2012年10月30日星期二

深入ASP.NET MVC 之一:IIS到路由表

深入ASP.NET MVC 之一:IIS到路由表

关于IIS的介绍,可以参考Introduction to IIS Architecture 。IIS到托管代码的入口点是位于System.Web dll中

public sealed class ISAPIRuntime : MarshalByRefObject, IISAPIRuntime, IISAPIRuntime2, IRegisteredObject

的方法

    public int ProcessRequest(IntPtr ecb, int iWRType)        {            IntPtr intPtr = IntPtr.Zero;            if (iWRType == 2)            {                intPtr = ecb;                ecb = UnsafeNativeMethods.GetEcb(intPtr);            }            ISAPIWorkerRequest iSAPIWorkerRequest = null;            int result;            try            {                bool useOOP = iWRType == 1;                iSAPIWorkerRequest = ISAPIWorkerRequest.CreateWorkerRequest(ecb, useOOP);                iSAPIWorkerRequest.Initialize();                string appPathTranslated = iSAPIWorkerRequest.GetAppPathTranslated();                string appDomainAppPathInternal = HttpRuntime.AppDomainAppPathInternal;                if (appDomainAppPathInternal == null || StringUtil.EqualsIgnoreCase(appPathTranslated, appDomainAppPathInternal))                {                    HttpRuntime.ProcessRequestNoDemand(iSAPIWorkerRequest);                    result = 0;                }                else                {                         //……       
                }            }            catch (Exception ex)            {                      //……
            }            return result;        }

(注:IIS7的入口似乎是PipeLineRuntime.InitializeApplication(IntPtr appContext),过程有所不同,但是不影响后面的流程)其中ecb是一个指向httprequest的信息的指针,由IIS提供。CreateWorkerRequest根据ecb提供的信息,比如IIS的版本、模式等,创建一个ISAPIWorkerRequest对象,ISAPIWorkerReuqeuest是一个http请求的.NET封装。创建好WorkerRequest之后,调用HttpRuntime.ProcessRequestNoDemand(iSAPIWorkerRequest);开始执行请求,这个方法是会从httpRuntime对象中的一个队列中获取一个workerrequest进行处理,最终调用的是HttpRuntime类中的ProcessRequestInternal(代码有删节):

private void ProcessRequestInternal(HttpWorkerRequest wr)        {            Interlocked.Increment(ref this._activeRequestCount);            if (this._disposingHttpRuntime)                 wr.SendStatus(503, "Server Too Busy");            HttpContext httpContext;            try            {                httpContext = new HttpContext(wr, false);            }            catch            {                try                {                    wr.SendStatus(400, "Bad Request");                    //…….
                }                finally                {                    Interlocked.Decrement(ref this._activeRequestCount);                }            }            wr.SetEndOfSendNotification(this._asyncEndOfSendCallback, httpContext);            HostingEnvironment.IncrementBusyCount();            try            {                httpContext.Response.InitResponseWriter();                IHttpHandler applicationInstance = HttpApplicationFactory.GetApplicationInstance(httpContext);                if (applicationInstance == null)                {                    throw new HttpException(SR.GetString("Unable_create_app_object"));                }                if (applicationInstance is IHttpAsyncHandler)                {                    IHttpAsyncHandler httpAsyncHandler = (IHttpAsyncHandler)applicationInstance;                    httpContext.AsyncAppHandler = httpAsyncHandler;                    httpAsyncHandler.BeginProcessRequest(httpContext, this._handlerCompletionCallback, httpContext);                }                else                {                    applicationInstance.ProcessRequest(httpContext);                    this.FinishRequest(httpContext.WorkerRequest, httpContext, null);                }            }            catch (Exception e)            {                httpContext.Response.InitResponseWriter();                this.FinishRequest(wr, httpContext, e);            }        }

在这段代码中,HttpRuntime可以根据当前服务器的状况回送不同的Http状态码。如果一切正常,首先根据WorkerRequest创建了HttpContext,HttpApplication根据HttpContext创建了一个IHttpHandler对象,这是一个比较复杂的过程。先看代码:

        internal static IHttpHandler GetApplicationInstance(HttpContext context)        {            if (HttpApplicationFactory._customApplication != null)            {                return HttpApplicationFactory._customApplication;            }            if (context.Request.IsDebuggingRequest)            {                return new HttpDebugHandler();            }            HttpApplicationFactory._theApplicationFactory.EnsureInited();            HttpApplicationFactory._theApplicationFactory.EnsureAppStartCalled(context);            return HttpApplicationFactory._theApplicationFactory.GetNormalApplicationInstance(context);        }

customApplication应该是使用 ASP.NET State Service的时候的情况,DebugHandler应该是调试状态下的情况,不作深究,除此以外,一共有三大步骤,首先要确保调用且仅调用了一次 ApplicationFactory的Init方法,在这个方法中,主要完成了以下工作(代码有删节):

        private void Init()        {             this._appFilename = HttpApplicationFactory.GetApplicationFile();             this.CompileApplication();        }

