vmware-nsx/vmware_nsx/tests/unit/nsx_p/test_plugin.py
Adit Sarfaty 48821d139c NSX|V3+P: Support QoS on ENS networks
Depending on the backend version

Change-Id: I33af8879a519a896b1d19e3dbbc0f007e3110235
2019-06-10 15:05:59 +03:00

2171 lines
100 KiB
Python

# Copyright (c) 2018 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 mock
from oslo_config import cfg
from oslo_utils import uuidutils
from webob import exc
from neutron.extensions import address_scope
from neutron.extensions import l3
from neutron.extensions import securitygroup as secgrp
from neutron.tests.unit.db import test_db_base_plugin_v2
from neutron.tests.unit.extensions import test_address_scope
from neutron.tests.unit.extensions import test_extraroute as test_ext_route
from neutron.tests.unit.extensions import test_l3 as test_l3_plugin
from neutron.tests.unit.extensions import test_securitygroup
from neutron_lib.api.definitions import external_net as extnet_apidef
from neutron_lib.api.definitions import extraroute as xroute_apidef
from neutron_lib.api.definitions import l3_ext_gw_mode as l3_egm_apidef
from neutron_lib.api.definitions import port_security as psec
from neutron_lib.api.definitions import portbindings
from neutron_lib.api.definitions import provider_net as pnet
from neutron_lib.api.definitions import vlantransparent as vlan_apidef
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_lib import exceptions as n_exc
from neutron_lib.objects import registry as obj_reg
from neutron_lib.plugins import directory
from vmware_nsx.common import utils
from vmware_nsx.extensions import providersecuritygroup as provider_sg
from vmware_nsx.plugins.common import plugin as com_plugin
from vmware_nsx.plugins.nsx_p import plugin as nsx_plugin
from vmware_nsx.tests import unit as vmware
from vmware_nsx.tests.unit.common_plugin import common_v3
from vmware_nsxlib.v3 import exceptions as nsxlib_exc
from vmware_nsxlib.v3 import nsx_constants
from vmware_nsxlib.v3.policy import constants as policy_constants
from vmware_nsxlib.v3 import utils as nsxlib_utils
PLUGIN_NAME = 'vmware_nsx.plugin.NsxPolicyPlugin'
NSX_OVERLAY_TZ_NAME = 'OVERLAY_TZ'
NSX_VLAN_TZ_NAME = 'VLAN_TZ'
DEFAULT_TIER0_ROUTER_UUID = "efad0078-9204-4b46-a2d8-d4dd31ed448f"
NSX_DHCP_PROFILE_ID = 'DHCP_PROFILE'
NSX_MD_PROXY_ID = 'MD_PROXY'
LOGICAL_SWITCH_ID = '00000000-1111-2222-3333-444444444444'
WAF_PROFILE_ID = 'WAF'
def _return_id_key(*args, **kwargs):
return {'id': uuidutils.generate_uuid()}
def _return_id_key_list(*args, **kwargs):
return [{'id': uuidutils.generate_uuid()}]
def _return_same(key, *args, **kwargs):
return key
class NsxPPluginTestCaseMixin(
test_db_base_plugin_v2.NeutronDbPluginV2TestCase):
def setUp(self, plugin=PLUGIN_NAME,
ext_mgr=None,
service_plugins=None, **kwargs):
self._mock_nsx_policy_backend_calls()
self._mock_nsxlib_backend_calls()
self.setup_conf_overrides()
super(NsxPPluginTestCaseMixin, self).setUp(plugin=plugin,
ext_mgr=ext_mgr)
self.ctx = context.get_admin_context()
def _mock_nsx_policy_backend_calls(self):
resource_list_result = {'results': [{'id': 'test',
'display_name': 'test'}]}
mock.patch(
"vmware_nsxlib.v3.policy.NsxPolicyLib.get_version",
return_value=nsx_constants.NSX_VERSION_2_5_0).start()
mock.patch(
"vmware_nsxlib.v3.client.RESTClient.get").start()
mock.patch(
"vmware_nsxlib.v3.client.RESTClient.list",
return_value=resource_list_result).start()
mock.patch(
"vmware_nsxlib.v3.client.RESTClient.patch").start()
mock.patch(
"vmware_nsxlib.v3.client.RESTClient.update").start()
mock.patch(
"vmware_nsxlib.v3.client.RESTClient.delete").start()
mock.patch("vmware_nsxlib.v3.policy.core_resources."
"NsxPolicyCommunicationMapApi._get_last_seq_num",
return_value=-1).start()
mock.patch("vmware_nsxlib.v3.policy.core_resources."
"NsxPolicyResourceBase._wait_until_realized",
return_value={'state': policy_constants.STATE_REALIZED}
).start()
mock.patch("vmware_nsxlib.v3.policy.core_resources."
"NsxPolicyTier1Api.update_transport_zone").start()
mock.patch("vmware_nsxlib.v3.policy.core_resources."
"NsxPolicySegmentApi.get_realized_logical_switch_id",
return_value=LOGICAL_SWITCH_ID
).start()
mock.patch("vmware_nsxlib.v3.policy.core_resources."
"NsxPolicySegmentApi.get_realized_id",
return_value=LOGICAL_SWITCH_ID
).start()
mock.patch("vmware_nsxlib.v3.policy.core_resources."
"NsxPolicySegmentApi.set_admin_state").start()
mock.patch("vmware_nsxlib.v3.policy.core_resources."
"NsxPolicySegmentPortApi.set_admin_state").start()
mock.patch("vmware_nsxlib.v3.NsxLib.get_tag_limits",
return_value=nsxlib_utils.TagLimits(20, 40, 15)).start()
# Add some nsxlib mocks for the passthrough apis
mock.patch("vmware_nsxlib.v3.NsxLib.get_version",
return_value=nsx_constants.NSX_VERSION_2_5_0).start()
mock.patch("vmware_nsxlib.v3.core_resources.NsxLibLogicalRouter."
"update").start()
def _mock_nsxlib_backend_calls(self):
"""Mock nsxlib backend calls used as passthrough
until implemented by policy
"""
mock.patch(
"vmware_nsxlib.v3.core_resources.NsxLibDhcpProfile."
"get_id_by_name_or_id",
return_value=NSX_DHCP_PROFILE_ID).start()
mock.patch(
"vmware_nsxlib.v3.resources.LogicalDhcpServer."
"get_id_by_name_or_id",
return_value=_return_same).start()
mock.patch(
"vmware_nsxlib.v3.core_resources.NsxLibMetadataProxy."
"get_id_by_name_or_id",
side_effect=_return_same).start()
mock.patch(
"vmware_nsxlib.v3.resources.LogicalPort.create",
side_effect=_return_id_key).start()
mock.patch(
"vmware_nsxlib.v3.resources.LogicalDhcpServer.create",
side_effect=_return_id_key).start()
mock.patch(
"vmware_nsxlib.v3.resources.LogicalDhcpServer.update",
side_effect=_return_id_key).start()
mock.patch(
"vmware_nsxlib.v3.resources.LogicalDhcpServer.create_binding",
side_effect=_return_id_key).start()
mock.patch("vmware_nsxlib.v3.resources.LogicalDhcpServer."
"update_binding").start()
mock.patch("vmware_nsxlib.v3.NsxLib."
"get_id_by_resource_and_tag").start()
def setup_conf_overrides(self):
cfg.CONF.set_override('default_overlay_tz', NSX_OVERLAY_TZ_NAME,
'nsx_p')
cfg.CONF.set_override('default_vlan_tz', NSX_VLAN_TZ_NAME, 'nsx_p')
cfg.CONF.set_override('dhcp_profile', NSX_DHCP_PROFILE_ID, 'nsx_p')
cfg.CONF.set_override('metadata_proxy', NSX_MD_PROXY_ID, 'nsx_p')
cfg.CONF.set_override('waf_profile', WAF_PROFILE_ID, 'nsx_p')
cfg.CONF.set_override('dhcp_agent_notification', False)
def _create_network(self, fmt, name, admin_state_up,
arg_list=None, providernet_args=None,
set_context=False, tenant_id=None,
**kwargs):
tenant_id = tenant_id or self._tenant_id
data = {'network': {'name': name,
'admin_state_up': admin_state_up,
'tenant_id': tenant_id}}
# Fix to allow the router:external attribute and any other
# attributes containing a colon to be passed with
# a double underscore instead
kwargs = dict((k.replace('__', ':'), v) for k, v in kwargs.items())
if extnet_apidef.EXTERNAL in kwargs:
arg_list = (extnet_apidef.EXTERNAL, ) + (arg_list or ())
if providernet_args:
kwargs.update(providernet_args)
for arg in (('admin_state_up', 'tenant_id', 'shared',
'availability_zone_hints') + (arg_list or ())):
# Arg must be present
if arg in kwargs:
data['network'][arg] = kwargs[arg]
network_req = self.new_create_request('networks', data, fmt)
if set_context and tenant_id:
# create a specific auth context for this request
network_req.environ['neutron.context'] = context.Context(
'', tenant_id)
return network_req.get_response(self.api)
def _create_l3_ext_network(self, physical_network='abc'):
name = 'l3_ext_net'
net_type = utils.NetworkTypes.L3_EXT
providernet_args = {pnet.NETWORK_TYPE: net_type,
pnet.PHYSICAL_NETWORK: physical_network}
return self.network(name=name,
router__external=True,
providernet_args=providernet_args,
arg_list=(pnet.NETWORK_TYPE,
pnet.PHYSICAL_NETWORK))
def _initialize_azs(self):
self.plugin.init_availability_zones()
self.plugin._init_default_config()
class NsxPTestNetworks(test_db_base_plugin_v2.TestNetworksV2,
NsxPPluginTestCaseMixin):
def setUp(self, plugin=PLUGIN_NAME,
ext_mgr=None,
service_plugins=None):
# add vlan transparent to the configuration
cfg.CONF.set_override('vlan_transparent', True)
super(NsxPTestNetworks, self).setUp(plugin=plugin,
ext_mgr=ext_mgr)
def tearDown(self):
super(NsxPTestNetworks, self).tearDown()
def test_create_provider_flat_network(self):
providernet_args = {pnet.NETWORK_TYPE: 'flat'}
with mock.patch('vmware_nsxlib.v3.policy.core_resources.'
'NsxPolicySegmentApi.create_or_overwrite',
side_effect=_return_id_key) as nsx_create, \
mock.patch('vmware_nsxlib.v3.policy.core_resources.'
'NsxPolicySegmentApi.delete') as nsx_delete, \
mock.patch('vmware_nsxlib.v3.policy.core_resources.'
