using NModbus; using NModbus.Serial; using System; using System.IO.Ports; using System.Threading; using System.Threading.Tasks; namespace DeviceCommand.Base { public class ModbusRtu : IModbusDevice { public string PortName { get; private set; } = "COM1"; public int BaudRate { get; private set; } = 9600; public int DataBits { get; private set; } = 8; public StopBits StopBits { get; private set; } = StopBits.One; public Parity Parity { get; private set; } = Parity.None; public int ReadTimeout { get; private set; } = 3000; public int WriteTimeout { get; private set; } = 3000; private SerialPort _serialPort; public IModbusMaster Modbus { get; private set; } public bool IsConnected => _serialPort?.IsOpen ?? false; protected readonly SemaphoreSlim _commLock = new(1, 1); public ModbusRtu() { _serialPort = new SerialPort(); } public void ConfigureDevice(string portName, int baudRate, int dataBits = 8, StopBits stopBits = StopBits.One, Parity parity = Parity.None, int readTimeout = 3000, int writeTimeout = 3000) { PortName = portName; BaudRate = baudRate; DataBits = dataBits; StopBits = stopBits; Parity = parity; ReadTimeout = readTimeout; WriteTimeout = writeTimeout; } public virtual async Task ConnectAsync(CancellationToken ct = default) { await _commLock.WaitAsync(ct); try { if (_serialPort.IsOpen) _serialPort.Close(); _serialPort.PortName = PortName; _serialPort.BaudRate = BaudRate; _serialPort.DataBits = DataBits; _serialPort.StopBits = StopBits; _serialPort.Parity = Parity; _serialPort.ReadTimeout = ReadTimeout; _serialPort.WriteTimeout = WriteTimeout; _serialPort.Open(); Modbus = new ModbusFactory().CreateRtuMaster(_serialPort); return true; } finally { _commLock.Release(); } } public virtual void Close() { if (_serialPort.IsOpen) _serialPort.Close(); } public async Task WriteSingleRegisterAsync(byte slaveAddress, ushort registerAddress, ushort value, CancellationToken ct = default) { await _commLock.WaitAsync(ct); try { await Modbus.WriteSingleRegisterAsync(slaveAddress, registerAddress, value) .WaitAsync(TimeSpan.FromMilliseconds(WriteTimeout), ct); } finally { _commLock.Release(); } } public async Task WriteMultipleRegistersAsync(byte slaveAddress, ushort startAddress, ushort[] values, CancellationToken ct = default) { await _commLock.WaitAsync(ct); try { await Modbus.WriteMultipleRegistersAsync(slaveAddress, startAddress, values) .WaitAsync(TimeSpan.FromMilliseconds(WriteTimeout), ct); } finally { _commLock.Release(); } } public async Task ReadHoldingRegistersAsync(byte slaveAddress, ushort startAddress, ushort numberOfPoints, CancellationToken ct = default) { await _commLock.WaitAsync(ct); try { return await Modbus.ReadHoldingRegistersAsync(slaveAddress, startAddress, numberOfPoints) .WaitAsync(TimeSpan.FromMilliseconds(ReadTimeout), ct); } finally { _commLock.Release(); } } public async Task WriteSingleCoilAsync(byte slaveAddress, ushort coilAddress, bool value, CancellationToken ct = default) { await _commLock.WaitAsync(ct); try { await Modbus.WriteSingleCoilAsync(slaveAddress, coilAddress, value) .WaitAsync(TimeSpan.FromMilliseconds(WriteTimeout), ct); } finally { _commLock.Release(); } } public async Task ReadCoilsAsync(byte slaveAddress, ushort startAddress, ushort numberOfPoints, CancellationToken ct = default) { await _commLock.WaitAsync(ct); try { return await Modbus.ReadCoilsAsync(slaveAddress, startAddress, numberOfPoints) .WaitAsync(TimeSpan.FromMilliseconds(ReadTimeout), ct); } finally { _commLock.Release(); } } public async Task ReadInputRegistersAsync(byte slaveAddress, ushort startAddress, ushort numberOfPoints, CancellationToken ct = default) { await _commLock.WaitAsync(ct); try { return await Modbus.ReadInputRegistersAsync(slaveAddress, startAddress, numberOfPoints) .WaitAsync(TimeSpan.FromMilliseconds(ReadTimeout), ct); } finally { _commLock.Release(); } } public void Dispose() { _serialPort?.Dispose(); _commLock?.Dispose(); } } }