linkding/bookmarks/tests/test_bookmarks_service.py
2024-01-27 11:29:16 +01:00

811 lines
32 KiB
Python

from unittest.mock import patch
from django.contrib.auth import get_user_model
from django.test import TestCase
from django.utils import timezone
from bookmarks.models import Bookmark, Tag
from bookmarks.services import tasks
from bookmarks.services import website_loader
from bookmarks.services.bookmarks import (
create_bookmark,
update_bookmark,
archive_bookmark,
archive_bookmarks,
unarchive_bookmark,
unarchive_bookmarks,
delete_bookmarks,
tag_bookmarks,
untag_bookmarks,
mark_bookmarks_as_read,
mark_bookmarks_as_unread,
share_bookmarks,
unshare_bookmarks,
)
from bookmarks.services.website_loader import WebsiteMetadata
from bookmarks.tests.helpers import BookmarkFactoryMixin
User = get_user_model()
class BookmarkServiceTestCase(TestCase, BookmarkFactoryMixin):
def setUp(self) -> None:
self.get_or_create_test_user()
def test_create_should_update_website_metadata(self):
with patch.object(
website_loader, "load_website_metadata"
) as mock_load_website_metadata:
expected_metadata = WebsiteMetadata(
"https://example.com", "Website title", "Website description"
)
mock_load_website_metadata.return_value = expected_metadata
bookmark_data = Bookmark(
url="https://example.com",
title="Updated Title",
description="Updated description",
unread=True,
shared=True,
is_archived=True,
)
created_bookmark = create_bookmark(
bookmark_data, "", self.get_or_create_test_user()
)
created_bookmark.refresh_from_db()
self.assertEqual(expected_metadata.title, created_bookmark.website_title)
self.assertEqual(
expected_metadata.description, created_bookmark.website_description
)
def test_create_should_update_existing_bookmark_with_same_url(self):
original_bookmark = self.setup_bookmark(
url="https://example.com", unread=False, shared=False
)
bookmark_data = Bookmark(
url="https://example.com",
title="Updated Title",
description="Updated description",
notes="Updated notes",
unread=True,
shared=True,
is_archived=True,
)
updated_bookmark = create_bookmark(
bookmark_data, "", self.get_or_create_test_user()
)
self.assertEqual(Bookmark.objects.count(), 1)
self.assertEqual(updated_bookmark.id, original_bookmark.id)
self.assertEqual(updated_bookmark.title, bookmark_data.title)
self.assertEqual(updated_bookmark.description, bookmark_data.description)
self.assertEqual(updated_bookmark.notes, bookmark_data.notes)
self.assertEqual(updated_bookmark.unread, bookmark_data.unread)
self.assertEqual(updated_bookmark.shared, bookmark_data.shared)
# Saving a duplicate bookmark should not modify archive flag - right?
self.assertFalse(updated_bookmark.is_archived)
def test_create_should_create_web_archive_snapshot(self):
with patch.object(
tasks, "create_web_archive_snapshot"
) as mock_create_web_archive_snapshot:
bookmark_data = Bookmark(url="https://example.com")
bookmark = create_bookmark(bookmark_data, "tag1,tag2", self.user)
mock_create_web_archive_snapshot.assert_called_once_with(
self.user, bookmark, False
)
def test_create_should_load_favicon(self):
with patch.object(tasks, "load_favicon") as mock_load_favicon:
bookmark_data = Bookmark(url="https://example.com")
bookmark = create_bookmark(bookmark_data, "tag1,tag2", self.user)
mock_load_favicon.assert_called_once_with(self.user, bookmark)
def test_update_should_create_web_archive_snapshot_if_url_did_change(self):