'NsxPolicyTransportZoneApi.get_transport_type',
return_value=nsx_constants.TRANSPORT_TYPE_VLAN), \
self.network(name='flat_net',
providernet_args=providernet_args,
arg_list=(pnet.NETWORK_TYPE, )) as net:
self.assertEqual('flat', net['network'].get(pnet.NETWORK_TYPE))
# make sure the network is created at the backend
nsx_create.assert_called_once()
# Delete the network and make sure it is deleted from the backend
req = self.new_delete_request('networks', net['network']['id'])
res = req.get_response(self.api)
self.assertEqual(exc.HTTPNoContent.code, res.status_int)
nsx_delete.assert_called_once()
def test_create_provider_flat_network_with_physical_net(self):
physical_network = DEFAULT_TIER0_ROUTER_UUID
providernet_args = {pnet.NETWORK_TYPE: 'flat',
pnet.PHYSICAL_NETWORK: physical_network}
with mock.patch(
'vmware_nsxlib.v3.policy.core_resources.NsxPolicyTransportZoneApi.'
'get_transport_type',
return_value=nsx_constants.TRANSPORT_TYPE_VLAN), \
self.network(name='flat_net',
providernet_args=providernet_args,
arg_list=(pnet.NETWORK_TYPE,
pnet.PHYSICAL_NETWORK)) as net:
self.assertEqual('flat', net['network'].get(pnet.NETWORK_TYPE))
def test_create_provider_flat_network_with_vlan(self):
providernet_args = {pnet.NETWORK_TYPE: 'flat',
pnet.SEGMENTATION_ID: 11}
with mock.patch(
'vmware_nsxlib.v3.policy.core_resources.NsxPolicyTransportZoneApi.'
'get_transport_type',
return_value=nsx_constants.TRANSPORT_TYPE_VLAN):
result = self._create_network(fmt='json', name='bad_flat_net',
admin_state_up=True,
providernet_args=providernet_args,
arg_list=(pnet.NETWORK_TYPE,
pnet.SEGMENTATION_ID))
data = self.deserialize('json', result)
# should fail
self.assertEqual('InvalidInput', data['NeutronError']['type'])
def test_create_provider_geneve_network(self):
providernet_args = {pnet.NETWORK_TYPE: 'geneve'}
with mock.patch('vmware_nsxlib.v3.policy.core_resources.'
'NsxPolicySegmentApi.create_or_overwrite',
side_effect=_return_id_key) as nsx_create, \
mock.patch('vmware_nsxlib.v3.policy.core_resources.'
'NsxPolicySegmentApi.delete') as nsx_delete, \
self.network(name='geneve_net',
providernet_args=providernet_args,
arg_list=(pnet.NETWORK_TYPE, )) as net:
self.assertEqual('geneve', net['network'].get(pnet.NETWORK_TYPE))
# make sure the network is created at the backend
nsx_create.assert_called_once()
# Delete the network and make sure it is deleted from the backend
req = self.new_delete_request('networks', net['network']['id'])
res = req.get_response(self.api)
self.assertEqual(exc.HTTPNoContent.code, res.status_int)
nsx_delete.assert_called_once()
def test_create_provider_geneve_network_with_physical_net(self):
physical_network = DEFAULT_TIER0_ROUTER_UUID
providernet_args = {pnet.NETWORK_TYPE: 'geneve',
pnet.PHYSICAL_NETWORK: physical_network}
with mock.patch(
'vmware_nsxlib.v3.policy.core_resources.NsxPolicyTransportZoneApi.'
'get_transport_type',
return_value=nsx_constants.TRANSPORT_TYPE_OVERLAY),\
self.network(name='geneve_net',
providernet_args=providernet_args,
arg_list=(pnet.NETWORK_TYPE, )) as net:
self.assertEqual('geneve', net['network'].get(pnet.NETWORK_TYPE))
def test_create_provider_geneve_network_with_vlan(self):
providernet_args = {pnet.NETWORK_TYPE: 'geneve',
pnet.SEGMENTATION_ID: 11}
with mock.patch(
'vmware_nsxlib.v3.policy.core_resources.NsxPolicyTransportZoneApi.'
'get_transport_type',
return_value=nsx_constants.TRANSPORT_TYPE_OVERLAY):
result = self._create_network(fmt='json', name='bad_geneve_net',
admin_state_up=True,
providernet_args=providernet_args,
arg_list=(pnet.NETWORK_TYPE,
pnet.SEGMENTATION_ID))
data = self.deserialize('json', result)
# should fail
self.assertEqual('InvalidInput', data['NeutronError']['type'])
def test_create_provider_vlan_network(self):
providernet_args = {pnet.NETWORK_TYPE: 'vlan',
pnet.SEGMENTATION_ID: 11}
with mock.patch('vmware_nsxlib.v3.policy.core_resources.'
'NsxPolicySegmentApi.create_or_overwrite',
side_effect=_return_id_key) as nsx_create, \
mock.patch('vmware_nsxlib.v3.policy.core_resources.'
'NsxPolicySegmentApi.delete') as nsx_delete, \
mock.patch('vmware_nsxlib.v3.policy.core_resources.'
'NsxPolicyTransportZoneApi.get_transport_type',
return_value=nsx_constants.TRANSPORT_TYPE_VLAN), \
self.network(name='vlan_net',
providernet_args=providernet_args,
arg_list=(pnet.NETWORK_TYPE,
pnet.SEGMENTATION_ID)) as net:
self.assertEqual('vlan', net['network'].get(pnet.NETWORK_TYPE))
# make sure the network is created at the backend
nsx_create.assert_called_once()
# Delete the network and make sure it is deleted from the backend
req = self.new_delete_request('networks', net['network']['id'])
res = req.get_response(self.api)
self.assertEqual(exc.HTTPNoContent.code, res.status_int)
nsx_delete.assert_called_once()
def test_create_provider_nsx_network(self):
physical_network = 'Fake logical switch'
providernet_args = {pnet.NETWORK_TYPE: 'nsx-net',
pnet.PHYSICAL_NETWORK: physical_network}
with mock.patch(
'vmware_nsxlib.v3.policy.core_resources.NsxPolicySegmentApi.'
'create_or_overwrite',
side_effect=nsxlib_exc.ResourceNotFound) as nsx_create, \
mock.patch('vmware_nsxlib.v3.policy.core_resources.'
'NsxPolicySegmentApi.delete') as nsx_delete, \
self.network(name='nsx_net',
providernet_args=providernet_args,
arg_list=(pnet.NETWORK_TYPE,
pnet.PHYSICAL_NETWORK)) as net:
self.assertEqual('nsx-net', net['network'].get(pnet.NETWORK_TYPE))
self.assertEqual(physical_network,
net['network'].get(pnet.PHYSICAL_NETWORK))
# make sure the network is NOT created at the backend
nsx_create.assert_not_called()
# Delete the network. It should NOT deleted from the backend
req = self.new_delete_request('networks', net['network']['id'])
res = req.get_response(self.api)
self.assertEqual(exc.HTTPNoContent.code, res.status_int)
nsx_delete.assert_not_called()
def test_create_provider_bad_nsx_network(self):
physical_network = 'Bad logical switch'
providernet_args = {pnet.NETWORK_TYPE: 'nsx-net',
pnet.PHYSICAL_NETWORK: physical_network}
with mock.patch(
"vmware_nsxlib.v3.policy.core_resources.NsxPolicySegmentApi.get",
side_effect=nsxlib_exc.ResourceNotFound):
result = self._create_network(fmt='json', name='bad_nsx_net',
admin_state_up=True,
providernet_args=providernet_args,
arg_list=(pnet.NETWORK_TYPE,
pnet.PHYSICAL_NETWORK))
data = self.deserialize('json', result)
# should fail
self.assertEqual('InvalidInput', data['NeutronError']['type'])
def _test_transparent_vlan_net(self, net_type, tz_type, should_succeed):
providernet_args = {pnet.NETWORK_TYPE: net_type,
vlan_apidef.VLANTRANSPARENT: True}
with mock.patch('vmware_nsxlib.v3.policy.core_resources.'
