Asp.Net页面执行流程分析
在我的上一篇文章中说到了HttpModule、HttpHandle的简单使用,我们可以利用它们在页面请求的过程中加入自己的事件处理程序。那么在一个aspx页面请求时后台到底做了什么?当然asp.net做了很多事情,过程也比较复杂,本文主要分析一下大体的流程。总体流程如下:
请求一个页面时首先被WWW服务截获(inetinfo.exe进程),这个进程首先判断页面的后缀,然后根据IIS中的配置来决定调用哪个扩展程序,比如aspx的页面就会调用c:\windows\microsoft.net\framework\v2.0.50727\aspnet_isapi.dll,aspnet_isapi.dll将请求发送给w3wp.exe进程(我们在调试IIS中网站时就是把VS2005附加到这个进程上的)。
接下来w3wp.exe进程就会调用.net类库进行具体处理:
ISAPIRuntime-->HttpRuntime-->HttpApplicationFactory-->HttpApplication-->HttpModule--HttpHandlerFactory-->HttpHandler 这也是本文主要分析的地方。
下面只是列出主要流程,如果喜欢钻研的同学可以用Reflector去查看
一:ISAPIRuntime
二:HttpRuntime
最主要的就是private void ProcessRequestInternal(HttpWorkerRequest wr)方法:
2、调用HttpApplicationFactory来生成IHttpHandler(这里生成的是一个默认的HttpApplication对象,HttpApplication也是IHttpHandler接口的一个实现)
3、调用HttpApplication对象执行请求
创建好HttpApplication之后对它进行初始化:
四、HttpApplication
这个是比较复杂也比较重要的一个对象
首先是执行初始化操作,比较重要的一步就是进行HttpModule的初始化:
在HookupEventHandlersForApplicationAndModules方法中绑定Module的事件处理程序接着进行事件实际绑定:
然后就是调用2.3中的方法执行请求:
五、HttpModule
在系统web.config中默认的配置有:
六、HttpHandlerFactory、HttpHandler
这两个对象在web.config中的配置方法是相同的,默认配置有:
这里我们重点看一下aspx的配置:System.Web.UI.PageHandlerFactory
这是一个HttpHandlerFactory对象,根据不同的Page生成不同的HttpHandler对象(我们自己的Page页面都是一个IHttpHandler):
请求一个页面时首先被WWW服务截获(inetinfo.exe进程),这个进程首先判断页面的后缀,然后根据IIS中的配置来决定调用哪个扩展程序,比如aspx的页面就会调用c:\windows\microsoft.net\framework\v2.0.50727\aspnet_isapi.dll,aspnet_isapi.dll将请求发送给w3wp.exe进程(我们在调试IIS中网站时就是把VS2005附加到这个进程上的)。
接下来w3wp.exe进程就会调用.net类库进行具体处理:
ISAPIRuntime-->HttpRuntime-->HttpApplicationFactory-->HttpApplication-->HttpModule--HttpHandlerFactory-->HttpHandler 这也是本文主要分析的地方。
下面只是列出主要流程,如果喜欢钻研的同学可以用Reflector去查看
一:ISAPIRuntime
bool useOOP = iWRType == 1;
wr = ISAPIWorkerRequest.CreateWorkerRequest(ecb, useOOP);
wr.Initialize();
string appPathTranslated = wr.GetAppPathTranslated();
string appDomainAppPathInternal = HttpRuntime.AppDomainAppPathInternal;
if ((appDomainAppPathInternal == null) || StringUtil.EqualsIgnoreCase(appPathTranslated, appDomainAppPathInternal))
{
HttpRuntime.ProcessRequestNoDemand(wr);
return 0;
}
HttpRuntime.ShutdownAppDomain(ApplicationShutdownReason.PhysicalApplicationPathChanged, SR.GetString("Hosting_Phys_Path_Changed", new object[] { appDomainAppPathInternal, appPathTranslated }));
return 1;
它的主要作用是调用一些非托管代码生成HttpWorkerRequest对象,该对象包含当前请求的所有信息,然后传递给HttpRuntime,这里生成的HttpWorkerRequest对象可以直接在我们的页面中调用的,通过它取得原始的请求信息:wr = ISAPIWorkerRequest.CreateWorkerRequest(ecb, useOOP);
wr.Initialize();
string appPathTranslated = wr.GetAppPathTranslated();
string appDomainAppPathInternal = HttpRuntime.AppDomainAppPathInternal;
if ((appDomainAppPathInternal == null) || StringUtil.EqualsIgnoreCase(appPathTranslated, appDomainAppPathInternal))
{
HttpRuntime.ProcessRequestNoDemand(wr);
return 0;
}
HttpRuntime.ShutdownAppDomain(ApplicationShutdownReason.PhysicalApplicationPathChanged, SR.GetString("Hosting_Phys_Path_Changed", new object[] { appDomainAppPathInternal, appPathTranslated }));
return 1;
IServiceProvider provider = (IServiceProvider)HttpContext.Current;
HttpWorkerRequest wr = (HttpWorkerRequest)provider.GetService(typeof(HttpWorkerRequest));
HttpWorkerRequest wr = (HttpWorkerRequest)provider.GetService(typeof(HttpWorkerRequest));
二:HttpRuntime
最主要的就是private void ProcessRequestInternal(HttpWorkerRequest wr)方法:
context = new HttpContext(wr, false);
IHttpHandler applicationInstance = HttpApplicationFactory.GetApplicationInstance(context);
