class HistorySerializerTestCase(BaseTestCase):
def set_up_managers(self):
super(HistorySerializerTestCase, self).set_up_managers()
self.history_manager = HistoryManager(self.app)
self.hda_manager = hdas.HDAManager(self.app)
self.history_serializer = HistorySerializer(self.app)
def test_views(self):
user2 = self.user_manager.create(**user2_data)
history1 = self.history_manager.create(name='history1', user=user2)
self.log('should have a summary view')
summary_view = self.history_serializer.serialize_to_view(history1, view='summary')
self.assertKeys(summary_view, self.history_serializer.views['summary'])
self.log('should have a detailed view')
detailed_view = self.history_serializer.serialize_to_view(history1, view='detailed')
self.assertKeys(detailed_view, self.history_serializer.views['detailed'])
self.log('should have the summary view as default view')
default_view = self.history_serializer.serialize_to_view(history1, default_view='summary')
self.assertKeys(default_view, self.history_serializer.views['summary'])
self.log('should have a serializer for all serializable keys')
for key in self.history_serializer.serializable_keyset:
instantiated_attribute = getattr(history1, key, None)
if not ((key in self.history_serializer.serializers) or
(isinstance(instantiated_attribute, self.TYPES_NEEDING_NO_SERIALIZERS))):
self.fail('no serializer for: %s (%s)' % (key, instantiated_attribute))
else:
self.assertTrue(True, 'all serializable keys have a serializer')
def test_views_and_keys(self):
user2 = self.user_manager.create(**user2_data)
history1 = self.history_manager.create(name='history1', user=user2)
self.log('should be able to use keys with views')
serialized = self.history_serializer.serialize_to_view(history1,
view='summary', keys=['state_ids', 'user_id'])
self.assertKeys(serialized,
self.history_serializer.views['summary'] + ['state_ids', 'user_id'])
self.log('should be able to use keys on their own')
serialized = self.history_serializer.serialize_to_view(history1,
keys=['state_ids', 'user_id'])
self.assertKeys(serialized, ['state_ids', 'user_id'])
def test_sharable(self):
user2 = self.user_manager.create(**user2_data)
history1 = self.history_manager.create(name='history1', user=user2)
self.log('should have a serializer for all SharableModel keys')
sharable_attrs = ['user_id', 'username_and_slug', 'importable', 'published', 'slug']
serialized = self.history_serializer.serialize(history1, sharable_attrs)
self.assertKeys(serialized, sharable_attrs)
self.log('should return user_id for user with whom it\'s been shared if the requester is the owner')
non_owner = self.user_manager.create(**user3_data)
self.history_manager.share_with(history1, non_owner)
serialized = self.history_serializer.serialize(history1, ['users_shared_with'], user=user2)
self.assertKeys(serialized, ['users_shared_with'])
self.assertIsInstance(serialized['users_shared_with'], list)
self.assertEqual(serialized['users_shared_with'][0], self.app.security.encode_id(non_owner.id))
self.log('should not return users_shared_with if the requester is not the owner')
serialized = self.history_serializer.serialize(history1, ['users_shared_with'], user=non_owner)
self.assertFalse(hasattr(serialized, 'users_shared_with'))
def test_purgable(self):
user2 = self.user_manager.create(**user2_data)
history1 = self.history_manager.create(name='history1', user=user2)
self.log('deleted and purged should be returned in their default states')
keys = ['deleted', 'purged']
serialized = self.history_serializer.serialize(history1, keys)
self.assertEqual(serialized['deleted'], False)
self.assertEqual(serialized['purged'], False)
self.log('deleted and purged should return their current state')
self.history_manager.delete(history1)
serialized = self.history_serializer.serialize(history1, keys)
self.assertEqual(serialized['deleted'], True)
self.assertEqual(serialized['purged'], False)
self.history_manager.purge(history1)
serialized = self.history_serializer.serialize(history1, keys)
self.assertEqual(serialized['deleted'], True)
self.assertEqual(serialized['purged'], True)
def test_history_serializers(self):
user2 = self.user_manager.create(**user2_data)
history1 = self.history_manager.create(name='history1', user=user2)
all_keys = list(self.history_serializer.serializable_keyset)
serialized = self.history_serializer.serialize(history1, all_keys, user=user2)
self.log('everything serialized should be of the proper type')
self.assertIsInstance(serialized['size'], int)
self.assertIsInstance(serialized['nice_size'], string_types)
self.log('serialized should jsonify well')
self.assertIsJsonifyable(serialized)
def _history_state_from_states_and_deleted(self, user, hda_state_and_deleted_tuples):
history = self.history_manager.create(name='name', user=user)
for state, deleted in hda_state_and_deleted_tuples:
hda = self.hda_manager.create(history=history)
hda = self.hda_manager.update(hda, dict(state=state, deleted=deleted))
history_state = self.history_serializer.serialize(history, ['state'])['state']
return history_state
def test_state(self):
dataset_states = model.Dataset.states
user2 = self.user_manager.create(**user2_data)
ready_states = [(state, False) for state in [dataset_states.OK, dataset_states.OK]]
self.log('a history\'s serialized state should be running if any of its datasets are running')
self.assertEqual('running', self._history_state_from_states_and_deleted(user2,
ready_states + [(dataset_states.RUNNING, False)]))
self.assertEqual('running', self._history_state_from_states_and_deleted(user2,
ready_states + [(dataset_states.SETTING_METADATA, False)]))
self.assertEqual('running', self._history_state_from_states_and_deleted(user2,
ready_states + [(dataset_states.UPLOAD, False)]))
self.log('a history\'s serialized state should be queued if any of its datasets are queued')
self.assertEqual('queued', self._history_state_from_states_and_deleted(user2,
ready_states + [(dataset_states.QUEUED, False)]))
self.log('a history\'s serialized state should be error if any of its datasets are errored')
self.assertEqual('error', self._history_state_from_states_and_deleted(user2,
ready_states + [(dataset_states.ERROR, False)]))
self.assertEqual('error', self._history_state_from_states_and_deleted(user2,
ready_states + [(dataset_states.FAILED_METADATA, False)]))
self.log('a history\'s serialized state should be ok if *all* of its datasets are ok')
self.assertEqual('ok', self._history_state_from_states_and_deleted(user2, ready_states))
self.log('a history\'s serialized state should be not be affected by deleted datasets')
self.assertEqual('ok', self._history_state_from_states_and_deleted(user2,
ready_states + [(dataset_states.RUNNING, True)]))
def test_contents(self):
user2 = self.user_manager.create(**user2_data)
history1 = self.history_manager.create(name='history1', user=user2)
self.log('a history with no contents should be properly reflected in empty, etc.')
keys = ['empty', 'count', 'state_ids', 'state_details', 'state', 'hdas']
serialized = self.history_serializer.serialize(history1, keys)
self.assertEqual(serialized['state'], 'new')
self.assertEqual(serialized['empty'], True)
self.assertEqual(serialized['count'], 0)
self.assertEqual(sum(serialized['state_details'].values()), 0)
self.assertEqual(serialized['state_ids']['ok'], [])
self.assertIsInstance(serialized['hdas'], list)
self.log('a history with contents should be properly reflected in empty, etc.')
