CLASS_EU type
const ( // MAV_ODID_CLASS_EU_UNDECLARED enum. The class for the UA, according to the EU specification, is undeclared MAV_ODID_CLASS_EU_UNDECLARED MAV_ODID_CLASS_EU = 0 // MAV_ODID_CLASS_EU_CLASS_0 enum. The class for the UA, according to the EU specification, is Class 0 MAV_ODID_CLASS_EU_CLASS_0 MAV_ODID_CLASS_EU = 1 // MAV_ODID_CLASS_EU_CLASS_1 enum. The class for the UA, according to the EU specification, is Class 1 MAV_ODID_CLASS_EU_CLASS_1 MAV_ODID_CLASS_EU = 2 // MAV_ODID_CLASS_EU_CLASS_2 enum. The class for the UA, according to the EU specification, is Class 2 MAV_ODID_CLASS_EU_CLASS_2 MAV_ODID_CLASS_EU = 3 // MAV_ODID_CLASS_EU_CLASS_3 enum. The class for the UA, according to the EU specification, is Class 3 MAV_ODID_CLASS_EU_CLASS_3 MAV_ODID_CLASS_EU = 4 // MAV_ODID_CLASS_EU_CLASS_4 enum. The class for the UA, according to the EU specification, is Class 4 MAV_ODID_CLASS_EU_CLASS_4 MAV_ODID_CLASS_EU = 5 // MAV_ODID_CLASS_EU_CLASS_5 enum. The class for the UA, according to the EU specification, is Class 5 MAV_ODID_CLASS_EU_CLASS_5 MAV_ODID_CLASS_EU = 6 // MAV_ODID_CLASS_EU_CLASS_6 enum. The class for the UA, according to the EU specification, is Class 6 MAV_ODID_CLASS_EU_CLASS_6 MAV_ODID_CLASS_EU = 7 )
func (MAV_ODID_CLASS_EU) Bitmask ¶
func (e MAV_ODID_CLASS_EU) Bitmask() string
Bitmask return string representetion of intersects MAV_ODID_CLASS_EU enums
func (MAV_ODID_CLASS_EU) MarshalBinary ¶
func (e MAV_ODID_CLASS_EU) MarshalBinary() (data []byte, err error)
MarshalBinary generic func
func (MAV_ODID_CLASS_EU) String ¶
func (e MAV_ODID_CLASS_EU) String() string
func (*MAV_ODID_CLASS_EU) UnmarshalBinary ¶
func (e *MAV_ODID_CLASS_EU) UnmarshalBinary(data []byte) error
UnmarshalBinary generic func
type MAV_ODID_DESC_TYPE ¶
type MAV_ODID_DESC_TYPE int
MAV_ODID_DESC_TYPE type
const ( // MAV_ODID_DESC_TYPE_TEXT enum. Free-form text description of the purpose of the flight MAV_ODID_DESC_TYPE_TEXT MAV_ODID_DESC_TYPE = 0 )
func (MAV_ODID_DESC_TYPE) Bitmask ¶
func (e MAV_ODID_DESC_TYPE) Bitmask() string
Bitmask return string representetion of intersects MAV_ODID_DESC_TYPE enums
func (MAV_ODID_DESC_TYPE) MarshalBinary ¶
func (e MAV_ODID_DESC_TYPE) MarshalBinary() (data []byte, err error)
MarshalBinary generic func
func (MAV_ODID_DESC_TYPE) String ¶
func (e MAV_ODID_DESC_TYPE) String() string
func (*MAV_ODID_DESC_TYPE) UnmarshalBinary ¶
func (e *MAV_ODID_DESC_TYPE) UnmarshalBinary(data []byte) error
UnmarshalBinary generic func
type MAV_ODID_HEIGHT_REF ¶
type MAV_ODID_HEIGHT_REF int
MAV_ODID_HEIGHT_REF type
const ( // MAV_ODID_HEIGHT_REF_OVER_TAKEOFF enum. The height field is relative to the take-off location MAV_ODID_HEIGHT_REF_OVER_TAKEOFF MAV_ODID_HEIGHT_REF = 0 // MAV_ODID_HEIGHT_REF_OVER_GROUND enum. The height field is relative to ground MAV_ODID_HEIGHT_REF_OVER_GROUND MAV_ODID_HEIGHT_REF = 1 )
func (MAV_ODID_HEIGHT_REF) Bitmask ¶
func (e MAV_ODID_HEIGHT_REF) Bitmask() string
Bitmask return string representetion of intersects MAV_ODID_HEIGHT_REF enums
func (MAV_ODID_HEIGHT_REF) MarshalBinary ¶
func (e MAV_ODID_HEIGHT_REF) MarshalBinary() (data []byte, err error)
MarshalBinary generic func
func (MAV_ODID_HEIGHT_REF) String ¶
func (e MAV_ODID_HEIGHT_REF) String() string
func (*MAV_ODID_HEIGHT_REF) UnmarshalBinary ¶
func (e *MAV_ODID_HEIGHT_REF) UnmarshalBinary(data []byte) error
UnmarshalBinary generic func
type MAV_ODID_HOR_ACC ¶
type MAV_ODID_HOR_ACC int
MAV_ODID_HOR_ACC type
const ( // MAV_ODID_HOR_ACC_UNKNOWN enum. The horizontal accuracy is unknown MAV_ODID_HOR_ACC_UNKNOWN MAV_ODID_HOR_ACC = 0 // MAV_ODID_HOR_ACC_10NM enum. The horizontal accuracy is smaller than 10 Nautical Miles. 18.52 km MAV_ODID_HOR_ACC_10NM MAV_ODID_HOR_ACC = 1 // MAV_ODID_HOR_ACC_4NM enum. The horizontal accuracy is smaller than 4 Nautical Miles. 7.408 km MAV_ODID_HOR_ACC_4NM MAV_ODID_HOR_ACC = 2 // MAV_ODID_HOR_ACC_2NM enum. The horizontal accuracy is smaller than 2 Nautical Miles. 3.704 km MAV_ODID_HOR_ACC_2NM MAV_ODID_HOR_ACC = 3 // MAV_ODID_HOR_ACC_1NM enum. The horizontal accuracy is smaller than 1 Nautical Miles. 1.852 km MAV_ODID_HOR_ACC_1NM MAV_ODID_HOR_ACC = 4 // MAV_ODID_HOR_ACC_0_5NM enum. The horizontal accuracy is smaller than 0.5 Nautical Miles. 926 m MAV_ODID_HOR_ACC_0_5NM MAV_ODID_HOR_ACC = 5 // MAV_ODID_HOR_ACC_0_3NM enum. The horizontal accuracy is smaller than 0.3 Nautical Miles. 555.6 m MAV_ODID_HOR_ACC_0_3NM MAV_ODID_HOR_ACC = 6 // MAV_ODID_HOR_ACC_0_1NM enum. The horizontal accuracy is smaller than 0.1 Nautical Miles. 185.2 m MAV_ODID_HOR_ACC_0_1NM MAV_ODID_HOR_ACC = 7 // MAV_ODID_HOR_ACC_0_05NM enum. The horizontal accuracy is smaller than 0.05 Nautical Miles. 92.6 m MAV_ODID_HOR_ACC_0_05NM MAV_ODID_HOR_ACC = 8 // MAV_ODID_HOR_ACC_30_METER enum. The horizontal accuracy is smaller than 30 meter MAV_ODID_HOR_ACC_30_METER MAV_ODID_HOR_ACC = 9 // MAV_ODID_HOR_ACC_10_METER enum. The horizontal accuracy is smaller than 10 meter MAV_ODID_HOR_ACC_10_METER MAV_ODID_HOR_ACC = 10 // MAV_ODID_HOR_ACC_3_METER enum. The horizontal accuracy is smaller than 3 meter MAV_ODID_HOR_ACC_3_METER MAV_ODID_HOR_ACC = 11 // MAV_ODID_HOR_ACC_1_METER enum. The horizontal accuracy is smaller than 1 meter MAV_ODID_HOR_ACC_1_METER MAV_ODID_HOR_ACC = 12 )
func (MAV_ODID_HOR_ACC) Bitmask ¶
func (e MAV_ODID_HOR_ACC) Bitmask() string
Bitmask return string representetion of intersects MAV_ODID_HOR_ACC enums
func (MAV_ODID_HOR_ACC) MarshalBinary ¶
func (e MAV_ODID_HOR_ACC) MarshalBinary() (data []byte, err error)
MarshalBinary generic func
func (MAV_ODID_HOR_ACC) String ¶
func (e MAV_ODID_HOR_ACC) String() string
func (*MAV_ODID_HOR_ACC) UnmarshalBinary ¶
func (e *MAV_ODID_HOR_ACC) UnmarshalBinary(data []byte) error
UnmarshalBinary generic func
type MAV_ODID_ID_TYPE ¶
type MAV_ODID_ID_TYPE int
MAV_ODID_ID_TYPE type
const ( // MAV_ODID_ID_TYPE_NONE enum. No type defined MAV_ODID_ID_TYPE_NONE MAV_ODID_ID_TYPE = 0 // MAV_ODID_ID_TYPE_SERIAL_NUMBER enum. Manufacturer Serial Number (ANSI/CTA-2063 format) MAV_ODID_ID_TYPE_SERIAL_NUMBER MAV_ODID_ID_TYPE = 1 // MAV_ODID_ID_TYPE_CAA_REGISTRATION_ID enum. CAA (Civil Aviation Authority) registered ID. Format: [ICAO Country Code].[CAA Assigned ID] MAV_ODID_ID_TYPE_CAA_REGISTRATION_ID MAV_ODID_ID_TYPE = 2 // MAV_ODID_ID_TYPE_UTM_ASSIGNED_UUID enum. UTM (Unmanned Traffic Management) assigned UUID (RFC4122) MAV_ODID_ID_TYPE_UTM_ASSIGNED_UUID MAV_ODID_ID_TYPE = 3 )
func (MAV_ODID_ID_TYPE) Bitmask ¶
func (e MAV_ODID_ID_TYPE) Bitmask() string
Bitmask return string representetion of intersects MAV_ODID_ID_TYPE enums
func (MAV_ODID_ID_TYPE) MarshalBinary ¶
func (e MAV_ODID_ID_TYPE) MarshalBinary() (data []byte, err error)
MarshalBinary generic func
func (MAV_ODID_ID_TYPE) String ¶
func (e MAV_ODID_ID_TYPE) String() string
func (*MAV_ODID_ID_TYPE) UnmarshalBinary ¶
func (e *MAV_ODID_ID_TYPE) UnmarshalBinary(data []byte) error
UnmarshalBinary generic func
type MAV_ODID_OPERATOR_ID_TYPE ¶
type MAV_ODID_OPERATOR_ID_TYPE int
MAV_ODID_OPERATOR_ID_TYPE type
const ( // MAV_ODID_OPERATOR_ID_TYPE_CAA enum. CAA (Civil Aviation Authority) registered operator ID MAV_ODID_OPERATOR_ID_TYPE_CAA MAV_ODID_OPERATOR_ID_TYPE = 0 )
func (MAV_ODID_OPERATOR_ID_TYPE) Bitmask ¶
func (e MAV_ODID_OPERATOR_ID_TYPE) Bitmask() string
Bitmask return string representetion of intersects MAV_ODID_OPERATOR_ID_TYPE enums
func (MAV_ODID_OPERATOR_ID_TYPE) MarshalBinary ¶
func (e MAV_ODID_OPERATOR_ID_TYPE) MarshalBinary() (data []byte, err error)
MarshalBinary generic func
func (MAV_ODID_OPERATOR_ID_TYPE) String ¶
func (e MAV_ODID_OPERATOR_ID_TYPE) String() string
func (*MAV_ODID_OPERATOR_ID_TYPE) UnmarshalBinary ¶
func (e *MAV_ODID_OPERATOR_ID_TYPE) UnmarshalBinary(data []byte) error
UnmarshalBinary generic func
type MAV_ODID_OPERATOR_LOCATION_TYPE ¶
type MAV_ODID_OPERATOR_LOCATION_TYPE int
MAV_ODID_OPERATOR_LOCATION_TYPE type
const ( // MAV_ODID_OPERATOR_LOCATION_TYPE_TAKEOFF enum. The location of the operator is the same as the take-off location MAV_ODID_OPERATOR_LOCATION_TYPE_TAKEOFF MAV_ODID_OPERATOR_LOCATION_TYPE = 0 // MAV_ODID_OPERATOR_LOCATION_TYPE_LIVE_GNSS enum. The location of the operator is based on live GNSS data MAV_ODID_OPERATOR_LOCATION_TYPE_LIVE_GNSS MAV_ODID_OPERATOR_LOCATION_TYPE = 1 // MAV_ODID_OPERATOR_LOCATION_TYPE_FIXED enum. The location of the operator is a fixed location MAV_ODID_OPERATOR_LOCATION_TYPE_FIXED MAV_ODID_OPERATOR_LOCATION_TYPE = 2 )
func (MAV_ODID_OPERATOR_LOCATION_TYPE) Bitmask ¶
func (e MAV_ODID_OPERATOR_LOCATION_TYPE) Bitmask() string
Bitmask return string representetion of intersects MAV_ODID_OPERATOR_LOCATION_TYPE enums
func (MAV_ODID_OPERATOR_LOCATION_TYPE) MarshalBinary ¶
func (e MAV_ODID_OPERATOR_LOCATION_TYPE) MarshalBinary() (data []byte, err error)
MarshalBinary generic func
func (MAV_ODID_OPERATOR_LOCATION_TYPE) String ¶
func (e MAV_ODID_OPERATOR_LOCATION_TYPE) String() string
func (*MAV_ODID_OPERATOR_LOCATION_TYPE) UnmarshalBinary ¶
func (e *MAV_ODID_OPERATOR_LOCATION_TYPE) UnmarshalBinary(data []byte) error
UnmarshalBinary generic func
type MAV_ODID_SPEED_ACC ¶
type MAV_ODID_SPEED_ACC int
MAV_ODID_SPEED_ACC type
const ( // MAV_ODID_SPEED_ACC_UNKNOWN enum. The speed accuracy is unknown MAV_ODID_SPEED_ACC_UNKNOWN MAV_ODID_SPEED_ACC = 0 // MAV_ODID_SPEED_ACC_10_METERS_PER_SECOND enum. The speed accuracy is smaller than 10 meters per second MAV_ODID_SPEED_ACC_10_METERS_PER_SECOND MAV_ODID_SPEED_ACC = 1 // MAV_ODID_SPEED_ACC_3_METERS_PER_SECOND enum. The speed accuracy is smaller than 3 meters per second MAV_ODID_SPEED_ACC_3_METERS_PER_SECOND MAV_ODID_SPEED_ACC = 2 // MAV_ODID_SPEED_ACC_1_METERS_PER_SECOND enum. The speed accuracy is smaller than 1 meters per second MAV_ODID_SPEED_ACC_1_METERS_PER_SECOND MAV_ODID_SPEED_ACC = 3 // MAV_ODID_SPEED_ACC_0_3_METERS_PER_SECOND enum. The speed accuracy is smaller than 0.3 meters per second MAV_ODID_SPEED_ACC_0_3_METERS_PER_SECOND MAV_ODID_SPEED_ACC = 4 )
func (MAV_ODID_SPEED_ACC) Bitmask ¶
func (e MAV_ODID_SPEED_ACC) Bitmask() string
Bitmask return string representetion of intersects MAV_ODID_SPEED_ACC enums
func (MAV_ODID_SPEED_ACC) MarshalBinary ¶
func (e MAV_ODID_SPEED_ACC) MarshalBinary() (data []byte, err error)
MarshalBinary generic func
func (MAV_ODID_SPEED_ACC) String ¶
func (e MAV_ODID_SPEED_ACC) String() string
func (*MAV_ODID_SPEED_ACC) UnmarshalBinary ¶
func (e *MAV_ODID_SPEED_ACC) UnmarshalBinary(data []byte) error
UnmarshalBinary generic func
type MAV_ODID_STATUS ¶
type MAV_ODID_STATUS int
MAV_ODID_STATUS type
const ( // MAV_ODID_STATUS_UNDECLARED enum. The status of the (UA) Unmanned Aircraft is undefined MAV_ODID_STATUS_UNDECLARED MAV_ODID_STATUS = 0 // MAV_ODID_STATUS_GROUND enum. The UA is on the ground MAV_ODID_STATUS_GROUND MAV_ODID_STATUS = 1 // MAV_ODID_STATUS_AIRBORNE enum. The UA is in the air MAV_ODID_STATUS_AIRBORNE MAV_ODID_STATUS = 2 // MAV_ODID_STATUS_EMERGENCY enum. The UA is having an emergency MAV_ODID_STATUS_EMERGENCY MAV_ODID_STATUS = 3 )
func (MAV_ODID_STATUS) Bitmask ¶
func (e MAV_ODID_STATUS) Bitmask() string
Bitmask return string representetion of intersects MAV_ODID_STATUS enums
func (MAV_ODID_STATUS) MarshalBinary ¶
func (e MAV_ODID_STATUS) MarshalBinary() (data []byte, err error)
MarshalBinary generic func
func (MAV_ODID_STATUS) String ¶
func (e MAV_ODID_STATUS) String() string
func (*MAV_ODID_STATUS) UnmarshalBinary ¶
func (e *MAV_ODID_STATUS) UnmarshalBinary(data []byte) error
UnmarshalBinary generic func
type MAV_ODID_TIME_ACC ¶
type MAV_ODID_TIME_ACC int
MAV_ODID_TIME_ACC type
const ( // MAV_ODID_TIME_ACC_UNKNOWN enum. The timestamp accuracy is unknown MAV_ODID_TIME_ACC_UNKNOWN MAV_ODID_TIME_ACC = 0 // MAV_ODID_TIME_ACC_0_1_SECOND enum. The timestamp accuracy is smaller than or equal to 0.1 second MAV_ODID_TIME_ACC_0_1_SECOND MAV_ODID_TIME_ACC = 1 // MAV_ODID_TIME_ACC_0_2_SECOND enum. The timestamp accuracy is smaller than or equal to 0.2 second MAV_ODID_TIME_ACC_0_2_SECOND MAV_ODID_TIME_ACC = 2 // MAV_ODID_TIME_ACC_0_3_SECOND enum. The timestamp accuracy is smaller than or equal to 0.3 second MAV_ODID_TIME_ACC_0_3_SECOND MAV_ODID_TIME_ACC = 3 // MAV_ODID_TIME_ACC_0_4_SECOND enum. The timestamp accuracy is smaller than or equal to 0.4 second MAV_ODID_TIME_ACC_0_4_SECOND MAV_ODID_TIME_ACC = 4 // MAV_ODID_TIME_ACC_0_5_SECOND enum. The timestamp accuracy is smaller than or equal to 0.5 second MAV_ODID_TIME_ACC_0_5_SECOND MAV_ODID_TIME_ACC = 5 // MAV_ODID_TIME_ACC_0_6_SECOND enum. The timestamp accuracy is smaller than or equal to 0.6 second MAV_ODID_TIME_ACC_0_6_SECOND MAV_ODID_TIME_ACC = 6 // MAV_ODID_TIME_ACC_0_7_SECOND enum. The timestamp accuracy is smaller than or equal to 0.7 second MAV_ODID_TIME_ACC_0_7_SECOND MAV_ODID_TIME_ACC = 7 // MAV_ODID_TIME_ACC_0_8_SECOND enum. The timestamp accuracy is smaller than or equal to 0.8 second MAV_ODID_TIME_ACC_0_8_SECOND MAV_ODID_TIME_ACC = 8 // MAV_ODID_TIME_ACC_0_9_SECOND enum. The timestamp accuracy is smaller than or equal to 0.9 second MAV_ODID_TIME_ACC_0_9_SECOND MAV_ODID_TIME_ACC = 9 // MAV_ODID_TIME_ACC_1_0_SECOND enum. The timestamp accuracy is smaller than or equal to 1.0 second MAV_ODID_TIME_ACC_1_0_SECOND MAV_ODID_TIME_ACC = 10 // MAV_ODID_TIME_ACC_1_1_SECOND enum. The timestamp accuracy is smaller than or equal to 1.1 second MAV_ODID_TIME_ACC_1_1_SECOND MAV_ODID_TIME_ACC = 11 // MAV_ODID_TIME_ACC_1_2_SECOND enum. The timestamp accuracy is smaller than or equal to 1.2 second MAV_ODID_TIME_ACC_1_2_SECOND MAV_ODID_TIME_ACC = 12 // MAV_ODID_TIME_ACC_1_3_SECOND enum. The timestamp accuracy is smaller than or equal to 1.3 second MAV_ODID_TIME_ACC_1_3_SECOND MAV_ODID_TIME_ACC = 13 // MAV_ODID_TIME_ACC_1_4_SECOND enum. The timestamp accuracy is smaller than or equal to 1.4 second MAV_ODID_TIME_ACC_1_4_SECOND MAV_ODID_TIME_ACC = 14 // MAV_ODID_TIME_ACC_1_5_SECOND enum. The timestamp accuracy is smaller than or equal to 1.5 second MAV_ODID_TIME_ACC_1_5_SECOND MAV_ODID_TIME_ACC = 15 )
func (MAV_ODID_TIME_ACC) Bitmask ¶
func (e MAV_ODID_TIME_ACC) Bitmask() string
Bitmask return string representetion of intersects MAV_ODID_TIME_ACC enums
func (MAV_ODID_TIME_ACC) MarshalBinary ¶
func (e MAV_ODID_TIME_ACC) MarshalBinary() (data []byte, err error)
MarshalBinary generic func
func (MAV_ODID_TIME_ACC) String ¶
func (e MAV_ODID_TIME_ACC) String() string
func (*MAV_ODID_TIME_ACC) UnmarshalBinary ¶
func (e *MAV_ODID_TIME_ACC) UnmarshalBinary(data []byte) error
UnmarshalBinary generic func
type MAV_ODID_UA_TYPE ¶
type MAV_ODID_UA_TYPE int
MAV_ODID_UA_TYPE type
const ( // MAV_ODID_UA_TYPE_NONE enum. No UA (Unmanned Aircraft) type defined MAV_ODID_UA_TYPE_NONE MAV_ODID_UA_TYPE = 0 // MAV_ODID_UA_TYPE_AEROPLANE enum. Aeroplane/Airplane. Fixed wing MAV_ODID_UA_TYPE_AEROPLANE MAV_ODID_UA_TYPE = 1 // MAV_ODID_UA_TYPE_HELICOPTER_OR_MULTIROTOR enum. Helicopter or multirotor MAV_ODID_UA_TYPE_HELICOPTER_OR_MULTIROTOR MAV_ODID_UA_TYPE = 2 // MAV_ODID_UA_TYPE_GYROPLANE enum. Gyroplane MAV_ODID_UA_TYPE_GYROPLANE MAV_ODID_UA_TYPE = 3 // MAV_ODID_UA_TYPE_HYBRID_LIFT enum. VTOL (Vertical Take-Off and Landing). Fixed wing aircraft that can take off vertically MAV_ODID_UA_TYPE_HYBRID_LIFT MAV_ODID_UA_TYPE = 4 // MAV_ODID_UA_TYPE_ORNITHOPTER enum. Ornithopter MAV_ODID_UA_TYPE_ORNITHOPTER MAV_ODID_UA_TYPE = 5 // MAV_ODID_UA_TYPE_GLIDER enum. Glider MAV_ODID_UA_TYPE_GLIDER MAV_ODID_UA_TYPE = 6 // MAV_ODID_UA_TYPE_KITE enum. Kite MAV_ODID_UA_TYPE_KITE MAV_ODID_UA_TYPE = 7 // MAV_ODID_UA_TYPE_FREE_BALLOON enum. Free Balloon MAV_ODID_UA_TYPE_FREE_BALLOON MAV_ODID_UA_TYPE = 8 // MAV_ODID_UA_TYPE_CAPTIVE_BALLOON enum. Captive Balloon MAV_ODID_UA_TYPE_CAPTIVE_BALLOON MAV_ODID_UA_TYPE = 9 // MAV_ODID_UA_TYPE_AIRSHIP enum. Airship. E.g. a blimp MAV_ODID_UA_TYPE_AIRSHIP MAV_ODID_UA_TYPE = 10 // MAV_ODID_UA_TYPE_FREE_FALL_PARACHUTE enum. Free Fall/Parachute (unpowered) MAV_ODID_UA_TYPE_FREE_FALL_PARACHUTE MAV_ODID_UA_TYPE = 11 // MAV_ODID_UA_TYPE_ROCKET enum. Rocket MAV_ODID_UA_TYPE_ROCKET MAV_ODID_UA_TYPE = 12 // MAV_ODID_UA_TYPE_TETHERED_POWERED_AIRCRAFT enum. Tethered powered aircraft MAV_ODID_UA_TYPE_TETHERED_POWERED_AIRCRAFT MAV_ODID_UA_TYPE = 13 // MAV_ODID_UA_TYPE_GROUND_OBSTACLE enum. Ground Obstacle MAV_ODID_UA_TYPE_GROUND_OBSTACLE MAV_ODID_UA_TYPE = 14 // MAV_ODID_UA_TYPE_OTHER enum. Other type of aircraft not listed earlier MAV_ODID_UA_TYPE_OTHER MAV_ODID_UA_TYPE = 15 )
func (MAV_ODID_UA_TYPE) Bitmask ¶
func (e MAV_ODID_UA_TYPE) Bitmask() string
Bitmask return string representetion of intersects MAV_ODID_UA_TYPE enums
func (MAV_ODID_UA_TYPE) MarshalBinary ¶
func (e MAV_ODID_UA_TYPE) MarshalBinary() (data []byte, err error)
MarshalBinary generic func
func (MAV_ODID_UA_TYPE) String ¶
func (e MAV_ODID_UA_TYPE) String() string
func (*MAV_ODID_UA_TYPE) UnmarshalBinary ¶
func (e *MAV_ODID_UA_TYPE) UnmarshalBinary(data []byte) error
UnmarshalBinary generic func
type MAV_ODID_VER_ACC ¶
type MAV_ODID_VER_ACC int
MAV_ODID_VER_ACC type
const ( // MAV_ODID_VER_ACC_UNKNOWN enum. The vertical accuracy is unknown MAV_ODID_VER_ACC_UNKNOWN MAV_ODID_VER_ACC = 0 // MAV_ODID_VER_ACC_150_METER enum. The vertical accuracy is smaller than 150 meter MAV_ODID_VER_ACC_150_METER MAV_ODID_VER_ACC = 1 // MAV_ODID_VER_ACC_45_METER enum. The vertical accuracy is smaller than 45 meter MAV_ODID_VER_ACC_45_METER MAV_ODID_VER_ACC = 2 // MAV_ODID_VER_ACC_25_METER enum. The vertical accuracy is smaller than 25 meter MAV_ODID_VER_ACC_25_METER MAV_ODID_VER_ACC = 3 // MAV_ODID_VER_ACC_10_METER enum. The vertical accuracy is smaller than 10 meter MAV_ODID_VER_ACC_10_METER MAV_ODID_VER_ACC = 4 // MAV_ODID_VER_ACC_3_METER enum. The vertical accuracy is smaller than 3 meter MAV_ODID_VER_ACC_3_METER MAV_ODID_VER_ACC = 5 // MAV_ODID_VER_ACC_1_METER enum. The vertical accuracy is smaller than 1 meter MAV_ODID_VER_ACC_1_METER MAV_ODID_VER_ACC = 6 )
func (MAV_ODID_VER_ACC) Bitmask ¶
func (e MAV_ODID_VER_ACC) Bitmask() string
Bitmask return string representetion of intersects MAV_ODID_VER_ACC enums
func (MAV_ODID_VER_ACC) MarshalBinary ¶
func (e MAV_ODID_VER_ACC) MarshalBinary() (data []byte, err error)
MarshalBinary generic func
func (MAV_ODID_VER_ACC) String ¶
func (e MAV_ODID_VER_ACC) String() string
func (*MAV_ODID_VER_ACC) UnmarshalBinary ¶
func (e *MAV_ODID_VER_ACC) UnmarshalBinary(data []byte) error
UnmarshalBinary generic func
type MAV_PARAM_EXT_TYPE ¶
type MAV_PARAM_EXT_TYPE int
MAV_PARAM_EXT_TYPE type. Specifies the datatype of a MAVLink extended parameter.
const ( // MAV_PARAM_EXT_TYPE_UINT8 enum. 8-bit unsigned integer MAV_PARAM_EXT_TYPE_UINT8 MAV_PARAM_EXT_TYPE = 1 // MAV_PARAM_EXT_TYPE_INT8 enum. 8-bit signed integer MAV_PARAM_EXT_TYPE_INT8 MAV_PARAM_EXT_TYPE = 2 // MAV_PARAM_EXT_TYPE_UINT16 enum. 16-bit unsigned integer MAV_PARAM_EXT_TYPE_UINT16 MAV_PARAM_EXT_TYPE = 3 // MAV_PARAM_EXT_TYPE_INT16 enum. 16-bit signed integer MAV_PARAM_EXT_TYPE_INT16 MAV_PARAM_EXT_TYPE = 4 // MAV_PARAM_EXT_TYPE_UINT32 enum. 32-bit unsigned integer MAV_PARAM_EXT_TYPE_UINT32 MAV_PARAM_EXT_TYPE = 5 // MAV_PARAM_EXT_TYPE_INT32 enum. 32-bit signed integer MAV_PARAM_EXT_TYPE_INT32 MAV_PARAM_EXT_TYPE = 6 // MAV_PARAM_EXT_TYPE_UINT64 enum. 64-bit unsigned integer MAV_PARAM_EXT_TYPE_UINT64 MAV_PARAM_EXT_TYPE = 7 // MAV_PARAM_EXT_TYPE_INT64 enum. 64-bit signed integer MAV_PARAM_EXT_TYPE_INT64 MAV_PARAM_EXT_TYPE = 8 // MAV_PARAM_EXT_TYPE_REAL32 enum. 32-bit floating-point MAV_PARAM_EXT_TYPE_REAL32 MAV_PARAM_EXT_TYPE = 9 // MAV_PARAM_EXT_TYPE_REAL64 enum. 64-bit floating-point MAV_PARAM_EXT_TYPE_REAL64 MAV_PARAM_EXT_TYPE = 10 // MAV_PARAM_EXT_TYPE_CUSTOM enum. Custom Type MAV_PARAM_EXT_TYPE_CUSTOM MAV_PARAM_EXT_TYPE = 11 )
func (MAV_PARAM_EXT_TYPE) Bitmask ¶
func (e MAV_PARAM_EXT_TYPE) Bitmask() string
Bitmask return string representetion of intersects MAV_PARAM_EXT_TYPE enums
func (MAV_PARAM_EXT_TYPE) MarshalBinary ¶
func (e MAV_PARAM_EXT_TYPE) MarshalBinary() (data []byte, err error)
MarshalBinary generic func
func (MAV_PARAM_EXT_TYPE) String ¶
func (e MAV_PARAM_EXT_TYPE) String() string
func (*MAV_PARAM_EXT_TYPE) UnmarshalBinary ¶
func (e *MAV_PARAM_EXT_TYPE) UnmarshalBinary(data []byte) error
UnmarshalBinary generic func
type MAV_PARAM_TYPE ¶
type MAV_PARAM_TYPE int
MAV_PARAM_TYPE type. Specifies the datatype of a MAVLink parameter.
const ( // MAV_PARAM_TYPE_UINT8 enum. 8-bit unsigned integer MAV_PARAM_TYPE_UINT8 MAV_PARAM_TYPE = 1 // MAV_PARAM_TYPE_INT8 enum. 8-bit signed integer MAV_PARAM_TYPE_INT8 MAV_PARAM_TYPE = 2 // MAV_PARAM_TYPE_UINT16 enum. 16-bit unsigned integer MAV_PARAM_TYPE_UINT16 MAV_PARAM_TYPE = 3 // MAV_PARAM_TYPE_INT16 enum. 16-bit signed integer MAV_PARAM_TYPE_INT16 MAV_PARAM_TYPE = 4 // MAV_PARAM_TYPE_UINT32 enum. 32-bit unsigned integer MAV_PARAM_TYPE_UINT32 MAV_PARAM_TYPE = 5 // MAV_PARAM_TYPE_INT32 enum. 32-bit signed integer MAV_PARAM_TYPE_INT32 MAV_PARAM_TYPE = 6 // MAV_PARAM_TYPE_UINT64 enum. 64-bit unsigned integer MAV_PARAM_TYPE_UINT64 MAV_PARAM_TYPE = 7 // MAV_PARAM_TYPE_INT64 enum. 64-bit signed integer MAV_PARAM_TYPE_INT64 MAV_PARAM_TYPE = 8 // MAV_PARAM_TYPE_REAL32 enum. 32-bit floating-point MAV_PARAM_TYPE_REAL32 MAV_PARAM_TYPE = 9 // MAV_PARAM_TYPE_REAL64 enum. 64-bit floating-point MAV_PARAM_TYPE_REAL64 MAV_PARAM_TYPE = 10 )
func (MAV_PARAM_TYPE) Bitmask ¶
func (e MAV_PARAM_TYPE) Bitmask() string
Bitmask return string representetion of intersects MAV_PARAM_TYPE enums
func (MAV_PARAM_TYPE) MarshalBinary ¶
func (e MAV_PARAM_TYPE) MarshalBinary() (data []byte, err error)
MarshalBinary generic func
func (MAV_PARAM_TYPE) String ¶
func (e MAV_PARAM_TYPE) String() string
func (*MAV_PARAM_TYPE) UnmarshalBinary ¶
func (e *MAV_PARAM_TYPE) UnmarshalBinary(data []byte) error
UnmarshalBinary generic func
type MAV_POWER_STATUS ¶
type MAV_POWER_STATUS int
MAV_POWER_STATUS type. Power supply status flags (bitmask)
const ( // MAV_POWER_STATUS_BRICK_VALID enum. main brick power supply valid MAV_POWER_STATUS_BRICK_VALID MAV_POWER_STATUS = 1 // MAV_POWER_STATUS_SERVO_VALID enum. main servo power supply valid for FMU MAV_POWER_STATUS_SERVO_VALID MAV_POWER_STATUS = 2 // MAV_POWER_STATUS_USB_CONNECTED enum. USB power is connected MAV_POWER_STATUS_USB_CONNECTED MAV_POWER_STATUS = 4 // MAV_POWER_STATUS_PERIPH_OVERCURRENT enum. peripheral supply is in over-current state MAV_POWER_STATUS_PERIPH_OVERCURRENT MAV_POWER_STATUS = 8 // MAV_POWER_STATUS_PERIPH_HIPOWER_OVERCURRENT enum. hi-power peripheral supply is in over-current state MAV_POWER_STATUS_PERIPH_HIPOWER_OVERCURRENT MAV_POWER_STATUS = 16 // MAV_POWER_STATUS_CHANGED enum. Power status has changed since boot MAV_POWER_STATUS_CHANGED MAV_POWER_STATUS = 32 )
func (MAV_POWER_STATUS) Bitmask ¶
func (e MAV_POWER_STATUS) Bitmask() string
Bitmask return string representetion of intersects MAV_POWER_STATUS enums
func (MAV_POWER_STATUS) MarshalBinary ¶
func (e MAV_POWER_STATUS) MarshalBinary() (data []byte, err error)
MarshalBinary generic func
func (MAV_POWER_STATUS) String ¶
func (e MAV_POWER_STATUS) String() string
func (*MAV_POWER_STATUS) UnmarshalBinary ¶
func (e *MAV_POWER_STATUS) UnmarshalBinary(data []byte) error
UnmarshalBinary generic func
type MAV_PROTOCOL_CAPABILITY ¶
type MAV_PROTOCOL_CAPABILITY int
MAV_PROTOCOL_CAPABILITY type. Bitmask of (optional) autopilot capabilities (64 bit). If a bit is set, the autopilot supports this capability.
