# Copyright (c) 2012 OpenStack, LLC. # 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 contextlib import os import mock from oslo.config import cfg import webob.exc from quantum.api.v2 import attributes as attr from quantum.common.test_lib import test_config from quantum import context from quantum.db import db_base_plugin_v2 from quantum.db import securitygroups_db from quantum.extensions import securitygroup as ext_sg from quantum.tests.unit import test_db_plugin DB_PLUGIN_KLASS = ('quantum.tests.unit.test_extension_security_group.' 'SecurityGroupTestPlugin') ROOTDIR = os.path.dirname(os.path.dirname(__file__)) ETCDIR = os.path.join(ROOTDIR, 'etc') def etcdir(*p): return os.path.join(ETCDIR, *p) class SecurityGroupTestExtensionManager(object): def get_resources(self): return ext_sg.Securitygroup.get_resources() def get_actions(self): return [] def get_request_extensions(self): return [] class SecurityGroupsTestCase(test_db_plugin.QuantumDbPluginV2TestCase): def _create_security_group(self, fmt, name, description, **kwargs): data = {'security_group': {'name': name, 'tenant_id': kwargs.get('tenant_id', 'test_tenant'), 'description': description}} security_group_req = self.new_create_request('security-groups', data, fmt) if (kwargs.get('set_context') and 'tenant_id' in kwargs): # create a specific auth context for this request security_group_req.environ['quantum.context'] = ( context.Context('', kwargs['tenant_id'])) return security_group_req.get_response(self.ext_api) def _build_security_group_rule(self, security_group_id, direction, protocol, port_range_min, port_range_max, source_ip_prefix=None, source_group_id=None, tenant_id='test_tenant', ethertype='IPv4'): data = {'security_group_rule': {'security_group_id': security_group_id, 'direction': direction, 'protocol': protocol, 'ethertype': ethertype, 'port_range_min': port_range_min, 'port_range_max': port_range_max, 'tenant_id': tenant_id, 'ethertype': ethertype}} if source_ip_prefix: data['security_group_rule']['source_ip_prefix'] = source_ip_prefix if source_group_id: data['security_group_rule']['source_group_id'] = source_group_id return data def _create_security_group_rule(self, fmt, rules, **kwargs): security_group_rule_req = self.new_create_request( 'security-group-rules', rules, fmt) if (kwargs.get('set_context') and 'tenant_id' in kwargs): # create a specific auth context for this request security_group_rule_req.environ['quantum.context'] = ( context.Context('', kwargs['tenant_id'])) return security_group_rule_req.get_response(self.ext_api) def _make_security_group(self, fmt, name, description, **kwargs): res = self._create_security_group(fmt, name, description, **kwargs) if res.status_int >= 400: raise webob.exc.HTTPClientError(code=res.status_int) return self.deserialize(fmt, res) def _make_security_group_rule(self, fmt, rules, **kwargs): res = self._create_security_group_rule(self.fmt, rules) if res.status_int >= 400: raise webob.exc.HTTPClientError(code=res.status_int) return self.deserialize(fmt, res) @contextlib.contextmanager def security_group(self, name='webservers', description='webservers', fmt=None, no_delete=False): if not fmt: fmt = self.fmt security_group = self._make_security_group(fmt, name, description) try: yield security_group finally: if not no_delete: self._delete('security-groups', security_group['security_group']['id']) @contextlib.contextmanager def security_group_rule(self, security_group_id='4cd70774-cc67-4a87-9b39-7' 'd1db38eb087', direction='ingress', protocol='tcp', port_range_min='22', port_range_max='22', source_ip_prefix=None, source_group_id=None, fmt=None, no_delete=False, ethertype='IPv4'): if not fmt: fmt = self.fmt rule = self._build_security_group_rule(security_group_id, direction, protocol, port_range_min, port_range_max, source_ip_prefix, source_group_id, ethertype=ethertype) security_group_rule = self._make_security_group_rule(self.fmt, rule) try: yield security_group_rule