void IProtocolCodec.ServerEncode(CommDataBase data)
{
ModbusServer ownerProtocol = (ModbusServer)data.OwnerProtocol;
ModbusCommand userData = (ModbusCommand)data.UserData;
byte functionCode = userData.FunctionCode;
ByteArrayWriter byteArrayWriter1 = new ByteArrayWriter();
ModbusCodecBase.CommandCodecs[(int)functionCode]?.ServerEncode(userData, byteArrayWriter1);
if (userData.ExceptionCode == (byte)0)
{
int length = byteArrayWriter1.Length;
}
ByteArrayWriter byteArrayWriter2 = new ByteArrayWriter();
byteArrayWriter2.WriteByte(ownerProtocol.Address);
if (userData.ExceptionCode == (byte)0)
{
byteArrayWriter2.WriteByte(userData.FunctionCode);
byteArrayWriter2.WriteBytes(byteArrayWriter1);
}
else
{
byteArrayWriter2.WriteByte((byte)((uint)userData.FunctionCode | 128U));
byteArrayWriter2.WriteByte(userData.ExceptionCode);
}
ushort num = ByteArrayHelpers.CalcCRC16(byteArrayWriter2.ToArray(), 0, byteArrayWriter2.Length);
byteArrayWriter2.WriteInt16LE((short)num);
data.OutgoingData = byteArrayWriter2.ToReader();
}
CommResponse IProtocolCodec.ServerDecode(CommDataBase data)
{
ModbusServer ownerProtocol = (ModbusServer)data.OwnerProtocol;
ByteArrayReader incomingData = data.IncomingData;
int length = incomingData.Length;
if (length < 4)
{
return(new CommResponse(data, 0));
}
if ((int)incomingData.ReadByte() == (int)ownerProtocol.Address)
{
byte fc = incomingData.ReadByte();
if ((int)fc < ModbusCodecBase.CommandCodecs.Length)
{
ModbusCommand command = new ModbusCommand(fc);
data.UserData = (object)command;
command.QueryTotalLength = 6;
ModbusCommandCodec commandCodec = ModbusCodecBase.CommandCodecs[(int)fc];
ByteArrayReader body = new ByteArrayReader(incomingData.ReadBytes(length - 4));
commandCodec.ServerDecode(command, body);
ushort num = ByteArrayHelpers.CalcCRC16(incomingData.ToArray(), 0, command.QueryTotalLength - 2);
if ((int)ByteArrayHelpers.ReadInt16LE(((IByteArray)incomingData).Data, command.QueryTotalLength - 2) == (int)(short)num)
{
return(new CommResponse(data, 3));
}
}
}
return(new CommResponse(data, 1));
}
/// <summary>
/// Stops the proxy.
/// </summary>
/// <returns></returns>
public Task StopAsync()
{
try
{
logger?.LogTrace("ModbusTcpTcpProxy.StopAsync enter");
CheckDisposed();
if (!isStarted)
{
return(Task.CompletedTask);
}
isStarted = false;
server?.Dispose();
server = null;
client?.Dispose();
client = null;
return(Task.CompletedTask);
}
finally
{
logger?.LogTrace("ModbusTcpTcpProxy.StopAsync leave");
}
}
/// <summary>
/// Starts the proxy.
