x/vmware-nsx
Code Issues Proposed changes
b63c6f9f83
vmware-nsx/neutron/tests/unit/test_l3_agent.py
Rosario Di Somma 811a23275d Fix incorrect usage of assertTrue() 
The usage of assertTrue() is incorrect, more explicit assert
from the unit test suite(like assertIsNotNone or assertIn)
should be used instead.

Fixes: bug #1217028
Change-Id: I30a80bc9e122d28c22b698e0cb97068c1040bfc3
Signed-off-by: Rosario Di Somma <rosario.disomma@dreamhost.com>
2013-08-27 17:47:07 -04:00

704 lines
28 KiB
Python
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# vim: tabstop=4 shiftwidth=4 softtabstop=4
# Copyright 2012 Nicira, Inc.
# All Rights Reserved.
#
# 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 mock
from oslo.config import cfg
from neutron.agent.common import config as agent_config
from neutron.agent import l3_agent
from neutron.agent.linux import interface
from neutron.common import config as base_config
from neutron.common import constants as l3_constants
from neutron.openstack.common import uuidutils
from neutron.tests import base
_uuid = uuidutils.generate_uuid
HOSTNAME = 'myhost'
FAKE_ID = _uuid()
class TestBasicRouterOperations(base.BaseTestCase):
def setUp(self):
super(TestBasicRouterOperations, self).setUp()
self.conf = cfg.ConfigOpts()
self.conf.register_opts(base_config.core_opts)
self.conf.register_opts(l3_agent.L3NATAgent.OPTS)
agent_config.register_root_helper(self.conf)
self.conf.register_opts(interface.OPTS)
self.conf.set_override('interface_driver',
'neutron.agent.linux.interface.NullDriver')
self.conf.root_helper = 'sudo'
self.device_exists_p = mock.patch(
'neutron.agent.linux.ip_lib.device_exists')
self.device_exists = self.device_exists_p.start()
self.utils_exec_p = mock.patch(
'neutron.agent.linux.utils.execute')
self.utils_exec = self.utils_exec_p.start()
self.external_process_p = mock.patch(
'neutron.agent.linux.external_process.ProcessManager')
self.external_process = self.external_process_p.start()
self.dvr_cls_p = mock.patch('neutron.agent.linux.interface.NullDriver')
driver_cls = self.dvr_cls_p.start()
self.mock_driver = mock.MagicMock()
self.mock_driver.DEV_NAME_LEN = (
interface.LinuxInterfaceDriver.DEV_NAME_LEN)
driver_cls.return_value = self.mock_driver
self.ip_cls_p = mock.patch('neutron.agent.linux.ip_lib.IPWrapper')
ip_cls = self.ip_cls_p.start()
self.mock_ip = mock.MagicMock()
ip_cls.return_value = self.mock_ip
self.l3pluginApi_cls_p = mock.patch(
'neutron.agent.l3_agent.L3PluginApi')
l3pluginApi_cls = self.l3pluginApi_cls_p.start()
self.plugin_api = mock.Mock()
l3pluginApi_cls.return_value = self.plugin_api
self.looping_call_p = mock.patch(
'neutron.openstack.common.loopingcall.FixedIntervalLoopingCall')
self.looping_call_p.start()
self.addCleanup(mock.patch.stopall)
def testRouterInfoCreate(self):
id = _uuid()
ri = l3_agent.RouterInfo(id, self.conf.root_helper,
self.conf.use_namespaces, None)
self.assertTrue(ri.ns_name().endswith(id))
def test_router_info_create_with_router(self):
id = _uuid()
ex_gw_port = {'id': _uuid(),
'network_id': _uuid(),
'fixed_ips': [{'ip_address': '19.4.4.4',
'subnet_id': _uuid()}],
'subnet': {'cidr': '19.4.4.0/24',
