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# Copyright (c) 2015 Red Hat, Inc.
#
# 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 mock
from neutron_lib.agent import topics
from neutron_lib.api.definitions import external_net as extnet_apidef
from neutron_lib.api.definitions import l3 as l3_apidef
from neutron_lib.api.definitions import portbindings
from neutron_lib.callbacks import events
from neutron_lib.callbacks import registry
from neutron_lib.callbacks import resources
from neutron_lib import constants
from neutron_lib import context
from neutron.api.rpc.handlers import l3_rpc
from neutron.tests.common import helpers
from neutron.tests.functional import base as functional_base
from neutron.tests.unit.plugins.ml2 import base as ml2_test_base
DEVICE_OWNER_COMPUTE = constants.DEVICE_OWNER_COMPUTE_PREFIX + 'fake'
class L3DvrTestCaseBase(ml2_test_base.ML2TestFramework,
functional_base.BaseLoggingTestCase):
def setUp(self):
super(L3DvrTestCaseBase, self).setUp()
self.l3_agent = helpers.register_l3_agent(
host="host0",
agent_mode=constants.L3_AGENT_MODE_DVR_SNAT)
# register OVS agents to avoid time wasted on committing
# port binding failures on every port update
helpers.register_ovs_agent(host='host1')
helpers.register_ovs_agent(host='host2')
def _create_router(self, distributed=True, ha=False, admin_state_up=True):
return (super(L3DvrTestCaseBase, self).
_create_router(distributed=distributed, ha=ha,
admin_state_up=admin_state_up))
class MultipleL3PluginTestCase(L3DvrTestCaseBase):
def get_additional_service_plugins(self):
p = super(MultipleL3PluginTestCase,
self).get_additional_service_plugins()
p.update({'l3_plugin_name_1': self.l3_plugin,
'l3_plugin_name_2': self.l3_plugin})
return p
def test_create_router(self):
router = self._create_router()
self.assertEqual(
constants.DEVICE_OWNER_DVR_INTERFACE,
self.l3_plugin._get_device_owner(self.context, router))
class L3DvrTestCase(L3DvrTestCaseBase):
def test_update_router_db_centralized_to_distributed(self):
router = self._create_router(distributed=False)
# router needs to be in admin state down in order to be upgraded to DVR
self.l3_plugin.update_router(
self.context, router['id'], {'router': {'admin_state_up': False}})
self.assertFalse(router['distributed'])
self.l3_plugin.update_router(
self.context, router['id'], {'router': {'distributed': True}})
router = self.l3_plugin.get_router(self.context, router['id'])
self.assertTrue(router['distributed'])
def test_get_device_owner_distributed_router_object(self):
router = self._create_router()
self.assertEqual(
constants.DEVICE_OWNER_DVR_INTERFACE,
self.l3_plugin._get_device_owner(self.context, router))
def test_get_device_owner_distributed_router_id(self):
router = self._create_router()
self.assertEqual(
constants.DEVICE_OWNER_DVR_INTERFACE,
self.l3_plugin._get_device_owner(self.context, router['id']))
def test_get_device_owner_centralized(self):
router = self._create_router(distributed=False)
self.assertEqual(
constants.DEVICE_OWNER_ROUTER_INTF,
self.l3_plugin._get_device_owner(self.context, router['id']))
def test_get_agent_gw_ports_exist_for_network_no_port(self):
self.assertIsNone(
self.l3_plugin._get_agent_gw_ports_exist_for_network(
self.context, 'network_id', 'host', 'agent_id'))
def test_csnat_ports_are_created_and_deleted_based_on_router_subnet(self):
kwargs = {'arg_list': (extnet_apidef.EXTERNAL,),
extnet_apidef.EXTERNAL: True}
net1 = self._make_network(self.fmt, 'net1', True)
subnet1 = self._make_subnet(
self.fmt, net1, '10.1.0.1', '10.1.0.0/24', enable_dhcp=True)
subnet2 = self._make_subnet(
self.fmt, net1, '10.2.0.1', '10.2.0.0/24', enable_dhcp=True)
ext_net = self._make_network(self.fmt, 'ext_net', True, **kwargs)
self._make_subnet(
self.fmt, ext_net, '20.0.0.1', '20.0.0.0/24', enable_dhcp=True)
# Create first router and add an interface
router1 = self._create_router()
ext_net_id = ext_net['network']['id']
net1_id = net1['network']['id']
# Set gateway to router
self.l3_plugin._update_router_gw_info(
self.context, router1['id'],
{'network_id': ext_net_id})
# Now add router interface (subnet1) from net1 to router
self.l3_plugin.add_router_interface(
self.context, router1['id'],
{'subnet_id': subnet1['subnet']['id']})
# Now add router interface (subnet2) from net1 to router
self.l3_plugin.add_router_interface(
self.context, router1['id'],
{'subnet_id': subnet2['subnet']['id']})
# Now check the valid snat interfaces passed to the agent
snat_router_intfs = self.l3_plugin._get_snat_sync_interfaces(
self.context, [router1['id']])
self.assertEqual(2, len(snat_router_intfs[router1['id']]))
# Also make sure that there are no csnat ports created and
# left over.
csnat_ports = self.core_plugin.get_ports(
self.context, filters={
'network_id': [net1_id],
'device_owner': [constants.DEVICE_OWNER_ROUTER_SNAT]})
self.assertEqual(2, len(csnat_ports))
# Now remove router interface (subnet1) from net1 to router
self.l3_plugin.remove_router_interface(
self.context, router1['id'],
{'subnet_id': subnet1['subnet']['id']})
# Now remove router interface (subnet2) from net1 to router
self.l3_plugin.remove_router_interface(
self.context, router1['id'],
{'subnet_id': subnet2['subnet']['id']})
snat_router_intfs = self.l3_plugin._get_snat_sync_interfaces(
self.context, [router1['id']])
self.assertEqual(0, len(snat_router_intfs[router1['id']]))
# Also make sure that there are no csnat ports created and
# left over.
csnat_ports = self.core_plugin.get_ports(
self.context, filters={
'network_id': [net1_id],
'device_owner': [constants.DEVICE_OWNER_ROUTER_SNAT]})
self.assertEqual(0, len(csnat_ports))
def _test_remove_router_interface_leaves_snat_intact(self, by_subnet):
with self.subnet() as subnet1, \
self.subnet(cidr='20.0.0.0/24') as subnet2:
kwargs = {'arg_list': (extnet_apidef.EXTERNAL,),
extnet_apidef.EXTERNAL: True}
with self.network(**kwargs) as ext_net, \
self.subnet(network=ext_net,
cidr='30.0.0.0/24'):
router = self._create_router()
self.l3_plugin.add_router_interface(
self.context, router['id'],
{'subnet_id': subnet1['subnet']['id']})
self.l3_plugin.add_router_interface(
self.context, router['id'],
{'subnet_id': subnet2['subnet']['id']})
gw_info = {'network_id': ext_net['network']['id']}
self.l3_plugin.update_router(
self.context, router['id'],
{'router': {l3_apidef.EXTERNAL_GW_INFO: gw_info}})
snat_router_intfs = self.l3_plugin._get_snat_sync_interfaces(
self.context, [router['id']])
self.assertEqual(
2, len(snat_router_intfs[router['id']]))
if by_subnet:
self.l3_plugin.remove_router_interface(
self.context, router['id'],
{'subnet_id': subnet1['subnet']['id']})
else:
port = self.core_plugin.get_ports(
self.context, filters={
'network_id': [subnet1['subnet']['network_id']],
'device_owner':
[constants.DEVICE_OWNER_DVR_INTERFACE]})[0]
self.l3_plugin.remove_router_interface(
self.context, router['id'],
{'port_id': port['id']})
self.assertEqual(
1, len(self.l3_plugin._get_snat_sync_interfaces(
self.context, [router['id']])))
def test_remove_router_interface_by_subnet_leaves_snat_intact(self):
self._test_remove_router_interface_leaves_snat_intact(by_subnet=True)
def test_remove_router_interface_by_port_leaves_snat_intact(self):
self._test_remove_router_interface_leaves_snat_intact(
by_subnet=False)
def setup_create_agent_gw_port_for_network(self, network=None):
if not network:
network = self._make_network(self.fmt, '', True)
network_id = network['network']['id']
port = self.core_plugin.create_port(
self.context,
{'port': {'tenant_id': '',
'network_id': network_id,
'mac_address': constants.ATTR_NOT_SPECIFIED,
'fixed_ips': constants.ATTR_NOT_SPECIFIED,
'device_id': self.l3_agent['id'],
'device_owner': constants.DEVICE_OWNER_AGENT_GW,
portbindings.HOST_ID: '',
'admin_state_up': True,
'name': ''}})
return network_id, port
def test_get_agent_gw_port_for_network(self):
network_id, port = (
self.setup_create_agent_gw_port_for_network())
self.assertEqual(
port['id'],
self.l3_plugin._get_agent_gw_ports_exist_for_network(
self.context, network_id, None, self.l3_agent['id'])['id'])
def test_delete_agent_gw_port_for_network(self):
network_id, port = (
self.setup_create_agent_gw_port_for_network())
self.l3_plugin.delete_floatingip_agent_gateway_port(
self.context, "", network_id)
self.assertIsNone(
self.l3_plugin._get_agent_gw_ports_exist_for_network(
self.context, network_id, "", self.l3_agent['id']))
def test_get_fip_agent_gw_ports(self):
self.setup_create_agent_gw_port_for_network()
self.assertEqual(
1, len(self.l3_plugin._get_fip_agent_gw_ports(
self.context, self.l3_agent['id'])))
def test_process_routers(self):
router = self._create_router()
if not router.get('gw_port_id'):
router['gw_port_id'] = 'fake_gw_id'
self.l3_plugin._get_fip_agent_gw_ports = mock.Mock(
return_value='fip_interface')
self.l3_plugin._get_snat_sync_interfaces = mock.Mock(
return_value={router['id']: 'snat_interface'})
result = self.l3_plugin._process_routers(self.context, [router],
self.l3_agent)
self.assertEqual(
router['id'], result[router['id']]['id'])
