internal ENetPeer(IPEndPoint Address, ushort IncomingPeerID, ENetProtocolConnect packet, ENetChannelTypeLayout channelLayout)
{
this.Address = Address;
this.SessionID = packet.SessionID;
this.MTU = packet.MTU < PROTOCOL_MINIMUM_MTU ? PROTOCOL_MINIMUM_MTU : packet.MTU > PROTOCOL_MAXIMUM_MTU ? PROTOCOL_MAXIMUM_MTU : packet.MTU;
this.FragmentLength = (MTU - ENetCommand.SEND_FRAGMENT.Size()) - sizeof(ENetProtocolHeader);
this.OutgoingPeerID = packet.OutgoingPeerID;
this.IncomingPeerID = IncomingPeerID;
this.WindowSize = PROTOCOL_MAXIMUM_WINDOW_SIZE > packet.WindowSize ? packet.WindowSize : PROTOCOL_MAXIMUM_WINDOW_SIZE;
this.Channels = new ConcurrentDictionary<byte, ENetChannel>();
for(byte i = 0; i < channelLayout.ChannelCount(); i++){
Channels[i] = new ENetChannel(channelLayout[i]);
}
}
private ENetPeer? HandleConnect(IPEndPoint from, ENetProtocolConnect packet)
{
lock (connectionLock)
{
foreach (var peer in Peers)
{
if (peer.Value.Address.Equals(from) && peer.Value.SessionID == packet.SessionID) return null;
}
ushort peerId;
if (!AvailablePeerIds.TryDequeue(out peerId)) return null; //No peers available within the client limit
ENetPeer newPeer = new ENetPeer(from, peerId, packet, ChannelLayout);
((IDictionary)Peers).Add(peerId, newPeer);
return newPeer;
}
}