with patch.object(
tasks, "create_web_archive_snapshot"
) as mock_create_web_archive_snapshot:
bookmark = self.setup_bookmark()
bookmark.url = "https://example.com/updated"
update_bookmark(bookmark, "tag1,tag2", self.user)
mock_create_web_archive_snapshot.assert_called_once_with(
self.user, bookmark, True
)
def test_update_should_not_create_web_archive_snapshot_if_url_did_not_change(self):
with patch.object(
tasks, "create_web_archive_snapshot"
) as mock_create_web_archive_snapshot:
bookmark = self.setup_bookmark()
bookmark.title = "updated title"
update_bookmark(bookmark, "tag1,tag2", self.user)
mock_create_web_archive_snapshot.assert_not_called()
def test_update_should_update_website_metadata_if_url_did_change(self):
with patch.object(
website_loader, "load_website_metadata"
) as mock_load_website_metadata:
expected_metadata = WebsiteMetadata(
"https://example.com/updated",
"Updated website title",
"Updated website description",
)
mock_load_website_metadata.return_value = expected_metadata
bookmark = self.setup_bookmark()
bookmark.url = "https://example.com/updated"
update_bookmark(bookmark, "tag1,tag2", self.user)
bookmark.refresh_from_db()
mock_load_website_metadata.assert_called_once()
self.assertEqual(expected_metadata.title, bookmark.website_title)
self.assertEqual(
expected_metadata.description, bookmark.website_description
)
def test_update_should_not_update_website_metadata_if_url_did_not_change(self):
with patch.object(
website_loader, "load_website_metadata"
) as mock_load_website_metadata:
bookmark = self.setup_bookmark()
bookmark.title = "updated title"
update_bookmark(bookmark, "tag1,tag2", self.user)
mock_load_website_metadata.assert_not_called()
def test_update_should_update_favicon(self):
with patch.object(tasks, "load_favicon") as mock_load_favicon:
bookmark = self.setup_bookmark()
bookmark.title = "updated title"
update_bookmark(bookmark, "tag1,tag2", self.user)
mock_load_favicon.assert_called_once_with(self.user, bookmark)
def test_archive_bookmark(self):
bookmark = Bookmark(
url="https://example.com",
date_added=timezone.now(),
date_modified=timezone.now(),
owner=self.user,
)
bookmark.save()
self.assertFalse(bookmark.is_archived)
archive_bookmark(bookmark)
updated_bookmark = Bookmark.objects.get(id=bookmark.id)
self.assertTrue(updated_bookmark.is_archived)
def test_unarchive_bookmark(self):
bookmark = Bookmark(
url="https://example.com",
date_added=timezone.now(),
date_modified=timezone.now(),
owner=self.user,
is_archived=True,
)
bookmark.save()
unarchive_bookmark(bookmark)
updated_bookmark = Bookmark.objects.get(id=bookmark.id)
self.assertFalse(updated_bookmark.is_archived)
def test_archive_bookmarks(self):
bookmark1 = self.setup_bookmark()
bookmark2 = self.setup_bookmark()
bookmark3 = self.setup_bookmark()
archive_bookmarks(
[bookmark1.id, bookmark2.id, bookmark3.id], self.get_or_create_test_user()
)
self.assertTrue(Bookmark.objects.get(id=bookmark1.id).is_archived)
self.assertTrue(Bookmark.objects.get(id=bookmark2.id).is_archived)
self.assertTrue(Bookmark.objects.get(id=bookmark3.id).is_archived)
def test_archive_bookmarks_should_only_archive_specified_bookmarks(self):
bookmark1 = self.setup_bookmark()
bookmark2 = self.setup_bookmark()
bookmark3 = self.setup_bookmark()
archive_bookmarks([bookmark1.id, bookmark3.id], self.get_or_create_test_user())
self.assertTrue(Bookmark.objects.get(id=bookmark1.id).is_archived)