hda1 = self.hda_manager.create(history=history1, hid=1)
self.hda_manager.update(hda1, dict(state='ok'))
serialized = self.history_serializer.serialize(history1, keys)
self.assertEqual(serialized['state'], 'ok')
self.assertEqual(serialized['empty'], False)
self.assertEqual(serialized['count'], 1)
self.assertEqual(serialized['state_details']['ok'], 1)
self.assertIsInstance(serialized['state_ids']['ok'], list)
self.assertIsInstance(serialized['hdas'], list)
self.assertIsInstance(serialized['hdas'][0], string_types)
serialized = self.history_serializer.serialize(history1, ['contents'])
self.assertHasKeys(serialized['contents'][0], ['id', 'name', 'state', 'create_time'])
self.log('serialized should jsonify well')
self.assertIsJsonifyable(serialized)
def test_ratings(self):
user2 = self.user_manager.create(**user2_data)
user3 = self.user_manager.create(**user3_data)
manager = self.history_manager
serializer = self.history_serializer
item = manager.create(name='history1', user=user2)
self.log('serialization should reflect no ratings')
serialized = serializer.serialize(item, ['user_rating', 'community_rating'], user=user2)
self.assertEqual(serialized['user_rating'], None)
self.assertEqual(serialized['community_rating']['count'], 0)
self.assertEqual(serialized['community_rating']['average'], 0.0)
self.log('serialization should reflect ratings')
manager.rate(item, user2, 1)
manager.rate(item, user3, 4)
serialized = serializer.serialize(item, ['user_rating', 'community_rating'], user=user2)
self.assertEqual(serialized['user_rating'], 1)
self.assertEqual(serialized['community_rating']['count'], 2)
self.assertEqual(serialized['community_rating']['average'], 2.5)
self.assertIsJsonifyable(serialized)
self.log('serialization of user_rating without user should error')
self.assertRaises(base.ModelSerializingError,
serializer.serialize, item, ['user_rating'])
class HistoryFiltersTestCase(BaseTestCase):
def set_up_managers(self):
super(HistoryFiltersTestCase, self).set_up_managers()
self.history_manager = HistoryManager(self.app)
self.filter_parser = HistoryFilters(self.app)
# ---- functional and orm filter splitting and resolution
def test_parse_filters(self):
filters = self.filter_parser.parse_filters([
('name', 'eq', 'wot'),
('deleted', 'eq', 'True'),
('annotation', 'has', 'hrrmm')
])
self.log('both orm and fn filters should be parsed and returned')
self.assertEqual(len(filters), 3)
self.log('values should be parsed')
self.assertIsInstance(filters[1].right, sqlalchemy.sql.elements.True_)
def test_parse_filters_invalid_filters(self):
self.log('should error on non-column attr')
self.assertRaises(exceptions.RequestParameterInvalidException, self.filter_parser.parse_filters, [
('merp', 'eq', 'wot'),
])
self.log('should error on non-whitelisted attr')
self.assertRaises(exceptions.RequestParameterInvalidException, self.filter_parser.parse_filters, [
('user_id', 'eq', 'wot'),
])
self.log('should error on non-whitelisted op')
self.assertRaises(exceptions.RequestParameterInvalidException, self.filter_parser.parse_filters, [
('name', 'lt', 'wot'),
])
self.log('should error on non-listed fn op')
self.assertRaises(exceptions.RequestParameterInvalidException, self.filter_parser.parse_filters, [
('annotation', 'like', 'wot'),
])
self.log('should error on val parsing error')
self.assertRaises(exceptions.RequestParameterInvalidException, self.filter_parser.parse_filters, [
('deleted', 'eq', 'true'),
])
def test_orm_filter_parsing(self):
user2 = self.user_manager.create(**user2_data)
history1 = self.history_manager.create(name='history1', user=user2)
history2 = self.history_manager.create(name='history2', user=user2)
history3 = self.history_manager.create(name='history3', user=user2)
filters = self.filter_parser.parse_filters([
('name', 'like', 'history%'),
])
histories = self.history_manager.list(filters=filters)
# for h in histories:
# print h.name
self.assertEqual(histories, [history1, history2, history3])
filters = self.filter_parser.parse_filters([('name', 'like', '%2'), ])
self.assertEqual(self.history_manager.list(filters=filters), [history2])
filters = self.filter_parser.parse_filters([('name', 'eq', 'history2'), ])
self.assertEqual(self.history_manager.list(filters=filters), [history2])
self.history_manager.update(history1, dict(deleted=True))
filters = self.filter_parser.parse_filters([('deleted', 'eq', 'True'), ])
self.assertEqual(self.history_manager.list(filters=filters), [history1])
filters = self.filter_parser.parse_filters([('deleted', 'eq', 'False'), ])
self.assertEqual(self.history_manager.list(filters=filters), [history2, history3])
self.assertEqual(self.history_manager.list(), [history1, history2, history3])
self.history_manager.update(history3, dict(deleted=True))
self.history_manager.update(history1, dict(importable=True))
self.history_manager.update(history2, dict(importable=True))
filters = self.filter_parser.parse_filters([
('deleted', 'eq', 'True'),
('importable', 'eq', 'True'),
])
self.assertEqual(self.history_manager.list(filters=filters), [history1])
self.assertEqual(self.history_manager.list(), [history1, history2, history3])
def test_fn_filter_parsing(self):
user2 = self.user_manager.create(**user2_data)
history1 = self.history_manager.create(name='history1', user=user2)
history2 = self.history_manager.create(name='history2', user=user2)
history3 = self.history_manager.create(name='history3', user=user2)
filters = self.filter_parser.parse_filters([('annotation', 'has', 'no play'), ])
anno_filter = filters[0]
history3.add_item_annotation(self.trans.sa_session, user2, history3, "All work and no play")
self.trans.sa_session.flush()
self.assertTrue(anno_filter(history3))
self.assertFalse(anno_filter(history2))
self.assertEqual(self.history_manager.list(filters=filters), [history3])
self.log('should allow combinations of orm and fn filters')
self.history_manager.update(history3, dict(importable=True))
self.history_manager.update(history2, dict(importable=True))
history1.add_item_annotation(self.trans.sa_session, user2, history1, "All work and no play")
self.trans.sa_session.flush()
shining_examples = self.history_manager.list(filters=self.filter_parser.parse_filters([
('importable', 'eq', 'True'),
('annotation', 'has', 'no play'),
]))
self.assertEqual(shining_examples, [history3])
def test_fn_filter_currying(self):
self.filter_parser.fn_filter_parsers = {
'name_len': {'op': {'lt': lambda i, v: len(i.name) < v}, 'val': int}
}
self.log('should be 2 filters now')
self.assertEqual(len(self.filter_parser.fn_filter_parsers), 1)
filters = self.filter_parser.parse_filters([
('name_len', 'lt', '4')
])
self.log('should have parsed out a single filter')
self.assertEqual(len(filters), 1)
filter_ = filters[0]
fake = galaxy_mock.OpenObject()
fake.name = '123'
self.log('123 should return true through the filter')
self.assertTrue(filter_(fake))
fake.name = '1234'
self.log('1234 should return false through the filter')
self.assertFalse(filter_(fake))
def test_list(self):
"""
Test limit and offset in conjunction with both orm and fn filtering.
"""
user2 = self.user_manager.create(**user2_data)
history1 = self.history_manager.create(name='history1', user=user2)
history2 = self.history_manager.create(name='history2', user=user2)
history3 = self.history_manager.create(name='history3', user=user2)
history4 = self.history_manager.create(name='history4', user=user2)
self.history_manager.delete(history1)
self.history_manager.delete(history2)
self.history_manager.delete(history3)
test_annotation = "testing"
history2.add_item_annotation(self.trans.sa_session, user2, history2, test_annotation)
self.trans.sa_session.flush()
history3.add_item_annotation(self.trans.sa_session, user2, history3, test_annotation)
self.trans.sa_session.flush()
history3.add_item_annotation(self.trans.sa_session, user2, history4, test_annotation)
self.trans.sa_session.flush()
all_histories = [history1, history2, history3, history4]
deleted_and_annotated = [history2, history3]
self.log("no offset, no limit should work")
self.assertEqual(self.history_manager.list(offset=None, limit=None), all_histories)
self.assertEqual(self.history_manager.list(), all_histories)
self.log("no offset, limit should work")
self.assertEqual(self.history_manager.list(limit=2), [history1, history2])
self.log("offset, no limit should work")
self.assertEqual(self.history_manager.list(offset=1), [history2, history3, history4])
self.log("offset, limit should work")
self.assertEqual(self.history_manager.list(offset=1, limit=1), [history2])
self.log("zero limit should return empty list")
self.assertEqual(self.history_manager.list(limit=0), [])
self.log("past len offset should return empty list")
self.assertEqual(self.history_manager.list(offset=len(all_histories)), [])
self.log("negative limit should return full list")
self.assertEqual(self.history_manager.list(limit=-1), all_histories)
self.log("negative offset should return full list")
self.assertEqual(self.history_manager.list(offset=-1), all_histories)
filters = [model.History.deleted == true()]
self.log("orm filtered, no offset, no limit should work")
found = self.history_manager.list(filters=filters)
self.assertEqual(found, [history1, history2, history3])
self.log("orm filtered, no offset, limit should work")
found = self.history_manager.list(filters=filters, limit=2)
self.assertEqual(found, [history1, history2])
self.log("orm filtered, offset, no limit should work")
found = self.history_manager.list(filters=filters, offset=1)
self.assertEqual(found, [history2, history3])
self.log("orm filtered, offset, limit should work")
found = self.history_manager.list(filters=filters, offset=1, limit=1)
self.assertEqual(found, [history2])
filters = self.filter_parser.parse_filters([('annotation', 'has', test_annotation)])
self.log("fn filtered, no offset, no limit should work")
found = self.history_manager.list(filters=filters)
self.assertEqual(found, [history2, history3, history4])
self.log("fn filtered, no offset, limit should work")
found = self.history_manager.list(filters=filters, limit=2)
self.assertEqual(found, [history2, history3])
self.log("fn filtered, offset, no limit should work")
found = self.history_manager.list(filters=filters, offset=1)
self.assertEqual(found, [history3, history4])
self.log("fn filtered, offset, limit should work")
found = self.history_manager.list(filters=filters, offset=1, limit=1)
self.assertEqual(found, [history3])
filters = self.filter_parser.parse_filters([
('deleted', 'eq', 'True'),
('annotation', 'has', test_annotation)
])
self.log("orm and fn filtered, no offset, no limit should work")
found = self.history_manager.list(filters=filters)
self.assertEqual(found, [history2, history3])
self.log("orm and fn filtered, no offset, limit should work")
found = self.history_manager.list(filters=filters, limit=1)
self.assertEqual(found, [history2])
self.log("orm and fn filtered, offset, no limit should work")
found = self.history_manager.list(filters=filters, offset=1)
self.assertEqual(found, [history3])
self.log("orm and fn filtered, offset, limit should work")
found = self.history_manager.list(filters=filters, offset=1, limit=1)
self.assertEqual(found, [history3])
self.log("orm and fn filtered, zero limit should return empty list")