/// </summary>
/// <returns></returns>
public async Task StartAsync()
{
try
{
logger?.LogTrace("ModbusTcpTcpProxy.StartAsync enter");
CheckDisposed();
if (isStarted)
{
return;
}
isStarted = true;
client = new ModbusClient(settings.DestinationHost, settings.DestinationPort, logger);
await client.Connect();
server = new ModbusServer(settings.ListenPort, settings.ListenAddress, logger, HandleRequest);
await server.Initialization;
}
finally
{
logger?.LogTrace("ModbusTcpTcpProxy.StartAsync leave");
}
}
/// <summary>
/// Running thread handler
/// </summary>
protected void Worker()
{
var server = new ModbusServer(new ModbusTcpCodec())
{
Address = SlaveId
};
server.IncommingData += DriverIncommingData;
server.OutgoingData += DriverOutgoingData;
try
{
while (_thread.ThreadState == ThreadState.Running)
{
//wait for an incoming connection
_listener = _socket.GetTcpListener(server);
_listener.ServeCommand += listener_ServeCommand;
_listener.Start();
AppendLog(String.Format("Accepted connection."));
Thread.Sleep(1);
}
}
catch (Exception ex)
{
String msg = ex.Message;
}
}
public void MasterShouldReadCoilsFromSlave()
{
var clientMemory = new ModbusMemoryMap();
var client = new ModbusClient(new ModbusRTUTransport(_clientStream));
var clientDevice = new ModbusDevice(clientMemory, 4);
var serverMemory = new ModbusMemoryMap();
var server = new ModbusServer(new ModbusRTUTransport(_serverStream));
var serverDevice = new ModbusDevice(serverMemory, 4);
serverMemory.OutputCoils[10] = true;
serverMemory.OutputCoils[15] = true;
clientMemory.OutputCoils[10].ShouldBeFalse();
clientMemory.OutputCoils[15].ShouldBeFalse();
Task.Run(() => server.HandleRequest(serverDevice));
client.ReadCoils(clientDevice, 10, 13);
//slave memory not touched
serverMemory.OutputCoils[10].ShouldBeTrue();
serverMemory.OutputCoils[15].ShouldBeTrue();
//master memory is synched
clientMemory.OutputCoils[10].ShouldBeTrue();
clientMemory.OutputCoils[15].ShouldBeTrue();
}
private void BtnConnectClick(object sender, EventArgs e)
{
try
{
switch (CommunicationMode)
{
case CommunicationMode.RTU:
_uart = new SerialPort(PortName, Baud, Parity, DataBits, StopBits);
_uart.Open();
var rtuServer = new ModbusServer(new ModbusRtuCodec()) { Address = SlaveId };
rtuServer.OutgoingData += DriverOutgoingData;
rtuServer.IncommingData += DriverIncommingData;
_listener = _uart.GetListener(rtuServer);
_listener.ServeCommand += listener_ServeCommand;
_listener.Start();
AppendLog(String.Format("Connected using RTU to {0}", PortName));
break;
case CommunicationMode.UDP:
_socket = new Socket(AddressFamily.InterNetwork, SocketType.Dgram, ProtocolType.Udp);
_socket.Bind(new IPEndPoint(IPAddress.Any, TCPPort));
//create a server driver
var udpServer = new ModbusServer(new ModbusTcpCodec()) { Address = SlaveId };
udpServer.OutgoingData += DriverOutgoingData;
udpServer.IncommingData += DriverIncommingData;
//listen for an incoming request
_listener = _socket.GetUdpListener(udpServer);
_listener.ServeCommand += listener_ServeCommand;
_listener.Start();
AppendLog(String.Format("Listening to UDP port {0}", TCPPort));
break;
case CommunicationMode.TCP:
_socket = new Socket(AddressFamily.InterNetwork, SocketType.Stream, ProtocolType.Tcp);
_socket.Bind(new IPEndPoint(IPAddress.Any, TCPPort));
_socket.Listen(10);
//create a server driver
_thread = new Thread(Worker);
_thread.Start();
AppendLog(String.Format("Listening to TCP port {0}", TCPPort));
// simulate classic
broadcasrter = new UDPBroadcaster();
broadcasrter.SendDatagrams(TCPPort);
break;
}
}
catch (Exception ex)
{
AppendLog(ex.Message);
return;
}
btnConnect.Enabled = false;
buttonDisconnect.Enabled = true;
grpExchange.Enabled = true;
groupBoxFunctions.Enabled = false;
groupBoxTCP.Enabled = false;
groupBoxRTU.Enabled = false;
groupBoxMode.Enabled = false;
}
private void BtnConnectClick(object sender, EventArgs e)
{
try
{
switch (CommunicationMode)
{
case CommunicationMode.RTU:
_uart = new SerialPort(PortName, Baud, Parity, DataBits, StopBits);
_uart.Open();
var rtuServer = new ModbusServer(new ModbusRtuCodec());
rtuServer.OutgoingData += DriverOutgoingData;
rtuServer.IncommingData += DriverIncommingData;