其中GetApplicationFile为:

internal static string GetApplicationFile()        {            return Path.Combine(HttpRuntime.AppDomainAppPathInternal, "global.asax");        }

ASP.NET在这里关联上了global.asax .在CompileApplication方法中,除了回去编译ASP.NET项目中未编译的代码,还有两件重要的工作:

private void CompileApplication()        {            this._theApplicationType = BuildManager.GetGlobalAsaxType();            //Use BuilderManager to build code
            this.ReflectOnApplicationType();        }

首先是设置了theApplicationType,比如默认情况下,一个ASP.NET MVC的applicationType将是 MvcApplication,也就是global.asax中那个类。ReflectOnApplicationType 代码如下:

        private void ReflectOnApplicationType()        {            ArrayList arrayList = new ArrayList();            MethodInfo[] methods = this._theApplicationType.GetMethods(BindingFlags.Instance | BindingFlags.Static | BindingFlags.Public | BindingFlags.NonPublic);            MethodInfo[] array = methods;            for (int i = 0; i < array.Length; i++)            {                MethodInfo methodInfo = array[i];                if (this.ReflectOnMethodInfoIfItLooksLikeEventHandler(methodInfo))                {                    arrayList.Add(methodInfo);                }            }            Type baseType = this._theApplicationType.BaseType;            if (baseType != null && baseType != typeof(HttpApplication))            {                methods = baseType.GetMethods(BindingFlags.Instance | BindingFlags.Static | BindingFlags.NonPublic);                MethodInfo[] array2 = methods;                for (int j = 0; j < array2.Length; j++)                {                    MethodInfo methodInfo2 = array2[j];                    if (methodInfo2.IsPrivate && this.ReflectOnMethodInfoIfItLooksLikeEventHandler(methodInfo2))                    {                        arrayList.Add(methodInfo2);                    }                }            }            this._eventHandlerMethods = new MethodInfo[arrayList.Count];            for (int k = 0; k < this._eventHandlerMethods.Length; k++)            {                this._eventHandlerMethods[k] = (MethodInfo)arrayList[k];            }        }

简单来说,这个方法反射了global.asax中的那个类,并且将里面的类似于EventHandler的方法放到this._eventHandlerMethods中。

例如,ReflectOnMethodInfoIfItLooksLikeEventHandler中的代码片段:

if (StringUtil.EqualsIgnoreCase(name, "Application_OnStart") || StringUtil.EqualsIgnoreCase(name, "Application_Start"))            {                this._onStartMethod = m;                this._onStartParamCount = parameters.Length;            }

确保ApplicationFactory的Init被调用过之后,接下来,要保证Global.asax中的App_Start被调用。EnsureAppStartCalled 的核心代码就是调用了this._onStartMethod,这个方法在上面介绍Init方法中已经被初始化好。EnsureAppStartCalled做的事情虽然简单,但是其实现还是挺繁琐的,估计是为了线程安全性等考虑,不再分析其具体实现。最后,就是真正的获取一个ApplicationHandler的方法了:

        private HttpApplication GetNormalApplicationInstance(HttpContext context)        {            HttpApplication httpApplication = null;            lock (this._freeList)            {                if (this._numFreeAppInstances > 0)                {                    httpApplication = (HttpApplication)this._freeList.Pop();                    this._numFreeAppInstances--;                    if (this._numFreeAppInstances < this._minFreeAppInstances)                    {                        this._minFreeAppInstances = this._numFreeAppInstances;                    }                }            }            if (httpApplication == null)            {                httpApplication = (HttpApplication)HttpRuntime.CreateNonPublicInstance(this._theApplicationType);                using (new ApplicationImpersonationContext())                {                    httpApplication.InitInternal(context, this._state, this._eventHandlerMethods);                }            }            if (AppSettings.UseTaskFriendlySynchronizationContext)            {                httpApplication.ApplicationInstanceConsumersCounter = new CountdownTask(1);                httpApplication.ApplicationInstanceConsumersCounter.Task.ContinueWith(delegate(Task _, object o)                {                    HttpApplicationFactory.RecycleApplicationInstance((HttpApplication)o);                }, httpApplication, TaskContinuationOptions.ExecuteSynchronously);            }            return httpApplication;        }

