/// <summary>
/// This method start the .
/// </summary>
public void Start()
{
int size = 0;
TrafficType traffTypes;
lock (ThreadTypeData)
{
if (idxThreadTypeData < ThreadTypeData.Length)
{
traffTypes = ThreadTypeData[idxThreadTypeData];
Thread.CurrentThread.Name = "Reflector_MCtoUC_" + traffTypes.ToString();
idxThreadTypeData++;
}
else
{
throw new Exception(Strings.CreatedThreadsExceedThreadTypesDefined);
}
}
#region Assigning appropriate sockets to "(mc/uc)(Ref/Srv)Sock"
// The Ref(erence) socket variables are assigned to the socket protocol that this thread is not listening on
// but may use for inter-protocol communication. For example if mcSrvSock is an IPv4 socket, mcRefSock would be
// an IPv6 socket and vice versa.
IPEndPoint ipepTmpRef = null;
IPEndPoint ipepTmpSrv = null;
Socket ucRefSock = null;
Socket mcSrvSock = null;
Socket ucSrvSock = null;
int ucPort = 0;
int mcPort = 0;
switch (traffTypes)
{
case TrafficType.IPv4RTCP:
ucPort = ReflectorMgr.ReflectorUnicastRTPListenPort + 1;
mcPort = ReflectorMgr.ReflectorMulticastRTPListenPort + 1;
ipepTmpRef = new IPEndPoint(IPAddress.IPv6Any, 0);
ipepTmpSrv = new IPEndPoint(IPAddress.Any, 0);
ucRefSock = ReflectorMgr.Sockets.SockUCv6RTCP;
mcSrvSock = ReflectorMgr.Sockets.SockMCv4RTCP;
ucSrvSock = ReflectorMgr.Sockets.SockUCv4RTCP;
break;
case TrafficType.IPv6RTCP:
ucPort = ReflectorMgr.ReflectorUnicastRTPListenPort + 1;
mcPort = ReflectorMgr.ReflectorMulticastRTPListenPort + 1;
ipepTmpSrv = new IPEndPoint(IPAddress.IPv6Any, 0);
ipepTmpRef = new IPEndPoint(IPAddress.Any, 0);
ucRefSock = ReflectorMgr.Sockets.SockUCv4RTCP;
mcSrvSock = ReflectorMgr.Sockets.SockMCv6RTCP;
ucSrvSock = ReflectorMgr.Sockets.SockUCv6RTCP;
break;
case TrafficType.IPv4RTP:
ucPort = ReflectorMgr.ReflectorUnicastRTPListenPort;
mcPort = ReflectorMgr.ReflectorMulticastRTPListenPort;
ipepTmpRef = new IPEndPoint(IPAddress.IPv6Any, 0);
ipepTmpSrv = new IPEndPoint(IPAddress.Any, 0);
ucRefSock = ReflectorMgr.Sockets.SockUCv6RTP;
mcSrvSock = ReflectorMgr.Sockets.SockMCv4RTP;
ucSrvSock = ReflectorMgr.Sockets.SockUCv4RTP;
break;
case TrafficType.IPv6RTP:
ucPort = ReflectorMgr.ReflectorUnicastRTPListenPort;
mcPort = ReflectorMgr.ReflectorMulticastRTPListenPort;
ipepTmpSrv = new IPEndPoint(IPAddress.IPv6Any, 0);
ipepTmpRef = new IPEndPoint(IPAddress.Any, 0);
ucRefSock = ReflectorMgr.Sockets.SockUCv4RTP;
mcSrvSock = ReflectorMgr.Sockets.SockMCv6RTP;
ucSrvSock = ReflectorMgr.Sockets.SockUCv6RTP;
break;
default:
Debug.Assert(false);
throw new ArgumentException(Strings.InvalidTrafficTypeCombination);
}
#endregion
IList <IPEndPoint> members = new List <IPEndPoint>();
byte[] buf = new byte[1500];
while (true)
{
try
{
EndPoint sourceEP = new IPEndPoint(IPAddress.Any, 0);
IPPacketInformation ipPackInfo;
SocketFlags flags = SocketFlags.None;
size = mcSrvSock.ReceiveMessageFrom(buf, 0, buf.Length, ref flags, ref sourceEP,
out ipPackInfo);
IPEndPoint sourceIpe = (IPEndPoint)sourceEP;
registrar.MarkIPAddressAsUsingMulticast(sourceIpe.Address);
// If the packet's source address is the reflector's IP address then this packet
// was forwarded from Unicast to Multicast by the reflector. So, we shouldn't
// forward it to UC again. Also, "AND" this condition with source port
// equal to 7004/7005 to have the support running the reflector and CXPClient on the
// same machine.
if ((sourceIpe.Port != ucPort) || (!sourceIpe.Address.Equals(ReflectorMgr.MulticastInterfaceIP) &&
!sourceIpe.Address.Equals(ReflectorMgr.IPv6MulticastInterfaceIP)))
{
if ((traffTypes & TrafficType.RTP) == TrafficType.RTP)
{
ReflectorMgr.PC[ReflectorPC.ID.MulticastPacketsReceivedOther]++;
}
// Lookup the members of this multicast group.
IPEndPoint multicastEP = new IPEndPoint(ipPackInfo.Address, mcPort);
registrar.MemberLookup(members, multicastEP);
if (members.Count != 0)
{
// Send the data to each individual.
for (int j = 0; j < members.Count; j++)
{
if (members[j].AddressFamily == ucSrvSock.AddressFamily)
{
ucSrvSock.SendTo(buf, 0, size, SocketFlags.None, members[j]);
}
else if ((ucRefSock != null) && (members[j].AddressFamily == ucRefSock.AddressFamily))
{
ucRefSock.SendTo(buf, 0, size, SocketFlags.None, members[j]);
}
}
if ((traffTypes & TrafficType.RTP) == TrafficType.RTP)
{
ReflectorMgr.PC[ReflectorPC.ID.MCtoUCPacketsSent] += members.Count;
}
}
}
else if ((traffTypes & TrafficType.RTP) == TrafficType.RTP)
{
ReflectorMgr.PC[ReflectorPC.ID.MulticastPacketsReceivedSelf]++;
}
}
// On stopping the service, avoid the AbortException written in the event viewer
catch (ThreadAbortException) {}
catch (Exception e) // Connection reset by peer! this happens occasionally when a UC client leaves.
{
eventLog.WriteEntry(string.Format(CultureInfo.CurrentCulture, Strings.MCtoUCListenerException,
traffTypes, e.ToString()), EventLogEntryType.Warning, (int)ReflectorEventLog.ID.MCtoUCException);
}
}
}
