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|
# -*- coding: utf-8 -*-
# Copyright 2012 OpenStack Foundation
#
# Licensed under the Apache License, Version 2.0 (the "License"); you may
# not use this file except in compliance with the License. You may obtain
# a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS, WITHOUT
# WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the
# License for the specific language governing permissions and limitations
# under the License.
import functools
import uuid
import mock
from oslo_config import cfg
from oslo_db import exception as db_exception
from oslo_db import options
from six.moves import range
import sqlalchemy
from sqlalchemy import exc
from testtools import matchers
from keystone.common import driver_hints
from keystone.common import sql
from keystone import exception
from keystone.identity.backends import sql as identity_sql
from keystone.tests import unit
from keystone.tests.unit import default_fixtures
from keystone.tests.unit.ksfixtures import database
from keystone.tests.unit import test_backend
from keystone.token.persistence.backends import sql as token_sql
CONF = cfg.CONF
DEFAULT_DOMAIN_ID = CONF.identity.default_domain_id
class SqlTests(unit.SQLDriverOverrides, unit.TestCase):
def setUp(self):
super(SqlTests, self).setUp()
self.useFixture(database.Database())
self.load_backends()
# populate the engine with tables & fixtures
self.load_fixtures(default_fixtures)
# defaulted by the data load
self.user_foo['enabled'] = True
def config_files(self):
config_files = super(SqlTests, self).config_files()
config_files.append(unit.dirs.tests_conf('backend_sql.conf'))
return config_files
class SqlModels(SqlTests):
def select_table(self, name):
table = sqlalchemy.Table(name,
sql.ModelBase.metadata,
autoload=True)
s = sqlalchemy.select([table])
return s
def assertExpectedSchema(self, table, expected_schema):
"""Assert that a table's schema is what we expect.
:param string table: the name of the table to inspect
:param tuple expected_schema: a tuple of tuples containing the
expected schema
:raises AssertionError: when the database schema doesn't match the
expected schema
The expected_schema format is simply::
(
('column name', sql type, qualifying detail),
...
)
The qualifying detail varies based on the type of the column::
- sql.Boolean columns must indicate the column's default value or
None if there is no default
- Columns with a length, like sql.String, must indicate the
column's length
- All other column types should use None
Example::
cols = (('id', sql.String, 64),
('enabled', sql.Boolean, True),
('extra', sql.JsonBlob, None))
self.assertExpectedSchema('table_name', cols)
"""
table = self.select_table(table)
actual_schema = []
for column in table.c:
if isinstance(column.type, sql.Boolean):
default = None
if column._proxies[0].default:
default = column._proxies[0].default.arg
actual_schema.append((column.name, type(column.type), default))
elif (hasattr(column.type, 'length') and
not isinstance(column.type, sql.Enum)):
