# -*- coding: utf-8 -*- # 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 os import tempfile import uuid import fixtures import ldap.dn import mock from oslo_config import cfg from testtools import matchers from keystone.common import driver_hints from keystone.common import ldap as ks_ldap from keystone.common.ldap import core as common_ldap_core from keystone.tests import unit as tests from keystone.tests.unit import default_fixtures from keystone.tests.unit import fakeldap CONF = cfg.CONF class DnCompareTest(tests.BaseTestCase): """Tests for the DN comparison functions in keystone.common.ldap.core.""" def test_prep(self): # prep_case_insensitive returns the string with spaces at the front and # end if it's already lowercase and no insignificant characters. value = 'lowercase value' self.assertEqual(value, ks_ldap.prep_case_insensitive(value)) def test_prep_lowercase(self): # prep_case_insensitive returns the string with spaces at the front and # end and lowercases the value. value = 'UPPERCASE VALUE' exp_value = value.lower() self.assertEqual(exp_value, ks_ldap.prep_case_insensitive(value)) def test_prep_insignificant(self): # prep_case_insensitive remove insignificant spaces. value = 'before after' exp_value = 'before after' self.assertEqual(exp_value, ks_ldap.prep_case_insensitive(value)) def test_prep_insignificant_pre_post(self): # prep_case_insensitive remove insignificant spaces. value = ' value ' exp_value = 'value' self.assertEqual(exp_value, ks_ldap.prep_case_insensitive(value)) def test_ava_equal_same(self): # is_ava_value_equal returns True if the two values are the same. value = 'val1' self.assertTrue(ks_ldap.is_ava_value_equal('cn', value, value)) def test_ava_equal_complex(self): # is_ava_value_equal returns True if the two values are the same using # a value that's got different capitalization and insignificant chars. val1 = 'before after' val2 = ' BEFORE afTer ' self.assertTrue(ks_ldap.is_ava_value_equal('cn', val1, val2)) def test_ava_different(self): # is_ava_value_equal returns False if the values aren't the same. self.assertFalse(ks_ldap.is_ava_value_equal('cn', 'val1', 'val2')) def test_rdn_same(self): # is_rdn_equal returns True if the two values are the same. rdn = ldap.dn.str2dn('cn=val1')[0] self.assertTrue(ks_ldap.is_rdn_equal(rdn, rdn)) def test_rdn_diff_length(self): # is_rdn_equal returns False if the RDNs have a different number of # AVAs. rdn1 = ldap.dn.str2dn('cn=cn1')[0] rdn2 = ldap.dn.str2dn('cn=cn1+ou=ou1')[0] self.assertFalse(ks_ldap.is_rdn_equal(rdn1, rdn2)) def test_rdn_multi_ava_same_order(self): # is_rdn_equal returns True if the RDNs have the same number of AVAs # and the values are the same. rdn1 = ldap.dn.str2dn('cn=cn1+ou=ou1')[0] rdn2 = ldap.dn.str2dn('cn=CN1+ou=OU1')[0] self.assertTrue(ks_ldap.is_rdn_equal(rdn1, rdn2)) def test_rdn_multi_ava_diff_order(self): # is_rdn_equal returns True if the RDNs have the same number of AVAs # and the values are the same, even if in a different order rdn1 = ldap.dn.str2dn('cn=cn1+ou=ou1')[0] rdn2 = ldap.dn.str2dn('ou=OU1+cn=CN1')[0] self.assertTrue(ks_ldap.is_rdn_equal(rdn1, rdn2)) def test_rdn_multi_ava_diff_type(self): # is_rdn_equal returns False if the RDNs have the same number of AVAs # and the attribute types are different. rdn1 = ldap.dn.str2dn('cn=cn1+ou=ou1')[0] rdn2 = ldap.dn.str2dn('cn=cn1+sn=sn1')[0] self.assertFalse(ks_ldap.is_rdn_equal(rdn1, rdn2)) def test_rdn_attr_type_case_diff(self): # is_rdn_equal returns True for same RDNs even