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FINS通讯概述
FINS(factory interface network service)通信协议是欧姆龙公司开发的用于工业自动化控制网络的指令/响应系统。运用 FINS指令可实现各种网络间的无缝通信,通过编程发送FINS指令,上位机或PLC就能够读写另一个PLC数据区的内容,甚至控制其运行状态,从而简化了用户程序。FINS协议支持工业以太网,这就为OMRON PLC与上位机以太网通信的实现提供了途径。 FINS-TCP需要握手命令成功后方可真正连接上PLC。 以下命令均为十六进制 字节数据流: 1. 握手指令1.1. 发送 46494E53 0000000C 00000000 00000000 00000018 46494E53:ASCII编码:FINS; 0000000C:指后面跟的字节长度;12个字节 00000000:固定命令; 00000000:错误代码; 00000018:PC节点IP,当设置为0时,会自动获取节点IP。 1.2. 反馈 46494E53 00000010 00000001 00000000 00000018 00000017 46494E53:ASCII编码:FINS; 00000010:指后面跟的字节长度;16个字节 00000001:固定命令; 00000000:错误代码; 00000018:本机电脑节点IP; 00000017:PLC节点IP。 2. 读取指令读D100开始的2个地址,注:一次最多读1000个地址【以字为单位,也就是2000个字节】。 2.1. 发送 46494E53 0000001A 00000002 00000000 80 00 02 001700 001800 FF 0101 82 006400 0002 46494E53:ASCII编码:FINS; 0000001A:指后面跟的字节长度;26个字节 00000002:固定命令; 00000000:错误代码; 80:ICF; 00:RSV; 02:GCT; 00:PLC网络地址; 17:PLC节点地址; 00:PLC单元地址; 00:PC网络地址; 18:PC节点地址; 00:PC单元地址; FF:SID; 0101:读指令; 82:读地址区(D位:02,D字:82,W位:31,C位:30,W字:B1,C字:B0); 006400:起始地址; 0002:读个数。读取字【WORD】个数,也就是【WORD*2】个字节 2.2. 反馈 46494E53 0000001A 00000002 00000000 C0 00 02 001800 001700 FF 0101 0000 AABB CCDD 46494E53:ASCII编码:FINS; 0000001A:指后面跟的字节长度; 00000002:固定命令; 00000000:错误代码; C0:ICF; 00:RSV; 02:GCT; 00:PC网络地址; 18:PC节点地址; 00:PC单元地址; 00:PLC网络地址; 17:PLC节点地址; 00:PLC单元地址; FF:SID; 0101:读指令; 0000:读取成功标识; AABB CCDD:读到的数据。 3. 写入指令往W10,W11写入AABB,CCDD 3.1. 发送 46494E53 0000001E 00000002 00000000 80 00 02 001700 001800 FF 0102 B1 000A00 0002 AABBCCDD 46494E53:ASCII编码:FINS; 0000001E:指后面跟的字节长度; 00000002:固定命令; 00000000:错误代码; 80:ICF; 00:RSV; 02:GCT; 00:PLC网络地址; 17:PLC节点地址; 00:PLC单元地址; 00:PC网络地址; 18:PC节点地址; 00:PC单元地址; FF:SID; 0102:写指令; B1:写地址区(D位:02,D字:82,W位:31,C位:30,W字:B1,C字:B0); 000A00:起始地址;【2的24次方-1】,十进制范围【0~16777215】 0002:写个数;写入的字【WORD】个数,也就是【WORD*2】个字节 AABBCCDD:写入数据。 3.2. 反馈 46494E53 00000016 00000002 00000000 C0 00 02 001800 001700 FF 0102 0000 46494E53:ASCII编码:FINS; 00000016:指后面跟的字节长度; 00000002:固定命令; 00000000:错误代码; C0:ICF; 00:RSV; 02:GCT; 00:PC网络地址; 18:PC节点地址; 00:PC单元地址; 00:PLC网络地址; 17:PLC节点地址; 00:PLC单元地址; FF:SID; 0102:写指令; 0000:写入成功标识。 【原封装代码有误,这次重新更新 斯内科 20211116】 下面C#封装程序【部分类FinsTcpUtil.cs】,代码如下:PLC寄存器区域类型枚举类【OmronAddressType.cs】,源程序如下: using System; using System.Collections.Generic; using System.Linq; using System.Text; using System.Threading.Tasks; namespace OmronFinsDemo { /// /// Omron PLC地址类型【存储区域类别】 /// public enum OmronAddressType { /// /// C区:I/O继电器区 【Input Output Area】 /// 输入区Input 1600 bits=100 word 范围【CIO0~CIO99】 /// 输出区Output 1600 bits=100 word 范围【CIO100~CIO199】 /// CPU Bus Unit Area 6400 bits=400Word 范围【CIO1500~CIO1899】 /// CIO = 0, /// /// W区:工作继电器区 【Work Relay Area】 /// 8192 bits = 512 words 范围【W0~W511】 /// WR = 1, /// /// D区:动态数据存储区,仅可由字(16位Word)进行存取【Data Memory Area】 /// 32768Words 范围【D0~D32767】 /// DM = 2, /// /// 保持继电器区 【Hold Relay】 /// 8192 bits = 512 words 范围【H0~H511】 /// HR = 3, /// /// 定时器区 【Timer】 /// PVs 4096Words 范围【T0~T4095】 /// CompletionFlag 4096bits 范围【T0~T4095】 /// TIM = 4, /// /// 特殊辅助继电器区 【Auxiliary Relay Area】 /// ReadOnly 7168 bits=448Words 范围【A0~A447】 /// Read-Write 8192 bits=512Words 范围【A448~A959】 /// AR = 5, /// /// 计数器区 【Counter】 /// PVs 4096Words 范围【C0~C4095】 /// CompletionFlag 4096bits 范围【C0~C4095】 /// CNT = 6 } }【部分类FinsTcpUtil.cs】 using System; using System.Collections.Generic; using System.Linq; using System.Net.Sockets; using System.Text; using System.Threading; using System.Threading.Tasks; namespace OmronFinsDemo { /// /// FINS(factory interface network service)通信协议是欧姆龙公司开发的用于工业自动化控制网络的指令-响应系统。 /// 我们只使用欧姆龙PLC的FINS-TCP协议,FINS协议可以读写位(Bit)、字(WORD)操作 /// 斯内科 /// public partial class FinsTcpUtil { /// /// 是否已连接 /// private bool connected; /// /// PLC的IP地址 /// private string serverIP; /// /// PLC的端口,默认9600 /// private int serverPort; /// /// 连接PLC的客户端对象 /// TcpClient msender; /// /// 发送命令 和 接收反馈的套接字对象 /// Socket msock; /// /// 工控机【上位机PC】的IP地址的尾节点 /// private byte clientIpTail; /// /// 服务端【欧姆龙PLC】的IP地址的尾节点 /// private byte serverIpTail; /// /// 记录FINS的发送和接收数据包事件 /// 第一个参数是发送的数据包,第二个参数是响应的数据包,第三个参数的获取到响应数据包所花费的时间(ms) /// public event Action RecordDataEvent; /// /// 是否已连接上欧姆龙PLC【握手成功后才连接成功】 /// public bool IsConnected { get { return connected; } } /// /// 断开连接 /// public void Disconnect() { if (connected) { msender.Close(); connected = false; } } /// /// 初始化TCP,并发送握手协议命令,尝试连接欧姆龙PLC /// /// PLC的IP地址 /// 端口号,默认为9600 /// /// public bool ConnectPlc(string ip, int port = 9600, int frame = 0) { serverIP = ip; serverPort = port; if (!connected) { msender = new TcpClient(ip, port); msender.ReceiveTimeout = 3000; msock = msender.Client; //握手协议 共20个字节【标识头4个字节,长度4个字节,命令码4个字节,错误代码4个字节,客户端节点地址4个字节】 byte[] handshakeProtocol = new byte[20]; //标识头命令:固定FINS handshakeProtocol[0] = 0x46;//F handshakeProtocol[1] = 0x49;//I handshakeProtocol[2] = 0x4E;//N handshakeProtocol[3] = 0x53;//S //数据长度:4个字节 handshakeProtocol[4] = 0; handshakeProtocol[5] = 0; handshakeProtocol[6] = 0; handshakeProtocol[7] = 0x0C;//Length长度:后面跟的字节长度:12个字节 //00000000:固定命令;【索引 8~11】 //00000000:错误代码;【索引 12~15】 handshakeProtocol[16] = 0; handshakeProtocol[17] = 0; handshakeProtocol[18] = 0; handshakeProtocol[19] = (byte)frame;//FINS Frame (工控机IP节点的最后一个字节,如 192.168.1.139 就填入139),frame为0时服务端为客户端自动分配IP尾号 msock.Send(handshakeProtocol); //【握手的】反馈结果 共24个字节【标识头4个字节,长度4个字节,命令码4个字节,错误代码4个字节,客户端节点地址4个字节,服务端节点地址4个字节】 /* * 46494E53:ASCII编码:FINS; * 00000010:指后面跟的字节长度;16个字节 * 00000001:固定命令; * 00000000:错误代码; * 00000018:本机电脑节点IP; * 00000017:PLC节点IP。 */ byte[] feedbackBuffer = new byte[24];//反馈结果 msock.Receive(feedbackBuffer, SocketFlags.None); if (handshakeProtocol[0] == feedbackBuffer[0] && handshakeProtocol[1] == feedbackBuffer[1] && handshakeProtocol[2] == feedbackBuffer[2] && handshakeProtocol[3] == feedbackBuffer[3] && feedbackBuffer[7] == 0x10 && feedbackBuffer[15] == 0x00 && (handshakeProtocol[19] == 0 || feedbackBuffer[19] == handshakeProtocol[19])) { //&& feedbackBuffer[11] == 0x01 //反馈结果 需满足 按照FINS开头,字节长度一定是16,错误代码为0 //客户端IP尾号frame为0时服务端将为客户端自动分配IP尾号 clientIpTail = feedbackBuffer[19]; serverIpTail = feedbackBuffer[23]; connected = true; } } return connected; } /// /// 获取欧姆龙地址类型对应的 FINS通信标识 /// /// 欧姆龙地址类型枚举 /// 是否位处理。true:位处理,false:字处理 /// private byte GetAreaTypeFlag(OmronAddressType omronAddressType, bool isBitProcess) { if (isBitProcess) { //位处理 switch (omronAddressType) { case OmronAddressType.CIO: return 0x30; case OmronAddressType.WR: return 0x31; case OmronAddressType.DM: return 0x02; case OmronAddressType.HR: return 0x32; case OmronAddressType.TIM: return 0x09; case OmronAddressType.AR: return 0x33; case OmronAddressType.CNT: return 0x09; default: return 0x00; } } else { //字处理 switch (omronAddressType) { case OmronAddressType.CIO: return 0xB0; case OmronAddressType.WR: return 0xB1; case OmronAddressType.DM: return 0x82; case OmronAddressType.HR: return 0xB2; case OmronAddressType.TIM: return 0x89; case OmronAddressType.AR: return 0xB3; case OmronAddressType.CNT: return 0x89; default: return 0x00; } } } /// /// 用于排他锁,确保在多线程调用该接口时,不会同时调用。