self.assertFalse(Bookmark.objects.get(id=bookmark2.id).is_archived)
self.assertTrue(Bookmark.objects.get(id=bookmark3.id).is_archived)
def test_archive_bookmarks_should_only_archive_user_owned_bookmarks(self):
other_user = User.objects.create_user(
"otheruser", "otheruser@example.com", "password123"
)
bookmark1 = self.setup_bookmark()
bookmark2 = self.setup_bookmark()
inaccessible_bookmark = self.setup_bookmark(user=other_user)
archive_bookmarks(
[bookmark1.id, bookmark2.id, inaccessible_bookmark.id],
self.get_or_create_test_user(),
)
self.assertTrue(Bookmark.objects.get(id=bookmark1.id).is_archived)
self.assertTrue(Bookmark.objects.get(id=bookmark2.id).is_archived)
self.assertFalse(Bookmark.objects.get(id=inaccessible_bookmark.id).is_archived)
def test_archive_bookmarks_should_accept_mix_of_int_and_string_ids(self):
bookmark1 = self.setup_bookmark()
bookmark2 = self.setup_bookmark()
bookmark3 = self.setup_bookmark()
archive_bookmarks(
[str(bookmark1.id), bookmark2.id, str(bookmark3.id)],
self.get_or_create_test_user(),
)
self.assertTrue(Bookmark.objects.get(id=bookmark1.id).is_archived)
self.assertTrue(Bookmark.objects.get(id=bookmark2.id).is_archived)
self.assertTrue(Bookmark.objects.get(id=bookmark3.id).is_archived)
def test_unarchive_bookmarks(self):
bookmark1 = self.setup_bookmark(is_archived=True)
bookmark2 = self.setup_bookmark(is_archived=True)
bookmark3 = self.setup_bookmark(is_archived=True)
unarchive_bookmarks(
[bookmark1.id, bookmark2.id, bookmark3.id], self.get_or_create_test_user()
)
self.assertFalse(Bookmark.objects.get(id=bookmark1.id).is_archived)
self.assertFalse(Bookmark.objects.get(id=bookmark2.id).is_archived)
self.assertFalse(Bookmark.objects.get(id=bookmark3.id).is_archived)
def test_unarchive_bookmarks_should_only_unarchive_specified_bookmarks(self):
bookmark1 = self.setup_bookmark(is_archived=True)
bookmark2 = self.setup_bookmark(is_archived=True)
bookmark3 = self.setup_bookmark(is_archived=True)
unarchive_bookmarks(
[bookmark1.id, bookmark3.id], self.get_or_create_test_user()
)
self.assertFalse(Bookmark.objects.get(id=bookmark1.id).is_archived)
self.assertTrue(Bookmark.objects.get(id=bookmark2.id).is_archived)
self.assertFalse(Bookmark.objects.get(id=bookmark3.id).is_archived)
def test_unarchive_bookmarks_should_only_unarchive_user_owned_bookmarks(self):
other_user = User.objects.create_user(
"otheruser", "otheruser@example.com", "password123"
)
bookmark1 = self.setup_bookmark(is_archived=True)
bookmark2 = self.setup_bookmark(is_archived=True)
inaccessible_bookmark = self.setup_bookmark(is_archived=True, user=other_user)
unarchive_bookmarks(
[bookmark1.id, bookmark2.id, inaccessible_bookmark.id],
self.get_or_create_test_user(),
)
self.assertFalse(Bookmark.objects.get(id=bookmark1.id).is_archived)
self.assertFalse(Bookmark.objects.get(id=bookmark2.id).is_archived)
self.assertTrue(Bookmark.objects.get(id=inaccessible_bookmark.id).is_archived)
def test_unarchive_bookmarks_should_accept_mix_of_int_and_string_ids(self):
bookmark1 = self.setup_bookmark(is_archived=True)
bookmark2 = self.setup_bookmark(is_archived=True)
bookmark3 = self.setup_bookmark(is_archived=True)
unarchive_bookmarks(
[str(bookmark1.id), bookmark2.id, str(bookmark3.id)],
self.get_or_create_test_user(),
)
self.assertFalse(Bookmark.objects.get(id=bookmark1.id).is_archived)
self.assertFalse(Bookmark.objects.get(id=bookmark2.id).is_archived)
