Version: 2020.2
Building and running a WebGL project
WebGL: Server configuration code samples

WebGL: Compressed builds and server configuration

To deploy a WebGLA JavaScript API that renders 2D and 3D graphics in a web browser. The Unity WebGL build option allows Unity to publish content as JavaScript programs which use HTML5 technologies and the WebGL rendering API to run Unity content in a web browser. More info
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build, you must configure your server and make sure you’re using the correct response headers, so that the browser can receive the proper response and process the response correctly.

There are two main settings in Unity that affect how you set up the server:

Compression Format

Choose the compression type from the WebGL Player Settings window (menu: Edit > Project Settings > Player, then select WebGL and expand the Publishing Settings section):

Image of WebGL Publishing window
Image of WebGL Publishing window
Compression method Description
gzip This is the default option. Gzip files are bigger than Brotli files, but faster to build, and natively supported by all browsers over both HTTP and HTTPS.
Brotli Brotli compression offers the best compression ratios. Brotli compressed files are smaller than gzip, but take a longer time to compress, which increases your iteration times on release builds. Chrome and Firefox only natively support Brotli compression over HTTPS.
Disabled Disables compression. Use this option if you want to implement your own compression in post-processingA process that improves product visuals by applying filters and effects before the image appears on screen. You can use post-processing effects to simulate physical camera and film properties, for example Bloom and Depth of Field. More info post processing, postprocessing, postprocess
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scriptsA piece of code that allows you to create your own Components, trigger game events, modify Component properties over time and respond to user input in any way you like. More info
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. You should also use it if you plan to use static compression on the hosting server.

For more information on browser support for selected compression methods, see documentation on WebGL browser compatibility.

Web server configuration

You might need to adjust your server configuration to match your specific build setup. In particular, there might be issues if you already have another server-side configuration to compress hosted files, which could interfere with this setup. To make the browser perform decompression natively while it downloads your application, append a Content-Encoding header to the server response. This header must correspond to the type of compression Unity uses at build time. For code samples, see Server Configuration Code Samples.

Decompression fallback

The decompression fallback option enables Unity to automatically embed a JavaScript decompressor into your build. This decompressor corresponds to your selected compression method, and decompresses your content if the browser fails to do so.

Enabling decompression fallback

Enable decompression fallback from the Player Settings window (menu: Edit > Project Settings > Player, then select WebGL and expand the Publishing Settings section).

When you enable decompression fallback, Unity adds a .unityweb extension to the build files. You should consider using Decompression Fallback if you have less experience with server configuration, or if server configuration is unavailable to you.

Note: Using this option results in a larger loader size and a less efficient loading scheme for the build files.

Disabling decompression fallback

The Decompression Fallback option is disabled by default. Therefore, by default, build files have an extension that corresponds to the compression method you select.

There are two compression methods to choose from: gzip or Brotli. For further information see the compression format section.

To enable browsers to natively decompress Unity build files while they’re downloading, you need to configure your web server to serve the compressed files with the appropriate HTTP headers. This is called native browser decompression. It has the advantage of being faster than the JavaScript decompression fallback, which can reduce your application’s startup time.

The setup process for native browser decompression depends on your web server. For code samples, see Server Configuration Code Samples.

Content-Encoding headers

A Content-Encoding header tells the browser which type of compression Unity has used for the compressed files. This allows the browser to decompress the files natively.

Set the Content-Encoding response header to the compression method selected in the Player SettingsSettings that let you set various player-specific options for the final game built by Unity. More info
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.

Compression method File extension Response header
gzip .gz Content-Encoding: gzip
Brotli .br Content-Encoding: br

WebAssembly streaming (higher level header)

WebAssembly streaming allows the browser to compile the WebAssembly code while it is still downloading the code. This significantly improves loading times.

For WebAssembly streaming compilation to work, the server needs to return WebAssembly files with an application/wasm MIME type. To use WebAssembly streaming, you need to serve WebAssembly files with the Content-Type: application/wasm response header. A Content-Type header tells the server which media type the content is. This value should be set to application/wasm for WebAssembly files.

File extension Response header
.wasm, .wasm.gz, .wasm.br Content-Type: application/wasm

Note: WebAssembly streaming does not work together with JavaScript decompression (when the Decompression Fallback option is enabled). In such cases, the downloaded WebAssembly file must first go through the JavaScript decompressor and therefore the browser cannot stream it during download.

Additional headers

If your file contains JavaScript, you should add the application/javascript Content-Type header. Some servers might include this automatically, while others do not.

File extension Response header
.js, .js.gz, js.br Content-Type: application/javascript

  • Updated page to account for server configuration in 2020.1
  • 2019–09–04 WebAssembly streaming added in 2019.2
  • Updated in 5.6
Building and running a WebGL project
WebGL: Server configuration code samples