debian-mirror-gitlab/spec/models/design_management/design_spec.rb
2021-01-29 00:20:46 +05:30

653 lines
21 KiB
Ruby

# frozen_string_literal: true
require 'spec_helper'
RSpec.describe DesignManagement::Design do
include DesignManagementTestHelpers
let_it_be(:issue) { create(:issue) }
let_it_be(:design1) { create(:design, :with_versions, issue: issue, versions_count: 1) }
let_it_be(:design2) { create(:design, :with_versions, issue: issue, versions_count: 1) }
let_it_be(:design3) { create(:design, :with_versions, issue: issue, versions_count: 1) }
let_it_be(:deleted_design) { create(:design, :with_versions, deleted: true) }
it_behaves_like 'AtomicInternalId', validate_presence: true do
let(:internal_id_attribute) { :iid }
let(:instance) { build(:design, issue: issue) }
let(:scope) { :project }
let(:scope_attrs) { { project: instance.project } }
let(:usage) { :design_management_designs }
end
it_behaves_like 'a class that supports relative positioning' do
let_it_be(:relative_parent) { create(:issue) }
let(:factory) { :design }
let(:default_params) { { issue: relative_parent } }
end
describe 'relations' do
it { is_expected.to belong_to(:project) }
it { is_expected.to belong_to(:issue) }
it { is_expected.to have_many(:actions) }
it { is_expected.to have_many(:versions) }
it { is_expected.to have_many(:authors) }
it { is_expected.to have_many(:notes).dependent(:delete_all) }
it { is_expected.to have_many(:user_mentions) }
describe '#authors' do
it 'returns unique version authors', :aggregate_failures do
author = create(:user)
create_list(:design_version, 2, designs: [design1], author: author)
version_authors = design1.versions.map(&:author)
expect(version_authors).to contain_exactly(issue.author, author, author)
expect(design1.authors).to contain_exactly(issue.author, author)
end
end
end
describe 'validations' do
subject(:design) { build(:design, issue: issue) }
it { is_expected.to be_valid }
it { is_expected.to validate_presence_of(:project) }
it { is_expected.to validate_presence_of(:issue) }
it { is_expected.to validate_presence_of(:filename) }
it { is_expected.to validate_length_of(:filename).is_at_most(255) }
it { is_expected.to validate_uniqueness_of(:filename).scoped_to(:issue_id) }
it "validates that the extension is an image" do
design.filename = "thing.txt"
extensions = described_class::SAFE_IMAGE_EXT + described_class::DANGEROUS_IMAGE_EXT
expect(design).not_to be_valid
expect(design.errors[:filename].first).to eq(
"does not have a supported extension. Only #{extensions.to_sentence} are supported"
)
end
describe 'validating files with .svg extension' do
before do
design.filename = "thing.svg"
end
it "allows .svg files when feature flag is enabled" do
stub_feature_flags(design_management_allow_dangerous_images: true)
expect(design).to be_valid
end
it "does not allow .svg files when feature flag is disabled" do
stub_feature_flags(design_management_allow_dangerous_images: false)
expect(design).not_to be_valid
expect(design.errors[:filename].first).to eq(
"does not have a supported extension. Only #{described_class::SAFE_IMAGE_EXT.to_sentence} are supported"
)
end
end
end
describe 'scopes' do
describe '.visible_at_version' do
let(:versions) { DesignManagement::Version.where(issue: issue).ordered }
let(:found) { described_class.visible_at_version(version) }
context 'at oldest version' do
let(:version) { versions.last }
it 'finds the first design only' do
expect(found).to contain_exactly(design1)
end
end
context 'at version 2' do
let(:version) { versions.second }
it 'finds the first and second designs' do
expect(found).to contain_exactly(design1, design2)
end
end
context 'at latest version' do
let(:version) { versions.first }
it 'finds designs' do
expect(found).to contain_exactly(design1, design2, design3)
end
end
context 'when the argument is nil' do
let(:version) { nil }
it 'finds all undeleted designs' do
expect(found).to contain_exactly(design1, design2, design3)
end
end
describe 'one of the designs was deleted before the given version' do
before do
delete_designs(design2)
end
it 'is not returned' do
current_version = versions.first
expect(described_class.visible_at_version(current_version)).to contain_exactly(design1, design3)
end
end
context 'a re-created history' do
before do
delete_designs(design1, design2)
restore_designs(design1)
end
it 'is returned, though other deleted events are not' do
expect(described_class.visible_at_version(nil)).to contain_exactly(design1, design3)
end
end
# test that a design that has been modified at various points
# can be queried for correctly at different points in its history
describe 'dead or alive' do