self.assertFalse(Bookmark.objects.get(id=bookmark3.id).is_archived)
def test_delete_bookmarks(self):
bookmark1 = self.setup_bookmark()
bookmark2 = self.setup_bookmark()
bookmark3 = self.setup_bookmark()
delete_bookmarks(
[bookmark1.id, bookmark2.id, bookmark3.id], self.get_or_create_test_user()
)
self.assertIsNone(Bookmark.objects.filter(id=bookmark1.id).first())
self.assertIsNone(Bookmark.objects.filter(id=bookmark2.id).first())
self.assertIsNone(Bookmark.objects.filter(id=bookmark3.id).first())
def test_delete_bookmarks_should_only_delete_specified_bookmarks(self):
bookmark1 = self.setup_bookmark()
bookmark2 = self.setup_bookmark()
bookmark3 = self.setup_bookmark()
delete_bookmarks([bookmark1.id, bookmark3.id], self.get_or_create_test_user())
self.assertIsNone(Bookmark.objects.filter(id=bookmark1.id).first())
self.assertIsNotNone(Bookmark.objects.filter(id=bookmark2.id).first())
self.assertIsNone(Bookmark.objects.filter(id=bookmark3.id).first())
def test_delete_bookmarks_should_only_delete_user_owned_bookmarks(self):
other_user = User.objects.create_user(
"otheruser", "otheruser@example.com", "password123"
)
bookmark1 = self.setup_bookmark()
bookmark2 = self.setup_bookmark()
inaccessible_bookmark = self.setup_bookmark(user=other_user)
delete_bookmarks(
[bookmark1.id, bookmark2.id, inaccessible_bookmark.id],
self.get_or_create_test_user(),
)
self.assertIsNone(Bookmark.objects.filter(id=bookmark1.id).first())
self.assertIsNone(Bookmark.objects.filter(id=bookmark2.id).first())
self.assertIsNotNone(
Bookmark.objects.filter(id=inaccessible_bookmark.id).first()
)
def test_delete_bookmarks_should_accept_mix_of_int_and_string_ids(self):
bookmark1 = self.setup_bookmark()
bookmark2 = self.setup_bookmark()
bookmark3 = self.setup_bookmark()
delete_bookmarks(
[bookmark1.id, bookmark2.id, bookmark3.id], self.get_or_create_test_user()
)
self.assertIsNone(Bookmark.objects.filter(id=bookmark1.id).first())
self.assertIsNone(Bookmark.objects.filter(id=bookmark2.id).first())
self.assertIsNone(Bookmark.objects.filter(id=bookmark3.id).first())
def test_tag_bookmarks(self):
bookmark1 = self.setup_bookmark()
bookmark2 = self.setup_bookmark()
bookmark3 = self.setup_bookmark()
tag1 = self.setup_tag()
tag2 = self.setup_tag()
tag_bookmarks(
[bookmark1.id, bookmark2.id, bookmark3.id],
f"{tag1.name},{tag2.name}",
self.get_or_create_test_user(),
)
bookmark1.refresh_from_db()
bookmark2.refresh_from_db()
bookmark3.refresh_from_db()
self.assertCountEqual(bookmark1.tags.all(), [tag1, tag2])
self.assertCountEqual(bookmark2.tags.all(), [tag1, tag2])
self.assertCountEqual(bookmark3.tags.all(), [tag1, tag2])
def test_tag_bookmarks_should_create_tags(self):
bookmark1 = self.setup_bookmark()
bookmark2 = self.setup_bookmark()
bookmark3 = self.setup_bookmark()
tag_bookmarks(
[bookmark1.id, bookmark2.id, bookmark3.id],
"tag1,tag2",
self.get_or_create_test_user(),
)
bookmark1.refresh_from_db()
bookmark2.refresh_from_db()
bookmark3.refresh_from_db()
self.assertEqual(2, Tag.objects.count())
tag1 = Tag.objects.filter(name="tag1").first()
tag2 = Tag.objects.filter(name="tag2").first()
self.assertIsNotNone(tag1)
self.assertIsNotNone(tag2)
self.assertCountEqual(bookmark1.tags.all(), [tag1, tag2])
self.assertCountEqual(bookmark2.tags.all(), [tag1, tag2])
self.assertCountEqual(bookmark3.tags.all(), [tag1, tag2])
def test_tag_bookmarks_should_handle_existing_relationships(self):
