gitlab-org--gitlab-foss/spec/models/namespace_spec.rb
Thong Kuah 4ec16912b8 Autocorrect with RSpec/ExampleWording cop
- rewords examples starting with 'should'
- rewords examples starting with 'it'

Note: I had to manually fixup "onlies" to "only"
2019-04-05 08:43:27 +00:00

804 lines
30 KiB
Ruby

# frozen_string_literal: true
require 'spec_helper'
describe Namespace do
include ProjectForksHelper
include GitHelpers
let!(:namespace) { create(:namespace) }
let(:gitlab_shell) { Gitlab::Shell.new }
let(:repository_storage) { 'default' }
describe 'associations' do
it { is_expected.to have_many :projects }
it { is_expected.to have_many :project_statistics }
it { is_expected.to belong_to :parent }
it { is_expected.to have_many :children }
end
describe 'validations' do
it { is_expected.to validate_presence_of(:name) }
it { is_expected.to validate_length_of(:name).is_at_most(255) }
it { is_expected.to validate_length_of(:description).is_at_most(255) }
it { is_expected.to validate_presence_of(:path) }
it { is_expected.to validate_length_of(:path).is_at_most(255) }
it { is_expected.to validate_presence_of(:owner) }
it 'does not allow too deep nesting' do
ancestors = (1..21).to_a
nested = build(:namespace, parent: namespace)
allow(nested).to receive(:ancestors).and_return(ancestors)
expect(nested).not_to be_valid
expect(nested.errors[:parent_id].first).to eq('has too deep level of nesting')
end
describe 'reserved path validation' do
context 'nested group' do
let(:group) { build(:group, :nested, path: 'tree') }
it { expect(group).not_to be_valid }
it 'rejects nested paths' do
parent = create(:group, :nested, path: 'environments')
namespace = build(:group, path: 'folders', parent: parent)
expect(namespace).not_to be_valid
end
end
context "is case insensitive" do
let(:group) { build(:group, path: "Groups") }
it { expect(group).not_to be_valid }
end
context 'top-level group' do
let(:group) { build(:group, path: 'tree') }
it { expect(group).to be_valid }
end
end
end
describe "Respond to" do
it { is_expected.to respond_to(:human_name) }
it { is_expected.to respond_to(:to_param) }
it { is_expected.to respond_to(:has_parent?) }
end
describe 'inclusions' do
it { is_expected.to include_module(Gitlab::VisibilityLevel) }
end
describe '#visibility_level_field' do
it { expect(namespace.visibility_level_field).to eq(:visibility_level) }
end
describe '#to_param' do
it { expect(namespace.to_param).to eq(namespace.full_path) }
end
describe '#human_name' do
it { expect(namespace.human_name).to eq(namespace.owner_name) }
end
describe '#first_project_with_container_registry_tags' do
let(:container_repository) { create(:container_repository) }
let!(:project) { create(:project, namespace: namespace, container_repositories: [container_repository]) }
before do
stub_container_registry_config(enabled: true)
end
it 'returns the project' do
stub_container_registry_tags(repository: :any, tags: ['tag'])
expect(namespace.first_project_with_container_registry_tags).to eq(project)
end
it 'returns no project' do
stub_container_registry_tags(repository: :any, tags: nil)
expect(namespace.first_project_with_container_registry_tags).to be_nil
end
end
describe '.search' do
let(:namespace) { create(:namespace) }
it 'returns namespaces with a matching name' do
expect(described_class.search(namespace.name)).to eq([namespace])
end
it 'returns namespaces with a partially matching name' do
expect(described_class.search(namespace.name[0..2])).to eq([namespace])
end
it 'returns namespaces with a matching name regardless of the casing' do
expect(described_class.search(namespace.name.upcase)).to eq([namespace])
end
it 'returns namespaces with a matching path' do
expect(described_class.search(namespace.path)).to eq([namespace])
end
it 'returns namespaces with a partially matching path' do
expect(described_class.search(namespace.path[0..2])).to eq([namespace])
end
it 'returns namespaces with a matching path regardless of the casing' do
expect(described_class.search(namespace.path.upcase)).to eq([namespace])
