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fixing the library

This commit is contained in:
atef 2024-06-10 15:44:21 +02:00
parent c19c32a1ec
commit 0357980b3a
5 changed files with 13 additions and 359 deletions
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10
csharp/App/Backend/DataTypes/Methods/Session.cs
View File

@ -75,14 +75,14 @@ public static class SessionMethods
await Task.Run(() =>
{
Process process = new Process();
var process = new Process();
process.StartInfo.FileName = "/bin/bash";
process.StartInfo.Arguments = $"{scriptPath} {vpnIp} {batteryNode} {version}";
process.StartInfo.UseShellExecute = false;
process.StartInfo.RedirectStandardOutput = true;
process.Start();
string output = process.StandardOutput.ReadToEnd();
var output = process.StandardOutput.ReadToEnd();
process.WaitForExit();
Console.WriteLine(output);
});
@ -121,7 +121,7 @@ public static class SessionMethods
//Salimax installation
if (installation.Product==0)
if (installation.Product == 0)
{
return user is not null
&& user.UserType != 0
@ -134,7 +134,7 @@ public static class SessionMethods
}
if (installation.Product==1)
if (installation.Product == 1)
{
return user is not null
&& user.UserType != 0
@ -153,7 +153,7 @@ public static class SessionMethods
var original = Db.GetInstallationById(installation?.Id);
//Salimax installation
if (installation.Product==0)
if (installation.Product == 0)
{
return user is not null

4
csharp/App/SaliMax/src/AggregationService/Aggregator.cs
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@ -227,8 +227,8 @@ public static class Aggregator
Console.WriteLine($"Max SOC: {aggregatedData.MaxSoc}");
Console.WriteLine($"Min SOC: {aggregatedData.MinSoc}");
Console.WriteLine($"ChargingBatteryPower: {aggregatedData.DischargingBatteryPower}");
Console.WriteLine($"DischargingBatteryBattery: {aggregatedData.ChargingBatteryPower}");
Console.WriteLine($"DischargingBatteryBattery: {aggregatedData.DischargingBatteryPower}");
Console.WriteLine($"ChargingBatteryPower: {aggregatedData.ChargingBatteryPower}");
Console.WriteLine($"SumGridExportPower: {aggregatedData.GridExportPower}");
Console.WriteLine($"SumGridImportPower: {aggregatedData.GridImportPower}");

83
csharp/Lib/Devices/IEM3kGridMeter/IEM3kGridMeterDevice.cs
View File

@ -1,4 +1,4 @@
/*using InnovEnergy.Lib.Protocols.Modbus.Channels;
using InnovEnergy.Lib.Protocols.Modbus.Channels;
using InnovEnergy.Lib.Protocols.Modbus.Clients;
using InnovEnergy.Lib.Protocols.Modbus.Slaves;
using InnovEnergy.Lib.Utils;
@ -49,83 +49,4 @@ public class Iem3KGridMeterDevice: ModbusDevice<Iem3KGridMeterRegisters>
}
}*/
using InnovEnergy.Lib.Protocols.Modbus.Channels;
using InnovEnergy.Lib.Protocols.Modbus.Clients;
using InnovEnergy.Lib.Protocols.Modbus.Slaves;
using InnovEnergy.Lib.Utils;
using System;
namespace InnovEnergy.Lib.Devices.IEM3kGridMeter
{
public class Iem3KGridMeterDevice : ModbusDevice<Iem3KGridMeterRegisters>
{
private readonly string _hostname;
private readonly ushort _port;
private readonly byte _slaveId;
public Iem3KGridMeterDevice(string hostname, ushort port = 502, byte slaveId = 1)
: this(new TcpChannel(hostname, port), slaveId)
{
_hostname = hostname ?? throw new ArgumentNullException(nameof(hostname));
_port = port;
_slaveId = slaveId;
}
private Iem3KGridMeterDevice(TcpChannel channel, byte slaveId = 1)
: base(new ModbusTcpClient(channel, slaveId))
{
_hostname = channel.Host;
_port = channel.Port;
_slaveId = slaveId;
Console.WriteLine($"Initializing Iem3KGridMeterDevice with channel: {channel.Host}:{channel.Port}");
}
public Iem3KGridMeterDevice(ModbusClient client)
: base(client)
{
if (client is ModbusTcpClient tcpClient)
{
_hostname = tcpClient.Channel.Host;
_port = tcpClient.Channel.Port;
_slaveId = tcpClient.SlaveId;
}
else
{
throw new ArgumentException("Invalid client type", nameof(client));
}
Console.WriteLine("Initializing Iem3KGridMeterDevice with ModbusClient");
}
public new Iem3KGridMeterRegisters? Read()
{
try
{
Console.WriteLine($"Attempting to read data from {_hostname}:{_port} with slaveId {_slaveId}");
return base.Read();
}
catch (Exception ex)
{
Console.WriteLine($"Failed to read data from {nameof(Iem3KGridMeterDevice)}: {ex.Message}");
return null;
}
}
public new void Write(Iem3KGridMeterRegisters registers)
{
try
{
base.Write(registers);
}
catch (Exception ex)
{
Console.WriteLine($"Failed to write data to {nameof(Iem3KGridMeterDevice)}: {ex.Message}");
}
}
}
}
}