tag1 = self.setup_tag()
tag2 = self.setup_tag()
bookmark1 = self.setup_bookmark(tags=[tag1])
bookmark2 = self.setup_bookmark(tags=[tag1])
bookmark3 = self.setup_bookmark(tags=[tag1])
BookmarkToTagRelationShip = Bookmark.tags.through
self.assertEqual(3, BookmarkToTagRelationShip.objects.count())
tag_bookmarks(
[bookmark1.id, bookmark2.id, bookmark3.id],
f"{tag1.name},{tag2.name}",
self.get_or_create_test_user(),
)
bookmark1.refresh_from_db()
bookmark2.refresh_from_db()
bookmark3.refresh_from_db()
self.assertCountEqual(bookmark1.tags.all(), [tag1, tag2])
self.assertCountEqual(bookmark2.tags.all(), [tag1, tag2])
self.assertCountEqual(bookmark3.tags.all(), [tag1, tag2])
self.assertEqual(6, BookmarkToTagRelationShip.objects.count())
def test_tag_bookmarks_should_only_tag_specified_bookmarks(self):
bookmark1 = self.setup_bookmark()
bookmark2 = self.setup_bookmark()
bookmark3 = self.setup_bookmark()
tag1 = self.setup_tag()
tag2 = self.setup_tag()
tag_bookmarks(
[bookmark1.id, bookmark3.id],
f"{tag1.name},{tag2.name}",
self.get_or_create_test_user(),
)
bookmark1.refresh_from_db()
bookmark2.refresh_from_db()
bookmark3.refresh_from_db()
self.assertCountEqual(bookmark1.tags.all(), [tag1, tag2])
self.assertCountEqual(bookmark2.tags.all(), [])
self.assertCountEqual(bookmark3.tags.all(), [tag1, tag2])
def test_tag_bookmarks_should_only_tag_user_owned_bookmarks(self):
other_user = User.objects.create_user(
"otheruser", "otheruser@example.com", "password123"
)
bookmark1 = self.setup_bookmark()
bookmark2 = self.setup_bookmark()
inaccessible_bookmark = self.setup_bookmark(user=other_user)
tag1 = self.setup_tag()
tag2 = self.setup_tag()
tag_bookmarks(
[bookmark1.id, bookmark2.id, inaccessible_bookmark.id],
f"{tag1.name},{tag2.name}",
self.get_or_create_test_user(),
)
bookmark1.refresh_from_db()
bookmark2.refresh_from_db()
inaccessible_bookmark.refresh_from_db()
self.assertCountEqual(bookmark1.tags.all(), [tag1, tag2])
self.assertCountEqual(bookmark2.tags.all(), [tag1, tag2])
self.assertCountEqual(inaccessible_bookmark.tags.all(), [])
def test_tag_bookmarks_should_accept_mix_of_int_and_string_ids(self):
bookmark1 = self.setup_bookmark()
bookmark2 = self.setup_bookmark()
bookmark3 = self.setup_bookmark()
tag1 = self.setup_tag()
tag2 = self.setup_tag()
tag_bookmarks(
[str(bookmark1.id), bookmark2.id, str(bookmark3.id)],
f"{tag1.name},{tag2.name}",
self.get_or_create_test_user(),
)
self.assertCountEqual(bookmark1.tags.all(), [tag1, tag2])
self.assertCountEqual(bookmark2.tags.all(), [tag1, tag2])
self.assertCountEqual(bookmark3.tags.all(), [tag1, tag2])
def test_untag_bookmarks(self):
tag1 = self.setup_tag()
tag2 = self.setup_tag()
bookmark1 = self.setup_bookmark(tags=[tag1, tag2])
bookmark2 = self.setup_bookmark(tags=[tag1, tag2])
bookmark3 = self.setup_bookmark(tags=[tag1, tag2])
untag_bookmarks(
[bookmark1.id, bookmark2.id, bookmark3.id],
f"{tag1.name},{tag2.name}",
self.get_or_create_test_user(),
)
bookmark1.refresh_from_db()
bookmark2.refresh_from_db()
bookmark3.refresh_from_db()
self.assertCountEqual(bookmark1.tags.all(), [])
self.assertCountEqual(bookmark2.tags.all(), [])
self.assertCountEqual(bookmark3.tags.all(), [])
def test_untag_bookmarks_should_only_tag_specified_bookmarks(self):
tag1 = self.setup_tag()
tag2 = self.setup_tag()
bookmark1 = self.setup_bookmark(tags=[tag1, tag2])
bookmark2 = self.setup_bookmark(tags=[tag1, tag2])