确保在处理当前命令时,其他命令请等待 /// static int lockedValue = 0; /// /// 发送命令并解析反馈【关键方法】,需要进行加锁操作,防止同时操作一个地址时出现脏读等异常情况 /// 当位操作时,只读取或写入一位 /// /// 欧姆龙PLC存储区域类别枚举 /// 起始地址 /// 要读写的位索引 或者 字长度。读字时,一次最多读1000个字【也就是2000个字节】.如果是写入Word时,该参数无意义,直接按(writeData.Length+1)/2处理 /// 是否位处理。true:位处理,false:字【WORD】处理 /// 读内存区域还是写内存区域 true:读,false:写 /// 读取时反馈的数据流,写入操作时该参数无意义 /// 处理时的异常错误信息,默认为空 /// 需要写入的连续字节流,读取操作时该参数无意义,写入操作【isRead为false】时该参数不能为空 /// 返回的错误号,0代表操作成功 private int SendCommandAndParseFeedback(OmronAddressType omronAddressType, int startAddress, int bitIndexOrWordLength, bool isBitProcess, bool isRead, ref byte[] receiveData, out string errMsg, byte[] writeData = null) { errMsg = string.Empty; if (!IsConnected) { errMsg = $"【未建立连接】尚未连接PLC成功或者握手协议失败【{serverIP}:{serverPort}】,请检查配置和网络,当前起始地址【{startAddress}】"; return 1000; } if (!isRead && (writeData == null || writeData.Length == 0 || writeData.Length > 2000)) { errMsg = $"【参数非法】写入操作时,需要写入的数据为空 或者 写入数据流的字节长度不在【1~2000】之间,当前起始地址【{startAddress}】"; return 1001; } if (startAddress < 0 || startAddress > 65535) { errMsg = $"【参数非法】欧姆龙PLC的FINS协议的起始地址必须在0~65535之间,当前起始地址【{startAddress}】"; return 1002; } //读保持寄存器0x03读取的寄存器数量的范围为 1~1000。因一个寄存器【一个Word】存放两个字节,因此 字节数组的长度范围 为 1~2000 if (isRead && bitIndexOrWordLength > 1000) { errMsg = $"【参数非法】读取的位索引 或者 字长度不能超过1000,当前起始地址【{startAddress}】,读取长度【{bitIndexOrWordLength}】"; return 1003; } //写入WORD时,直接使用 写入的字节长度除以2【因 一个字相当于两个字节 1WORD=2Byte】 if (!isRead && !isBitProcess) { bitIndexOrWordLength = (writeData.Length + 1) / 2; } byte serviceId = 0x15;//SID:SID用于标识数据发送的过程。【服务标识】,可以任意指定,返回数据包的SID和发送包的SID一致 int commandLength = 34;//发送命令的长度【读取命令 固定34位】 if (!isRead) { commandLength = 34 + writeData.Length; } byte[] sendBytes = new byte[commandLength]; //标识头命令:固定FINS sendBytes[0] = 0x46;//F sendBytes[1] = 0x49;//I sendBytes[2] = 0x4E;//N sendBytes[3] = 0x53;//S //数据长度:4个字节 sendBytes[4] = 0; sendBytes[5] = 0; sendBytes[6] = 0; sendBytes[7] = 0x1A;//Length长度:后面跟的字节长度:26个字节 if (!isRead) { sendBytes[7] = (byte)(26 + writeData.Length); } //命令码 固定 00 00 00 02 sendBytes[8] = 0; sendBytes[9] = 0; sendBytes[10] = 0; sendBytes[11] = 0x02;//frame command //【索引12~15】错误码 00 00 00 00 sendBytes[16] = 0x80;//ICF sendBytes[17] = 0x00;//RSV sendBytes[18] = 0x02;//GCT, less than 8 network layers sendBytes[19] = 0x00;//DNA, local network sendBytes[20] = serverIpTail;//DA1 PLC的IP节点尾号 sendBytes[21] = 0x00;//DA2, CPU unit sendBytes[22] = 0x00;//SNA, local network sendBytes[23] = clientIpTail;//SA1 工控机IP节点尾号 sendBytes[24] = 0x00;//SA2, CPU unit sendBytes[25] = serviceId;//SID:SID用于标识数据发送的过程。 【服务标识】 //SID能够设置为00到FF十六进制的任何数字。SID用于检测响应请求是否正确,当发送节点与响应节点的SID值相同,表明响应的数据是请求的数据,不相同,表明响应的数据非请求数据。 