end
end
describe '.with_statistics' do
let(:namespace) { create :namespace }
let(:project1) do
create(:project,
namespace: namespace,
statistics: build(:project_statistics,
storage_size: 606,
repository_size: 101,
lfs_objects_size: 202,
build_artifacts_size: 303))
end
let(:project2) do
create(:project,
namespace: namespace,
statistics: build(:project_statistics,
storage_size: 60,
repository_size: 10,
lfs_objects_size: 20,
build_artifacts_size: 30))
end
it "sums all project storage counters in the namespace" do
project1
project2
statistics = described_class.with_statistics.find(namespace.id)
expect(statistics.storage_size).to eq 666
expect(statistics.repository_size).to eq 111
expect(statistics.lfs_objects_size).to eq 222
expect(statistics.build_artifacts_size).to eq 333
end
it "correctly handles namespaces without projects" do
statistics = described_class.with_statistics.find(namespace.id)
expect(statistics.storage_size).to eq 0
expect(statistics.repository_size).to eq 0
expect(statistics.lfs_objects_size).to eq 0
expect(statistics.build_artifacts_size).to eq 0
end
end
describe '#ancestors_upto', :nested_groups do
let(:parent) { create(:group) }
let(:child) { create(:group, parent: parent) }
let(:child2) { create(:group, parent: child) }
it 'returns all ancestors when no namespace is given' do
expect(child2.ancestors_upto).to contain_exactly(child, parent)
end
it 'includes ancestors upto but excluding the given ancestor' do
expect(child2.ancestors_upto(parent)).to contain_exactly(child)
end
end
describe '#move_dir', :request_store do
shared_examples "namespace restrictions" do
context "when any project has container images" do
let(:container_repository) { create(:container_repository) }
before do
stub_container_registry_config(enabled: true)
stub_container_registry_tags(repository: :any, tags: ['tag'])
create(:project, namespace: namespace, container_repositories: [container_repository])
allow(namespace).to receive(:path_was).and_return(namespace.path)
allow(namespace).to receive(:path).and_return('new_path')
end
it 'raises an error about not movable project' do
expect { namespace.move_dir }.to raise_error(Gitlab::UpdatePathError,
/Namespace .* cannot be moved/)
end
end
end
context 'legacy storage' do
let(:namespace) { create(:namespace) }
let!(:project) { create(:project_empty_repo, :legacy_storage, namespace: namespace) }
it_behaves_like 'namespace restrictions'
it "raises error when directory exists" do
expect { namespace.move_dir }.to raise_error("namespace directory cannot be moved")
end
it "moves dir if path changed" do
namespace.update(path: namespace.full_path + '_new')
expect(gitlab_shell.exists?(project.repository_storage, "#{namespace.path}/#{project.path}.git")).to be_truthy
end
context 'when #write_projects_repository_config raises an error' do
context 'in test environment' do
it 'raises an exception' do
expect(namespace).to receive(:write_projects_repository_config).and_raise('foo')
expect do
namespace.update(path: namespace.full_path + '_new')
end.to raise_error('foo')
end
end
context 'in production environment' do
it 'does not cancel later callbacks' do
expect(namespace).to receive(:write_projects_repository_config).and_raise('foo')
expect(namespace).to receive(:move_dir).and_wrap_original do |m, *args|
move_dir_result = m.call(*args)
expect(move_dir_result).to be_truthy # Must be truthy, or else later callbacks would be canceled
move_dir_result
end
expect(Gitlab::Sentry).to receive(:should_raise_for_dev?).and_return(false) # like prod
namespace.update(path: namespace.full_path + '_new')
end
end
end
context 'with subgroups', :nested_groups do
let(:parent) { create(:group, name: 'parent', path: 'parent') }
let(:new_parent) { create(:group, name: 'new_parent', path: 'new_parent') }
let(:child) { create(:group, name: 'child', path: 'child', parent: parent) }
let!(:project) { create(:project_empty_repo, :legacy_storage, path: 'the-project', namespace: child, skip_disk_validation: true) }
