来源: 前阵子的工作涉及一些网络编程,使用了面向流的方式做传输数据。在代码过程中,遇到一个新需求就是要统计流量。其实最简单的办法就时在读写流的地方增加代码,把功能增加上去就可以。但是我觉得那样对我原理的代码框架影响较大,基于尽量不影响原来的代码的考虑,我想到了Decorator设计模式。
先把代码贴出来,在做解释吧:
以下为引用的内容: private Stream stream; [ ==== Stream members ==== ]#region [ ==== Stream members ==== ] public override bool CanSeek public override bool CanWrite public override void Flush() public override long Length public override long Position public override int Read(byte[] buffer, int offset, int count) public override long Seek(long offset, SeekOrigin origin) public override void SetLength(long value) public override void Write(byte[] buffer, int offset, int count) public override IAsyncResult BeginRead(byte[] buffer, int offset, int count, public override int EndRead(IAsyncResult asyncResult) public override IAsyncResult BeginWrite(byte[] buffer, int offset, int count, AsyncCallback callback, object state) public override void EndWrite(IAsyncResult asyncResult) #endregion private class InternalCallback public InternalCallback(EventHandler internal void Callback(IAsyncResult asyncResult) private class InternalAsyncState public object State public FStreamDataEventArgs StreamDataEventArgs public InternalAsyncState(FStreamDataEventArgs streamDataEventArgs, object state) private class EventStreamAsyncResult : IAsyncResult public EventStreamAsyncResult(IAsyncResult ar) public object AsyncState internal IAsyncResult InternalAsyncResult public System.Threading.WaitHandle AsyncWaitHandle public bool CompletedSynchronously public bool IsCompleted #endregion public class FStreamDataEventArgs : EventArgs public FStreamDataEventArgs(byte[] buffer, int offset, int count) this.buffer = buffer; /**//// /**//// /**////
public class EventStream : Stream
{
public event EventHandler
public event EventHandler
public EventStream(Stream stream)
{
if (stream == null) throw new ArgumentNullException("EventStream");
this.stream = stream;
}
public override bool CanRead
{
get { return stream.CanRead; }
}
{
get { return stream.CanSeek; }
}
{
get { return stream.CanWrite; }
}
{
stream.Flush();
}
{
get { return stream.Length; }
}
{
get
{
return stream.Position;
}
set
{
stream.Position = value;
}
}
{
int readSize = stream.Read(buffer, offset, count);
if (OnBeforeRead != null)
OnBeforeRead(this, new FStreamDataEventArgs(buffer, offset, readSize));
return readSize;
}
{
return stream.Seek(offset, origin);
}
{
stream.SetLength(value);
}
{
if (OnBeforeWrite != null)
OnBeforeWrite(this, new FStreamDataEventArgs(buffer, offset, count));
stream.Write(buffer, offset, count);
}
AsyncCallback callback, object state)
{
InternalAsyncState myState = new InternalAsyncState(
new FStreamDataEventArgs(buffer, offset, count), state);
AsyncCallback myCallback = new AsyncCallback(
new InternalCallback(OnBeforeRead, callback).Callback);
return new EventStreamAsyncResult(
stream.BeginRead(buffer, offset, count, myCallback, myState));
}
{
EventStreamAsyncResult esar = asyncResult as EventStreamAsyncResult;
if (esar != null)
return stream.EndRead(esar.InternalAsyncResult);
else
return stream.EndRead(asyncResult);
}
{
InternalAsyncState myState = new InternalAsyncState(
new FStreamDataEventArgs(buffer, offset, count), state);
