85cd73ec68
Old names are kept for backward compatibility. Last references to the old NVP plugins are going to be dropped in Juno. Completes blueprint nicira-plugin-renaming Change-Id: Ia1aa4f658891e7ce9469748432c338353195edfd
290 lines
14 KiB
Python
290 lines
14 KiB
Python
# Copyright (c) 2014 VMware, Inc.
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#
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# Licensed under the Apache License, Version 2.0 (the "License");
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# you may not use this file except in compliance with the License.
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# You may obtain a copy of the License at
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#
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# http://www.apache.org/licenses/LICENSE-2.0
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#
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# Unless required by applicable law or agreed to in writing, software
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# distributed under the License is distributed on an "AS IS" BASIS,
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# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or
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# implied.
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# See the License for the specific language governing permissions and
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# limitations under the License.
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#
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import hashlib
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import mock
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from neutron.common import constants
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from neutron.common import exceptions
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from neutron.plugins.vmware.common import utils
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from neutron.plugins.vmware.nsxlib import switch as switchlib
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from neutron.tests.unit import test_api_v2
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from neutron.tests.unit.vmware.nsxlib import base
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_uuid = test_api_v2._uuid
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class LogicalSwitchesTestCase(base.NsxlibTestCase):
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def test_create_and_get_lswitches_single(self):
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tenant_id = 'pippo'
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transport_zones_config = [{'zone_uuid': _uuid(),
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'transport_type': 'stt'}]
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lswitch = switchlib.create_lswitch(self.fake_cluster,
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_uuid(),
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tenant_id,
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'fake-switch',
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transport_zones_config)
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res_lswitch = switchlib.get_lswitches(self.fake_cluster,
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lswitch['uuid'])
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self.assertEqual(len(res_lswitch), 1)
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self.assertEqual(res_lswitch[0]['uuid'],
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lswitch['uuid'])
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def test_create_and_get_lswitches_single_name_exceeds_40_chars(self):
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tenant_id = 'pippo'
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transport_zones_config = [{'zone_uuid': _uuid(),
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'transport_type': 'stt'}]
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lswitch = switchlib.create_lswitch(self.fake_cluster,
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tenant_id,
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_uuid(),
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'*' * 50,
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transport_zones_config)
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res_lswitch = switchlib.get_lswitches(self.fake_cluster,
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lswitch['uuid'])
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self.assertEqual(len(res_lswitch), 1)
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self.assertEqual(res_lswitch[0]['uuid'], lswitch['uuid'])
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self.assertEqual(res_lswitch[0]['display_name'], '*' * 40)
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def test_create_and_get_lswitches_multiple(self):
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tenant_id = 'pippo'
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transport_zones_config = [{'zone_uuid': _uuid(),
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'transport_type': 'stt'}]
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network_id = _uuid()
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main_lswitch = switchlib.create_lswitch(
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self.fake_cluster, network_id,
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tenant_id, 'fake-switch', transport_zones_config,
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tags=[{'scope': 'multi_lswitch', 'tag': 'True'}])
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# Create secondary lswitch
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second_lswitch = switchlib.create_lswitch(
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self.fake_cluster, network_id,
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tenant_id, 'fake-switch-2', transport_zones_config)
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res_lswitch = switchlib.get_lswitches(self.fake_cluster,
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network_id)
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self.assertEqual(len(res_lswitch), 2)
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switch_uuids = [ls['uuid'] for ls in res_lswitch]
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self.assertIn(main_lswitch['uuid'], switch_uuids)
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self.assertIn(second_lswitch['uuid'], switch_uuids)
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for ls in res_lswitch:
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if ls['uuid'] == main_lswitch['uuid']:
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main_ls = ls
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else:
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second_ls = ls
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main_ls_tags = self._build_tag_dict(main_ls['tags'])
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second_ls_tags = self._build_tag_dict(second_ls['tags'])
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self.assertIn('multi_lswitch', main_ls_tags)
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self.assertNotIn('multi_lswitch', second_ls_tags)
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self.assertIn('quantum_net_id', main_ls_tags)
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self.assertIn('quantum_net_id', second_ls_tags)
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self.assertEqual(main_ls_tags['quantum_net_id'],
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network_id)
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self.assertEqual(second_ls_tags['quantum_net_id'],
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network_id)