self.assertIn(constants.FLOATINGIP_AGENT_INTF_KEY,
result[router['id']])
self.l3_plugin._get_fip_agent_gw_ports.assert_called_once_with(
self.context, self.l3_agent['id'])
self.l3_plugin._get_snat_sync_interfaces.assert_called_once_with(
self.context, [router['id']])
def test_agent_gw_port_delete_when_last_gateway_for_ext_net_removed(self):
kwargs = {'arg_list': (extnet_apidef.EXTERNAL,),
extnet_apidef.EXTERNAL: True}
net1 = self._make_network(self.fmt, 'net1', True)
net2 = self._make_network(self.fmt, 'net2', True)
subnet1 = self._make_subnet(
self.fmt, net1, '10.1.0.1', '10.1.0.0/24', enable_dhcp=True)
subnet2 = self._make_subnet(
self.fmt, net2, '10.1.0.1', '10.1.0.0/24', enable_dhcp=True)
ext_net = self._make_network(self.fmt, 'ext_net', True, **kwargs)
self._make_subnet(
self.fmt, ext_net, '20.0.0.1', '20.0.0.0/24', enable_dhcp=True)
# Create first router and add an interface
router1 = self._create_router()
ext_net_id = ext_net['network']['id']
self.l3_plugin.add_router_interface(
self.context, router1['id'],
{'subnet_id': subnet1['subnet']['id']})
# Set gateway to first router
self.l3_plugin._update_router_gw_info(
self.context, router1['id'],
{'network_id': ext_net_id})
# Create second router and add an interface
router2 = self._create_router()
self.l3_plugin.add_router_interface(
self.context, router2['id'],
{'subnet_id': subnet2['subnet']['id']})
# Set gateway to second router
self.l3_plugin._update_router_gw_info(
self.context, router2['id'],
{'network_id': ext_net_id})
# Create an agent gateway port for the external network
net_id, agent_gw_port = (
self.setup_create_agent_gw_port_for_network(network=ext_net))
# Check for agent gateway ports
self.assertIsNotNone(
self.l3_plugin._get_agent_gw_ports_exist_for_network(
self.context, ext_net_id, "", self.l3_agent['id']))
self.l3_plugin._update_router_gw_info(
self.context, router1['id'], {})
# Check for agent gateway port after deleting one of the gw
self.assertIsNotNone(
self.l3_plugin._get_agent_gw_ports_exist_for_network(
self.context, ext_net_id, "", self.l3_agent['id']))
self.l3_plugin._update_router_gw_info(
self.context, router2['id'], {})
# Check for agent gateway port after deleting last gw
self.assertIsNone(
self.l3_plugin._get_agent_gw_ports_exist_for_network(
self.context, ext_net_id, "", self.l3_agent['id']))
def test_create_floating_ip_with_no_dvr_agents(self):
self._test_create_floating_ip_agent_notification(
test_agent_mode=None)
def _test_create_floating_ip_agent_notification(
self, dvr=True, test_agent_mode=constants.L3_AGENT_MODE_DVR):
with self.subnet() as ext_subnet,\
self.subnet(cidr='20.0.0.0/24') as int_subnet,\
self.port(subnet=int_subnet,
device_owner=DEVICE_OWNER_COMPUTE) as int_port:
self.core_plugin.update_port(
self.context, int_port['port']['id'],
{'port': {portbindings.HOST_ID: 'host1'}})
# and create l3 agents on corresponding hosts
if test_agent_mode is not None:
helpers.register_l3_agent(host='host1',
agent_mode=test_agent_mode)
# make net external
ext_net_id = ext_subnet['subnet']['network_id']
self._update('networks', ext_net_id,
{'network': {extnet_apidef.EXTERNAL: True}})
router = self._create_router(distributed=dvr)
self.l3_plugin.update_router(
self.context, router['id'],
{'router': {
'external_gateway_info': {'network_id': ext_net_id}}})
self.l3_plugin.add_router_interface(
self.context, router['id'],
{'subnet_id': int_subnet['subnet']['id']})
if test_agent_mode is None:
self.assertIsNone(
self.l3_plugin.create_fip_agent_gw_port_if_not_exists(
self.context, ext_net_id, 'host1'))
return
floating_ip = {'floating_network_id': ext_net_id,
'router_id': router['id'],
'port_id': int_port['port']['id'],
'tenant_id': int_port['port']['tenant_id'],
'dns_name': '', 'dns_domain': ''}
with mock.patch.object(
self.l3_plugin, '_l3_rpc_notifier') as l3_notif:
self.l3_plugin.create_floatingip(
self.context, {'floatingip': floating_ip})
if dvr:
if (test_agent_mode ==
constants.L3_AGENT_MODE_DVR_NO_EXTERNAL):
if router['ha']:
expected_calls = [
mock.call(self.context,
[router['id']], 'host0'),
mock.call(self.context,
[router['id']], 'standby')]
l3_notif.routers_updated_on_host.assert_has_calls(
expected_calls, any_order=True)
self.assertFalse(l3_notif.routers_updated.called)
if not router['ha']:
l3_notif.routers_updated_on_host.\
assert_called_once_with(
self.context, [router['id']], 'host0')
self.assertFalse(l3_notif.routers_updated.called)
else:
l3_notif.routers_updated_on_host.\
assert_called_once_with(
self.context, [router['id']], 'host1')
self.assertFalse(l3_notif.routers_updated.called)
else:
l3_notif.routers_updated.assert_called_once_with(
self.context, [router['id']], None)
self.assertFalse(
l3_notif.routers_updated_on_host.called)
def test_create_floating_ip_agent_notification(self):
self._test_create_floating_ip_agent_notification()
def test_create_floating_ip_agent_notification_for_dvr_no_external_agent(
self):
agent_mode = constants.L3_AGENT_MODE_DVR_NO_EXTERNAL
self._test_create_floating_ip_agent_notification(
test_agent_mode=agent_mode)
def test_create_floating_ip_agent_notification_non_dvr(self):
self._test_create_floating_ip_agent_notification(dvr=False)
def _test_update_floating_ip_agent_notification(
self, dvr=True, test_agent_mode=constants.L3_AGENT_MODE_DVR):
with self.subnet() as ext_subnet,\
self.subnet(cidr='20.0.0.0/24') as int_subnet1,\
self.subnet(cidr='30.0.0.0/24') as int_subnet2,\
self.port(subnet=int_subnet1,
device_owner=DEVICE_OWNER_COMPUTE) as int_port1,\
self.port(subnet=int_subnet2,
device_owner=DEVICE_OWNER_COMPUTE) as int_port2:
# locate internal ports on different hosts
self.core_plugin.update_port(
self.context, int_port1['port']['id'],
{'port': {portbindings.HOST_ID: 'host1'}})
self.core_plugin.update_port(
self.context, int_port2['port']['id'],
{'port': {portbindings.HOST_ID: 'host2'}})
# and create l3 agents on corresponding hosts
helpers.register_l3_agent(host='host1',
agent_mode=test_agent_mode)
helpers.register_l3_agent(host='host2',
agent_mode=test_agent_mode)
# make net external
ext_net_id = ext_subnet['subnet']['network_id']
self._update('networks', ext_net_id,
{'network': {extnet_apidef.EXTERNAL: True}})
router1 = self._create_router(distributed=dvr)
router2 = self._create_router(distributed=dvr)
for router in (router1, router2):
self.l3_plugin.update_router(
self.context, router['id'],
{'router': {
'external_gateway_info': {'network_id': ext_net_id}}})
self.l3_plugin.add_router_interface(
self.context, router1['id'],
{'subnet_id': int_subnet1['subnet']['id']})
self.l3_plugin.add_router_interface(
self.context, router2['id'],
{'subnet_id': int_subnet2['subnet']['id']})
floating_ip = {'floating_network_id': ext_net_id,
'router_id': router1['id'],
'port_id': int_port1['port']['id'],
'tenant_id': int_port1['port']['tenant_id'],
'dns_name': '', 'dns_domain': ''}
floating_ip = self.l3_plugin.create_floatingip(
self.context, {'floatingip': floating_ip})
with mock.patch.object(
self.l3_plugin, '_l3_rpc_notifier') as l3_notif:
updated_floating_ip = {'router_id': router2['id'],
'port_id': int_port2['port']['id']}
self.l3_plugin.update_floatingip(
self.context, floating_ip['id'],
{'floatingip': updated_floating_ip})
if dvr:
if (test_agent_mode ==
constants.L3_AGENT_MODE_DVR_NO_EXTERNAL):
if router1['ha'] and router2['ha']:
self.assertEqual(
4,
l3_notif.routers_updated_on_host.call_count)
expected_calls = [
mock.call(self.context,
[router1['id']], 'host0'),
mock.call(self.context,
[router1['id']], 'standby'),
mock.call(self.context,
[router2['id']], 'host0'),
mock.call(self.context,
[router2['id']], 'standby')]
l3_notif.routers_updated_on_host.assert_has_calls(
expected_calls, any_order=True)
self.assertFalse(l3_notif.routers_updated.called)
else:
self.assertEqual(
2,
l3_notif.routers_updated_on_host.call_count)
expected_calls = [
mock.call(self.context,
[router1['id']], 'host0'),
mock.call(self.context,
[router2['id']], 'host0')]
l3_notif.routers_updated_on_host.assert_has_calls(
expected_calls)
self.assertFalse(l3_notif.routers_updated.called)
else:
self.assertEqual(
2, l3_notif.routers_updated_on_host.call_count)
expected_calls = [
mock.call(self.context, [router1['id']], 'host1'),
mock.call(self.context, [router2['id']], 'host2')]
l3_notif.routers_updated_on_host.assert_has_calls(
expected_calls)
self.assertFalse(l3_notif.routers_updated.called)
else:
self.assertEqual(
2, l3_notif.routers_updated.call_count)
expected_calls = [
mock.call(self.context, [router1['id']], None),
mock.call(self.context, [router2['id']], None)]
l3_notif.routers_updated.assert_has_calls(
expected_calls)
self.assertFalse(l3_notif.routers_updated_on_host.called)
def test_update_floating_ip_agent_notification(self):
self._test_update_floating_ip_agent_notification()
def test_update_floating_ip_agent_notification_with_dvr_no_external_agents(
self):
agent_mode = constants.L3_AGENT_MODE_DVR_NO_EXTERNAL
self._test_update_floating_ip_agent_notification(
test_agent_mode=agent_mode)
def test_update_floating_ip_agent_notification_non_dvr(self):