when attr type case is # different. rdn1 = ldap.dn.str2dn('cn=cn1')[0] rdn2 = ldap.dn.str2dn('CN=cn1')[0] self.assertTrue(ks_ldap.is_rdn_equal(rdn1, rdn2)) def test_rdn_attr_type_alias(self): # is_rdn_equal returns False for same RDNs even when attr type alias is # used. Note that this is a limitation since an LDAP server should # consider them equal. rdn1 = ldap.dn.str2dn('cn=cn1')[0] rdn2 = ldap.dn.str2dn('2.5.4.3=cn1')[0] self.assertFalse(ks_ldap.is_rdn_equal(rdn1, rdn2)) def test_dn_same(self): # is_dn_equal returns True if the DNs are the same. dn = 'cn=Babs Jansen,ou=OpenStack' self.assertTrue(ks_ldap.is_dn_equal(dn, dn)) def test_dn_equal_unicode(self): # is_dn_equal can accept unicode dn = u'cn=fäké,ou=OpenStack' self.assertTrue(ks_ldap.is_dn_equal(dn, dn)) def test_dn_diff_length(self): # is_dn_equal returns False if the DNs don't have the same number of # RDNs dn1 = 'cn=Babs Jansen,ou=OpenStack' dn2 = 'cn=Babs Jansen,ou=OpenStack,dc=example.com' self.assertFalse(ks_ldap.is_dn_equal(dn1, dn2)) def test_dn_equal_rdns(self): # is_dn_equal returns True if the DNs have the same number of RDNs # and each RDN is the same. dn1 = 'cn=Babs Jansen,ou=OpenStack+cn=OpenSource' dn2 = 'CN=Babs Jansen,cn=OpenSource+ou=OpenStack' self.assertTrue(ks_ldap.is_dn_equal(dn1, dn2)) def test_dn_parsed_dns(self): # is_dn_equal can also accept parsed DNs. dn_str1 = ldap.dn.str2dn('cn=Babs Jansen,ou=OpenStack+cn=OpenSource') dn_str2 = ldap.dn.str2dn('CN=Babs Jansen,cn=OpenSource+ou=OpenStack') self.assertTrue(ks_ldap.is_dn_equal(dn_str1, dn_str2)) def test_startswith_under_child(self): # dn_startswith returns True if descendant_dn is a child of dn. child = 'cn=Babs Jansen,ou=OpenStack' parent = 'ou=OpenStack' self.assertTrue(ks_ldap.dn_startswith(child, parent)) def test_startswith_parent(self): # dn_startswith returns False if descendant_dn is a parent of dn. child = 'cn=Babs Jansen,ou=OpenStack' parent = 'ou=OpenStack' self.assertFalse(ks_ldap.dn_startswith(parent, child)) def test_startswith_same(self): # dn_startswith returns False if DNs are the same. dn = 'cn=Babs Jansen,ou=OpenStack' self.assertFalse(ks_ldap.dn_startswith(dn, dn)) def test_startswith_not_parent(self): # dn_startswith returns False if descendant_dn is not under the dn child = 'cn=Babs Jansen,ou=OpenStack' parent = 'dc=example.com' self.assertFalse(ks_ldap.dn_startswith(child, parent)) def test_startswith_descendant(self): # dn_startswith returns True if descendant_dn is a descendant of dn. descendant = 'cn=Babs Jansen,ou=Keystone,ou=OpenStack,dc=example.com' dn = 'ou=OpenStack,dc=example.com' self.assertTrue(ks_ldap.dn_startswith(descendant, dn)) descendant = 'uid=12345,ou=Users,dc=example,dc=com' dn = 'ou=Users,dc=example,dc=com' self.assertTrue(ks_ldap.dn_startswith(descendant, dn)) def test_startswith_parsed_dns(self): # dn_startswith also accepts parsed DNs. descendant = ldap.dn.str2dn('cn=Babs Jansen,ou=OpenStack') dn = ldap.dn.str2dn('ou=OpenStack') self.assertTrue(ks_ldap.dn_startswith(descendant, dn)) def test_startswith_unicode(self): # dn_startswith accepts unicode. child = u'cn=cn=fäké,ou=OpenStäck' parent = 'ou=OpenStäck' self.assertTrue(ks_ldap.dn_startswith(child, parent)) class LDAPDeleteTreeTest(tests.TestCase): def setUp(self): super(LDAPDeleteTreeTest, self).setUp() ks_ldap.register_handler('fake://', fakeldap.FakeLdapNoSubtreeDelete) self.load_backends() self.load_fixtures(default_fixtures) self.addCleanup(self.clear_database) self.addCleanup(common_ldap_core._HANDLERS.clear) def