neutron-fwaas/neutron/tests/unit/openvswitch/test_ovs_neutron_agent.py

794 lines
37 KiB
Python

# vim: tabstop=4 shiftwidth=4 softtabstop=4
# Copyright (c) 2012 OpenStack Foundation.
#
# Licensed under the Apache License, Version 2.0 (the "License"); you may
# not use this file except in compliance with the License. You may obtain
# a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS, WITHOUT
# WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the
# License for the specific language governing permissions and limitations
# under the License.
import contextlib
import sys
import mock
from oslo.config import cfg
import testtools
from neutron.agent.linux import ip_lib
from neutron.agent.linux import ovs_lib
from neutron.agent.linux import utils
from neutron.common import constants as n_const
from neutron.plugins.common import constants as p_const
from neutron.plugins.openvswitch.agent import ovs_neutron_agent
from neutron.plugins.openvswitch.common import constants
from neutron.tests import base
NOTIFIER = ('neutron.plugins.openvswitch.'
'ovs_neutron_plugin.AgentNotifierApi')
OVS_LINUX_KERN_VERS_WITHOUT_VXLAN = "3.12.0"
class CreateAgentConfigMap(base.BaseTestCase):
def test_create_agent_config_map_succeeds(self):
self.assertTrue(ovs_neutron_agent.create_agent_config_map(cfg.CONF))
def test_create_agent_config_map_fails_for_invalid_tunnel_config(self):
# An ip address is required for tunneling but there is no default,
# verify this for both gre and vxlan tunnels.
cfg.CONF.set_override('tunnel_types', [p_const.TYPE_GRE],
group='AGENT')
with testtools.ExpectedException(ValueError):
ovs_neutron_agent.create_agent_config_map(cfg.CONF)
cfg.CONF.set_override('tunnel_types', [p_const.TYPE_VXLAN],
group='AGENT')
with testtools.ExpectedException(ValueError):
ovs_neutron_agent.create_agent_config_map(cfg.CONF)
def test_create_agent_config_map_enable_tunneling(self):
# Verify setting only enable_tunneling will default tunnel_type to GRE
cfg.CONF.set_override('tunnel_types', None, group='AGENT')
cfg.CONF.set_override('enable_tunneling', True, group='OVS')
cfg.CONF.set_override('local_ip', '10.10.10.10', group='OVS')
cfgmap = ovs_neutron_agent.create_agent_config_map(cfg.CONF)
self.assertEqual(cfgmap['tunnel_types'], [p_const.TYPE_GRE])
def test_create_agent_config_map_fails_no_local_ip(self):
# An ip address is required for tunneling but there is no default
cfg.CONF.set_override('enable_tunneling', True, group='OVS')
with testtools.ExpectedException(ValueError):
ovs_neutron_agent.create_agent_config_map(cfg.CONF)
def test_create_agent_config_map_fails_for_invalid_tunnel_type(self):
cfg.CONF.set_override('tunnel_types', ['foobar'], group='AGENT')
with testtools.ExpectedException(ValueError):
ovs_neutron_agent.create_agent_config_map(cfg.CONF)
def test_create_agent_config_map_multiple_tunnel_types(self):
cfg.CONF.set_override('local_ip', '10.10.10.10', group='OVS')
cfg.CONF.set_override('tunnel_types', [p_const.TYPE_GRE,
p_const.TYPE_VXLAN], group='AGENT')
cfgmap = ovs_neutron_agent.create_agent_config_map(cfg.CONF)
self.assertEqual(cfgmap['tunnel_types'],
[p_const.TYPE_GRE, p_const.TYPE_VXLAN])
class TestOvsNeutronAgent(base.BaseTestCase):
def setUp(self):
super(TestOvsNeutronAgent, self).setUp()
notifier_p = mock.patch(NOTIFIER)
notifier_cls = notifier_p.start()
self.notifier = mock.Mock()
notifier_cls.return_value = self.notifier
cfg.CONF.set_default('firewall_driver',
'neutron.agent.firewall.NoopFirewallDriver',
group='SECURITYGROUP')
# Avoid rpc initialization for unit tests
cfg.CONF.set_override('rpc_backend',
'neutron.openstack.common.rpc.impl_fake')
kwargs = ovs_neutron_agent.create_agent_config_map(cfg.CONF)
class MockFixedIntervalLoopingCall(object):
def __init__(self, f):
self.f = f
def start(self, interval=0):
self.f()
with contextlib.nested(
mock.patch('neutron.plugins.openvswitch.agent.ovs_neutron_agent.'