self._test_update_floating_ip_agent_notification(dvr=False)
def test_delete_floating_ip_with_no_agents(self):
self._test_delete_floating_ip_agent_notification(
test_agent_mode=None)
def _test_delete_floating_ip_agent_notification(
self, dvr=True, test_agent_mode=constants.L3_AGENT_MODE_DVR):
with self.subnet() as ext_subnet,\
self.subnet(cidr='20.0.0.0/24') as int_subnet,\
self.port(subnet=int_subnet,
device_owner=DEVICE_OWNER_COMPUTE) as int_port:
self.core_plugin.update_port(
self.context, int_port['port']['id'],
{'port': {portbindings.HOST_ID: 'host1'}})
# and create l3 agents on corresponding hosts
helpers.register_l3_agent(host='host1',
agent_mode=test_agent_mode)
# make net external
ext_net_id = ext_subnet['subnet']['network_id']
self._update('networks', ext_net_id,
{'network': {extnet_apidef.EXTERNAL: True}})
router = self._create_router(distributed=dvr)
self.l3_plugin.update_router(
self.context, router['id'],
{'router': {
'external_gateway_info': {'network_id': ext_net_id}}})
self.l3_plugin.add_router_interface(
self.context, router['id'],
{'subnet_id': int_subnet['subnet']['id']})
floating_ip = {'floating_network_id': ext_net_id,
'router_id': router['id'],
'port_id': int_port['port']['id'],
'tenant_id': int_port['port']['tenant_id'],
'dns_name': '', 'dns_domain': ''}
floating_ip = self.l3_plugin.create_floatingip(
self.context, {'floatingip': floating_ip})
if test_agent_mode is None:
with mock.patch.object(
self.l3_plugin, 'get_dvr_agent_on_host') as a_mock,\
mock.patch.object(self.l3_plugin,
'_l3_rpc_notifier') as l3_notif:
a_mock.return_value = None
self.l3_plugin.delete_floatingip(
self.context, floating_ip['id'])
self.assertFalse(
l3_notif.routers_updated_on_host.called)
return
with mock.patch.object(
self.l3_plugin, '_l3_rpc_notifier') as l3_notif:
self.l3_plugin.delete_floatingip(
self.context, floating_ip['id'])
if dvr:
if test_agent_mode == (
constants.L3_AGENT_MODE_DVR_NO_EXTERNAL):
if router['ha']:
expected_calls = [
mock.call(self.context,
[router['id']], 'host0'),
mock.call(self.context,
[router['id']], 'standby')]
l3_notif.routers_updated_on_host.assert_has_calls(
expected_calls, any_order=True)
self.assertFalse(l3_notif.routers_updated.called)
else:
l3_notif.routers_updated_on_host.\
assert_called_once_with(
self.context, [router['id']], 'host0')
self.assertFalse(l3_notif.routers_updated.called)
if test_agent_mode == (
constants.L3_AGENT_MODE_DVR):
l3_notif.routers_updated_on_host.\
assert_called_once_with(
self.context, [router['id']], 'host1')
self.assertFalse(l3_notif.routers_updated.called)
else:
l3_notif.routers_updated.assert_called_once_with(
self.context, [router['id']], None)
self.assertFalse(
l3_notif.routers_updated_on_host.called)
def test_delete_floating_ip_agent_notification(self):
self._test_delete_floating_ip_agent_notification()
def test_delete_floating_ip_agent_notification_with_dvr_no_external_agents(
self):
agent_mode = constants.L3_AGENT_MODE_DVR_NO_EXTERNAL
self._test_delete_floating_ip_agent_notification(
test_agent_mode=agent_mode)
def test_delete_floating_ip_agent_notification_non_dvr(self):
self._test_delete_floating_ip_agent_notification(dvr=False)
def test_router_with_ipv4_and_multiple_ipv6_on_same_network(self):
kwargs = {'arg_list': (extnet_apidef.EXTERNAL,),
extnet_apidef.EXTERNAL: True}
ext_net = self._make_network(self.fmt, '', True, **kwargs)
self._make_subnet(
self.fmt, ext_net, '10.0.0.1', '10.0.0.0/24',
ip_version=constants.IP_VERSION_4, enable_dhcp=True)
self._make_subnet(
self.fmt, ext_net, '2001:db8::1', '2001:db8::/64',
ip_version=constants.IP_VERSION_6, enable_dhcp=True)
router1 = self._create_router()
self.l3_plugin._update_router_gw_info(
self.context, router1['id'],
{'network_id': ext_net['network']['id']})
snat_router_intfs = self.l3_plugin._get_snat_sync_interfaces(
self.context, [router1['id']])
self.assertEqual(0, len(snat_router_intfs[router1['id']]))
private_net1 = self._make_network(self.fmt, 'net1', True)
private_ipv6_subnet1 = self._make_subnet(self.fmt,
private_net1, 'fd00::1',
cidr='fd00::1/64', ip_version=constants.IP_VERSION_6,
ipv6_ra_mode='slaac',
ipv6_address_mode='slaac')
private_ipv6_subnet2 = self._make_subnet(self.fmt,
private_net1, 'fd01::1',
cidr='fd01::1/64', ip_version=constants.IP_VERSION_6,
ipv6_ra_mode='slaac',
ipv6_address_mode='slaac')
# Add the first IPv6 subnet to the router
self.l3_plugin.add_router_interface(
self.context, router1['id'],
{'subnet_id': private_ipv6_subnet1['subnet']['id']})
# Check for the internal snat port interfaces
snat_router_intfs = self.l3_plugin._get_snat_sync_interfaces(
self.context, [router1['id']])
self.assertEqual(1, len(snat_router_intfs[router1['id']]))
# Add the second IPv6 subnet to the router
self.l3_plugin.add_router_interface(
self.context, router1['id'],
{'subnet_id': private_ipv6_subnet2['subnet']['id']})
# Check for the internal snat port interfaces
snat_router_intfs = self.l3_plugin._get_snat_sync_interfaces(
self.context, [router1['id']])
snat_intf_list = snat_router_intfs[router1['id']]
fixed_ips = snat_intf_list[0]['fixed_ips']
self.assertEqual(1, len(snat_router_intfs[router1['id']]))
self.assertEqual(2, len(fixed_ips))
# Now delete the router interface and it should update the
# SNAT port with the right fixed_ips instead of deleting it.
self.l3_plugin.remove_router_interface(
self.context, router1['id'],
{'subnet_id': private_ipv6_subnet2['subnet']['id']})
# Check for the internal snat port interfaces
snat_router_intfs = self.l3_plugin._get_snat_sync_interfaces(
self.context, [router1['id']])
snat_intf_list = snat_router_intfs[router1['id']]
fixed_ips = snat_intf_list[0]['fixed_ips']
self.assertEqual(1, len(snat_router_intfs[router1['id']]))
self.assertEqual(1, len(fixed_ips))
def test_unbound_allowed_addr_pairs_fip_with_multiple_active_vms(self):
HOST1 = 'host1'
helpers.register_l3_agent(
host=HOST1, agent_mode=constants.L3_AGENT_MODE_DVR)
HOST2 = 'host2'
helpers.register_l3_agent(
host=HOST2, agent_mode=constants.L3_AGENT_MODE_DVR)
router = self._create_router(ha=False)
private_net1 = self._make_network(self.fmt, 'net1', True)
test_allocation_pools = [{'start': '10.1.0.2',
'end': '10.1.0.20'}]
fixed_vrrp_ip = [{'ip_address': '10.1.0.201'}]
kwargs = {'arg_list': (extnet_apidef.EXTERNAL,),
extnet_apidef.EXTERNAL: True}
ext_net = self._make_network(self.fmt, '', True, **kwargs)
self._make_subnet(
self.fmt, ext_net, '10.20.0.1', '10.20.0.0/24',
ip_version=constants.IP_VERSION_4, enable_dhcp=True)
self.l3_plugin.schedule_router(self.context,
router['id'],
candidates=[self.l3_agent])
# Set gateway to router
self.l3_plugin._update_router_gw_info(
self.context, router['id'],
{'network_id': ext_net['network']['id']})
private_subnet1 = self._make_subnet(
self.fmt,
private_net1,
'10.1.0.1',
cidr='10.1.0.0/24',
ip_version=constants.IP_VERSION_4,
allocation_pools=test_allocation_pools,
enable_dhcp=True)
vrrp_port = self._make_port(
self.fmt,
private_net1['network']['id'],
device_owner='',
fixed_ips=fixed_vrrp_ip)
allowed_address_pairs = [
{'ip_address': '10.1.0.201',
'mac_address': vrrp_port['port']['mac_address']}]
with self.port(
subnet=private_subnet1,
device_owner=DEVICE_OWNER_COMPUTE) as int_port1,\
self.port(
subnet=private_subnet1,
device_owner=DEVICE_OWNER_COMPUTE) as int_port2:
self.l3_plugin.add_router_interface(
self.context, router['id'],
{'subnet_id': private_subnet1['subnet']['id']})
router_handle = (
self.l3_plugin.list_active_sync_routers_on_active_l3_agent(
self.context, self.l3_agent['host'], [router['id']]))
self.assertEqual(self.l3_agent['host'],
router_handle[0]['gw_port_host'])
with mock.patch.object(self.l3_plugin,
'_l3_rpc_notifier') as l3_notifier:
vm_port1 = self.core_plugin.update_port(
self.context, int_port1['port']['id'],
{'port': {portbindings.HOST_ID: HOST1}})
vm_port2 = self.core_plugin.update_port(
self.context, int_port2['port']['id'],
{'port': {portbindings.HOST_ID: HOST2}})
vrrp_port_db = self.core_plugin.get_port(
self.context, vrrp_port['port']['id'])
# Make sure that the VRRP port is not bound to any host
self.assertNotEqual(vrrp_port_db[portbindings.HOST_ID], HOST1)
self.assertNotEqual(vrrp_port_db[portbindings.HOST_ID], HOST2)
self.assertNotEqual(
vrrp_port_db[portbindings.HOST_ID], self.l3_agent['host'])
# Now update both the VM ports with the allowed_address_pair ip
self.core_plugin.update_port(
self.context, vm_port1['id'],
{'port': {
'allowed_address_pairs': allowed_address_pairs}})
updated_vm_port1 = self.core_plugin.get_port(
self.context, vm_port1['id'])
expected_allowed_address_pairs1 = updated_vm_port1.get(
'allowed_address_pairs')
self.assertEqual(expected_allowed_address_pairs1,
allowed_address_pairs)
self.core_plugin.update_port(
self.context, vm_port2['id'],
{'port': {
'allowed_address_pairs': allowed_address_pairs}})
updated_vm_port2 = self.core_plugin.get_port(
self.context, vm_port2['id'])
expected_allowed_address_pairs2 = updated_vm_port2.get(
'allowed_address_pairs')
self.assertEqual(expected_allowed_address_pairs2,
allowed_address_pairs)