_listener = _uart.GetListener(rtuServer);
_listener.ServeCommand += listener_ServeCommand;
_listener.Start();
AppendLog(String.Format("Connected using RTU to {0}", PortName));
break;
case CommunicationMode.UDP:
_socket = new Socket(AddressFamily.InterNetwork, SocketType.Dgram, ProtocolType.Udp);
_socket.Bind(new IPEndPoint(IPAddress.Any, TCPPort));
//create a server driver
var udpServer = new ModbusServer(new ModbusTcpCodec());
udpServer.OutgoingData += DriverOutgoingData;
udpServer.IncommingData += DriverIncommingData;
//listen for an incoming request
_listener = _socket.GetUdpListener(udpServer);
_listener.ServeCommand += listener_ServeCommand;
_listener.Start();
AppendLog(String.Format("Listening to UDP port {0}", TCPPort));
break;
case CommunicationMode.TCP:
_socket = new Socket(AddressFamily.InterNetwork, SocketType.Stream, ProtocolType.Tcp);
_socket.Bind(new IPEndPoint(IPAddress.Any, TCPPort));
_socket.Listen(10);
//create a server driver
_thread = new Thread(Worker);
_thread.Start();
AppendLog(String.Format("Listening to TCP port {0}", TCPPort));
break;
}
}
catch (Exception ex)
{
AppendLog(ex.Message);
return;
}
btnConnect.Enabled = false;
buttonDisconnect.Enabled = true;
grpExchange.Enabled = true;
groupBoxTCP.Enabled = false;
groupBoxRTU.Enabled = false;
groupBoxMode.Enabled = false;
}
public void startServer()
{
modbusServer = new ModbusServer();
modbusServer.UnitIdentifier = 255;
modbusServer.holdingRegisters[1012] = 1100;
modbusServer.holdingRegisters[1022] = 1200;
modbusServer.holdingRegisters[1032] = 1300;
modbusServer.holdingRegisters[1042] = 1400;
modbusServer.holdingRegisters[1052] = 1500;
modbusServer.HoldingRegistersChanged += holdingRegistersChanged;
modbusServer.NumberOfConnectedClientsChanged += ModbusServer_NumberOfConnectedClientsChanged;
modbusServer.Listen();
Console.WriteLine("ModbusTCP server started");
while (true)
{
try
{
var read = Console.ReadLine().Trim();
if (read.Contains(" "))
{
var addressAndValue = read.Split(' ');
var address = int.Parse(addressAndValue[0]);
var value = short.Parse(addressAndValue[1]);
modbusServer.holdingRegisters[address] = value;
}
else if (read == "q4" || read == "p4")
{
for (int i = 0; i < modbusServer.holdingRegisters.localArray.Length; i++)
{
if (modbusServer.holdingRegisters[i] != 0)
{
PrintHoldingRegister(i);
}
}
}
else if (read == "exit" || read == "quit")
{
break;
}
}
catch (Exception ex)
{
Console.WriteLine(ex.Message);
}
}
modbusServer.StopListening();
}
private void AddServerMethod()
{
var server = new ModbusServer {
Port = port
};
server.Listen();
server.HoldingRegistersChanged += Ser_HoldingRegistersChanged;
servers.Add(server);
MessageBox.Show("Server added.");
server.holdingRegisters[0] = 11; // register is changed, but no event is fired
}
/// <summary>
/// Method for removing modbus server - returns null if server does not exist
/// </summary>
/// <param name="unitId"></param>
/// <returns></returns>
public static ModbusServer RemoveServer(Int32 port)
{
ModbusServer serverToReturn = null;
if (ModbusFactory._allServers.ContainsKey(port))
{
StopListening(port);
serverToReturn = ModbusFactory._allServers[port];
ModbusFactory._allServers.Remove(port);
}
return(serverToReturn);
}
static async Task RunServerAsync()
{
//InternalLoggerFactory.DefaultFactory.AddProvider(new ConsoleLoggerProvider((s, level) => true, false));
ModbusResponse response = new ModbusResponse();
ModbusServer server = new ModbusServer(response);
await server.Start();
Console.WriteLine("Server Started");
Console.ReadLine();
await server.Stop();
}
public async Task ServerStartTest()
{
int port = 0;
using (var testServer = new MiniTestServer())
{
testServer.Start();
port = testServer.Port;
}
using var server = new ModbusServer(port);
await server.Initialization;
Assert.IsTrue(server.IsRunning);
}
public HttpXmlReader()
{
try
{
EventLogInit();
_modbusServer = new ModbusServer();
Config = new Config();
ReConfigur();
StartServer();
}
catch (Exception ex)
{
_eventLog.WriteEntry($"Constructor ex: " + ex.Message, System.Diagnostics.EventLogEntryType.Error);
}
}
/// <summary>
/// Method for creating a new server and return it
