From 920a49cfa055733d575282973e23558c33087a4a Mon Sep 17 00:00:00 2001 From: RHE Date: Fri, 24 Nov 2017 13:54:26 +0100 Subject: remove keystone-moon Change-Id: I80d7c9b669f19d5f6607e162de8e0e55c2f80fdd Signed-off-by: RHE --- .../tests/unit/contrib/federation/test_utils.py | 725 --------------------- 1 file changed, 725 deletions(-) delete mode 100644 keystone-moon/keystone/tests/unit/contrib/federation/test_utils.py (limited to 'keystone-moon/keystone/tests/unit/contrib/federation/test_utils.py') diff --git a/keystone-moon/keystone/tests/unit/contrib/federation/test_utils.py b/keystone-moon/keystone/tests/unit/contrib/federation/test_utils.py deleted file mode 100644 index 52a6095b..00000000 --- a/keystone-moon/keystone/tests/unit/contrib/federation/test_utils.py +++ /dev/null @@ -1,725 +0,0 @@ -# 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 uuid - -from oslo_config import cfg -from oslo_config import fixture as config_fixture -from oslo_serialization import jsonutils - -from keystone.auth.plugins import mapped -from keystone import exception -from keystone.federation import utils as mapping_utils -from keystone.tests import unit -from keystone.tests.unit import mapping_fixtures - - -FAKE_MAPPING_ID = uuid.uuid4().hex - - -class MappingRuleEngineTests(unit.BaseTestCase): - """A class for testing the mapping rule engine.""" - - def assertValidMappedUserObject(self, mapped_properties, - user_type='ephemeral', - domain_id=None): - """Check whether mapped properties object has 'user' within. - - According to today's rules, RuleProcessor does not have to issue user's - id or name. What's actually required is user's type and for ephemeral - users that would be service domain named 'Federated'. - """ - self.assertIn('user', mapped_properties, - message='Missing user object in mapped properties') - user = mapped_properties['user'] - self.assertIn('type', user) - self.assertEqual(user_type, user['type']) - self.assertIn('domain', user) - domain = user['domain'] - domain_name_or_id = domain.get('id') or domain.get('name') - domain_ref = domain_id or 'Federated' - self.assertEqual(domain_ref, domain_name_or_id) - - def test_rule_engine_any_one_of_and_direct_mapping(self): - """Should return user's name and group id EMPLOYEE_GROUP_ID. - - The ADMIN_ASSERTION should successfully have a match in MAPPING_LARGE. - They will test the case where `any_one_of` is valid, and there is - a direct mapping for the users name. - - """ - mapping = mapping_fixtures.MAPPING_LARGE - assertion = mapping_fixtures.ADMIN_ASSERTION - rp = mapping_utils.RuleProcessor(FAKE_MAPPING_ID, mapping['rules']) - values = rp.process(assertion) - - fn = assertion.get('FirstName') - ln = assertion.get('LastName') - full_name = '%s %s' % (fn, ln) - group_ids = values.get('group_ids') - user_name = values.get('user', {}).get('name') - - self.assertIn(mapping_fixtures.EMPLOYEE_GROUP_ID, group_ids) - self.assertEqual(full_name, user_name) - - def test_rule_engine_no_regex_match(self): - """Should deny authorization, the email of the tester won't match. - - This will not match since the email in the assertion will fail - the regex test. It is set to match any @example.com address. - But the incoming value is set to eviltester@example.org. - RuleProcessor should raise ValidationError. - - """ - mapping = mapping_fixtures.MAPPING_LARGE - assertion = mapping_fixtures.BAD_TESTER_ASSERTION - rp = mapping_utils.RuleProcessor(FAKE_MAPPING_ID, mapping['rules']) - self.assertRaises(exception.ValidationError, - rp.process, - assertion) - - def