# Now let us assign the floatingip to the vrrp port that is
# unbound to any host.
floating_ip = {'floating_network_id': ext_net['network']['id'],
'router_id': router['id'],
'port_id': vrrp_port['port']['id'],
'tenant_id': vrrp_port['port']['tenant_id']}
floating_ip = self.l3_plugin.create_floatingip(
self.context, {'floatingip': floating_ip})
expected_routers_updated_calls = [
mock.call(self.context, mock.ANY, 'host0'),
mock.call(self.context, mock.ANY, HOST1),
mock.call(self.context, mock.ANY, HOST2)]
l3_notifier.routers_updated_on_host.assert_has_calls(
expected_routers_updated_calls, any_order=True)
self.assertFalse(l3_notifier.routers_updated.called)
router_info = (
self.l3_plugin.list_active_sync_routers_on_active_l3_agent(
self.context, self.l3_agent['host'], [router['id']]))
floatingips = router_info[0][constants.FLOATINGIP_KEY]
self.assertTrue(floatingips[0][constants.DVR_SNAT_BOUND])
def test_dvr_process_floatingips_for_dvr_on_full_sync(self):
HOST1 = 'host1'
helpers.register_l3_agent(
host=HOST1, agent_mode=constants.L3_AGENT_MODE_DVR)
router = self._create_router(ha=False)
private_net1 = self._make_network(self.fmt, 'net1', True)
kwargs = {'arg_list': (extnet_apidef.EXTERNAL,),
extnet_apidef.EXTERNAL: True}
ext_net = self._make_network(self.fmt, '', True, **kwargs)
self._make_subnet(
self.fmt, ext_net, '10.20.0.1', '10.20.0.0/24',
ip_version=constants.IP_VERSION_4, enable_dhcp=True)
# Schedule the router to the dvr_snat node
self.l3_plugin.schedule_router(self.context,
router['id'],
candidates=[self.l3_agent])
# Set gateway to router
self.l3_plugin._update_router_gw_info(
self.context, router['id'],
{'network_id': ext_net['network']['id']})
private_subnet1 = self._make_subnet(
self.fmt,
private_net1,
'10.1.0.1',
cidr='10.1.0.0/24',
ip_version=constants.IP_VERSION_4,
enable_dhcp=True)
with self.port(
subnet=private_subnet1,
device_owner=DEVICE_OWNER_COMPUTE) as int_port1,\
self.port(
subnet=private_subnet1) as int_port2:
self.l3_plugin.add_router_interface(
self.context, router['id'],
{'subnet_id': private_subnet1['subnet']['id']})
router_handle = (
self.l3_plugin.list_active_sync_routers_on_active_l3_agent(
self.context, self.l3_agent['host'], [router['id']]))
self.assertEqual(self.l3_agent['host'],
router_handle[0]['gw_port_host'])
with mock.patch.object(self.l3_plugin,
'_l3_rpc_notifier') as l3_notifier:
self.core_plugin.update_port(
self.context, int_port1['port']['id'],
{'port': {portbindings.HOST_ID: HOST1}})
# Now let us assign the floatingip to the bound port
# and unbound port.
fip1 = {'floating_network_id': ext_net['network']['id'],
'router_id': router['id'],
'port_id': int_port1['port']['id'],
'tenant_id': int_port1['port']['tenant_id']}
self.l3_plugin.create_floatingip(
self.context, {'floatingip': fip1})
expected_routers_updated_calls = [
mock.call(self.context, mock.ANY, HOST1)]
l3_notifier.routers_updated_on_host.assert_has_calls(
expected_routers_updated_calls)
self.assertFalse(l3_notifier.routers_updated.called)
fip2 = {'floating_network_id': ext_net['network']['id'],
'router_id': router['id'],
'port_id': int_port2['port']['id'],
'tenant_id': int_port2['port']['tenant_id']}
self.l3_plugin.create_floatingip(
self.context, {'floatingip': fip2})
router_info = (
self.l3_plugin.list_active_sync_routers_on_active_l3_agent(
self.context, self.l3_agent['host'], [router['id']]))
floatingips = router_info[0][constants.FLOATINGIP_KEY]
self.assertEqual(1, len(floatingips))
self.assertTrue(floatingips[0][constants.DVR_SNAT_BOUND])
self.assertEqual(constants.FLOATING_IP_HOST_NEEDS_BINDING,
floatingips[0]['host'])
router1_info = (
self.l3_plugin.list_active_sync_routers_on_active_l3_agent(
self.context, HOST1, [router['id']]))
floatingips = router1_info[0][constants.FLOATINGIP_KEY]
self.assertEqual(1, len(floatingips))
self.assertEqual(HOST1, floatingips[0]['host'])
self.assertIsNone(floatingips[0]['dest_host'])
def test_dvr_router_unbound_floating_ip_migrate_to_bound_host(self):
HOST1 = 'host1'
helpers.register_l3_agent(
host=HOST1, agent_mode=constants.L3_AGENT_MODE_DVR)
router = self._create_router(ha=False)
private_net1 = self._make_network(self.fmt, 'net1', True)
kwargs = {'arg_list': (extnet_apidef.EXTERNAL,),
extnet_apidef.EXTERNAL: True}
ext_net = self._make_network(self.fmt, '', True, **kwargs)
self._make_subnet(
self.fmt, ext_net, '10.20.0.1', '10.20.0.0/24',
ip_version=constants.IP_VERSION_4, enable_dhcp=True)
self.l3_plugin.schedule_router(self.context,
router['id'],
candidates=[self.l3_agent])
# Set gateway to router
self.l3_plugin._update_router_gw_info(
self.context, router['id'],
{'network_id': ext_net['network']['id']})
private_subnet1 = self._make_subnet(
self.fmt,
private_net1,
'10.1.0.1',
cidr='10.1.0.0/24',
ip_version=constants.IP_VERSION_4,
enable_dhcp=True)
with self.port(
subnet=private_subnet1,
device_owner=DEVICE_OWNER_COMPUTE) as int_port1:
self.l3_plugin.add_router_interface(
self.context, router['id'],
{'subnet_id': private_subnet1['subnet']['id']})
router_handle = (
self.l3_plugin.list_active_sync_routers_on_active_l3_agent(
self.context, self.l3_agent['host'], [router['id']]))
self.assertEqual(self.l3_agent['host'],
router_handle[0]['gw_port_host'])
with mock.patch.object(self.l3_plugin,
'_l3_rpc_notifier') as l3_notifier:
# Next we can try to associate the floatingip to the
# VM port
floating_ip = {'floating_network_id': ext_net['network']['id'],
'router_id': router['id'],
'port_id': int_port1['port']['id'],
'tenant_id': int_port1['port']['tenant_id']}
floating_ip = self.l3_plugin.create_floatingip(
self.context, {'floatingip': floating_ip})
expected_routers_updated_calls = [
mock.call(self.context, mock.ANY, 'host0')]
l3_notifier.routers_updated_on_host.assert_has_calls(
expected_routers_updated_calls)
self.assertFalse(l3_notifier.routers_updated.called)
router_info = (
self.l3_plugin.list_active_sync_routers_on_active_l3_agent(
self.context, self.l3_agent['host'], [router['id']]))
floatingips = router_info[0][constants.FLOATINGIP_KEY]
self.assertTrue(floatingips[0][constants.DVR_SNAT_BOUND])
# Now do the host binding to the fip port
self.core_plugin.update_port(
self.context, int_port1['port']['id'],
{'port': {portbindings.HOST_ID: HOST1}})
expected_routers_updated_calls = [
mock.call(self.context, mock.ANY, 'host0'),
mock.call(self.context, mock.ANY, HOST1)]
l3_notifier.routers_updated_on_host.assert_has_calls(
expected_routers_updated_calls)
updated_router_info = (
self.l3_plugin.list_active_sync_routers_on_active_l3_agent(
self.context, HOST1, [router['id']]))
floatingips = updated_router_info[0][constants.FLOATINGIP_KEY]
self.assertFalse(floatingips[0].get(constants.DVR_SNAT_BOUND))
self.assertEqual(HOST1, floatingips[0]['host'])
def test_dvr_router_centralized_floating_ip(self):
HOST1 = 'host1'
helpers.register_l3_agent(
host=HOST1, agent_mode=constants.L3_AGENT_MODE_DVR_NO_EXTERNAL)
router = self._create_router(ha=False)
private_net1 = self._make_network(self.fmt, 'net1', True)
kwargs = {'arg_list': (extnet_apidef.EXTERNAL,),
extnet_apidef.EXTERNAL: True}
ext_net = self._make_network(self.fmt, '', True, **kwargs)
self._make_subnet(
self.fmt, ext_net, '10.20.0.1', '10.20.0.0/24',
ip_version=constants.IP_VERSION_4, enable_dhcp=True)
self.l3_plugin.schedule_router(self.context,
router['id'],
candidates=[self.l3_agent])
# Set gateway to router
self.l3_plugin._update_router_gw_info(
self.context, router['id'],
{'network_id': ext_net['network']['id']})
private_subnet1 = self._make_subnet(
self.fmt,
private_net1,
'10.1.0.1',
cidr='10.1.0.0/24',
ip_version=constants.IP_VERSION_4,
enable_dhcp=True)
with self.port(
subnet=private_subnet1,
device_owner=DEVICE_OWNER_COMPUTE) as int_port1:
self.l3_plugin.add_router_interface(
self.context, router['id'],
{'subnet_id': private_subnet1['subnet']['id']})
router_handle = (
self.l3_plugin.list_active_sync_routers_on_active_l3_agent(
self.context, self.l3_agent['host'], [router['id']]))
self.assertEqual(self.l3_agent['host'],
router_handle[0]['gw_port_host'])
with mock.patch.object(self.l3_plugin,
'_l3_rpc_notifier') as l3_notifier:
vm_port = self.core_plugin.update_port(
self.context, int_port1['port']['id'],
{'port': {portbindings.HOST_ID: HOST1}})
self.assertEqual(
1, l3_notifier.routers_updated_on_host.call_count)
# Next we can try to associate the floatingip to the
# VM port
floating_ip = {'floating_network_id': ext_net['network']['id'],
'router_id': router['id'],
'port_id': vm_port['id'],
'tenant_id': vm_port['tenant_id']}
floating_ip = self.l3_plugin.create_floatingip(
self.context, {'floatingip': floating_ip})
expected_routers_updated_calls = [
mock.call(self.context, mock.ANY, HOST1),
mock.call(self.context, mock.ANY, 'host0')]
l3_notifier.routers_updated_on_host.assert_has_calls(
expected_routers_updated_calls)
self.assertFalse(l3_notifier.routers_updated.called)
router_info = (
self.l3_plugin.list_active_sync_routers_on_active_l3_agent(
self.context, self.l3_agent['host'], [router['id']]))
floatingips = router_info[0][constants.FLOATINGIP_KEY]
self.assertTrue(floatingips[0][constants.DVR_SNAT_BOUND])