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def test_update_lswitch(self):
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new_name = 'new-name'
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new_tags = [{'scope': 'new_tag', 'tag': 'xxx'}]
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transport_zones_config = [{'zone_uuid': _uuid(),
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'transport_type': 'stt'}]
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lswitch = switchlib.create_lswitch(self.fake_cluster,
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_uuid(),
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'pippo',
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'fake-switch',
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transport_zones_config)
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switchlib.update_lswitch(self.fake_cluster, lswitch['uuid'],
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new_name, tags=new_tags)
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res_lswitch = switchlib.get_lswitches(self.fake_cluster,
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lswitch['uuid'])
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self.assertEqual(len(res_lswitch), 1)
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self.assertEqual(res_lswitch[0]['display_name'], new_name)
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switch_tags = self._build_tag_dict(res_lswitch[0]['tags'])
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self.assertIn('new_tag', switch_tags)
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self.assertEqual(switch_tags['new_tag'], 'xxx')
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def test_update_non_existing_lswitch_raises(self):
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self.assertRaises(exceptions.NetworkNotFound,
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switchlib.update_lswitch,
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self.fake_cluster, 'whatever',
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'foo', 'bar')
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def test_delete_networks(self):
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transport_zones_config = [{'zone_uuid': _uuid(),
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'transport_type': 'stt'}]
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lswitch = switchlib.create_lswitch(self.fake_cluster,
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_uuid(),
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'pippo',
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'fake-switch',
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transport_zones_config)
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switchlib.delete_networks(self.fake_cluster, lswitch['uuid'],
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[lswitch['uuid']])
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self.assertRaises(exceptions.NotFound,
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switchlib.get_lswitches,
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self.fake_cluster,
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lswitch['uuid'])
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def test_delete_non_existing_lswitch_raises(self):
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self.assertRaises(exceptions.NetworkNotFound,
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switchlib.delete_networks,
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self.fake_cluster, 'whatever', ['whatever'])
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class LogicalPortsTestCase(base.NsxlibTestCase):
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def _create_switch_and_port(self, tenant_id='pippo',
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neutron_port_id='whatever',
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name='name', device_id='device_id'):
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transport_zones_config = [{'zone_uuid': _uuid(),
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'transport_type': 'stt'}]
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lswitch = switchlib.create_lswitch(self.fake_cluster,
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_uuid(), tenant_id, 'fake-switch',
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transport_zones_config)
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lport = switchlib.create_lport(self.fake_cluster, lswitch['uuid'],
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tenant_id, neutron_port_id,
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name, device_id, True)
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return lswitch, lport
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def test_create_and_get_port(self):
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lswitch, lport = self._create_switch_and_port()
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lport_res = switchlib.get_port(self.fake_cluster,
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lswitch['uuid'], lport['uuid'])
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self.assertEqual(lport['uuid'], lport_res['uuid'])
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# Try again with relation
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lport_res = switchlib.get_port(self.fake_cluster,
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lswitch['uuid'], lport['uuid'],
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relations='LogicalPortStatus')
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self.assertEqual(lport['uuid'], lport_res['uuid'])
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def test_plug_interface(self):
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lswitch, lport = self._create_switch_and_port()
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switchlib.plug_vif_interface(self.fake_cluster, lswitch['uuid'],
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lport['uuid'], 'VifAttachment', 'fake')
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lport_res = switchlib.get_port(self.fake_cluster,
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lswitch['uuid'], lport['uuid'])
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self.assertEqual(lport['uuid'], lport_res['uuid'])
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def test_get_port_by_tag(self):
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lswitch, lport = self._create_switch_and_port()
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lport2 = switchlib.get_port_by_neutron_tag(self.fake_cluster,
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lswitch['uuid'],
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'whatever')
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self.assertIsNotNone(lport2)
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self.assertEqual(lport['uuid'], lport2['uuid'])
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def test_get_port_by_tag_not_found_returns_None(self):
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tenant_id = 'pippo'
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neutron_port_id = 'whatever'
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transport_zones_config = [{'zone_uuid': _uuid(),
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'transport_type': 'stt'}]
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lswitch = switchlib.create_lswitch(
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self.fake_cluster, tenant_id, _uuid(),
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'fake-switch', transport_zones_config)
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lport = switchlib.get_port_by_neutron_tag(
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self.fake_cluster, lswitch['uuid'], neutron_port_id)
