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Features that rely on Workhorse

Workhorse itself is not a feature, but there are several features in GitLab that would not work efficiently without Workhorse.

To put the efficiency benefit in context, consider that in 2020Q3 on GitLab.com we see Rails application threads using on average about 200 MB of RSS vs about 200 KB for Workhorse goroutines.

Examples of features that rely on Workhorse:

1. git clone and git push over HTTP

Git clone, pull and push are slow because they transfer large amounts of data and because each is CPU intensive on the GitLab side. Without Workhorse, HTTP access to Git repositories would compete with regular web access to the application, requiring us to run way more Rails application servers.

2. CI runner long polling

GitLab CI runners fetch new CI jobs by polling the GitLab server. Workhorse acts as a kind of "waiting room" where CI runners can sit and wait for new CI jobs. Because of Go's efficiency we can fit a lot of runners in the waiting room at little cost. Without this waiting room mechanism we would have to add a lot more Rails server capacity.

3. File uploads and downloads

File uploads and downloads may be slow either because the file is large or because the user's connection is slow. Workhorse can handle the slow part for Rails. This improves the efficiency of features such as CI artifacts, package repositories, LFS objects, etc.

4. Websocket proxying

Features such as the web terminal require a long lived connection between the user's web browser and a container inside GitLab that is not directly accessible from the internet. Dedicating a Rails application thread to proxying such a connection would cost much more memory than it costs to have Workhorse look after it.

Quick facts (how does Workhorse work)

  • Workhorse can handle some requests without involving Rails at all: for example, JavaScript files and CSS files are served straight from disk.
  • Workhorse can modify responses sent by Rails: for example if you use send_file in Rails then GitLab Workhorse opens the file on disk and send its contents as the response body to the client.
  • Workhorse can take over requests after asking permission from Rails. Example: handling git clone.
  • Workhorse can modify requests before passing them to Rails. Example: when handling a Git LFS upload Workhorse first asks permission from Rails, then it stores the request body in a temporary file, then it sends a modified request containing the file path to Rails.
  • Workhorse can manage long-lived WebSocket connections for Rails. Example: handling the terminal websocket for environments.
  • Workhorse does not connect to PostgreSQL, only to Rails and (optionally) Redis.
  • We assume that all requests that reach Workhorse pass through an upstream proxy such as NGINX or Apache first.
  • Workhorse does not clean up idle client connections.
  • We assume that all requests to Rails pass through Workhorse.

For more information see 'A brief history of GitLab Workhorse'.