using System; using System.Collections.Generic; using System.Linq; using System.Net.Sockets; using System.Text; using MECF.Framework.RT.Core.IoProviders.Siemens.IMessage; using MECF.Framework.RT.Core.IoProviders.Siemens.Net.NetworkBase; using MECF.Framework.RT.Core.IoProviders.Siemens.Transfer; namespace MECF.Framework.RT.Core.IoProviders.Siemens { /// /// 一个西门子的客户端类,使用S7协议来进行数据交互 -> /// A Siemens client class that uses the S7 protocol for data interaction /// /// /// 地址支持的列表如下: /// /// /// 地址名称 /// 地址代号 /// 示例 /// 地址进制 /// 字操作 /// 位操作 /// 备注 /// /// /// 中间寄存器 /// M /// M100,M200 /// 10 /// /// /// /// /// /// 输入寄存器 /// I /// I100,I200 /// 10 /// /// /// /// /// /// 输出寄存器 /// Q /// Q100,Q200 /// 10 /// /// /// /// /// /// DB块寄存器 /// DB /// DB1.100,DB1.200 /// 10 /// /// /// /// /// /// V寄存器 /// V /// V100,V200 /// 10 /// /// /// V寄存器本质就是DB块1 /// /// /// 定时器的值 /// T /// T100,T200 /// 10 /// /// /// 未测试通过 /// /// /// 计数器的值 /// C /// C100,C200 /// 10 /// /// /// 未测试通过 /// /// /// 对于200smartPLC的V区,就是DB1.X,例如,V100=DB1.100 /// /// /// /// /// public class SiemensS7Net : NetworkDeviceBase { #region Constructor /// /// 实例化一个西门子的S7协议的通讯对象 -> /// Instantiate a communication object for a Siemens S7 protocol /// /// 指定西门子的型号 public SiemensS7Net(SiemensPLCS siemens) { Initialization(siemens, string.Empty); } /// /// 实例化一个西门子的S7协议的通讯对象并指定Ip地址 -> /// Instantiate a communication object for a Siemens S7 protocol and specify an IP address /// /// 指定西门子的型号 /// Ip地址 public SiemensS7Net(SiemensPLCS siemens, string ipAddress) { Initialization(siemens, ipAddress); } /// /// 初始化方法 -> Initialize method /// /// 指定西门子的型号 -> Designation of Siemens /// Ip地址 -> IpAddress private void Initialization(SiemensPLCS siemens, string ipAddress) { WordLength = 2; IpAddress = ipAddress; Port = 102; CurrentPlc = siemens; switch (siemens) { case SiemensPLCS.S1200: plcHead1[21] = 0; break; case SiemensPLCS.S300: plcHead1[21] = 2; break; case SiemensPLCS.S400: plcHead1[21] = 3; plcHead1[17] = 0x00; break; case SiemensPLCS.S1500: plcHead1[21] = 0; break; case SiemensPLCS.S200Smart: { plcHead1 = plcHead1_200smart; plcHead2 = plcHead2_200smart; break; } case SiemensPLCS.S200: { plcHead1 = plcHead1_200; plcHead2 = plcHead2_200; break; } default: plcHead1[18] = 0; break; } } /// /// PLC的槽号,针对S7-400的PLC设置的 /// public byte Slot { get => plc_slot; set { plc_slot = value; plcHead1[21] = (byte)((this.plc_rack * 0x20) + this.plc_slot); } } /// /// PLC的机架号,针对S7-400的PLC设置的 /// public byte Rack { get => plc_rack; set { this.plc_rack = value; plcHead1[21] = (byte)((this.plc_rack * 0x20) + this.plc_slot); } } /// /// 获取或设置当前PLC的连接方式,PG: 0x01,OP: 0x02,S7Basic: 0x03...0x10
/// Get or set the current PLC connection mode, PG: 0x01, OP: 0x02, S7Basic: 0x03...0x10 /// public byte ConnectionType { get => this.plcHead1[20]; set { if (CurrentPlc == SiemensPLCS.S200 || CurrentPlc == SiemensPLCS.S200Smart) { } else { this.plcHead1[20] = value; } } } /// /// 西门子相关的本地TSAP参数信息
/// A parameter information related to Siemens /// public int LocalTSAP { get => this.plcHead1[16] * 256 + this.plcHead1[17]; set { if (CurrentPlc == SiemensPLCS.S200 || CurrentPlc == SiemensPLCS.S200Smart) { } else { this.plcHead1[16] = BitConverter.GetBytes(value)[1]; this.plcHead1[17] = BitConverter.GetBytes(value)[0]; } } } #endregion #region NetworkDoubleBase Override /// /// 连接上服务器后需要进行的二次握手操作 -> Two handshake actions required after connecting to the server /// /// 网络套接字 -> Network sockets /// 是否初始化成功,依据具体的协议进行重写 -> /// Whether the initialization succeeds and is rewritten according to the specific protocol protected override OperateResult InitializationOnConnect(Socket socket) { // 第一次握手 -> First handshake OperateResult read_first = ReadFromCoreServer(socket, plcHead1); if (!read_first.IsSuccess) return read_first; // 第二次握手 -> Second handshake OperateResult read_second = ReadFromCoreServer(socket, plcHead2); if (!read_second.IsSuccess) return read_second; // 返回成功的信号 -> Return a successful signal return OperateResult.CreateSuccessResult(); } #endregion #region Read OrderNumber /// /// 从PLC读取订货号信息 -> Reading order number information from PLC /// /// CPU的订货号信息 -> Order number information for the CPU public OperateResult ReadOrderNumber() { OperateResult read = ReadFromCoreServer(plcOrderNumber); if (!read.IsSuccess) return OperateResult.CreateFailedResult(read); return OperateResult.CreateSuccessResult(Encoding.ASCII.GetString(read.Content, 71, 20)); } #endregion #region Start Stop /// /// 对PLC进行热启动 /// /// 是否启动成功的结果对象 public OperateResult HotStart() { OperateResult read = ReadFromCoreServer(S7_HOT_START); if (!read.IsSuccess) return read; if (read.Content.Length < 19) return new OperateResult("Receive error"); if (read.Content[19] != pduStart) return new OperateResult("Can not start PLC"); else if (read.Content[20] != pduAlreadyStarted) return new OperateResult("Can not start PLC"); return OperateResult.CreateSuccessResult(); } /// /// 对PLC进行冷启动 /// /// 是否启动成功的结果对象 public OperateResult ColdStart() { OperateResult read = ReadFromCoreServer(S7_COLD_START); if (!read.IsSuccess) return read; if (read.Content.Length < 19) return new OperateResult("Receive error"); if (read.Content[19] != pduStart) return new OperateResult("Can not start PLC"); else if (read.Content[20] != pduAlreadyStarted) return new OperateResult("Can not start PLC"); return OperateResult.CreateSuccessResult(); } /// /// 对PLC进行停止 /// /// 是否启动成功的结果对象 public OperateResult Stop() { OperateResult read = ReadFromCoreServer(S7_STOP); if (!read.IsSuccess) return read; if (read.Content.Length < 19) return new OperateResult("Receive error"); if (read.Content[19] != pduStop) return new OperateResult("Can not stop PLC"); else if (read.Content[20] != pduAlreadyStopped) return new OperateResult("Can not stop PLC"); return OperateResult.CreateSuccessResult(); } #endregion #region Read Support /// /// 从PLC读取数据,地址格式为I100,Q100,DB20.100,M100,T100,C100以字节为单位 -> /// Read data from PLC, address format I100,Q100,DB20.100,M100,T100,C100 in bytes /// /// 起始地址,格式为I100,M100,Q100,DB20.100 -> /// Starting address, formatted as I100,M100,Q100,DB20.100 /// 读取的数量,以字节为单位 -> The number of reads, in bytes /// 是否读取成功的结果对象 -> Whether to read the successful result object /// /// 对于200smartPLC的V区,就是DB1.X,例如,V100=DB1.100 /// /// /// 假设起始地址为M100,M100存储了温度,100.6℃值为1006,M102存储了压力,1.23Mpa值为123,M104,M105,M106,M107存储了产量计数,读取如下: /// /// 以下是读取不同类型数据的示例 /// /// public override OperateResult Read(string address, ushort length) { OperateResult addressResult = AnalysisAddress(address); if (!addressResult.IsSuccess) return OperateResult.CreateFailedResult(addressResult); // 如果长度超过200,分批次读取 -> If the length is more than 200, read in batches List bytesContent = new List(); ushort alreadyFinished = 0; while (alreadyFinished < length) { ushort readLength = (ushort)Math.Min(length - alreadyFinished, 200); OperateResult read = Read(new OperateResult[] { addressResult }, new ushort[] { readLength }); if (!read.IsSuccess) return read; bytesContent.AddRange(read.Content); alreadyFinished += readLength; addressResult.Content2 += readLength * 8; } return OperateResult.CreateSuccessResult(bytesContent.ToArray()); } /// /// 从PLC读取数据,地址格式为I100,Q100,DB20.100,M100,以位为单位 -> /// Read the data from the PLC, the address format is I100,Q100,DB20.100,M100, in bits units /// /// 起始地址,格式为I100,M100,Q100,DB20.100 -> /// Starting address, formatted as I100,M100,Q100,DB20.100 /// 是否读取成功的结果对象 -> Whether to read the successful result object private OperateResult ReadBitFromPLC(string address) { // 指令生成 -> Build bit read command OperateResult command = BuildBitReadCommand(address); if (!command.IsSuccess) return OperateResult.CreateFailedResult(command); // 核心交互 -> Core interactive OperateResult read = ReadFromCoreServer(command.Content); if (!read.IsSuccess) return read; // 分析结果 -> Analysis read result int receiveCount = 1; if (read.Content.Length >= 21 && read.Content[20] == 1) { byte[] buffer = new byte[receiveCount]; if (22 < read.Content.Length) { if (read.Content[21] == 0xFF && read.Content[22] == 0x03) { buffer[0] = read.Content[25]; } } return OperateResult.CreateSuccessResult(buffer); } else { return new