# Test case to make sure when an agent in this case
# dvr_no_external restarts and does a full sync, we need
# to make sure that the returned router_info has
# DVR_SNAT_BOUND flag enabled, otherwise the floating IP
# state would error out.
router_sync_info = (
self.l3_plugin.list_active_sync_routers_on_active_l3_agent(
self.context, HOST1, [router['id']]))
floatingips = router_sync_info[0][constants.FLOATINGIP_KEY]
self.assertTrue(floatingips[0][constants.DVR_SNAT_BOUND])
def test_allowed_addr_pairs_delayed_fip_and_update_arp_entry(self):
HOST1 = 'host1'
helpers.register_l3_agent(
host=HOST1, agent_mode=constants.L3_AGENT_MODE_DVR)
HOST2 = 'host2'
helpers.register_l3_agent(
host=HOST2, agent_mode=constants.L3_AGENT_MODE_DVR)
router = self._create_router(ha=False)
private_net1 = self._make_network(self.fmt, 'net1', True)
test_allocation_pools = [{'start': '10.1.0.2',
'end': '10.1.0.20'}]
fixed_vrrp_ip = [{'ip_address': '10.1.0.201'}]
kwargs = {'arg_list': (extnet_apidef.EXTERNAL,),
extnet_apidef.EXTERNAL: True}
ext_net = self._make_network(self.fmt, '', True, **kwargs)
self._make_subnet(
self.fmt, ext_net, '10.20.0.1', '10.20.0.0/24',
ip_version=constants.IP_VERSION_4, enable_dhcp=True)
self.l3_plugin.schedule_router(self.context,
router['id'],
candidates=[self.l3_agent])
# Set gateway to router
self.l3_plugin._update_router_gw_info(
self.context, router['id'],
{'network_id': ext_net['network']['id']})
private_subnet1 = self._make_subnet(
self.fmt,
private_net1,
'10.1.0.1',
cidr='10.1.0.0/24',
ip_version=constants.IP_VERSION_4,
allocation_pools=test_allocation_pools,
enable_dhcp=True)
vrrp_port = self._make_port(
self.fmt,
private_net1['network']['id'],
fixed_ips=fixed_vrrp_ip)
allowed_address_pairs = [
{'ip_address': '10.1.0.201',
'mac_address': vrrp_port['port']['mac_address']}]
with self.port(
subnet=private_subnet1,
device_owner=DEVICE_OWNER_COMPUTE) as int_port,\
self.port(subnet=private_subnet1,
device_owner=DEVICE_OWNER_COMPUTE) as int_port2:
self.l3_plugin.add_router_interface(
self.context, router['id'],
{'subnet_id': private_subnet1['subnet']['id']})
router_handle = (
self.l3_plugin.list_active_sync_routers_on_active_l3_agent(
self.context, self.l3_agent['host'], [router['id']]))
self.assertEqual(self.l3_agent['host'],
router_handle[0]['gw_port_host'])
with mock.patch.object(self.l3_plugin,
'_l3_rpc_notifier') as l3_notifier:
vm_port = self.core_plugin.update_port(
self.context, int_port['port']['id'],
{'port': {portbindings.HOST_ID: HOST1}})
vm_port_mac = vm_port['mac_address']
vm_port_fixed_ips = vm_port['fixed_ips']
vm_port_subnet_id = vm_port_fixed_ips[0]['subnet_id']
vm_arp_table = {
'ip_address': vm_port_fixed_ips[0]['ip_address'],
'mac_address': vm_port_mac,
'subnet_id': vm_port_subnet_id}
vm_port2 = self.core_plugin.update_port(
self.context, int_port2['port']['id'],
{'port': {portbindings.HOST_ID: HOST2}})
# Now update the VM port with the allowed_address_pair
self.core_plugin.update_port(
self.context, vm_port['id'],
{'port': {
'allowed_address_pairs': allowed_address_pairs}})
self.core_plugin.update_port(
self.context, vm_port2['id'],
{'port': {
'allowed_address_pairs': allowed_address_pairs}})
self.assertEqual(
2, l3_notifier.routers_updated_on_host.call_count)
updated_vm_port1 = self.core_plugin.get_port(
self.context, vm_port['id'])
updated_vm_port2 = self.core_plugin.get_port(
self.context, vm_port2['id'])
expected_allowed_address_pairs = updated_vm_port1.get(
'allowed_address_pairs')
self.assertEqual(expected_allowed_address_pairs,
allowed_address_pairs)
expected_allowed_address_pairs_2 = updated_vm_port2.get(
'allowed_address_pairs')
self.assertEqual(expected_allowed_address_pairs_2,
allowed_address_pairs)
# Now the VRRP port is attached to the VM port. At this
# point, the VRRP port should not have inherited the
# port host bindings from the parent VM port.
cur_vrrp_port_db = self.core_plugin.get_port(
self.context, vrrp_port['port']['id'])
self.assertNotEqual(
cur_vrrp_port_db[portbindings.HOST_ID], HOST1)
self.assertNotEqual(
cur_vrrp_port_db[portbindings.HOST_ID], HOST2)
# Next we can try to associate the floatingip to the
# VRRP port that is already attached to the VM port
floating_ip = {'floating_network_id': ext_net['network']['id'],
'router_id': router['id'],
'port_id': vrrp_port['port']['id'],
'tenant_id': vrrp_port['port']['tenant_id']}
floating_ip = self.l3_plugin.create_floatingip(
self.context, {'floatingip': floating_ip})
post_update_vrrp_port_db = self.core_plugin.get_port(
self.context, vrrp_port['port']['id'])
vrrp_port_fixed_ips = post_update_vrrp_port_db['fixed_ips']
vrrp_port_subnet_id = vrrp_port_fixed_ips[0]['subnet_id']
vrrp_arp_table1 = {
'ip_address': vrrp_port_fixed_ips[0]['ip_address'],
'mac_address': vm_port_mac,
'subnet_id': vrrp_port_subnet_id}
expected_calls = [
mock.call(self.context,
router['id'], vm_arp_table),
mock.call(self.context,
router['id'], vrrp_arp_table1)]
l3_notifier.add_arp_entry.assert_has_calls(
expected_calls)
expected_routers_updated_calls = [
mock.call(self.context, mock.ANY, HOST1),
mock.call(self.context, mock.ANY, HOST2),
mock.call(self.context, mock.ANY, 'host0')]
l3_notifier.routers_updated_on_host.assert_has_calls(
expected_routers_updated_calls, any_order=True)
self.assertFalse(l3_notifier.routers_updated.called)
router_info = (
self.l3_plugin.list_active_sync_routers_on_active_l3_agent(
self.context, self.l3_agent['host'], [router['id']]))
floatingips = router_info[0][constants.FLOATINGIP_KEY]
self.assertTrue(floatingips[0][constants.DVR_SNAT_BOUND])
def test_dvr_gateway_host_binding_is_set(self):
router = self._create_router(ha=False)
private_net1 = self._make_network(self.fmt, 'net1', True)
kwargs = {'arg_list': (extnet_apidef.EXTERNAL,),
extnet_apidef.EXTERNAL: True}
ext_net = self._make_network(self.fmt, '', True, **kwargs)
self._make_subnet(
self.fmt, ext_net, '10.20.0.1', '10.20.0.0/24',
ip_version=constants.IP_VERSION_4, enable_dhcp=True)
self.l3_plugin.schedule_router(self.context,
router['id'],
candidates=[self.l3_agent])
# Set gateway to router
self.l3_plugin._update_router_gw_info(
self.context, router['id'],
{'network_id': ext_net['network']['id']})
private_subnet1 = self._make_subnet(
self.fmt,
private_net1,
'10.1.0.1',
cidr='10.1.0.0/24',
ip_version=constants.IP_VERSION_4,
enable_dhcp=True)
self.l3_plugin.add_router_interface(
self.context, router['id'],
{'subnet_id': private_subnet1['subnet']['id']})
