protected TcpChannel(int channelId) : base(channelId)
{
_receivingBufferSize = 32 * 1024;
_sendingBlocking = new ManualResetEventSlim(true);
_sendingCounter = new ConcurrentDictionary<long, PackingState>();
_sendingAsyncArgsPool = new SocketAsyncEventArgsPool(SocketAsyncEventArgs_Completed);
}
public FtpPasvDataChannel(int bufferSize)
{
var buffer = new byte[bufferSize];
_receiveArgs = new SocketAsyncEventArgs();
_receiveArgs.SetBuffer(buffer, 0, buffer.Length);
_receiveArgs.Completed += OnReceiveCompleted;
_acceptArgs = new SocketAsyncEventArgs();
_acceptArgs.Completed += OnAcceptCompleted;
_sendArgsPool = new SocketAsyncEventArgsPool(OnSendCompleted);
}
// Create an uninitialized server instance.
// To start the server listening for connection requests
// call the Init method followed by Start method
//
// <param name="numConnections">the maximum number of connections the sample is designed to handle simultaneously</param>
// <param name="receiveBufferSize">buffer size to use for each socket I/O operation</param>
public Server(int numConnections, int receiveBufferSize)
{
m_totalBytesRead = 0;
m_numConnectedSockets = 0;
m_numConnections = numConnections;
m_receiveBufferSize = receiveBufferSize;
// allocate buffers such that the maximum number of sockets can have one outstanding read and
//write posted to the socket simultaneously
m_bufferManager = new BufferManager(receiveBufferSize * numConnections * opsToPreAlloc,
receiveBufferSize);
m_readWritePool = new SocketAsyncEventArgsPool(numConnections);
m_maxNumberAcceptedClients = new Semaphore(numConnections, numConnections);
}
public FtpPortDataChannel(IPEndPoint address, int bufferSize)
{
if (address == null)
throw new ArgumentNullException("address");
_address = address;
var buffer = new byte[bufferSize];
_receiveArgs = new SocketAsyncEventArgs();
_receiveArgs.SetBuffer(buffer, 0, buffer.Length);
_receiveArgs.Completed += OnReceiveCompleted;
_connectArgs = new SocketAsyncEventArgs();
_connectArgs.Completed += OnConnectCompleted;
_sendArgsPool = new SocketAsyncEventArgsPool(OnSendCompleted);
}
private TcpOpenServer.SendState send()
{
#if !DOTNET2
START:
#endif
if (IsSocket)
{
#if DOTNET2
SocketError socketError;
if (onSendAsyncCallback == null) onSendAsyncCallback = onSend;
Socket.BeginSend(sendData.Array, sendData.Start, sendData.Length, SocketFlags.None, out socketError, onSendAsyncCallback, Socket);
if (socketError == SocketError.Success) return TcpOpenServer.SendState.Asynchronous;
#else
if (sendAsyncEventArgs == null)
{
sendAsyncEventArgs = SocketAsyncEventArgsPool.Get();
sendAsyncEventArgs.Completed += onSend;
}
#if !DotNetStandard
while (Interlocked.CompareExchange(ref sendAsyncLock, 1, 0) != 0) Thread.Sleep(0);
#endif
sendAsyncEventArgs.SetBuffer(sendData.Array, sendData.Start, sendData.Length);
if (Socket.SendAsync(sendAsyncEventArgs))
{
#if !DotNetStandard
Interlocked.Exchange(ref sendAsyncLock, 0);
#endif
return TcpOpenServer.SendState.Asynchronous;
}
if (sendAsyncEventArgs.SocketError == SocketError.Success)
{
sendData.MoveStart(sendAsyncEventArgs.BytesTransferred);
#if !DotNetStandard
Interlocked.Exchange(ref sendAsyncLock, 0);
#endif
if (sendData.Length == 0)
{
freeCopyBuffer();
return TcpOpenServer.SendState.Synchronize;
}
goto START;
}
#endif
}
return TcpOpenServer.SendState.Error;
}
public TCPServer(string serverName, IPEndPoint bindTo, int MaxConnections)
{
ServerName = "[" + serverName + "]";
// Create our Socket
Listener = new Socket(AddressFamily.InterNetwork, SocketType.Stream, ProtocolType.Tcp);
// Set Socket options
Listener.LingerState = new LingerOption(enable: false, seconds: 0);
Listener.SetSocketOption(SocketOptionLevel.Socket, SocketOptionName.KeepAlive, true);
// Bind to our port
Listener.Bind(bindTo);
Listener.Listen(25);
// Set the rest of our internals
MaxNumConnections = MaxConnections;
MaxConnectionsEnforcer = new SemaphoreSlim(MaxNumConnections, MaxNumConnections);
SocketAcceptPool = new SocketAsyncEventArgsPool(ConcurrentAcceptPoolSize);
SocketReadWritePool = new SocketAsyncEventArgsPool(MaxNumConnections * 2);
// Create our Buffer Manager for IO operations.
// Always allocate double space, one for recieving, and another for sending
BufferManager = new BufferManager(MaxNumConnections * 2, BufferSizePerOperation);
// Assign our Connection Accept SocketAsyncEventArgs object instances
for (int i = 0; i < ConcurrentAcceptPoolSize; i++)
{
SocketAsyncEventArgs SockArg = new SocketAsyncEventArgs();
SockArg.Completed += (s, e) => PrepareAccept(e);
// Do NOT assign buffer space for Accept operations!