const ( // MAV_PROTOCOL_CAPABILITY_MISSION_FLOAT enum. Autopilot supports MISSION float message type MAV_PROTOCOL_CAPABILITY_MISSION_FLOAT MAV_PROTOCOL_CAPABILITY = 1 // MAV_PROTOCOL_CAPABILITY_PARAM_FLOAT enum. Autopilot supports the new param float message type MAV_PROTOCOL_CAPABILITY_PARAM_FLOAT MAV_PROTOCOL_CAPABILITY = 2 // MAV_PROTOCOL_CAPABILITY_MISSION_INT enum. Autopilot supports MISSION_ITEM_INT scaled integer message type MAV_PROTOCOL_CAPABILITY_MISSION_INT MAV_PROTOCOL_CAPABILITY = 4 // MAV_PROTOCOL_CAPABILITY_COMMAND_INT enum. Autopilot supports COMMAND_INT scaled integer message type MAV_PROTOCOL_CAPABILITY_COMMAND_INT MAV_PROTOCOL_CAPABILITY = 8 // MAV_PROTOCOL_CAPABILITY_PARAM_UNION enum. Autopilot supports the new param union message type MAV_PROTOCOL_CAPABILITY_PARAM_UNION MAV_PROTOCOL_CAPABILITY = 16 // MAV_PROTOCOL_CAPABILITY_FTP enum. Autopilot supports the new FILE_TRANSFER_PROTOCOL message type MAV_PROTOCOL_CAPABILITY_FTP MAV_PROTOCOL_CAPABILITY = 32 // MAV_PROTOCOL_CAPABILITY_SET_ATTITUDE_TARGET enum. Autopilot supports commanding attitude offboard MAV_PROTOCOL_CAPABILITY_SET_ATTITUDE_TARGET MAV_PROTOCOL_CAPABILITY = 64 // MAV_PROTOCOL_CAPABILITY_SET_POSITION_TARGET_LOCAL_NED enum. Autopilot supports commanding position and velocity targets in local NED frame MAV_PROTOCOL_CAPABILITY_SET_POSITION_TARGET_LOCAL_NED MAV_PROTOCOL_CAPABILITY = 128 // MAV_PROTOCOL_CAPABILITY_SET_POSITION_TARGET_GLOBAL_INT enum. Autopilot supports commanding position and velocity targets in global scaled integers MAV_PROTOCOL_CAPABILITY_SET_POSITION_TARGET_GLOBAL_INT MAV_PROTOCOL_CAPABILITY = 256 // MAV_PROTOCOL_CAPABILITY_TERRAIN enum. Autopilot supports terrain protocol / data handling MAV_PROTOCOL_CAPABILITY_TERRAIN MAV_PROTOCOL_CAPABILITY = 512 // MAV_PROTOCOL_CAPABILITY_SET_ACTUATOR_TARGET enum. Autopilot supports direct actuator control MAV_PROTOCOL_CAPABILITY_SET_ACTUATOR_TARGET MAV_PROTOCOL_CAPABILITY = 1024 // MAV_PROTOCOL_CAPABILITY_FLIGHT_TERMINATION enum. Autopilot supports the flight termination command MAV_PROTOCOL_CAPABILITY_FLIGHT_TERMINATION MAV_PROTOCOL_CAPABILITY = 2048 // MAV_PROTOCOL_CAPABILITY_COMPASS_CALIBRATION enum. Autopilot supports onboard compass calibration MAV_PROTOCOL_CAPABILITY_COMPASS_CALIBRATION MAV_PROTOCOL_CAPABILITY = 4096 // MAV_PROTOCOL_CAPABILITY_MAVLINK2 enum. Autopilot supports MAVLink version 2 MAV_PROTOCOL_CAPABILITY_MAVLINK2 MAV_PROTOCOL_CAPABILITY = 8192 // MAV_PROTOCOL_CAPABILITY_MISSION_FENCE enum. Autopilot supports mission fence protocol MAV_PROTOCOL_CAPABILITY_MISSION_FENCE MAV_PROTOCOL_CAPABILITY = 16384 // MAV_PROTOCOL_CAPABILITY_MISSION_RALLY enum. Autopilot supports mission rally point protocol MAV_PROTOCOL_CAPABILITY_MISSION_RALLY MAV_PROTOCOL_CAPABILITY = 32768 // MAV_PROTOCOL_CAPABILITY_FLIGHT_INFORMATION enum. Autopilot supports the flight information protocol MAV_PROTOCOL_CAPABILITY_FLIGHT_INFORMATION MAV_PROTOCOL_CAPABILITY = 65536 )
func (MAV_PROTOCOL_CAPABILITY) Bitmask ¶
func (e MAV_PROTOCOL_CAPABILITY) Bitmask() string
Bitmask return string representetion of intersects MAV_PROTOCOL_CAPABILITY enums
func (MAV_PROTOCOL_CAPABILITY) MarshalBinary ¶
func (e MAV_PROTOCOL_CAPABILITY) MarshalBinary() (data []byte, err error)
MarshalBinary generic func
func (MAV_PROTOCOL_CAPABILITY) String ¶
func (e MAV_PROTOCOL_CAPABILITY) String() string
func (*MAV_PROTOCOL_CAPABILITY) UnmarshalBinary ¶
func (e *MAV_PROTOCOL_CAPABILITY) UnmarshalBinary(data []byte) error
UnmarshalBinary generic func
type MAV_RESULT ¶
type MAV_RESULT int
MAV_RESULT type. Result from a MAVLink command (MAV_CMD)
const ( // MAV_RESULT_ACCEPTED enum. Command is valid (is supported and has valid parameters), and was executed MAV_RESULT_ACCEPTED MAV_RESULT = 0 // MAV_RESULT_TEMPORARILY_REJECTED enum. Command is valid, but cannot be executed at this time. This is used to indicate a problem that should be fixed just by waiting (e.g. a state machine is busy, can't arm because have not got GPS lock, etc.). Retrying later should work MAV_RESULT_TEMPORARILY_REJECTED MAV_RESULT = 1 // MAV_RESULT_DENIED enum. Command is invalid (is supported but has invalid parameters). Retrying same command and parameters will not work MAV_RESULT_DENIED MAV_RESULT = 2 // MAV_RESULT_UNSUPPORTED enum. Command is not supported (unknown) MAV_RESULT_UNSUPPORTED MAV_RESULT = 3 // MAV_RESULT_FAILED enum. Command is valid, but execution has failed. This is used to indicate any non-temporary or unexpected problem, i.e. any problem that must be fixed before the command can succeed/be retried. For example, attempting to write a file when out of memory, attempting to arm when sensors are not calibrated, etc MAV_RESULT_FAILED MAV_RESULT = 4 // MAV_RESULT_IN_PROGRESS enum. Command is valid and is being executed. This will be followed by further progress updates, i.e. the component may send further COMMAND_ACK messages with result MAV_RESULT_IN_PROGRESS (at a rate decided by the implementation), and must terminate by sending a COMMAND_ACK message with final result of the operation. The COMMAND_ACK.progress field can be used to indicate the progress of the operation MAV_RESULT_IN_PROGRESS MAV_RESULT = 5 // MAV_RESULT_CANCELLED enum. Command has been cancelled (as a result of receiving a COMMAND_CANCEL message) MAV_RESULT_CANCELLED MAV_RESULT = 6 )
func (MAV_RESULT) Bitmask ¶
func (e MAV_RESULT) Bitmask() string
Bitmask return string representetion of intersects MAV_RESULT enums
func (MAV_RESULT) MarshalBinary ¶
func (e MAV_RESULT) MarshalBinary() (data []byte, err error)
MarshalBinary generic func
func (MAV_RESULT) String ¶
func (e MAV_RESULT) String() string
func (*MAV_RESULT) UnmarshalBinary ¶
func (e *MAV_RESULT) UnmarshalBinary(data []byte) error
UnmarshalBinary generic func
type MAV_ROI ¶
type MAV_ROI int
MAV_ROI type. The ROI (region of interest) for the vehicle. This can be be used by the vehicle for camera/vehicle attitude alignment (see MAV_CMD_NAV_ROI).
const ( // MAV_ROI_NONE enum. No region of interest MAV_ROI_NONE MAV_ROI = 0 // MAV_ROI_WPNEXT enum. Point toward next waypoint, with optional pitch/roll/yaw offset MAV_ROI_WPNEXT MAV_ROI = 1 // MAV_ROI_WPINDEX enum. Point toward given waypoint MAV_ROI_WPINDEX MAV_ROI = 2 // MAV_ROI_LOCATION enum. Point toward fixed location MAV_ROI_LOCATION MAV_ROI = 3 // MAV_ROI_TARGET enum. Point toward of given id MAV_ROI_TARGET MAV_ROI = 4 )
func (MAV_ROI) MarshalBinary ¶
MarshalBinary generic func
func (*MAV_ROI) UnmarshalBinary ¶
UnmarshalBinary generic func
type MAV_SENSOR_ORIENTATION ¶
type MAV_SENSOR_ORIENTATION int
MAV_SENSOR_ORIENTATION type. Enumeration of sensor orientation, according to its rotations
const ( // MAV_SENSOR_ROTATION_NONE enum. Roll: 0, Pitch: 0, Yaw: 0 MAV_SENSOR_ROTATION_NONE MAV_SENSOR_ORIENTATION = 0 // MAV_SENSOR_ROTATION_YAW_45 enum. Roll: 0, Pitch: 0, Yaw: 45 MAV_SENSOR_ROTATION_YAW_45 MAV_SENSOR_ORIENTATION = 1 // MAV_SENSOR_ROTATION_YAW_90 enum. Roll: 0, Pitch: 0, Yaw: 90 MAV_SENSOR_ROTATION_YAW_90 MAV_SENSOR_ORIENTATION = 2 // MAV_SENSOR_ROTATION_YAW_135 enum. Roll: 0, Pitch: 0, Yaw: 135 MAV_SENSOR_ROTATION_YAW_135 MAV_SENSOR_ORIENTATION = 3 // MAV_SENSOR_ROTATION_YAW_180 enum. Roll: 0, Pitch: 0, Yaw: 180 MAV_SENSOR_ROTATION_YAW_180 MAV_SENSOR_ORIENTATION = 4 // MAV_SENSOR_ROTATION_YAW_225 enum. Roll: 0, Pitch: 0, Yaw: 225 MAV_SENSOR_ROTATION_YAW_225 MAV_SENSOR_ORIENTATION = 5 // MAV_SENSOR_ROTATION_YAW_270 enum. Roll: 0, Pitch: 0, Yaw: 270 MAV_SENSOR_ROTATION_YAW_270 MAV_SENSOR_ORIENTATION = 6 // MAV_SENSOR_ROTATION_YAW_315 enum. Roll: 0, Pitch: 0, Yaw: 315 MAV_SENSOR_ROTATION_YAW_315 MAV_SENSOR_ORIENTATION = 7 // MAV_SENSOR_ROTATION_ROLL_180 enum. Roll: 180, Pitch: 0, Yaw: 0 MAV_SENSOR_ROTATION_ROLL_180 MAV_SENSOR_ORIENTATION = 8 // MAV_SENSOR_ROTATION_ROLL_180_YAW_45 enum. Roll: 180, Pitch: 0, Yaw: 45 MAV_SENSOR_ROTATION_ROLL_180_YAW_45 MAV_SENSOR_ORIENTATION = 9 // MAV_SENSOR_ROTATION_ROLL_180_YAW_90 enum. Roll: 180, Pitch: 0, Yaw: 90 MAV_SENSOR_ROTATION_ROLL_180_YAW_90 MAV_SENSOR_ORIENTATION = 10 // MAV_SENSOR_ROTATION_ROLL_180_YAW_135 enum. Roll: 180, Pitch: 0, Yaw: 135 MAV_SENSOR_ROTATION_ROLL_180_YAW_135 MAV_SENSOR_ORIENTATION = 11 // MAV_SENSOR_ROTATION_PITCH_180 enum. Roll: 0, Pitch: 180, Yaw: 0 MAV_SENSOR_ROTATION_PITCH_180 MAV_SENSOR_ORIENTATION = 12 // MAV_SENSOR_ROTATION_ROLL_180_YAW_225 enum. Roll: 180, Pitch: 0, Yaw: 225 MAV_SENSOR_ROTATION_ROLL_180_YAW_225 MAV_SENSOR_ORIENTATION = 13 // MAV_SENSOR_ROTATION_ROLL_180_YAW_270 enum. Roll: 180, Pitch: 0, Yaw: 270 MAV_SENSOR_ROTATION_ROLL_180_YAW_270 MAV_SENSOR_ORIENTATION = 14 // MAV_SENSOR_ROTATION_ROLL_180_YAW_315 enum. Roll: 180, Pitch: 0, Yaw: 315 MAV_SENSOR_ROTATION_ROLL_180_YAW_315 MAV_SENSOR_ORIENTATION = 15 // MAV_SENSOR_ROTATION_ROLL_90 enum. Roll: 90, Pitch: 0, Yaw: 0 MAV_SENSOR_ROTATION_ROLL_90 MAV_SENSOR_ORIENTATION = 16 // MAV_SENSOR_ROTATION_ROLL_90_YAW_45 enum. Roll: 90, Pitch: 0, Yaw: 45 MAV_SENSOR_ROTATION_ROLL_90_YAW_45 MAV_SENSOR_ORIENTATION = 17 // MAV_SENSOR_ROTATION_ROLL_90_YAW_90 enum. Roll: 90, Pitch: 0, Yaw: 90 MAV_SENSOR_ROTATION_ROLL_90_YAW_90 MAV_SENSOR_ORIENTATION = 18 // MAV_SENSOR_ROTATION_ROLL_90_YAW_135 enum. Roll: 90, Pitch: 0, Yaw: 135 MAV_SENSOR_ROTATION_ROLL_90_YAW_135 MAV_SENSOR_ORIENTATION = 19 // MAV_SENSOR_ROTATION_ROLL_270 enum. Roll: 270, Pitch: 0, Yaw: 0 MAV_SENSOR_ROTATION_ROLL_270 MAV_SENSOR_ORIENTATION = 20 // MAV_SENSOR_ROTATION_ROLL_270_YAW_45 enum. Roll: 270, Pitch: 0, Yaw: 45 MAV_SENSOR_ROTATION_ROLL_270_YAW_45 MAV_SENSOR_ORIENTATION = 21 // MAV_SENSOR_ROTATION_ROLL_270_YAW_90 enum. Roll: 270, Pitch: 0, Yaw: 90 MAV_SENSOR_ROTATION_ROLL_270_YAW_90 MAV_SENSOR_ORIENTATION = 22 // MAV_SENSOR_ROTATION_ROLL_270_YAW_135 enum. Roll: 270, Pitch: 0, Yaw: 135 MAV_SENSOR_ROTATION_ROLL_270_YAW_135 MAV_SENSOR_ORIENTATION = 23 // MAV_SENSOR_ROTATION_PITCH_90 enum. Roll: 0, Pitch: 90, Yaw: 0 MAV_SENSOR_ROTATION_PITCH_90 MAV_SENSOR_ORIENTATION = 24 // MAV_SENSOR_ROTATION_PITCH_270 enum. Roll: 0, Pitch: 270, Yaw: 0 MAV_SENSOR_ROTATION_PITCH_270 MAV_SENSOR_ORIENTATION = 25 // MAV_SENSOR_ROTATION_PITCH_180_YAW_90 enum. Roll: 0, Pitch: 180, Yaw: 90 MAV_SENSOR_ROTATION_PITCH_180_YAW_90 MAV_SENSOR_ORIENTATION = 26 // MAV_SENSOR_ROTATION_PITCH_180_YAW_270 enum. Roll: 0, Pitch: 180, Yaw: 270 MAV_SENSOR_ROTATION_PITCH_180_YAW_270 MAV_SENSOR_ORIENTATION = 27 // MAV_SENSOR_ROTATION_ROLL_90_PITCH_90 enum. Roll: 90, Pitch: 90, Yaw: 0 MAV_SENSOR_ROTATION_ROLL_90_PITCH_90 MAV_SENSOR_ORIENTATION = 28 // MAV_SENSOR_ROTATION_ROLL_180_PITCH_90 enum. Roll: 180, Pitch: 90, Yaw: 0 MAV_SENSOR_ROTATION_ROLL_180_PITCH_90 MAV_SENSOR_ORIENTATION = 29 // MAV_SENSOR_ROTATION_ROLL_270_PITCH_90 enum. Roll: 270, Pitch: 90, Yaw: 0 MAV_SENSOR_ROTATION_ROLL_270_PITCH_90 MAV_SENSOR_ORIENTATION = 30 // MAV_SENSOR_ROTATION_ROLL_90_PITCH_180 enum. Roll: 90, Pitch: 180, Yaw: 0 MAV_SENSOR_ROTATION_ROLL_90_PITCH_180 MAV_SENSOR_ORIENTATION = 31 // MAV_SENSOR_ROTATION_ROLL_270_PITCH_180 enum. Roll: 270, Pitch: 180, Yaw: 0 MAV_SENSOR_ROTATION_ROLL_270_PITCH_180 MAV_SENSOR_ORIENTATION = 32 // MAV_SENSOR_ROTATION_ROLL_90_PITCH_270 enum. Roll: 90, Pitch: 270, Yaw: 0 MAV_SENSOR_ROTATION_ROLL_90_PITCH_270 MAV_SENSOR_ORIENTATION = 33 // MAV_SENSOR_ROTATION_ROLL_180_PITCH_270 enum. Roll: 180, Pitch: 270, Yaw: 0 MAV_SENSOR_ROTATION_ROLL_180_PITCH_270 MAV_SENSOR_ORIENTATION = 34 // MAV_SENSOR_ROTATION_ROLL_270_PITCH_270 enum. Roll: 270, Pitch: 270, Yaw: 0 MAV_SENSOR_ROTATION_ROLL_270_PITCH_270 MAV_SENSOR_ORIENTATION = 35 // MAV_SENSOR_ROTATION_ROLL_90_PITCH_180_YAW_90 enum. Roll: 90, Pitch: 180, Yaw: 90 MAV_SENSOR_ROTATION_ROLL_90_PITCH_180_YAW_90 MAV_SENSOR_ORIENTATION = 36 // MAV_SENSOR_ROTATION_ROLL_90_YAW_270 enum. Roll: 90, Pitch: 0, Yaw: 270 MAV_SENSOR_ROTATION_ROLL_90_YAW_270 MAV_SENSOR_ORIENTATION = 37 // MAV_SENSOR_ROTATION_ROLL_90_PITCH_68_YAW_293 enum. Roll: 90, Pitch: 68, Yaw: 293 MAV_SENSOR_ROTATION_ROLL_90_PITCH_68_YAW_293 MAV_SENSOR_ORIENTATION = 38 // MAV_SENSOR_ROTATION_PITCH_315 enum. Pitch: 315 MAV_SENSOR_ROTATION_PITCH_315 MAV_SENSOR_ORIENTATION = 39 // MAV_SENSOR_ROTATION_ROLL_90_PITCH_315 enum. Roll: 90, Pitch: 315 MAV_SENSOR_ROTATION_ROLL_90_PITCH_315 MAV_SENSOR_ORIENTATION = 40 // MAV_SENSOR_ROTATION_CUSTOM enum. Custom orientation MAV_SENSOR_ROTATION_CUSTOM MAV_SENSOR_ORIENTATION = 100 )
func (MAV_SENSOR_ORIENTATION) Bitmask ¶
func (e MAV_SENSOR_ORIENTATION) Bitmask() string
Bitmask return string representetion of intersects MAV_SENSOR_ORIENTATION enums
func (MAV_SENSOR_ORIENTATION) MarshalBinary ¶
func (e MAV_SENSOR_ORIENTATION) MarshalBinary() (data []byte, err error)
MarshalBinary generic func
func (MAV_SENSOR_ORIENTATION) String ¶
func (e MAV_SENSOR_ORIENTATION) String() string
func (*MAV_SENSOR_ORIENTATION) UnmarshalBinary ¶
func (e *MAV_SENSOR_ORIENTATION) UnmarshalBinary(data []byte) error
UnmarshalBinary generic func
type MAV_SEVERITY ¶
type MAV_SEVERITY int
MAV_SEVERITY type. Indicates the severity level, generally used for status messages to indicate their relative urgency. Based on RFC-5424 using expanded definitions at: http://www.kiwisyslog.com/kb/info:-syslog-message-levels/.
const ( // MAV_SEVERITY_EMERGENCY enum. System is unusable. This is a "panic" condition MAV_SEVERITY_EMERGENCY MAV_SEVERITY = 0 // MAV_SEVERITY_ALERT enum. Action should be taken immediately. Indicates error in non-critical systems MAV_SEVERITY_ALERT MAV_SEVERITY = 1 // MAV_SEVERITY_CRITICAL enum. Action must be taken immediately. Indicates failure in a primary system MAV_SEVERITY_CRITICAL MAV_SEVERITY = 2 // MAV_SEVERITY_ERROR enum. Indicates an error in secondary/redundant systems MAV_SEVERITY_ERROR MAV_SEVERITY = 3 // MAV_SEVERITY_WARNING enum. Indicates about a possible future error if this is not resolved within a given timeframe. Example would be a low battery warning MAV_SEVERITY_WARNING MAV_SEVERITY = 4 // MAV_SEVERITY_NOTICE enum. An unusual event has occurred, though not an error condition. This should be investigated for the root cause MAV_SEVERITY_NOTICE MAV_SEVERITY = 5 // MAV_SEVERITY_INFO enum. Normal operational messages. Useful for logging. No action is required for these messages MAV_SEVERITY_INFO MAV_SEVERITY = 6 // MAV_SEVERITY_DEBUG enum. Useful non-operational messages that can assist in debugging. These should not occur during normal operation MAV_SEVERITY_DEBUG MAV_SEVERITY = 7 )
func (MAV_SEVERITY) Bitmask ¶
func (e MAV_SEVERITY) Bitmask() string
Bitmask return string representetion of intersects MAV_SEVERITY enums
func (MAV_SEVERITY) MarshalBinary ¶
func (e MAV_SEVERITY) MarshalBinary() (data []byte, err error)
MarshalBinary generic func
func (MAV_SEVERITY) String ¶
func (e MAV_SEVERITY) String() string
func (*MAV_SEVERITY) UnmarshalBinary ¶
func (e *MAV_SEVERITY) UnmarshalBinary(data []byte) error
UnmarshalBinary generic func
type MAV_STATE ¶
type MAV_STATE int
MAV_STATE type
const ( // MAV_STATE_UNINIT enum. Uninitialized system, state is unknown MAV_STATE_UNINIT MAV_STATE = 0 // MAV_STATE_BOOT enum. System is booting up MAV_STATE_BOOT MAV_STATE = 1 // MAV_STATE_CALIBRATING enum. System is calibrating and not flight-ready MAV_STATE_CALIBRATING MAV_STATE = 2 // MAV_STATE_STANDBY enum. System is grounded and on standby. It can be launched any time MAV_STATE_STANDBY MAV_STATE = 3 // MAV_STATE_ACTIVE enum. System is active and might be already airborne. Motors are engaged MAV_STATE_ACTIVE MAV_STATE = 4 // MAV_STATE_CRITICAL enum. System is in a non-normal flight mode. It can however still navigate MAV_STATE_CRITICAL MAV_STATE = 5 // MAV_STATE_EMERGENCY enum. System is in a non-normal flight mode. It lost control over parts or over the whole airframe. It is in mayday and going down MAV_STATE_EMERGENCY MAV_STATE = 6 // MAV_STATE_POWEROFF enum. System just initialized its power-down sequence, will shut down now MAV_STATE_POWEROFF MAV_STATE = 7 // MAV_STATE_FLIGHT_TERMINATION enum. System is terminating itself MAV_STATE_FLIGHT_TERMINATION MAV_STATE = 8 )
func (MAV_STATE) MarshalBinary ¶
MarshalBinary generic func
func (*MAV_STATE) UnmarshalBinary ¶
UnmarshalBinary generic func
type MAV_SYS_STATUS_SENSOR ¶
type MAV_SYS_STATUS_SENSOR int
MAV_SYS_STATUS_SENSOR type. These encode the sensors whose status is sent as part of the SYS_STATUS message.
const ( // MAV_SYS_STATUS_SENSOR_3D_GYRO enum. 0x01 3D gyro MAV_SYS_STATUS_SENSOR_3D_GYRO MAV_SYS_STATUS_SENSOR = 1 // MAV_SYS_STATUS_SENSOR_3D_ACCEL enum. 0x02 3D accelerometer MAV_SYS_STATUS_SENSOR_3D_ACCEL MAV_SYS_STATUS_SENSOR = 2 // MAV_SYS_STATUS_SENSOR_3D_MAG enum. 0x04 3D magnetometer MAV_SYS_STATUS_SENSOR_3D_MAG MAV_SYS_STATUS_SENSOR = 4 // MAV_SYS_STATUS_SENSOR_ABSOLUTE_PRESSURE enum. 0x08 absolute pressure MAV_SYS_STATUS_SENSOR_ABSOLUTE_PRESSURE MAV_SYS_STATUS_SENSOR = 8 // MAV_SYS_STATUS_SENSOR_DIFFERENTIAL_PRESSURE enum. 0x10 differential pressure MAV_SYS_STATUS_SENSOR_DIFFERENTIAL_PRESSURE MAV_SYS_STATUS_SENSOR = 16 // MAV_SYS_STATUS_SENSOR_GPS enum. 0x20 GPS MAV_SYS_STATUS_SENSOR_GPS MAV_SYS_STATUS_SENSOR = 32 // MAV_SYS_STATUS_SENSOR_OPTICAL_FLOW enum. 0x40 optical flow MAV_SYS_STATUS_SENSOR_OPTICAL_FLOW MAV_SYS_STATUS_SENSOR = 64 // MAV_SYS_STATUS_SENSOR_VISION_POSITION enum. 0x80 computer vision position MAV_SYS_STATUS_SENSOR_VISION_POSITION MAV_SYS_STATUS_SENSOR = 128 // MAV_SYS_STATUS_SENSOR_LASER_POSITION enum. 0x100 laser based position MAV_SYS_STATUS_SENSOR_LASER_POSITION MAV_SYS_STATUS_SENSOR = 256 // MAV_SYS_STATUS_SENSOR_EXTERNAL_GROUND_TRUTH enum. 0x200 external ground truth (Vicon or Leica) MAV_SYS_STATUS_SENSOR_EXTERNAL_GROUND_TRUTH MAV_SYS_STATUS_SENSOR = 512 // MAV_SYS_STATUS_SENSOR_ANGULAR_RATE_CONTROL enum. 0x400 3D angular rate control MAV_SYS_STATUS_SENSOR_ANGULAR_RATE_CONTROL MAV_SYS_STATUS_SENSOR = 1024 // MAV_SYS_STATUS_SENSOR_ATTITUDE_STABILIZATION enum. 0x800 attitude stabilization MAV_SYS_STATUS_SENSOR_ATTITUDE_STABILIZATION MAV_SYS_STATUS_SENSOR = 2048 // MAV_SYS_STATUS_SENSOR_YAW_POSITION enum. 0x1000 yaw position MAV_SYS_STATUS_SENSOR_YAW_POSITION MAV_SYS_STATUS_SENSOR = 4096 // MAV_SYS_STATUS_SENSOR_Z_ALTITUDE_CONTROL enum. 0x2000 z/altitude control MAV_SYS_STATUS_SENSOR_Z_ALTITUDE_CONTROL MAV_SYS_STATUS_SENSOR = 8192 // MAV_SYS_STATUS_SENSOR_XY_POSITION_CONTROL enum. 0x4000 x/y position control MAV_SYS_STATUS_SENSOR_XY_POSITION_CONTROL MAV_SYS_STATUS_SENSOR = 16384 // MAV_SYS_STATUS_SENSOR_MOTOR_OUTPUTS enum. 0x8000 motor outputs / control MAV_SYS_STATUS_SENSOR_MOTOR_OUTPUTS MAV_SYS_STATUS_SENSOR = 32768 // MAV_SYS_STATUS_SENSOR_RC_RECEIVER enum. 0x10000 rc receiver MAV_SYS_STATUS_SENSOR_RC_RECEIVER MAV_SYS_STATUS_SENSOR = 65536 // MAV_SYS_STATUS_SENSOR_3D_GYRO2 enum. 0x20000 2nd 3D gyro MAV_SYS_STATUS_SENSOR_3D_GYRO2 MAV_SYS_STATUS_SENSOR = 131072 // MAV_SYS_STATUS_SENSOR_3D_ACCEL2 enum. 0x40000 2nd 3D accelerometer MAV_SYS_STATUS_SENSOR_3D_ACCEL2 MAV_SYS_STATUS_SENSOR = 262144 // MAV_SYS_STATUS_SENSOR_3D_MAG2 enum. 0x80000 2nd 3D magnetometer MAV_SYS_STATUS_SENSOR_3D_MAG2 MAV_SYS_STATUS_SENSOR = 524288 // MAV_SYS_STATUS_GEOFENCE enum. 0x100000 geofence MAV_SYS_STATUS_GEOFENCE MAV_SYS_STATUS_SENSOR = 1048576 // MAV_SYS_STATUS_AHRS enum. 0x200000 AHRS subsystem health MAV_SYS_STATUS_AHRS MAV_SYS_STATUS_SENSOR = 2097152 // MAV_SYS_STATUS_TERRAIN enum. 0x400000 Terrain subsystem health MAV_SYS_STATUS_TERRAIN MAV_SYS_STATUS_SENSOR = 4194304 // MAV_SYS_STATUS_REVERSE_MOTOR enum. 0x800000 Motors are reversed MAV_SYS_STATUS_REVERSE_MOTOR MAV_SYS_STATUS_SENSOR = 8388608 // MAV_SYS_STATUS_LOGGING enum. 0x1000000 Logging MAV_SYS_STATUS_LOGGING MAV_SYS_STATUS_SENSOR = 16777216 // MAV_SYS_STATUS_SENSOR_BATTERY enum. 0x2000000 Battery MAV_SYS_STATUS_SENSOR_BATTERY MAV_SYS_STATUS_SENSOR = 33554432 // MAV_SYS_STATUS_SENSOR_PROXIMITY enum. 0x4000000 Proximity MAV_SYS_STATUS_SENSOR_PROXIMITY MAV_SYS_STATUS_SENSOR = 67108864 // MAV_SYS_STATUS_SENSOR_SATCOM enum. 0x8000000 Satellite Communication MAV_SYS_STATUS_SENSOR_SATCOM MAV_SYS_STATUS_SENSOR = 134217728 // MAV_SYS_STATUS_PREARM_CHECK enum. 0x10000000 pre-arm check status. Always healthy when armed MAV_SYS_STATUS_PREARM_CHECK MAV_SYS_STATUS_SENSOR = 268435456 // MAV_SYS_STATUS_OBSTACLE_AVOIDANCE enum. 0x20000000 Avoidance/collision prevention MAV_SYS_STATUS_OBSTACLE_AVOIDANCE MAV_SYS_STATUS_SENSOR = 536870912 // MAV_SYS_STATUS_SENSOR_PROPULSION enum. 0x40000000 propulsion (actuator, esc, motor or propellor) MAV_SYS_STATUS_SENSOR_PROPULSION MAV_SYS_STATUS_SENSOR = 1073741824 )
func (MAV_SYS_STATUS_SENSOR) Bitmask ¶
func (e MAV_SYS_STATUS_SENSOR) Bitmask() string
Bitmask return string representetion of intersects MAV_SYS_STATUS_SENSOR enums
func (MAV_SYS_STATUS_SENSOR) MarshalBinary ¶
func (e MAV_SYS_STATUS_SENSOR) MarshalBinary() (data []byte, err error)
MarshalBinary generic func
func (MAV_SYS_STATUS_SENSOR) String ¶
func (e MAV_SYS_STATUS_SENSOR) String() string
func (*MAV_SYS_STATUS_SENSOR) UnmarshalBinary ¶
func (e *MAV_SYS_STATUS_SENSOR) UnmarshalBinary(data []byte) error
UnmarshalBinary generic func
type MAV_TUNNEL_PAYLOAD_TYPE ¶
type MAV_TUNNEL_PAYLOAD_TYPE int
MAV_TUNNEL_PAYLOAD_TYPE type
const ( // MAV_TUNNEL_PAYLOAD_TYPE_UNKNOWN enum. Encoding of payload unknown MAV_TUNNEL_PAYLOAD_TYPE_UNKNOWN MAV_TUNNEL_PAYLOAD_TYPE = 0 // MAV_TUNNEL_PAYLOAD_TYPE_STORM32_RESERVED0 enum. Registered for STorM32 gimbal controller MAV_TUNNEL_PAYLOAD_TYPE_STORM32_RESERVED0 MAV_TUNNEL_PAYLOAD_TYPE = 200 // MAV_TUNNEL_PAYLOAD_TYPE_STORM32_RESERVED1 enum. Registered for STorM32 gimbal controller MAV_TUNNEL_PAYLOAD_TYPE_STORM32_RESERVED1 MAV_TUNNEL_PAYLOAD_TYPE = 201 // MAV_TUNNEL_PAYLOAD_TYPE_STORM32_RESERVED2 enum. Registered for STorM32 gimbal controller MAV_TUNNEL_PAYLOAD_TYPE_STORM32_RESERVED2 MAV_TUNNEL_PAYLOAD_TYPE = 202 // MAV_TUNNEL_PAYLOAD_TYPE_STORM32_RESERVED3 enum. Registered for STorM32 gimbal controller MAV_TUNNEL_PAYLOAD_TYPE_STORM32_RESERVED3 MAV_TUNNEL_PAYLOAD_TYPE = 203 // MAV_TUNNEL_PAYLOAD_TYPE_STORM32_RESERVED4 enum. Registered for STorM32 gimbal controller MAV_TUNNEL_PAYLOAD_TYPE_STORM32_RESERVED4 MAV_TUNNEL_PAYLOAD_TYPE = 204 // MAV_TUNNEL_PAYLOAD_TYPE_STORM32_RESERVED5 enum. Registered for STorM32 gimbal controller MAV_TUNNEL_PAYLOAD_TYPE_STORM32_RESERVED5 MAV_TUNNEL_PAYLOAD_TYPE = 205 // MAV_TUNNEL_PAYLOAD_TYPE_STORM32_RESERVED6 enum. Registered for STorM32 gimbal controller MAV_TUNNEL_PAYLOAD_TYPE_STORM32_RESERVED6 MAV_TUNNEL_PAYLOAD_TYPE = 206 // MAV_TUNNEL_PAYLOAD_TYPE_STORM32_RESERVED7 enum. Registered for STorM32 gimbal controller MAV_TUNNEL_PAYLOAD_TYPE_STORM32_RESERVED7 MAV_TUNNEL_PAYLOAD_TYPE = 207 // MAV_TUNNEL_PAYLOAD_TYPE_STORM32_RESERVED8 enum. Registered for STorM32 gimbal controller MAV_TUNNEL_PAYLOAD_TYPE_STORM32_RESERVED8 MAV_TUNNEL_PAYLOAD_TYPE = 208 // MAV_TUNNEL_PAYLOAD_TYPE_STORM32_RESERVED9 enum. Registered for STorM32 gimbal controller MAV_TUNNEL_PAYLOAD_TYPE_STORM32_RESERVED9 MAV_TUNNEL_PAYLOAD_TYPE = 209 )
func (MAV_TUNNEL_PAYLOAD_TYPE) Bitmask ¶
func (e MAV_TUNNEL_PAYLOAD_TYPE) Bitmask() string
Bitmask return string representetion of intersects MAV_TUNNEL_PAYLOAD_TYPE enums
func (MAV_TUNNEL_PAYLOAD_TYPE) MarshalBinary ¶
func (e MAV_TUNNEL_PAYLOAD_TYPE) MarshalBinary() (data []byte, err error)
MarshalBinary generic func
func (MAV_TUNNEL_PAYLOAD_TYPE) String ¶
func (e MAV_TUNNEL_PAYLOAD_TYPE) String() string
func (*MAV_TUNNEL_PAYLOAD_TYPE) UnmarshalBinary ¶
func (e *MAV_TUNNEL_PAYLOAD_TYPE) UnmarshalBinary(data []byte) error
UnmarshalBinary generic func
type MAV_TYPE ¶
type MAV_TYPE int
MAV_TYPE type. MAVLINK component type reported in HEARTBEAT message. Flight controllers must report the type of the vehicle on which they are mounted (e.g. MAV_TYPE_OCTOROTOR). All other components must report a value appropriate for their type (e.g. a camera must use MAV_TYPE_CAMERA).
