private void HandleRecvQueue()
{
recvQueue.Switch();
while (!recvQueue.Empty())
{
var recvBufferRaw = recvQueue.Pop();
int ret = kcpObject.Input(recvBufferRaw, recvBufferRaw.Length);
//收到的不是一个正确的KCP包
if (ret < 0)
{
string str = System.Text.Encoding.UTF8.GetString(recvBufferRaw, 0, recvBufferRaw.Length);
DLog.LogFormat("收到了错误的kcp包: {0}", str);
return;
}
needKcpUpdateFlag = true;
for (int size = kcpObject.PeekSize(); size > 0; size = kcpObject.PeekSize())
{
var recvBuffer = new byte[size];
int treclen = kcpObject.Recv(recvBuffer, recvBuffer.Length);
if (treclen > 0)
{
PushRecData(recvBuffer, treclen);
}
}
}
}
private void DoReceiveInMain()
{
m_RecvBufQueue.Switch();
while (!m_RecvBufQueue.Empty())
{
var recvBufferRaw = m_RecvBufQueue.Pop();
int ret = m_Kcp.Input(recvBufferRaw, recvBufferRaw.Length);
//收到的不是一个正确的KCP包
if (ret < 0)
{
Debuger.LogError("收到不正确的KCP包!Ret:{0}", ret);
return;
}
m_NeedKcpUpdateFlag = true;
for (int size = m_Kcp.PeekSize(); size > 0; size = m_Kcp.PeekSize())
{
var recvBuffer = new byte[size];
if (m_Kcp.Recv(recvBuffer) > 0)
{
NetMessage msg = new NetMessage();
msg.Deserialize(recvBuffer, size);
m_listener.OnReceive(this, msg);
}
}
}
}
//void process_connect_packet()
//{
// mRecvQueue.Switch();
// if (!mRecvQueue.Empty())
// {
// var buf = mRecvQueue.Pop();
// //UInt32 conv = 1;
// //KCP.ikcp_decode32u(buf, 0, ref conv);
// //if (conv <= 0)
// // throw new Exception("inlvaid connect back packet");
// //init_kcp(conv);
// //mInConnectStage = false;
// //mConnectSucceed = true;
// //m_connectStatusCallback(NetworkState.Connected);
// //evHandler(cliEvent.Connected, null, null);
// }
//}
void process_recv_queue(UInt32 current)
{
mRecvQueue.Switch();
while (!mRecvQueue.Empty())
{
var buf = mRecvQueue.Pop();
int input= mKcp.Input(buf);
mNeedUpdateFlag = true;
//mKcp.Update(current);
//Debug.Log("process_recv_queue :" + buf.Length + " input:"+ input+" PeekSize:" + mKcp.PeekSize());
for (var size = mKcp.PeekSize(); size > 0; size = mKcp.PeekSize())
{
var buffer = new byte[size];
if (mKcp.Recv(buffer) > 0)
{
int offset = 0;
//Debug.Log("m_byteCallBack ---------");
m_byteCallBack(buffer, ref offset, buffer.Length);
}
}
}
}
private void DoReceiveInMain()
{
recvBufQueue.Switch();
while (!recvBufQueue.Empty())
{
var recvBufferRaw = recvBufQueue.Pop();
int ret = kcp.Input(recvBufferRaw, recvBufferRaw.Length);
if (ret < 0)
{
Debuger.LogError("收到不正确的KCP包!Ret:{0}", ret);
return;
}
needKcpUpdateFlag = true;
for (int size = kcp.PeekSize(); size > 0; size = kcp.PeekSize())
{
var recvBuffer = new byte[size];
if (kcp.Recv(recvBuffer) > 0)
{
listener.OnReceive(this, recvBuffer, size);
}
}
}
}
public static void Update()
{
