syntax = "proto2"; package org.traccar.protobuf; // StarLink Message message StarLink_Message { optional uint32 FID = 1; // Unit factory serial optional string IMEI = 2; // IMEI optional uint32 UID = 3; // Unit serial optional uint32 AckRef = 4; // Ack reference number repeated mMessage Message = 5; } // Message body message mMessage { optional uint64 ReferenceNumber = 100; optional uint32 ReferenceNumberDiff = 101; optional uint32 MessageType = 102; optional mWakeUp WakeUp = 1; optional mConfirmation Confirmation = 2; optional mParamResponse ParamResponse = 3; optional mEventReport EventReport = 6; optional mGeoZone GeoZone = 10; optional mOutputs Outputs = 12; optional mEventConfig EventConfig = 14; optional mInputs Inputs = 16; optional mInputConfig InputConfig = 17; optional mSpeedLimit SpeedLimit = 27; optional mUnitIDChanged UnitIDChanged = 29; optional mGenDeviceMsg GenericDeviceMsg= 30; optional mGenDeviceFW GenericDeviceFW = 35; optional mReadIButton ReadIButton = 42; optional mGetPattern GetPattern = 43; optional mMultiParam MultiParameter = 45; optional mTempConfig TempConfig = 52; optional mDeviceList DeviceList = 56; optional mTeachRemote TeachRemote = 58; optional mAuthenticate Authenticate = 95; optional mEventReport CurrentLocation = 96; optional mConfigServer ConfigServer = 98; } // Wake-Up event message mWakeUp { required string UnitVersion = 1; required string ProtocolVersion = 2; } // Confirmation message message mConfirmation { // standard response required uint32 ResultCode = 1; optional uint32 ReferenceNumber = 2; // confirmation by reference number optional uint32 MessageType = 3; // confirmation by message type // parameter ack (response to command #4) optional uint32 ParameterAck = 4; // multi-parameter ack (response to command #46) optional uint32 ParametersChanged = 5; optional uint32 ParametersFailed = 6; repeated uint32 ParameterFailedList = 9; // modify list of allowed drivers (response to command #50) optional uint32 CodesInList = 7; optional uint32 EmptySlots = 8; } // Parameter response message mParamResponse { required uint32 ParameterNumber = 1; required string Value = 2; } // Event report message mEventReport { optional uint32 EID = 1; // https://sweb.erm.co.il/protocol/?i=D12 optional string EDESC = 2; // https://sweb.erm.co.il/protocol/?i=D13 optional uint32 EDT = 3; // https://sweb.erm.co.il/protocol/?i=D27 (seconds since 1/1/2000) optional sint32 EDT_Diff = 4; // seconds since previous message's EDT optional uint32 NXT = 5; // https://sweb.erm.co.il/protocol/?i=D111 optional uint32 NXTS = 81; // https://sweb.erm.co.il/protocol/?i=D178 optional string ExtraData = 254; optional uint32 PDT = 6; // https://sweb.erm.co.il/protocol/?i=D35 (seconds since 1/1/2000) optional sint32 PDT_Diff = 7; // seconds since previous message's PDT optional sint32 LAT = 8; // https://sweb.erm.co.il/protocol/?i=D49 (multiplied by 1000000) optional sint32 LAT_Diff = 9; // difference between previous latitude (add this value to previous value) optional sint32 LONG = 10; // https://sweb.erm.co.il/protocol/?i=D57 (multiplied by 1000000) optional sint32 LONG_Diff = 11; // difference between previous longitude (add this value to previous value) optional sint32 ALT = 12; // https://sweb.erm.co.il/protocol/?i=D69 (multiplied by 10) optional sint32 ALT_Diff = 13; // difference between previous altitude (add this value to previous value) optional uint32 SPD = 14; // https://sweb.erm.co.il/protocol/?i=D61 (multiplied by 10, in knots) optional uint32 SPDK = 15; // https://sweb.erm.co.il/protocol/?i=D62 optional uint32 HEAD = 16; // https://sweb.erm.co.il/protocol/?i=D63 optional uint32 HDOP = 17; // https://sweb.erm.co.il/protocol/?i=D71 (multiplied by 10) optional uint32 VDOP = 18; // https://sweb.erm.co.il/protocol/?i=D72 (multiplied by 10) optional uint32 PDOP = 19; // https://sweb.erm.co.il/protocol/?i=D70 (multiplied by 10) optional uint32 SAT = 20; // https://sweb.erm.co.il/protocol/?i=D73 optional uint32 SATN = 21; // https://sweb.erm.co.il/protocol/?i=D99 optional uint32 SATU = 22; // https://sweb.erm.co.il/protocol/?i=D74 