const ( // MAV_TYPE_GENERIC enum. Generic micro air vehicle MAV_TYPE_GENERIC MAV_TYPE = 0 // MAV_TYPE_FIXED_WING enum. Fixed wing aircraft MAV_TYPE_FIXED_WING MAV_TYPE = 1 // MAV_TYPE_QUADROTOR enum. Quadrotor MAV_TYPE_QUADROTOR MAV_TYPE = 2 // MAV_TYPE_COAXIAL enum. Coaxial helicopter MAV_TYPE_COAXIAL MAV_TYPE = 3 // MAV_TYPE_HELICOPTER enum. Normal helicopter with tail rotor MAV_TYPE_HELICOPTER MAV_TYPE = 4 // MAV_TYPE_ANTENNA_TRACKER enum. Ground installation MAV_TYPE_ANTENNA_TRACKER MAV_TYPE = 5 // MAV_TYPE_GCS enum. Operator control unit / ground control station MAV_TYPE_GCS MAV_TYPE = 6 // MAV_TYPE_AIRSHIP enum. Airship, controlled MAV_TYPE_AIRSHIP MAV_TYPE = 7 // MAV_TYPE_FREE_BALLOON enum. Free balloon, uncontrolled MAV_TYPE_FREE_BALLOON MAV_TYPE = 8 // MAV_TYPE_ROCKET enum. Rocket MAV_TYPE_ROCKET MAV_TYPE = 9 // MAV_TYPE_GROUND_ROVER enum. Ground rover MAV_TYPE_GROUND_ROVER MAV_TYPE = 10 // MAV_TYPE_SURFACE_BOAT enum. Surface vessel, boat, ship MAV_TYPE_SURFACE_BOAT MAV_TYPE = 11 // MAV_TYPE_SUBMARINE enum. Submarine MAV_TYPE_SUBMARINE MAV_TYPE = 12 // MAV_TYPE_HEXAROTOR enum. Hexarotor MAV_TYPE_HEXAROTOR MAV_TYPE = 13 // MAV_TYPE_OCTOROTOR enum. Octorotor MAV_TYPE_OCTOROTOR MAV_TYPE = 14 // MAV_TYPE_TRICOPTER enum. Tricopter MAV_TYPE_TRICOPTER MAV_TYPE = 15 // MAV_TYPE_FLAPPING_WING enum. Flapping wing MAV_TYPE_FLAPPING_WING MAV_TYPE = 16 // MAV_TYPE_KITE enum. Kite MAV_TYPE_KITE MAV_TYPE = 17 // MAV_TYPE_ONBOARD_CONTROLLER enum. Onboard companion controller MAV_TYPE_ONBOARD_CONTROLLER MAV_TYPE = 18 // MAV_TYPE_VTOL_DUOROTOR enum. Two-rotor VTOL using control surfaces in vertical operation in addition. Tailsitter MAV_TYPE_VTOL_DUOROTOR MAV_TYPE = 19 // MAV_TYPE_VTOL_QUADROTOR enum. Quad-rotor VTOL using a V-shaped quad config in vertical operation. Tailsitter MAV_TYPE_VTOL_QUADROTOR MAV_TYPE = 20 // MAV_TYPE_VTOL_TILTROTOR enum. Tiltrotor VTOL MAV_TYPE_VTOL_TILTROTOR MAV_TYPE = 21 // MAV_TYPE_VTOL_RESERVED2 enum. VTOL reserved 2 MAV_TYPE_VTOL_RESERVED2 MAV_TYPE = 22 // MAV_TYPE_VTOL_RESERVED3 enum. VTOL reserved 3 MAV_TYPE_VTOL_RESERVED3 MAV_TYPE = 23 // MAV_TYPE_VTOL_RESERVED4 enum. VTOL reserved 4 MAV_TYPE_VTOL_RESERVED4 MAV_TYPE = 24 // MAV_TYPE_VTOL_RESERVED5 enum. VTOL reserved 5 MAV_TYPE_VTOL_RESERVED5 MAV_TYPE = 25 // MAV_TYPE_GIMBAL enum. Gimbal MAV_TYPE_GIMBAL MAV_TYPE = 26 // MAV_TYPE_ADSB enum. ADSB system MAV_TYPE_ADSB MAV_TYPE = 27 // MAV_TYPE_PARAFOIL enum. Steerable, nonrigid airfoil MAV_TYPE_PARAFOIL MAV_TYPE = 28 // MAV_TYPE_DODECAROTOR enum. Dodecarotor MAV_TYPE_DODECAROTOR MAV_TYPE = 29 // MAV_TYPE_CAMERA enum. Camera MAV_TYPE_CAMERA MAV_TYPE = 30 // MAV_TYPE_CHARGING_STATION enum. Charging station MAV_TYPE_CHARGING_STATION MAV_TYPE = 31 // MAV_TYPE_FLARM enum. FLARM collision avoidance system MAV_TYPE_FLARM MAV_TYPE = 32 // MAV_TYPE_SERVO enum. Servo MAV_TYPE_SERVO MAV_TYPE = 33 // MAV_TYPE_ODID enum. Open Drone ID. See https://mavlink.io/en/services/opendroneid.html MAV_TYPE_ODID MAV_TYPE = 34 // MAV_TYPE_DECAROTOR enum. Decarotor MAV_TYPE_DECAROTOR MAV_TYPE = 35 )
func (MAV_TYPE) MarshalBinary ¶
MarshalBinary generic func
func (*MAV_TYPE) UnmarshalBinary ¶
UnmarshalBinary generic func
type MAV_VTOL_STATE ¶
type MAV_VTOL_STATE int
MAV_VTOL_STATE type. Enumeration of VTOL states
const ( // MAV_VTOL_STATE_UNDEFINED enum. MAV is not configured as VTOL MAV_VTOL_STATE_UNDEFINED MAV_VTOL_STATE = 0 // MAV_VTOL_STATE_TRANSITION_TO_FW enum. VTOL is in transition from multicopter to fixed-wing MAV_VTOL_STATE_TRANSITION_TO_FW MAV_VTOL_STATE = 1 // MAV_VTOL_STATE_TRANSITION_TO_MC enum. VTOL is in transition from fixed-wing to multicopter MAV_VTOL_STATE_TRANSITION_TO_MC MAV_VTOL_STATE = 2 // MAV_VTOL_STATE_MC enum. VTOL is in multicopter state MAV_VTOL_STATE_MC MAV_VTOL_STATE = 3 // MAV_VTOL_STATE_FW enum. VTOL is in fixed-wing state MAV_VTOL_STATE_FW MAV_VTOL_STATE = 4 )
func (MAV_VTOL_STATE) Bitmask ¶
func (e MAV_VTOL_STATE) Bitmask() string
Bitmask return string representetion of intersects MAV_VTOL_STATE enums
func (MAV_VTOL_STATE) MarshalBinary ¶
func (e MAV_VTOL_STATE) MarshalBinary() (data []byte, err error)
MarshalBinary generic func
func (MAV_VTOL_STATE) String ¶
func (e MAV_VTOL_STATE) String() string
func (*MAV_VTOL_STATE) UnmarshalBinary ¶
func (e *MAV_VTOL_STATE) UnmarshalBinary(data []byte) error
UnmarshalBinary generic func
type MAV_WINCH_STATUS_FLAG ¶
type MAV_WINCH_STATUS_FLAG int
MAV_WINCH_STATUS_FLAG type. Winch status flags used in WINCH_STATUS
const ( // MAV_WINCH_STATUS_HEALTHY enum. Winch is healthy MAV_WINCH_STATUS_HEALTHY MAV_WINCH_STATUS_FLAG = 1 // MAV_WINCH_STATUS_FULLY_RETRACTED enum. Winch thread is fully retracted MAV_WINCH_STATUS_FULLY_RETRACTED MAV_WINCH_STATUS_FLAG = 2 // MAV_WINCH_STATUS_MOVING enum. Winch motor is moving MAV_WINCH_STATUS_MOVING MAV_WINCH_STATUS_FLAG = 4 // MAV_WINCH_STATUS_CLUTCH_ENGAGED enum. Winch clutch is engaged allowing motor to move freely MAV_WINCH_STATUS_CLUTCH_ENGAGED MAV_WINCH_STATUS_FLAG = 8 )
func (MAV_WINCH_STATUS_FLAG) Bitmask ¶
func (e MAV_WINCH_STATUS_FLAG) Bitmask() string
Bitmask return string representetion of intersects MAV_WINCH_STATUS_FLAG enums
func (MAV_WINCH_STATUS_FLAG) MarshalBinary ¶
func (e MAV_WINCH_STATUS_FLAG) MarshalBinary() (data []byte, err error)
MarshalBinary generic func
func (MAV_WINCH_STATUS_FLAG) String ¶
func (e MAV_WINCH_STATUS_FLAG) String() string
func (*MAV_WINCH_STATUS_FLAG) UnmarshalBinary ¶
func (e *MAV_WINCH_STATUS_FLAG) UnmarshalBinary(data []byte) error
UnmarshalBinary generic func
type MOTOR_TEST_ORDER ¶
type MOTOR_TEST_ORDER int
MOTOR_TEST_ORDER type
const ( // MOTOR_TEST_ORDER_DEFAULT enum. default autopilot motor test method MOTOR_TEST_ORDER_DEFAULT MOTOR_TEST_ORDER = 0 // MOTOR_TEST_ORDER_SEQUENCE enum. motor numbers are specified as their index in a predefined vehicle-specific sequence MOTOR_TEST_ORDER_SEQUENCE MOTOR_TEST_ORDER = 1 // MOTOR_TEST_ORDER_BOARD enum. motor numbers are specified as the output as labeled on the board MOTOR_TEST_ORDER_BOARD MOTOR_TEST_ORDER = 2 )
func (MOTOR_TEST_ORDER) Bitmask ¶
func (e MOTOR_TEST_ORDER) Bitmask() string
Bitmask return string representetion of intersects MOTOR_TEST_ORDER enums
func (MOTOR_TEST_ORDER) MarshalBinary ¶
func (e MOTOR_TEST_ORDER) MarshalBinary() (data []byte, err error)
MarshalBinary generic func
func (MOTOR_TEST_ORDER) String ¶
func (e MOTOR_TEST_ORDER) String() string
func (*MOTOR_TEST_ORDER) UnmarshalBinary ¶
func (e *MOTOR_TEST_ORDER) UnmarshalBinary(data []byte) error
UnmarshalBinary generic func
type MOTOR_TEST_THROTTLE_TYPE ¶
type MOTOR_TEST_THROTTLE_TYPE int
MOTOR_TEST_THROTTLE_TYPE type
const ( // MOTOR_TEST_THROTTLE_PERCENT enum. throttle as a percentage from 0 ~ 100 MOTOR_TEST_THROTTLE_PERCENT MOTOR_TEST_THROTTLE_TYPE = 0 // MOTOR_TEST_THROTTLE_PWM enum. throttle as an absolute PWM value (normally in range of 1000~2000) MOTOR_TEST_THROTTLE_PWM MOTOR_TEST_THROTTLE_TYPE = 1 // MOTOR_TEST_THROTTLE_PILOT enum. throttle pass-through from pilot's transmitter MOTOR_TEST_THROTTLE_PILOT MOTOR_TEST_THROTTLE_TYPE = 2 // MOTOR_TEST_COMPASS_CAL enum. per-motor compass calibration test MOTOR_TEST_COMPASS_CAL MOTOR_TEST_THROTTLE_TYPE = 3 )
func (MOTOR_TEST_THROTTLE_TYPE) Bitmask ¶
func (e MOTOR_TEST_THROTTLE_TYPE) Bitmask() string
Bitmask return string representetion of intersects MOTOR_TEST_THROTTLE_TYPE enums
func (MOTOR_TEST_THROTTLE_TYPE) MarshalBinary ¶
func (e MOTOR_TEST_THROTTLE_TYPE) MarshalBinary() (data []byte, err error)
MarshalBinary generic func
func (MOTOR_TEST_THROTTLE_TYPE) String ¶
func (e MOTOR_TEST_THROTTLE_TYPE) String() string
func (*MOTOR_TEST_THROTTLE_TYPE) UnmarshalBinary ¶
func (e *MOTOR_TEST_THROTTLE_TYPE) UnmarshalBinary(data []byte) error
UnmarshalBinary generic func
type MagCalReport ¶
type MagCalReport struct { Fitness float32 `json:"Fitness" ` // [ mgauss ] RMS milligauss residuals. OfsX float32 `json:"OfsX" ` // X offset. OfsY float32 `json:"OfsY" ` // Y offset. OfsZ float32 `json:"OfsZ" ` // Z offset. DiagX float32 `json:"DiagX" ` // X diagonal (matrix 11). DiagY float32 `json:"DiagY" ` // Y diagonal (matrix 22). DiagZ float32 `json:"DiagZ" ` // Z diagonal (matrix 33). OffdiagX float32 `json:"OffdiagX" ` // X off-diagonal (matrix 12 and 21). OffdiagY float32 `json:"OffdiagY" ` // Y off-diagonal (matrix 13 and 31). OffdiagZ float32 `json:"OffdiagZ" ` // Z off-diagonal (matrix 32 and 23). CompassID uint8 `json:"CompassID" ` // Compass being calibrated. CalMask uint8 `json:"CalMask" ` // Bitmask of compasses being calibrated. CalStatus MAG_CAL_STATUS `json:"CalStatus" ` // Calibration Status. Autosaved uint8 `json:"Autosaved" ` // 0=requires a MAV_CMD_DO_ACCEPT_MAG_CAL, 1=saved to parameters. }
MagCalReport struct (generated typeinfo) Reports results of completed compass calibration. Sent until MAG_CAL_ACK received.
func (*MagCalReport) Dict ¶
func (m *MagCalReport) Dict() map[string]interface{}
ToMap (generated function)
func (*MagCalReport) Marshal ¶
func (m *MagCalReport) Marshal() ([]byte, error)
Marshal (generated function)
func (MagCalReport) MarshalEasyJSON ¶ added in v1.5.0
func (v MagCalReport) MarshalEasyJSON(w *jwriter.Writer)
MarshalEasyJSON supports easyjson.Marshaler interface
func (MagCalReport) MarshalJSON ¶ added in v1.5.0
func (v MagCalReport) MarshalJSON() ([]byte, error)
MarshalJSON supports json.Marshaler interface
func (*MagCalReport) MsgID ¶
func (m *MagCalReport) MsgID() message.MessageID
MsgID (generated function)
func (*MagCalReport) Unmarshal ¶
func (m *MagCalReport) Unmarshal(data []byte) error
Unmarshal (generated function)
func (*MagCalReport) UnmarshalEasyJSON ¶ added in v1.5.0
func (v *MagCalReport) UnmarshalEasyJSON(l *jlexer.Lexer)
UnmarshalEasyJSON supports easyjson.Unmarshaler interface
func (*MagCalReport) UnmarshalJSON ¶ added in v1.5.0
func (v *MagCalReport) UnmarshalJSON(data []byte) error
UnmarshalJSON supports json.Unmarshaler interface
type ManualControl ¶
type ManualControl struct { X int16 `json:"X" ` // X-axis, normalized to the range [-1000,1000]. A value of INT16_MAX indicates that this axis is invalid. Generally corresponds to forward(1000)-backward(-1000) movement on a joystick and the pitch of a vehicle. Y int16 `json:"Y" ` // Y-axis, normalized to the range [-1000,1000]. A value of INT16_MAX indicates that this axis is invalid. Generally corresponds to left(-1000)-right(1000) movement on a joystick and the roll of a vehicle. Z int16 `json:"Z" ` // Z-axis, normalized to the range [-1000,1000]. A value of INT16_MAX indicates that this axis is invalid. Generally corresponds to a separate slider movement with maximum being 1000 and minimum being -1000 on a joystick and the thrust of a vehicle. Positive values are positive thrust, negative values are negative thrust. R int16 `json:"R" ` // R-axis, normalized to the range [-1000,1000]. A value of INT16_MAX indicates that this axis is invalid. Generally corresponds to a twisting of the joystick, with counter-clockwise being 1000 and clockwise being -1000, and the yaw of a vehicle. Buttons uint16 `json:"Buttons" ` // A bitfield corresponding to the joystick buttons' current state, 1 for pressed, 0 for released. The lowest bit corresponds to Button 1. Target uint8 `json:"Target" ` // The system to be controlled. }
ManualControl struct (generated typeinfo) This message provides an API for manually controlling the vehicle using standard joystick axes nomenclature, along with a joystick-like input device. Unused axes can be disabled an buttons are also transmit as boolean values of their
func (*ManualControl) Dict ¶
func (m *ManualControl) Dict() map[string]interface{}
ToMap (generated function)
func (*ManualControl) Marshal ¶
func (m *ManualControl) Marshal() ([]byte, error)
Marshal (generated function)
func (ManualControl) MarshalEasyJSON ¶ added in v1.5.0
func (v ManualControl) MarshalEasyJSON(w *jwriter.Writer)
MarshalEasyJSON supports easyjson.Marshaler interface
func (ManualControl) MarshalJSON ¶ added in v1.5.0
func (v ManualControl) MarshalJSON() ([]byte, error)
MarshalJSON supports json.Marshaler interface
func (*ManualControl) MsgID ¶
func (m *ManualControl) MsgID() message.MessageID
MsgID (generated function)
func (*ManualControl) Unmarshal ¶
func (m *ManualControl) Unmarshal(data []byte) error
Unmarshal (generated function)
func (*ManualControl) UnmarshalEasyJSON ¶ added in v1.5.0
func (v *ManualControl) UnmarshalEasyJSON(l *jlexer.Lexer)
UnmarshalEasyJSON supports easyjson.Unmarshaler interface
func (*ManualControl) UnmarshalJSON ¶ added in v1.5.0
func (v *ManualControl) UnmarshalJSON(data []byte) error
UnmarshalJSON supports json.Unmarshaler interface
type ManualSetpoint ¶
type ManualSetpoint struct { TimeBootMs uint32 `json:"TimeBootMs" ` // [ ms ] Timestamp (time since system boot). Roll float32 `json:"Roll" ` // [ rad/s ] Desired roll rate Pitch float32 `json:"Pitch" ` // [ rad/s ] Desired pitch rate Yaw float32 `json:"Yaw" ` // [ rad/s ] Desired yaw rate Thrust float32 `json:"Thrust" ` // Collective thrust, normalized to 0 .. 1 ModeSwitch uint8 `json:"ModeSwitch" ` // Flight mode switch position, 0.. 255 ManualOverrideSwitch uint8 `json:"ManualOverrideSwitch" ` // Override mode switch position, 0.. 255 }
ManualSetpoint struct (generated typeinfo) Setpoint in roll, pitch, yaw and thrust from the operator
func (*ManualSetpoint) Dict ¶
func (m *ManualSetpoint) Dict() map[string]interface{}
ToMap (generated function)
func (*ManualSetpoint) Marshal ¶
func (m *ManualSetpoint) Marshal() ([]byte, error)
Marshal (generated function)
func (ManualSetpoint) MarshalEasyJSON ¶ added in v1.5.0
func (v ManualSetpoint) MarshalEasyJSON(w *jwriter.Writer)
MarshalEasyJSON supports easyjson.Marshaler interface
func (ManualSetpoint) MarshalJSON ¶ added in v1.5.0
func (v ManualSetpoint) MarshalJSON() ([]byte, error)
MarshalJSON supports json.Marshaler interface
func (*ManualSetpoint) MsgID ¶
func (m *ManualSetpoint) MsgID() message.MessageID
MsgID (generated function)
func (*ManualSetpoint) String ¶
func (m *ManualSetpoint) String() string
String (generated function)
func (*ManualSetpoint) Unmarshal ¶
func (m *ManualSetpoint) Unmarshal(data []byte) error
Unmarshal (generated function)
func (*ManualSetpoint) UnmarshalEasyJSON ¶ added in v1.5.0
func (v *ManualSetpoint) UnmarshalEasyJSON(l *jlexer.Lexer)
UnmarshalEasyJSON supports easyjson.Unmarshaler interface
func (*ManualSetpoint) UnmarshalJSON ¶ added in v1.5.0
func (v *ManualSetpoint) UnmarshalJSON(data []byte) error
UnmarshalJSON supports json.Unmarshaler interface
type MemoryVect ¶
type MemoryVect struct { Address uint16 `json:"Address" ` // Starting address of the debug variables Ver uint8 `json:"Ver" ` // Version code of the type variable. 0=unknown, type ignored and assumed int16_t. 1=as below Type uint8 `json:"Type" ` // Type code of the memory variables. for ver = 1: 0=16 x int16_t, 1=16 x uint16_t, 2=16 x Q15, 3=16 x 1Q14 Value []int8 `json:"Value" len:"32" ` // Memory contents at specified address }
MemoryVect struct (generated typeinfo) Send raw controller memory. The use of this message is discouraged for normal packets, but a quite efficient way for testing new messages and getting experimental debug output.
func (*MemoryVect) Dict ¶
func (m *MemoryVect) Dict() map[string]interface{}
ToMap (generated function)
func (*MemoryVect) Marshal ¶
func (m *MemoryVect) Marshal() ([]byte, error)
Marshal (generated function)
func (MemoryVect) MarshalEasyJSON ¶ added in v1.5.0
func (v MemoryVect) MarshalEasyJSON(w *jwriter.Writer)
MarshalEasyJSON supports easyjson.Marshaler interface
func (MemoryVect) MarshalJSON ¶ added in v1.5.0
func (v MemoryVect) MarshalJSON() ([]byte, error)
MarshalJSON supports json.Marshaler interface
func (*MemoryVect) MsgID ¶
func (m *MemoryVect) MsgID() message.MessageID
MsgID (generated function)
func (*MemoryVect) Unmarshal ¶
func (m *MemoryVect) Unmarshal(data []byte) error
Unmarshal (generated function)
func (*MemoryVect) UnmarshalEasyJSON ¶ added in v1.5.0
func (v *MemoryVect) UnmarshalEasyJSON(l *jlexer.Lexer)
UnmarshalEasyJSON supports easyjson.Unmarshaler interface
func (*MemoryVect) UnmarshalJSON ¶ added in v1.5.0
func (v *MemoryVect) UnmarshalJSON(data []byte) error
UnmarshalJSON supports json.Unmarshaler interface
type MessageInterval ¶
type MessageInterval struct { IntervalUs int32 `json:"IntervalUs" ` // [ us ] The interval between two messages. A value of -1 indicates this stream is disabled, 0 indicates it is not available, > 0 indicates the interval at which it is sent. MessageID uint16 `json:"MessageID" ` // The ID of the requested MAVLink message. v1.0 is limited to 254 messages. }
MessageInterval struct (generated typeinfo) The interval between messages for a particular MAVLink message ID. This message is the response to the MAV_CMD_GET_MESSAGE_INTERVAL command. This interface replaces DATA_STREAM.
func (*MessageInterval) Dict ¶
func (m *MessageInterval) Dict() map[string]interface{}
ToMap (generated function)
func (*MessageInterval) Marshal ¶
func (m *MessageInterval) Marshal() ([]byte, error)
Marshal (generated function)
func (MessageInterval) MarshalEasyJSON ¶ added in v1.5.0
func (v MessageInterval) MarshalEasyJSON(w *jwriter.Writer)
MarshalEasyJSON supports easyjson.Marshaler interface
func (MessageInterval) MarshalJSON ¶ added in v1.5.0
func (v MessageInterval) MarshalJSON() ([]byte, error)
MarshalJSON supports json.Marshaler interface
func (*MessageInterval) MsgID ¶
func (m *MessageInterval) MsgID() message.MessageID
MsgID (generated function)
func (*MessageInterval) String ¶
func (m *MessageInterval) String() string
String (generated function)
func (*MessageInterval) Unmarshal ¶
func (m *MessageInterval) Unmarshal(data []byte) error
Unmarshal (generated function)
func (*MessageInterval) UnmarshalEasyJSON ¶ added in v1.5.0
func (v *MessageInterval) UnmarshalEasyJSON(l *jlexer.Lexer)
UnmarshalEasyJSON supports easyjson.Unmarshaler interface
func (*MessageInterval) UnmarshalJSON ¶ added in v1.5.0
func (v *MessageInterval) UnmarshalJSON(data []byte) error
UnmarshalJSON supports json.Unmarshaler interface
type MissionAck ¶
type MissionAck struct { TargetSystem uint8 `json:"TargetSystem" ` // System ID TargetComponent uint8 `json:"TargetComponent" ` // Component ID Type MAV_MISSION_RESULT `json:"Type" ` // Mission result. }
MissionAck struct (generated typeinfo) Acknowledgment message during waypoint handling. The type field states if this message is a positive ack (type=0) or if an error happened (type=non-zero).
func (*MissionAck) Dict ¶
func (m *MissionAck) Dict() map[string]interface{}
ToMap (generated function)
func (*MissionAck) Marshal ¶
func (m *MissionAck) Marshal() ([]byte, error)
Marshal (generated function)
func (MissionAck) MarshalEasyJSON ¶ added in v1.5.0
func (v MissionAck) MarshalEasyJSON(w *jwriter.Writer)
MarshalEasyJSON supports easyjson.Marshaler interface
func (MissionAck) MarshalJSON ¶ added in v1.5.0
func (v MissionAck) MarshalJSON() ([]byte, error)
MarshalJSON supports json.Marshaler interface
func (*MissionAck) MsgID ¶
func (m *MissionAck) MsgID() message.MessageID
MsgID (generated function)
func (*MissionAck) Unmarshal ¶
func (m *MissionAck) Unmarshal(data []byte) error
Unmarshal (generated function)
func (*MissionAck) UnmarshalEasyJSON ¶ added in v1.5.0
func (v *MissionAck) UnmarshalEasyJSON(l *jlexer.Lexer)
UnmarshalEasyJSON supports easyjson.Unmarshaler interface
func (*MissionAck) UnmarshalJSON ¶ added in v1.5.0
func (v *MissionAck) UnmarshalJSON(data []byte) error
UnmarshalJSON supports json.Unmarshaler interface
type MissionChanged ¶
type MissionChanged struct { StartIndex int16 `json:"StartIndex" ` // Start index for partial mission change (-1 for all items). EndIndex int16 `json:"EndIndex" ` // End index of a partial mission change. -1 is a synonym for the last mission item (i.e. selects all items from start_index). Ignore field if start_index=-1. OriginSysid uint8 `json:"OriginSysid" ` // System ID of the author of the new mission. OriginCompid MAV_COMPONENT `json:"OriginCompid" ` // Compnent ID of the author of the new mission. MissionType MAV_MISSION_TYPE `json:"MissionType" ` // Mission type. }
MissionChanged struct (generated typeinfo) A broadcast message to notify any ground station or SDK if a mission, geofence or safe points have changed on the vehicle.
func (*MissionChanged) Dict ¶
func (m *MissionChanged) Dict() map[string]interface{}
ToMap (generated function)
func (*MissionChanged) Marshal ¶
func (m *MissionChanged) Marshal() ([]byte, error)
Marshal (generated function)
func (MissionChanged) MarshalEasyJSON ¶ added in v1.5.0
func (v MissionChanged) MarshalEasyJSON(w *jwriter.Writer)
MarshalEasyJSON supports easyjson.Marshaler interface
func (MissionChanged) MarshalJSON ¶ added in v1.5.0
func (v MissionChanged) MarshalJSON() ([]byte, error)
MarshalJSON supports json.Marshaler interface
func (*MissionChanged) MsgID ¶
func (m *MissionChanged) MsgID() message.MessageID
MsgID (generated function)
func (*MissionChanged) String ¶
func (m *MissionChanged) String() string
String (generated function)
func (*MissionChanged) Unmarshal ¶
func (m *MissionChanged) Unmarshal(data []byte) error
Unmarshal (generated function)
func (*MissionChanged) UnmarshalEasyJSON ¶ added in v1.5.0
func (v *MissionChanged) UnmarshalEasyJSON(l *jlexer.Lexer)
UnmarshalEasyJSON supports easyjson.Unmarshaler interface
func (*MissionChanged) UnmarshalJSON ¶ added in v1.5.0
func (v *MissionChanged) UnmarshalJSON(data []byte) error
UnmarshalJSON supports json.Unmarshaler interface
type MissionClearAll ¶
type MissionClearAll struct { TargetSystem uint8 `json:"TargetSystem" ` // System ID TargetComponent uint8 `json:"TargetComponent" ` // Component ID }
MissionClearAll struct (generated typeinfo) Delete all mission items at once.
func (*MissionClearAll) Dict ¶
func (m *MissionClearAll) Dict() map[string]interface{}
ToMap (generated function)
func (*MissionClearAll) Marshal ¶
func (m *MissionClearAll) Marshal() ([]byte, error)
Marshal (generated function)
func (MissionClearAll) MarshalEasyJSON ¶ added in v1.5.0
func (v MissionClearAll) MarshalEasyJSON(w *jwriter.Writer)
MarshalEasyJSON supports easyjson.Marshaler interface
func (MissionClearAll) MarshalJSON ¶ added in v1.5.0
func (v MissionClearAll) MarshalJSON() ([]byte, error)
MarshalJSON supports json.Marshaler interface
func (*MissionClearAll) MsgID ¶
func (m *MissionClearAll) MsgID() message.MessageID
MsgID (generated function)
func (*MissionClearAll) String ¶
func (m *MissionClearAll) String() string
String (generated function)
func (*MissionClearAll) Unmarshal ¶
func (m *MissionClearAll) Unmarshal(data []byte) error
Unmarshal (generated function)
func (*MissionClearAll) UnmarshalEasyJSON ¶ added in v1.5.0
func (v *MissionClearAll) UnmarshalEasyJSON(l *jlexer.Lexer)
UnmarshalEasyJSON supports easyjson.Unmarshaler interface
func (*MissionClearAll) UnmarshalJSON ¶ added in v1.5.0
func (v *MissionClearAll) UnmarshalJSON(data []byte) error
UnmarshalJSON supports json.Unmarshaler interface
type MissionCount ¶
type MissionCount struct { Count uint16 `json:"Count" ` // Number of mission items in the sequence TargetSystem uint8 `json:"TargetSystem" ` // System ID TargetComponent uint8 `json:"TargetComponent" ` // Component ID }
MissionCount struct (generated typeinfo) This message is emitted as response to MISSION_REQUEST_LIST by the MAV and to initiate a write transaction. The GCS can then request the individual mission item based on the knowledge of the total number of waypoints.
func (*MissionCount) Dict ¶
func (m *MissionCount) Dict() map[string]interface{}
ToMap (generated function)
func (*MissionCount) Marshal ¶
func (m *MissionCount) Marshal() ([]byte, error)
Marshal (generated function)
func (MissionCount) MarshalEasyJSON ¶ added in v1.5.0
func (v MissionCount) MarshalEasyJSON(w *jwriter.Writer)
MarshalEasyJSON supports easyjson.Marshaler interface
func (MissionCount) MarshalJSON ¶ added in v1.5.0
func (v MissionCount) MarshalJSON() ([]byte, error)
MarshalJSON supports json.Marshaler interface
func (*MissionCount) MsgID ¶
func (m *MissionCount) MsgID() message.MessageID
MsgID (generated function)
func (*MissionCount) Unmarshal ¶
func (m *MissionCount) Unmarshal(data []byte) error
Unmarshal (generated function)
func (*MissionCount) UnmarshalEasyJSON ¶ added in v1.5.0
func (v *MissionCount) UnmarshalEasyJSON(l *jlexer.Lexer)
UnmarshalEasyJSON supports easyjson.Unmarshaler interface
func (*MissionCount) UnmarshalJSON ¶ added in v1.5.0
func (v *MissionCount) UnmarshalJSON(data []byte) error
UnmarshalJSON supports json.Unmarshaler interface
type MissionCurrent ¶
type MissionCurrent struct {
Seq uint16 `json:"Seq" ` // Sequence
}
MissionCurrent struct (generated typeinfo) Message that announces the sequence number of the current active mission item. The MAV will fly towards this mission item.
func (*MissionCurrent) Dict ¶
func (m *MissionCurrent) Dict() map[string]interface{}
ToMap (generated function)
func (*MissionCurrent) Marshal ¶
func (m *MissionCurrent) Marshal() ([]byte, error)
Marshal (generated function)
func (MissionCurrent) MarshalEasyJSON ¶ added in v1.5.0
func (v MissionCurrent) MarshalEasyJSON(w *jwriter.Writer)
MarshalEasyJSON supports easyjson.Marshaler interface
func (MissionCurrent) MarshalJSON ¶ added in v1.5.0
func (v MissionCurrent) MarshalJSON() ([]byte, error)
MarshalJSON supports json.Marshaler interface
func (*MissionCurrent) MsgID ¶
func (m *MissionCurrent) MsgID() message.MessageID
MsgID (generated function)
func (*MissionCurrent) String ¶
func (m *MissionCurrent) String() string
String (generated function)
func (*MissionCurrent) Unmarshal ¶
func (m *MissionCurrent) Unmarshal(data []byte) error
Unmarshal (generated function)
func (*MissionCurrent) UnmarshalEasyJSON ¶ added in v1.5.0
func (v *MissionCurrent) UnmarshalEasyJSON(l *jlexer.Lexer)
UnmarshalEasyJSON supports easyjson.Unmarshaler interface
func (*MissionCurrent) UnmarshalJSON ¶ added in v1.5.0
func (v *MissionCurrent) UnmarshalJSON(data []byte) error
UnmarshalJSON supports json.Unmarshaler interface
type MissionItem ¶
type MissionItem struct { Param1 float32 `json:"Param1" ` // PARAM1, see MAV_CMD enum Param2 float32 `json:"Param2" ` // PARAM2, see MAV_CMD enum Param3 float32 `json:"Param3" ` // PARAM3, see MAV_CMD enum Param4 float32 `json:"Param4" ` // PARAM4, see MAV_CMD enum X float32 `json:"X" ` // PARAM5 / local: X coordinate, global: latitude Y float32 `json:"Y" ` // PARAM6 / local: Y coordinate, global: longitude Z float32 `json:"Z" ` // PARAM7 / local: Z coordinate, global: altitude (relative or absolute, depending on frame). Seq uint16 `json:"Seq" ` // Sequence Command MAV_CMD `json:"Command" ` // The scheduled action for the waypoint. TargetSystem uint8 `json:"TargetSystem" ` // System ID TargetComponent uint8 `json:"TargetComponent" ` // Component ID Frame MAV_FRAME `json:"Frame" ` // The coordinate system of the waypoint. Current uint8 `json:"Current" ` // false:0, true:1 Autocontinue uint8 `json:"Autocontinue" ` // Autocontinue to next waypoint }
MissionItem struct (generated typeinfo) Message encoding a mission item. This message is emitted to announce
the presence of a mission item and to set a mission item on the system. The mission item can be either in x, y, z meters (type: LOCAL) or x:lat, y:lon, z:altitude. Local frame is Z-down, right handed (NED), global frame is Z-up, right handed (ENU). NaN may be used to indicate an optional/default value (e.g. to use the system's current latitude or yaw rather than a specific value). See also https://mavlink.io/en/services/mission.html.
func (*MissionItem) Dict ¶
func (m *MissionItem) Dict() map[string]interface{}
ToMap (generated function)
func (*MissionItem) Marshal ¶
func (m *MissionItem) Marshal() ([]byte, error)
Marshal (generated function)
func (MissionItem) MarshalEasyJSON ¶ added in v1.5.0
func (v MissionItem) MarshalEasyJSON(w *jwriter.Writer)
MarshalEasyJSON supports easyjson.Marshaler interface
func (MissionItem) MarshalJSON ¶ added in v1.5.0
func (v MissionItem) MarshalJSON() ([]byte, error)
MarshalJSON supports json.Marshaler interface
func (*MissionItem) MsgID ¶
func (m *MissionItem) MsgID() message.MessageID
MsgID (generated function)
func (*MissionItem) Unmarshal ¶
func (m *MissionItem) Unmarshal(data []byte) error
Unmarshal (generated function)
func (*MissionItem) UnmarshalEasyJSON ¶ added in v1.5.0
func (v *MissionItem) UnmarshalEasyJSON(l *jlexer.Lexer)
UnmarshalEasyJSON supports easyjson.Unmarshaler interface
func (*MissionItem) UnmarshalJSON ¶ added in v1.5.0
func (v *MissionItem) UnmarshalJSON(data []byte) error
UnmarshalJSON supports json.Unmarshaler interface
type MissionItemInt ¶
type MissionItemInt struct { Param1 float32 `json:"Param1" ` // PARAM1, see MAV_CMD enum Param2 float32 `json:"Param2" ` // PARAM2, see MAV_CMD enum Param3 float32 `json:"Param3" ` // PARAM3, see MAV_CMD enum Param4 float32 `json:"Param4" ` // PARAM4, see MAV_CMD enum X int32 `json:"X" ` // PARAM5 / local: x position in meters * 1e4, global: latitude in degrees * 10^7 Y int32 `json:"Y" ` // PARAM6 / y position: local: x position in meters * 1e4, global: longitude in degrees *10^7 Z float32 `json:"Z" ` // PARAM7 / z position: global: altitude in meters (relative or absolute, depending on frame. Seq uint16 `json:"Seq" ` // Waypoint ID (sequence number). Starts at zero. Increases monotonically for each waypoint, no gaps in the sequence (0,1,2,3,4). Command MAV_CMD `json:"Command" ` // The scheduled action for the waypoint. TargetSystem uint8 `json:"TargetSystem" ` // System ID TargetComponent uint8 `json:"TargetComponent" ` // Component ID Frame MAV_FRAME `json:"Frame" ` // The coordinate system of the waypoint. Current uint8 `json:"Current" ` // false:0, true:1 Autocontinue uint8 `json:"Autocontinue" ` // Autocontinue to next waypoint }
MissionItemInt struct (generated typeinfo) Message encoding a mission item. This message is emitted to announce
the presence of a mission item and to set a mission item on the system. The mission item can be either in x, y, z meters (type: LOCAL) or x:lat, y:lon, z:altitude. Local frame is Z-down, right handed (NED), global frame is Z-up, right handed (ENU). NaN or INT32_MAX may be used in float/integer params (respectively) to indicate optional/default values (e.g. to use the component's current latitude, yaw rather than a specific value). See also https://mavlink.io/en/services/mission.html.
func (*MissionItemInt) Dict ¶
func (m *MissionItemInt) Dict() map[string]interface{}
ToMap (generated function)
func (*MissionItemInt) Marshal ¶
func (m *MissionItemInt) Marshal() ([]byte, error)
Marshal (generated function)
func (MissionItemInt) MarshalEasyJSON ¶ added in v1.5.0
func (v MissionItemInt) MarshalEasyJSON(w *jwriter.Writer)
MarshalEasyJSON supports easyjson.Marshaler interface
func (MissionItemInt) MarshalJSON ¶ added in v1.5.0
func (v MissionItemInt) MarshalJSON() ([]byte, error)
MarshalJSON supports json.Marshaler interface
func (*MissionItemInt) MsgID ¶
func (m *MissionItemInt) MsgID() message.MessageID
MsgID (generated function)
func (*MissionItemInt) String ¶
func (m *MissionItemInt) String() string
String (generated function)
func (*MissionItemInt) Unmarshal ¶
func (m *MissionItemInt) Unmarshal(data []byte) error
Unmarshal (generated function)
func (*MissionItemInt) UnmarshalEasyJSON ¶ added in v1.5.0
func (v *MissionItemInt) UnmarshalEasyJSON(l *jlexer.Lexer)
UnmarshalEasyJSON supports easyjson.Unmarshaler interface
func (*MissionItemInt) UnmarshalJSON ¶ added in v1.5.0
func (v *MissionItemInt) UnmarshalJSON(data []byte) error
UnmarshalJSON supports json.Unmarshaler interface
type MissionItemReached ¶
type MissionItemReached struct {
Seq uint16 `json:"Seq" ` // Sequence
}
MissionItemReached struct (generated typeinfo) A certain mission item has been reached. The system will either hold this position (or circle on the orbit) or (if the autocontinue on the WP was set) continue to the next waypoint.
func (*MissionItemReached) Dict ¶
func (m *MissionItemReached) Dict() map[string]interface{}
ToMap (generated function)
func (*MissionItemReached) Marshal ¶
func (m *MissionItemReached) Marshal() ([]byte, error)
Marshal (generated function)
func (MissionItemReached) MarshalEasyJSON ¶ added in v1.5.0
func (v MissionItemReached) MarshalEasyJSON(w *jwriter.Writer)
MarshalEasyJSON supports easyjson.Marshaler interface
func (MissionItemReached) MarshalJSON ¶ added in v1.5.0
func (v MissionItemReached) MarshalJSON() ([]byte, error)
MarshalJSON supports json.Marshaler interface
func (*MissionItemReached) MsgID ¶
func (m *MissionItemReached) MsgID() message.MessageID
MsgID (generated function)
func (*MissionItemReached) String ¶
func (m *MissionItemReached) String() string
String (generated function)
func (*MissionItemReached) Unmarshal ¶
func (m *MissionItemReached) Unmarshal(data []byte) error
Unmarshal (generated function)
func (*MissionItemReached) UnmarshalEasyJSON ¶ added in v1.5.0
func (v *MissionItemReached) UnmarshalEasyJSON(l *jlexer.Lexer)
UnmarshalEasyJSON supports easyjson.Unmarshaler interface
func (*MissionItemReached) UnmarshalJSON ¶ added in v1.5.0
func (v *MissionItemReached) UnmarshalJSON(data []byte) error
UnmarshalJSON supports json.Unmarshaler interface
type MissionRequest ¶
type MissionRequest struct { Seq uint16 `json:"Seq" ` // Sequence TargetSystem uint8 `json:"TargetSystem" ` // System ID TargetComponent uint8 `json:"TargetComponent" ` // Component ID }
MissionRequest struct (generated typeinfo) Request the information of the mission item with the sequence number seq. The response of the system to this message should be a MISSION_ITEM message. https://mavlink.io/en/services/mission.html
func (*MissionRequest) Dict ¶
func (m *MissionRequest) Dict() map[string]interface{}
ToMap (generated function)
func (*MissionRequest) Marshal ¶
func (m *MissionRequest) Marshal() ([]byte, error)
Marshal (generated function)
func (MissionRequest) MarshalEasyJSON ¶ added in v1.5.0
func (v MissionRequest) MarshalEasyJSON(w *jwriter.Writer)
MarshalEasyJSON supports easyjson.Marshaler interface
func (MissionRequest) MarshalJSON ¶ added in v1.5.0
func (v MissionRequest) MarshalJSON() ([]byte, error)
MarshalJSON supports json.Marshaler interface
func (*MissionRequest) MsgID ¶
func (m *MissionRequest) MsgID() message.MessageID
MsgID (generated function)
func (*MissionRequest) String ¶
func (m *MissionRequest) String() string
String (generated function)
func (*MissionRequest) Unmarshal ¶
func (m *MissionRequest) Unmarshal(data []byte) error
Unmarshal (generated function)
func (*MissionRequest) UnmarshalEasyJSON ¶ added in v1.5.0
func (v *MissionRequest) UnmarshalEasyJSON(l *jlexer.Lexer)
UnmarshalEasyJSON supports easyjson.Unmarshaler interface
func (*MissionRequest) UnmarshalJSON ¶ added in v1.5.0
func (v *MissionRequest) UnmarshalJSON(data []byte) error
UnmarshalJSON supports json.Unmarshaler interface
type MissionRequestInt ¶
type MissionRequestInt struct { Seq uint16 `json:"Seq" ` // Sequence TargetSystem uint8 `json:"TargetSystem" ` // System ID TargetComponent uint8 `json:"TargetComponent" ` // Component ID }
MissionRequestInt struct (generated typeinfo) Request the information of the mission item with the sequence number seq. The response of the system to this message should be a MISSION_ITEM_INT message. https://mavlink.io/en/services/mission.html
func (*MissionRequestInt) Dict ¶
func (m *MissionRequestInt) Dict() map[string]interface{}
ToMap (generated function)
func (*MissionRequestInt) Marshal ¶
func (m *MissionRequestInt) Marshal() ([]byte, error)
Marshal (generated function)
func (MissionRequestInt) MarshalEasyJSON ¶ added in v1.5.0
func (v MissionRequestInt) MarshalEasyJSON(w *jwriter.Writer)
MarshalEasyJSON supports easyjson.Marshaler interface
func (MissionRequestInt) MarshalJSON ¶ added in v1.5.0
func (v MissionRequestInt) MarshalJSON() ([]byte, error)
MarshalJSON supports json.Marshaler interface
func (*MissionRequestInt) MsgID ¶
func (m *MissionRequestInt) MsgID() message.MessageID
MsgID (generated function)
func (*MissionRequestInt) String ¶
func (m *MissionRequestInt) String() string
String (generated function)
func (*MissionRequestInt) Unmarshal ¶
func (m *MissionRequestInt) Unmarshal(data []byte) error
Unmarshal (generated function)
func (*MissionRequestInt) UnmarshalEasyJSON ¶ added in v1.5.0
func (v *MissionRequestInt) UnmarshalEasyJSON(l *jlexer.Lexer)
UnmarshalEasyJSON supports easyjson.Unmarshaler interface
func (*MissionRequestInt) UnmarshalJSON ¶ added in v1.5.0
func (v *MissionRequestInt) UnmarshalJSON(data []byte) error
UnmarshalJSON supports json.Unmarshaler interface
type MissionRequestList ¶
type MissionRequestList struct { TargetSystem uint8 `json:"TargetSystem" ` // System ID TargetComponent uint8 `json:"TargetComponent" ` // Component ID }
MissionRequestList struct (generated typeinfo) Request the overall list of mission items from the system/component.