let(:uploads_dir) { FileUploader.root }
let(:pages_dir) { File.join(TestEnv.pages_path) }
def expect_project_directories_at(namespace_path)
expected_repository_path = File.join(TestEnv.repos_path, namespace_path, 'the-project.git')
expected_upload_path = File.join(uploads_dir, namespace_path, 'the-project')
expected_pages_path = File.join(pages_dir, namespace_path, 'the-project')
expect(File.directory?(expected_repository_path)).to be_truthy
expect(File.directory?(expected_upload_path)).to be_truthy
expect(File.directory?(expected_pages_path)).to be_truthy
end
before do
FileUtils.mkdir_p(File.join(TestEnv.repos_path, "#{project.full_path}.git"))
FileUtils.mkdir_p(File.join(uploads_dir, project.full_path))
FileUtils.mkdir_p(File.join(pages_dir, project.full_path))
end
context 'renaming child' do
it 'correctly moves the repository, uploads and pages' do
child.update!(path: 'renamed')
expect_project_directories_at('parent/renamed')
end
end
context 'renaming parent' do
it 'correctly moves the repository, uploads and pages' do
parent.update!(path: 'renamed')
expect_project_directories_at('renamed/child')
end
end
context 'moving from one parent to another' do
it 'correctly moves the repository, uploads and pages' do
child.update!(parent: new_parent)
expect_project_directories_at('new_parent/child')
end
end
context 'moving from having a parent to root' do
it 'correctly moves the repository, uploads and pages' do
child.update!(parent: nil)
expect_project_directories_at('child')
end
end
context 'moving from root to having a parent' do
it 'correctly moves the repository, uploads and pages' do
parent.update!(parent: new_parent)
expect_project_directories_at('new_parent/parent/child')
end
end
end
end
context 'hashed storage' do
let(:namespace) { create(:namespace) }
let!(:project) { create(:project_empty_repo, namespace: namespace) }
it_behaves_like 'namespace restrictions'
it "repository directory remains unchanged if path changed" do
before_disk_path = project.disk_path
namespace.update(path: namespace.full_path + '_new')
expect(before_disk_path).to eq(project.disk_path)
expect(gitlab_shell.exists?(project.repository_storage, "#{project.disk_path}.git")).to be_truthy
end
end
context 'for each project inside the namespace' do
let!(:parent) { create(:group, name: 'mygroup', path: 'mygroup') }
let!(:subgroup) { create(:group, name: 'mysubgroup', path: 'mysubgroup', parent: parent) }
let!(:project_in_parent_group) { create(:project, :legacy_storage, :repository, namespace: parent, name: 'foo1') }
let!(:hashed_project_in_subgroup) { create(:project, :repository, namespace: subgroup, name: 'foo2') }
let!(:legacy_project_in_subgroup) { create(:project, :legacy_storage, :repository, namespace: subgroup, name: 'foo3') }
it 'updates project full path in .git/config' do
parent.update(path: 'mygroup_new')
expect(project_rugged(project_in_parent_group).config['gitlab.fullpath']).to eq "mygroup_new/#{project_in_parent_group.path}"
expect(project_rugged(hashed_project_in_subgroup).config['gitlab.fullpath']).to eq "mygroup_new/mysubgroup/#{hashed_project_in_subgroup.path}"
expect(project_rugged(legacy_project_in_subgroup).config['gitlab.fullpath']).to eq "mygroup_new/mysubgroup/#{legacy_project_in_subgroup.path}"
end
it 'updates the project storage location' do
repository_project_in_parent_group = create(:project_repository, project: project_in_parent_group)
repository_hashed_project_in_subgroup = create(:project_repository, project: hashed_project_in_subgroup)
repository_legacy_project_in_subgroup = create(:project_repository, project: legacy_project_in_subgroup)
parent.update(path: 'mygroup_moved')
expect(repository_project_in_parent_group.reload.disk_path).to eq "mygroup_moved/#{project_in_parent_group.path}"
expect(repository_hashed_project_in_subgroup.reload.disk_path).to eq hashed_project_in_subgroup.disk_path
expect(repository_legacy_project_in_subgroup.reload.disk_path).to eq "mygroup_moved/mysubgroup/#{legacy_project_in_subgroup.path}"
end
def project_rugged(project)
