前言
socket是软件之间通讯最常用的一种方式。c#实现socket通讯有很多中方法,其中效率最高就是异步通讯。
异步通讯实际是利用windows完成端口(IOCP)来处理的,关于完成端口实现原理,大家可以参考网上文章。
我这里想强调的是采用完成端口机制的异步通讯是windows下效率最高的通讯方式,没有之一!
异步通讯比同步通讯处理要难很多,代码编写中会遇到许多“坑“。如果没有经验,很难完成。
我搜集了大量资料,完成了对异步socket的封装。此库已用稳定高效的运行几个月。
纵观网上的资料,我还没有遇到一个满意的封装库。许多文章把数据收发和协议处理杂糅在一块,代码非常难懂,也无法扩展。
在编写该库时,避免以上缺陷。将逻辑处理层次化,模块化!同时实现了高可用性与高性能。
为了使大家对通讯效率有初步了解,先看测试图。
客户端和服务端都是本机测试,最大连接数为64422,套接字已耗尽!
主机配置情况
百兆带宽基本占满,cpu占用40%,我的电脑在空闲时,cpu占用大概20%,也就是说程序占用cpu 20%左右。
这个库是可扩展的,就是说即使10万个连接,收发同样的数据,cpu占用基本相同。
库的结构图
目标
- 即可作为服务端(监听)也可以作为客户端(主动连接)使用。
- 可以适应任何网络协议。收发的数据针对字节流或一个完整的包。对协议内容不做处理。
- 高可用性。将复杂的底层处理封装,对外接口非常友好。
- 高性能。最大限度优化处理。单机可支持数万连接,收发速度可达几百兆bit。
实现思路
网络处理逻辑可以分为以下几个部分:
- 网络监听 可以在多个端口实现监听。负责生成socket,生成的socket供后续处理。监听模块功能比较单一,如有必要,可对监听模块做进一步优化。
- 主动连接 可以异步或同步的连接对方。连接成功后,对socket的后续处理,与监听得到的socket完全一样。注:无论是监听得到的socket,还是连接得到的socket,后续处理完全一样。
- Socket收发处理 每个socket对应一个收发实例,socket收发只针对字节流处理。收发时,做了优化。比如发送时,对数据做了粘包,提高发送性能;接收时,一次投递1K的数据。
- 组包处理 一般数据包都有包长度指示;比如 报头的前俩个字节表示长度,根据这个值就可以组成一个完整的包。
NetListener 监听
using System;
using System.Net;
using System.Net.Sockets;
using System.Threading; namespace IocpCore
{
class NetListener
{
private Socket listenSocket;
public ListenParam _listenParam { get; set; }
public event Action<ListenParam, AsyncSocketClient> OnAcceptSocket; bool start; NetServer _netServer;
public NetListener(NetServer netServer)
{
_netServer = netServer;
} public int _acceptAsyncCount = 0;
public bool StartListen()
{
try
{
start = true;
IPEndPoint listenPoint = new IPEndPoint(IPAddress.Parse("0.0.0.0"), _listenParam._port);
listenSocket = new Socket(listenPoint.AddressFamily, SocketType.Stream, ProtocolType.Tcp);
listenSocket.Bind(listenPoint);
listenSocket.Listen(200); Thread thread1 = new Thread(new ThreadStart(NetProcess));
thread1.Start(); StartAccept();
return true;
}
catch (Exception ex)
{
NetLogger.Log(string.Format("**监听异常!{0}", ex.Message));
return false;
}
} AutoResetEvent _acceptEvent = new AutoResetEvent(false);
private void NetProcess()
{
while (start)
{
DealNewAccept();
_acceptEvent.WaitOne(1000 * 10);
}
} private void DealNewAccept()
{
try
{
if(_acceptAsyncCount <= 10)
{
StartAccept();
} while (true)
{
AsyncSocketClient client = _newSocketClientList.GetObj();
if (client == null)
break; DealNewAccept(client);
}
}
catch (Exception ex)
{
NetLogger.Log(string.Format("DealNewAccept 异常 {0}***{1}", ex.Message, ex.StackTrace));
}
} private void DealNewAccept(AsyncSocketClient client)
{
client.SendBufferByteCount = _netServer.SendBufferBytePerClient;
OnAcceptSocket?.Invoke(_listenParam, client);
} public bool StartAccept()
{ return true;
} ObjectPool<AsyncSocketClient> _newSocketClientList = new ObjectPool<AsyncSocketClient>();
private void ProcessAccept(SocketAsyncEventArgs acceptEventArgs)
{
try
{
using (acceptEventArgs)
{
if (acceptEventArgs.AcceptSocket != null)
{
AsyncSocketClient client = new AsyncSocketClient(acceptEventArgs.AcceptSocket);
client.CreateClientInfo(this); _newSocketClientList.PutObj(client);
_acceptEvent.Set();
}
}
}
catch (Exception ex)
{
NetLogger.Log(string.Format("ProcessAccept {0}***{1}", ex.Message, ex.StackTrace));
}
}
}
}
NetConnectManage连接处理
using System;
using System.Net;
using System.Net.Sockets; namespace IocpCore
{
class NetConnectManage
{
public event Action<SocketEventParam, AsyncSocketClient> OnSocketConnectEvent; public bool ConnectAsyn(string peerIp, int peerPort, object tag)