'NsxPolicyTransportZoneApi.get_transport_type',
return_value=tz_type):
result = self._create_network(fmt='json', name='vlan_net',
admin_state_up=True,
providernet_args=providernet_args,
arg_list=(
pnet.NETWORK_TYPE,
vlan_apidef.VLANTRANSPARENT))
data = self.deserialize('json', result)
if should_succeed:
self.assertEqual(net_type,
data['network'].get(pnet.NETWORK_TYPE))
self.assertTrue(
data['network'].get(vlan_apidef.VLANTRANSPARENT))
else:
self.assertEqual('InvalidInput', data['NeutronError']['type'])
def test_create_non_provider_network_with_transparent(self):
self._test_transparent_vlan_net(
net_type="",
tz_type=nsx_constants.TRANSPORT_TYPE_OVERLAY,
should_succeed=False)
def test_create_provider_overlay_network_with_transparent(self):
self._test_transparent_vlan_net(
net_type=utils.NsxV3NetworkTypes.GENEVE,
tz_type=nsx_constants.TRANSPORT_TYPE_OVERLAY,
should_succeed=False)
def test_create_provider_flat_network_with_transparent(self):
self._test_transparent_vlan_net(
net_type=utils.NsxV3NetworkTypes.FLAT,
tz_type=nsx_constants.TRANSPORT_TYPE_VLAN,
should_succeed=True)
def test_create_provider_vlan_network_with_transparent(self):
self._test_transparent_vlan_net(
net_type=utils.NsxV3NetworkTypes.VLAN,
tz_type=nsx_constants.TRANSPORT_TYPE_VLAN,
should_succeed=True)
def test_network_update_external_failure(self):
data = {'network': {'name': 'net1',
'router:external': 'True',
'tenant_id': 'tenant_one',
'provider:physical_network': 'stam'}}
network_req = self.new_create_request('networks', data)
network = self.deserialize(self.fmt,
network_req.get_response(self.api))
ext_net_id = network['network']['id']
# should fail to update the network to non-external
args = {'network': {'router:external': 'False'}}
req = self.new_update_request('networks', args,
ext_net_id, fmt='json')
res = self.deserialize('json', req.get_response(self.api))
self.assertEqual('InvalidInput',
res['NeutronError']['type'])
@mock.patch.object(nsx_plugin.NsxPolicyPlugin,
'validate_availability_zones')
def test_create_network_with_availability_zone(self, mock_validate_az):
name = 'net-with-zone'
zone = ['zone1']
mock_validate_az.return_value = None
with self.network(name=name, availability_zone_hints=zone) as net:
az_hints = net['network']['availability_zone_hints']
self.assertListEqual(az_hints, zone)
def test_create_net_with_qos(self):
policy_id = uuidutils.generate_uuid()
data = {'network': {
'tenant_id': self._tenant_id,
'qos_policy_id': policy_id,
'name': 'qos_net',
'admin_state_up': True,
'shared': False}
}
dummy = mock.Mock()
dummy.id = policy_id
with mock.patch.object(self.plugin, '_validate_qos_policy_id'),\
mock.patch.object(obj_reg.load_class('QosPolicy'),
'get_network_policy',
return_value=dummy):
net = self.plugin.create_network(self.ctx, data)
self.assertEqual(policy_id, net['qos_policy_id'])
net = self.plugin.get_network(self.ctx, net['id'])
self.assertEqual(policy_id, net['qos_policy_id'])
def test_update_net_with_qos(self):
data = {'network': {
'tenant_id': self._tenant_id,
'name': 'qos_net',
'admin_state_up': True,
'shared': False}
}
net = self.plugin.create_network(self.ctx, data)
policy_id = uuidutils.generate_uuid()
data['network']['qos_policy_id'] = policy_id
dummy = mock.Mock()
dummy.id = policy_id
with mock.patch.object(self.plugin, '_validate_qos_policy_id'),\
mock.patch.object(obj_reg.load_class('QosPolicy'),
'get_network_policy',
return_value=dummy):
res = self.plugin.update_network(self.ctx, net['id'], data)
self.assertEqual(policy_id, res['qos_policy_id'])
res = self.plugin.get_network(self.ctx, net['id'])
self.assertEqual(policy_id, res['qos_policy_id'])
def test_create_ens_network_with_qos(self):
cfg.CONF.set_override('ens_support', True, 'nsx_v3')
mock_ens = mock.patch('vmware_nsxlib.v3.policy'
'.core_resources.NsxPolicyTransportZoneApi'
'.get_host_switch_mode', return_value='ENS')
mock_tz = mock.patch('vmware_nsxlib.v3'
'.core_resources.NsxLibLogicalSwitch.get',
return_value={'transport_zone_id': 'xxx'})
mock_tt = mock.patch('vmware_nsxlib.v3.policy'
'.core_resources.NsxPolicyTransportZoneApi'
'.get_transport_type', return_value='VLAN')
policy_id = uuidutils.generate_uuid()
data = {'network': {
'name': 'qos_net',
'tenant_id': 'some_tenant',
'provider:network_type': 'flat',
'provider:physical_network': 'xxx',
'admin_state_up': True,
'shared': False,
'qos_policy_id': policy_id,
'port_security_enabled': False}}
with mock_ens, mock_tz, mock_tt, mock.patch.object(
self.plugin, '_validate_qos_policy_id'):
res = self.plugin.create_network(context.get_admin_context(), data)
self.assertEqual(policy_id, res['qos_policy_id'])
def test_update_ens_network_with_qos(self):
cfg.CONF.set_override('ens_support', True, 'nsx_v3')
mock_ens = mock.patch('vmware_nsxlib.v3.policy'
'.core_resources.NsxPolicyTransportZoneApi'
'.get_host_switch_mode', return_value='ENS')
mock_tz = mock.patch('vmware_nsxlib.v3'
'.core_resources.NsxLibLogicalSwitch.get',
return_value={'transport_zone_id': 'xxx'})
mock_tt = mock.patch('vmware_nsxlib.v3.policy'
'.core_resources.NsxPolicyTransportZoneApi'
'.get_transport_type', return_value='VLAN')
data = {'network': {
'name': 'qos_net',
'tenant_id': 'some_tenant',
'provider:network_type': 'flat',
'provider:physical_network': 'xxx',
'admin_state_up': True,
'shared': False,
'port_security_enabled': False}}
with mock_ens, mock_tz, mock_tt,\
mock.patch.object(self.plugin, '_validate_qos_policy_id'):
network = self.plugin.create_network(context.get_admin_context(),
data)
policy_id = uuidutils.generate_uuid()
data = {'network': {
'id': network['id'],
'admin_state_up': True,
'shared': False,
'port_security_enabled': False,
'tenant_id': 'some_tenant',
'qos_policy_id': policy_id}}
res = self.plugin.update_network(
context.get_admin_context(),
network['id'], data)
self.assertEqual(policy_id, res['qos_policy_id'])
class NsxPTestPorts(common_v3.NsxV3TestPorts,
common_v3.NsxV3SubnetMixin,
NsxPPluginTestCaseMixin):
def setUp(self, **kwargs):
super(NsxPTestPorts, self).setUp(**kwargs)
@common_v3.with_disable_dhcp
def test_create_port_with_multiple_ipv4_and_ipv6_subnets(self):
return super(
NsxPTestPorts,
self).test_create_port_with_multiple_ipv4_and_ipv6_subnets
def test_ip_allocation_for_ipv6_2_subnet_slaac_mode(self):
self.skipTest('No DHCP v6 Support yet')
def test_update_port_with_ipv6_slaac_subnet_in_fixed_ips(self):
self.skipTest('No DHCP v6 Support yet')
def test_update_port_excluding_ipv6_slaac_subnet_from_fixed_ips(self):
self.skipTest('No DHCP v6 Support yet')
@common_v3.with_disable_dhcp
def test_requested_subnet_id_v4_and_v6(self):
return super(NsxPTestPorts, self).test_requested_subnet_id_v4_and_v6()
@common_v3.with_disable_dhcp
def test_requested_ips_only(self):
return super(NsxPTestPorts, self).test_requested_ips_only()
@common_v3.with_disable_dhcp
def test_list_ports_with_sort_emulated(self):
return super(NsxPTestPorts,
self).test_list_ports_with_sort_emulated()
@common_v3.with_disable_dhcp
def test_list_ports_with_pagination_native(self):
return super(NsxPTestPorts,
self).test_list_ports_with_pagination_native()
@common_v3.with_disable_dhcp
def test_list_ports_for_network_owner(self):
return super(NsxPTestPorts, self).test_list_ports_for_network_owner()
@common_v3.with_disable_dhcp
def test_list_ports_public_network(self):
return super(NsxPTestPorts, self).test_list_ports_public_network()
@common_v3.with_disable_dhcp
def test_list_ports(self):
return super(NsxPTestPorts, self).test_list_ports()
@common_v3.with_disable_dhcp
def test_get_ports_count(self):
return super(NsxPTestPorts, self).test_get_ports_count()
@common_v3.with_disable_dhcp
def test_list_ports_with_sort_native(self):
return super(NsxPTestPorts, self).test_list_ports_with_sort_native()
@common_v3.with_disable_dhcp
def test_list_ports_with_pagination_emulated(self):
return super(NsxPTestPorts,
self).test_list_ports_with_pagination_emulated()
def test_update_port_delete_ip(self):
# This test case overrides the default because the nsx plugin
# implements port_security/security groups and it is not allowed
# to remove an ip address from a port unless the security group
# is first removed.
with self.subnet() as subnet:
with self.port(subnet=subnet) as port:
data = {'port': {'admin_state_up': False,
'fixed_ips': [],
secgrp.SECURITYGROUPS: []}}
req = self.new_update_request('ports',
data, port['port']['id'])
res = self.deserialize('json', req.get_response(self.api))
self.assertEqual(res['port']['admin_state_up'],
data['port']['admin_state_up'])
self.assertEqual(res['port']['fixed_ips'],
data['port']['fixed_ips'])
def test_create_port_with_qos(self):
with self.network() as network:
policy_id = uuidutils.generate_uuid()
data = {'port': {
'network_id': network['network']['id'],
'tenant_id': self._tenant_id,
'qos_policy_id': policy_id,
'name': 'qos_port',
'admin_state_up': True,
'device_id': 'fake_device',
'device_owner': 'fake_owner',
'fixed_ips': [],
'mac_address': '00:00:00:00:00:01'}
}
with mock.patch.object(self.plugin, '_validate_qos_policy_id'):
port = self.plugin.create_port(self.ctx, data)
self.assertEqual(policy_id, port['qos_policy_id'])
# Get port should also return the qos policy id
with mock.patch('vmware_nsx.services.qos.common.utils.'
'get_port_policy_id',
return_value=policy_id):
port = self.plugin.get_port(self.ctx, port['id'])
self.assertEqual(policy_id, port['qos_policy_id'])
def test_update_port_with_qos(self):
with self.network() as network:
data = {'port': {
'network_id': network['network']['id'],
'tenant_id': self._tenant_id,
'name': 'qos_port',
'admin_state_up': True,
'device_id': 'fake_device',
'device_owner': 'fake_owner',
'fixed_ips': [],
'mac_address': '00:00:00:00:00:01'}
}
port = self.plugin.create_port(self.ctx, data)
policy_id = uuidutils.generate_uuid()
data['port']['qos_policy_id'] = policy_id
with mock.patch.object(self.plugin, '_validate_qos_policy_id'):
res = self.plugin.update_port(self.ctx, port['id'], data)
self.assertEqual(policy_id, res['qos_policy_id'])
# Get port should also return the qos policy id
with mock.patch('vmware_nsx.services.qos.common.utils.'
'get_port_policy_id',
return_value=policy_id):
res = self.plugin.get_port(self.ctx, port['id'])
self.assertEqual(policy_id, res['qos_policy_id'])
# now remove the qos from the port
data['port']['qos_policy_id'] = None
res = self.plugin.update_port(self.ctx, port['id'], data)
self.assertIsNone(res['qos_policy_id'])
def test_create_ext_port_with_qos_fail(self):
with self._create_l3_ext_network() as network:
with self.subnet(network=network, cidr='10.0.0.0/24',
enable_dhcp=False),\
mock.patch.object(self.plugin, '_validate_qos_policy_id'):
policy_id = uuidutils.generate_uuid()
data = {'port': {'network_id': network['network']['id'],
'tenant_id': self._tenant_id,
'qos_policy_id': policy_id}}
# Cannot add qos policy to a router port
self.assertRaises(n_exc.InvalidInput,
self.plugin.create_port, self.ctx, data)
def _test_create_illegal_port_with_qos_fail(self, device_owner):
with self.network() as network:
with self.subnet(network=network, cidr='10.0.0.0/24'),\
mock.patch.object(self.plugin, '_validate_qos_policy_id'):
policy_id = uuidutils.generate_uuid()
data = {'port': {'network_id': network['network']['id'],
'tenant_id': self._tenant_id,
'device_owner': device_owner,
'qos_policy_id': policy_id}}
# Cannot add qos policy to this type of port
self.assertRaises(n_exc.InvalidInput,
self.plugin.create_port, self.ctx, data)
def test_create_port_ens_with_qos_fail(self):
with self.network() as network:
with self.subnet(network=network, cidr='10.0.0.0/24'):
policy_id = uuidutils.generate_uuid()
mock_ens = mock.patch(
'vmware_nsxlib.v3.policy.core_resources.'
