a13cbe1410
Second to last step for the renaming/refactoring of nvplib and related modules. This is about security groups. Partial-implements blueprint nicira-plugin-renaming Change-Id: I0099bf25be77fdec90d515c890b728a477409ef9
646 lines
28 KiB
Python
646 lines
28 KiB
Python
# vim: tabstop=4 shiftwidth=4 softtabstop=4
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# Copyright 2013 Nicira Networks, Inc.
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# All Rights Reserved
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#
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# Licensed under the Apache License, Version 2.0 (the "License"); you may
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# not use this file except in compliance with the License. You may obtain
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# 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, WITHOUT
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# WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the
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# License for the specific language governing permissions and limitations
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# under the License.
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#
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import contextlib
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import time
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import mock
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from oslo.config import cfg
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from neutron.api.v2 import attributes as attr
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from neutron.common import config
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from neutron.common import constants
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from neutron import context
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from neutron.openstack.common import jsonutils as json
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from neutron.plugins.nicira.common import sync
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from neutron.plugins.nicira import NeutronPlugin
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from neutron.plugins.nicira import nsx_cluster
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from neutron.plugins.nicira import NvpApiClient
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from neutron.plugins.nicira import nvplib
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from neutron.tests import base
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from neutron.tests.unit.nicira import fake_nvpapiclient
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from neutron.tests.unit.nicira import get_fake_conf
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from neutron.tests.unit.nicira import NVPAPI_NAME
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from neutron.tests.unit.nicira import STUBS_PATH
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from neutron.tests.unit import test_api_v2
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from neutron.openstack.common import log
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LOG = log.getLogger(__name__)
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_uuid = test_api_v2._uuid
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LSWITCHES = [{'uuid': _uuid(), 'name': 'ls-1'},
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{'uuid': _uuid(), 'name': 'ls-2'}]
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LSWITCHPORTS = [{'uuid': _uuid(), 'name': 'lp-1'},
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{'uuid': _uuid(), 'name': 'lp-2'}]
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LROUTERS = [{'uuid': _uuid(), 'name': 'lr-1'},
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{'uuid': _uuid(), 'name': 'lr-2'}]
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class NvpCacheTestCase(base.BaseTestCase):
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"""Test suite providing coverage for the NvpCache class."""
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def setUp(self):
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self.nvp_cache = sync.NvpCache()
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for lswitch in LSWITCHES:
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self.nvp_cache._uuid_dict_mappings[lswitch['uuid']] = (
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self.nvp_cache._lswitches)
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self.nvp_cache._lswitches[lswitch['uuid']] = (
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{'data': lswitch,
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'hash': hash(json.dumps(lswitch))})
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for lswitchport in LSWITCHPORTS:
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self.nvp_cache._uuid_dict_mappings[lswitchport['uuid']] = (
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self.nvp_cache._lswitchports)
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self.nvp_cache._lswitchports[lswitchport['uuid']] = (
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{'data': lswitchport,
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'hash': hash(json.dumps(lswitchport))})
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for lrouter in LROUTERS:
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self.nvp_cache._uuid_dict_mappings[lrouter['uuid']] = (
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self.nvp_cache._lrouters)
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self.nvp_cache._lrouters[lrouter['uuid']] = (
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{'data': lrouter,
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'hash': hash(json.dumps(lrouter))})
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super(NvpCacheTestCase, self).setUp()
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def test_get_lswitches(self):
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ls_uuids = self.nvp_cache.get_lswitches()
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self.assertEqual(set(ls_uuids),