SocketAcceptPool.Push(SockArg);
}
// Assign our Connection IO SocketAsyncEventArgs object instances
for (int i = 0; i < MaxNumConnections * 2; i++)
{
SocketAsyncEventArgs SockArg = new SocketAsyncEventArgs();
BufferManager.AssignBuffer(SockArg);
SocketReadWritePool.Push(SockArg);
}
// set public internals
IsListening = true;
}
public CoCServer()
{
_settings = new NetworkManagerAsyncSettings(50, 50);
_listener = new Socket(SocketType.Stream, ProtocolType.Tcp);
_acceptPool = new SocketAsyncEventArgsPool(100);
AvatarManager = new AvatarManager();
DataManager = new DataManager();
Clients = new List<CoCRemoteClient>();
MessageHandlers = new Dictionary<ushort, MessageHandler>();
CommandHandlers = new Dictionary<int, CommandHandler>();
LoginMessageHandlers.RegisterLoginMessageHandlers(this);
InGameMessageHandlers.RegisterInGameMessageHandlers(this);
BuildingCommandHandlers.RegisterBuildingCommandHandlers(this);
AvatarManager.LoadAllAvatars();
}
// Create an uninitialized server instance.
// To start the server listening for connection requests
// call the Init method followed by Start method
//
// <param name="numConnections">the maximum number of connections the sample is designed to handle simultaneously</param>
// <param name="receiveBufferSize">buffer size to use for each socket I/O operation</param>
// <param name="ReceiveCallBack">接收到消息的回调函数</param>
public MicrosoftServer(int numConnections, int receiveBufferSize, ReceiveCallBack rcb)
{
m_totalBytesRead = 0;
m_numConnectedSockets = 0;
m_numConnections = numConnections;
m_receiveBufferSize = receiveBufferSize;
receiveCallBack = rcb;
// allocate buffers such that the maximum number of sockets can have one outstanding read and
//write posted to the socket simultaneously
m_bufferManager = new BufferManager(receiveBufferSize * numConnections * opsToPreAlloc,
receiveBufferSize);
m_readPool = new SocketAsyncEventArgsPool(numConnections);
m_writePool = new SocketAsyncEventArgsPool(numConnections);
m_maxNumberAcceptedClients = new Semaphore(numConnections, numConnections);
m_buffer = new List <Byte>();
}
// Create an uninitialized server instance.
// To start the server listening for connection requests
// call the Init method followed by Start method
//
// <param name="numConnections">the maximum number of connections the sample is designed to handle simultaneously</param>
// <param name="receiveBufferSize">buffer size to use for each socket I/O operation</param>
public void Construct(int numConnections, int receiveBufferSize)
{
m_commandParser = GetComponent <CommandParser>();
m_totalBytesRead = 0;
m_numConnectedSockets = 0;
m_numConnections = numConnections;
// allocate buffers such that the maximum number of sockets can have one outstanding read and
//write posted to the socket simultaneously
m_bufferManager = new BufferManager(receiveBufferSize * numConnections * opsToPreAlloc, receiveBufferSize);
m_readWritePool = new SocketAsyncEventArgsPool(numConnections);
m_maxNumberAcceptedClients = new Semaphore(numConnections, numConnections);
m_receiveBufferSize = receiveBufferSize;
m_bufferHelper = new BufferHelper();
}
public UdpSession(uint sid, SocketAsyncEventArgsPool pool, ISessionListener listener)
{
LOG_TAG = "UdpSession[" + sid + "]";
this.Log();
onSendError = new Signal <ISession, int>();
onReceiveError = new Signal <ISession, int>();
m_pool = pool;
m_queueSend = new Queue <NetPacket>();
m_bufferSend = new NetBufferWriter(new byte[0]);
m_queueReceive = new Queue <NetMessage>();
this.Id = sid;
m_listener = listener;
}
/// <summary>
/// 异步Socket TCP服务器
/// </summary>
/// <param name="localIPAddress">监听的IP地址</param>
/// <param name="portNo">监听的端口</param>
/// <param name="maxClient">最大客户端数量</param>
public IOCPServer(string IP, int portNo, int maxClient)
{
//this.Address = localIPAddress;
//this.Port = listenPort;
//this.Encoding = Encoding.Default;
//_serverSock = new Socket(localIPAddress.AddressFamily, SocketType.Stream, ProtocolType.Tcp);
//_bufferManager = new BufferManager(_bufferSize * maxClient * opsToPreAlloc, _bufferSize);
//_objectPool = new SocketAsyncEventArgsPool(maxClient);
//_maxAcceptedClients = new Semaphore(maxClient, maxClient);
Console.WriteLine("初始化服务器。");
try
{
IPAddress ipAddress = IPAddress.Parse(IP);
_serverSock = new Socket(AddressFamily.InterNetwork, SocketType.Stream, ProtocolType.Tcp);
_serverSock.Bind(new IPEndPoint(ipAddress, portNo));
_serverSock.Listen(maxClient);
_objectPool = new SocketAsyncEventArgsPool(maxClient);
for (int i = 0; i < maxClient; i++) //填充SocketAsyncEventArgs池
{
SocketAsyncEventArgs args = new SocketAsyncEventArgs();
args.Completed += new EventHandler <SocketAsyncEventArgs>(OnIOCompleted);
_objectPool.Add(args);
}
Thread tCheckClientHeartbeat = new Thread(CheckClientHeartbeat);
tCheckClientHeartbeat.IsBackground = true;