let(:versions) { DesignManagement::Version.where(issue: issue).map { |v| [v, :alive] } }
before do
versions << [delete_designs(design1), :dead]
versions << [modify_designs(design2), :dead]
versions << [restore_designs(design1), :alive]
versions << [modify_designs(design3), :alive]
versions << [delete_designs(design1), :dead]
versions << [modify_designs(design2, design3), :dead]
versions << [restore_designs(design1), :alive]
end
it 'can establish the history at any point' do
history = versions.map(&:first).map do |v|
described_class.visible_at_version(v).include?(design1) ? :alive : :dead
end
expect(history).to eq(versions.map(&:second))
end
end
end
describe '.ordered' do
before_all do
design1.update!(relative_position: 2)
design2.update!(relative_position: 1)
design3.update!(relative_position: nil)
deleted_design.update!(relative_position: nil)
end
it 'sorts by relative position and ID in ascending order' do
expect(described_class.ordered).to eq([design2, design1, design3, deleted_design])
end
end
describe '.in_creation_order' do
it 'sorts by ID in ascending order' do
expect(described_class.in_creation_order).to eq([design1, design2, design3, deleted_design])
end
end
describe '.with_filename' do
it 'returns correct design when passed a single filename' do
expect(described_class.with_filename(design1.filename)).to eq([design1])
end
it 'returns correct designs when passed an Array of filenames' do
expect(
described_class.with_filename([design1, design2].map(&:filename))
).to contain_exactly(design1, design2)
end
end
describe '.on_issue' do
it 'returns correct designs when passed a single issue' do
expect(described_class.on_issue(issue)).to match_array(issue.designs)
end
it 'returns correct designs when passed an Array of issues' do
expect(
described_class.on_issue([issue, deleted_design.issue])
).to contain_exactly(design1, design2, design3, deleted_design)
end
end
describe '.current' do
it 'returns just the undeleted designs' do
delete_designs(design3)
expect(described_class.current).to contain_exactly(design1, design2)
end
end
end
describe ".build_full_path" do
it "builds the full path for a design" do
design = build(:design, issue: issue, filename: "hello.jpg")
expected_path = "#{DesignManagement.designs_directory}/issue-#{design.issue.iid}/hello.jpg"
expect(described_class.build_full_path(issue, design)).to eq(expected_path)
end
end
describe '#visible_in?' do
let_it_be(:issue) { create(:issue, project: issue.project) }
# It is expensive to re-create complex histories, so we do it once, and then
# assert that we can establish visibility at any given version.
it 'tells us when a design is visible' do
expected = []
first_design = create(:design, :with_versions, issue: issue, versions_count: 1)
prior_to_creation = first_design.versions.first
expected << [prior_to_creation, :not_created_yet, false]
v = modify_designs(first_design)
expected << [v, :not_created_yet, false]
design = create(:design, :with_versions, issue: issue, versions_count: 1)
created_in = design.versions.first
expected << [created_in, :created, true]
# The future state should not affect the result for any state, so we
# ensure that most states have a long future as well as a rich past
2.times do
v = modify_designs(first_design)
expected << [v, :unaffected_visible, true]
v = modify_designs(design)
expected << [v, :modified, true]
v = modify_designs(first_design)
expected << [v, :unaffected_visible, true]
v = delete_designs(design)
expected << [v, :deleted, false]
v = modify_designs(first_design)
expected << [v, :unaffected_nv, false]
v = restore_designs(design)
expected << [v, :restored, true]
end
delete_designs(design) # ensure visibility is not corelated with current state
got = expected.map do |(v, sym, _)|
[v, sym, design.visible_in?(v)]
end
expect(got).to eq(expected)
end
end
describe '#to_ability_name' do
it { expect(described_class.new.to_ability_name).to eq('design') }
end
describe '#status' do
context 'the design is new' do
subject { build(:design, issue: issue) }
it { is_expected.to have_attributes(status: :new) }
end
context 'the design is current' do
subject { design1 }
it { is_expected.to have_attributes(status: :current) }
end
context 'the design has been deleted' do
subject { deleted_design }
it { is_expected.to have_attributes(status: :deleted) }
end
end
describe '#deleted?' do
context 'the design is new' do
let(:design) { build(:design, issue: issue) }
it 'is falsy' do
expect(design).not_to be_deleted
end
end