finally: if not no_delete: self._delete('security-group-rules', security_group_rule['security_group_rule']['id']) class SecurityGroupsTestCaseXML(SecurityGroupsTestCase): fmt = 'xml' class SecurityGroupTestPlugin(db_base_plugin_v2.QuantumDbPluginV2, securitygroups_db.SecurityGroupDbMixin): """ Test plugin that implements necessary calls on create/delete port for associating ports with security groups. """ __native_pagination_support = True __native_sorting_support = True supported_extension_aliases = ["security-group"] def create_port(self, context, port): tenant_id = self._get_tenant_id_for_create(context, port['port']) default_sg = self._ensure_default_security_group(context, tenant_id) if not attr.is_attr_set(port['port'].get(ext_sg.SECURITYGROUPS)): port['port'][ext_sg.SECURITYGROUPS] = [default_sg] session = context.session with session.begin(subtransactions=True): sgids = self._get_security_groups_on_port(context, port) port = super(SecurityGroupTestPlugin, self).create_port(context, port) self._process_port_create_security_group(context, port['id'], sgids) self._extend_port_dict_security_group(context, port) return port def update_port(self, context, id, port): session = context.session with session.begin(subtransactions=True): if ext_sg.SECURITYGROUPS in port['port']: port['port'][ext_sg.SECURITYGROUPS] = ( self._get_security_groups_on_port(context, port)) # delete the port binding and read it with the new rules self._delete_port_security_group_bindings(context, id) self._process_port_create_security_group( context, id, port['port'].get(ext_sg.SECURITYGROUPS)) port = super(SecurityGroupTestPlugin, self).update_port( context, id, port) self._extend_port_dict_security_group(context, port) return port def create_network(self, context, network): tenant_id = self._get_tenant_id_for_create(context, network['network']) self._ensure_default_security_group(context, tenant_id) return super(SecurityGroupTestPlugin, self).create_network(context, network) def get_ports(self, context, filters=None, fields=None, sorts=[], limit=None, marker=None, page_reverse=False): quantum_lports = super(SecurityGroupTestPlugin, self).get_ports( context, filters, sorts=sorts, limit=limit, marker=marker, page_reverse=page_reverse) for quantum_lport in quantum_lports: self._extend_port_dict_security_group(context, quantum_lport) return quantum_lports class SecurityGroupDBTestCase(SecurityGroupsTestCase): def setUp(self, plugin=None): test_config['plugin_name_v2'] = DB_PLUGIN_KLASS ext_mgr = SecurityGroupTestExtensionManager() test_config['extension_manager'] = ext_mgr super(SecurityGroupDBTestCase, self).setUp(plugin) def tearDown(self): del test_config['plugin_name_v2'] super(SecurityGroupDBTestCase, self).tearDown() class TestSecurityGroups(SecurityGroupDBTestCase): def test_create_security_group(self): name = 'webservers' description = 'my webservers' keys = [('name', name,), ('description', description)] with self.security_group(name, description) as security_group: for k, v, in keys: self.assertEqual(security_group['security_group'][k], v) def test_default_security_group(self): with self.network(): res = self.new_list_request('security-groups') groups = self.deserialize(self.fmt, res.get_response(self.ext_api)) self.assertEqual(len(groups['security_groups']), 1) def test_create_default_security_group_fail(self): name = 'default' description = 'my webservers' res = self._create_security_group(self.fmt, name, description) self.deserialize(self.fmt, res) self.assertEqual(res.status_int, 409) def test_list_security_groups(self): with contextlib.nested(self.security_group(name='sg1', description='sg'), self.security_group(name='sg2', description='sg'), self.security_group(name='sg3', description='sg') ) as security_groups: self._test_list_resources('security-group', security_groups, query_params='description=sg') def test_list_security_groups_with_sort(self): with