# NOTE(dstanek): Even though sql.Enum columns have a length
# set we don't want to catch them here. Maybe in the future
# we'll check to see that they contain a list of the correct
# possible values.
actual_schema.append((column.name,
type(column.type),
column.type.length))
else:
actual_schema.append((column.name, type(column.type), None))
self.assertItemsEqual(expected_schema, actual_schema)
def test_user_model(self):
cols = (('id', sql.String, 64),
('name', sql.String, 255),
('password', sql.String, 128),
('domain_id', sql.String, 64),
('default_project_id', sql.String, 64),
('enabled', sql.Boolean, None),
('extra', sql.JsonBlob, None))
self.assertExpectedSchema('user', cols)
def test_group_model(self):
cols = (('id', sql.String, 64),
('name', sql.String, 64),
('description', sql.Text, None),
('domain_id', sql.String, 64),
('extra', sql.JsonBlob, None))
self.assertExpectedSchema('group', cols)
def test_domain_model(self):
cols = (('id', sql.String, 64),
('name', sql.String, 64),
('enabled', sql.Boolean, True),
('extra', sql.JsonBlob, None))
self.assertExpectedSchema('domain', cols)
def test_project_model(self):
cols = (('id', sql.String, 64),
('name', sql.String, 64),
('description', sql.Text, None),
('domain_id', sql.String, 64),
('enabled', sql.Boolean, None),
('extra', sql.JsonBlob, None),
('parent_id', sql.String, 64),
('is_domain', sql.Boolean, False))
self.assertExpectedSchema('project', cols)
def test_role_assignment_model(self):
cols = (('type', sql.Enum, None),
('actor_id', sql.String, 64),
('target_id', sql.String, 64),
('role_id', sql.String, 64),
('inherited', sql.Boolean, False))
self.assertExpectedSchema('assignment', cols)
def test_user_group_membership(self):
cols = (('group_id', sql.String, 64),
('user_id', sql.String, 64))
self.assertExpectedSchema('user_group_membership', cols)
class SqlIdentity(SqlTests, test_backend.IdentityTests):
def test_password_hashed(self):
session = sql.get_session()
user_ref = self.identity_api._get_user(session, self.user_foo['id'])
self.assertNotEqual(user_ref['password'], self.user_foo['password'])
def test_delete_user_with_project_association(self):
user = {'name': uuid.uuid4().hex,
'domain_id': DEFAULT_DOMAIN_ID,
'password': uuid.uuid4().hex}
user = self.identity_api.create_user(user)
self.assignment_api.add_user_to_project(self.tenant_bar['id'],
user['id'])
self.identity_api.delete_user(user['id'])
self.assertRaises(exception.UserNotFound,
self.assignment_api.list_projects_for_user,
user['id'])
def test_create_null_user_name(self):
user = {'name': None,
'domain_id': DEFAULT_DOMAIN_ID,
'password': uuid.uuid4().hex}
self.assertRaises(exception.ValidationError,
self.identity_api.create_user,
user)
self.assertRaises(exception.UserNotFound,
self.identity_api.get_user_by_name,
user['name'],
DEFAULT_DOMAIN_ID)
def test_create_user_case_sensitivity(self):
# user name case sensitivity is down to the fact that it is marked as
# an SQL UNIQUE column, which may not be valid for other backends, like
# LDAP.
# create a ref with a lowercase name
ref = {
'name': uuid.uuid4().hex.lower(),
'domain_id': DEFAULT_DOMAIN_ID}
ref = self.identity_api.create_user(ref)
# assign a new ID with the same name, but this time in uppercase
ref['name'] = ref['name'].upper()
self.identity_api.create_user(ref)
def test_create_project_case_sensitivity(self):
# project name case sensitivity is down to the fact that it is marked
# as an SQL UNIQUE column, which may not be valid for other backends,
# like LDAP.
# create a ref with a lowercase name
ref = {
'id': uuid.uuid4().hex,
'name': uuid.uuid4().hex.lower(),
'domain_id': DEFAULT_DOMAIN_ID}
self.resource_api.create_project(ref['id'], ref)
# assign a new ID with the same name, but this time in uppercase
ref['id'] = uuid.uuid4().hex
ref['name'] = ref['name'].upper()
self.resource_api.create_project(ref['id'], ref)
