Esempio n. 1
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        static void Main(string[] args)
        {
            Log.SetGlobalOutputLevel(Log.Severity.INFO);
            Log.SetSingleOutputLevel(Log.Source.NETWORK, Log.Severity.DEBUG);
            Log.ErrorCodes  = ScienceErrors.ERROR_CODES;
            Log.SystemNames = ScienceErrors.SYSTEMS;
            Log.Begin();
            Log.ForceOutput(Log.Severity.INFO, Log.Source.OTHER, "Science Station - Base Side");

            byte[] StrB    = UtilData.ToBytes("Erza-{}'");
            byte[] Fail    = new byte[] { 0x8C };
            bool   Success = UtilData.TryToString(Fail, out string Str);

            if (Success)
            {
                Console.WriteLine(Str);
            }
            else
            {
                Console.WriteLine(UtilMain.BytesToNiceString(StrB, true));
            }

            MainWindow Main = new MainWindow();

            Application.EnableVisualStyles();
            Server.ClientConnectionChange += Main.UpdateClientList;
            Application.Run(Main);
        }
Esempio n. 2
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        /// <summary>
        /// Sends an error packet to the given
        /// endpoint via TCP.
        /// Adds Error packet to packet send queue
        /// </summary>
        /// <param name="ErrorPacketID">ID for the Error Packet</param>
        /// <param name="Endpoint">Endpoint to send the packet</param>
        /// <param name="ErrorCode">Error code for the indicated error</param>
        public static void SendError(byte ErrorPacketID, string Endpoint, int ErrorCode)
        {
            Packet ErrorPacket = new Packet(ErrorPacketID, false, Endpoint);

            ErrorPacket.AppendData(UtilData.ToBytes(ErrorCode));
            Send(ErrorPacket);
        }
Esempio n. 3
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        /// <summary> Gets the current time as a byte array for use in packets. </summary>
        public static byte[] GetCurrentTime()
        {
            // We can't use this because it requires .NET 4.6, which isn't present on the version of Mono on the BeagleBone.
            // int UnixTime = (int)DateTimeOffset.Now.ToUnixTimeSeconds();
            int UnixTime = (int)(DateTime.UtcNow.Subtract(new DateTime(1970, 1, 1))).TotalSeconds;

            byte[] TimeArray = UtilData.ToBytes(UnixTime);
            return(TimeArray);
        }
Esempio n. 4
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        public static void SampleDoorChange(bool NewValue)
        {
            Packet Packet = new Packet(new Message(ScienceConstants.Packets.SERVO_SET, new byte[]
            {
                0x00,
            }.Concat(UtilData.ToBytes((int)(NewValue ? 0x01 : 0x00))).ToArray()), false, ScienceConstants.CLIENT_NAME);

            Server.Send(Packet);
        }
Esempio n. 5
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        public void UpdateState()
        {
            if (this.TakeReadings)
            {
                DateTime Sample = DateTime.Now;
                this.SystemSensor.UpdateState();
                this.DrillSensor.UpdateState();
                this.RailSensor.UpdateState();

                double RailA = this.RailSensor.GetShuntVoltage();
                double Drill = this.DrillSensor.GetCurrent();
                double SysA  = this.SystemSensor.GetCurrent();
                double SysV  = this.SystemSensor.GetBusVoltage();
                double SysSV = this.SystemSensor.GetShuntVoltage();
                double DrlSV = this.DrillSensor.GetShuntVoltage();

                if (this.TraceLogging)
                {
                    Log.Trace(this, string.Format("Sys: {0:N5}A, {1:N5}V (Shunt {2:N5}V). Drill: {3:N5}A. Rail: {4:N5}A. Test: {5}", SysA, SysV, SysSV, Drill, RailA, this.SystemSensor.Test()));
                }

                byte[] Data   = UtilData.ToBytes(SysSV / 0.150).Concat(UtilData.ToBytes(DrlSV / 0.010)).Concat(UtilData.ToBytes(RailA / 0.002)).Concat(UtilData.ToBytes(SysV)).Concat(UtilData.ToBytes(Sample.Ticks)).ToArray(); // TODO: Decide if we want to calculate or use device
                Packet Packet = new Packet(new Message(ScienceConstants.Packets.SYS_SENSOR, Data), false);
                Client.Send(Packet);