OperateResult(read.ErrorCode, StringResources.Language.SiemensDataLengthCheckFailed); } } /// /// 一次性从PLC获取所有的数据,按照先后顺序返回一个统一的Buffer,需要按照顺序处理,两个数组长度必须一致 -> /// One-time from the PLC to obtain all the data, in order to return a unified buffer, need to be processed sequentially, two array length must be consistent /// /// 起始地址,格式为I100,M100,Q100,DB20.100 -> /// Starting address, formatted as I100,M100,Q100,DB20.100 /// 数据长度数组 -> Array of data Lengths /// 是否读取成功的结果对象 -> Whether to read the successful result object /// /// /// 批量读取的长度有限制,最大为19个地址 /// /// /// 参照 /// public OperateResult Read(string[] address, ushort[] length) { OperateResult[] addressResult = new OperateResult[address.Length]; for (int i = 0; i < address.Length; i++) { OperateResult tmp = AnalysisAddress(address[i]); if (!tmp.IsSuccess) return OperateResult.CreateFailedResult(addressResult[i]); addressResult[i] = tmp; } return Read(addressResult, length); } private OperateResult Read(OperateResult[] address, ushort[] length) { // 构建指令 -> Build read command OperateResult command = BuildReadCommand(address, length); if (!command.IsSuccess) return command; // 核心交互 -> Core Interactions OperateResult read = ReadFromCoreServer(command.Content); if (!read.IsSuccess) return read; // 分析结果 -> Analysis results int receiveCount = 0; for (int i = 0; i < length.Length; i++) { receiveCount += length[i]; } if (read.Content.Length >= 21 && read.Content[20] == length.Length) { byte[] buffer = new byte[receiveCount]; int kk = 0; int ll = 0; for (int ii = 21; ii < read.Content.Length; ii++) { if ((ii + 1) < read.Content.Length) { if (read.Content[ii] == 0xFF && read.Content[ii + 1] == 0x04) { Array.Copy(read.Content, ii + 4, buffer, ll, length[kk]); ii += length[kk] + 3; ll += length[kk]; kk++; } } } return OperateResult.CreateSuccessResult(buffer); } else { return new OperateResult(read.ErrorCode, StringResources.Language.SiemensDataLengthCheckFailed); } } /// /// 读取指定地址的bool数据,地址格式为I100,M100,Q100,DB20.100 -> /// reads bool data for the specified address in the format I100,M100,Q100,DB20.100 /// /// 起始地址,格式为I100,M100,Q100,DB20.100 -> /// Starting address, formatted as I100,M100,Q100,DB20.100 /// 是否读取成功的结果对象 -> Whether to read the successful result object /// /// /// 对于200smartPLC的V区,就是DB1.X,例如,V100=DB1.100 /// /// /// /// 假设读取M100.0的位是否通断 /// /// public OperateResult ReadBool(string address) { return ByteTransformHelper.GetResultFromBytes(ReadBitFromPLC(address), m => m[0] != 0x00); } /// /// 读取指定地址的byte数据,地址格式I100,M100,Q100,DB20.100 -> /// Reads the byte data of the specified address, the address format I100,Q100,DB20.100,M100 /// /// 起始地址,格式为I100,M100,Q100,DB20.100 -> /// Starting address, formatted as I100,M100,Q100,DB20.100 /// 是否读取成功的结果对象 -> Whether to read the successful result object /// 参考的注释 public OperateResult ReadByte(string address) { return ByteTransformHelper.GetResultFromArray(Read(address, 1)); } #endregion #region Write Base /// /// 基础的写入数据的操作支持 -> Operational support for the underlying write data /// /// 完整的字节数据 -> Full byte data /// 是否写入成功的结果对象 -> Whether to write a successful result object private OperateResult WriteBase(byte[] entireValue) { OperateResult write = ReadFromCoreServer(entireValue); if (!write.IsSuccess) return write; if (write.Content[write.Content.Length - 1] != 0xFF) { // 写入异常 -> WriteError return new OperateResult(write.Content[write.Content.Length - 1], StringResources.Language.SiemensWriteError + write.Content[write.Content.Length - 1]); } else { return OperateResult.CreateSuccessResult(); } } /// /// 将数据写入到PLC数据,地址格式为I100,Q100,DB20.100,M100,以字节为单位 -> /// Writes data to the PLC data, in the address format I100,Q100,DB20.100,M100, in bytes /// /// 起始地址,格式为I100,M100,Q100,DB20.100 -> /// Starting address, formatted as I100,M100,Q100,DB20.100 /// 写入的原始数据 -> Raw data written to /// 是否写入成功的结果对象 -> Whether to write a successful result object /// /// 假设起始地址为M100,M100,M101存储了温度,100.6℃值为1006,M102,M103存储了压力,1.23Mpa值为123,M104-M107存储了产量计数,写入如下: /// /// 以下是写入不同类型数据的示例 /// /// public override OperateResult Write(string address, byte[] value) { OperateResult