found = self.history_manager.list(filters=filters, limit=0)
self.assertEqual(found, [])
self.log("orm and fn filtered, past len offset should return empty list")
found = self.history_manager.list(filters=filters, offset=len(deleted_and_annotated))
self.assertEqual(found, [])
self.log("orm and fn filtered, negative limit should return full list")
found = self.history_manager.list(filters=filters, limit=-1)
self.assertEqual(found, deleted_and_annotated)
self.log("orm and fn filtered, negative offset should return full list")
found = self.history_manager.list(filters=filters, offset=-1)
self.assertEqual(found, deleted_and_annotated)
class HistoryManagerTestCase(BaseTestCase):
def set_up_managers(self):
super(HistoryManagerTestCase, self).set_up_managers()
self.history_manager = HistoryManager(self.app)
self.hda_manager = hdas.HDAManager(self.app)
def add_hda_to_history(self, history, **kwargs):
dataset = self.hda_manager.dataset_manager.create()
hda = self.hda_manager.create(history=history, dataset=dataset, **kwargs)
return hda
def test_base(self):
user2 = self.user_manager.create(**user2_data)
user3 = self.user_manager.create(**user3_data)
self.log("should be able to create a new history")
history1 = self.history_manager.create(name='history1', user=user2)
self.assertIsInstance(history1, model.History)
self.assertEqual(history1.name, 'history1')
self.assertEqual(history1.user, user2)
self.assertEqual(history1, self.trans.sa_session.query(model.History).get(history1.id))
self.assertEqual(history1,
self.trans.sa_session.query(model.History).filter(model.History.name == 'history1').one())
self.assertEqual(history1,
self.trans.sa_session.query(model.History).filter(model.History.user == user2).one())
history2 = self.history_manager.copy(history1, user=user3)
self.log("should be able to query")
histories = self.trans.sa_session.query(model.History).all()
self.assertEqual(self.history_manager.one(filters=(model.History.id == history1.id)), history1)
self.assertEqual(self.history_manager.list(), histories)
self.assertEqual(self.history_manager.by_id(history1.id), history1)
self.assertEqual(self.history_manager.by_ids([history2.id, history1.id]), [history2, history1])
self.log("should be able to limit and offset")
self.assertEqual(self.history_manager.list(limit=1), histories[0:1])
self.assertEqual(self.history_manager.list(offset=1), histories[1:])
self.assertEqual(self.history_manager.list(limit=1, offset=1), histories[1:2])
self.assertEqual(self.history_manager.list(limit=0), [])
self.assertEqual(self.history_manager.list(offset=3), [])
self.log("should be able to order")
history3 = self.history_manager.create(name="history3", user=user2)
name_first_then_time = (model.History.name, sqlalchemy.desc(model.History.create_time))
self.assertEqual(self.history_manager.list(order_by=name_first_then_time),
[history2, history1, history3])
def test_copy(self):
user2 = self.user_manager.create(**user2_data)
user3 = self.user_manager.create(**user3_data)
self.log("should be able to copy a history (and it's hdas)")
history1 = self.history_manager.create(name='history1', user=user2)
tags = [u'tag-one']
annotation = u'history annotation'
self.history_manager.set_tags(history1, tags, user=user2)
self.history_manager.annotate(history1, annotation, user=user2)
hda = self.add_hda_to_history(history1, name='wat')
hda_tags = [u'tag-one', u'tag-two']
hda_annotation = u'annotation'
self.hda_manager.set_tags(hda, hda_tags, user=user2)
self.hda_manager.annotate(hda, hda_annotation, user=user2)
history2 = self.history_manager.copy(history1, user=user3)
self.assertIsInstance(history2, model.History)
self.assertEqual(history2.user, user3)
self.assertEqual(history2, self.trans.sa_session.query(model.History).get(history2.id))
self.assertEqual(history2.name, history1.name)
self.assertNotEqual(history2, history1)
copied_hda = history2.datasets[0]
copied_hda_tags = self.hda_manager.get_tags(copied_hda)
self.assertEqual(sorted(hda_tags), sorted(copied_hda_tags))
copied_hda_annotation = self.hda_manager.annotation(copied_hda)
self.assertEqual(hda_annotation, copied_hda_annotation)
def test_has_user(self):
owner = self.user_manager.create(**user2_data)
non_owner = self.user_manager.create(**user3_data)
item1 = self.history_manager.create(user=owner)
item2 = self.history_manager.create(user=owner)
self.history_manager.create(user=non_owner)
self.log("should be able to list items by user")
user_histories = self.history_manager.by_user(owner)
self.assertEqual(user_histories, [item1, item2])
def test_ownable(self):
owner = self.user_manager.create(**user2_data)
non_owner = self.user_manager.create(**user3_data)
item1 = self.history_manager.create(user=owner)
self.log("should be able to poll whether a given user owns an item")
self.assertTrue(self.history_manager.is_owner(item1, owner))
self.assertFalse(self.history_manager.is_owner(item1, non_owner))
self.log("should raise an error when checking ownership with non-owner")
self.assertRaises(exceptions.ItemOwnershipException,
self.history_manager.error_unless_owner, item1, non_owner)
self.assertRaises(exceptions.ItemOwnershipException,
self.history_manager.get_owned, item1.id, non_owner)
self.log("should not raise an error when checking ownership with owner")
self.assertEqual(self.history_manager.error_unless_owner(item1, owner), item1)
self.assertEqual(self.history_manager.get_owned(item1.id, owner), item1)
self.log("should not raise an error when checking ownership with admin")
self.assertTrue(self.history_manager.is_owner(item1, self.admin_user))
self.assertEqual(self.history_manager.error_unless_owner(item1, self.admin_user), item1)
self.assertEqual(self.history_manager.get_owned(item1.id, self.admin_user), item1)
def test_accessible(self):
owner = self.user_manager.create(**user2_data)
item1 = self.history_manager.create(user=owner)
non_owner = self.user_manager.create(**user3_data)
self.log("should be inaccessible by default except to owner")
self.assertTrue(self.history_manager.is_accessible(item1, owner))
self.assertTrue(self.history_manager.is_accessible(item1, self.admin_user))
self.assertFalse(self.history_manager.is_accessible(item1, non_owner))
self.log("should raise an error when checking accessibility with non-owner")
self.assertRaises(exceptions.ItemAccessibilityException,
self.history_manager.error_unless_accessible, item1, non_owner)
self.assertRaises(exceptions.ItemAccessibilityException,
self.history_manager.get_accessible, item1.id, non_owner)
self.log("should not raise an error when checking ownership with owner")
self.assertEqual(self.history_manager.error_unless_accessible(item1, owner), item1)
self.assertEqual(self.history_manager.get_accessible(item1.id, owner), item1)
self.log("should not raise an error when checking ownership with admin")
self.assertTrue(self.history_manager.is_accessible(item1, self.admin_user))
self.assertEqual(self.history_manager.error_unless_accessible(item1, self.admin_user), item1)
self.assertEqual(self.history_manager.get_accessible(item1.id, self.admin_user), item1)
def test_importable(self):
owner = self.user_manager.create(**user2_data)
self.trans.set_user(owner)
non_owner = self.user_manager.create(**user3_data)
item1 = self.history_manager.create(user=owner)
self.log("should not be importable by default")
self.assertFalse(item1.importable)
self.assertIsNone(item1.slug)
self.log("should be able to make importable (accessible by link) to all users")
accessible = self.history_manager.make_importable(item1)
self.assertEqual(accessible, item1)
self.assertIsNotNone(accessible.slug)
self.assertTrue(accessible.importable)
for user in self.user_manager.list():
self.assertTrue(self.history_manager.is_accessible(accessible, user))
self.log("should be able to make non-importable/inaccessible again")
inaccessible = self.history_manager.make_non_importable(accessible)
self.assertEqual(inaccessible, accessible)
self.assertIsNotNone(inaccessible.slug)
self.assertFalse(inaccessible.importable)
self.assertTrue(self.history_manager.is_accessible(inaccessible, owner))
self.assertFalse(self.history_manager.is_accessible(inaccessible, non_owner))
self.assertTrue(self.history_manager.is_accessible(inaccessible, self.admin_user))
def test_published(self):
owner = self.user_manager.create(**user2_data)
self.trans.set_user(owner)
non_owner = self.user_manager.create(**user3_data)
item1 = self.history_manager.create(user=owner)
self.log("should not be published by default")
self.assertFalse(item1.published)
self.assertIsNone(item1.slug)
self.log("should be able to publish (listed publicly) to all users")
published = self.history_manager.publish(item1)
self.assertEqual(published, item1)
self.assertTrue(published.published)
# note: publishing sets importable to true as well
self.assertTrue(published.importable)
self.assertIsNotNone(published.slug)
for user in self.user_manager.list():
self.assertTrue(self.history_manager.is_accessible(published, user))
self.log("should be able to make non-importable/inaccessible again")
unpublished = self.history_manager.unpublish(published)
self.assertEqual(unpublished, published)
self.assertFalse(unpublished.published)
# note: unpublishing does not make non-importable, you must explicitly do that separately
self.assertTrue(published.importable)
self.history_manager.make_non_importable(unpublished)
self.assertFalse(published.importable)
# note: slug still remains after unpublishing
self.assertIsNotNone(unpublished.slug)
self.assertTrue(self.history_manager.is_accessible(unpublished, owner))
self.assertFalse(self.history_manager.is_accessible(unpublished, non_owner))
self.assertTrue(self.history_manager.is_accessible(unpublished, self.admin_user))
def test_sharable(self):
owner = self.user_manager.create(**user2_data)
self.trans.set_user(owner)
item1 = self.history_manager.create(user=owner)
non_owner = self.user_manager.create(**user3_data)
# third_party = self.user_manager.create( **user4_data )
self.log("should be unshared by default")
self.assertEqual(self.history_manager.get_share_assocs(item1), [])
self.assertEqual(item1.slug, None)
self.log("should be able to share with specific users")
share_assoc = self.history_manager.share_with(item1, non_owner)
self.assertIsInstance(share_assoc, model.HistoryUserShareAssociation)
self.assertTrue(self.history_manager.is_accessible(item1, non_owner))
self.assertEqual(
len(self.history_manager.get_share_assocs(item1)), 1)
self.assertEqual(
len(self.history_manager.get_share_assocs(item1, user=non_owner)), 1)
self.assertIsInstance(item1.slug, string_types)
self.log("should be able to unshare with specific users")
share_assoc = self.history_manager.unshare_with(item1, non_owner)
self.assertIsInstance(share_assoc, model.HistoryUserShareAssociation)
self.assertFalse(self.history_manager.is_accessible(item1, non_owner))
self.assertEqual(self.history_manager.get_share_assocs(item1), [])
self.assertEqual(
self.history_manager.get_share_assocs(item1, user=non_owner), [])
# TODO: test slug formation
def test_anon(self):
anon_user = None
self.trans.set_user(anon_user)
self.log("should not allow access and owner for anon user on a history by another anon user (None)")
anon_history1 = self.history_manager.create(user=None)
