Source code for keystone.tests.unit.token.test_backends
# 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 copy
import datetime
import uuid
import freezegun
from oslo_utils import timeutils
import six
from six.moves import range
from keystone import exception
from keystone.tests import unit
from keystone.token import provider
NULL_OBJECT = object()
[docs]class TokenTests(object):
def _create_token_id(self):
return uuid.uuid4().hex
def _assert_revoked_token_list_matches_token_persistence(
self, revoked_token_id_list):
# Assert that the list passed in matches the list returned by the
# token persistence service
persistence_list = [
x['id']
for x in self.token_provider_api.list_revoked_tokens()
]
self.assertEqual(persistence_list, revoked_token_id_list)
[docs] def test_token_crud(self):
token_id = self._create_token_id()
data = {'id': token_id, 'a': 'b',
'trust_id': None,
'user': {'id': 'testuserid'},
'token_data': {'access': {'token': {
'audit_ids': [uuid.uuid4().hex]}}}}
data_ref = self.token_provider_api._persistence.create_token(token_id,
data)
expires = data_ref.pop('expires')
data_ref.pop('user_id')
self.assertIsInstance(expires, datetime.datetime)
data_ref.pop('id')
data.pop('id')
self.assertDictEqual(data, data_ref)
new_data_ref = self.token_provider_api._persistence.get_token(token_id)
expires = new_data_ref.pop('expires')
self.assertIsInstance(expires, datetime.datetime)
new_data_ref.pop('user_id')
new_data_ref.pop('id')
self.assertEqual(data, new_data_ref)
self.token_provider_api._persistence.delete_token(token_id)
self.assertRaises(
exception.TokenNotFound,
self.token_provider_api._persistence.get_token, token_id)
self.assertRaises(
exception.TokenNotFound,
self.token_provider_api._persistence.delete_token, token_id)
[docs] def create_token_sample_data(self, token_id=None, tenant_id=None,
trust_id=None, user_id=None, expires=None):
if token_id is None:
token_id = self._create_token_id()
if user_id is None:
user_id = 'testuserid'
# FIXME(morganfainberg): These tokens look nothing like "Real" tokens.
# This should be fixed when token issuance is cleaned up.
data = {'id': token_id, 'a': 'b',
'user': {'id': user_id},
'access': {'token': {'audit_ids': [uuid.uuid4().hex]}}}
if tenant_id is not None:
data['tenant'] = {'id': tenant_id, 'name': tenant_id}
if tenant_id is NULL_OBJECT:
data['tenant'] = None
if expires is not None:
data['expires'] = expires
if trust_id is not None:
data['trust_id'] = trust_id
data['access'].setdefault('trust', {})
# Testuserid2 is used here since a trustee will be different in
# the cases of impersonation and therefore should not match the
# token's user_id.
data['access']['trust']['trustee_user_id'] = 'testuserid2'
data['token_version'] = provider.V2
# Issue token stores a copy of all token data at token['token_data'].
# This emulates that assumption as part of the test.
data['token_data'] = copy.deepcopy(data)
new_token = self.token_provider_api._persistence.create_token(token_id,
data)
return new_token['id'], data
[docs] def test_delete_tokens(self):
tokens = self.token_provider_api._persistence._list_tokens(
'testuserid')
self.assertEqual(0, len(tokens))
token_id1, data = self.create_token_sample_data(
tenant_id='testtenantid')
token_id2, data = self.create_token_sample_data(
tenant_id='testtenantid')
token_id3, data = self.create_token_sample_data(
tenant_id='testtenantid',
user_id='testuserid1')
tokens = self.token_provider_api._persistence._list_tokens(
'testuserid')
self.assertEqual(2, len(tokens))
self.assertIn(token_id2, tokens)
self.assertIn(token_id1, tokens)
self.token_provider_api._persistence.delete_tokens(
user_id='testuserid',
tenant_id='testtenantid')
tokens = self.token_provider_api._persistence._list_tokens(
'testuserid')
self.assertEqual(0, len(tokens))
self.assertRaises(exception.TokenNotFound,
self.token_provider_api._persistence.get_token,
token_id1)
self.assertRaises(exception.TokenNotFound,
self.token_provider_api._persistence.get_token,
token_id2)
self.token_provider_api._persistence.get_token(token_id3)