bookmark3 = self.setup_bookmark(tags=[tag1, tag2])
untag_bookmarks(
[bookmark1.id, bookmark3.id],
f"{tag1.name},{tag2.name}",
self.get_or_create_test_user(),
)
bookmark1.refresh_from_db()
bookmark2.refresh_from_db()
bookmark3.refresh_from_db()
self.assertCountEqual(bookmark1.tags.all(), [])
self.assertCountEqual(bookmark2.tags.all(), [tag1, tag2])
self.assertCountEqual(bookmark3.tags.all(), [])
def test_untag_bookmarks_should_only_tag_user_owned_bookmarks(self):
other_user = User.objects.create_user(
"otheruser", "otheruser@example.com", "password123"
)
tag1 = self.setup_tag()
tag2 = self.setup_tag()
bookmark1 = self.setup_bookmark(tags=[tag1, tag2])
bookmark2 = self.setup_bookmark(tags=[tag1, tag2])
inaccessible_bookmark = self.setup_bookmark(user=other_user, tags=[tag1, tag2])
untag_bookmarks(
[bookmark1.id, bookmark2.id, inaccessible_bookmark.id],
f"{tag1.name},{tag2.name}",
self.get_or_create_test_user(),
)
bookmark1.refresh_from_db()
bookmark2.refresh_from_db()
inaccessible_bookmark.refresh_from_db()
self.assertCountEqual(bookmark1.tags.all(), [])
self.assertCountEqual(bookmark2.tags.all(), [])
self.assertCountEqual(inaccessible_bookmark.tags.all(), [tag1, tag2])
def test_untag_bookmarks_should_accept_mix_of_int_and_string_ids(self):
tag1 = self.setup_tag()
tag2 = self.setup_tag()
bookmark1 = self.setup_bookmark(tags=[tag1, tag2])
bookmark2 = self.setup_bookmark(tags=[tag1, tag2])
bookmark3 = self.setup_bookmark(tags=[tag1, tag2])
untag_bookmarks(
[str(bookmark1.id), bookmark2.id, str(bookmark3.id)],
f"{tag1.name},{tag2.name}",
self.get_or_create_test_user(),
)
self.assertCountEqual(bookmark1.tags.all(), [])
self.assertCountEqual(bookmark2.tags.all(), [])
self.assertCountEqual(bookmark3.tags.all(), [])
def test_mark_bookmarks_as_read(self):
bookmark1 = self.setup_bookmark(unread=True)
bookmark2 = self.setup_bookmark(unread=True)
bookmark3 = self.setup_bookmark(unread=True)
mark_bookmarks_as_read(
[bookmark1.id, bookmark2.id, bookmark3.id], self.get_or_create_test_user()
)
self.assertFalse(Bookmark.objects.get(id=bookmark1.id).unread)
self.assertFalse(Bookmark.objects.get(id=bookmark2.id).unread)
self.assertFalse(Bookmark.objects.get(id=bookmark3.id).unread)
def test_mark_bookmarks_as_read_should_only_update_specified_bookmarks(self):
bookmark1 = self.setup_bookmark(unread=True)
bookmark2 = self.setup_bookmark(unread=True)
bookmark3 = self.setup_bookmark(unread=True)
mark_bookmarks_as_read(
[bookmark1.id, bookmark3.id], self.get_or_create_test_user()
)
self.assertFalse(Bookmark.objects.get(id=bookmark1.id).unread)
self.assertTrue(Bookmark.objects.get(id=bookmark2.id).unread)
self.assertFalse(Bookmark.objects.get(id=bookmark3.id).unread)
def test_mark_bookmarks_as_read_should_only_update_user_owned_bookmarks(self):
other_user = User.objects.create_user(
"otheruser", "otheruser@example.com", "password123"
)
bookmark1 = self.setup_bookmark(unread=True)
bookmark2 = self.setup_bookmark(unread=True)
inaccessible_bookmark = self.setup_bookmark(unread=True, user=other_user)
mark_bookmarks_as_read(
[bookmark1.id, bookmark2.id, inaccessible_bookmark.id],
self.get_or_create_test_user(),
)
self.assertFalse(Bookmark.objects.get(id=bookmark1.id).unread)
self.assertFalse(Bookmark.objects.get(id=bookmark2.id).unread)
self.assertTrue(Bookmark.objects.get(id=inaccessible_bookmark.id).unread)