contextlib.nested(self.security_group(name='sg1', description='sg'), self.security_group(name='sg2', description='sg'), self.security_group(name='sg3', description='sg') ) as (sg1, sg2, sg3): self._test_list_with_sort('security-group', (sg3, sg2, sg1), [('name', 'desc')], query_params='description=sg') def test_list_security_groups_with_pagination(self): with contextlib.nested(self.security_group(name='sg1', description='sg'), self.security_group(name='sg2', description='sg'), self.security_group(name='sg3', description='sg') ) as (sg1, sg2, sg3): self._test_list_with_pagination('security-group', (sg1, sg2, sg3), ('name', 'asc'), 2, 2, query_params='description=sg') def test_list_security_groups_with_pagination_reverse(self): with contextlib.nested(self.security_group(name='sg1', description='sg'), self.security_group(name='sg2', description='sg'), self.security_group(name='sg3', description='sg') ) as (sg1, sg2, sg3): self._test_list_with_pagination_reverse( 'security-group', (sg1, sg2, sg3), ('name', 'asc'), 2, 2, query_params='description=sg') def test_create_security_group_rule_ethertype_invalid_as_number(self): name = 'webservers' description = 'my webservers' with self.security_group(name, description) as sg: security_group_id = sg['security_group']['id'] ethertype = 2 rule = self._build_security_group_rule( security_group_id, 'ingress', 'tcp', '22', '22', None, None, ethertype=ethertype) res = self._create_security_group_rule('json', rule) self.deserialize('json', res) self.assertEqual(res.status_int, 400) def test_create_security_group_rule_protocol_invalid_as_number(self): name = 'webservers' description = 'my webservers' with self.security_group(name, description) as sg: security_group_id = sg['security_group']['id'] protocol = 2 rule = self._build_security_group_rule( security_group_id, 'ingress', protocol, '22', '22', None, None) res = self._create_security_group_rule('json', rule) self.deserialize('json', res) self.assertEqual(res.status_int, 400) def test_create_security_group_rule_case_insensitive(self): name = 'webservers' description = 'my webservers' with self.security_group(name, description) as sg: security_group_id = sg['security_group']['id'] direction = "ingress" source_ip_prefix = "10.0.0.0/24" protocol = 'TCP' port_range_min = 22 port_range_max = 22 ethertype = 'ipV4' with self.security_group_rule(security_group_id, direction, protocol, port_range_min, port_range_max, source_ip_prefix, ethertype=ethertype) as rule: # the lower case value will be return self.assertEquals(rule['security_group_rule']['protocol'], protocol.lower()) self.assertEquals(rule['security_group_rule']['ethertype'], 'IPv4') def test_get_security_group(self): name = 'webservers' description = 'my webservers' with self.security_group(name, description) as sg: source_group_id = sg['security_group']['id'] res = self.new_show_request('security-groups', source_group_id) security_group_id = sg['security_group']['id'] direction = "ingress" source_ip_prefix = "10.0.0.0/24" protocol = 'tcp' port_range_min = 22 port_range_max = 22 keys = [('source_ip_prefix', source_ip_prefix), ('security_group_id', security_group_id), ('direction', direction), ('protocol', protocol), ('port_range_min', port_range_min), ('port_range_max', port_range_max)] with self.security_group_rule(security_group_id, direction, protocol, port_range_min, port_range_max, source_ip_prefix): group = self.deserialize( self.fmt, res.get_response(self.ext_api)) sg_rule = group['security_group']['security_group_rules'] self.assertEqual(group['security_group']['id'], source_group_id) self.assertEqual(len(sg_rule), 1) for k, v, in keys: self.assertEqual(sg_rule[0][k], v) def test_delete_security_group(self): name = 'webservers' description = 'my webservers' with self.security_group(name, description, no_delete=True) as sg: source_group_id = sg['security_group']['id'] self._delete('security-groups', source_group_id, 204) def test_delete_default_security_group_fail(self): with