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set([ls['uuid'] for ls in LSWITCHES]))
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def test_get_lswitchports(self):
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lp_uuids = self.nvp_cache.get_lswitchports()
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self.assertEqual(set(lp_uuids),
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set([lp['uuid'] for lp in LSWITCHPORTS]))
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def test_get_lrouters(self):
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lr_uuids = self.nvp_cache.get_lrouters()
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self.assertEqual(set(lr_uuids),
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set([lr['uuid'] for lr in LROUTERS]))
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def test_get_lswitches_changed_only(self):
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ls_uuids = self.nvp_cache.get_lswitches(changed_only=True)
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self.assertEqual(0, len(ls_uuids))
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def test_get_lswitchports_changed_only(self):
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lp_uuids = self.nvp_cache.get_lswitchports(changed_only=True)
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self.assertEqual(0, len(lp_uuids))
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def test_get_lrouters_changed_only(self):
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lr_uuids = self.nvp_cache.get_lrouters(changed_only=True)
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self.assertEqual(0, len(lr_uuids))
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def _verify_update(self, new_resource, changed=True, hit=True):
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cached_resource = self.nvp_cache[new_resource['uuid']]
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self.assertEqual(new_resource, cached_resource['data'])
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self.assertEqual(hit, cached_resource.get('hit', False))
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self.assertEqual(changed,
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cached_resource.get('changed', False))
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def test_update_lswitch_new_item(self):
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new_switch_uuid = _uuid()
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new_switch = {'uuid': new_switch_uuid, 'name': 'new_switch'}
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self.nvp_cache.update_lswitch(new_switch)
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self.assertIn(new_switch_uuid, self.nvp_cache._lswitches.keys())
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self._verify_update(new_switch)
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def test_update_lswitch_existing_item(self):
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switch = LSWITCHES[0]
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switch['name'] = 'new_name'
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self.nvp_cache.update_lswitch(switch)
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self.assertIn(switch['uuid'], self.nvp_cache._lswitches.keys())
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self._verify_update(switch)
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def test_update_lswitchport_new_item(self):
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new_switchport_uuid = _uuid()
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new_switchport = {'uuid': new_switchport_uuid,
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'name': 'new_switchport'}
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self.nvp_cache.update_lswitchport(new_switchport)
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self.assertIn(new_switchport_uuid,
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self.nvp_cache._lswitchports.keys())
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self._verify_update(new_switchport)
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def test_update_lswitchport_existing_item(self):
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switchport = LSWITCHPORTS[0]
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switchport['name'] = 'new_name'
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self.nvp_cache.update_lswitchport(switchport)
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self.assertIn(switchport['uuid'],
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self.nvp_cache._lswitchports.keys())
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self._verify_update(switchport)
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def test_update_lrouter_new_item(self):
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new_router_uuid = _uuid()
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new_router = {'uuid': new_router_uuid,
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'name': 'new_router'}
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self.nvp_cache.update_lrouter(new_router)
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self.assertIn(new_router_uuid,
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self.nvp_cache._lrouters.keys())
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self._verify_update(new_router)
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def test_update_lrouter_existing_item(self):
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router = LROUTERS[0]
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router['name'] = 'new_name'
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self.nvp_cache.update_lrouter(router)
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self.assertIn(router['uuid'],
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self.nvp_cache._lrouters.keys())
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self._verify_update(router)
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def test_process_updates_initial(self):
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# Clear cache content to simulate first-time filling
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self.nvp_cache._lswitches.clear()