if (isRead) { //读命令 01 01 sendBytes[26] = 0x01; sendBytes[27] = 0x01; } else { //写命令 01 02 sendBytes[26] = 0x01; sendBytes[27] = 0x02; } //地址区域标识 sendBytes[28] = GetAreaTypeFlag(omronAddressType, isBitProcess); byte[] addressParts = BitConverter.GetBytes((ushort)startAddress); //起始地址【索引 29~30】 sendBytes[29] = addressParts[1]; sendBytes[30] = addressParts[0]; //读取的字【Word】的长度 byte[] lengthParts = BitConverter.GetBytes((ushort)bitIndexOrWordLength); if (isBitProcess) { //位处理时,表示读取的位的索引,只读取 或者 写入 一位 sendBytes[31] = lengthParts[0]; sendBytes[32] = 0x00; sendBytes[33] = 0x01;//每次只读取一位 /* * 读取位操作【从索引26开始】0101+1字节存储区代码+3字节开始地址+2字节数量 * 示例 0101 31 010A 01 000A * 0101 代表读操作 0x31代表WR区的位操作 010A代表起始地址266 01代表起始位 000A代表读取位的个数:10个 * 写入位操作【从索引26开始】 0102+1字节存储区代码+3字节开始地址+2字节数量+1字节第1位值+1字节第2位值+… * 示例 0102 31 00D4 01 0002 01 00 * 31是W位代码,0x00D401=212.01, 00D4代表起始地址,01代表位索引 0002写入2个位,0100 第一个位W212.01写入1,第二个位W212.02写入0 * */ } else { //字处理时,按零处理 sendBytes[31] = 0x00;//字处理时,起始地址的位索引,按零处理如 D1234.0 sendBytes[32] = lengthParts[1]; sendBytes[33] = lengthParts[0]; } //要写入的字节流数据,写入位时writeData只考虑第一个 if (!isRead) { Array.Copy(writeData, 0, sendBytes, 34, writeData.Length); } //添加锁 while (Interlocked.Exchange(ref lockedValue, 1) != 0) { } System.Diagnostics.Stopwatch stopwatch = System.Diagnostics.Stopwatch.StartNew(); try { msock.Send(sendBytes, SocketFlags.None); } catch (SocketException ex) { connected = false; errMsg = $"发送数据时出现套接字异常,【{omronAddressType}.{startAddress}.{bitIndexOrWordLength}】【{ex.SocketErrorCode}】,{ex.Message}"; Interlocked.Exchange(ref lockedValue, 0);//将current重置为0 return 1004; } catch (Exception ex) { connected = false; errMsg = $"发送数据时出现异常,【{omronAddressType}.{startAddress}.{bitIndexOrWordLength}】【{ex.Message}】"; Interlocked.Exchange(ref lockedValue, 0);//将current重置为0 return 1005; } byte[] buffer = new byte[2048]; byte[] receiveByts = null;//接收的有效字节流 int rcvCount = 0;//收到的字节数 try { rcvCount = msock.Receive(buffer); receiveByts = new ArraySegment(buffer, 0, rcvCount).ToArray(); stopwatch.Stop(); RecordDataEvent?.Invoke(sendBytes, receiveByts, stopwatch.Elapsed.TotalMilliseconds); /* * 反馈数据流 * 46494E53 0000001A 00000002 00000000 C0 00 02 001800 001700 FF 0101 0000 AABB CCDD XXXX XXXX * 标识头 后面跟的字节长度 固定 错误代码 ICF RSV GCT 工控机IP PLC的IP SID 读命令 成功标识 实际读取到的数据,索引30开始 */ } catch (SocketException ex) { connected = false; errMsg = $"【网络异常】接收数据失败,【{omronAddressType}.{startAddress}.{bitIndexOrWordLength}】,套接字错误【{ex.SocketErrorCode}】,【{ex.Message}】"; //释放锁 Interlocked.Exchange(ref lockedValue, 0);//将current重置为0 return 1006; } catch (Exception ex) { connected = false; errMsg = $"【处理异常】接收数据失败,【{omronAddressType}.{startAddress}.{bitIndexOrWordLength}】【{ex.Message}】"; //释放锁 Interlocked.Exchange(ref lockedValue, 0);//将current重置为0 return 1007; } if (receiveByts == null || receiveByts.Length < 30) { errMsg = $"接收数据为空,或者低于30个字节,接收数据为【{(receiveByts == null ? "" : string.Join(",", receiveByts))}】"; Interlocked.Exchange(ref lockedValue, 0);//将current重置为0 return 1008; } if (receiveByts[0] != sendBytes[0] || receiveByts[1] != sendBytes[1] || receiveByts[2] != sendBytes[2] || receiveByts[3] != sendBytes[3]) { errMsg = $"接收数据头非法,不是从【FINS】开始,接收数据为【{string.Join(",", receiveByts)}】"; Interlocked.Exchange(ref lockedValue, 0);//将current重置为0 return 1009; } if (receiveByts[15] != 0)//if (receiveByts[11] != 2 || receiveByts[15] != 0) { errMsg = $"数据非法,解析时出现错误,错误号【{receiveByts[15]}】,接收数据为【{string.Join(",", receiveByts)}】"; Interlocked.Exchange(ref lockedValue, 0);//将current重置为0 return 1010; } //if (receiveByts[25] != serviceId) //{ // errMsg = $"服务标识非法,发送的SID【{serviceId}】与接收的SID【{receiveByts[25]}】不一致,接收数据为【{string.Join(",", receiveByts)}】"; // Interlocked.Exchange(ref lockedValue, 0);//将current重置为0 // return 1011; //} if (receiveByts[26] != sendBytes[26] || receiveByts[27] != sendBytes[27]) { errMsg = $"读写命令不匹配,发送命令【{sendBytes[26].ToString("X2")}{sendBytes[27].ToString("X2")}】,反馈命令【{receiveByts[26].ToString("X2")}{receiveByts[27].ToString("X2")}】"; Interlocked.Exchange(ref lockedValue, 0);//将current重置为0 return 1012; } if (receiveByts[28] != 0 || receiveByts[29] != 0) { errMsg = GetErrorMessage(receiveByts[28], receiveByts[29]); Interlocked.Exchange(ref lockedValue, 0);//将current重置为0 return 1013; } //抓取读取到的实际字节流 【一个字WORD 相当于 两个字节】 if (isRead) { //读取位时,只读取一位 receiveData = new byte[isBitProcess ? 