if (!Connected)
{
return;
}
if (WillDisconnect)
{
Disconnect();
WillDisconnect = false;
return;
}
UpdateTime += FrameReplay.deltaTime;
Kcp.Update((uint)Mathf.FloorToInt(UpdateTime * 1000));
for (var size = Kcp.PeekSize(); size > 0; size = Kcp.PeekSize())
{
var buffer = new byte[size];
int n = Kcp.Recv(buffer);
if (n > 0)
{
PacketProxy.SetBuffer(buffer);
PacketProxy.Analysis(n, Packet);
}
}
}
void HandleRecvQueue()
{
if (_kcpQueue.Count <= 0)
{
return;
}
List <byte[]> kcpData = new List <byte[]>();
lock (_kcpQueue) {
while (_kcpQueue.Count > 0)
{
kcpData.Add(_kcpQueue.Dequeue());
}
}
foreach (byte[] data in kcpData)
{
int ret = _kcp.Input(data);
// invalid kcp package
if (ret < 0)
{
continue;
}
for (int size = _kcp.PeekSize(); size > 0; size = _kcp.PeekSize())
{
var recvBuffer = new byte[size];
if (_kcp.Recv(recvBuffer) > 0)
{
_queue.Enqueue(recvBuffer);
}
}
}
}
private void Update()
{
while (true)
{
if (_receiveMeesages.Count > 0)
{
var buf = _receiveMeesages.Dequeue();
_kcp.Input(buf);
// mNeedUpdateFlag = true;
for (var size = _kcp.PeekSize(); size > 0; size = _kcp.PeekSize())
{
var buffer = new byte[size];
if (_kcp.Recv(buffer) > 0)
{
_reveiveHandler(buffer);
}
}
}
_kcp.Update(iclock());
Thread.Sleep(10);
}
}
private void DoReceiveInMain()
{
recvBufQueue.Switch();
while (!recvBufQueue.Empty())
{
var recvBufferRaw = recvBufQueue.Pop();
int ret = kcp.Input(recvBufferRaw, recvBufferRaw.Length);
if (ret < 0)
{
Debuger.LogError("收到不正确的KCP包!Ret:{0}", ret);
return;
}
needKcpUpdateFlag = true;
for (int size = kcp.PeekSize(); size > 0; size = kcp.PeekSize())
{
var recvBuffer = new byte[size];
if (kcp.Recv(recvBuffer) > 0)
{
if (listener != null)
{
FSPDataCToS data = ProtoBuffUtility.Deserialize <FSPDataCToS>(recvBuffer);
listener(data);
}
else
{
Debuger.LogError("找不到接收者!");
}
}
}
}
}
public int ReceiveData(byte[] ar)
{
if (needSwitchRecvQueue)
{
needSwitchRecvQueue = false;
mRecvQueue.Switch();
while (!mRecvQueue.Empty())
{
var buf = mRecvQueue.Pop();
mKcp.Input(buf);
mNeedUpdateFlag = true;
}
}
for (var size = mKcp.PeekSize(); size > 0; size = mKcp.PeekSize())
{
int recvSize = mKcp.Recv(ar);
if (recvSize > 0)
{
return(recvSize);
}
}
needSwitchRecvQueue = true;
return(0);
}
private void DoReceiveInMain()
{
recvBuffQueue.Switch();
while (!recvBuffQueue.Empty())
{
var recvBufferRaw = recvBuffQueue.Pop();
int ret = kcp.Input(recvBufferRaw, recvBufferRaw.Length);
if (ret < 0)
{
Debuger.LogError("收到不正确的KCP包, Ret:{0}", ret);
return;
}
needKcpUpdateFlag = true;
for (int size = kcp.PeekSize(); size > 0; size = kcp.PeekSize())
{
var recvBuffer = new byte[size];
if (kcp.Recv(recvBuffer) > 0)
{
lastRecvTimestamp = (uint)TimeUtility.GetTotalMillisecondsSince1970();