# do not set the trans.history!
self.assertFalse(self.history_manager.is_owner(anon_history1, anon_user, current_history=self.trans.history))
self.assertFalse(self.history_manager.is_accessible(anon_history1, anon_user, current_history=self.trans.history))
self.log("should allow access and owner for anon user on a history if it's the session's current history")
anon_history2 = self.history_manager.create(user=anon_user)
self.trans.set_history(anon_history2)
self.assertTrue(self.history_manager.is_owner(anon_history2, anon_user, current_history=self.trans.history))
self.assertTrue(self.history_manager.is_accessible(anon_history2, anon_user, current_history=self.trans.history))
self.log("should not allow owner or access for anon user on someone elses history")
owner = self.user_manager.create(**user2_data)
someone_elses = self.history_manager.create(user=owner)
self.assertFalse(self.history_manager.is_owner(someone_elses, anon_user, current_history=self.trans.history))
self.assertFalse(self.history_manager.is_accessible(someone_elses, anon_user, current_history=self.trans.history))
self.log("should allow access for anon user if the history is published or importable")
self.history_manager.make_importable(someone_elses)
self.assertTrue(self.history_manager.is_accessible(someone_elses, anon_user, current_history=self.trans.history))
self.history_manager.publish(someone_elses)
self.assertTrue(self.history_manager.is_accessible(someone_elses, anon_user, current_history=self.trans.history))
def test_delete_and_purge(self):
user2 = self.user_manager.create(**user2_data)
self.trans.set_user(user2)
history1 = self.history_manager.create(name='history1', user=user2)
self.trans.set_history(history1)
self.log("should allow deletion and undeletion")
self.assertFalse(history1.deleted)
self.history_manager.delete(history1)
self.assertTrue(history1.deleted)
self.history_manager.undelete(history1)
self.assertFalse(history1.deleted)
self.log("should allow purging")
history2 = self.history_manager.create(name='history2', user=user2)
self.history_manager.purge(history2)
self.assertTrue(history2.deleted)
self.assertTrue(history2.purged)
def test_current(self):
user2 = self.user_manager.create(**user2_data)
self.trans.set_user(user2)
history1 = self.history_manager.create(name='history1', user=user2)
self.trans.set_history(history1)
history2 = self.history_manager.create(name='history2', user=user2)
self.log("should be able to set or get the current history for a user")
self.assertEqual(self.history_manager.get_current(self.trans), history1)
self.assertEqual(self.history_manager.set_current(self.trans, history2), history2)
self.assertEqual(self.history_manager.get_current(self.trans), history2)
self.assertEqual(self.history_manager.set_current_by_id(self.trans, history1.id), history1)
self.assertEqual(self.history_manager.get_current(self.trans), history1)
def test_most_recently_used(self):
user2 = self.user_manager.create(**user2_data)
self.trans.set_user(user2)
history1 = self.history_manager.create(name='history1', user=user2)
self.trans.set_history(history1)
history2 = self.history_manager.create(name='history2', user=user2)
self.log("should be able to get the most recently used (updated) history for a given user")
self.assertEqual(self.history_manager.most_recent(user2), history2)
self.history_manager.update(history1, {'name': 'new name'})
self.assertEqual(self.history_manager.most_recent(user2), history1)
def test_rating(self):
user2 = self.user_manager.create(**user2_data)
manager = self.history_manager
item = manager.create(name='history1', user=user2)
self.log("should properly handle no ratings")
self.assertEqual(manager.rating(item, user2), None)
self.assertEqual(manager.ratings(item), [])
self.assertEqual(manager.ratings_avg(item), 0)
self.assertEqual(manager.ratings_count(item), 0)
self.log("should allow rating by user")
manager.rate(item, user2, 5)
self.assertEqual(manager.rating(item, user2), 5)
self.assertEqual(manager.ratings(item), [5])
self.assertEqual(manager.ratings_avg(item), 5)
self.assertEqual(manager.ratings_count(item), 1)
self.log("should allow updating")
manager.rate(item, user2, 4)
self.assertEqual(manager.rating(item, user2), 4)
self.assertEqual(manager.ratings(item), [4])
self.assertEqual(manager.ratings_avg(item), 4)
self.assertEqual(manager.ratings_count(item), 1)
self.log("should reflect multiple reviews")
user3 = self.user_manager.create(**user3_data)
self.assertEqual(manager.rating(item, user3), None)
manager.rate(item, user3, 1)
self.assertEqual(manager.rating(item, user3), 1)
self.assertEqual(manager.ratings(item), [4, 1])
self.assertEqual(manager.ratings_avg(item), 2.5)
self.assertEqual(manager.ratings_count(item), 2)
class HistoryManagerTestCase( BaseTestCase ):
def set_up_managers( self ):
super( HistoryManagerTestCase, self ).set_up_managers()
self.history_mgr = HistoryManager( self.app )
def test_base( self ):
user2 = self.user_mgr.create( self.trans, **user2_data )
user3 = self.user_mgr.create( self.trans, **user3_data )
self.log( "should be able to create a new history" )
history1 = self.history_mgr.create( self.trans, name='history1', user=user2 )
self.assertIsInstance( history1, model.History )
self.assertEqual( history1.name, 'history1' )
self.assertEqual( history1.user, user2 )
self.assertEqual( history1, self.trans.sa_session.query( model.History ).get( history1.id ) )
self.assertEqual( history1,
self.trans.sa_session.query( model.History ).filter( model.History.name == 'history1' ).one() )
self.assertEqual( history1,
self.trans.sa_session.query( model.History ).filter( model.History.user == user2 ).one() )
self.log( "should be able to copy a history" )
history2 = self.history_mgr.copy( self.trans, history1, user=user3 )
self.assertIsInstance( history2, model.History )
self.assertEqual( history2.user, user3 )
self.assertEqual( history2, self.trans.sa_session.query( model.History ).get( history2.id ) )
self.assertEqual( history2.name, history1.name )
self.assertNotEqual( history2, history1 )
self.log( "should be able to query" )
histories = self.trans.sa_session.query( model.History ).all()
self.assertEqual( self.history_mgr.one( self.trans, filters=( model.History.id == history1.id ) ), history1 )
self.assertEqual( self.history_mgr.list( self.trans ), histories )
self.assertEqual( self.history_mgr.by_id( self.trans, history1.id ), history1 )
self.assertEqual( self.history_mgr.by_ids( self.trans, [ history2.id, history1.id ] ), [ history2, history1 ] )
self.log( "should be able to limit and offset" )
self.assertEqual( self.history_mgr.list( self.trans, limit=1 ), histories[0:1] )
self.assertEqual( self.history_mgr.list( self.trans, offset=1 ), histories[1:] )
self.assertEqual( self.history_mgr.list( self.trans, limit=1, offset=1 ), histories[1:2] )
self.assertEqual( self.history_mgr.list( self.trans, limit=0 ), [] )
self.assertEqual( self.history_mgr.list( self.trans, offset=3 ), [] )
self.log( "should be able to order" )
history3 = self.history_mgr.create( self.trans, name="history3", user=user2 )
name_first_then_time = ( model.History.name, sqlalchemy.desc( model.History.create_time ) )
self.assertEqual( self.history_mgr.list( self.trans, order_by=name_first_then_time ),
[ history2, history1, history3 ] )
def test_has_user( self ):
owner = self.user_mgr.create( self.trans, **user2_data )
non_owner = self.user_mgr.create( self.trans, **user3_data )
item1 = self.history_mgr.create( self.trans, user=owner )
item2 = self.history_mgr.create( self.trans, user=owner )
item3 = self.history_mgr.create( self.trans, user=non_owner )
self.log( "should be able to list items by user" )
user_histories = self.history_mgr.by_user( self.trans, owner )
self.assertEqual( user_histories, [ item1, item2 ] )
def test_ownable( self ):
owner = self.user_mgr.create( self.trans, **user2_data )
non_owner = self.user_mgr.create( self.trans, **user3_data )
item1 = self.history_mgr.create( self.trans, user=owner )
self.log( "should be able to poll whether a given user owns an item" )
self.assertTrue( self.history_mgr.is_owner( self.trans, item1, owner ) )
self.assertFalse( self.history_mgr.is_owner( self.trans, item1, non_owner ) )
self.log( "should raise an error when checking ownership with non-owner" )
self.assertRaises( exceptions.ItemOwnershipException,
self.history_mgr.error_unless_owner, self.trans, item1, non_owner )