clear_database(self): for shelf in fakeldap.FakeShelves: fakeldap.FakeShelves[shelf].clear() def config_overrides(self): super(LDAPDeleteTreeTest, self).config_overrides() self.config_fixture.config(group='identity', driver='ldap') def config_files(self): config_files = super(LDAPDeleteTreeTest, self).config_files() config_files.append(tests.dirs.tests_conf('backend_ldap.conf')) return config_files def test_deleteTree(self): """Test manually deleting a tree. Few LDAP servers support CONTROL_DELETETREE. This test exercises the alternate code paths in BaseLdap.deleteTree. """ conn = self.identity_api.user.get_connection() id_attr = self.identity_api.user.id_attr objclass = self.identity_api.user.object_class.lower() tree_dn = self.identity_api.user.tree_dn def create_entry(name, parent_dn=None): if not parent_dn: parent_dn = tree_dn dn = '%s=%s,%s' % (id_attr, name, parent_dn) attrs = [('objectclass', [objclass, 'ldapsubentry']), (id_attr, [name])] conn.add_s(dn, attrs) return dn # create 3 entries like this: # cn=base # cn=child,cn=base # cn=grandchild,cn=child,cn=base # then attempt to deleteTree(cn=base) base_id = 'base' base_dn = create_entry(base_id) child_dn = create_entry('child', base_dn) grandchild_dn = create_entry('grandchild', child_dn) # verify that the three entries were created scope = ldap.SCOPE_SUBTREE filt = '(|(objectclass=*)(objectclass=ldapsubentry))' entries = conn.search_s(base_dn, scope, filt, attrlist=common_ldap_core.DN_ONLY) self.assertThat(entries, matchers.HasLength(3)) sort_ents = sorted([e[0] for e in entries], key=len, reverse=True) self.assertEqual([grandchild_dn, child_dn, base_dn], sort_ents) # verify that a non-leaf node can't be deleted directly by the # LDAP server self.assertRaises(ldap.NOT_ALLOWED_ON_NONLEAF, conn.delete_s, base_dn) self.assertRaises(ldap.NOT_ALLOWED_ON_NONLEAF, conn.delete_s, child_dn) # call our deleteTree implementation self.identity_api.user.deleteTree(base_id) self.assertRaises(ldap.NO_SUCH_OBJECT, conn.search_s, base_dn, ldap.SCOPE_BASE) self.assertRaises(ldap.NO_SUCH_OBJECT, conn.search_s, child_dn, ldap.SCOPE_BASE) self.assertRaises(ldap.NO_SUCH_OBJECT, conn.search_s, grandchild_dn, ldap.SCOPE_BASE) class SslTlsTest(tests.TestCase): """Tests for the SSL/TLS functionality in keystone.common.ldap.core.""" @mock.patch.object(ks_ldap.core.KeystoneLDAPHandler, 'simple_bind_s') @mock.patch.object(ldap.ldapobject.LDAPObject, 'start_tls_s') def _init_ldap_connection(self, config, mock_ldap_one, mock_ldap_two): # Attempt to connect to initialize python-ldap. base_ldap = ks_ldap.BaseLdap(config) base_ldap.get_connection() def test_certfile_trust_tls(self): # We need this to actually exist, so we create a tempfile. (handle, certfile) = tempfile.mkstemp() self.addCleanup(os.unlink, certfile) self.addCleanup(os.close, handle) self.config_fixture.config(group='ldap', url='ldap://localhost', use_tls=True, tls_cacertfile=certfile) self._init_ldap_connection(CONF) # Ensure the cert trust option is set. self.assertEqual(certfile, ldap.get_option(ldap.OPT_X_TLS_CACERTFILE)) def test_certdir_trust_tls(self): # We need this to actually exist, so we create a tempdir. certdir = self.useFixture(fixtures.TempDir()).path self.config_fixture.config(group='ldap', url='ldap://localhost', use_tls=True, tls_cacertdir=certdir) self._init_ldap_connection(CONF) # Ensure the cert trust option is set. self.assertEqual(certdir, ldap.get_option(ldap.OPT_X_TLS_CACERTDIR)) def test_certfile_trust_ldaps(self): # We