104
csharp/Lib/Protocols/Modbus/Channels/TcpChannel.cs
View File

@ -2,7 +2,7 @@ using System.Net.Sockets;
using InnovEnergy.Lib.Protocols.Modbus.Protocol;
using InnovEnergy.Lib.Utils.Net;
/*namespace InnovEnergy.Lib.Protocols.Modbus.Channels;
namespace InnovEnergy.Lib.Protocols.Modbus.Channels;
public class TcpChannel : ConnectionChannel<TcpClient>
{
@ -82,104 +82,4 @@ public class TcpChannel : ConnectionChannel<TcpClient>
var array = data.ToArray();
tcpClient.GetStream().Write(array, 0, array.Length);
}
}*/
using System;
using System.Net.Sockets;
namespace InnovEnergy.Lib.Protocols.Modbus.Channels
{
public class TcpChannel : Channel, IDisposable
{
public string Host { get; }
public ushort Port { get; }
private const int TimeoutMs = 500; // TODO: parametrize
private Socket? Socket { get; set; }
private byte[] Buffer { get; }
public TcpChannel(string hostname, ushort port)
{
Host = hostname ?? throw new ArgumentNullException(nameof(hostname));
Port = port;
Buffer = new byte[8192]; // Buffer size can be adjusted
}
public override IReadOnlyList<byte> Read(int nBytes)
{
if (Socket == null)
throw new InvalidOperationException("Socket is not connected.");
var buffer = new byte[nBytes];
int bytesRead = 0;
while (bytesRead < nBytes)
{
var read = Socket.Receive(buffer, bytesRead, nBytes - bytesRead, SocketFlags.None);
if (read == 0)
throw new Exception("Socket closed.");
bytesRead += read;
}
return buffer;
}
public override void Write(IReadOnlyList<byte> bytes)
{
if (Socket == null)
throw new InvalidOperationException("Socket is not connected.");
Socket.Send(bytes.ToArray(), SocketFlags.None);
}
public void Connect()
{
if (Socket != null)
return;
Socket = new Socket(SocketType.Stream, ProtocolType.Tcp)
{
Blocking = true,
NoDelay = true,
LingerState = new LingerOption(false, 0),
ReceiveTimeout = TimeoutMs,
SendTimeout = TimeoutMs
};
var cts = new CancellationTokenSource();
cts.CancelAfter(TimeoutMs);
try
{
Socket.ConnectAsync(Host, Port).Wait(TimeoutMs);
}
catch
{
Socket = null;
throw;
}
}
public void Disconnect()
{
if (Socket == null)
return;
try
{
Socket.Close();
}
finally
{
Socket = null;
}
}
public void Dispose()
{
Disconnect();
}
}
}
}