1 : (bitIndexOrWordLength * 2)]; Array.Copy(receiveByts, 30, receiveData, 0, receiveData.Length); } //释放锁 Interlocked.Exchange(ref lockedValue, 0);//将current重置为0 return 0; } /// /// 高低字节转化,也就是相邻的两个字节交换位置。【索引0与索引1的值交换位置,索引2与索引3的值交换位置,索引4与索引5的值交换位置...】 /// 注意奇数个数组长度时,强行补零按偶数处理【一个字 相当于 两个字节】 /// /// /// private byte[] HightLowChange(byte[] sourceData) { if (sourceData.Length % 2 == 1) { byte[] dres = new byte[sourceData.Length]; for (int i = 0; i < sourceData.Length - 1; i += 2) { dres[i] = sourceData[i + 1]; dres[i + 1] = sourceData[i]; } dres[sourceData.Length - 1] = sourceData[sourceData.Length - 1]; return dres; } int len = (sourceData.Length % 2 == 1 ? sourceData.Length + 1 : sourceData.Length); byte[] res = new byte[len]; for (int i = 0; i < sourceData.Length; i += 2) { res[i] = sourceData[i + 1]; res[i + 1] = sourceData[i]; } return res; } /// /// 获得反馈指定错误消息描述 /// /// /// /// private string GetErrorMessage(byte errCode1, byte errCode2) { string msg = $"错误代码【{errCode1.ToString("X2")} {errCode2.ToString("X2")}】"; switch (errCode1) { case 0x00: if (errCode2 == 0x01) msg += "service canceled"; break; case 0x01: switch (errCode2) { case 0x01: msg += "Ip配置错误:local node not in network"; break; case 0x02: msg += "权限出错:token timeout"; break; case 0x03: msg += "retries failed"; break; case 0x04: msg += "too many send frames"; break; case 0x05: msg += "node address range error"; break; case 0x06: msg += "node address duplication"; break; } break; case 0x02: switch (errCode2) { case 0x01: msg += "destination node not in network"; break; case 0x02: msg += "unit missing"; break; case 0x03: msg += "third node missing"; break; case 0x04: msg += "destination node busy"; break; case 0x05: msg += "response timeout"; break; } break; case 0x03: switch (errCode2) { case 0x01: msg += "communications controller error"; break; case 0x02: msg += "CPU unit error"; break; case 0x03: msg += "控制器错误:controller error"; break; case 0x04: msg += "unit number error"; break; } break; case 0x04: switch (errCode2) { case 0x01: msg += "未定义的指令:undefined command"; break; case 0x02: msg += "不支持的模式:not supported by model/version"; break; } break; case 0x05: switch (errCode2) { case 0x01: msg += "destination address setting error"; break; case 0x02: msg += "no routing tables"; break; case 0x03: msg += "routing table error"; break; case 0x04: msg += "too many relays"; break; } break; case 0x10: switch (errCode2) { case 0x01: msg += "指令太长:command too long"; break; case 0x02: msg += "command too short"; break; case 0x03: msg += "数据与长度不匹配:elements/data don't match"; break; case 0x04: msg += "command format error"; break; case 0x05: msg += "header error"; break; } break; case 0x11: switch (errCode2) { case 0x01: msg += "area classification missing"; break; case 0x02: msg += "access size error"; break; case 0x03: msg += "address range error"; break; case 0x04: msg += "address