var data = ProtoBuffUtility.Deserialize <FSPDataSToC>(recvBuffer);
recvListener?.Invoke(data.frame);
}
}
}
}
void process_recv_queue()
{
m_RecvQueue.Switch();
while (!m_RecvQueue.Empty())
{
if (m_Kcp == null)
{//退出
return;
}
var buf = m_RecvQueue.Pop();
if (this.Status == ClientSessionStatus.InConnect)
{
//服务端将返回和握手请求相同的响应数据
uint _index = 0, _key = 0;
if (HandshakeUtility.IsHandshakeDataRight(buf, 0, buf.Length, out _index, out _key))
{
if (_index == m_NetIndex && _key == m_Key)
{
#if DEBUG
Console.WriteLine("连接握手成功");
#endif
this.Status = ClientSessionStatus.Connected;
var e = Event;
if (e != null)
{
m_LastSendTimestamp = UnityEngine.Time.time;
m_LastRecvTimestamp = UnityEngine.Time.time;
e(UdpClientEvents.Connected, null);
}
continue;
}
}
}
m_Kcp.Input(buf);
m_NeedUpdateFlag = true;
for (var size = m_Kcp.PeekSize(); size > 0; size = m_Kcp.PeekSize())
{
var buffer = new byte[size];
if (m_Kcp.Recv(buffer) > 0)
{
m_LastRecvTimestamp = UnityEngine.Time.time;
var e = Event;
if (e != null)
{
e(UdpClientEvents.Recv, buffer);
}
}
}
}
}
private void RecvPendingBuffer()
{
int peekSize = 0;
while ((peekSize = kcp.PeekSize()) > 0)
{
byte[] buff = new byte[peekSize];
kcp.Recv(buff);
pendingRecvBuffer.Enqueue(buff);
}
}
private void DoReceiveInMain()
{
//主线程
m_RecvBufQueue.Switch();
while (!m_RecvBufQueue.Empty())
{
var recvBufferRaw = m_RecvBufQueue.Pop();
int ret = m_Kcp.Input(recvBufferRaw, recvBufferRaw.Length);
//收到的不是一个正确的KCP包
if (ret < 0)
{
Debuger.LogError("收到不正确的KCP包!Ret:{0}", ret);
return;
}
m_NeedKcpUpdateFlag = true;
for (int size = m_Kcp.PeekSize(); size > 0; size = m_Kcp.PeekSize())
{
var recvBuffer = new byte[size];
if (m_Kcp.Recv(recvBuffer) > 0)
{
NetMessage msg = new NetMessage();
msg.Deserialize(recvBuffer, size);
if (msg.head.sid == 0)
{
var errmsg = PBSerializer.NDeserialize <NetErrorMessage>(msg.content);
this.LogWarning("服务器返回错误:{0},{1}", errmsg.code, errmsg.info);
HandleServerError(errmsg.code);
onServerError.InvokeSafe(this, errmsg.code, errmsg.info);
}
else
{
//更新SessionId
if (Id != msg.head.sid)
{
Id = msg.head.sid;
LOG_TAG = "KcpConnection[" + Id + "," + m_localPort + "]";
this.LogWarning("SessionId发生变化:{0}", Id);
}
onReceive.InvokeSafe(msg);
}
}
}
}
}
public void Input(byte[] rcvBuf)
{
_kcp.Input(rcvBuf);
for (var size = _kcp.PeekSize(); size > 0; size = _kcp.PeekSize())
{
byte[] buf = new byte[size];
if (_kcp.Recv(buf) > 0)
{
//Log4U.LogDebug("ASynServerKcp:Input Message receive data=", Encoding.ASCII.GetString(buf));
_recHandler(buf, this);
}
}
}
/// <summary>
/// 和Update同一个线程调用
/// </summary>
internal void process_recv_queue(byte[] datas)
{
#if DEV
