using System;
using System.IO;
using System.IO.Ports;
using System.Net.Sockets;
using System.Text;
using System.Threading.Tasks;
namespace Elwig.Helpers.Weighing {
public class SystecScale : IScale {
protected enum Output { RTS, DTR, OUT1, OUT2 };
protected SerialPort? Serial = null;
protected SerialPort? ControlSerialEmpty = null, ControlSerialFilling = null;
protected TcpClient? Tcp = null;
protected Stream Stream;
protected readonly Output? EmptyMode = null;
protected readonly Output? FillingClearanceMode = null;
protected readonly int EmptyDelay;
public string Manufacturer => "SysTec";
public int InternalScaleNr => 1;
public string Model { get; private set; }
public string ScaleId { get; private set; }
public bool IsReady { get; private set; }
public bool HasFillingClearance { get; private set; }
public int? WeightLimit { get; private set; }
public string? LogPath { get; private set; }
public SystecScale(string id, string model, string connection, string? empty = null, string? filling = null, int? limit = null, string? log = null) {
ScaleId = id;
Model = model;
IsReady = true;
HasFillingClearance = false;
LogPath = log;
if (connection.StartsWith("serial:")) {
Serial = Utils.OpenSerialConnection(connection);
Stream = Serial.BaseStream;
} else if (connection.StartsWith("tcp:")) {
Tcp = Utils.OpenTcpConnection(connection);
Stream = Tcp.GetStream();
} else {
throw new ArgumentException("Unsupported scheme");
}
if (empty != null) {
var parts = empty.Split(':');
if (parts.Length == 3) {
if (parts[0] != Serial?.PortName)
ControlSerialEmpty = Utils.OpenSerialConnection($"serial://{parts[0]}:9600");
} else if (parts.Length != 2) {
throw new ArgumentException("Invalid value for 'empty'");
}
EmptyMode = ConvertOutput(parts[^2]);
EmptyDelay = int.Parse(parts[^1]);
}
WeightLimit = limit;
if (filling != null) {
var parts = filling.Split(':');
if (parts.Length == 2) {
if (parts[0] != Serial?.PortName)
ControlSerialFilling = parts[0] != ControlSerialEmpty?.PortName ? Utils.OpenSerialConnection($"serial://{parts[0]}:9600") : ControlSerialEmpty;
} else if (parts.Length != 1) {
throw new ArgumentException("Invalid value for 'filling'");
}
FillingClearanceMode = ConvertOutput(parts[^1]);
}
if (FillingClearanceMode != null && WeightLimit == null)
throw new ArgumentException("Weight limit has to be set, if filling clearance supervision is enabled");
}
public void Dispose() {
Stream.Close();
Serial?.Close();
ControlSerialEmpty?.Close();
ControlSerialFilling?.Close();
Tcp?.Close();
GC.SuppressFinalize(this);
}
protected static Output? ConvertOutput(string? value) {
return value switch {
null => null,
"RTS" => Output.RTS,
"DTR" => Output.DTR,
"OUT1" => Output.OUT1,
"OUT2" => Output.OUT2,
_ => throw new ArgumentException($"Invalid value for argument: '{value}'"),
};
}
protected async Task SendCommand(string command) {
byte[] bytes = Encoding.ASCII.GetBytes($"<{command}>");
await Stream.WriteAsync(bytes);
if (LogPath != null) await File.AppendAllTextAsync(LogPath, $"<{command}>");
}
protected async Task<string> ReceiveResponse() {
string? line = null;
using (var reader = new StreamReader(Stream, Encoding.ASCII, false, -1, true)) {
line = await reader.ReadLineAsync();
if (LogPath != null) await File.AppendAllTextAsync(LogPath, $"{line}\r\n");
}
if (line == null || line.Length < 4 || !line.StartsWith("<") || !line.EndsWith(">")) {
throw new IOException("Invalid response from scale");
}
var error = line[1..3];
if (error[0] == '0') {
if (error[1] != '0') {
throw new IOException($"Invalid response from scale (error code {error})");
}
} else if (error[0] == '1') {