func (*MissionRequestList) Dict ¶
func (m *MissionRequestList) Dict() map[string]interface{}
ToMap (generated function)
func (*MissionRequestList) Marshal ¶
func (m *MissionRequestList) Marshal() ([]byte, error)
Marshal (generated function)
func (MissionRequestList) MarshalEasyJSON ¶ added in v1.5.0
func (v MissionRequestList) MarshalEasyJSON(w *jwriter.Writer)
MarshalEasyJSON supports easyjson.Marshaler interface
func (MissionRequestList) MarshalJSON ¶ added in v1.5.0
func (v MissionRequestList) MarshalJSON() ([]byte, error)
MarshalJSON supports json.Marshaler interface
func (*MissionRequestList) MsgID ¶
func (m *MissionRequestList) MsgID() message.MessageID
MsgID (generated function)
func (*MissionRequestList) String ¶
func (m *MissionRequestList) String() string
String (generated function)
func (*MissionRequestList) Unmarshal ¶
func (m *MissionRequestList) Unmarshal(data []byte) error
Unmarshal (generated function)
func (*MissionRequestList) UnmarshalEasyJSON ¶ added in v1.5.0
func (v *MissionRequestList) UnmarshalEasyJSON(l *jlexer.Lexer)
UnmarshalEasyJSON supports easyjson.Unmarshaler interface
func (*MissionRequestList) UnmarshalJSON ¶ added in v1.5.0
func (v *MissionRequestList) UnmarshalJSON(data []byte) error
UnmarshalJSON supports json.Unmarshaler interface
type MissionRequestPartialList ¶
type MissionRequestPartialList struct { StartIndex int16 `json:"StartIndex" ` // Start index EndIndex int16 `json:"EndIndex" ` // End index, -1 by default (-1: send list to end). Else a valid index of the list TargetSystem uint8 `json:"TargetSystem" ` // System ID TargetComponent uint8 `json:"TargetComponent" ` // Component ID }
MissionRequestPartialList struct (generated typeinfo) Request a partial list of mission items from the system/component. https://mavlink.io/en/services/mission.html. If start and end index are the same, just send one waypoint.
func (*MissionRequestPartialList) Dict ¶
func (m *MissionRequestPartialList) Dict() map[string]interface{}
ToMap (generated function)
func (*MissionRequestPartialList) Marshal ¶
func (m *MissionRequestPartialList) Marshal() ([]byte, error)
Marshal (generated function)
func (MissionRequestPartialList) MarshalEasyJSON ¶ added in v1.5.0
func (v MissionRequestPartialList) MarshalEasyJSON(w *jwriter.Writer)
MarshalEasyJSON supports easyjson.Marshaler interface
func (MissionRequestPartialList) MarshalJSON ¶ added in v1.5.0
func (v MissionRequestPartialList) MarshalJSON() ([]byte, error)
MarshalJSON supports json.Marshaler interface
func (*MissionRequestPartialList) MsgID ¶
func (m *MissionRequestPartialList) MsgID() message.MessageID
MsgID (generated function)
func (*MissionRequestPartialList) String ¶
func (m *MissionRequestPartialList) String() string
String (generated function)
func (*MissionRequestPartialList) Unmarshal ¶
func (m *MissionRequestPartialList) Unmarshal(data []byte) error
Unmarshal (generated function)
func (*MissionRequestPartialList) UnmarshalEasyJSON ¶ added in v1.5.0
func (v *MissionRequestPartialList) UnmarshalEasyJSON(l *jlexer.Lexer)
UnmarshalEasyJSON supports easyjson.Unmarshaler interface
func (*MissionRequestPartialList) UnmarshalJSON ¶ added in v1.5.0
func (v *MissionRequestPartialList) UnmarshalJSON(data []byte) error
UnmarshalJSON supports json.Unmarshaler interface
type MissionSetCurrent ¶
type MissionSetCurrent struct { Seq uint16 `json:"Seq" ` // Sequence TargetSystem uint8 `json:"TargetSystem" ` // System ID TargetComponent uint8 `json:"TargetComponent" ` // Component ID }
MissionSetCurrent struct (generated typeinfo) Set the mission item with sequence number seq as current item. This means that the MAV will continue to this mission item on the shortest path (not following the mission items in-between).
func (*MissionSetCurrent) Dict ¶
func (m *MissionSetCurrent) Dict() map[string]interface{}
ToMap (generated function)
func (*MissionSetCurrent) Marshal ¶
func (m *MissionSetCurrent) Marshal() ([]byte, error)
Marshal (generated function)
func (MissionSetCurrent) MarshalEasyJSON ¶ added in v1.5.0
func (v MissionSetCurrent) MarshalEasyJSON(w *jwriter.Writer)
MarshalEasyJSON supports easyjson.Marshaler interface
func (MissionSetCurrent) MarshalJSON ¶ added in v1.5.0
func (v MissionSetCurrent) MarshalJSON() ([]byte, error)
MarshalJSON supports json.Marshaler interface
func (*MissionSetCurrent) MsgID ¶
func (m *MissionSetCurrent) MsgID() message.MessageID
MsgID (generated function)
func (*MissionSetCurrent) String ¶
func (m *MissionSetCurrent) String() string
String (generated function)
func (*MissionSetCurrent) Unmarshal ¶
func (m *MissionSetCurrent) Unmarshal(data []byte) error
Unmarshal (generated function)
func (*MissionSetCurrent) UnmarshalEasyJSON ¶ added in v1.5.0
func (v *MissionSetCurrent) UnmarshalEasyJSON(l *jlexer.Lexer)
UnmarshalEasyJSON supports easyjson.Unmarshaler interface
func (*MissionSetCurrent) UnmarshalJSON ¶ added in v1.5.0
func (v *MissionSetCurrent) UnmarshalJSON(data []byte) error
UnmarshalJSON supports json.Unmarshaler interface
type MissionWritePartialList ¶
type MissionWritePartialList struct { StartIndex int16 `json:"StartIndex" ` // Start index. Must be smaller / equal to the largest index of the current onboard list. EndIndex int16 `json:"EndIndex" ` // End index, equal or greater than start index. TargetSystem uint8 `json:"TargetSystem" ` // System ID TargetComponent uint8 `json:"TargetComponent" ` // Component ID }
MissionWritePartialList struct (generated typeinfo) This message is sent to the MAV to write a partial list. If start index == end index, only one item will be transmitted / updated. If the start index is NOT 0 and above the current list size, this request should be REJECTED!
func (*MissionWritePartialList) Dict ¶
func (m *MissionWritePartialList) Dict() map[string]interface{}
ToMap (generated function)
func (*MissionWritePartialList) Marshal ¶
func (m *MissionWritePartialList) Marshal() ([]byte, error)
Marshal (generated function)
func (MissionWritePartialList) MarshalEasyJSON ¶ added in v1.5.0
func (v MissionWritePartialList) MarshalEasyJSON(w *jwriter.Writer)
MarshalEasyJSON supports easyjson.Marshaler interface
func (MissionWritePartialList) MarshalJSON ¶ added in v1.5.0
func (v MissionWritePartialList) MarshalJSON() ([]byte, error)
MarshalJSON supports json.Marshaler interface
func (*MissionWritePartialList) MsgID ¶
func (m *MissionWritePartialList) MsgID() message.MessageID
MsgID (generated function)
func (*MissionWritePartialList) String ¶
func (m *MissionWritePartialList) String() string
String (generated function)
func (*MissionWritePartialList) Unmarshal ¶
func (m *MissionWritePartialList) Unmarshal(data []byte) error
Unmarshal (generated function)
func (*MissionWritePartialList) UnmarshalEasyJSON ¶ added in v1.5.0
func (v *MissionWritePartialList) UnmarshalEasyJSON(l *jlexer.Lexer)
UnmarshalEasyJSON supports easyjson.Unmarshaler interface
func (*MissionWritePartialList) UnmarshalJSON ¶ added in v1.5.0
func (v *MissionWritePartialList) UnmarshalJSON(data []byte) error
UnmarshalJSON supports json.Unmarshaler interface
type NamedValueFloat ¶
type NamedValueFloat struct { TimeBootMs uint32 `json:"TimeBootMs" ` // [ ms ] Timestamp (time since system boot). Value float32 `json:"Value" ` // Floating point value Name string `json:"Name" len:"10" ` // Name of the debug variable }
NamedValueFloat struct (generated typeinfo) Send a key-value pair as float. The use of this message is discouraged for normal packets, but a quite efficient way for testing new messages and getting experimental debug output.
func (*NamedValueFloat) Dict ¶
func (m *NamedValueFloat) Dict() map[string]interface{}
ToMap (generated function)
func (*NamedValueFloat) Marshal ¶
func (m *NamedValueFloat) Marshal() ([]byte, error)
Marshal (generated function)
func (NamedValueFloat) MarshalEasyJSON ¶ added in v1.5.0
func (v NamedValueFloat) MarshalEasyJSON(w *jwriter.Writer)
MarshalEasyJSON supports easyjson.Marshaler interface
func (NamedValueFloat) MarshalJSON ¶ added in v1.5.0
func (v NamedValueFloat) MarshalJSON() ([]byte, error)
MarshalJSON supports json.Marshaler interface
func (*NamedValueFloat) MsgID ¶
func (m *NamedValueFloat) MsgID() message.MessageID
MsgID (generated function)
func (*NamedValueFloat) String ¶
func (m *NamedValueFloat) String() string
String (generated function)
func (*NamedValueFloat) Unmarshal ¶
func (m *NamedValueFloat) Unmarshal(data []byte) error
Unmarshal (generated function)
func (*NamedValueFloat) UnmarshalEasyJSON ¶ added in v1.5.0
func (v *NamedValueFloat) UnmarshalEasyJSON(l *jlexer.Lexer)
UnmarshalEasyJSON supports easyjson.Unmarshaler interface
func (*NamedValueFloat) UnmarshalJSON ¶ added in v1.5.0
func (v *NamedValueFloat) UnmarshalJSON(data []byte) error
UnmarshalJSON supports json.Unmarshaler interface
type NamedValueInt ¶
type NamedValueInt struct { TimeBootMs uint32 `json:"TimeBootMs" ` // [ ms ] Timestamp (time since system boot). Value int32 `json:"Value" ` // Signed integer value Name string `json:"Name" len:"10" ` // Name of the debug variable }
NamedValueInt struct (generated typeinfo) Send a key-value pair as integer. The use of this message is discouraged for normal packets, but a quite efficient way for testing new messages and getting experimental debug output.
func (*NamedValueInt) Dict ¶
func (m *NamedValueInt) Dict() map[string]interface{}
ToMap (generated function)
func (*NamedValueInt) Marshal ¶
func (m *NamedValueInt) Marshal() ([]byte, error)
Marshal (generated function)
func (NamedValueInt) MarshalEasyJSON ¶ added in v1.5.0
func (v NamedValueInt) MarshalEasyJSON(w *jwriter.Writer)
MarshalEasyJSON supports easyjson.Marshaler interface
func (NamedValueInt) MarshalJSON ¶ added in v1.5.0
func (v NamedValueInt) MarshalJSON() ([]byte, error)
MarshalJSON supports json.Marshaler interface
func (*NamedValueInt) MsgID ¶
func (m *NamedValueInt) MsgID() message.MessageID
MsgID (generated function)
func (*NamedValueInt) Unmarshal ¶
func (m *NamedValueInt) Unmarshal(data []byte) error
Unmarshal (generated function)
func (*NamedValueInt) UnmarshalEasyJSON ¶ added in v1.5.0
func (v *NamedValueInt) UnmarshalEasyJSON(l *jlexer.Lexer)
UnmarshalEasyJSON supports easyjson.Unmarshaler interface
func (*NamedValueInt) UnmarshalJSON ¶ added in v1.5.0
func (v *NamedValueInt) UnmarshalJSON(data []byte) error
UnmarshalJSON supports json.Unmarshaler interface
type NavControllerOutput ¶
type NavControllerOutput struct {}
NavControllerOutput struct (generated typeinfo) The state of the fixed wing navigation and position controller.
func (*NavControllerOutput) Dict ¶
func (m *NavControllerOutput) Dict() map[string]interface{}
ToMap (generated function)
func (*NavControllerOutput) Marshal ¶
func (m *NavControllerOutput) Marshal() ([]byte, error)
Marshal (generated function)
func (NavControllerOutput) MarshalEasyJSON ¶ added in v1.5.0
func (v NavControllerOutput) MarshalEasyJSON(w *jwriter.Writer)
MarshalEasyJSON supports easyjson.Marshaler interface
func (NavControllerOutput) MarshalJSON ¶ added in v1.5.0
func (v NavControllerOutput) MarshalJSON() ([]byte, error)
MarshalJSON supports json.Marshaler interface
func (*NavControllerOutput) MsgID ¶
func (m *NavControllerOutput) MsgID() message.MessageID
MsgID (generated function)
func (*NavControllerOutput) String ¶
func (m *NavControllerOutput) String() string
String (generated function)
func (*NavControllerOutput) Unmarshal ¶
func (m *NavControllerOutput) Unmarshal(data []byte) error
Unmarshal (generated function)
func (*NavControllerOutput) UnmarshalEasyJSON ¶ added in v1.5.0
func (v *NavControllerOutput) UnmarshalEasyJSON(l *jlexer.Lexer)
UnmarshalEasyJSON supports easyjson.Unmarshaler interface
func (*NavControllerOutput) UnmarshalJSON ¶ added in v1.5.0
func (v *NavControllerOutput) UnmarshalJSON(data []byte) error
UnmarshalJSON supports json.Unmarshaler interface
type ORBIT_YAW_BEHAVIOUR ¶
type ORBIT_YAW_BEHAVIOUR int
ORBIT_YAW_BEHAVIOUR type. Yaw behaviour during orbit flight.
const ( // ORBIT_YAW_BEHAVIOUR_HOLD_FRONT_TO_CIRCLE_CENTER enum. Vehicle front points to the center (default) ORBIT_YAW_BEHAVIOUR_HOLD_FRONT_TO_CIRCLE_CENTER ORBIT_YAW_BEHAVIOUR = 0 // ORBIT_YAW_BEHAVIOUR_HOLD_INITIAL_HEADING enum. Vehicle front holds heading when message received ORBIT_YAW_BEHAVIOUR_HOLD_INITIAL_HEADING ORBIT_YAW_BEHAVIOUR = 1 // ORBIT_YAW_BEHAVIOUR_UNCONTROLLED enum. Yaw uncontrolled ORBIT_YAW_BEHAVIOUR_UNCONTROLLED ORBIT_YAW_BEHAVIOUR = 2 // ORBIT_YAW_BEHAVIOUR_HOLD_FRONT_TANGENT_TO_CIRCLE enum. Vehicle front follows flight path (tangential to circle) ORBIT_YAW_BEHAVIOUR_HOLD_FRONT_TANGENT_TO_CIRCLE ORBIT_YAW_BEHAVIOUR = 3 // ORBIT_YAW_BEHAVIOUR_RC_CONTROLLED enum. Yaw controlled by RC input ORBIT_YAW_BEHAVIOUR_RC_CONTROLLED ORBIT_YAW_BEHAVIOUR = 4 )
func (ORBIT_YAW_BEHAVIOUR) Bitmask ¶
func (e ORBIT_YAW_BEHAVIOUR) Bitmask() string
Bitmask return string representetion of intersects ORBIT_YAW_BEHAVIOUR enums
func (ORBIT_YAW_BEHAVIOUR) MarshalBinary ¶
func (e ORBIT_YAW_BEHAVIOUR) MarshalBinary() (data []byte, err error)
MarshalBinary generic func
func (ORBIT_YAW_BEHAVIOUR) String ¶
func (e ORBIT_YAW_BEHAVIOUR) String() string
func (*ORBIT_YAW_BEHAVIOUR) UnmarshalBinary ¶
func (e *ORBIT_YAW_BEHAVIOUR) UnmarshalBinary(data []byte) error
UnmarshalBinary generic func
type OpticalFlow ¶
type OpticalFlow struct { TimeUsec uint64 `json:"TimeUsec" ` // [ us ] Timestamp (UNIX Epoch time or time since system boot). The receiving end can infer timestamp format (since 1.1.1970 or since system boot) by checking for the magnitude of the number. FlowCompMX float32 `json:"FlowCompMX" ` // [ m/s ] Flow in x-sensor direction, angular-speed compensated FlowCompMY float32 `json:"FlowCompMY" ` // [ m/s ] Flow in y-sensor direction, angular-speed compensated GroundDistance float32 `json:"GroundDistance" ` // [ m ] Ground distance. Positive value: distance known. Negative value: Unknown distance FlowX int16 `json:"FlowX" ` // [ dpix ] Flow in x-sensor direction FlowY int16 `json:"FlowY" ` // [ dpix ] Flow in y-sensor direction SensorID uint8 `json:"SensorID" ` // Sensor ID Quality uint8 `json:"Quality" ` // Optical flow quality / confidence. 0: bad, 255: maximum quality }
OpticalFlow struct (generated typeinfo) Optical flow from a flow sensor (e.g. optical mouse sensor)
func (*OpticalFlow) Dict ¶
func (m *OpticalFlow) Dict() map[string]interface{}
ToMap (generated function)
func (*OpticalFlow) Marshal ¶
func (m *OpticalFlow) Marshal() ([]byte, error)
Marshal (generated function)
func (OpticalFlow) MarshalEasyJSON ¶ added in v1.5.0
func (v OpticalFlow) MarshalEasyJSON(w *jwriter.Writer)
MarshalEasyJSON supports easyjson.Marshaler interface
func (OpticalFlow) MarshalJSON ¶ added in v1.5.0
func (v OpticalFlow) MarshalJSON() ([]byte, error)
MarshalJSON supports json.Marshaler interface
func (*OpticalFlow) MsgID ¶
func (m *OpticalFlow) MsgID() message.MessageID
MsgID (generated function)
func (*OpticalFlow) Unmarshal ¶
func (m *OpticalFlow) Unmarshal(data []byte) error
Unmarshal (generated function)
func (*OpticalFlow) UnmarshalEasyJSON ¶ added in v1.5.0
func (v *OpticalFlow) UnmarshalEasyJSON(l *jlexer.Lexer)
UnmarshalEasyJSON supports easyjson.Unmarshaler interface
func (*OpticalFlow) UnmarshalJSON ¶ added in v1.5.0
func (v *OpticalFlow) UnmarshalJSON(data []byte) error
UnmarshalJSON supports json.Unmarshaler interface
type OpticalFlowRad ¶
type OpticalFlowRad struct { TimeUsec uint64 `json:"TimeUsec" ` // [ us ] Timestamp (UNIX Epoch time or time since system boot). The receiving end can infer timestamp format (since 1.1.1970 or since system boot) by checking for the magnitude of the number. IntegrationTimeUs uint32 `json:"IntegrationTimeUs" ` // [ us ] Integration time. Divide integrated_x and integrated_y by the integration time to obtain average flow. The integration time also indicates the. IntegratedX float32 `json:"IntegratedX" ` // [ rad ] Flow around X axis (Sensor RH rotation about the X axis induces a positive flow. Sensor linear motion along the positive Y axis induces a negative flow.) IntegratedY float32 `json:"IntegratedY" ` // [ rad ] Flow around Y axis (Sensor RH rotation about the Y axis induces a positive flow. Sensor linear motion along the positive X axis induces a positive flow.) IntegratedXgyro float32 `json:"IntegratedXgyro" ` // [ rad ] RH rotation around X axis IntegratedYgyro float32 `json:"IntegratedYgyro" ` // [ rad ] RH rotation around Y axis IntegratedZgyro float32 `json:"IntegratedZgyro" ` // [ rad ] RH rotation around Z axis TimeDeltaDistanceUs uint32 `json:"TimeDeltaDistanceUs" ` // [ us ] Time since the distance was sampled. Distance float32 `json:"Distance" ` // [ m ] Distance to the center of the flow field. Positive value (including zero): distance known. Negative value: Unknown distance. Temperature int16 `json:"Temperature" ` // [ cdegC ] Temperature SensorID uint8 `json:"SensorID" ` // Sensor ID Quality uint8 `json:"Quality" ` // Optical flow quality / confidence. 0: no valid flow, 255: maximum quality }
OpticalFlowRad struct (generated typeinfo) Optical flow from an angular rate flow sensor (e.g. PX4FLOW or mouse sensor)
func (*OpticalFlowRad) Dict ¶
func (m *OpticalFlowRad) Dict() map[string]interface{}
ToMap (generated function)
func (*OpticalFlowRad) Marshal ¶
func (m *OpticalFlowRad) Marshal() ([]byte, error)
Marshal (generated function)
func (OpticalFlowRad) MarshalEasyJSON ¶ added in v1.5.0
func (v OpticalFlowRad) MarshalEasyJSON(w *jwriter.Writer)
MarshalEasyJSON supports easyjson.Marshaler interface
func (OpticalFlowRad) MarshalJSON ¶ added in v1.5.0
func (v OpticalFlowRad) MarshalJSON() ([]byte, error)
MarshalJSON supports json.Marshaler interface
func (*OpticalFlowRad) MsgID ¶
func (m *OpticalFlowRad) MsgID() message.MessageID
MsgID (generated function)
func (*OpticalFlowRad) String ¶
func (m *OpticalFlowRad) String() string
String (generated function)
func (*OpticalFlowRad) Unmarshal ¶
func (m *OpticalFlowRad) Unmarshal(data []byte) error
Unmarshal (generated function)
func (*OpticalFlowRad) UnmarshalEasyJSON ¶ added in v1.5.0
func (v *OpticalFlowRad) UnmarshalEasyJSON(l *jlexer.Lexer)
UnmarshalEasyJSON supports easyjson.Unmarshaler interface
func (*OpticalFlowRad) UnmarshalJSON ¶ added in v1.5.0
func (v *OpticalFlowRad) UnmarshalJSON(data []byte) error
UnmarshalJSON supports json.Unmarshaler interface
type PARACHUTE_ACTION ¶
type PARACHUTE_ACTION int
PARACHUTE_ACTION type. Parachute actions. Trigger release and enable/disable auto-release.
const ( // PARACHUTE_DISABLE enum. Disable auto-release of parachute (i.e. release triggered by crash detectors) PARACHUTE_DISABLE PARACHUTE_ACTION = 0 // PARACHUTE_ENABLE enum. Enable auto-release of parachute PARACHUTE_ENABLE PARACHUTE_ACTION = 1 // PARACHUTE_RELEASE enum. Release parachute and kill motors PARACHUTE_RELEASE PARACHUTE_ACTION = 2 )
func (PARACHUTE_ACTION) Bitmask ¶
func (e PARACHUTE_ACTION) Bitmask() string
Bitmask return string representetion of intersects PARACHUTE_ACTION enums
func (PARACHUTE_ACTION) MarshalBinary ¶
func (e PARACHUTE_ACTION) MarshalBinary() (data []byte, err error)
MarshalBinary generic func
func (PARACHUTE_ACTION) String ¶
func (e PARACHUTE_ACTION) String() string
func (*PARACHUTE_ACTION) UnmarshalBinary ¶
func (e *PARACHUTE_ACTION) UnmarshalBinary(data []byte) error
UnmarshalBinary generic func
type PARAM_ACK ¶
type PARAM_ACK int
PARAM_ACK type. Result from PARAM_EXT_SET message (or a PARAM_SET within a transaction).
const ( // PARAM_ACK_ACCEPTED enum. Parameter value ACCEPTED and SET PARAM_ACK_ACCEPTED PARAM_ACK = 0 // PARAM_ACK_VALUE_UNSUPPORTED enum. Parameter value UNKNOWN/UNSUPPORTED PARAM_ACK_VALUE_UNSUPPORTED PARAM_ACK = 1 // PARAM_ACK_FAILED enum. Parameter failed to set PARAM_ACK_FAILED PARAM_ACK = 2 // PARAM_ACK_IN_PROGRESS enum. Parameter value received but not yet set/accepted. A subsequent PARAM_ACK_TRANSACTION or PARAM_EXT_ACK with the final result will follow once operation is completed. This is returned immediately for parameters that take longer to set, indicating taht the the parameter was recieved and does not need to be resent PARAM_ACK_IN_PROGRESS PARAM_ACK = 3 )
func (PARAM_ACK) MarshalBinary ¶
MarshalBinary generic func
func (*PARAM_ACK) UnmarshalBinary ¶
UnmarshalBinary generic func
type PARAM_TRANSACTION_ACTION ¶
type PARAM_TRANSACTION_ACTION int
PARAM_TRANSACTION_ACTION type. Possible parameter transaction actions.
const ( // PARAM_TRANSACTION_ACTION_START enum. Commit the current parameter transaction PARAM_TRANSACTION_ACTION_START PARAM_TRANSACTION_ACTION = 0 // PARAM_TRANSACTION_ACTION_COMMIT enum. Commit the current parameter transaction PARAM_TRANSACTION_ACTION_COMMIT PARAM_TRANSACTION_ACTION = 1 // PARAM_TRANSACTION_ACTION_CANCEL enum. Cancel the current parameter transaction PARAM_TRANSACTION_ACTION_CANCEL PARAM_TRANSACTION_ACTION = 2 )
func (PARAM_TRANSACTION_ACTION) Bitmask ¶
func (e PARAM_TRANSACTION_ACTION) Bitmask() string
Bitmask return string representetion of intersects PARAM_TRANSACTION_ACTION enums
func (PARAM_TRANSACTION_ACTION) MarshalBinary ¶
func (e PARAM_TRANSACTION_ACTION) MarshalBinary() (data []byte, err error)
MarshalBinary generic func
func (PARAM_TRANSACTION_ACTION) String ¶
func (e PARAM_TRANSACTION_ACTION) String() string
func (*PARAM_TRANSACTION_ACTION) UnmarshalBinary ¶
func (e *PARAM_TRANSACTION_ACTION) UnmarshalBinary(data []byte) error
UnmarshalBinary generic func
type PARAM_TRANSACTION_TRANSPORT ¶
type PARAM_TRANSACTION_TRANSPORT int
PARAM_TRANSACTION_TRANSPORT type. Possible transport layers to set and get parameters via mavlink during a parameter transaction.
const ( // PARAM_TRANSACTION_TRANSPORT_PARAM enum. Transaction over param transport PARAM_TRANSACTION_TRANSPORT_PARAM PARAM_TRANSACTION_TRANSPORT = 0 // PARAM_TRANSACTION_TRANSPORT_PARAM_EXT enum. Transaction over param_ext transport PARAM_TRANSACTION_TRANSPORT_PARAM_EXT PARAM_TRANSACTION_TRANSPORT = 1 )
func (PARAM_TRANSACTION_TRANSPORT) Bitmask ¶
func (e PARAM_TRANSACTION_TRANSPORT) Bitmask() string
Bitmask return string representetion of intersects PARAM_TRANSACTION_TRANSPORT enums
func (PARAM_TRANSACTION_TRANSPORT) MarshalBinary ¶
func (e PARAM_TRANSACTION_TRANSPORT) MarshalBinary() (data []byte, err error)
MarshalBinary generic func
func (PARAM_TRANSACTION_TRANSPORT) String ¶
func (e PARAM_TRANSACTION_TRANSPORT) String() string
func (*PARAM_TRANSACTION_TRANSPORT) UnmarshalBinary ¶
func (e *PARAM_TRANSACTION_TRANSPORT) UnmarshalBinary(data []byte) error
UnmarshalBinary generic func
type POSITION_TARGET_TYPEMASK ¶
type POSITION_TARGET_TYPEMASK int
POSITION_TARGET_TYPEMASK type. Bitmap to indicate which dimensions should be ignored by the vehicle: a value of 0b0000000000000000 or 0b0000001000000000 indicates that none of the setpoint dimensions should be ignored. If bit 9 is set the floats afx afy afz should be interpreted as force instead of acceleration.
const ( // POSITION_TARGET_TYPEMASK_X_IGNORE enum. Ignore position x POSITION_TARGET_TYPEMASK_X_IGNORE POSITION_TARGET_TYPEMASK = 1 // POSITION_TARGET_TYPEMASK_Y_IGNORE enum. Ignore position y POSITION_TARGET_TYPEMASK_Y_IGNORE POSITION_TARGET_TYPEMASK = 2 // POSITION_TARGET_TYPEMASK_Z_IGNORE enum. Ignore position z POSITION_TARGET_TYPEMASK_Z_IGNORE POSITION_TARGET_TYPEMASK = 4 // POSITION_TARGET_TYPEMASK_VX_IGNORE enum. Ignore velocity x POSITION_TARGET_TYPEMASK_VX_IGNORE POSITION_TARGET_TYPEMASK = 8 // POSITION_TARGET_TYPEMASK_VY_IGNORE enum. Ignore velocity y POSITION_TARGET_TYPEMASK_VY_IGNORE POSITION_TARGET_TYPEMASK = 16 // POSITION_TARGET_TYPEMASK_VZ_IGNORE enum. Ignore velocity z POSITION_TARGET_TYPEMASK_VZ_IGNORE POSITION_TARGET_TYPEMASK = 32 // POSITION_TARGET_TYPEMASK_AX_IGNORE enum. Ignore acceleration x POSITION_TARGET_TYPEMASK_AX_IGNORE POSITION_TARGET_TYPEMASK = 64 // POSITION_TARGET_TYPEMASK_AY_IGNORE enum. Ignore acceleration y POSITION_TARGET_TYPEMASK_AY_IGNORE POSITION_TARGET_TYPEMASK = 128 // POSITION_TARGET_TYPEMASK_AZ_IGNORE enum. Ignore acceleration z POSITION_TARGET_TYPEMASK_AZ_IGNORE POSITION_TARGET_TYPEMASK = 256 // POSITION_TARGET_TYPEMASK_FORCE_SET enum. Use force instead of acceleration POSITION_TARGET_TYPEMASK_FORCE_SET POSITION_TARGET_TYPEMASK = 512 // POSITION_TARGET_TYPEMASK_YAW_IGNORE enum. Ignore yaw POSITION_TARGET_TYPEMASK_YAW_IGNORE POSITION_TARGET_TYPEMASK = 1024 // POSITION_TARGET_TYPEMASK_YAW_RATE_IGNORE enum. Ignore yaw rate POSITION_TARGET_TYPEMASK_YAW_RATE_IGNORE POSITION_TARGET_TYPEMASK = 2048 )
func (POSITION_TARGET_TYPEMASK) Bitmask ¶
func (e POSITION_TARGET_TYPEMASK) Bitmask() string
Bitmask return string representetion of intersects POSITION_TARGET_TYPEMASK enums
func (POSITION_TARGET_TYPEMASK) MarshalBinary ¶
func (e POSITION_TARGET_TYPEMASK) MarshalBinary() (data []byte, err error)
MarshalBinary generic func
func (POSITION_TARGET_TYPEMASK) String ¶
func (e POSITION_TARGET_TYPEMASK) String() string
func (*POSITION_TARGET_TYPEMASK) UnmarshalBinary ¶
func (e *POSITION_TARGET_TYPEMASK) UnmarshalBinary(data []byte) error
UnmarshalBinary generic func
type PRECISION_LAND_MODE ¶
type PRECISION_LAND_MODE int
PRECISION_LAND_MODE type. Precision land modes (used in MAV_CMD_NAV_LAND).
const ( // PRECISION_LAND_MODE_DISABLED enum. Normal (non-precision) landing PRECISION_LAND_MODE_DISABLED PRECISION_LAND_MODE = 0 // PRECISION_LAND_MODE_OPPORTUNISTIC enum. Use precision landing if beacon detected when land command accepted, otherwise land normally PRECISION_LAND_MODE_OPPORTUNISTIC PRECISION_LAND_MODE = 1 // PRECISION_LAND_MODE_REQUIRED enum. Use precision landing, searching for beacon if not found when land command accepted (land normally if beacon cannot be found) PRECISION_LAND_MODE_REQUIRED PRECISION_LAND_MODE = 2 )
func (PRECISION_LAND_MODE) Bitmask ¶
func (e PRECISION_LAND_MODE) Bitmask() string
Bitmask return string representetion of intersects PRECISION_LAND_MODE enums
func (PRECISION_LAND_MODE) MarshalBinary ¶
func (e PRECISION_LAND_MODE) MarshalBinary() (data []byte, err error)
MarshalBinary generic func
func (PRECISION_LAND_MODE) String ¶
func (e PRECISION_LAND_MODE) String() string
func (*PRECISION_LAND_MODE) UnmarshalBinary ¶
func (e *PRECISION_LAND_MODE) UnmarshalBinary(data []byte) error
UnmarshalBinary generic func
type ParamAckTransaction ¶
type ParamAckTransaction struct { ParamValue float32 `json:"ParamValue" ` // Parameter value (new value if PARAM_ACCEPTED, current value otherwise) TargetSystem uint8 `json:"TargetSystem" ` // Id of system that sent PARAM_SET message. TargetComponent uint8 `json:"TargetComponent" ` // Id of system that sent PARAM_SET message. ParamID string `json:"ParamID" len:"16" ` // Parameter id, terminated by NULL if the length is less than 16 human-readable chars and WITHOUT null termination (NULL) byte if the length is exactly 16 chars - applications have to provide 16+1 bytes storage if the ID is stored as string ParamType MAV_PARAM_TYPE `json:"ParamType" ` // Parameter type. ParamResult PARAM_ACK `json:"ParamResult" ` // Result code. }
ParamAckTransaction struct (generated typeinfo) Response from a PARAM_SET message when it is used in a transaction.
func (*ParamAckTransaction) Dict ¶
func (m *ParamAckTransaction) Dict() map[string]interface{}
ToMap (generated function)
func (*ParamAckTransaction) Marshal ¶
func (m *ParamAckTransaction) Marshal() ([]byte, error)
Marshal (generated function)
func (ParamAckTransaction) MarshalEasyJSON ¶ added in v1.5.0
func (v ParamAckTransaction) MarshalEasyJSON(w *jwriter.Writer)
MarshalEasyJSON supports easyjson.Marshaler interface
func (ParamAckTransaction) MarshalJSON ¶ added in v1.5.0
func (v ParamAckTransaction) MarshalJSON() ([]byte, error)
MarshalJSON supports json.Marshaler interface
func (*ParamAckTransaction) MsgID ¶
func (m *ParamAckTransaction) MsgID() message.MessageID
MsgID (generated function)
func (*ParamAckTransaction) String ¶
func (m *ParamAckTransaction) String() string
String (generated function)
func (*ParamAckTransaction) Unmarshal ¶
func (m *ParamAckTransaction) Unmarshal(data []byte) error
Unmarshal (generated function)
func (*ParamAckTransaction) UnmarshalEasyJSON ¶ added in v1.5.0
func (v *ParamAckTransaction) UnmarshalEasyJSON(l *jlexer.Lexer)
UnmarshalEasyJSON supports easyjson.Unmarshaler interface
func (*ParamAckTransaction) UnmarshalJSON ¶ added in v1.5.0
func (v *ParamAckTransaction) UnmarshalJSON(data []byte) error
UnmarshalJSON supports json.Unmarshaler interface
type ParamMapRc ¶
type ParamMapRc struct { ParamValue0 float32 `json:"ParamValue0" ` // Initial parameter value Scale float32 `json:"Scale" ` // Scale, maps the RC range [-1, 1] to a parameter value ParamValueMin float32 `json:"ParamValueMin" ` // Minimum param value. The protocol does not define if this overwrites an onboard minimum value. (Depends on implementation) ParamValueMax float32 `json:"ParamValueMax" ` // Maximum param value. The protocol does not define if this overwrites an onboard maximum value. (Depends on implementation) ParamIndex int16 `json:"ParamIndex" ` // Parameter index. Send -1 to use the param ID field as identifier (else the param id will be ignored), send -2 to disable any existing map for this rc_channel_index. TargetSystem uint8 `json:"TargetSystem" ` // System ID TargetComponent uint8 `json:"TargetComponent" ` // Component ID ParamID string `json:"ParamID" len:"16" ` // Onboard parameter id, terminated by NULL if the length is less than 16 human-readable chars and WITHOUT null termination (NULL) byte if the length is exactly 16 chars - applications have to provide 16+1 bytes storage if the ID is stored as string ParameterRcChannelIndex uint8 `json:"ParameterRcChannelIndex" ` // Index of parameter RC channel. Not equal to the RC channel id. Typically corresponds to a potentiometer-knob on the RC. }
ParamMapRc struct (generated typeinfo) Bind a RC channel to a parameter. The parameter should change according to the RC channel value.
