--- type: reference, dev stage: none group: Development info: "See the Technical Writers assigned to Development Guidelines: https://about.gitlab.com/handbook/product/ux/technical-writing/#assignments-to-development-guidelines" description: "GitLab development guidelines - testing best practices." --- # Testing best practices ## Test Design Testing at GitLab is a first class citizen, not an afterthought. It's important we consider the design of our tests as we do the design of our features. When implementing a feature, we think about developing the right capabilities the right way. This helps us narrow our scope to a manageable level. When implementing tests for a feature, we must think about developing the right tests, but then cover _all_ the important ways the test may fail. This can quickly widen our scope to a level that is difficult to manage. Test heuristics can help solve this problem. They concisely address many of the common ways bugs manifest themselves in our code. When designing our tests, take time to review known test heuristics to inform our test design. We can find some helpful heuristics documented in the Handbook in the [Test Engineering](https://about.gitlab.com/handbook/engineering/quality/quality-engineering/test-engineering/#test-heuristics) section. ## RSpec To run RSpec tests: ```shell # run test for a file bin/rspec spec/models/project_spec.rb # run test for the example on line 10 on that file bin/rspec spec/models/project_spec.rb:10 # run tests matching the example name has that string bin/rspec spec/models/project_spec.rb -e associations # run all tests, will take hours for GitLab codebase! bin/rspec ``` Use [Guard](https://github.com/guard/guard) to continuously monitor for changes and only run matching tests: ```shell bundle exec guard ``` When using spring and guard together, use `SPRING=1 bundle exec guard` instead to make use of spring. ### Eager loading the application code By default, the application code: - Isn't eagerly loaded in the `test` environment. - Is eagerly loaded in CI/CD (when `ENV['CI'].present?`) to surface any potential loading issues. If you need to enable eager loading when executing tests, use the `GITLAB_TEST_EAGER_LOAD` environment variable: ```shell GITLAB_TEST_EAGER_LOAD=1 bin/rspec spec/models/project_spec.rb ``` If your test depends on all the application code that is being loaded, add the `:eager_load` tag. This ensures that the application code is eagerly loaded before the test execution. ### Ruby warnings > [Introduced](https://gitlab.com/gitlab-org/gitlab/-/merge_requests/47767) in GitLab 13.7. We've enabled [deprecation warnings](https://ruby-doc.org/core-2.7.4/Warning.html) by default when running specs. Making these warnings more visible to developers helps upgrading to newer Ruby versions. You can silence deprecation warnings by setting the environment variable `SILENCE_DEPRECATIONS`, for example: ```shell # silence all deprecation warnings SILENCE_DEPRECATIONS=1 bin/rspec spec/models/project_spec.rb ``` ### Test order > [Introduced](https://gitlab.com/gitlab-org/gitlab/-/merge_requests/93137) in GitLab 15.4. All new spec files are run in [random order](https://gitlab.com/gitlab-org/gitlab/-/issues/337399) to surface flaky tests that are dependent on test order. When randomized: - The string `# order random` is added below the example group description. - The used seed is shown in the spec output below the test suite summary. For example, `Randomized with seed 27443`. For a list of spec files which are still run in defined order, see [`rspec_order_todo.yml`](https://gitlab.com/gitlab-org/gitlab/-/blob/master/spec/support/rspec_order_todo.yml). To make spec files run in random order, check their order dependency with: ```shell scripts/rspec_check_order_dependence spec/models/project_spec.rb ``` If the specs pass the check the script removes them from [`rspec_order_todo.yml`](https://gitlab.com/gitlab-org/gitlab/-/blob/master/spec/support/rspec_order_todo.yml) automatically. If the specs fail the check they must be fixed before than can run in random order. ### Test speed GitLab has a massive test suite that, without [parallelization](../pipelines/index.md#test-suite-parallelization), can take hours to run. It's important that we make an effort to write tests that are accurate and effective _as well as_ fast. Test performance is important to maintaining quality and velocity, and has a direct impact on CI build times and thus fixed costs. We want thorough, correct, and fast tests. Here you can find some information about tools and techniques available to you to achieve that. #### Don't request capabilities you don't need We make it easy to add capabilities to our examples by annotating the example or a parent context. Examples of these are: - `:js` in feature specs, which runs a full JavaScript capable headless browser. - `:clean_gitlab_redis_cache` which provides a clean Redis cache to the examples. - `:request_store` which provides a request store to the examples. We should reduce test dependencies, and avoiding capabilities also reduces the amount of set-up needed. `:js` is particularly important to avoid. This must only be used if the feature test requires JavaScript reactivity in the browser. Using a headless browser is much slower than parsing the HTML response from the app. #### Optimize factory usage A common cause of slow tests is excessive creation of objects, and thus computation and DB time. Factories are essential to development, but they can make inserting data into the DB so easy that we may be able to optimize. The two basic techniques to bear in mind here are: - **Reduce**: avoid creating objects, and avoid persisting them. - **Reuse**: shared objects, especially nested ones we do not examine, can generally be shared. To avoid creation, it is worth bearing in mind that: - `instance_double` and `spy` are faster than `FactoryBot.build(...)`. - `FactoryBot.build(...)` and `.build_stubbed` are faster than `.create`. - Don't `create` an object when you can use `build`, `build_stubbed`, `attributes_for`, `spy`, or `instance_double`. Database persistence is slow! Use [Factory Doctor](https://test-prof.evilmartians.io/#/profilers/factory_doctor) to find cases where database persistence is not needed in a given test. Examples of factories optimization [1](https://gitlab.com/gitlab-org/gitlab/-/merge_requests/106796), [2](https://gitlab.com/gitlab-org/gitlab/-/merge_requests/105329). ```shell # run test for path FDOC=1 bin/rspec spec/[path]/[to]/[spec].rb ``` A common change is to use `build` or `build_stubbed` instead of `create`: ```ruby # Old let(:project) { create(:project) } # New let(:project) { build(:project) } ``` [Factory Profiler](https://test-prof.evilmartians.io/#/profilers/factory_prof) can help to identify repetitive database persistence via factories. ```shell # run test for path FPROF=1 bin/rspec spec/[path]/[to]/[spec].rb # to visualize with a flamegraph FPROF=flamegraph bin/rspec spec/[path]/[to]/[spec].rb ``` A common cause of a large number of created factories is [factory cascades](https://github.com/test-prof/test-prof/blob/master/docs/profilers/factory_prof.md#factory-flamegraph), which result when factories create and recreate associations. They can be identified by a noticeable difference between `total time` and `top-level time` numbers: ```plaintext total top-level total time time per call top-level time name 208 0 9.5812s 0.0461s 0.0000s namespace 208 76 37.4214s 0.1799s 13.8749s project ``` The table above shows us that we never create any `namespace` objects explicitly (`top-level == 0`) - they are all created implicitly for us. But we still end up with 208 of them (one for each project) and this takes 9.5 seconds. In order to reuse a single object for all calls to a named factory in implicit parent associations, [`FactoryDefault`](https://github.com/test-prof/test-prof/blob/master/docs/recipes/factory_default.md) can be used: ```ruby RSpec.describe API::Search, factory_default: :keep do let_it_be(:namespace) { create_default(:namespace) } ``` Then every project we create uses this `namespace`, without us having to pass it as `namespace: namespace`. In order to make it work along with `let_it_be`, `factory_default: :keep` must be explicitly specified. That keeps the default factory for every example in a suite instead of recreating it for each example. To prevent accidental reliance between test examples, objects created with `create_default` are [frozen](https://gitlab.com/gitlab-org/gitlab/-/blob/master/spec/support/factory_default.rb). Maybe we don't need to create 208 different projects - we can create one and reuse it. In addition, we can see that only about 1/3 of the projects we create are ones we ask for (76/208). There is benefit in setting a default value for projects as well: ```ruby let_it_be(:project) { create_default(:project) } ``` In this case, the `total time` and `top-level time` numbers match more closely: ```plaintext total top-level total time time per call top-level time name 31 30 4.6378s 0.1496s 4.5366s project 8 8 0.0477s 0.0477s 0.0477s namespace ``` ##### Let's talk about `let` There are various ways to create objects and store them in variables in your tests. They are, from least efficient to most efficient: - `let!