/// Returns existing server = if server of given port exists
/// </summary>
/// <param name="port"></param>
/// <returns></returns>
private static ModbusServer CreateServer(Int32 port)
{
ModbusServer serverToReturn = null;
if (ModbusFactory._allServers.ContainsKey(port))
{
serverToReturn = ModbusFactory._allServers[port];
}
else
{
serverToReturn = new ModbusServer();
serverToReturn.Port = port;
ModbusFactory._allServers[port] = serverToReturn;
}
return(serverToReturn);
}
private void AcceptClient(IAsyncResult ar)
{
if (!(ar.AsyncState is Socket listener))
{
return;
}
try
{
var client = listener.EndAccept(ar);
var address = client?.RemoteEndPoint.ToString();
if (address != null)
{
Trace.TraceInformation("ModbusSlave: Client connected " + address);
_connectedMasters.Add(client);
Connected?.Invoke(address);
LastAccess = DateTime.Now;
var codec = new ModbusTcpCodec();
var server = new ModbusServer(codec)
{
Address = Id
};
var host = new TcpServer(client, server)
{
IdleTimeout = 60
};
host.ServeCommand += ListenerServeCommand;
host.Start();
host.Disconnected += () => OnClientDisconnected(client, address);
}
listener.BeginAccept(AcceptClient, listener);
}
catch (ObjectDisposedException)
{
// listener terminated
}
catch (Exception ex)
{
Trace.TraceError(ex.Message);
}
}
private static Task MainAsync()
{
using (var mbs = new ModbusServer())
{
mbs.AddDevice(1);
mbs.Initialization.GetAwaiter().GetResult();
Console.WriteLine("Server started");
while (true)
{
var register = mbs.GetHoldingRegister(1, 0);
if (register.Value == 99)
{
break;
}
Console.WriteLine($"Holding register 0: {register}");
Thread.Sleep(1000);
}
Console.WriteLine("Server closed");
}
return(Task.CompletedTask);
}
static async Task RunServerAsync()
{
//InternalLoggerFactory.DefaultFactory.AddProvider(new ConsoleLoggerProvider((s, level) => true, false));
ModbusResponse response = new ModbusResponse();
ModbusServer server = new ModbusServer(response);
await server.Start();
Console.WriteLine("Server Started");
//打开PLC
try
{
MyBuffer.S71200.Open();
}
catch (Exception ex)
{
Console.WriteLine(ex.Message);
goto exitprog;
}
//new 即 start(),所以不能在定义处new
MyBuffer.myTimer = new System.Threading.Timer(MyBuffer.Display, "Processing timer event", 2000, 10000);
Console.ReadLine();
exitprog:
if (MyBuffer.myTimer != null)
{
MyBuffer.myTimer.Dispose();
Console.WriteLine("myTimer Disposed");
}
if (MyBuffer.S71200.IsConnected)
{
Console.WriteLine("S71200 Closed");
MyBuffer.S71200.Close();
}
await server.Stop();
}
public override void Run(CancellationToken token)
{
//create an UART port
using (var uart = new SerialPortEx())
{
//open the serial port
uart.PortName = HardwareModel.Instance.SerialPort;
uart.Open();
var prm = new SerialPortParams(
HardwareModel.Instance.SerialSettings,
false);
uart.SetParams(prm);
//create a server driver
var server = new ModbusServer(new ModbusRtuCodec());
server.Address = (byte)HardwareModel.Instance.Address;
while (token.IsCancellationRequested == false)
{
//wait for an incoming connection
var listener = uart.GetServer(server);
listener.ServeCommand += new ServeCommandHandler(ListenerServeCommand);
listener.Start();
while (listener.IsRunning)
{
if (token.IsCancellationRequested)
{
listener.Abort();
}
else
{
Thread.Sleep(1);
}
}
}
}
}
public override void Run(CancellationToken token)
{
//create a TCP socket
using (var socket = new Socket(AddressFamily.InterNetwork, SocketType.Stream, ProtocolType.Tcp))
{
//place it as listener on the specified port
var ept = new IPEndPoint(
IPAddress.Any,
HardwareModel.Instance.NetworkPort
);
socket.Bind(ept);
socket.Listen(10);
//create a server driver
var server = new ModbusServer(new ModbusTcpCodec());
server.Address = (byte)HardwareModel.Instance.Address;
while (token.IsCancellationRequested == false)
{
//wait for an incoming connection
var listener = socket.GetTcpListener(server);
listener.ServeCommand += new ServeCommandHandler(ListenerServeCommand);
listener.Start();
while (listener.IsRunning)
{
if (token.IsCancellationRequested)
{
listener.Abort();
}
else
{
Thread.Sleep(1);
}
}
}
}
}
/// <summary>
/// Initializes a new instance of the <see cref="MainWindow"/> class.