func (*ParamMapRc) Dict ¶
func (m *ParamMapRc) Dict() map[string]interface{}
ToMap (generated function)
func (*ParamMapRc) Marshal ¶
func (m *ParamMapRc) Marshal() ([]byte, error)
Marshal (generated function)
func (ParamMapRc) MarshalEasyJSON ¶ added in v1.5.0
func (v ParamMapRc) MarshalEasyJSON(w *jwriter.Writer)
MarshalEasyJSON supports easyjson.Marshaler interface
func (ParamMapRc) MarshalJSON ¶ added in v1.5.0
func (v ParamMapRc) MarshalJSON() ([]byte, error)
MarshalJSON supports json.Marshaler interface
func (*ParamMapRc) MsgID ¶
func (m *ParamMapRc) MsgID() message.MessageID
MsgID (generated function)
func (*ParamMapRc) Unmarshal ¶
func (m *ParamMapRc) Unmarshal(data []byte) error
Unmarshal (generated function)
func (*ParamMapRc) UnmarshalEasyJSON ¶ added in v1.5.0
func (v *ParamMapRc) UnmarshalEasyJSON(l *jlexer.Lexer)
UnmarshalEasyJSON supports easyjson.Unmarshaler interface
func (*ParamMapRc) UnmarshalJSON ¶ added in v1.5.0
func (v *ParamMapRc) UnmarshalJSON(data []byte) error
UnmarshalJSON supports json.Unmarshaler interface
type ParamRequestList ¶
type ParamRequestList struct { TargetSystem uint8 `json:"TargetSystem" ` // System ID TargetComponent uint8 `json:"TargetComponent" ` // Component ID }
ParamRequestList struct (generated typeinfo) Request all parameters of this component. After this request, all parameters are emitted. The parameter microservice is documented at https://mavlink.io/en/services/parameter.html
func (*ParamRequestList) Dict ¶
func (m *ParamRequestList) Dict() map[string]interface{}
ToMap (generated function)
func (*ParamRequestList) Marshal ¶
func (m *ParamRequestList) Marshal() ([]byte, error)
Marshal (generated function)
func (ParamRequestList) MarshalEasyJSON ¶ added in v1.5.0
func (v ParamRequestList) MarshalEasyJSON(w *jwriter.Writer)
MarshalEasyJSON supports easyjson.Marshaler interface
func (ParamRequestList) MarshalJSON ¶ added in v1.5.0
func (v ParamRequestList) MarshalJSON() ([]byte, error)
MarshalJSON supports json.Marshaler interface
func (*ParamRequestList) MsgID ¶
func (m *ParamRequestList) MsgID() message.MessageID
MsgID (generated function)
func (*ParamRequestList) String ¶
func (m *ParamRequestList) String() string
String (generated function)
func (*ParamRequestList) Unmarshal ¶
func (m *ParamRequestList) Unmarshal(data []byte) error
Unmarshal (generated function)
func (*ParamRequestList) UnmarshalEasyJSON ¶ added in v1.5.0
func (v *ParamRequestList) UnmarshalEasyJSON(l *jlexer.Lexer)
UnmarshalEasyJSON supports easyjson.Unmarshaler interface
func (*ParamRequestList) UnmarshalJSON ¶ added in v1.5.0
func (v *ParamRequestList) UnmarshalJSON(data []byte) error
UnmarshalJSON supports json.Unmarshaler interface
type ParamRequestRead ¶
type ParamRequestRead struct { ParamIndex int16 `json:"ParamIndex" ` // Parameter index. Send -1 to use the param ID field as identifier (else the param id will be ignored) TargetSystem uint8 `json:"TargetSystem" ` // System ID TargetComponent uint8 `json:"TargetComponent" ` // Component ID ParamID string `json:"ParamID" len:"16" ` // Onboard parameter id, terminated by NULL if the length is less than 16 human-readable chars and WITHOUT null termination (NULL) byte if the length is exactly 16 chars - applications have to provide 16+1 bytes storage if the ID is stored as string }
ParamRequestRead struct (generated typeinfo) Request to read the onboard parameter with the param_id string id. Onboard parameters are stored as key[const char*] -> value[float]. This allows to send a parameter to any other component (such as the GCS) without the need of previous knowledge of possible parameter names. Thus the same GCS can store different parameters for different autopilots. See also https://mavlink.io/en/services/parameter.html for a full documentation of QGroundControl and IMU code.
func (*ParamRequestRead) Dict ¶
func (m *ParamRequestRead) Dict() map[string]interface{}
ToMap (generated function)
func (*ParamRequestRead) Marshal ¶
func (m *ParamRequestRead) Marshal() ([]byte, error)
Marshal (generated function)
func (ParamRequestRead) MarshalEasyJSON ¶ added in v1.5.0
func (v ParamRequestRead) MarshalEasyJSON(w *jwriter.Writer)
MarshalEasyJSON supports easyjson.Marshaler interface
func (ParamRequestRead) MarshalJSON ¶ added in v1.5.0
func (v ParamRequestRead) MarshalJSON() ([]byte, error)
MarshalJSON supports json.Marshaler interface
func (*ParamRequestRead) MsgID ¶
func (m *ParamRequestRead) MsgID() message.MessageID
MsgID (generated function)
func (*ParamRequestRead) String ¶
func (m *ParamRequestRead) String() string
String (generated function)
func (*ParamRequestRead) Unmarshal ¶
func (m *ParamRequestRead) Unmarshal(data []byte) error
Unmarshal (generated function)
func (*ParamRequestRead) UnmarshalEasyJSON ¶ added in v1.5.0
func (v *ParamRequestRead) UnmarshalEasyJSON(l *jlexer.Lexer)
UnmarshalEasyJSON supports easyjson.Unmarshaler interface
func (*ParamRequestRead) UnmarshalJSON ¶ added in v1.5.0
func (v *ParamRequestRead) UnmarshalJSON(data []byte) error
UnmarshalJSON supports json.Unmarshaler interface
type ParamSet ¶
type ParamSet struct { ParamValue float32 `json:"ParamValue" ` // Onboard parameter value TargetSystem uint8 `json:"TargetSystem" ` // System ID TargetComponent uint8 `json:"TargetComponent" ` // Component ID ParamID string `json:"ParamID" len:"16" ` // Onboard parameter id, terminated by NULL if the length is less than 16 human-readable chars and WITHOUT null termination (NULL) byte if the length is exactly 16 chars - applications have to provide 16+1 bytes storage if the ID is stored as string ParamType MAV_PARAM_TYPE `json:"ParamType" ` // Onboard parameter type. }
ParamSet struct (generated typeinfo) Set a parameter value (write new value to permanent storage).
The receiving component should acknowledge the new parameter value by broadcasting a PARAM_VALUE message (broadcasting ensures that multiple GCS all have an up-to-date list of all parameters). If the sending GCS did not receive a PARAM_VALUE within its timeout time, it should re-send the PARAM_SET message. The parameter microservice is documented at https://mavlink.io/en/services/parameter.html. PARAM_SET may also be called within the context of a transaction (started with MAV_CMD_PARAM_TRANSACTION). Within a transaction the receiving component should respond with PARAM_ACK_TRANSACTION to the setter component (instead of broadcasting PARAM_VALUE), and PARAM_SET should be re-sent if this is ACK not received.
func (ParamSet) MarshalEasyJSON ¶ added in v1.5.0
MarshalEasyJSON supports easyjson.Marshaler interface
func (ParamSet) MarshalJSON ¶ added in v1.5.0
MarshalJSON supports json.Marshaler interface
func (*ParamSet) UnmarshalEasyJSON ¶ added in v1.5.0
UnmarshalEasyJSON supports easyjson.Unmarshaler interface
func (*ParamSet) UnmarshalJSON ¶ added in v1.5.0
UnmarshalJSON supports json.Unmarshaler interface
type ParamValue ¶
type ParamValue struct { ParamValue float32 `json:"ParamValue" ` // Onboard parameter value ParamCount uint16 `json:"ParamCount" ` // Total number of onboard parameters ParamIndex uint16 `json:"ParamIndex" ` // Index of this onboard parameter ParamID string `json:"ParamID" len:"16" ` // Onboard parameter id, terminated by NULL if the length is less than 16 human-readable chars and WITHOUT null termination (NULL) byte if the length is exactly 16 chars - applications have to provide 16+1 bytes storage if the ID is stored as string ParamType MAV_PARAM_TYPE `json:"ParamType" ` // Onboard parameter type. }
ParamValue struct (generated typeinfo) Emit the value of a onboard parameter. The inclusion of param_count and param_index in the message allows the recipient to keep track of received parameters and allows him to re-request missing parameters after a loss or timeout. The parameter microservice is documented at https://mavlink.io/en/services/parameter.html
func (*ParamValue) Dict ¶
func (m *ParamValue) Dict() map[string]interface{}
ToMap (generated function)
func (*ParamValue) Marshal ¶
func (m *ParamValue) Marshal() ([]byte, error)
Marshal (generated function)
func (ParamValue) MarshalEasyJSON ¶ added in v1.5.0
func (v ParamValue) MarshalEasyJSON(w *jwriter.Writer)
MarshalEasyJSON supports easyjson.Marshaler interface
func (ParamValue) MarshalJSON ¶ added in v1.5.0
func (v ParamValue) MarshalJSON() ([]byte, error)
MarshalJSON supports json.Marshaler interface
func (*ParamValue) MsgID ¶
func (m *ParamValue) MsgID() message.MessageID
MsgID (generated function)
func (*ParamValue) Unmarshal ¶
func (m *ParamValue) Unmarshal(data []byte) error
Unmarshal (generated function)
func (*ParamValue) UnmarshalEasyJSON ¶ added in v1.5.0
func (v *ParamValue) UnmarshalEasyJSON(l *jlexer.Lexer)
UnmarshalEasyJSON supports easyjson.Unmarshaler interface
func (*ParamValue) UnmarshalJSON ¶ added in v1.5.0
func (v *ParamValue) UnmarshalJSON(data []byte) error
UnmarshalJSON supports json.Unmarshaler interface
type Ping ¶
type Ping struct { TimeUsec uint64 `json:"TimeUsec" ` // [ us ] Timestamp (UNIX Epoch time or time since system boot). The receiving end can infer timestamp format (since 1.1.1970 or since system boot) by checking for the magnitude of the number. Seq uint32 `json:"Seq" ` // PING sequence TargetSystem uint8 `json:"TargetSystem" ` // 0: request ping from all receiving systems. If greater than 0: message is a ping response and number is the system id of the requesting system TargetComponent uint8 `json:"TargetComponent" ` // 0: request ping from all receiving components. If greater than 0: message is a ping response and number is the component id of the requesting component. }
Ping struct (generated typeinfo) A ping message either requesting or responding to a ping. This allows to measure the system latencies, including serial port, radio modem and UDP connections. The ping microservice is documented at https://mavlink.io/en/services/ping.html
func (Ping) MarshalEasyJSON ¶ added in v1.5.0
MarshalEasyJSON supports easyjson.Marshaler interface
func (Ping) MarshalJSON ¶ added in v1.5.0
MarshalJSON supports json.Marshaler interface
func (*Ping) UnmarshalEasyJSON ¶ added in v1.5.0
UnmarshalEasyJSON supports easyjson.Unmarshaler interface
func (*Ping) UnmarshalJSON ¶ added in v1.5.0
UnmarshalJSON supports json.Unmarshaler interface
type PositionTargetGlobalInt ¶
type PositionTargetGlobalInt struct { TimeBootMs uint32 `json:"TimeBootMs" ` // [ ms ] Timestamp (time since system boot). The rationale for the timestamp in the setpoint is to allow the system to compensate for the transport delay of the setpoint. This allows the system to compensate processing latency. LatInt int32 `json:"LatInt" ` // [ degE7 ] X Position in WGS84 frame LonInt int32 `json:"LonInt" ` // [ degE7 ] Y Position in WGS84 frame Alt float32 `json:"Alt" ` // [ m ] Altitude (MSL, AGL or relative to home altitude, depending on frame) Vx float32 `json:"Vx" ` // [ m/s ] X velocity in NED frame Vy float32 `json:"Vy" ` // [ m/s ] Y velocity in NED frame Vz float32 `json:"Vz" ` // [ m/s ] Z velocity in NED frame Afx float32 `json:"Afx" ` // [ m/s/s ] X acceleration or force (if bit 10 of type_mask is set) in NED frame in meter / s^2 or N Afy float32 `json:"Afy" ` // [ m/s/s ] Y acceleration or force (if bit 10 of type_mask is set) in NED frame in meter / s^2 or N Afz float32 `json:"Afz" ` // [ m/s/s ] Z acceleration or force (if bit 10 of type_mask is set) in NED frame in meter / s^2 or N Yaw float32 `json:"Yaw" ` // [ rad ] yaw setpoint YawRate float32 `json:"YawRate" ` // [ rad/s ] yaw rate setpoint TypeMask POSITION_TARGET_TYPEMASK `json:"TypeMask" ` // Bitmap to indicate which dimensions should be ignored by the vehicle. CoordinateFrame MAV_FRAME `json:"CoordinateFrame" ` // Valid options are: MAV_FRAME_GLOBAL_INT = 5, MAV_FRAME_GLOBAL_RELATIVE_ALT_INT = 6, MAV_FRAME_GLOBAL_TERRAIN_ALT_INT = 11 }
PositionTargetGlobalInt struct (generated typeinfo) Reports the current commanded vehicle position, velocity, and acceleration as specified by the autopilot. This should match the commands sent in SET_POSITION_TARGET_GLOBAL_INT if the vehicle is being controlled this way.
func (*PositionTargetGlobalInt) Dict ¶
func (m *PositionTargetGlobalInt) Dict() map[string]interface{}
ToMap (generated function)
func (*PositionTargetGlobalInt) Marshal ¶
func (m *PositionTargetGlobalInt) Marshal() ([]byte, error)
Marshal (generated function)
func (PositionTargetGlobalInt) MarshalEasyJSON ¶ added in v1.5.0
func (v PositionTargetGlobalInt) MarshalEasyJSON(w *jwriter.Writer)
MarshalEasyJSON supports easyjson.Marshaler interface
func (PositionTargetGlobalInt) MarshalJSON ¶ added in v1.5.0
func (v PositionTargetGlobalInt) MarshalJSON() ([]byte, error)
MarshalJSON supports json.Marshaler interface
func (*PositionTargetGlobalInt) MsgID ¶
func (m *PositionTargetGlobalInt) MsgID() message.MessageID
MsgID (generated function)
func (*PositionTargetGlobalInt) String ¶
func (m *PositionTargetGlobalInt) String() string
String (generated function)
func (*PositionTargetGlobalInt) Unmarshal ¶
func (m *PositionTargetGlobalInt) Unmarshal(data []byte) error
Unmarshal (generated function)
func (*PositionTargetGlobalInt) UnmarshalEasyJSON ¶ added in v1.5.0
func (v *PositionTargetGlobalInt) UnmarshalEasyJSON(l *jlexer.Lexer)
UnmarshalEasyJSON supports easyjson.Unmarshaler interface
func (*PositionTargetGlobalInt) UnmarshalJSON ¶ added in v1.5.0
func (v *PositionTargetGlobalInt) UnmarshalJSON(data []byte) error
UnmarshalJSON supports json.Unmarshaler interface
type PositionTargetLocalNed ¶
type PositionTargetLocalNed struct { TimeBootMs uint32 `json:"TimeBootMs" ` // [ ms ] Timestamp (time since system boot). X float32 `json:"X" ` // [ m ] X Position in NED frame Y float32 `json:"Y" ` // [ m ] Y Position in NED frame Z float32 `json:"Z" ` // [ m ] Z Position in NED frame (note, altitude is negative in NED) Vx float32 `json:"Vx" ` // [ m/s ] X velocity in NED frame Vy float32 `json:"Vy" ` // [ m/s ] Y velocity in NED frame Vz float32 `json:"Vz" ` // [ m/s ] Z velocity in NED frame Afx float32 `json:"Afx" ` // [ m/s/s ] X acceleration or force (if bit 10 of type_mask is set) in NED frame in meter / s^2 or N Afy float32 `json:"Afy" ` // [ m/s/s ] Y acceleration or force (if bit 10 of type_mask is set) in NED frame in meter / s^2 or N Afz float32 `json:"Afz" ` // [ m/s/s ] Z acceleration or force (if bit 10 of type_mask is set) in NED frame in meter / s^2 or N Yaw float32 `json:"Yaw" ` // [ rad ] yaw setpoint YawRate float32 `json:"YawRate" ` // [ rad/s ] yaw rate setpoint TypeMask POSITION_TARGET_TYPEMASK `json:"TypeMask" ` // Bitmap to indicate which dimensions should be ignored by the vehicle. CoordinateFrame MAV_FRAME `json:"CoordinateFrame" ` // Valid options are: MAV_FRAME_LOCAL_NED = 1, MAV_FRAME_LOCAL_OFFSET_NED = 7, MAV_FRAME_BODY_NED = 8, MAV_FRAME_BODY_OFFSET_NED = 9 }
PositionTargetLocalNed struct (generated typeinfo) Reports the current commanded vehicle position, velocity, and acceleration as specified by the autopilot. This should match the commands sent in SET_POSITION_TARGET_LOCAL_NED if the vehicle is being controlled this way.
func (*PositionTargetLocalNed) Dict ¶
func (m *PositionTargetLocalNed) Dict() map[string]interface{}
ToMap (generated function)
func (*PositionTargetLocalNed) Marshal ¶
func (m *PositionTargetLocalNed) Marshal() ([]byte, error)
Marshal (generated function)
func (PositionTargetLocalNed) MarshalEasyJSON ¶ added in v1.5.0
func (v PositionTargetLocalNed) MarshalEasyJSON(w *jwriter.Writer)
MarshalEasyJSON supports easyjson.Marshaler interface
func (PositionTargetLocalNed) MarshalJSON ¶ added in v1.5.0
func (v PositionTargetLocalNed) MarshalJSON() ([]byte, error)
MarshalJSON supports json.Marshaler interface
func (*PositionTargetLocalNed) MsgID ¶
func (m *PositionTargetLocalNed) MsgID() message.MessageID
MsgID (generated function)
func (*PositionTargetLocalNed) String ¶
func (m *PositionTargetLocalNed) String() string
String (generated function)
func (*PositionTargetLocalNed) Unmarshal ¶
func (m *PositionTargetLocalNed) Unmarshal(data []byte) error
Unmarshal (generated function)
func (*PositionTargetLocalNed) UnmarshalEasyJSON ¶ added in v1.5.0
func (v *PositionTargetLocalNed) UnmarshalEasyJSON(l *jlexer.Lexer)
UnmarshalEasyJSON supports easyjson.Unmarshaler interface
func (*PositionTargetLocalNed) UnmarshalJSON ¶ added in v1.5.0
func (v *PositionTargetLocalNed) UnmarshalJSON(data []byte) error
UnmarshalJSON supports json.Unmarshaler interface
type PowerStatus ¶
type PowerStatus struct { Vcc uint16 `json:"Vcc" ` // [ mV ] 5V rail voltage. Vservo uint16 `json:"Vservo" ` // [ mV ] Servo rail voltage. Flags MAV_POWER_STATUS `json:"Flags" ` // Bitmap of power supply status flags. }
PowerStatus struct (generated typeinfo) Power supply status
func (*PowerStatus) Dict ¶
func (m *PowerStatus) Dict() map[string]interface{}
ToMap (generated function)
func (*PowerStatus) Marshal ¶
func (m *PowerStatus) Marshal() ([]byte, error)
Marshal (generated function)
func (PowerStatus) MarshalEasyJSON ¶ added in v1.5.0
func (v PowerStatus) MarshalEasyJSON(w *jwriter.Writer)
MarshalEasyJSON supports easyjson.Marshaler interface
func (PowerStatus) MarshalJSON ¶ added in v1.5.0
func (v PowerStatus) MarshalJSON() ([]byte, error)
MarshalJSON supports json.Marshaler interface
func (*PowerStatus) MsgID ¶
func (m *PowerStatus) MsgID() message.MessageID
MsgID (generated function)
func (*PowerStatus) Unmarshal ¶
func (m *PowerStatus) Unmarshal(data []byte) error
Unmarshal (generated function)
func (*PowerStatus) UnmarshalEasyJSON ¶ added in v1.5.0
func (v *PowerStatus) UnmarshalEasyJSON(l *jlexer.Lexer)
UnmarshalEasyJSON supports easyjson.Unmarshaler interface
func (*PowerStatus) UnmarshalJSON ¶ added in v1.5.0
func (v *PowerStatus) UnmarshalJSON(data []byte) error
UnmarshalJSON supports json.Unmarshaler interface
type RC_TYPE ¶
type RC_TYPE int
RC_TYPE type. RC type
func (RC_TYPE) MarshalBinary ¶
MarshalBinary generic func
func (*RC_TYPE) UnmarshalBinary ¶
UnmarshalBinary generic func
type RTK_BASELINE_COORDINATE_SYSTEM ¶
type RTK_BASELINE_COORDINATE_SYSTEM int
RTK_BASELINE_COORDINATE_SYSTEM type. RTK GPS baseline coordinate system, used for RTK corrections
const ( // RTK_BASELINE_COORDINATE_SYSTEM_ECEF enum. Earth-centered, Earth-fixed RTK_BASELINE_COORDINATE_SYSTEM_ECEF RTK_BASELINE_COORDINATE_SYSTEM = 0 // RTK_BASELINE_COORDINATE_SYSTEM_NED enum. RTK basestation centered, north, east, down RTK_BASELINE_COORDINATE_SYSTEM_NED RTK_BASELINE_COORDINATE_SYSTEM = 1 )
func (RTK_BASELINE_COORDINATE_SYSTEM) Bitmask ¶
func (e RTK_BASELINE_COORDINATE_SYSTEM) Bitmask() string
Bitmask return string representetion of intersects RTK_BASELINE_COORDINATE_SYSTEM enums
func (RTK_BASELINE_COORDINATE_SYSTEM) MarshalBinary ¶
func (e RTK_BASELINE_COORDINATE_SYSTEM) MarshalBinary() (data []byte, err error)
MarshalBinary generic func
func (RTK_BASELINE_COORDINATE_SYSTEM) String ¶
func (e RTK_BASELINE_COORDINATE_SYSTEM) String() string
func (*RTK_BASELINE_COORDINATE_SYSTEM) UnmarshalBinary ¶
func (e *RTK_BASELINE_COORDINATE_SYSTEM) UnmarshalBinary(data []byte) error
UnmarshalBinary generic func
type RadioStatus ¶
type RadioStatus struct { Rxerrors uint16 `json:"Rxerrors" ` // Count of radio packet receive errors (since boot). Fixed uint16 `json:"Fixed" ` // Count of error corrected radio packets (since boot). Rssi uint8 `json:"Rssi" ` // Local (message sender) recieved signal strength indication in device-dependent units/scale. Values: [0-254], 255: invalid/unknown. Remrssi uint8 `json:"Remrssi" ` // Remote (message receiver) signal strength indication in device-dependent units/scale. Values: [0-254], 255: invalid/unknown. Txbuf uint8 `json:"Txbuf" ` // [ % ] Remaining free transmitter buffer space. Noise uint8 `json:"Noise" ` // Local background noise level. These are device dependent RSSI values (scale as approx 2x dB on SiK radios). Values: [0-254], 255: invalid/unknown. Remnoise uint8 `json:"Remnoise" ` // Remote background noise level. These are device dependent RSSI values (scale as approx 2x dB on SiK radios). Values: [0-254], 255: invalid/unknown. }
RadioStatus struct (generated typeinfo) Status generated by radio and injected into MAVLink stream.
func (*RadioStatus) Dict ¶
func (m *RadioStatus) Dict() map[string]interface{}
ToMap (generated function)
func (*RadioStatus) Marshal ¶
func (m *RadioStatus) Marshal() ([]byte, error)
Marshal (generated function)
func (RadioStatus) MarshalEasyJSON ¶ added in v1.5.0
func (v RadioStatus) MarshalEasyJSON(w *jwriter.Writer)
MarshalEasyJSON supports easyjson.Marshaler interface
func (RadioStatus) MarshalJSON ¶ added in v1.5.0
func (v RadioStatus) MarshalJSON() ([]byte, error)
MarshalJSON supports json.Marshaler interface
func (*RadioStatus) MsgID ¶
func (m *RadioStatus) MsgID() message.MessageID
MsgID (generated function)
func (*RadioStatus) Unmarshal ¶
func (m *RadioStatus) Unmarshal(data []byte) error
Unmarshal (generated function)
func (*RadioStatus) UnmarshalEasyJSON ¶ added in v1.5.0
func (v *RadioStatus) UnmarshalEasyJSON(l *jlexer.Lexer)
UnmarshalEasyJSON supports easyjson.Unmarshaler interface
func (*RadioStatus) UnmarshalJSON ¶ added in v1.5.0
func (v *RadioStatus) UnmarshalJSON(data []byte) error
UnmarshalJSON supports json.Unmarshaler interface
type RawImu ¶
type RawImu struct { TimeUsec uint64 `json:"TimeUsec" ` // [ us ] Timestamp (UNIX Epoch time or time since system boot). The receiving end can infer timestamp format (since 1.1.1970 or since system boot) by checking for the magnitude of the number. Xacc int16 `json:"Xacc" ` // X acceleration (raw) Yacc int16 `json:"Yacc" ` // Y acceleration (raw) Zacc int16 `json:"Zacc" ` // Z acceleration (raw) Xgyro int16 `json:"Xgyro" ` // Angular speed around X axis (raw) Ygyro int16 `json:"Ygyro" ` // Angular speed around Y axis (raw) Zgyro int16 `json:"Zgyro" ` // Angular speed around Z axis (raw) Xmag int16 `json:"Xmag" ` // X Magnetic field (raw) Ymag int16 `json:"Ymag" ` // Y Magnetic field (raw) Zmag int16 `json:"Zmag" ` // Z Magnetic field (raw) }
RawImu struct (generated typeinfo) The RAW IMU readings for a 9DOF sensor, which is identified by the id (default IMU1). This message should always contain the true raw values without any scaling to allow data capture and system debugging.
func (RawImu) MarshalEasyJSON ¶ added in v1.5.0
MarshalEasyJSON supports easyjson.Marshaler interface
func (RawImu) MarshalJSON ¶ added in v1.5.0
MarshalJSON supports json.Marshaler interface
func (*RawImu) UnmarshalEasyJSON ¶ added in v1.5.0
UnmarshalEasyJSON supports easyjson.Unmarshaler interface
func (*RawImu) UnmarshalJSON ¶ added in v1.5.0
UnmarshalJSON supports json.Unmarshaler interface
type RawPressure ¶
type RawPressure struct { TimeUsec uint64 `json:"TimeUsec" ` // [ us ] Timestamp (UNIX Epoch time or time since system boot). The receiving end can infer timestamp format (since 1.1.1970 or since system boot) by checking for the magnitude of the number. PressAbs int16 `json:"PressAbs" ` // Absolute pressure (raw) PressDiff1 int16 `json:"PressDiff1" ` // Differential pressure 1 (raw, 0 if nonexistent) PressDiff2 int16 `json:"PressDiff2" ` // Differential pressure 2 (raw, 0 if nonexistent) Temperature int16 `json:"Temperature" ` // Raw Temperature measurement (raw) }
RawPressure struct (generated typeinfo) The RAW pressure readings for the typical setup of one absolute pressure and one differential pressure sensor. The sensor values should be the raw, UNSCALED ADC values.
func (*RawPressure) Dict ¶
func (m *RawPressure) Dict() map[string]interface{}
ToMap (generated function)
func (*RawPressure) Marshal ¶
func (m *RawPressure) Marshal() ([]byte, error)
Marshal (generated function)
func (RawPressure) MarshalEasyJSON ¶ added in v1.5.0
func (v RawPressure) MarshalEasyJSON(w *jwriter.Writer)
MarshalEasyJSON supports easyjson.Marshaler interface
func (RawPressure) MarshalJSON ¶ added in v1.5.0
func (v RawPressure) MarshalJSON() ([]byte, error)
MarshalJSON supports json.Marshaler interface
func (*RawPressure) MsgID ¶
func (m *RawPressure) MsgID() message.MessageID
MsgID (generated function)
func (*RawPressure) Unmarshal ¶
func (m *RawPressure) Unmarshal(data []byte) error
Unmarshal (generated function)
func (*RawPressure) UnmarshalEasyJSON ¶ added in v1.5.0
func (v *RawPressure) UnmarshalEasyJSON(l *jlexer.Lexer)
UnmarshalEasyJSON supports easyjson.Unmarshaler interface
func (*RawPressure) UnmarshalJSON ¶ added in v1.5.0
func (v *RawPressure) UnmarshalJSON(data []byte) error
UnmarshalJSON supports json.Unmarshaler interface
type RcChannels ¶
type RcChannels struct { TimeBootMs uint32 `json:"TimeBootMs" ` // [ ms ] Timestamp (time since system boot). Chan1Raw uint16 `json:"Chan1Raw" ` // [ us ] RC channel 1 value. Chan2Raw uint16 `json:"Chan2Raw" ` // [ us ] RC channel 2 value. Chan3Raw uint16 `json:"Chan3Raw" ` // [ us ] RC channel 3 value. Chan4Raw uint16 `json:"Chan4Raw" ` // [ us ] RC channel 4 value. Chan5Raw uint16 `json:"Chan5Raw" ` // [ us ] RC channel 5 value. Chan6Raw uint16 `json:"Chan6Raw" ` // [ us ] RC channel 6 value. Chan7Raw uint16 `json:"Chan7Raw" ` // [ us ] RC channel 7 value. Chan8Raw uint16 `json:"Chan8Raw" ` // [ us ] RC channel 8 value. Chan9Raw uint16 `json:"Chan9Raw" ` // [ us ] RC channel 9 value. Chan10Raw uint16 `json:"Chan10Raw" ` // [ us ] RC channel 10 value. Chan11Raw uint16 `json:"Chan11Raw" ` // [ us ] RC channel 11 value. Chan12Raw uint16 `json:"Chan12Raw" ` // [ us ] RC channel 12 value. Chan13Raw uint16 `json:"Chan13Raw" ` // [ us ] RC channel 13 value. Chan14Raw uint16 `json:"Chan14Raw" ` // [ us ] RC channel 14 value. Chan15Raw uint16 `json:"Chan15Raw" ` // [ us ] RC channel 15 value. Chan16Raw uint16 `json:"Chan16Raw" ` // [ us ] RC channel 16 value. Chan17Raw uint16 `json:"Chan17Raw" ` // [ us ] RC channel 17 value. Chan18Raw uint16 `json:"Chan18Raw" ` // [ us ] RC channel 18 value. Chancount uint8 `json:"Chancount" ` // Total number of RC channels being received. This can be larger than 18, indicating that more channels are available but not given in this message. This value should be 0 when no RC channels are available. Rssi uint8 `json:"Rssi" ` // Receive signal strength indicator in device-dependent units/scale. Values: [0-254], 255: invalid/unknown. }
RcChannels struct (generated typeinfo) The PPM values of the RC channels received. The standard PPM modulation is as follows: 1000 microseconds: 0%, 2000 microseconds: 100%. A value of UINT16_MAX implies the channel is unused. Individual receivers/transmitters might violate this specification.
func (*RcChannels) Dict ¶
func (m *RcChannels) Dict() map[string]interface{}
ToMap (generated function)
func (*RcChannels) Marshal ¶
func (m *RcChannels) Marshal() ([]byte, error)
Marshal (generated function)
func (RcChannels) MarshalEasyJSON ¶ added in v1.5.0
func (v RcChannels) MarshalEasyJSON(w *jwriter.Writer)
MarshalEasyJSON supports easyjson.Marshaler interface
func (RcChannels) MarshalJSON ¶ added in v1.5.0
func (v RcChannels) MarshalJSON() ([]byte, error)
MarshalJSON supports json.Marshaler interface
func (*RcChannels) MsgID ¶
func (m *RcChannels) MsgID() message.MessageID
MsgID (generated function)
func (*RcChannels) Unmarshal ¶
func (m *RcChannels) Unmarshal(data []byte) error
Unmarshal (generated function)
func (*RcChannels) UnmarshalEasyJSON ¶ added in v1.5.0
func (v *RcChannels) UnmarshalEasyJSON(l *jlexer.Lexer)
UnmarshalEasyJSON supports easyjson.Unmarshaler interface
func (*RcChannels) UnmarshalJSON ¶ added in v1.5.0
func (v *RcChannels) UnmarshalJSON(data []byte) error
UnmarshalJSON supports json.Unmarshaler interface
type RcChannelsOverride ¶
type RcChannelsOverride struct { Chan1Raw uint16 `json:"Chan1Raw" ` // [ us ] RC channel 1 value. A value of UINT16_MAX means to ignore this field. A value of 0 means to release this channel back to the RC radio. Chan2Raw uint16 `json:"Chan2Raw" ` // [ us ] RC channel 2 value. A value of UINT16_MAX means to ignore this field. A value of 0 means to release this channel back to the RC radio. Chan3Raw uint16 `json:"Chan3Raw" ` // [ us ] RC channel 3 value. A value of UINT16_MAX means to ignore this field. A value of 0 means to release this channel back to the RC radio. Chan4Raw uint16 `json:"Chan4Raw" ` // [ us ] RC channel 4 value. A value of UINT16_MAX means to ignore this field. A value of 0 means to release this channel back to the RC radio. Chan5Raw uint16 `json:"Chan5Raw" ` // [ us ] RC channel 5 value. A value of UINT16_MAX means to ignore this field. A value of 0 means to release this channel back to the RC radio. Chan6Raw uint16 `json:"Chan6Raw" ` // [ us ] RC channel 6 value. A value of UINT16_MAX means to ignore this field. A value of 0 means to release this channel back to the RC radio. Chan7Raw uint16 `json:"Chan7Raw" ` // [ us ] RC channel 7 value. A value of UINT16_MAX means to ignore this field. A value of 0 means to release this channel back to the RC radio. Chan8Raw uint16 `json:"Chan8Raw" ` // [ us ] RC channel 8 value. A value of UINT16_MAX means to ignore this field. A value of 0 means to release this channel back to the RC radio. TargetSystem uint8 `json:"TargetSystem" ` // System ID TargetComponent uint8 `json:"TargetComponent" ` // Component ID }
RcChannelsOverride struct (generated typeinfo) The RAW values of the RC channels sent to the MAV to override info received from the RC radio. The standard PPM modulation is as follows: 1000 microseconds: 0%, 2000 microseconds: 100%. Individual receivers/transmitters might violate this specification. Note carefully the semantic differences between the first 8 channels and the subsequent channels
func (*RcChannelsOverride) Dict ¶
func (m *RcChannelsOverride) Dict() map[string]interface{}
ToMap (generated function)
func (*RcChannelsOverride) Marshal ¶
func (m *RcChannelsOverride) Marshal() ([]byte, error)
Marshal (generated function)
func (RcChannelsOverride) MarshalEasyJSON ¶ added in v1.5.0
func (v RcChannelsOverride) MarshalEasyJSON(w *jwriter.Writer)
MarshalEasyJSON supports easyjson.Marshaler interface
func (RcChannelsOverride) MarshalJSON ¶ added in v1.5.0
func (v RcChannelsOverride) MarshalJSON() ([]byte, error)
MarshalJSON supports json.Marshaler interface
func (*RcChannelsOverride) MsgID ¶
func (m *RcChannelsOverride) MsgID() message.MessageID
MsgID (generated function)
func (*RcChannelsOverride) String ¶
func (m *RcChannelsOverride) String() string
String (generated function)
func (*RcChannelsOverride) Unmarshal ¶
func (m *RcChannelsOverride) Unmarshal(data []byte) error
Unmarshal (generated function)
func (*RcChannelsOverride) UnmarshalEasyJSON ¶ added in v1.5.0
func (v *RcChannelsOverride) UnmarshalEasyJSON(l *jlexer.Lexer)
UnmarshalEasyJSON supports easyjson.Unmarshaler interface
func (*RcChannelsOverride) UnmarshalJSON ¶ added in v1.5.0
func (v *RcChannelsOverride) UnmarshalJSON(data []byte) error
UnmarshalJSON supports json.Unmarshaler interface
type RcChannelsRaw ¶
type RcChannelsRaw struct { TimeBootMs uint32 `json:"TimeBootMs" ` // [ ms ] Timestamp (time since system boot). Chan1Raw uint16 `json:"Chan1Raw" ` // [ us ] RC channel 1 value. Chan2Raw uint16 `json:"Chan2Raw" ` // [ us ] RC channel 2 value. Chan3Raw uint16 `json:"Chan3Raw" ` // [ us ] RC channel 3 value. Chan4Raw uint16 `json:"Chan4Raw" ` // [ us ] RC channel 4 value. Chan5Raw uint16 `json:"Chan5Raw" ` // [ us ] RC channel 5 value. Chan6Raw uint16 `json:"Chan6Raw" ` // [ us ] RC channel 6 value. Chan7Raw uint16 `json:"Chan7Raw" ` // [ us ] RC channel 7 value. Chan8Raw uint16 `json:"Chan8Raw" ` // [ us ] RC channel 8 value. Port uint8 `json:"Port" ` // Servo output port (set of 8 outputs = 1 port). Flight stacks running on Pixhawk should use: 0 = MAIN, 1 = AUX. Rssi uint8 `json:"Rssi" ` // Receive signal strength indicator in device-dependent units/scale. Values: [0-254], 255: invalid/unknown. }
RcChannelsRaw struct (generated typeinfo) The RAW values of the RC channels received. The standard PPM modulation is as follows: 1000 microseconds: 0%, 2000 microseconds: 100%. A value of UINT16_MAX implies the channel is unused. Individual receivers/transmitters might violate this specification.