` creates the object before each example runs. It also creates a new object for every example. You should only use this option if you need to create a clean object before each example without explicitly referring to it. - `let` lazily creates the object. It isn't created until the object is called. `let` is generally inefficient as it creates a new object for every example. `let` is fine for simple values. However, more efficient variants of `let` are best when dealing with database models such as factories. - `let_it_be_with_refind` works similar to `let_it_be_with_reload`, but the [former calls `ActiveRecord::Base#find`](https://github.com/test-prof/test-prof/blob/936b29f87b36f88a134e064aa6d8ade143ae7a13/lib/test_prof/ext/active_record_refind.rb#L15) instead of `ActiveRecord::Base#reload`. `reload` is usually faster than `refind`. - `let_it_be_with_reload` creates an object one time for all examples in the same context, but after each example, the database changes are rolled back, and `object.reload` will be called to restore the object to its original state. This means you can make changes to the object before or during an example. However, there are cases where [state leaks across other models](https://github.com/test-prof/test-prof/blob/master/docs/recipes/let_it_be.md#state-leakage-detection) can occur. In these cases, `let` may be an easier option, especially if only a few examples exist. - `let_it_be` creates an immutable object one time for all of the examples in the same context. This is a great alternative to `let` and `let!` for objects that do not need to change from one example to another. Using `let_it_be` can dramatically speed up tests that create database models. See for more details and examples. `let_it_be` is the most optimized option since it instantiates an object once and does not change it. If you find yourself needing `let` instead of `let_it_be`, try `let_it_be_with_reload`. ```ruby # Old let(:project) { create(:project) } # New let_it_be(:project) { create(:project) } # If you need to expect changes to the object in the test let_it_be_with_reload(:project) { create(:project) } ``` Here is an example of when `let_it_be` cannot be used, but `let_it_be_with_reload` allows for more efficiency than `let`: ```ruby let_it_be(:user) { create(:user) } let_it_be_with_reload(:project) { create(:project) } # The test will fail if `let_it_be` is used context 'with a developer' do before do project.add_developer(user) end it 'project has an owner and a developer' do expect(project.members.map(&:access_level)).to match_array([Gitlab::Access::OWNER, Gitlab::Access::DEVELOPER]) end end context 'with a maintainer' do before do project.add_maintainer(user) end it 'project has an owner and a maintainer' do expect(project.members.map(&:access_level)).to match_array([Gitlab::Access::OWNER, Gitlab::Access::MAINTAINER]) end end ``` #### Stubbing methods within factories You should avoid using `allow(object).to receive(:method)` in factories, as this makes the factory unable to be used with `let_it_be`, as described in [common test setup](#common-test-setup). Instead, you can use `stub_method` to stub the method: ```ruby before(:create) do |user, evaluator| # Stub a method. stub_method(user, :some_method) { 'stubbed!' } # Or with arguments, including named ones stub_method(user, :some_method) { |var1| "Returning #{var1}!" } stub_method(user, :some_method) { |var1: 'default'| "Returning #{var1}!" } end # Un-stub the method. # This may be useful where the stubbed object is created with `let_it_be` # and you want to reset the method between tests. after(:create) do |user, evaluator| restore_original_method(user, :some_method) # or restore_original_methods(user) end ``` NOTE: `stub_method` does not work when used in conjunction with `let_it_be_with_refind`. This is because `stub_method` will stub a method on an instance and `let_it_be_with_refind` will create a new instance of the object for each run. `stub_method` does not support method existence and method arity checks. WARNING: `stub_method` is supposed to be used in factories only. It's strongly discouraged to be used elsewhere. Please consider using [RSpec mocks](https://rspec.info/features/3-12/rspec-mocks/) if available. #### Stubbing member access level To stub [member access level](../../user/permissions.md#roles) for factory stubs like `Project` or `Group` use [`stub_member_access_level`](https://gitlab.com/gitlab-org/gitlab/-/blob/master/spec/support/stub_member_access_level.rb): ```ruby let(:project) { build_stubbed(:project) } let(:maintainer) { build_stubbed(:user) } let(:policy) { ProjectPolicy.new(maintainer, project) } it 'allows admin_project ability' do stub_member_access_level(project, maintainer: maintainer) expect(policy).to be_allowed(:admin_project) end ``` NOTE: Refrain from using this stub helper if the test code relies on persisting `project_authorizations` or `Member` records. Use `Project#add_member` or `Group#add_member` instead. #### Identify slow tests Running a spec with profiling is a good way to start optimizing a spec. This can be done with: ```shell bundle exec rspec --profile -- path/to/spec_file.rb ``` Which includes information like the following: ```plaintext Top 10 slowest examples (10.69 seconds, 7.7% of total time): Issue behaves like an editable mentionable creates new cross-reference notes when the mentionable text is edited 1.62 seconds ./spec/support/shared_examples/models/mentionable_shared_examples.rb:164 Issue relative positioning behaves like a class that supports relative positioning .move_nulls_to_end manages to move nulls to the end, stacking if we cannot create enough space 1.39 seconds ./spec/support/shared_examples/models/relative_positioning_shared_examples.rb:88 Issue relative positioning behaves like a class that supports relative positioning .move_nulls_to_start manages to move nulls to the end, stacking if we cannot create enough space 1.27 seconds ./spec/support/shared_examples/models/relative_positioning_shared_examples.rb:180 Issue behaves like an editable mentionable behaves like a mentionable extracts references from its reference property 0.99253 seconds ./spec/support/shared_examples/models/mentionable_shared_examples.rb:69 Issue behaves like an editable mentionable behaves like a mentionable creates cross-reference notes 0.94987 seconds ./spec/support/shared_examples/models/mentionable_shared_examples.rb:101 Issue behaves like an editable mentionable behaves like a mentionable when there are cached markdown fields sends in cached markdown fields when appropriate 0.94148 seconds ./spec/support/shared_examples/models/mentionable_shared_examples.rb:86 Issue behaves like an editable mentionable when there are cached markdown fields when the markdown cache is stale persists the refreshed cache so that it does not have to be refreshed every time 0.92833 seconds ./spec/support/shared_examples/models/mentionable_shared_examples.rb:153 Issue behaves like an editable mentionable when there are cached markdown fields refreshes markdown cache if necessary 0.88153 seconds ./spec/support/shared_examples/models/mentionable_shared_examples.rb:130 Issue behaves like an editable mentionable behaves like a mentionable generates a descriptive back-reference 0.86914 seconds ./spec/support/shared_examples/models/mentionable_shared_examples.rb:65 Issue#related_issues returns only authorized related issues for given user 0.84242 seconds ./spec/models/issue_spec.rb:335 Finished in 2 minutes 19 seconds (files took 1 minute 4.42 seconds to load) 277 examples, 0 failures, 1 pending ``` From this result, we can see the most expensive examples in our