def test_create_null_project_name(self):
tenant = {'id': uuid.uuid4().hex,
'name': None,
'domain_id': DEFAULT_DOMAIN_ID}
self.assertRaises(exception.ValidationError,
self.resource_api.create_project,
tenant['id'],
tenant)
self.assertRaises(exception.ProjectNotFound,
self.resource_api.get_project,
tenant['id'])
self.assertRaises(exception.ProjectNotFound,
self.resource_api.get_project_by_name,
tenant['name'],
DEFAULT_DOMAIN_ID)
def test_delete_project_with_user_association(self):
user = {'name': 'fakeuser',
'domain_id': DEFAULT_DOMAIN_ID,
'password': 'passwd'}
user = self.identity_api.create_user(user)
self.assignment_api.add_user_to_project(self.tenant_bar['id'],
user['id'])
self.resource_api.delete_project(self.tenant_bar['id'])
tenants = self.assignment_api.list_projects_for_user(user['id'])
self.assertEqual([], tenants)
def test_metadata_removed_on_delete_user(self):
# A test to check that the internal representation
# or roles is correctly updated when a user is deleted
user = {'name': uuid.uuid4().hex,
'domain_id': DEFAULT_DOMAIN_ID,
'password': 'passwd'}
user = self.identity_api.create_user(user)
role = {'id': uuid.uuid4().hex,
'name': uuid.uuid4().hex}
self.role_api.create_role(role['id'], role)
self.assignment_api.add_role_to_user_and_project(
user['id'],
self.tenant_bar['id'],
role['id'])
self.identity_api.delete_user(user['id'])
# Now check whether the internal representation of roles
# has been deleted
self.assertRaises(exception.MetadataNotFound,
self.assignment_api._get_metadata,
user['id'],
self.tenant_bar['id'])
def test_metadata_removed_on_delete_project(self):
# A test to check that the internal representation
# or roles is correctly updated when a project is deleted
user = {'name': uuid.uuid4().hex,
'domain_id': DEFAULT_DOMAIN_ID,
'password': 'passwd'}
user = self.identity_api.create_user(user)
role = {'id': uuid.uuid4().hex,
'name': uuid.uuid4().hex}
self.role_api.create_role(role['id'], role)
self.assignment_api.add_role_to_user_and_project(
user['id'],
self.tenant_bar['id'],
role['id'])
self.resource_api.delete_project(self.tenant_bar['id'])
# Now check whether the internal representation of roles
# has been deleted
self.assertRaises(exception.MetadataNotFound,
self.assignment_api._get_metadata,
user['id'],
self.tenant_bar['id'])
def test_update_project_returns_extra(self):
"""This tests for backwards-compatibility with an essex/folsom bug.
Non-indexed attributes were returned in an 'extra' attribute, instead
of on the entity itself; for consistency and backwards compatibility,
those attributes should be included twice.
This behavior is specific to the SQL driver.
"""
tenant_id = uuid.uuid4().hex
arbitrary_key = uuid.uuid4().hex
arbitrary_value = uuid.uuid4().hex
tenant = {
'id': tenant_id,
'name': uuid.uuid4().hex,
'domain_id': DEFAULT_DOMAIN_ID,
arbitrary_key: arbitrary_value}
ref = self.resource_api.create_project(tenant_id, tenant)
self.assertEqual(arbitrary_value, ref[arbitrary_key])
self.assertIsNone(ref.get('extra'))
tenant['name'] = uuid.uuid4().hex
ref = self.resource_api.update_project(tenant_id, tenant)
self.assertEqual(arbitrary_value, ref[arbitrary_key])
self.assertEqual(arbitrary_value, ref['extra'][arbitrary_key])
def test_update_user_returns_extra(self):
"""This tests for backwards-compatibility with an essex/folsom bug.
Non-indexed attributes were returned in an 'extra' attribute, instead
of on the entity itself; for consistency and backwards compatibility,
those attributes should be included twice.
This behavior is specific to the SQL driver.
"""
arbitrary_key = uuid.uuid4().hex
arbitrary_value = uuid.uuid4().hex
user = {
'name': uuid.uuid4().hex,
'domain_id': DEFAULT_DOMAIN_ID,
'password': uuid.uuid4().hex,
arbitrary_key: arbitrary_value}
ref = self.identity_api.create_user(user)