'NsxPolicyTransportZoneApi.get_host_switch_mode',
return_value='ENS')
mock_tz = mock.patch(
'vmware_nsxlib.v3.core_resources.NsxLibLogicalSwitch.get',
return_value={'transport_zone_id': 'xxx'})
mock_tt = mock.patch(
'vmware_nsxlib.v3.policy.core_resources.'
'NsxPolicyTransportZoneApi.get_transport_type',
return_value='VLAN')
data = {'port': {
'network_id': network['network']['id'],
'tenant_id': self._tenant_id,
'name': 'qos_port',
'admin_state_up': True,
'device_id': 'fake_device',
'device_owner': 'fake_owner',
'fixed_ips': [],
'port_security_enabled': False,
'mac_address': '00:00:00:00:00:01',
'qos_policy_id': policy_id}
}
# Cannot add qos policy to this type of port
with mock_ens, mock_tz, mock_tt, \
mock.patch.object(self.plugin, '_validate_qos_policy_id'):
res = self.plugin.create_port(self.ctx, data)
self.assertEqual(policy_id, res['qos_policy_id'])
def test_create_port_with_mac_learning_true(self):
plugin = directory.get_plugin()
ctx = context.get_admin_context()
with self.network() as network:
data = {'port': {
'network_id': network['network']['id'],
'tenant_id': self._tenant_id,
'name': 'port',
'admin_state_up': True,
'device_id': 'fake_device',
'device_owner': 'fake_owner',
'fixed_ips': [],
'port_security_enabled': False,
'mac_address': '00:00:00:00:00:01',
'mac_learning_enabled': True}
}
port = plugin.create_port(ctx, data)
self.assertTrue(port['mac_learning_enabled'])
def test_create_port_with_mac_learning_false(self):
plugin = directory.get_plugin()
ctx = context.get_admin_context()
with self.network() as network:
data = {'port': {
'network_id': network['network']['id'],
'tenant_id': self._tenant_id,
'name': 'port',
'admin_state_up': True,
'device_id': 'fake_device',
'device_owner': 'fake_owner',
'fixed_ips': [],
'port_security_enabled': False,
'mac_address': '00:00:00:00:00:01',
'mac_learning_enabled': False}
}
port = plugin.create_port(ctx, data)
self.assertFalse(port['mac_learning_enabled'])
def test_update_port_with_mac_learning_true(self):
plugin = directory.get_plugin()
ctx = context.get_admin_context()
with self.network() as network:
data = {'port': {
'network_id': network['network']['id'],
'tenant_id': self._tenant_id,
'name': 'port',
'admin_state_up': True,
'device_id': 'fake_device',
'device_owner': 'fake_owner',
'fixed_ips': [],
'port_security_enabled': False,
'mac_address': '00:00:00:00:00:01'}
}
port = plugin.create_port(ctx, data)
data['port']['mac_learning_enabled'] = True
update_res = plugin.update_port(ctx, port['id'], data)
self.assertTrue(update_res['mac_learning_enabled'])
def test_update_port_with_mac_learning_false(self):
plugin = directory.get_plugin()
ctx = context.get_admin_context()
with self.network() as network:
data = {'port': {
'network_id': network['network']['id'],
'tenant_id': self._tenant_id,
'name': 'port',
'admin_state_up': True,
'device_id': 'fake_device',
'device_owner': 'fake_owner',
'fixed_ips': [],
'port_security_enabled': False,
'mac_address': '00:00:00:00:00:01'}
}
port = plugin.create_port(ctx, data)
data['port']['mac_learning_enabled'] = False
update_res = plugin.update_port(ctx, port['id'], data)
self.assertFalse(update_res['mac_learning_enabled'])
def test_update_port_with_mac_learning_failes(self):
plugin = directory.get_plugin()
ctx = context.get_admin_context()
with self.network() as network:
data = {'port': {
'network_id': network['network']['id'],
'tenant_id': self._tenant_id,
'name': 'port',
'admin_state_up': True,
'device_id': 'fake_device',
'device_owner': constants.DEVICE_OWNER_FLOATINGIP,
'fixed_ips': [],
'port_security_enabled': False,
'mac_address': '00:00:00:00:00:01'}
}
port = plugin.create_port(ctx, data)
data['port']['mac_learning_enabled'] = True
self.assertRaises(
n_exc.InvalidInput,
plugin.update_port, ctx, port['id'], data)
def _create_l3_ext_network(
self, physical_network=DEFAULT_TIER0_ROUTER_UUID):
name = 'l3_ext_net'
net_type = utils.NetworkTypes.L3_EXT
providernet_args = {pnet.NETWORK_TYPE: net_type,
pnet.PHYSICAL_NETWORK: physical_network}
return self.network(name=name,
router__external=True,
providernet_args=providernet_args,
arg_list=(pnet.NETWORK_TYPE,
pnet.PHYSICAL_NETWORK))
def test_fail_create_port_with_ext_net(self):
expected_error = 'InvalidInput'
with self._create_l3_ext_network() as network:
with self.subnet(network=network, cidr='10.0.0.0/24',
enable_dhcp=False):
device_owner = constants.DEVICE_OWNER_COMPUTE_PREFIX + 'X'
res = self._create_port(self.fmt,
network['network']['id'],
exc.HTTPBadRequest.code,
device_owner=device_owner)
data = self.deserialize(self.fmt, res)
self.assertEqual(expected_error, data['NeutronError']['type'])
def test_fail_update_port_with_ext_net(self):
with self._create_l3_ext_network() as network:
with self.subnet(network=network, cidr='10.0.0.0/24',
enable_dhcp=False) as subnet:
with self.port(subnet=subnet) as port:
device_owner = constants.DEVICE_OWNER_COMPUTE_PREFIX + 'X'
data = {'port': {'device_owner': device_owner}}
req = self.new_update_request('ports',
data, port['port']['id'])
res = req.get_response(self.api)
self.assertEqual(exc.HTTPBadRequest.code,
res.status_int)
def _test_create_direct_network(self, vlan_id=0):
net_type = vlan_id and 'vlan' or 'flat'
name = 'direct_net'
providernet_args = {pnet.NETWORK_TYPE: net_type,
pnet.PHYSICAL_NETWORK: 'tzuuid'}
if vlan_id:
providernet_args[pnet.SEGMENTATION_ID] = vlan_id
mock_tt = mock.patch('vmware_nsxlib.v3.policy'
'.core_resources.NsxPolicyTransportZoneApi'
'.get_transport_type',
return_value=nsx_constants.TRANSPORT_TYPE_VLAN)
mock_tt.start()
return self.network(name=name,
providernet_args=providernet_args,
arg_list=(pnet.NETWORK_TYPE,
pnet.PHYSICAL_NETWORK,
pnet.SEGMENTATION_ID))
def _test_create_port_vnic_direct(self, vlan_id):
with mock.patch('vmware_nsxlib.v3.policy.core_resources.'
'NsxPolicyTransportZoneApi.get_transport_type',
return_value=nsx_constants.TRANSPORT_TYPE_VLAN),\
self._test_create_direct_network(vlan_id=vlan_id) as network:
# Check that port security conflicts
kwargs = {portbindings.VNIC_TYPE: portbindings.VNIC_DIRECT,
psec.PORTSECURITY: True}
net_id = network['network']['id']
res = self._create_port(self.fmt, net_id=net_id,
arg_list=(portbindings.VNIC_TYPE,
psec.PORTSECURITY),
**kwargs)
self.assertEqual(res.status_int, exc.HTTPBadRequest.code)
# Check that security group conflicts
kwargs = {portbindings.VNIC_TYPE: portbindings.VNIC_DIRECT,
'security_groups': [
'4cd70774-cc67-4a87-9b39-7d1db38eb087'],
psec.PORTSECURITY: False}
net_id = network['network']['id']
res = self._create_port(self.fmt, net_id=net_id,
arg_list=(portbindings.VNIC_TYPE,
psec.PORTSECURITY),
**kwargs)
self.assertEqual(res.status_int, exc.HTTPBadRequest.code)
# All is kosher so we can create the port
kwargs = {portbindings.VNIC_TYPE: portbindings.VNIC_DIRECT}
net_id = network['network']['id']
res = self._create_port(self.fmt, net_id=net_id,
arg_list=(portbindings.VNIC_TYPE,),
**kwargs)
port = self.deserialize('json', res)
self.assertEqual("direct", port['port'][portbindings.VNIC_TYPE])
self.assertEqual("dvs", port['port'][portbindings.VIF_TYPE])
self.assertEqual(
vlan_id,
port['port'][portbindings.VIF_DETAILS]['segmentation-id'])
# try to get the same port
req = self.new_show_request('ports', port['port']['id'], self.fmt)
sport = self.deserialize(self.fmt, req.get_response(self.api))
self.assertEqual("dvs", sport['port'][portbindings.VIF_TYPE])
self.assertEqual("direct", sport['port'][portbindings.VNIC_TYPE])
self.assertEqual(
vlan_id,
sport['port'][portbindings.VIF_DETAILS]['segmentation-id'])
def test_create_port_vnic_direct_flat(self):
self._test_create_port_vnic_direct(0)
def test_create_port_vnic_direct_vlan(self):
self._test_create_port_vnic_direct(10)
def test_create_port_vnic_direct_invalid_network(self):
with self.network(name='not vlan/flat') as net:
kwargs = {portbindings.VNIC_TYPE: portbindings.VNIC_DIRECT,
psec.PORTSECURITY: False}
net_id = net['network']['id']
res = self._create_port(self.fmt, net_id=net_id,
arg_list=(portbindings.VNIC_TYPE,
psec.PORTSECURITY),
**kwargs)
self.assertEqual(exc.HTTPBadRequest.code, res.status_int)
def test_update_vnic_direct(self):
with self._test_create_direct_network(vlan_id=7) as network:
with self.subnet(network=network) as subnet:
with self.port(subnet=subnet) as port:
# need to do two updates as the update for port security
# disabled requires that it can only change 2 items
data = {'port': {psec.PORTSECURITY: False,
'security_groups': []}}
req = self.new_update_request('ports',
data, port['port']['id'])
res = self.deserialize('json', req.get_response(self.api))
self.assertEqual(portbindings.VNIC_NORMAL,
res['port'][portbindings.VNIC_TYPE])
data = {'port': {portbindings.VNIC_TYPE:
portbindings.VNIC_DIRECT}}
req = self.new_update_request('ports',
data, port['port']['id'])
res = self.deserialize('json', req.get_response(self.api))