spec, giving us a place to start. The most expensive examples here are in shared examples; any reductions generally have a larger impact as they are called in multiple places. #### Top slow tests We collect information about tests duration in [`rspec_profiling_stats`](https://gitlab.com/gitlab-org/rspec_profiling_stats) project. The data is showed using GitLab Pages in this [UI](https://gitlab-org.gitlab.io/rspec_profiling_stats/) With [issue](https://gitlab.com/gitlab-org/gitlab/-/issues/375983) we defined thresholds for tests duration that can act a guide. For tests that are not meeting the thresholds it is recommended to create issues and improve the tests duration. | Date | Feature tests | Controllers and Requests tests | Other | | --- | --- | --- | --- | | 2023-02-15 | 67.42 seconds | 44.66 seconds | 76.86 seconds | #### Avoid repeating expensive actions While isolated examples are very clear, and help serve the purpose of specs as specification, the following example shows how we can combine expensive actions: ```ruby subject { described_class.new(arg_0, arg_1) } it 'creates an event' do expect { subject.execute }.to change(Event, :count).by(1) end it 'sets the frobulance' do expect { subject.execute }.to change { arg_0.reset.frobulance }.to('wibble') end it 'schedules a background job' do expect(BackgroundJob).to receive(:perform_async) subject.execute end ``` If the call to `subject.execute` is expensive, then we are repeating the same action just to make different assertions. We can reduce this repetition by combining the examples: ```ruby it 'performs the expected side-effects' do expect(BackgroundJob).to receive(:perform_async) expect { subject.execute } .to change(Event, :count).by(1) .and change { arg_0.frobulance }.to('wibble') end ``` Be careful doing this, as this sacrifices clarity and test independence for performance gains. When combining tests, consider using `:aggregate_failures`, so that the full results are available, and not just the first failure. ### General guidelines - Use a single, top-level `RSpec.describe ClassName` block. - Use `.method` to describe class methods and `#method` to describe instance methods. - Use `context` to test branching logic. - Try to match the ordering of tests to the ordering in the class. - Try to follow the [Four-Phase Test](https://thoughtbot.com/blog/four-phase-test) pattern, using newlines to separate phases. - Use `Gitlab.config.gitlab.host` rather than hard coding `'localhost'` - Don't assert against the absolute value of a sequence-generated attribute (see [Gotchas](../gotchas.md#do-not-assert-against-the-absolute-value-of-a-sequence-generated-attribute)). - Avoid using `expect_any_instance_of` or `allow_any_instance_of` (see [Gotchas](../gotchas.md#avoid-using-expect_any_instance_of-or-allow_any_instance_of-in-rspec)). - Don't supply the `:each` argument to hooks because it's the default. - On `before` and `after` hooks, prefer it scoped to `:context` over `:all` - When using `evaluate_script("$('.js-foo').testSomething()")` (or `execute_script`) which acts on a given element, use a Capybara matcher beforehand (such as `find('.js-foo')`) to ensure the element actually exists. - Use `focus: true` to isolate parts of the specs you want to run. - Use [`:aggregate_failures`](https://rspec.info/features/3-12/rspec-core/expectation-framework-integration/aggregating-failures/) when there is more than one expectation in a test. - For [empty test description blocks](https://github.com/rubocop-hq/rspec-style-guide#it-and-specify), use `specify` rather than `it do` if the test is self-explanatory. - Use `non_existing_record_id`/`non_existing_record_iid`/`non_existing_record_access_level` when you need an ID/IID/access level that doesn't actually exists. Using 123, 1234, or even 999 is brittle as these IDs could actually exist in the database in the context of a CI run. ### Feature category metadata You must [set feature category metadata for each RSpec example](../feature_categorization/index.md#rspec-examples). ### Tests depending on EE license You can use `if: Gitlab.ee?` or `unless: Gitlab.ee?` on context/spec blocks to execute tests depending on whether running with `FOSS_ONLY=1`. Example: [SchemaValidator reads a different path depending on the license](https://gitlab.com/gitlab-org/gitlab/-/blob/7cdcf9819cfa02c701d6fa9f18c1e7a8972884ed/spec/lib/gitlab/ci/parsers/security/validators/schema_validator_spec.rb#L571) ### Tests depending on SaaS You can use the `:saas` RSpec metadata tag helper on context/spec blocks to test code that only runs on GitLab.com. This helper sets `Gitlab.config.gitlab['url']` to `Gitlab::Saas.com_url`. ### Coverage [`simplecov`](https://github.com/colszowka/simplecov) is used to generate code test coverage reports. These are generated automatically on the CI, but not when running tests locally. To generate partial reports when you run a spec file on your machine, set the `SIMPLECOV` environment variable: ```shell SIMPLECOV=1 bundle exec rspec spec/models/repository_spec.rb ``` Coverage reports are generated into the `coverage` folder in the app root, and you can open these in your browser, for example: ```shell firefox coverage/index.html ``` Use the coverage reports to ensure your tests cover 100% of your code. ### System / Feature tests NOTE: Before writing a new system test, [please consider **not** writing one](testing_levels.md#consider-not-writing-a-system-test)! - Feature specs should be named `ROLE_ACTION_spec.rb`, such as `user_changes_password_spec.rb`. - Use scenario titles that describe the success and failure paths. - Avoid scenario titles that add no information, such as "successfully". - Avoid scenario titles that repeat the feature title. - Create only the necessary records in the database - Test a happy path and a less happy path but that's it - Every other possible path should be tested with Unit or Integration tests - Test what's displayed on the page, not the internals of ActiveRecord models. For instance, if you want to verify that a record was created, add expectations that its attributes are displayed on the page, not that `Model.count` increased by one. - It's ok to look for DOM elements, but don't abuse it, because it makes the tests more brittle #### UI testing When testing the UI, write tests that simulate what a user sees and how they interact with the UI. This means preferring Capybara's semantic methods and avoiding querying by IDs, classes, or attributes. The benefits of testing in this way are that: - It ensures all interactive elements have an [accessible name](../fe_guide/accessibility.md#provide-accessible-names-for-screen-readers). - It is more readable, as it uses more natural language. - It is less brittle, as it avoids querying by IDs, classes, and attributes, which are not visible to the user. We strongly recommend that you query by the element's text label instead of by ID, class name, or `data-testid`. If needed, you can scope interactions within a specific area of the page by using `within`. As you will likely be scoping to an element such as a `div`, which typically does not have a label, you may use a `data-testid` selector in this case. You can use the `be_axe_clean` matcher to run [axe automated accessibility testing](../fe_guide/accessibility.md#automated-accessibility-testing-with-axe) in feature tests. ##### Externalized contents Test expectations against externalized contents should call the same externalizing method to match the translation. For example, you should use the `_` method in Ruby and `__` method in JavaScript. See [Internationalization for GitLab - Test files](../i18n/externalization.md#test-files) for details. ##### Actions Where possible, use more specific [actions](https://rubydoc.info/github/teamcapybara/capybara/master/Capybara/Node/Actions), such as the ones below. ```ruby # good click_button _('Submit review') click_link _('UI testing docs') fill_in _('Search projects'), with: 'gitlab' # fill in text input with text select _('Updated date'), from: 'Sort by' # select an option from a select input check _('Checkbox label') uncheck _('Checkbox label') choose _('Radio input label') attach_file(_('Attach a file'), '/path/to/file.png') # bad - interactive elements must have accessible names, so # we should be able to use one of the specific actions above find('.group-name', text: group.name).click find('.js-show-diff-settings').click find('[data-testid="submit-review"]').click find('input[type="checkbox"]').click