public byte[] GetBytesCemi() { TunnelCemiRequest builder = new TunnelCemiRequest(); builder.Build(UnicastAddress.FromString("0.0.0"), DestinationAddress, ApciTypes.Connect, 255); return(builder.GetBytes()); }
public byte[] GetBytesCemi() { TunnelCemiRequest builder = new TunnelCemiRequest(); builder.Build(SourceAddress, DestinationAddress, ApciTypes.GroupValueWrite, 255, _data); return(builder.GetBytes()); }
public byte[] GetBytesCemi() { TunnelCemiRequest builder = new TunnelCemiRequest(); builder.Build(UnicastAddress.FromString("0.0.0"), MulticastAddress.FromString("0/0/0"), ApciTypes.IndividualAddressRead); return(builder.GetBytes()); }
public byte[] GetBytesCemi() { TunnelCemiRequest builder = new TunnelCemiRequest(); builder.Build(UnicastAddress.FromString("0.0.0"), DestinationAddress, ApciTypes.DeviceDescriptorRead, SequenceNumber); return(builder.GetBytes()); }
public byte[] GetBytesCemi() { TunnelCemiRequest builder = new TunnelCemiRequest(); builder.Build(MulticastAddress.FromString("0/0/0"), MulticastAddress.FromString("0/0/0"), ApciTypes.IndividualAddressWrite, 255, _address.GetBytes()); builder.SetPriority(Prios.System); return(builder.GetBytes()); }
public byte[] GetBytesCemi() { TunnelCemiRequest builder = new TunnelCemiRequest(); byte[] data = { ObjectIndex, PropertyId, 0x10, 0x01 }; builder.Build(UnicastAddress.FromString("0.0.0"), DestinationAddress, ApciTypes.PropertyValueRead, SequenceNumber, data); return(builder.GetBytes()); }
public byte[] GetBytesCemi() { TunnelCemiRequest builder = new TunnelCemiRequest(); List <byte> data = new List <byte>(); data.AddRange(Serial); data.AddRange(NewAddress.GetBytes()); data.AddRange(new byte[] { 0, 0, 0, 0 }); builder.Build(UnicastAddress.FromString("0.0.0"), MulticastAddress.FromString("0/0/0"), ApciTypes.IndividualAddressSerialNumberWrite, 255, data.ToArray()); builder.SetPriority(Prios.System); return(builder.GetBytes()); }
public byte[] GetBytesCemi() { TunnelCemiRequest builder = new TunnelCemiRequest(); List <byte> data = new List <byte> { Convert.ToByte(Data.Length) }; byte[] addr = BitConverter.GetBytes(Convert.ToInt16(Address)); Array.Reverse(addr); data.AddRange(addr); data.AddRange(Data); builder.Build(UnicastAddress.FromString("0.0.0"), DestinationAddress, ApciTypes.MemoryWrite, SequenceNumber, data.ToArray()); return(builder.GetBytes()); }
public byte[] GetBytesCemi() { TunnelCemiRequest builder = new TunnelCemiRequest(); List <byte> data = new List <byte>() { ObjectIndex, PropertyId, PropertyIndex }; builder.Build(UnicastAddress.FromString("0.0.0"), DestinationAddress, ApciTypes.PropertyValueRead, SequenceNumber, data.ToArray()); data = new List <byte>() { 0x11, 0x00 }; data.AddRange(builder.GetBytes()); return(data.ToArray()); }
public byte[] GetBytesCemi() { byte[] send_data = new byte[Data.Length + 4]; send_data[0] = ObjectIndex; send_data[1] = PropertyId; send_data[2] = 0x10; send_data[3] = 0x01; for (int i = 0; i < Data.Length; i++) { send_data[i + 4] = Data[i]; } TunnelCemiRequest builder = new TunnelCemiRequest(); builder.Build(UnicastAddress.FromString("0.0.0"), DestinationAddress, ApciTypes.PropertyValueWrite, SequenceNumber, send_data); return(builder.GetBytes()); }
public byte[] GetBytesCemi() { if (Length > 256) { throw new Exception("Bei cEmi kann maximal 256 Bytes ausgelesen werden. (Angefordert waren " + Length + " bytes)"); } List <byte> data = new List <byte> { BitConverter.GetBytes(Length)[0] }; byte[] addr = BitConverter.GetBytes(Address); data.Add(addr[1]); data.Add(addr[0]); Builders.TunnelCemiRequest builder = new TunnelCemiRequest(); builder.Build(UnicastAddress.FromString("0.0.0"), DestinationAddress, ApciTypes.MemoryRead, SequenceNumber, data.ToArray()); return(builder.GetBytes()); }
private void ProcessReceivingMessages(UdpClient _udpClient) { Debug.WriteLine("Höre jetzt auf: " + (_udpClient.Client.LocalEndPoint as IPEndPoint).Port); Task.Run(async() => { int rofl = 0; try { while (!StopProcessing) { rofl++; var result = await _udpClient.ReceiveAsync(); var knxResponse = _receiveParserDispatcher.Build(result.Buffer); //if(!