'OVSNeutronAgent.setup_integration_br',
return_value=mock.Mock()),
mock.patch('neutron.plugins.openvswitch.agent.ovs_neutron_agent.'
'OVSNeutronAgent.setup_ancillary_bridges',
return_value=[]),
mock.patch('neutron.agent.linux.ovs_lib.OVSBridge.'
'get_local_port_mac',
return_value='00:00:00:00:00:01'),
mock.patch('neutron.agent.linux.utils.get_interface_mac',
return_value='00:00:00:00:00:01'),
mock.patch('neutron.openstack.common.loopingcall.'
'FixedIntervalLoopingCall',
new=MockFixedIntervalLoopingCall)):
self.agent = ovs_neutron_agent.OVSNeutronAgent(**kwargs)
self.agent.tun_br = mock.Mock()
self.agent.sg_agent = mock.Mock()
def _mock_port_bound(self, ofport=None, new_local_vlan=None,
old_local_vlan=None):
port = mock.Mock()
port.ofport = ofport
net_uuid = 'my-net-uuid'
if old_local_vlan is not None:
self.agent.local_vlan_map[net_uuid] = (
ovs_neutron_agent.LocalVLANMapping(
old_local_vlan, None, None, None))
with contextlib.nested(
mock.patch('neutron.agent.linux.ovs_lib.OVSBridge.'
'set_db_attribute', return_value=True),
mock.patch('neutron.agent.linux.ovs_lib.OVSBridge.'
'db_get_val', return_value=str(old_local_vlan)),
mock.patch.object(self.agent.int_br, 'delete_flows')
) as (set_ovs_db_func, get_ovs_db_func, delete_flows_func):
self.agent.port_bound(port, net_uuid, 'local', None, None)
get_ovs_db_func.assert_called_once_with("Port", mock.ANY, "tag")
if new_local_vlan != old_local_vlan:
set_ovs_db_func.assert_called_once_with(
"Port", mock.ANY, "tag", str(new_local_vlan))
if ofport != -1:
delete_flows_func.assert_called_once_with(in_port=port.ofport)
else:
self.assertFalse(delete_flows_func.called)
else:
self.assertFalse(set_ovs_db_func.called)
self.assertFalse(delete_flows_func.called)
def test_port_bound_deletes_flows_for_valid_ofport(self):
self._mock_port_bound(ofport=1, new_local_vlan=1)
def test_port_bound_ignores_flows_for_invalid_ofport(self):
self._mock_port_bound(ofport=-1, new_local_vlan=1)
def test_port_bound_does_not_rewire_if_already_bound(self):
self._mock_port_bound(ofport=-1, new_local_vlan=1, old_local_vlan=1)
def _test_port_dead(self, cur_tag=None):
port = mock.Mock()
port.ofport = 1
with contextlib.nested(
mock.patch('neutron.agent.linux.ovs_lib.OVSBridge.'
'set_db_attribute', return_value=True),
mock.patch('neutron.agent.linux.ovs_lib.OVSBridge.'
'db_get_val', return_value=cur_tag),
mock.patch.object(self.agent.int_br, 'add_flow')
) as (set_ovs_db_func, get_ovs_db_func, add_flow_func):
self.agent.port_dead(port)
get_ovs_db_func.assert_called_once_with("Port", mock.ANY, "tag")
if cur_tag == ovs_neutron_agent.DEAD_VLAN_TAG:
self.assertFalse(set_ovs_db_func.called)
self.assertFalse(add_flow_func.called)
else:
set_ovs_db_func.assert_called_once_with(
"Port", mock.ANY, "tag", str(ovs_neutron_agent.DEAD_VLAN_TAG))
add_flow_func.assert_called_once_with(
priority=2, in_port=port.ofport, actions="drop")
def test_port_dead(self):
self._test_port_dead()
def test_port_dead_with_port_already_dead(self):
self._test_port_dead(ovs_neutron_agent.DEAD_VLAN_TAG)
def mock_scan_ports(self, vif_port_set=None, registered_ports=None,
updated_ports=None, port_tags_dict=None):
if port_tags_dict is None: # Because empty dicts evaluate as False.