find('.search').native.send_keys('gitlab') ``` ##### Finders Where possible, use more specific [finders](https://rubydoc.info/github/teamcapybara/capybara/master/Capybara/Node/Finders), such as the ones below. ```ruby # good find_button _('Submit review') find_button _('Submit review'), disabled: true find_link _('UI testing docs') find_link _('UI testing docs'), href: docs_url find_field _('Search projects') find_field _('Search projects'), with: 'gitlab' # find the input field with text find_field _('Search projects'), disabled: true find_field _('Checkbox label'), checked: true find_field _('Checkbox label'), unchecked: true # acceptable when finding a element that is not a button, link, or field find('[data-testid="element"]') ``` ##### Matchers Where possible, use more specific [matchers](https://rubydoc.info/github/teamcapybara/capybara/master/Capybara/RSpecMatchers), such as the ones below. ```ruby # good expect(page).to have_button _('Submit review') expect(page).to have_button _('Submit review'), disabled: true expect(page).to have_button _('Notifications'), class: 'is-checked' # assert the "Notifications" GlToggle is checked expect(page).to have_link _('UI testing docs') expect(page).to have_link _('UI testing docs'), href: docs_url # assert the link has an href expect(page).to have_field _('Search projects') expect(page).to have_field _('Search projects'), disabled: true expect(page).to have_field _('Search projects'), with: 'gitlab' # assert the input field has text expect(page).to have_checked_field _('Checkbox label') expect(page).to have_unchecked_field _('Radio input label') expect(page).to have_select _('Sort by') expect(page).to have_select _('Sort by'), selected: 'Updated date' # assert the option is selected expect(page).to have_select _('Sort by'), options: ['Updated date', 'Created date', 'Due date'] # assert an exact list of options expect(page).to have_select _('Sort by'), with_options: ['Created date', 'Due date'] # assert a partial list of options expect(page).to have_text _('Some paragraph text.') expect(page).to have_text _('Some paragraph text.'), exact: true # assert exact match expect(page).to have_current_path 'gitlab/gitlab-test/-/issues' expect(page).to have_title _('Not Found') # acceptable when a more specific matcher above is not possible expect(page).to have_css 'h2', text: 'Issue title' expect(page).to have_css 'p', text: 'Issue description', exact: true expect(page).to have_css '[data-testid="weight"]', text: 2 expect(page).to have_css '.atwho-view ul', visible: true ``` ##### Interacting with modals Use the `within_modal` helper to interact with [GitLab UI modals](https://gitlab-org.gitlab.io/gitlab-ui/?path=/story/base-modal--default). ```ruby include Spec::Support::Helpers::ModalHelpers within_modal do expect(page).to have_link _('UI testing docs') fill_in _('Search projects'), with: 'gitlab' click_button 'Continue' end ``` Furthermore, you can use `accept_gl_confirm` for confirmation modals that only need to be accepted. This is helpful when migrating [`window.confirm()`](https://developer.mozilla.org/en-US/docs/Web/API/Window/confirm) to [`confirmAction`](https://gitlab.com/gitlab-org/gitlab/-/blob/ee280ed2b763d1278ad38c6e7e8a0aff092f617a/app/assets/javascripts/lib/utils/confirm_via_gl_modal/confirm_via_gl_modal.js#L3). ```ruby include Spec::Support::Helpers::ModalHelpers accept_gl_confirm do click_button 'Delete user' end ``` You can also pass the expected confirmation message and button text to `accept_gl_confirm`. ```ruby include Spec::Support::Helpers::ModalHelpers accept_gl_confirm('Are you sure you want to delete this user?', button_text: 'Delete') do click_button 'Delete user' end ``` ##### Other useful methods After you retrieve an element using a [finder method](#finders), you can invoke a number of [element methods](https://rubydoc.info/github/teamcapybara/capybara/master/Capybara/Node/Element) on it, such as `hover`. Capybara tests also have a number of [session methods](https://rubydoc.info/github/teamcapybara/capybara/master/Capybara/Session) available, such as `accept_confirm`. Some other useful methods are shown below: ```ruby refresh # refresh the page send_keys([:shift, 'i']) # press Shift+I keys to go to the Issues dashboard page current_window.resize_to(1000, 1000) # resize the window scroll_to(find_field('Comment')) # scroll to an element ``` You can also find a number of GitLab custom helpers in the `spec/support/helpers/` directory. #### Live debug Sometimes you may need to debug Capybara tests by observing browser behavior. You can pause Capybara and view the website on the browser by using the `live_debug` method in your spec. The current page is automatically opened in your default browser. You may need to sign in first (the current user's credentials are displayed in the terminal). To resume the test run, press any key. For example: ```shell $ bin/rspec spec/features/auto_deploy_spec.rb:34 Running via Spring preloader in process 8999 Run options: include {:locations=>{"./spec/features/auto_deploy_spec.rb"=>[34]}} Current example is paused for live debugging The current user credentials are: user2 / 12345678 Press any key to resume the execution of the example! Back to the example! . Finished in 34.51 seconds (files took 0.76702 seconds to load) 1 example, 0 failures ``` `live_debug` only works on JavaScript enabled specs. #### Run `:js` spec in a visible browser Run the spec with `WEBDRIVER_HEADLESS=0`, like this: ```shell WEBDRIVER_HEADLESS=0 bin/rspec some_spec.rb ``` The test completes quickly, but this gives you an idea of what's happening. Using `live_debug` with `WEBDRIVER_HEADLESS=0` pauses the open browser, and does not open the page again. This can be used to debug and inspect elements. You can also add `byebug` or `binding.pry` to pause execution and [step through](../pry_debugging.md#stepping) the test. #### Screenshots We use the `capybara-screenshot` gem to automatically take a screenshot on failure. In CI you can download these files as job artifacts. Also, you can manually take screenshots at any point in a test by adding the methods below. Be sure to remove them when they are no longer needed! See for more. Add `screenshot_and_save_page` in a `:js` spec to screenshot what Capybara "sees", and save the page source. Add `screenshot_and_open_image` in a `:js` spec to screenshot what Capybara "sees", and automatically open the image. The HTML dumps created by this are missing CSS. This results in them looking very different from the actual application. There is a [small hack](https://gitlab.com/gitlab-org/gitlab-foss/snippets/1718469) to add CSS which makes debugging easier. ### Fast unit tests Some classes are well-isolated from Rails. You should be able to test them without the overhead added by the Rails environment and Bundler's `:default` group's gem loading. In these cases, you can `require 'fast_spec_helper'` instead of `require 'spec_helper'` in your test file, and your test should run really fast because: - Gem loading is skipped - Rails app boot is skipped - GitLab Shell and Gitaly setup are skipped - Test repositories setup are skipped `fast_spec_helper` also support autoloading classes that are located inside the `lib/` directory. If your class or module is using only code from the `lib/` directory, you don't need to explicitly load any dependencies. `fast_spec_helper` also loads all ActiveSupport extensions, including core extensions that are commonly used in the Rails environment. Note that in some cases, you might still have to load some dependencies using `require_dependency` when a code is using gems or a dependency is not located in `lib/`. For example, if you want to test your code that is calling the `Gitlab::UntrustedRegexp` class, which under the hood uses `re2` library, you should either: - Add `require_dependency 're2'` to files in your library that need `re2` gem, to make this requirement explicit. This approach is preferred. - Add it to the spec itself. - Use `rubocop_spec_helper` for RuboCop related specs. It takes around one second to load tests that are using `fast_spec_helper` instead of 30+ seconds in case of a regular `spec_helper`. WARNING: To verify that code and its specs are well-isolated from Rails, run the spec individually via `bin/rspec`. Don't use `bin/spring rspec` as it loads `spec_helper` automatically. ### `subject` and `let` variables The GitLab RSpec suite has made extensive use of `let`(along with its strict, non-lazy version `let!