[docs] def test_delete_tokens_trust(self):
tokens = self.token_provider_api._persistence._list_tokens(
user_id='testuserid')
self.assertEqual(0, len(tokens))
token_id1, data = self.create_token_sample_data(
tenant_id='testtenantid',
trust_id='testtrustid')
token_id2, data = self.create_token_sample_data(
tenant_id='testtenantid',
user_id='testuserid1',
trust_id='testtrustid1')
tokens = self.token_provider_api._persistence._list_tokens(
'testuserid')
self.assertEqual(1, len(tokens))
self.assertIn(token_id1, tokens)
self.token_provider_api._persistence.delete_tokens(
user_id='testuserid',
tenant_id='testtenantid',
trust_id='testtrustid')
self.assertRaises(exception.TokenNotFound,
self.token_provider_api._persistence.get_token,
token_id1)
self.token_provider_api._persistence.get_token(token_id2)
def _test_token_list(self, token_list_fn):
tokens = token_list_fn('testuserid')
self.assertEqual(0, len(tokens))
token_id1, data = self.create_token_sample_data()
tokens = token_list_fn('testuserid')
self.assertEqual(1, len(tokens))
self.assertIn(token_id1, tokens)
token_id2, data = self.create_token_sample_data()
tokens = token_list_fn('testuserid')
self.assertEqual(2, len(tokens))
self.assertIn(token_id2, tokens)
self.assertIn(token_id1, tokens)
self.token_provider_api._persistence.delete_token(token_id1)
tokens = token_list_fn('testuserid')
self.assertIn(token_id2, tokens)
self.assertNotIn(token_id1, tokens)
self.token_provider_api._persistence.delete_token(token_id2)
tokens = token_list_fn('testuserid')
self.assertNotIn(token_id2, tokens)
self.assertNotIn(token_id1, tokens)
# tenant-specific tokens
tenant1 = uuid.uuid4().hex
tenant2 = uuid.uuid4().hex
token_id3, data = self.create_token_sample_data(tenant_id=tenant1)
token_id4, data = self.create_token_sample_data(tenant_id=tenant2)
# test for existing but empty tenant (LP:1078497)
token_id5, data = self.create_token_sample_data(tenant_id=NULL_OBJECT)
tokens = token_list_fn('testuserid')
self.assertEqual(3, len(tokens))
self.assertNotIn(token_id1, tokens)
self.assertNotIn(token_id2, tokens)
self.assertIn(token_id3, tokens)
self.assertIn(token_id4, tokens)
self.assertIn(token_id5, tokens)
tokens = token_list_fn('testuserid', tenant2)
self.assertEqual(1, len(tokens))
self.assertNotIn(token_id1, tokens)
self.assertNotIn(token_id2, tokens)
self.assertNotIn(token_id3, tokens)
self.assertIn(token_id4, tokens)
[docs] def test_token_list(self):
self._test_token_list(
self.token_provider_api._persistence._list_tokens)
[docs] def test_token_list_trust(self):
trust_id = uuid.uuid4().hex
token_id5, data = self.create_token_sample_data(trust_id=trust_id)
tokens = self.token_provider_api._persistence._list_tokens(
'testuserid', trust_id=trust_id)
self.assertEqual(1, len(tokens))
self.assertIn(token_id5, tokens)
[docs] def test_get_token_returns_not_found(self):
self.assertRaises(exception.TokenNotFound,
self.token_provider_api._persistence.get_token,
uuid.uuid4().hex)
[docs] def test_delete_token_returns_not_found(self):
self.assertRaises(exception.TokenNotFound,
self.token_provider_api._persistence.delete_token,
uuid.uuid4().hex)
[docs] def test_null_expires_token(self):
token_id = uuid.uuid4().hex
data = {'id': token_id, 'id_hash': token_id, 'a': 'b', 'expires': None,
'user': {'id': 'testuserid'}}
data_ref = self.token_provider_api._persistence.create_token(token_id,
data)
self.assertIsNotNone(data_ref['expires'])
new_data_ref = self.token_provider_api._persistence.get_token(token_id)
# MySQL doesn't store microseconds, so discard them before testing
data_ref['expires'] = data_ref['expires'].replace(microsecond=0)
new_data_ref['expires'] = new_data_ref['expires'].replace(
microsecond=0)
self.assertEqual(data_ref, new_data_ref)
[docs] def check_list_revoked_tokens(self, token_infos):
revocation_list = self.token_provider_api.list_revoked_tokens()
revoked_ids = [x['id'] for x in revocation_list]
revoked_audit_ids = [x['audit_id'] for x in revocation_list]
self._assert_revoked_token_list_matches_token_persistence(revoked_ids)
for token_id, audit_id in token_infos:
self.assertIn(token_id, revoked_ids)
self.assertIn(audit_id, revoked_audit_ids)
[docs] def delete_token(self):
token_id = uuid.uuid4().hex
audit_id = uuid.uuid4().hex
data = {'id_hash': token_id, 'id': token_id, 'a': 'b',
'user': {'id': 'testuserid'},
'token_data': {'token': {'audit_ids': [audit_id]}}}
data_ref = self.token_provider_api._persistence.create_token(token_id,
data)
self.token_provider_api._persistence.delete_token(token_id)
self.assertRaises(
exception.TokenNotFound,
self.token_provider_api._persistence.get_token,
data_ref['id'])
self.assertRaises(
exception.TokenNotFound,
self.token_provider_api._persistence.delete_token,
data_ref['id'])
return (token_id, audit_id)
[docs] def test_list_revoked_tokens_returns_empty_list(self):
revoked_ids = [x['id']
for x in self.token_provider_api.list_revoked_tokens()]
self._assert_revoked_token_list_matches_token_persistence(revoked_ids)
self.assertEqual([], revoked_ids)
[docs] def test_list_revoked_tokens_for_single_token(self):
self.check_list_revoked_tokens([self.delete_token()])
[docs] def test_list_revoked_tokens_for_multiple_tokens(self):
self.check_list_revoked_tokens([self.delete_token()
for x in range(2)])
[docs] def test_flush_expired_token(self):
token_id = uuid.uuid4().hex
window = self.config_fixture.conf.token.allow_expired_window + 5
expire_time = timeutils.utcnow() - datetime.timedelta(minutes=window)
data = {'id_hash': token_id, 'id': token_id, 'a': 'b',
'expires': expire_time,
'trust_id': None,
'user': {'id': 'testuserid'}}
data_ref = self.token_provider_api._persistence.create_token(token_id,
data)
data_ref.pop('user_id')
self.assertDictEqual(data, data_ref)
token_id = uuid.uuid4().hex
expire_time = timeutils.utcnow() + datetime.timedelta(minutes=window)
data = {'id_hash': token_id, 'id': token_id, 'a': 'b',
'expires': expire_time,
'trust_id': None,
'user': {'id': 'testuserid'}}
data_ref = self.token_provider_api._persistence.create_token(token_id,
data)
data_ref.pop('user_id')
self.assertDictEqual(data, data_ref)
self.token_provider_api._persistence.flush_expired_tokens()
tokens = self.token_provider_api._persistence._list_tokens(
'testuserid')
self.assertEqual(1, len(tokens))
self.assertIn(token_id, tokens)
[docs] @unit.skip_if_cache_disabled('token')
def test_revocation_list_cache(self):
expire_time = timeutils.utcnow() + datetime.timedelta(minutes=10)
token_id = uuid.uuid4().hex
token_data = {'id_hash': token_id, 'id': token_id, 'a': 'b',
'expires': expire_time,
'trust_id': None,
'user': {'id': 'testuserid'},
'token_data': {'token': {
'audit_ids': [uuid.uuid4().hex]}}}
token2_id = uuid.uuid4().hex
token2_data = {'id_hash': token2_id, 'id': token2_id, 'a': 'b',
'expires': expire_time,
'trust_id': None,
'user': {'id': 'testuserid'},
'token_data': {'token': {
'audit_ids': [uuid.uuid4().hex]}}}
# Create 2 Tokens.
self.token_provider_api._persistence.create_token(token_id,
token_data)
self.token_provider_api._persistence.create_token(token2_id,
token2_data)
# Verify the revocation list is empty.
self.assertEqual(
[], self.token_provider_api._persistence.list_revoked_tokens())
self.assertEqual([], self.token_provider_api.list_revoked_tokens())
# Delete a token directly, bypassing the manager.
self.token_provider_api._persistence.driver.delete_token(token_id)
# Verify the revocation list is still empty.
self.assertEqual(
[], self.token_provider_api._persistence.list_revoked_tokens())
self.assertEqual([], self.token_provider_api.list_revoked_tokens())
# Invalidate the revocation list.
self.token_provider_api._persistence.invalidate_revocation_list()
# Verify the deleted token is in the revocation list.
revoked_ids = [x['id']
for x in self.token_provider_api.list_revoked_tokens()]
self._assert_revoked_token_list_matches_token_persistence(revoked_ids)
self.assertIn(token_id, revoked_ids)
# Delete the second token, through the manager
self.token_provider_api._persistence.delete_token(token2_id)
revoked_ids = [x['id']
for x in self.token_provider_api.list_revoked_tokens()]
self._assert_revoked_token_list_matches_token_persistence(revoked_ids)