port_tags_dict = {}
with contextlib.nested(
mock.patch.object(self.agent.int_br, 'get_vif_port_set',
return_value=vif_port_set),
mock.patch.object(self.agent.int_br, 'get_port_tag_dict',
return_value=port_tags_dict)
):
return self.agent.scan_ports(registered_ports, updated_ports)
def test_scan_ports_returns_current_only_for_unchanged_ports(self):
vif_port_set = set([1, 3])
registered_ports = set([1, 3])
expected = {'current': vif_port_set}
actual = self.mock_scan_ports(vif_port_set, registered_ports)
self.assertEqual(expected, actual)
def test_scan_ports_returns_port_changes(self):
vif_port_set = set([1, 3])
registered_ports = set([1, 2])
expected = dict(current=vif_port_set, added=set([3]), removed=set([2]))
actual = self.mock_scan_ports(vif_port_set, registered_ports)
self.assertEqual(expected, actual)
def _test_scan_ports_with_updated_ports(self, updated_ports):
vif_port_set = set([1, 3, 4])
registered_ports = set([1, 2, 4])
expected = dict(current=vif_port_set, added=set([3]),
removed=set([2]), updated=set([4]))
actual = self.mock_scan_ports(vif_port_set, registered_ports,
updated_ports)
self.assertEqual(expected, actual)
def test_scan_ports_finds_known_updated_ports(self):
self._test_scan_ports_with_updated_ports(set([4]))
def test_scan_ports_ignores_unknown_updated_ports(self):
# the port '5' was not seen on current ports. Hence it has either
# never been wired or already removed and should be ignored
self._test_scan_ports_with_updated_ports(set([4, 5]))
def test_scan_ports_ignores_updated_port_if_removed(self):
vif_port_set = set([1, 3])
registered_ports = set([1, 2])
updated_ports = set([1, 2])
expected = dict(current=vif_port_set, added=set([3]),
removed=set([2]), updated=set([1]))
actual = self.mock_scan_ports(vif_port_set, registered_ports,
updated_ports)
self.assertEqual(expected, actual)
def test_scan_ports_no_vif_changes_returns_updated_port_only(self):
vif_port_set = set([1, 2, 3])
registered_ports = set([1, 2, 3])
updated_ports = set([2])
expected = dict(current=vif_port_set, updated=set([2]))
actual = self.mock_scan_ports(vif_port_set, registered_ports,
updated_ports)
self.assertEqual(expected, actual)
def test_update_ports_returns_changed_vlan(self):
br = ovs_lib.OVSBridge('br-int', 'sudo')
mac = "ca:fe:de:ad:be:ef"
port = ovs_lib.VifPort(1, 1, 1, mac, br)
lvm = ovs_neutron_agent.LocalVLANMapping(
1, '1', None, 1, {port.vif_id: port})
local_vlan_map = {'1': lvm}
vif_port_set = set([1, 3])
registered_ports = set([1, 2])
port_tags_dict = {1: []}
expected = dict(
added=set([3]), current=vif_port_set,
removed=set([2]), updated=set([1])
)
with mock.patch.dict(self.agent.local_vlan_map, local_vlan_map):
actual = self.mock_scan_ports(
vif_port_set, registered_ports, port_tags_dict=port_tags_dict)
self.assertEqual(expected, actual)
def test_treat_devices_added_returns_true_for_missing_device(self):
with contextlib.nested(
mock.patch.object(self.agent.plugin_rpc, 'get_device_details',
side_effect=Exception()),
mock.patch.object(self.agent.int_br, 'get_vif_port_by_id',
return_value=mock.Mock())):
self.assertTrue(self.agent.treat_devices_added_or_updated([{}]))
def _mock_treat_devices_added_updated(self, details, port, func_name):
"""Mock treat devices added or updated.