func (*RcChannelsRaw) Dict ¶
func (m *RcChannelsRaw) Dict() map[string]interface{}
ToMap (generated function)
func (*RcChannelsRaw) Marshal ¶
func (m *RcChannelsRaw) Marshal() ([]byte, error)
Marshal (generated function)
func (RcChannelsRaw) MarshalEasyJSON ¶ added in v1.5.0
func (v RcChannelsRaw) MarshalEasyJSON(w *jwriter.Writer)
MarshalEasyJSON supports easyjson.Marshaler interface
func (RcChannelsRaw) MarshalJSON ¶ added in v1.5.0
func (v RcChannelsRaw) MarshalJSON() ([]byte, error)
MarshalJSON supports json.Marshaler interface
func (*RcChannelsRaw) MsgID ¶
func (m *RcChannelsRaw) MsgID() message.MessageID
MsgID (generated function)
func (*RcChannelsRaw) Unmarshal ¶
func (m *RcChannelsRaw) Unmarshal(data []byte) error
Unmarshal (generated function)
func (*RcChannelsRaw) UnmarshalEasyJSON ¶ added in v1.5.0
func (v *RcChannelsRaw) UnmarshalEasyJSON(l *jlexer.Lexer)
UnmarshalEasyJSON supports easyjson.Unmarshaler interface
func (*RcChannelsRaw) UnmarshalJSON ¶ added in v1.5.0
func (v *RcChannelsRaw) UnmarshalJSON(data []byte) error
UnmarshalJSON supports json.Unmarshaler interface
type RcChannelsScaled ¶
type RcChannelsScaled struct { TimeBootMs uint32 `json:"TimeBootMs" ` // [ ms ] Timestamp (time since system boot). Chan1Scaled int16 `json:"Chan1Scaled" ` // RC channel 1 value scaled. Chan2Scaled int16 `json:"Chan2Scaled" ` // RC channel 2 value scaled. Chan3Scaled int16 `json:"Chan3Scaled" ` // RC channel 3 value scaled. Chan4Scaled int16 `json:"Chan4Scaled" ` // RC channel 4 value scaled. Chan5Scaled int16 `json:"Chan5Scaled" ` // RC channel 5 value scaled. Chan6Scaled int16 `json:"Chan6Scaled" ` // RC channel 6 value scaled. Chan7Scaled int16 `json:"Chan7Scaled" ` // RC channel 7 value scaled. Chan8Scaled int16 `json:"Chan8Scaled" ` // RC channel 8 value scaled. Port uint8 `json:"Port" ` // Servo output port (set of 8 outputs = 1 port). Flight stacks running on Pixhawk should use: 0 = MAIN, 1 = AUX. Rssi uint8 `json:"Rssi" ` // Receive signal strength indicator in device-dependent units/scale. Values: [0-254], 255: invalid/unknown. }
RcChannelsScaled struct (generated typeinfo) The scaled values of the RC channels received: (-100%) -10000, (0%) 0, (100%) 10000. Channels that are inactive should be set to UINT16_MAX.
func (*RcChannelsScaled) Dict ¶
func (m *RcChannelsScaled) Dict() map[string]interface{}
ToMap (generated function)
func (*RcChannelsScaled) Marshal ¶
func (m *RcChannelsScaled) Marshal() ([]byte, error)
Marshal (generated function)
func (RcChannelsScaled) MarshalEasyJSON ¶ added in v1.5.0
func (v RcChannelsScaled) MarshalEasyJSON(w *jwriter.Writer)
MarshalEasyJSON supports easyjson.Marshaler interface
func (RcChannelsScaled) MarshalJSON ¶ added in v1.5.0
func (v RcChannelsScaled) MarshalJSON() ([]byte, error)
MarshalJSON supports json.Marshaler interface
func (*RcChannelsScaled) MsgID ¶
func (m *RcChannelsScaled) MsgID() message.MessageID
MsgID (generated function)
func (*RcChannelsScaled) String ¶
func (m *RcChannelsScaled) String() string
String (generated function)
func (*RcChannelsScaled) Unmarshal ¶
func (m *RcChannelsScaled) Unmarshal(data []byte) error
Unmarshal (generated function)
func (*RcChannelsScaled) UnmarshalEasyJSON ¶ added in v1.5.0
func (v *RcChannelsScaled) UnmarshalEasyJSON(l *jlexer.Lexer)
UnmarshalEasyJSON supports easyjson.Unmarshaler interface
func (*RcChannelsScaled) UnmarshalJSON ¶ added in v1.5.0
func (v *RcChannelsScaled) UnmarshalJSON(data []byte) error
UnmarshalJSON supports json.Unmarshaler interface
type RequestDataStream ¶
type RequestDataStream struct { ReqMessageRate uint16 `json:"ReqMessageRate" ` // [ Hz ] The requested message rate TargetSystem uint8 `json:"TargetSystem" ` // The target requested to send the message stream. TargetComponent uint8 `json:"TargetComponent" ` // The target requested to send the message stream. ReqStreamID uint8 `json:"ReqStreamID" ` // The ID of the requested data stream StartStop uint8 `json:"StartStop" ` // 1 to start sending, 0 to stop sending. }
RequestDataStream struct (generated typeinfo) Request a data stream.
func (*RequestDataStream) Dict ¶
func (m *RequestDataStream) Dict() map[string]interface{}
ToMap (generated function)
func (*RequestDataStream) Marshal ¶
func (m *RequestDataStream) Marshal() ([]byte, error)
Marshal (generated function)
func (RequestDataStream) MarshalEasyJSON ¶ added in v1.5.0
func (v RequestDataStream) MarshalEasyJSON(w *jwriter.Writer)
MarshalEasyJSON supports easyjson.Marshaler interface
func (RequestDataStream) MarshalJSON ¶ added in v1.5.0
func (v RequestDataStream) MarshalJSON() ([]byte, error)
MarshalJSON supports json.Marshaler interface
func (*RequestDataStream) MsgID ¶
func (m *RequestDataStream) MsgID() message.MessageID
MsgID (generated function)
func (*RequestDataStream) String ¶
func (m *RequestDataStream) String() string
String (generated function)
func (*RequestDataStream) Unmarshal ¶
func (m *RequestDataStream) Unmarshal(data []byte) error
Unmarshal (generated function)
func (*RequestDataStream) UnmarshalEasyJSON ¶ added in v1.5.0
func (v *RequestDataStream) UnmarshalEasyJSON(l *jlexer.Lexer)
UnmarshalEasyJSON supports easyjson.Unmarshaler interface
func (*RequestDataStream) UnmarshalJSON ¶ added in v1.5.0
func (v *RequestDataStream) UnmarshalJSON(data []byte) error
UnmarshalJSON supports json.Unmarshaler interface
type ResourceRequest ¶
type ResourceRequest struct { RequestID uint8 `json:"RequestID" ` // Request ID. This ID should be re-used when sending back URI contents URIType uint8 `json:"URIType" ` // The type of requested URI. 0 = a file via URL. 1 = a UAVCAN binary URI []uint8 `json:"URI" len:"120" ` // The requested unique resource identifier (URI). It is not necessarily a straight domain name (depends on the URI type enum) TransferType uint8 `json:"TransferType" ` // The way the autopilot wants to receive the URI. 0 = MAVLink FTP. 1 = binary stream. Storage []uint8 `json:"Storage" len:"120" ` // The storage path the autopilot wants the URI to be stored in. Will only be valid if the transfer_type has a storage associated (e.g. MAVLink FTP). }
ResourceRequest struct (generated typeinfo) The autopilot is requesting a resource (file, binary, other type of data)
func (*ResourceRequest) Dict ¶
func (m *ResourceRequest) Dict() map[string]interface{}
ToMap (generated function)
func (*ResourceRequest) Marshal ¶
func (m *ResourceRequest) Marshal() ([]byte, error)
Marshal (generated function)
func (ResourceRequest) MarshalEasyJSON ¶ added in v1.5.0
func (v ResourceRequest) MarshalEasyJSON(w *jwriter.Writer)
MarshalEasyJSON supports easyjson.Marshaler interface
func (ResourceRequest) MarshalJSON ¶ added in v1.5.0
func (v ResourceRequest) MarshalJSON() ([]byte, error)
MarshalJSON supports json.Marshaler interface
func (*ResourceRequest) MsgID ¶
func (m *ResourceRequest) MsgID() message.MessageID
MsgID (generated function)
func (*ResourceRequest) String ¶
func (m *ResourceRequest) String() string
String (generated function)
func (*ResourceRequest) Unmarshal ¶
func (m *ResourceRequest) Unmarshal(data []byte) error
Unmarshal (generated function)
func (*ResourceRequest) UnmarshalEasyJSON ¶ added in v1.5.0
func (v *ResourceRequest) UnmarshalEasyJSON(l *jlexer.Lexer)
UnmarshalEasyJSON supports easyjson.Unmarshaler interface
func (*ResourceRequest) UnmarshalJSON ¶ added in v1.5.0
func (v *ResourceRequest) UnmarshalJSON(data []byte) error
UnmarshalJSON supports json.Unmarshaler interface
type SERIAL_CONTROL_DEV ¶
type SERIAL_CONTROL_DEV int
SERIAL_CONTROL_DEV type. SERIAL_CONTROL device types
const ( // SERIAL_CONTROL_DEV_TELEM1 enum. First telemetry port SERIAL_CONTROL_DEV_TELEM1 SERIAL_CONTROL_DEV = 0 // SERIAL_CONTROL_DEV_TELEM2 enum. Second telemetry port SERIAL_CONTROL_DEV_TELEM2 SERIAL_CONTROL_DEV = 1 // SERIAL_CONTROL_DEV_GPS1 enum. First GPS port SERIAL_CONTROL_DEV_GPS1 SERIAL_CONTROL_DEV = 2 // SERIAL_CONTROL_DEV_GPS2 enum. Second GPS port SERIAL_CONTROL_DEV_GPS2 SERIAL_CONTROL_DEV = 3 // SERIAL_CONTROL_DEV_SHELL enum. system shell SERIAL_CONTROL_DEV_SHELL SERIAL_CONTROL_DEV = 10 // SERIAL_CONTROL_SERIAL0 enum. SERIAL0 SERIAL_CONTROL_SERIAL0 SERIAL_CONTROL_DEV = 100 // SERIAL_CONTROL_SERIAL1 enum. SERIAL1 SERIAL_CONTROL_SERIAL1 SERIAL_CONTROL_DEV = 101 // SERIAL_CONTROL_SERIAL2 enum. SERIAL2 SERIAL_CONTROL_SERIAL2 SERIAL_CONTROL_DEV = 102 // SERIAL_CONTROL_SERIAL3 enum. SERIAL3 SERIAL_CONTROL_SERIAL3 SERIAL_CONTROL_DEV = 103 // SERIAL_CONTROL_SERIAL4 enum. SERIAL4 SERIAL_CONTROL_SERIAL4 SERIAL_CONTROL_DEV = 104 // SERIAL_CONTROL_SERIAL5 enum. SERIAL5 SERIAL_CONTROL_SERIAL5 SERIAL_CONTROL_DEV = 105 // SERIAL_CONTROL_SERIAL6 enum. SERIAL6 SERIAL_CONTROL_SERIAL6 SERIAL_CONTROL_DEV = 106 // SERIAL_CONTROL_SERIAL7 enum. SERIAL7 SERIAL_CONTROL_SERIAL7 SERIAL_CONTROL_DEV = 107 // SERIAL_CONTROL_SERIAL8 enum. SERIAL8 SERIAL_CONTROL_SERIAL8 SERIAL_CONTROL_DEV = 108 // SERIAL_CONTROL_SERIAL9 enum. SERIAL9 SERIAL_CONTROL_SERIAL9 SERIAL_CONTROL_DEV = 109 )
func (SERIAL_CONTROL_DEV) Bitmask ¶
func (e SERIAL_CONTROL_DEV) Bitmask() string
Bitmask return string representetion of intersects SERIAL_CONTROL_DEV enums
func (SERIAL_CONTROL_DEV) MarshalBinary ¶
func (e SERIAL_CONTROL_DEV) MarshalBinary() (data []byte, err error)
MarshalBinary generic func
func (SERIAL_CONTROL_DEV) String ¶
func (e SERIAL_CONTROL_DEV) String() string
func (*SERIAL_CONTROL_DEV) UnmarshalBinary ¶
func (e *SERIAL_CONTROL_DEV) UnmarshalBinary(data []byte) error
UnmarshalBinary generic func
type SERIAL_CONTROL_FLAG ¶
type SERIAL_CONTROL_FLAG int
SERIAL_CONTROL_FLAG type. SERIAL_CONTROL flags (bitmask)
const ( // SERIAL_CONTROL_FLAG_REPLY enum. Set if this is a reply SERIAL_CONTROL_FLAG_REPLY SERIAL_CONTROL_FLAG = 1 // SERIAL_CONTROL_FLAG_RESPOND enum. Set if the sender wants the receiver to send a response as another SERIAL_CONTROL message SERIAL_CONTROL_FLAG_RESPOND SERIAL_CONTROL_FLAG = 2 // SERIAL_CONTROL_FLAG_EXCLUSIVE enum. Set if access to the serial port should be removed from whatever driver is currently using it, giving exclusive access to the SERIAL_CONTROL protocol. The port can be handed back by sending a request without this flag set SERIAL_CONTROL_FLAG_EXCLUSIVE SERIAL_CONTROL_FLAG = 4 // SERIAL_CONTROL_FLAG_BLOCKING enum. Block on writes to the serial port SERIAL_CONTROL_FLAG_BLOCKING SERIAL_CONTROL_FLAG = 8 // SERIAL_CONTROL_FLAG_MULTI enum. Send multiple replies until port is drained SERIAL_CONTROL_FLAG_MULTI SERIAL_CONTROL_FLAG = 16 )
func (SERIAL_CONTROL_FLAG) Bitmask ¶
func (e SERIAL_CONTROL_FLAG) Bitmask() string
Bitmask return string representetion of intersects SERIAL_CONTROL_FLAG enums
func (SERIAL_CONTROL_FLAG) MarshalBinary ¶
func (e SERIAL_CONTROL_FLAG) MarshalBinary() (data []byte, err error)
MarshalBinary generic func
func (SERIAL_CONTROL_FLAG) String ¶
func (e SERIAL_CONTROL_FLAG) String() string
func (*SERIAL_CONTROL_FLAG) UnmarshalBinary ¶
func (e *SERIAL_CONTROL_FLAG) UnmarshalBinary(data []byte) error
UnmarshalBinary generic func
type SET_FOCUS_TYPE ¶
type SET_FOCUS_TYPE int
SET_FOCUS_TYPE type. Focus types for MAV_CMD_SET_CAMERA_FOCUS
const ( // FOCUS_TYPE_STEP enum. Focus one step increment (-1 for focusing in, 1 for focusing out towards infinity) FOCUS_TYPE_STEP SET_FOCUS_TYPE = 0 // FOCUS_TYPE_CONTINUOUS enum. Continuous focus up/down until stopped (-1 for focusing in, 1 for focusing out towards infinity, 0 to stop focusing) FOCUS_TYPE_CONTINUOUS SET_FOCUS_TYPE = 1 // FOCUS_TYPE_RANGE enum. Focus value as proportion of full camera focus range (a value between 0.0 and 100.0) FOCUS_TYPE_RANGE SET_FOCUS_TYPE = 2 // FOCUS_TYPE_METERS enum. Focus value in metres. Note that there is no message to get the valid focus range of the camera, so this can type can only be used for cameras where the range is known (implying that this cannot reliably be used in a GCS for an arbitrary camera) FOCUS_TYPE_METERS SET_FOCUS_TYPE = 3 )
func (SET_FOCUS_TYPE) Bitmask ¶
func (e SET_FOCUS_TYPE) Bitmask() string
Bitmask return string representetion of intersects SET_FOCUS_TYPE enums
func (SET_FOCUS_TYPE) MarshalBinary ¶
func (e SET_FOCUS_TYPE) MarshalBinary() (data []byte, err error)
MarshalBinary generic func
func (SET_FOCUS_TYPE) String ¶
func (e SET_FOCUS_TYPE) String() string
func (*SET_FOCUS_TYPE) UnmarshalBinary ¶
func (e *SET_FOCUS_TYPE) UnmarshalBinary(data []byte) error
UnmarshalBinary generic func
type STORAGE_STATUS ¶
type STORAGE_STATUS int
STORAGE_STATUS type. Flags to indicate the status of camera storage.
const ( // STORAGE_STATUS_EMPTY enum. Storage is missing (no microSD card loaded for example.) STORAGE_STATUS_EMPTY STORAGE_STATUS = 0 // STORAGE_STATUS_UNFORMATTED enum. Storage present but unformatted STORAGE_STATUS_UNFORMATTED STORAGE_STATUS = 1 // STORAGE_STATUS_READY enum. Storage present and ready STORAGE_STATUS_READY STORAGE_STATUS = 2 // STORAGE_STATUS_NOT_SUPPORTED enum. Camera does not supply storage status information. Capacity information in STORAGE_INFORMATION fields will be ignored STORAGE_STATUS_NOT_SUPPORTED STORAGE_STATUS = 3 )
func (STORAGE_STATUS) Bitmask ¶
func (e STORAGE_STATUS) Bitmask() string
Bitmask return string representetion of intersects STORAGE_STATUS enums
func (STORAGE_STATUS) MarshalBinary ¶
func (e STORAGE_STATUS) MarshalBinary() (data []byte, err error)
MarshalBinary generic func
func (STORAGE_STATUS) String ¶
func (e STORAGE_STATUS) String() string
func (*STORAGE_STATUS) UnmarshalBinary ¶
func (e *STORAGE_STATUS) UnmarshalBinary(data []byte) error
UnmarshalBinary generic func
type STORAGE_TYPE ¶
type STORAGE_TYPE int
STORAGE_TYPE type. Flags to indicate the type of storage.
const ( // STORAGE_TYPE_UNKNOWN enum. Storage type is not known STORAGE_TYPE_UNKNOWN STORAGE_TYPE = 0 // STORAGE_TYPE_USB_STICK enum. Storage type is USB device STORAGE_TYPE_USB_STICK STORAGE_TYPE = 1 // STORAGE_TYPE_SD enum. Storage type is SD card STORAGE_TYPE_SD STORAGE_TYPE = 2 // STORAGE_TYPE_MICROSD enum. Storage type is microSD card STORAGE_TYPE_MICROSD STORAGE_TYPE = 3 // STORAGE_TYPE_CF enum. Storage type is CFast STORAGE_TYPE_CF STORAGE_TYPE = 4 // STORAGE_TYPE_CFE enum. Storage type is CFexpress STORAGE_TYPE_CFE STORAGE_TYPE = 5 // STORAGE_TYPE_XQD enum. Storage type is XQD STORAGE_TYPE_XQD STORAGE_TYPE = 6 // STORAGE_TYPE_HD enum. Storage type is HD mass storage type STORAGE_TYPE_HD STORAGE_TYPE = 7 // STORAGE_TYPE_OTHER enum. Storage type is other, not listed type STORAGE_TYPE_OTHER STORAGE_TYPE = 254 )
func (STORAGE_TYPE) Bitmask ¶
func (e STORAGE_TYPE) Bitmask() string
Bitmask return string representetion of intersects STORAGE_TYPE enums
func (STORAGE_TYPE) MarshalBinary ¶
func (e STORAGE_TYPE) MarshalBinary() (data []byte, err error)
MarshalBinary generic func
func (STORAGE_TYPE) String ¶
func (e STORAGE_TYPE) String() string
func (*STORAGE_TYPE) UnmarshalBinary ¶
func (e *STORAGE_TYPE) UnmarshalBinary(data []byte) error
UnmarshalBinary generic func
type SafetyAllowedArea ¶
type SafetyAllowedArea struct { P1x float32 `json:"P1x" ` // [ m ] x position 1 / Latitude 1 P1y float32 `json:"P1y" ` // [ m ] y position 1 / Longitude 1 P1z float32 `json:"P1z" ` // [ m ] z position 1 / Altitude 1 P2x float32 `json:"P2x" ` // [ m ] x position 2 / Latitude 2 P2y float32 `json:"P2y" ` // [ m ] y position 2 / Longitude 2 P2z float32 `json:"P2z" ` // [ m ] z position 2 / Altitude 2 Frame MAV_FRAME `json:"Frame" ` // Coordinate frame. Can be either global, GPS, right-handed with Z axis up or local, right handed, Z axis down. }
SafetyAllowedArea struct (generated typeinfo) Read out the safety zone the MAV currently assumes.
func (*SafetyAllowedArea) Dict ¶
func (m *SafetyAllowedArea) Dict() map[string]interface{}
ToMap (generated function)
func (*SafetyAllowedArea) Marshal ¶
func (m *SafetyAllowedArea) Marshal() ([]byte, error)
Marshal (generated function)
func (SafetyAllowedArea) MarshalEasyJSON ¶ added in v1.5.0
func (v SafetyAllowedArea) MarshalEasyJSON(w *jwriter.Writer)
MarshalEasyJSON supports easyjson.Marshaler interface
func (SafetyAllowedArea) MarshalJSON ¶ added in v1.5.0
func (v SafetyAllowedArea) MarshalJSON() ([]byte, error)
MarshalJSON supports json.Marshaler interface
func (*SafetyAllowedArea) MsgID ¶
func (m *SafetyAllowedArea) MsgID() message.MessageID
MsgID (generated function)
func (*SafetyAllowedArea) String ¶
func (m *SafetyAllowedArea) String() string
String (generated function)
func (*SafetyAllowedArea) Unmarshal ¶
func (m *SafetyAllowedArea) Unmarshal(data []byte) error
Unmarshal (generated function)
func (*SafetyAllowedArea) UnmarshalEasyJSON ¶ added in v1.5.0
func (v *SafetyAllowedArea) UnmarshalEasyJSON(l *jlexer.Lexer)
UnmarshalEasyJSON supports easyjson.Unmarshaler interface
func (*SafetyAllowedArea) UnmarshalJSON ¶ added in v1.5.0
func (v *SafetyAllowedArea) UnmarshalJSON(data []byte) error
UnmarshalJSON supports json.Unmarshaler interface
type SafetySetAllowedArea ¶
type SafetySetAllowedArea struct { P1x float32 `json:"P1x" ` // [ m ] x position 1 / Latitude 1 P1y float32 `json:"P1y" ` // [ m ] y position 1 / Longitude 1 P1z float32 `json:"P1z" ` // [ m ] z position 1 / Altitude 1 P2x float32 `json:"P2x" ` // [ m ] x position 2 / Latitude 2 P2y float32 `json:"P2y" ` // [ m ] y position 2 / Longitude 2 P2z float32 `json:"P2z" ` // [ m ] z position 2 / Altitude 2 TargetSystem uint8 `json:"TargetSystem" ` // System ID TargetComponent uint8 `json:"TargetComponent" ` // Component ID Frame MAV_FRAME `json:"Frame" ` // Coordinate frame. Can be either global, GPS, right-handed with Z axis up or local, right handed, Z axis down. }
SafetySetAllowedArea struct (generated typeinfo) Set a safety zone (volume), which is defined by two corners of a cube. This message can be used to tell the MAV which setpoints/waypoints to accept and which to reject. Safety areas are often enforced by national or competition regulations.
func (*SafetySetAllowedArea) Dict ¶
func (m *SafetySetAllowedArea) Dict() map[string]interface{}
ToMap (generated function)
func (*SafetySetAllowedArea) Marshal ¶
func (m *SafetySetAllowedArea) Marshal() ([]byte, error)
Marshal (generated function)
func (SafetySetAllowedArea) MarshalEasyJSON ¶ added in v1.5.0
func (v SafetySetAllowedArea) MarshalEasyJSON(w *jwriter.Writer)
MarshalEasyJSON supports easyjson.Marshaler interface
func (SafetySetAllowedArea) MarshalJSON ¶ added in v1.5.0
func (v SafetySetAllowedArea) MarshalJSON() ([]byte, error)
MarshalJSON supports json.Marshaler interface
func (*SafetySetAllowedArea) MsgID ¶
func (m *SafetySetAllowedArea) MsgID() message.MessageID
MsgID (generated function)
func (*SafetySetAllowedArea) String ¶
func (m *SafetySetAllowedArea) String() string
String (generated function)
func (*SafetySetAllowedArea) Unmarshal ¶
func (m *SafetySetAllowedArea) Unmarshal(data []byte) error
Unmarshal (generated function)
func (*SafetySetAllowedArea) UnmarshalEasyJSON ¶ added in v1.5.0
func (v *SafetySetAllowedArea) UnmarshalEasyJSON(l *jlexer.Lexer)
UnmarshalEasyJSON supports easyjson.Unmarshaler interface
func (*SafetySetAllowedArea) UnmarshalJSON ¶ added in v1.5.0
func (v *SafetySetAllowedArea) UnmarshalJSON(data []byte) error
UnmarshalJSON supports json.Unmarshaler interface
type ScaledImu ¶
type ScaledImu struct { TimeBootMs uint32 `json:"TimeBootMs" ` // [ ms ] Timestamp (time since system boot). Xacc int16 `json:"Xacc" ` // [ mG ] X acceleration Yacc int16 `json:"Yacc" ` // [ mG ] Y acceleration Zacc int16 `json:"Zacc" ` // [ mG ] Z acceleration Xgyro int16 `json:"Xgyro" ` // [ mrad/s ] Angular speed around X axis Ygyro int16 `json:"Ygyro" ` // [ mrad/s ] Angular speed around Y axis Zgyro int16 `json:"Zgyro" ` // [ mrad/s ] Angular speed around Z axis Xmag int16 `json:"Xmag" ` // [ mgauss ] X Magnetic field Ymag int16 `json:"Ymag" ` // [ mgauss ] Y Magnetic field Zmag int16 `json:"Zmag" ` // [ mgauss ] Z Magnetic field }
ScaledImu struct (generated typeinfo) The RAW IMU readings for the usual 9DOF sensor setup. This message should contain the scaled values to the described units
func (ScaledImu) MarshalEasyJSON ¶ added in v1.5.0
MarshalEasyJSON supports easyjson.Marshaler interface
func (ScaledImu) MarshalJSON ¶ added in v1.5.0
MarshalJSON supports json.Marshaler interface
func (*ScaledImu) UnmarshalEasyJSON ¶ added in v1.5.0
UnmarshalEasyJSON supports easyjson.Unmarshaler interface
func (*ScaledImu) UnmarshalJSON ¶ added in v1.5.0
UnmarshalJSON supports json.Unmarshaler interface
type ScaledImu2 ¶
type ScaledImu2 struct { TimeBootMs uint32 `json:"TimeBootMs" ` // [ ms ] Timestamp (time since system boot). Xacc int16 `json:"Xacc" ` // [ mG ] X acceleration Yacc int16 `json:"Yacc" ` // [ mG ] Y acceleration Zacc int16 `json:"Zacc" ` // [ mG ] Z acceleration Xgyro int16 `json:"Xgyro" ` // [ mrad/s ] Angular speed around X axis Ygyro int16 `json:"Ygyro" ` // [ mrad/s ] Angular speed around Y axis Zgyro int16 `json:"Zgyro" ` // [ mrad/s ] Angular speed around Z axis Xmag int16 `json:"Xmag" ` // [ mgauss ] X Magnetic field Ymag int16 `json:"Ymag" ` // [ mgauss ] Y Magnetic field Zmag int16 `json:"Zmag" ` // [ mgauss ] Z Magnetic field }
ScaledImu2 struct (generated typeinfo) The RAW IMU readings for secondary 9DOF sensor setup. This message should contain the scaled values to the described units
func (*ScaledImu2) Dict ¶
func (m *ScaledImu2) Dict() map[string]interface{}
ToMap (generated function)
func (*ScaledImu2) Marshal ¶
func (m *ScaledImu2) Marshal() ([]byte, error)
Marshal (generated function)
func (ScaledImu2) MarshalEasyJSON ¶ added in v1.5.0
func (v ScaledImu2) MarshalEasyJSON(w *jwriter.Writer)
MarshalEasyJSON supports easyjson.Marshaler interface
func (ScaledImu2) MarshalJSON ¶ added in v1.5.0
func (v ScaledImu2) MarshalJSON() ([]byte, error)
MarshalJSON supports json.Marshaler interface
func (*ScaledImu2) MsgID ¶
func (m *ScaledImu2) MsgID() message.MessageID
MsgID (generated function)
func (*ScaledImu2) Unmarshal ¶
func (m *ScaledImu2) Unmarshal(data []byte) error
Unmarshal (generated function)
func (*ScaledImu2) UnmarshalEasyJSON ¶ added in v1.5.0
func (v *ScaledImu2) UnmarshalEasyJSON(l *jlexer.Lexer)
UnmarshalEasyJSON supports easyjson.Unmarshaler interface
func (*ScaledImu2) UnmarshalJSON ¶ added in v1.5.0
func (v *ScaledImu2) UnmarshalJSON(data []byte) error
UnmarshalJSON supports json.Unmarshaler interface
type ScaledImu3 ¶
type ScaledImu3 struct { TimeBootMs uint32 `json:"TimeBootMs" ` // [ ms ] Timestamp (time since system boot). Xacc int16 `json:"Xacc" ` // [ mG ] X acceleration Yacc int16 `json:"Yacc" ` // [ mG ] Y acceleration Zacc int16 `json:"Zacc" ` // [ mG ] Z acceleration Xgyro int16 `json:"Xgyro" ` // [ mrad/s ] Angular speed around X axis Ygyro int16 `json:"Ygyro" ` // [ mrad/s ] Angular speed around Y axis Zgyro int16 `json:"Zgyro" ` // [ mrad/s ] Angular speed around Z axis Xmag int16 `json:"Xmag" ` // [ mgauss ] X Magnetic field Ymag int16 `json:"Ymag" ` // [ mgauss ] Y Magnetic field Zmag int16 `json:"Zmag" ` // [ mgauss ] Z Magnetic field }
ScaledImu3 struct (generated typeinfo) The RAW IMU readings for 3rd 9DOF sensor setup. This message should contain the scaled values to the described units
func (*ScaledImu3) Dict ¶
func (m *ScaledImu3) Dict() map[string]interface{}
ToMap (generated function)
func (*ScaledImu3) Marshal ¶
func (m *ScaledImu3) Marshal() ([]byte, error)
Marshal (generated function)
func (ScaledImu3) MarshalEasyJSON ¶ added in v1.5.0
func (v ScaledImu3) MarshalEasyJSON(w *jwriter.Writer)
MarshalEasyJSON supports easyjson.Marshaler interface
func (ScaledImu3) MarshalJSON ¶ added in v1.5.0
func (v ScaledImu3) MarshalJSON() ([]byte, error)
MarshalJSON supports json.Marshaler interface
func (*ScaledImu3) MsgID ¶
func (m *ScaledImu3) MsgID() message.MessageID
MsgID (generated function)
func (*ScaledImu3) Unmarshal ¶
func (m *ScaledImu3) Unmarshal(data []byte) error
Unmarshal (generated function)
func (*ScaledImu3) UnmarshalEasyJSON ¶ added in v1.5.0
func (v *ScaledImu3) UnmarshalEasyJSON(l *jlexer.Lexer)
UnmarshalEasyJSON supports easyjson.Unmarshaler interface
func (*ScaledImu3) UnmarshalJSON ¶ added in v1.5.0
func (v *ScaledImu3) UnmarshalJSON(data []byte) error
UnmarshalJSON supports json.Unmarshaler interface
type ScaledPressure ¶
type ScaledPressure struct { TimeBootMs uint32 `json:"TimeBootMs" ` // [ ms ] Timestamp (time since system boot). PressAbs float32 `json:"PressAbs" ` // [ hPa ] Absolute pressure PressDiff float32 `json:"PressDiff" ` // [ hPa ] Differential pressure 1 Temperature int16 `json:"Temperature" ` // [ cdegC ] Absolute pressure temperature }
ScaledPressure struct (generated typeinfo) The pressure readings for the typical setup of one absolute and differential pressure sensor. The units are as specified in each field.
func (*ScaledPressure) Dict ¶
func (m *ScaledPressure) Dict() map[string]interface{}
ToMap (generated function)
func (*ScaledPressure) Marshal ¶
func (m *ScaledPressure) Marshal() ([]byte, error)
Marshal (generated function)
func (ScaledPressure) MarshalEasyJSON ¶ added in v1.5.0
func (v ScaledPressure) MarshalEasyJSON(w *jwriter.Writer)
MarshalEasyJSON supports easyjson.Marshaler interface
func (ScaledPressure) MarshalJSON ¶ added in v1.5.0
func (v ScaledPressure) MarshalJSON() ([]byte, error)
MarshalJSON supports json.Marshaler interface
func (*ScaledPressure) MsgID ¶
func (m *ScaledPressure) MsgID() message.MessageID
MsgID (generated function)
func (*ScaledPressure) String ¶
func (m *ScaledPressure) String() string
String (generated function)
func (*ScaledPressure) Unmarshal ¶
func (m *ScaledPressure) Unmarshal(data []byte) error
Unmarshal (generated function)
func (*ScaledPressure) UnmarshalEasyJSON ¶ added in v1.5.0
func (v *ScaledPressure) UnmarshalEasyJSON(l *jlexer.Lexer)
UnmarshalEasyJSON supports easyjson.Unmarshaler interface
func (*ScaledPressure) UnmarshalJSON ¶ added in v1.5.0
func (v *ScaledPressure) UnmarshalJSON(data []byte) error
UnmarshalJSON supports json.Unmarshaler interface
type ScaledPressure2 ¶
type ScaledPressure2 struct { TimeBootMs uint32 `json:"TimeBootMs" ` // [ ms ] Timestamp (time since system boot). PressAbs float32 `json:"PressAbs" ` // [ hPa ] Absolute pressure PressDiff float32 `json:"PressDiff" ` // [ hPa ] Differential pressure Temperature int16 `json:"Temperature" ` // [ cdegC ] Absolute pressure temperature }
ScaledPressure2 struct (generated typeinfo) Barometer readings for 2nd barometer
func (*ScaledPressure2) Dict ¶
func (m *ScaledPressure2) Dict() map[string]interface{}
ToMap (generated function)
func (*ScaledPressure2) Marshal ¶
func (m *ScaledPressure2) Marshal() ([]byte, error)
Marshal (generated function)
func (ScaledPressure2) MarshalEasyJSON ¶ added in v1.5.0
func (v ScaledPressure2) MarshalEasyJSON(w *jwriter.Writer)
MarshalEasyJSON supports easyjson.Marshaler interface
func (ScaledPressure2) MarshalJSON ¶ added in v1.5.0
func (v ScaledPressure2) MarshalJSON() ([]byte, error)
MarshalJSON supports json.Marshaler interface
func (*ScaledPressure2) MsgID ¶
func (m *ScaledPressure2) MsgID() message.MessageID
MsgID (generated function)
func (*ScaledPressure2) String ¶
func (m *ScaledPressure2) String() string
String (generated function)
func (*ScaledPressure2) Unmarshal ¶
func (m *ScaledPressure2) Unmarshal(data []byte) error
Unmarshal (generated function)
func (*ScaledPressure2) UnmarshalEasyJSON ¶ added in v1.5.0
func (v *ScaledPressure2) UnmarshalEasyJSON(l *jlexer.Lexer)
UnmarshalEasyJSON supports easyjson.Unmarshaler interface
func (*ScaledPressure2) UnmarshalJSON ¶ added in v1.5.0
func (v *ScaledPressure2) UnmarshalJSON(data []byte) error
UnmarshalJSON supports json.Unmarshaler interface
type ScaledPressure3 ¶
type ScaledPressure3 struct { TimeBootMs uint32 `json:"TimeBootMs" ` // [ ms ] Timestamp (time since system boot). PressAbs float32 `json:"PressAbs" ` // [ hPa ] Absolute pressure PressDiff float32 `json:"PressDiff" ` // [ hPa ] Differential pressure Temperature int16 `json:"Temperature" ` // [ cdegC ] Absolute pressure temperature }
ScaledPressure3 struct (generated typeinfo) Barometer readings for 3rd barometer
func (*ScaledPressure3) Dict ¶
func (m *ScaledPressure3) Dict() map[string]interface{}
ToMap (generated function)
func (*ScaledPressure3) Marshal ¶
func (m *ScaledPressure3) Marshal() ([]byte, error)
Marshal (generated function)
func (ScaledPressure3) MarshalEasyJSON ¶ added in v1.5.0
func (v ScaledPressure3) MarshalEasyJSON(w *jwriter.Writer)
MarshalEasyJSON supports easyjson.Marshaler interface
func (ScaledPressure3) MarshalJSON ¶ added in v1.5.0
func (v ScaledPressure3) MarshalJSON() ([]byte, error)
MarshalJSON supports json.Marshaler interface
func (*ScaledPressure3) MsgID ¶
func (m *ScaledPressure3) MsgID() message.MessageID
MsgID (generated function)
func (*ScaledPressure3) String ¶
func (m *ScaledPressure3) String() string
String (generated function)
func (*ScaledPressure3) Unmarshal ¶
func (m *ScaledPressure3) Unmarshal(data []byte) error
Unmarshal (generated function)
func (*ScaledPressure3) UnmarshalEasyJSON ¶ added in v1.5.0
func (v *ScaledPressure3) UnmarshalEasyJSON(l *jlexer.Lexer)
UnmarshalEasyJSON supports easyjson.Unmarshaler interface
func (*ScaledPressure3) UnmarshalJSON ¶ added in v1.5.0
func (v *ScaledPressure3) UnmarshalJSON(data []byte) error
UnmarshalJSON supports json.Unmarshaler interface
type SerialControl ¶
type SerialControl struct { Baudrate uint32 `json:"Baudrate" ` // [ bits/s ] Baudrate of transfer. Zero means no change. Timeout uint16 `json:"Timeout" ` // [ ms ] Timeout for reply data Device SERIAL_CONTROL_DEV `json:"Device" ` // Serial control device type. Flags SERIAL_CONTROL_FLAG `json:"Flags" ` // Bitmap of serial control flags. Count uint8 `json:"Count" ` // [ bytes ] how many bytes in this transfer Data []uint8 `json:"Data" len:"70" ` // serial data }
SerialControl struct (generated typeinfo) Control a serial port. This can be used for raw access to an onboard serial peripheral such as a GPS or telemetry radio. It is designed to make it possible to update the devices firmware via MAVLink messages or change the devices settings. A message with zero bytes can be used to change just the baudrate.
