using MECF.Framework.Common.Communications; using System; using System.Collections.Generic; using System.Linq; using System.Text; using System.Threading; using System.Threading.Tasks; namespace MECF.Framework.RT.EquipmentLibrary.HardwareUnits.Temps.Omron { public class TempOmronMessage : BinaryMessage { public byte DeviceAddress { get; set; } public byte FunctionCode { get; set; } public byte Length { get; set; } public byte[] Data { get; set; } } public class TempOmronConnection:SerialPortConnectionBase { private List _lstCacheBuffer = new List(); public TempOmronConnection(string portName) : base(portName, 9600, 8, System.IO.Ports.Parity.Even, System.IO.Ports.StopBits.One, "\n", false) { } public override bool SendMessage(byte[] message) { _lstCacheBuffer.Clear(); return base.SendMessage(message); } protected override MessageBase ParseResponse(byte[] rawMessage) { _lstCacheBuffer.AddRange(rawMessage); byte[] temps = _lstCacheBuffer.ToArray(); TempOmronMessage msg = new TempOmronMessage(); msg.IsResponse = false; msg.IsAck = false; msg.IsComplete = false; msg.RawMessage = _lstCacheBuffer.ToArray(); if (temps.Length < 4) return msg; msg.DeviceAddress = temps[0]; msg.FunctionCode = temps[1]; if (msg.FunctionCode !=0x03) { msg.Data = _lstCacheBuffer.ToArray(); } else { msg.Length = temps[2]; if (temps.Length < msg.Length + 5) { //msg.IsFormatError = true; return msg; } msg.Data = _lstCacheBuffer.Skip(3).Take(msg.Length).ToArray(); } msg.IsResponse = true; msg.IsAck = true; msg.IsComplete = true; return msg; } private static byte ModRTU_CRC(byte[] buffer) { //ushort crc = 0xFFFF; // var buf = System.Text.Encoding.UTF8.GetBytes(String.Join(Environment.NewLine, buffer)); var buf = buffer; var len = buffer.Length; byte temp = buffer[0]; for (int i = 1; i < buffer.Length; i++) { temp = (byte)(temp ^ buffer[i]); } return (byte)~temp; } } public abstract class TempOmronHandler : HandlerBase { public TempOmron Device { get; } protected TempOmronHandler(TempOmron device, byte[] commandvalue) : base(BuildMessage(commandvalue)) { Device = device; } private static byte[] BuildMessage(byte[] commandvalue) { byte[] crc = ModRTU_CRC(commandvalue); List result = commandvalue.ToList(); foreach (byte b in crc) { result.Add(b); } return result.ToArray(); } public override bool HandleMessage(MessageBase msg, out bool handled) { var result = msg as TempOmronMessage; ResponseMessage = msg; handled = true; return true; } private static byte[] ModRTU_CRC(byte[] buffer) { ushort crc = 0xFFFF; // var buf = System.Text.Encoding.UTF8.GetBytes(String.Join(Environment.NewLine, buffer)); var buf = buffer; var len = buffer.Length; for (var pos = 0; pos < len; pos++) { crc ^= buf[pos]; // XOR byte into least sig. byte of crc for (var i = 8; i != 0; i--) // Loop over each bit if ((crc & 0x0001) != 0) { // If the LSB is set crc >>= 1; // Shift right and XOR 0xA001 crc ^= 0xA001; } else // Else LSB is not set { crc >>= 1; // Just shift right } } // Note, this number has low and high bytes swapped, so use it accordingly (or swap bytes) return BitConverter.GetBytes(crc); } } public class TempOmronQueryHandler : TempOmronHandler { public TempOmronQueryHandler(TempOmron device,string name, byte groupAddress,byte offerHigh,byte offerLow,byte dataHigh,byte dataLow) : base(device, new byte[] { groupAddress, 3, offerHigh, offerLow, dataHigh, dataLow }) { Name = name;//"Query Temp"; } public override bool HandleMessage(MessageBase msg, out bool handled) { var result = msg as TempOmronMessage; handled = false; if (!result.IsResponse) return true; short rvalue = 0; rvalue = (short)(rvalue ^ result.Data[0]); rvalue = (short)(rvalue << 8); rvalue = (short)(rvalue ^ result.Data[1]); //if(Name.Contains("Actual")) //Device.ActualTemp = rvalue; //else //Device.SettingTemp = rvalue; if (Name.Contains("Actual")) { var chel =Convert.ToInt16(Name.Split(' ')[1].Substring(7,1)); var count = Convert.ToInt16(Name.Split(' ')[2].Substring(6, 1)); var index = (chel-1) * 4 + count - 1; Device.ActualTemp[index] =Convert.ToSingle(rvalue)/10; } else { var chel = Convert.ToInt16(Name.Split(' ')[1].Substring(7, 1)); var count = Convert.ToInt16(Name.Split(' ')[2].Substring(7, 1)); var index = (chel - 1) * 4 + count - 1; Device.SettingTemp[index] = Convert.ToSingle(rvalue)/10; } Device._connecteTimes = 0; ResponseMessage = msg; handled = true; Thread.Sleep(1000); return true; } } public class TempOmronWriteSingleHandler : TempOmronHandler { public TempOmronWriteSingleHandler(TempOmron device, string name, byte groupAddress, byte offerHigh, byte offerLow, byte dataHigh, byte dataLow) : base(device, new byte[] { groupAddress, 0x06, offerHigh, offerLow, dataHigh, dataLow }) { Name = name; } public override bool HandleMessage(MessageBase msg, out bool handled) { var result = msg as TempOmronMessage; handled = false; if (!result.IsResponse) return true; if (result.FunctionCode == 0x86) { Device.RespondAbnormal(result.FunctionCode, result.Data[2]); } ResponseMessage = msg; handled = true; Device.IsConfig = false; Thread.Sleep(1000); return true; } } public class TempOmronWriteHandler : TempOmronHandler { public TempOmronWriteHandler(TempOmron device, string name,byte groupAddress, byte offerHigh, byte offerLow,byte unitH,byte unitL,byte length, byte dataHigh, byte dataLow) : base(device, new byte[] { groupAddress, 0x10, offerHigh, offerLow, unitH, unitL, length, dataHigh, dataLow }) { Name = name; } public override bool HandleMessage(MessageBase msg, out bool handled) { var result = msg as TempOmronMessage; handled = false; if (!result.IsResponse) return true; if (result.FunctionCode == 0x90) { Device.RespondAbnormal(result.FunctionCode, result.Data[2]); } ResponseMessage = msg; handled = true; Device.IsConfig = false; Thread.Sleep(1000); return true; } } }