IHttpAsyncHandler handler2 = (IHttpAsyncHandler) applicationInstance;
context.AsyncAppHandler = handler2;
handler2.BeginProcessRequest(context, this._handlerCompletionCallback, context);
1、根据HttpWorkerRequest对象生成HttpContext,HttpContext应该大家都很熟悉的,它包含request、response等属性,在页面中经常会用到的;IHttpHandler applicationInstance = HttpApplicationFactory.GetApplicationInstance(context);
IHttpAsyncHandler handler2 = (IHttpAsyncHandler) applicationInstance;
context.AsyncAppHandler = handler2;
handler2.BeginProcessRequest(context, this._handlerCompletionCallback, context);
2、调用HttpApplicationFactory来生成IHttpHandler(这里生成的是一个默认的HttpApplication对象,HttpApplication也是IHttpHandler接口的一个实现)
3、调用HttpApplication对象执行请求
三:HttpApplicationFactory
正如2.2中所提到的,这里主要是生成一个HttpApplication对象:
internal static string GetApplicationFile()
{
return Path.Combine(HttpRuntime.AppDomainAppPathInternal, "global.asax");
}
首先会查看是否存在global.asax文件,如果有的话就用它来生成HttpApplication对象,从这里我们可以看到global.asax的文件名是在asp.net的框架中写死的,不能修改的。如果这个文件不存在就使用默认的对象。{
return Path.Combine(HttpRuntime.AppDomainAppPathInternal, "global.asax");
}
创建好HttpApplication之后对它进行初始化:
application = (HttpApplication) HttpRuntime.CreateNonPublicInstance(this._theApplicationType);
using (ApplicationImpersonationContext context2 = new ApplicationImpersonationContext())
{
application.InitInternal(context, this._state, this._eventHandlerMethods);
}
using (ApplicationImpersonationContext context2 = new ApplicationImpersonationContext())
{
application.InitInternal(context, this._state, this._eventHandlerMethods);
}
四、HttpApplication
这个是比较复杂也比较重要的一个对象
首先是执行初始化操作,比较重要的一步就是进行HttpModule的初始化:
private void InitModules()
{
this._moduleCollection = RuntimeConfig.GetAppConfig().HttpModules.CreateModules();
this.InitModulesCommon();
}
它会读取web.config中所有HttpModule的配置{
this._moduleCollection = RuntimeConfig.GetAppConfig().HttpModules.CreateModules();
this.InitModulesCommon();
}
在HookupEventHandlersForApplicationAndModules方法中绑定Module的事件处理程序接着进行事件实际绑定:
if (HttpRuntime.UseIntegratedPipeline)
{
this._stepManager = new PipelineStepManager(this);
}
else
{
this._stepManager = new ApplicationStepManager(this);
}
this._stepManager.BuildSteps(this._resumeStepsWaitCallback);
{
this._stepManager = new PipelineStepManager(this);
}
else
{
this._stepManager = new ApplicationStepManager(this);
}
this._stepManager.BuildSteps(this._resumeStepsWaitCallback);
在ApplicationStepManager的BuildSteps方法中可以看到事件的绑定执行顺序:
app.CreateEventExecutionSteps(HttpApplication.EventBeginRequest, steps);
app.CreateEventExecutionSteps(HttpApplication.EventAuthenticateRequest, steps);
app.CreateEventExecutionSteps(HttpApplication.EventDefaultAuthentication, steps);
app.CreateEventExecutionSteps(HttpApplication.EventPostAuthenticateRequest, steps);
app.CreateEventExecutionSteps(HttpApplication.EventAuthorizeRequest, steps);
app.CreateEventExecutionSteps(HttpApplication.EventPostAuthorizeRequest, steps);
app.CreateEventExecutionSteps(HttpApplication.EventResolveRequestCache, steps);
app.CreateEventExecutionSteps(HttpApplication.EventPostResolveRequestCache, steps);
steps.Add(new HttpApplication.MapHandlerExecutionStep(app));
app.CreateEventExecutionSteps(HttpApplication.EventPostMapRequestHandler, steps);
app.CreateEventExecutionSteps(HttpApplication.EventAcquireRequestState, steps);
app.CreateEventExecutionSteps(HttpApplication.EventPostAcquireRequestState, steps);
