Getting started with Owin and Katana

Introduction

The .NET ecosystem offers today a lot of alternatives for developing web applications. You can either use any of the frameworks supported by Microsoft with ASP.NET such as Forms, MVC or Web API, or any other open source alternative like FubuMVC, ServiceStack, NancyFx or OpenRasta to name a few. From an architecture standpoint, all these frameworks have three main layers in common (in spite of the difference with the implementation details), hosting, middleware, and application.

The hosting layer is responsible for managing the underline process, where the http connections are established and managed, and also to materialize those connections into request/response objects that are sent to the upper layers. For example, the hosting layer could be ASP.NET running in IIS, or it could also be a console application that uses the http listener directly.

The middleware layer provides common infrastructure services, which runs at low level in the http stack, such as security, caching, or any other concern that can be handled at this level.

The application layer is where the applications or services are implemented using the features available in the framework.

However, the distinction between the middleware and application layers is not always clear, which causes that many of the middleware services end up being implemented in the application layer. For example, you could implement middleware services for security in ASP.NET MVC using filters, which rely on features specific to the application level in that framework. This make almost impossible to reuse all these services across all the available frameworks, so you will find different implementations of the same services for the different frameworks. To give an example, basic authentication is something that could be implemented as middleware service and reused, but today is implemented differently in each framework.

Someone would suggest that a ASP.NET Http Module could be a good option for implementing a middleware service, but that’s not necessarily true as it would only work when the hosting layer uses ASP.NET.

This exact problem is what OWIN specification tries to address by providing a common abstraction for any http-aware service or application with minimal dependencies on existing frameworks or implementations.  At very core level, OWIN defines a handler, which is represented as an application delegate,

using AppFunc = Func<
        IDictionary<string, object>, // Environment
        Task>; // Done

The idea is to represent the three layers discussed above as a set of handlers using the “chain of responsibility” pattern. The environment argument is a dictionary that the different handlers use to exchange values, and the next handler in the chain is represented with the task argument. Having said that, the first handler in the chain would be responsible for the hosting layer, and it should populate the environment with keys that describe the received http request message, such as scheme, port, request path, headers, etc. All those common headers are discussed as part of the specification.

Katana is a Microsoft implementation of the OWIN specification, which includes handlers for the hosting and middleware layers. It’s an open source project, which can be found in this location. All the investment that Microsoft has done so far for ASP.NET in the different application frameworks (i.e. MVC or Web API), it’s now being refactored as OWIN handlers that can be reused across different application frameworks. For example, cookie authentication or even OAuth are being implemented as middleware services that can be reused not only by ASP.NET web apps but also for other application frameworks in the open source world.

The application layer is also implemented as another OWIN handler, which is responsible for setting up all the infrastructure required to handle the request/response at the application level. You will find application handlers for ASP.NET MVC, ASP.NET Web API, SignalR, or NancyFx to give an example. 

Gettting Started with OWIN and Katana

The easiest way to get started with OWIN is to use the assembly distributed as nuget package. You will find a single nuget package for this called “OWIN”. This assembly only contains an interface IAppBuilder, which can be used to configure all the handlers that you want to use in your web application. This is a very low level interface that you won’t have to implement yourself if you use Katana.

In addition to the “OWIN” assembly, you will find two additional nuget packages

  • Owin.Extensions: Provides a set of very useful extensions methods for the IAppBuilder interface that you can use to configure the handlers.
  • Owin.Types: Provides a set of wrappers to represent the environment dictionary as a typed object representing the request and response messages.

You can implement your first OWIN handler using these three packages (You will not able to run it without the hosting handlers provided by Katana).

public class MyMiddleware
{
  Func<IDictionary<string, object>, Task> next;

  public MyMiddleware(Func<IDictionary<string, object>, Task> next)
  {
    this.next = next;
  }

  public Task Invoke(IDictionary<string, object> env)
  {
    var headers = (IDictionary<string, string[]>)env["owin.RequestHeaders"];

    var url = string.Format("{0}://{1}{2}{3}",
                (string)env["owin.RequestScheme"],
                headers["host"].First(),
                (string)env["owin.RequestPathBase"],
                (string)env["owin.RequestPath"]);

    if ((string)env["owin.RequestQueryString"] != "")
      url += "?" + (string)env["owin.RequestQueryString"];

    Console.WriteLine("The received URL is {0}", url);

    return this.next(env);
  }
}

This is a low level handler that sends the request url to the console. As you can see, it relies on some existing properties in the environment, which should have been set by Katana in the hosting layer. The handler also receives the next handler to call in the chain as part of the constructor.

The entry point in any Katana application must be a class that receives the IAppBuilder interface as argument to configure all the handlers, as it is shown below,

 public class Startup
 {
    public void Configuration(IAppBuilder app)
    {
       app.UseType<MyMiddleware>();       
    }
 }

UseType is one the extension methods provided by “Owin.Extensions” to configure a new handler in the pipeline. You can also other extension methods to define a handler on the fly using delegates as this one,

app.UseHandlerAsync(async (req, res) =>
{
    res.ContentType = "text/plain";
    await res.WriteAsync("Hello World");
});

There is one more nuget package that you will find useful to create OWIN handlers, which is “Microsoft.Owin”. This is a package provided as part of Katana (It’s still a pre-release), which extends the Owin Request and Response classes with more properties and methods, and also helper methods to deal with these classes.

Hosting an application with Katana

Katana provides three options to host a web application.

1. OwinHost.exe. It’s a command tool that you can use to run the application. You can use multiple command arguments to specify the assembly with the entry point for configuring the IAppBuilder or other configuration settings such as the port number or tracing. This is tool is available as part of the nuget package “OwinHost”.

2. .NET application. There is a WebApp class that you can use to self-host a web application in any regular .NET application such as console app or a windows service. This class is available as part of the “Microsoft.Owin.Hosting” assembly.

using (WebApp.Start<Startup>(new StartOptions { Port = 5000 }))
{
   Console.WriteLine("Press Enter to quit.");
   Console.ReadKey();
}

You need to pass the startup entry as argument to the static method “Start”.

3. ASP.NET. You need to reference the nuget package “Microsoft.Owin.Hosting.SystemWeb” (Pre-Release) from your web application project, and include the Startup class in that project as well.

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