analysis = AnalysisAddress(address); if (!analysis.IsSuccess) return OperateResult.CreateFailedResult(analysis); int length = value.Length; ushort alreadyFinished = 0; while (alreadyFinished < length) { ushort writeLength = (ushort)Math.Min(length - alreadyFinished, 200); byte[] buffer = ByteTransform.TransByte(value, alreadyFinished, writeLength); OperateResult command = BuildWriteByteCommand(analysis, buffer); if (!command.IsSuccess) return command; OperateResult write = WriteBase(command.Content); if (!write.IsSuccess) return write; alreadyFinished += writeLength; analysis.Content2 += writeLength * 8; } return OperateResult.CreateSuccessResult(); } /// /// 写入PLC的一个位,例如"M100.6","I100.7","Q100.0","DB20.100.0",如果只写了"M100"默认为"M100.0" -> /// Write a bit of PLC, for example "M100.6", "I100.7", "Q100.0", "DB20.100.0", if only write "M100" defaults to "M100.0" /// /// 起始地址,格式为"M100.6", "I100.7", "Q100.0", "DB20.100.0" -> /// Start address, format "M100.6", "I100.7", "Q100.0", "DB20.100.0" /// 写入的数据,True或是False -> Writes the data, either True or False /// 是否写入成功的结果对象 -> Whether to write a successful result object /// /// 假设写入M100.0的位是否通断 /// /// public OperateResult Write(string address, bool value) { // 生成指令 -> Build Command OperateResult command = BuildWriteBitCommand(address, value); if (!command.IsSuccess) return command; return WriteBase(command.Content); } #endregion #region Write bool[] /// /// 向PLC中写入bool数组,比如你写入M100,那么data[0]对应M100.0 -> /// Write the bool array to the PLC, for example, if you write M100, then data[0] corresponds to M100.0 /// /// 起始地址,格式为I100,M100,Q100,DB20.100 -> Starting address, formatted as I100,mM100,Q100,DB20.100 /// 要写入的bool数组,长度为8的倍数 -> The bool array to write, a multiple of 8 in length /// 是否写入成功的结果对象 -> Whether to write a successful result object /// /// /// 批量写入bool数组存在一定的风险,原因是只能批量写入长度为8的倍数的数组,否则会影响其他的位的数据,请谨慎使用。 /// /// public OperateResult Write(string address, bool[] values) { return Write(address, SoftBasic.BoolArrayToByte(values)); } #endregion #region Write Byte /// /// 向PLC中写入byte数据,返回值说明 -> Write byte data to the PLC, return value description /// /// 起始地址,格式为I100,M100,Q100,DB20.100 -> Starting address, formatted as I100,mM100,Q100,DB20.100 /// byte数据 -> Byte data /// 是否写入成功的结果对象 -> Whether to write a successful result object public OperateResult Write(string address, byte value) { return Write(address, new byte[] { value }); } #endregion #region ReadWrite String /// /// 向设备中写入字符串,编码格式为ASCII /// /// 数据地址 /// 字符串数据 /// 是否写入成功的结果对象 /// /// 以下为三菱的连接对象示例,其他的设备读写情况参照下面的代码: /// /// public override OperateResult Write(string address, string value) { if (value == null) value = string.Empty; byte[] buffer = Encoding.ASCII.GetBytes(value); if (CurrentPlc != SiemensPLCS.S200Smart) { // need read one time OperateResult readLength = Read(address, 2); if (!readLength.IsSuccess) return readLength; if (readLength.Content[0] == 255) return new OperateResult("Value in plc is not string type"); if (readLength.Content[0] == 0) readLength.Content[0] = 254; // allow to create new string if (value.Length > readLength.Content[0]) return new OperateResult("String length is too long than plc defined"); return Write(address, SoftBasic.SpliceTwoByteArray(new byte[] { readLength.Content[0], (byte)buffer.Length }, buffer)); } else { return Write(address, SoftBasic.SpliceTwoByteArray(new byte[] { (byte)buffer.Length }, buffer)); } } /// /// 读取西门子的地址的字符串信息,这个信息是和西门子绑定在一起,长度随西门子的信息动态变化的 /// /// 数据地址,具体的格式需要参照类的说明文档 /// 带有是否成功的字符串结果类对象 public OperateResult ReadString(string address) { if (CurrentPlc != SiemensPLCS.S200Smart) { var read = Read(address, 2); if (!read.IsSuccess) return OperateResult.CreateFailedResult(read); if (read.Content[0] == 0 || read.Content[0] == 255) return new OperateResult("Value in plc is not string type"); // max string length can't be zero var readString = Read(address, (ushort)(2 + read.Content[1])); if (!readString.IsSuccess) return OperateResult.CreateFailedResult(readString); return OperateResult.CreateSuccessResult(Encoding.ASCII.GetString(readString.Content, 