optional uint32 GSS = 23; // https://sweb.erm.co.il/protocol/?i=D98 optional uint32 GSSN = 24; // https://sweb.erm.co.il/protocol/?i=D100 optional uint32 FIX = 25; // https://sweb.erm.co.il/protocol/?i=D75 optional uint32 LOCA = 26; // https://sweb.erm.co.il/protocol/?i=D126 optional uint32 LOCS = 79; // https://sweb.erm.co.il/protocol/?i=D167 optional uint32 ODO = 27; // https://sweb.erm.co.il/protocol/?i=D14 optional sint32 ODO_Diff = 28; // difference between previous odometer (add this value to previous value) optional uint32 ODOD = 29; // https://sweb.erm.co.il/protocol/?i=D15 (multiplied by 1000) optional sint32 ODOD_Diff = 30; // difference between previous odometer (add this value to previous value) optional uint32 CID = 31; // https://sweb.erm.co.il/protocol/?i=D5 optional uint32 LAC = 32; // https://sweb.erm.co.il/protocol/?i=D4 optional uint32 CSS = 33; // https://sweb.erm.co.il/protocol/?i=D89 optional sint32 CSS_Diff = 34; // difference between previous rx power (add this value to previous value) optional uint32 CTA = 35; // https://sweb.erm.co.il/protocol/?i=D95 optional uint32 CCN = 36; // https://sweb.erm.co.il/protocol/?i=D89 optional bool JAM = 37; // https://sweb.erm.co.il/protocol/?i=D66 optional uint32 NC = 38; // https://sweb.erm.co.il/protocol/?i=D94 optional uint32 NM = 39; // https://sweb.erm.co.il/protocol/?i=D125 optional uint32 NT = 76; // https://sweb.erm.co.il/protocol/?i=D153 optional uint32 CU = 77; // https://sweb.erm.co.il/protocol/?i=D154 optional uint32 VIN = 40; // https://sweb.erm.co.il/protocol/?i=D64 (multiplied by 100) optional sint32 VIN_Diff = 41; // difference between previous VIN (add this value to previous value) optional uint32 VBAT = 42; // https://sweb.erm.co.il/protocol/?i=D65 (multiplied by 100) optional sint32 VBAT_Diff = 43; // difference between previous VBAT (add this value to previous value) optional uint32 V3 = 44; // https://sweb.erm.co.il/protocol/?i=D92 (multiplied by 100) optional sint32 V3_Diff = 45; // difference between previous V3 (add this value to previous value) optional uint32 V4 = 46; // https://sweb.erm.co.il/protocol/?i=D93 (multiplied by 100) optional sint32 V4_Diff = 47; // difference between previous V4 (add this value to previous value) optional uint32 BATH = 48; optional uint32 BATC = 49; optional uint32 STRT = 50; // (multiplied by 100) optional sint32 TVI = 51; // https://sweb.erm.co.il/protocol/?i=D110 (multiplied by 10) optional uint32 Inputs = 52; // b0 = IN1/INC, b1 = IN2/IND, b2 = IN3/INE, b3 = IN4/INF optional uint32 DInputs = 53; // b0 = DI1, b1 = DI2, b2 = DI3, b3 = DI4, b4 = DI5, b5 = DI6, b6 = DI7, b7 = DI8 optional uint32 IgnitionEngine = 54; // b0 = IGN, b1 = ENG, b2 = DRV optional uint32 Outputs = 55; // b0 = OUT1/OUTA, b1 = OUT2/OUTB, b2 = OUT3/OUTC, b3 = OUT4/OUTD, b4 = OUT5, b5 = OUT6, b6 = OUT7, b7 = OUT8 optional string USER = 56; // https://sweb.erm.co.il/protocol/?i=D97 optional string EDV1 = 57; // https://sweb.erm.co.il/protocol/?i=D179 optional string EDV2 = 58; // https://sweb.erm.co.il/protocol/?i=D180 optional string EDV3 = 59; // https://sweb.erm.co.il/protocol/?i=D181 optional string EDV4 = 60; // https://sweb.erm.co.il/protocol/?i=D182 optional sint32 CV1 = 61; // https://sweb.erm.co.il/protocol/?i=D121 optional sint32 CV2 = 62; // https://sweb.erm.co.il/protocol/?i=D122 optional sint32 CV3 = 63; // https://sweb.erm.co.il/protocol/?i=D123 optional sint32 CV4 = 64; // https://sweb.erm.co.il/protocol/?i=D124 optional sint32 CV5 = 82; // https://sweb.erm.co.il/protocol/?i=D174 optional sint32 CV6 = 83; // https://sweb.erm.co.il/protocol/?i=D175 optional sint32 CV7 = 84; // https://sweb.erm.co.il/protocol/?i=D176 optional sint32 CV8 = 85; // https://sweb.erm.co.il/protocol/?i=D177 optional sint32 CV9 = 86; // https://sweb.erm.co.il/protocol/?i=D188 optional sint32 CV10 = 87; // https://sweb.erm.co.il/protocol/?i=D189 optional sint32 CV11 = 88; // https://sweb.erm.co.il/protocol/?i=D190 optional sint32 CV12 = 89; // https://sweb.erm.co.il/protocol/?i=D191 optional bool IARM = 65; // https://sweb.erm.co.il/protocol/?i=D7 