{
try
{
Socket socket = new Socket(SocketType.Stream, ProtocolType.Tcp);
SocketAsyncEventArgs socketEventArgs = new SocketAsyncEventArgs();
socketEventArgs.RemoteEndPoint = new IPEndPoint(IPAddress.Parse(peerIp), peerPort);
socketEventArgs.Completed += SocketConnect_Completed; SocketClientInfo clientInfo = new SocketClientInfo();
socketEventArgs.UserToken = clientInfo;
clientInfo.PeerIp = peerIp;
clientInfo.PeerPort = peerPort;
clientInfo.Tag = tag; bool willRaiseEvent = socket.ConnectAsync(socketEventArgs);
if (!willRaiseEvent)
{
ProcessConnect(socketEventArgs);
socketEventArgs.Completed -= SocketConnect_Completed;
socketEventArgs.Dispose();
}
return true;
}
catch (Exception ex)
{
NetLogger.Log("ConnectAsyn",ex);
return false;
}
} private void SocketConnect_Completed(object sender, SocketAsyncEventArgs socketEventArgs)
{
ProcessConnect(socketEventArgs);
socketEventArgs.Completed -= SocketConnect_Completed;
socketEventArgs.Dispose();
} private void ProcessConnect(SocketAsyncEventArgs socketEventArgs)
{
SocketClientInfo clientInfo = socketEventArgs.UserToken as SocketClientInfo;
if (socketEventArgs.SocketError == SocketError.Success)
{
DealConnectSocket(socketEventArgs.ConnectSocket, clientInfo);
}
else
{
SocketEventParam socketParam = new SocketEventParam(EN_SocketEvent.connect, null);
socketParam.ClientInfo = clientInfo;
OnSocketConnectEvent?.Invoke(socketParam, null);
}
} void DealConnectSocket(Socket socket, SocketClientInfo clientInfo)
{
clientInfo.SetClientInfo(socket); AsyncSocketClient client = new AsyncSocketClient(socket);
client.SetClientInfo(clientInfo); //触发事件
SocketEventParam socketParam = new SocketEventParam(EN_SocketEvent.connect, socket);
socketParam.ClientInfo = clientInfo;
OnSocketConnectEvent?.Invoke(socketParam, client);
} public bool Connect(string peerIp, int peerPort, object tag, out Socket socket)
{
socket = null;
try
{
Socket socketTmp = new Socket(SocketType.Stream, ProtocolType.Tcp); SocketClientInfo clientInfo = new SocketClientInfo();
clientInfo.PeerIp = peerIp;
clientInfo.PeerPort = peerPort;
clientInfo.Tag = tag; EndPoint remoteEP = new IPEndPoint(IPAddress.Parse(peerIp), peerPort);
socketTmp.Connect(remoteEP);
if (!socketTmp.Connected)
return false; DealConnectSocket(socketTmp, clientInfo);
socket = socketTmp;
return true;
}
catch (Exception ex)
{
NetLogger.Log(string.Format("连接对方:({0}:{1})出错!", peerIp, peerPort), ex);
return false;
}
}
}
}
AsyncSocketClient socket收发处理
using System;
using System.Collections.Generic;
using System.Diagnostics;
using System.Net;
using System.Net.Sockets; namespace IocpCore
{
public class AsyncSocketClient
{
public static int IocpReadLen = ; public readonly Socket ConnectSocket; protected SocketAsyncEventArgs m_receiveEventArgs;
public SocketAsyncEventArgs ReceiveEventArgs { get { return m_receiveEventArgs; } set { m_receiveEventArgs = value; } }
protected byte[] m_asyncReceiveBuffer; protected SocketAsyncEventArgs m_sendEventArgs;
public SocketAsyncEventArgs SendEventArgs { get { return m_sendEventArgs; } set { m_sendEventArgs = value; } }
protected byte[] m_asyncSendBuffer; public event Action<AsyncSocketClient, byte[]> OnReadData;
public event Action<AsyncSocketClient, int> OnSendData;
public event Action<AsyncSocketClient> OnSocketClose; static object releaseLock = new object();
