# 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 os import tempfile import time from unittest import mock from oslo_config import cfg from oslo_utils import timeutils from oslo_utils import uuidutils from ironic.common import boot_devices from ironic.common import boot_modes from ironic.common import exception from ironic.common import network from ironic.common import neutron from ironic.common import nova from ironic.common import states from ironic.conductor import rpcapi from ironic.conductor import task_manager from ironic.conductor import utils as conductor_utils from ironic.drivers import base as drivers_base from ironic.drivers.modules import fake from ironic import objects from ironic.objects import fields as obj_fields from ironic.tests import base as tests_base from ironic.tests.unit.db import base as db_base from ironic.tests.unit.db import utils as db_utils from ironic.tests.unit.objects import utils as obj_utils CONF = cfg.CONF class TestPowerNoTimeout(drivers_base.PowerInterface): """Missing 'timeout' parameter for get_power_state & reboot""" def get_properties(self): return {} def validate(self, task): pass def get_power_state(self, task): return task.node.power_state def set_power_state(self, task, power_state, timeout=None): task.node.power_state = power_state def reboot(self, task): pass class NodeSetBootDeviceTestCase(db_base.DbTestCase): def setUp(self): super(NodeSetBootDeviceTestCase, self).setUp() self.node = obj_utils.create_test_node(self.context, uuid=uuidutils.generate_uuid()) self.task = task_manager.TaskManager(self.context, self.node.uuid) def test_node_set_boot_device_non_existent_device(self): self.assertRaises(exception.InvalidParameterValue, conductor_utils.node_set_boot_device, self.task, device='fake') @mock.patch.object(fake.FakeManagement, 'set_boot_device', autospec=True) def test_node_set_boot_device_valid(self, mock_sbd): conductor_utils.node_set_boot_device(self.task, device='pxe') mock_sbd.assert_called_once_with(mock.ANY, self.task, device='pxe', persistent=False) @mock.patch.object(fake.FakeManagement, 'set_boot_device', autospec=True) def test_node_set_boot_device_adopting(self, mock_sbd): self.task.node.provision_state = states.ADOPTING conductor_utils.node_set_boot_device(self.task, device='pxe') self.assertFalse(mock_sbd.called) class NodeGetBootModeTestCase(db_base.DbTestCase): def setUp(self): super(NodeGetBootModeTestCase, self).setUp() self.node = obj_utils.create_test_node(self.context, uuid=uuidutils.generate_uuid()) self.task = task_manager.TaskManager(self.context, self.node.uuid) @mock.patch.object(fake.FakeManagement, 'get_boot_mode', autospec=True) def test_node_get_boot_mode_valid(self, mock_gbm): mock_gbm.return_value = 'bios' boot_mode = conductor_utils.node_get_boot_mode(self.task) self.assertEqual(boot_mode, 'bios') mock_gbm.assert_called_once_with(mock.ANY, self.task) @mock.patch.object(fake.FakeManagement, 'get_boot_mode', autospec=True) def test_node_get_boot_mode_unsupported(self, mock_gbm): mock_gbm.side_effect = exception.UnsupportedDriverExtension( driver=self.task.node.driver, extension='get_boot_mode') self.assertRaises(exception.UnsupportedDriverExtension, conductor_utils.node_get_boot_mode, self.task) class NodeSetBootModeTestCase(db_base.DbTestCase): def setUp(self): super(NodeSetBootModeTestCase, self).setUp() self.node = obj_utils.create_test_node(self.context, uuid=uuidutils.generate_uuid()) self.task = task_manager.TaskManager(self.context, self.node.uuid) @mock.patch.object(fake.FakeManagement, 'get_supported_boot_modes', autospec=True) def test_node_set_boot_mode_non_existent_mode(self, mock_gsbm): mock_gsbm.return_value = [boot_modes.LEGACY_BIOS] self.assertRaises(exception.InvalidParameterValue, conductor_utils.node_set_boot_mode, self.task, mode='non-existing') @mock.patch.object(fake.FakeManagement, 'set_boot_mode', autospec=True) @mock.patch.object(fake.FakeManagement, 