可以看到,首先可用的HttpApplication都是缓存在一个List中的,如果没有可用的HttpApplication,则会根据theApplicationType来创建一个,核心方法是调用InitInternal方法,注意到最后一个参数是this._eventHandlerMethods,这就是global.asax中的各个EventHandler。InitInternal方法也是一个比较复杂的方法,里面对于IIS采用的是Integrated模式还是Classic模式进行分别的处理,主要完成的工作时HttpModule的初始化和处理请求过程中每个步骤触发事件处理程序的准备。先看Integrate模式下Module的初始化:

        private void InitIntegratedModules()        {            this._moduleCollection = this.BuildIntegratedModuleCollection(HttpApplication._moduleConfigInfo);            this.InitModulesCommon();        }

第一步是根据配置的Module名字实例化Module对象,第二步代码如下:

        private void InitModulesCommon()        {            int count = this._moduleCollection.Count;            for (int i = 0; i < count; i++)            {                this._currentModuleCollectionKey = this._moduleCollection.GetKey(i);                this._moduleCollection[i].Init(this);            }            this._currentModuleCollectionKey = null;            this.InitAppLevelCulture();        }
注意加粗的代码,它调用了IHttpModule的Init方法。这是ASP.NET挂载Module关键之处。接下来看
public class UrlRoutingModule : IHttpModule

这个类的Init实现。这个HttpModule是实现URL路由的关键。在.NET 4之前它是位于System.Web.Routing.dll之中的,.NET 4之后它已经被合并入System.Web.dll中了成为了Asp.NET不可分割的一部分。

        protected virtual void Init(HttpApplication application)        {            if (application.Context.Items[UrlRoutingModule._contextKey] != null)            {                return;            }            application.Context.Items[UrlRoutingModule._contextKey] = UrlRoutingModule._contextKey;            application.PostResolveRequestCache += new EventHandler(this.OnApplicationPostResolveRequestCache);        }

最核心的代码是最后一行,它注册了 PostResolveRequestCache事件的响应程序OnApplicationPostResolveRequestCache。 响应程序的核心代码如下:

public virtual void PostResolveRequestCache(HttpContextBase context)        {            RouteData routeData = this.RouteCollection.GetRouteData(context);            if (routeData == null)            {                return;            }            IRouteHandler routeHandler = routeData.RouteHandler;            if (routeHandler == null)            {                throw new InvalidOperationException(string.Format(CultureInfo.CurrentCulture, SR.GetString("UrlRoutingModule_NoRouteHandler"), new object[0]));            }            if (routeHandler is StopRoutingHandler)            {                return;            }            RequestContext requestContext = new RequestContext(context, routeData);            context.Request.RequestContext = requestContext;            IHttpHandler httpHandler = routeHandler.GetHttpHandler(requestContext);            if (httpHandler == null)            {                throw new InvalidOperationException(string.Format(CultureInfo.CurrentUICulture, SR.GetString("UrlRoutingModule_NoHttpHandler"), new object[]                {                    routeHandler.GetType()                }));            }            if (!(httpHandler is UrlAuthFailureHandler))            {                context.RemapHandler(httpHandler);                return;            }            if (FormsAuthenticationModule.FormsAuthRequired)            {                UrlAuthorizationModule.ReportUrlAuthorizationFailure(HttpContext.Current, this);                return;            }            throw new HttpException(401, SR.GetString("Assess_Denied_Description3"));        }

在这里,代码根据RouteData获得RouteHandler,RouteHandler获得HttpHandler。这里的详情下文再分析,至此,一个HTTP请求将会通过IIS传递到路由模块了。下面再会这段代码何时会被触发。先回到InitInternal方法中第二项工作,也就是处理请求过程中每个步骤触发事件处理程序的准备。ASP.NET首先定义了一个枚举来表示处理一个request的处理周期

    public enum RequestNotification    {        BeginRequest = 1,        AuthenticateRequest = 2,        AuthorizeRequest = 4,        ResolveRequestCache = 8,        MapRequestHandler = 16,        AcquireRequestState = 32,        PreExecuteRequestHandler = 64,        ExecuteRequestHandler = 128,        ReleaseRequestState = 256,        UpdateRequestCache = 512,        LogRequest = 1024,        EndRequest = 2048,        SendResponse = 536870912    }

在InitInternal中,InitModule完成之后紧接着调用了

private void HookupEventHandlersForApplicationAndModules(MethodInfo[] handlers)     