'gateway_ip': '19.4.4.1'}}
router = {
'id': _uuid(),
'enable_snat': True,
'routes': [],
'gw_port': ex_gw_port}
ri = l3_agent.RouterInfo(id, self.conf.root_helper,
self.conf.use_namespaces, router)
self.assertTrue(ri.ns_name().endswith(id))
self.assertEqual(ri.router, router)
def testAgentCreate(self):
l3_agent.L3NATAgent(HOSTNAME, self.conf)
def _test_internal_network_action(self, action):
port_id = _uuid()
router_id = _uuid()
network_id = _uuid()
ri = l3_agent.RouterInfo(router_id, self.conf.root_helper,
self.conf.use_namespaces, None)
agent = l3_agent.L3NATAgent(HOSTNAME, self.conf)
cidr = '99.0.1.9/24'
mac = 'ca:fe:de:ad:be:ef'
if action == 'add':
self.device_exists.return_value = False
agent.internal_network_added(ri, network_id,
port_id, cidr, mac)
self.assertEqual(self.mock_driver.plug.call_count, 1)
self.assertEqual(self.mock_driver.init_l3.call_count, 1)
elif action == 'remove':
self.device_exists.return_value = True
agent.internal_network_removed(ri, port_id, cidr)
self.assertEqual(self.mock_driver.unplug.call_count, 1)
else:
raise Exception("Invalid action %s" % action)
def testAgentAddInternalNetwork(self):
self._test_internal_network_action('add')
def testAgentRemoveInternalNetwork(self):
self._test_internal_network_action('remove')
def _test_external_gateway_action(self, action):
router_id = _uuid()
ri = l3_agent.RouterInfo(router_id, self.conf.root_helper,
self.conf.use_namespaces, None)
agent = l3_agent.L3NATAgent(HOSTNAME, self.conf)
internal_cidrs = ['100.0.1.0/24', '200.74.0.0/16']
ex_gw_port = {'fixed_ips': [{'ip_address': '20.0.0.30',
'subnet_id': _uuid()}],
'subnet': {'gateway_ip': '20.0.0.1'},
'id': _uuid(),
'network_id': _uuid(),
'mac_address': 'ca:fe:de:ad:be:ef',
'ip_cidr': '20.0.0.30/24'}
interface_name = agent.get_external_device_name(ex_gw_port['id'])
if action == 'add':
self.device_exists.return_value = False
agent.external_gateway_added(ri, ex_gw_port,
interface_name, internal_cidrs)
self.assertEqual(self.mock_driver.plug.call_count, 1)
self.assertEqual(self.mock_driver.init_l3.call_count, 1)
arping_cmd = ['arping', '-A', '-U',
'-I', interface_name,
'-c', self.conf.send_arp_for_ha,
'20.0.0.30']
if self.conf.use_namespaces:
self.mock_ip.netns.execute.assert_any_call(
arping_cmd, check_exit_code=True)
else:
self.utils_exec.assert_any_call(
check_exit_code=True, root_helper=self.conf.root_helper)
elif action == 'remove':
self.device_exists.return_value = True
agent.external_gateway_removed(ri, ex_gw_port,
interface_name, internal_cidrs)
self.assertEqual(self.mock_driver.unplug.call_count, 1)
else:
raise Exception("Invalid action %s" % action)
def testAgentAddExternalGateway(self):
self._test_external_gateway_action('add')
def testAgentRemoveExternalGateway(self):
self._test_external_gateway_action('remove')
def _test_floating_ip_action(self, action):
router_id = _uuid()
ri = l3_agent.RouterInfo(router_id, self.conf.root_helper,
self.conf.use_namespaces, None)
agent = l3_agent.L3NATAgent(HOSTNAME, self.conf)
floating_ip = '20.0.0.100'
fixed_ip = '10.0.0.23'
ex_gw_port = {'fixed_ips': [{'ip_address': '20.0.0.30',
'subnet_id': _uuid()}],
'subnet': {'gateway_ip': '20.0.0.1'},
