public async Task<bool> ProcessDevice(SmlComServiceClient svc, Guid guid, CommunicationPort port, CancellationToken token)
{
// cancellation setup
this.cts?.Cancel();
var timeoutCts = new CancellationTokenSource(TimeSpan.FromMinutes(5));
this.cts = CancellationTokenSource.CreateLinkedTokenSource(timeoutCts.Token, token);
token = cts.Token;
var sw = Stopwatch.StartNew();
try
{
if (!this.IsOccupiedByDevice)
{
Log.Warning($"Station {this.Number} is not assigned by a device (MAC address missing)");
// only use active stations where a device is assigned (by scanning or user action)
return false;
}
var dr = new DeviceRepository();
this.Device = dr.GetOne(this.Device.ServerId);
this.SetStatusMessageAndProgress("Processing started...", 5);
this.Status = StationStatus.Processing;
var rnd = new Random();
var policy = Policy
.Handle<Exception>()
.WaitAndRetryAsync(new[] { TimeSpan.FromSeconds(1), TimeSpan.FromSeconds(1), TimeSpan.FromSeconds(2) });
var portlist = await svc.GetPortListAsync();
if (!portlist.FirstOrDefault(p => p.ComPortName == this.ComAddress).IsInitialized)
{
throw new InvalidOperationException("Service Comport is not initialized!");
}
foreach (var param in this.Device.ParameterList)
{
await Task.Delay(100, token);
if (!param.IsActive)
{
continue;
}
// execute communication with retry policy...
await policy.ExecuteAsync(async () =>
{
this.SetStatusMessageAndProgress($"Writing at {port.ComPortName} parameter {param.TagId} with value {param.TargetValue}...", this.Progress);
switch (param.TagId)
{
case ParameterTagId.ServerId:
var serverId = param.TargetValue.FromHexString();
await svc.WriteServerIdAsync(guid, port, serverId);
var serverIdParam = await svc.ReadServerIdAsync(guid, port);
param.RealValue = serverIdParam.Data.AsHexString("-");
break;
case ParameterTagId.ManufacturerSerialNumber:
await svc.WriteManufacturerSerialNumberAsync(guid, port, param.TargetValue);
var serialNoParam = await svc.ReadManufacturerSerialNoAsync(guid, port);
var serialNoBytes = serialNoParam.Data;
param.RealValue = Encoding.UTF8.GetString(serialNoBytes);
break;
case ParameterTagId.GenerateKeys:
await svc.WriteCreateKeysAsync(guid, port);
param.RealValue = "True";
param.IsWritten = true;
break;
case ParameterTagId.PublicKey:
param.RealValue = (await svc.ReadPublicKeyAsync(guid, port)).Data.AsHexString("-");
break;
case ParameterTagId.PinCodeActive:
var isPinActive = bool.Parse(param.TargetValue);
await svc.WriteIsPinProtectionActiveAsync(guid, port, isPinActive);
param.RealValue = (await svc.ReadIsPinProtectionActiveAsync(guid, port)).Data.ToString();
break;
case ParameterTagId.InitialKeyM:
await svc.WriteInitialSymKeyAsync(guid, port, param.TargetValue.FromHexString());
param.RealValue = (await svc.ReadInitialSymKeyAsync(guid, port)).Data.AsHexString("-");
break;
case ParameterTagId.PinCode:
await svc.WritePinAsync(guid, port, param.TargetValue);
param.RealValue = param.TargetValue;
param.IsWritten = true;
break;
case ParameterTagId.MeasurementMode:
await svc.WriteMeasurementModeAsync(guid, port, param.TargetValue);
param.RealValue = $"MM{(await svc.ReadMeasurementModeAsync(guid, port)).Data}";
break;
case ParameterTagId.GridOption:
var isGridOption = bool.Parse(param.TargetValue);
await svc.WriteEnableGridOptionAsync(guid, port, isGridOption);
param.RealValue = (await svc.ReadEnableGridOptionAsync(guid, port)).Data.ToString();
break;
case ParameterTagId.TarifOptionActive:
var isTariffActive = bool.Parse(param.TargetValue);
await svc.WriteEnableTariffFunctionAsync(guid, port, isTariffActive);
param.RealValue = (await svc.ReadEnableTariffFunctionAsync(guid, port)).Data.ToString();
break;
case ParameterTagId.InverseTariffControl:
var isInverse = bool.Parse(param.TargetValue);
await svc.WriteIsTerminalControlReverseAsync(guid, port, isInverse);
param.RealValue = (await svc.ReadIsTerminalControlReverseAsync(guid, port)).Data.ToString();
break;
case ParameterTagId.BaudRateConfigurable:
var isBaudrateConfigurable = bool.Parse(param.TargetValue);
await svc.WriteEnableBaudRateSettingAsync(guid, port, isBaudrateConfigurable);
param.RealValue = (await svc.ReadEnableBaudRateSettingAsync(guid, port)).Data.ToString();
break;
case ParameterTagId.BaudRate:
break;
case ParameterTagId.Type:
param.RealValue = param.TargetValue;
param.IsWritten = true;
break;
case ParameterTagId.Eigentumsnummer:
param.RealValue = param.TargetValue;
param.IsWritten = true;
break;
default:
throw new InvalidEnumArgumentException();
}
this.SetStatusMessageAndProgress($"{port.ComPortName} parameter {param.TagId} with value {param.TargetValue} write OK...", this.Progress += 5);
});
}
this.Device.SetAllParametersWritten(true);
sw.Stop();
Log.Warning("Device completed in {@sw}!", sw.Elapsed);
// update database
this.Device.ProducedAt = DateTime.Now;
// dr.Update(device);
this.LastProducedDeviceServerId = this.Device.ServerId;
this.SetStatusMessageAndProgress("Processed", 100);
this.Status = StationStatus.ProcessingCompleted;
await Task.Delay(TimeSpan.FromSeconds(1), token);
return true;
}
catch (OperationCanceledException)
{
Log.Warning("Station {s} cancelled", this.Number);
this.SetStatusMessageAndProgress($"Cancelled", 0);
}
catch (Exception ex)
{
Log.Error(ex, "Station {s} failed", this.Number);
this.SetStatusMessageAndProgress($"Error: {ex.Message}", 0);
this.Status = StationStatus.Error;
}
return false;
}
public void DeleteOrder(Order order)
{
if (order == null)
{
throw new ArgumentNullException(nameof(order));
}
var o = GetOne(order.OrderNo);
if (o == null)
{
throw new NullReferenceException($"Order with no {order.OrderNo} not found");
}
var dr = new DeviceRepository();
dr.GetAllOfOrder(o.OrderNo).ForEach(d =>
{
this.deviceRepo.Delete(d);
});
this.orderRepo.Delete(o.Id);
}