这个方法的作用是将Global.asax中的方法(事件响应)加到合适的事件上,这里的事件可以是各个HttpModule的事件。实际上就是根据命名规则去找到相应的HttpModule的事件。这部分的实现也是很有技巧性,本文不多做分析,可以参考 http://aspnetresources.com/articles/event_handlers_in_global_asax 。 再接下来,InitInternal实例化了一个StepManager,同样有Integrate和Classic的两种,下面以Integrate的PipelStepManager为例,紧接着调用了StepManager的BuildStep方法:

            internal override void BuildSteps(WaitCallback stepCallback)            {                HttpApplication application = this._application;                HttpApplication.IExecutionStep step = new HttpApplication.MaterializeHandlerExecutionStep(application);                application.AddEventMapping("ManagedPipelineHandler", RequestNotification.MapRequestHandler, false, step);                application.AddEventMapping("ManagedPipelineHandler", RequestNotification.ExecuteRequestHandler, false, application.CreateImplicitAsyncPreloadExecutionStep());                HttpApplication.IExecutionStep step2 = new HttpApplication.CallHandlerExecutionStep(application);                application.AddEventMapping("ManagedPipelineHandler", RequestNotification.ExecuteRequestHandler, false, step2);                HttpApplication.IExecutionStep step3 = new HttpApplication.TransitionToWebSocketsExecutionStep(application);                application.AddEventMapping("ManagedPipelineHandler", RequestNotification.EndRequest, true, step3);                HttpApplication.IExecutionStep step4 = new HttpApplication.CallFilterExecutionStep(application);                application.AddEventMapping("AspNetFilterModule", RequestNotification.UpdateRequestCache, false, step4);                application.AddEventMapping("AspNetFilterModule", RequestNotification.LogRequest, false, step4);                this._resumeStepsWaitCallback = stepCallback;            }

 

这里面实例化了很多具体的IExecutionStep对象,并且和RequestNotification关联起来。这些step将是完成一个request的必要步骤。AddEventMapping的核心代码如下:

            PipelineModuleStepContainer moduleContainer = this.GetModuleContainer(moduleName);            if (moduleContainer != null)            {                moduleContainer.AddEvent(requestNotification, isPostNotification, step);            }

moduleContainer 中有一个IExecutionStep列表,里面的step是按照requestNotification的顺序排列的,这点非常重要。至此,InitInternal的工作基本完成了。HttpApplication的一个实例也已经初始化完毕,直接跳回至ProccessRequestInternal方法,接下来就是调用BeginProcessRequest开始真正的处理了。这个方法的核心是调用 StepManager的ResumeSteps方法。更具体的,对于使用Integrated模式的ASP.NET的项目来说,是调用了PipelineStepManager的ResumeSteps方法。这个方法也很复杂,但是核心的代码就是两行:

     HttpApplication.IExecutionStep nextEvent = this._application.CurrentModuleContainer.GetNextEvent(context.CurrentNotification, context.IsPostNotification, context.CurrentModuleEventIndex);     error = this._application.ExecuteStep(nextEvent, ref flag3);

也就是从PipelineModuleStepContainer中取出准备好的step逐个执行。本文不再分析每个step的具体内容,有了以上的准备,接下来看本文的主题,routing module是什么时候被执行的。 回到上面routing module的Init方法中注册事件的方法,其内部实现是:

        public event EventHandler PostResolveRequestCache        {            add            {                this.AddSyncEventHookup(HttpApplication.EventPostResolveRequestCache, value, RequestNotification.ResolveRequestCache, true);            }            remove            {                this.RemoveSyncEventHookup(HttpApplication.EventPostResolveRequestCache, value, RequestNotification.ResolveRequestCache, true);            }        }

AddSyncEventHookup的核心代码如下:

                PipelineModuleStepContainer moduleContainer = this.GetModuleContainer(this.CurrentModuleCollectionKey);                if (moduleContainer != null)                {                    HttpApplication.SyncEventExecutionStep step = new HttpApplication.SyncEventExecutionStep(this, (EventHandler)handler);                    moduleContainer.AddEvent(notification, isPostNotification, step);                }

在这里,他添加了一个SyncEventExecutionStep到moduleContainer中,因此,在执行到HttpApplication.EventPostResolveRequestCache的step的时候,SyncEventExecutionStep的Execute方法将被执行,这个方法的核心代码是:

this._handler(this._application, this._application.AppEvent);

 

这里的_handler,将会是new EventHandler(this.OnApplicationPostResolveRequestCache); _application是HttpApplication实例。

因此,routing module的代码就被执行了。

小结:本文大致分析了System.Web中的源代码,以asp.net中一个request的生命周期是如何的,介绍了routing module是怎样挂载到这个处理流程中的。Routing module只是一个普通的http module,其他的http module原理类似。下文将重点介绍routing module是如何工作的。


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