'get_supported_boot_modes', autospec=True) def test_node_set_boot_mode_valid(self, mock_gsbm, mock_sbm): mock_gsbm.return_value = [boot_modes.LEGACY_BIOS] conductor_utils.node_set_boot_mode(self.task, mode=boot_modes.LEGACY_BIOS) mock_sbm.assert_called_once_with(mock.ANY, self.task, mode=boot_modes.LEGACY_BIOS) @mock.patch.object(fake.FakeManagement, 'set_boot_mode', autospec=True) @mock.patch.object(fake.FakeManagement, 'get_supported_boot_modes', autospec=True) def test_node_set_boot_mode_adopting(self, mock_gsbm, mock_sbm): mock_gsbm.return_value = [boot_modes.LEGACY_BIOS] old_provision_state = self.task.node.provision_state self.task.node.provision_state = states.ADOPTING try: conductor_utils.node_set_boot_mode(self.task, mode=boot_modes.LEGACY_BIOS) finally: self.task.node.provision_state = old_provision_state self.assertFalse(mock_sbm.called) class NodePowerActionTestCase(db_base.DbTestCase): @mock.patch.object(fake.FakePower, 'get_power_state', autospec=True) def test_node_power_action_power_on(self, get_power_mock): """Test node_power_action to turn node power on.""" node = obj_utils.create_test_node(self.context, uuid=uuidutils.generate_uuid(), driver='fake-hardware', power_state=states.POWER_OFF) task = task_manager.TaskManager(self.context, node.uuid) get_power_mock.return_value = states.POWER_OFF conductor_utils.node_power_action(task, states.POWER_ON) node.refresh() get_power_mock.assert_called_once_with(mock.ANY, mock.ANY) self.assertEqual(states.POWER_ON, node['power_state']) self.assertIsNone(node['target_power_state']) self.assertIsNone(node['last_error']) @mock.patch('ironic.objects.node.NodeSetPowerStateNotification', autospec=True) @mock.patch.object(fake.FakePower, 'get_power_state', autospec=True) @mock.patch.object(nova, 'power_update', autospec=True) def test_node_power_action_power_on_notify(self, mock_power_update, get_power_mock, mock_notif): """Test node_power_action to power on node and send notification.""" self.config(notification_level='info') self.config(host='my-host') # Required for exception handling mock_notif.__name__ = 'NodeSetPowerStateNotification' node = obj_utils.create_test_node(self.context, uuid=uuidutils.generate_uuid(), driver='fake-hardware', instance_uuid=uuidutils.uuid, power_state=states.POWER_OFF) task = task_manager.TaskManager(self.context, node.uuid) get_power_mock.return_value = states.POWER_OFF conductor_utils.node_power_action(task, states.POWER_ON) node.refresh() get_power_mock.assert_called_once_with(mock.ANY, mock.ANY) self.assertEqual(states.POWER_ON, node.power_state) self.assertIsNone(node.target_power_state) self.assertIsNone(node.last_error) # 2 notifications should be sent: 1 .start and 1 .end self.assertEqual(2, mock_notif.call_count) self.assertEqual(2, mock_notif.return_value.emit.call_count) first_notif_args = mock_notif.call_args_list[0][1] second_notif_args = mock_notif.call_args_list[1][1] self.assertNotificationEqual(first_notif_args, 'ironic-conductor', CONF.host, 'baremetal.node.power_set.start', obj_fields.NotificationLevel.INFO) self.assertNotificationEqual(second_notif_args, 'ironic-conductor', CONF.host, 'baremetal.node.power_set.end', obj_fields.NotificationLevel.INFO) mock_power_update.assert_called_once_with( task.context, node.instance_uuid, states.POWER_ON) @mock.patch.object(fake.FakePower, 'get_power_state', autospec=True) def test_node_power_action_power_off(self, get_power_mock): """Test node_power_action to turn node power off.""" dii = {'agent_secret_token': 'token', 'agent_cached_deploy_steps': ['steps']} node = obj_utils.create_test_node(self.context, uuid=uuidutils.generate_uuid(), driver='fake-hardware', power_state=states.POWER_ON, driver_internal_info=dii) task = task_manager.TaskManager(self.context, node.uuid) get_power_mock.return_value = states.POWER_ON