'id': _uuid(),
'mac_address': 'ca:fe:de:ad:be:ef',
'ip_cidr': '20.0.0.30/24'}
interface_name = agent.get_external_device_name(ex_gw_port['id'])
if action == 'add':
self.device_exists.return_value = False
agent.floating_ip_added(ri, ex_gw_port, floating_ip, fixed_ip)
arping_cmd = ['arping', '-A', '-U',
'-I', interface_name,
'-c', self.conf.send_arp_for_ha,
floating_ip]
if self.conf.use_namespaces:
self.mock_ip.netns.execute.assert_any_call(
arping_cmd, check_exit_code=True)
else:
self.utils_exec.assert_any_call(
check_exit_code=True, root_helper=self.conf.root_helper)
elif action == 'remove':
self.device_exists.return_value = True
agent.floating_ip_removed(ri, ex_gw_port, floating_ip, fixed_ip)
else:
raise Exception("Invalid action %s" % action)
def testAgentAddFloatingIP(self):
self._test_floating_ip_action('add')
def testAgentRemoveFloatingIP(self):
self._test_floating_ip_action('remove')
def _check_agent_method_called(self, agent, calls, namespace):
if namespace:
self.mock_ip.netns.execute.assert_has_calls(
[mock.call(call, check_exit_code=False) for call in calls],
any_order=True)
else:
self.utils_exec.assert_has_calls([
mock.call(call, root_helper='sudo',
check_exit_code=False) for call in calls],
any_order=True)
def _test_routing_table_update(self, namespace):
if not namespace:
self.conf.set_override('use_namespaces', False)
router_id = _uuid()
ri = l3_agent.RouterInfo(router_id, self.conf.root_helper,
self.conf.use_namespaces,
None)
agent = l3_agent.L3NATAgent(HOSTNAME, self.conf)
fake_route1 = {'destination': '135.207.0.0/16',
'nexthop': '1.2.3.4'}
fake_route2 = {'destination': '135.207.111.111/32',
'nexthop': '1.2.3.4'}
agent._update_routing_table(ri, 'replace', fake_route1)
expected = [['ip', 'route', 'replace', 'to', '135.207.0.0/16',
'via', '1.2.3.4']]
self._check_agent_method_called(agent, expected, namespace)
agent._update_routing_table(ri, 'delete', fake_route1)
expected = [['ip', 'route', 'delete', 'to', '135.207.0.0/16',
'via', '1.2.3.4']]
self._check_agent_method_called(agent, expected, namespace)
agent._update_routing_table(ri, 'replace', fake_route2)
expected = [['ip', 'route', 'replace', 'to', '135.207.111.111/32',
'via', '1.2.3.4']]
self._check_agent_method_called(agent, expected, namespace)
agent._update_routing_table(ri, 'delete', fake_route2)
expected = [['ip', 'route', 'delete', 'to', '135.207.111.111/32',
'via', '1.2.3.4']]
self._check_agent_method_called(agent, expected, namespace)
def testAgentRoutingTableUpdated(self):
self._test_routing_table_update(namespace=True)
def testAgentRoutingTableUpdatedNoNameSpace(self):
self._test_routing_table_update(namespace=False)
def testRoutesUpdated(self):
self._test_routes_updated(namespace=True)
def testRoutesUpdatedNoNamespace(self):
self._test_routes_updated(namespace=False)
def _test_routes_updated(self, namespace=True):
if not namespace:
self.conf.set_override('use_namespaces', False)
agent = l3_agent.L3NATAgent(HOSTNAME, self.conf)
router_id = _uuid()
ri = l3_agent.RouterInfo(router_id, self.conf.root_helper,
self.conf.use_namespaces,
None)
ri.router = {}
fake_old_routes = []
fake_new_routes = [{'destination': "110.100.31.0/24",