/// </summary>
public MainWindow() : base(Gtk.WindowType.Toplevel)
{
Build();
statusbar1.TooltipText = "";
//Modbus client initialize and read - just for testing
modbusClient = new ModbusClient(ipAddress, port);
modbusClient.Baudrate = baudRate;
modbusClient.Connect();
if (modbusClient.Connected)
{
bool[] readCoils = modbusClient.ReadCoils(0, 2);
modbusClient.Disconnect();
}
//Modbus server
modbusServer = new ModbusServer();
modbusServer.Baudrate = baudRate;
modbusServer.Listen();
modbusServer.StopListening();
}
private void button1_Click(object sender, EventArgs e)
{
if (statusServer.Text == "offline")
{
modbusServer = new EasyModbus.ModbusServer();
modbusServer.holdingRegisters = new EasyModbus.ModbusServer.HoldingRegisters(modbusServer);
modbusServer.holdingRegisters[5] = 99; //Для примера зададим одному из регистров конкретное значение
statusServer.Text = "online";
statusServer.ForeColor = Color.Green;
modbusServer.Listen();
Console.Read();
}
else
{
modbusServer.StopListening();
statusServer.Text = "offline";
statusServer.ForeColor = Color.Crimson;
}
}
/// <summary>
/// Running thread handler
/// </summary>
protected void Worker()
{
var server = new ModbusServer(new ModbusTcpCodec()) { Address = SlaveId };
server.IncommingData += DriverIncommingData;
server.OutgoingData += DriverOutgoingData;
try
{
while (_thread.ThreadState == ThreadState.Running)
{
//wait for an incoming connection
_listener = _socket.GetTcpListener(server);
_listener.ServeCommand += listener_ServeCommand;
_listener.Start();
AppendLog(String.Format("Accepted connection."));
Thread.Sleep(1);
}
}
catch (Exception ex)
{
String msg = ex.Message;
}
}
void SetEnableds(bool val)
{
var gogo = true;
if (!val)
{
if (startAddr.Text.Trim() == "")
{
startAddr.Focus();
return;
}
if (endAddr.Text.Trim() == "")
{
endAddr.Text = startAddr.Text;
}
if (startRange.Text.Trim() == "")
{
startRange.Focus();
return;
}
if (endRange.Text.Trim() == "")
{
endRange.Text = (Convert.ToInt32(startRange.Text) + 100).ToString();
}
if (IsServer.Checked)
{
_mbSrv = new ModbusServer();
_mbSrv._output += (byte[] bytes, string type) =>
Log?.Invoke(type + " : " + BitConverter.ToString(TrimeZeros(bytes)).Replace('-', ' '));
if (radioButton1.Checked)
{
_mbSrv.Port = Convert.ToInt32(port.Text);
_mbSrv.Listen();
}
else
{
if (serialPort.Items.Count <= 0)
{
MessageBox.Show("Comport yok dedik ya..");
return;
}
_mbSrv.SerialPort = serialPort.SelectedItem.ToString();
_mbSrv.StopBits = System.IO.Ports.StopBits.One;
_mbSrv.Parity = System.IO.Ports.Parity.None;
_mbSrv.Baudrate = Convert.ToInt32(baudRate.Text);
}
_mbSrv.UnitIdentifier = Convert.ToByte(uID.Text);
}
else
{
_mbClt = new ModbusClient(ipAddr.Text, Convert.ToInt32(port.Text))
{
UnitIdentifier = Convert.ToByte(uID.Text)
};
_mbClt._output += (byte[] bytes, string type) =>
Log?.Invoke(type + " : " + BitConverter.ToString(TrimeZeros(bytes)).Replace('-', ' '));
try
{
_mbClt.Connect();
}
catch (Exception ex)
{
gogo = false;
MessageBox.Show(ex.Message);
}
}
if (!gogo)
{
return;
}
running = true;
Task.Run(async() =>
{
var dly = Convert.ToInt32(delay.Text);
var startAddress = Convert.ToInt32(startAddr.Text);
var endAddress = Convert.ToInt32(endAddr.Text);
var startRn = Convert.ToInt32(startRange.Text);
var endRn = Convert.ToInt32(endRange.Text);
while (running)