public static int createCount = ;
public static int releaseCount = ; ~AsyncSocketClient()
{
lock (releaseLock)
{
releaseCount++;
}
} public AsyncSocketClient(Socket socket)
{
lock (releaseLock)
{
createCount++;
} ConnectSocket = socket; m_receiveEventArgs = new SocketAsyncEventArgs();
m_asyncReceiveBuffer = new byte[IocpReadLen];
m_receiveEventArgs.AcceptSocket = ConnectSocket;
m_receiveEventArgs.Completed += ReceiveEventArgs_Completed; m_sendEventArgs = new SocketAsyncEventArgs();
m_asyncSendBuffer = new byte[IocpReadLen * ];
m_sendEventArgs.AcceptSocket = ConnectSocket;
m_sendEventArgs.Completed += SendEventArgs_Completed;
} SocketClientInfo _clientInfo; public SocketClientInfo ClientInfo
{
get
{
return _clientInfo;
}
} internal void CreateClientInfo(NetListener netListener)
{
_clientInfo = new SocketClientInfo();
try
{
_clientInfo.Tag = netListener._listenParam._tag;
IPEndPoint ip = ConnectSocket.LocalEndPoint as IPEndPoint;
Debug.Assert(netListener._listenParam._port == ip.Port); _clientInfo.LocalIp = ip.Address.ToString();
_clientInfo.LocalPort = netListener._listenParam._port; ip = ConnectSocket.RemoteEndPoint as IPEndPoint;
_clientInfo.PeerIp = ip.Address.ToString();
_clientInfo.PeerPort = ip.Port;
}
catch (Exception ex)
{
NetLogger.Log("CreateClientInfo", ex);
}
}
internal void SetClientInfo(SocketClientInfo clientInfo)
{
_clientInfo = clientInfo;
} #region read process
bool _inReadPending = false;
public EN_SocketReadResult ReadNextData()
{
lock (this)
{
if (_socketError)
return EN_SocketReadResult.ReadError;
if (_inReadPending)
return EN_SocketReadResult.InAsyn;
if(!ConnectSocket.Connected)
{
OnReadError();
return EN_SocketReadResult.ReadError;
} try
{
m_receiveEventArgs.SetBuffer(m_asyncReceiveBuffer, , m_asyncReceiveBuffer.Length);
_inReadPending = true;
bool willRaiseEvent = ConnectSocket.ReceiveAsync(ReceiveEventArgs); //投递接收请求
if (!willRaiseEvent)
{
return EN_SocketReadResult.HaveRead;
}
else
{
return EN_SocketReadResult.InAsyn;
}
}
catch (Exception ex)
{
NetLogger.Log("ReadNextData", ex);
_inReadPending = false;
OnReadError();
return EN_SocketReadResult.ReadError;
}
}
} private void ProcessReceive()
{
if (ReceiveEventArgs.BytesTransferred >
&& ReceiveEventArgs.SocketError == SocketError.Success)
{
int offset = ReceiveEventArgs.Offset;
int count = ReceiveEventArgs.BytesTransferred; byte[] readData = new byte[count];
Array.Copy(m_asyncReceiveBuffer, offset, readData, , count); _inReadPending = false;
if (!_socketError)
OnReadData?.Invoke(this, readData);
}
else
{
_inReadPending = false;
OnReadError();
}
} private void ReceiveEventArgs_Completed(object sender, SocketAsyncEventArgs e)
{
lock (this)
{
_inReadPending = false;
ProcessReceive();
if (_socketError)
{
OnReadError();
}
}
} bool _socketError = false;
private void OnReadError()
{
lock (this)
{
if (_socketError == false)
{
_socketError = true;
OnSocketClose?.Invoke(this);
}
CloseClient();
}
}
#endregion #region send process
int _sendBufferByteCount = ;
public int SendBufferByteCount
{
get
{
return _sendBufferByteCount;
}
set
{
if (value < )
{
_sendBufferByteCount = ;
}
else
{
_sendBufferByteCount = value;
}
}
} SendBufferPool _sendDataPool = new SendBufferPool();
internal EN_SendDataResult PutSendData(byte[] data)
{