`) variables to reduce duplication. However, this sometimes [comes at the cost of clarity](https://thoughtbot.com/blog/lets-not), so we need to set some guidelines for their use going forward: - `let!` variables are preferable to instance variables. `let` variables are preferable to `let!` variables. Local variables are preferable to `let` variables. - Use `let` to reduce duplication throughout an entire spec file. - Don't use `let` to define variables used by a single test; define them as local variables inside the test's `it` block. - Don't define a `let` variable inside the top-level `describe` block that's only used in a more deeply-nested `context` or `describe` block. Keep the definition as close as possible to where it's used. - Try to avoid overriding the definition of one `let` variable with another. - Don't define a `let` variable that's only used by the definition of another. Use a helper method instead. - `let!` variables should be used only in case if strict evaluation with defined order is required, otherwise `let` suffices. Remember that `let` is lazy and won't be evaluated until it is referenced. - Avoid referencing `subject` in examples. Use a named subject `subject(:name)`, or a `let` variable instead, so the variable has a contextual name. - If the `subject` is never referenced inside examples, then it's acceptable to define the `subject` without a name. ### Common test setup In some cases, there is no need to recreate the same object for tests again for each example. For example, a project and a guest of that project are needed to test issues on the same project, so one project and user are enough for the entire file. As much as possible, do not implement this using `before(:all)` or `before(:context)`. If you do, you would need to manually clean up the data as those hooks run outside a database transaction. Instead, this can be achieved by using [`let_it_be`](https://test-prof.evilmartians.io/#/recipes/let_it_be) variables and the [`before_all`](https://test-prof.evilmartians.io/#/recipes/before_all) hook from the [`test-prof` gem](https://rubygems.org/gems/test-prof). ```ruby let_it_be(:project) { create(:project) } let_it_be(:user) { create(:user) } before_all do project.add_guest(user) end ``` This results in only one `Project`, `User`, and `ProjectMember` created for this context. `let_it_be` and `before_all` are also available in nested contexts. Cleanup after the context is handled automatically using a transaction rollback. Note that if you modify an object defined inside a `let_it_be` block, then you must do one of the following: - Reload the object as needed. - Use the `let_it_be_with_reload` alias. - Specify the `reload` option to reload for every example. ```ruby let_it_be_with_reload(:project) { create(:project) } let_it_be(:project, reload: true) { create(:project) } ``` You can also use the `let_it_be_with_refind` alias, or specify the `refind` option as well to completely load a new object. ```ruby let_it_be_with_refind(:project) { create(:project) } let_it_be(:project, refind: true) { create(:project) } ``` Note that `let_it_be` cannot be used with factories that has stubs, such as `allow`. The reason is that `let_it_be` happens in a `before(:all)` block, and RSpec does not allow stubs in `before(:all)`. See this [issue](https://gitlab.com/gitlab-org/gitlab/-/issues/340487) for more details. To resolve, use `let`, or change the factory to not use stubs. ### Time-sensitive tests [`ActiveSupport::Testing::TimeHelpers`](https://api.rubyonrails.org/classes/ActiveSupport/Testing/TimeHelpers.html) can be used to verify things that are time-sensitive. Any test that exercises or verifies something time-sensitive should make use of these helpers to prevent transient test failures. Example: ```ruby it 'is overdue' do issue = build(:issue, due_date: Date.tomorrow) travel_to(3.days.from_now) do expect(issue).to be_overdue end end ``` #### RSpec helpers You can use the `:freeze_time` and `:time_travel_to` RSpec metadata tag helpers to help reduce the amount of boilerplate code needed to wrap entire specs with the [`ActiveSupport::Testing::TimeHelpers`](https://api.rubyonrails.org/classes/ActiveSupport/Testing/TimeHelpers.html) methods. ```ruby describe 'specs which require time to be frozen', :freeze_time do it 'freezes time' do right_now = Time.now expect(Time.now).to eq(right_now) end end describe 'specs which require time to be frozen to a specific date and/or time', time_travel_to: '2020-02-02 10:30:45 -0700' do it 'freezes time to the specified date and time' do expect(Time.now).to eq(Time.new(2020, 2, 2, 17, 30, 45, '+00:00')) end end ``` [Under the hood](https://gitlab.com/gitlab-org/gitlab/-/blob/master/spec/support/time_travel.rb), these helpers use the `around(:each)` hook and the block syntax of the [`ActiveSupport::Testing::TimeHelpers`](https://api.rubyonrails.org/classes/ActiveSupport/Testing/TimeHelpers.html) methods: ```ruby around(:each) do |example| freeze_time { example.run } end around(:each) do |example| travel_to(date_or_time) { example.run } end ``` ### Feature flags in tests This section was moved to [developing with feature flags](../feature_flags/index.md). ### Pristine test environments The code exercised by a single GitLab test may access and modify many items of data. Without careful preparation before a test runs, and cleanup afterward, a test can change data in a way that affects the behavior of following tests. This should be avoided at all costs! Fortunately, the existing test framework handles most cases already. When the test environment does get polluted, a common outcome is [flaky tests](flaky_tests.md). Pollution often manifests as an order dependency: running spec A followed by spec B reliably fails, but running spec B followed by spec A reliably succeeds. In these cases, you can use `rspec --bisect` (or a manual pairwise bisect of spec files) to determine which spec is at fault. Fixing the problem requires some understanding of how the test suite ensures the environment is pristine. Read on to discover more about each data store! #### SQL database This is managed for us by the `database_cleaner` gem. Each spec is surrounded in a transaction, which is rolled back after the test completes. Certain specs instead issue `DELETE FROM` queries against every table after completion. This allows the created rows to be viewed from multiple database connections, which is important for specs that run in a browser, or migration specs, among others. One consequence of using these strategies, instead of the well-known `TRUNCATE TABLES` approach, is that primary keys and other sequences are **not** reset across specs. So if you create a project in spec A, then create a project in spec B, the first has `id=1`, while the second has `id=2`. This means that specs should **never** rely on the value of an ID, or any other sequence-generated column. To avoid accidental conflicts, specs should also avoid manually specifying any values in these kinds of columns. Instead, leave them unspecified, and look up the value after the row is created. ##### TestProf in migration specs Because of what is described above, migration specs can't be run inside a database transaction. Our test suite uses [TestProf](https://github.com/test-prof/test-prof) to improve the runtime of the test suite, but `TestProf` uses database transactions to perform these optimizations. For this reason, we can't use `TestProf` methods in our migration specs. These are the methods that should not be used and should be replaced with default RSpec methods instead: - `let_it_be`: use `let` or `let!` instead. - `let_it_be_with_reload`: use `let` or `let!` instead. - `let_it_be_with_refind`: use `let` or `let!