# Check for the gw_port_host in the router dict to make
# sure that the _build_routers_list in l3_dvr_db is called.
router_handle = (
self.l3_plugin.list_active_sync_routers_on_active_l3_agent(
self.context, self.l3_agent['host'], [router['id']]))
self.assertEqual(self.l3_agent['host'],
router_handle[0]['gw_port_host'])
def test_allowed_address_pairs_update_arp_entry(self):
HOST1 = 'host1'
helpers.register_l3_agent(
host=HOST1, agent_mode=constants.L3_AGENT_MODE_DVR)
router = self._create_router(ha=False)
private_net1 = self._make_network(self.fmt, 'net1', True)
test_allocation_pools = [{'start': '10.1.0.2',
'end': '10.1.0.20'}]
fixed_vrrp_ip = [{'ip_address': '10.1.0.201'}]
kwargs = {'arg_list': (extnet_apidef.EXTERNAL,),
extnet_apidef.EXTERNAL: True}
ext_net = self._make_network(self.fmt, '', True, **kwargs)
self._make_subnet(
self.fmt, ext_net, '10.20.0.1', '10.20.0.0/24',
ip_version=constants.IP_VERSION_4, enable_dhcp=True)
self.l3_plugin.schedule_router(self.context,
router['id'],
candidates=[self.l3_agent])
# Set gateway to router
self.l3_plugin._update_router_gw_info(
self.context, router['id'],
{'network_id': ext_net['network']['id']})
private_subnet1 = self._make_subnet(
self.fmt,
private_net1,
'10.1.0.1',
cidr='10.1.0.0/24',
ip_version=constants.IP_VERSION_4,
allocation_pools=test_allocation_pools,
enable_dhcp=True)
vrrp_port = self._make_port(
self.fmt,
private_net1['network']['id'],
fixed_ips=fixed_vrrp_ip)
allowed_address_pairs = [
{'ip_address': '10.1.0.201',
'mac_address': vrrp_port['port']['mac_address']}]
with self.port(
subnet=private_subnet1,
device_owner=DEVICE_OWNER_COMPUTE) as int_port:
self.l3_plugin.add_router_interface(
self.context, router['id'],
{'subnet_id': private_subnet1['subnet']['id']})
router_handle = (
self.l3_plugin.list_active_sync_routers_on_active_l3_agent(
self.context, self.l3_agent['host'], [router['id']]))
self.assertEqual(self.l3_agent['host'],
router_handle[0]['gw_port_host'])
with mock.patch.object(self.l3_plugin,
'_l3_rpc_notifier') as l3_notifier:
vm_port = self.core_plugin.update_port(
self.context, int_port['port']['id'],
{'port': {portbindings.HOST_ID: HOST1}})
vm_port_mac = vm_port['mac_address']
vm_port_fixed_ips = vm_port['fixed_ips']
vm_port_subnet_id = vm_port_fixed_ips[0]['subnet_id']
vm_arp_table = {
'ip_address': vm_port_fixed_ips[0]['ip_address'],
'mac_address': vm_port_mac,
'subnet_id': vm_port_subnet_id}
self.assertEqual(1, l3_notifier.add_arp_entry.call_count)
floating_ip = {'floating_network_id': ext_net['network']['id'],
'router_id': router['id'],
'port_id': vrrp_port['port']['id'],
'tenant_id': vrrp_port['port']['tenant_id']}
floating_ip = self.l3_plugin.create_floatingip(
self.context, {'floatingip': floating_ip})
vrrp_port_db = self.core_plugin.get_port(
self.context, vrrp_port['port']['id'])
self.assertNotEqual(vrrp_port_db[portbindings.HOST_ID], HOST1)
# Now update the VM port with the allowed_address_pair
self.core_plugin.update_port(
self.context, vm_port['id'],
{'port': {
'allowed_address_pairs': allowed_address_pairs}})
updated_vm_port = self.core_plugin.get_port(
self.context, vm_port['id'])
expected_allowed_address_pairs = updated_vm_port.get(
'allowed_address_pairs')
self.assertEqual(expected_allowed_address_pairs,
allowed_address_pairs)
cur_vrrp_port_db = self.core_plugin.get_port(
self.context, vrrp_port['port']['id'])
vrrp_port_fixed_ips = cur_vrrp_port_db['fixed_ips']
vrrp_port_subnet_id = vrrp_port_fixed_ips[0]['subnet_id']
vrrp_arp_table1 = {
'ip_address': vrrp_port_fixed_ips[0]['ip_address'],
'mac_address': vm_port_mac,
'subnet_id': vrrp_port_subnet_id}
expected_calls = [
mock.call(self.context,
router['id'], vm_arp_table),
mock.call(self.context,
router['id'], vrrp_arp_table1)]
l3_notifier.add_arp_entry.assert_has_calls(
expected_calls)
expected_routers_updated_calls = [
mock.call(self.context, mock.ANY, HOST1),
mock.call(self.context, mock.ANY, 'host0')]
l3_notifier.routers_updated_on_host.assert_has_calls(
expected_routers_updated_calls)
self.assertFalse(l3_notifier.routers_updated.called)
def test_update_vm_port_host_router_update(self):
# register l3 agents in dvr mode in addition to existing dvr_snat agent
HOST1 = 'host1'
helpers.register_l3_agent(
host=HOST1, agent_mode=constants.L3_AGENT_MODE_DVR)
HOST2 = 'host2'
helpers.register_l3_agent(
host=HOST2, agent_mode=constants.L3_AGENT_MODE_DVR)
router = self._create_router()
with self.subnet() as subnet:
self.l3_plugin.add_router_interface(
self.context, router['id'],
{'subnet_id': subnet['subnet']['id']})
with mock.patch.object(self.l3_plugin,
'_l3_rpc_notifier') as l3_notifier,\
self.port(subnet=subnet,
device_owner=DEVICE_OWNER_COMPUTE) as port:
self.l3_plugin.agent_notifiers[
constants.AGENT_TYPE_L3] = l3_notifier
self.core_plugin.update_port(
self.context, port['port']['id'],
{'port': {portbindings.HOST_ID: HOST1}})
l3_notifier.routers_updated_on_host.assert_called_once_with(
self.context, {router['id']}, HOST1)
self.assertFalse(l3_notifier.routers_updated.called)
# updating port's host (instance migration)
l3_notifier.reset_mock()
self.core_plugin.update_port(
self.context, port['port']['id'],
{'port': {portbindings.HOST_ID: HOST2}})
l3_notifier.routers_updated_on_host.assert_called_once_with(
self.context, {router['id']}, HOST2)
l3_notifier.router_removed_from_agent.assert_called_once_with(
mock.ANY, router['id'], HOST1)
def test_dvr_router_manual_rescheduling_removes_router(self):
router = self._create_router()
kwargs = {'arg_list': (extnet_apidef.EXTERNAL,),
extnet_apidef.EXTERNAL: True}
with self.network(**kwargs) as ext_net,\
self.subnet(network=ext_net),\
self.subnet(cidr='20.0.0.0/24') as subnet,\
self.port(subnet=subnet):
self.l3_plugin._update_router_gw_info(
self.context, router['id'],
{'network_id': ext_net['network']['id']})
self.l3_plugin.add_router_interface(
self.context, router['id'],
{'subnet_id': subnet['subnet']['id']})
self.l3_plugin.schedule_router(self.context,
router['id'],
candidates=[self.l3_agent])
# Now the VM should be also scheduled on the node
notifier = self.l3_plugin.agent_notifiers[
constants.AGENT_TYPE_L3]
with mock.patch.object(
notifier, 'router_removed_from_agent') as rtr_remove_mock:
self.l3_plugin.remove_router_from_l3_agent(
self.context, self.l3_agent['id'], router['id'])
rtr_remove_mock.assert_called_once_with(
self.context, router['id'], self.l3_agent['host'])
def test_dvr_router_manual_rescheduling_updates_router(self):
router = self._create_router()
kwargs = {'arg_list': (extnet_apidef.EXTERNAL,),
extnet_apidef.EXTERNAL: True}
with self.network(**kwargs) as ext_net,\
self.subnet(network=ext_net),\
self.subnet(cidr='20.0.0.0/24') as subnet,\
self.port(subnet=subnet,
device_owner=DEVICE_OWNER_COMPUTE) as port:
self.core_plugin.update_port(
self.context, port['port']['id'],
{'port': {'binding:host_id': self.l3_agent['host']}})
self.l3_plugin._update_router_gw_info(
self.context, router['id'],
{'network_id': ext_net['network']['id']})
self.l3_plugin.add_router_interface(
self.context, router['id'],
{'subnet_id': subnet['subnet']['id']})
self.l3_plugin.schedule_router(self.context,
router['id'],
candidates=[self.l3_agent])
# Now the VM should be also scheduled on the node
notifier = self.l3_plugin.agent_notifiers[
constants.AGENT_TYPE_L3]
with mock.patch.object(
notifier, 'routers_updated_on_host') as rtr_update_mock:
self.l3_plugin.remove_router_from_l3_agent(
self.context, self.l3_agent['id'], router['id'])
rtr_update_mock.assert_called_once_with(
self.context, [router['id']], self.l3_agent['host'])
def _test_router_remove_from_agent_on_vm_port_deletion(
self, non_admin_port=False):
# register l3 agent in dvr mode in addition to existing dvr_snat agent
HOST = 'host1'
non_admin_tenant = 'tenant1'
helpers.register_l3_agent(
host=HOST, agent_mode=constants.L3_AGENT_MODE_DVR)
router = self._create_router()
with self.network(shared=True) as net,\
self.subnet(network=net) as subnet,\
self.port(subnet=subnet,
device_owner=DEVICE_OWNER_COMPUTE,
tenant_id=non_admin_tenant,
set_context=non_admin_port) as port:
self.core_plugin.update_port(
self.context, port['port']['id'],
{'port': {portbindings.HOST_ID: HOST}})
self.l3_plugin.add_router_interface(
self.context, router['id'],
{'subnet_id': subnet['subnet']['id']})
with mock.patch.object(self.l3_plugin.l3_rpc_notifier,
'router_removed_from_agent') as remove_mock:
ctx = context.Context(
'', non_admin_tenant) if non_admin_port else self.context
self._delete('ports', port['port']['id'], neutron_context=ctx)
remove_mock.assert_called_once_with(
mock.ANY, router['id'], HOST)
def test_router_remove_from_agent_on_vm_port_deletion(self):
self._test_router_remove_from_agent_on_vm_port_deletion()
def test_admin_router_remove_from_agent_on_vm_port_deletion(self):
self._test_router_remove_from_agent_on_vm_port_deletion(
non_admin_port=True)
def test_dvr_router_notifications_for_live_migration_with_fip(self):
self._dvr_router_notifications_for_live_migration(
with_floatingip=True)
def test_dvr_router_notifications_for_live_migration_without_fip(self):
self._dvr_router_notifications_for_live_migration()
def _dvr_router_notifications_for_live_migration(
self, with_floatingip=False):
"""Check the router notifications go to the right hosts
with live migration without hostbinding on the port.