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self.nvp_cache._lswitchports.clear()
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self.nvp_cache._lrouters.clear()
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self.nvp_cache.process_updates(LSWITCHES, LROUTERS, LSWITCHPORTS)
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for resource in LSWITCHES + LROUTERS + LSWITCHPORTS:
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self._verify_update(resource)
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def test_process_updates_no_change(self):
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self.nvp_cache.process_updates(LSWITCHES, LROUTERS, LSWITCHPORTS)
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for resource in LSWITCHES + LROUTERS + LSWITCHPORTS:
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self._verify_update(resource, changed=False)
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def test_process_updates_with_changes(self):
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LSWITCHES[0]['name'] = 'altered'
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self.nvp_cache.process_updates(LSWITCHES, LROUTERS, LSWITCHPORTS)
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for resource in LSWITCHES + LROUTERS + LSWITCHPORTS:
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changed = (True if resource['uuid'] == LSWITCHES[0]['uuid']
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else False)
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self._verify_update(resource, changed=changed)
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def _test_process_updates_with_removals(self):
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lswitches = LSWITCHES[:]
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lswitch = lswitches.pop()
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self.nvp_cache.process_updates(lswitches, LROUTERS, LSWITCHPORTS)
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for resource in LSWITCHES + LROUTERS + LSWITCHPORTS:
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hit = (False if resource['uuid'] == lswitch['uuid']
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else True)
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self._verify_update(resource, changed=False, hit=hit)
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return (lswitch, lswitches)
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def test_process_updates_with_removals(self):
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self._test_process_updates_with_removals()
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def test_process_updates_cleanup_after_delete(self):
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deleted_lswitch, lswitches = self._test_process_updates_with_removals()
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self.nvp_cache.process_deletes()
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self.nvp_cache.process_updates(lswitches, LROUTERS, LSWITCHPORTS)
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self.assertNotIn(deleted_lswitch['uuid'], self.nvp_cache._lswitches)
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def _verify_delete(self, resource, deleted=True, hit=True):
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cached_resource = self.nvp_cache[resource['uuid']]
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data_field = 'data_bk' if deleted else 'data'
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self.assertEqual(resource, cached_resource[data_field])
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self.assertEqual(hit, cached_resource.get('hit', False))
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self.assertEqual(deleted,
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cached_resource.get('changed', False))
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def _set_hit(self, resources, uuid_to_delete=None):
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for resource in resources:
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if resource['data']['uuid'] != uuid_to_delete:
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resource['hit'] = True
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def test_process_deletes_no_change(self):
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# Mark all resources as hit
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self._set_hit(self.nvp_cache._lswitches.values())
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self._set_hit(self.nvp_cache._lswitchports.values())
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self._set_hit(self.nvp_cache._lrouters.values())
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self.nvp_cache.process_deletes()
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for resource in LSWITCHES + LROUTERS + LSWITCHPORTS:
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self._verify_delete(resource, hit=False, deleted=False)
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def test_process_deletes_with_removals(self):
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# Mark all resources but one as hit
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uuid_to_delete = LSWITCHPORTS[0]['uuid']
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self._set_hit(self.nvp_cache._lswitches.values(),
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uuid_to_delete)
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self._set_hit(self.nvp_cache._lswitchports.values(),
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uuid_to_delete)
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self._set_hit(self.nvp_cache._lrouters.values(),
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uuid_to_delete)
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self.nvp_cache.process_deletes()
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for resource in LSWITCHES + LROUTERS + LSWITCHPORTS:
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deleted = resource['uuid'] == uuid_to_delete
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self._verify_delete(resource, hit=False, deleted=deleted)