` instead. - `before_all`: use `before` or `before(:all)` instead. #### Redis GitLab stores two main categories of data in Redis: cached items, and Sidekiq jobs. [View the full list of `Gitlab::Redis::Wrapper` descendants](https://gitlab.com/gitlab-org/gitlab/-/tree/master/lib/gitlab/redis.rb) that are backed by a separate Redis instance. In most specs, the Rails cache is actually an in-memory store. This is replaced between specs, so calls to `Rails.cache.read` and `Rails.cache.write` are safe. However, if a spec makes direct Redis calls, it should mark itself with the `:clean_gitlab_redis_cache`, `:clean_gitlab_redis_shared_state` or `:clean_gitlab_redis_queues` traits as appropriate. #### Background jobs / Sidekiq By default, Sidekiq jobs are enqueued into a jobs array and aren't processed. If a test queues Sidekiq jobs and need them to be processed, the `:sidekiq_inline` trait can be used. The `:sidekiq_might_not_need_inline` trait was added when [Sidekiq inline mode was changed to fake mode](https://gitlab.com/gitlab-org/gitlab/-/merge_requests/15479) to all the tests that needed Sidekiq to actually process jobs. Tests with this trait should be either fixed to not rely on Sidekiq processing jobs, or their `:sidekiq_might_not_need_inline` trait should be updated to `:sidekiq_inline` if the processing of background jobs is needed/expected. The usage of `perform_enqueued_jobs` is useful only for testing delayed mail deliveries, because our Sidekiq workers aren't inheriting from `ApplicationJob` / `ActiveJob::Base`. #### DNS DNS requests are stubbed universally in the test suite (as of [!22368](https://gitlab.com/gitlab-org/gitlab/-/merge_requests/22368)), as DNS can cause issues depending on the developer's local network. There are RSpec labels available in `spec/support/dns.rb` which you can apply to tests if you need to bypass the DNS stubbing, like this: ```ruby it "really connects to Prometheus", :permit_dns do ``` And if you need more specific control, the DNS blocking is implemented in `spec/support/helpers/dns_helpers.rb` and these methods can be called elsewhere. #### Rate Limiting [Rate limiting](../../security/rate_limits.md) is enabled in the test suite. Rate limits may be triggered in feature specs that use the `:js` trait. In most cases, triggering rate limiting can be avoided by marking the spec with the `:clean_gitlab_redis_rate_limiting` trait. This trait clears the rate limiting data stored in Redis cache between specs. If a single test triggers the rate limit, the `:disable_rate_limit` can be used instead. #### Stubbing File methods In the situations where you need to [stub](https://rspec.info/features/3-12/rspec-mocks/basics/allowing-messages/) methods such as `File.read`, make sure to: 1. Stub `File.read` for only the file path you are interested in. 1. Call the original implementation for other file paths. Otherwise `File.read` calls from other parts of the codebase get stubbed incorrectly. You should use the `stub_file_read`, and `expect_file_read` helper methods which does the stubbing for `File.read` correctly. ```ruby # bad, all Files will read and return nothing allow(File).to receive(:read) # good stub_file_read(my_filepath) # also OK allow(File).to receive(:read).and_call_original allow(File).to receive(:read).with(my_filepath) ``` #### File system File system data can be roughly split into "repositories", and "everything else". Repositories are stored in `tmp/tests/repositories`. This directory is emptied before a test run starts, and after the test run ends. It is not emptied between specs, so created repositories accumulate in this directory over the lifetime of the process. Deleting them is expensive, but this could lead to pollution unless carefully managed. To avoid this, [hashed storage](../../administration/repository_storage_types.md) is enabled in the test suite. This means that repositories are given a unique path that depends on their project's ID. Because the project IDs are not reset between specs, each spec gets its own repository on disk, and prevents changes from being visible between specs. If a spec manually specifies a project ID, or inspects the state of the `tmp/tests/repositories/` directory directly, then it should clean up the directory both before and after it runs. In general, these patterns should be completely avoided. Other classes of file linked to database objects, such as uploads, are generally managed in the same way. With hashed storage enabled in the specs, they are written to disk in locations determined by ID, so conflicts should not occur. Some specs disable hashed storage by passing the `:legacy_storage` trait to the `projects` factory. Specs that do this must **never** override the `path` of the project, or any of its groups. The default path includes the project ID, so it does not conflict. If two specs create a `:legacy_storage` project with the same path, they use the same repository on disk and lead to test environment pollution. Other files must be managed manually by the spec. If you run code that creates a `tmp/test-file.csv` file, for instance, the spec must ensure that the file is removed as part of cleanup. #### Persistent in-memory application state All the specs in a given `rspec` run share the same Ruby process, which means they can affect each other by modifying Ruby objects that are accessible between specs. In practice, this means global variables, and constants (which includes Ruby classes, modules, etc). Global variables should generally not be modified. If absolutely necessary, a block like this can be used to ensure the change is rolled back afterwards: ```ruby around(:each) do |example| old_value = $0 begin $0 = "new-value" example.run ensure $0 = old_value end end ``` If a spec needs to modify a constant, it should use the `stub_const` helper to ensure the change is rolled back. If you need to modify the contents of the `ENV` constant, you can use the `stub_env` helper method instead. While most Ruby **instances** are not shared between specs, **classes** and **modules** generally are. Class and module instance variables, accessors, class variables, and other stateful idioms, should be treated in the same way as global variables. Don't modify them unless you have to! In particular, prefer using expectations, or dependency injection along with stubs, to avoid the need for modifications. If you have no other choice, an `around` block like the global variables example can be used, but avoid this if at all possible. #### Elasticsearch specs > [Introduced](https://gitlab.com/gitlab-org/gitlab/-/merge_requests/61171) in GitLab 14.0. Specs that require Elasticsearch must be marked with the `:elastic` trait. This creates and deletes indices between examples to ensure a clean index, so that there is no room for polluting the tests with nonessential data. Most tests for Elasticsearch logic relate to: - Creating data in PostgreSQL and waiting for it to be indexed in Elasticsearch. - Searching for that data. - Ensuring that the test gives the expected result. There are some exceptions, such as checking for structural changes rather than individual records in an index. The `:elastic_delete_by_query` trait was added to reduce run time for pipelines by creating and deleting indices at the start and end of each context only. The [Elasticsearch DeleteByQuery API](https://www.elastic.co/guide/en/elasticsearch/reference/current/docs-delete-by-query.html) is used to delete data in all indices in between examples to ensure a clean index. Note that Elasticsearch indexing uses [`Gitlab::Redis::SharedState`](../../../ee/development/redis.md#gitlabrediscachesharedstatequeues). Therefore, the Elasticsearch traits dynamically use the `:clean_gitlab_redis_shared_state` trait. You do not need to add `:clean_gitlab_redis_shared_state` manually. Specs using Elasticsearch require that you: - Create data in PostgreSQL and then index it into Elasticsearch. - Enable Application Settings for Elasticsearch (which is disabled by default). To do so, use: ```ruby before do stub_ee_application_setting(elasticsearch_search: true, elasticsearch_indexing: true) end ``` Additionally, you can use the `ensure_elasticsearch_index!