IRQLog.AppLog.Log(this.m_netIndex.ToString() + ",接收1");
#endif
if (m_Kcp != null && datas != null)
{
m_Kcp.Input(datas);
m_NeedUpdateFlag = true;
for (var size = m_Kcp.PeekSize(); size > 0; size = m_Kcp.PeekSize())
{
byte[] buffer;
buffer = (UdpLibConfig.UseBytePool ? m_KCPServer.BytePool.Rent(size) : new byte[size]);
try
{
if (m_Kcp.Recv(buffer) > 0)
{
m_LastRecvTimestamp = m_KCPServer.m_watch.Elapsed;
uint key = 0;
KCP.ikcp_decode32u(buffer, 0, ref key);
if (m_KCPServer.IsClientKeyCorrect(this.m_netIndex, (int)key) == false)
{
#if DEBUG
Console.WriteLine("index:{0} key 不对", this.m_netIndex);
#endif
m_KCPServer.BytePool.Return(buffer, true);
DisposeReason = ClientSessionDisposeReason.IndexKeyError;
//key不对
Dispose();
return;
}
#if DEV
IRQLog.AppLog.Log(this.m_netIndex.ToString() + ",接收2");
#endif
m_KCPServer.OnRecvData(this, buffer, 0, size);
}
}
finally
{
if (UdpLibConfig.UseBytePool)
{
m_KCPServer.BytePool.Return(buffer, true);
}
}
}
}
}
private void HandleRecvQueue()
{
recvQueue.Switch();
while (!recvQueue.Empty())
{
var recvobject = recvQueue.Pop();
int ret = kcpObject.Input(recvobject.bytes, recvobject.length);
cacheBytesQue.Enqueue(recvobject);
if (ret < 0)
{
//收到的不是一个正确的KCP包
if (IsShowDebugLog)
{
DLog.Log("Error kcp package.");
}
return;
}
needKcpUpdateFlag = true;
for (int size = kcpObject.PeekSize(); size > 0; size = kcpObject.PeekSize())
{
if (size > 1048576)
{
DLog.LogErrorFormat("The size is too long.size = {0}", size);
}
if (kcpRecvBuffer.Length < size)
{
int tnewlen = size + kcpRecvBuffer.Length;
kcpRecvBuffer = new byte[tnewlen];
}
else
{
kcpRecvBuffer.Initialize();
}
int treclen = kcpObject.Recv(kcpRecvBuffer, size);
if (treclen > 0)
{
PopRecData(kcpRecvBuffer, treclen);
}
}
}
}
//KCP-->应用层
private void Update()
{
//Log.Net("KCPUpdate");
kcp.Update(Time.deltaTime);
while (true)
{
var pack = kcp.Recv();
if (pack != null)
{
msgReader.process(pack, (uint)pack.Length, null);
}
else
{
break;
}
}
}
public void processRecvQueue(SocketAsyncEventArgs e)
{
byte[] realData = new byte[e.BytesTransferred];
Buffer.BlockCopy(e.Buffer, 0, realData, 0, e.BytesTransferred);
mKcp.Input(realData);
mNeedUpdateFlag = true;
for (var size = mKcp.PeekSize(); size > 0; size = mKcp.PeekSize())
{
byte[] buffer = new byte[size];
if (mKcp.Recv(buffer) > 0)
{
mLastRecvTime = Helper.iclock();
RecvDataHandler(this, buffer);
}
}
}
/// <summary>
/// 将数据Input进Kcp待处理队列
/// </summary>
/// <param name="recvBuf"> 接收到的数据</param>
public void Input(byte[] recvBuf)
{
//刷新超时时间
timer = SystemTime.Clock();
//将收到的数据打入kcp中处理
kcp.Input(recvBuf);
for (var size = kcp.PeekSize(); size > 0; size = kcp.PeekSize())
{
var buffer = new byte[size];
if (kcp.Recv(buffer) > 0)
{