conductor_utils.node_power_action(task, states.POWER_OFF) node.refresh() get_power_mock.assert_called_once_with(mock.ANY, mock.ANY) self.assertEqual(states.POWER_OFF, node['power_state']) self.assertIsNone(node['target_power_state']) self.assertIsNone(node['last_error']) self.assertNotIn('agent_secret_token', node['driver_internal_info']) self.assertNotIn('agent_cached_deploy_steps', node['driver_internal_info']) @mock.patch.object(fake.FakePower, 'get_power_state', autospec=True) def test_node_power_action_power_off_pregenerated_token(self, get_power_mock): dii = {'agent_secret_token': 'token', 'agent_secret_token_pregenerated': True} node = obj_utils.create_test_node(self.context, uuid=uuidutils.generate_uuid(), driver='fake-hardware', power_state=states.POWER_ON, driver_internal_info=dii) task = task_manager.TaskManager(self.context, node.uuid) get_power_mock.return_value = states.POWER_ON conductor_utils.node_power_action(task, states.POWER_OFF) node.refresh() get_power_mock.assert_called_once_with(mock.ANY, mock.ANY) self.assertEqual(states.POWER_OFF, node['power_state']) self.assertIsNone(node['target_power_state']) self.assertIsNone(node['last_error']) self.assertEqual('token', node['driver_internal_info']['agent_secret_token']) @mock.patch.object(fake.FakePower, 'reboot', autospec=True) @mock.patch.object(fake.FakePower, 'get_power_state', autospec=True) def test_node_power_action_power_reboot(self, get_power_mock, reboot_mock): """Test for reboot a node.""" node = obj_utils.create_test_node(self.context, uuid=uuidutils.generate_uuid(), driver='fake-hardware', power_state=states.POWER_ON) task = task_manager.TaskManager(self.context, node.uuid) conductor_utils.node_power_action(task, states.REBOOT) self.assertFalse(get_power_mock.called) node.refresh() reboot_mock.assert_called_once_with(mock.ANY, mock.ANY, timeout=None) self.assertEqual(states.POWER_ON, node['power_state']) self.assertIsNone(node['target_power_state']) self.assertIsNone(node['last_error']) @mock.patch.object(fake.FakePower, 'get_power_state', autospec=True) def test_node_power_action_invalid_state(self, get_power_mock): """Test for exception when changing to an invalid power state.""" node = obj_utils.create_test_node(self.context, uuid=uuidutils.generate_uuid(), driver='fake-hardware', power_state=states.POWER_ON) task = task_manager.TaskManager(self.context, node.uuid) get_power_mock.return_value = states.POWER_ON self.assertRaises(exception.InvalidParameterValue, conductor_utils.node_power_action, task, "INVALID_POWER_STATE") node.refresh() self.assertFalse(get_power_mock.called) self.assertEqual(states.POWER_ON, node['power_state']) self.assertIsNone(node['target_power_state']) self.assertIsNotNone(node['last_error']) # last_error is cleared when a new transaction happens conductor_utils.node_power_action(task, states.POWER_OFF) node.refresh() self.assertEqual(states.POWER_OFF, node['power_state']) self.assertIsNone(node['target_power_state']) self.assertIsNone(node['last_error']) @mock.patch('ironic.objects.node.NodeSetPowerStateNotification', autospec=True) @mock.patch.object(fake.FakePower, 'get_power_state', autospec=True) def test_node_power_action_invalid_state_notify(self, get_power_mock, mock_notif): """Test for notification when changing to an invalid power state.""" self.config(notification_level='info') self.config(host='my-host') # Required for exception handling mock_notif.__name__ = 'NodeSetPowerStateNotification' node = obj_utils.create_test_node(self.context, uuid=uuidutils.generate_uuid(), driver='fake-hardware', power_state=states.POWER_ON) task = task_manager.TaskManager(self.context, node.uuid) get_power_mock.return_value = states.POWER_ON self.assertRaises(exception.InvalidParameterValue, conductor_utils.node_power_action, task, "INVALID_POWER_STATE") node.refresh() self.assertFalse(get_power_mock.called) self.assertEqual(states.POWER_ON, node.power_state) self.assertIsNone(node.target_power_state) self.assertIsNotNone(node.last_error) # 2 notifications should be sent: 1 .start and 1 .error