'nexthop': "10.100.10.30"},
{'destination': "110.100.30.0/24",
'nexthop': "10.100.10.30"}]
ri.routes = fake_old_routes
ri.router['routes'] = fake_new_routes
agent.routes_updated(ri)
expected = [['ip', 'route', 'replace', 'to', '110.100.30.0/24',
'via', '10.100.10.30'],
['ip', 'route', 'replace', 'to', '110.100.31.0/24',
'via', '10.100.10.30']]
self._check_agent_method_called(agent, expected, namespace)
fake_new_routes = [{'destination': "110.100.30.0/24",
'nexthop': "10.100.10.30"}]
ri.router['routes'] = fake_new_routes
agent.routes_updated(ri)
expected = [['ip', 'route', 'delete', 'to', '110.100.31.0/24',
'via', '10.100.10.30']]
self._check_agent_method_called(agent, expected, namespace)
fake_new_routes = []
ri.router['routes'] = fake_new_routes
agent.routes_updated(ri)
expected = [['ip', 'route', 'delete', 'to', '110.100.30.0/24',
'via', '10.100.10.30']]
self._check_agent_method_called(agent, expected, namespace)
def _verify_snat_rules(self, rules, router, negate=False):
interfaces = router[l3_constants.INTERFACE_KEY]
source_cidrs = []
for interface in interfaces:
prefix = interface['subnet']['cidr'].split('/')[1]
source_cidr = "%s/%s" % (interface['fixed_ips'][0]['ip_address'],
prefix)
source_cidrs.append(source_cidr)
source_nat_ip = router['gw_port']['fixed_ips'][0]['ip_address']
interface_name = ('qg-%s' % router['gw_port']['id'])[:14]
expected_rules = [
'! -i %s ! -o %s -m conntrack ! --ctstate DNAT -j ACCEPT' %
(interface_name, interface_name)]
for source_cidr in source_cidrs:
value_dict = {'source_cidr': source_cidr,
'source_nat_ip': source_nat_ip}
expected_rules.append('-s %(source_cidr)s -j SNAT --to-source '
'%(source_nat_ip)s' % value_dict)
for r in rules:
if negate:
self.assertNotIn(r.rule, expected_rules)
else:
self.assertIn(r.rule, expected_rules)
def _prepare_router_data(self, enable_snat=None, num_internal_ports=1):
router_id = _uuid()
ex_gw_port = {'id': _uuid(),
'network_id': _uuid(),
'fixed_ips': [{'ip_address': '19.4.4.4',
'subnet_id': _uuid()}],
'subnet': {'cidr': '19.4.4.0/24',
'gateway_ip': '19.4.4.1'}}
int_ports = []
for i in range(0, num_internal_ports):
int_ports.append({'id': _uuid(),
'network_id': _uuid(),
'admin_state_up': True,
'fixed_ips': [{'ip_address': '35.4.%s.4' % i,
'subnet_id': _uuid()}],
'mac_address': 'ca:fe:de:ad:be:ef',
'subnet': {'cidr': '35.4.%s.0/24' % i,
'gateway_ip': '35.4.%s.1' % i}})
router = {
'id': router_id,
l3_constants.INTERFACE_KEY: int_ports,
'routes': [],
'gw_port': ex_gw_port}
if enable_snat is not None:
router['enable_snat'] = enable_snat
return router
def testProcessRouter(self):
agent = l3_agent.L3NATAgent(HOSTNAME, self.conf)
router = self._prepare_router_data()
fake_floatingips1 = {'floatingips': [
{'id': _uuid(),
'floating_ip_address': '8.8.8.8',
'fixed_ip_address': '7.7.7.7',
'port_id': _uuid()}]}
ri = l3_agent.RouterInfo(router['id'], self.conf.root_helper,
self.conf.use_namespaces, router=router)
agent.process_router(ri)
# remap floating IP to a new fixed ip
fake_floatingips2 = copy.deepcopy(fake_floatingips1)
fake_floatingips2['floatingips'][0]['fixed_ip_address'] = '7.7.7.8'