self.network(): res = self.new_list_request('security-groups') sg = self.deserialize(self.fmt, res.get_response(self.ext_api)) self._delete('security-groups', sg['security_groups'][0]['id'], 409) def test_default_security_group_rules(self): with self.network(): res = self.new_list_request('security-groups') groups = self.deserialize(self.fmt, res.get_response(self.ext_api)) self.assertEqual(len(groups['security_groups']), 1) res = self.new_list_request('security-group-rules') rules = self.deserialize(self.fmt, res.get_response(self.ext_api)) self.assertEqual(len(rules['security_group_rules']), 2) # just generic rules to allow default egress and # intergroup communicartion for rule in rules['security_group_rules']: self.assertEqual(rule['port_range_max'], None) self.assertEqual(rule['port_range_min'], None) self.assertEqual(rule['protocol'], None) def test_create_security_group_rule_source_ip_prefix(self): name = 'webservers' description = 'my webservers' with self.security_group(name, description) as sg: security_group_id = sg['security_group']['id'] direction = "ingress" source_ip_prefix = "10.0.0.0/24" protocol = 'tcp' port_range_min = 22 port_range_max = 22 keys = [('source_ip_prefix', source_ip_prefix), ('security_group_id', security_group_id), ('direction', direction), ('protocol', protocol), ('port_range_min', port_range_min), ('port_range_max', port_range_max)] with self.security_group_rule(security_group_id, direction, protocol, port_range_min, port_range_max, source_ip_prefix) as rule: for k, v, in keys: self.assertEqual(rule['security_group_rule'][k], v) def test_create_security_group_rule_group_id(self): name = 'webservers' description = 'my webservers' with self.security_group(name, description) as sg: with self.security_group(name, description) as sg2: security_group_id = sg['security_group']['id'] direction = "ingress" source_group_id = sg2['security_group']['id'] protocol = 'tcp' port_range_min = 22 port_range_max = 22 keys = [('source_group_id', source_group_id), ('security_group_id', security_group_id), ('direction', direction), ('protocol', protocol), ('port_range_min', port_range_min), ('port_range_max', port_range_max)] with self.security_group_rule(security_group_id, direction, protocol, port_range_min, port_range_max, source_group_id=source_group_id ) as rule: for k, v, in keys: self.assertEqual(rule['security_group_rule'][k], v) def test_create_security_group_source_group_ip_and_ip_prefix(self): security_group_id = "4cd70774-cc67-4a87-9b39-7d1db38eb087" direction = "ingress" source_ip_prefix = "10.0.0.0/24" protocol = 'tcp' port_range_min = 22 port_range_max = 22 source_group_id = "9cd70774-cc67-4a87-9b39-7d1db38eb087" rule = self._build_security_group_rule(security_group_id, direction, protocol, port_range_min, port_range_max, source_ip_prefix, source_group_id) res = self._create_security_group_rule(self.fmt, rule) self.deserialize(self.fmt, res) self.assertEqual(res.status_int, 400) def test_create_security_group_rule_bad_security_group_id(self): security_group_id = "4cd70774-cc67-4a87-9b39-7d1db38eb087" direction = "ingress" source_ip_prefix = "10.0.0.0/24" protocol = 'tcp' port_range_min = 22 port_range_max = 22 rule = self._build_security_group_rule(security_group_id, direction, protocol, port_range_min, port_range_max, source_ip_prefix) res = self._create_security_group_rule(self.fmt, rule) self.deserialize(self.fmt, res) self.assertEqual(res.status_int, 404) def test_create_security_group_rule_bad_tenant(self): with self.security_group() as sg: rule = {'security_group_rule': {'security_group_id': sg['security_group']['id'], 'direction': 'ingress', 'protocol': 'tcp', 'port_range_min': '22', 'port_range_max': '22', 'tenant_id': "bad_tenant"}} res = self._create_security_group_rule(self.fmt, rule) self.deserialize(self.fmt, res) self.assertEqual(res.status_int, 404) def test_create_security_group_rule_bad_tenant_source_group_id(self): with