self.assertRaises( exceptions.ItemOwnershipException,
self.history_mgr.get_owned, self.trans, item1.id, non_owner )
self.log( "should not raise an error when checking ownership with owner" )
self.assertEqual( self.history_mgr.error_unless_owner( self.trans, item1, owner ), item1 )
self.assertEqual( self.history_mgr.get_owned( self.trans, item1.id, owner ), item1 )
self.log( "should not raise an error when checking ownership with admin" )
self.assertTrue( self.history_mgr.is_owner( self.trans, item1, self.admin_user ) )
self.assertEqual( self.history_mgr.error_unless_owner( self.trans, item1, self.admin_user ), item1 )
self.assertEqual( self.history_mgr.get_owned( self.trans, item1.id, self.admin_user ), item1 )
def test_accessible( self ):
owner = self.user_mgr.create( self.trans, **user2_data )
item1 = self.history_mgr.create( self.trans, user=owner )
non_owner = self.user_mgr.create( self.trans, **user3_data )
self.log( "should be inaccessible by default except to owner" )
self.assertTrue( self.history_mgr.is_accessible( self.trans, item1, owner ) )
self.assertTrue( self.history_mgr.is_accessible( self.trans, item1, self.admin_user ) )
self.assertFalse( self.history_mgr.is_accessible( self.trans, item1, non_owner ) )
self.log( "should raise an error when checking accessibility with non-owner" )
self.assertRaises( exceptions.ItemAccessibilityException,
self.history_mgr.error_unless_accessible, self.trans, item1, non_owner )
self.assertRaises( exceptions.ItemAccessibilityException,
self.history_mgr.get_accessible, self.trans, item1.id, non_owner )
self.log( "should not raise an error when checking ownership with owner" )
self.assertEqual( self.history_mgr.error_unless_accessible( self.trans, item1, owner ), item1 )
self.assertEqual( self.history_mgr.get_accessible( self.trans, item1.id, owner ), item1 )
self.log( "should not raise an error when checking ownership with admin" )
self.assertTrue( self.history_mgr.is_accessible( self.trans, item1, self.admin_user ) )
self.assertEqual( self.history_mgr.error_unless_accessible( self.trans, item1, self.admin_user ), item1 )
self.assertEqual( self.history_mgr.get_accessible( self.trans, item1.id, self.admin_user ), item1 )
def test_importable( self ):
owner = self.user_mgr.create( self.trans, **user2_data )
self.trans.set_user( owner )
non_owner = self.user_mgr.create( self.trans, **user3_data )
item1 = self.history_mgr.create( self.trans, user=owner )
self.log( "should not be importable by default" )
self.assertFalse( item1.importable )
self.assertIsNone( item1.slug )
self.log( "should be able to make importable (accessible by link) to all users" )
accessible = self.history_mgr.make_importable( self.trans, item1 )
self.assertEqual( accessible, item1 )
self.assertIsNotNone( accessible.slug )
self.assertTrue( accessible.importable )
for user in self.user_mgr.list( self.trans ):
self.assertTrue( self.history_mgr.is_accessible( self.trans, accessible, user ) )
self.log( "should be able to make non-importable/inaccessible again" )
inaccessible = self.history_mgr.make_non_importable( self.trans, accessible )
self.assertEqual( inaccessible, accessible )
self.assertIsNotNone( inaccessible.slug )
self.assertFalse( inaccessible.importable )
self.assertTrue( self.history_mgr.is_accessible( self.trans, inaccessible, owner ) )
self.assertFalse( self.history_mgr.is_accessible( self.trans, inaccessible, non_owner ) )
self.assertTrue( self.history_mgr.is_accessible( self.trans, inaccessible, self.admin_user ) )
def test_published( self ):
owner = self.user_mgr.create( self.trans, **user2_data )
self.trans.set_user( owner )
non_owner = self.user_mgr.create( self.trans, **user3_data )
item1 = self.history_mgr.create( self.trans, user=owner )
self.log( "should not be published by default" )
self.assertFalse( item1.published )
self.assertIsNone( item1.slug )
self.log( "should be able to publish (listed publicly) to all users" )
published = self.history_mgr.publish( self.trans, item1 )
self.assertEqual( published, item1 )
self.assertTrue( published.published )
# note: publishing sets importable to true as well
self.assertTrue( published.importable )
self.assertIsNotNone( published.slug )
for user in self.user_mgr.list( self.trans ):
self.assertTrue( self.history_mgr.is_accessible( self.trans, published, user ) )
self.log( "should be able to make non-importable/inaccessible again" )
unpublished = self.history_mgr.unpublish( self.trans, published )
self.assertEqual( unpublished, published )
self.assertFalse( unpublished.published )
# note: unpublishing does not make non-importable, you must explicitly do that separately
self.assertTrue( published.importable )
self.history_mgr.make_non_importable( self.trans, unpublished )
self.assertFalse( published.importable )
# note: slug still remains after unpublishing
self.assertIsNotNone( unpublished.slug )
self.assertTrue( self.history_mgr.is_accessible( self.trans, unpublished, owner ) )
self.assertFalse( self.history_mgr.is_accessible( self.trans, unpublished, non_owner ) )
self.assertTrue( self.history_mgr.is_accessible( self.trans, unpublished, self.admin_user ) )
def test_sharable( self ):
owner = self.user_mgr.create( self.trans, **user2_data )
self.trans.set_user( owner )
item1 = self.history_mgr.create( self.trans, user=owner )
non_owner = self.user_mgr.create( self.trans, **user3_data )
#third_party = self.user_mgr.create( self.trans, **user4_data )
self.log( "should be unshared by default" )
self.assertEqual( self.history_mgr.get_share_assocs( self.trans, item1 ), [] )
self.assertEqual( item1.slug, None )
self.log( "should be able to share with specific users" )
share_assoc = self.history_mgr.share_with( self.trans, item1, non_owner )
self.assertIsInstance( share_assoc, model.HistoryUserShareAssociation )
self.assertTrue( self.history_mgr.is_accessible( self.trans, item1, non_owner ) )
self.assertEqual(
len( self.history_mgr.get_share_assocs( self.trans, item1 ) ), 1 )
self.assertEqual(
len( self.history_mgr.get_share_assocs( self.trans, item1, user=non_owner ) ), 1 )
self.assertIsInstance( item1.slug, basestring )
self.log( "should be able to unshare with specific users" )
share_assoc = self.history_mgr.unshare_with( self.trans, item1, non_owner )
self.assertIsInstance( share_assoc, model.HistoryUserShareAssociation )
self.assertFalse( self.history_mgr.is_accessible( self.trans, item1, non_owner ) )
self.assertEqual( self.history_mgr.get_share_assocs( self.trans, item1 ), [] )
self.assertEqual(
self.history_mgr.get_share_assocs( self.trans, item1, user=non_owner ), [] )
#TODO: test slug formation
def test_anon( self ):
anon_user = None
self.trans.set_user( anon_user )
self.log( "should not allow access and owner for anon user on a history by another anon user (None)" )
anon_history1 = self.history_mgr.create( self.trans, user=None )
self.assertFalse( self.history_mgr.is_owner( self.trans, anon_history1, anon_user ) )
self.assertFalse( self.history_mgr.is_accessible( self.trans, anon_history1, anon_user ) )
self.log( "should allow access and owner for anon user on a history if it's the session's current history" )
anon_history2 = self.history_mgr.create( self.trans, user=anon_user )
self.trans.set_history( anon_history2 )
self.assertTrue( self.history_mgr.is_owner( self.trans, anon_history2, anon_user ) )
self.assertTrue( self.history_mgr.is_accessible( self.trans, anon_history2, anon_user ) )
self.log( "should not allow owner or access for anon user on someone elses history" )
owner = self.user_mgr.create( self.trans, **user2_data )
someone_elses = self.history_mgr.create( self.trans, user=owner )
self.assertFalse( self.history_mgr.is_owner( self.trans, someone_elses, anon_user ) )
self.assertFalse( self.history_mgr.is_accessible( self.trans, someone_elses, anon_user ) )
self.log( "should allow access for anon user if the history is published or importable" )
self.history_mgr.make_importable( self.trans, someone_elses )
self.assertTrue( self.history_mgr.is_accessible( self.trans, someone_elses, anon_user ) )
self.history_mgr.publish( self.trans, someone_elses )
self.assertTrue( self.history_mgr.is_accessible( self.trans, someone_elses, anon_user ) )
def test_delete_and_purge( self ):
user2 = self.user_mgr.create( self.trans, **user2_data )
self.trans.set_user( user2 )
history1 = self.history_mgr.create( self.trans, name='history1', user=user2 )