:param details: the details to return for the device
:param port: the port that get_vif_port_by_id should return
:param func_name: the function that should be called
:returns: whether the named function was called
"""
with contextlib.nested(
mock.patch.object(self.agent.plugin_rpc, 'get_device_details',
return_value=details),
mock.patch.object(self.agent.int_br, 'get_vif_port_by_id',
return_value=port),
mock.patch.object(self.agent.plugin_rpc, 'update_device_up'),
mock.patch.object(self.agent.plugin_rpc, 'update_device_down'),
mock.patch.object(self.agent, func_name)
) as (get_dev_fn, get_vif_func, upd_dev_up, upd_dev_down, func):
self.assertFalse(self.agent.treat_devices_added_or_updated([{}]))
return func.called
def test_treat_devices_added_updated_ignores_invalid_ofport(self):
port = mock.Mock()
port.ofport = -1
self.assertFalse(self._mock_treat_devices_added_updated(
mock.MagicMock(), port, 'port_dead'))
def test_treat_devices_added_updated_marks_unknown_port_as_dead(self):
port = mock.Mock()
port.ofport = 1
self.assertTrue(self._mock_treat_devices_added_updated(
mock.MagicMock(), port, 'port_dead'))
def test_treat_devices_added_does_not_process_missing_port(self):
with contextlib.nested(
mock.patch.object(self.agent.plugin_rpc, 'get_device_details'),
mock.patch.object(self.agent.int_br, 'get_vif_port_by_id',
return_value=None)
) as (get_dev_fn, get_vif_func):
self.assertFalse(get_dev_fn.called)
def test_treat_devices_added__updated_updates_known_port(self):
details = mock.MagicMock()
details.__contains__.side_effect = lambda x: True
self.assertTrue(self._mock_treat_devices_added_updated(
details, mock.Mock(), 'treat_vif_port'))
def test_treat_devices_added_updated_put_port_down(self):
fake_details_dict = {'admin_state_up': False,
'port_id': 'xxx',
'device': 'xxx',
'network_id': 'yyy',
'physical_network': 'foo',
'segmentation_id': 'bar',
'network_type': 'baz'}
with contextlib.nested(
mock.patch.object(self.agent.plugin_rpc, 'get_device_details',
return_value=fake_details_dict),
mock.patch.object(self.agent.int_br, 'get_vif_port_by_id',
return_value=mock.MagicMock()),
mock.patch.object(self.agent.plugin_rpc, 'update_device_up'),
mock.patch.object(self.agent.plugin_rpc, 'update_device_down'),
mock.patch.object(self.agent, 'treat_vif_port')
) as (get_dev_fn, get_vif_func, upd_dev_up,
upd_dev_down, treat_vif_port):
self.assertFalse(self.agent.treat_devices_added_or_updated([{}]))
self.assertTrue(treat_vif_port.called)
self.assertTrue(upd_dev_down.called)
def test_treat_devices_removed_returns_true_for_missing_device(self):
with mock.patch.object(self.agent.plugin_rpc, 'update_device_down',
side_effect=Exception()):
self.assertTrue(self.agent.treat_devices_removed([{}]))
def _mock_treat_devices_removed(self, port_exists):
details = dict(exists=port_exists)
with mock.patch.object(self.agent.plugin_rpc, 'update_device_down',
return_value=details):
with mock.patch.object(self.agent, 'port_unbound') as port_unbound:
self.assertFalse(self.agent.treat_devices_removed([{}]))
self.assertTrue(port_unbound.called)
def test_treat_devices_removed_unbinds_port(self):
self._mock_treat_devices_removed(True)
def test_treat_devices_removed_ignores_missing_port(self):
self._mock_treat_devices_removed(False)
def _test_process_network_ports(self, port_info):
with contextlib.nested(
mock.patch.object(self.agent.sg_agent, "setup_port_filters"),
mock.patch.object(self.agent, "treat_devices_added_or_updated",
return_value=False),
mock.patch.object(self.agent, "treat_devices_removed",
return_value=False)
) as (setup_port_filters, device_added_updated, device_removed):