self.security_group() as sg: res = self._create_security_group(self.fmt, 'webservers', 'webservers', tenant_id='bad_tenant') sg2 = self.deserialize(self.fmt, res) rule = {'security_group_rule': {'security_group_id': sg2['security_group']['id'], 'direction': 'ingress', 'protocol': 'tcp', 'port_range_min': '22', 'port_range_max': '22', 'tenant_id': 'bad_tenant', 'source_group_id': sg['security_group']['id']}} res = self._create_security_group_rule(self.fmt, rule, tenant_id='bad_tenant', set_context=True) self.deserialize(self.fmt, res) self.assertEqual(res.status_int, 404) def test_create_security_group_rule_bad_tenant_security_group_rule(self): with self.security_group() as sg: res = self._create_security_group(self.fmt, 'webservers', 'webservers', tenant_id='bad_tenant') self.deserialize(self.fmt, res) rule = {'security_group_rule': {'security_group_id': sg['security_group']['id'], 'direction': 'ingress', 'protocol': 'tcp', 'port_range_min': '22', 'port_range_max': '22', 'tenant_id': 'bad_tenant'}} res = self._create_security_group_rule(self.fmt, rule, tenant_id='bad_tenant', set_context=True) self.deserialize(self.fmt, res) self.assertEqual(res.status_int, 404) def test_create_security_group_rule_bad_source_group_id(self): name = 'webservers' description = 'my webservers' with self.security_group(name, description) as sg: security_group_id = sg['security_group']['id'] source_group_id = "4cd70774-cc67-4a87-9b39-7d1db38eb087" direction = "ingress" protocol = 'tcp' port_range_min = 22 port_range_max = 22 rule = self._build_security_group_rule(security_group_id, direction, protocol, port_range_min, port_range_max, source_group_id=source_group_id) res = self._create_security_group_rule(self.fmt, rule) self.deserialize(self.fmt, res) self.assertEqual(res.status_int, 404) def test_create_security_group_rule_duplicate_rules(self): name = 'webservers' description = 'my webservers' with self.security_group(name, description) as sg: security_group_id = sg['security_group']['id'] with self.security_group_rule(security_group_id): rule = self._build_security_group_rule( sg['security_group']['id'], 'ingress', 'tcp', '22', '22') self._create_security_group_rule(self.fmt, rule) res = self._create_security_group_rule(self.fmt, rule) self.deserialize(self.fmt, res) self.assertEqual(res.status_int, 409) def test_create_security_group_rule_min_port_greater_max(self): name = 'webservers' description = 'my webservers' with self.security_group(name, description) as sg: security_group_id = sg['security_group']['id'] with self.security_group_rule(security_group_id): rule = self._build_security_group_rule( sg['security_group']['id'], 'ingress', 'tcp', '50', '22') self._create_security_group_rule(self.fmt, rule) res = self._create_security_group_rule(self.fmt, rule) self.deserialize(self.fmt, res) self.assertEqual(res.status_int, 400) def test_create_security_group_rule_ports_but_no_protocol(self): name = 'webservers' description = 'my webservers' with self.security_group(name, description) as sg: security_group_id = sg['security_group']['id'] with self.security_group_rule(security_group_id): rule = self._build_security_group_rule( sg['security_group']['id'], 'ingress', None, '22', '22') self._create_security_group_rule(self.fmt, rule) res = self._create_security_group_rule(self.fmt, rule) self.deserialize(self.fmt, res) self.assertEqual(res.status_int, 400) def test_list_ports_security_group(self): with self.network() as n: with self.subnet(n): res = self._create_port(self.fmt, n['network']['id']) self.deserialize(self.fmt, res) res = self.new_list_request('ports') ports = self.deserialize(self.fmt, res.get_response(self.api)) port = ports['ports'][0] self.assertEquals(len(port[ext_sg.SECURITYGROUPS]), 1) self._delete('ports', port['id']) def test_list_security_group_rules(self): with self.security_group(name='sg') as sg: security_group_id = sg['security_group']['id'] with