# Routes are loaded when creating the projects, so we need to manually
# reload them for the below code to be aware of the above UPDATE.
project.route.reload
rugged_repo(project.repository)
end
end
end
describe '#rm_dir', 'callback' do
let(:repository_storage_path) do
Gitlab::GitalyClient::StorageSettings.allow_disk_access do
Gitlab.config.repositories.storages.default.legacy_disk_path
end
end
let(:path_in_dir) { File.join(repository_storage_path, namespace.full_path) }
let(:deleted_path) { namespace.full_path.gsub(namespace.path, "#{namespace.full_path}+#{namespace.id}+deleted") }
let(:deleted_path_in_dir) { File.join(repository_storage_path, deleted_path) }
context 'legacy storage' do
let!(:project) { create(:project_empty_repo, :legacy_storage, namespace: namespace) }
it 'renames its dirs when deleted' do
allow(GitlabShellWorker).to receive(:perform_in)
namespace.destroy
expect(File.exist?(deleted_path_in_dir)).to be(true)
end
it 'schedules the namespace for deletion' do
expect(GitlabShellWorker).to receive(:perform_in).with(5.minutes, :rm_namespace, repository_storage, deleted_path)
namespace.destroy
end
context 'in sub-groups' do
let(:parent) { create(:group, path: 'parent') }
let(:child) { create(:group, parent: parent, path: 'child') }
let!(:project) { create(:project_empty_repo, :legacy_storage, namespace: child) }
let(:path_in_dir) { File.join(repository_storage_path, 'parent', 'child') }
let(:deleted_path) { File.join('parent', "child+#{child.id}+deleted") }
let(:deleted_path_in_dir) { File.join(repository_storage_path, deleted_path) }
it 'renames its dirs when deleted' do
allow(GitlabShellWorker).to receive(:perform_in)
child.destroy
expect(File.exist?(deleted_path_in_dir)).to be(true)
end
it 'schedules the namespace for deletion' do
expect(GitlabShellWorker).to receive(:perform_in).with(5.minutes, :rm_namespace, repository_storage, deleted_path)
child.destroy
end
end
end
context 'hashed storage' do
let!(:project) { create(:project_empty_repo, namespace: namespace) }
it 'has no repositories base directories to remove' do
allow(GitlabShellWorker).to receive(:perform_in)
expect(File.exist?(path_in_dir)).to be(false)
namespace.destroy
expect(File.exist?(deleted_path_in_dir)).to be(false)
end
end
end
describe '.find_by_path_or_name' do
before do
@namespace = create(:namespace, name: 'WoW', path: 'woW')
end
it { expect(described_class.find_by_path_or_name('wow')).to eq(@namespace) }
it { expect(described_class.find_by_path_or_name('WOW')).to eq(@namespace) }
it { expect(described_class.find_by_path_or_name('unknown')).to eq(nil) }
end
describe ".clean_path" do
let!(:user) { create(:user, username: "johngitlab-etc") }
let!(:namespace) { create(:namespace, path: "JohnGitLab-etc1") }
it "cleans the path and makes sure it's available" do
expect(described_class.clean_path("-john+gitlab-ETC%.git@gmail.com")).to eq("johngitlab-ETC2")
expect(described_class.clean_path("--%+--valid_*&%name=.git.%.atom.atom.@email.com")).to eq("valid_name")
end
end
describe '#self_and_hierarchy', :nested_groups do
let!(:group) { create(:group, path: 'git_lab') }
let!(:nested_group) { create(:group, parent: group) }
let!(:deep_nested_group) { create(:group, parent: nested_group) }
let!(:very_deep_nested_group) { create(:group, parent: deep_nested_group) }
let!(:another_group) { create(:group, path: 'gitllab') }
let!(:another_group_nested) { create(:group, path: 'foo', parent: another_group) }
it 'returns the correct tree' do
expect(group.self_and_hierarchy).to contain_exactly(group, nested_group, deep_nested_group, very_deep_nested_group)