need this to actually exist, so we create a tempfile. (handle, certfile) = tempfile.mkstemp() self.addCleanup(os.unlink, certfile) self.addCleanup(os.close, handle) self.config_fixture.config(group='ldap', url='ldaps://localhost', use_tls=False, tls_cacertfile=certfile) self._init_ldap_connection(CONF) # Ensure the cert trust option is set. self.assertEqual(certfile, ldap.get_option(ldap.OPT_X_TLS_CACERTFILE)) def test_certdir_trust_ldaps(self): # We need this to actually exist, so we create a tempdir. certdir = self.useFixture(fixtures.TempDir()).path self.config_fixture.config(group='ldap', url='ldaps://localhost', use_tls=False, tls_cacertdir=certdir) self._init_ldap_connection(CONF) # Ensure the cert trust option is set. self.assertEqual(certdir, ldap.get_option(ldap.OPT_X_TLS_CACERTDIR)) class LDAPPagedResultsTest(tests.TestCase): """Tests the paged results functionality in keystone.common.ldap.core.""" def setUp(self): super(LDAPPagedResultsTest, self).setUp() self.clear_database() ks_ldap.register_handler('fake://', fakeldap.FakeLdap) self.addCleanup(common_ldap_core._HANDLERS.clear) self.load_backends() self.load_fixtures(default_fixtures) def clear_database(self): for shelf in fakeldap.FakeShelves: fakeldap.FakeShelves[shelf].clear() def config_overrides(self): super(LDAPPagedResultsTest, self).config_overrides() self.config_fixture.config(group='identity', driver='ldap') def config_files(self): config_files = super(LDAPPagedResultsTest, self).config_files() config_files.append(tests.dirs.tests_conf('backend_ldap.conf')) return config_files @mock.patch.object(fakeldap.FakeLdap, 'search_ext') @mock.patch.object(fakeldap.FakeLdap, 'result3') def test_paged_results_control_api(self, mock_result3, mock_search_ext): mock_result3.return_value = ('', [], 1, []) self.config_fixture.config(group='ldap', page_size=1) conn = self.identity_api.user.get_connection() conn._paged_search_s('dc=example,dc=test', ldap.SCOPE_SUBTREE, 'objectclass=*') class CommonLdapTestCase(tests.BaseTestCase): """These test cases call functions in keystone.common.ldap.""" def test_binary_attribute_values(self): result = [( 'cn=junk,dc=example,dc=com', { 'cn': ['junk'], 'sn': [uuid.uuid4().hex], 'mail': [uuid.uuid4().hex], 'binary_attr': ['\x00\xFF\x00\xFF'] } ), ] py_result = ks_ldap.convert_ldap_result(result) # The attribute containing the binary value should # not be present in the converted result. self.assertNotIn('binary_attr', py_result[0][1]) def test_utf8_conversion(self): value_unicode = u'fäké1' value_utf8 = value_unicode.encode('utf-8') result_utf8 = ks_ldap.utf8_encode(value_unicode) self.assertEqual(value_utf8, result_utf8) result_utf8 = ks_ldap.utf8_encode(value_utf8) self.assertEqual(value_utf8, result_utf8) result_unicode = ks_ldap.utf8_decode(value_utf8) self.assertEqual(value_unicode, result_unicode) result_unicode = ks_ldap.utf8_decode(value_unicode) self.assertEqual(value_unicode, result_unicode) self.assertRaises(TypeError, ks_ldap.utf8_encode, 100) result_unicode = ks_ldap.utf8_decode(100) self.assertEqual(u'100', result_unicode) def test_user_id_begins_with_0(self): user_id = '0123456' result = [( 'cn=dummy,dc=example,dc=com', { 'user_id': [user_id], 'enabled': ['TRUE'] } ), ] py_result = ks_ldap.convert_ldap_result(result) # The user id should be 0123456, and the enabled # flag should be True self.assertIs(py_result[0][1]['enabled'][0], True) self.assertEqual(user_id, py_result[0][1]['user_id'][0]) def