tCheckClientHeartbeat.Start();
StartAccept(null);
}
catch (Exception error)
{
Console.WriteLine(error.Message);
}
}
private void InitStart()
{
if (Interlocked.CompareExchange(ref _isListened, 1, 0) != 0)
{
return;
}
listen?.Close();
listen = GetNewSocketInfo();
listen.Bind(new IPEndPoint(IPAddress.Parse(this.listen_ip), this.listen_port));
listen.Listen(100);
var e = SocketAsyncEventArgsPool.GetNewAsyncEventArgs();
accept_listen_async_arg = e;
e.Completed += (S, EE) =>
{
AcceptAsyncCallback(listen, EE);
};
ProessAccept(listen, e);
}
public MultiplayerClient(TrueCraftUser user)
{
User = user;
Client = new TcpClient();
PacketReader = new PacketReader();
PacketReader.RegisterCorePackets();
PacketHandlers = new PacketHandler[0x100];
Handlers.PacketHandlers.RegisterHandlers(this);
World = new ReadOnlyWorld();
var repo = new BlockRepository();
repo.DiscoverBlockProviders();
World.World.BlockRepository = repo;
World.World.ChunkProvider = new EmptyGenerator();
Physics = new PhysicsEngine(World, repo);
SocketPool = new SocketAsyncEventArgsPool(100, 200, 65536);
connected = 0;
cancel = new CancellationTokenSource();
}
//==========================================================
//构造函数
//==========================================================
public TcpConnection(int localPort, SocketAsyncEventArgsPool pool, int maxReconnCnt = 0) : base(pool)
{
LOG_TAG = "TcpConnection[" + 0 + "," + localPort + "]";
this.Log("connId:{0}, localPort:{1}, maxReconnCnt", 0, localPort, maxReconnCnt);
m_maxReconnCnt = maxReconnCnt;
onReceive = new Signal <NetMessage>();
onConnectSuccess = new Signal <IConnection>();
onConnectError = new Signal <IConnection, int>();
onDisconnected = new Signal <IConnection>();
onSendSuccess = new Signal <IConnection>();
onSendError = new Signal <IConnection, int, string>();
onConnecting = new Signal <IConnection>();
onReceiveError = new Signal <IConnection, int, string>();
onServerError = new Signal <IConnection, int, string>();
m_listRemoteEndPoint = new List <IPEndPoint>();
m_currRemoteEndPointIndex = -1;
m_localPort = localPort;
}
private void InitStartIpv6()
{
if (Interlocked.CompareExchange(ref _isListened, 1, 0) != 0)
{
return;
}
listen?.Close();
listen = GetNewSocketInfo();
if (Net.SocketHelper.PortInUse(this.listen_port))
{
var pro = Net.SocketHelper.PortInUseProcess(this.listen_port);
if (pro != null)
{
throw new System.Exception($@"服务端口【{ this.listen_port}】已经被其他进程占用。占用进程信息:
PID:{pro.Id}
ProcessName:{pro.ProcessName}");
}
}
listen.Bind(new IPEndPoint(IPAddress.Any, this.listen_port));
listen.Listen(100);
var e = SocketAsyncEventArgsPool.GetNewAsyncEventArgs();
accept_listen_async_arg = e;
e.Completed += (S, EE) =>
{
AcceptAsyncCallback(listen, EE);
};
ProessAccept(listen, e);
listenIPv6?.Close();
listenIPv6 = GetNewSocketIPv6Info();
listenIPv6.Bind(new IPEndPoint(IPAddress.IPv6Any, this.listen_port));
listenIPv6.Listen(100);
var e_ipv6 = SocketAsyncEventArgsPool.GetNewAsyncEventArgs();
accept_listen_IPv6_async_arg = e_ipv6;
e_ipv6.Completed += (S, EE) =>
{
AcceptAsyncCallback(listenIPv6, EE);
};
ProessAccept(listenIPv6, e_ipv6);
}
public FtpPortDataChannel(IPEndPoint address, int bufferSize)
{
if (address == null)
{
throw new ArgumentNullException("address");
}
_address = address;
var buffer = new byte[bufferSize];
_receiveArgs = new SocketAsyncEventArgs();
_receiveArgs.SetBuffer(buffer, 0, buffer.Length);
_receiveArgs.Completed += OnReceiveCompleted;
_connectArgs = new SocketAsyncEventArgs();
_connectArgs.Completed += OnConnectCompleted;
_sendArgsPool = new SocketAsyncEventArgsPool(OnSendCompleted);
}
public void Init()
{
m_maxConnection = 10000;
m_bufferSize = 1024;
// 동시커넥션 할 클라이언트 갯수 * 클라이언트별 패킷 버퍼의 사이즈 * 미리 잡아놓을 풀 사이즈
// 풀 사이즈는 read, write 총 2개
m_bufferManager = new BufferManager(m_maxConnection * m_bufferSize * m_preAllocCount, m_bufferSize);
m_receiveEventArgsPool = new SocketAsyncEventArgsPool(m_maxConnection);
m_sendEventArgsPool = new SocketAsyncEventArgsPool(m_maxConnection);
m_bufferManager.InitBuffer();
SocketAsyncEventArgs args;
for (int i = 0; i < m_maxConnection; i++)
{
// 동일한 소켓에 send 및 receive
// 유저 토큰은 클라이언트 세션 당 한개 생성 후
// 각 eventArgs에서 동일한 토큰을 가지게 한 후 참조하도록 함
CustomUserToken token = new CustomUserToken();
{
// receive pool
args = new SocketAsyncEventArgs();
args.Completed += new EventHandler <SocketAsyncEventArgs>(OnReceiveCompleted);
args.UserToken = token;
m_bufferManager.SetBuffer(args);
m_receiveEventArgsPool.Push(args);
}
{
// send pool
args = new SocketAsyncEventArgs();
args.Completed += new EventHandler <SocketAsyncEventArgs>(OnSendCompleted);
args.UserToken = token;
m_bufferManager.SetBuffer(args);
m_sendEventArgsPool.Push(args);
}
}
}
public void PopPush_Disposed_Exception()
{
var pool = new SocketAsyncEventArgsPool(64);
// Populate the pool.