func (*SerialControl) Dict ¶
func (m *SerialControl) Dict() map[string]interface{}
ToMap (generated function)
func (*SerialControl) Marshal ¶
func (m *SerialControl) Marshal() ([]byte, error)
Marshal (generated function)
func (SerialControl) MarshalEasyJSON ¶ added in v1.5.0
func (v SerialControl) MarshalEasyJSON(w *jwriter.Writer)
MarshalEasyJSON supports easyjson.Marshaler interface
func (SerialControl) MarshalJSON ¶ added in v1.5.0
func (v SerialControl) MarshalJSON() ([]byte, error)
MarshalJSON supports json.Marshaler interface
func (*SerialControl) MsgID ¶
func (m *SerialControl) MsgID() message.MessageID
MsgID (generated function)
func (*SerialControl) Unmarshal ¶
func (m *SerialControl) Unmarshal(data []byte) error
Unmarshal (generated function)
func (*SerialControl) UnmarshalEasyJSON ¶ added in v1.5.0
func (v *SerialControl) UnmarshalEasyJSON(l *jlexer.Lexer)
UnmarshalEasyJSON supports easyjson.Unmarshaler interface
func (*SerialControl) UnmarshalJSON ¶ added in v1.5.0
func (v *SerialControl) UnmarshalJSON(data []byte) error
UnmarshalJSON supports json.Unmarshaler interface
type ServoOutputRaw ¶
type ServoOutputRaw struct { TimeUsec uint32 `json:"TimeUsec" ` // [ us ] Timestamp (UNIX Epoch time or time since system boot). The receiving end can infer timestamp format (since 1.1.1970 or since system boot) by checking for the magnitude of the number. Servo1Raw uint16 `json:"Servo1Raw" ` // [ us ] Servo output 1 value Servo2Raw uint16 `json:"Servo2Raw" ` // [ us ] Servo output 2 value Servo3Raw uint16 `json:"Servo3Raw" ` // [ us ] Servo output 3 value Servo4Raw uint16 `json:"Servo4Raw" ` // [ us ] Servo output 4 value Servo5Raw uint16 `json:"Servo5Raw" ` // [ us ] Servo output 5 value Servo6Raw uint16 `json:"Servo6Raw" ` // [ us ] Servo output 6 value Servo7Raw uint16 `json:"Servo7Raw" ` // [ us ] Servo output 7 value Servo8Raw uint16 `json:"Servo8Raw" ` // [ us ] Servo output 8 value Port uint8 `json:"Port" ` // Servo output port (set of 8 outputs = 1 port). Flight stacks running on Pixhawk should use: 0 = MAIN, 1 = AUX. }
ServoOutputRaw struct (generated typeinfo) Superseded by ACTUATOR_OUTPUT_STATUS. The RAW values of the servo outputs (for RC input from the remote, use the RC_CHANNELS messages). The standard PPM modulation is as follows: 1000 microseconds: 0%, 2000 microseconds: 100%.
func (*ServoOutputRaw) Dict ¶
func (m *ServoOutputRaw) Dict() map[string]interface{}
ToMap (generated function)
func (*ServoOutputRaw) Marshal ¶
func (m *ServoOutputRaw) Marshal() ([]byte, error)
Marshal (generated function)
func (ServoOutputRaw) MarshalEasyJSON ¶ added in v1.5.0
func (v ServoOutputRaw) MarshalEasyJSON(w *jwriter.Writer)
MarshalEasyJSON supports easyjson.Marshaler interface
func (ServoOutputRaw) MarshalJSON ¶ added in v1.5.0
func (v ServoOutputRaw) MarshalJSON() ([]byte, error)
MarshalJSON supports json.Marshaler interface
func (*ServoOutputRaw) MsgID ¶
func (m *ServoOutputRaw) MsgID() message.MessageID
MsgID (generated function)
func (*ServoOutputRaw) String ¶
func (m *ServoOutputRaw) String() string
String (generated function)
func (*ServoOutputRaw) Unmarshal ¶
func (m *ServoOutputRaw) Unmarshal(data []byte) error
Unmarshal (generated function)
func (*ServoOutputRaw) UnmarshalEasyJSON ¶ added in v1.5.0
func (v *ServoOutputRaw) UnmarshalEasyJSON(l *jlexer.Lexer)
UnmarshalEasyJSON supports easyjson.Unmarshaler interface
func (*ServoOutputRaw) UnmarshalJSON ¶ added in v1.5.0
func (v *ServoOutputRaw) UnmarshalJSON(data []byte) error
UnmarshalJSON supports json.Unmarshaler interface
type SetActuatorControlTarget ¶
type SetActuatorControlTarget struct { TimeUsec uint64 `json:"TimeUsec" ` // [ us ] Timestamp (UNIX Epoch time or time since system boot). The receiving end can infer timestamp format (since 1.1.1970 or since system boot) by checking for the magnitude of the number. Controls []float32 `json:"Controls" len:"8" ` // Actuator controls. Normed to -1..+1 where 0 is neutral position. Throttle for single rotation direction motors is 0..1, negative range for reverse direction. Standard mapping for attitude controls (group 0): (index 0-7): roll, pitch, yaw, throttle, flaps, spoilers, airbrakes, landing gear. Load a pass-through mixer to repurpose them as generic outputs. GroupMlx uint8 `json:"GroupMlx" ` // Actuator group. The "_mlx" indicates this is a multi-instance message and a MAVLink parser should use this field to difference between instances. TargetSystem uint8 `json:"TargetSystem" ` // System ID TargetComponent uint8 `json:"TargetComponent" ` // Component ID }
SetActuatorControlTarget struct (generated typeinfo) Set the vehicle attitude and body angular rates.
func (*SetActuatorControlTarget) Dict ¶
func (m *SetActuatorControlTarget) Dict() map[string]interface{}
ToMap (generated function)
func (*SetActuatorControlTarget) Marshal ¶
func (m *SetActuatorControlTarget) Marshal() ([]byte, error)
Marshal (generated function)
func (SetActuatorControlTarget) MarshalEasyJSON ¶ added in v1.5.0
func (v SetActuatorControlTarget) MarshalEasyJSON(w *jwriter.Writer)
MarshalEasyJSON supports easyjson.Marshaler interface
func (SetActuatorControlTarget) MarshalJSON ¶ added in v1.5.0
func (v SetActuatorControlTarget) MarshalJSON() ([]byte, error)
MarshalJSON supports json.Marshaler interface
func (*SetActuatorControlTarget) MsgID ¶
func (m *SetActuatorControlTarget) MsgID() message.MessageID
MsgID (generated function)
func (*SetActuatorControlTarget) String ¶
func (m *SetActuatorControlTarget) String() string
String (generated function)
func (*SetActuatorControlTarget) Unmarshal ¶
func (m *SetActuatorControlTarget) Unmarshal(data []byte) error
Unmarshal (generated function)
func (*SetActuatorControlTarget) UnmarshalEasyJSON ¶ added in v1.5.0
func (v *SetActuatorControlTarget) UnmarshalEasyJSON(l *jlexer.Lexer)
UnmarshalEasyJSON supports easyjson.Unmarshaler interface
func (*SetActuatorControlTarget) UnmarshalJSON ¶ added in v1.5.0
func (v *SetActuatorControlTarget) UnmarshalJSON(data []byte) error
UnmarshalJSON supports json.Unmarshaler interface
type SetAttitudeTarget ¶
type SetAttitudeTarget struct { TimeBootMs uint32 `json:"TimeBootMs" ` // [ ms ] Timestamp (time since system boot). Q []float32 `json:"Q" len:"4" ` // Attitude quaternion (w, x, y, z order, zero-rotation is 1, 0, 0, 0) BodyRollRate float32 `json:"BodyRollRate" ` // [ rad/s ] Body roll rate BodyPitchRate float32 `json:"BodyPitchRate" ` // [ rad/s ] Body pitch rate BodyYawRate float32 `json:"BodyYawRate" ` // [ rad/s ] Body yaw rate Thrust float32 `json:"Thrust" ` // Collective thrust, normalized to 0 .. 1 (-1 .. 1 for vehicles capable of reverse trust) TargetSystem uint8 `json:"TargetSystem" ` // System ID TargetComponent uint8 `json:"TargetComponent" ` // Component ID TypeMask ATTITUDE_TARGET_TYPEMASK `json:"TypeMask" ` // Bitmap to indicate which dimensions should be ignored by the vehicle. }
SetAttitudeTarget struct (generated typeinfo) Sets a desired vehicle attitude. Used by an external controller to command the vehicle (manual controller or other system).
func (*SetAttitudeTarget) Dict ¶
func (m *SetAttitudeTarget) Dict() map[string]interface{}
ToMap (generated function)
func (*SetAttitudeTarget) Marshal ¶
func (m *SetAttitudeTarget) Marshal() ([]byte, error)
Marshal (generated function)
func (SetAttitudeTarget) MarshalEasyJSON ¶ added in v1.5.0
func (v SetAttitudeTarget) MarshalEasyJSON(w *jwriter.Writer)
MarshalEasyJSON supports easyjson.Marshaler interface
func (SetAttitudeTarget) MarshalJSON ¶ added in v1.5.0
func (v SetAttitudeTarget) MarshalJSON() ([]byte, error)
MarshalJSON supports json.Marshaler interface
func (*SetAttitudeTarget) MsgID ¶
func (m *SetAttitudeTarget) MsgID() message.MessageID
MsgID (generated function)
func (*SetAttitudeTarget) String ¶
func (m *SetAttitudeTarget) String() string
String (generated function)
func (*SetAttitudeTarget) Unmarshal ¶
func (m *SetAttitudeTarget) Unmarshal(data []byte) error
Unmarshal (generated function)
func (*SetAttitudeTarget) UnmarshalEasyJSON ¶ added in v1.5.0
func (v *SetAttitudeTarget) UnmarshalEasyJSON(l *jlexer.Lexer)
UnmarshalEasyJSON supports easyjson.Unmarshaler interface
func (*SetAttitudeTarget) UnmarshalJSON ¶ added in v1.5.0
func (v *SetAttitudeTarget) UnmarshalJSON(data []byte) error
UnmarshalJSON supports json.Unmarshaler interface
type SetGpsGlobalOrigin ¶
type SetGpsGlobalOrigin struct { Latitude int32 `json:"Latitude" ` // [ degE7 ] Latitude (WGS84) Longitude int32 `json:"Longitude" ` // [ degE7 ] Longitude (WGS84) Altitude int32 `json:"Altitude" ` // [ mm ] Altitude (MSL). Positive for up. TargetSystem uint8 `json:"TargetSystem" ` // System ID }
SetGpsGlobalOrigin struct (generated typeinfo) Sets the GPS co-ordinates of the vehicle local origin (0,0,0) position. Vehicle should emit GPS_GLOBAL_ORIGIN irrespective of whether the origin is changed. This enables transform between the local coordinate frame and the global (GPS) coordinate frame, which may be necessary when (for example) indoor and outdoor settings are connected and the MAV should move from in- to outdoor.
func (*SetGpsGlobalOrigin) Dict ¶
func (m *SetGpsGlobalOrigin) Dict() map[string]interface{}
ToMap (generated function)
func (*SetGpsGlobalOrigin) Marshal ¶
func (m *SetGpsGlobalOrigin) Marshal() ([]byte, error)
Marshal (generated function)
func (SetGpsGlobalOrigin) MarshalEasyJSON ¶ added in v1.5.0
func (v SetGpsGlobalOrigin) MarshalEasyJSON(w *jwriter.Writer)
MarshalEasyJSON supports easyjson.Marshaler interface
func (SetGpsGlobalOrigin) MarshalJSON ¶ added in v1.5.0
func (v SetGpsGlobalOrigin) MarshalJSON() ([]byte, error)
MarshalJSON supports json.Marshaler interface
func (*SetGpsGlobalOrigin) MsgID ¶
func (m *SetGpsGlobalOrigin) MsgID() message.MessageID
MsgID (generated function)
func (*SetGpsGlobalOrigin) String ¶
func (m *SetGpsGlobalOrigin) String() string
String (generated function)
func (*SetGpsGlobalOrigin) Unmarshal ¶
func (m *SetGpsGlobalOrigin) Unmarshal(data []byte) error
Unmarshal (generated function)
func (*SetGpsGlobalOrigin) UnmarshalEasyJSON ¶ added in v1.5.0
func (v *SetGpsGlobalOrigin) UnmarshalEasyJSON(l *jlexer.Lexer)
UnmarshalEasyJSON supports easyjson.Unmarshaler interface
func (*SetGpsGlobalOrigin) UnmarshalJSON ¶ added in v1.5.0
func (v *SetGpsGlobalOrigin) UnmarshalJSON(data []byte) error
UnmarshalJSON supports json.Unmarshaler interface
type SetHomePosition ¶
type SetHomePosition struct { Latitude int32 `json:"Latitude" ` // [ degE7 ] Latitude (WGS84) Longitude int32 `json:"Longitude" ` // [ degE7 ] Longitude (WGS84) Altitude int32 `json:"Altitude" ` // [ mm ] Altitude (MSL). Positive for up. X float32 `json:"X" ` // [ m ] Local X position of this position in the local coordinate frame Y float32 `json:"Y" ` // [ m ] Local Y position of this position in the local coordinate frame Z float32 `json:"Z" ` // [ m ] Local Z position of this position in the local coordinate frame Q []float32 `json:"Q" len:"4" ` // World to surface normal and heading transformation of the takeoff position. Used to indicate the heading and slope of the ground ApproachX float32 `json:"ApproachX" ` // [ m ] Local X position of the end of the approach vector. Multicopters should set this position based on their takeoff path. Grass-landing fixed wing aircraft should set it the same way as multicopters. Runway-landing fixed wing aircraft should set it to the opposite direction of the takeoff, assuming the takeoff happened from the threshold / touchdown zone. ApproachY float32 `json:"ApproachY" ` // [ m ] Local Y position of the end of the approach vector. Multicopters should set this position based on their takeoff path. Grass-landing fixed wing aircraft should set it the same way as multicopters. Runway-landing fixed wing aircraft should set it to the opposite direction of the takeoff, assuming the takeoff happened from the threshold / touchdown zone. ApproachZ float32 `json:"ApproachZ" ` // [ m ] Local Z position of the end of the approach vector. Multicopters should set this position based on their takeoff path. Grass-landing fixed wing aircraft should set it the same way as multicopters. Runway-landing fixed wing aircraft should set it to the opposite direction of the takeoff, assuming the takeoff happened from the threshold / touchdown zone. TargetSystem uint8 `json:"TargetSystem" ` // System ID. }
SetHomePosition struct (generated typeinfo) The position the system will return to and land on. The position is set automatically by the system during the takeoff in case it was not explicitly set by the operator before or after. The global and local positions encode the position in the respective coordinate frames, while the q parameter encodes the orientation of the surface. Under normal conditions it describes the heading and terrain slope, which can be used by the aircraft to adjust the approach. The approach 3D vector describes the point to which the system should fly in normal flight mode and then perform a landing sequence along the vector.
func (*SetHomePosition) Dict ¶
func (m *SetHomePosition) Dict() map[string]interface{}
ToMap (generated function)
func (*SetHomePosition) Marshal ¶
func (m *SetHomePosition) Marshal() ([]byte, error)
Marshal (generated function)
func (SetHomePosition) MarshalEasyJSON ¶ added in v1.5.0
func (v SetHomePosition) MarshalEasyJSON(w *jwriter.Writer)
MarshalEasyJSON supports easyjson.Marshaler interface
func (SetHomePosition) MarshalJSON ¶ added in v1.5.0
func (v SetHomePosition) MarshalJSON() ([]byte, error)
MarshalJSON supports json.Marshaler interface
func (*SetHomePosition) MsgID ¶
func (m *SetHomePosition) MsgID() message.MessageID
MsgID (generated function)
func (*SetHomePosition) String ¶
func (m *SetHomePosition) String() string
String (generated function)
func (*SetHomePosition) Unmarshal ¶
func (m *SetHomePosition) Unmarshal(data []byte) error
Unmarshal (generated function)
func (*SetHomePosition) UnmarshalEasyJSON ¶ added in v1.5.0
func (v *SetHomePosition) UnmarshalEasyJSON(l *jlexer.Lexer)
UnmarshalEasyJSON supports easyjson.Unmarshaler interface
func (*SetHomePosition) UnmarshalJSON ¶ added in v1.5.0
func (v *SetHomePosition) UnmarshalJSON(data []byte) error
UnmarshalJSON supports json.Unmarshaler interface
type SetMode ¶
type SetMode struct { CustomMode uint32 `json:"CustomMode" ` // The new autopilot-specific mode. This field can be ignored by an autopilot. TargetSystem uint8 `json:"TargetSystem" ` // The system setting the mode BaseMode MAV_MODE `json:"BaseMode" ` // The new base mode. }
SetMode struct (generated typeinfo) Set the system mode, as defined by enum MAV_MODE. There is no target component id as the mode is by definition for the overall aircraft, not only for one component.
func (SetMode) MarshalEasyJSON ¶ added in v1.5.0
MarshalEasyJSON supports easyjson.Marshaler interface
func (SetMode) MarshalJSON ¶ added in v1.5.0
MarshalJSON supports json.Marshaler interface
func (*SetMode) UnmarshalEasyJSON ¶ added in v1.5.0
UnmarshalEasyJSON supports easyjson.Unmarshaler interface
func (*SetMode) UnmarshalJSON ¶ added in v1.5.0
UnmarshalJSON supports json.Unmarshaler interface
type SetPositionTargetGlobalInt ¶
type SetPositionTargetGlobalInt struct { TimeBootMs uint32 `json:"TimeBootMs" ` // [ ms ] Timestamp (time since system boot). The rationale for the timestamp in the setpoint is to allow the system to compensate for the transport delay of the setpoint. This allows the system to compensate processing latency. LatInt int32 `json:"LatInt" ` // [ degE7 ] X Position in WGS84 frame LonInt int32 `json:"LonInt" ` // [ degE7 ] Y Position in WGS84 frame Alt float32 `json:"Alt" ` // [ m ] Altitude (MSL, Relative to home, or AGL - depending on frame) Vx float32 `json:"Vx" ` // [ m/s ] X velocity in NED frame Vy float32 `json:"Vy" ` // [ m/s ] Y velocity in NED frame Vz float32 `json:"Vz" ` // [ m/s ] Z velocity in NED frame Afx float32 `json:"Afx" ` // [ m/s/s ] X acceleration or force (if bit 10 of type_mask is set) in NED frame in meter / s^2 or N Afy float32 `json:"Afy" ` // [ m/s/s ] Y acceleration or force (if bit 10 of type_mask is set) in NED frame in meter / s^2 or N Afz float32 `json:"Afz" ` // [ m/s/s ] Z acceleration or force (if bit 10 of type_mask is set) in NED frame in meter / s^2 or N Yaw float32 `json:"Yaw" ` // [ rad ] yaw setpoint YawRate float32 `json:"YawRate" ` // [ rad/s ] yaw rate setpoint TypeMask POSITION_TARGET_TYPEMASK `json:"TypeMask" ` // Bitmap to indicate which dimensions should be ignored by the vehicle. TargetSystem uint8 `json:"TargetSystem" ` // System ID TargetComponent uint8 `json:"TargetComponent" ` // Component ID CoordinateFrame MAV_FRAME `json:"CoordinateFrame" ` // Valid options are: MAV_FRAME_GLOBAL_INT = 5, MAV_FRAME_GLOBAL_RELATIVE_ALT_INT = 6, MAV_FRAME_GLOBAL_TERRAIN_ALT_INT = 11 }
SetPositionTargetGlobalInt struct (generated typeinfo) Sets a desired vehicle position, velocity, and/or acceleration in a global coordinate system (WGS84). Used by an external controller to command the vehicle (manual controller or other system).
func (*SetPositionTargetGlobalInt) Dict ¶
func (m *SetPositionTargetGlobalInt) Dict() map[string]interface{}
ToMap (generated function)
func (*SetPositionTargetGlobalInt) Marshal ¶
func (m *SetPositionTargetGlobalInt) Marshal() ([]byte, error)
Marshal (generated function)
func (SetPositionTargetGlobalInt) MarshalEasyJSON ¶ added in v1.5.0
func (v SetPositionTargetGlobalInt) MarshalEasyJSON(w *jwriter.Writer)
MarshalEasyJSON supports easyjson.Marshaler interface
func (SetPositionTargetGlobalInt) MarshalJSON ¶ added in v1.5.0
func (v SetPositionTargetGlobalInt) MarshalJSON() ([]byte, error)
MarshalJSON supports json.Marshaler interface
func (*SetPositionTargetGlobalInt) MsgID ¶
func (m *SetPositionTargetGlobalInt) MsgID() message.MessageID
MsgID (generated function)
func (*SetPositionTargetGlobalInt) String ¶
func (m *SetPositionTargetGlobalInt) String() string
String (generated function)
func (*SetPositionTargetGlobalInt) Unmarshal ¶
func (m *SetPositionTargetGlobalInt) Unmarshal(data []byte) error
Unmarshal (generated function)
func (*SetPositionTargetGlobalInt) UnmarshalEasyJSON ¶ added in v1.5.0
func (v *SetPositionTargetGlobalInt) UnmarshalEasyJSON(l *jlexer.Lexer)
UnmarshalEasyJSON supports easyjson.Unmarshaler interface
func (*SetPositionTargetGlobalInt) UnmarshalJSON ¶ added in v1.5.0
func (v *SetPositionTargetGlobalInt) UnmarshalJSON(data []byte) error
UnmarshalJSON supports json.Unmarshaler interface
type SetPositionTargetLocalNed ¶
type SetPositionTargetLocalNed struct { TimeBootMs uint32 `json:"TimeBootMs" ` // [ ms ] Timestamp (time since system boot). X float32 `json:"X" ` // [ m ] X Position in NED frame Y float32 `json:"Y" ` // [ m ] Y Position in NED frame Z float32 `json:"Z" ` // [ m ] Z Position in NED frame (note, altitude is negative in NED) Vx float32 `json:"Vx" ` // [ m/s ] X velocity in NED frame Vy float32 `json:"Vy" ` // [ m/s ] Y velocity in NED frame Vz float32 `json:"Vz" ` // [ m/s ] Z velocity in NED frame Afx float32 `json:"Afx" ` // [ m/s/s ] X acceleration or force (if bit 10 of type_mask is set) in NED frame in meter / s^2 or N Afy float32 `json:"Afy" ` // [ m/s/s ] Y acceleration or force (if bit 10 of type_mask is set) in NED frame in meter / s^2 or N Afz float32 `json:"Afz" ` // [ m/s/s ] Z acceleration or force (if bit 10 of type_mask is set) in NED frame in meter / s^2 or N Yaw float32 `json:"Yaw" ` // [ rad ] yaw setpoint YawRate float32 `json:"YawRate" ` // [ rad/s ] yaw rate setpoint TypeMask POSITION_TARGET_TYPEMASK `json:"TypeMask" ` // Bitmap to indicate which dimensions should be ignored by the vehicle. TargetSystem uint8 `json:"TargetSystem" ` // System ID TargetComponent uint8 `json:"TargetComponent" ` // Component ID CoordinateFrame MAV_FRAME `json:"CoordinateFrame" ` // Valid options are: MAV_FRAME_LOCAL_NED = 1, MAV_FRAME_LOCAL_OFFSET_NED = 7, MAV_FRAME_BODY_NED = 8, MAV_FRAME_BODY_OFFSET_NED = 9 }
SetPositionTargetLocalNed struct (generated typeinfo) Sets a desired vehicle position in a local north-east-down coordinate frame. Used by an external controller to command the vehicle (manual controller or other system).
func (*SetPositionTargetLocalNed) Dict ¶
func (m *SetPositionTargetLocalNed) Dict() map[string]interface{}
ToMap (generated function)
func (*SetPositionTargetLocalNed) Marshal ¶
func (m *SetPositionTargetLocalNed) Marshal() ([]byte, error)
Marshal (generated function)
func (SetPositionTargetLocalNed) MarshalEasyJSON ¶ added in v1.5.0
func (v SetPositionTargetLocalNed) MarshalEasyJSON(w *jwriter.Writer)
MarshalEasyJSON supports easyjson.Marshaler interface
func (SetPositionTargetLocalNed) MarshalJSON ¶ added in v1.5.0
func (v SetPositionTargetLocalNed) MarshalJSON() ([]byte, error)
MarshalJSON supports json.Marshaler interface
func (*SetPositionTargetLocalNed) MsgID ¶
func (m *SetPositionTargetLocalNed) MsgID() message.MessageID
MsgID (generated function)
func (*SetPositionTargetLocalNed) String ¶
func (m *SetPositionTargetLocalNed) String() string
String (generated function)
func (*SetPositionTargetLocalNed) Unmarshal ¶
func (m *SetPositionTargetLocalNed) Unmarshal(data []byte) error
Unmarshal (generated function)
func (*SetPositionTargetLocalNed) UnmarshalEasyJSON ¶ added in v1.5.0
func (v *SetPositionTargetLocalNed) UnmarshalEasyJSON(l *jlexer.Lexer)
UnmarshalEasyJSON supports easyjson.Unmarshaler interface
func (*SetPositionTargetLocalNed) UnmarshalJSON ¶ added in v1.5.0
func (v *SetPositionTargetLocalNed) UnmarshalJSON(data []byte) error
UnmarshalJSON supports json.Unmarshaler interface
type SimState ¶
type SimState struct { Q1 float32 `json:"Q1" ` // True attitude quaternion component 1, w (1 in null-rotation) Q2 float32 `json:"Q2" ` // True attitude quaternion component 2, x (0 in null-rotation) Q3 float32 `json:"Q3" ` // True attitude quaternion component 3, y (0 in null-rotation) Q4 float32 `json:"Q4" ` // True attitude quaternion component 4, z (0 in null-rotation) Roll float32 `json:"Roll" ` // Attitude roll expressed as Euler angles, not recommended except for human-readable outputs Pitch float32 `json:"Pitch" ` // Attitude pitch expressed as Euler angles, not recommended except for human-readable outputs Yaw float32 `json:"Yaw" ` // Attitude yaw expressed as Euler angles, not recommended except for human-readable outputs Xacc float32 `json:"Xacc" ` // [ m/s/s ] X acceleration Yacc float32 `json:"Yacc" ` // [ m/s/s ] Y acceleration Zacc float32 `json:"Zacc" ` // [ m/s/s ] Z acceleration Xgyro float32 `json:"Xgyro" ` // [ rad/s ] Angular speed around X axis Ygyro float32 `json:"Ygyro" ` // [ rad/s ] Angular speed around Y axis Zgyro float32 `json:"Zgyro" ` // [ rad/s ] Angular speed around Z axis Lat float32 `json:"Lat" ` // [ deg ] Latitude Lon float32 `json:"Lon" ` // [ deg ] Longitude Alt float32 `json:"Alt" ` // [ m ] Altitude StdDevHorz float32 `json:"StdDevHorz" ` // Horizontal position standard deviation StdDevVert float32 `json:"StdDevVert" ` // Vertical position standard deviation Vn float32 `json:"Vn" ` // [ m/s ] True velocity in north direction in earth-fixed NED frame Ve float32 `json:"Ve" ` // [ m/s ] True velocity in east direction in earth-fixed NED frame Vd float32 `json:"Vd" ` // [ m/s ] True velocity in down direction in earth-fixed NED frame }
SimState struct (generated typeinfo) Status of simulation environment, if used
func (SimState) MarshalEasyJSON ¶ added in v1.5.0
MarshalEasyJSON supports easyjson.Marshaler interface
func (SimState) MarshalJSON ¶ added in v1.5.0
MarshalJSON supports json.Marshaler interface
func (*SimState) UnmarshalEasyJSON ¶ added in v1.5.0
UnmarshalEasyJSON supports easyjson.Unmarshaler interface
func (*SimState) UnmarshalJSON ¶ added in v1.5.0
UnmarshalJSON supports json.Unmarshaler interface
type Statustext ¶
type Statustext struct { Severity MAV_SEVERITY `json:"Severity" ` // Severity of status. Relies on the definitions within RFC-5424. Text string `json:"Text" len:"50" ` // Status text message, without null termination character }
Statustext struct (generated typeinfo) Status text message. These messages are printed in yellow in the COMM console of QGroundControl. WARNING: They consume quite some bandwidth, so use only for important status and error messages. If implemented wisely, these messages are buffered on the MCU and sent only at a limited rate (e.g. 10 Hz).
func (*Statustext) Dict ¶
func (m *Statustext) Dict() map[string]interface{}
ToMap (generated function)
func (*Statustext) Marshal ¶
func (m *Statustext) Marshal() ([]byte, error)
Marshal (generated function)
func (Statustext) MarshalEasyJSON ¶ added in v1.5.0
func (v Statustext) MarshalEasyJSON(w *jwriter.Writer)
MarshalEasyJSON supports easyjson.Marshaler interface
func (Statustext) MarshalJSON ¶ added in v1.5.0
func (v Statustext) MarshalJSON() ([]byte, error)
MarshalJSON supports json.Marshaler interface
func (*Statustext) MsgID ¶
func (m *Statustext) MsgID() message.MessageID
MsgID (generated function)
func (*Statustext) Unmarshal ¶
func (m *Statustext) Unmarshal(data []byte) error
Unmarshal (generated function)
func (*Statustext) UnmarshalEasyJSON ¶ added in v1.5.0
func (v *Statustext) UnmarshalEasyJSON(l *jlexer.Lexer)
UnmarshalEasyJSON supports easyjson.Unmarshaler interface
func (*Statustext) UnmarshalJSON ¶ added in v1.5.0
func (v *Statustext) UnmarshalJSON(data []byte) error
UnmarshalJSON supports json.Unmarshaler interface
type SysStatus ¶
type SysStatus struct { OnboardControlSensorsPresent MAV_SYS_STATUS_SENSOR `json:"OnboardControlSensorsPresent" ` // Bitmap showing which onboard controllers and sensors are present. Value of 0: not present. Value of 1: present. OnboardControlSensorsEnabled MAV_SYS_STATUS_SENSOR `json:"OnboardControlSensorsEnabled" ` // Bitmap showing which onboard controllers and sensors are enabled: Value of 0: not enabled. Value of 1: enabled. OnboardControlSensorsHealth MAV_SYS_STATUS_SENSOR `json:"OnboardControlSensorsHealth" ` // Bitmap showing which onboard controllers and sensors have an error (or are operational). Value of 0: error. Value of 1: healthy. Load uint16 `json:"Load" ` // [ d% ] Maximum usage in percent of the mainloop time. Values: [0-1000] - should always be below 1000 VoltageBattery uint16 `json:"VoltageBattery" ` // [ mV ] Battery voltage, UINT16_MAX: Voltage not sent by autopilot CurrentBattery int16 `json:"CurrentBattery" ` // [ cA ] Battery current, -1: Current not sent by autopilot DropRateComm uint16 `json:"DropRateComm" ` // [ c% ] Communication drop rate, (UART, I2C, SPI, CAN), dropped packets on all links (packets that were corrupted on reception on the MAV) ErrorsComm uint16 `json:"ErrorsComm" ` // Communication errors (UART, I2C, SPI, CAN), dropped packets on all links (packets that were corrupted on reception on the MAV) ErrorsCount1 uint16 `json:"ErrorsCount1" ` // Autopilot-specific errors ErrorsCount2 uint16 `json:"ErrorsCount2" ` // Autopilot-specific errors ErrorsCount3 uint16 `json:"ErrorsCount3" ` // Autopilot-specific errors ErrorsCount4 uint16 `json:"ErrorsCount4" ` // Autopilot-specific errors BatteryRemaining int8 `json:"BatteryRemaining" ` // [ % ] Battery energy remaining, -1: Battery remaining energy not sent by autopilot }
SysStatus struct (generated typeinfo) The general system state. If the system is following the MAVLink standard, the system state is mainly defined by three orthogonal states/modes: The system mode, which is either LOCKED (motors shut down and locked), MANUAL (system under RC control), GUIDED (system with autonomous position control, position setpoint controlled manually) or AUTO (system guided by path/waypoint planner). The NAV_MODE defined the current flight state: LIFTOFF (often an open-loop maneuver), LANDING, WAYPOINTS or VECTOR. This represents the internal navigation state machine. The system status shows whether the system is currently active or not and if an emergency occurred. During the CRITICAL and EMERGENCY states the MAV is still considered to be active, but should start emergency procedures autonomously. After a failure occurred it should first move from active to critical to allow manual intervention and then move to emergency after a certain timeout.
func (SysStatus) MarshalEasyJSON ¶ added in v1.5.0
MarshalEasyJSON supports easyjson.Marshaler interface
func (SysStatus) MarshalJSON ¶ added in v1.5.0
MarshalJSON supports json.Marshaler interface
func (*SysStatus) UnmarshalEasyJSON ¶ added in v1.5.0
UnmarshalEasyJSON supports easyjson.Unmarshaler interface
func (*SysStatus) UnmarshalJSON ¶ added in v1.5.0
UnmarshalJSON supports json.Unmarshaler interface
type SystemTime ¶
type SystemTime struct { TimeUnixUsec uint64 `json:"TimeUnixUsec" ` // [ us ] Timestamp (UNIX epoch time). TimeBootMs uint32 `json:"TimeBootMs" ` // [ ms ] Timestamp (time since system boot). }
SystemTime struct (generated typeinfo) The system time is the time of the master clock, typically the computer clock of the main onboard computer.
func (*SystemTime) Dict ¶
func (m *SystemTime) Dict() map[string]interface{}
ToMap (generated function)
func (*SystemTime) Marshal ¶
func (m *SystemTime) Marshal() ([]byte, error)
Marshal (generated function)
func (SystemTime) MarshalEasyJSON ¶ added in v1.5.0
func (v SystemTime) MarshalEasyJSON(w *jwriter.Writer)
MarshalEasyJSON supports easyjson.Marshaler interface
func (SystemTime) MarshalJSON ¶ added in v1.5.0
func (v SystemTime) MarshalJSON() ([]byte, error)
MarshalJSON supports json.Marshaler interface
func (*SystemTime) MsgID ¶
func (m *SystemTime) MsgID() message.MessageID
MsgID (generated function)
func (*SystemTime) Unmarshal ¶
func (m *SystemTime) Unmarshal(data []byte) error
Unmarshal (generated function)
func (*SystemTime) UnmarshalEasyJSON ¶ added in v1.5.0
func (v *SystemTime) UnmarshalEasyJSON(l *jlexer.Lexer)
UnmarshalEasyJSON supports easyjson.Unmarshaler interface
func (*SystemTime) UnmarshalJSON ¶ added in v1.5.0
func (v *SystemTime) UnmarshalJSON(data []byte) error
UnmarshalJSON supports json.Unmarshaler interface
type TUNE_FORMAT ¶
type TUNE_FORMAT int
TUNE_FORMAT type. Tune formats (used for vehicle buzzer/tone generation).
const ( // TUNE_FORMAT_QBASIC1_1 enum. Format is QBasic 1.1 Play: https://www.qbasic.net/en/reference/qb11/Statement/PLAY-006.htm TUNE_FORMAT_QBASIC1_1 TUNE_FORMAT = 1 // TUNE_FORMAT_MML_MODERN enum. Format is Modern Music Markup Language (MML): https://en.wikipedia.org/wiki/Music_Macro_Language#Modern_MML TUNE_FORMAT_MML_MODERN TUNE_FORMAT = 2 )
func (TUNE_FORMAT) Bitmask ¶
func (e TUNE_FORMAT) Bitmask() string
Bitmask return string representetion of intersects TUNE_FORMAT enums
func (TUNE_FORMAT) MarshalBinary ¶
func (e TUNE_FORMAT) MarshalBinary() (data []byte, err error)
MarshalBinary generic func
func (TUNE_FORMAT) String ¶
func (e TUNE_FORMAT) String() string
func (*TUNE_FORMAT) UnmarshalBinary ¶
func (e *TUNE_FORMAT) UnmarshalBinary(data []byte) error
UnmarshalBinary generic func
type TerrainCheck ¶
type TerrainCheck struct { Lat int32 `json:"Lat" ` // [ degE7 ] Latitude Lon int32 `json:"Lon" ` // [ degE7 ] Longitude }
TerrainCheck struct (generated typeinfo) Request that the vehicle report terrain height at the given location (expected response is a TERRAIN_REPORT). Used by GCS to check if vehicle has all terrain data needed for a mission.