self.assertEqual(arbitrary_value, ref[arbitrary_key])
self.assertIsNone(ref.get('password'))
self.assertIsNone(ref.get('extra'))
user['name'] = uuid.uuid4().hex
user['password'] = uuid.uuid4().hex
ref = self.identity_api.update_user(ref['id'], user)
self.assertIsNone(ref.get('password'))
self.assertIsNone(ref['extra'].get('password'))
self.assertEqual(arbitrary_value, ref[arbitrary_key])
self.assertEqual(arbitrary_value, ref['extra'][arbitrary_key])
def test_sql_user_to_dict_null_default_project_id(self):
user = {
'name': uuid.uuid4().hex,
'domain_id': DEFAULT_DOMAIN_ID,
'password': uuid.uuid4().hex}
user = self.identity_api.create_user(user)
session = sql.get_session()
query = session.query(identity_sql.User)
query = query.filter_by(id=user['id'])
raw_user_ref = query.one()
self.assertIsNone(raw_user_ref.default_project_id)
user_ref = raw_user_ref.to_dict()
self.assertNotIn('default_project_id', user_ref)
session.close()
def test_list_domains_for_user(self):
domain = {'id': uuid.uuid4().hex, 'name': uuid.uuid4().hex}
self.resource_api.create_domain(domain['id'], domain)
user = {'name': uuid.uuid4().hex, 'password': uuid.uuid4().hex,
'domain_id': domain['id'], 'enabled': True}
test_domain1 = {'id': uuid.uuid4().hex, 'name': uuid.uuid4().hex}
self.resource_api.create_domain(test_domain1['id'], test_domain1)
test_domain2 = {'id': uuid.uuid4().hex, 'name': uuid.uuid4().hex}
self.resource_api.create_domain(test_domain2['id'], test_domain2)
user = self.identity_api.create_user(user)
user_domains = self.assignment_api.list_domains_for_user(user['id'])
self.assertEqual(0, len(user_domains))
self.assignment_api.create_grant(user_id=user['id'],
domain_id=test_domain1['id'],
role_id=self.role_member['id'])
self.assignment_api.create_grant(user_id=user['id'],
domain_id=test_domain2['id'],
role_id=self.role_member['id'])
user_domains = self.assignment_api.list_domains_for_user(user['id'])
self.assertThat(user_domains, matchers.HasLength(2))
def test_list_domains_for_user_with_grants(self):
# Create two groups each with a role on a different domain, and
# make user1 a member of both groups. Both these new domains
# should now be included, along with any direct user grants.
domain = {'id': uuid.uuid4().hex, 'name': uuid.uuid4().hex}
self.resource_api.create_domain(domain['id'], domain)
user = {'name': uuid.uuid4().hex, 'password': uuid.uuid4().hex,
'domain_id': domain['id'], 'enabled': True}
user = self.identity_api.create_user(user)
group1 = {'name': uuid.uuid4().hex, 'domain_id': domain['id']}
group1 = self.identity_api.create_group(group1)
group2 = {'name': uuid.uuid4().hex, 'domain_id': domain['id']}
group2 = self.identity_api.create_group(group2)
test_domain1 = {'id': uuid.uuid4().hex, 'name': uuid.uuid4().hex}
self.resource_api.create_domain(test_domain1['id'], test_domain1)
test_domain2 = {'id': uuid.uuid4().hex, 'name': uuid.uuid4().hex}
self.resource_api.create_domain(test_domain2['id'], test_domain2)
test_domain3 = {'id': uuid.uuid4().hex, 'name': uuid.uuid4().hex}
self.resource_api.create_domain(test_domain3['id'], test_domain3)
self.identity_api.add_user_to_group(user['id'], group1['id'])
self.identity_api.add_user_to_group(user['id'], group2['id'])
# Create 3 grants, one user grant, the other two as group grants
self.assignment_api.create_grant(user_id=user['id'],
domain_id=test_domain1['id'],
role_id=self.role_member['id'])
self.assignment_api.create_grant(group_id=group1['id'],
domain_id=test_domain2['id'],
role_id=self.role_admin['id'])
self.assignment_api.create_grant(group_id=group2['id'],
domain_id=test_domain3['id'],
role_id=self.role_admin['id'])
user_domains = self.assignment_api.list_domains_for_user(user['id'])
self.assertThat(user_domains, matchers.HasLength(3))
def test_list_domains_for_user_with_inherited_grants(self):
"""Test that inherited roles on the domain are excluded.