for (int i = 0; i < 64; i++)
{
pool.Push(new SocketAsyncEventArgs());
}
// Remove a couple of the args.
for (int i = 0; i < 32; i++)
{
pool.Pop();
}
pool.Dispose();
Assert.Throws <ObjectDisposedException>(() => pool.Push(new SocketAsyncEventArgs()));
Assert.Throws <ObjectDisposedException>(() => pool.Pop());
}
public SocketServer(int numConnections, int receiveBufferSize)
{
myMessageHandler = new MessageHandler(connectionString);
m_numConnections = numConnections;
m_receiveBufferSize = receiveBufferSize;
// allocate buffers such that the maximum number of sockets can have one outstanding read and
//write posted to the socket simultaneously
// m_bufferManager = new BufferManager(receiveBufferSize * numConnections * opsToPreAlloc,
// receiveBufferSize);
m_readWritePool = new SocketAsyncEventArgsPool(numConnections);
// m_maxNumberAcceptedClients = new Semaphore(numConnections, numConnections);
SqlDataReader dr = null;
try
{
SQLManager.SQLManager mySql = new SQLManager.SQLManager(connectionString);
dr = mySql.getDataReader("EXEC getGroups");
while (dr.Read())
{
System.Collections.ArrayList userList = new System.Collections.ArrayList();
string users = (string)dr["Users"];
string[] userArr = users.Split((",".ToCharArray()));
for (int i = 0; i<userArr.Length-1; i++)
{
userList.Add(long.Parse(userArr[i]));
}
groupLookup.Add((long)dr["GPID"], userList);
}
}
catch
{
}
finally
{
if (dr != null)
dr.Close();
}
}
/// <summary>
/// Initialize and start the server.
/// </summary>
public void Start()
{
if (this._isRunning)
{
throw new InvalidOperationException("Server is already running.");
}
if (this.Configuration.Port <= 0)
{
throw new EtherConfigurationException($"{this.Configuration.Port} is not a valid port.");
}
var address = this.Configuration.Address;
if (address == null)
{
throw new EtherConfigurationException($"Invalid host : {this.Configuration.Host}");
}
this._bufferManager = new BufferManager(this.Configuration.MaximumNumberOfConnections, this.Configuration.BufferSize);
if (this._readPool == null)
{
this._readPool = new SocketAsyncEventArgsPool(this.Configuration.MaximumNumberOfConnections);
}
if (this._writePool == null)
{
this._writePool = new SocketAsyncEventArgsPool(this.Configuration.MaximumNumberOfConnections);
}
this.Initialize();
this.Socket.Bind(new IPEndPoint(address, this.Configuration.Port));
this.Socket.Listen(this.Configuration.Backlog);
this.StartAccept();
this._isRunning = true;
this._resetEvent.WaitOne();
}
public UDPServer(string serverName, IPEndPoint bindTo, int MaxConnections)
{
ServerName = "[" + serverName + "]";
// Create our Socket
this.Port = Port;
Listener = new Socket(AddressFamily.InterNetwork, SocketType.Dgram, ProtocolType.Udp)
{
SendTimeout = 5000, // We have a limited pool, so we dont want to be locked often
SendBufferSize = BufferSizePerEvent,
ReceiveBufferSize = BufferSizePerEvent
};
// Bind to our port
Listener.Bind(bindTo);
// Set the rest of our internals
MaxNumConnections = MaxConnections;
MaxConnectionsEnforcer = new SemaphoreSlim(MaxNumConnections, MaxNumConnections);
SocketReadWritePool = new SocketAsyncEventArgsPool(MaxNumConnections);
// Create our Buffer Manager for IO operations.