func (*TerrainCheck) Dict ¶
func (m *TerrainCheck) Dict() map[string]interface{}
ToMap (generated function)
func (*TerrainCheck) Marshal ¶
func (m *TerrainCheck) Marshal() ([]byte, error)
Marshal (generated function)
func (TerrainCheck) MarshalEasyJSON ¶ added in v1.5.0
func (v TerrainCheck) MarshalEasyJSON(w *jwriter.Writer)
MarshalEasyJSON supports easyjson.Marshaler interface
func (TerrainCheck) MarshalJSON ¶ added in v1.5.0
func (v TerrainCheck) MarshalJSON() ([]byte, error)
MarshalJSON supports json.Marshaler interface
func (*TerrainCheck) MsgID ¶
func (m *TerrainCheck) MsgID() message.MessageID
MsgID (generated function)
func (*TerrainCheck) Unmarshal ¶
func (m *TerrainCheck) Unmarshal(data []byte) error
Unmarshal (generated function)
func (*TerrainCheck) UnmarshalEasyJSON ¶ added in v1.5.0
func (v *TerrainCheck) UnmarshalEasyJSON(l *jlexer.Lexer)
UnmarshalEasyJSON supports easyjson.Unmarshaler interface
func (*TerrainCheck) UnmarshalJSON ¶ added in v1.5.0
func (v *TerrainCheck) UnmarshalJSON(data []byte) error
UnmarshalJSON supports json.Unmarshaler interface
type TerrainData ¶
type TerrainData struct { Lat int32 `json:"Lat" ` // [ degE7 ] Latitude of SW corner of first grid Lon int32 `json:"Lon" ` // [ degE7 ] Longitude of SW corner of first grid GridSpacing uint16 `json:"GridSpacing" ` // [ m ] Grid spacing Data []int16 `json:"Data" len:"16" ` // [ m ] Terrain data MSL Gridbit uint8 `json:"Gridbit" ` // bit within the terrain request mask }
TerrainData struct (generated typeinfo) Terrain data sent from GCS. The lat/lon and grid_spacing must be the same as a lat/lon from a TERRAIN_REQUEST. See terrain protocol docs: https://mavlink.io/en/services/terrain.html
func (*TerrainData) Dict ¶
func (m *TerrainData) Dict() map[string]interface{}
ToMap (generated function)
func (*TerrainData) Marshal ¶
func (m *TerrainData) Marshal() ([]byte, error)
Marshal (generated function)
func (TerrainData) MarshalEasyJSON ¶ added in v1.5.0
func (v TerrainData) MarshalEasyJSON(w *jwriter.Writer)
MarshalEasyJSON supports easyjson.Marshaler interface
func (TerrainData) MarshalJSON ¶ added in v1.5.0
func (v TerrainData) MarshalJSON() ([]byte, error)
MarshalJSON supports json.Marshaler interface
func (*TerrainData) MsgID ¶
func (m *TerrainData) MsgID() message.MessageID
MsgID (generated function)
func (*TerrainData) Unmarshal ¶
func (m *TerrainData) Unmarshal(data []byte) error
Unmarshal (generated function)
func (*TerrainData) UnmarshalEasyJSON ¶ added in v1.5.0
func (v *TerrainData) UnmarshalEasyJSON(l *jlexer.Lexer)
UnmarshalEasyJSON supports easyjson.Unmarshaler interface
func (*TerrainData) UnmarshalJSON ¶ added in v1.5.0
func (v *TerrainData) UnmarshalJSON(data []byte) error
UnmarshalJSON supports json.Unmarshaler interface
type TerrainReport ¶
type TerrainReport struct { Lat int32 `json:"Lat" ` // [ degE7 ] Latitude Lon int32 `json:"Lon" ` // [ degE7 ] Longitude TerrainHeight float32 `json:"TerrainHeight" ` // [ m ] Terrain height MSL CurrentHeight float32 `json:"CurrentHeight" ` // [ m ] Current vehicle height above lat/lon terrain height Spacing uint16 `json:"Spacing" ` // grid spacing (zero if terrain at this location unavailable) Pending uint16 `json:"Pending" ` // Number of 4x4 terrain blocks waiting to be received or read from disk Loaded uint16 `json:"Loaded" ` // Number of 4x4 terrain blocks in memory }
TerrainReport struct (generated typeinfo) Streamed from drone to report progress of terrain map download (initiated by TERRAIN_REQUEST), or sent as a response to a TERRAIN_CHECK request. See terrain protocol docs: https://mavlink.io/en/services/terrain.html
func (*TerrainReport) Dict ¶
func (m *TerrainReport) Dict() map[string]interface{}
ToMap (generated function)
func (*TerrainReport) Marshal ¶
func (m *TerrainReport) Marshal() ([]byte, error)
Marshal (generated function)
func (TerrainReport) MarshalEasyJSON ¶ added in v1.5.0
func (v TerrainReport) MarshalEasyJSON(w *jwriter.Writer)
MarshalEasyJSON supports easyjson.Marshaler interface
func (TerrainReport) MarshalJSON ¶ added in v1.5.0
func (v TerrainReport) MarshalJSON() ([]byte, error)
MarshalJSON supports json.Marshaler interface
func (*TerrainReport) MsgID ¶
func (m *TerrainReport) MsgID() message.MessageID
MsgID (generated function)
func (*TerrainReport) Unmarshal ¶
func (m *TerrainReport) Unmarshal(data []byte) error
Unmarshal (generated function)
func (*TerrainReport) UnmarshalEasyJSON ¶ added in v1.5.0
func (v *TerrainReport) UnmarshalEasyJSON(l *jlexer.Lexer)
UnmarshalEasyJSON supports easyjson.Unmarshaler interface
func (*TerrainReport) UnmarshalJSON ¶ added in v1.5.0
func (v *TerrainReport) UnmarshalJSON(data []byte) error
UnmarshalJSON supports json.Unmarshaler interface
type TerrainRequest ¶
type TerrainRequest struct { Mask uint64 `json:"Mask" ` // Bitmask of requested 4x4 grids (row major 8x7 array of grids, 56 bits) Lat int32 `json:"Lat" ` // [ degE7 ] Latitude of SW corner of first grid Lon int32 `json:"Lon" ` // [ degE7 ] Longitude of SW corner of first grid GridSpacing uint16 `json:"GridSpacing" ` // [ m ] Grid spacing }
TerrainRequest struct (generated typeinfo) Request for terrain data and terrain status. See terrain protocol docs: https://mavlink.io/en/services/terrain.html
func (*TerrainRequest) Dict ¶
func (m *TerrainRequest) Dict() map[string]interface{}
ToMap (generated function)
func (*TerrainRequest) Marshal ¶
func (m *TerrainRequest) Marshal() ([]byte, error)
Marshal (generated function)
func (TerrainRequest) MarshalEasyJSON ¶ added in v1.5.0
func (v TerrainRequest) MarshalEasyJSON(w *jwriter.Writer)
MarshalEasyJSON supports easyjson.Marshaler interface
func (TerrainRequest) MarshalJSON ¶ added in v1.5.0
func (v TerrainRequest) MarshalJSON() ([]byte, error)
MarshalJSON supports json.Marshaler interface
func (*TerrainRequest) MsgID ¶
func (m *TerrainRequest) MsgID() message.MessageID
MsgID (generated function)
func (*TerrainRequest) String ¶
func (m *TerrainRequest) String() string
String (generated function)
func (*TerrainRequest) Unmarshal ¶
func (m *TerrainRequest) Unmarshal(data []byte) error
Unmarshal (generated function)
func (*TerrainRequest) UnmarshalEasyJSON ¶ added in v1.5.0
func (v *TerrainRequest) UnmarshalEasyJSON(l *jlexer.Lexer)
UnmarshalEasyJSON supports easyjson.Unmarshaler interface
func (*TerrainRequest) UnmarshalJSON ¶ added in v1.5.0
func (v *TerrainRequest) UnmarshalJSON(data []byte) error
UnmarshalJSON supports json.Unmarshaler interface
type Timesync ¶
type Timesync struct { Tc1 int64 `json:"Tc1" ` // Time sync timestamp 1 Ts1 int64 `json:"Ts1" ` // Time sync timestamp 2 }
Timesync struct (generated typeinfo) Time synchronization message.
func (Timesync) MarshalEasyJSON ¶ added in v1.5.0
MarshalEasyJSON supports easyjson.Marshaler interface
func (Timesync) MarshalJSON ¶ added in v1.5.0
MarshalJSON supports json.Marshaler interface
func (*Timesync) UnmarshalEasyJSON ¶ added in v1.5.0
UnmarshalEasyJSON supports easyjson.Unmarshaler interface
func (*Timesync) UnmarshalJSON ¶ added in v1.5.0
UnmarshalJSON supports json.Unmarshaler interface
type UAVCAN_NODE_HEALTH ¶
type UAVCAN_NODE_HEALTH int
UAVCAN_NODE_HEALTH type. Generalized UAVCAN node health
const ( // UAVCAN_NODE_HEALTH_OK enum. The node is functioning properly UAVCAN_NODE_HEALTH_OK UAVCAN_NODE_HEALTH = 0 // UAVCAN_NODE_HEALTH_WARNING enum. A critical parameter went out of range or the node has encountered a minor failure UAVCAN_NODE_HEALTH_WARNING UAVCAN_NODE_HEALTH = 1 // UAVCAN_NODE_HEALTH_ERROR enum. The node has encountered a major failure UAVCAN_NODE_HEALTH_ERROR UAVCAN_NODE_HEALTH = 2 // UAVCAN_NODE_HEALTH_CRITICAL enum. The node has suffered a fatal malfunction UAVCAN_NODE_HEALTH_CRITICAL UAVCAN_NODE_HEALTH = 3 )
func (UAVCAN_NODE_HEALTH) Bitmask ¶
func (e UAVCAN_NODE_HEALTH) Bitmask() string
Bitmask return string representetion of intersects UAVCAN_NODE_HEALTH enums
func (UAVCAN_NODE_HEALTH) MarshalBinary ¶
func (e UAVCAN_NODE_HEALTH) MarshalBinary() (data []byte, err error)
MarshalBinary generic func
func (UAVCAN_NODE_HEALTH) String ¶
func (e UAVCAN_NODE_HEALTH) String() string
func (*UAVCAN_NODE_HEALTH) UnmarshalBinary ¶
func (e *UAVCAN_NODE_HEALTH) UnmarshalBinary(data []byte) error
UnmarshalBinary generic func
type UAVCAN_NODE_MODE ¶
type UAVCAN_NODE_MODE int
UAVCAN_NODE_MODE type. Generalized UAVCAN node mode
const ( // UAVCAN_NODE_MODE_OPERATIONAL enum. The node is performing its primary functions UAVCAN_NODE_MODE_OPERATIONAL UAVCAN_NODE_MODE = 0 // UAVCAN_NODE_MODE_INITIALIZATION enum. The node is initializing; this mode is entered immediately after startup UAVCAN_NODE_MODE_INITIALIZATION UAVCAN_NODE_MODE = 1 // UAVCAN_NODE_MODE_MAINTENANCE enum. The node is under maintenance UAVCAN_NODE_MODE_MAINTENANCE UAVCAN_NODE_MODE = 2 // UAVCAN_NODE_MODE_SOFTWARE_UPDATE enum. The node is in the process of updating its software UAVCAN_NODE_MODE_SOFTWARE_UPDATE UAVCAN_NODE_MODE = 3 // UAVCAN_NODE_MODE_OFFLINE enum. The node is no longer available online UAVCAN_NODE_MODE_OFFLINE UAVCAN_NODE_MODE = 7 )
func (UAVCAN_NODE_MODE) Bitmask ¶
func (e UAVCAN_NODE_MODE) Bitmask() string
Bitmask return string representetion of intersects UAVCAN_NODE_MODE enums
func (UAVCAN_NODE_MODE) MarshalBinary ¶
func (e UAVCAN_NODE_MODE) MarshalBinary() (data []byte, err error)
MarshalBinary generic func
func (UAVCAN_NODE_MODE) String ¶
func (e UAVCAN_NODE_MODE) String() string
func (*UAVCAN_NODE_MODE) UnmarshalBinary ¶
func (e *UAVCAN_NODE_MODE) UnmarshalBinary(data []byte) error
UnmarshalBinary generic func
type UTM_DATA_AVAIL_FLAGS ¶
type UTM_DATA_AVAIL_FLAGS int
UTM_DATA_AVAIL_FLAGS type. Flags for the global position report.
const ( // UTM_DATA_AVAIL_FLAGS_TIME_VALID enum. The field time contains valid data UTM_DATA_AVAIL_FLAGS_TIME_VALID UTM_DATA_AVAIL_FLAGS = 1 // UTM_DATA_AVAIL_FLAGS_UAS_ID_AVAILABLE enum. The field uas_id contains valid data UTM_DATA_AVAIL_FLAGS_UAS_ID_AVAILABLE UTM_DATA_AVAIL_FLAGS = 2 // UTM_DATA_AVAIL_FLAGS_POSITION_AVAILABLE enum. The fields lat, lon and h_acc contain valid data UTM_DATA_AVAIL_FLAGS_POSITION_AVAILABLE UTM_DATA_AVAIL_FLAGS = 4 // UTM_DATA_AVAIL_FLAGS_ALTITUDE_AVAILABLE enum. The fields alt and v_acc contain valid data UTM_DATA_AVAIL_FLAGS_ALTITUDE_AVAILABLE UTM_DATA_AVAIL_FLAGS = 8 // UTM_DATA_AVAIL_FLAGS_RELATIVE_ALTITUDE_AVAILABLE enum. The field relative_alt contains valid data UTM_DATA_AVAIL_FLAGS_RELATIVE_ALTITUDE_AVAILABLE UTM_DATA_AVAIL_FLAGS = 16 // UTM_DATA_AVAIL_FLAGS_HORIZONTAL_VELO_AVAILABLE enum. The fields vx and vy contain valid data UTM_DATA_AVAIL_FLAGS_HORIZONTAL_VELO_AVAILABLE UTM_DATA_AVAIL_FLAGS = 32 // UTM_DATA_AVAIL_FLAGS_VERTICAL_VELO_AVAILABLE enum. The field vz contains valid data UTM_DATA_AVAIL_FLAGS_VERTICAL_VELO_AVAILABLE UTM_DATA_AVAIL_FLAGS = 64 // UTM_DATA_AVAIL_FLAGS_NEXT_WAYPOINT_AVAILABLE enum. The fields next_lat, next_lon and next_alt contain valid data UTM_DATA_AVAIL_FLAGS_NEXT_WAYPOINT_AVAILABLE UTM_DATA_AVAIL_FLAGS = 128 )
func (UTM_DATA_AVAIL_FLAGS) Bitmask ¶
func (e UTM_DATA_AVAIL_FLAGS) Bitmask() string
Bitmask return string representetion of intersects UTM_DATA_AVAIL_FLAGS enums
func (UTM_DATA_AVAIL_FLAGS) MarshalBinary ¶
func (e UTM_DATA_AVAIL_FLAGS) MarshalBinary() (data []byte, err error)
MarshalBinary generic func
func (UTM_DATA_AVAIL_FLAGS) String ¶
func (e UTM_DATA_AVAIL_FLAGS) String() string
func (*UTM_DATA_AVAIL_FLAGS) UnmarshalBinary ¶
func (e *UTM_DATA_AVAIL_FLAGS) UnmarshalBinary(data []byte) error
UnmarshalBinary generic func
type UTM_FLIGHT_STATE ¶
type UTM_FLIGHT_STATE int
UTM_FLIGHT_STATE type. Airborne status of UAS.
const ( // UTM_FLIGHT_STATE_UNKNOWN enum. The flight state can't be determined UTM_FLIGHT_STATE_UNKNOWN UTM_FLIGHT_STATE = 1 // UTM_FLIGHT_STATE_GROUND enum. UAS on ground UTM_FLIGHT_STATE_GROUND UTM_FLIGHT_STATE = 2 // UTM_FLIGHT_STATE_AIRBORNE enum. UAS airborne UTM_FLIGHT_STATE_AIRBORNE UTM_FLIGHT_STATE = 3 // UTM_FLIGHT_STATE_EMERGENCY enum. UAS is in an emergency flight state UTM_FLIGHT_STATE_EMERGENCY UTM_FLIGHT_STATE = 16 // UTM_FLIGHT_STATE_NOCTRL enum. UAS has no active controls UTM_FLIGHT_STATE_NOCTRL UTM_FLIGHT_STATE = 32 )
func (UTM_FLIGHT_STATE) Bitmask ¶
func (e UTM_FLIGHT_STATE) Bitmask() string
Bitmask return string representetion of intersects UTM_FLIGHT_STATE enums
func (UTM_FLIGHT_STATE) MarshalBinary ¶
func (e UTM_FLIGHT_STATE) MarshalBinary() (data []byte, err error)
MarshalBinary generic func
func (UTM_FLIGHT_STATE) String ¶
func (e UTM_FLIGHT_STATE) String() string
func (*UTM_FLIGHT_STATE) UnmarshalBinary ¶
func (e *UTM_FLIGHT_STATE) UnmarshalBinary(data []byte) error
UnmarshalBinary generic func
type V2Extension ¶
type V2Extension struct { MessageType uint16 `json:"MessageType" ` // A code that identifies the software component that understands this message (analogous to USB device classes or mime type strings). If this code is less than 32768, it is considered a 'registered' protocol extension and the corresponding entry should be added to https://github.com/mavlink/mavlink/definition_files/extension_message_ids.xml. Software creators can register blocks of message IDs as needed (useful for GCS specific metadata, etc...). Message_types greater than 32767 are considered local experiments and should not be checked in to any widely distributed codebase. TargetNetwork uint8 `json:"TargetNetwork" ` // Network ID (0 for broadcast) TargetSystem uint8 `json:"TargetSystem" ` // System ID (0 for broadcast) TargetComponent uint8 `json:"TargetComponent" ` // Component ID (0 for broadcast) Payload []uint8 `json:"Payload" len:"249" ` // Variable length payload. The length must be encoded in the payload as part of the message_type protocol, e.g. by including the length as payload data, or by terminating the payload data with a non-zero marker. This is required in order to reconstruct zero-terminated payloads that are (or otherwise would be) trimmed by MAVLink 2 empty-byte truncation. The entire content of the payload block is opaque unless you understand the encoding message_type. The particular encoding used can be extension specific and might not always be documented as part of the MAVLink specification. }
V2Extension struct (generated typeinfo) Message implementing parts of the V2 payload specs in V1 frames for transitional support.
func (*V2Extension) Dict ¶
func (m *V2Extension) Dict() map[string]interface{}
ToMap (generated function)
func (*V2Extension) Marshal ¶
func (m *V2Extension) Marshal() ([]byte, error)
Marshal (generated function)
func (V2Extension) MarshalEasyJSON ¶ added in v1.5.0
func (v V2Extension) MarshalEasyJSON(w *jwriter.Writer)
MarshalEasyJSON supports easyjson.Marshaler interface
func (V2Extension) MarshalJSON ¶ added in v1.5.0
func (v V2Extension) MarshalJSON() ([]byte, error)
MarshalJSON supports json.Marshaler interface
func (*V2Extension) MsgID ¶
func (m *V2Extension) MsgID() message.MessageID
MsgID (generated function)
func (*V2Extension) Unmarshal ¶
func (m *V2Extension) Unmarshal(data []byte) error
Unmarshal (generated function)
func (*V2Extension) UnmarshalEasyJSON ¶ added in v1.5.0
func (v *V2Extension) UnmarshalEasyJSON(l *jlexer.Lexer)
UnmarshalEasyJSON supports easyjson.Unmarshaler interface
func (*V2Extension) UnmarshalJSON ¶ added in v1.5.0
func (v *V2Extension) UnmarshalJSON(data []byte) error
UnmarshalJSON supports json.Unmarshaler interface
type VIDEO_STREAM_STATUS_FLAGS ¶
type VIDEO_STREAM_STATUS_FLAGS int
VIDEO_STREAM_STATUS_FLAGS type. Stream status flags (Bitmap)
const ( // VIDEO_STREAM_STATUS_FLAGS_RUNNING enum. Stream is active (running) VIDEO_STREAM_STATUS_FLAGS_RUNNING VIDEO_STREAM_STATUS_FLAGS = 1 // VIDEO_STREAM_STATUS_FLAGS_THERMAL enum. Stream is thermal imaging VIDEO_STREAM_STATUS_FLAGS_THERMAL VIDEO_STREAM_STATUS_FLAGS = 2 )
func (VIDEO_STREAM_STATUS_FLAGS) Bitmask ¶
func (e VIDEO_STREAM_STATUS_FLAGS) Bitmask() string
Bitmask return string representetion of intersects VIDEO_STREAM_STATUS_FLAGS enums
func (VIDEO_STREAM_STATUS_FLAGS) MarshalBinary ¶
func (e VIDEO_STREAM_STATUS_FLAGS) MarshalBinary() (data []byte, err error)
MarshalBinary generic func
func (VIDEO_STREAM_STATUS_FLAGS) String ¶
func (e VIDEO_STREAM_STATUS_FLAGS) String() string
func (*VIDEO_STREAM_STATUS_FLAGS) UnmarshalBinary ¶
func (e *VIDEO_STREAM_STATUS_FLAGS) UnmarshalBinary(data []byte) error
UnmarshalBinary generic func
type VIDEO_STREAM_TYPE ¶
type VIDEO_STREAM_TYPE int
VIDEO_STREAM_TYPE type. Video stream types
const ( // VIDEO_STREAM_TYPE_RTSP enum. Stream is RTSP VIDEO_STREAM_TYPE_RTSP VIDEO_STREAM_TYPE = 0 // VIDEO_STREAM_TYPE_RTPUDP enum. Stream is RTP UDP (URI gives the port number) VIDEO_STREAM_TYPE_RTPUDP VIDEO_STREAM_TYPE = 1 // VIDEO_STREAM_TYPE_TCP_MPEG enum. Stream is MPEG on TCP VIDEO_STREAM_TYPE_TCP_MPEG VIDEO_STREAM_TYPE = 2 // VIDEO_STREAM_TYPE_MPEG_TS_H264 enum. Stream is h.264 on MPEG TS (URI gives the port number) VIDEO_STREAM_TYPE_MPEG_TS_H264 VIDEO_STREAM_TYPE = 3 )
func (VIDEO_STREAM_TYPE) Bitmask ¶
func (e VIDEO_STREAM_TYPE) Bitmask() string
Bitmask return string representetion of intersects VIDEO_STREAM_TYPE enums
func (VIDEO_STREAM_TYPE) MarshalBinary ¶
func (e VIDEO_STREAM_TYPE) MarshalBinary() (data []byte, err error)
MarshalBinary generic func
func (VIDEO_STREAM_TYPE) String ¶
func (e VIDEO_STREAM_TYPE) String() string
func (*VIDEO_STREAM_TYPE) UnmarshalBinary ¶
func (e *VIDEO_STREAM_TYPE) UnmarshalBinary(data []byte) error
UnmarshalBinary generic func
type VTOL_TRANSITION_HEADING ¶
type VTOL_TRANSITION_HEADING int
VTOL_TRANSITION_HEADING type. Direction of VTOL transition
const ( // VTOL_TRANSITION_HEADING_VEHICLE_DEFAULT enum. Respect the heading configuration of the vehicle VTOL_TRANSITION_HEADING_VEHICLE_DEFAULT VTOL_TRANSITION_HEADING = 0 // VTOL_TRANSITION_HEADING_NEXT_WAYPOINT enum. Use the heading pointing towards the next waypoint VTOL_TRANSITION_HEADING_NEXT_WAYPOINT VTOL_TRANSITION_HEADING = 1 // VTOL_TRANSITION_HEADING_TAKEOFF enum. Use the heading on takeoff (while sitting on the ground) VTOL_TRANSITION_HEADING_TAKEOFF VTOL_TRANSITION_HEADING = 2 // VTOL_TRANSITION_HEADING_SPECIFIED enum. Use the specified heading in parameter 4 VTOL_TRANSITION_HEADING_SPECIFIED VTOL_TRANSITION_HEADING = 3 // VTOL_TRANSITION_HEADING_ANY enum. Use the current heading when reaching takeoff altitude (potentially facing the wind when weather-vaning is active) VTOL_TRANSITION_HEADING_ANY VTOL_TRANSITION_HEADING = 4 )
func (VTOL_TRANSITION_HEADING) Bitmask ¶
func (e VTOL_TRANSITION_HEADING) Bitmask() string
Bitmask return string representetion of intersects VTOL_TRANSITION_HEADING enums
func (VTOL_TRANSITION_HEADING) MarshalBinary ¶
func (e VTOL_TRANSITION_HEADING) MarshalBinary() (data []byte, err error)
MarshalBinary generic func
func (VTOL_TRANSITION_HEADING) String ¶
func (e VTOL_TRANSITION_HEADING) String() string
func (*VTOL_TRANSITION_HEADING) UnmarshalBinary ¶
func (e *VTOL_TRANSITION_HEADING) UnmarshalBinary(data []byte) error
UnmarshalBinary generic func
type VfrHud ¶
type VfrHud struct { Airspeed float32 `json:"Airspeed" ` // [ m/s ] Vehicle speed in form appropriate for vehicle type. For standard aircraft this is typically calibrated airspeed (CAS) or indicated airspeed (IAS) - either of which can be used by a pilot to estimate stall speed. Groundspeed float32 `json:"Groundspeed" ` // [ m/s ] Current ground speed. Alt float32 `json:"Alt" ` // [ m ] Current altitude (MSL). Climb float32 `json:"Climb" ` // [ m/s ] Current climb rate. Heading int16 `json:"Heading" ` // [ deg ] Current heading in compass units (0-360, 0=north). Throttle uint16 `json:"Throttle" ` // [ % ] Current throttle setting (0 to 100). }
VfrHud struct (generated typeinfo) Metrics typically displayed on a HUD for fixed wing aircraft.
func (VfrHud) MarshalEasyJSON ¶ added in v1.5.0
MarshalEasyJSON supports easyjson.Marshaler interface
func (VfrHud) MarshalJSON ¶ added in v1.5.0
MarshalJSON supports json.Marshaler interface
func (*VfrHud) UnmarshalEasyJSON ¶ added in v1.5.0
UnmarshalEasyJSON supports easyjson.Unmarshaler interface
func (*VfrHud) UnmarshalJSON ¶ added in v1.5.0
UnmarshalJSON supports json.Unmarshaler interface
type Vibration ¶
type Vibration struct { TimeUsec uint64 `json:"TimeUsec" ` // [ us ] Timestamp (UNIX Epoch time or time since system boot). The receiving end can infer timestamp format (since 1.1.1970 or since system boot) by checking for the magnitude of the number. VibrationX float32 `json:"VibrationX" ` // Vibration levels on X-axis VibrationY float32 `json:"VibrationY" ` // Vibration levels on Y-axis VibrationZ float32 `json:"VibrationZ" ` // Vibration levels on Z-axis Clipping0 uint32 `json:"Clipping0" ` // first accelerometer clipping count Clipping1 uint32 `json:"Clipping1" ` // second accelerometer clipping count Clipping2 uint32 `json:"Clipping2" ` // third accelerometer clipping count }
Vibration struct (generated typeinfo) Vibration levels and accelerometer clipping
func (Vibration) MarshalEasyJSON ¶ added in v1.5.0
MarshalEasyJSON supports easyjson.Marshaler interface
func (Vibration) MarshalJSON ¶ added in v1.5.0
MarshalJSON supports json.Marshaler interface
func (*Vibration) UnmarshalEasyJSON ¶ added in v1.5.0
UnmarshalEasyJSON supports easyjson.Unmarshaler interface
func (*Vibration) UnmarshalJSON ¶ added in v1.5.0
UnmarshalJSON supports json.Unmarshaler interface
type ViconPositionEstimate ¶
type ViconPositionEstimate struct { Usec uint64 `json:"Usec" ` // [ us ] Timestamp (UNIX time or time since system boot) X float32 `json:"X" ` // [ m ] Global X position Y float32 `json:"Y" ` // [ m ] Global Y position Z float32 `json:"Z" ` // [ m ] Global Z position Roll float32 `json:"Roll" ` // [ rad ] Roll angle Pitch float32 `json:"Pitch" ` // [ rad ] Pitch angle Yaw float32 `json:"Yaw" ` // [ rad ] Yaw angle }
ViconPositionEstimate struct (generated typeinfo) Global position estimate from a Vicon motion system source.
func (*ViconPositionEstimate) Dict ¶
func (m *ViconPositionEstimate) Dict() map[string]interface{}
ToMap (generated function)
func (*ViconPositionEstimate) Marshal ¶
func (m *ViconPositionEstimate) Marshal() ([]byte, error)
Marshal (generated function)
func (ViconPositionEstimate) MarshalEasyJSON ¶ added in v1.5.0
func (v ViconPositionEstimate) MarshalEasyJSON(w *jwriter.Writer)
MarshalEasyJSON supports easyjson.Marshaler interface
func (ViconPositionEstimate) MarshalJSON ¶ added in v1.5.0
func (v ViconPositionEstimate) MarshalJSON() ([]byte, error)
MarshalJSON supports json.Marshaler interface
func (*ViconPositionEstimate) MsgID ¶
func (m *ViconPositionEstimate) MsgID() message.MessageID
MsgID (generated function)
func (*ViconPositionEstimate) String ¶
func (m *ViconPositionEstimate) String() string
String (generated function)
func (*ViconPositionEstimate) Unmarshal ¶
func (m *ViconPositionEstimate) Unmarshal(data []byte) error
Unmarshal (generated function)
func (*ViconPositionEstimate) UnmarshalEasyJSON ¶ added in v1.5.0
func (v *ViconPositionEstimate) UnmarshalEasyJSON(l *jlexer.Lexer)
UnmarshalEasyJSON supports easyjson.Unmarshaler interface
func (*ViconPositionEstimate) UnmarshalJSON ¶ added in v1.5.0
func (v *ViconPositionEstimate) UnmarshalJSON(data []byte) error
UnmarshalJSON supports json.Unmarshaler interface
type VisionPositionEstimate ¶
type VisionPositionEstimate struct { Usec uint64 `json:"Usec" ` // [ us ] Timestamp (UNIX time or time since system boot) X float32 `json:"X" ` // [ m ] Local X position Y float32 `json:"Y" ` // [ m ] Local Y position Z float32 `json:"Z" ` // [ m ] Local Z position Roll float32 `json:"Roll" ` // [ rad ] Roll angle Pitch float32 `json:"Pitch" ` // [ rad ] Pitch angle Yaw float32 `json:"Yaw" ` // [ rad ] Yaw angle }
VisionPositionEstimate struct (generated typeinfo) Local position/attitude estimate from a vision source.
func (*VisionPositionEstimate) Dict ¶
func (m *VisionPositionEstimate) Dict() map[string]interface{}
ToMap (generated function)
func (*VisionPositionEstimate) Marshal ¶
func (m *VisionPositionEstimate) Marshal() ([]byte, error)
Marshal (generated function)
func (VisionPositionEstimate) MarshalEasyJSON ¶ added in v1.5.0
func (v VisionPositionEstimate) MarshalEasyJSON(w *jwriter.Writer)
MarshalEasyJSON supports easyjson.Marshaler interface
func (VisionPositionEstimate) MarshalJSON ¶ added in v1.5.0
func (v VisionPositionEstimate) MarshalJSON() ([]byte, error)
MarshalJSON supports json.Marshaler interface
func (*VisionPositionEstimate) MsgID ¶
func (m *VisionPositionEstimate) MsgID() message.MessageID
MsgID (generated function)
func (*VisionPositionEstimate) String ¶
func (m *VisionPositionEstimate) String() string
String (generated function)
func (*VisionPositionEstimate) Unmarshal ¶
func (m *VisionPositionEstimate) Unmarshal(data []byte) error
Unmarshal (generated function)
func (*VisionPositionEstimate) UnmarshalEasyJSON ¶ added in v1.5.0
func (v *VisionPositionEstimate) UnmarshalEasyJSON(l *jlexer.Lexer)
UnmarshalEasyJSON supports easyjson.Unmarshaler interface
func (*VisionPositionEstimate) UnmarshalJSON ¶ added in v1.5.0
func (v *VisionPositionEstimate) UnmarshalJSON(data []byte) error
UnmarshalJSON supports json.Unmarshaler interface
type VisionSpeedEstimate ¶
type VisionSpeedEstimate struct { Usec uint64 `json:"Usec" ` // [ us ] Timestamp (UNIX time or time since system boot) X float32 `json:"X" ` // [ m/s ] Global X speed Y float32 `json:"Y" ` // [ m/s ] Global Y speed Z float32 `json:"Z" ` // [ m/s ] Global Z speed }
VisionSpeedEstimate struct (generated typeinfo) Speed estimate from a vision source.
func (*VisionSpeedEstimate) Dict ¶
func (m *VisionSpeedEstimate) Dict() map[string]interface{}
ToMap (generated function)
func (*VisionSpeedEstimate) Marshal ¶
func (m *VisionSpeedEstimate) Marshal() ([]byte, error)
Marshal (generated function)
func (VisionSpeedEstimate) MarshalEasyJSON ¶ added in v1.5.0
func (v VisionSpeedEstimate) MarshalEasyJSON(w *jwriter.Writer)
MarshalEasyJSON supports easyjson.Marshaler interface
func (VisionSpeedEstimate) MarshalJSON ¶ added in v1.5.0
func (v VisionSpeedEstimate) MarshalJSON() ([]byte, error)
MarshalJSON supports json.Marshaler interface
func (*VisionSpeedEstimate) MsgID ¶
func (m *VisionSpeedEstimate) MsgID() message.MessageID
MsgID (generated function)
func (*VisionSpeedEstimate) String ¶
func (m *VisionSpeedEstimate) String() string
String (generated function)
func (*VisionSpeedEstimate) Unmarshal ¶
func (m *VisionSpeedEstimate) Unmarshal(data []byte) error
Unmarshal (generated function)
func (*VisionSpeedEstimate) UnmarshalEasyJSON ¶ added in v1.5.0
func (v *VisionSpeedEstimate) UnmarshalEasyJSON(l *jlexer.Lexer)
UnmarshalEasyJSON supports easyjson.Unmarshaler interface
func (*VisionSpeedEstimate) UnmarshalJSON ¶ added in v1.5.0
func (v *VisionSpeedEstimate) UnmarshalJSON(data []byte) error
UnmarshalJSON supports json.Unmarshaler interface
type WIFI_CONFIG_AP_MODE ¶
type WIFI_CONFIG_AP_MODE int
WIFI_CONFIG_AP_MODE type. WiFi Mode.
const ( // WIFI_CONFIG_AP_MODE_UNDEFINED enum. WiFi mode is undefined WIFI_CONFIG_AP_MODE_UNDEFINED WIFI_CONFIG_AP_MODE = 0 // WIFI_CONFIG_AP_MODE_AP enum. WiFi configured as an access point WIFI_CONFIG_AP_MODE_AP WIFI_CONFIG_AP_MODE = 1 // WIFI_CONFIG_AP_MODE_STATION enum. WiFi configured as a station connected to an existing local WiFi network WIFI_CONFIG_AP_MODE_STATION WIFI_CONFIG_AP_MODE = 2 // WIFI_CONFIG_AP_MODE_DISABLED enum. WiFi disabled WIFI_CONFIG_AP_MODE_DISABLED WIFI_CONFIG_AP_MODE = 3 )
func (WIFI_CONFIG_AP_MODE) Bitmask ¶
func (e WIFI_CONFIG_AP_MODE) Bitmask() string
Bitmask return string representetion of intersects WIFI_CONFIG_AP_MODE enums
func (WIFI_CONFIG_AP_MODE) MarshalBinary ¶
func (e WIFI_CONFIG_AP_MODE) MarshalBinary() (data []byte, err error)
MarshalBinary generic func
func (WIFI_CONFIG_AP_MODE) String ¶
func (e WIFI_CONFIG_AP_MODE) String() string
func (*WIFI_CONFIG_AP_MODE) UnmarshalBinary ¶
func (e *WIFI_CONFIG_AP_MODE) UnmarshalBinary(data []byte) error
UnmarshalBinary generic func
type WIFI_CONFIG_AP_RESPONSE ¶
type WIFI_CONFIG_AP_RESPONSE int
WIFI_CONFIG_AP_RESPONSE type. Possible responses from a WIFI_CONFIG_AP message.
const ( // WIFI_CONFIG_AP_RESPONSE_UNDEFINED enum. Undefined response. Likely an indicative of a system that doesn't support this request WIFI_CONFIG_AP_RESPONSE_UNDEFINED WIFI_CONFIG_AP_RESPONSE = 0 // WIFI_CONFIG_AP_RESPONSE_ACCEPTED enum. Changes accepted WIFI_CONFIG_AP_RESPONSE_ACCEPTED WIFI_CONFIG_AP_RESPONSE = 1 // WIFI_CONFIG_AP_RESPONSE_REJECTED enum. Changes rejected WIFI_CONFIG_AP_RESPONSE_REJECTED WIFI_CONFIG_AP_RESPONSE = 2 // WIFI_CONFIG_AP_RESPONSE_MODE_ERROR enum. Invalid Mode WIFI_CONFIG_AP_RESPONSE_MODE_ERROR WIFI_CONFIG_AP_RESPONSE = 3 // WIFI_CONFIG_AP_RESPONSE_SSID_ERROR enum. Invalid SSID WIFI_CONFIG_AP_RESPONSE_SSID_ERROR WIFI_CONFIG_AP_RESPONSE = 4 // WIFI_CONFIG_AP_RESPONSE_PASSWORD_ERROR enum. Invalid Password WIFI_CONFIG_AP_RESPONSE_PASSWORD_ERROR WIFI_CONFIG_AP_RESPONSE = 5 )
func (WIFI_CONFIG_AP_RESPONSE) Bitmask ¶
func (e WIFI_CONFIG_AP_RESPONSE) Bitmask() string
Bitmask return string representetion of intersects WIFI_CONFIG_AP_RESPONSE enums
func (WIFI_CONFIG_AP_RESPONSE) MarshalBinary ¶
func (e WIFI_CONFIG_AP_RESPONSE) MarshalBinary() (data []byte, err error)
MarshalBinary generic func
func (WIFI_CONFIG_AP_RESPONSE) String ¶
func (e WIFI_CONFIG_AP_RESPONSE) String() string
func (*WIFI_CONFIG_AP_RESPONSE) UnmarshalBinary ¶
func (e *WIFI_CONFIG_AP_RESPONSE) UnmarshalBinary(data []byte) error
UnmarshalBinary generic func
type WINCH_ACTIONS ¶
type WINCH_ACTIONS int
WINCH_ACTIONS type. Winch actions.
const ( // WINCH_RELAXED enum. Relax winch WINCH_RELAXED WINCH_ACTIONS = 0 // WINCH_RELATIVE_LENGTH_CONTROL enum. Wind or unwind specified length of cable, optionally using specified rate WINCH_RELATIVE_LENGTH_CONTROL WINCH_ACTIONS = 1 // WINCH_RATE_CONTROL enum. Wind or unwind cable at specified rate WINCH_RATE_CONTROL WINCH_ACTIONS = 2 )
func (WINCH_ACTIONS) Bitmask ¶
func (e WINCH_ACTIONS) Bitmask() string
Bitmask return string representetion of intersects WINCH_ACTIONS enums
func (WINCH_ACTIONS) MarshalBinary ¶
func (e WINCH_ACTIONS) MarshalBinary() (data []byte, err error)
MarshalBinary generic func
func (WINCH_ACTIONS) String ¶
func (e WINCH_ACTIONS) String() string
func (*WINCH_ACTIONS) UnmarshalBinary ¶
func (e *WINCH_ACTIONS) UnmarshalBinary(data []byte) error
UnmarshalBinary generic func
type WindCov ¶
type WindCov struct { TimeUsec uint64 `json:"TimeUsec" ` // [ us ] Timestamp (UNIX Epoch time or time since system boot). The receiving end can infer timestamp format (since 1.1.1970 or since system boot) by checking for the magnitude of the number. WindX float32 `json:"WindX" ` // [ m/s ] Wind in X (NED) direction WindY float32 `json:"WindY" ` // [ m/s ] Wind in Y (NED) direction WindZ float32 `json:"WindZ" ` // [ m/s ] Wind in Z (NED) direction VarHoriz float32 `json:"VarHoriz" ` // [ m/s ] Variability of the wind in XY. RMS of a 1 Hz lowpassed wind estimate. VarVert float32 `json:"VarVert" ` // [ m/s ] Variability of the wind in Z. RMS of a 1 Hz lowpassed wind estimate. WindAlt float32 `json:"WindAlt" ` // [ m ] Altitude (MSL) that this measurement was taken at HorizAccuracy float32 `json:"HorizAccuracy" ` // [ m ] Horizontal speed 1-STD accuracy VertAccuracy float32 `json:"VertAccuracy" ` // [ m ] Vertical speed 1-STD accuracy }
WindCov struct (generated typeinfo) Wind covariance estimate from vehicle.
func (WindCov) MarshalEasyJSON ¶ added in v1.5.0
MarshalEasyJSON supports easyjson.Marshaler interface
func (WindCov) MarshalJSON ¶ added in v1.5.0
MarshalJSON supports json.Marshaler interface
func (*WindCov) UnmarshalEasyJSON ¶ added in v1.5.0
UnmarshalEasyJSON supports easyjson.Unmarshaler interface
func (*WindCov) UnmarshalJSON ¶ added in v1.5.0
UnmarshalJSON supports json.Unmarshaler interface