self.assertEqual(portbindings.VNIC_DIRECT,
res['port'][portbindings.VNIC_TYPE])
def test_port_invalid_vnic_type(self):
with self._test_create_direct_network(vlan_id=7) as network:
kwargs = {portbindings.VNIC_TYPE: 'invalid',
psec.PORTSECURITY: False}
net_id = network['network']['id']
res = self._create_port(self.fmt, net_id=net_id,
arg_list=(portbindings.VNIC_TYPE,
psec.PORTSECURITY),
**kwargs)
self.assertEqual(res.status_int, exc.HTTPBadRequest.code)
class NsxPTestSubnets(common_v3.NsxV3TestSubnets,
NsxPPluginTestCaseMixin):
def setUp(self, plugin=PLUGIN_NAME, ext_mgr=None):
super(NsxPTestSubnets, self).setUp(plugin=plugin, ext_mgr=ext_mgr)
self.force_slaac = False
def _create_subnet_bulk(self, fmt, number, net_id, name,
ip_version=4, **kwargs):
base_data = {'subnet': {'network_id': net_id,
'ip_version': ip_version,
'enable_dhcp': False,
'tenant_id': self._tenant_id}}
if 'ipv6_mode' in kwargs:
base_data['subnet']['ipv6_ra_mode'] = kwargs['ipv6_mode']
base_data['subnet']['ipv6_address_mode'] = kwargs['ipv6_mode']
# auto-generate cidrs as they should not overlap
base_cidr = "10.0.%s.0/24"
if ip_version == constants.IP_VERSION_6:
base_cidr = "fd%s::/64"
# auto-generate cidrs as they should not overlap
overrides = dict((k, v)
for (k, v) in zip(range(number),
[{'cidr': base_cidr % num}
for num in range(number)]))
kwargs.update({'override': overrides})
return self._create_bulk(fmt, number, 'subnet', base_data, **kwargs)
def _test_create_subnet(self, network=None, expected=None, **kwargs):
# Until DHCPv6 is supported, switch all test to slaac-only
if (self.force_slaac and
'ipv6_ra_mode' in kwargs and 'ipv6_address_mode' in kwargs):
kwargs['ipv6_ra_mode'] = constants.IPV6_SLAAC
kwargs['ipv6_address_mode'] = constants.IPV6_SLAAC
return super(NsxPTestSubnets,
self)._test_create_subnet(network, expected, **kwargs)
def test_create_external_subnet_with_conflicting_t0_address(self):
with self._create_l3_ext_network() as network:
data = {'subnet': {'network_id': network['network']['id'],
'cidr': '172.20.1.0/24',
'name': 'sub1',
'enable_dhcp': False,
'dns_nameservers': None,
'allocation_pools': None,
'tenant_id': 'tenant_one',
'host_routes': None,
'ip_version': 4}}
with mock.patch.object(self.plugin.nsxpolicy.tier0,
'get_uplink_cidrs',
return_value=['172.20.1.60/24']):
self.assertRaises(n_exc.InvalidInput,
self.plugin.create_subnet,
context.get_admin_context(), data)
def test_create_external_subnet_with_non_conflicting_t0_address(self):
with self._create_l3_ext_network() as network:
data = {'subnet': {'network_id': network['network']['id'],
'cidr': '172.20.1.0/24',
'name': 'sub1',
'enable_dhcp': False,
'dns_nameservers': None,
'allocation_pools': None,
'tenant_id': 'tenant_one',
'host_routes': None,
'ip_version': 4}}
with mock.patch.object(self.plugin.nsxpolicy.tier0,
'get_uplink_ips',
return_value=['172.20.2.60']):
self.plugin.create_subnet(
context.get_admin_context(), data)
@common_v3.with_disable_dhcp_once
def test_create_subnet_ipv6_slaac_with_port_on_network(self):
super(NsxPTestSubnets,
self).test_create_subnet_ipv6_slaac_with_port_on_network()
class NsxPTestSecurityGroup(common_v3.FixExternalNetBaseTest,
NsxPPluginTestCaseMixin,
test_securitygroup.TestSecurityGroups,
test_securitygroup.SecurityGroupDBTestCase):
def setUp(self, plugin=PLUGIN_NAME, ext_mgr=None):
super(NsxPTestSecurityGroup, self).setUp(plugin=plugin,
ext_mgr=ext_mgr)
self.project_id = test_db_base_plugin_v2.TEST_TENANT_ID
# add provider group attributes
secgrp.Securitygroup().update_attributes_map(
provider_sg.EXTENDED_ATTRIBUTES_2_0)
def test_create_security_group_rule_icmp_with_type_and_code(self):
"""No non-zero icmp codes are currently supported by the NSX"""
self.skipTest('not supported')
def test_create_security_group_rule_icmp_with_type(self):
name = 'webservers'
description = 'my webservers'
with self.security_group(name, description) as sg:
security_group_id = sg['security_group']['id']
direction = "ingress"
remote_ip_prefix = "10.0.0.0/24"
protocol = "icmp"
# port_range_min (ICMP type) is greater than port_range_max
# (ICMP code) in order to confirm min <= max port check is
# not called for ICMP.
port_range_min = 14
port_range_max = None
keys = [('remote_ip_prefix', remote_ip_prefix),
('security_group_id', security_group_id),
('direction', direction),
('protocol', protocol),
('port_range_min', port_range_min),
('port_range_max', port_range_max)]
with self.security_group_rule(security_group_id, direction,
protocol, port_range_min,
port_range_max,
remote_ip_prefix) as rule:
for k, v, in keys:
self.assertEqual(rule['security_group_rule'][k], v)
@common_v3.with_no_dhcp_subnet
def test_list_ports_security_group(self):
return super(NsxPTestSecurityGroup,
self).test_list_ports_security_group()
@mock.patch.object(nsx_plugin.NsxPolicyPlugin, 'get_security_group')
def test_create_security_group_rule_with_invalid_tcp_or_udp_protocol(
self, get_mock):
super(NsxPTestSecurityGroup, self).\
test_create_security_group_rule_with_invalid_tcp_or_udp_protocol()
@mock.patch.object(nsx_plugin.NsxPolicyPlugin, 'get_security_group')
def test_create_security_group_source_group_ip_and_ip_prefix(
self, get_mock):
super(NsxPTestSecurityGroup, self).\
test_create_security_group_source_group_ip_and_ip_prefix()
def _create_default_sg(self):
self.plugin._ensure_default_security_group(
context.get_admin_context(), self.project_id)
def test_sg_create_on_nsx(self):
"""Verify that a group and comm-map are created for a new SG"""
# Make sure the default SG is created before testing
self._create_default_sg()
name = description = 'sg1'
with mock.patch("vmware_nsxlib.v3.policy.core_resources."
"NsxPolicyGroupApi.create_or_overwrite_with_conditions"
) as group_create,\
mock.patch("vmware_nsxlib.v3.policy.core_resources."
"NsxPolicyCommunicationMapApi."
"create_or_overwrite_map_only") as comm_map_create,\
self.security_group(name, description) as sg:
sg_id = sg['security_group']['id']
nsx_name = utils.get_name_and_uuid(name, sg_id)
group_create.assert_called_once_with(
nsx_name, policy_constants.DEFAULT_DOMAIN, group_id=sg_id,
description=description,
conditions=[mock.ANY], tags=mock.ANY)
comm_map_create.assert_called_once_with(
nsx_name, policy_constants.DEFAULT_DOMAIN, map_id=sg_id,
description=description,
tags=mock.ANY,
category=policy_constants.CATEGORY_ENVIRONMENT)
def _create_provider_security_group(self):
body = {'security_group': {'name': 'provider-deny',
'tenant_id': self._tenant_id,
'description': 'provider sg',
'provider': True}}
security_group_req = self.new_create_request('security-groups', body)
return self.deserialize(self.fmt,
security_group_req.get_response(self.ext_api))
def test_provider_sg_on_port(self):
psg = self._create_provider_security_group()
with mock.patch("vmware_nsxlib.v3.policy.core_resources."
"NsxPolicySegmentPortApi.create_or_overwrite"
) as port_create:
with self.port(tenant_id=self._tenant_id) as port:
# make sure the port has the provider sg
port_data = port['port']
self.assertEqual(1, len(port_data['provider_security_groups']))
self.assertEqual(psg['security_group']['id'],
port_data['provider_security_groups'][0])
# Make sure the correct security groups tags were set
port_create.assert_called_once()
actual_tags = port_create.call_args[1]['tags']
sg_tags = 0
psg_tag_found = False
for tag in actual_tags:
if tag['scope'] == 'os-security-group':
sg_tags += 1
if tag['tag'] == psg['security_group']['id']:
psg_tag_found = True
self.assertEqual(2, sg_tags)
self.assertTrue(psg_tag_found)
def test_remove_provider_sg_from_port(self):
psg = self._create_provider_security_group()
with self.port(tenant_id=self._tenant_id) as port:
with mock.patch("vmware_nsxlib.v3.policy.core_resources."
"NsxPolicySegmentPortApi.create_or_overwrite"
) as port_update:
# specifically remove the provider sg from the port
data = {'port': {'provider_security_groups': []}}
req = self.new_update_request('ports',
data, port['port']['id'])
res = self.deserialize('json', req.get_response(self.api))
self.assertEqual(0,
len(res['port']['provider_security_groups']))
# Make sure the correct security groups tags were set
port_update.assert_called_once()
actual_tags = port_update.call_args[1]['tags']
sg_tags = 0
psg_tag_found = False
for tag in actual_tags:
if tag['scope'] == 'os-security-group':
sg_tags += 1
if tag['tag'] == psg['security_group']['id']:
psg_tag_found = True
self.assertEqual(1, sg_tags)
self.assertFalse(psg_tag_found)
def test_sg_rule_create_on_nsx(self):
"""Verify that a comm-map entry is created for a new SG rule """
name = description = 'sg1'
direction = "ingress"
remote_ip_prefix = "10.0.0.0/24"
protocol = "tcp"
port_range_min = 80
port_range_max = 80
with self.security_group(name, description) as sg:
sg_id = sg['security_group']['id']
with mock.patch("vmware_nsxlib.v3.policy.core_resources."