{
if (randomWriteChk.Checked)
{
if (IsServer.Checked)
{
for (int i = startAddress; i < endAddress; i++)
{
var rndVal = Convert.ToInt32(_rnd.Next(startRn, endRn >= 65536 ? 65535 : endRn));
if (rndVal >= 32768)
{
rndVal = ((65536 - rndVal) * -1);
}
var booVal = _rnd.Next(0, 2) == 1;
if (radHR.Checked)
{
_mbSrv.holdingRegisters.localArray[i] = Convert.ToInt16(rndVal);
}
else if (radIR.Checked)
{
_mbSrv.inputRegisters.localArray[i] = Convert.ToInt16(rndVal);
}
else if (radCO.Checked)
{
_mbSrv.coils.localArray[i] = booVal;
}
else if (radDis.Checked)
{
_mbSrv.discreteInputs.localArray[i] = booVal;
}
}
}
else
{
if (radHR.Checked)
{
List <int> _values = new List <int>();
for (int i = startAddress; i < endAddress; i++)
{
var rndVal = _rnd.Next(startRn, endRn >= 65536 ? 65535 : endRn);
if (rndVal >= 32768)
{
rndVal = ((65536 - rndVal) * -1);
}
_values.Add(rndVal);
}
_mbClt.WriteMultipleRegisters(startAddress, _values.ToArray());
}
else if (radCO.Checked)
{
List <bool> _values = new List <bool>();
for (int i = startAddress; i < endAddress; i++)
{
_values.Add(_rnd.Next(0, 2) == 1);
}
_mbClt.WriteMultipleCoils(startAddress, _values.ToArray());
}
}
}
await Task.Delay(dly);
}
});
}
else
{
running = false;
if (IsServer.Checked)
{
_mbSrv.StopListening();
}
else
{
_mbClt.Disconnect();
}
}
button2.Enabled = !val;
button1.Enabled = val;
startAddr.Enabled = val;
endAddr.Enabled = val;
startRange.Enabled = val;
endRange.Enabled = val;
delay.Enabled = val;
port.Enabled = val;
uID.Enabled = val;
radioButton1.Enabled = val;
radioButton2.Enabled = val;
showSignalPanel.Enabled = !val;
}
public InputRegisters(ModbusServer modbusServer)
{
this.modbusServer = modbusServer;
}
public DiscreteInputs(ModbusServer modbusServer)
{
this.modbusServer = modbusServer;
}
public Coils(ModbusServer modbusServer)
{
this.modbusServer = modbusServer;
}
//ModbusClient easyModbusTCPClient;
public Server()
{
InitializeComponent();
easyModbusTCPServer = new EasyModbus.ModbusServer();
}
public HoldingRegisters(ModbusServer modbusServer)
{
this.modbusServer = modbusServer;
}
public static void Main()
{
#if MASTER_TCP || MASTER_UDP || SLAVE_TCP || SLAVE_UDP
//setup the board IP
NetworkInterface.GetAllNetworkInterfaces()[0]
.EnableStaticIP("192.168.0.99", "255.255.255.0", "192.168.0.1");
string localip = NetworkInterface.GetAllNetworkInterfaces()[0]
.IPAddress;
Debug.Print("The local IP address of your Netduino Plus is " + localip);
//define coils, inputs, and analogs
_inputs = new InputPort[8];
_coils = new OutputPort[6];
_analogs = new AnalogInput[6];
_inputs[0] = new InputPort(Pins.GPIO_PIN_D0, true, Port.ResistorMode.PullUp);
_inputs[1] = new InputPort(Pins.GPIO_PIN_D1, true, Port.ResistorMode.PullUp);
_inputs[2] = new InputPort(Pins.GPIO_PIN_D2, true, Port.ResistorMode.PullUp);
_inputs[3] = new InputPort(Pins.GPIO_PIN_D3, true, Port.ResistorMode.PullUp);
_inputs[4] = new InputPort(Pins.GPIO_PIN_D4, true, Port.ResistorMode.PullUp);
_inputs[5] = new InputPort(Pins.GPIO_PIN_D5, true, Port.ResistorMode.PullUp);
_inputs[6] = new InputPort(Pins.GPIO_PIN_D6, true, Port.ResistorMode.PullUp);
_inputs[7] = new InputPort(Pins.GPIO_PIN_D7, true, Port.ResistorMode.PullUp);
_coils[0] = new OutputPort(Pins.GPIO_PIN_D8, false);
_coils[1] = new OutputPort(Pins.GPIO_PIN_D9, false);