//从kcp缓存池中取出排列处理后的数据
OnRecive.Invoke(conv, buffer);
}
}
}
/// <summary>
/// 执行接收队列
/// </summary>
/// <returns>是否需要更新</returns>
private bool ProcessReceiveQueue()
{
receiveQueue.Switch();
var needUpdate = false;
while (!receiveQueue.Empty())
{
kcp.Input(receiveQueue.Pop());
needUpdate = true;
for (var size = kcp.PeekSize(); size > 0; size = kcp.PeekSize())
{
var buffer = new byte[size];
if (kcp.Recv(buffer) > 0)
{
Trigger(SocketEvents.Message, buffer);
}
}
}
return(needUpdate);
}
void process_recv_queue()
{
mRecvQueue.Switch();
while (!mRecvQueue.Empty())
{
var buf = mRecvQueue.Pop();
mKcp.Input(buf);
mNeedUpdateFlag = true;
for (var size = mKcp.PeekSize(); size > 0; size = mKcp.PeekSize())
{
var buffer = new byte[size];
if (mKcp.Recv(buffer) > 0)
{
evHandler(buffer);
}
}
}
}
/// <summary>
/// 执行接收队列
/// </summary>
/// <returns>是否需要更新</returns>
private bool ProcessReceiveQueue()
{
receiveQueue.Switch();
var needUpdate = false;
while (!receiveQueue.Empty())
{
kcp.Input(receiveQueue.Pop());
needUpdate = true;
for (var size = kcp.PeekSize(); size > 0; size = kcp.PeekSize())
{
var buffer = new byte[size];
if (kcp.Recv(buffer) > 0)
{
callback.Invoke(buffer);
kcp.Send(buffer);
}
}
}
return(needUpdate);
}
void process_recv_queue()
{
mRecvQueue.Switch();
while (!mRecvQueue.Empty())
{
var buf = mRecvQueue.Pop();
mKcp.Input(buf);
mNeedUpdateFlag = true;
for (var size = mKcp.PeekSize(); size > 0; size = mKcp.PeekSize())
{
var buffer = new byte[size];
if (mKcp.Recv(buffer) > 0)
{
int offset = 0;
m_byteCallBack(buffer, ref offset, buffer.Length);
}
}
}
}
protected override void OnConnectionPacketReceived(ByteBuffer recv_buffer)
{
_kcp.Input(recv_buffer.data, recv_buffer.readableBytes);
var length = _kcp.PeekSize();
if (length > 0)
{
var buffer = ByteBufferPooledAllocator.Default.Alloc(length);
try
{
var size = _kcp.Recv(buffer.data); //接受数据
buffer._SetPosition(size); // 不想改kcp的实现细节,所以这里简单地强制改buffer长度标记
base.OnConnectionPacketReceived(buffer);
}
finally
{
buffer.Release();
}
}
}
private void ReceiveAsyn(IAsyncResult arg)
{
//byte[] rcvBuf = _receiveEP == null ? _socket.Receive(ref _receiveEP) : _socket.EndReceive(arg, ref _receiveEP);
byte[] rcvBuf = _socket.EndReceive(arg, ref _listenEP);
if (rcvBuf != null)
{
//Log4U.LogDebug("ASynKcpUdpClientSocket:ReceiveAsyn Message receive from ", _listenEP.ToString());
_kcp.Input(rcvBuf);
for (var size = _kcp.PeekSize(); size > 0; size = _kcp.PeekSize())
{
byte[] buf = new byte[size];
if (_kcp.Recv(buf) > 0)
{
//Log4U.LogDebug("ASynKcpUdpClientSocket:ReceiveAsyn Message receive data=", Encoding.ASCII.GetString(buf));
_recHandler(buf);
}
}
}
if (_socket != null)
{
_socket.BeginReceive(ReceiveAsyn, this);
