/// <summary>
/// HerzschlagRequest der Verbindung
/// </summary>
/// Sendet zyklich ein Telegramm an das Gateway dass die Verbindung noch aktiv ist
internal void Heartbeat()
{
try
{
if (ConnectionState != KnxConnectionState.connected) // Upps, da stimmt was mit der Verbindung nicht
{
HandleWrongConnectionState();
}
if (ConnectionState == KnxConnectionState.connected)
{
KnxIpTelegrammGenerator Tele = new KnxIpTelegrammGenerator(this);
Tele.SetHeartbeatTelegramm();
byte[] TeleBytes = Tele.bytes;
// KnxNetForm
Debug("H>:" + KnxTools.BytesToString(TeleBytes));
udpClient.Send(TeleBytes, TeleBytes.Length);
ConnectionState = KnxConnectionState.hbReq;
}
else
{
Err("Err: Heartbeat: State =" + ConnectionState.ToString());
}
}
catch (Exception e)
{
Err("Err: Heartbeat: " + e.ToString());
}
return;
}
/// <summary>
/// Schließen der Verbindung
/// </summary>
/// <returns>Rückgabewert true bedeutet die Verbindung konnte geschlossen werden</returns>
public bool Close()
{
try
{
KnxIpTelegrammGenerator Tele = new KnxIpTelegrammGenerator(this);
Tele.SetDisconnectTelegramm();
byte[] TeleBytes = Tele.bytes;
//KnxNetForm.tb_Log.AppendText(Environment.NewLine + "C>:" + KnxTools.BytesToString(TeleBytes));
Debug("C>:" + KnxTools.BytesToString(TeleBytes));
udpClient.Send(TeleBytes, TeleBytes.Length);
ConnectionState = KnxConnectionState.disConReq;
// Warten auf Antwort, maximal OpenTimeout Sekunden
int i = 0;
while ((i < 10 * OpenTimeout) & (ConnectionState != KnxConnectionState.disconnected))
{
System.Threading.Thread.Sleep(100);
i++;
}
// Den Heartbeat Timer stoppen
//timerHeartbeat.Stop();
int Anz = (int)ar.AsyncState;
IPEndPoint e = new IPEndPoint(IPAddress.Any, 0);
try
{
udpClient.EndReceive(ar, ref e);
udpClient.Close();
}
catch (InvalidOperationException ex)
{
}
timerHeartbeat.Stop();
}
catch (Exception e)
{
Err("Close: " + e.ToString());
}
return(ConnectionState == KnxConnectionState.disconnected);
}
/// <summary>
/// Öffnen der Verbindung
/// </summary>
/// <param name="gatewayIp"> IP Adresse des KnxIp-Gateways</param>
/// <returns>Rückgabewert true bedeutet die Verbindung konnte geöffnet werden</returns>
public bool Open(string gatewayIp)
{
this.gatewayIp = gatewayIp;
//InitUdp();
try
{
udpClient.Connect(gatewayIp, gatewayPort);
myIP = ((IPEndPoint)udpClient.Client.LocalEndPoint).Address;
KnxIpTelegrammGenerator Tele = new KnxIpTelegrammGenerator(this);
Tele.SetConnectTelegramm();
byte[] TeleBytes = Tele.bytes;
//KnxNetForm.tb_Log.AppendText(Environment.NewLine + "O>:" + KnxTools.BytesToString(TeleBytes));
Debug("O>:" + KnxTools.BytesToString(TeleBytes));
udpClient.Send(TeleBytes, TeleBytes.Length);
ConnectionState = KnxConnectionState.conReq;
}
catch (Exception e)
{
Err("Open: " + e.ToString());
}
// nun den Listener starten
ar = udpClient.BeginReceive(new AsyncCallback(ReceiveCallback), AnzTelegramme);
// Warten auf Antwort, maximal OpenTimeout Sekunden
int i = 0;
while ((i < 10 * OpenTimeout) & (ConnectionState != KnxConnectionState.connected))
{
System.Threading.Thread.Sleep(100);
i++;
}
// Den Heartbeat Timer starten
timerHeartbeat.Start();
return(ConnectionState == KnxConnectionState.connected);
}
/// <summary>
/// Diese Funktion wird vom UDP-Client aufgerufen wenn ein neues Telegramm eingetroffen ist
/// </summary>
/// <param name="ar"></param>
public void ReceiveCallback(IAsyncResult ar)
{
int Anz = (int)ar.AsyncState;
IPEndPoint e = new IPEndPoint(IPAddress.Any, 0);
Byte[] receiveBytes = udpClient.EndReceive(ar, ref e);
Anz++;
Debug("Empf: Telegr[" + Anz + "]=" + KnxTools.BytesToString(receiveBytes));
int AnzBytes = receiveBytes.Length;
if (AnzBytes < 7)
{
Err("Err: Telegramm zu kurz, wird verworfen. " + KnxTools.BytesToString(receiveBytes));
return;
}
try
{
// prüfen ob es ein ControlTelegramm ist