contextlib.nested(self.security_group_rule(security_group_id, direction='egress', port_range_min=22, port_range_max=22), self.security_group_rule(security_group_id, direction='egress', port_range_min=23, port_range_max=23), self.security_group_rule(security_group_id, direction='egress', port_range_min=24, port_range_max=24) ) as (sgr1, sgr2, sgr3): self._test_list_resources('security-group-rule', [sgr1, sgr2, sgr3], query_params="direction=egress") def test_list_security_group_rules_with_sort(self): with self.security_group(name='sg') as sg: security_group_id = sg['security_group']['id'] with contextlib.nested(self.security_group_rule(security_group_id, direction='egress', port_range_min=22, port_range_max=22), self.security_group_rule(security_group_id, direction='egress', port_range_min=23, port_range_max=23), self.security_group_rule(security_group_id, direction='egress', port_range_min=24, port_range_max=24) ) as (sgr1, sgr2, sgr3): self._test_list_with_sort('security-group-rule', (sgr3, sgr2, sgr1), [('port_range_max', 'desc')], query_params='direction=egress') def test_list_security_group_rules_with_pagination(self): with self.security_group(name='sg') as sg: security_group_id = sg['security_group']['id'] with contextlib.nested(self.security_group_rule(security_group_id, direction='egress', port_range_min=22, port_range_max=22), self.security_group_rule(security_group_id, direction='egress', port_range_min=23, port_range_max=23), self.security_group_rule(security_group_id, direction='egress', port_range_min=24, port_range_max=24) ) as (sgr1, sgr2, sgr3): self._test_list_with_pagination( 'security-group-rule', (sgr3, sgr2, sgr1), ('port_range_max', 'desc'), 2, 2, query_params='direction=egress') def test_list_security_group_rules_with_pagination_reverse(self): with self.security_group(name='sg') as sg: security_group_id = sg['security_group']['id'] with contextlib.nested(self.security_group_rule(security_group_id, direction='egress', port_range_min=22, port_range_max=22), self.security_group_rule(security_group_id, direction='egress', port_range_min=23, port_range_max=23), self.security_group_rule(security_group_id, direction='egress', port_range_min=24, port_range_max=24) ) as (sgr1, sgr2, sgr3): self._test_list_with_pagination_reverse( 'security-group-rule', (sgr3, sgr2, sgr1), ('port_range_max', 'desc'), 2, 2, query_params='direction=egress') def test_update_port_with_security_group(self): with self.network() as n: with self.subnet(n): with self.security_group() as sg: res = self._create_port(self.fmt, n['network']['id']) port = self.deserialize(self.fmt, res) data = {'port': {'fixed_ips': port['port']['fixed_ips'], 'name': port['port']['name'], ext_sg.SECURITYGROUPS: [sg['security_group']['id']]}} req = self.new_update_request('ports', data, port['port']['id']) res = self.deserialize(self.fmt, req.get_response(self.api)) self.assertEqual(res['port'][ext_sg.SECURITYGROUPS][0], sg['security_group']['id']) # Test update port without security group data = {'port': {'fixed_ips': port['port']['fixed_ips'], 'name': port['port']['name']}} req = self.new_update_request('ports', data, port['port']['id']) res = self.deserialize(self.fmt, req.get_response(self.api)) self.assertEqual(res['port'][ext_sg.SECURITYGROUPS][0], sg['security_group']['id']) self._delete('ports', port['port']['id']) def test_update_port_with_multiple_security_groups(self): with self.network() as n: with self.subnet(n): with self.security_group() as sg1: with self.security_group() as sg2: res = self._create_port( self.fmt, n['network']['id'], security_groups=[sg1['security_group']['id'], sg2['security_group']['id']]) port = self.deserialize(self.fmt, res) self.assertEqual(len( port['port'][ext_sg.SECURITYGROUPS]), 2) self._delete('ports', port['port']['id']) def test_update_port_remove_security_group_empty_list(self): with self.network() as n: with self.subnet(n): with self.security_group() as sg: res = self._create_port(self.fmt, n['network']['id'], security_groups=( [sg['security_group']['id']])) port = self.deserialize(self.fmt, res) data = {'port': {'fixed_ips': port['port']['fixed_ips'], 'name': port['port']['name'], 'security_groups': []}} req = self.new_update_request('ports', data, port['port']['id']) res = self.deserialize(self.fmt, req.get_response(self.api)) self.assertEqual(res['port'].get(ext_sg.SECURITYGROUPS), []) self._delete('ports', port['port']['id']) def test_update_port_remove_security_group_none(self): with self.network() as n: with self.subnet(n): with self.security_group() as sg: res = self._create_port(self.fmt, n['network']['id'], security_groups=( [sg['security_group']['id']])) port = self.deserialize(self.fmt, res) data = {'port': {'fixed_ips': port['port']['fixed_ips'], 'name': port['port']['name'], 'security_groups': None}} req = self.new_update_request('ports', data, port['port']['id']) res = self.deserialize(self.fmt, req.get_response(self.api)) self.assertEqual(res['port'].get(ext_sg.SECURITYGROUPS), []) self._delete('ports', port['port']['id']) def test_create_port_with_bad_security_group(self): with self.network() as n: with self.subnet(n): res = self._create_port(self.fmt, n['network']['id'], security_groups=['bad_id']) self.deserialize(self.fmt, res) self.assertEqual(res.status_int, 400) def test_create_delete_security_group_port_in_use(self): with self.network() as n: with self.subnet(n): with self.security_group() as sg: res = self._create_port(self.fmt, n['network']['id'], security_groups=( [sg['security_group']['id']])) port = self.deserialize(self.fmt, res) self.assertEqual(port['port'][ext_sg.SECURITYGROUPS][0], sg['security_group']['id']) # try to delete security group that's in use res = self._delete('security-groups', sg['security_group']['id'], 409) # delete the blocking port self._delete('ports', port['port']['id']) def test_create_security_group_rule_bulk_native(self): if self._skip_native_bulk: self.skipTest("Plugin does not support native bulk " "security_group_rule create") with self.security_group() as sg: rule1 = self._build_security_group_rule(sg['security_group']['id'], 'ingress', 'tcp', '22', '22', '10.0.0.1/24') rule2 = self._build_security_group_rule(sg['security_group']['id'], 'ingress', 'tcp', '23', '23', '10.0.0.1/24') rules = {'security_group_rules': [rule1['security_group_rule'], rule2['security_group_rule']]} res = self._create_security_group_rule(self.fmt, rules) self.deserialize(self.fmt, res) self.assertEqual(res.status_int, 201) def test_create_security_group_rule_bulk_emulated(self): real_has_attr = hasattr #ensures the API choose the emulation code path def fakehasattr(item, attr): if attr.endswith('__native_bulk_support'): return False return real_has_attr(item, attr) with mock.patch('__builtin__.hasattr', new=fakehasattr): with self.security_group() as sg: rule1 = self._build_security_group_rule( sg['security_group']['id'], 'ingress', 'tcp', '22', '22', '10.0.0.1/24') rule2 = self._build_security_group_rule( sg['security_group']['id'], 'ingress', 'tcp', '23', '23', '10.0.0.1/24') rules = {'security_group_rules': [rule1['security_group_rule'], rule2['security_group_rule']] } res = self._create_security_group_rule(self.fmt, rules) self.deserialize(self.fmt, res) self.assertEqual(res.status_int, 201) def test_create_security_group_rule_duplicate_rule_in_post(self): if self._skip_native_bulk: self.skipTest("Plugin does not support native bulk " "security_group_rule create") with self.security_group() as sg: rule = self._build_security_group_rule(sg['security_group']['id'], 'ingress', 'tcp', '22', '22', '10.0.0.1/24') rules = {'security_group_rules': [rule['security_group_rule'], rule['security_group_rule']]} res = self._create_security_group_rule(self.fmt, rules) rule = self.deserialize(self.fmt, res) self.assertEqual(res.status_int, 409) def test_create_security_group_rule_duplicate_rule_in_post_emulated(self): real_has_attr = hasattr #ensures the API choose