vmware-nsx/neutron/tests/unit/test_l3_agent.py

753 lines
31 KiB
Python

# 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('router_id', 'fake_id')
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 test_router_info_create(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 test_agent_create(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 test_agent_add_internal_network(self):
self._test_internal_network_action('add')
def test_agent_remove_internal_network(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 test_agent_add_external_gateway(self):
self._test_external_gateway_action('add')
def test_agent_remove_external_gateway(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 test_agent_add_floating_ip(self):
self._test_floating_ip_action('add')
def test_agent_remove_floating_ip(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 test_agent_routing_table_updated(self):
self._test_routing_table_update(namespace=True)
def test_agent_routing_table_updated_no_namespace(self):
self._test_routing_table_update(namespace=False)
def test_routes_updated(self):
self._test_routes_updated(namespace=True)
def test_routes_updated_no_namespace(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 test_process_router(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 test_handle_router_snat_rules_add_back_jump(self):
agent = l3_agent.L3NATAgent(HOSTNAME, self.conf)
ri = mock.MagicMock()
port = {'fixed_ips': [{'ip_address': '192.168.1.4'}]}
agent._handle_router_snat_rules(ri, port, [], "iface", "add_rules")
nat = ri.iptables_manager.ipv4['nat']
nat.empty_chain.assert_any_call('snat')
nat.add_rule.assert_any_call('snat', '-j $float-snat')
for call in nat.mock_calls:
name, args, kwargs = call
if name == 'add_rule':
self.assertEqual(args, ('snat', '-j $float-snat'))
self.assertEqual(kwargs, {})
break
def test_routers_with_admin_state_down(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 test_destroy_namespace(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 test_destroy_namespace_with_router_id(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)
def test_metadata_nat_rules(self):
self.conf.set_override('enable_metadata_proxy', False)
agent = l3_agent.L3NATAgent(HOSTNAME, self.conf)
self.assertEqual([], agent.metadata_nat_rules())
self.conf.set_override('metadata_port', '8775')
self.conf.set_override('enable_metadata_proxy', True)
agent = l3_agent.L3NATAgent(HOSTNAME, self.conf)
rules = ('PREROUTING', '-s 0.0.0.0/0 -d 169.254.169.254/32 '
'-p tcp -m tcp --dport 80 -j REDIRECT --to-port 8775')
self.assertEqual([rules], agent.metadata_nat_rules())
def test_router_id_specified_in_conf(self):
self.conf.set_override('use_namespaces', False)
self.conf.set_override('router_id', '')
self.assertRaises(SystemExit, l3_agent.L3NATAgent,
HOSTNAME, self.conf)
self.conf.set_override('router_id', '1234')
agent = l3_agent.L3NATAgent(HOSTNAME, self.conf)
self.assertEqual(['1234'], agent._router_ids())
def test_nonexistent_interface_driver(self):
self.conf.set_override('interface_driver', None)
with mock.patch.object(l3_agent, 'LOG') as log:
self.assertRaises(SystemExit, l3_agent.L3NATAgent,
HOSTNAME, self.conf)
msg = 'An interface driver must be specified'
log.error.assert_called_once_with(msg)
self.conf.set_override('interface_driver', 'wrong_driver')
with mock.patch.object(l3_agent, 'LOG') as log:
self.assertRaises(SystemExit, l3_agent.L3NATAgent,
HOSTNAME, self.conf)
msg = "Error importing interface driver 'wrong_driver'"
log.error.assert_called_once_with(msg)
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)
device_exists_p = mock.patch(
'neutron.agent.linux.ip_lib.device_exists')
device_exists_p.start()
utils_exec_p = mock.patch(
'neutron.agent.linux.utils.execute')
utils_exec_p.start()
drv_cls_p = mock.patch('neutron.agent.linux.interface.NullDriver')
driver_cls = drv_cls_p.start()
mock_driver = mock.MagicMock()
mock_driver.DEV_NAME_LEN = (
interface.LinuxInterfaceDriver.DEV_NAME_LEN)
driver_cls.return_value = mock_driver
l3_plugin_p = mock.patch(
'neutron.agent.l3_agent.L3PluginApi')
l3_plugin_cls = l3_plugin_p.start()
l3_plugin_cls.return_value = mock.Mock()
self.external_process_p = mock.patch(
'neutron.agent.linux.external_process.ProcessManager'
)
self.external_process_p.start()
looping_call_p = mock.patch(
'neutron.openstack.common.loopingcall.FixedIntervalLoopingCall')
looping_call_p.start()
self.agent = l3_agent.L3NATAgent(HOSTNAME)
self.addCleanup(mock.patch.stopall)
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()