Gotchas

The purpose of this guide is to document potential "gotchas" that contributors might encounter or should avoid during development of GitLab CE and EE.

Do not assert against the absolute value of a sequence-generated attribute

Consider the following factory:

FactoryBot.define do
  factory :label do
    sequence(:title) { |n| "label#{n}" }
  end
end

Consider the following API spec:

require 'spec_helper'

describe API::Labels do
  it 'creates a first label' do
    create(:label)

    get api("/projects/#{project.id}/labels", user)

    expect(response).to have_http_status(200)
    expect(json_response.first['name']).to eq('label1')
  end

  it 'creates a second label' do
    create(:label)

    get api("/projects/#{project.id}/labels", user)

    expect(response).to have_http_status(200)
    expect(json_response.first['name']).to eq('label1')
  end
end

When run, this spec doesn't do what we might expect:

1) API::API reproduce sequence issue creates a second label
   Failure/Error: expect(json_response.first['name']).to eq('label1')

     expected: "label1"
          got: "label2"

     (compared using ==)

This is because FactoryBot sequences are not reset for each example.

Please remember that sequence-generated values exist only to avoid having to explicitly set attributes that have a uniqueness constraint when using a factory.

Solution

If you assert against a sequence-generated attribute's value, you should set it explicitly. Also, the value you set shouldn't match the sequence pattern.

For instance, using our :label factory, writing create(:label, title: 'foo') is ok, but create(:label, title: 'label1') is not.

Following is the fixed API spec:

require 'spec_helper'

describe API::Labels do
  it 'creates a first label' do
    create(:label, title: 'foo')

    get api("/projects/#{project.id}/labels", user)

    expect(response).to have_http_status(200)
    expect(json_response.first['name']).to eq('foo')
  end

  it 'creates a second label' do
    create(:label, title: 'bar')

    get api("/projects/#{project.id}/labels", user)

    expect(response).to have_http_status(200)
    expect(json_response.first['name']).to eq('bar')
  end
end

Avoid using expect_any_instance_of or allow_any_instance_of in RSpec

Why

  • Because it is not isolated therefore it might be broken at times.

  • Because it doesn't work whenever the method we want to stub was defined in a prepended module, which is very likely the case in EE. We could see error like this:

    1.1) Failure/Error: expect_any_instance_of(ApplicationSetting).to receive_messages(messages)
         Using `any_instance` to stub a method (elasticsearch_indexing) that has been defined on a prepended module (EE::ApplicationSetting) is not supported.

Alternative: expect_next_instance_of or allow_next_instance_of

Instead of writing:

# Don't do this:
expect_any_instance_of(Project).to receive(:add_import_job)

# Don't do this:
allow_any_instance_of(Project).to receive(:add_import_job)

We could write:

# Do this:
expect_next_instance_of(Project) do |project|
  expect(project).to receive(:add_import_job)
end

# Do this:
allow_next_instance_of(Project) do |project|
  allow(project).to receive(:add_import_job)
end

If we also want to initialize the instance with some particular arguments, we could also pass it like:

# Do this:
expect_next_instance_of(MergeRequests::RefreshService, project, user) do |refresh_service|
  expect(refresh_service).to receive(:execute).with(oldrev, newrev, ref)
end

This would expect the following:

# Above expects:
refresh_service = MergeRequests::RefreshService.new(project, user)
refresh_service.execute(oldrev, newrev, ref)

Do not rescue Exception

See "Why is it bad style to rescue Exception => e in Ruby?".

Note: This rule is enforced automatically by Rubocop.

Do not use inline JavaScript in views

Using the inline :javascript Haml filters comes with a performance overhead. Using inline JavaScript is not a good way to structure your code and should be avoided.

Note: We've removed these two filters in an initializer.

Further reading

Auto loading

Rails auto-loading on development differs from the load policy in the production environment. In development mode, config.eager_load is set to false, which means classes are loaded as needed. With the classic Rails autoloader, it is known that this can lead to Rails resolving the wrong class if the class name is ambiguous. This can be fixed by specifying the complete namespace to the class.

Error prone example

# app/controllers/application_controller.rb
class ApplicationController < ActionController::Base
  ...
end

# app/controllers/projects/application_controller.rb
class Projects::ApplicationController < ApplicationController
  ...
  private

  def project
    ...
  end
end

# app/controllers/projects/submodule/some_controller.rb
module Projects
  module Submodule
    class SomeController < ApplicationController
      def index
        @some_id = project.id
      end
    end
  end
end

In this case, if for any reason the top level ApplicationController is loaded but Projects::ApplicationController is not, ApplicationController would be resolved to ::ApplicationController and then the project method will be undefined and we will get an error.

Solution

# app/controllers/projects/submodule/some_controller.rb
module Projects
  module Submodule
    class SomeController < Projects::ApplicationController
      def index
        @some_id = project.id
      end
    end
  end
end

By specifying Projects::, we tell Rails exactly what class we are referring to and we would avoid the issue.

NOTE: Note: This problem will disappear as soon as we upgrade to Rails 6 and use the Zeitwerk autoloader.

Further reading