def test_mark_bookmarks_as_read_should_accept_mix_of_int_and_string_ids(self):
bookmark1 = self.setup_bookmark(unread=True)
bookmark2 = self.setup_bookmark(unread=True)
bookmark3 = self.setup_bookmark(unread=True)
mark_bookmarks_as_read(
[str(bookmark1.id), bookmark2.id, str(bookmark3.id)],
self.get_or_create_test_user(),
)
self.assertFalse(Bookmark.objects.get(id=bookmark1.id).unread)
self.assertFalse(Bookmark.objects.get(id=bookmark2.id).unread)
self.assertFalse(Bookmark.objects.get(id=bookmark3.id).unread)
def test_mark_bookmarks_as_unread(self):
bookmark1 = self.setup_bookmark(unread=False)
bookmark2 = self.setup_bookmark(unread=False)
bookmark3 = self.setup_bookmark(unread=False)
mark_bookmarks_as_unread(
[bookmark1.id, bookmark2.id, bookmark3.id], self.get_or_create_test_user()
)
self.assertTrue(Bookmark.objects.get(id=bookmark1.id).unread)
self.assertTrue(Bookmark.objects.get(id=bookmark2.id).unread)
self.assertTrue(Bookmark.objects.get(id=bookmark3.id).unread)
def test_mark_bookmarks_as_unread_should_only_update_specified_bookmarks(self):
bookmark1 = self.setup_bookmark(unread=False)
bookmark2 = self.setup_bookmark(unread=False)
bookmark3 = self.setup_bookmark(unread=False)
mark_bookmarks_as_unread(
[bookmark1.id, bookmark3.id], self.get_or_create_test_user()
)
self.assertTrue(Bookmark.objects.get(id=bookmark1.id).unread)
self.assertFalse(Bookmark.objects.get(id=bookmark2.id).unread)
self.assertTrue(Bookmark.objects.get(id=bookmark3.id).unread)
def test_mark_bookmarks_as_unread_should_only_update_user_owned_bookmarks(self):
other_user = User.objects.create_user(
"otheruser", "otheruser@example.com", "password123"
)
bookmark1 = self.setup_bookmark(unread=False)
bookmark2 = self.setup_bookmark(unread=False)
inaccessible_bookmark = self.setup_bookmark(unread=False, user=other_user)
mark_bookmarks_as_unread(
[bookmark1.id, bookmark2.id, inaccessible_bookmark.id],
self.get_or_create_test_user(),
)
self.assertTrue(Bookmark.objects.get(id=bookmark1.id).unread)
self.assertTrue(Bookmark.objects.get(id=bookmark2.id).unread)
self.assertFalse(Bookmark.objects.get(id=inaccessible_bookmark.id).unread)
def test_mark_bookmarks_as_unread_should_accept_mix_of_int_and_string_ids(self):
bookmark1 = self.setup_bookmark(unread=False)
bookmark2 = self.setup_bookmark(unread=False)
bookmark3 = self.setup_bookmark(unread=False)
mark_bookmarks_as_unread(
[str(bookmark1.id), bookmark2.id, str(bookmark3.id)],
self.get_or_create_test_user(),
)
self.assertTrue(Bookmark.objects.get(id=bookmark1.id).unread)
self.assertTrue(Bookmark.objects.get(id=bookmark2.id).unread)
self.assertTrue(Bookmark.objects.get(id=bookmark3.id).unread)
def test_share_bookmarks(self):
bookmark1 = self.setup_bookmark(shared=False)
bookmark2 = self.setup_bookmark(shared=False)
bookmark3 = self.setup_bookmark(shared=False)
share_bookmarks(
[bookmark1.id, bookmark2.id, bookmark3.id], self.get_or_create_test_user()
)
self.assertTrue(Bookmark.objects.get(id=bookmark1.id).shared)
self.assertTrue(Bookmark.objects.get(id=bookmark2.id).shared)
self.assertTrue(Bookmark.objects.get(id=bookmark3.id).shared)
def test_share_bookmarks_should_only_update_specified_bookmarks(self):
bookmark1 = self.setup_bookmark(shared=False)
bookmark2 = self.setup_bookmark(shared=False)
bookmark3 = self.setup_bookmark(shared=False)
share_bookmarks([bookmark1.id, bookmark3.id], self.get_or_create_test_user())