expect(nested_group.self_and_hierarchy).to contain_exactly(group, nested_group, deep_nested_group, very_deep_nested_group)
expect(very_deep_nested_group.self_and_hierarchy).to contain_exactly(group, nested_group, deep_nested_group, very_deep_nested_group)
end
end
describe '#ancestors', :nested_groups do
let(:group) { create(:group) }
let(:nested_group) { create(:group, parent: group) }
let(:deep_nested_group) { create(:group, parent: nested_group) }
let(:very_deep_nested_group) { create(:group, parent: deep_nested_group) }
it 'returns the correct ancestors' do
expect(very_deep_nested_group.ancestors).to include(group, nested_group, deep_nested_group)
expect(deep_nested_group.ancestors).to include(group, nested_group)
expect(nested_group.ancestors).to include(group)
expect(group.ancestors).to eq([])
end
end
describe '#self_and_ancestors', :nested_groups do
let(:group) { create(:group) }
let(:nested_group) { create(:group, parent: group) }
let(:deep_nested_group) { create(:group, parent: nested_group) }
let(:very_deep_nested_group) { create(:group, parent: deep_nested_group) }
it 'returns the correct ancestors' do
expect(very_deep_nested_group.self_and_ancestors).to contain_exactly(group, nested_group, deep_nested_group, very_deep_nested_group)
expect(deep_nested_group.self_and_ancestors).to contain_exactly(group, nested_group, deep_nested_group)
expect(nested_group.self_and_ancestors).to contain_exactly(group, nested_group)
expect(group.self_and_ancestors).to contain_exactly(group)
end
end
describe '#descendants', :nested_groups do
let!(:group) { create(:group, path: 'git_lab') }
let!(:nested_group) { create(:group, parent: group) }
let!(:deep_nested_group) { create(:group, parent: nested_group) }
let!(:very_deep_nested_group) { create(:group, parent: deep_nested_group) }
let!(:another_group) { create(:group, path: 'gitllab') }
let!(:another_group_nested) { create(:group, path: 'foo', parent: another_group) }
it 'returns the correct descendants' do
expect(very_deep_nested_group.descendants.to_a).to eq([])
expect(deep_nested_group.descendants.to_a).to include(very_deep_nested_group)
expect(nested_group.descendants.to_a).to include(deep_nested_group, very_deep_nested_group)
expect(group.descendants.to_a).to include(nested_group, deep_nested_group, very_deep_nested_group)
end
end
describe '#self_and_descendants', :nested_groups do
let!(:group) { create(:group, path: 'git_lab') }
let!(:nested_group) { create(:group, parent: group) }
let!(:deep_nested_group) { create(:group, parent: nested_group) }
let!(:very_deep_nested_group) { create(:group, parent: deep_nested_group) }
let!(:another_group) { create(:group, path: 'gitllab') }
let!(:another_group_nested) { create(:group, path: 'foo', parent: another_group) }
it 'returns the correct descendants' do
expect(very_deep_nested_group.self_and_descendants).to contain_exactly(very_deep_nested_group)
expect(deep_nested_group.self_and_descendants).to contain_exactly(deep_nested_group, very_deep_nested_group)
expect(nested_group.self_and_descendants).to contain_exactly(nested_group, deep_nested_group, very_deep_nested_group)
expect(group.self_and_descendants).to contain_exactly(group, nested_group, deep_nested_group, very_deep_nested_group)
end
end
describe '#users_with_descendants', :nested_groups do
let(:user_a) { create(:user) }
let(:user_b) { create(:user) }
let(:group) { create(:group) }
let(:nested_group) { create(:group, parent: group) }
let(:deep_nested_group) { create(:group, parent: nested_group) }
it 'returns member users on every nest level without duplication' do