"""
# register l3 agents in dvr mode in addition to existing dvr_snat agent
HOST1, HOST2 = 'host1', 'host2'
for host in [HOST1, HOST2]:
helpers.register_l3_agent(
host=host, agent_mode=constants.L3_AGENT_MODE_DVR)
router = self._create_router()
arg_list = (portbindings.HOST_ID,)
with self.subnet() as ext_subnet,\
self.subnet(cidr='20.0.0.0/24') as subnet1,\
self.port(subnet=subnet1,
device_owner=DEVICE_OWNER_COMPUTE,
arg_list=arg_list,
**{portbindings.HOST_ID: HOST1}) as vm_port:
# make net external
ext_net_id = ext_subnet['subnet']['network_id']
self._update('networks', ext_net_id,
{'network': {extnet_apidef.EXTERNAL: True}})
# add external gateway to router
self.l3_plugin.update_router(
self.context, router['id'],
{'router': {
'external_gateway_info': {'network_id': ext_net_id}}})
self.l3_plugin.add_router_interface(
self.context, router['id'],
{'subnet_id': subnet1['subnet']['id']})
if with_floatingip:
floating_ip = {'floating_network_id': ext_net_id,
'router_id': router['id'],
'port_id': vm_port['port']['id'],
'tenant_id': vm_port['port']['tenant_id'],
'dns_name': '', 'dns_domain': ''}
floating_ip = self.l3_plugin.create_floatingip(
self.context, {'floatingip': floating_ip})
with mock.patch.object(self.l3_plugin,
'_l3_rpc_notifier') as l3_notifier,\
mock.patch.object(
self.l3_plugin,
'create_fip_agent_gw_port_if_not_exists'
) as fip_agent:
live_migration_port_profile = {
'migrating_to': HOST2
}
# Update the VM Port with Migration porbinding Profile.
# With this change, it should trigger a notification to
# the Destination host to create a Router ahead of time
# before the VM Port binding has changed to HOST2.
updated_port = self.core_plugin.update_port(
self.context, vm_port['port']['id'],
{'port': {
portbindings.PROFILE: live_migration_port_profile}})
# this will be called twice, once for port update, and once
# for new binding
l3_notifier.routers_updated_on_host.assert_any_call(
self.context, {router['id']}, HOST2)
# Check the port-binding is still with the old HOST1, but
# the router update notification has been sent to the new
# host 'HOST2' based on the live migration profile change.
self.assertEqual(updated_port[portbindings.HOST_ID], HOST1)
self.assertNotEqual(updated_port[portbindings.HOST_ID], HOST2)
if with_floatingip:
fip_agent.return_value = True
# Since we have already created the floatingip for the
# port, it should be creating the floatingip agent gw
# port for the new host if it does not exist.
fip_agent.assert_any_call(
mock.ANY, floating_ip['floating_network_id'], HOST2)
def test_router_notifications(self):
"""Check that notifications go to the right hosts in different
conditions
"""
# register l3 agents in dvr mode in addition to existing dvr_snat agent
HOST1, HOST2, HOST3 = 'host1', 'host2', 'host3'
for host in [HOST1, HOST2, HOST3]:
helpers.register_l3_agent(
host=host, agent_mode=constants.L3_AGENT_MODE_DVR)
router = self._create_router()
arg_list = (portbindings.HOST_ID,)
with self.subnet() as ext_subnet,\
self.subnet(cidr='20.0.0.0/24') as subnet1,\
self.subnet(cidr='30.0.0.0/24') as subnet2,\
self.subnet(cidr='40.0.0.0/24') as subnet3,\
self.port(subnet=subnet1,
device_owner=DEVICE_OWNER_COMPUTE,
arg_list=arg_list,
**{portbindings.HOST_ID: HOST1}),\
self.port(subnet=subnet2,
device_owner=constants.DEVICE_OWNER_DHCP,
arg_list=arg_list,
**{portbindings.HOST_ID: HOST2}),\
self.port(subnet=subnet3,
device_owner=constants.DEVICE_OWNER_NEUTRON_PREFIX,
arg_list=arg_list,
**{portbindings.HOST_ID: HOST3}):
# make net external
ext_net_id = ext_subnet['subnet']['network_id']
self._update('networks', ext_net_id,
{'network': {extnet_apidef.EXTERNAL: True}})
with mock.patch.object(self.l3_plugin.l3_rpc_notifier.client,
'prepare') as mock_prepare:
# add external gateway to router
self.l3_plugin.update_router(
self.context, router['id'],
{'router': {
'external_gateway_info': {'network_id': ext_net_id}}})
# router has no interfaces so notification goes
# to only dvr_snat agent
mock_prepare.assert_called_once_with(
server=self.l3_agent['host'],
topic=topics.L3_AGENT,
version='1.1')
mock_prepare.reset_mock()
self.l3_plugin.add_router_interface(
self.context, router['id'],
{'subnet_id': subnet1['subnet']['id']})
self.assertEqual(2, mock_prepare.call_count)
expected = [mock.call(server=self.l3_agent['host'],
topic=topics.L3_AGENT,
version='1.1'),
mock.call(server=HOST1,
topic=topics.L3_AGENT,
version='1.1')]
mock_prepare.assert_has_calls(expected, any_order=True)
mock_prepare.reset_mock()
self.l3_plugin.add_router_interface(
self.context, router['id'],
{'subnet_id': subnet2['subnet']['id']})
self.assertEqual(3, mock_prepare.call_count)
expected = [mock.call(server=self.l3_agent['host'],
topic=topics.L3_AGENT,
version='1.1'),
mock.call(server=HOST1,
topic=topics.L3_AGENT,
version='1.1'),
mock.call(server=HOST2,
topic=topics.L3_AGENT,
version='1.1')]
mock_prepare.assert_has_calls(expected, any_order=True)
mock_prepare.reset_mock()
self.l3_plugin.add_router_interface(
self.context, router['id'],
{'subnet_id': subnet3['subnet']['id']})
# there are no dvr serviceable ports on HOST3, so notification
# goes to the same hosts
self.assertEqual(3, mock_prepare.call_count)
expected = [mock.call(server=self.l3_agent['host'],
topic=topics.L3_AGENT,
version='1.1'),
mock.call(server=HOST1,
topic=topics.L3_AGENT,
version='1.1'),
mock.call(server=HOST2,
topic=topics.L3_AGENT,
version='1.1')]
mock_prepare.assert_has_calls(expected, any_order=True)
def test_router_is_not_removed_from_snat_agent_on_interface_removal(self):
"""Check that dvr router is not removed from l3 agent hosting
SNAT for it on router interface removal
"""
router = self._create_router()
kwargs = {'arg_list': (extnet_apidef.EXTERNAL,),
extnet_apidef.EXTERNAL: True}
with self.subnet() as subnet,\
self.network(**kwargs) as ext_net,\
self.subnet(network=ext_net, cidr='20.0.0.0/24'):
self.l3_plugin._update_router_gw_info(
self.context, router['id'],
{'network_id': ext_net['network']['id']})
self.l3_plugin.add_router_interface(
self.context, router['id'],
{'subnet_id': subnet['subnet']['id']})
agents = self.l3_plugin.list_l3_agents_hosting_router(
self.context, router['id'])
self.assertEqual(1, len(agents['agents']))
with mock.patch.object(self.l3_plugin,
'_l3_rpc_notifier') as l3_notifier:
self.l3_plugin.remove_router_interface(
self.context, router['id'],
{'subnet_id': subnet['subnet']['id']})
agents = self.l3_plugin.list_l3_agents_hosting_router(
self.context, router['id'])
self.assertEqual(1, len(agents['agents']))
self.assertFalse(l3_notifier.router_removed_from_agent.called)
def test_router_is_not_removed_from_snat_agent_on_dhcp_port_deletion(self):
"""Check that dvr router is not removed from l3 agent hosting
SNAT for it on DHCP port removal
"""
router = self._create_router()
kwargs = {'arg_list': (extnet_apidef.EXTERNAL,),
extnet_apidef.EXTERNAL: True}
with self.network(**kwargs) as ext_net,\
self.subnet(network=ext_net),\
self.subnet(cidr='20.0.0.0/24') as subnet,\
self.port(subnet=subnet,
device_owner=constants.DEVICE_OWNER_DHCP) as port:
self.core_plugin.update_port(
self.context, port['port']['id'],
{'port': {'binding:host_id': self.l3_agent['host']}})
self.l3_plugin._update_router_gw_info(
self.context, router['id'],
{'network_id': ext_net['network']['id']})
self.l3_plugin.add_router_interface(
self.context, router['id'],
{'subnet_id': subnet['subnet']['id']})
# router should be scheduled to the dvr_snat l3 agent
agents = self.l3_plugin.list_l3_agents_hosting_router(
self.context, router['id'])
self.assertEqual(1, len(agents['agents']))
self.assertEqual(self.l3_agent['id'], agents['agents'][0]['id'])
notifier = self.l3_plugin.agent_notifiers[
constants.AGENT_TYPE_L3]
with mock.patch.object(
notifier, 'router_removed_from_agent') as remove_mock:
self._delete('ports', port['port']['id'])
# now when port is deleted the router still has external
# gateway and should still be scheduled to the snat agent
agents = self.l3_plugin.list_l3_agents_hosting_router(
self.context, router['id'])
self.assertEqual(1, len(agents['agents']))
self.assertEqual(self.l3_agent['id'],
agents['agents'][0]['id'])
self.assertFalse(remove_mock.called)
def test__get_dvr_subnet_ids_on_host_query(self):
with self.subnet(cidr='20.0.0.0/24') as subnet1,\
self.subnet(cidr='30.0.0.0/24') as subnet2,\
self.subnet(cidr='40.0.0.0/24') as subnet3,\
self.port(subnet=subnet1,
device_owner=DEVICE_OWNER_COMPUTE) as p1,\
self.port(subnet=subnet2,
device_owner=constants.DEVICE_OWNER_DHCP) as p2,\
self.port(subnet=subnet3,
device_owner=constants.DEVICE_OWNER_NEUTRON_PREFIX)\
as p3,\
self.port(subnet=subnet3,
device_owner=constants.DEVICE_OWNER_COMPUTE_PREFIX)\
as p4:
host = 'host1'
subnet_ids = [item[0] for item in
self.l3_plugin._get_dvr_subnet_ids_on_host_query(
self.context, host)]
self.assertEqual([], subnet_ids)
self.core_plugin.update_port(
self.context, p1['port']['id'],
{'port': {portbindings.HOST_ID: host}})
expected = {subnet1['subnet']['id']}
subnet_ids = [item[0] for item in