router[l3_constants.FLOATINGIP_KEY] = fake_floatingips2['floatingips']
agent.process_router(ri)
# remove just the floating ips
del router[l3_constants.FLOATINGIP_KEY]
agent.process_router(ri)
# now no ports so state is torn down
del router[l3_constants.INTERFACE_KEY]
del router['gw_port']
agent.process_router(ri)
def test_process_router_snat_disabled(self):
agent = l3_agent.L3NATAgent(HOSTNAME, self.conf)
router = self._prepare_router_data(enable_snat=True)
ri = l3_agent.RouterInfo(router['id'], self.conf.root_helper,
self.conf.use_namespaces, router=router)
# Process with NAT
agent.process_router(ri)
orig_nat_rules = ri.iptables_manager.ipv4['nat'].rules[:]
# Reprocess without NAT
router['enable_snat'] = False
# Reassign the router object to RouterInfo
ri.router = router
agent.process_router(ri)
# For some reason set logic does not work well with
# IpTablesRule instances
nat_rules_delta = [r for r in orig_nat_rules
if r not in ri.iptables_manager.ipv4['nat'].rules]
self.assertEqual(len(nat_rules_delta), 2)
self._verify_snat_rules(nat_rules_delta, router)
def test_process_router_snat_enabled(self):
agent = l3_agent.L3NATAgent(HOSTNAME, self.conf)
router = self._prepare_router_data(enable_snat=False)
ri = l3_agent.RouterInfo(router['id'], self.conf.root_helper,
self.conf.use_namespaces, router=router)
# Process without NAT
agent.process_router(ri)
orig_nat_rules = ri.iptables_manager.ipv4['nat'].rules[:]
# Reprocess with NAT
router['enable_snat'] = True
# Reassign the router object to RouterInfo
ri.router = router
agent.process_router(ri)
# For some reason set logic does not work well with
# IpTablesRule instances
nat_rules_delta = [r for r in ri.iptables_manager.ipv4['nat'].rules
if r not in orig_nat_rules]
self.assertEqual(len(nat_rules_delta), 2)
self._verify_snat_rules(nat_rules_delta, router)
def test_process_router_interface_added(self):
agent = l3_agent.L3NATAgent(HOSTNAME, self.conf)
router = self._prepare_router_data()
ri = l3_agent.RouterInfo(router['id'], self.conf.root_helper,
self.conf.use_namespaces, router=router)
# Process with NAT
agent.process_router(ri)
orig_nat_rules = ri.iptables_manager.ipv4['nat'].rules[:]
# Add an interface and reprocess
router[l3_constants.INTERFACE_KEY].append(
{'id': _uuid(),
'network_id': _uuid(),
'admin_state_up': True,
'fixed_ips': [{'ip_address': '35.4.1.4',
'subnet_id': _uuid()}],
'mac_address': 'ca:fe:de:ad:be:ef',
'subnet': {'cidr': '35.4.1.0/24',
'gateway_ip': '35.4.1.1'}})
# Reassign the router object to RouterInfo
ri.router = router
agent.process_router(ri)
# For some reason set logic does not work well with
# IpTablesRule instances
nat_rules_delta = [r for r in ri.iptables_manager.ipv4['nat'].rules
if r not in orig_nat_rules]
self.assertEqual(len(nat_rules_delta), 1)
self._verify_snat_rules(nat_rules_delta, router)
def test_process_router_interface_removed(self):
agent = l3_agent.L3NATAgent(HOSTNAME, self.conf)
router = self._prepare_router_data(num_internal_ports=2)
ri = l3_agent.RouterInfo(router['id'], self.conf.root_helper,
self.conf.use_namespaces, router=router)
# Process with NAT
agent.process_router(ri)
orig_nat_rules = ri.iptables_manager.ipv4['nat'].rules[:]