self.assertEqual(2, mock_notif.call_count) self.assertEqual(2, mock_notif.return_value.emit.call_count) first_notif_args = mock_notif.call_args_list[0][1] second_notif_args = mock_notif.call_args_list[1][1] self.assertNotificationEqual(first_notif_args, 'ironic-conductor', CONF.host, 'baremetal.node.power_set.start', obj_fields.NotificationLevel.INFO) self.assertNotificationEqual(second_notif_args, 'ironic-conductor', CONF.host, 'baremetal.node.power_set.error', obj_fields.NotificationLevel.ERROR) def test_node_power_action_already_being_processed(self): """Test node power action after aborted power action. The target_power_state is expected to be None so it isn't checked in the code. This is what happens if it is not None. (Eg, if a conductor had died during a previous power-off attempt and left the target_power_state set to states.POWER_OFF, and the user is attempting to power-off again.) """ node = obj_utils.create_test_node(self.context, uuid=uuidutils.generate_uuid(), driver='fake-hardware', power_state=states.POWER_ON, target_power_state=states.POWER_OFF) task = task_manager.TaskManager(self.context, node.uuid) conductor_utils.node_power_action(task, states.POWER_OFF) node.refresh() self.assertEqual(states.POWER_OFF, node['power_state']) self.assertEqual(states.NOSTATE, node['target_power_state']) self.assertIsNone(node['last_error']) self.assertNotIn('agent_secret_token', node['driver_internal_info']) @mock.patch.object(conductor_utils, 'LOG', autospec=True) @mock.patch.object(fake.FakePower, 'set_power_state', autospec=True) @mock.patch.object(fake.FakePower, 'get_power_state', autospec=True) def test_node_power_action_in_same_state(self, get_power_mock, set_power_mock, log_mock): """Test setting node state to its present state. Test that we don't try to set the power state if the requested state is the same as the current state. """ node = obj_utils.create_test_node(self.context, uuid=uuidutils.generate_uuid(), driver='fake-hardware', last_error='anything but None', power_state=states.POWER_ON) task = task_manager.TaskManager(self.context, node.uuid) get_power_mock.return_value = states.POWER_ON conductor_utils.node_power_action(task, states.POWER_ON) node.refresh() get_power_mock.assert_called_once_with(mock.ANY, mock.ANY) self.assertFalse(set_power_mock.called, "set_power_state unexpectedly called") self.assertEqual(states.POWER_ON, node['power_state']) self.assertIsNone(node['target_power_state']) self.assertIsNone(node['last_error']) log_mock.warning.assert_called_once_with( u"Not going to change node %(node)s power state because " u"current state = requested state = '%(state)s'.", {'state': states.POWER_ON, 'node': node.uuid}) @mock.patch.object(fake.FakePower, 'set_power_state', autospec=True) @mock.patch.object(fake.FakePower, 'get_power_state', autospec=True) def test_node_power_action_in_same_state_db_not_in_sync(self, get_power_mock, set_power_mock): """Test setting node state to its present state if DB is out of sync. Under rare conditions (see bug #1403106) database might contain stale information, make sure we fix it. """ node = obj_utils.create_test_node(self.context, uuid=uuidutils.generate_uuid(), driver='fake-hardware', last_error='anything but None', power_state=states.POWER_ON) task = task_manager.TaskManager(self.context, node.uuid) get_power_mock.return_value = states.POWER_OFF conductor_utils.node_power_action(task, states.POWER_OFF) node.refresh() get_power_mock.assert_called_once_with(mock.ANY, mock.ANY) self.assertFalse(set_power_mock.called, "set_power_state unexpectedly called") self.assertEqual(states.POWER_OFF, node['power_state']) self.assertIsNone(node['target_power_state']) self.assertIsNone(node['last_error']) @mock.patch.object(fake.FakePower, 'get_power_state', autospec=True) def test_node_power_action_failed_getting_state(self, get_power_mock): """Test for exception when we can't get the current power state.""" node = obj_utils.create_test_node(self.context, uuid=uuidutils.generate_uuid(), driver='fake-hardware', power_state=states.POWER_ON) task = task_manager.TaskManager(self.context, node.uuid) get_power_mock.side_effect = ( exception.InvalidParameterValue('failed getting power state')) self.assertRaises(exception.InvalidParameterValue, conductor_utils.node_power_action, task, states.POWER_ON) node.refresh() get_power_mock.assert_called_once_with(mock.ANY, mock.ANY) self.assertEqual(states.POWER_ON, node['power_state']) self.assertIsNone(node['target_power_state']) self.assertIsNotNone(node['last_error']) @mock.patch('ironic.objects.node.NodeSetPowerStateNotification', autospec=True) @mock.patch.object(fake.FakePower, 'get_power_state', autospec=True) def test_node_power_action_failed_getting_state_notify(self, get_power_mock, mock_notif): """Test for notification when we can't get the current power state.""" self.config(notification_level='info') self.config(host='my-host') # Required for exception handling mock_notif.__name__ = 'NodeSetPowerStateNotification' node = obj_utils.create_test_node(self.context, uuid=uuidutils.generate_uuid(), driver='fake-hardware', power_state=states.POWER_ON) task = task_manager.TaskManager(self.context, node.uuid) get_power_mock.side_effect = ( exception.InvalidParameterValue('failed getting power state')) self.assertRaises(exception.InvalidParameterValue, conductor_utils.node_power_action, task, states.POWER_ON) node.refresh() get_power_mock.assert_called_once_with(mock.ANY, mock.ANY) self.assertEqual(states.POWER_ON, node.power_state) self.assertIsNone(node.target_power_state) self.assertIsNotNone(node.last_error) # 2 notifications should be sent: 1 .start and 1 .error self.assertEqual(2, mock_notif.call_count) self.assertEqual(2, mock_notif.return_value.emit.call_count) first_notif_args = mock_notif.call_args_list[0][1] second_notif_args = mock_notif.call_args_list[1][1] self.assertNotificationEqual(first_notif_args, 'ironic-conductor', CONF.host, 'baremetal.node.power_set.start', obj_fields.NotificationLevel.INFO) self.assertNotificationEqual(second_notif_args, 'ironic-conductor', CONF.host, 'baremetal.node.power_set.error', obj_fields.NotificationLevel.ERROR) @mock.patch.object(fake.FakePower, 'set_power_state', autospec=True) @mock.patch.object(fake.FakePower, 'get_power_state', autospec=True) def test_node_power_action_set_power_failure(self, get_power_mock, set_power_mock): """Test if an exception is thrown when the set_power call fails.""" node = obj_utils.create_test_node(self.context, uuid=uuidutils.generate_uuid(), driver='fake-hardware', power_state=states.POWER_OFF) task = task_manager.TaskManager(self.context, node.uuid) get_power_mock.return_value = states.POWER_OFF set_power_mock.side_effect = exception.IronicException() self.assertRaises( exception.IronicException, conductor_utils.node_power_action, task, states.POWER_ON) node.refresh() get_power_mock.assert_called_once_with(mock.ANY, mock.ANY) set_power_mock.assert_called_once_with( mock.ANY, mock.ANY, states.POWER_ON, timeout=None) self.assertEqual(states.POWER_OFF, node['power_state']) self.assertIsNone(node['target_power_state']) self.assertIsNotNone(node['last_error']) @mock.patch('ironic.objects.node.NodeSetPowerStateNotification', autospec=True) @mock.patch.object(fake.FakePower, 'set_power_state', autospec=True) @mock.patch.object(fake.FakePower, 'get_power_state', autospec=True) def test_node_power_action_set_power_failure_notify(self, get_power_mock, set_power_mock, mock_notif): """Test if a notification is sent when the set_power call fails.""" self.config(notification_level='info') self.config(host='my-host') # Required for exception handling mock_notif.