self.l3_plugin._get_dvr_subnet_ids_on_host_query(
self.context, host)]
self.assertEqual(expected, set(subnet_ids))
self.core_plugin.update_port(
self.context, p2['port']['id'],
{'port': {portbindings.HOST_ID: host}})
expected.add(subnet2['subnet']['id'])
subnet_ids = [item[0] for item in
self.l3_plugin._get_dvr_subnet_ids_on_host_query(
self.context, host)]
self.assertEqual(expected, set(subnet_ids))
self.core_plugin.update_port(
self.context, p3['port']['id'],
{'port': {portbindings.HOST_ID: host}})
# p3 is non dvr serviceable so no subnet3 expected
subnet_ids = [item[0] for item in
self.l3_plugin._get_dvr_subnet_ids_on_host_query(
self.context, host)]
self.assertEqual(expected, set(subnet_ids))
other_host = 'other' + host
self.core_plugin.update_port(
self.context, p4['port']['id'],
{'port': {portbindings.HOST_ID: other_host}})
# p4 is on other host so no subnet3 expected
subnet_ids = [item[0] for item in
self.l3_plugin._get_dvr_subnet_ids_on_host_query(
self.context, host)]
self.assertEqual(expected, set(subnet_ids))
self.core_plugin.update_port(
self.context, p4['port']['id'],
{'port': {portbindings.HOST_ID: host}})
# finally p4 is on the right host so subnet3 is expected
expected.add(subnet3['subnet']['id'])
subnet_ids = [item[0] for item in
self.l3_plugin._get_dvr_subnet_ids_on_host_query(
self.context, host)]
self.assertEqual(expected, set(subnet_ids))
def test__get_dvr_router_ids_for_host(self):
router1 = self._create_router()
router2 = self._create_router()
host = 'host1'
arg_list = (portbindings.HOST_ID,)
with self.subnet(cidr='20.0.0.0/24') as subnet1,\
self.subnet(cidr='30.0.0.0/24') as subnet2,\
self.port(subnet=subnet1,
device_owner=DEVICE_OWNER_COMPUTE,
arg_list=arg_list,
**{portbindings.HOST_ID: host}),\
self.port(subnet=subnet2,
device_owner=constants.DEVICE_OWNER_DHCP,
arg_list=arg_list,
**{portbindings.HOST_ID: host}):
router_ids = self.l3_plugin._get_dvr_router_ids_for_host(
self.context, host)
self.assertEqual([], router_ids)
self.l3_plugin.add_router_interface(
self.context, router1['id'],
{'subnet_id': subnet1['subnet']['id']})
router_ids = self.l3_plugin._get_dvr_router_ids_for_host(
self.context, host)
expected = {router1['id']}
self.assertEqual(expected, set(router_ids))
self.l3_plugin.add_router_interface(
self.context, router2['id'],
{'subnet_id': subnet2['subnet']['id']})
router_ids = self.l3_plugin._get_dvr_router_ids_for_host(
self.context, host)
expected.add(router2['id'])
self.assertEqual(expected, set(router_ids))
def test__get_router_ids_for_agent(self):
router1 = self._create_router()
router2 = self._create_router()
router3 = self._create_router()
arg_list = (portbindings.HOST_ID,)
host = self.l3_agent['host']
with self.subnet() as ext_subnet,\
self.subnet(cidr='20.0.0.0/24') as subnet1,\
self.subnet(cidr='30.0.0.0/24') as subnet2,\
self.port(subnet=subnet1,
device_owner=DEVICE_OWNER_COMPUTE,
arg_list=arg_list,
**{portbindings.HOST_ID: host}),\
self.port(subnet=subnet2,
device_owner=constants.DEVICE_OWNER_DHCP,
arg_list=arg_list,
**{portbindings.HOST_ID: host}):
ids = self.l3_plugin._get_router_ids_for_agent(
self.context, self.l3_agent, [])
self.assertEqual([], ids)
ids = self.l3_plugin._get_router_ids_for_agent(
self.context, self.l3_agent, [router1['id'], router2['id']])
self.assertEqual([], ids)
self.l3_plugin.add_router_interface(
self.context, router1['id'],
{'subnet_id': subnet1['subnet']['id']})
ids = self.l3_plugin._get_router_ids_for_agent(
self.context, self.l3_agent, [])
self.assertEqual([router1['id']], ids)
ids = self.l3_plugin._get_router_ids_for_agent(
self.context, self.l3_agent, [router1['id']])
self.assertEqual([router1['id']], ids)
ids = self.l3_plugin._get_router_ids_for_agent(
self.context, self.l3_agent, [router1['id'], router2['id']])
self.assertEqual([router1['id']], ids)
ids = self.l3_plugin._get_router_ids_for_agent(
self.context, self.l3_agent, [router2['id']])
self.assertEqual([], ids)
self.l3_plugin.add_router_interface(
self.context, router2['id'],
{'subnet_id': subnet2['subnet']['id']})
ids = self.l3_plugin._get_router_ids_for_agent(
self.context, self.l3_agent, [])
self.assertEqual({router1['id'], router2['id']}, set(ids))
ids = self.l3_plugin._get_router_ids_for_agent(
self.context, self.l3_agent, [router1['id']])
self.assertEqual([router1['id']], ids)
ids = self.l3_plugin._get_router_ids_for_agent(
self.context, self.l3_agent, [router1['id'], router2['id']])
self.assertEqual({router1['id'], router2['id']}, set(ids))
ids = self.l3_plugin._get_router_ids_for_agent(
self.context, self.l3_agent, [router2['id']])
self.assertEqual([router2['id']], ids)
# make net external
ext_net_id = ext_subnet['subnet']['network_id']
self._update('networks', ext_net_id,
{'network': {extnet_apidef.EXTERNAL: True}})
# add external gateway to router
self.l3_plugin.update_router(
self.context, router3['id'],
{'router': {
'external_gateway_info': {'network_id': ext_net_id}}})
ids = self.l3_plugin._get_router_ids_for_agent(
self.context, self.l3_agent, [])
self.assertEqual({router1['id'], router2['id'], router3['id']},
set(ids))
ids = self.l3_plugin._get_router_ids_for_agent(
self.context, self.l3_agent, [router3['id']])
self.assertEqual([router3['id']], ids)
ids = self.l3_plugin._get_router_ids_for_agent(
self.context, self.l3_agent, [router1['id'], router3['id']])
self.assertEqual({router1['id'], router3['id']}, set(ids))
def test_remove_router_interface(self):
HOST1 = 'host1'
helpers.register_l3_agent(
host=HOST1, agent_mode=constants.L3_AGENT_MODE_DVR)
router = self._create_router()
arg_list = (portbindings.HOST_ID,)
with self.subnet() as subnet,\
self.port(subnet=subnet,
device_owner=DEVICE_OWNER_COMPUTE,
arg_list=arg_list,
**{portbindings.HOST_ID: HOST1}):
l3_notifier = mock.Mock()
self.l3_plugin.l3_rpc_notifier = l3_notifier
self.l3_plugin.agent_notifiers[
constants.AGENT_TYPE_L3] = l3_notifier
self.l3_plugin.add_router_interface(
self.context, router['id'],
{'subnet_id': subnet['subnet']['id']})
self.l3_plugin.schedule_router(self.context, router['id'])
self.l3_plugin.remove_router_interface(
self.context, router['id'],
{'subnet_id': subnet['subnet']['id']})
l3_notifier.router_removed_from_agent.assert_called_once_with(
mock.ANY, router['id'], HOST1)
def test_router_auto_scheduling(self):
router = self._create_router()
agents = self.l3_plugin.list_l3_agents_hosting_router(
self.context, router['id'])
# router is not scheduled yet
self.assertEqual([], agents['agents'])
l3_rpc_handler = l3_rpc.L3RpcCallback()
# router should be auto scheduled once l3 agent requests router ids
l3_rpc_handler.get_router_ids(self.context, self.l3_agent['host'])
agents = self.l3_plugin.list_l3_agents_hosting_router(
self.context, router['id'])
self.assertEqual(1, len(agents['agents']))
self.assertEqual(self.l3_agent['id'], agents['agents'][0]['id'])
def test_add_router_interface_by_subnet_notifications(self):
notif_handler_before = mock.Mock()
notif_handler_after = mock.Mock()
registry.subscribe(notif_handler_before.callback,
resources.ROUTER_INTERFACE,
events.BEFORE_CREATE)
registry.subscribe(notif_handler_after.callback,
resources.ROUTER_INTERFACE,
events.AFTER_CREATE)
router = self._create_router()
with self.network() as net, \
self.subnet(network=net) as subnet:
interface_info = {'subnet_id': subnet['subnet']['id']}
self.l3_plugin.add_router_interface(
self.context, router['id'], interface_info)
kwargs = {'context': self.context, 'router_id': router['id'],
'network_id': net['network']['id'],
'router_db': mock.ANY,
'port': mock.ANY,
'interface_info': interface_info}
notif_handler_before.callback.assert_called_once_with(
resources.ROUTER_INTERFACE, events.BEFORE_CREATE,
mock.ANY, **kwargs)
kwargs_after = {'cidrs': mock.ANY,
'context': mock.ANY,
'gateway_ips': mock.ANY,
'interface_info': mock.ANY,
'network_id': None,
'port': mock.ANY,
'new_interface': True,
'subnets': mock.ANY,
'port_id': mock.ANY,
'router_id': router['id']}
notif_handler_after.callback.assert_called_once_with(
resources.ROUTER_INTERFACE, events.AFTER_CREATE,
mock.ANY, **kwargs_after)
def test_add_router_interface_by_port_notifications(self):
notif_handler_before = mock.Mock()
notif_handler_after = mock.Mock()
registry.subscribe(notif_handler_before.callback,
resources.ROUTER_INTERFACE,
events.BEFORE_CREATE)
registry.subscribe(notif_handler_after.callback,
resources.ROUTER_INTERFACE,
events.AFTER_CREATE)
router = self._create_router()
with self.network() as net, \
self.subnet(network=net) as subnet, \
self.port(subnet=subnet) as port:
interface_info = {'port_id': port['port']['id']}
self.l3_plugin.add_router_interface(
self.context, router['id'], interface_info)
kwargs = {'context': self.context, 'router_id': router['id'],
'network_id': net['network']['id'],
'router_db': mock.ANY,
'port': mock.ANY,
'interface_info': interface_info}
notif_handler_before.callback.assert_called_once_with(
resources.ROUTER_INTERFACE, events.BEFORE_CREATE,
mock.ANY, **kwargs)
kwargs_after = {'cidrs': mock.ANY,
'context': mock.ANY,
'gateway_ips': mock