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class SyncLoopingCallTestCase(base.BaseTestCase):
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def test_looping_calls(self):
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# Avoid runs of the synchronization process - just start
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# the looping call
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with mock.patch.object(
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sync.NvpSynchronizer, '_synchronize_state', return_value=0.01):
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synchronizer = sync.NvpSynchronizer(None, None,
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100, 0, 0)
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time.sleep(0.03)
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# stop looping call before asserting
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synchronizer._sync_looping_call.stop()
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# Just verify the looping call has been called, trying
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# to assess the exact number of calls would be unreliable
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self.assertTrue(synchronizer._synchronize_state.call_count)
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class NvpSyncTestCase(base.BaseTestCase):
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def setUp(self):
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# mock nvp api client
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self.fc = fake_nvpapiclient.FakeClient(STUBS_PATH)
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mock_nvpapi = mock.patch(NVPAPI_NAME, autospec=True)
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# Avoid runs of the synchronizer looping call
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# These unit tests will excplicitly invoke synchronization
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patch_sync = mock.patch.object(sync, '_start_loopingcall')
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self.mock_nvpapi = mock_nvpapi.start()
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patch_sync.start()
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self.mock_nvpapi.return_value.login.return_value = "the_cookie"
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# Emulate tests against NVP 3.x
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self.mock_nvpapi.return_value.get_nvp_version.return_value = (
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NvpApiClient.NVPVersion("3.1"))
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def _fake_request(*args, **kwargs):
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return self.fc.fake_request(*args, **kwargs)
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self.mock_nvpapi.return_value.request.side_effect = _fake_request
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self.fake_cluster = nsx_cluster.NSXCluster(
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name='fake-cluster', nsx_controllers=['1.1.1.1:999'],
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default_tz_uuid=_uuid(), nsx_user='foo', nsx_password='bar')
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self.fake_cluster.api_client = NvpApiClient.NVPApiHelper(
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('1.1.1.1', '999', True),
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self.fake_cluster.nsx_user, self.fake_cluster.nsx_password,
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self.fake_cluster.req_timeout, self.fake_cluster.http_timeout,
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self.fake_cluster.retries, self.fake_cluster.redirects)
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# Instantiate Neutron plugin
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# and setup needed config variables
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args = ['--config-file', get_fake_conf('neutron.conf.test'),
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'--config-file', get_fake_conf('nsx.ini.test')]
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config.parse(args=args)
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cfg.CONF.set_override('allow_overlapping_ips', True)
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self._plugin = NeutronPlugin.NvpPluginV2()
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# Mock neutron manager plugin load functions to speed up tests
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mock_nm_get_plugin = mock.patch('neutron.manager.NeutronManager.'
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'get_plugin')
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mock_nm_get_service_plugins = mock.patch(
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'neutron.manager.NeutronManager.get_service_plugins')
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self.mock_nm_get_plugin = mock_nm_get_plugin.start()
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self.mock_nm_get_plugin.return_value = self._plugin
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mock_nm_get_service_plugins.start()
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super(NvpSyncTestCase, self).setUp()
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self.addCleanup(self.fc.reset_all)
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self.addCleanup(patch_sync.stop)
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self.addCleanup(mock_nvpapi.stop)
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self.addCleanup(mock_nm_get_plugin.stop)
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self.addCleanup(mock_nm_get_service_plugins.stop)
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def tearDown(self):
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cfg.CONF.reset()
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super(NvpSyncTestCase, self).tearDown()
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@contextlib.contextmanager
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def _populate_data(self, ctx, net_size=2, port_size=2, router_size=2):
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def network(idx):