Test Plan:
- Create two domains, one user, group and role
- Domain1 is given an inherited user role, Domain2 an inherited
group role (for a group of which the user is a member)
- When listing domains for user, neither domain should be returned
"""
domain1 = {'id': uuid.uuid4().hex, 'name': uuid.uuid4().hex}
domain1 = self.resource_api.create_domain(domain1['id'], domain1)
domain2 = {'id': uuid.uuid4().hex, 'name': uuid.uuid4().hex}
domain2 = self.resource_api.create_domain(domain2['id'], domain2)
user = {'name': uuid.uuid4().hex, 'password': uuid.uuid4().hex,
'domain_id': domain1['id'], 'enabled': True}
user = self.identity_api.create_user(user)
group = {'name': uuid.uuid4().hex, 'domain_id': domain1['id']}
group = self.identity_api.create_group(group)
self.identity_api.add_user_to_group(user['id'], group['id'])
role = {'id': uuid.uuid4().hex, 'name': uuid.uuid4().hex}
self.role_api.create_role(role['id'], role)
# Create a grant on each domain, one user grant, one group grant,
# both inherited.
self.assignment_api.create_grant(user_id=user['id'],
domain_id=domain1['id'],
role_id=role['id'],
inherited_to_projects=True)
self.assignment_api.create_grant(group_id=group['id'],
domain_id=domain2['id'],
role_id=role['id'],
inherited_to_projects=True)
user_domains = self.assignment_api.list_domains_for_user(user['id'])
# No domains should be returned since both domains have only inherited
# roles assignments.
self.assertThat(user_domains, matchers.HasLength(0))
class SqlTrust(SqlTests, test_backend.TrustTests):
pass
class SqlToken(SqlTests, test_backend.TokenTests):
def test_token_revocation_list_uses_right_columns(self):
# This query used to be heavy with too many columns. We want
# to make sure it is only running with the minimum columns
# necessary.
expected_query_args = (token_sql.TokenModel.id,
token_sql.TokenModel.expires)
with mock.patch.object(token_sql, 'sql') as mock_sql:
tok = token_sql.Token()
tok.list_revoked_tokens()
mock_query = mock_sql.get_session().query
mock_query.assert_called_with(*expected_query_args)
def test_flush_expired_tokens_batch(self):
# TODO(dstanek): This test should be rewritten to be less
# brittle. The code will likely need to be changed first. I
# just copied the spirit of the existing test when I rewrote
# mox -> mock. These tests are brittle because they have the
# call structure for SQLAlchemy encoded in them.
# test sqlite dialect
with mock.patch.object(token_sql, 'sql') as mock_sql:
mock_sql.get_session().bind.dialect.name = 'sqlite'
tok = token_sql.Token()
tok.flush_expired_tokens()
filter_mock = mock_sql.get_session().query().filter()
self.assertFalse(filter_mock.limit.called)
self.assertTrue(filter_mock.delete.called_once)
def test_flush_expired_tokens_batch_mysql(self):
# test mysql dialect, we don't need to test IBM DB SA separately, since
# other tests below test the differences between how they use the batch
# strategy
with mock.patch.object(token_sql, 'sql') as mock_sql:
mock_sql.get_session().query().filter().delete.return_value = 0
mock_sql.get_session().bind.dialect.name = 'mysql'
tok = token_sql.Token()
expiry_mock = mock.Mock()
ITERS = [1, 2, 3]
expiry_mock.return_value = iter(ITERS)
token_sql._expiry_range_batched = expiry_mock
tok.flush_expired_tokens()
# The expiry strategy is only invoked once, the other calls are via
# the yield return.
self.assertEqual(1, expiry_mock.call_count)
mock_delete = mock_sql.get_session().query().filter().delete
self.assertThat(mock_delete.call_args_list,
matchers.HasLength(len(ITERS)))
def test_expiry_range_batched(self):
upper_bound_mock = mock.Mock(side_effect=[1, "final value"])
sess_mock = mock.Mock()
query_mock = sess_mock.query().filter().order_by().offset().limit()
query_mock.one.side_effect = [['test'], sql.NotFound()]
for i, x in enumerate(token_sql._expiry_range_batched(sess_mock,
upper_bound_mock,
batch_size=50)):
if i == 0:
# The first time the batch iterator returns, it should return
# the first result that comes back from the database.
self.assertEqual(x, 'test')
elif i == 1:
# The second time, the database range function should return
# nothing, so the batch iterator returns the result of the
# upper_bound function
self.assertEqual(x, "final value")
else:
self.fail("range batch function returned more than twice")
def test_expiry_range_strategy_sqlite(self):
tok = token_sql.Token()
sqlite_strategy = tok._expiry_range_strategy('sqlite')
self.assertEqual(token_sql._expiry_range_all, sqlite_strategy)
def test_expiry_range_strategy_ibm_db_sa(self):
tok = token_sql.Token()
db2_strategy = tok._expiry_range_strategy('ibm_db_sa')
self.assertIsInstance(db2_strategy, functools.partial)
self.assertEqual(db2_strategy.func, token_sql._expiry_range_batched)
self.assertEqual(db2_strategy.keywords, {'batch_size': 100})
def test_expiry_range_strategy_mysql(self):
tok = token_sql.Token()
mysql_strategy = tok._expiry_range_strategy('mysql')
self.assertIsInstance(mysql_strategy, functools.partial)
self.assertEqual(mysql_strategy.func, token_sql._expiry_range_batched)
self.assertEqual(mysql_strategy.keywords, {'batch_size': 1000})
class SqlCatalog(SqlTests, test_backend.CatalogTests):
_legacy_endpoint_id_in_endpoint = True
_enabled_default_to_true_when_creating_endpoint = True
def test_catalog_ignored_malformed_urls(self):
service = {
'id': uuid.uuid4().hex,
'type': uuid.uuid4().hex,
'name': uuid.uuid4().hex,
'description': uuid.uuid4().hex,
}
self.catalog_api.create_service(service['id'], service.copy())
malformed_url = "http://192.168.1.104:8774/v2/$(tenant)s"
endpoint = {
'id': uuid.uuid4().hex,
'region_id': None,
'service_id': service['id'],
'interface': 'public',
'url': malformed_url,
}
self.catalog_api.create_endpoint(endpoint['id'], endpoint.copy())
# NOTE(dstanek): there are no valid URLs, so nothing is in the catalog
catalog = self.catalog_api.get_catalog('fake-user', 'fake-tenant')
self.assertEqual({}, catalog)
def test_get_catalog_with_empty_public_url(self):
service = {
'id': uuid.uuid4().hex,
'type': uuid.uuid4().hex,
'name': uuid.uuid4().hex,
'description': uuid.uuid4().hex,
}
self.catalog_api.create_service(service['id'], service.copy())
endpoint = {
'id': uuid.uuid4().hex,
'region_id': None,
'interface': 'public',
'url': '',
'service_id': service['id'],
}
self.catalog_api.create_endpoint(endpoint['id'], endpoint.copy())
catalog = self.catalog_api.get_catalog('user', 'tenant')
catalog_endpoint = catalog[endpoint['region_id']][service['type']]
self.assertEqual(service['name'], catalog_endpoint['name'])
self.assertEqual(endpoint['id'], catalog_endpoint['id'])
self.assertEqual('', catalog_endpoint['publicURL'])
self.assertIsNone(catalog_endpoint.get('adminURL'))
self.assertIsNone(catalog_endpoint.get('internalURL'))
def test_create_endpoint_region_404(self):
service = {
'id': uuid.uuid4().hex,
'type': uuid.uuid4().hex,
'name': uuid.uuid4().hex,
'description': uuid.uuid4().hex,
}
self.catalog_api.create_service(service['id'], service.copy())
endpoint = {
'id': uuid.uuid4().hex,
'region_id': uuid.uuid4().hex,
'service_id': service['id'],
'interface': 'public',
'url': uuid.uuid4().hex,
}
self.assertRaises(exception.ValidationError,
self.catalog_api.create_endpoint,
endpoint['id'],
endpoint.copy())
def test_create_region_invalid_id(self):
region = {
'id': '0' * 256,
'description': '',
'extra': {},
}
self.assertRaises(exception.StringLengthExceeded,
self.catalog_api.create_region,
region.copy())
def test_create_region_invalid_parent_id(self):
region = {
'id': uuid.uuid4().hex,
'parent_region_id': '0' * 256,
}
self.assertRaises(exception.RegionNotFound,
self.catalog_api.create_region,
region)
def test_delete_region_with_endpoint(self):
# create a region
region = {