171
csharp/Lib/Protocols/Modbus/Clients/ModbusTcpClient.cs
View File

@ -12,7 +12,7 @@ namespace InnovEnergy.Lib.Protocols.Modbus.Clients;
using UInt16s = IReadOnlyCollection<UInt16>;
using Booleans = IReadOnlyCollection<Boolean>;
/*public class ModbusTcpClient : ModbusClient
public class ModbusTcpClient : ModbusClient
{
public const UInt16 DefaultPort = 502;
private UInt16 _Id;
@ -184,171 +184,4 @@ using Booleans = IReadOnlyCollection<Boolean>;
return new MbData(rxFrm.RegistersRead.RawData, readAddress, Endian);
}
}*/
public class ModbusTcpClient : ModbusClient
{
public const ushort DefaultPort = 502;
private ushort _Id;
public TcpChannel Channel { get; }
public ModbusTcpClient(TcpChannel channel, byte slaveId) : base(channel, slaveId)
{
Channel = channel;
Channel.Connect();
}
private ushort NextId() => unchecked(++_Id);
public override MbData ReadCoils(ushort readAddress, ushort nValues)
{
var id = NextId(); // TODO: check response id
var cmd = new ReadCoilsCommandFrame(SlaveId, readAddress, nValues);
var hdr = new MbapHeader(id, cmd.Data.Count);
var frm = new ModbusTcpFrame(hdr, cmd);
Channel.Write(frm.Data);
var hData = Channel.Read(MbapHeader.Size).ToArray();
var rxHdr = new MbapHeader(hData);
var rxFrm = Channel
.Read(rxHdr.FrameLength)
.ToArray()
.Apply(ReadCoilsResponseFrame.Parse)
.Apply(cmd.VerifyResponse);
return new MbData(rxFrm.Coils.RawData, readAddress, Endian);
}
public override MbData ReadDiscreteInputs(ushort readAddress, ushort nValues)
{
var id = NextId(); // TODO: check response id
var cmd = new ReadDiscreteInputsCommandFrame(SlaveId, readAddress, nValues);
var hdr = new MbapHeader(id, cmd.Data.Count);
var frm = new ModbusTcpFrame(hdr, cmd);
Channel.Write(frm.Data);
var hData = Channel.Read(MbapHeader.Size).ToArray();
var rxHdr = new MbapHeader(hData);
var rxFrm = Channel
.Read(rxHdr.FrameLength)
.ToArray()
.Apply(ReadDiscreteInputsResponseFrame.Parse)
.Apply(cmd.VerifyResponse);
return new MbData(rxFrm.Inputs.RawData, readAddress, Endian);
}
public override MbData ReadInputRegisters(ushort readAddress, ushort nValues)
{
var id = NextId(); // TODO: check response id
var cmd = new ReadInputRegistersCommandFrame(SlaveId, readAddress, nValues);
var hdr = new MbapHeader(id, cmd.Data.Count);
var frm = new ModbusTcpFrame(hdr, cmd);
Channel.Write(frm.Data);
var hData = Channel.Read(MbapHeader.Size).ToArray();
var rxHdr = new MbapHeader(hData);
var rxFrm = Channel
.Read(rxHdr.FrameLength)
.ToArray()
.Apply(ReadInputRegistersResponseFrame.Parse)
.Apply(cmd.VerifyResponse);
return new MbData(rxFrm.RegistersRead.RawData, readAddress, Endian);
}
public override MbData ReadHoldingRegisters(ushort readAddress, ushort nValues)
{
var id = NextId(); // TODO: check response id
var cmd = new ReadHoldingRegistersCommandFrame(SlaveId, readAddress, nValues);
var hdr = new MbapHeader(id, cmd.Data.Count);
var frm = new ModbusTcpFrame(hdr, cmd);
Channel.Write(frm.Data);
var hData = Channel.Read(MbapHeader.Size).ToArray();
var rxHdr = new MbapHeader(hData);
var rxFrm = Channel
.Read(rxHdr.FrameLength)
.ToArray()
.Apply(ReadHoldingRegistersResponseFrame.Parse)
.Apply(cmd.VerifyResponse);
return new MbData(rxFrm.RegistersRead.RawData, readAddress, Endian);
}
public override ushort WriteCoils(ushort writeAddress, Booleans coils)
{
var id = NextId(); // TODO: check response id
var cmd = new WriteCoilsCommandFrame(SlaveId, writeAddress, coils);
var hdr = new MbapHeader(id, cmd.Data.Count);
var frm = new ModbusTcpFrame(hdr, cmd);
Channel.Write(frm.Data);
var hData = Channel.Read(MbapHeader.Size).ToArray();
var rxHdr = new MbapHeader(hData);
var rxFrm = Channel
.Read(rxHdr.FrameLength)
.ToArray()
.Apply(WriteCoilsResponseFrame.Parse)
.Apply(cmd.VerifyResponse);
return rxFrm.NbWritten;
}
public override ushort WriteRegisters(ushort writeAddress, UInt16s values)
{
var id = NextId(); // TODO: check response id
var cmd = new WriteRegistersCommandFrame(SlaveId, writeAddress, values);
var hdr = new MbapHeader(id, cmd.Data.Count);
var frm = new ModbusTcpFrame(hdr, cmd);
Channel.Write(frm.Data);
var hData = Channel.Read(MbapHeader.Size).ToArray();
var rxHdr = new MbapHeader(hData);
var rxFrm = Channel
.Read(rxHdr.FrameLength)
.ToArray()
.Apply(WriteRegistersResponseFrame.Parse)
.Apply(cmd.VerifyResponse);
return rxFrm.NbWritten;
}
public override MbData ReadWriteRegisters(ushort readAddress, ushort nbToRead, ushort writeAddress, UInt16s registersToWrite)
{
var id = NextId(); // TODO: check response id
var cmd = new ReadWriteRegistersCommandFrame(SlaveId, readAddress, nbToRead, writeAddress, registersToWrite);
var hdr = new MbapHeader(id, cmd.Data.Count);
var frm = new ModbusTcpFrame(hdr, cmd);
Channel.Write(frm.Data);
var hData = Enumerable.ToArray(Channel.Read(MbapHeader.Size));
var rxHdr = new MbapHeader(hData);
var fData = Enumerable.ToArray(Channel.Read(rxHdr.FrameLength));
var rxFrm = fData
.Apply(ReadWriteRegistersResponseFrame.Parse)
.Apply(cmd.VerifyResponse);
return new MbData(rxFrm.RegistersRead.RawData, readAddress, Endian);
}
}
}