115 lines
5.7 KiB
Python
115 lines
5.7 KiB
Python
# 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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from oslo_log import log as logging
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from nova import context
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from nova.db import api as db_api
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from nova import objects
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from nova import test
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from nova.tests import fixtures as nova_fixtures
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from nova.tests.functional import fixtures as func_fixtures
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from nova.tests.functional import integrated_helpers
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from nova import utils
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from nova.virt import fake as fake_virt
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LOG = logging.getLogger(__name__)
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class PeriodicNodeRecreateTestCase(test.TestCase,
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integrated_helpers.InstanceHelperMixin):
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"""Regression test for bug 1839560 introduced in Rocky.
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When an ironic node is undergoing maintenance the driver will not report
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it as an available node to the ComputeManager.update_available_resource
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periodic task. The ComputeManager will then (soft) delete a ComputeNode
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record for that no-longer-available node. If/when the ironic node is
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available again and the driver reports it, the ResourceTracker will attempt
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to create a ComputeNode record for the ironic node.
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The regression with change Ia69fabce8e7fd7de101e291fe133c6f5f5f7056a is
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that the ironic node uuid is used as the ComputeNode.uuid and there is
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a unique constraint on the ComputeNode.uuid value in the database. So
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trying to create a ComputeNode with the same uuid (after the ironic node
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comes back from being unavailable) fails with a DuplicateEntry error since
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there is a (soft) deleted version of the ComputeNode with the same uuid
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in the database.
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"""
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def setUp(self):
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super(PeriodicNodeRecreateTestCase, self).setUp()
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# We need the PlacementFixture for the compute nodes to report in but
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# otherwise don't care about placement for this test.
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self.useFixture(func_fixtures.PlacementFixture())
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# Start up the API so we can query the os-hypervisors API.
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self.api = self.useFixture(nova_fixtures.OSAPIFixture(
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api_version='v2.1')).admin_api
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# Make sure we're using the fake driver that has predictable uuids
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# for each node.
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self.flags(compute_driver='fake.PredictableNodeUUIDDriver')
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def test_update_available_resource_node_recreate(self):
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# First we create a compute service to manage a couple of fake nodes.
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# When start_service runs, it will create the node1 and node2
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# ComputeNodes.
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fake_virt.set_nodes(['node1', 'node2'])
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self.addCleanup(fake_virt.restore_nodes)
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compute = self.start_service('compute', 'node1')
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# Now we should have two compute nodes, make sure the hypervisors API
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# shows them.
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hypervisors = self.api.api_get('/os-hypervisors').body['hypervisors']
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self.assertEqual(2, len(hypervisors), hypervisors)
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self.assertEqual({'node1', 'node2'},
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set([hyp['hypervisor_hostname']
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for hyp in hypervisors]))
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# Now stub the driver to only report node1. This is making it look like
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# node2 is no longer available when update_available_resource runs.
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compute.manager.driver._nodes = ['node1']
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ctxt = context.get_admin_context()
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compute.manager.update_available_resource(ctxt)
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# node2 should have been deleted, check the logs and API.
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log = self.stdlog.logger.output
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self.assertIn('Deleting orphan compute node', log)
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self.assertIn('hypervisor host is node2', log)
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hypervisors = self.api.api_get('/os-hypervisors').body['hypervisors']
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self.assertEqual(1, len(hypervisors), hypervisors)
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self.assertEqual('node1', hypervisors[0]['hypervisor_hostname'])
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# But the node2 ComputeNode is still in the database with deleted!=0.
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with utils.temporary_mutation(ctxt, read_deleted='yes'):
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cn = objects.ComputeNode.get_by_host_and_nodename(
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ctxt, 'node1', 'node2')
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self.assertTrue(cn.deleted)
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# Now stub the driver again to report node2 as being back and run
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# the periodic task.
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compute.manager.driver._nodes = ['node1', 'node2']
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LOG.info('Running update_available_resource which should bring back '
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'node2.')
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compute.manager.update_available_resource(ctxt)
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# The DBDuplicateEntry error should have been handled and resulted in
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# updating the (soft) deleted record to no longer be deleted.
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log = self.stdlog.logger.output
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self.assertNotIn('DBDuplicateEntry', log)
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# Should have two reported hypervisors again.
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hypervisors = self.api.api_get('/os-hypervisors').body['hypervisors']
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self.assertEqual(2, len(hypervisors), hypervisors)
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# Now that the node2 record was un-soft-deleted, archiving should not
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# remove any compute_nodes.
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LOG.info('Archiving the database.')
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archived = db_api.archive_deleted_rows(1000)[0]
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self.assertNotIn('compute_nodes', archived)
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cn2 = objects.ComputeNode.get_by_host_and_nodename(
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ctxt, 'node1', 'node2')
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self.assertFalse(cn2.deleted)
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self.assertIsNone(cn2.deleted_at)
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# The node2 id and uuid should not have changed in the DB.
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self.assertEqual(cn.id, cn2.id)
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self.assertEqual(cn.uuid, cn2.uuid)
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