BufferManager = new BufferManager(
MaxNumConnections,
BufferSizePerEvent
);
// Assign our Connection IO SocketAsyncEventArgs object instances
for (int i = 0; i < MaxNumConnections; i++)
{
SocketAsyncEventArgs SockArg = new SocketAsyncEventArgs();
SockArg.Completed += IOComplete;
BufferManager.AssignBuffer(SockArg);
SocketReadWritePool.Push(SockArg);
}
// set public internals
IsRunning = true;
Disposed = false;
}
public RemoteClient(IMultiplayerServer server, IPacketReader packetReader, PacketHandler[] packetHandlers, Socket connection)
{
LoadedChunks = new HashSet <Coordinates2D>();
Server = server;
Inventory = new InventoryWindow(server.CraftingRepository);
InventoryWindow.WindowChange += HandleWindowChange;
SelectedSlot = InventoryWindow.HotbarIndex;
CurrentWindow = InventoryWindow;
ItemStaging = ItemStack.EmptyStack;
KnownEntities = new List <IEntity>();
Disconnected = false;
EnableLogging = server.EnableClientLogging;
NextWindowID = 1;
Connection = connection;
SocketPool = new SocketAsyncEventArgsPool(100, 200, 65536);
PacketReader = packetReader;
PacketHandlers = packetHandlers;
cancel = new CancellationTokenSource();
StartReceive();
}
//==========================================================
//构造函数
//==========================================================
public UdpConnection(int localPort, SocketAsyncEventArgsPool pool)
{
LOG_TAG = "UdpConnection[" + 0 + "," + localPort + "]";
this.Log("connId:{0}, localPort:{1}", 0, localPort);
onReceive = new Signal <NetMessage>();
onSendError = new Signal <IConnection, int, string>();
onReceiveError = new Signal <IConnection, int, string>();
onServerError = new Signal <IConnection, int, string>();
m_listRemoteEndPoint = new List <IPEndPoint>();
m_currRemoteEndPointIndex = -1;
m_pool = new SocketAsyncEventArgsPool(NetDefine.PacketBufferSize, 0);
m_queueSend = new Queue <NetPacket>();
m_bufferSend = new NetBufferWriter(new byte[0]);
m_queueReceive = new Queue <NetMessage>();
m_bufferReceive = new NetBufferWriter(new byte[NetDefine.ReceiveBufferMinSize]);
m_localPort = localPort;
}
/// <summary>
/// 释放接收数据缓冲区与异步事件对象
/// </summary>
private void close()
{
isClose = true;
try
{
#if DOTNET2
DisposeSocket();
#else
if (receiveAsyncEventArgs == null) DisposeSocket();
else
{
receiveAsyncEventArgs.Completed -= onReceive;
DisposeSocket();
SocketAsyncEventArgsPool.PushNotNull(ref receiveAsyncEventArgs);
}
#endif
}
catch (Exception error)
{
ClientCreator.CommandClient.AddLog(error);
}
CloseFree();
}
/// <summary>
/// 释放接收数据缓冲区与异步事件对象
/// </summary>
private void close()
{
try
{
#if DOTNET2
DisposeSocket();
#else
if (receiveAsyncEventArgs == null) DisposeSocket();
else
{
receiveAsyncEventArgs.Completed -= onReceive;
DisposeSocket();
SocketAsyncEventArgsPool.PushNotNull(ref receiveAsyncEventArgs);
}
#endif
}
catch (Exception error)
{
Server.AddLog(error);
}
CloseFree();
if (Sender != null) Sender.Close();
}
/// <summary>
/// 释放资源
/// </summary>
public override void Dispose()
{
#if DOTNET2
if (onReceiveAsyncCallback != null)
#else
if (receiveAsyncEventArgs != null)
#endif
{
#if DOTNET2
onReceiveAsyncCallback = onSendAsyncCallback = null;
#else
receiveAsyncEventArgs.Completed -= onReceiveAsyncCallback;
sendAsyncEventArgs.Completed -= onSendAsyncCallback;
SocketAsyncEventArgsPool.PushNotNull(ref receiveAsyncEventArgs);
SocketAsyncEventArgsPool.PushNotNull(ref sendAsyncEventArgs);
#endif
Buffer.Free();