range exceeded"; break; case 0x06: msg += "program missing"; break; case 0x09: msg += "relational error"; break; case 0x0a: msg += "duplicate data access"; break; case 0x0b: msg += "response too long"; break; case 0x0c: msg += "parameter error"; break; } break; case 0x20: switch (errCode2) { case 0x02: msg += "protected"; break; case 0x03: msg += "table missing"; break; case 0x04: msg += "data missing"; break; case 0x05: msg += "program missing"; break; case 0x06: msg += "file missing"; break; case 0x07: msg += "data mismatch"; break; } break; case 0x21: switch (errCode2) { case 0x01: msg += "read-only"; break; case 0x02: msg += "protected,cannot write data link table"; break; case 0x03: msg += "cannot register"; break; case 0x05: msg += "program missing"; break; case 0x06: msg += "file missing"; break; case 0x07: msg += "file name already exists"; break; case 0x08: msg += "cannot change"; break; } break; case 0x22: switch (errCode2) { case 0x01: msg += "not possible during execution"; break; case 0x02: msg += "not possible while running"; break; case 0x03: msg += "wrong PLC mode"; break; case 0x04: msg += "wrong PLC mode"; break; case 0x05: msg += "wrong PLC mode"; break; case 0x06: msg += "wrong PLC mode"; break; case 0x07: msg += "specified node not polling node"; break; case 0x08: msg += "step cannot be executed"; break; } break; case 0x23: switch (errCode2) { case 0x01: msg += "file device missing"; break; case 0x02: msg += "memory missing"; break; case 0x03: msg += "clock missing"; break; } break; case 0x24: if (errCode2 == 0x01) msg += "table missing"; break; case 0x25: switch (errCode2) { case 0x02: msg += "memory error"; break; case 0x03: msg += "I/O setting error"; break; case 0x04: msg += "too many I/O points"; break; case 0x05: msg += "CPU bus error"; break; case 0x06: msg += "I/O duplication"; break; case 0x07: msg += "CPU bus error"; break; case 0x09: msg += "SYSMAC BUS/2 error"; break; case 0x0a: msg += "CPU bus unit error"; break; case 0x0d: msg += "SYSMAC BUS No. duplication"; break; case 0x0f: msg += "memory error"; break; case 0x10: msg += "SYSMAC BUS terminator missing"; break; } break; case 0x26: switch (errCode2) { case 0x01: msg += "no protection"; break; case 0x02: msg += "incorrect password"; break; case 0x04: msg += "protected"; break; case 0x05: msg += "service already executing"; break; case 0x06: msg += "service stopped"; break; case 0x07: msg += "no execution right"; break; case 0x08: msg += "settings required before execution"; break; case 0x09: msg += "necessary items not set"; break; case 0x0a: msg += "number already defined"; break; case 0x0b: msg += "error will not clear"; break; } break; case 0x30: if (errCode2 == 0x01) msg += "无访问权限:no access right"; break; case 0x40: if (errCode2 == 0x01) msg += "服务未开启:service aborted"; break; } return msg; } } } 部分类FinsTcpUtil.Partial.cs,源程序如下: using System; using System.Collections.Generic; using System.Linq; using System.Text; using System.Threading.Tasks; namespace OmronFinsDemo { public partial class FinsTcpUtil { /// /// 写基本数据类型到PLC,如bool,short,int,uint,float等 /// /// /// 起始寄存器地址,以字(WORD)为单位,形如D32000 /// /// /// public int WriteValue(OmronAddressType omronAddressType, int startAddress, T value, out string msg) where T : struct { bool isBitProcess = false;//是否位操作,true:位操作,false:字操作【一个字 相当于 2个字节】 byte[] datas = new byte[0]; if (typeof(T) == typeof(bool)) { //位操作 只考虑0位 datas = BitConverter.GetBytes(Convert.ToBoolean(value)); isBitProcess = true; } else if (typeof(T) == typeof(sbyte)) { datas = new byte[1] { (byte)Convert.ToSByte(value) }; } else if (typeof(T) == typeof(byte)) { datas = new byte[1] { Convert.ToByte(value) }; } else if (typeof(T) == typeof(short)) { datas = BitConverter.GetBytes(Convert.ToInt16(value)); } else if (typeof(T) == typeof(ushort)) { datas = BitConverter.GetBytes(Convert.ToUInt16(value)); } else if (typeof(T) == typeof(int)) { datas = BitConverter.GetBytes(Convert.ToInt32(value)); } else if (typeof(T) == typeof(uint)) { datas = BitConverter.GetBytes(Convert.ToUInt32(value)); } else if (typeof(T) == typeof(long)) { datas = BitConverter.GetBytes(Convert.ToInt64(value)); } else if (typeof(T) == typeof(ulong)) { datas = BitConverter.GetBytes(Convert.ToUInt64(value)); } else if (typeof(T) == typeof(float)) { datas = BitConverter.GetBytes(Convert.ToSingle(value)); } else if (typeof(T) == typeof(double)) { datas = BitConverter.GetBytes(Convert.ToDouble(value)); } else { //暂不考虑 char(就是ushort,两个字节),decimal(十六个字节) 等类型 msg = $"写Fins数据暂不支持其他类型:{value.GetType()}"; return -1; } byte[] rcvBuffer = new byte[0]; int bitIndexOrWordLength = 0;//位操作 默认处理0位 if (!isBitProcess) { bitIndexOrWordLength = (datas.Length + 1) / 2; } datas = HightLowChange(datas); return SendCommandAndParseFeedback(omronAddressType, startAddress, bitIndexOrWordLength, isBitProcess, false, ref rcvBuffer, out msg, datas); } /// /// 写入连续的字节数组 /// /// 起始寄存器地址,以字(WORD)为单位,形如MW32000 /// /// /// public int WriteValue(OmronAddressType omronAddressType, int startAddress, byte[] buffer, out string msg) { byte[] rcvBuffer = new byte[0]; buffer = HightLowChange(buffer); return SendCommandAndParseFeedback(omronAddressType, startAddress, (buffer.Length + 1) / 2, false, false, ref rcvBuffer, out msg, buffer); } /// /// 写指定长度的字符串(比如条码)到汇川PLC,最大240个字符 /// 将字符串填充满length个,不足时用 空字符'\0'填充,相当于清空所有字符后重新填充 /// /// /// 字符串的最大长度【范围1~240】,超过240个字符将直接返回错误 /// 实际字符串,长度可能小于最大长度length /// public int WriteString(OmronAddressType omronAddressType, int startAddress, int length, string barcode, out string msg) { if (barcode == null) { barcode = string.Empty; } //将字符串填充满length个,不足时用 空字符'\0'填充,相当于清空所有字符后填充 //防止出现 上一次写 【ABCD】,本次写 【12】, 读取字符串 结果是【12CD】 的问题 barcode = barcode.PadRight(length, '\0'); return WriteValue(omronAddressType, startAddress, Encoding.ASCII.GetBytes(barcode), out msg); } /// /// 写长字符串 /// 一个寄存器地址可以存放两个字节【两个字符】,设定每次最多写入200个字符, /// 分多次写入,每一次写入的起始寄存器地址偏移100 /// /// 起始地址 /// 长字符串 /// /// public int WriteLongString(OmronAddressType omronAddressType, int startAddress, string longString, out string msg) { msg = string.Empty; if (longString == null) { longString = string.Empty; } int cycleCount = 200;//每20个字符就进行分段 int maxLength = longString.Length; int pageSize = (maxLength + cycleCount - 1) / cycleCount; int errorCode = -1; for (int i = 0; i < pageSize; i++) { int writeLength = cycleCount; if (i == pageSize - 1) { //最后一次 writeLength = maxLength - i * cycleCount; } //分段字符串,每次最多200个 string segment = longString.Substring(i * cycleCount, writeLength); //寄存器地址是字,所以需要 字节个数 除以2 errorCode = WriteString(omronAddressType, startAddress + (i * cycleCount / 2), writeLength, segment, out msg); if (errorCode != 0) { return errorCode; } } return errorCode; } /// /// 读取基本数据类型 /// /// 