"NsxPolicyCommunicationMapApi.create_entry"
) as entry_create,\
self.security_group_rule(sg_id, direction,
protocol, port_range_min,
port_range_max,
remote_ip_prefix) as rule:
rule_id = rule['security_group_rule']['id']
scope = [self.plugin.nsxpolicy.group.get_path(
policy_constants.DEFAULT_DOMAIN, sg_id)]
entry_create.assert_called_once_with(
rule_id, policy_constants.DEFAULT_DOMAIN,
sg_id, entry_id=rule_id,
description='',
direction=nsx_constants.IN,
ip_protocol=nsx_constants.IPV4,
action=policy_constants.ACTION_ALLOW,
service_ids=mock.ANY,
source_groups=mock.ANY,
dest_groups=mock.ANY,
scope=scope,
logged=False,
tag=mock.ANY)
def test_create_security_group_rule_with_remote_group(self):
with self.security_group() as sg1, self.security_group() as sg2:
security_group_id = sg1['security_group']['id']
direction = "ingress"
remote_group_id = sg2['security_group']['id']
protocol = "tcp"
keys = [('remote_group_id', remote_group_id),
('security_group_id', security_group_id),
('direction', direction),
('protocol', protocol)]
with self.security_group_rule(
security_group_id, direction=direction, protocol=protocol,
remote_group_id=remote_group_id) as rule:
for k, v, in keys:
self.assertEqual(rule['security_group_rule'][k], v)
def test_delete_security_group_rule_with_remote_group(self):
com_plugin.subscribe()
with self.security_group() as sg1, self.security_group() as sg2:
security_group_id = sg1['security_group']['id']
direction = "ingress"
remote_group_id = sg2['security_group']['id']
protocol = "tcp"
with self.security_group_rule(
security_group_id, direction=direction, protocol=protocol,
remote_group_id=remote_group_id) as rule,\
mock.patch.object(
self.plugin, "delete_security_group_rule") as del_rule:
# delete sg2
self._delete('security-groups', remote_group_id,
exc.HTTPNoContent.code)
# verify the rule was deleted
del_rule.assert_called_once_with(
mock.ANY, rule["security_group_rule"]["id"])
class NsxPTestL3ExtensionManager(object):
def get_resources(self):
# Simulate extension of L3 attribute map
l3.L3().update_attributes_map(
l3_egm_apidef.RESOURCE_ATTRIBUTE_MAP)
l3.L3().update_attributes_map(
xroute_apidef.RESOURCE_ATTRIBUTE_MAP)
return (l3.L3.get_resources() +
address_scope.Address_scope.get_resources())
def get_actions(self):
return []
def get_request_extensions(self):
return []
class NsxPTestL3NatTest(common_v3.FixExternalNetBaseTest,
common_v3.NsxV3SubnetMixin,
NsxPPluginTestCaseMixin,
test_l3_plugin.L3BaseForIntTests,
test_address_scope.AddressScopeTestCase):
def setUp(self, *args, **kwargs):
cfg.CONF.set_override('api_extensions_path', vmware.NSXEXT_PATH)
cfg.CONF.set_default('max_routes', 3)
kwargs['ext_mgr'] = (kwargs.get('ext_mgr') or
NsxPTestL3ExtensionManager())
# Make sure the LB callback is not called on router deletion
self.lb_mock1 = mock.patch(
"vmware_nsx.services.lbaas.octavia.octavia_listener."
"NSXOctaviaListenerEndpoint._check_lb_service_on_router")
self.lb_mock1.start()
self.lb_mock2 = mock.patch(
"vmware_nsx.services.lbaas.octavia.octavia_listener."
"NSXOctaviaListenerEndpoint._check_lb_service_on_router_interface")
self.lb_mock2.start()
super(NsxPTestL3NatTest, self).setUp(*args, **kwargs)
self.original_subnet = self.subnet
self.original_network = self.network
self.plugin_instance = directory.get_plugin()
self._plugin_name = "%s.%s" % (
self.plugin_instance.__module__,
self.plugin_instance.__class__.__name__)
self._plugin_class = self.plugin_instance.__class__
def external_network(self, name='net1',
admin_state_up=True,
fmt=None, **kwargs):
if not name:
name = 'l3_ext_net'
physical_network = 'abc'
net_type = utils.NetworkTypes.L3_EXT
providernet_args = {pnet.NETWORK_TYPE: net_type,
pnet.PHYSICAL_NETWORK: physical_network}
return self.original_network(name=name,
admin_state_up=admin_state_up,
fmt=fmt,
router__external=True,
providernet_args=providernet_args,
arg_list=(pnet.NETWORK_TYPE,
pnet.PHYSICAL_NETWORK))
def test_floatingip_create_different_fixed_ip_same_port(self):
self.skipTest('Multiple fixed ips on a port are not supported')
def test_router_add_interface_multiple_ipv4_subnet_port_returns_400(self):
self.skipTest('Multiple fixed ips on a port are not supported')
def test_router_add_interface_multiple_ipv6_subnet_port(self):
self.skipTest('Multiple fixed ips on a port are not supported')
def test_floatingip_update_different_fixed_ip_same_port(self):
self.skipTest('Multiple fixed ips on a port are not supported')
def test_create_multiple_floatingips_same_fixed_ip_same_port(self):
self.skipTest('Multiple fixed ips on a port are not supported')
class NsxPTestL3NatTestCase(NsxPTestL3NatTest,
test_l3_plugin.L3NatDBIntTestCase,
test_ext_route.ExtraRouteDBTestCaseBase):
def setUp(self, *args, **kwargs):
super(NsxPTestL3NatTestCase, self).setUp(*args, **kwargs)
def test__notify_gateway_port_ip_changed(self):
self.skipTest('not supported')
def test__notify_gateway_port_ip_not_changed(self):
self.skipTest('not supported')
def test_floatingip_via_router_interface_returns_201(self):
self.skipTest('not supported')
def test_floatingip_via_router_interface_returns_404(self):
self.skipTest('not supported')
def test_network_update_external(self):
# This plugin does not support updating the external flag of a network
self.skipTest('not supported')
def test_network_update_external_failure(self):
# This plugin does not support updating the external flag of a network
self.skipTest('not supported')
def test_router_add_gateway_dup_subnet1_returns_400(self):
self.skipTest('not supported')
def test_router_add_interface_dup_subnet2_returns_400(self):
self.skipTest('not supported')
def test_router_add_interface_ipv6_port_existing_network_returns_400(self):
self.skipTest('not supported')
def test_routes_update_for_multiple_routers(self):
self.skipTest('not supported')
def test_floatingip_multi_external_one_internal(self):
self.skipTest('not supported')
def test_floatingip_same_external_and_internal(self):
self.skipTest('not supported')
def test_route_update_with_external_route(self):
self.skipTest('not supported')
def test_floatingip_update_subnet_gateway_disabled(self):
self.skipTest('not supported')
def test_floatingip_update_to_same_port_id_twice(self):
self.skipTest('Plugin changes floating port status')
def test_router_add_interface_by_port_other_tenant_address_out_of_pool(
self):
# multiple fixed ips per port are not supported
self.skipTest('not supported')
def test_router_add_interface_by_port_other_tenant_address_in_pool(self):
# multiple fixed ips per port are not supported
self.skipTest('not supported')
def test_router_add_interface_by_port_admin_address_out_of_pool(self):
# multiple fixed ips per port are not supported
self.skipTest('not supported')
def test_router_add_gateway_no_subnet(self):
self.skipTest('No support for no subnet gateway set')
def test_create_router_gateway_fails(self):
self.skipTest('not supported')
def test_router_remove_ipv6_subnet_from_interface(self):
self.skipTest('not supported')
def test_router_add_interface_multiple_ipv6_subnets_same_net(self):
self.skipTest('not supported')
def test_router_add_interface_multiple_ipv4_subnets(self):
self.skipTest('not supported')
def test_router_update_gateway_upon_subnet_create_max_ips_ipv6(self):
self.skipTest('not supported')
def test_router_delete_dhcpv6_stateless_subnet_inuse_returns_409(self):
self.skipTest('not supported')
@common_v3.with_disable_dhcp
@common_v3.with_external_network
def test_router_update_gateway_upon_subnet_create_ipv6(self):
super(NsxPTestL3NatTestCase,
self).test_router_update_gateway_upon_subnet_create_ipv6()
def test_router_delete_ipv6_slaac_subnet_inuse_returns_409(self):
self.skipTest('not supported')
def test_router_add_gateway_multiple_subnets_ipv6(self):
self.skipTest('not supported')
def test_router_add_interface_ipv6_subnet(self):
self.skipTest('DHCPv6 not supported')
def test_slaac_profile_single_subnet(self):
with mock.patch("vmware_nsxlib.v3.policy.core_resources."
"NsxPolicyTier1Api.update") as t1_update:
with self.router() as r, self.network() as n:
with self.subnet(network=n, cidr='fd00::0/64',
gateway_ip='fd00::1', ip_version=6,
ipv6_address_mode='slaac',
ipv6_ra_mode='slaac') as s:
self._router_interface_action('add',
r['router']['id'],
s['subnet']['id'],
None)
# Validate T1 was updated with slaac profile
t1_update.assert_called_with(
r['router']['id'],
ipv6_ndra_profile_id='neutron-slaac-profile')
self._router_interface_action('remove',
r['router']['id'],
s['subnet']['id'],
None)
# Validate T1 was updated with default profile
t1_update.assert_called_with(
r['router']['id'],
ipv6_ndra_profile_id='default')
def test_slaac_profile_dual_stack(self):
with mock.patch("vmware_nsxlib.v3.policy.core_resources."
"NsxPolicyTier1Api.update") as t1_update:
with self.router() as r,\
self.network() as n:
with self.subnet(network=n, cidr='2.3.3.0/24') as s1,\
self.subnet(network=n, cidr='fd10::0/64',
gateway_ip='fd10::1', ip_version=6,
ipv6_address_mode='slaac',
ipv6_ra_mode='slaac') as s2:
self._router_interface_action('add',
r['router']['id'],
s1['subnet']['id'],
None)
self._router_interface_action('add',
r['router']['id'],
s2['subnet']['id'],
None)
# Validate T1 was updated with slaac profile
t1_update.assert_called_with(
r['router']['id'],
ipv6_ndra_profile_id='neutron-slaac-profile')
# Remove non-slaac subnets first
self._router_interface_action('remove',
r['router']['id'],
s1['subnet']['id'],
None)
self._router_interface_action('remove',
r['router']['id'],
s2['subnet']['id'],
None)
# Validate T1 was updated with default profile
t1_update.assert_called_with(
r['router']['id'],
ipv6_ndra_profile_id='default')
self._delete('subnets', s1['subnet']['id'])
self._delete('subnets', s2['subnet']['id'])
def test_slaac_profile_multi_net(self):
with mock.patch("vmware_nsxlib.v3.policy.core_resources."