context 'the design is current' do
let(:design) { design1 }
it 'is falsy' do
expect(design).not_to be_deleted
end
end
context 'the design has been deleted' do
let(:design) { deleted_design }
it 'is truthy' do
expect(design).to be_deleted
end
end
context 'the design has been deleted, but was then re-created' do
let(:design) { create(:design, :with_versions, issue: issue, versions_count: 1, deleted: true) }
it 'is falsy' do
restore_designs(design)
expect(design).not_to be_deleted
end
end
end
describe '#participants' do
let_it_be_with_refind(:design) { create(:design, issue: issue) }
let_it_be(:current_user) { create(:user) }
let_it_be(:version_author) { create(:user) }
let_it_be(:note_author) { create(:user) }
let_it_be(:mentioned_user) { create(:user) }
let_it_be(:design_version) { create(:design_version, :committed, designs: [design], author: version_author) }
let_it_be(:note) do
create(:diff_note_on_design,
noteable: design,
issue: issue,
project: issue.project,
author: note_author,
note: mentioned_user.to_reference
)
end
subject { design.participants(current_user) }
it { is_expected.to be_empty }
context 'when participants can read the project' do
before do
design.project.add_guest(version_author)
design.project.add_guest(note_author)
design.project.add_guest(mentioned_user)
end
it { is_expected.to contain_exactly(version_author, note_author, mentioned_user) }
end
end
describe "#new_design?" do
let(:design) { design1 }
it "is false when there are versions" do
expect(design1).not_to be_new_design
end
it "is true when there are no versions" do
expect(build(:design, issue: issue)).to be_new_design
end
it 'is false for deleted designs' do
expect(deleted_design).not_to be_new_design
end
it "does not cause extra queries when actions are loaded" do
design.actions.map(&:id)
expect { design.new_design? }.not_to exceed_query_limit(0)
end
it "implicitly caches values" do
expect do
design.new_design?
design.new_design?
end.not_to exceed_query_limit(1)
end
it "queries again when the clear_version_cache trigger has been called" do
expect do
design.new_design?
design.clear_version_cache
design.new_design?
end.not_to exceed_query_limit(2)
end
it "causes a single query when there versions are not loaded" do
design.reload
expect { design.new_design? }.not_to exceed_query_limit(1)
end
end
describe "#full_path" do
it "builds the full path for a design" do
design = build(:design, issue: issue, filename: "hello.jpg")
expected_path = "#{DesignManagement.designs_directory}/issue-#{design.issue.iid}/hello.jpg"
expect(design.full_path).to eq(expected_path)
end
end
describe '#diff_refs' do
let(:design) { create(:design, :with_file, versions_count: versions_count) }
context 'there are several versions' do
let(:versions_count) { 3 }
it "builds diff refs based on the first commit and it's for the design" do
expect(design.diff_refs.base_sha).to eq(design.versions.ordered.second.sha)
expect(design.diff_refs.head_sha).to eq(design.versions.ordered.first.sha)
end
end
context 'there is just one version' do
let(:versions_count) { 1 }
it 'builds diff refs based on the empty tree if there was only one version' do
expect(design.diff_refs.base_sha).to eq(Gitlab::Git::BLANK_SHA)
expect(design.diff_refs.head_sha).to eq(design.diff_refs.head_sha)
end
end
it 'has no diff ref if new' do
design = build(:design, issue: issue)
expect(design.diff_refs).to be_nil
end
end
describe '#repository' do
it 'is a design repository' do
design = build(:design, issue: issue)
expect(design.repository).to be_a(DesignManagement::Repository)
end
end
describe '#note_etag_key' do
it 'returns a correct etag key' do
design = design1
expect(design.note_etag_key).to eq(
::Gitlab::Routing.url_helpers.designs_project_issue_path(design.project, design.issue, { vueroute: design.filename })
)
end
end
describe '#user_notes_count', :use_clean_rails_memory_store_caching do
# Note: Cache invalidation tests are in `design_user_notes_count_service_spec.rb`
it 'returns a count of user-generated notes' do
common_attrs = { issue: issue, project: issue.project, author: issue.project.creator }
design, second_design = create_list(:design, 2, :with_file, issue: issue)
create(:diff_note_on_design, **common_attrs, noteable: design)
create(:diff_note_on_design, **common_attrs, system: true, noteable: design)
create(:diff_note_on_design, **common_attrs, noteable: second_design)
expect(design.user_notes_count).to eq(1)
end
end
describe '#after_note_changed' do
it 'calls #delete_cache on DesignUserNotesCountService for non-system notes' do
design = design1
