internal void Update(int deltaTime)
{
if (_connectionState == ConnectionState.Disconnected)
{
return;
}
_timeSinceLastPacket += deltaTime;
if (_connectionState == ConnectionState.InProgress)
{
_connectTimer += deltaTime;
if (_connectTimer > _peerListener.ReconnectDelay)
{
_connectTimer = 0;
_connectAttempts++;
if (_connectAttempts > _peerListener.MaxConnectAttempts)
{
_connectionState = ConnectionState.Disconnected;
return;
}
//else send connect again
SendConnectRequest();
}
return;
}
//DebugWrite("[UPDATE]Delta: {0}ms, MaxSend: {1}", deltaTime, currentMaxSend);
//Pending acks
_reliableOrderedChannel.SendAcks();
_reliableUnorderedChannel.SendAcks();
//Send ping
_pingSendTimer += deltaTime;
if (_pingSendTimer >= _peerListener.PingInterval)
{
NetUtils.DebugWrite("[PP] Send ping...");
//reset timer
_pingSendTimer = 0;
//send ping
CreateAndSend(PacketProperty.Ping, _pingSequence);
//reset timer
_pingTimeStart = DateTime.UtcNow;
}
//RTT - round trip time
_rttResetTimer += deltaTime;
if (_rttResetTimer >= RttResetDelay)
{
_rttResetTimer = 0;
//Rtt update
_rtt = _avgRtt;
_ping = _avgRtt;
_peerListener.ConnectionLatencyUpdated(this, _ping);
_rttCount = 1;
}
//MTU - Maximum transmission unit
if (!_finishMtu)
{
_mtuCheckTimer += deltaTime;
if (_mtuCheckTimer >= MtuCheckDelay)
{
_mtuCheckTimer = 0;
_mtuCheckAttempts++;
if (_mtuCheckAttempts >= MaxMtuCheckAttempts)
{
_finishMtu = true;
}
else
{
lock (_mtuMutex)
{
//Send increased packet
if (_mtuIdx < NetConstants.PossibleMtu.Length - 1)
{
int newMtu = NetConstants.PossibleMtu[_mtuIdx + 1] - NetConstants.HeaderSize;
var p = _packetPool.Get(PacketProperty.MtuCheck, newMtu);
p.RawData[1] = (byte)(_mtuIdx + 1);
SendPacket(p);
}
}
}
}
}
//MTU - end
//Pending send
lock (_flushLock)
{
SendQueuedPackets();
}
}
internal void AddIncomingPacket(NetPacket p)
{
if (p.IsFragmented)
{
NetUtils.DebugWrite("Fragment. Id: {0}, Part: {1}, Total: {2}", p.FragmentId, p.FragmentPart, p.FragmentsTotal);
//Get needed array from dictionary
ushort packetFragId = p.FragmentId;
IncomingFragments incomingFragments;
if (!_holdedFragments.TryGetValue(packetFragId, out incomingFragments))
{
incomingFragments = new IncomingFragments
{
Fragments = new NetPacket[p.FragmentsTotal]
};
_holdedFragments.Add(packetFragId, incomingFragments);
}
//Cache
var fragments = incomingFragments.Fragments;
//Error check
if (p.FragmentPart >= fragments.Length || fragments[p.FragmentPart] != null)
{
_packetPool.Recycle(p);
NetUtils.DebugWriteError("Invalid fragment packet");
return;
}
//Fill array
fragments[p.FragmentPart] = p;
//Increase received fragments count
incomingFragments.ReceivedCount++;
//Increase total size
int dataOffset = p.GetHeaderSize() + NetConstants.FragmentHeaderSize;
incomingFragments.TotalSize += p.Size - dataOffset;
//Check for finish
if (incomingFragments.ReceivedCount != fragments.Length)
{
return;
}
NetUtils.DebugWrite("Received all fragments!");
NetPacket resultingPacket = _packetPool.Get(p.Property, incomingFragments.TotalSize);
int resultingPacketOffset = resultingPacket.GetHeaderSize();
int firstFragmentSize = fragments[0].Size - dataOffset;
for (int i = 0; i < incomingFragments.ReceivedCount; i++)
{
//Create resulting big packet
int fragmentSize = fragments[i].Size - dataOffset;
Buffer.BlockCopy(
fragments[i].RawData,
dataOffset,
resultingPacket.RawData,
resultingPacketOffset + firstFragmentSize * i,
fragmentSize);
//Free memory
_packetPool.Recycle(fragments[i]);
fragments[i] = null;
}
//Send to process
_peerListener.ReceiveFromPeer(resultingPacket, _remoteEndPoint);
//Clear memory
_packetPool.Recycle(resultingPacket);
_holdedFragments.Remove(packetFragId);
}
else //Just simple packet
{
_peerListener.ReceiveFromPeer(p, _remoteEndPoint);
_packetPool.Recycle(p);
}
}
//Process incoming packet
internal void ProcessPacket(NetPacket packet)
{
_timeSinceLastPacket = 0;
NetUtils.DebugWrite("[RR]PacketProperty: {0}", packet.Property);
switch (packet.Property)
{
case PacketProperty.ConnectRequest:
//response with connect
long newId = BitConverter.ToInt64(packet.RawData, NetConstants.RequestConnectIdIndex);
if (newId > _connectId)
{
_connectId = newId;
}
NetUtils.DebugWrite("ConnectRequest LastId: {0}, NewId: {1}, EP: {2}", ConnectId, newId, _remoteEndPoint);
SendConnectAccept();
_packetPool.Recycle(packet);
break;