'id': uuid.uuid4().hex,
'description': uuid.uuid4().hex,
}
self.catalog_api.create_region(region)
# create a child region
child_region = {
'id': uuid.uuid4().hex,
'description': uuid.uuid4().hex,
'parent_id': region['id']
}
self.catalog_api.create_region(child_region)
# create a service
service = {
'id': uuid.uuid4().hex,
'type': uuid.uuid4().hex,
'name': uuid.uuid4().hex,
'description': uuid.uuid4().hex,
}
self.catalog_api.create_service(service['id'], service)
# create an endpoint attached to the service and child region
child_endpoint = {
'id': uuid.uuid4().hex,
'region_id': child_region['id'],
'interface': uuid.uuid4().hex[:8],
'url': uuid.uuid4().hex,
'service_id': service['id'],
}
self.catalog_api.create_endpoint(child_endpoint['id'], child_endpoint)
self.assertRaises(exception.RegionDeletionError,
self.catalog_api.delete_region,
child_region['id'])
# create an endpoint attached to the service and parent region
endpoint = {
'id': uuid.uuid4().hex,
'region_id': region['id'],
'interface': uuid.uuid4().hex[:8],
'url': uuid.uuid4().hex,
'service_id': service['id'],
}
self.catalog_api.create_endpoint(endpoint['id'], endpoint)
self.assertRaises(exception.RegionDeletionError,
self.catalog_api.delete_region,
region['id'])
class SqlPolicy(SqlTests, test_backend.PolicyTests):
pass
class SqlInheritance(SqlTests, test_backend.InheritanceTests):
pass
class SqlTokenCacheInvalidation(SqlTests, test_backend.TokenCacheInvalidation):
def setUp(self):
super(SqlTokenCacheInvalidation, self).setUp()
self._create_test_data()
class SqlFilterTests(SqlTests, test_backend.FilterTests):
def _get_user_name_field_size(self):
return identity_sql.User.name.type.length
def clean_up_entities(self):
"""Clean up entity test data from Filter Test Cases."""
for entity in ['user', 'group', 'project']:
self._delete_test_data(entity, self.entity_list[entity])
self._delete_test_data(entity, self.domain1_entity_list[entity])
del self.entity_list
del self.domain1_entity_list
self.domain1['enabled'] = False
self.resource_api.update_domain(self.domain1['id'], self.domain1)
self.resource_api.delete_domain(self.domain1['id'])
del self.domain1
def test_list_entities_filtered_by_domain(self):
# NOTE(henry-nash): This method is here rather than in test_backend
# since any domain filtering with LDAP is handled by the manager
# layer (and is already tested elsewhere) not at the driver level.
self.addCleanup(self.clean_up_entities)
self.domain1 = {'id': uuid.uuid4().hex, 'name': uuid.uuid4().hex}
self.resource_api.create_domain(self.domain1['id'], self.domain1)
self.entity_list = {}
self.domain1_entity_list = {}
for entity in ['user', 'group', 'project']:
# Create 5 entities, 3 of which are in domain1
DOMAIN1_ENTITIES = 3
self.entity_list[entity] = self._create_test_data(entity, 2)
self.domain1_entity_list[entity] = self._create_test_data(
entity, DOMAIN1_ENTITIES, self.domain1['id'])
# Should get back the DOMAIN1_ENTITIES in domain1
hints = driver_hints.Hints()
hints.add_filter('domain_id', self.domain1['id'])
entities = self._list_entities(entity)(hints=hints)
self.assertEqual(DOMAIN1_ENTITIES, len(entities))
self._match_with_list(entities, self.domain1_entity_list[entity])
# Check the driver has removed the filter from the list hints
self.assertFalse(hints.get_exact_filter_by_name('domain_id'))
def test_filter_sql_injection_attack(self):
"""Test against sql injection attack on filters
Test Plan:
- Attempt to get all entities back by passing a two-term attribute
- Attempt to piggyback filter to damage DB (e.g. drop table)
"""
# Check we have some users
users = self.identity_api.list_users()
self.assertTrue(len(users) > 0)
hints = driver_hints.Hints()
hints.add_filter('name', "anything' or 'x'='x")
users = self.identity_api.list_users(hints=hints)
self.assertEqual(0, len(users))