` method to overcome the asynchronous nature of Elasticsearch. It uses the [Elasticsearch Refresh API](https://www.elastic.co/guide/en/elasticsearch/reference/current/indices-refresh.html#refresh-api-desc) to make sure all operations performed on an index since the last refresh are available for search. This method is typically called after loading data into PostgreSQL to ensure the data is indexed and searchable. #### Test Snowplow events WARNING: Snowplow performs **runtime type checks** by using the [contracts gem](https://rubygems.org/gems/contracts). Because Snowplow is **by default disabled in tests and development**, it can be hard to **catch exceptions** when mocking `Gitlab::Tracking`. To catch runtime errors due to type checks you can use `expect_snowplow_event`, which checks for calls to `Gitlab::Tracking#event`. ```ruby describe '#show' do it 'tracks snowplow events' do get :show expect_snowplow_event( category: 'Experiment', action: 'start', namespace: group, project: project ) expect_snowplow_event( category: 'Experiment', action: 'sent', property: 'property', label: 'label', namespace: group, project: project ) end end ``` When you want to ensure that no event got called, you can use `expect_no_snowplow_event`. ```ruby describe '#show' do it 'does not track any snowplow events' do get :show expect_no_snowplow_event(category: described_class.name, action: 'some_action') end end ``` Even though `category` and `action` can be omitted, you should at least specify a `category` to avoid flaky tests. For example, `Users::ActivityService` may track a Snowplow event after an API request, and `expect_no_snowplow_event` will fail if that happens to run when no arguments are specified. #### Test Snowplow context against the schema The [Snowplow schema matcher](https://gitlab.com/gitlab-org/gitlab/-/merge_requests/60480) helps to reduce validation errors by testing Snowplow context against the JSON schema. The schema matcher accepts the following parameters: - `schema path` - `context` To add a schema matcher spec: 1. Add a new schema to the [Iglu repository](https://gitlab.com/gitlab-org/iglu), then copy the same schema to the `spec/fixtures/product_intelligence/` directory. 1. In the copied schema, remove the `"$schema"` key and value. We do not need it for specs and the spec fails if we keep the key, as it tries to look for the schema in the URL. 1. Use the following snippet to call the schema matcher: ```ruby match_snowplow_context_schema(schema_path: '', context: ) ``` ### Table-based / Parameterized tests This style of testing is used to exercise one piece of code with a comprehensive range of inputs. By specifying the test case once, alongside a table of inputs and the expected output for each, your tests can be made easier to read and more compact. We use the [RSpec::Parameterized](https://github.com/tomykaira/rspec-parameterized) gem. A short example, using the table syntax and checking Ruby equality for a range of inputs, might look like this: ```ruby describe "#==" do using RSpec::Parameterized::TableSyntax let(:one) { 1 } let(:two) { 2 } where(:a, :b, :result) do 1 | 1 | true 1 | 2 | false true | true | true true | false | false ref(:one) | ref(:one) | true # let variables must be referenced using `ref` ref(:one) | ref(:two) | false end with_them do it { expect(a == b).to eq(result) } it 'is isomorphic' do expect(b == a).to eq(result) end end end ``` WARNING: Only use simple values as input in the `where` block. Using procs, stateful objects, FactoryBot-created objects, and similar items can lead to [unexpected results](https://github.com/tomykaira/rspec-parameterized/issues/8). ### Prometheus tests Prometheus metrics may be preserved from one test run to another. To ensure that metrics are reset before each example, add the `:prometheus` tag to the RSpec test. ### Matchers Custom matchers should be created to clarify the intent and/or hide the complexity of RSpec expectations. They should be placed under `spec/support/matchers/`. Matchers can be placed in subfolder if they apply to a certain type of specs only (such as features or requests) but shouldn't be if they apply to multiple type of specs. #### `be_like_time` Time returned from a database can differ in precision from time objects in Ruby, so we need flexible tolerances when comparing in specs. The PostgreSQL time and timestamp types have [the resolution of 1 microsecond](https://www.postgresql.org/docs/current/datatype-datetime.html). However, the precision of Ruby `Time` can vary [depending on the OS.](https://blog.paulswartz.net/post/142749676062/ruby-time-precision-os-x-vs-linux) Consider the following snippet: ```ruby project = create(:project) expect(project.created_at).to eq(Project.find(project.id).created_at) ``` On Linux, `Time` can have the maximum precision of 9 and `project.created_at` has a value (like `2023-04-28 05:53:30.808033064`) with the same precision. However, the actual value `created_at` (like `2023-04-28 05:53:30.808033`) stored to and loaded from the database doesn't have the same precision, and the match would fail. On macOS X, the precision of `Time` matches that of the PostgreSQL timestamp type and the match could succeed. To avoid the issue, we can use `be_like_time` or `be_within` to compare that times are within one second of each other. Example: ```ruby expect(metrics.merged_at).to be_like_time(time) ``` Example for `be_within`: ```ruby expect(violation.reload.merged_at).to be_within(0.00001.seconds).of(merge_request.merged_at) ``` #### `have_gitlab_http_status` Prefer `have_gitlab_http_status` over `have_http_status` and `expect(response.status).to` because the former could also show the response body whenever the status mismatched. This would be very useful whenever some tests start breaking and we would love to know why without editing the source and rerun the tests. This is especially useful whenever it's showing 500 internal server error. Prefer named HTTP status like `:no_content` over its numeric representation `206`. See a list of [supported status codes](https://github.com/rack/rack/blob/f2d2df4016a906beec755b63b4edfcc07b58ee05/lib/rack/utils.rb#L490). Example: ```ruby expect(response).to have_gitlab_http_status(:ok) ``` #### `match_schema` and `match_response_schema` The `match_schema` matcher allows validating that the subject matches a [JSON schema](https://json-schema.org/). The item inside `expect` can be a JSON string or a JSON-compatible data structure. `match_response_schema` is a convenience matcher for using with a response object. from a [request spec](testing_levels.md#integration-tests). Examples: ```ruby # Matches against spec/fixtures/api/schemas/prometheus/additional_metrics_query_result.json expect(data).to match_schema('prometheus/additional_metrics_query_result') # Matches against ee/spec/fixtures/api/schemas/board.json expect(data).to match_schema('board', dir: 'ee') # Matches against a schema made up of Ruby data structures expect(data).to match_schema(Atlassian::Schemata.build_info) ``` #### `be_valid_json` `be_valid_json` allows validating that a string parses as JSON and gives a non-empty result. To combine it with the schema matching above, use `and`: ```ruby expect(json_string).to be_valid_json expect(json_string).to be_valid_json.and match_schema(schema) ``` #### `be_one_of(collection)` The inverse of `include`, tests that the `collection` includes the expected value: ```ruby expect(:a).to be_one_of(%i[a b c]) expect(:z).not_to be_one_of(%i[a b c]) ``` ### Testing query performance Testing query performance allows us to: - Assert that N+1 problems do not exist in a block of code. - Ensure that the number of queries in a block of code does not increase unnoticed. #### QueryRecorder `QueryRecorder` allows profiling and testing of the number of database queries performed in a given block of code. See the [`QueryRecorder`](../database/query_recorder.md) section for more details. #### GitalyClient `Gitlab::GitalyClient.get_request_count` allows tests of the number of Gitaly queries made by a given block of code: See the [`Gitaly Request Counts`](../gitaly.md#request-counts) section for more details. ### Shared contexts Shared contexts only used in one spec file can be declared inline. Any shared contexts used by more than one spec file: - Should be placed under `spec/support/shared_contexts/`. - Can be placed in subfolder if they apply to a certain type of specs only (such as features or requests) but shouldn't be if they apply to multiple type of specs. Each file should include only one context and have a descriptive name, such as `spec/support/shared_contexts/controllers/githubish_import_controller_shared_context.rb`. ### Shared examples Shared examples only used in one spec file can be declared inline. Any shared examples used by more than one spec file: - Should be placed under `spec/support/shared_examples/`. - Can be placed in subfolder if they apply to a certain type of specs only (such as features or requests) but shouldn't be if they apply to multiple type of specs. Each file should include only one context and have a descriptive name, such as `spec/support/shared_examples/controllers/githubish_import_controller_shared_example.rb`. ### Helpers Helpers are usually modules that provide some methods to hide the complexity of specific RSpec examples. You can define helpers in RSpec files if they're not intended to be shared with other specs. Otherwise, they should be placed