group.add_developer(user_a)
nested_group.add_developer(user_b)
deep_nested_group.add_maintainer(user_a)
expect(group.users_with_descendants).to contain_exactly(user_a, user_b)
expect(nested_group.users_with_descendants).to contain_exactly(user_a, user_b)
expect(deep_nested_group.users_with_descendants).to contain_exactly(user_a)
end
end
describe '#user_ids_for_project_authorizations' do
it 'returns the user IDs for which to refresh authorizations' do
expect(namespace.user_ids_for_project_authorizations)
.to eq([namespace.owner_id])
end
end
describe '#all_projects' do
let(:group) { create(:group) }
let(:child) { create(:group, parent: group) }
let!(:project1) { create(:project_empty_repo, namespace: group) }
let!(:project2) { create(:project_empty_repo, namespace: child) }
it { expect(group.all_projects.to_a).to match_array([project2, project1]) }
it { expect(child.all_projects.to_a).to match_array([project2]) }
end
describe '#all_pipelines' do
let(:group) { create(:group) }
let(:child) { create(:group, parent: group) }
let!(:project1) { create(:project_empty_repo, namespace: group) }
let!(:project2) { create(:project_empty_repo, namespace: child) }
let!(:pipeline1) { create(:ci_empty_pipeline, project: project1) }
let!(:pipeline2) { create(:ci_empty_pipeline, project: project2) }
it { expect(group.all_pipelines.to_a).to match_array([pipeline1, pipeline2]) }
end
describe '#share_with_group_lock with subgroups', :nested_groups do
context 'when creating a subgroup' do
let(:subgroup) { create(:group, parent: root_group )}
context 'under a parent with "Share with group lock" enabled' do
let(:root_group) { create(:group, share_with_group_lock: true) }
it 'enables "Share with group lock" on the subgroup' do
expect(subgroup.share_with_group_lock).to be_truthy
end
end
context 'under a parent with "Share with group lock" disabled' do
let(:root_group) { create(:group) }
it 'does not enable "Share with group lock" on the subgroup' do
expect(subgroup.share_with_group_lock).to be_falsey
end
end
end
context 'when enabling the parent group "Share with group lock"' do
let(:root_group) { create(:group) }
let!(:subgroup) { create(:group, parent: root_group )}
it 'the subgroup "Share with group lock" becomes enabled' do
root_group.update!(share_with_group_lock: true)
expect(subgroup.reload.share_with_group_lock).to be_truthy
end
end
context 'when disabling the parent group "Share with group lock" (which was already enabled)' do
let(:root_group) { create(:group, share_with_group_lock: true) }
context 'and the subgroup "Share with group lock" is enabled' do
let(:subgroup) { create(:group, parent: root_group, share_with_group_lock: true )}
it 'the subgroup "Share with group lock" does not change' do
root_group.update!(share_with_group_lock: false)
expect(subgroup.reload.share_with_group_lock).to be_truthy
end
end
context 'but the subgroup "Share with group lock" is disabled' do
let(:subgroup) { create(:group, parent: root_group )}
it 'the subgroup "Share with group lock" does not change' do
root_group.update!(share_with_group_lock: false)
expect(subgroup.reload.share_with_group_lock?).to be_falsey
end
end
end
context 'when a group is transferred into a root group' do
context 'when the root group "Share with group lock" is enabled' do
let(:root_group) { create(:group, share_with_group_lock: true) }
context 'when the subgroup "Share with group lock" is enabled' do
let(:subgroup) { create(:group, share_with_group_lock: true )}
it 'the subgroup "Share with group lock" does not change' do
subgroup.parent = root_group
subgroup.save!