__name__ = 'NodeSetPowerStateNotification' node = obj_utils.create_test_node(self.context, uuid=uuidutils.generate_uuid(), driver='fake-hardware', power_state=states.POWER_OFF) task = task_manager.TaskManager(self.context, node.uuid) get_power_mock.return_value = states.POWER_OFF set_power_mock.side_effect = exception.IronicException() self.assertRaises( exception.IronicException, conductor_utils.node_power_action, task, states.POWER_ON) node.refresh() get_power_mock.assert_called_once_with(mock.ANY, mock.ANY) set_power_mock.assert_called_once_with( mock.ANY, mock.ANY, states.POWER_ON, timeout=None) self.assertEqual(states.POWER_OFF, node.power_state) self.assertIsNone(node.target_power_state) self.assertIsNotNone(node.last_error) # 2 notifications should be sent: 1 .start and 1 .error self.assertEqual(2, mock_notif.call_count) self.assertEqual(2, mock_notif.return_value.emit.call_count) first_notif_args = mock_notif.call_args_list[0][1] second_notif_args = mock_notif.call_args_list[1][1] self.assertNotificationEqual(first_notif_args, 'ironic-conductor', CONF.host, 'baremetal.node.power_set.start', obj_fields.NotificationLevel.INFO) self.assertNotificationEqual( second_notif_args, 'ironic-conductor', CONF.host, 'baremetal.node.power_set.error', obj_fields.NotificationLevel.ERROR) @mock.patch.object(fake.FakeStorage, 'attach_volumes', autospec=True) def test_node_power_action_power_on_storage_attach(self, attach_mock): """Test node_power_action to turn node power on and attach storage.""" node = obj_utils.create_test_node(self.context, uuid=uuidutils.generate_uuid(), driver='fake-hardware', power_state=states.POWER_OFF, storage_interface="fake", provision_state=states.ACTIVE) task = task_manager.TaskManager(self.context, node.uuid) conductor_utils.node_power_action(task, states.POWER_ON) node.refresh() attach_mock.assert_called_once_with(mock.ANY, task) self.assertEqual(states.POWER_ON, node['power_state']) self.assertIsNone(node['target_power_state']) self.assertIsNone(node['last_error']) @mock.patch.object(fake.FakeStorage, 'attach_volumes', autospec=True) def test_node_power_action_reboot_storage_attach(self, attach_mock): """Test node_power_action to reboot the node and attach storage.""" node = obj_utils.create_test_node(self.context, uuid=uuidutils.generate_uuid(), driver='fake-hardware', power_state=states.POWER_ON, storage_interface="fake", provision_state=states.ACTIVE) task = task_manager.TaskManager(self.context, node.uuid) conductor_utils.node_power_action(task, states.REBOOT) node.refresh() attach_mock.assert_called_once_with(mock.ANY, task) self.assertEqual(states.POWER_ON, node['power_state']) self.assertIsNone(node['target_power_state']) self.assertIsNone(node['last_error']) @mock.patch.object(fake.FakeStorage, 'detach_volumes', autospec=True) def test_node_power_action_power_off_storage_detach(self, detach_mock): """Test node_power_action to turn node power off and detach storage.""" node = obj_utils.create_test_node(self.context, uuid=uuidutils.generate_uuid(), driver='fake-hardware', power_state=states.POWER_ON, storage_interface="fake", provision_state=states.ACTIVE) task = task_manager.TaskManager(self.context, node.uuid) conductor_utils.node_power_action(task, states.POWER_OFF) node.refresh() detach_mock.assert_called_once_with(mock.ANY, task) self.assertEqual(states.POWER_OFF, node['power_state']) self.assertIsNone(node['target_power_state']) self.assertIsNone(node['last_error']) def test__calculate_target_state(self): for new_state in (states.POWER_ON, states.REBOOT, states.SOFT_REBOOT): self.assertEqual( states.POWER_ON, conductor_utils._calculate_target_state(new_state)) for new_state in (states.POWER_OFF, states.SOFT_POWER_OFF): self.assertEqual( states.POWER_OFF, conductor_utils._calculate_target_state(new_state)) self.assertIsNone(conductor_utils._calculate_target_state('bad_state')) @mock.patch.object(fake.FakePower, 'get_power_state', autospec=True) def test__can_skip_state_change_different_state(self, get_power_mock): """Test setting node state to different state. Test that we should change state if requested state is different from current state. """ node = obj_utils.create_test_node(self.context, uuid=uuidutils.generate_uuid(), driver='fake-hardware', last_error='anything