# Verify both tokens are in the revocation list.
self.assertIn(token_id, revoked_ids)
self.assertIn(token2_id, revoked_ids)
[docs] def test_predictable_revoked_uuid_token_id(self):
token_id = uuid.uuid4().hex
token = {'user': {'id': uuid.uuid4().hex},
'token_data': {'token': {'audit_ids': [uuid.uuid4().hex]}}}
self.token_provider_api._persistence.create_token(token_id, token)
self.token_provider_api._persistence.delete_token(token_id)
revoked_tokens = self.token_provider_api.list_revoked_tokens()
revoked_ids = [x['id'] for x in revoked_tokens]
self._assert_revoked_token_list_matches_token_persistence(revoked_ids)
self.assertIn(token_id, revoked_ids)
for t in revoked_tokens:
self.assertIn('expires', t)
[docs] def test_create_unicode_token_id(self):
token_id = six.text_type(self._create_token_id())
self.create_token_sample_data(token_id=token_id)
self.token_provider_api._persistence.get_token(token_id)
[docs] def test_create_unicode_user_id(self):
user_id = six.text_type(uuid.uuid4().hex)
token_id, data = self.create_token_sample_data(user_id=user_id)
self.token_provider_api._persistence.get_token(token_id)
[docs]class TokenCacheInvalidation(object):
def _create_test_data(self):
time = datetime.datetime.utcnow()
with freezegun.freeze_time(time) as frozen_datetime:
# Create an equivalent of a scoped token
token_id, data = self.token_provider_api.issue_token(
self.user_foo['id'],
['password'],
project_id=self.tenant_bar['id']
)
self.scoped_token_id = token_id
# ..and an un-scoped one
token_id, data = self.token_provider_api.issue_token(
self.user_foo['id'],
['password']
)
self.unscoped_token_id = token_id
frozen_datetime.tick(delta=datetime.timedelta(seconds=1))
# Validate them, in the various ways possible - this will load the
# responses into the token cache.
self.token_provider_api.validate_token(self.scoped_token_id)
self.token_provider_api.validate_token(self.unscoped_token_id)
[docs] def test_delete_unscoped_token(self):
time = datetime.datetime.utcnow()
with freezegun.freeze_time(time) as frozen_datetime:
self.token_provider_api._persistence.delete_token(
self.unscoped_token_id)
frozen_datetime.tick(delta=datetime.timedelta(seconds=1))
# Ensure the unscoped token is invalid
self.assertRaises(
exception.TokenNotFound,
self.token_provider_api.validate_token,
self.unscoped_token_id)
# Ensure the scoped token is still valid
self.token_provider_api.validate_token(self.scoped_token_id)
[docs] def test_delete_scoped_token_by_id(self):
time = datetime.datetime.utcnow()
with freezegun.freeze_time(time) as frozen_datetime:
self.token_provider_api._persistence.delete_token(
self.scoped_token_id
)
frozen_datetime.tick(delta=datetime.timedelta(seconds=1))
# Ensure the project token is invalid
self.assertRaises(
exception.TokenNotFound,
self.token_provider_api.validate_token,
self.scoped_token_id)
# Ensure the unscoped token is still valid
self.token_provider_api.validate_token(self.unscoped_token_id)
[docs] def test_delete_scoped_token_by_user(self):
time = datetime.datetime.utcnow()
with freezegun.freeze_time(time) as frozen_datetime:
self.token_provider_api._persistence.delete_tokens(
self.user_foo['id']
)
frozen_datetime.tick(delta=datetime.timedelta(seconds=1))
# Since we are deleting all tokens for this user, they should all
# now be invalid.
self.assertRaises(
exception.TokenNotFound,
self.token_provider_api.validate_token,
self.scoped_token_id)
self.assertRaises(
exception.TokenNotFound,
self.token_provider_api.validate_token,
self.unscoped_token_id)
[docs] def test_delete_scoped_token_by_user_and_tenant(self):
time = datetime.datetime.utcnow()
with freezegun.freeze_time(time) as frozen_datetime:
self.token_provider_api._persistence.delete_tokens(
self.user_foo['id'],
tenant_id=self.tenant_bar['id'])
frozen_datetime.tick(delta=datetime.timedelta(seconds=1))
# Ensure the scoped token is invalid
self.assertRaises(
exception.TokenNotFound,
self.token_provider_api.validate_token,
self.scoped_token_id)
# Ensure the unscoped token is still valid
self.token_provider_api.validate_token(self.unscoped_token_id)
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