app.CreateEventExecutionSteps(HttpApplication.EventPreRequestHandlerExecute, steps);
steps.Add(new HttpApplication.CallHandlerExecutionStep(app));
app.CreateEventExecutionSteps(HttpApplication.EventPostRequestHandlerExecute, steps);
app.CreateEventExecutionSteps(HttpApplication.EventReleaseRequestState, steps);
app.CreateEventExecutionSteps(HttpApplication.EventPostReleaseRequestState, steps);
steps.Add(new HttpApplication.CallFilterExecutionStep(app));
app.CreateEventExecutionSteps(HttpApplication.EventUpdateRequestCache, steps);
app.CreateEventExecutionSteps(HttpApplication.EventPostUpdateRequestCache, steps);
this._endRequestStepIndex = steps.Count;
app.CreateEventExecutionSteps(HttpApplication.EventEndRequest, steps);
steps.Add(new HttpApplication.NoopExecutionStep());
注意上面红色标注的MapHandlerExecutionStep(读取所有的HttpHandler配置)、CallHandlerExecutionStep就是对Handle程序进行处理的,也就是说在web.config中配置的HttpHandler都是在这里进行处理的,执行顺序如上所示app.CreateEventExecutionSteps(HttpApplication.EventAuthenticateRequest, steps);
app.CreateEventExecutionSteps(HttpApplication.EventDefaultAuthentication, steps);
app.CreateEventExecutionSteps(HttpApplication.EventPostAuthenticateRequest, steps);
app.CreateEventExecutionSteps(HttpApplication.EventAuthorizeRequest, steps);
app.CreateEventExecutionSteps(HttpApplication.EventPostAuthorizeRequest, steps);
app.CreateEventExecutionSteps(HttpApplication.EventResolveRequestCache, steps);
app.CreateEventExecutionSteps(HttpApplication.EventPostResolveRequestCache, steps);
steps.Add(new HttpApplication.MapHandlerExecutionStep(app));
app.CreateEventExecutionSteps(HttpApplication.EventPostMapRequestHandler, steps);
app.CreateEventExecutionSteps(HttpApplication.EventAcquireRequestState, steps);
app.CreateEventExecutionSteps(HttpApplication.EventPostAcquireRequestState, steps);
app.CreateEventExecutionSteps(HttpApplication.EventPreRequestHandlerExecute, steps);
steps.Add(new HttpApplication.CallHandlerExecutionStep(app));
app.CreateEventExecutionSteps(HttpApplication.EventPostRequestHandlerExecute, steps);
app.CreateEventExecutionSteps(HttpApplication.EventReleaseRequestState, steps);
app.CreateEventExecutionSteps(HttpApplication.EventPostReleaseRequestState, steps);
steps.Add(new HttpApplication.CallFilterExecutionStep(app));
app.CreateEventExecutionSteps(HttpApplication.EventUpdateRequestCache, steps);
app.CreateEventExecutionSteps(HttpApplication.EventPostUpdateRequestCache, steps);
this._endRequestStepIndex = steps.Count;
app.CreateEventExecutionSteps(HttpApplication.EventEndRequest, steps);
steps.Add(new HttpApplication.NoopExecutionStep());
然后就是调用2.3中的方法执行请求:
Code
在ResumeSteps中就是执行事件处理程序。 五、HttpModule
在系统web.config中默认的配置有:
Code
基本使用方法可以参见我的上一篇文章六、HttpHandlerFactory、HttpHandler
这两个对象在web.config中的配置方法是相同的,默认配置有:
Code
要注意的是相同的后缀名配置多次的话,后面的配置会把前面的覆盖。这里我们重点看一下aspx的配置:System.Web.UI.PageHandlerFactory
这是一个HttpHandlerFactory对象,根据不同的Page生成不同的HttpHandler对象(我们自己的Page页面都是一个IHttpHandler):
Page page = BuildManager.CreateInstanceFromVirtualPath(virtualPath, typeof(Page), context, true, true) as Page;
if (page == null)
{
return null;
}
page.TemplateControlVirtualPath = virtualPath;
return page;
这里会调用web.config中的buildProviders配置编译页面:if (page == null)
{
return null;
}
page.TemplateControlVirtualPath = virtualPath;
return page;
Code
这样就可以进入我们的Page执行了,大的执行顺序可以参见第四部分的描述,它也就是一个HttpHandler.