//此处省略 } private void SendEventArgs_Completed(object sender, SocketAsyncEventArgs sendEventArgs)
{
lock (this)
{
try
{
_inSendPending = false;
ProcessSend(m_sendEventArgs); int sendCount = ;
if (sendEventArgs.SocketError == SocketError.Success)
{
sendCount = sendEventArgs.BytesTransferred;
}
OnSendData?.Invoke(this, sendCount); if (_socketError)
{
OnSendError();
}
}
catch (Exception ex)
{
NetLogger.Log("SendEventArgs_Completed", ex);
}
}
} private bool ProcessSend(SocketAsyncEventArgs sendEventArgs)
{
if (sendEventArgs.SocketError == SocketError.Success)
{
return true;
}
else
{
OnSendError();
return false;
}
} private int GetSendData()
{
int dataLen = ;
while (true)
{
byte[] data = _sendDataPool.GetObj();
if (data == null)
return dataLen;
Array.Copy(data, , m_asyncSendBuffer, dataLen, data.Length);
dataLen += data.Length;
if (dataLen > IocpReadLen)
break;
}
return dataLen;
}
private void OnSendError()
{
lock (this)
{
if (_socketError == false)
{
_socketError = true;
OnSocketClose?.Invoke(this);
}
CloseClient();
}
}
#endregion internal void CloseSocket()
{
try
{
ConnectSocket.Close();
}
catch (Exception ex)
{
NetLogger.Log("CloseSocket", ex);
}
} static object socketCloseLock = new object();
public static int closeSendCount = ;
public static int closeReadCount = ; bool _disposeSend = false;
void CloseSend()
{
if (!_disposeSend && !_inSendPending)
{
lock (socketCloseLock)
closeSendCount++; _disposeSend = true;
m_sendEventArgs.SetBuffer(null, , );
m_sendEventArgs.Completed -= SendEventArgs_Completed;
m_sendEventArgs.Dispose();
}
} bool _disposeRead = false;
void CloseRead()
{
if (!_disposeRead && !_inReadPending)
{
lock (socketCloseLock)
closeReadCount++; _disposeRead = true;
m_receiveEventArgs.SetBuffer(null, , );
m_receiveEventArgs.Completed -= ReceiveEventArgs_Completed;
m_receiveEventArgs.Dispose();
}
}
private void CloseClient()
{
try
{
CloseSend();
CloseRead();
ConnectSocket.Close();
}
catch (Exception ex)
{
NetLogger.Log("CloseClient", ex);
}
} //发送缓冲大小
private List<byte[]> SplitData(byte[] data, int maxLen)
{
List<byte[]> items = new List<byte[]>(); int start = ;
while (true)
{
int itemLen = Math.Min(maxLen, data.Length - start);
if (itemLen == )
break;
byte[] item = new byte[itemLen];
Array.Copy(data, start, item, , itemLen);
items.Add(item); start += itemLen;
}
return items;
}
} public enum EN_SocketReadResult
{
InAsyn,
HaveRead,
ReadError
} public enum EN_SocketSendResult
{
InAsyn,
HaveSend,
NoSendData,
SendError
} class SendBufferPool
{
ObjectPool<byte[]> _bufferPool = new ObjectPool<byte[]>(); public Int64 _bufferByteCount = ;
public bool PutObj(byte[] obj)
{
if (_bufferPool.PutObj(obj))
{
lock (this)
{
_bufferByteCount += obj.Length;
}
return true;
}
else
{
return false;
}
} public byte[] GetObj()
{
byte[] result = _bufferPool.GetObj();
if (result != null)
{
lock (this)
{
_bufferByteCount -= result.Length;
}
}
return result;
}
}
}
NetServer 聚合其他类
using System;
using System.Collections.Generic;
using System.Diagnostics;
using System.Linq;
using System.Net.Sockets;
using System.Threading; namespace IocpCore
{
public class NetServer
{
public Action<SocketEventParam> OnSocketPacketEvent; //每个连接发送缓冲大小
public int SendBufferBytePerClient { get; set; } = * ; bool _serverStart = false;
List<NetListener> _listListener = new List<NetListener>(); //负责对收到的字节流 组成完成的包