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return {'network': {'name': 'net-%s' % idx,
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'admin_state_up': True,
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'shared': False,
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'port_security_enabled': True,
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'tenant_id': 'foo'}}
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def subnet(idx, net_id):
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return {'subnet':
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{'cidr': '10.10.%s.0/24' % idx,
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'name': 'sub-%s' % idx,
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'gateway_ip': attr.ATTR_NOT_SPECIFIED,
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'allocation_pools': attr.ATTR_NOT_SPECIFIED,
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'ip_version': 4,
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'dns_nameservers': attr.ATTR_NOT_SPECIFIED,
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'host_routes': attr.ATTR_NOT_SPECIFIED,
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'enable_dhcp': True,
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'network_id': net_id,
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'tenant_id': 'foo'}}
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def port(idx, net_id):
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return {'port': {'network_id': net_id,
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'name': 'port-%s' % idx,
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'admin_state_up': True,
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'device_id': 'miao',
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'device_owner': 'bau',
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'fixed_ips': attr.ATTR_NOT_SPECIFIED,
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'mac_address': attr.ATTR_NOT_SPECIFIED,
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'tenant_id': 'foo'}}
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def router(idx):
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# Use random uuids as names
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return {'router': {'name': 'rtr-%s' % idx,
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'admin_state_up': True,
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'tenant_id': 'foo'}}
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networks = []
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ports = []
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routers = []
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for i in range(net_size):
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net = self._plugin.create_network(ctx, network(i))
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networks.append(net)
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self._plugin.create_subnet(ctx, subnet(i, net['id']))
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for j in range(port_size):
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ports.append(self._plugin.create_port(
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ctx, port("%s-%s" % (i, j), net['id'])))
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for i in range(router_size):
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routers.append(self._plugin.create_router(ctx, router(i)))
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# Do not return anything as the user does need the actual
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# data created
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try:
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yield
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finally:
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# Remove everything
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for router in routers:
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self._plugin.delete_router(ctx, router['id'])
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for port in ports:
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self._plugin.delete_port(ctx, port['id'])
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# This will remove networks and subnets
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for network in networks:
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self._plugin.delete_network(ctx, network['id'])
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def _get_tag_dict(self, tags):
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return dict((tag['scope'], tag['tag']) for tag in tags)
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def _test_sync(self, exp_net_status,
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exp_port_status, exp_router_status,
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action_callback=None, sp=None):
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ls_uuid = self.fc._fake_lswitch_dict.keys()[0]
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neutron_net_id = self._get_tag_dict(
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self.fc._fake_lswitch_dict[ls_uuid]['tags'])['quantum_net_id']
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lp_uuid = self.fc._fake_lswitch_lport_dict.keys()[0]
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neutron_port_id = self._get_tag_dict(
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self.fc._fake_lswitch_lport_dict[lp_uuid]['tags'])['q_port_id']
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lr_uuid = self.fc._fake_lrouter_dict.keys()[0]
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neutron_rtr_id = self._get_tag_dict(
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self.fc._fake_lrouter_dict[lr_uuid]['tags'])['q_router_id']
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if action_callback:
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action_callback(ls_uuid, lp_uuid, lr_uuid)
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# Make chunk big enough to read everything
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if not sp:
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sp = sync.SyncParameters(100)
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self._plugin._synchronizer._synchronize_state(sp)
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# Verify element is in expected status
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# TODO(salv-orlando): Verify status for all elements
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ctx = context.get_admin_context()
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neutron_net = self._plugin.get_network(ctx, neutron_net_id)
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neutron_port = self._plugin.get_port(ctx, neutron_port_id)
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neutron_rtr = self._plugin.get_router(ctx, neutron_rtr_id)
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self.assertEqual(exp_net_status, neutron_net['status'])
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self.assertEqual(exp_port_status, neutron_port['status'])
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self.assertEqual(exp_router_status, neutron_rtr['status'])
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def _action_callback_status_down(self, ls_uuid, lp_uuid, lr_uuid):
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self.fc._fake_lswitch_dict[ls_uuid]['status'] = 'false'
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self.fc._fake_lswitch_lport_dict[lp_uuid]['status'] = 'false'
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self.fc._fake_lrouter_dict[lr_uuid]['status'] = 'false'
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def test_initial_sync(self):
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ctx = context.get_admin_context()
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with self._populate_data(ctx):
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self._test_sync(
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constants.NET_STATUS_ACTIVE,
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constants.PORT_STATUS_ACTIVE,
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constants.NET_STATUS_ACTIVE)
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def test_initial_sync_with_resources_down(self):
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ctx = context.get_admin_context()
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|
with self._populate_data(ctx):
|
|
self._test_sync(
|
|
constants.NET_STATUS_DOWN, constants.PORT_STATUS_DOWN,
|
|
constants.NET_STATUS_DOWN, self._action_callback_status_down)
|
|
|
|
def test_resync_with_resources_down(self):
|
|
ctx = context.get_admin_context()
|
|
with self._populate_data(ctx):
|
|
sp = sync.SyncParameters(100)
|
|
self._plugin._synchronizer._synchronize_state(sp)
|
|
self._test_sync(
|
|
constants.NET_STATUS_DOWN, constants.PORT_STATUS_DOWN,
|
|
constants.NET_STATUS_DOWN, self._action_callback_status_down)
|
|
|
|
def _action_callback_del_resource(self, ls_uuid, lp_uuid, lr_uuid):
|
|
del self.fc._fake_lswitch_dict[ls_uuid]
|
|
del self.fc._fake_lswitch_lport_dict[lp_uuid]
|
|
del self.fc._fake_lrouter_dict[lr_uuid]
|
|
|
|
def test_initial_sync_with_resources_removed(self):
|
|
ctx = context.get_admin_context()
|
|
with self._populate_data(ctx):
|
|
self._test_sync(
|
|
constants.NET_STATUS_ERROR, constants.PORT_STATUS_ERROR,
|
|
constants.NET_STATUS_ERROR, self._action_callback_del_resource)
|
|
|
|
def test_resync_with_resources_removed(self):
|
|
ctx = context.get_admin_context()
|
|
with self._populate_data(ctx):
|
|
sp = sync.SyncParameters(100)
|
|
self._plugin._synchronizer._synchronize_state(sp)
|
|
self._test_sync(
|
|
constants.NET_STATUS_ERROR, constants.PORT_STATUS_ERROR,
|
|
constants.NET_STATUS_ERROR, self._action_callback_del_resource)
|
|
|
|
def _test_sync_with_chunk_larger_maxpagesize(
|
|
self, net_size, port_size, router_size, chunk_size, exp_calls):
|
|
ctx = context.get_admin_context()
|
|
real_func = nvplib.get_single_query_page
|
|
sp = sync.SyncParameters(chunk_size)
|
|
with self._populate_data(ctx, net_size=net_size,
|
|
port_size=port_size,
|
|
router_size=router_size):
|
|
with mock.patch.object(sync, 'MAX_PAGE_SIZE', 15):
|
|
# The following mock is just for counting calls,
|
|
# but we will still run the actual function
|
|
with mock.patch.object(
|
|
nvplib, 'get_single_query_page',
|
|
side_effect=real_func) as mock_get_page:
|
|
self._test_sync(
|
|
constants.NET_STATUS_ACTIVE,
|
|
constants.PORT_STATUS_ACTIVE,
|
|
constants.NET_STATUS_ACTIVE,
|
|
sp=sp)
|
|
# As each resource type does not exceed the maximum page size,
|
|
# the method should be called once for each resource type
|
|
self.assertEqual(exp_calls, mock_get_page.call_count)
|
|
|
|
def test_sync_chunk_larger_maxpagesize_no_multiple_requests(self):
|
|
# total resource size = 20
|
|
# total size for each resource does not exceed max page size (15)
|
|
self._test_sync_with_chunk_larger_maxpagesize(
|
|
net_size=5, port_size=2, router_size=5,
|
|
chunk_size=20, exp_calls=3)
|
|
|
|
def test_sync_chunk_larger_maxpagesize_triggers_multiple_requests(self):
|
|
# total resource size = 48
|
|
# total size for each resource does exceed max page size (15)
|
|
self._test_sync_with_chunk_larger_maxpagesize(
|
|
net_size=16, port_size=1, router_size=16,
|
|
chunk_size=48, exp_calls=6)
|
|
|
|
def test_sync_multi_chunk(self):
|
|
# The fake NVP API client cannot be used for this test
|
|
ctx = context.get_admin_context()
|
|
# Generate 4 networks, 1 port per network, and 4 routers
|
|
with self._populate_data(ctx, net_size=4, port_size=1, router_size=4):
|
|
fake_lswitches = json.loads(
|
|
self.fc.handle_get('/ws.v1/lswitch'))['results']
|
|
fake_lrouters = json.loads(
|
|
self.fc.handle_get('/ws.v1/lrouter'))['results']
|
|
fake_lswitchports = json.loads(
|
|
self.fc.handle_get('/ws.v1/lswitch/*/lport'))['results']
|
|
return_values = [
|
|
# Chunk 0 - lswitches
|
|
(fake_lswitches, None, 4),
|
|
# Chunk 0 - lrouters
|
|
(fake_lrouters[:2], 'xxx', 4),
|
|
# Chunk 0 - lports (size only)
|
|
([], 'start', 4),
|
|
# Chunk 1 - lrouters (2 more) (lswitches are skipped)
|
|
(fake_lrouters[2:], None, None),
|
|
# Chunk 1 - lports
|
|
(fake_lswitchports, None, 4)]
|
|
|
|
def fake_fetch_data(*args, **kwargs):
|
|
return return_values.pop(0)