self.trans.set_history( history1 )
self.assertFalse( history1.deleted )
self.history_mgr.delete( self.trans, history1 )
self.assertTrue( history1.deleted )
self.history_mgr.undelete( self.trans, history1 )
self.assertFalse( history1.deleted )
history2 = self.history_mgr.create( self.trans, name='history2', user=user2 )
self.history_mgr.purge( self.trans, history1 )
self.assertTrue( history1.purged )
def test_histories( self ):
user2 = self.user_mgr.create( self.trans, **user2_data )
self.trans.set_user( user2 )
history1 = self.history_mgr.create( self.trans, name='history1', user=user2 )
self.trans.set_history( history1 )
history2 = self.history_mgr.create( self.trans, name='history2', user=user2 )
self.log( "should be able to set or get the current history for a user" )
self.assertEqual( self.history_mgr.get_current( self.trans ), history1 )
self.assertEqual( self.history_mgr.set_current( self.trans, history2 ), history2 )
self.assertEqual( self.history_mgr.get_current( self.trans ), history2 )
self.assertEqual( self.history_mgr.set_current_by_id( self.trans, history1.id ), history1 )
self.assertEqual( self.history_mgr.get_current( self.trans ), history1 )
class HistorySerializerTestCase( BaseTestCase ):
def set_up_managers( self ):
super( HistorySerializerTestCase, self ).set_up_managers()
self.history_mgr = HistoryManager( self.app )
self.hda_mgr = hdas.HDAManager( self.app )
self.history_serializer = HistorySerializer( self.app )
def test_views( self ):
user2 = self.user_mgr.create( self.trans, **user2_data )
history1 = self.history_mgr.create( self.trans, name='history1', user=user2 )
self.log( 'should have a summary view' )
summary_view = self.history_serializer.serialize_to_view( self.trans, history1, view='summary' )
self.assertKeys( summary_view, self.history_serializer.views[ 'summary' ] )
self.log( 'should have a detailed view' )
detailed_view = self.history_serializer.serialize_to_view( self.trans, history1, view='detailed' )
self.assertKeys( detailed_view, self.history_serializer.views[ 'detailed' ] )
self.log( 'should have the summary view as default view' )
default_view = self.history_serializer.serialize_to_view( self.trans, history1, default_view='summary' )
self.assertKeys( summary_view, self.history_serializer.views[ 'summary' ] )
self.log( 'should have a serializer for all serializable keys' )
need_no_serializers = ( basestring, bool, type( None ) )
for key in self.history_serializer.serializable_keyset:
instantiated_attribute = getattr( history1, key, None )
if not ( ( key in self.history_serializer.serializers )
or ( isinstance( instantiated_attribute, need_no_serializers ) ) ):
self.fail( 'no serializer for: %s (%s)' % ( key, instantiated_attribute ) )
else:
self.assertTrue( True, 'all serializable keys have a serializer' )
def test_views_and_keys( self ):
user2 = self.user_mgr.create( self.trans, **user2_data )
history1 = self.history_mgr.create( self.trans, name='history1', user=user2 )
self.log( 'should be able to use keys with views' )
serialized = self.history_serializer.serialize_to_view( self.trans, history1,
view='summary', keys=[ 'state_ids', 'user_id' ] )
self.assertKeys( serialized,
self.history_serializer.views[ 'summary' ] + [ 'state_ids', 'user_id' ] )
self.log( 'should be able to use keys on their own' )
serialized = self.history_serializer.serialize_to_view( self.trans, history1,
keys=[ 'state_ids', 'user_id' ] )
self.assertKeys( serialized, [ 'state_ids', 'user_id' ] )
def test_sharable( self ):
user2 = self.user_mgr.create( self.trans, **user2_data )
history1 = self.history_mgr.create( self.trans, name='history1', user=user2 )
self.log( 'should have a serializer for all SharableModel keys' )
sharable_attrs = [ 'user_id', 'username_and_slug', 'importable', 'published', 'slug' ]
serialized = self.history_serializer.serialize( self.trans, history1, sharable_attrs )
self.assertKeys( serialized, sharable_attrs )
def test_purgable( self ):
user2 = self.user_mgr.create( self.trans, **user2_data )
history1 = self.history_mgr.create( self.trans, name='history1', user=user2 )
self.log( 'deleted and purged should be returned in their default states' )
keys = [ 'deleted', 'purged' ]
serialized = self.history_serializer.serialize( self.trans, history1, keys )
self.assertEqual( serialized[ 'deleted' ], False )
self.assertEqual( serialized[ 'purged' ], False )
self.log( 'deleted and purged should return their current state' )
self.history_mgr.delete( self.trans, history1 )
serialized = self.history_serializer.serialize( self.trans, history1, keys )
self.assertEqual( serialized[ 'deleted' ], True )
self.assertEqual( serialized[ 'purged' ], False )
self.history_mgr.purge( self.trans, history1 )
serialized = self.history_serializer.serialize( self.trans, history1, keys )
self.assertEqual( serialized[ 'deleted' ], True )
self.assertEqual( serialized[ 'purged' ], True )
def test_history_serializers( self ):
user2 = self.user_mgr.create( self.trans, **user2_data )
history1 = self.history_mgr.create( self.trans, name='history1', user=user2 )
serialized = self.history_serializer.serialize( self.trans, history1, [ 'size', 'nice_size' ])
self.assertIsInstance( serialized[ 'size' ], int )
self.assertIsInstance( serialized[ 'nice_size' ], basestring )
def test_contents( self ):
user2 = self.user_mgr.create( self.trans, **user2_data )
history1 = self.history_mgr.create( self.trans, name='history1', user=user2 )
self.log( 'a history with no contents should be properly reflected in empty, etc.' )
keys = [ 'empty', 'count', 'state_ids', 'state_details', 'state', 'hdas' ]
serialized = self.history_serializer.serialize( self.trans, history1, keys )
self.assertEqual( serialized[ 'state' ], 'new' )
self.assertEqual( serialized[ 'empty' ], True )
self.assertEqual( serialized[ 'count' ], 0 )
self.assertEqual( sum( serialized[ 'state_details' ].values() ), 0 )
self.assertEqual( serialized[ 'state_ids' ][ 'ok' ], [] )
self.assertIsInstance( serialized[ 'hdas' ], list )
self.log( 'a history with contents should be properly reflected in empty, etc.' )
hda1 = self.hda_mgr.create( self.trans, history=history1, hid=1 )
self.hda_mgr.update( self.trans, hda1, dict( state='ok' ) )
serialized = self.history_serializer.serialize( self.trans, history1, keys )
self.assertEqual( serialized[ 'state' ], 'ok' )
self.assertEqual( serialized[ 'empty' ], False )
self.assertEqual( serialized[ 'count' ], 1 )
self.assertEqual( serialized[ 'state_details' ][ 'ok' ], 1 )
self.assertIsInstance( serialized[ 'state_ids' ][ 'ok' ], list )
self.assertIsInstance( serialized[ 'hdas' ], list )
self.assertIsInstance( serialized[ 'hdas' ][0], basestring )
serialized = self.history_serializer.serialize( self.trans, history1, [ 'contents' ] )
self.assertHasKeys( serialized[ 'contents' ][0], [ 'id', 'name', 'peek', 'create_time' ])
class HistoryManagerTestCase(BaseTestCase):
def set_up_managers(self):
super(HistoryManagerTestCase, self).set_up_managers()
self.history_mgr = HistoryManager(self.app)
def test_base(self):
user2 = self.user_mgr.create(self.trans, **user2_data)
user3 = self.user_mgr.create(self.trans, **user3_data)
self.log("should be able to create a new history")
history1 = self.history_mgr.create(self.trans,
name='history1',
user=user2)
self.assertIsInstance(history1, model.History)
self.assertEqual(history1.name, 'history1')
self.assertEqual(history1.user, user2)
self.assertEqual(
history1,
self.trans.sa_session.query(model.History).get(history1.id))
self.assertEqual(
history1,
self.trans.sa_session.query(
model.History).filter(model.History.name == 'history1').one())
self.assertEqual(
history1,
self.trans.sa_session.query(
model.History).filter(model.History.user == user2).one())
self.log("should be able to copy a history")
history2 = self.history_mgr.copy(self.trans, history1, user=user3)
self.assertIsInstance(history2, model.History)
self.assertEqual(history2.user, user3)
self.assertEqual(
history2,
self.trans.sa_session.query(model.History).get(history2.id))
self.assertEqual(history2.name, history1.name)
self.assertNotEqual(history2, history1)
self.log("should be able to query")
histories = self.trans.sa_session.query(model.History).all()
self.assertEqual(
self.history_mgr.one(self.trans,
filters=(model.History.id == history1.id)),
history1)
self.assertEqual(self.history_mgr.list(self.trans), histories)