ClientPacketManage _clientPacketManage; public Int64 SendByteCount { get; set; }
public Int64 ReadByteCount { get; set; } List<ListenParam> _listListenPort = new List<ListenParam>();
public void AddListenPort(int port, object tag)
{
_listListenPort.Add(new ListenParam(port, tag));
}
/// <summary>
///
/// </summary>
/// <param name="listenFault">监听失败的端口</param>
/// <returns></returns>
public bool StartListen(out List<int> listenFault)
{
_serverStart = true; _clientPacketManage = new ClientPacketManage(this);
_clientPacketManage.OnSocketPacketEvent += PutClientPacket; _netConnectManage.OnSocketConnectEvent += SocketConnectEvent; _listListener.Clear();
Thread thread1 = new Thread(new ThreadStart(NetPacketProcess));
thread1.Start(); Thread thread2 = new Thread(new ThreadStart(NetSendProcess));
thread2.Start(); Thread thread3 = new Thread(new ThreadStart(NetReadProcess));
thread3.Start(); listenFault = new List<int>();
foreach (ListenParam param in _listListenPort)
{
NetListener listener = new NetListener(this);
listener._listenParam = param;
listener.OnAcceptSocket += Listener_OnAcceptSocket;
if (!listener.StartListen())
{
listenFault.Add(param._port);
}
else
{
_listListener.Add(listener);
NetLogger.Log(string.Format("监听成功!端口:{0}", param._port));
}
} return listenFault.Count == ;
} public void PutClientPacket(SocketEventParam param)
{
OnSocketPacketEvent?.Invoke(param);
} //获取包的最小长度
int _packetMinLen;
int _packetMaxLen;
public int PacketMinLen
{
get { return _packetMinLen; }
}
public int PacketMaxLen
{
get { return _packetMaxLen; }
} /// <summary>
/// 设置包的最小和最大长度
/// 当minLen=0时,认为是接收字节流
/// </summary>
/// <param name="minLen"></param>
/// <param name="maxLen"></param>
public void SetPacketParam(int minLen, int maxLen)
{
Debug.Assert(minLen >= );
Debug.Assert(maxLen > minLen);
_packetMinLen = minLen;
_packetMaxLen = maxLen;
} //获取包的总长度
public delegate int delegate_GetPacketTotalLen(byte[] data, int offset);
public delegate_GetPacketTotalLen GetPacketTotalLen_Callback; ObjectPoolWithEvent<SocketEventParam> _socketEventPool = new ObjectPoolWithEvent<SocketEventParam>();
private void NetPacketProcess()
{
while (_serverStart)
{
try
{
DealEventPool();
}
catch (Exception ex)
{
NetLogger.Log(string.Format("DealEventPool 异常 {0}***{1}", ex.Message, ex.StackTrace));
}
_socketEventPool.WaitOne();
}
} Dictionary<Socket, AsyncSocketClient> _clientGroup = new Dictionary<Socket, AsyncSocketClient>();
public int ClientCount
{
get
{
lock (_clientGroup)
{
return _clientGroup.Count;
}
}
}
public List<Socket> ClientList
{
get
{
lock (_clientGroup)
{
return _clientGroup.Keys.ToList();
}
}
} private void DealEventPool()
{
while (true)
{
SocketEventParam param = _socketEventPool.GetObj();
if (param == null)
return; if (param.SocketEvent == EN_SocketEvent.close)
{
lock (_clientGroup)
{
_clientGroup.Remove(param.Socket);
}
} if (_packetMinLen == )//字节流处理
{
OnSocketPacketEvent?.Invoke(param);
}
else
{
//组成一个完整的包 逻辑
_clientPacketManage.PutSocketParam(param);
}
}
} private void SocketConnectEvent(SocketEventParam param, AsyncSocketClient client)
{
try
{
if (param.Socket == null || client == null) //连接失败
{ }
else
{
lock (_clientGroup)
{
bool remove = _clientGroup.Remove(client.ConnectSocket);
Debug.Assert(!remove);
_clientGroup.Add(client.ConnectSocket, client);
} client.OnSocketClose += Client_OnSocketClose;