_coils[2] = new OutputPort(Pins.GPIO_PIN_D10, false);
_coils[3] = new OutputPort(Pins.GPIO_PIN_D11, false);
_coils[4] = new OutputPort(Pins.GPIO_PIN_D12, false);
_coils[5] = new OutputPort(Pins.GPIO_PIN_D13, false);
_analogs[0] = new AnalogInput(Pins.GPIO_PIN_A0);
_analogs[1] = new AnalogInput(Pins.GPIO_PIN_A1);
_analogs[2] = new AnalogInput(Pins.GPIO_PIN_A2);
_analogs[3] = new AnalogInput(Pins.GPIO_PIN_A3);
_analogs[4] = new AnalogInput(Pins.GPIO_PIN_A4);
_analogs[5] = new AnalogInput(Pins.GPIO_PIN_A5);
#else
//define coils, inputs, and analogs
_inputs = new InputPort[4];
_coils = new OutputPort[6];
_analogs = new AnalogInput[6];
_inputs[0] = new InputPort(Pins.GPIO_PIN_D4, true, Port.ResistorMode.PullUp);
_inputs[1] = new InputPort(Pins.GPIO_PIN_D5, true, Port.ResistorMode.PullUp);
_inputs[2] = new InputPort(Pins.GPIO_PIN_D6, true, Port.ResistorMode.PullUp);
_inputs[3] = new InputPort(Pins.GPIO_PIN_D7, true, Port.ResistorMode.PullUp);
_coils[0] = new OutputPort(Pins.GPIO_PIN_D8, false);
_coils[1] = new OutputPort(Pins.GPIO_PIN_D9, false);
_coils[2] = new OutputPort(Pins.GPIO_PIN_D10, false);
_coils[3] = new OutputPort(Pins.GPIO_PIN_D11, false);
_coils[4] = new OutputPort(Pins.GPIO_PIN_D12, false);
_coils[5] = new OutputPort(Pins.GPIO_PIN_D13, false);
_analogs[0] = new AnalogInput(Pins.GPIO_PIN_A0);
_analogs[1] = new AnalogInput(Pins.GPIO_PIN_A1);
_analogs[2] = new AnalogInput(Pins.GPIO_PIN_A2);
_analogs[3] = new AnalogInput(Pins.GPIO_PIN_A3);
_analogs[4] = new AnalogInput(Pins.GPIO_PIN_A4);
_analogs[5] = new AnalogInput(Pins.GPIO_PIN_A5);
#endif
#if MASTER_TCP
//create a TCP socket
using (var socket = new Socket(AddressFamily.InterNetwork, SocketType.Stream, ProtocolType.Tcp))
{
//refine the socket settings
socket.SetSocketOption(
SocketOptionLevel.Tcp,
SocketOptionName.NoDelay,
true
);
socket.SendTimeout = 2000;
socket.ReceiveTimeout = 2000;
//try the connection against the remote device
var remoteip = new byte[4] {
192, 168, 0, 60
};
var ipaddr = new IPAddress(remoteip);
var ept = new IPEndPoint(ipaddr, 502);
socket.Connect(ept);
//create a wrapper around the socket
ICommClient portClient = socket.GetClient();
//create a client driver
var driver = new ModbusClient(new ModbusTcpCodec());
driver.Address = 1;
while (true)
{
//compose the Modbus command to be submitted
var command = new ModbusCommand(ModbusCommand.FuncWriteMultipleRegisters);
command.Offset = 49;
command.Count = 4;
//attach the Netduino's input values as data
command.Data = new ushort[4];
for (int i = 0; i < 4; i++)
{
command.Data[i] = (ushort)(_inputs[i].Read() ? 0 : 1);
}
//execute the command synchronously
CommResponse result = driver
.ExecuteGeneric(portClient, command);
if (result.Status == CommResponse.Ack)
{
//command successfully
}
else
{
//some error
Debug.Print("Error=" + command.ExceptionCode);
}
//just a small delay
Thread.Sleep(1000);
}
}
#endif
#if MASTER_UDP
//create a UDP socket
using (var socket = new Socket(AddressFamily.InterNetwork, SocketType.Dgram, ProtocolType.Udp))
{
//try the connection against the remote device
var remoteip = new byte[4] {
192, 168, 0, 60
};
var ipaddr = new IPAddress(remoteip);
var ept = new IPEndPoint(ipaddr, 502);
socket.Connect(ept);
//create a wrapper around the socket
ICommClient portClient = socket.GetClient();
//create a client driver