test_rule_engine_regex_many_groups(self): - """Should return group CONTRACTOR_GROUP_ID. - - The TESTER_ASSERTION should successfully have a match in - MAPPING_TESTER_REGEX. This will test the case where many groups - are in the assertion, and a regex value is used to try and find - a match. - - """ - mapping = mapping_fixtures.MAPPING_TESTER_REGEX - assertion = mapping_fixtures.TESTER_ASSERTION - rp = mapping_utils.RuleProcessor(FAKE_MAPPING_ID, mapping['rules']) - values = rp.process(assertion) - - self.assertValidMappedUserObject(values) - user_name = assertion.get('UserName') - group_ids = values.get('group_ids') - name = values.get('user', {}).get('name') - - self.assertEqual(user_name, name) - self.assertIn(mapping_fixtures.TESTER_GROUP_ID, group_ids) - - def test_rule_engine_any_one_of_many_rules(self): - """Should return group CONTRACTOR_GROUP_ID. - - The CONTRACTOR_ASSERTION should successfully have a match in - MAPPING_SMALL. This will test the case where many rules - must be matched, including an `any_one_of`, and a direct - mapping. - - """ - mapping = mapping_fixtures.MAPPING_SMALL - assertion = mapping_fixtures.CONTRACTOR_ASSERTION - rp = mapping_utils.RuleProcessor(FAKE_MAPPING_ID, mapping['rules']) - values = rp.process(assertion) - - self.assertValidMappedUserObject(values) - user_name = assertion.get('UserName') - group_ids = values.get('group_ids') - name = values.get('user', {}).get('name') - - self.assertEqual(user_name, name) - self.assertIn(mapping_fixtures.CONTRACTOR_GROUP_ID, group_ids) - - def test_rule_engine_not_any_of_and_direct_mapping(self): - """Should return user's name and email. - - The CUSTOMER_ASSERTION should successfully have a match in - MAPPING_LARGE. This will test the case where a requirement - has `not_any_of`, and direct mapping to a username, no group. - - """ - mapping = mapping_fixtures.MAPPING_LARGE - assertion = mapping_fixtures.CUSTOMER_ASSERTION - rp = mapping_utils.RuleProcessor(FAKE_MAPPING_ID, mapping['rules']) - values = rp.process(assertion) - - self.assertValidMappedUserObject(values) - user_name = assertion.get('UserName') - group_ids = values.get('group_ids') - name = values.get('user', {}).get('name') - - self.assertEqual(user_name, name) - self.assertEqual([], group_ids,) - - def test_rule_engine_not_any_of_many_rules(self): - """Should return group EMPLOYEE_GROUP_ID. - - The EMPLOYEE_ASSERTION should successfully have a match in - MAPPING_SMALL. This will test the case where many remote - rules must be matched, including a `not_any_of`. - - """ - mapping = mapping_fixtures.MAPPING_SMALL - assertion = mapping_fixtures.EMPLOYEE_ASSERTION - rp = mapping_utils.RuleProcessor(FAKE_MAPPING_ID, mapping['rules']) - values = rp.process(assertion) - - self.assertValidMappedUserObject(values) - user_name = assertion.get('UserName') - group_ids = values.get('group_ids') - name = values.get('user', {}).get('name') - - self.assertEqual(user_name, name) - self.assertIn(mapping_fixtures.EMPLOYEE_GROUP_ID, group_ids) - - def test_rule_engine_not_any_of_regex_verify_pass(self): - """Should return group DEVELOPER_GROUP_ID. - - The DEVELOPER_ASSERTION should successfully have a match in - MAPPING_DEVELOPER_REGEX. This will test the case where many - remote rules must be matched, including a `not_any_of`, with - regex set to True. - - """ - mapping = mapping_fixtures.MAPPING_DEVELOPER_REGEX - assertion = mapping_fixtures.DEVELOPER_ASSERTION - rp = mapping_utils.RuleProcessor(FAKE_MAPPING_ID, mapping['rules']) - values = rp.process(assertion) - - self.assertValidMappedUserObject(values) - user_name = assertion.get('UserName') - group_ids = values.get('group_ids') - name = values.get('user', {}).get('name') - - self.assertEqual(user_name, name) - self.assertIn(mapping_fixtures.DEVELOPER_GROUP_ID, group_ids) - - def test_rule_engine_not_any_of_regex_verify_fail(self): - """Should deny authorization. - - The email in the assertion will fail the regex test. - It is set to reject any @example.org address, but the - incoming value is set to evildeveloper@example.org. - RuleProcessor should yield ValidationError. - - """ - mapping = mapping_fixtures.MAPPING_DEVELOPER_REGEX - assertion = mapping_fixtures.BAD_DEVELOPER_ASSERTION - rp = mapping_utils.RuleProcessor(FAKE_MAPPING_ID, mapping['rules']) - self.assertRaises(exception.ValidationError, - rp.process, - assertion) - - def _rule_engine_regex_match_and_many_groups(self, assertion): - """Should return group DEVELOPER_GROUP_ID and TESTER_GROUP_ID. - - A helper function injecting assertion passed as an argument. - Expect DEVELOPER_GROUP_ID and TESTER_GROUP_ID in the results. - - """ - mapping = mapping_fixtures.MAPPING_LARGE - rp = mapping_utils.RuleProcessor(FAKE_MAPPING_ID, mapping['rules']) - values = rp.process(assertion) - - user_name = assertion.get('UserName') - group_ids = values.get('group_ids') - name = values.get('user', {}).get('name') - - self.assertValidMappedUserObject(values) - self.assertEqual(user_name, name) - self.assertIn(mapping_fixtures.DEVELOPER_GROUP_ID, group_ids) - self.assertIn(mapping_fixtures.TESTER_GROUP_ID, group_ids) - - def test_rule_engine_regex_match_and_many_groups(self): - """Should return group DEVELOPER_GROUP_ID and TESTER_GROUP_ID. - - The TESTER_ASSERTION should successfully have a match in - MAPPING_LARGE. This will test a successful regex match - for an `any_one_of` evaluation type, and will have many - groups returned. - - """ - self._rule_engine_regex_match_and_many_groups( - mapping_fixtures.TESTER_ASSERTION) - - def test_rule_engine_discards_nonstring_objects(self): - """Check whether RuleProcessor discards non string objects. - - Despite the fact that assertion is malformed and contains - non string objects, RuleProcessor should correctly discard them and - successfully have a match in MAPPING_LARGE. - - """ - self._rule_engine_regex_match_and_many_groups( - mapping_fixtures.MALFORMED_TESTER_ASSERTION) - - def test_rule_engine_fails_after_discarding_nonstring(self): - """Check whether RuleProcessor discards non string objects. - - Expect RuleProcessor to discard non string object, which - is required for a correct rule match. RuleProcessor will result with - ValidationError. - - """ - mapping = mapping_fixtures.MAPPING_SMALL - rp = mapping_utils.RuleProcessor(FAKE_MAPPING_ID, mapping['rules']) - assertion = mapping_fixtures.CONTRACTOR_MALFORMED_ASSERTION - self.assertRaises(exception.ValidationError, - rp.process, - assertion) - - def test_using_remote_direct_mapping_that_doesnt_exist_fails(self): - """Test for the correct error when referring to a bad remote match. - - The remote match must exist in a rule when a local section refers to - a remote matching using the format (e.g. {0} in a local section). - """ - mapping = mapping_fixtures.MAPPING_DIRECT_MAPPING_THROUGH_KEYWORD - rp = mapping_utils.RuleProcessor(FAKE_MAPPING_ID, mapping['rules']) - assertion = mapping_fixtures.CUSTOMER_ASSERTION - - self.assertRaises(exception.DirectMappingError, - rp.process, - assertion) - - def