test_user_id_begins_with_0_and_enabled_bit_mask(self): user_id = '0123456' bitmask = '225' expected_bitmask = 225 result = [( 'cn=dummy,dc=example,dc=com', { 'user_id': [user_id], 'enabled': [bitmask] } ), ] py_result = ks_ldap.convert_ldap_result(result) # The user id should be 0123456, and the enabled # flag should be 225 self.assertEqual(expected_bitmask, py_result[0][1]['enabled'][0]) self.assertEqual(user_id, py_result[0][1]['user_id'][0]) def test_user_id_and_bitmask_begins_with_0(self): user_id = '0123456' bitmask = '0225' expected_bitmask = 225 result = [( 'cn=dummy,dc=example,dc=com', { 'user_id': [user_id], 'enabled': [bitmask] } ), ] py_result = ks_ldap.convert_ldap_result(result) # The user id should be 0123456, and the enabled # flag should be 225, the 0 is dropped. self.assertEqual(expected_bitmask, py_result[0][1]['enabled'][0]) self.assertEqual(user_id, py_result[0][1]['user_id'][0]) def test_user_id_and_user_name_with_boolean_string(self): boolean_strings = ['TRUE', 'FALSE', 'true', 'false', 'True', 'False', 'TrUe' 'FaLse'] for user_name in boolean_strings: user_id = uuid.uuid4().hex result = [( 'cn=dummy,dc=example,dc=com', { 'user_id': [user_id], 'user_name': [user_name] } ), ] py_result = ks_ldap.convert_ldap_result(result) # The user name should still be a string value. self.assertEqual(user_name, py_result[0][1]['user_name'][0]) class LDAPFilterQueryCompositionTest(tests.TestCase): """These test cases test LDAP filter generation.""" def setUp(self): super(LDAPFilterQueryCompositionTest, self).setUp() self.base_ldap = ks_ldap.BaseLdap(self.config_fixture.conf) # The tests need an attribute mapping to use. self.attribute_name = uuid.uuid4().hex self.filter_attribute_name = uuid.uuid4().hex self.base_ldap.attribute_mapping = { self.attribute_name: self.filter_attribute_name } def test_return_query_with_no_hints(self): hints = driver_hints.Hints() # NOTE: doesn't have to be a real query, we just need to make sure the # same string is returned if there are no hints. query = uuid.uuid4().hex self.assertEqual(query, self.base_ldap.filter_query(hints=hints, query=query)) # make sure the default query is an empty string self.assertEqual('', self.base_ldap.filter_query(hints=hints)) def test_filter_with_empty_query_and_hints_set(self): hints = driver_hints.Hints() username = uuid.uuid4().hex hints.add_filter(name=self.attribute_name, value=username, comparator='equals', case_sensitive=False) expected_ldap_filter = '(&(%s=%s))' % ( self.filter_attribute_name, username) self.assertEqual(expected_ldap_filter, self.base_ldap.filter_query(hints=hints)) def test_filter_with_both_query_and_hints_set(self): hints = driver_hints.Hints() # NOTE: doesn't have to be a real query, we just need to make sure the # filter string is concatenated correctly query = uuid.uuid4().hex username = uuid.uuid4().hex expected_result = '(&%(query)s(%(user_name_attr)s=%(username)s))' % ( {'query': query, 'user_name_attr': self.filter_attribute_name, 'username': username}) hints.add_filter(self.attribute_name, username) self.assertEqual(expected_result, self.base_ldap.filter_query(hints=hints, query=query)) def test_filter_with_hints_and_query_is_none(self): hints = driver_hints.Hints() username = uuid.uuid4().hex hints.add_filter(name=self.attribute_name, value=username, comparator='equals', case_sensitive=False) expected_ldap_filter = '(&(%s=%s))' % ( self.filter_attribute_name, username) self.assertEqual(expected_ldap_filter, self.base_ldap.filter_query(hints=hints, query=None))