- Introduced in GitLab 10.6.
- Until GitLab 12.8, the feature name was Plugins.
With custom file hooks, GitLab administrators can introduce custom integrations without modifying GitLab's source code.
NOTE: Note: Instead of writing and supporting your own file hook you can make changes directly to the GitLab source code and contribute back upstream. This way we can ensure functionality is preserved across versions and covered by tests.
NOTE: Note: File hooks must be configured on the filesystem of the GitLab server. Only GitLab server administrators will be able to complete these tasks. Explore system hooks or webhooks as an option if you do not have filesystem access.
A file hook will run on each event so it's up to you to filter events or projects within a file hook code. You can have as many file hooks as you want. Each file hook will be triggered by GitLab asynchronously in case of an event. For a list of events see the system hooks documentation.
The file hooks must be placed directly into the
file_hooks directory, subdirectories
will be ignored. There is an
example directory inside
where you can find some basic examples.
Follow the steps below to set up a custom hook:
On the GitLab server, navigate to the plugin directory. For an installation from source the path is usually
/home/git/gitlab/file_hooks/. For Omnibus installs the path is usually
For configurations with multiple servers, your hook file should exist on each application server.
file_hooksdirectory, create a file with a name of your choice, without spaces or special characters.
Make the hook file executable and make sure it's owned by the Git user.
Write the code to make the file hook function as expected. That can be in any language, and ensure the 'shebang' at the top properly reflects the language type. For example, if the script is in Ruby the shebang will probably be
The data to the file hook will be provided as JSON on STDIN. It will be exactly same as for system hooks.
That's it! Assuming the file hook code is properly implemented, the hook will fire as appropriate. The file hooks file list is updated for each event, there is no need to restart GitLab to apply a new file hook.
If a file hook executes with non-zero exit code or GitLab fails to execute it, a message will be logged to:
gitlab-rails/plugin.login an Omnibus installation.
log/plugin.login a source installation.
Creating file hooks
Below is an example that will only response on the event
will inform the admins from the GitLab instance that a new project has been created.
# By using the embedded ruby version we eliminate the possibility that our chosen language # would be unavailable from #!/opt/gitlab/embedded/bin/ruby require 'json' require 'mail' # The incoming variables are in JSON format so we need to parse it first. ARGS = JSON.parse(STDIN.read) # We only want to trigger this file hook on the event project_create return unless ARGS['event_name'] == 'project_create' # We will inform our admins of our gitlab instance that a new project is created Mail.deliver do from 'info@gitlab_instance.com' to 'admin@gitlab_instance.com' subject "new project " + ARGS['name'] body ARGS['owner_name'] + 'created project ' + ARGS['name'] end
Writing your own file hook can be tricky and it's easier if you can check it without altering the system. A Rake task is provided so that you can use it in a staging environment to test your file hook before using it in production. The Rake task will use a sample data and execute each of file hook. The output should be enough to determine if the system sees your file hook and if it was executed without errors.
# Omnibus installations sudo gitlab-rake file_hooks:validate # Installations from source cd /home/git/gitlab bundle exec rake file_hooks:validate RAILS_ENV=production
Example of output:
Validating file hooks from /file_hooks directory * /home/git/gitlab/file_hooks/save_to_file.clj succeed (zero exit code) * /home/git/gitlab/file_hooks/save_to_file.rb failure (non-zero exit code)