164 lines
4.9 KiB
Markdown
164 lines
4.9 KiB
Markdown
---
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stage: Enablement
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group: Infrastructure
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info: To determine the technical writer assigned to the Stage/Group associated with this page, see https://about.gitlab.com/handbook/engineering/ux/technical-writing/#assignments
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---
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# Feature Categorization
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> [Introduced](https://gitlab.com/groups/gitlab-com/gl-infra/-/epics/269) in GitLab 13.2.
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Each Sidekiq worker, controller action, or API endpoint
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must declare a `feature_category` attribute. This attribute maps each
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of these to a [feature
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category](https://about.gitlab.com/handbook/product/categories/). This
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is done for error budgeting, alert routing, and team attribution.
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The list of feature categories can be found in the file `config/feature_categories.yml`.
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This file is generated from the
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[`stages.yml`](https://gitlab.com/gitlab-com/www-gitlab-com/blob/master/data/stages.yml)
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data file used in the GitLab Handbook and other GitLab resources.
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## Updating `config/feature_categories.yml`
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Occasionally new features will be added to GitLab stages, groups, and
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product categories. When this occurs, you can automatically update
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`config/feature_categories.yml` by running
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`scripts/update-feature-categories`. This script will fetch and parse
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[`stages.yml`](https://gitlab.com/gitlab-com/www-gitlab-com/blob/master/data/stages.yml)
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and generate a new version of the file, which needs to be committed to
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the repository.
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The [Scalability
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team](https://about.gitlab.com/handbook/engineering/infrastructure/team/scalability/)
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currently maintains the `feature_categories.yml` file. They will automatically be
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notified on Slack when the file becomes outdated.
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## Sidekiq workers
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The declaration uses the `feature_category` class method, as shown below.
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```ruby
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class SomeScheduledTaskWorker
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include ApplicationWorker
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# Declares that this worker is part of the
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# `continuous_integration` feature category
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feature_category :continuous_integration
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# ...
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end
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```
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The feature categories specified using `feature_category` should be
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defined in
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[`config/feature_categories.yml`](https://gitlab.com/gitlab-org/gitlab/-/blob/master/config/feature_categories.yml). If
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not, the specs will fail.
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### Excluding Sidekiq workers from feature categorization
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A few Sidekiq workers, that are used across all features, cannot be mapped to a
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single category. These should be declared as such using the `feature_category_not_owned!`
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declaration, as shown below:
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```ruby
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class SomeCrossCuttingConcernWorker
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include ApplicationWorker
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# Declares that this worker does not map to a feature category
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feature_category_not_owned!
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# ...
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end
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```
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## Rails controllers
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Specifying feature categories on controller actions can be done using
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the `feature_category` class method.
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A feature category can be specified on an entire controller
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using:
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```ruby
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class Boards::ListsController < ApplicationController
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feature_category :kanban_boards
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end
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```
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The feature category can be limited to a list of actions using the
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second argument:
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```ruby
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class DashboardController < ApplicationController
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feature_category :issue_tracking, [:issues, :issues_calendar]
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feature_category :code_review, [:merge_requests]
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end
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```
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These forms cannot be mixed: if a controller has more than one category,
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every single action must be listed.
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### Excluding controller actions from feature categorization
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In the rare case an action cannot be tied to a feature category this
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can be done using the `not_owned` feature category.
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```ruby
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class Admin::LogsController < ApplicationController
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feature_category :not_owned
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end
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```
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### Ensuring feature categories are valid
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The `spec/controllers/every_controller_spec.rb` will iterate over all
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defined routes, and check the controller to see if a category is
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assigned to all actions.
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The spec also validates if the used feature categories are known. And if
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the actions used in configuration still exist as routes.
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## API endpoints
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The [GraphQL API](../../api/graphql/index.md) is currently categorized
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as `not_owned`. For now, no extra specification is needed. For more
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information, see
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[`gitlab-com/gl-infra/scalability#583`](https://gitlab.com/gitlab-com/gl-infra/scalability/-/issues/583/).
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Grape API endpoints can use the `feature_category` class method, like
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[Rails controllers](#rails-controllers) do:
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```ruby
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module API
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class Issues < ::API::Base
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feature_category :issue_tracking
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end
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end
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```
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The second argument can be used to specify feature categories for
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specific routes:
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```ruby
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module API
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class Users < ::API::Base
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feature_category :users, ['/users/:id/custom_attributes', '/users/:id/custom_attributes/:key']
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end
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end
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```
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Or the feature category can be specified in the action itself:
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```ruby
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module API
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class Users < ::API::Base
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get ':id', feature_category: :users do
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end
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end
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end
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```
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As with Rails controllers, an API class must specify the category for
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every single action unless the same category is used for every action
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within that class.
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