but None', power_state=states.POWER_ON) task = task_manager.TaskManager(self.context, node.uuid) get_power_mock.return_value = states.POWER_ON result = conductor_utils._can_skip_state_change( task, states.POWER_OFF) self.assertFalse(result) get_power_mock.assert_called_once_with(mock.ANY, mock.ANY) @mock.patch.object(conductor_utils, 'LOG', autospec=True) @mock.patch.object(fake.FakePower, 'get_power_state', autospec=True) def test__can_skip_state_change_same_state(self, get_power_mock, mock_log): """Test setting node state to its present state. Test that we don't try to set the power state if the requested state is the same as the current state. """ node = obj_utils.create_test_node(self.context, uuid=uuidutils.generate_uuid(), driver='fake-hardware', last_error='anything but None', power_state=states.POWER_ON) task = task_manager.TaskManager(self.context, node.uuid) get_power_mock.return_value = states.POWER_ON result = conductor_utils._can_skip_state_change( task, states.POWER_ON) self.assertTrue(result) node.refresh() get_power_mock.assert_called_once_with(mock.ANY, mock.ANY) self.assertEqual(states.POWER_ON, node['power_state']) self.assertEqual(states.NOSTATE, node['target_power_state']) self.assertIsNone(node['last_error']) mock_log.warning.assert_called_once_with( u"Not going to change node %(node)s power state because " u"current state = requested state = '%(state)s'.", {'state': states.POWER_ON, 'node': node.uuid}) @mock.patch.object(fake.FakePower, 'get_power_state', autospec=True) def test__can_skip_state_change_db_not_in_sync(self, get_power_mock): """Test setting node state to its present state if DB is out of sync. Under rare conditions (see bug #1403106) database might contain stale information, make sure we fix it. """ node = obj_utils.create_test_node(self.context, uuid=uuidutils.generate_uuid(), driver='fake-hardware', last_error='anything but None', power_state=states.POWER_ON) task = task_manager.TaskManager(self.context, node.uuid) get_power_mock.return_value = states.POWER_OFF result = conductor_utils._can_skip_state_change(task, states.POWER_OFF) self.assertTrue(result) node.refresh() get_power_mock.assert_called_once_with(mock.ANY, mock.ANY) self.assertEqual(states.POWER_OFF, node['power_state']) self.assertEqual(states.NOSTATE, node['target_power_state']) self.assertIsNone(node['last_error']) @mock.patch('ironic.objects.node.NodeSetPowerStateNotification', autospec=True) @mock.patch.object(fake.FakePower, 'get_power_state', autospec=True) def test__can_skip_state_change_failed_getting_state_notify( self, get_power_mock, mock_notif): """Test for notification & exception when can't get power state. Test to make sure we generate a notification and also that an exception is raised when we can't get the current power state. """ self.config(notification_level='info') self.config(host='my-host') # Required for exception handling mock_notif.__name__ = 'NodeSetPowerStateNotification' node = obj_utils.create_test_node(self.context, uuid=uuidutils.generate_uuid(), driver='fake-hardware', power_state=states.POWER_ON) task = task_manager.TaskManager(self.context, node.uuid) get_power_mock.side_effect = ( exception.InvalidParameterValue('failed getting power state')) self.assertRaises(exception.InvalidParameterValue, conductor_utils._can_skip_state_change, task, states.POWER_ON) node.refresh() get_power_mock.assert_called_once_with(mock.ANY, mock.ANY) self.assertEqual(states.POWER_ON, node.power_state) self.assertEqual(states.NOSTATE, node['target_power_state']) self.assertIsNotNone(node.last_error) # 1 notification should be sent for the error self.assertEqual(1, mock_notif.call_count) self.assertEqual(1, mock_notif.return_value.emit.call_count) notif_args = mock_notif.call_args_list[0][1] self.assertNotificationEqual(notif_args, 'ironic-conductor', CONF.host, 'baremetal.node.power_set.error', obj_fields.NotificationLevel.ERROR) def