self.assertFalse(self.agent.process_network_ports(port_info))
setup_port_filters.assert_called_once_with(
port_info['added'], port_info.get('updated', set()))
device_added_updated.assert_called_once_with(
port_info['added'] | port_info.get('updated', set()))
device_removed.assert_called_once_with(port_info['removed'])
def test_process_network_ports(self):
self._test_process_network_ports(
{'current': set(['tap0']),
'removed': set(['eth0']),
'added': set(['eth1'])})
def test_process_network_port_with_updated_ports(self):
self._test_process_network_ports(
{'current': set(['tap0', 'tap1']),
'updated': set(['tap1', 'eth1']),
'removed': set(['eth0']),
'added': set(['eth1'])})
def test_report_state(self):
with mock.patch.object(self.agent.state_rpc,
"report_state") as report_st:
self.agent.int_br_device_count = 5
self.agent._report_state()
report_st.assert_called_with(self.agent.context,
self.agent.agent_state)
self.assertNotIn("start_flag", self.agent.agent_state)
self.assertEqual(
self.agent.agent_state["configurations"]["devices"],
self.agent.int_br_device_count
)
def test_network_delete(self):
with contextlib.nested(
mock.patch.object(self.agent, "reclaim_local_vlan"),
mock.patch.object(self.agent.tun_br, "cleanup_tunnel_port")
) as (recl_fn, clean_tun_fn):
self.agent.network_delete("unused_context",
network_id="123")
self.assertFalse(recl_fn.called)
self.agent.local_vlan_map["123"] = "LVM object"
self.agent.network_delete("unused_context",
network_id="123")
self.assertFalse(clean_tun_fn.called)
recl_fn.assert_called_with("123")
def test_port_update(self):
port = {"id": "123",
"network_id": "124",
"admin_state_up": False}
self.agent.port_update("unused_context",
port=port,
network_type="vlan",
segmentation_id="1",
physical_network="physnet")
self.assertEqual(set(['123']), self.agent.updated_ports)
def test_setup_physical_bridges(self):
with contextlib.nested(
mock.patch.object(ip_lib, "device_exists"),
mock.patch.object(sys, "exit"),
mock.patch.object(utils, "execute"),
mock.patch.object(ovs_lib.OVSBridge, "remove_all_flows"),
mock.patch.object(ovs_lib.OVSBridge, "add_flow"),
mock.patch.object(ovs_lib.OVSBridge, "add_port"),
mock.patch.object(ovs_lib.OVSBridge, "delete_port"),
mock.patch.object(self.agent.int_br, "add_port"),
mock.patch.object(self.agent.int_br, "delete_port"),
mock.patch.object(ip_lib.IPWrapper, "add_veth"),
mock.patch.object(ip_lib.IpLinkCommand, "delete"),
mock.patch.object(ip_lib.IpLinkCommand, "set_up"),
mock.patch.object(ip_lib.IpLinkCommand, "set_mtu")
) as (devex_fn, sysexit_fn, utilsexec_fn, remflows_fn, ovs_addfl_fn,
ovs_addport_fn, ovs_delport_fn, br_addport_fn,
br_delport_fn, addveth_fn, linkdel_fn, linkset_fn, linkmtu_fn):
devex_fn.return_value = True
parent = mock.MagicMock()
parent.attach_mock(utilsexec_fn, 'utils_execute')
parent.attach_mock(linkdel_fn, 'link_delete')
parent.attach_mock(addveth_fn, 'add_veth')
addveth_fn.return_value = (ip_lib.IPDevice("int-br-eth1"),
ip_lib.IPDevice("phy-br-eth1"))
ovs_addport_fn.return_value = "int_ofport"
br_addport_fn.return_value = "phys_veth"
self.agent.setup_physical_bridges({"physnet1": "br-eth"})
expected_calls = [mock.call.link_delete(),
mock.call.utils_execute(['/sbin/udevadm',
'settle',
'--timeout=10']),
mock.call.add_veth('int-br-eth',
'phy-br-eth')]
parent.assert_has_calls(expected_calls, any_order=False)
self.assertEqual(self.agent.int_ofports["physnet1"],
"phys_veth")
self.assertEqual(self.agent.phys_ofports["physnet1"],
"int_ofport")
def test_port_unbound(self):
with mock.patch.object(self.agent, "reclaim_local_vlan") as reclvl_fn:
self.agent.enable_tunneling = True
lvm = mock.Mock()
lvm.network_type = "gre"
lvm.vif_ports = {"vif1": mock.Mock()}
self.agent.local_vlan_map["netuid12345"] = lvm
self.agent.port_unbound("vif1", "netuid12345")
self.assertTrue(reclvl_fn.called)
reclvl_fn.called = False
lvm.vif_ports = {}
self.agent.port_unbound("vif1", "netuid12345")
self.assertEqual(reclvl_fn.call_count, 2)
lvm.vif_ports = {"vif1": mock.Mock()}
self.agent.port_unbound("vif3", "netuid12345")
self.assertEqual(reclvl_fn.call_count, 2)
def _prepare_l2_pop_ofports(self):
lvm1 = mock.Mock()
lvm1.network_type = 'gre'
lvm1.vlan = 'vlan1'
lvm1.segmentation_id = 'seg1'
lvm1.tun_ofports = set(['1'])
lvm2 = mock.Mock()
lvm2.network_type = 'gre'
lvm2.vlan = 'vlan2'
lvm2.segmentation_id = 'seg2'
lvm2.tun_ofports = set(['1', '2'])
self.agent.local_vlan_map = {'net1': lvm1, 'net2': lvm2}
self.agent.tun_br_ofports = {'gre':
{'1.1.1.1': '1', '2.2.2.2': '2'}}
def test_fdb_ignore_network(self):
self._prepare_l2_pop_ofports()
fdb_entry = {'net3': {}}
with contextlib.nested(
mock.patch.object(self.agent.tun_br, 'add_flow'),
mock.patch.object(self.agent.tun_br, 'delete_flows'),
mock.patch.object(self.agent, 'setup_tunnel_port'),
mock.patch.object(self.agent, 'cleanup_tunnel_port')
) as (add_flow_fn, del_flow_fn, add_tun_fn, clean_tun_fn):
self.agent.fdb_add(None, fdb_entry)
self.assertFalse(add_flow_fn.called)
self.assertFalse(add_tun_fn.called)
self.agent.fdb_remove(None, fdb_entry)
self.assertFalse(del_flow_fn.called)
self.assertFalse(clean_tun_fn.called)
def test_fdb_ignore_self(self):
self._prepare_l2_pop_ofports()
self.agent.local_ip = 'agent_ip'
fdb_entry = {'net2':
{'network_type': 'gre',
'segment_id': 'tun2',
'ports':
{'agent_ip':
[['mac', 'ip'],
n_const.FLOODING_ENTRY]}}}
with mock.patch.object(self.agent.tun_br,
"defer_apply_on") as defer_fn:
self.agent.fdb_add(None, fdb_entry)
self.assertFalse(defer_fn.called)
self.agent.fdb_remove(None, fdb_entry)
self.assertFalse(defer_fn.called)
def test_fdb_add_flows(self):
self._prepare_l2_pop_ofports()
fdb_entry = {'net1':
{'network_type': 'gre',
'segment_id': 'tun1',
'ports':
{'2.2.2.2':
[['mac', 'ip'],
n_const.FLOODING_ENTRY]}}}
with contextlib.nested(
mock.patch.object(self.agent.tun_br, 'add_flow'),
mock.patch.object(self.agent.tun_br, 'mod_flow'),
mock.patch.object(self.agent, 'setup_tunnel_port'),
) as (add_flow_fn, mod_flow_fn, add_tun_fn):
self.agent.fdb_add(None, fdb_entry)
self.assertFalse(add_tun_fn.called)
add_flow_fn.assert_called_with(table=constants.UCAST_TO_TUN,
priority=2,
dl_vlan='vlan1',
dl_dst='mac',
actions='strip_vlan,'
'set_tunnel:seg1,output:2')
mod_flow_fn.assert_called_with(table=constants.FLOOD_TO_TUN,
dl_vlan='vlan1',
actions='strip_vlan,'
'set_tunnel:seg1,output:1,2')
def test_fdb_del_flows(self):
self._prepare_l2_pop_ofports()
fdb_entry = {'net2':
{'network_type': 'gre',
'segment_id': 'tun2',
'ports':
{'2.2.2.2':
[['mac', 'ip'],
n_const.FLOODING_ENTRY]}}}
with contextlib.nested(
mock.patch.object(self.agent.tun_br, 'mod_flow'),
mock.patch.object(self.agent.tun_br, 'delete_flows'),
) as (mod_flow_fn, del_flow_fn):
self.agent.fdb_remove(None, fdb_entry)
del_flow_fn.assert_called_with(table=constants.UCAST_TO_TUN,
dl_vlan='vlan2',
dl_dst='mac')
mod_flow_fn.assert_called_with(table=constants.FLOOD_TO_TUN,
dl_vlan='vlan2',
actions='strip_vlan,'
'set_tunnel:seg2,output:1')
def test_fdb_add_port(self):
self._prepare_l2_pop_ofports()
fdb_entry = {'net1':
{'network_type': 'gre',
'segment_id': 'tun1',
'ports': {'1.1.1.1': [['mac', 'ip']]}}}
with contextlib.nested(