client.OnReadData += Client_OnReadData;
client.OnSendData += Client_OnSendData; _listReadEvent.PutObj(new SocketEventDeal(client, EN_SocketDealEvent.read));
}
_socketEventPool.PutObj(param);
}
catch (Exception ex)
{
NetLogger.Log(string.Format("SocketConnectEvent 异常 {0}***{1}", ex.Message, ex.StackTrace));
}
} internal void OnRcvPacketLenError(Socket socket, byte[] buffer, int offset, int packetLen)
{
try
{
lock (_clientGroup)
{
if (!_clientGroup.ContainsKey(socket))
{
Debug.Assert(false);
return;
} NetLogger.Log(string.Format("报长度异常!包长:{0}", packetLen));
AsyncSocketClient client = _clientGroup[socket];
client.CloseSocket();
}
}
catch (Exception ex)
{
NetLogger.Log(string.Format("OnRcvPacketLenError 异常 {0}***{1}", ex.Message, ex.StackTrace));
}
} #region listen port
private void Listener_OnAcceptSocket(ListenParam listenPatam, AsyncSocketClient client)
{
try
{
lock (_clientGroup)
{
bool remove = _clientGroup.Remove(client.ConnectSocket);
Debug.Assert(!remove);
_clientGroup.Add(client.ConnectSocket, client);
} client.OnSocketClose += Client_OnSocketClose;
client.OnReadData += Client_OnReadData;
client.OnSendData += Client_OnSendData; _listReadEvent.PutObj(new SocketEventDeal(client, EN_SocketDealEvent.read)); SocketEventParam param = new SocketEventParam(EN_SocketEvent.accept, client.ConnectSocket);
param.ClientInfo = client.ClientInfo; _socketEventPool.PutObj(param);
}
catch (Exception ex)
{
NetLogger.Log(string.Format("Listener_OnAcceptSocket 异常 {0}***{1}", ex.Message, ex.StackTrace));
}
} ObjectPoolWithEvent<SocketEventDeal> _listSendEvent = new ObjectPoolWithEvent<SocketEventDeal>();
private void NetSendProcess()
{
while (true)
{
DealSendEvent();
_listSendEvent.WaitOne();
}
} ObjectPoolWithEvent<SocketEventDeal> _listReadEvent = new ObjectPoolWithEvent<SocketEventDeal>();
private void NetReadProcess()
{
while (true)
{
DealReadEvent();
_listReadEvent.WaitOne();
}
} private void DealSendEvent()
{
while (true)
{
SocketEventDeal item = _listSendEvent.GetObj();
if (item == null)
break;
switch (item.SocketEvent)
{
case EN_SocketDealEvent.send:
{
while (true)
{
EN_SocketSendResult result = item.Client.SendNextData();
if (result == EN_SocketSendResult.HaveSend)
continue;
else
break;
}
}
break;
case EN_SocketDealEvent.read:
{
Debug.Assert(false);
}
break;
}
}
} private void DealReadEvent()
{
while (true)
{
SocketEventDeal item = _listReadEvent.GetObj();
if (item == null)
break;
switch (item.SocketEvent)
{
case EN_SocketDealEvent.read:
{
while (true)
{
EN_SocketReadResult result = item.Client.ReadNextData();
if (result == EN_SocketReadResult.HaveRead)
continue;
else
break;
}
}
break;
case EN_SocketDealEvent.send:
{
Debug.Assert(false);
}
break;
}
}
} private void Client_OnReadData(AsyncSocketClient client, byte[] readData)
{
//读下一条
_listReadEvent.PutObj(new SocketEventDeal(client, EN_SocketDealEvent.read)); try
{
SocketEventParam param = new SocketEventParam(EN_SocketEvent.read, client.ConnectSocket);
param.ClientInfo = client.ClientInfo;
param.Data = readData;
_socketEventPool.PutObj(param); lock (this)
{
ReadByteCount += readData.Length;
}
}
catch (Exception ex)
{
NetLogger.Log(string.Format("Client_OnReadData 异常 {0}***{1}", ex.Message, ex.StackTrace));
}
}
#endregion private void Client_OnSendData(AsyncSocketClient client, int sendCount)
{
//发送下一条