"NsxPolicyTier1Api.update") as t1_update:
with self.router() as r,\
self.network() as n1, self.network() as n2:
with self.subnet(network=n1, cidr='fd00::0/64',
gateway_ip='fd00::1', ip_version=6,
enable_dhcp=False) as s1,\
self.subnet(network=n2, cidr='fd10::0/64',
gateway_ip='fd10::1', ip_version=6,
ipv6_address_mode='slaac',
ipv6_ra_mode='slaac') as s2,\
self.subnet(network=n2, cidr='2.3.3.0/24',
gateway_ip='2.3.3.1') as s3:
# Add three subnets to the router, with slaac-enabled one
# in the middle
self._router_interface_action('add',
r['router']['id'],
s1['subnet']['id'],
None)
self._router_interface_action('add',
r['router']['id'],
s2['subnet']['id'],
None)
self._router_interface_action('add',
r['router']['id'],
s3['subnet']['id'],
None)
# Validate T1 was updated with slaac profile
t1_update.assert_called_with(
r['router']['id'],
ipv6_ndra_profile_id='neutron-slaac-profile')
# Remove non-slaac subnets first
self._router_interface_action('remove',
r['router']['id'],
s1['subnet']['id'],
None)
self._router_interface_action('remove',
r['router']['id'],
s3['subnet']['id'],
None)
self._router_interface_action('remove',
r['router']['id'],
s2['subnet']['id'],
None)
# Validate T1 was updated with default profile
t1_update.assert_called_with(
r['router']['id'],
ipv6_ndra_profile_id='default')
def _test_router_add_dual_stack_subnets(self, s6_first=False):
"""Add dual stack subnets to router"""
with mock.patch("vmware_nsxlib.v3.policy.core_resources."
"NsxPolicySegmentApi.update") as seg_update:
with self.router() as r, self.network() as n:
with self.subnet(
network=n, cidr='fd00::0/64', gateway_ip='fd00::1',
ip_version=6, enable_dhcp=False) as s6, self.subnet(
network=n, cidr='2.0.0.0/24',
gateway_ip='2.0.0.1') as s4:
subnets = []
if s6_first:
self._router_interface_action('add',
r['router']['id'],
s6['subnet']['id'],
None)
subnets.append(s6['subnet']['cidr'])
self._router_interface_action('add',
r['router']['id'],
s4['subnet']['id'],
None)
subnets.append(s4['subnet']['cidr'])
if not s6_first:
self._router_interface_action('add',
r['router']['id'],
s6['subnet']['id'],
None)
subnets.append(s6['subnet']['cidr'])
# We expect two subnet objects on segment
seg_update.assert_called_with(
n['network']['id'],
subnets=[mock.ANY, mock.ANY],
tier1_id=r['router']['id'])
def test_router_add_v4_v6_subnets(self):
self._test_router_add_dual_stack_subnets()
def test_router_add_v6_v4_subnets(self):
self._test_router_add_dual_stack_subnets(s6_first=True)
def test_router_remove_dual_stack_subnets(self):
"""Delete dual stack subnets from router interface"""
with self.router() as r, self.network() as n:
with self.subnet(network=n, cidr='fd00::0/64',
ip_version=6, enable_dhcp=False) as s6, \
self.subnet(network=n, cidr='2.0.0.0/24') as s4:
body6 = self._router_interface_action('add', r['router']['id'],
s6['subnet']['id'],
None)
body4 = self._router_interface_action('add', r['router']['id'],
s4['subnet']['id'], None)
port = self._show('ports', body6['port_id'])
self.assertEqual(1, len(port['port']['fixed_ips']))
port = self._show('ports', body4['port_id'])
self.assertEqual(1, len(port['port']['fixed_ips']))
self._router_interface_action('remove', r['router']['id'],
s6['subnet']['id'], None)
self._router_interface_action('remove', r['router']['id'],
s4['subnet']['id'], None)
def test_router_add_interface_ipv6_single_subnet(self):
with self.router() as r, self.network() as n:
with self.subnet(network=n, cidr='fd00::1/64',
gateway_ip='fd00::1', ip_version=6,
enable_dhcp=False) as s:
self._test_router_add_interface_subnet(r, s)
@common_v3.with_disable_dhcp
def test_route_clear_routes_with_None(self):
super(NsxPTestL3NatTestCase,
self).test_route_clear_routes_with_None()
@common_v3.with_disable_dhcp
def test_route_update_with_multi_routes(self):
super(NsxPTestL3NatTestCase,
self).test_route_update_with_multi_routes()
@common_v3.with_disable_dhcp
def test_route_update_with_one_route(self):
super(NsxPTestL3NatTestCase,
self).test_route_update_with_one_route()
@common_v3.with_disable_dhcp
def test_router_update_delete_routes(self):
super(NsxPTestL3NatTestCase,
self).test_router_update_delete_routes()
@common_v3.with_disable_dhcp
def test_router_interface_in_use_by_route(self):
super(NsxPTestL3NatTestCase,
self).test_router_interface_in_use_by_route()
@common_v3.with_disable_dhcp
def test_create_floatingip_with_assoc_to_ipv4_and_ipv6_port(self):
super(NsxPTestL3NatTestCase,
self).test_create_floatingip_with_assoc_to_ipv4_and_ipv6_port()
@common_v3.with_external_subnet
def test_router_update_gateway_with_external_ip_used_by_gw(self):
super(NsxPTestL3NatTestCase,
self).test_router_update_gateway_with_external_ip_used_by_gw()
@common_v3.with_external_subnet
def test_router_update_gateway_with_invalid_external_ip(self):
super(NsxPTestL3NatTestCase,
self).test_router_update_gateway_with_invalid_external_ip()
@common_v3.with_external_subnet
def test_router_update_gateway_with_invalid_external_subnet(self):
super(NsxPTestL3NatTestCase,
self).test_router_update_gateway_with_invalid_external_subnet()
@common_v3.with_external_network
def test_router_update_gateway_with_different_external_subnet(self):
super(NsxPTestL3NatTestCase,
self).test_router_update_gateway_with_different_external_subnet()
@common_v3.with_external_subnet_once
def test_router_update_gateway_with_existed_floatingip(self):
with self.subnet(cidr='20.0.0.0/24') as subnet:
self._set_net_external(subnet['subnet']['network_id'])
with self.floatingip_with_assoc() as fip:
self._add_external_gateway_to_router(
fip['floatingip']['router_id'],
subnet['subnet']['network_id'],
expected_code=exc.HTTPConflict.code)
@common_v3.with_external_network
def test_router_update_gateway_add_multiple_prefixes_ipv6(self):
super(NsxPTestL3NatTestCase,
self).test_router_update_gateway_add_multiple_prefixes_ipv6()
@common_v3.with_external_network
def test_router_concurrent_delete_upon_subnet_create(self):
super(NsxPTestL3NatTestCase,
self).test_router_concurrent_delete_upon_subnet_create()
@common_v3.with_external_subnet
def test_router_add_gateway_dup_subnet2_returns_400(self):
super(NsxPTestL3NatTestCase,
self).test_router_add_gateway_dup_subnet2_returns_400()
@common_v3.with_external_subnet
def test_router_update_gateway(self):
super(NsxPTestL3NatTestCase,
self).test_router_update_gateway()
@common_v3.with_external_subnet
def test_router_create_with_gwinfo(self):
super(NsxPTestL3NatTestCase,
self).test_router_create_with_gwinfo()
@common_v3.with_external_subnet
def test_router_clear_gateway_callback_failure_returns_409(self):
super(NsxPTestL3NatTestCase,
self).test_router_clear_gateway_callback_failure_returns_409()
@common_v3.with_external_subnet
def test_router_create_with_gwinfo_ext_ip(self):
super(NsxPTestL3NatTestCase,
self).test_router_create_with_gwinfo_ext_ip()
@common_v3.with_external_network
def test_router_create_with_gwinfo_ext_ip_subnet(self):
super(NsxPTestL3NatTestCase,
self).test_router_create_with_gwinfo_ext_ip_subnet()
@common_v3.with_external_subnet_second_time
def test_router_delete_with_floatingip_existed_returns_409(self):
super(NsxPTestL3NatTestCase,
self).test_router_delete_with_floatingip_existed_returns_409()
@common_v3.with_external_subnet
def test_router_add_and_remove_gateway_tenant_ctx(self):
super(NsxPTestL3NatTestCase,
self).test_router_add_and_remove_gateway_tenant_ctx()
@common_v3.with_external_subnet
def test_router_add_and_remove_gateway(self):
super(NsxPTestL3NatTestCase,
self).test_router_add_and_remove_gateway()
@common_v3.with_external_subnet
def test_floatingip_list_with_sort(self):
super(NsxPTestL3NatTestCase,
self).test_floatingip_list_with_sort()
@common_v3.with_external_subnet_once
def test_floatingip_with_assoc_fails(self):
super(NsxPTestL3NatTestCase,
self).test_floatingip_with_assoc_fails()
@common_v3.with_external_subnet_second_time
def test_floatingip_update_same_fixed_ip_same_port(self):
super(NsxPTestL3NatTestCase,
self).test_floatingip_update_same_fixed_ip_same_port()
@common_v3.with_external_subnet
def test_floatingip_list_with_pagination_reverse(self):
super(NsxPTestL3NatTestCase,
self).test_floatingip_list_with_pagination_reverse()
@common_v3.with_external_subnet_once
def test_floatingip_association_on_unowned_router(self):
super(NsxPTestL3NatTestCase,
self).test_floatingip_association_on_unowned_router()
@common_v3.with_external_network
def test_delete_ext_net_with_disassociated_floating_ips(self):
super(NsxPTestL3NatTestCase,
self).test_delete_ext_net_with_disassociated_floating_ips()
@common_v3.with_external_network
def test_create_floatingip_with_subnet_and_invalid_fip_address(self):
super(
NsxPTestL3NatTestCase,
self).test_create_floatingip_with_subnet_and_invalid_fip_address()
@common_v3.with_external_subnet
def test_create_floatingip_with_duplicated_specific_ip(self):
super(NsxPTestL3NatTestCase,
self).test_create_floatingip_with_duplicated_specific_ip()
@common_v3.with_external_subnet
def test_create_floatingip_with_subnet_id_non_admin(self):
super(NsxPTestL3NatTestCase,
self).test_create_floatingip_with_subnet_id_non_admin()
@common_v3.with_external_subnet
def test_floatingip_list_with_pagination(self):
super(NsxPTestL3NatTestCase,
self).test_floatingip_list_with_pagination()
@common_v3.with_external_subnet
def test_create_floatingips_native_quotas(self):
super(NsxPTestL3NatTestCase,
