Previously, we discussed the differences between Kestrel vs IIS. In this article, we will review how to deploy an ASP.NET Core application to IIS.
Deploying an ASP.NET Core app to IIS isn’t complicated. However, ASP.NET Core hosting is different compared to hosting with ASP.NET, because ASP.NET Core uses different configurations. You may read more about ASP.NET Core in this entry.
On the other hand, IIS is a web server that runs on the ASP.NET platform within the Windows OS. The purpose of IIS, in this context, is to host applications built on ASP.NET Core. There’s more information on IIS and ASP.NET in our previous blog, “What is IIS?”
In this entry, we’ll explore how to make both ASP.NET Core and IIS work together. Without further ado, let’s explore the steps on how we can deploy ASP.NET Core to IIS.
The first thing you will notice when creating a new ASP.NET Core project is that it’s a console application. Your project now contains a Program.cs file, just like a console app, plus the following code:
public class Program { public static void Main(string[] args) { var host = new WebHostBuilder() .UseKestrel() .UseContentRoot(Directory.GetCurrentDirectory()) .UseIISIntegration() .UseStartup() .Build(); host.Run(); } }
All ASP.NET Core applications require a WebHost object that essentially serves as the application and web server. In this case, a WebHostBuilder is used to configure and create the WebHost. You will normally see UseKestrel() and UseIISIntegration() in the WebHostBuilder setup code.
What do these do?
If you are planning to deploy your application to IIS, UseIISIntegration() is required
You may have noticed that ASP.NET Core projects create a web.config file. This is only used when deploying your application to IIS and registers the AspNetCoreModule as an HTTP handler.
<?xml version="1.0" encoding="utf-8"?> <configuration> <system.webServer> <handlers> <add name="aspNetCore" path="*" verb="*" modules="AspNetCoreModule" resourceType="Unspecified"/> </handlers> <aspNetCore processPath="%LAUNCHER_PATH%" arguments="%LAUNCHER_ARGS%" stdoutLogEnabled="false" stdoutLogFile=".\logs\stdout" forwardWindowsAuthToken="false"/> </system.webServer> </configuration>
AspNetCoreModule handles all incoming traffic to IIS, then acts as the reverse proxy that knows how to hand traffic off to your ASP.NET Core application. You can view the source code of it on GitHub. AspNetCoreModule also ensures that your web application is running and is responsible for starting your process up.
Before you deploy your application, you need to install the .NET Core hosting bundle for IIS – .NET Core runtime, libraries and the ASP.NET Core module for IIS.
After installation, you may need to do a “net stop was /y” and “net start w3svc” to ensure all the changes are picked up for IIS.
Download: .NET Core Windows Server Hosting <- Make sure you pick “Windows Server Hosting”
Before you deploy, you need to make sure that WebHostBuilder is configured properly for Kestrel and IIS. Your web.config file should also exist and look similar to our example above.
Now you need to copy your publish output to where you want the files to live. If you are deploying to a remote server, you may want to zip up the files and move to the server. If you are deploying to a local dev box, you can copy them locally.
For our example, I am copying the files to C:\inetpub\wwwroot\AspNetCore46
You will notice that with ASP.NET Core, there is no bin folder and it potentially copies over a ton of different .NET DLLs. Your application may also be an EXE file if you are targeting the full .NET Framework. This little sample project had over 100 DLLs in the output.
While creating your application in IIS is listed as a single “Step,” you will take multiple actions. First, create a new IIS Application Pool under the .NET CLR version of “No Managed Code”. Since IIS only works as a reverse proxy, it isn’t actually executing any .NET code.
Second, you can create your application under an existing or a new IIS Site. Either way, you will want to pick your new IIS Application Pool and point it to the folder you copied your ASP.NET publish output files to.
At this point, your application should load just fine. If it does not, check the output logging from it. Within your web.config file you define how IIS starts up your ASP.NET Core process. Enable output logging by setting stdoutLogEnabled=true. You may also want to change the log output location as configured in stdoutLogFile. Check out the example web.config before to see where they are set.
Microsoft recommends using IIS with any public facing site for ASP.NET Core hosting. IIS provides additional levels of configurability, management, security and logging, among many other things.
Check out our blog post about Kestrel vs IIS to see a whole matrix of feature differences. The post goes into more depth about what Kestrel is and why you need both Kestrel and IIS.
One of the big advantages to using IIS is the process management. IIS will automatically start your app and potentially restart it if a crash were to occur. If you were running your ASP.NET Core app as a Windows Service or console app, you would not have that safety net there to start and monitor the process for you.
Speaking of safety nets, your application performance should be the top priority. Which is why you need an application performance monitoring tool that allows you to deploy robust applications.
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