2, readString.Content.Length - 2)); } else { var read = Read(address, 1); if (!read.IsSuccess) return OperateResult.CreateFailedResult(read); var readString = Read(address, (ushort)(1 + read.Content[0])); if (!readString.IsSuccess) return OperateResult.CreateFailedResult(readString); return OperateResult.CreateSuccessResult(Encoding.ASCII.GetString(readString.Content, 1, readString.Content.Length - 1)); } } #endregion #region Head Codes private byte[] plcHead1 = new byte[22] { 0x03,0x00,0x00,0x16,0x11,0xE0,0x00,0x00,0x00,0x01,0x00,0xC0,0x01,0x0A,0xC1,0x02, 0x01,0x02,0xC2,0x02,0x01,0x00 }; private byte[] plcHead2 = new byte[25] { 0x03,0x00,0x00,0x19,0x02,0xF0,0x80,0x32,0x01,0x00,0x00,0x04,0x00,0x00,0x08,0x00, 0x00,0xF0,0x00,0x00,0x01,0x00,0x01,0x01,0xE0 }; private byte[] plcOrderNumber = new byte[] { 0x03,0x00,0x00,0x21,0x02,0xF0,0x80,0x32,0x07,0x00,0x00,0x00,0x01,0x00,0x08,0x00, 0x08,0x00,0x01,0x12,0x04,0x11,0x44,0x01,0x00,0xFF,0x09,0x00,0x04,0x00,0x11,0x00, 0x00 }; private SiemensPLCS CurrentPlc = SiemensPLCS.S1200; private byte[] plcHead1_200smart = new byte[22] { 0x03,0x00,0x00,0x16,0x11,0xE0,0x00,0x00,0x00,0x01,0x00,0xC1,0x02,0x10,0x00,0xC2, 0x02,0x03,0x00,0xC0,0x01,0x0A }; private byte[] plcHead2_200smart = new byte[25] { 0x03,0x00,0x00,0x19,0x02,0xF0,0x80,0x32,0x01,0x00,0x00,0xCC,0xC1,0x00,0x08,0x00, 0x00,0xF0,0x00,0x00,0x01,0x00,0x01,0x03,0xC0 }; private byte[] plcHead1_200 = new byte[] { 0x03,0x00,0x00,0x16,0x11,0xE0,0x00,0x00,0x00,0x01,0x00,0xC1,0x02,0x4D,0x57,0xC2, 0x02,0x4D,0x57,0xC0,0x01,0x09 }; private byte[] plcHead2_200 = new byte[] { 0x03,0x00,0x00,0x19,0x02,0xF0,0x80,0x32,0x01,0x00,0x00,0x00,0x00,0x00,0x08,0x00, 0x00,0xF0,0x00,0x00,0x01,0x00,0x01,0x03,0xC0 }; byte[] S7_STOP = { 0x03, 0x00, 0x00, 0x21, 0x02, 0xf0, 0x80, 0x32, 0x01, 0x00, 0x00, 0x0e, 0x00, 0x00, 0x10, 0x00, 0x00, 0x29, 0x00, 0x00, 0x00, 0x00, 0x00, 0x09, 0x50, 0x5f, 0x50, 0x52, 0x4f, 0x47, 0x52, 0x41, 0x4d }; byte[] S7_HOT_START = { 0x03, 0x00, 0x00, 0x25, 0x02, 0xf0, 0x80, 0x32, 0x01, 0x00, 0x00, 0x0c, 0x00, 0x00, 0x14, 0x00, 0x00, 0x28, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0xfd, 0x00, 0x00, 0x09, 0x50, 0x5f, 0x50, 0x52, 0x4f, 0x47, 0x52, 0x41, 0x4d }; byte[] S7_COLD_START = { 0x03, 0x00, 0x00, 0x27, 0x02, 0xf0, 0x80, 0x32, 0x01, 0x00, 0x00, 0x0f, 0x00, 0x00, 0x16, 0x00, 0x00, 0x28, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0xfd, 0x00, 0x02, 0x43, 0x20, 0x09, 0x50, 0x5f, 0x50, 0x52, 0x4f, 0x47, 0x52, 0x41, 0x4d }; #endregion #region Private Member private byte plc_rack = 0x00; private byte plc_slot = 0x00; const byte pduStart = 0x28; // CPU start const byte pduStop = 0x29; // CPU stop const byte pduAlreadyStarted = 0x02; // CPU already in run mode const byte pduAlreadyStopped = 0x07; // CPU already in stop mode #endregion #region Object Override /// /// 返回表示当前对象的字符串 -> Returns a String representing the current object /// /// 字符串信息 -> String information public override string ToString() { return $"SiemensS7Net[{IpAddress}:{Port}]"; } #endregion #region Static Method Helper /// /// 计算特殊的地址信息 -> Calculate Special Address information /// /// 字符串地址 -> String address /// 实际值 -> Actual value public static int CalculateAddressStarted(string address) { if (address.IndexOf('.') < 0) { return Convert.ToInt32(address) * 8; } else { string[] temp = address.Split('.'); return Convert.ToInt32(temp[0]) * 8 + Convert.ToInt32(temp[1]); } } /// /// 解析数据地址,解析出地址类型,起始地址,DB块的地址 -> /// Parse data address, parse out address type, start address, db block address /// /// 起始地址,例如M100,I0,Q0,DB2.100 -> /// Start address, such as M100,I0,Q0,DB2.100 /// 解析数据地址,解析出地址类型,起始地址,DB块的地址 -> /// Parse data address, parse out address type, start address, db block address public static OperateResult AnalysisAddress(string address) { var result = new OperateResult(); try { result.Content3 = 0; if (address[0] == 'I') { result.Content1 = 0x81; result.Content2 = CalculateAddressStarted(address.Substring(1)); } else if (address[0] == 'Q') { result.Content1 = 0x82; result.Content2 = CalculateAddressStarted(address.Substring(1)); } else if (address[0] == 'M') { result.Content1 = 0x83; result.Content2 = CalculateAddressStarted(address.Substring(1)); } else if (address[0] == 'D' || address.Substring(0, 2) == "DB") { result.Content1 = 0x84; string[] adds = address.Split('.'); if (address[1] == 'B') { result.Content3 = Convert.ToUInt16(adds[0].Substring(2)); } else { result.Content3 = Convert.ToUInt16(adds[0].Substring(1)); } result.Content2 = CalculateAddressStarted(address.Substring(address.IndexOf('.') + 4)); } else if (address[0] == 'T') { result.Content1 = 0x1D; result.Content2 = CalculateAddressStarted(address.Substring(1)); } else if (address[0] == 'C') { result.Content1 = 0x1C; result.Content2 = CalculateAddressStarted(address.Substring(1)); } else if (address[0] == 'V') { result.Content1 = 0x84; result.Content3 = 1; result.Content2 = CalculateAddressStarted(address.Substring(1)); } else { result.Message = StringResources.Language.NotSupportedDataType; result.Content1 = 0; result.Content2 = 0; result.Content3 = 0; return result; } } catch (Exception ex) { result.Message = ex.Message; return result; } result.IsSuccess = true; return result; } #endregion #region Build Command /// /// 生成一个读取字数据指令头的通用方法 -> /// A general method for generating a command header to read a Word data /// /// 起始地址,例如M100,I0,Q0,DB2.100 -> /// Start address, such as M100,I0,Q0,DB2.100 /// 读取数据长度 -> Read Data length /// 包含结果对象的报文 -> Message containing the result object public static OperateResult BuildReadCommand(string address, ushort length) { OperateResult analysis = AnalysisAddress(address); if (!analysis.IsSuccess) return OperateResult.CreateFailedResult(analysis); return BuildReadCommand(new OperateResult[] { analysis }, new ushort[] { length }); } /// /// 生成一个读取字数据指令头的通用方法 -> /// A general method for generating a command header to read a Word data /// /// 起始地址,例如M100,I0,Q0,DB2.100 -> /// Start address, such as M100,I0,Q0,DB2.100 /// 读取数据长度 -> Read Data length /// 包含结果对象的报文 -> Message containing the result object public static OperateResult BuildReadCommand(OperateResult[] address, ushort[] length) { if (address == null) throw new NullReferenceException("address"); if (length == null) throw new NullReferenceException("count"); if (address.Length != length.Length) throw new Exception(StringResources.Language.TwoParametersLengthIsNotSame); if (length.Length > 19) throw new Exception(StringResources.Language.SiemensReadLengthCannotLargerThan19); int readCount = length.Length; byte[] _PLCCommand = new byte[19 + readCount * 12]; // ====================================================================================== _PLCCommand[0] = 0x03; // 报文头 -> Head _PLCCommand[1] = 0x00; _PLCCommand[2] = (byte)(_PLCCommand.Length / 256); // 长度 -> Length _PLCCommand[3] = (byte)(_PLCCommand.Length % 256); _PLCCommand[4] = 0x02; // 固定 -> Fixed _PLCCommand[5] = 0xF0; _PLCCommand[6] = 0x80; _PLCCommand[7] = 0x32; // 协议标识 -> Protocol identification _PLCCommand[8] = 0x01; // 命令:发 -> Command: Send _PLCCommand[9] = 0x00; // redundancy identification (reserved): 0x0000; _PLCCommand[10] = 0x00; // protocol data unit reference; it’s increased by request event; _PLCCommand[11] = 0x00; _PLCCommand[12] = 0x01; // 参数命令数据总长度 -> Parameter command Data total length _PLCCommand[13] = (byte)((_PLCCommand.Length - 17) / 256); _PLCCommand[14] = (byte)((_PLCCommand.Length - 17) % 256); _PLCCommand[15] = 0x00; // 读取内部数据时为00,读取CPU型号为Data数据长度 -> Read internal data is 00, read CPU model is data length _PLCCommand[16] = 0x00; // ===================================================================================== _PLCCommand[17] = 0x04; // 读写指令,04读,05写 -> Read-write instruction, 04 read, 05 Write _PLCCommand[18] = (byte)readCount; // 读取数据块个数 -> Number of data blocks read for (int ii = 0; ii < readCount; ii++) { //=========================================================================================== // 指定有效值类型 -> Specify a valid value type _PLCCommand[19 + ii * 12] = 0x12; // 接下来本次地址访问长度 -> The next time the address access length _PLCCommand[20 + ii * 12] = 0x0A; // 语法标记,ANY -> Syntax tag, any _PLCCommand[21 + ii * 12] = 0x10; // 按字为单位 -> by word _PLCCommand[22 + ii * 12] = 0x02; // (byte)(address[ii].Content1 == 0x1D ? 