self.assertTrue(Bookmark.objects.get(id=bookmark1.id).shared)
self.assertFalse(Bookmark.objects.get(id=bookmark2.id).shared)
self.assertTrue(Bookmark.objects.get(id=bookmark3.id).shared)
def test_share_bookmarks_should_only_update_user_owned_bookmarks(self):
other_user = User.objects.create_user(
"otheruser", "otheruser@example.com", "password123"
)
bookmark1 = self.setup_bookmark(shared=False)
bookmark2 = self.setup_bookmark(shared=False)
inaccessible_bookmark = self.setup_bookmark(shared=False, user=other_user)
share_bookmarks(
[bookmark1.id, bookmark2.id, inaccessible_bookmark.id],
self.get_or_create_test_user(),
)
self.assertTrue(Bookmark.objects.get(id=bookmark1.id).shared)
self.assertTrue(Bookmark.objects.get(id=bookmark2.id).shared)
self.assertFalse(Bookmark.objects.get(id=inaccessible_bookmark.id).shared)
def test_share_bookmarks_should_accept_mix_of_int_and_string_ids(self):
bookmark1 = self.setup_bookmark(shared=False)
bookmark2 = self.setup_bookmark(shared=False)
bookmark3 = self.setup_bookmark(shared=False)
share_bookmarks(
[str(bookmark1.id), bookmark2.id, str(bookmark3.id)],
self.get_or_create_test_user(),
)
self.assertTrue(Bookmark.objects.get(id=bookmark1.id).shared)
self.assertTrue(Bookmark.objects.get(id=bookmark2.id).shared)
self.assertTrue(Bookmark.objects.get(id=bookmark3.id).shared)
def test_unshare_bookmarks(self):
bookmark1 = self.setup_bookmark(shared=True)
bookmark2 = self.setup_bookmark(shared=True)
bookmark3 = self.setup_bookmark(shared=True)
unshare_bookmarks(
[bookmark1.id, bookmark2.id, bookmark3.id], self.get_or_create_test_user()
)
self.assertFalse(Bookmark.objects.get(id=bookmark1.id).shared)
self.assertFalse(Bookmark.objects.get(id=bookmark2.id).shared)
self.assertFalse(Bookmark.objects.get(id=bookmark3.id).shared)
def test_unshare_bookmarks_should_only_update_specified_bookmarks(self):
bookmark1 = self.setup_bookmark(shared=True)
bookmark2 = self.setup_bookmark(shared=True)
bookmark3 = self.setup_bookmark(shared=True)
unshare_bookmarks([bookmark1.id, bookmark3.id], self.get_or_create_test_user())
self.assertFalse(Bookmark.objects.get(id=bookmark1.id).shared)
self.assertTrue(Bookmark.objects.get(id=bookmark2.id).shared)
self.assertFalse(Bookmark.objects.get(id=bookmark3.id).shared)
def test_unshare_bookmarks_should_only_update_user_owned_bookmarks(self):
other_user = User.objects.create_user(
"otheruser", "otheruser@example.com", "password123"
)
bookmark1 = self.setup_bookmark(shared=True)
bookmark2 = self.setup_bookmark(shared=True)
inaccessible_bookmark = self.setup_bookmark(shared=True, user=other_user)
unshare_bookmarks(
[bookmark1.id, bookmark2.id, inaccessible_bookmark.id],
self.get_or_create_test_user(),
)
self.assertFalse(Bookmark.objects.get(id=bookmark1.id).shared)
self.assertFalse(Bookmark.objects.get(id=bookmark2.id).shared)
self.assertTrue(Bookmark.objects.get(id=inaccessible_bookmark.id).shared)
def test_unshare_bookmarks_should_accept_mix_of_int_and_string_ids(self):
bookmark1 = self.setup_bookmark(shared=True)
bookmark2 = self.setup_bookmark(shared=True)
bookmark3 = self.setup_bookmark(shared=True)
unshare_bookmarks(
[str(bookmark1.id), bookmark2.id, str(bookmark3.id)],
self.get_or_create_test_user(),
)
self.assertFalse(Bookmark.objects.get(id=bookmark1.id).shared)
self.assertFalse(Bookmark.objects.get(id=bookmark2.id).shared)
self.assertFalse(Bookmark.objects.get(id=bookmark3.id).shared)