(knxResponse is SearchResponse)) // Debug.WriteLine("Telegram angekommen: " + knxResponse?.ToString()); switch (knxResponse) { case ConnectStateResponse connectStateResponse: Debug.WriteLine("Connection State Response: " + connectStateResponse.Status.ToString()); switch (connectStateResponse.Status) { case 0x00: IsConnected = true; ConnectionChanged?.Invoke(IsConnected); break; default: Debug.WriteLine("Connection State: Fehler: " + connectStateResponse.Status.ToString()); LastError = ConnectionErrors.NotConnectedToBus; IsConnected = false; ConnectionChanged?.Invoke(IsConnected); break; } break; case ConnectResponse connectResponse: _flagCRRecieved = true; switch (connectResponse.Status) { case 0x00: _sequenceCounter = 0; _communicationChannel = connectResponse.CommunicationChannel; IsConnected = true; ConnectionChanged?.Invoke(IsConnected); PhysicalAddress = connectResponse.ConnectionResponseDataBlock.KnxAddress; Debug.WriteLine("Connected: Eigene Adresse: " + PhysicalAddress.ToString()); break; default: Debug.WriteLine("Connected: Fehler: " + connectResponse.Status.ToString()); LastError = ConnectionErrors.Undefined; IsConnected = false; ConnectionChanged?.Invoke(IsConnected); break; } break; case Builders.TunnelResponse tunnelResponse: if (tunnelResponse.IsRequest && tunnelResponse.DestinationAddress != PhysicalAddress) { Debug.WriteLine("Telegram erhalten das nicht mit der Adresse selbst zu tun hat!"); Debug.WriteLine("Typ: " + tunnelResponse.APCI); Debug.WriteLine("Eigene Adresse: " + PhysicalAddress.ToString()); break; } _sendMessages.Add(new Responses.TunnelResponse(0x06, 0x10, 0x0A, 0x04, _communicationChannel, tunnelResponse.SequenceCounter, 0x00).GetBytes()); //Debug.WriteLine("Telegram APCI: " + tunnelResponse.APCI.ToString()); if (tunnelResponse.APCI.ToString().EndsWith("Response")) { TunnelCemiRequest builder = new TunnelCemiRequest(); builder.Build(UnicastAddress.FromString("0.0.0"), tunnelResponse.SourceAddress, ApciTypes.Ack, tunnelResponse.SequenceNumber); _ = Send(builder.GetBytes(), _sequenceCounter); _sequenceCounter++; //Debug.WriteLine("Got Response " + tunnelResponse.SequenceCounter + " . " + tunnelResponse.SequenceNumber); } else if (tunnelResponse.APCI == ApciTypes.Ack) { OnTunnelAck?.Invoke(new MsgAckRes() { ChannelId = tunnelResponse.CommunicationChannel, SequenceCounter = tunnelResponse.SequenceCounter, SequenceNumber = tunnelResponse.SequenceNumber, SourceAddress = tunnelResponse.SourceAddress, DestinationAddress = tunnelResponse.DestinationAddress }); break; } List <string> temp = new List <string>(); var q = from t in Assembly.GetExecutingAssembly().GetTypes() where t.IsClass && t.IsNested == false && (t.Namespace == "Kaenx.Konnect.Messages.Response" || t.Namespace == "Kaenx.Konnect.Messages.Request") select t; IMessage message = null; foreach (Type t in q.ToList()) { IMessage resp = (IMessage)Activator.CreateInstance(t); if (resp.ApciType == tunnelResponse.APCI) { message = resp; break; } } if (message == null) { //throw new Exception("Kein MessageParser für den APCI " + tunnelResponse.APCI); message = new MsgDefaultRes() { ApciType = tunnelResponse.APCI }; Debug.WriteLine("Kein MessageParser für den APCI " + tunnelResponse.APCI); } message.Raw = tunnelResponse.Data; message.ChannelId = tunnelResponse.CommunicationChannel; message.SequenceCounter = tunnelResponse.SequenceCounter; message.SequenceNumber = tunnelResponse.SequenceNumber; message.SourceAddress = tunnelResponse.SourceAddress; message.DestinationAddress = tunnelResponse.DestinationAddress; switch (CurrentType) { case ProtocolTypes.cEmi: message.ParseDataCemi(); break; case ProtocolTypes.Emi1: message.ParseDataEmi1(); break; case ProtocolTypes.Emi2: message.ParseDataEmi2(); break; default: throw new NotImplementedException("Unbekanntes Protokoll - TunnelResponse KnxIpTunneling"); } if (tunnelResponse.APCI.ToString().EndsWith("Response")) { OnTunnelResponse?.Invoke(message as IMessageResponse); } else { OnTunnelRequest?.Invoke(message as IMessageRequest); } break; case SearchResponse searchResponse: MsgSearchRes msg = new MsgSearchRes(searchResponse.responseBytes); switch (CurrentType) { case ProtocolTypes.cEmi: msg.ParseDataCemi(); break; case ProtocolTypes.Emi1: msg.ParseDataEmi1(); break; case ProtocolTypes.Emi2: msg.ParseDataEmi2(); break; default: throw new NotImplementedException("Unbekanntes Protokoll - SearchResponse KnxIpTunneling"); } OnSearchResponse?.Invoke(msg); break; case TunnelAckResponse tunnelAck: //Do nothing break; case DisconnectResponse disconnectResponse: IsConnected = false; _communicationChannel = 0; ConnectionChanged?.Invoke(IsConnected); break; } } Debug.WriteLine("Stopped Processing Messages " + _udpClient.Client.LocalEndPoint.ToString()); _udpClient.Close(); _udpClient.Dispose(); } catch { } }); }