test_rule_engine_returns_group_names(self): - """Check whether RuleProcessor returns group names with their domains. - - RuleProcessor should return 'group_names' entry with a list of - dictionaries with two entries 'name' and 'domain' identifying group by - its name and domain. - - """ - mapping = mapping_fixtures.MAPPING_GROUP_NAMES - rp = mapping_utils.RuleProcessor(FAKE_MAPPING_ID, mapping['rules']) - assertion = mapping_fixtures.EMPLOYEE_ASSERTION - mapped_properties = rp.process(assertion) - self.assertIsNotNone(mapped_properties) - self.assertValidMappedUserObject(mapped_properties) - reference = { - mapping_fixtures.DEVELOPER_GROUP_NAME: - { - "name": mapping_fixtures.DEVELOPER_GROUP_NAME, - "domain": { - "name": mapping_fixtures.DEVELOPER_GROUP_DOMAIN_NAME - } - }, - mapping_fixtures.TESTER_GROUP_NAME: - { - "name": mapping_fixtures.TESTER_GROUP_NAME, - "domain": { - "id": mapping_fixtures.DEVELOPER_GROUP_DOMAIN_ID - } - } - } - for rule in mapped_properties['group_names']: - self.assertDictEqual(reference.get(rule.get('name')), rule) - - def test_rule_engine_whitelist_and_direct_groups_mapping(self): - """Should return user's groups Developer and Contractor. - - The EMPLOYEE_ASSERTION_MULTIPLE_GROUPS should successfully have a match - in MAPPING_GROUPS_WHITELIST. It will test the case where 'whitelist' - correctly filters out Manager and only allows Developer and Contractor. - - """ - mapping = mapping_fixtures.MAPPING_GROUPS_WHITELIST - assertion = mapping_fixtures.EMPLOYEE_ASSERTION_MULTIPLE_GROUPS - rp = mapping_utils.RuleProcessor(FAKE_MAPPING_ID, mapping['rules']) - mapped_properties = rp.process(assertion) - self.assertIsNotNone(mapped_properties) - - reference = { - mapping_fixtures.DEVELOPER_GROUP_NAME: - { - "name": mapping_fixtures.DEVELOPER_GROUP_NAME, - "domain": { - "id": mapping_fixtures.DEVELOPER_GROUP_DOMAIN_ID - } - }, - mapping_fixtures.CONTRACTOR_GROUP_NAME: - { - "name": mapping_fixtures.CONTRACTOR_GROUP_NAME, - "domain": { - "id": mapping_fixtures.DEVELOPER_GROUP_DOMAIN_ID - } - } - } - for rule in mapped_properties['group_names']: - self.assertDictEqual(reference.get(rule.get('name')), rule) - - self.assertEqual('tbo', mapped_properties['user']['name']) - self.assertEqual([], mapped_properties['group_ids']) - - def test_rule_engine_blacklist_and_direct_groups_mapping(self): - """Should return user's group Developer. - - The EMPLOYEE_ASSERTION_MULTIPLE_GROUPS should successfully have a match - in MAPPING_GROUPS_BLACKLIST. It will test the case where 'blacklist' - correctly filters out Manager and Developer and only allows Contractor. - - """ - mapping = mapping_fixtures.MAPPING_GROUPS_BLACKLIST - assertion = mapping_fixtures.EMPLOYEE_ASSERTION_MULTIPLE_GROUPS - rp = mapping_utils.RuleProcessor(FAKE_MAPPING_ID, mapping['rules']) - mapped_properties = rp.process(assertion) - self.assertIsNotNone(mapped_properties) - - reference = { - mapping_fixtures.CONTRACTOR_GROUP_NAME: - { - "name": mapping_fixtures.CONTRACTOR_GROUP_NAME, - "domain": { - "id": mapping_fixtures.DEVELOPER_GROUP_DOMAIN_ID - } - } - } - for rule in mapped_properties['group_names']: - self.assertDictEqual(reference.get(rule.get('name')), rule) - self.assertEqual('tbo', mapped_properties['user']['name']) - self.assertEqual([], mapped_properties['group_ids']) - - def test_rule_engine_blacklist_and_direct_groups_mapping_multiples(self): - """Tests matching multiple values before the blacklist. - - Verifies that the local indexes are correct