under `spec/support/helpers/`. Helpers can be placed in a subfolder if they apply to a certain type of specs only (such as features or requests) but shouldn't be if they apply to multiple type of specs. Helpers should follow the Rails naming / namespacing convention. For instance `spec/support/helpers/cycle_analytics_helpers.rb` should define: ```ruby module Spec module Support module Helpers module CycleAnalyticsHelpers def create_commit_referencing_issue(issue, branch_name: random_git_name) project.repository.add_branch(user, branch_name, 'main') create_commit("Commit for ##{issue.iid}", issue.project, user, branch_name) end end end end end ``` Helpers should not change the RSpec configuration. For instance, the helpers module described above should not include: ```ruby RSpec.configure do |config| config.include Spec::Support::Helpers::CycleAnalyticsHelpers end ``` ### Testing Ruby constants When testing code that uses Ruby constants, focus the test on the behavior that depends on the constant, rather than testing the values of the constant. For example, the following is preferred because it tests the behavior of the class method `.categories`. ```ruby describe '.categories' do it 'gets CE unique category names' do expect(described_class.categories).to include( 'deploy_token_packages', 'user_packages', # ... 'kubernetes_agent' ) end end ``` On the other hand, testing the value of the constant itself, often only repeats the values in the code and the test, which provides little value. ```ruby describe CATEGORIES do it 'has values' do expect(CATEGORIES).to eq([ 'deploy_token_packages', 'user_packages', # ... 'kubernetes_agent' ]) end end ``` In critical cases where an error on a constant could have a catastrophic impact, testing the constant values might be useful as an added safeguard. For example, if it could bring down the entire GitLab service, cause a customer to be billed more than they should be, or [cause the universe to implode](../contributing/verify/index.md#do-not-cause-our-universe-to-implode). ### Factories GitLab uses [`factory_bot`](https://github.com/thoughtbot/factory_bot) as a test fixture replacement. - Factory definitions live in `spec/factories/`, named using the pluralization of their corresponding model (`User` factories are defined in `users.rb`). - There should be only one top-level factory definition per file. - FactoryBot methods are mixed in to all RSpec groups. This means you can (and should) call `create(...)` instead of `FactoryBot.create(...)`. - Make use of [traits](https://www.rubydoc.info/gems/factory_bot/file/GETTING_STARTED.md#traits) to clean up definitions and usages. - When defining a factory, don't define attributes that are not required for the resulting record to pass validation. - When instantiating from a factory, don't supply attributes that aren't required by the test. - Use [implicit](https://github.com/thoughtbot/factory_bot/blob/master/GETTING_STARTED.md#implicit-definition), [explicit](https://github.com/thoughtbot/factory_bot/blob/master/GETTING_STARTED.md#explicit-definition), or [inline](https://github.com/thoughtbot/factory_bot/blob/master/GETTING_STARTED.md#inline-definition) associations instead of `create` / `build` for association setup in callbacks. See [issue #262624](https://gitlab.com/gitlab-org/gitlab/-/issues/262624) for further context. When creating factories with a [`has_many`](https://github.com/thoughtbot/factory_bot/blob/master/GETTING_STARTED.md#has_many-associations) and `belongs_to` association, use the `instance` method to refer to the object being built. This prevents [creation of unnecessary records](https://gitlab.com/gitlab-org/gitlab/-/issues/378183) by using [interconnected associations](https://github.com/thoughtbot/factory_bot/blob/master/GETTING_STARTED.md#interconnected-associations). For example, if we have the following classes: ```ruby class Car < ApplicationRecord has_many :wheels, inverse_of: :car, foreign_key: :car_id end class Wheel < ApplicationRecord belongs_to :car, foreign_key: :car_id, inverse_of: :wheel, optional: false end ``` We can create the following factories: ```ruby FactoryBot.define do factory :car do transient do wheels_count { 2 } end wheels do Array.new(wheels_count) do association(:wheel, car: instance) end end end end FactoryBot.define do factory :wheel do car { association :car } end end ``` - Factories don't have to be limited to `ActiveRecord` objects. [See example](https://gitlab.com/gitlab-org/gitlab-foss/commit/0b8cefd3b2385a21cfed779bd659978c0402766d). - Factories and their traits should produce valid objects that are [verified by specs](https://gitlab.com/gitlab-org/gitlab/-/blob/master/spec/models/factories_spec.rb). - Avoid the use of [`skip_callback`](https://api.rubyonrails.org/classes/ActiveSupport/Callbacks/ClassMethods.html#method-i-skip_callback) in factories. See [issue #247865](https://gitlab.com/gitlab-org/gitlab/-/issues/247865) for details. ### Fixtures All fixtures should be placed under `spec/fixtures/`. ### Repositories Testing some functionality, such as merging a merge request, requires a Git repository with a certain state to be present in the test environment. GitLab maintains the [`gitlab-test`](https://gitlab.com/gitlab-org/gitlab-test) repository for certain common cases - you can ensure a copy of the repository is used with the `:repository` trait for project factories: ```ruby let(:project) { create(:project, :repository) } ``` Where you can, consider using the `:custom_repo` trait instead of `:repository`. This allows you to specify exactly what files appear in the `main` branch of the project's repository. For example: ```ruby let(:project) do create( :project, :custom_repo, files: { 'README.md' => 'Content here', 'foo/bar/baz.txt' => 'More content here' } ) end ``` This creates a repository containing two files, with default permissions and the specified content. ### Configuration RSpec configuration files are files that change the RSpec configuration (like `RSpec.configure do |config|` blocks). They should be placed under `spec/support/`. Each file should be related to a specific domain, such as `spec/support/capybara.rb` or `spec/support/carrierwave.rb`. If a helpers module applies only to a certain kind of specs, it should add modifiers to the `config.include` call. For instance if `spec/support/helpers/cycle_analytics_helpers.rb` applies to `:lib` and `type: :model` specs only, you would write the following: ```ruby RSpec.configure do |config| config.include Spec::Support::Helpers::CycleAnalyticsHelpers, :lib config.include Spec::Support::Helpers::CycleAnalyticsHelpers, type: :model end ``` If a configuration file only consists of `config.include`, you can add these `config.include` directly in `spec/spec_helper.rb`. For very generic helpers, consider including them in the `spec/support/rspec.rb` file which is used by the `spec/fast_spec_helper.rb` file. See [Fast unit tests](#fast-unit-tests) for more details about the `spec/fast_spec_helper.rb` file. ### Test environment logging Services for the test environment are automatically configured and started when tests are run, including Gitaly, Workhorse, Elasticsearch, and Capybara. When run in CI, or if the service needs to be installed, the test environment logs information about set-up time, producing log messages like the following: ```plaintext ==> Setting up Gitaly... Gitaly set up in 31.459649 seconds... ==> Setting up GitLab Workhorse... GitLab Workhorse set up in 29.695619 seconds... fatal: update refs/heads/diff-files-symlink-to-image: invalid : 8cfca84 From https://gitlab.com/gitlab-org/gitlab-test * [new branch] diff-files-image-to-symlink -> origin/diff-files-image-to-symlink * [new branch] diff-files-symlink-to-image -> origin/diff-files-symlink-to-image * [new branch] diff-files-symlink-to-text -> origin/diff-files-symlink-to-text * [new branch] diff-files-text-to-symlink -> origin/diff-files-text-to-symlink b80faa8..40232f7 snippet/multiple-files -> origin/snippet/multiple-files * [new branch] testing/branch-with-#-hash -> origin/testing/branch-with-#-hash ==> Setting up GitLab Elasticsearch Indexer... GitLab Elasticsearch Indexer set up in 26.514623 seconds... ``` This information is omitted when running locally and when no action needs to be performed. If you would always like to see these messages, set the following environment variable: ```shell GITLAB_TESTING_LOG_LEVEL=debug ``` --- [Return to Testing documentation](index.md)