string msg = $"Unbekannter Fehler (Fehler code {error})";
switch (error[1]) {
case '1': msg = "Allgemeiner Waagenfehler"; break;
case '2': msg = "Waage in Überlast"; break;
case '3': msg = "Waage in Bewegung"; break;
case '5': msg = "Tarierungs- oder Nullsetzfehler"; break;
case '6': msg = "Drucker nicht bereit"; break;
case '7': msg = "Druckmuster enthält ungültiges Kommando"; break;
}
throw new IOException($"Waagenfehler {error}: {msg}");
} else if (error[0] == '3') {
string msg = $"Unbekannter Fehler (Fehler code {error})";
switch (error[1]) {
case '1': msg = "Übertragunsfehler"; break;
case '2': msg = "Ungültiger Befehl"; break;
case '3': msg = "Ungültiger Parameter"; break;
}
throw new IOException($"Kommunikationsfehler {error}: {msg}");
} else {
throw new IOException($"Invalid response from scale (error code {error})");
}
return line[1..^1];
}
protected async Task<WeighingResult> Weigh(bool incIdentNr) {
await SendCommand(incIdentNr ? $"RN{InternalScaleNr}" : $"RM{InternalScaleNr}");
string record = await ReceiveResponse();
if (record.Length != 62)
throw new IOException("Invalid response from scale: Received record has invalid size");
var line = record[2..];
var status = line[ 0.. 2];
var date = line[ 2..10];
var time = line[10..15];
var identNr = line[15..19].Trim();
var scaleNr = line[19..20];
var brutto = line[20..28].Trim();
var tara = line[28..36].Trim();
var netto = line[36..44].Trim();
var unit = line[44..46];
var taraCode = line[46..48];
var zone = line[48..49].Trim();
var terminalNr = line[49..52].Trim();
var crc16 = line[52..60].Trim();
if (Utils.CalcCrc16Modbus(record[..54]) != ushort.Parse(crc16)) {
throw new IOException($"Invalid response from scale: Invalid CRC16 checksum ({crc16} != {Utils.CalcCrc16Modbus(record[..54]).ToString()})");
} else if (unit != "kg") {
throw new IOException($"Unsupported unit in weighing response: '{unit}'");
}
identNr = identNr.Length > 0 && identNr != "0" ? identNr : null;
var parsedDate = DateOnly.Parse(date);
return new() {
Weight = int.Parse(netto),
WeighingId = identNr,
FullWeighingId = identNr != null ? $"{parsedDate:yyyy-MM-dd}/{identNr}" : null,
Date = parsedDate,
Time = TimeOnly.Parse(time),
};
}
public async Task<WeighingResult> Weigh() {
return await Weigh(true);
}
public async Task<WeighingResult> GetCurrentWeight() {
return await Weigh(false);
}
public async Task Empty() {
SerialPort? p = ControlSerialEmpty ?? Serial;
if (EmptyMode == Output.RTS && p != null) {
p.RtsEnable = true;
await Task.Delay(EmptyDelay);
p.RtsEnable = false;
} else if (EmptyMode == Output.DTR && p != null) {
p.DtrEnable = true;
await Task.Delay(EmptyDelay);
p.DtrEnable = false;
} else if (EmptyMode == Output.OUT1 || EmptyMode == Output.OUT2) {
int output = EmptyMode == Output.OUT1 ? 1 : 2;
await SendCommand($"OS{output:00}");
await ReceiveResponse();
await Task.Delay(EmptyDelay);
await SendCommand($"OC{output:00}");
await ReceiveResponse();
}
}
protected async Task SetFillingClearance(bool status) {
SerialPort? p = ControlSerialFilling ?? Serial;
if (FillingClearanceMode == Output.RTS && p != null) {
p.RtsEnable = status;
} else if (FillingClearanceMode == Output.DTR && p != null) {
p.DtrEnable = status;
} else if (FillingClearanceMode == Output.OUT1 || FillingClearanceMode == Output.OUT2) {
string cmd = status ? "OS" : "OC";
int output = FillingClearanceMode == Output.OUT1 ? 1 : 2;
await SendCommand($"{cmd}{output:00}");
await ReceiveResponse();
}
}
public async Task GrantFillingClearance() {
await SetFillingClearance(true);
}
public async Task RevokeFillingClearance() {
await SetFillingClearance(false);
}
}
}