the emulation code path def fakehasattr(item, attr): if attr.endswith('__native_bulk_support'): return False return real_has_attr(item, attr) with mock.patch('__builtin__.hasattr', new=fakehasattr): with self.security_group() as sg: rule = self._build_security_group_rule( sg['security_group']['id'], 'ingress', 'tcp', '22', '22', '10.0.0.1/24') rules = {'security_group_rules': [rule['security_group_rule'], rule['security_group_rule']]} res = self._create_security_group_rule(self.fmt, rules) rule = self.deserialize(self.fmt, res) self.assertEqual(res.status_int, 409) def test_create_security_group_rule_duplicate_rule_db(self): if self._skip_native_bulk: self.skipTest("Plugin does not support native bulk " "security_group_rule create") with self.security_group() as sg: rule = self._build_security_group_rule(sg['security_group']['id'], 'ingress', 'tcp', '22', '22', '10.0.0.1/24') rules = {'security_group_rules': [rule]} self._create_security_group_rule(self.fmt, rules) res = self._create_security_group_rule(self.fmt, rules) rule = self.deserialize(self.fmt, res) self.assertEqual(res.status_int, 409) def test_create_security_group_rule_duplicate_rule_db_emulated(self): real_has_attr = hasattr #ensures the API choose the emulation code path def fakehasattr(item, attr): if attr.endswith('__native_bulk_support'): return False return real_has_attr(item, attr) with mock.patch('__builtin__.hasattr', new=fakehasattr): with self.security_group() as sg: rule = self._build_security_group_rule( sg['security_group']['id'], 'ingress', 'tcp', '22', '22', '10.0.0.1/24') rules = {'security_group_rules': [rule]} self._create_security_group_rule(self.fmt, rules) res = self._create_security_group_rule(self.fmt, rule) self.deserialize(self.fmt, res) self.assertEqual(res.status_int, 409) def test_create_security_group_rule_differnt_security_group_ids(self): if self._skip_native_bulk: self.skipTest("Plugin does not support native bulk " "security_group_rule create") with self.security_group() as sg1: with self.security_group() as sg2: rule1 = self._build_security_group_rule( sg1['security_group']['id'], 'ingress', 'tcp', '22', '22', '10.0.0.1/24') rule2 = self._build_security_group_rule( sg2['security_group']['id'], 'ingress', 'tcp', '23', '23', '10.0.0.1/24') rules = {'security_group_rules': [rule1['security_group_rule'], rule2['security_group_rule']] } res = self._create_security_group_rule(self.fmt, rules) self.deserialize(self.fmt, res) self.assertEqual(res.status_int, 400) def test_create_security_group_rule_with_invalid_ethertype(self): security_group_id = "4cd70774-cc67-4a87-9b39-7d1db38eb087" direction = "ingress" source_ip_prefix = "10.0.0.0/24" protocol = 'tcp' port_range_min = 22 port_range_max = 22 source_group_id = "9cd70774-cc67-4a87-9b39-7d1db38eb087" rule = self._build_security_group_rule(security_group_id, direction, protocol, port_range_min, port_range_max, source_ip_prefix, source_group_id, ethertype='IPv5') res = self._create_security_group_rule(self.fmt, rule) self.deserialize(self.fmt, res) self.assertEqual(res.status_int, 400) def test_create_security_group_rule_with_invalid_protocol(self): security_group_id = "4cd70774-cc67-4a87-9b39-7d1db38eb087" direction = "ingress" source_ip_prefix = "10.0.0.0/24" protocol = 'tcp/ip' port_range_min = 22 port_range_max = 22 source_group_id = "9cd70774-cc67-4a87-9b39-7d1db38eb087" rule = self._build_security_group_rule(security_group_id, direction, protocol, port_range_min, port_range_max, source_ip_prefix, source_group_id) res = self._create_security_group_rule(self.fmt, rule) self.deserialize(self.fmt, res) self.assertEqual(res.status_int, 400) def test_create_port_with_non_uuid(self): with self.network() as n: with self.subnet(n): res = self._create_port(self.fmt, n['network']['id'], security_groups=['not_valid']) self.deserialize(self.fmt, res) self.assertEqual(res.status_int, 400) class TestSecurityGroupsXML(TestSecurityGroups): fmt = 'xml'