var driver = new ModbusClient(new ModbusTcpCodec());
driver.Address = 1;
while (true)
{
//compose the Modbus command to be submitted
var command = new ModbusCommand(ModbusCommand.FuncReadMultipleRegisters);
command.Offset = 0;
command.Count = 16;
//execute the command synchronously
CommResponse result = driver
.ExecuteGeneric(portClient, command);
if (result.Status == CommResponse.Ack)
{
//command successfully
Debug.Print("Success!");
for (int i = 0; i < command.Count; i++)
{
Debug.Print("Reg#" + i + "=" + command.Data[i]);
}
}
else
{
//some error
Debug.Print("Error=" + command.ExceptionCode);
}
//just a small delay
Thread.Sleep(1000);
}
}
#endif
#if MASTER_RTU
//create an UART port
using (var uart = new SerialPort("COM2", 38400, Parity.Even, 8))
{
//open the serial port
uart.Open();
var prm = new SerialPortParams("38400,E,8,1");
//create a wrapper around the uart
ICommClient portClient = uart
.GetClient(prm);
//create a client driver
var driver = new ModbusClient(new ModbusRtuCodec());
driver.Address = 1;
while (true)
{
//compose the Modbus command to be submitted
var command = new ModbusCommand(ModbusCommand.FuncWriteMultipleRegisters);
command.Offset = 49;
command.Count = 4;
//attach the Netduino's input values as data
command.Data = new ushort[4];
for (int i = 0; i < 4; i++)
{
command.Data[i] = (ushort)(_inputs[i].Read() ? 0 : 1);
}
//execute the command synchronously
CommResponse result = driver
.ExecuteGeneric(portClient, command);
if (result.Status == CommResponse.Ack)
{
//command successfully
}
else
{
//some error
Debug.Print("Error=" + command.ExceptionCode);
}
//just a small delay
Thread.Sleep(1000);
}
}
#endif
#if SLAVE_RTU
//create an UART port
using (var uart = new SerialPort("COM2", 38400, Parity.Even, 8))
{
//open the serial port
uart.Open();
var prm = new SerialPortParams("38400,E,8,1");
//create a server driver
var server = new ModbusServer(new ModbusRtuCodec());
server.Address = 1;
//listen for an incoming request
var listener = uart.GetListener(server);
listener.ServeCommand += new ServeCommandHandler(listener_ServeCommand);
listener.Start();
Thread.Sleep(Timeout.Infinite);
}
#endif
#if SLAVE_TCP
//create a TCP socket
using (var socket = new Socket(AddressFamily.InterNetwork, SocketType.Stream, ProtocolType.Tcp))
{
//place it as listener on the port 502 (standard Modbus)
var ept = new IPEndPoint(IPAddress.Any, 502);
socket.Bind(ept);
socket.Listen(10);
//create a server driver
var server = new ModbusServer(new ModbusTcpCodec());
server.Address = 1;
while (true)
{
//wait for an incoming connection
var listener = socket.GetTcpListener(server);
listener.ServeCommand += new ServeCommandHandler(listener_ServeCommand);
listener.Start();
Thread.Sleep(1);
}
}
#endif
#if SLAVE_UDP
//create a UDP socket
using (var socket = new Socket(AddressFamily.InterNetwork, SocketType.Dgram, ProtocolType.Udp))
{
//bind it to the port 502 (standard Modbus)
var ept = new IPEndPoint(IPAddress.Any, 502);
socket.Bind(ept);
//create a server driver
var server = new ModbusServer(new ModbusTcpCodec());
server.Address = 1;
//listen for an incoming request
var listener = socket.GetUdpListener(server);
listener.ServeCommand += new ServeCommandHandler(listener_ServeCommand);
listener.Start();
Thread.Sleep(Timeout.Infinite);
}
#endif
}