基本的数据类型,如short,int,double等 /// /// /// /// public int ReadValue(OmronAddressType omronAddressType, int startAddress, out T value, out string msg) where T : struct { bool isBitProcess = false;//是否位操作,true:位操作,false:字操作【一个字 相当于 2个字节】 value = default(T); int length = 0;//读取的连续字节个数 if (typeof(T) == typeof(bool)) { isBitProcess = true;//位操作时,只考虑0位 } else if (typeof(T) == typeof(sbyte) || typeof(T) == typeof(byte)) { length = 1; } else if (typeof(T) == typeof(short) || typeof(T) == typeof(ushort)) { length = 2; } else if (typeof(T) == typeof(int) || typeof(T) == typeof(uint) || typeof(T) == typeof(float)) { length = 4; } else if (typeof(T) == typeof(long) || typeof(T) == typeof(ulong) || typeof(T) == typeof(double)) { length = 8; } else { //暂不考虑 char(就是ushort,两个字节),decimal(十六个字节) 等类型 msg = $"读Fins数据暂不支持其他类型:{value.GetType()}"; return -1; } byte[] rcvBuffer = new byte[0]; int errorCode = SendCommandAndParseFeedback(omronAddressType, startAddress, (length + 1) / 2, isBitProcess, true, ref rcvBuffer, out msg); rcvBuffer = HightLowChange(rcvBuffer); if (errorCode != 0) { return errorCode; } if (typeof(T) == typeof(bool)) { value = (T)(object)Convert.ToBoolean(rcvBuffer[0]); } else if (typeof(T) == typeof(sbyte)) { value = (T)(object)(sbyte)rcvBuffer[0]; } else if (typeof(T) == typeof(byte)) { value = (T)(object)rcvBuffer[0]; } else if (typeof(T) == typeof(short)) { value = (T)(object)BitConverter.ToInt16(rcvBuffer, 0); } else if (typeof(T) == typeof(ushort)) { value = (T)(object)BitConverter.ToUInt16(rcvBuffer, 0); } else if (typeof(T) == typeof(int)) { value = (T)(object)BitConverter.ToInt32(rcvBuffer, 0); } else if (typeof(T) == typeof(uint)) { value = (T)(object)BitConverter.ToUInt32(rcvBuffer, 0); } else if (typeof(T) == typeof(long)) { value = (T)(object)BitConverter.ToInt64(rcvBuffer, 0); } else if (typeof(T) == typeof(ulong)) { value = (T)(object)BitConverter.ToUInt64(rcvBuffer, 0); } else if (typeof(T) == typeof(float)) { value = (T)(object)BitConverter.ToSingle(rcvBuffer, 0); } else if (typeof(T) == typeof(double)) { value = (T)(object)BitConverter.ToDouble(rcvBuffer, 0); } return 0; } /// /// 从起始地址开始,读取一段字节流 /// /// 起始寄存器地址 /// 读取的字节个数 /// 返回的字节流数据 /// true:读取成功 false:读取失败 public int ReadValue(OmronAddressType omronAddressType, int startAddress, int length, out byte[] values, out string msg) { values = new byte[length]; int errorCode = SendCommandAndParseFeedback(omronAddressType, startAddress, (length + 1) / 2, false, true, ref values, out msg); if (errorCode != 0) { return errorCode; } values = HightLowChange(values); return errorCode; } /// /// 读取(长)字符串,设定每次最多读取200个字符, /// 分多次读取,每一次读取的起始寄存器地址偏移100 /// /// /// /// /// /// public int ReadLongString(OmronAddressType omronAddressType, int startAddress, int length, out string longString, out string msg) { msg = string.Empty; longString = string.Empty; int cycleCount = 200; int pageSize = (length + cycleCount - 1) / cycleCount; int errorCode = -1; for (int i = 0; i < pageSize; i++) { int readLength = cycleCount; if (i == pageSize - 1) { //最后一次 readLength = length - i * cycleCount; } byte[] values; errorCode = ReadValue(omronAddressType, startAddress + (i * cycleCount / 2), readLength, out values, out msg); if (errorCode != 0) { return errorCode; } longString += Encoding.ASCII.GetString(values); } return errorCode; } } } |
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