0x1D : address[ii].Content1 == 0x1C ? 0x1C : 0x02); // 访问数据的个数 -> Number of Access data _PLCCommand[23 + ii * 12] = (byte)(length[ii] / 256); _PLCCommand[24 + ii * 12] = (byte)(length[ii] % 256); // DB块编号,如果访问的是DB块的话 -> DB block number, if you are accessing a DB block _PLCCommand[25 + ii * 12] = (byte)(address[ii].Content3 / 256); _PLCCommand[26 + ii * 12] = (byte)(address[ii].Content3 % 256); // 访问数据类型 -> Accessing data types _PLCCommand[27 + ii * 12] = address[ii].Content1; // 偏移位置 -> Offset position _PLCCommand[28 + ii * 12] = (byte)(address[ii].Content2 / 256 / 256 % 256); _PLCCommand[29 + ii * 12] = (byte)(address[ii].Content2 / 256 % 256); _PLCCommand[30 + ii * 12] = (byte)(address[ii].Content2 % 256); } return OperateResult.CreateSuccessResult(_PLCCommand); } /// /// 生成一个位读取数据指令头的通用方法 -> /// A general method for generating a bit-read-Data instruction header /// /// 起始地址,例如M100.0,I0.1,Q0.1,DB2.100.2 -> /// Start address, such as M100.0,I0.1,Q0.1,DB2.100.2 /// /// 包含结果对象的报文 -> Message containing the result object public static OperateResult BuildBitReadCommand(string address) { OperateResult analysis = AnalysisAddress(address); if (!analysis.IsSuccess) return OperateResult.CreateFailedResult(analysis); byte[] _PLCCommand = new byte[31]; _PLCCommand[0] = 0x03; _PLCCommand[1] = 0x00; // 长度 -> Length _PLCCommand[2] = (byte)(_PLCCommand.Length / 256); _PLCCommand[3] = (byte)(_PLCCommand.Length % 256); // 固定 -> Fixed _PLCCommand[4] = 0x02; _PLCCommand[5] = 0xF0; _PLCCommand[6] = 0x80; _PLCCommand[7] = 0x32; // 命令:发 -> command to send _PLCCommand[8] = 0x01; // 标识序列号 _PLCCommand[9] = 0x00; _PLCCommand[10] = 0x00; _PLCCommand[11] = 0x00; _PLCCommand[12] = 0x01; // 命令数据总长度 -> Identification serial Number _PLCCommand[13] = (byte)((_PLCCommand.Length - 17) / 256); _PLCCommand[14] = (byte)((_PLCCommand.Length - 17) % 256); _PLCCommand[15] = 0x00; _PLCCommand[16] = 0x00; // 命令起始符 -> Command start character _PLCCommand[17] = 0x04; // 读取数据块个数 -> Number of data blocks read _PLCCommand[18] = 0x01; //=========================================================================================== // 读取地址的前缀 -> Read the prefix of the address _PLCCommand[19] = 0x12; _PLCCommand[20] = 0x0A; _PLCCommand[21] = 0x10; // 读取的数据时位 -> Data read-time bit _PLCCommand[22] = 0x01; // 访问数据的个数 -> Number of Access data _PLCCommand[23] = 0x00; _PLCCommand[24] = 0x01; // DB块编号,如果访问的是DB块的话 -> DB block number, if you are accessing a DB block _PLCCommand[25] = (byte)(analysis.Content3 / 256); _PLCCommand[26] = (byte)(analysis.Content3 % 256); // 访问数据类型 -> Types of reading data _PLCCommand[27] = analysis.Content1; // 偏移位置 -> Offset position _PLCCommand[28] = (byte)(analysis.Content2 / 256 / 256 % 256); _PLCCommand[29] = (byte)(analysis.Content2 / 256 % 256); _PLCCommand[30] = (byte)(analysis.Content2 % 256); return OperateResult.CreateSuccessResult(_PLCCommand); } /// /// 生成一个写入字节数据的指令 -> Generate an instruction to write byte data /// /// 起始地址,示例M100,I100,Q100,DB1.100 -> Start Address, example M100,I100,Q100,DB1.100 /// 原始的字节数据 -> Raw byte data /// 包含结果对象的报文 -> Message containing the result object public static OperateResult BuildWriteByteCommand(string address, byte[] data) { if (data == null) data = new byte[0]; OperateResult analysis = AnalysisAddress(address); if (!analysis.IsSuccess) return OperateResult.CreateFailedResult(analysis); return BuildWriteByteCommand(analysis, data); } /// /// 生成一个写入字节数据的指令 -> Generate an instruction to write byte data /// /// 起始地址,示例M100,I100,Q100,DB1.100 -> Start Address, example M100,I100,Q100,DB1.100 /// 原始的字节数据 -> Raw byte data /// 包含结果对象的报文 -> Message containing the result object public static OperateResult BuildWriteByteCommand(OperateResult analysis, byte[] data) { byte[] _PLCCommand = new byte[35 + data.Length]; _PLCCommand[0] = 0x03; _PLCCommand[1] = 0x00; // 长度 -> Length _PLCCommand[2] = (byte)((35 + data.Length) / 256); _PLCCommand[3] = (byte)((35 + data.Length) % 256); // 固定 -> Fixed _PLCCommand[4] = 0x02; _PLCCommand[5] = 0xF0; _PLCCommand[6] = 0x80; _PLCCommand[7] = 0x32; // 命令 发 -> command to send _PLCCommand[8] = 0x01; // 标识序列号 -> Identification serial Number _PLCCommand[9] = 0x00; _PLCCommand[10] = 0x00; _PLCCommand[11] = 0x00; _PLCCommand[12] = 0x01; // 固定 -> Fixed _PLCCommand[13] = 0x00; _PLCCommand[14] = 0x0E; // 写入长度+4 -> Write Length +4 _PLCCommand[15] = (byte)((4 + data.Length) / 256); _PLCCommand[16] = (byte)((4 + data.Length) % 256); // 读写指令 -> Read and write instructions _PLCCommand[17] = 0x05; // 写入数据块个数 -> Number of data blocks written _PLCCommand[18] = 0x01; // 固定,返回数据长度 -> Fixed, return data length _PLCCommand[19] = 0x12; _PLCCommand[20] = 0x0A; _PLCCommand[21] = 0x10; // 写入方式,1是按位,2是按字 -> Write mode, 1 is bitwise, 2 is by word _PLCCommand[22] = 0x02; // 写入数据的个数 -> Number of Write Data _PLCCommand[23] = (byte)(data.Length / 256); _PLCCommand[24] = (byte)(data.Length % 256); // DB块编号,如果访问的是DB块的话 -> DB block number, if you are accessing a DB block _PLCCommand[25] = (byte)(analysis.Content3 / 256); _PLCCommand[26] = (byte)(analysis.Content3 % 256); // 写入数据的类型 -> Types of writing data _PLCCommand[27] = analysis.Content1; // 偏移位置 -> Offset position _PLCCommand[28] = (byte)(analysis.Content2 / 256 / 256 % 256); ; _PLCCommand[29] = (byte)(analysis.Content2 / 256 % 256); _PLCCommand[30] = (byte)(analysis.Content2 % 256); // 按字写入 -> Write by Word _PLCCommand[31] = 0x00; _PLCCommand[32] = 0x04; // 按位计算的长度 -> The length of the bitwise calculation _PLCCommand[33] = (byte)(data.Length * 8 / 256); _PLCCommand[34] = (byte)(data.Length * 8 % 256); data.CopyTo(_PLCCommand, 35); return OperateResult.CreateSuccessResult(_PLCCommand); } /// /// 生成一个写入位数据的指令 -> Generate an instruction to write bit data /// /// 起始地址,示例M100,I100,Q100,DB1.100 -> Start Address, example M100,I100,Q100,DB1.100 /// 是否通断 -> Power on or off /// 包含结果对象的报文 -> Message containing the result object public static OperateResult BuildWriteBitCommand(string address, bool data) { OperateResult analysis = AnalysisAddress(address); if (!analysis.IsSuccess) return OperateResult.CreateFailedResult(analysis); byte[] buffer = new byte[1]; buffer[0] = data ? (byte)0x01 : (byte)0x00; byte[] _PLCCommand = new byte[35 + buffer.Length]; _PLCCommand[0] = 0x03; _PLCCommand[1] = 0x00; // 长度 -> length _PLCCommand[2] = (byte)((35 + buffer.Length) / 256); _PLCCommand[3] = (byte)((35 + buffer.Length) % 256); // 固定 -> fixed _PLCCommand[4] = 0x02; _PLCCommand[5] = 0xF0; _PLCCommand[6] = 0x80; _PLCCommand[7] = 0x32; // 命令 发 -> command to send _PLCCommand[8] = 0x01; // 标识序列号 -> Identification serial Number _PLCCommand[9] = 0x00; _PLCCommand[10] = 0x00; _PLCCommand[11] = 0x00; _PLCCommand[12] = 0x01; // 固定 -> fixed _PLCCommand[13] = 0x00; _PLCCommand[14] = 0x0E; // 写入长度+4 -> Write Length +4 _PLCCommand[15] = (byte)((4 + buffer.Length) / 256); _PLCCommand[16] = (byte)((4 + buffer.Length) % 256); // 命令起始符 -> Command start character _PLCCommand[17] = 0x05; // 写入数据块个数 -> Number of data blocks written _PLCCommand[18] = 0x01; _PLCCommand[19] = 0x12; _PLCCommand[20] = 0x0A; _PLCCommand[21] = 0x10; // 写入方式,1是按位,2是按字 -> Write mode, 1 is bitwise, 2 is by word _PLCCommand[22] = 0x01; // 写入数据的个数 -> Number of Write Data _PLCCommand[23] = (byte)(buffer.Length / 256); _PLCCommand[24] = (byte)(buffer.Length % 256); // DB块编号,如果访问的是DB块的话 -> DB block number, if you are accessing a DB block _PLCCommand[25] = (byte)(analysis.Content3 / 256); _PLCCommand[26] = (byte)(analysis.Content3 % 256); // 写入数据的类型 -> Types of writing data _PLCCommand[27] = analysis.Content1; // 偏移位置 -> Offset position _PLCCommand[28] = (byte)(analysis.Content2 / 256 / 256); _PLCCommand[29] = (byte)(analysis.Content2 / 256); _PLCCommand[30] = (byte)(analysis.Content2 % 256); // 按位写入 -> Bitwise Write _PLCCommand[31] = 0x00; _PLCCommand[32] = 0x03; // 按位计算的长度 -> The length of the bitwise calculation _PLCCommand[33] = (byte)(buffer.Length / 256); _PLCCommand[34] = (byte)(buffer.Length % 256); buffer.CopyTo(_PLCCommand, 35); return OperateResult.CreateSuccessResult(_PLCCommand); } #endregion } }