self.assertEqual(self.history_mgr.by_id(self.trans, history1.id),
history1)
self.assertEqual(
self.history_mgr.by_ids(self.trans, [history2.id, history1.id]),
[history2, history1])
self.log("should be able to limit and offset")
self.assertEqual(self.history_mgr.list(self.trans, limit=1),
histories[0:1])
self.assertEqual(self.history_mgr.list(self.trans, offset=1),
histories[1:])
self.assertEqual(self.history_mgr.list(self.trans, limit=1, offset=1),
histories[1:2])
self.assertEqual(self.history_mgr.list(self.trans, limit=0), [])
self.assertEqual(self.history_mgr.list(self.trans, offset=3), [])
self.log("should be able to order")
history3 = self.history_mgr.create(self.trans,
name="history3",
user=user2)
name_first_then_time = (model.History.name,
sqlalchemy.desc(model.History.create_time))
self.assertEqual(
self.history_mgr.list(self.trans, order_by=name_first_then_time),
[history2, history1, history3])
def test_has_user(self):
owner = self.user_mgr.create(self.trans, **user2_data)
non_owner = self.user_mgr.create(self.trans, **user3_data)
item1 = self.history_mgr.create(self.trans, user=owner)
item2 = self.history_mgr.create(self.trans, user=owner)
item3 = self.history_mgr.create(self.trans, user=non_owner)
self.log("should be able to list items by user")
user_histories = self.history_mgr.by_user(self.trans, owner)
self.assertEqual(user_histories, [item1, item2])
query = self.history_mgr._query_by_user(self.trans, owner)
self.assertEqual(query.all(), user_histories)
def test_ownable(self):
owner = self.user_mgr.create(self.trans, **user2_data)
non_owner = self.user_mgr.create(self.trans, **user3_data)
item1 = self.history_mgr.create(self.trans, user=owner)
self.log("should be able to poll whether a given user owns an item")
self.assertTrue(self.history_mgr.is_owner(self.trans, item1, owner))
self.assertFalse(
self.history_mgr.is_owner(self.trans, item1, non_owner))
self.log(
"should raise an error when checking ownership with non-owner")
self.assertRaises(exceptions.ItemOwnershipException,
self.history_mgr.error_unless_owner, self.trans,
item1, non_owner)
self.assertRaises(exceptions.ItemOwnershipException,
self.history_mgr.get_owned, self.trans, item1.id,
non_owner)
self.log(
"should not raise an error when checking ownership with owner")
self.assertEqual(
self.history_mgr.error_unless_owner(self.trans, item1, owner),
item1)
self.assertEqual(
self.history_mgr.get_owned(self.trans, item1.id, owner), item1)
self.log(
"should not raise an error when checking ownership with admin")
self.assertTrue(
self.history_mgr.is_owner(self.trans, item1, self.admin_user))
self.assertEqual(
self.history_mgr.error_unless_owner(self.trans, item1,
self.admin_user), item1)
self.assertEqual(
self.history_mgr.get_owned(self.trans, item1.id, self.admin_user),
item1)
def test_accessible(self):
owner = self.user_mgr.create(self.trans, **user2_data)
item1 = self.history_mgr.create(self.trans, user=owner)
non_owner = self.user_mgr.create(self.trans, **user3_data)
self.log("should be inaccessible by default except to owner")
self.assertTrue(
self.history_mgr.is_accessible(self.trans, item1, owner))
self.assertTrue(
self.history_mgr.is_accessible(self.trans, item1, self.admin_user))
self.assertFalse(
self.history_mgr.is_accessible(self.trans, item1, non_owner))
self.log(
"should raise an error when checking accessibility with non-owner")
self.assertRaises(exceptions.ItemAccessibilityException,
self.history_mgr.error_unless_accessible, self.trans,
item1, non_owner)
self.assertRaises(exceptions.ItemAccessibilityException,
self.history_mgr.get_accessible, self.trans,
item1.id, non_owner)
self.log(
"should not raise an error when checking ownership with owner")
self.assertEqual(
self.history_mgr.error_unless_accessible(self.trans, item1, owner),
item1)
self.assertEqual(
self.history_mgr.get_accessible(self.trans, item1.id, owner),
item1)
self.log(
"should not raise an error when checking ownership with admin")
self.assertTrue(
self.history_mgr.is_accessible(self.trans, item1, self.admin_user))
self.assertEqual(
self.history_mgr.error_unless_accessible(self.trans, item1,
self.admin_user), item1)
self.assertEqual(
self.history_mgr.get_accessible(self.trans, item1.id,
self.admin_user), item1)
def test_importable(self):
owner = self.user_mgr.create(self.trans, **user2_data)
self.trans.set_user(owner)
non_owner = self.user_mgr.create(self.trans, **user3_data)
item1 = self.history_mgr.create(self.trans, user=owner)
self.log("should not be importable by default")
self.assertFalse(item1.importable)
self.assertIsNone(item1.slug)
self.log(
"should be able to make importable (accessible by link) to all users"
)
accessible = self.history_mgr.make_importable(self.trans, item1)
self.assertEqual(accessible, item1)
self.assertIsNotNone(accessible.slug)
self.assertTrue(accessible.importable)
for user in self.user_mgr.list(self.trans):
self.assertTrue(
self.history_mgr.is_accessible(self.trans, accessible, user))
self.log("should be able to make non-importable/inaccessible again")
inaccessible = self.history_mgr.make_non_importable(
self.trans, accessible)
self.assertEqual(inaccessible, accessible)
self.assertIsNotNone(inaccessible.slug)
self.assertFalse(inaccessible.importable)
self.assertTrue(
self.history_mgr.is_accessible(self.trans, inaccessible, owner))
self.assertFalse(
self.history_mgr.is_accessible(self.trans, inaccessible,
non_owner))
self.assertTrue(
self.history_mgr.is_accessible(self.trans, inaccessible,
self.admin_user))
def test_published(self):
owner = self.user_mgr.create(self.trans, **user2_data)
self.trans.set_user(owner)
non_owner = self.user_mgr.create(self.trans, **user3_data)
item1 = self.history_mgr.create(self.trans, user=owner)
self.log("should not be published by default")
self.assertFalse(item1.published)
self.assertIsNone(item1.slug)
self.log("should be able to publish (listed publicly) to all users")
published = self.history_mgr.publish(self.trans, item1)
self.assertEqual(published, item1)
self.assertTrue(published.published)
# note: publishing sets importable to true as well
self.assertTrue(published.importable)
self.assertIsNotNone(published.slug)
for user in self.user_mgr.list(self.trans):
self.assertTrue(
self.history_mgr.is_accessible(self.trans, published, user))
self.log("should be able to make non-importable/inaccessible again")
unpublished = self.history_mgr.unpublish(self.trans, published)
self.assertEqual(unpublished, published)
self.assertFalse(unpublished.published)
# note: unpublishing does not make non-importable, you must explicitly do that separately
self.assertTrue(published.importable)
self.history_mgr.make_non_importable(self.trans, unpublished)
self.assertFalse(published.importable)
# note: slug still remains after unpublishing
self.assertIsNotNone(unpublished.slug)
self.assertTrue(
self.history_mgr.is_accessible(self.trans, unpublished, owner))
self.assertFalse(
self.history_mgr.is_accessible(self.trans, unpublished, non_owner))
self.assertTrue(
self.history_mgr.is_accessible(self.trans, unpublished,
self.admin_user))
def test_sharable(self):
owner = self.user_mgr.create(self.trans, **user2_data)
self.trans.set_user(owner)
item1 = self.history_mgr.create(self.trans, user=owner)
non_owner = self.user_mgr.create(self.trans, **user3_data)
#third_party = self.user_mgr.create( self.trans, **user4_data )
self.log("should be unshared by default")
self.assertEqual(self.history_mgr.get_share_assocs(self.trans, item1),
[])
self.assertEqual(item1.slug, None)
self.log("should be able to share with specific users")
share_assoc = self.history_mgr.share_with(self.trans, item1, non_owner)
self.assertIsInstance(share_assoc, model.HistoryUserShareAssociation)
self.assertTrue(
self.history_mgr.is_accessible(self.trans, item1, non_owner))
self.assertEqual(
len(self.history_mgr.get_share_assocs(self.trans, item1)), 1)
self.assertEqual(
len(
self.history_mgr.get_share_assocs(self.trans,
item1,
user=non_owner)), 1)
self.assertIsInstance(item1.slug, basestring)
self.log("should be able to unshare with specific users")
share_assoc = self.history_mgr.unshare_with(self.trans, item1,
non_owner)
self.assertIsInstance(share_assoc, model.HistoryUserShareAssociation)
self.assertFalse(
self.history_mgr.is_accessible(self.trans, item1, non_owner))
self.assertEqual(self.history_mgr.get_share_assocs(self.trans, item1),
[])
self.assertEqual(
