Beginner’s guide to writing end-to-end tests

This tutorial walks you through the creation of end-to-end (e2e) tests for GitLab Community Edition and GitLab Enterprise Edition.

By the end of this tutorial, you can:

  • Determine whether an end-to-end test is needed.
  • Understand the directory structure within qa/.
  • Write a basic end-to-end test that validates login features.
  • Develop any missing page object libraries.

Before you write a test

Before you write tests, your GitLab Development Kit (GDK) must be configured to run the specs. The end-to-end tests:

  • Are contained within the qa/ directory.
  • Should be independent and idempotent.
  • Create resources (such as project, issue, user) on an ad-hoc basis.
  • Test the UI and API interfaces, and use the API to efficiently set up the UI tests.

Determine if end-to-end tests are needed

Check the code coverage of a specific feature before writing end-to-end tests for the GitLab project. Does sufficient test coverage exist at the unit, feature, or integration levels? If you answered yes, then you don’t need an end-to-end test.

For information about the distribution of tests per level in GitLab, see Testing Levels.

  • See the How to test at the correct level? section of the Testing levels document.
  • Review how often the feature changes. Stable features that don’t change very often might not be worth covering with end-to-end tests if they are already covered in lower level tests.
  • Finally, discuss the proposed test with the developers involved in implementing the feature and the lower-level tests.
caution
Check the GitLab coverage project for previously written tests for this feature. To analyze code coverage, you must understand which application files implement specific features.

In this tutorial we’re writing a login end-to-end test, even though it has been sufficiently covered by lower-level testing, because it’s the first step for most end-to-end flows, and is easiest to understand.

Identify the DevOps stage

The GitLab QA end-to-end tests are organized by the different stages in the DevOps lifecycle. Determine where the test should be placed by stage, determine which feature the test belongs to, and then place it in a subdirectory under the stage.

DevOps lifecycle by stages

If the test is Enterprise Edition only, the test is created in the features/ee directory, but follow the same DevOps lifecycle format.

Create a skeleton test

In the first part of this tutorial we are testing login, which is owned by the Manage stage. Inside qa/specs/features/browser_ui/1_manage/login, create a file basic_login_spec.rb.

The outer context block

See the RSpec.describe outer block

caution
The outer context was deprecated in 13.2 in adherence to RSpec 4.0 specifications. Use RSpec.describe instead.

The outer RSpec.describe block

Specs have an outer RSpec.describe indicating the DevOps stage.

# frozen_string_literal: true

module QA
  RSpec.describe 'Manage' do

  end
end

The describe block

Inside of our outer RSpec.describe, describe the feature to test. In this case, Login.

# frozen_string_literal: true

module QA
  RSpec.describe 'Manage' do
    describe 'Login' do

    end
  end
end

The product_group metadata

Assign product_group metadata and specify what product group this test belongs to. In this case, authentication_and_authorization.

# frozen_string_literal: true

module QA
  RSpec.describe 'Manage' do
    describe 'Login', product_group: :authentication do

    end
  end
end

The it blocks (examples)

Every test suite contains at least one it block (example). A good way to start writing end-to-end tests is to write test case descriptions as it blocks:

module QA
  RSpec.describe 'Manage' do
    describe 'Login', product_group: :authentication do
      it 'can login' do

      end

      it 'can logout' do

      end
    end
  end
end

Write the test

An important question is “What do we test?” and even more importantly, “How do we test?”

Begin by logging in.

# frozen_string_literal: true

module QA
  RSpec.describe 'Manage' do
    describe 'Login', product_group: :authentication do
      it 'can login' do
        Flow::Login.sign_in

      end

      it 'can logout' do
        Flow::Login.sign_in

      end
    end
  end
end
note
For more information on Flows, see Flows

After running the spec, our test should login and end; then we should answer the question “What do we test?”

# frozen_string_literal: true

module QA
  RSpec.describe 'Manage' do
    describe 'Login', product_group: :authentication do
      it 'can login' do
        Flow::Login.sign_in

        Page::Main::Menu.perform do |menu|
          expect(menu).to be_signed_in
        end
      end

      it 'can logout' do
        Flow::Login.sign_in

        Page::Main::Menu.perform do |menu|
          menu.sign_out

          expect(menu).not_to be_signed_in
        end
      end
    end
  end
end

What do we test?