case PacketProperty.Merged:
int pos = NetConstants.HeaderSize;
while (pos < packet.Size)
{
ushort size = BitConverter.ToUInt16(packet.RawData, pos);
pos += 2;
NetPacket mergedPacket = _packetPool.GetAndRead(packet.RawData, pos, size);
if (mergedPacket == null)
{
_packetPool.Recycle(packet);
break;
}
pos += size;
ProcessPacket(mergedPacket);
}
break;
//If we get ping, send pong
case PacketProperty.Ping:
if (NetUtils.RelativeSequenceNumber(packet.Sequence, _remotePingSequence) < 0)
{
_packetPool.Recycle(packet);
break;
}
NetUtils.DebugWrite("[PP]Ping receive, send pong");
_remotePingSequence = packet.Sequence;
_packetPool.Recycle(packet);
//send
CreateAndSend(PacketProperty.Pong, _remotePingSequence);
break;
//If we get pong, calculate ping time and rtt
case PacketProperty.Pong:
if (NetUtils.RelativeSequenceNumber(packet.Sequence, _pingSequence) < 0)
{
_packetPool.Recycle(packet);
break;
}
_pingSequence = packet.Sequence;
int rtt = (int)(DateTime.UtcNow - _pingTimeStart).TotalMilliseconds;
UpdateRoundTripTime(rtt);
NetUtils.DebugWrite("[PP]Ping: {0}", rtt);
_packetPool.Recycle(packet);
break;
//Process ack
case PacketProperty.AckReliable:
_reliableUnorderedChannel.ProcessAck(packet);
_packetPool.Recycle(packet);
break;
case PacketProperty.AckReliableOrdered:
_reliableOrderedChannel.ProcessAck(packet);
_packetPool.Recycle(packet);
break;
//Process in order packets
case PacketProperty.Sequenced:
_sequencedChannel.ProcessPacket(packet);
break;
case PacketProperty.Reliable:
_reliableUnorderedChannel.ProcessPacket(packet);
break;
case PacketProperty.ReliableOrdered:
_reliableOrderedChannel.ProcessPacket(packet);
break;
//Simple packet without acks
case PacketProperty.Unreliable:
AddIncomingPacket(packet);
return;
case PacketProperty.MtuCheck:
case PacketProperty.MtuOk:
ProcessMtuPacket(packet);
break;
default:
NetUtils.DebugWriteError("Error! Unexpected packet type: " + packet.Property);
break;
}
}
/// <summary>
/// Send data to peer
/// </summary>
/// <param name="data">Data</param>
/// <param name="start">Start of data</param>
/// <param name="length">Length of data</param>
/// <param name="options">Send options (reliable, unreliable, etc.)</param>
public void Send(byte[] data, int start, int length, SendOptions options)
{
if (_connectionState == ConnectionState.Disconnected)
{
return;
}
//Prepare
PacketProperty property = SendOptionsToProperty(options);
int headerSize = NetPacket.GetHeaderSize(property);
int mtu = _mtu;
//Check fragmentation
if (length + headerSize > mtu)
{
if (options == SendOptions.Sequenced || options == SendOptions.Unreliable)
{
throw new Exception("Unreliable packet size > allowed (" + (mtu - headerSize) + ")");
}
int packetFullSize = mtu - headerSize;
int packetDataSize = packetFullSize - NetConstants.FragmentHeaderSize;
int fullPacketsCount = length / packetDataSize;
int lastPacketSize = length % packetDataSize;
int totalPackets = fullPacketsCount + (lastPacketSize == 0 ? 0 : 1);
NetUtils.DebugWrite("FragmentSend:\n" +
" MTU: {0}\n" +
" headerSize: {1}\n" +
" packetFullSize: {2}\n" +
" packetDataSize: {3}\n" +
" fullPacketsCount: {4}\n" +
" lastPacketSize: {5}\n" +
" totalPackets: {6}",
mtu, headerSize, packetFullSize, packetDataSize, fullPacketsCount, lastPacketSize, totalPackets);
if (totalPackets > ushort.MaxValue)
{
throw new Exception("Too many fragments: " + totalPackets + " > " + ushort.MaxValue);
}
int dataOffset = headerSize + NetConstants.FragmentHeaderSize;
lock (_sendLock)
{
for (ushort i = 0; i < fullPacketsCount; i++)
{
NetPacket p = _packetPool.Get(property, packetFullSize);
p.FragmentId = _fragmentId;
p.FragmentPart = i;
p.FragmentsTotal = (ushort)totalPackets;
p.IsFragmented = true;
Buffer.BlockCopy(data, i * packetDataSize, p.RawData, dataOffset, packetDataSize);
SendPacket(p);
}
if (lastPacketSize > 0)
{
NetPacket p = _packetPool.Get(property, lastPacketSize + NetConstants.FragmentHeaderSize);
p.FragmentId = _fragmentId;
p.FragmentPart = (ushort)fullPacketsCount; //last
p.FragmentsTotal = (ushort)totalPackets;
p.IsFragmented = true;
Buffer.BlockCopy(data, fullPacketsCount * packetDataSize, p.RawData, dataOffset, lastPacketSize);
SendPacket(p);
}
_fragmentId++;
}
return;
}
//Else just send
NetPacket packet = _packetPool.GetWithData(property, data, start, length);
SendPacket(packet);
}