when matching multiple - remote values for a field when the field occurs before the blacklist - entry in the remote rules. - - """ - mapping = mapping_fixtures.MAPPING_GROUPS_BLACKLIST_MULTIPLES - assertion = mapping_fixtures.EMPLOYEE_ASSERTION_MULTIPLE_GROUPS - rp = mapping_utils.RuleProcessor(FAKE_MAPPING_ID, mapping['rules']) - mapped_properties = rp.process(assertion) - self.assertIsNotNone(mapped_properties) - - reference = { - mapping_fixtures.CONTRACTOR_GROUP_NAME: - { - "name": mapping_fixtures.CONTRACTOR_GROUP_NAME, - "domain": { - "id": mapping_fixtures.DEVELOPER_GROUP_DOMAIN_ID - } - } - } - for rule in mapped_properties['group_names']: - self.assertDictEqual(reference.get(rule.get('name')), rule) - self.assertEqual('tbo', mapped_properties['user']['name']) - self.assertEqual([], mapped_properties['group_ids']) - - def test_rule_engine_whitelist_direct_group_mapping_missing_domain(self): - """Test if the local rule is rejected upon missing domain value - - This is a variation with a ``whitelist`` filter. - - """ - mapping = mapping_fixtures.MAPPING_GROUPS_WHITELIST_MISSING_DOMAIN - assertion = mapping_fixtures.EMPLOYEE_ASSERTION_MULTIPLE_GROUPS - rp = mapping_utils.RuleProcessor(FAKE_MAPPING_ID, mapping['rules']) - self.assertRaises(exception.ValidationError, rp.process, assertion) - - def test_rule_engine_blacklist_direct_group_mapping_missing_domain(self): - """Test if the local rule is rejected upon missing domain value - - This is a variation with a ``blacklist`` filter. - - """ - mapping = mapping_fixtures.MAPPING_GROUPS_BLACKLIST_MISSING_DOMAIN - assertion = mapping_fixtures.EMPLOYEE_ASSERTION_MULTIPLE_GROUPS - rp = mapping_utils.RuleProcessor(FAKE_MAPPING_ID, mapping['rules']) - self.assertRaises(exception.ValidationError, rp.process, assertion) - - def test_rule_engine_no_groups_allowed(self): - """Should return user mapped to no groups. - - The EMPLOYEE_ASSERTION should successfully have a match - in MAPPING_GROUPS_WHITELIST, but 'whitelist' should filter out - the group values from the assertion and thus map to no groups. - - """ - mapping = mapping_fixtures.MAPPING_GROUPS_WHITELIST - assertion = mapping_fixtures.EMPLOYEE_ASSERTION - rp = mapping_utils.RuleProcessor(FAKE_MAPPING_ID, mapping['rules']) - mapped_properties = rp.process(assertion) - self.assertIsNotNone(mapped_properties) - self.assertListEqual(mapped_properties['group_names'], []) - self.assertListEqual(mapped_properties['group_ids'], []) - self.assertEqual('tbo', mapped_properties['user']['name']) - - def test_mapping_federated_domain_specified(self): - """Test mapping engine when domain 'ephemeral' is explicitly set. - - For that, we use mapping rule MAPPING_EPHEMERAL_USER and assertion - EMPLOYEE_ASSERTION - - """ - mapping = mapping_fixtures.MAPPING_EPHEMERAL_USER - rp = mapping_utils.RuleProcessor(FAKE_MAPPING_ID, mapping['rules']) - assertion = mapping_fixtures.EMPLOYEE_ASSERTION - mapped_properties = rp.process(assertion) - self.assertIsNotNone(mapped_properties) - self.assertValidMappedUserObject(mapped_properties) - - def test_set_ephemeral_domain_to_ephemeral_users(self): - """Test auto assigning service domain to ephemeral users. - - Test that ephemeral users will always become members of federated - service domain. The check depends on ``type`` value which must be set - to ``ephemeral`` in case of ephemeral user. - - """ - mapping = mapping_fixtures.MAPPING_EPHEMERAL_USER_LOCAL_DOMAIN - rp = mapping_utils.RuleProcessor(FAKE_MAPPING_ID, mapping['rules']) - assertion = mapping_fixtures.CONTRACTOR_ASSERTION - mapped_properties = rp.process(assertion) - self.assertIsNotNone(mapped_properties) - self.assertValidMappedUserObject(mapped_properties) - - def test_local_user_local_domain(self): - """Test that local users can have non-service domains assigned.""" - mapping = mapping_fixtures.MAPPING_LOCAL_USER_LOCAL_DOMAIN - rp = mapping_utils.RuleProcessor(FAKE_MAPPING_ID, mapping['rules']) - assertion = mapping_fixtures.CONTRACTOR_ASSERTION - mapped_properties = rp.process(assertion) - self.assertIsNotNone(mapped_properties) - self.assertValidMappedUserObject( - mapped_properties, user_type='local', - domain_id=mapping_fixtures.LOCAL_DOMAIN) - - def test_user_identifications_name(self): - """Test varius mapping options and how users are identified. - - This test calls mapped.setup_username() for propagating user object. - - Test plan: - - Check if the user has proper domain ('federated') set - - Check if the user has property type set ('ephemeral') - - Check if user's name is properly mapped from the assertion - - Check if unique_id is properly set and equal to display_name, - as it was not explicitly specified in the mapping. - - """ - mapping = mapping_fixtures.MAPPING_USER_IDS - rp = mapping_utils.RuleProcessor(FAKE_MAPPING_ID, mapping['rules']) - assertion = mapping_fixtures.CONTRACTOR_ASSERTION - mapped_properties = rp.process(assertion) - self.assertIsNotNone(mapped_properties) - self.assertValidMappedUserObject(mapped_properties) - self.assertEqual('jsmith', mapped_properties['user']['name']) - unique_id, display_name = mapped.get_user_unique_id_and_display_name( - {}, mapped_properties) - self.assertEqual('jsmith', unique_id) - self.assertEqual('jsmith', display_name) - - def test_user_identifications_name_and_federated_domain(self): - """Test varius mapping options and how users are identified. - - This test calls mapped.setup_username() for propagating user object. - - Test plan: - - Check if the user has proper domain ('federated') set - - Check if the user has propert type set ('ephemeral') - - Check if user's name is properly mapped from the assertion - - Check if the unique_id and display_name are properly set - - """ - mapping = mapping_fixtures.MAPPING_USER_IDS - rp = mapping_utils.RuleProcessor(FAKE_MAPPING_ID, mapping['rules']) - assertion = mapping_fixtures.EMPLOYEE_ASSERTION - mapped_properties = rp.process(assertion) - self.assertIsNotNone(mapped_properties) - self.assertValidMappedUserObject(mapped_properties) - unique_id, display_name = mapped.get_user_unique_id_and_display_name( - {}, mapped_properties) - self.assertEqual('tbo', display_name) - self.assertEqual('abc123%40example.com', unique_id) - - def test_user_identification_id(self): - """Test varius mapping options and how users are identified. - - This test calls mapped.setup_username() for propagating user object. - - Test plan: - - Check if the user has proper domain ('federated') set - - Check if the user has propert type set ('ephemeral') - - Check if user's display_name is properly set and equal to unique_id, - as it was not explicitly specified in the mapping. - - """ - mapping = mapping_fixtures.MAPPING_USER_IDS - rp = mapping_utils.RuleProcessor(FAKE_MAPPING_ID, mapping['rules']) - assertion = mapping_fixtures.ADMIN_ASSERTION - mapped_properties = rp.process(assertion) - context = {'environment': {}} - self.assertIsNotNone(mapped_properties) - self.assertValidMappedUserObject(mapped_properties) - unique_id, display_name = mapped.get_user_unique_id_and_display_name( - context, mapped_properties) - self.assertEqual('bob', unique_id) - self.assertEqual('bob', display_name) - - def test_user_identification_id_and_name(self): - """Test varius mapping options and how users are identified. - - This test calls mapped.setup_username() for propagating user object. - - Test plan: - - Check if the user has proper domain ('federated') set - - Check if the user has proper type set ('ephemeral') - - Check if display_name is properly set from the assertion - - Check if unique_id is properly set and and equal to value hardcoded - in the mapping - - This test does two iterations with different assertions used as input - for the Mapping Engine. Different assertions will be matched with - different rules in the ruleset, effectively issuing different user_id - (hardcoded values). In the first iteration, the hardcoded user_id is - not url-safe and we expect Keystone to make it url safe. In the latter - iteration, provided user_id is already url-safe and we expect server - not to change it. - - """ - testcases = [(mapping_fixtures.CUSTOMER_ASSERTION, 'bwilliams'), - (mapping_fixtures.EMPLOYEE_ASSERTION, 'tbo')] - for assertion, exp_user_name in testcases: - mapping = mapping_fixtures.MAPPING_USER_IDS - rp = mapping_utils.RuleProcessor(FAKE_MAPPING_ID, mapping['rules']) - mapped_properties = rp.process(assertion) - context = {'environment': {}} - self.assertIsNotNone(mapped_properties) - self.assertValidMappedUserObject(mapped_properties) - unique_id, display_name = ( - mapped.get_user_unique_id_and_display_name(context, - mapped_properties) - ) - self.assertEqual(exp_user_name, display_name) - self.assertEqual('abc123%40example.com', unique_id) - - def test_whitelist_pass_through(self): - mapping = mapping_fixtures.MAPPING_GROUPS_WHITELIST_PASS_THROUGH - rp = mapping_utils.RuleProcessor(FAKE_MAPPING_ID, mapping['rules']) - assertion = mapping_fixtures.DEVELOPER_ASSERTION - mapped_properties = rp.process(assertion) - self.assertValidMappedUserObject(mapped_properties) - - self.assertEqual('developacct', mapped_properties['user']['name']) - self.assertEqual('Developer', - mapped_properties['group_names'][0]['name']) - - def test_mapping_with_incorrect_local_keys(self): - mapping = mapping_fixtures.MAPPING_BAD_LOCAL_SETUP - self.assertRaises(exception.ValidationError, - mapping_utils.validate_mapping_structure, - mapping) - - def test_mapping_with_group_name_and_domain(self): - mapping = mapping_fixtures.MAPPING_GROUP_NAMES - mapping_utils.validate_mapping_structure(mapping) - - def test_type_not_in_assertion(self): - """Test that if the remote "type" is not in the assertion it fails.""" - mapping = mapping_fixtures.MAPPING_GROUPS_WHITELIST_PASS_THROUGH - rp = mapping_utils.RuleProcessor(FAKE_MAPPING_ID, mapping['rules']) - assertion = {uuid.uuid4().hex: uuid.uuid4().hex} - self.assertRaises(exception.ValidationError, - rp.process, - assertion) - - def test_rule_engine_group_ids_mapping_whitelist(self): - """Test mapping engine when group_ids is explicitly set - - Also test whitelists on group ids - - """ - mapping = mapping_fixtures.MAPPING_GROUPS_IDS_WHITELIST - assertion = mapping_fixtures.GROUP_IDS_ASSERTION - rp = mapping_utils.RuleProcessor(FAKE_MAPPING_ID, mapping['rules']) - mapped_properties = rp.process(assertion) - self.assertIsNotNone(mapped_properties) - self.assertEqual('opilotte', mapped_properties['user']['name']) - self.assertListEqual([], mapped_properties['group_names']) - self.assertItemsEqual(['abc123', 