  1. Can we sign in?
  2. Can we sign out?

How do we test?

  1. Check if the user avatar appears in the left sidebar.
  2. Check if the user avatar does not appear in the left sidebar.

Behind the scenes, be_signed_in is a predicate matcher that implements checking the user avatar.

De-duplicate your code

Refactor your test to use a before block for test setup, since it’s duplicating a call to sign_in.

# frozen_string_literal: true

module QA
  RSpec.describe 'Manage' do
    describe 'Login', product_group: :authentication do
      before do
        Flow::Login.sign_in
      end

      it 'can login' do
        Page::Main::Menu.perform do |menu|
          expect(menu).to be_signed_in
        end
      end

      it 'can logout' do
        Page::Main::Menu.perform do |menu|
          menu.sign_out

          expect(menu).not_to be_signed_in
        end
      end
    end
  end
end

The before block is essentially a before(:each) and is run before each example, ensuring we now sign in at the beginning of each test.

Test setup using resources and page objects

Next, let’s test something other than Login. Let’s test Issues, which are owned by the Plan stage and the Project Management Group, so create a file in qa/specs/features/browser_ui/2_plan/issue called issues_spec.rb.

# frozen_string_literal: true

module QA
  RSpec.describe 'Plan' do
    describe 'Issues', product_group: :project_management do
      let(:issue) { create(:issue) }

      before do
        Flow::Login.sign_in
        issue.visit!
      end

      it 'can close an issue' do
        Page::Project::Issue::Show.perform do |show|
          show.click_close_issue_button

          expect(show).to be_closed
        end
      end
    end
  end
end

Note the following important points:

  • At the start of our example, we are at the page/issue/show.rb page.
  • Our test fabricates only what it needs, when it needs it.
  • The issue is fabricated through the API to save time.
  • GitLab prefers let() over instance variables. See best practices.
  • be_closed is not implemented in page/project/issue/show.rb yet, but is implemented in the next step.

The issue is fabricated as a Resource, which is a GitLab entity you can create through the UI or API. Other examples include:

Write the page object

A Page Object is a class in our suite that represents a page within GitLab. The Login page would be one example. Since our page object for the Issue Show page already exists, add the closed? method.

module Page::Project::Issue
  class Show
    view 'app/views/projects/issues/show.html.haml' do
      element 'closed-status-box'
    end

    def closed?
      has_element?('closed-status-box')
    end
  end
end

Next, define the element closed-status-box within your view, so your Page Object can see it.

-#=> app/views/projects/issues/show.html.haml
.issuable-status-box.status-box.status-box-issue-closed{ ..., data: { testid: 'closed-status-box' } }

Run the spec

Before running the spec, make sure that:

  • GDK is installed.
  • GDK is running locally on port 3000.
  • No additional RSpec metadata tags have been applied.
  • Your working directory is qa/ within your GDK GitLab installation.
  • Your GitLab instance-level settings are default. If you changed the default settings, some tests might have unexpected results.
  • Because the GDK requires a password change on first login, you must include the GDK password for root user

To run the spec, run the following command:

GITLAB_PASSWORD=<GDK root password> bundle exec rspec <test_file>

Where <test_file> is:

  • qa/specs/features/browser_ui/1_manage/login/log_in_spec.rb when running the Login example.
  • qa/specs/features/browser_ui/2_plan/issue/create_issue_spec.rb when running the Issue example.

Additional information on test execution and possible options are described in “QA framework README”

Preparing test for code review

Before submitting the test for code review, there are a few housecleaning tasks to do:

  1. Ensure that the test name follows the recommended naming convention.
  2. Ensure that the spec is linked to a test case.
  3. Ensure that the spec has the correct product_group metadata. See Product sections, stages, groups, and categories for the comprehensive list of groups.
  4. Ensure that the relevant RSpec metadata are added to the spec.
  5. Ensure the page object elements are named according to the recommended naming convention.

End-to-end test merge request template

When submitting a new end-to-end test, use the “New End to End Test” merge request description template for additional steps that are required prior a successful merge.