Header.Free();
#if !DOTNET2
if (boundaryReceiver == null) boundaryReceiver.Free();
#endif
}
}
public static SerializeResult Serialize()
{
try
{
var MaxConnections = int.Parse(Settings.GetValue("TCP.Listener.Max"));
Counter = 0;
Sessions = new Dictionary <int, Session>();
SocketPool = new SocketAsyncEventArgsPool(MaxConnections);
ConnectedAmount = new int();
SocketSemaphore = new Semaphore(MaxConnections, MaxConnections);
BufferManager = new BufferManager(RECV_BUFFER_SIZE * MaxConnections * OPS_TO_PRE_ALLOC, RECV_BUFFER_SIZE);
Solution.AppendLine("SessionHandler: Pushing SocketAsync({0}), big-buffer({1})", MaxConnections, BufferManager.Buffer.Length);
for (int i = 0; i < MaxConnections; i++)
{
var Async = new SocketAsyncEventArgs();
Async.Completed += new EventHandler <SocketAsyncEventArgs>(Async_Completed);
Async.UserToken = new AsyncUserToken();
BufferManager.SetBuffer(Async);
SocketPool.Push(Async);
}
var IPEndPoint = new IPEndPoint(IPAddress.Parse(Settings.GetValue("TCP.Listener.IP")), int.Parse(Settings.GetValue("TCP.Listener.Port")));
BaseSocket = new Socket(IPEndPoint.AddressFamily, SocketType.Stream, ProtocolType.Tcp);
BaseSocket.Bind(IPEndPoint);
BaseSocket.Listen(int.Parse(Settings.GetValue("TCP.Listener.Backlog")));
WaitForAsync(null);
}
catch { return(SerializeResult.Broken); }
return(SerializeResult.Finished);
}
public void Init(int maxClient)
{
connTimeOut = new UpdClientTimeOut();
connTimeOut.TimeOut = 1800;
connTimeOut.Start();
dataPacketManager = new YDataPacketManager();
YDataPacketManager.RegisterDataPacket(typeof(SocketRegisterPacket));
dataPacketManager.DataPacketReceived += dataPacketManager_DataPacketReceived;
this.maxClient = maxClient + 1;
socketPool = new SocketAsyncEventArgsPool(maxClient);
SocketAsyncEventArgs readWriteEventArg;
bufferManager = new BufferManager(maxClient * bufferLenthg, bufferLenthg);
bufferManager.InitBuffer();
for (int i = 0; i < maxClient; i++)
{
readWriteEventArg = new SocketAsyncEventArgs();
readWriteEventArg.Completed += readWriteEventArg_Completed;
bufferManager.SetBuffer(readWriteEventArg);
socketPool.Push(readWriteEventArg);
}
AbsInit();
isInit = true;
}
public void ShutdownServer()
{
KSPMGlobals.Globals.Log.WriteTo("Shuttingdown the KSPM server .");
///*************************Killing threads code
this.alive = false;
this.commandsThread.Abort();
this.outgoingMessagesThread.Abort();
this.localCommandsThread.Abort();
this.priorityOutgoingMessagesThread.Abort();
this.commandsThread.Join();
KSPMGlobals.Globals.Log.WriteTo("Killed commandsTread .");
this.localCommandsThread.Join();
KSPMGlobals.Globals.Log.WriteTo("Killed localCommandsTread .");
this.outgoingMessagesThread.Join();
KSPMGlobals.Globals.Log.WriteTo("Killed outgoingMessagesTread .");
this.priorityOutgoingMessagesThread.Join();
KSPMGlobals.Globals.Log.WriteTo("Killed priorityOutgoingMessagesTread .");
///*************************Killing TCP socket code
if (this.tcpSocket.Connected)
{
this.tcpSocket.Shutdown(SocketShutdown.Both);
this.tcpSocket.Close();
}
this.tcpBuffer = null;
this.tcpIpEndPoint = null;
KSPMGlobals.Globals.Log.WriteTo("Killing chat system!!!");
this.chatManager.Release();
this.chatManager = null;
KSPMGlobals.Globals.Log.WriteTo("Killing conected clients!!!");
this.clientsHandler.Release();
this.clientsHandler = null;
///*********************Killing server itself
this.ableToRun = false;
///Releasing command queues.