'ghi789', 'klm012'], - mapped_properties['group_ids']) - - def test_rule_engine_group_ids_mapping_blacklist(self): - """Test mapping engine when group_ids is explicitly set. - - Also test blacklists on group ids - - """ - mapping = mapping_fixtures.MAPPING_GROUPS_IDS_BLACKLIST - assertion = mapping_fixtures.GROUP_IDS_ASSERTION - rp = mapping_utils.RuleProcessor(FAKE_MAPPING_ID, mapping['rules']) - mapped_properties = rp.process(assertion) - self.assertIsNotNone(mapped_properties) - self.assertEqual('opilotte', mapped_properties['user']['name']) - self.assertListEqual([], mapped_properties['group_names']) - self.assertItemsEqual(['abc123', 'ghi789', 'klm012'], - mapped_properties['group_ids']) - - def test_rule_engine_group_ids_mapping_only_one_group(self): - """Test mapping engine when group_ids is explicitly set. - - If the group ids list has only one group, - test if the transformation is done correctly - - """ - mapping = mapping_fixtures.MAPPING_GROUPS_IDS_WHITELIST - assertion = mapping_fixtures.GROUP_IDS_ASSERTION_ONLY_ONE_GROUP - rp = mapping_utils.RuleProcessor(FAKE_MAPPING_ID, mapping['rules']) - mapped_properties = rp.process(assertion) - self.assertIsNotNone(mapped_properties) - self.assertEqual('opilotte', mapped_properties['user']['name']) - self.assertListEqual([], mapped_properties['group_names']) - self.assertItemsEqual(['210mlk', '321cba'], - mapped_properties['group_ids']) - - -class TestUnicodeAssertionData(unit.BaseTestCase): - """Ensure that unicode data in the assertion headers works. - - Bug #1525250 reported that something was not getting correctly encoded - and/or decoded when assertion data contained non-ASCII characters. - - This test class mimics what happens in a real HTTP request. - """ - - def setUp(self): - super(TestUnicodeAssertionData, self).setUp() - self.config_fixture = self.useFixture(config_fixture.Config(cfg.CONF)) - self.config_fixture.config(group='federation', - assertion_prefix='PFX') - - def _pull_mapping_rules_from_the_database(self): - # NOTE(dstanek): In a live system. The rules are dumped into JSON bytes - # before being # stored in the database. Upon retrieval the bytes are - # loaded and the resulting dictionary is full of unicode text strings. - # Most of tests in this file incorrectly assume the mapping fixture - # dictionary is the same as what it would look like coming out of the - # database. The string, when coming out of the database, are all text. - return jsonutils.loads(jsonutils.dumps( - mapping_fixtures.MAPPING_UNICODE)) - - def _pull_assertion_from_the_request_headers(self): - # NOTE(dstanek): In a live system the bytes for the assertion are - # pulled from the HTTP headers. These bytes may be decodable as - # ISO-8859-1 according to Section 3.2.4 of RFC 7230. Let's assume - # that our web server plugins are correctly encoding the data. - context = dict(environment=mapping_fixtures.UNICODE_NAME_ASSERTION) - data = mapping_utils.get_assertion_params_from_env(context) - # NOTE(dstanek): keystone.auth.plugins.mapped - return dict(data) - - def test_unicode(self): - mapping = self._pull_mapping_rules_from_the_database() - assertion = self._pull_assertion_from_the_request_headers() - - rp = mapping_utils.RuleProcessor(FAKE_MAPPING_ID, mapping['rules']) - values = rp.process(assertion) - - fn = assertion.get('PFX_FirstName') - ln = assertion.get('PFX_LastName') - full_name = '%s %s' % (fn, ln) - user_name = values.get('user', {}).get('name') - self.assertEqual(full_name, user_name) -- cgit 1.2.3-korg