self).test_create_floatingips_native_quotas()
@common_v3.with_external_network
def test_create_floatingip_with_multisubnet_id(self):
super(NsxPTestL3NatTestCase,
self).test_create_floatingip_with_multisubnet_id()
@common_v3.with_external_network
def test_create_floatingip_with_subnet_id_and_fip_address(self):
super(NsxPTestL3NatTestCase,
self).test_create_floatingip_with_subnet_id_and_fip_address()
@common_v3.with_external_subnet
def test_create_floatingip_with_specific_ip(self):
super(NsxPTestL3NatTestCase,
self).test_create_floatingip_with_specific_ip()
@common_v3.with_external_network
def test_create_floatingip_ipv6_and_ipv4_network_creates_ipv4(self):
super(NsxPTestL3NatTestCase,
self).test_create_floatingip_ipv6_and_ipv4_network_creates_ipv4()
@common_v3.with_external_subnet_once
def test_create_floatingip_non_admin_context_agent_notification(self):
super(
NsxPTestL3NatTestCase,
self).test_create_floatingip_non_admin_context_agent_notification()
@common_v3.with_external_subnet
def test_create_floatingip_no_ext_gateway_return_404(self):
super(NsxPTestL3NatTestCase,
self).test_create_floatingip_no_ext_gateway_return_404()
@common_v3.with_external_subnet
def test_create_floatingip_with_specific_ip_out_of_allocation(self):
super(NsxPTestL3NatTestCase,
self).test_create_floatingip_with_specific_ip_out_of_allocation()
@common_v3.with_external_subnet_third_time
def test_floatingip_update_different_router(self):
super(NsxPTestL3NatTestCase,
self).test_floatingip_update_different_router()
def test_floatingip_update(self):
super(NsxPTestL3NatTestCase, self).test_floatingip_update(
expected_status=constants.FLOATINGIP_STATUS_DOWN)
@common_v3.with_external_subnet_second_time
def test_floatingip_with_invalid_create_port(self):
self._test_floatingip_with_invalid_create_port(self._plugin_name)
def test_router_add_gateway_notifications(self):
with self.router() as r,\
self._create_l3_ext_network() as ext_net,\
self.subnet(network=ext_net, enable_dhcp=False):
with mock.patch.object(registry, 'notify') as notify:
self._add_external_gateway_to_router(
r['router']['id'], ext_net['network']['id'])
expected = [mock.call(
resources.ROUTER_GATEWAY,
events.AFTER_CREATE, mock.ANY,
context=mock.ANY, gw_ips=mock.ANY,
network_id=mock.ANY, router_id=mock.ANY)]
notify.assert_has_calls(expected)
def test_router_add_gateway_no_subnet_forbidden(self):
with self.router() as r:
with self._create_l3_ext_network() as n:
self._add_external_gateway_to_router(
r['router']['id'], n['network']['id'],
expected_code=exc.HTTPBadRequest.code)
def test_router_update_on_external_port(self):
with self.router() as r:
with self._create_l3_ext_network() as ext_net,\
self.subnet(network=ext_net, cidr='10.0.1.0/24',
enable_dhcp=False) as s:
self._add_external_gateway_to_router(
r['router']['id'],
s['subnet']['network_id'])
body = self._show('routers', r['router']['id'])
net_id = body['router']['external_gateway_info']['network_id']
self.assertEqual(net_id, s['subnet']['network_id'])
port_res = self._list_ports(
'json',
200,
s['subnet']['network_id'],
tenant_id=r['router']['tenant_id'],
device_owner=constants.DEVICE_OWNER_ROUTER_GW)
port_list = self.deserialize('json', port_res)
self.assertEqual(len(port_list['ports']), 1)
routes = [{'destination': '135.207.0.0/16',
'nexthop': '10.0.1.3'}]
self.assertRaises(n_exc.InvalidInput,
self.plugin_instance.update_router,
context.get_admin_context(),
r['router']['id'],
{'router': {'routes':
routes}})
updates = {'admin_state_up': False}
self.assertRaises(n_exc.InvalidInput,
self.plugin_instance.update_router,
context.get_admin_context(),
r['router']['id'],
{'router': updates})
self._remove_external_gateway_from_router(
r['router']['id'],
s['subnet']['network_id'])
body = self._show('routers', r['router']['id'])
gw_info = body['router']['external_gateway_info']
self.assertIsNone(gw_info)
@mock.patch.object(nsx_plugin.NsxPolicyPlugin,
'validate_availability_zones')
def test_create_router_with_availability_zone(self, mock_validate_az):
name = 'rtr-with-zone'
zone = ['zone1']
mock_validate_az.return_value = None
with self.router(name=name, availability_zone_hints=zone) as rtr:
az_hints = rtr['router']['availability_zone_hints']
self.assertListEqual(zone, az_hints)
def test_update_router_distinct_edge_cluster(self):
# define an edge cluster in the config
edge_cluster = uuidutils.generate_uuid()
cfg.CONF.set_override('edge_cluster', edge_cluster, 'nsx_p')
self._initialize_azs()
path_prefix = ("/infra/sites/default/enforcement-points/default/"
"edge-clusters/")
# create a router and external network
with self.router() as r, self._create_l3_ext_network() as ext_net, \
self.subnet(
network=ext_net, cidr='10.0.1.0/24',
enable_dhcp=False) as s, mock.patch(
"vmware_nsxlib.v3.policy.core_resources."
"NsxPolicyTier1Api.get_edge_cluster_path",
return_value=False), mock.patch(
"vmware_nsxlib.v3.policy.core_resources."
"NsxPolicyTier1Api.set_edge_cluster_path") as add_srv_router:
self._add_external_gateway_to_router(
r['router']['id'],
s['subnet']['network_id'])
add_srv_router.assert_called_once_with(
mock.ANY, '%s%s' % (path_prefix, edge_cluster))
def test_router_add_interface_cidr_overlapped_with_gateway(self):
with self.router() as r,\
self._create_l3_ext_network() as ext_net,\
self.subnet(cidr='10.0.1.0/24') as s1,\
self.subnet(network=ext_net, cidr='10.0.0.0/16',
enable_dhcp=False) as s2:
self._add_external_gateway_to_router(
r['router']['id'],
s2['subnet']['network_id'])
res = self._router_interface_action(
'add', r['router']['id'],
s1['subnet']['id'], None,
expected_code=exc.HTTPBadRequest.code)
self.assertIn('NeutronError', res)
def test_router_add_gateway_overlapped_with_interface_cidr(self):
with self.router() as r,\
self._create_l3_ext_network() as ext_net,\
self.subnet(cidr='10.0.1.0/24') as s1,\
self.subnet(network=ext_net, cidr='10.0.0.0/16',
enable_dhcp=False) as s2:
self._router_interface_action(
'add', r['router']['id'],
s1['subnet']['id'], None)
res = self._add_external_gateway_to_router(
r['router']['id'],
s2['subnet']['network_id'],
expected_code=exc.HTTPBadRequest.code)
self.assertIn('NeutronError', res)
def test_router_add_interface_by_port_cidr_overlapped_with_gateway(self):
with self.router() as r,\
self._create_l3_ext_network() as ext_net,\
self.subnet(cidr='10.0.1.0/24') as s1,\
self.subnet(network=ext_net, cidr='10.0.0.0/16',
enable_dhcp=False) as s2,\
self.port(subnet=s1) as p:
self._add_external_gateway_to_router(
r['router']['id'],
s2['subnet']['network_id'])
res = self._router_interface_action(
'add', r['router']['id'],
None,
p['port']['id'],
expected_code=exc.HTTPBadRequest.code)
self.assertIn('NeutronError', res)
@common_v3.with_disable_dhcp
def test_create_floatingip_with_assoc_to_ipv6_subnet(self):
super(NsxPTestL3NatTestCase,
self).test_create_floatingip_with_assoc_to_ipv6_subnet()
@common_v3.with_disable_dhcp
def test_router_add_interface_ipv6_subnet_without_gateway_ip(self):
super(NsxPTestL3NatTestCase,
self).test_router_add_interface_ipv6_subnet_without_gateway_ip()
@common_v3.with_disable_dhcp
def test_router_add_interface_multiple_ipv6_subnets_different_net(self):
super(NsxPTestL3NatTestCase, self).\
test_router_add_interface_multiple_ipv6_subnets_different_net()
@common_v3.with_disable_dhcp
def test_create_floatingip_ipv6_only_network_returns_400(self):
super(NsxPTestL3NatTestCase,
self).test_create_floatingip_ipv6_only_network_returns_400()
def test_router_add_iface_ipv6_ext_ra_subnet_returns_400(self):
self.skipTest('DHCPv6 not supported')
def test_create_floatingip_invalid_fixed_ipv6_address_returns_400(self):
self.skipTest('Failed because of illegal port id')
def test_create_floatingip_with_router_interface_device_owner_fail(self):
# This tests that an error is raised when trying to assign a router
# interface port with floatingip.
with self.subnet(cidr='30.0.0.0/24', gateway_ip=None) as private_sub:
with self.port(
subnet=private_sub,
device_owner=constants.DEVICE_OWNER_ROUTER_INTF) as p:
port_id = p['port']['id']
with self.router() as r:
self._router_interface_action('add', r['router']['id'],
None, port_id)
with self.external_network() as public_net, self.subnet(
network=public_net, cidr='12.0.0.0/24',
enable_dhcp=False) as public_sub:
self._add_external_gateway_to_router(
r['router']['id'],
public_sub['subnet']['network_id'])
self._make_floatingip(
self.fmt, public_sub['subnet']['network_id'],
port_id=port_id,
http_status=exc.HTTPBadRequest.code)
def test_assign_floatingip_to_router_interface_device_owner_fail(self):
# This tests that an error is raised when trying to assign a router
# interface port with floatingip.
with self.subnet(cidr='30.0.0.0/24', gateway_ip=None) as private_sub:
with self.port(
subnet=private_sub,
device_owner=constants.DEVICE_OWNER_ROUTER_INTF) as p:
port_id = p['port']['id']
with self.router() as r:
self._router_interface_action('add', r['router']['id'],
None, port_id)
with self.external_network() as public_net, self.subnet(
network=public_net, cidr='12.0.0.0/24',
enable_dhcp=False) as public_sub:
self._add_external_gateway_to_router(
r['router']['id'],
public_sub['subnet']['network_id'])
fip = self._make_floatingip(self.fmt, public_sub[
'subnet']['network_id'])
self._update('floatingips', fip['floatingip'][
'id'], {'floatingip': {'port_id': port_id}},
expected_code=exc.HTTPBadRequest.code)