I need to compile a C# project to WebAssembly and be able to call some methods from JavaScript.

I want to use it in an old ASP.NET MVC 4 application that needs to add some new features and I prefer to use C# instead JavaScript/TypeScript.

Ideally I would like to compile to WebAssembly using .Net 6 but I can use any other alternative.

I'm running .Net 6 on Windows 10 Version 21H1 (OS Build 19043.1415)

I've installed:

  • Visual Studio 2022
  • the workload "wasm-tools" (.NET WebAssembly build tools)

But every time I search for a tutorial, example, etc, about how to use the .NET WebAssembly build tools the results are about Blazor.

I've read this tutorial but I can't find the mono-wasm compiler (and like I said above I would like to use .Net 6 to compile whenever possible.)

Can anyone please help me with this?

Thank you.

3 Answers 3


There is the experimental NativeAOT-LLVM (https://github.com/dotnet/runtimelab/tree/feature/NativeAOT-LLVM). It is not an official Microsoft WebAssembly compiler, its supported by the community, but .Net 6 is available. First, and this only works on Windows, you need to install and activate emscripten. I wont cover installing emscripten here, but you can read https://emscripten.org/docs/getting_started/downloads.html.

To create and run a dotnet c# library:

  1. Create the library project:
dotnet new classlib
  1. Create the library code, we'll use something simple that avoids any problems marshalling things like javascript strings, so in the Class1.cs file add
[System.Runtime.InteropServices.UnmanagedCallersOnly(EntryPoint = "Answer")]
public static int Answer()
    return 41;

This will create a function, Answer that can be called from outside managed code, i.e. from Javascript

  1. Add a nuget.config
dotnet new nugetconfig
  1. In the nuget.config add the reference to allow the experimental package to be downloaded. You can also change the package download location to avoid it adding experimental packages to your global nuget location. Your nuget.config should look like:
<?xml version="1.0" encoding="utf-8"?>
    <add key="globalPackagesFolder" value=".packages" />
    <!--To inherit the global NuGet package sources remove the <clear/> line below -->
    <clear />
    <add key="dotnet-experimental" value="https://pkgs.dev.azure.com/dnceng/public/_packaging/dotnet-experimental/nuget/v3/index.json" />
    <add key="nuget" value="https://api.nuget.org/v3/index.json" />
  1. Add the package references for the compiler to your project's csproj file so that it ends with this:
    <PackageReference Include="Microsoft.DotNet.ILCompiler.LLVM" Version="7.0.0-*" />
    <PackageReference Include="runtime.win-x64.Microsoft.DotNet.ILCompiler.LLVM" Version="7.0.0-*" />

  1. Publish your project to wasm:
dotnet publish /p:NativeLib=Static /p:SelfContained=true -r browser-wasm -c Debug /p:TargetArchitecture=wasm /p:PlatformTarget=AnyCPU /p:MSBuildEnableWorkloadResolver=false /p:EmccExtraArgs="-s EXPORTED_FUNCTIONS=_Answer%2C_NativeAOT_StaticInitialization -s EXPORTED_RUNTIME_METHODS=cwrap" --self-contained

This will build the project referencing the browser-wasm runtime. MSBuildEnableWorkloadResolver stops the build process checking for Mono's wasm-tools Visual Studio workload which we are not using here. (Mono is a different compiler and runtime, which I believe is getting similar support for .net 7). EmccExtraArgs allows us to add parameters to emscripten's emcc and we need that to export the two function we will call from Javascript: Answer - this is our library function, and NativeAOT_StaticInitialization this is called once per lifetime of the wasm module to initialize the runtime. Note the additional underscores in front of the names. The compilation takes a while, but when finished you should have a subfolder bin\x64\Debug\net6.0\browser-wasm\native where you will find the wasm, some html, and some javascript. In the html file at the end, before the closing body tag, initialize the runtime and call your function with:

    Module.onRuntimeInitialized = _ => {
    const corertInit = Module.cwrap('NativeAOT_StaticInitialization', 'number', []);

    const answer = Module.cwrap('Answer', 'number', []);

Then server that up with the web server of your choosing, browse to the page and check the console where if everything has gone to plan, and the stars align (this is experimental), you should see enter image description here