expect(design.send(:user_notes_count_service)).to receive(:delete_cache).once
design.after_note_changed(build(:note, project: issue.project))
design.after_note_changed(build(:note, :system, project: issue.project))
end
end
describe '.for_reference' do
let_it_be(:design_a) { create(:design) }
let_it_be(:design_b) { create(:design) }
it 'avoids extra queries when calling to_reference' do
designs = described_class.for_reference.where(id: [design_a.id, design_b.id]).to_a
expect { designs.map(&:to_reference) }.not_to exceed_query_limit(0)
end
end
describe '#to_reference' do
let(:namespace) { build(:namespace, path: 'sample-namespace') }
let(:project) { build(:project, name: 'sample-project', namespace: namespace) }
let(:group) { create(:group, name: 'Group', path: 'sample-group') }
let(:issue) { build(:issue, iid: 1, project: project) }
let(:filename) { 'homescreen.jpg' }
let(:design) { build(:design, filename: filename, issue: issue, project: project) }
context 'when nil argument' do
let(:reference) { design.to_reference }
it 'uses the simple format' do
expect(reference).to eq "#1[homescreen.jpg]"
end
end
context 'when full is true' do
it 'returns complete path to the issue' do
refs = [
design.to_reference(full: true),
design.to_reference(project, full: true),
design.to_reference(group, full: true)
]
expect(refs).to all(eq 'sample-namespace/sample-project#1/designs[homescreen.jpg]')
end
end
context 'when full is false' do
it 'returns complete path to the issue' do
refs = [
design.to_reference(build(:project), full: false),
design.to_reference(group, full: false)
]
expect(refs).to all(eq 'sample-namespace/sample-project#1[homescreen.jpg]')
end
end
context 'when same project argument' do
it 'returns bare reference' do
expect(design.to_reference(project)).to eq("#1[homescreen.jpg]")
end
end
end
describe 'reference_pattern' do
it 'is nil' do
expect(described_class.reference_pattern).to be_nil
end
end
describe 'link_reference_pattern' do
it 'is not nil' do
expect(described_class.link_reference_pattern).not_to be_nil
end
it 'does not match the designs tab' do
expect(described_class.link_reference_pattern).not_to match(url_for_designs(issue))
end
where(:ext) do
(described_class::SAFE_IMAGE_EXT + described_class::DANGEROUS_IMAGE_EXT).flat_map do |ext|
[[ext], [ext.upcase]]
end
end
with_them do
let(:filename) { "my-file.#{ext}" }
let(:design) { build(:design, issue: issue, filename: filename) }
let(:url) { url_for_design(design) }
let(:captures) { described_class.link_reference_pattern.match(url)&.named_captures }
it 'matches the URL' do
expect(captures).to include(
'url_filename' => filename,
'issue' => issue.iid.to_s,
'namespace' => design.project.namespace.to_param,
'project' => design.project.name
)
end
context 'the file needs to be encoded' do
let(:filename) { "my file.#{ext}" }
it 'extracts the encoded filename' do
expect(captures).to include('url_filename' => 'my%20file.' + ext)
end
end
context 'the file is all upper case' do
let(:filename) { "file.#{ext}".upcase }
it 'extracts the encoded filename' do
expect(captures).to include('url_filename' => filename)
end
end
end
end
describe '.by_issue_id_and_filename' do
let_it_be(:issue_a) { create(:issue) }
let_it_be(:issue_b) { create(:issue) }
let_it_be(:design_a) { create(:design, issue: issue_a) }
let_it_be(:design_b) { create(:design, issue: issue_a) }
let_it_be(:design_c) { create(:design, issue: issue_b, filename: design_a.filename) }
let_it_be(:design_d) { create(:design, issue: issue_b, filename: design_b.filename) }
it_behaves_like 'a where_composite scope', :by_issue_id_and_filename do
let(:all_results) { [design_a, design_b, design_c, design_d] }
let(:first_result) { design_a }
let(:composite_ids) do
all_results.map { |design| { issue_id: design.issue_id, filename: design.filename } }
end
end
end
describe '#immediately_before' do
let_it_be(:design) { create(:design, issue: issue, relative_position: 100) }
let_it_be(:next_design) { create(:design, issue: issue, relative_position: 200) }
it 'is true when there is no element positioned between this item and the next' do
expect(design.immediately_before?(next_design)).to be true
end
it 'is false when there is an element positioned between this item and the next' do
create(:design, issue: issue, relative_position: 150)
expect(design.immediately_before?(next_design)).to be false
end
it 'is false when the next design is to the left of this design' do
further_left = create(:design, issue: issue, relative_position: 50)
expect(design.immediately_before?(further_left)).to be false
end
end
end