                uint SysVoltColour;
                if (SysV <= 25)
                {
                    SysVoltColour = RGBLED.RedGreenGradient(SysV, 22, 26);
                }
                else if (SysV <= 28)
                {
                    SysVoltColour = 0x00FF00;
                }
                else
                {
                    SysVoltColour = RGBLED.RedGreenGradient(SysV, 30, 28);
                }
                RoverMain.IOHandler.LEDController.SystemVoltage.SetOutput(SysVoltColour);

                uint SysCurrentColour;
                if (SysA <= 2)
                {
                    SysCurrentColour = 0x00FF00;
                }
                else if (SysA >= 5)
                {
                    SysCurrentColour = 0xFF0000;
                }
                else
                {
                    SysCurrentColour = RGBLED.RedGreenGradient(SysA, 5, 2);
                }
                RoverMain.IOHandler.LEDController.SystemCurrent.SetOutput(SysCurrentColour);
            }
        }
Esempio n. 6
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 private void EmergencyStopClick(object sender, EventArgs e)
 {
     try
     {
         Packet EmergencyStopPacket = new Packet(PacketType.EMERGENCY_STOP, false, Scarlet.Science.Constants.CLIENT_NAME);
         EmergencyStopPacket.AppendData(UtilData.ToBytes("Homura"));
         Server.SendNow(EmergencyStopPacket);
     }
     catch (Exception Exc)
     {
         Log.Output(Log.Severity.FATAL, Log.Source.GUI, "FAILED TO SEND EMERGENCY STOP!");
         Log.Exception(Log.Source.GUI, Exc);
         DarkMessageBox.ShowError("Failed to send emergency stop!\n\n" + Exc.ToString(), "Science");
     }
 }
Esempio n. 7
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 /// <summary> Sends the speed between -1.0 and 1.0 to the motor controller </summary>
 /// <param name="Speed"> Speed from -1.0 to 1.0 </param>
 private void SendSpeed(float Speed)
 {
     byte[] SpeedArray = UtilData.ToBytes((int)(Speed * 100000.0f));
     if (this.IsCAN)
     {
         this.CANBus.Write(this.CANID, SpeedArray);
     }
     else
     {
         List <byte> payload = new List <byte>();
         payload.Add((byte)UARTPacketID.SET_DUTY);
         payload.AddRange(SpeedArray);
         // Duty Cycle (100000.0 mysterious magic number from https://github.com/VTAstrobotics/VESC_BBB_UART/blob/master/bldc_interface.c)
         this.UARTBus.Write(ConstructPacket(payload));
     }
 }
Esempio n. 8
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 /// <summary> Sends the speed to the motor controller </summary>
 /// <param name="RPM"> RPM for the motor to spin at. RPM is capped at 36500 </param>
 private void SendRPM(int RPM)
 {
     RPM = Math.Min(RPM, MOTOR_MAX_RPM) * ERPM_PER_RPM;
     byte[] SpeedArray = UtilData.ToBytes(RPM);
     if (this.IsCAN)
     {
         this.CANBus.Write(((byte)CANPacketID.CAN_PACKET_SET_RPM << 8) | this.CANID, SpeedArray);
     }
     else
     {
         List <byte> payload = new List <byte>();
         payload.Add((byte)UARTPacketID.SET_RPM);
         payload.AddRange(SpeedArray);
         this.UARTBus.Write(ConstructPacket(payload));
     }
 }
Esempio n. 9
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 public static void SendSensorData(int count)
 {
     foreach (ISensor Sensor in Sensors)
     {
         if (Sensor is MTK3339)
         {
             var    Tup  = ((MTK3339)Sensor).GetCoords();
             float  Lat  = Tup.Item1;
             float  Long = Tup.Item2;
             Packet Pack = new Packet((byte)PacketID.DataGPS, true);
             Pack.AppendData(UtilData.ToBytes(Lat));
             Pack.AppendData(UtilData.ToBytes(Long));
             Client.SendNow(Pack);
             if (count == 100)
             {
                 Packet HeadingFromGPSPack = new Packet((byte)PacketID.HeadingFromGPS, true);
                 //Math between two coords given from Tup and previousCoords
                 float latDiff  = Lat - previousCoords.Item1;
                 float longDiff = Long - previousCoords.Item1;
                 float theta    = (float)Math.Atan2(latDiff, longDiff);
                 if (longDiff > 0)
                 {
                     theta = 90 - theta;
                 }
                 else if (longDiff < 0)
                 {
                     theta = 270 - theta;
                 }
                 HeadingFromGPSPack.AppendData(UtilData.ToBytes(theta));
                 Client.SendNow(HeadingFromGPSPack);
                 previousCoords = Tup;
             }
         }
         if (Sensor is BNO055)
         {
             var    Tup  = ((BNO055)Sensor).GetVector(BNO055.VectorType.VECTOR_MAGNETOMETER);
             float  X    = Tup.Item1;
             float  Y    = Tup.Item2;
             float  Z    = Tup.Item3;
             Packet Pack = new Packet((byte)PacketID.DataMagnetometer, true);
             Pack.AppendData(UtilData.ToBytes(X));
             Pack.AppendData(UtilData.ToBytes(Y));
             Pack.AppendData(UtilData.ToBytes(Z));
             Client.SendNow(Pack);
         }
     }
 }
Esempio n. 10
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        private byte[] InterpretInput(char[] Input)
        {
            if (!Input.Contains('"'))
            {
                return(UtilMain.StringToBytes(new string(Input)).Reverse().ToArray());
            }
            int LocOfStart = Array.IndexOf(Input, '"');
            int StrLen     = Array.IndexOf(Input.Skip(LocOfStart + 1).ToArray(), '"');