  • They have a instruction markdown on how to do this now: github.com/dotnet/runtimelab/blob/…
    – zwcloud
    Commented Jan 30, 2022 at 15:27
  • 18 MB WASM file being generated for same code above returning integer. Seems like it is because of other functions being exported, does anyone know?
    – Magnum23
    Commented Jun 1, 2022 at 8:47
  • There's a few things that contribute to the size. 1) this is a debug build so includes debug information and the Wasm is not optimized. Note that the LLVM backend for RyuJIT used in the NativeAOT-LLVM project does not support the release mode of RyuJIT which would also reduce the size. 2) Reflection meta data is included to support reflection. You can remove that with reflection free mode. 3) The required parts of the dotnet runtime are included - there is a "zerosharp" way to get a tiny wasm file, but there is no runtime that way.
    – S Waye
    Commented Jun 2, 2022 at 19:05
  • thanks, i am pure JS guy and new to C# and web assembly world. Any link you can suggest to get better understanding of what you mentioned above?
    – Magnum23
    Commented Jun 8, 2022 at 4:03
  • 1
    @GrumpyRodriguez I contribute to the NativeAOT-LLVM project and there is some documentation there github.com/dotnet/runtimelab/blob/feature/NativeAOT-LLVM/docs/…:
    – S Waye
    Commented Aug 28, 2023 at 21:33

I recently came across : https://github.com/Elringus/DotNetJS

Looks very interesting and closer to how I would want to use c# in the web browser. I will be looking at this in the next few months


I have been using Uno.Wasm.Bootstrap for awhile as a straightforward way to compile a C# assembly to a WASM package. You add the nuget package to a console project and make a couple minor changes: https://github.com/unoplatform/Uno.Wasm.Bootstrap/blob/main/doc/using-the-bootstrapper.md

This is separate from the larger Uno Platform and can be used without using their UI platform. It is just the tooling needed to compile your assembly to a simple WASM package and the JavaScript needed to load it (or "bootstrap" it) into the browser. The nice thing is because they leverage this on the mature Uno platform, the tooling has been exercised pretty thoroughly.

It produces a folder containing the WASM assembly and all the JavaScript/etc. static files that do the work to retrieve and load the WASM assembly. So all the code in your console app runs client side in the browser. The area is still evolving and there's a few different ways to call JavaScript from C# and vice versa. My jQuery WASM wrapper uses alot of WebAssemblyRuntime.InvokeJS(@$ to call JavaScript and ultimately interact with the DOM, but depending what you are trying to accomplish there are easier ways to do this in .NET 7 using import and export attributes and n C# methods to expose them to JavaScript.

I use MSBUILD tasks to copy the WASM distribution folder into my MVC project to be served as additional static files. Alternatively you would just host the static files as a separate static site. Then reference them from my layout.cshtml, the same way you'd reference a JavaScript file.

They also document an Embedded Mode that packages it slightly differently to simplify loading the WASM package in some scenarios. I have not tested this yet since it's newer, but seems like it may be more appropriate where it's being integrated into an existing site.

Alot of the use cases for WASM seem to be SPA's but like you I just wanted to use it as client side logic for my traditional MVC web app, instead of JavaScript. At some levels you usually need to generate or call JavaScript to interop with the DOM.

There are now some WASM libraries out there using this technology that act as C# wrappers for things like jQuery so that you can skip past dealing with the JavaScript interop layer and work in C# to access and manipulate the DOM/HTML. Of course the JS interop layer is still there, but the wrapper is already built out so you don't have to write any JS.

  • How do you call C# methods from JS with this method?
    – Qwertie
    Commented May 20 at 3:12
  • @Qwertie You can use JSExport (learn.microsoft.com/en-us/aspnet/core/client-side/…) to expose a C# method for JS to call. Or you can have the C# subscribe to an event or custom event that is triggered from JS. You would JSImport a javascript function exposing addEventListener, call that from C# passing a C# action method, and then trigger the event using dispatchEvent from JS which will effectively call that C# action method: github.com/SerratedSharp/CSharpWasmRecipes#events
    – AaronLS
    Commented May 20 at 4:09

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service and acknowledge you have read our privacy policy.

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