# Add an interface and reprocess
del router[l3_constants.INTERFACE_KEY][1]
# Reassign the router object to RouterInfo
ri.router = router
agent.process_router(ri)
# For some reason set logic does not work well with
# IpTablesRule instances
nat_rules_delta = [r for r in orig_nat_rules
if r not in ri.iptables_manager.ipv4['nat'].rules]
self.assertEqual(len(nat_rules_delta), 1)
self._verify_snat_rules(nat_rules_delta, router, negate=True)
def testRoutersWithAdminStateDown(self):
agent = l3_agent.L3NATAgent(HOSTNAME, self.conf)
self.plugin_api.get_external_network_id.return_value = None
routers = [
{'id': _uuid(),
'admin_state_up': False,
'external_gateway_info': {}}]
agent._process_routers(routers)
self.assertNotIn(routers[0]['id'], agent.router_info)
def test_router_deleted(self):
agent = l3_agent.L3NATAgent(HOSTNAME, self.conf)
agent.router_deleted(None, FAKE_ID)
# verify that will set fullsync
self.assertIn(FAKE_ID, agent.removed_routers)
def test_routers_updated(self):
agent = l3_agent.L3NATAgent(HOSTNAME, self.conf)
agent.routers_updated(None, [FAKE_ID])
# verify that will set fullsync
self.assertIn(FAKE_ID, agent.updated_routers)
def test_removed_from_agent(self):
agent = l3_agent.L3NATAgent(HOSTNAME, self.conf)
agent.router_removed_from_agent(None, {'router_id': FAKE_ID})
# verify that will set fullsync
self.assertIn(FAKE_ID, agent.removed_routers)
def test_added_to_agent(self):
agent = l3_agent.L3NATAgent(HOSTNAME, self.conf)
agent.router_added_to_agent(None, [FAKE_ID])
# verify that will set fullsync
self.assertIn(FAKE_ID, agent.updated_routers)
def test_process_router_delete(self):
agent = l3_agent.L3NATAgent(HOSTNAME, self.conf)
ex_gw_port = {'id': _uuid(),
'network_id': _uuid(),
'fixed_ips': [{'ip_address': '19.4.4.4',
'subnet_id': _uuid()}],
'subnet': {'cidr': '19.4.4.0/24',
'gateway_ip': '19.4.4.1'}}
router = {
'id': _uuid(),
'enable_snat': True,
'routes': [],
'gw_port': ex_gw_port}
agent._router_added(router['id'], router)
agent.router_deleted(None, router['id'])
agent._process_router_delete()
self.assertFalse(list(agent.removed_routers))
def testDestroyNamespace(self):
class FakeDev(object):
def __init__(self, name):
self.name = name
self.mock_ip.get_namespaces.return_value = ['qrouter-foo',
'qrouter-bar']
self.mock_ip.get_devices.return_value = [FakeDev('qr-aaaa'),
FakeDev('qgw-aaaa')]
agent = l3_agent.L3NATAgent(HOSTNAME, self.conf)
agent._destroy_router_namespace = mock.MagicMock()
agent._destroy_router_namespaces()
self.assertEqual(agent._destroy_router_namespace.call_count, 2)
def testDestroyNamespaceWithRouterId(self):
class FakeDev(object):
def __init__(self, name):
self.name = name
self.conf.router_id = _uuid()
namespaces = ['qrouter-foo', 'qrouter-' + self.conf.router_id]
self.mock_ip.get_namespaces.return_value = namespaces
self.mock_ip.get_devices.return_value = [FakeDev('qr-aaaa'),
FakeDev('qgw-aaaa')]
agent = l3_agent.L3NATAgent(HOSTNAME, self.conf)
agent._destroy_router_namespace = mock.MagicMock()
agent._destroy_router_namespaces(self.conf.router_id)
self.assertEqual(agent._destroy_router_namespace.call_count, 1)
def _configure_metadata_proxy(self, enableflag=True):