this.commandsQueue.Purge(false);
this.outgoingMessagesQueue.Purge(false);
this.localCommandsQueue.Purge(false);
this.priorityOutgoingMessagesQueue.Purge(false);
this.commandsQueue = null;
this.localCommandsQueue = null;
this.outgoingMessagesQueue = null;
this.priorityOutgoingMessagesQueue = null;
///Releasing messages pools.
this.priorityMessagesPool.Release();
this.incomingMessagesPool.Release();
this.priorityMessagesPool = null;
this.incomingMessagesPool = null;
///Releasing SAEA pool.
this.incomingConnectionsPool.Release(false);
this.incomingConnectionsPool = null;
this.usersAccountManager = null;
this.lowLevelOperationSettings = null;
///Releasing the TCP purge timer.
this.tcpPurgeTimer.Dispose();
this.tcpPurgeTimer = null;
KSPMGlobals.Globals.Log.WriteTo(string.Format("Server KSPM killed after {0} miliseconds alive!!!", RealTimer.Timer.ElapsedMilliseconds));
#if PROFILING
this.profilerOutgoingMessages.Dispose();
#endif
}
public void Listen()
{
// If you call listen() on a port, then kill the process, then immediately start a new process and
// try to listen() on the same port, you sometimes get WSAEADDRINUSE. Even if nothing was accepted.
// Ports don't immediately free themselves on process shutdown. We call listen() in a loop on a delay
// for a few iterations for this reason.
//
TimeSpan listenTimeout = TimeSpan.FromSeconds(1);
BackoffTimeoutHelper backoffHelper = new BackoffTimeoutHelper(listenTimeout);
lock (ThisLock)
{
if (this.listenSocket != null)
{
this.listenSocket.Listen(settings.ListenBacklog);
isListening = true;
}
while (!isListening)
{
try
{
this.listenSocket = new Socket(localEndpoint.AddressFamily, SocketType.Stream, ProtocolType.Tcp);
if (localEndpoint.AddressFamily == AddressFamily.InterNetworkV6 && settings.TeredoEnabled)
{
this.listenSocket.SetSocketOption(SocketOptionLevel.IPv6, (SocketOptionName)23, 10);
}
this.listenSocket.Bind(localEndpoint);
this.listenSocket.Listen(settings.ListenBacklog);
isListening = true;
}
catch (SocketException socketException)
{
bool retry = false;
if (socketException.ErrorCode == UnsafeNativeMethods.WSAEADDRINUSE)
{
if (!backoffHelper.IsExpired())
{
backoffHelper.WaitAndBackoff();
retry = true;
}
}
if (!retry)
{
throw DiagnosticUtility.ExceptionUtility.ThrowHelperError(
SocketConnectionListener.ConvertListenException(socketException, this.localEndpoint));
}
}
}
this.socketAsyncEventArgsPool = new SocketAsyncEventArgsPool(GetAcceptBufferSize(this.listenSocket));
}
}
/// <summary>
/// 设置基本配置
/// </summary>
/// <param name="receiveBufferSize">用于每个套接字I/O操作的缓冲区大小(接收端)</param>
internal TcpClients(int receiveBufferSize)
{
m_receiveBufferSize = receiveBufferSize;
m_sendPool = new SocketAsyncEventArgsPool(m_minSendSocketAsyncEventArgs);
Init();
}
public HttpSocketServer(RemoteCommands remoteCommands)
{
logger = new Logger("HttpServer", false);
InitSettings();
m_remoteCommands = remoteCommands;
numConnectedSockets = 0;
bufferManager = new BufferManager((receiveBufferSize + sendBufferSize) * numberOfEventArgsForRecSend, receiveBufferSize + sendBufferSize);
poolOfAcceptEventArgs = new SocketAsyncEventArgsPool(maxSimultaneousAcceptOps);
poolOfRecSendEventArgs = new SocketAsyncEventArgsPool(numberOfEventArgsForRecSend);
maxNumberAcceptedClients = new Semaphore(maxConnections, maxConnections);
}
/// <summary>
/// 创建 TCP 服务客户端套接字
/// </summary>
internal override void Create()
{
bool isErrorLog = false, isReceiveAsync = false;
socketError = SocketError.Success;
do
{
if (checkCreate() == 0) return;
if (isSleep)
{
isSleep = false;
Thread.Sleep(ClientCreator.CommandClient.TryCreateSleep);
if (checkCreate() == 0) return;
}
try
{
Socket = new Socket(ipAddress.AddressFamily, SocketType.Stream, ProtocolType.Tcp);
#if !MONO
Socket.ReceiveBufferSize = ClientCreator.CommandClient.ReceiveBufferPool.Size;
Socket.SendBufferSize = ClientCreator.CommandClient.SendBufferPool.Size;
#endif
Socket.Connect(ipAddress, port);
if (checkCreate() == 0) return;
#if DOTNET2
if (onReceiveAsyncCallback == null) onReceiveAsyncCallback = onReceive;
#else
if (receiveAsyncEventArgs == null)
{
receiveAsyncEventArgs = SocketAsyncEventArgsPool.Get();
receiveAsyncEventArgs.Completed += onReceive;
}
#endif
if (ReceiveBuffer.Buffer == null) ClientCreator.CommandClient.ReceiveBufferPool.Get(ref ReceiveBuffer);
if (Sender == null) SetSender(new ClientSocketSender(this));
receiveBufferSize = ReceiveBuffer.PoolBuffer.Pool.Size;
receiveCount = receiveIndex = 0;
ReceiveType = TcpServer.ClientSocketReceiveType.CommandIdentity;
#if DOTNET2
Socket.BeginReceive(ReceiveBuffer.Buffer, ReceiveBuffer.StartIndex, receiveBufferSize, SocketFlags.None, out socketError, onReceiveAsyncCallback, Socket);
if (socketError == SocketError.Success)
#else
#if !DotNetStandard
Interlocked.Exchange(ref receiveAsyncLock, 1);
#endif
receiveAsyncEventArgs.SetBuffer(ReceiveBuffer.Buffer, ReceiveBuffer.StartIndex, receiveBufferSize);
if (Socket.ReceiveAsync(receiveAsyncEventArgs))
#endif
{
#if !DOTNET2 && !DotNetStandard
Interlocked.Exchange(ref receiveAsyncLock, 0);
#endif
isReceiveAsync = true;
if (verifyMethod(ClientCreator.CommandClient))
{
if (ClientCreator.OnSocketVerifyMethod(this))
{
if (isErrorLog)
{
ClientCreator.CommandClient.Log.Add(AutoCSer.Log.LogType.Debug, ClientCreator.Attribute.ServerName + " 客户端 TCP 连接成功 " + ipAddress.ToString() + ":" + port.toString());
}
return;
}
}
if (Socket != null)
{
#if DotNetStandard
AutoCSer.Net.TcpServer.CommandBase.CloseClientNotNull(Socket);
#else
Socket.Dispose();
#endif
Socket = null;
}
return;
}
}
catch (Exception error)
{
if (!isErrorLog)
{
isErrorLog = true;
ClientCreator.CommandClient.Log.Add(AutoCSer.Log.LogType.Debug, error, ClientCreator.Attribute.ServerName + " 客户端 TCP 连接失败 " + ipAddress.ToString() + ":" + port.toString());
}
}
if (isReceiveAsync) return;
CreateSleep();
}
while (true);
}
/// <summary>
/// Initializes a new instance of the <see cref="UdpServerEapBase{TServerClient}" /> class.
/// </summary>
/// <param name="expectedMaxPayloadSize"> (Optional) Size of the expected maximum payload. </param>
protected UdpServerEapBase(ushort expectedMaxPayloadSize = Constants.UDP_PAYLOAD_SIZE_MAX)
: base(expectedMaxPayloadSize)
{
_receiveEventArgsPool = new SocketAsyncEventArgsPool(0xFF);
_sendEventArgsPool = new SocketAsyncEventArgsPool(0xFF);
}
/// <summary>
/// Initializes a new instance of the <see cref="UdpClientEap" /> class.