|
|
|
|
# 2 Chunks, with 6 resources each.
|
|
# 1st chunk lswitches and lrouters
|
|
# 2nd chunk lrouters and lports
|
|
# Mock _fetch_data
|
|
with mock.patch.object(
|
|
self._plugin._synchronizer, '_fetch_data',
|
|
side_effect=fake_fetch_data):
|
|
sp = sync.SyncParameters(6)
|
|
|
|
def do_chunk(chunk_idx, ls_cursor, lr_cursor, lp_cursor):
|
|
self._plugin._synchronizer._synchronize_state(sp)
|
|
self.assertEqual(chunk_idx, sp.current_chunk)
|
|
self.assertEqual(ls_cursor, sp.ls_cursor)
|
|
self.assertEqual(lr_cursor, sp.lr_cursor)
|
|
self.assertEqual(lp_cursor, sp.lp_cursor)
|
|
|
|
# check 1st chunk
|
|
do_chunk(1, None, 'xxx', 'start')
|
|
# check 2nd chunk
|
|
do_chunk(0, None, None, None)
|
|
# Chunk size should have stayed the same
|
|
self.assertEqual(sp.chunk_size, 6)
|
|
|
|
def test_synchronize_network(self):
|
|
ctx = context.get_admin_context()
|
|
with self._populate_data(ctx):
|
|
# Put a network down to verify synchronization
|
|
ls_uuid = self.fc._fake_lswitch_dict.keys()[0]
|
|
q_net_id = self._get_tag_dict(
|
|
self.fc._fake_lswitch_dict[ls_uuid]['tags'])['quantum_net_id']
|
|
self.fc._fake_lswitch_dict[ls_uuid]['status'] = 'false'
|
|
q_net_data = self._plugin._get_network(ctx, q_net_id)
|
|
self._plugin._synchronizer.synchronize_network(ctx, q_net_data)
|
|
# Reload from db
|
|
q_nets = self._plugin.get_networks(ctx)
|
|
for q_net in q_nets:
|
|
if q_net['id'] == q_net_id:
|
|
exp_status = constants.NET_STATUS_DOWN
|
|
else:
|
|
exp_status = constants.NET_STATUS_ACTIVE
|
|
self.assertEqual(exp_status, q_net['status'])
|
|
|
|
def test_synchronize_network_on_get(self):
|
|
cfg.CONF.set_override('always_read_status', True, 'NSX_SYNC')
|
|
ctx = context.get_admin_context()
|
|
with self._populate_data(ctx):
|
|
# Put a network down to verify punctual synchronization
|
|
ls_uuid = self.fc._fake_lswitch_dict.keys()[0]
|
|
q_net_id = self._get_tag_dict(
|
|
self.fc._fake_lswitch_dict[ls_uuid]['tags'])['quantum_net_id']
|
|
self.fc._fake_lswitch_dict[ls_uuid]['status'] = 'false'
|
|
q_net_data = self._plugin.get_network(ctx, q_net_id)
|
|
self.assertEqual(constants.NET_STATUS_DOWN, q_net_data['status'])
|
|
|
|
def test_synchronize_port(self):
|
|
ctx = context.get_admin_context()
|
|
with self._populate_data(ctx):
|
|
# Put a port down to verify synchronization
|
|
lp_uuid = self.fc._fake_lswitch_lport_dict.keys()[0]
|
|
lport = self.fc._fake_lswitch_lport_dict[lp_uuid]
|
|
q_port_id = self._get_tag_dict(lport['tags'])['q_port_id']
|
|
lport['status'] = 'false'
|
|
q_port_data = self._plugin._get_port(ctx, q_port_id)
|
|