            char[]      BeforeChars = Input.Take(LocOfStart).ToArray();
            List <byte> Output      = new List <byte>();

            Output.AddRange(UtilMain.StringToBytes(new string(BeforeChars)).Reverse().ToArray());
            string Str = new string(Input.Skip(LocOfStart + 1).Take(StrLen).ToArray());

            Output.AddRange(UtilData.ToBytes(Str));
            Output.AddRange(InterpretInput(Input.Skip(LocOfStart + StrLen + 2).ToArray()));
            return(Output.ToArray());
        }
Esempio n. 11
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        public void UpdateState()
        {
            if (this.TakeReadings)
            {
                DateTime Sample = DateTime.Now;
                this.Thermocouple.UpdateState();
                if (this.Thermocouple.GetFaults() != MAX31855.Fault.NONE)
                {
                    Log.Output(Log.Severity.WARNING, Log.Source.SENSORS, "Thermocouple has faults: " + this.Thermocouple.GetFaults());
                }
                this.UVLight.UpdateState();
                this.Atmospheric.UpdateState();
                this.AirQuality.UpdateState();
                this.SoilMoisture.UpdateState();

                if (this.TraceLogging)
                {
                    Log.Trace(this, "Thermocouple: int " + this.Thermocouple.GetInternalTemp() + " ext " + this.Thermocouple.GetExternalTemp() + " faults " + this.Thermocouple.GetFaults());
                }

                //Log.Output(Log.Severity.INFO, Log.Source.SENSORS, "Temp: " + this.Atmospheric.Temperature + ", press: " + this.Atmospheric.Pressure + ", humid: " + this.Atmospheric.Humidity + ", on: " + this.Atmospheric.Test());
                byte[] Data = UtilData.ToBytes(this.UVLight.GetReading())
                              .Concat(UtilData.ToBytes(this.AirQuality.GetReadingUncalibrated()))
                              .Concat(UtilData.ToBytes(this.SoilMoisture.GetReading()))
                              .Concat(UtilData.ToBytes(this.Thermocouple.GetExternalTemp()))
                              .Concat(UtilData.ToBytes(this.Atmospheric.Temperature))
                              .Concat(UtilData.ToBytes(this.Atmospheric.Pressure))
                              .Concat(UtilData.ToBytes(this.Atmospheric.Humidity))
                              .ToArray();
                if (this.TraceLogging)
                {
                    Log.Trace(this, "UV: " + this.UVLight.GetReading() + ", AirQ: " + this.AirQuality.GetReadingUncalibrated() + ", Soil: " + this.SoilMoisture.GetReading() + ", AirTemp: " + this.Atmospheric.Temperature);
                }