# See if we can add a SQL command...use the group table instead of the
# user table since 'user' is reserved word for SQLAlchemy.
group = {'name': uuid.uuid4().hex, 'domain_id': DEFAULT_DOMAIN_ID}
group = self.identity_api.create_group(group)
hints = driver_hints.Hints()
hints.add_filter('name', "x'; drop table group")
groups = self.identity_api.list_groups(hints=hints)
self.assertEqual(0, len(groups))
groups = self.identity_api.list_groups()
self.assertTrue(len(groups) > 0)
class SqlLimitTests(SqlTests, test_backend.LimitTests):
def setUp(self):
super(SqlLimitTests, self).setUp()
test_backend.LimitTests.setUp(self)
class FakeTable(sql.ModelBase):
__tablename__ = 'test_table'
col = sql.Column(sql.String(32), primary_key=True)
@sql.handle_conflicts('keystone')
def insert(self):
raise db_exception.DBDuplicateEntry
@sql.handle_conflicts('keystone')
def update(self):
raise db_exception.DBError(
inner_exception=exc.IntegrityError('a', 'a', 'a'))
@sql.handle_conflicts('keystone')
def lookup(self):
raise KeyError
class SqlDecorators(unit.TestCase):
def test_initialization_fail(self):
self.assertRaises(exception.StringLengthExceeded,
FakeTable, col='a' * 64)
def test_initialization(self):
tt = FakeTable(col='a')
self.assertEqual('a', tt.col)
def test_non_ascii_init(self):
# NOTE(I159): Non ASCII characters must cause UnicodeDecodeError
# if encoding is not provided explicitly.
self.assertRaises(UnicodeDecodeError, FakeTable, col='Я')
def test_conflict_happend(self):
self.assertRaises(exception.Conflict, FakeTable().insert)
self.assertRaises(exception.UnexpectedError, FakeTable().update)
def test_not_conflict_error(self):
self.assertRaises(KeyError, FakeTable().lookup)
class SqlModuleInitialization(unit.TestCase):
@mock.patch.object(sql.core, 'CONF')
@mock.patch.object(options, 'set_defaults')
def test_initialize_module(self, set_defaults, CONF):
sql.initialize()
set_defaults.assert_called_with(CONF,
connection='sqlite:///keystone.db')
class SqlCredential(SqlTests):
def _create_credential_with_user_id(self, user_id=uuid.uuid4().hex):
credential_id = uuid.uuid4().hex
new_credential = {
'id': credential_id,
'user_id': user_id,
'project_id': uuid.uuid4().hex,
'blob': uuid.uuid4().hex,
'type': uuid.uuid4().hex,
'extra': uuid.uuid4().hex
}
self.credential_api.create_credential(credential_id, new_credential)
return new_credential
def _validateCredentialList(self, retrieved_credentials,
expected_credentials):
self.assertEqual(len(retrieved_credentials), len(expected_credentials))
retrived_ids = [c['id'] for c in retrieved_credentials]
for cred in expected_credentials:
self.assertIn(cred['id'], retrived_ids)
def setUp(self):
super(SqlCredential, self).setUp()
self.credentials = []
for _ in range(3):
self.credentials.append(
self._create_credential_with_user_id())
self.user_credentials = []
for _ in range(3):
cred = self._create_credential_with_user_id(self.user_foo['id'])
self.user_credentials.append(cred)
self.credentials.append(cred)
def test_list_credentials(self):
credentials = self.credential_api.list_credentials()
self._validateCredentialList(credentials, self.credentials)
# test filtering using hints
hints = driver_hints.Hints()
hints.add_filter('user_id', self.user_foo['id'])
credentials = self.credential_api.list_credentials(hints)
self._validateCredentialList(credentials, self.user_credentials)
def test_list_credentials_for_user(self):
credentials = self.credential_api.list_credentials_for_user(
self.user_foo['id'])
self._validateCredentialList(credentials, self.user_credentials)
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