Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I would like to know how the CLR finds the entry point / primary DLL of a web application. How does the CLR know which DLL out of the many that exist in my bin directory, is the DLL for my website?

There is no identifying information in my web.config that specifies one assembly as my "primary" assembly, so how does this selection process occur?

How does this selection / initialization process work?

share|improve this question

3 Answers 3

That depends entirely on if you are using Web Forms, or MVC. The CLR itself does nothing to support this, it's the ASP.NET runtime and IIS that is doing all the leg work.

Web Form

In web forms, your .aspx and "code behind" use class inheritance to define that relationship. The @Page directive has an Inherits attribute defining what class the ASPX will inherit from. The ASPX itself is compiled into a class on-the-fly (or precompiled with aspnet_compiler.exe) that inherits that type.

When IIS hits an ASPX page, it passes that to the PageHandlerFactory either through the Integrated handler, or via the aspnet_isapi handler.

In this case, there is no "startup" DLL, it uses the DLL that the ASPX was compiled against.

MVC

When a request hits the ASP.NET runtime, it looks to see if there is a controller that matches the route. It then uses the DefaultControllerFactory to try and map the route to a controller. That eventually will call GetControllerType to try and find the type for the Controller, which further digs into an internal type called ControllerTypeCache.

ControllerTypeCache does most of the magic. It initialized with the EnsureInitialized, whos job is to populate the list of all types from all assemblies that are referenced using BuildManager.GetReferencedAssemblies. It then crawls each assembly looking for types that match a controller, such as implementing IController, being public, etc.

How does .NET know to fire up the MVC runtime

The MVC runtime is an HttpHandler. Either IIS directly passes it to the MVC handler automatically (newer versions of the framework and IIS do that) or you have to put the MVC handler in the httpHandlers section in the web.config.

In older versions of MVC you had to manually register the MvcHttpHandler. Starting in ASP.NET 4.0, a lot of the URL Routing guts were moved into the ASP.NET framework itself, so it now has this handler out of the box.

share|improve this answer
    
Thanks for the response - to be more specific, I'm referring to ASP.Net MVC. This begs the next question: How then, do we even get into the MVC runtime in the first place? I have an IIS Site pointed at my application root which contains my bin. How does .Net know to fire up the MVC runtime? Also, prior to any controller creation, we have a step before that where there is an entire hosting environment setup. –  Ryan Griffith Jul 14 at 22:22
    
"How does .NET know to fire up the MVC runtime" the MVC runtime is an HttpHandler. Either IIS directly passes it to the MVC handler automatically (newer versions of the framework and IIS do that) or you have to put the MVC handler in the httpHandlers section in the web.config. –  vcsjones Jul 15 at 14:02

The closest thing to a 'startup' DLL in an ASP.Net web app is that assembly that contains `global.asax' (if you have one). See ASP.NET Application Life Cycle Overview for IIS 7.0 for details of what happens when a web app spins up.

You should also bear in mind that there can be a whole stack of HttpModule instances sitting on top of your web app. And your web app can add its own to the stack. The request is handed down through the stack of HttpModules and each of them gets the opportunity to intercept, handle, tamper with your request, etc. And once a response has been made, each module above it in the stack gets the same opportunity to monkey with the response.

share|improve this answer

I was going to comment on your comment to @VCJones excellent explanation (this stuff usually one just assumes so it's a great learning moment - so kudos to your question as well!).

How then, do we even get into the MVC runtime in the first place?

It's my understanding from reading this MSDN doc that file matching happens first on the requested resource, then route matching (and it's handler - MVC/Web API)


Your question pushed me to tinker :) and fired up a new MVC application with default scaffolding, created a controller for About:

public ActionResult About()
{
    return View();
}

and also created a physical file named About.cshtml in the root of the application. I fiddled with the route config so that the controller name wouldn't be part of the route - e.g. http://localhost:123/about (not http://localhost:123/home/about). So now I have

  1. About view
  2. About.cshtml physical file in app root (not the one in /Views/Home/)

Test: http://localhost:123/About

  • First result: The MVC Controller fired. Wait, I thought it was file matching first?
  • Then if I navigate to http://localhost:123/About.cshtml a wierd exception is raised: The type of page you have requested is not served because it has been explicitly forbidden. The extension '.cshtml' may be incorrect. What?? Don't I have a ton of cshtml views?
  • Then I saw this setting in web.config:
    • <add key="webpages:Enabled" value="false"/> - what if i changed this to true?

Result:

Exception gone (no longer forbidden), and now I can see the behavior as described in the MSDN doc. I can't raise the About view at this point (http://localhost:123/about), because a file exists (and is the response), and I don't get into route matching (so the MVC handler isn't fired).

This is my understanding , so if I'm wrong, I'm sure someone here will point it out and another learning moment will occur :)

share|improve this answer

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.