_listSendEvent.PutObj(new SocketEventDeal(client, EN_SocketDealEvent.send));
lock (this)
{
SendByteCount += sendCount;
}
} private void Client_OnSocketClose(AsyncSocketClient client)
{
try
{
SocketEventParam param = new SocketEventParam(EN_SocketEvent.close, client.ConnectSocket);
param.ClientInfo = client.ClientInfo;
_socketEventPool.PutObj(param);
}
catch (Exception ex)
{
NetLogger.Log(string.Format("Client_OnSocketClose 异常 {0}***{1}", ex.Message, ex.StackTrace));
}
} /// <summary>
/// 放到发送缓冲
/// </summary>
/// <param name="socket"></param>
/// <param name="data"></param>
/// <returns></returns>
public EN_SendDataResult SendData(Socket socket, byte[] data)
{
if (socket == null)
return EN_SendDataResult.no_client;
lock (_clientGroup)
{
if (!_clientGroup.ContainsKey(socket))
return EN_SendDataResult.no_client;
AsyncSocketClient client = _clientGroup[socket];
EN_SendDataResult result = client.PutSendData(data);
if (result == EN_SendDataResult.ok)
{
//发送下一条
_listSendEvent.PutObj(new SocketEventDeal(client, EN_SocketDealEvent.send));
}
return result;
}
} /// <summary>
/// 设置某个连接的发送缓冲大小
/// </summary>
/// <param name="socket"></param>
/// <param name="byteCount"></param>
/// <returns></returns>
public bool SetClientSendBuffer(Socket socket, int byteCount)
{
lock (_clientGroup)
{
if (!_clientGroup.ContainsKey(socket))
return false;
AsyncSocketClient client = _clientGroup[socket];
client.SendBufferByteCount = byteCount;
return true;
}
} #region connect process
NetConnectManage _netConnectManage = new NetConnectManage();
/// <summary>
/// 异步连接一个客户端
/// </summary>
/// <param name="peerIp"></param>
/// <param name="peerPort"></param>
/// <param name="tag"></param>
/// <returns></returns>
public bool ConnectAsyn(string peerIp, int peerPort, object tag)
{
return _netConnectManage.ConnectAsyn(peerIp, peerPort, tag);
} /// <summary>
/// 同步连接一个客户端
/// </summary>
/// <param name="peerIp"></param>
/// <param name="peerPort"></param>
/// <param name="tag"></param>
/// <param name="socket"></param>
/// <returns></returns>
public bool Connect(string peerIp, int peerPort, object tag, out Socket socket)
{
return _netConnectManage.Connect(peerIp, peerPort, tag, out socket);
}
#endregion
} enum EN_SocketDealEvent
{
read,
send,
}
class SocketEventDeal
{
public AsyncSocketClient Client { get; set; }
public EN_SocketDealEvent SocketEvent { get; set; }
public SocketEventDeal(AsyncSocketClient client, EN_SocketDealEvent socketEvent)
{
Client = client;
SocketEvent = socketEvent;
}
}
}
库的使用
使用起来非常简单,示例如下
using IocpCore;
using System;
using System.Collections.Generic;
using System.Linq;
using System.Net.Sockets;
using System.Text;
using System.Threading.Tasks;
using System.Windows; namespace WarningClient
{
public class SocketServer
{
public Action<SocketEventParam> OnSocketEvent; public Int64 SendByteCount
{
get
{
if (_netServer == null)
return ;
return _netServer.SendByteCount;
}
}
public Int64 ReadByteCount
{
get
{
if (_netServer == null)
return ;
return _netServer.ReadByteCount;
}
} NetServer _netServer;
EN_PacketType _packetType = EN_PacketType.byteStream;
public void SetPacktType(EN_PacketType packetType)
{
_packetType = packetType;
if (_netServer == null)
return;
if (packetType == EN_PacketType.byteStream)
{
_netServer.SetPacketParam(, );
}
else
{
_netServer.SetPacketParam(, );
}
} public bool Init(List<int> listenPort)