mock.patch.object(self.agent.tun_br, 'add_flow'),
mock.patch.object(self.agent.tun_br, 'mod_flow'),
mock.patch.object(self.agent, 'setup_tunnel_port')
) as (add_flow_fn, mod_flow_fn, add_tun_fn):
self.agent.fdb_add(None, fdb_entry)
self.assertFalse(add_tun_fn.called)
fdb_entry['net1']['ports']['10.10.10.10'] = [['mac', 'ip']]
self.agent.fdb_add(None, fdb_entry)
add_tun_fn.assert_called_with('gre-0a0a0a0a', '10.10.10.10', 'gre')
def test_fdb_del_port(self):
self._prepare_l2_pop_ofports()
fdb_entry = {'net2':
{'network_type': 'gre',
'segment_id': 'tun2',
'ports': {'2.2.2.2': [n_const.FLOODING_ENTRY]}}}
with contextlib.nested(
mock.patch.object(self.agent.tun_br, 'delete_flows'),
mock.patch.object(self.agent.tun_br, 'delete_port')
) as (del_flow_fn, del_port_fn):
self.agent.fdb_remove(None, fdb_entry)
del_port_fn.assert_called_once_with('gre-02020202')
def test_recl_lv_port_to_preserve(self):
self._prepare_l2_pop_ofports()
self.agent.l2_pop = True
self.agent.enable_tunneling = True
with mock.patch.object(
self.agent.tun_br, 'cleanup_tunnel_port'
) as clean_tun_fn:
self.agent.reclaim_local_vlan('net1')
self.assertFalse(clean_tun_fn.called)
def test_recl_lv_port_to_remove(self):
self._prepare_l2_pop_ofports()
self.agent.l2_pop = True
self.agent.enable_tunneling = True
with contextlib.nested(
mock.patch.object(self.agent.tun_br, 'delete_port'),
mock.patch.object(self.agent.tun_br, 'delete_flows')
) as (del_port_fn, del_flow_fn):
self.agent.reclaim_local_vlan('net2')
del_port_fn.assert_called_once_with('gre-02020202')
def test_daemon_loop_uses_polling_manager(self):
with mock.patch(
'neutron.agent.linux.polling.get_polling_manager') as mock_get_pm:
with mock.patch.object(self.agent, 'rpc_loop') as mock_loop:
self.agent.daemon_loop()
mock_get_pm.assert_called_with(True, 'sudo',
constants.DEFAULT_OVSDBMON_RESPAWN)
mock_loop.assert_called_once_with(polling_manager=mock.ANY)
def test_setup_tunnel_port_error_negative(self):
with contextlib.nested(
mock.patch.object(self.agent.tun_br, 'add_tunnel_port',
return_value='-1'),
mock.patch.object(ovs_neutron_agent.LOG, 'error')
) as (add_tunnel_port_fn, log_error_fn):
ofport = self.agent.setup_tunnel_port(
'gre-1', 'remote_ip', p_const.TYPE_GRE)
add_tunnel_port_fn.assert_called_once_with(
'gre-1', 'remote_ip', self.agent.local_ip, p_const.TYPE_GRE,
self.agent.vxlan_udp_port)
log_error_fn.assert_called_once_with(
_("Failed to set-up %(type)s tunnel port to %(ip)s"),
{'type': p_const.TYPE_GRE, 'ip': 'remote_ip'})
self.assertEqual(ofport, 0)
def test_setup_tunnel_port_error_not_int(self):
with contextlib.nested(
mock.patch.object(self.agent.tun_br, 'add_tunnel_port',
return_value=None),
mock.patch.object(ovs_neutron_agent.LOG, 'exception'),
mock.patch.object(ovs_neutron_agent.LOG, 'error')
) as (add_tunnel_port_fn, log_exc_fn, log_error_fn):
ofport = self.agent.setup_tunnel_port(
'gre-1', 'remote_ip', p_const.TYPE_GRE)
add_tunnel_port_fn.assert_called_once_with(
'gre-1', 'remote_ip', self.agent.local_ip, p_const.TYPE_GRE,
self.agent.vxlan_udp_port)
log_exc_fn.assert_called_once_with(
_("ofport should have a value that can be "
"interpreted as an integer"))
log_error_fn.assert_called_once_with(
_("Failed to set-up %(type)s tunnel port to %(ip)s"),
{'type': p_const.TYPE_GRE, 'ip': 'remote_ip'})
self.assertEqual(ofport, 0)
def test_tunnel_sync_with_ovs_plugin(self):
fake_tunnel_details = {'tunnels': [{'id': '42',
'ip_address': '100.101.102.103'}]}
with contextlib.nested(
mock.patch.object(self.agent.plugin_rpc, 'tunnel_sync',
return_value=fake_tunnel_details),
mock.patch.object(self.agent, 'setup_tunnel_port')