self.history_mgr.get_share_assocs(self.trans,
item1,
user=non_owner), [])
#TODO: test slug formation
def test_anon(self):
anon_user = None
self.trans.set_user(anon_user)
self.log(
"should not allow access and owner for anon user on a history by another anon user (None)"
)
anon_history1 = self.history_mgr.create(self.trans, user=None)
self.assertFalse(
self.history_mgr.is_owner(self.trans, anon_history1, anon_user))
self.assertFalse(
self.history_mgr.is_accessible(self.trans, anon_history1,
anon_user))
self.log(
"should allow access and owner for anon user on a history if it's the session's current history"
)
anon_history2 = self.history_mgr.create(self.trans, user=anon_user)
self.trans.set_history(anon_history2)
self.assertTrue(
self.history_mgr.is_owner(self.trans, anon_history2, anon_user))
self.assertTrue(
self.history_mgr.is_accessible(self.trans, anon_history2,
anon_user))
self.log(
"should not allow owner or access for anon user on someone elses history"
)
owner = self.user_mgr.create(self.trans, **user2_data)
someone_elses = self.history_mgr.create(self.trans, user=owner)
self.assertFalse(
self.history_mgr.is_owner(self.trans, someone_elses, anon_user))
self.assertFalse(
self.history_mgr.is_accessible(self.trans, someone_elses,
anon_user))
self.log(
"should allow access for anon user if the history is published or importable"
)
self.history_mgr.make_importable(self.trans, someone_elses)
self.assertTrue(
self.history_mgr.is_accessible(self.trans, someone_elses,
anon_user))
self.history_mgr.publish(self.trans, someone_elses)
self.assertTrue(
self.history_mgr.is_accessible(self.trans, someone_elses,
anon_user))
def test_delete_and_purge(self):
user2 = self.user_mgr.create(self.trans, **user2_data)
self.trans.set_user(user2)
history1 = self.history_mgr.create(self.trans,
name='history1',
user=user2)
self.trans.set_history(history1)
self.assertFalse(history1.deleted)
self.history_mgr.delete(self.trans, history1)
self.assertTrue(history1.deleted)
self.history_mgr.undelete(self.trans, history1)
self.assertFalse(history1.deleted)
history2 = self.history_mgr.create(self.trans,
name='history2',
user=user2)
self.history_mgr.purge(self.trans, history1)
self.assertTrue(history1.purged)
def test_histories(self):
user2 = self.user_mgr.create(self.trans, **user2_data)
self.trans.set_user(user2)
history1 = self.history_mgr.create(self.trans,
name='history1',
user=user2)
self.trans.set_history(history1)
history2 = self.history_mgr.create(self.trans,
name='history2',
user=user2)
self.log("should be able to set or get the current history for a user")
self.assertEqual(self.history_mgr.get_current(self.trans), history1)
self.assertEqual(self.history_mgr.set_current(self.trans, history2),
history2)
self.assertEqual(self.history_mgr.get_current(self.trans), history2)
self.assertEqual(
self.history_mgr.set_current_by_id(self.trans, history1.id),
history1)
self.assertEqual(self.history_mgr.get_current(self.trans), history1)
class HistorySerializerTestCase(BaseTestCase):
def set_up_managers(self):
super(HistorySerializerTestCase, self).set_up_managers()
self.history_mgr = HistoryManager(self.app)
self.hda_mgr = hdas.HDAManager(self.app)
self.history_serializer = HistorySerializer(self.app)
def test_views(self):
user2 = self.user_mgr.create(self.trans, **user2_data)
history1 = self.history_mgr.create(self.trans,
name='history1',
user=user2)
self.log('should have a summary view')
summary_view = self.history_serializer.serialize_to_view(
self.trans, history1, view='summary')
self.assertKeys(summary_view, self.history_serializer.views['summary'])
self.log('should have a detailed view')
detailed_view = self.history_serializer.serialize_to_view(
self.trans, history1, view='detailed')
self.assertKeys(detailed_view,
self.history_serializer.views['detailed'])
self.log('should have the summary view as default view')
default_view = self.history_serializer.serialize_to_view(
self.trans, history1, default_view='summary')
self.assertKeys(summary_view, self.history_serializer.views['summary'])
self.log('should have a serializer for all serializable keys')
need_no_serializers = (basestring, bool, type(None))
for key in self.history_serializer.serializable_keyset:
instantiated_attribute = getattr(history1, key, None)
if not ((key in self.history_serializer.serializers) or
(isinstance(instantiated_attribute, need_no_serializers))):
self.fail('no serializer for: %s (%s)' %
(key, instantiated_attribute))
else:
self.assertTrue(True, 'all serializable keys have a serializer')
def test_views_and_keys(self):
user2 = self.user_mgr.create(self.trans, **user2_data)
history1 = self.history_mgr.create(self.trans,
name='history1',
user=user2)
self.log('should be able to use keys with views')
serialized = self.history_serializer.serialize_to_view(
self.trans,
history1,
view='summary',
keys=['state_ids', 'user_id'])
self.assertKeys(
serialized, self.history_serializer.views['summary'] +
['state_ids', 'user_id'])
self.log('should be able to use keys on their own')
serialized = self.history_serializer.serialize_to_view(
self.trans, history1, keys=['state_ids', 'user_id'])
self.assertKeys(serialized, ['state_ids', 'user_id'])
def test_sharable(self):
user2 = self.user_mgr.create(self.trans, **user2_data)
history1 = self.history_mgr.create(self.trans,
name='history1',
user=user2)
self.log('should have a serializer for all SharableModel keys')
sharable_attrs = [
'user_id', 'username_and_slug', 'importable', 'published', 'slug'
]
serialized = self.history_serializer.serialize(self.trans, history1,
sharable_attrs)
self.assertKeys(serialized, sharable_attrs)
def test_purgable(self):
user2 = self.user_mgr.create(self.trans, **user2_data)
history1 = self.history_mgr.create(self.trans,
name='history1',
user=user2)
self.log(
'deleted and purged should be returned in their default states')
keys = ['deleted', 'purged']
serialized = self.history_serializer.serialize(self.trans, history1,
keys)
self.assertEqual(serialized['deleted'], False)
self.assertEqual(serialized['purged'], False)
self.log('deleted and purged should return their current state')
self.history_mgr.delete(self.trans, history1)
serialized = self.history_serializer.serialize(self.trans, history1,
keys)
self.assertEqual(serialized['deleted'], True)
self.assertEqual(serialized['purged'], False)
self.history_mgr.purge(self.trans, history1)
serialized = self.history_serializer.serialize(self.trans, history1,
keys)
self.assertEqual(serialized['deleted'], True)
self.assertEqual(serialized['purged'], True)
def test_history_serializers(self):
user2 = self.user_mgr.create(self.trans, **user2_data)
history1 = self.history_mgr.create(self.trans,
name='history1',
user=user2)
serialized = self.history_serializer.serialize(self.trans, history1,
['size', 'nice_size'])
self.assertIsInstance(serialized['size'], int)
self.assertIsInstance(serialized['nice_size'], basestring)
def test_contents(self):
user2 = self.user_mgr.create(self.trans, **user2_data)
history1 = self.history_mgr.create(self.trans,
name='history1',
user=user2)
self.log(
'a history with no contents should be properly reflected in empty, etc.'
)
keys = [
'empty', 'count', 'state_ids', 'state_details', 'state', 'hdas'
]
serialized = self.history_serializer.serialize(self.trans, history1,
keys)
self.assertEqual(serialized['state'], 'new')
self.assertEqual(serialized['empty'], True)
self.assertEqual(serialized['count'], 0)
self.assertEqual(sum(serialized['state_details'].values()), 0)
self.assertEqual(serialized['state_ids']['ok'], [])
self.assertIsInstance(serialized['hdas'], list)
self.log(
'a history with contents should be properly reflected in empty, etc.'
)
hda1 = self.hda_mgr.create(self.trans, history=history1, hid=1)
self.hda_mgr.update(self.trans, hda1, dict(state='ok'))
serialized = self.history_serializer.serialize(self.trans, history1,
keys)
self.assertEqual(serialized['state'], 'ok')
self.assertEqual(serialized['empty'], False)
self.assertEqual(serialized['count'], 1)
self.assertEqual(serialized['state_details']['ok'], 1)
self.assertIsInstance(serialized['state_ids']['ok'], list)
self.assertIsInstance(serialized['hdas'], list)
self.assertIsInstance(serialized['hdas'][0], basestring)
serialized = self.history_serializer.serialize(self.trans, history1,
['contents'])
self.assertHasKeys(serialized['contents'][0],
['id', 'name', 'peek', 'create_time'])