optional string DID = 66; // https://sweb.erm.co.il/protocol/?i=D101 optional string DAL = 67; // https://sweb.erm.co.il/protocol/?i=D76 optional uint32 DEST = 68; // https://sweb.erm.co.il/protocol/?i=D8 optional bool OVM = 73; // https://sweb.erm.co.il/protocol/?i=D150 optional uint32 CFL = 69; // https://sweb.erm.co.il/protocol/?i=D26 optional uint32 CFL2 = 80; // https://sweb.erm.co.il/protocol/?i=D26 optional uint32 RPM = 70; // https://sweb.erm.co.il/protocol/?i=D144 optional uint32 DUR = 71; // https://sweb.erm.co.il/protocol/?i=D145 optional uint32 TDUR = 72; // https://sweb.erm.co.il/protocol/?i=D146 optional uint32 IDL = 74; // https://sweb.erm.co.il/protocol/?i=D151 optional uint32 STP = 75; // https://sweb.erm.co.il/protocol/?i=D152 repeated mEventReport_TDx TDx = 78; // https://sweb.erm.co.il/protocol/?i=D168 } // Sensor data message mEventReport_TDx { required uint32 SensorNumber = 1; // Sensor # optional string SensorID = 3; // TIx (binary) optional sint32 Temperature = 4; // TVx (multiplied by 10) optional uint32 Temperature_State = 2; // TSx optional uint32 Humidity = 5; // THx (multiplied by 10) optional uint32 Humidity_State = 6; optional uint32 RSSI = 7; optional uint32 RSSI_State = 8; optional uint32 Voltage = 9; // mV (multiplied by 1000) optional uint32 Voltage_State = 10; optional uint32 Light = 11; // percent optional uint32 Light_State = 12; optional uint32 MagnetSwitch = 13; optional uint32 MagnetSwitch_State = 14; optional uint32 Accident = 15; optional uint32 Button = 16; optional uint32 Movement = 17; } // Geozone reqsponse message mGeoZone { required uint32 ZoneNumber = 1; repeated mLatLong Point = 2; // single point for radius geozone, multiple points for polygon optional uint32 Radius = 3; } // Outputs response message mOutputs { required uint32 OutputBitmask = 1; } // Event configuration response message mEventConfig { required uint32 EventID = 1; required uint32 Configuration = 2; // bitmask } // Inputs response message mInputs { required uint32 InputBitmask = 1; } // Inputs configuration message mInputConfig { required uint32 InputID = 1; required uint32 DebounceLow = 2; required uint32 DebounceHigh = 3; } // Speed limit configuration message mSpeedLimit { required uint32 Number = 1; required bool Active = 2; optional uint32 MinSpeed = 3; // when using speed limit with minimum speed optional uint32 MaxSpeed = 4; // when using speed limit with maximum speed required uint32 Duration = 5; required bool ReportDuration = 6; optional bool StartAndEnd = 7; optional bool AutoTrack = 8; optional bool OutputPattern = 9; optional uint32 Step = 10; } // Unit ID changed message mUnitIDChanged { required uint32 FID = 1; required string IMEI = 2; required sint32 PreviousSetting = 3; required sint32 NewSetting = 4; } // Generic device message message mGenDeviceMsg { required uint32 DeviceID = 1; required uint32 DataType = 2; optional string Data = 3; } // Generic device FW update message mGenDeviceFW { optional uint32 BlockRequest = 1; optional uint32 Status = 2; optional uint32 MaxBlocks = 3; } // Configuration server message message mConfigServer { required bool Success = 1; } // Read iButton message mReadIButton { required string iButtonID = 1; optional string Data = 2; } // Read pattern configuration message mGetPattern { required uint32 PatternID = 1; required string Pattern = 2; } // Multiple parameters response message mMultiParam { repeated uint32 ParameterNumbers = 1; repeated string Values = 2; } // Temperature sensor configuration message mTempConfig { required uint32 SensorCount = 1; repeated string SensorID = 2; } // Device list message mDeviceList { repeated uint32 DeviceID = 1; repeated uint32 Version = 2; } // Teach remote message mTeachRemote { required uint32 RuleID = 1; optional uint32 RemoteID = 2; } // Authentication message message mAuthenticate { required uint32 Version = 1; optional string Token = 2; optional uint32 Key = 3; optional uint32 Step = 4; optional string Digest = 5; } // Point (Lat / Long) message mLatLong { required sint32 Latitude = 1; required sint32 Longitude = 2; }