}
}
private void ProcessRecvQueue()
{
while (!recvQueue.IsEmpty)
{
byte[] data = null;
bool isSuccess = recvQueue.TryDequeue(out data);
if (!isSuccess || data == null)
{
continue;
}
mKcp.Input(data);
mNeedUpdateFlag = true;
for (var size = mKcp.PeekSize(); size > 0; size = mKcp.PeekSize())
{
var packet = new byte[size];
if (mKcp.Recv(packet) > 0)
{
RecvDataHandler(packet);
}
}
}
}
private void DoReceiveInMain()
{
m_RecvBufQueue.Switch();
while (!m_RecvBufQueue.Empty())
{
var recvBufferRaw = m_RecvBufQueue.Pop();
int ret = m_Kcp.Input(recvBufferRaw, recvBufferRaw.Length);
//收到的不是一个正确的KCP包
if (ret < 0)
{
Debuger.LogError("收到不正确的KCP包, Ret:{0}", ret);
return;
}
m_NeedKcpUpdateFlag = true;
for (int size = m_Kcp.PeekSize(); size > 0; size = m_Kcp.PeekSize())
{
var recvBuffer = new byte[size];
if (m_Kcp.Recv(recvBuffer) > 0)
{
m_lastRecvTimestamp = (uint)TimeUtils.GetTotalMillisecondsSince1970();
var data = PBSerializer.NDeserialize <FSPDataS2C>(recvBuffer);
if (m_RecvListener != null)
{
for (int i = 0; i < data.frames.Count; i++)
{
m_RecvListener(data.frames[i]);
}
}
}
}
}
}
void process_recv_queue()
{
m_RecvQueue.Switch();
while (!m_RecvQueue.Empty())
{
if (m_Kcp == null)
{//退出
return;
}
var buf = m_RecvQueue.Pop();
m_Kcp.Input(buf);
m_NeedUpdateFlag = true;
int size = m_Kcp.PeekSize();
//UnityEngine.Main.Debug("size:" + size);
for (; size > 0; size = m_Kcp.PeekSize())
{
var buffer = new byte[size];
if (m_Kcp.Recv(buffer) > 0)
{
Recv(buffer);
}
}
}
}
private void DoReceiveInMain()
{
m_RecvBufQueue.Switch();
while (!m_RecvBufQueue.Empty())
{
var recvBufferRaw = m_RecvBufQueue.Pop();
int ret = m_Kcp.Input(recvBufferRaw, recvBufferRaw.Length);
//收到的不是一个正确的KCP包
if (ret < 0)
{
Debuger.LogError("收到不正确的KCP包!Ret:{0}", ret);
return;
}
m_NeedKcpUpdateFlag = true;
for (int size = m_Kcp.PeekSize(); size > 0; size = m_Kcp.PeekSize())
{
var recvBuffer = new byte[size];
if (m_Kcp.Recv(recvBuffer) > 0)
{
if (m_listener != null)
{
FSPDataC2S data = PBSerializer.NDeserialize <FSPDataC2S>(recvBuffer);
m_listener(data);
}
else
{
Debuger.LogError("找不到接收者!");
}
}
}
}
}
void process_recv_queue()
{
mRecvQueue.Switch();
while (!mRecvQueue.Empty())
{
var buf = mRecvQueue.Pop();
mKcp.Input(buf);
mNeedUpdateFlag = true;
for (var size = mKcp.PeekSize(); size > 0; size = mKcp.PeekSize())
{
var buffer = new byte[size];
if (mKcp.Recv(buffer) > 0)
{
//evHandler(buffer);
//这里开始解包
try
{
//解析并派发
ByteArray ba = new ByteArray();
ba.WriteALLBytes(buffer);
ProtocolRequestBase msg = Analysis(ba);
ProtocolAnalysisService.AnalysisAndDispatchMessage(this, msg);
}
catch (Exception e)
{
Debug.LogError("AnalysisAndDispatchMessage :\nException: " + e.ToString());
}
}
}
}
}