if (receiveBytes[2] == 0x02)
{ // es ist ein Controlltelegramm
switch (receiveBytes[3])
{
case 0x01: // Search Request
Debug("Search Request from Gateway");
Debug("<S:" + KnxTools.BytesToString(receiveBytes));
break;
case 0x02: // Search Response
_channelId = receiveBytes[6];
Debug("Search Response from Gateway");
Debug("<s:" + KnxTools.BytesToString(receiveBytes));
break;
case 0x03: // Description Request
Debug("Description Request from Gateway");
Debug("<D:" + KnxTools.BytesToString(receiveBytes));
break;
case 0x04: // Description Response
_channelId = receiveBytes[6];
Debug("Description Response from Gateway");
Debug("<d:" + KnxTools.BytesToString(receiveBytes));
break;
case 0x05: // Connect Request
Info("Connection Request from Gateway");
Debug("<O:" + KnxTools.BytesToString(receiveBytes));
break;
case 0x06: // Connect Response
_channelId = receiveBytes[6];
Info("ChannelId = " + _channelId);
Debug("<o:" + KnxTools.BytesToString(receiveBytes));
if (receiveBytes[7] == 0)
{
ConnectionState = KnxConnectionState.connected;
}
break;
case 0x07: // Heartbeat Request
Debug("HeartbeatRequest for ChannelId = " + _channelId);
Debug("<H:" + KnxTools.BytesToString(receiveBytes));
break;
case 0x08: // Heartbeat Response
Debug("HeartbeatResponse from ChannelId = " + _channelId);
Debug("<h:" + KnxTools.BytesToString(receiveBytes));
if (receiveBytes[7] == 0)
{
ConnectionState = KnxConnectionState.connected;
}
break;
case 0x09: // Disconnect Request
Debug("DisconnectRequest for ChannelId = " + _channelId);
Debug("<C:" + KnxTools.BytesToString(receiveBytes));
break;
case 0x0A: // Disconnect Response
Debug("Disconnected ChannelId = " + _channelId);
Debug("<c:" + KnxTools.BytesToString(receiveBytes));
if (receiveBytes[7] == 0)
{
ConnectionState = KnxConnectionState.disconnected;
}
break;
default:
Debug("<?:" + KnxTools.BytesToString(receiveBytes));
break;
}
}
else if (receiveBytes[2] == 0x04)
{ // es ist kein Controlltelegramm
if (receiveBytes[3] == 0x20)
{ // es ist ein Datentelegramm
// erst ein Ack senden
DataAck(receiveBytes[8]);
// Header entfernen
int idx = 0x0A;
int len = receiveBytes.Length - idx;
byte[] t = new byte[len];
Array.Copy(receiveBytes, idx, t, 0, len);
// und cemi Telegramm daraus erzeugen
cEMI emi = new cEMI(t);
Debug("ReceiveCallback: " + emi.ToString());
// Suchen des passenden HDKnx Objektes
HDKnx hdKnx = HDKnxHandler.GetObject(emi);
// und dort den Wert setzen, falls erforderlich
hdKnx.SetValue(emi);
// und auch das emi übergeben
hdKnx.emi = emi;
// Prüfen auf doppelte Telegramme
if (hdKnx.Equals(last_hdKnx))
{ // verwerfen
//Info("doppeltes Telegramm verworfen:");
}
else
{
//Console.WriteLine("Setze last Telegramm: \r\nvon {0} == \r\nzu {1}",last_hdKnx, hdKnx);
last_hdKnx = new HDKnx(hdKnx.emi);
// Rohdaten melden falls gewünscht
if (rawTelegramReceived != null)
{
rawTelegramReceived(t);
}
// geänderte Daten melden falls gewünscht
if (dataChanged != null)
{
Debug("KnxNet.ReceiveCallback vor dataChanged" + t.ToString());
dataChanged(hdKnx);
Debug("KnxNet.ReceiveCallback nach dataChanged" + t.ToString());
}
if (telegramReceived != null)
{ // Ein Delegate ist eingerichtet, dann diesen aufrufen
telegramReceived(emi);
}
if (QueueEnable)
{ // in Queue speichern
lock (fromKnxQueue)
{
fromKnxQueue.Enqueue(emi);
}
Debug("AddToQueue: " + emi.ToString());
}
}
}
else if (receiveBytes[3] == 0x21)
{ // Bestätigung eines Datentelegramm
Debug("Daten bestätigt status = " + receiveBytes[9]);
}
}
ar = udpClient.BeginReceive(new AsyncCallback(ReceiveCallback), Anz);
}
catch (Exception ex)
{
Err("Err: Telegr[" + Anz + "]=" + KnxTools.BytesToString(receiveBytes));
Err("Err: ReceiveCallback: " + ex.ToString());
ar = udpClient.BeginReceive(new AsyncCallback(ReceiveCallback), Anz);
}
}