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self.assertIsNone(lport)
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def test_get_port_status(self):
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lswitch, lport = self._create_switch_and_port()
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status = switchlib.get_port_status(
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self.fake_cluster, lswitch['uuid'], lport['uuid'])
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self.assertEqual(constants.PORT_STATUS_ACTIVE, status)
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def test_get_port_status_non_existent_raises(self):
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self.assertRaises(exceptions.PortNotFoundOnNetwork,
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switchlib.get_port_status,
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self.fake_cluster,
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'boo', 'boo')
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def test_update_port(self):
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lswitch, lport = self._create_switch_and_port()
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switchlib.update_port(
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self.fake_cluster, lswitch['uuid'], lport['uuid'],
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'neutron_port_id', 'pippo2', 'new_name', 'device_id', False)
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lport_res = switchlib.get_port(self.fake_cluster,
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lswitch['uuid'], lport['uuid'])
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self.assertEqual(lport['uuid'], lport_res['uuid'])
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self.assertEqual('new_name', lport_res['display_name'])
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self.assertEqual('False', lport_res['admin_status_enabled'])
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port_tags = self._build_tag_dict(lport_res['tags'])
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self.assertIn('os_tid', port_tags)
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self.assertIn('q_port_id', port_tags)
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self.assertIn('vm_id', port_tags)
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def test_create_port_device_id_less_than_40_chars(self):
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lswitch, lport = self._create_switch_and_port()
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lport_res = switchlib.get_port(self.fake_cluster,
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lswitch['uuid'], lport['uuid'])
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port_tags = self._build_tag_dict(lport_res['tags'])
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self.assertEqual('device_id', port_tags['vm_id'])
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def test_create_port_device_id_more_than_40_chars(self):
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dev_id = "this_is_a_very_long_device_id_with_lots_of_characters"
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lswitch, lport = self._create_switch_and_port(device_id=dev_id)
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lport_res = switchlib.get_port(self.fake_cluster,
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lswitch['uuid'], lport['uuid'])
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port_tags = self._build_tag_dict(lport_res['tags'])
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self.assertNotEqual(len(dev_id), len(port_tags['vm_id']))
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def test_get_ports_with_obsolete_and_new_vm_id_tag(self):
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def obsolete(device_id, obfuscate=False):
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return hashlib.sha1(device_id).hexdigest()
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with mock.patch.object(utils, 'device_id_to_vm_id', new=obsolete):
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dev_id1 = "short-dev-id-1"
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_, lport1 = self._create_switch_and_port(device_id=dev_id1)
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dev_id2 = "short-dev-id-2"
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_, lport2 = self._create_switch_and_port(device_id=dev_id2)
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lports = switchlib.get_ports(self.fake_cluster, None, [dev_id1])
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port_tags = self._build_tag_dict(lports['whatever']['tags'])
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self.assertNotEqual(dev_id1, port_tags['vm_id'])
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lports = switchlib.get_ports(self.fake_cluster, None, [dev_id2])
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port_tags = self._build_tag_dict(lports['whatever']['tags'])
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self.assertEqual(dev_id2, port_tags['vm_id'])
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def test_update_non_existent_port_raises(self):
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self.assertRaises(exceptions.PortNotFoundOnNetwork,
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switchlib.update_port, self.fake_cluster,
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'boo', 'boo', 'boo', 'boo', 'boo', 'boo', False)
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def test_delete_port(self):
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lswitch, lport = self._create_switch_and_port()
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switchlib.delete_port(self.fake_cluster,
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lswitch['uuid'], lport['uuid'])
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self.assertRaises(exceptions.PortNotFoundOnNetwork,
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switchlib.get_port, self.fake_cluster,
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lswitch['uuid'], lport['uuid'])
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def test_delete_non_existent_port_raises(self):
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lswitch = self._create_switch_and_port()[0]
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self.assertRaises(exceptions.PortNotFoundOnNetwork,
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switchlib.delete_port, self.fake_cluster,
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lswitch['uuid'], 'bad_port_uuid')
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def test_query_lswitch_ports(self):
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lswitch, lport = self._create_switch_and_port()
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switch_port_uuids = [
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switchlib.create_lport(
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self.fake_cluster, lswitch['uuid'], 'pippo', 'qportid-%s' % k,
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'port-%s' % k, 'deviceid-%s' % k, True)['uuid']
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for k in range(2)]
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switch_port_uuids.append(lport['uuid'])
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ports = switchlib.query_lswitch_lports(
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self.fake_cluster, lswitch['uuid'])
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self.assertEqual(len(ports), 3)
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for res_port in ports:
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self.assertIn(res_port['uuid'], switch_port_uuids)
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