AsyncCallback myCallback = new AsyncCallback(
new InternalCallback(OnBeforeWrite, callback).Callback);
return new EventStreamAsyncResult(
stream.BeginWrite(buffer, offset, count, myCallback, myState));
}
{
stream.EndWrite(asyncResult);
}
{
private AsyncCallback callback;
private EventHandler
{
this.internalHandler = internalHandler;
this.callback = callback;
}
{
InternalAsyncState myState = asyncResult.AsyncState as InternalAsyncState;
if (internalHandler != null && myState != null)
internalHandler(this, myState.StreamDataEventArgs);
callback(new EventStreamAsyncResult(asyncResult));
}
}
{
object state;
FStreamDataEventArgs streamDataEventArgs;
{
get { return state; }
}
{
get { return streamDataEventArgs; }
}
{
this.streamDataEventArgs = streamDataEventArgs;
this.state = state;
}
}
{
IAsyncResult ar;
{
if (ar == null) throw new ArgumentNullException("EventStreamAsyncResult");
this.ar = ar;
}
IAsyncResult Members#region IAsyncResult Members
{
get
{
InternalAsyncState myState = ar.AsyncState as InternalAsyncState;
if (myState != null)
return myState.State;
else
return ar.AsyncState;
}
}
{
get { return ar; }
}
{
get { return ar.AsyncWaitHandle; }
}
{
get { return ar.CompletedSynchronously; }
}
{
get { return ar.IsCompleted; }
}
}
}
{
private byte[] buffer;
private int offset;
private int count;
{
if(buffer == null) throw new ArgumentNullException("FStreamDataEventArgs");
if(offset count>buffer.Length) throw new ArgumentOutOfRangeException("FStreamDataEventArgs");
this.offset = offset;
this.count = count;
}
/// 数据缓存
///
public byte[] Buffer
{
get { return buffer; }
}
/// 数据开始位置
///
public int Offset
{
get { return offset; }
}
/// 数据长度
///
public int Count
{
get { return count; }
}
}
刚开始以为很简单,事实上写下来还挺多行代码的,Decorator模式嘛,当然先继承stream,把stream本来该做的事情先完成了。这个很简单类里面包含一个内部的stream,stream该有的接口都由它来完成了。接下来就是增加两个事件,分别是OnBeforeRead、OnBeforeWrite。名字里面都有Before,其实我考虑到数据流都会通过这两个事件开放出来,你想做加密什么的都可以,当然也包括我想要的统计数据流量。
接下来就是在读写流的时候触发这两个事件就可以了。看看同步的Read、Write方法,简单的调用就可以了。
关键的地方就在于异步的读写。
我们先看看一般Stream的异步调用代码是怎么样的:
以下为引用的内容:
stream.BeginRead(buffer, 0, byte2read, new AsyncCallback(EndReadCallback), state);
private void EndReadCallback(IAsyncResult asyncResult)
{
object state = asyncResult.AsyncState;
nReadSize = stream.EndRead(asyncResult);
//
}
在不更改这个“client”代码的情况下,要怎么样在stream那边知道这里的确实读了多少数据呢?
显然在调用BeginRead的时候是不知道,那就只能对这个AsyncCallback做手脚了。可以预想到framework内部会在完成了Read的操作之后会调用AsyncCallback委托来通知结果。于是我就传一个我定义好的AsyncCallback委托给BeginRead。当然还要把“client”提供的AsyncCallback给包装起来,在做完我的事情(事件通知)之后,还是要把“client”要我办的事情给也给办了(调用"client"的AsyncCallback委托来通知结果)。
这就在实现了“在客户代码与framework之间插一脚”。
再来看看我是怎么做到事件通知的。首先要把我要的数据给传过去,于是有了InternalAsyncState,这里面要有我触发事件需要的事件参数,还应该要包括用户可能传入的state。具体大家看看InternalAsyncState的实现。
最后多考虑了一点就是,假如“client”代码不是像我写的那样,而是不断的通过检查Stream.BeginRead 方法返回的IAsyncResult的IsCompleted属性来确定是否Read完成的话,那我的代码就有问题了,我返回的IAsyncResult根本就不是原理的IAsyncResult了。EventStreamAsyncResult类就是为这个而写的。
下面是使用的代码:
以下为引用的内容:
public void GetResponseStream()
{
EventStream es = new EventStream(tcpClient.NetStream);
es.OnBeforeRead = new EventHandler
es.OnBeforeWrite = new EventHandler
return es;
}
回头看看代码,其实都在用Decorator模式的思想,把原来的framework中的类都给包装起来,并在完成原来的功能之余另外加了自己的功能。
文笔一般,希望能对你有帮助。
分类:.NET
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