{
NetLogger.OnLogEvent += NetLogger_OnLogEvent;
_netServer = new NetServer();
SetPacktType(_packetType);
_netServer.GetPacketTotalLen_Callback += GetPacketTotalLen;
_netServer.OnSocketPacketEvent += SocketPacketDeal; foreach (int n in listenPort)
{
_netServer.AddListenPort(n, n);
} List<int> listenFault;
bool start = _netServer.StartListen(out listenFault);
return start;
} int GetPacketTotalLen(byte[] data, int offset)
{
if (MainWindow._packetType == EN_PacketType.znss)
return GetPacketZnss(data, offset);
else
return GetPacketAnzhiyuan(data, offset);
} int GetPacketAnzhiyuan(byte[] data, int offset)
{
int n = data[offset + ] + ;
return n;
} int GetPacketZnss(byte[] data, int offset)
{
int packetLen = (int)(data[]) + ;
return packetLen;
} public bool ConnectAsyn(string peerIp, int peerPort, object tag)
{
return _netServer.ConnectAsyn(peerIp, peerPort, tag);
} public bool Connect(string peerIp, int peerPort, object tag, out Socket socket)
{
return _netServer.Connect(peerIp, peerPort, tag, out socket);
} private void NetLogger_OnLogEvent(string message)
{
AppLog.Log(message);
} Dictionary<Socket, SocketEventParam> _clientGroup = new Dictionary<Socket, SocketEventParam>(); public int ClientCount
{
get
{
lock (_clientGroup)
{
return _clientGroup.Count;
}
}
}
public List<Socket> ClientList
{
get
{
if (_netServer != null)
return _netServer.ClientList;
return new List<Socket>();
}
}
void AddClient(SocketEventParam socketParam)
{
lock (_clientGroup)
{
_clientGroup.Remove(socketParam.Socket);
_clientGroup.Add(socketParam.Socket, socketParam);
}
} void RemoveClient(SocketEventParam socketParam)
{
lock (_clientGroup)
{
_clientGroup.Remove(socketParam.Socket);
}
} ObjectPool<SocketEventParam> _readDataPool = new ObjectPool<SocketEventParam>(); public ObjectPool<SocketEventParam> ReadDataPool
{
get
{
return _readDataPool;
}
} private void SocketPacketDeal(SocketEventParam socketParam)
{
OnSocketEvent?.Invoke(socketParam);
if (socketParam.SocketEvent == EN_SocketEvent.read)
{
if (MainWindow._isShowReadPacket)
_readDataPool.PutObj(socketParam);
}
else if (socketParam.SocketEvent == EN_SocketEvent.accept)
{
AddClient(socketParam);
string peerIp = socketParam.ClientInfo.PeerIpPort;
AppLog.Log(string.Format("客户端链接!本地端口:{0},对端:{1}",
socketParam.ClientInfo.LocalPort, peerIp));
}
else if (socketParam.SocketEvent == EN_SocketEvent.connect)
{
string peerIp = socketParam.ClientInfo.PeerIpPort;
if (socketParam.Socket != null)
{
AddClient(socketParam); AppLog.Log(string.Format("连接对端成功!本地端口:{0},对端:{1}",
socketParam.ClientInfo.LocalPort, peerIp));
}
else
{
AppLog.Log(string.Format("连接对端失败!本地端口:{0},对端:{1}",
socketParam.ClientInfo.LocalPort, peerIp));
}
}
else if (socketParam.SocketEvent == EN_SocketEvent.close)
{
MainWindow.MainWnd.OnSocketDisconnect(socketParam.Socket);
RemoveClient(socketParam);
string peerIp = socketParam.ClientInfo.PeerIpPort;
AppLog.Log(string.Format("客户端断开!本地端口:{0},对端:{1},",
socketParam.ClientInfo.LocalPort, peerIp));
}
} public EN_SendDataResult SendData(Socket socket, byte[] data)
{
if(socket == null)
{
MessageBox.Show("还没连接!");
return EN_SendDataResult.no_client;
}
return _netServer.SendData(socket, data);
} internal void SendToAll(byte[] data)
{
lock (_clientGroup)
{
foreach (Socket socket in _clientGroup.Keys)
{
SendData(socket, data);
}
}
}
}
}