expect(subgroup.share_with_group_lock).to be_truthy
end
end
context 'when the subgroup "Share with group lock" is disabled' do
let(:subgroup) { create(:group)}
it 'the subgroup "Share with group lock" becomes enabled' do
subgroup.parent = root_group
subgroup.save!
expect(subgroup.share_with_group_lock).to be_truthy
end
end
end
context 'when the root group "Share with group lock" is disabled' do
let(:root_group) { create(:group) }
context 'when the subgroup "Share with group lock" is enabled' do
let(:subgroup) { create(:group, share_with_group_lock: true )}
it 'the subgroup "Share with group lock" does not change' do
subgroup.parent = root_group
subgroup.save!
expect(subgroup.share_with_group_lock).to be_truthy
end
end
context 'when the subgroup "Share with group lock" is disabled' do
let(:subgroup) { create(:group)}
it 'the subgroup "Share with group lock" does not change' do
subgroup.parent = root_group
subgroup.save!
expect(subgroup.share_with_group_lock).to be_falsey
end
end
end
end
end
describe '#find_fork_of?' do
let(:project) { create(:project, :public) }
let!(:forked_project) { fork_project(project, namespace.owner, namespace: namespace) }
before do
# Reset the fork network relation
project.reload
end
it 'knows if there is a direct fork in the namespace' do
expect(namespace.find_fork_of(project)).to eq(forked_project)
end
it 'knows when there is as fork-of-fork in the namespace' do
other_namespace = create(:namespace)
other_fork = fork_project(forked_project, other_namespace.owner, namespace: other_namespace)
expect(other_namespace.find_fork_of(project)).to eq(other_fork)
end
context 'with request store enabled', :request_store do
it 'only queries once' do
expect(project.fork_network).to receive(:find_forks_in).once.and_call_original
2.times { namespace.find_fork_of(project) }
end
end
end
describe '#root_ancestor' do
it 'returns the top most ancestor', :nested_groups do
root_group = create(:group)
nested_group = create(:group, parent: root_group)
deep_nested_group = create(:group, parent: nested_group)
very_deep_nested_group = create(:group, parent: deep_nested_group)
expect(root_group.root_ancestor).to eq(root_group)
expect(nested_group.root_ancestor).to eq(root_group)
expect(deep_nested_group.root_ancestor).to eq(root_group)
expect(very_deep_nested_group.root_ancestor).to eq(root_group)
end
end
describe '#full_path_was' do
context 'when the group has no parent' do
it 'returns the path was' do
group = create(:group, parent: nil)
expect(group.full_path_was).to eq(group.path_was)
end
end
context 'when a parent is assigned to a group with no previous parent' do
it 'returns the path was' do
group = create(:group, parent: nil)
parent = create(:group)
group.parent = parent
expect(group.full_path_was).to eq("#{group.path_was}")
end
end
context 'when a parent is removed from the group' do
it 'returns the parent full path' do
parent = create(:group)
group = create(:group, parent: parent)
group.parent = nil
expect(group.full_path_was).to eq("#{parent.full_path}/#{group.path}")
end
end
context 'when changing parents' do
it 'returns the previous parent full path' do
parent = create(:group)
group = create(:group, parent: parent)
new_parent = create(:group)
group.parent = new_parent
expect(group.full_path_was).to eq("#{parent.full_path}/#{group.path}")
end
end
end
describe '#auto_devops_enabled' do
context 'with users' do
let(:user) { create(:user) }
subject { user.namespace.auto_devops_enabled? }
before do
user.namespace.update!(auto_devops_enabled: auto_devops_enabled)
end
context 'when auto devops is explicitly enabled' do
let(:auto_devops_enabled) { true }
it { is_expected.to eq(true) }
end
context 'when auto devops is explicitly disabled' do
let(:auto_devops_enabled) { false }
it { is_expected.to eq(false) }
end
end
end
end