/// </summary>
/// <param name="expectedMaxPayloadSize"> (Optional) Size of the expected maximum payload. </param>
public UdpClientEap(ushort expectedMaxPayloadSize = Constants.UDP_PAYLOAD_SIZE_MAX)
: base(expectedMaxPayloadSize)
{
_receiveEventArgsPool = new SocketAsyncEventArgsPool();
_sendEventArgsPool = new SocketAsyncEventArgsPool();
}
private void Initialize()
{
this.totalBytesRead = 0;
this.connectSocketNumber = 0;
this.bufferManager = new BufferManager(bufferSize * connectNumber * 2, bufferSize);
this.readWritePool = new SocketAsyncEventArgsPool(connectNumber);
this.acceptClientMaxNumber = new Semaphore(connectNumber, connectNumber);
bufferManager.InitBuffer();
SocketAsyncEventArgs readWriteEventArgs;
for (int index = 0; index < connectNumber; index++)
{
readWriteEventArgs = new SocketAsyncEventArgs();
readWriteEventArgs.UserToken = new AsyncUserToken();
readWriteEventArgs.Completed += new EventHandler<SocketAsyncEventArgs>(IO_Completed);
bufferManager.SetBuffer(readWriteEventArgs);
readWritePool.Push(readWriteEventArgs);
}
}
/// <summary>
/// 构造函数。
/// 初始化连接最大数量,内存池等结构。
/// </summary>
public IocpServer(int numConnections)
{
this.numConnectedSockets = 0;
this.numConnections = numConnections;
this.readWritePool = new SocketAsyncEventArgsPool(3000);
this.tokenMap = new Dictionary<long, IocpUserToken>();
for (Int32 i = 0; i < (this.numConnections * 2); i++)
{
// 申请一个SocketAsyncEventArgs结构,并添加到内存池。
this.readWritePool.Push(this.AllocSocketAsyncEventArgs());
}
}
/// <summary>
/// 构造方法
/// </summary>
/// <param name="receiveBufferSize">接收缓存大小</param>
public UdpServer(int receiveBufferSize)
{
m_receiveBufferSize = receiveBufferSize;
m_sendPool = new SocketAsyncEventArgsPool(10);
Init();
}
public void Listen()
{
BackoffTimeoutHelper helper = new BackoffTimeoutHelper(TimeSpan.FromSeconds(1.0));
lock (this.ThisLock)
{
if (this.listenSocket != null)
{
this.listenSocket.Listen(this.settings.ListenBacklog);
this.isListening = true;
}
while (!this.isListening)
{
try
{
this.listenSocket = new Socket(this.localEndpoint.AddressFamily, SocketType.Stream, ProtocolType.Tcp);
if ((this.localEndpoint.AddressFamily == AddressFamily.InterNetworkV6) && this.settings.TeredoEnabled)
{
this.listenSocket.SetSocketOption(SocketOptionLevel.IPv6, SocketOptionName.IPProtectionLevel, 10);
}
this.listenSocket.Bind(this.localEndpoint);
this.listenSocket.Listen(this.settings.ListenBacklog);
this.isListening = true;
continue;
}
catch (SocketException exception)
{
bool flag = false;
if ((exception.ErrorCode == 0x2740) && !helper.IsExpired())
{
helper.WaitAndBackoff();
flag = true;
}
if (!flag)
{
throw DiagnosticUtility.ExceptionUtility.ThrowHelperError(ConvertListenException(exception, this.localEndpoint));
}
continue;
}
}
this.socketAsyncEventArgsPool = new SocketAsyncEventArgsPool(GetAcceptBufferSize(this.listenSocket));
}
}
internal void Free()
{
socketAsyncEventArgs.Completed -= onReceiveAsyncCallback;
SocketAsyncEventArgsPool.PushNotNull(ref socketAsyncEventArgs);
}
/// <summary>
/// 创建 TCP 服务客户端套接字
/// </summary>
internal override void Create()
{
bool isErrorLog = false;
socketError = SocketError.Success;
do
{
if (checkCreate() == 0) return;
if (isSleep)
{
isSleep = false;
Thread.Sleep(ClientCreator.CommandClient.FristTryCreateSleep);
}
try
{
Socket = new Socket(IpAddress.AddressFamily, SocketType.Stream, ProtocolType.Tcp);
#if !MONO
Socket.ReceiveBufferSize = ClientCreator.CommandClient.ReceiveBufferPool.Size;
Socket.SendBufferSize = ClientCreator.CommandClient.SendBufferPool.Size;
#endif
Socket.Connect(IpAddress, Port);
if (checkCreate() == 0) return;
if (onReceiveAsyncCallback == null) onReceiveAsyncCallback = onReceive;
#if !DOTNET2
if (receiveAsyncEventArgs == null)
{
receiveAsyncEventArgs = SocketAsyncEventArgsPool.Get();
receiveAsyncEventArgs.Completed += onReceiveAsyncCallback;
}
#endif
if (ReceiveBuffer.Buffer == null) ClientCreator.CommandClient.ReceiveBufferPool.Get(ref ReceiveBuffer);
if (Sender == null) SetSender(new ClientSocketSender(this));
receiveBufferSize = ReceiveBuffer.PoolBuffer.Pool.Size;
receiveCount = receiveIndex = 0;
ReceiveType = TcpServer.ClientSocketReceiveType.CommandIdentityAgain;
#if DOTNET2
Socket.BeginReceive(ReceiveBuffer.Buffer, ReceiveBuffer.StartIndex, receiveBufferSize, SocketFlags.None, out socketError, onReceiveAsyncCallback, Socket);
if (socketError == SocketError.Success)
#else
#if !DotNetStandard
Interlocked.Exchange(ref receiveAsyncLock.Lock, 1);
#endif
receiveAsyncEventArgs.SetBuffer(ReceiveBuffer.Buffer, ReceiveBuffer.StartIndex, receiveBufferSize);
if (Socket.ReceiveAsync(receiveAsyncEventArgs))
#endif
{
#if !DOTNET2 && !DotNetStandard
receiveAsyncLock.Exit();
#endif
if (verifyMethod() && ClientCreator.OnSocketVerifyMethod(this))
{
if (isErrorLog)
{
ClientCreator.CommandClient.Log.Debug(ClientCreator.Attribute.ServerName + " 客户端 TCP 连接成功 " + IpAddress.ToString() + ":" + Port.toString(), LogLevel.Debug | LogLevel.AutoCSer);
}
ClientCreator.VerifyCount = 0;
return;
}
}
++ClientCreator.VerifyCount;
}
catch (Exception error)
{
if (!isErrorLog)
{
isErrorLog = true;
ClientCreator.CommandClient.Log.Exception(error, ClientCreator.Attribute.ServerName + " 客户端 TCP 连接失败 " + IpAddress.ToString() + ":" + Port.toString(), LogLevel.Exception | LogLevel.AutoCSer);
}
}
if (Sender != null)
{
VerifyMethodSleep();
return;
}
ClientCreator.VerifyCount = 0;
CreateSleep();
}
while (true);
}