) as (tunnel_sync_rpc_fn, setup_tunnel_port_fn):
self.agent.tunnel_types = ['gre']
self.agent.tunnel_sync()
expected_calls = [mock.call('gre-42', '100.101.102.103', 'gre')]
setup_tunnel_port_fn.assert_has_calls(expected_calls)
def test_tunnel_sync_with_ml2_plugin(self):
fake_tunnel_details = {'tunnels': [{'ip_address': '100.101.31.15'}]}
with contextlib.nested(
mock.patch.object(self.agent.plugin_rpc, 'tunnel_sync',
return_value=fake_tunnel_details),
mock.patch.object(self.agent, 'setup_tunnel_port')
) as (tunnel_sync_rpc_fn, setup_tunnel_port_fn):
self.agent.tunnel_types = ['vxlan']
self.agent.tunnel_sync()
expected_calls = [mock.call('vxlan-64651f0f',
'100.101.31.15', 'vxlan')]
setup_tunnel_port_fn.assert_has_calls(expected_calls)
def test_tunnel_sync_invalid_ip_address(self):
fake_tunnel_details = {'tunnels': [{'ip_address': '300.300.300.300'},
{'ip_address': '100.100.100.100'}]}
with contextlib.nested(
mock.patch.object(self.agent.plugin_rpc, 'tunnel_sync',
return_value=fake_tunnel_details),
mock.patch.object(self.agent, 'setup_tunnel_port')
) as (tunnel_sync_rpc_fn, setup_tunnel_port_fn):
self.agent.tunnel_types = ['vxlan']
self.agent.tunnel_sync()
setup_tunnel_port_fn.assert_called_once_with('vxlan-64646464',
'100.100.100.100',
'vxlan')
def test_tunnel_update(self):
kwargs = {'tunnel_ip': '10.10.10.10',
'tunnel_type': 'gre'}
self.agent.setup_tunnel_port = mock.Mock()
self.agent.enable_tunneling = True
self.agent.tunnel_types = ['gre']
self.agent.l2_pop = False
self.agent.tunnel_update(context=None, **kwargs)
expected_calls = [mock.call('gre-0a0a0a0a', '10.10.10.10', 'gre')]
self.agent.setup_tunnel_port.assert_has_calls(expected_calls)
class AncillaryBridgesTest(base.BaseTestCase):
def setUp(self):
super(AncillaryBridgesTest, self).setUp()
notifier_p = mock.patch(NOTIFIER)
notifier_cls = notifier_p.start()
self.notifier = mock.Mock()
notifier_cls.return_value = self.notifier
cfg.CONF.set_default('firewall_driver',
'neutron.agent.firewall.NoopFirewallDriver',
group='SECURITYGROUP')
# Avoid rpc initialization for unit tests
cfg.CONF.set_override('rpc_backend',
'neutron.openstack.common.rpc.impl_fake')
cfg.CONF.set_override('report_interval', 0, 'AGENT')
self.kwargs = ovs_neutron_agent.create_agent_config_map(cfg.CONF)
def _test_ancillary_bridges(self, bridges, ancillary):
device_ids = ancillary[:]
def pullup_side_effect(self, *args):
result = device_ids.pop(0)
return result
with contextlib.nested(
mock.patch('neutron.plugins.openvswitch.agent.ovs_neutron_agent.'
'OVSNeutronAgent.setup_integration_br',
return_value=mock.Mock()),
mock.patch('neutron.agent.linux.utils.get_interface_mac',
return_value='00:00:00:00:00:01'),
mock.patch('neutron.agent.linux.ovs_lib.OVSBridge.'
'get_local_port_mac',
return_value='00:00:00:00:00:01'),
mock.patch('neutron.agent.linux.ovs_lib.get_bridges',
return_value=bridges),
mock.patch(
'neutron.agent.linux.ovs_lib.get_bridge_external_bridge_id',
side_effect=pullup_side_effect)):
self.agent = ovs_neutron_agent.OVSNeutronAgent(**self.kwargs)
self.assertEqual(len(ancillary), len(self.agent.ancillary_brs))
if ancillary:
bridges = [br.br_name for br in self.agent.ancillary_brs]
for br in ancillary:
self.assertIn(br, bridges)
def test_ancillary_bridges_single(self):
bridges = ['br-int', 'br-ex']
self._test_ancillary_bridges(bridges, ['br-ex'])
def test_ancillary_bridges_none(self):
bridges = ['br-int']
self._test_ancillary_bridges(bridges, [])
def test_ancillary_bridges_multiple(self):
bridges = ['br-int', 'br-ex1', 'br-ex2']
self._test_ancillary_bridges(bridges, ['br-ex1', 'br-ex2'])