if not enableflag:
self.conf.set_override('enable_metadata_proxy', False)
agent = l3_agent.L3NATAgent(HOSTNAME, self.conf)
router_id = _uuid()
router = {'id': _uuid(),
'external_gateway_info': {},
'routes': []}
with mock.patch.object(
agent, '_destroy_metadata_proxy') as destroy_proxy:
with mock.patch.object(
agent, '_spawn_metadata_proxy') as spawn_proxy:
agent._router_added(router_id, router)
if enableflag:
spawn_proxy.assert_called_with(mock.ANY)
else:
self.assertFalse(spawn_proxy.call_count)
agent._router_removed(router_id)
if enableflag:
destroy_proxy.assert_called_with(mock.ANY)
else:
self.assertFalse(destroy_proxy.call_count)
def test_enable_metadata_proxy(self):
self._configure_metadata_proxy()
def test_disable_metadata_proxy_spawn(self):
self._configure_metadata_proxy(enableflag=False)
class TestL3AgentEventHandler(base.BaseTestCase):
def setUp(self):
super(TestL3AgentEventHandler, self).setUp()
cfg.CONF.register_opts(l3_agent.L3NATAgent.OPTS)
cfg.CONF.set_override(
'interface_driver', 'neutron.agent.linux.interface.NullDriver'
)
cfg.CONF.set_override('use_namespaces', True)
agent_config.register_root_helper(cfg.CONF)
self.device_exists_p = mock.patch(
'neutron.agent.linux.ip_lib.device_exists')
self.device_exists = self.device_exists_p.start()
self.utils_exec_p = mock.patch(
'neutron.agent.linux.utils.execute')
self.utils_exec = self.utils_exec_p.start()
self.drv_cls_p = mock.patch('neutron.agent.linux.interface.NullDriver')
driver_cls = self.drv_cls_p.start()
self.mock_driver = mock.MagicMock()
self.mock_driver.DEV_NAME_LEN = (
interface.LinuxInterfaceDriver.DEV_NAME_LEN)
driver_cls.return_value = self.mock_driver
self.l3_plugin_p = mock.patch(
'neutron.agent.l3_agent.L3PluginApi')
l3_plugin_cls = self.l3_plugin_p.start()
self.plugin_api = mock.Mock()
l3_plugin_cls.return_value = self.plugin_api
self.external_process_p = mock.patch(
'neutron.agent.linux.external_process.ProcessManager'
)
self.external_process = self.external_process_p.start()
self.agent = l3_agent.L3NATAgent(HOSTNAME)
def tearDown(self):
self.device_exists_p.stop()
self.utils_exec_p.stop()
self.drv_cls_p.stop()
self.l3_plugin_p.stop()
self.external_process_p.stop()
super(TestL3AgentEventHandler, self).tearDown()
def test_spawn_metadata_proxy(self):
router_id = _uuid()
metadata_port = 8080
ip_class_path = 'neutron.agent.linux.ip_lib.IPWrapper'
cfg.CONF.set_override('metadata_port', metadata_port)
cfg.CONF.set_override('log_file', 'test.log')
cfg.CONF.set_override('debug', True)
router_info = l3_agent.RouterInfo(
router_id, cfg.CONF.root_helper, cfg.CONF.use_namespaces, None
)
self.external_process_p.stop()
try:
with mock.patch(ip_class_path) as ip_mock:
self.agent._spawn_metadata_proxy(router_info)
ip_mock.assert_has_calls([
mock.call(
'sudo',
'qrouter-' + router_id
),
mock.call().netns.execute([
'neutron-ns-metadata-proxy',
mock.ANY,
mock.ANY,
'--router_id=%s' % router_id,
mock.ANY,
'--metadata_port=%s' % metadata_port,
'--debug',
'--log-file=neutron-ns-metadata-proxy-%s.log' %
router_id
])
])
finally:
self.external_process_p.start()
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