                Packet Packet = new Packet(new Message(ScienceConstants.Packets.GND_SENSOR, Data), false);
                Client.Send(Packet);
            }
        }
Esempio n. 12
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        public void BasicTestQueueBuffer()
        {
            String TestText1  = "Hello, World!";
            String TestText2  = "hello, world";
            Byte   ChannelID1 = 0xcd;
            Byte   ChannelID2 = 0xcf;

            InitializeConnectionWithQueueBuffer();
            Parse.SetParseHandler(ChannelID1, MessageHandler);
            Parse.SetParseHandler(ChannelID2, MessageHandler2);

            Packet MyPack = new Packet(new Message(ChannelID1, UtilData.ToBytes(TestText1)), false);

            Client.Send(MyPack);
            System.Threading.Thread.Sleep(200);
            Assert.AreEqual(TestText1, ReceivedMessage);

            Packet MyPack2 = new Packet(new Message(ChannelID2, UtilData.ToBytes(TestText2)), false, "TestClient");

            Server.Send(MyPack2);
            System.Threading.Thread.Sleep(200);
            Assert.AreEqual(TestText2, ReceivedMessage2);
        }
Esempio n. 13
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        /// <summary> Generates the packet for the motor controller: </summary>
        /// <remarks>
        /// One Start byte (value 2 for short packets and 3 for long packets)
        /// One or two bytes specifying the packet length
        /// The payload of the packet
        /// Two bytes with a CRC checksum on the payload
        /// One stop byte (value 3)
        /// </remarks>
        /// <param name="Speed"> Speed from -1.0 to 1.0 </param>
        private byte[] ConstructPacket(List <byte> Payload)
        {
            List <byte> Packet = new List <byte>();

            Packet.Add(2); // Start byte (short packet - payload <= 256 bytes)

            if (this.CANForwardID >= 0)
            {
                Payload.Add((byte)UARTPacketID.FORWARD_CAN);
                Payload.Add((byte)CANForwardID);
            }

            Packet.Add((byte)Payload.Count); // Length of payload
            Packet.AddRange(Payload);        // Payload

            ushort Checksum = UtilData.CRC16(Payload.ToArray());

            Packet.AddRange(UtilData.ToBytes(Checksum)); // Checksum

            Packet.Add(3);                               // Stop byte

            return(Packet.ToArray());
        }
Esempio n. 14
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 /// <summary> Constructs a message given data that is already split. </summary>
 /// <param name="ID"> The packet ID, used to determine how it is handled at the recipient. </param>
 /// <param name="Payload"> The packet's data content. Will be converted to bytes for you. </param>
 /// <param name="Timestamp"> The timestamp of the packet. If null or invalid, the current time gets set. </param>
 public Message(byte ID, string Payload = null, byte[] Timestamp = null) : this(ID, UtilData.ToBytes(Payload), Timestamp)
 {
 }
Esempio n. 15
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 /// <summary>
 /// Assumes TCP and UCP clients are connected.
 /// Sends name to initialize a connection with server.
 /// </summary>
 private static void SendNames()
 {
     byte[] SendData = UtilData.ToBytes(Name);
     ServerUDP.Client.Send(SendData);
     ServerTCP.Client.Send(SendData);
 }
Esempio n. 16
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 public PacketWriter Put(string data)
 {
     this.Packet.Data.AppendData(UtilData.ToBytes(data)); return(this);
 }
Esempio n. 17
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        public static void RailTargetChange(bool FromTop, float TargetDist)
        {
            byte Command;

            if (FromTop && float.IsNaN(TargetDist))
            {
                Command = 0x00;
            }
            else if (!FromTop && float.IsNaN(TargetDist))
            {
                Command = 0x01;
            }
            else
            {
                Command = (byte)(FromTop ? 0x02 : 0x03);
            }
            Packet Packet = new Packet(new Message(ScienceConstants.Packets.RAIL_TARGET_SET, new byte[] { Command }.Concat(UtilData.ToBytes(TargetDist)).ToArray()), false, ScienceConstants.CLIENT_NAME);

            Server.Send(Packet);
        }