self._plugin._synchronizer.synchronize_port(ctx, q_port_data)
|
|
# Reload from db
|
|
q_ports = self._plugin.get_ports(ctx)
|
|
for q_port in q_ports:
|
|
if q_port['id'] == q_port_id:
|
|
exp_status = constants.PORT_STATUS_DOWN
|
|
else:
|
|
exp_status = constants.PORT_STATUS_ACTIVE
|
|
self.assertEqual(exp_status, q_port['status'])
|
|
|
|
def test_synchronize_port_on_get(self):
|
|
cfg.CONF.set_override('always_read_status', True, 'NSX_SYNC')
|
|
ctx = context.get_admin_context()
|
|
with self._populate_data(ctx):
|
|
# Put a port down to verify punctual synchronization
|
|
lp_uuid = self.fc._fake_lswitch_lport_dict.keys()[0]
|
|
lport = self.fc._fake_lswitch_lport_dict[lp_uuid]
|
|
q_port_id = self._get_tag_dict(lport['tags'])['q_port_id']
|
|
lport['status'] = 'false'
|
|
q_port_data = self._plugin.get_port(ctx, q_port_id)
|
|
self.assertEqual(constants.PORT_STATUS_DOWN,
|
|
q_port_data['status'])
|
|
|
|
def test_synchronize_router(self):
|
|
ctx = context.get_admin_context()
|
|
with self._populate_data(ctx):
|
|
# Put a router down to verify synchronization
|
|
lr_uuid = self.fc._fake_lrouter_dict.keys()[0]
|
|
q_rtr_id = self._get_tag_dict(
|
|
self.fc._fake_lrouter_dict[lr_uuid]['tags'])['q_router_id']
|
|
self.fc._fake_lrouter_dict[lr_uuid]['status'] = 'false'
|
|
q_rtr_data = self._plugin._get_router(ctx, q_rtr_id)
|
|
self._plugin._synchronizer.synchronize_router(ctx, q_rtr_data)
|
|
# Reload from db
|
|
q_routers = self._plugin.get_routers(ctx)
|
|
for q_rtr in q_routers:
|
|
if q_rtr['id'] == q_rtr_id:
|
|
exp_status = constants.NET_STATUS_DOWN
|
|
else:
|
|
exp_status = constants.NET_STATUS_ACTIVE
|
|
self.assertEqual(exp_status, q_rtr['status'])
|
|
|
|
def test_synchronize_router_on_get(self):
|
|
cfg.CONF.set_override('always_read_status', True, 'NSX_SYNC')
|
|
ctx = context.get_admin_context()
|
|
with self._populate_data(ctx):
|
|
# Put a router down to verify punctual synchronization
|
|
lr_uuid = self.fc._fake_lrouter_dict.keys()[0]
|
|
q_rtr_id = self._get_tag_dict(
|
|
self.fc._fake_lrouter_dict[lr_uuid]['tags'])['q_router_id']
|
|
self.fc._fake_lrouter_dict[lr_uuid]['status'] = 'false'
|
|
q_rtr_data = self._plugin.get_router(ctx, q_rtr_id)
|
|
self.assertEqual(constants.NET_STATUS_DOWN, q_rtr_data['status'])
|
|
|
|
def test_sync_nvp_failure_backoff(self):
|
|
self.mock_nvpapi.return_value.request.side_effect = (
|
|
NvpApiClient.RequestTimeout)
|
|
# chunk size won't matter here
|
|
sp = sync.SyncParameters(999)
|
|
for i in range(10):
|
|
self.assertEqual(
|
|
min(64, 2 ** i),
|
|
self._plugin._synchronizer._synchronize_state(sp))
|