test_node_power_action_reboot_no_timeout(self): """Test node reboot using Power Interface with no timeout arg.""" node = obj_utils.create_test_node(self.context, uuid=uuidutils.generate_uuid(), driver='fake-hardware', console_interface='no-console', inspect_interface='no-inspect', raid_interface='no-raid', rescue_interface='no-rescue', vendor_interface='no-vendor', bios_interface='no-bios', power_state=states.POWER_ON) self.config(enabled_boot_interfaces=['fake']) self.config(enabled_deploy_interfaces=['fake']) self.config(enabled_management_interfaces=['fake']) self.config(enabled_power_interfaces=['fake']) task = task_manager.TaskManager(self.context, node.uuid) task.driver.power = TestPowerNoTimeout() self.assertRaisesRegex(TypeError, 'unexpected keyword argument', conductor_utils.node_power_action, task, states.REBOOT) node.refresh() self.assertEqual(states.POWER_ON, node['power_state']) self.assertIsNone(node['target_power_state']) self.assertTrue('unexpected keyword argument' in node['last_error']) class NodeSoftPowerActionTestCase(db_base.DbTestCase): @mock.patch.object(fake.FakePower, 'get_power_state', autospec=True) def test_node_power_action_power_soft_reboot(self, get_power_mock): """Test for soft reboot a node.""" node = obj_utils.create_test_node(self.context, uuid=uuidutils.generate_uuid(), driver='fake-hardware', power_state=states.POWER_ON) task = task_manager.TaskManager(self.context, node.uuid) get_power_mock.return_value = states.POWER_ON conductor_utils.node_power_action(task, states.SOFT_REBOOT) node.refresh() self.assertFalse(get_power_mock.called) self.assertEqual(states.POWER_ON, node['power_state']) self.assertIsNone(node['target_power_state']) self.assertIsNone(node['last_error']) @mock.patch.object(fake.FakePower, 'get_power_state', autospec=True) def test_node_power_action_power_soft_reboot_timeout(self, get_power_mock): """Test for soft reboot a node.""" node = obj_utils.create_test_node(self.context, uuid=uuidutils.generate_uuid(), driver='fake-hardware', power_state=states.POWER_ON) task = task_manager.TaskManager(self.context, node.uuid) get_power_mock.return_value = states.POWER_ON conductor_utils.node_power_action(task, states.SOFT_REBOOT, timeout=2) node.refresh() self.assertFalse(get_power_mock.called) self.assertEqual(states.POWER_ON, node['power_state']) self.assertIsNone(node['target_power_state']) self.assertIsNone(node['last_error']) @mock.patch.object(fake.FakePower, 'get_power_state', autospec=True) def test_node_power_action_soft_power_off(self, get_power_mock): """Test node_power_action to turn node soft power off.""" node = obj_utils.create_test_node(self.context, uuid=uuidutils.generate_uuid(), driver='fake-hardware', power_state=states.POWER_ON) task = task_manager.TaskManager(self.context, node.uuid) get_power_mock.return_value = states.POWER_ON conductor_utils.node_power_action(task, states.SOFT_POWER_OFF) node.refresh() get_power_mock.assert_called_once_with(mock.ANY, mock.ANY) self.assertEqual(states.POWER_OFF, node['power_state']) self.assertIsNone(node['target_power_state']) self.assertIsNone(node['last_error']) @mock.patch.object(fake.FakePower, 'get_power_state', autospec=True) def test_node_power_action_soft_power_off_timeout(self, get_power_mock): """Test node_power_action to turn node soft power off.""" node = obj_utils.create_test_node(self.context, uuid=uuidutils.generate_uuid(), driver='fake-hardware', power_state=states.POWER_ON) task = task_manager.TaskManager(self.context, node.uuid) get_power_mock.return_value = states.POWER_ON conductor_utils.node_power_action(task, states.SOFT_POWER_OFF, timeout=2) node.refresh() get_power_mock.assert_called_once_with(mock.ANY, mock.ANY) self.assertEqual(states.POWER_OFF, node['power_state']) self.assertIsNone(node['target_power_state']) self.assertIsNone(node['last_error']) @mock.patch.object(fake.FakeStorage, 'detach_volumes', autospec=True) def test_node_power_action_soft_power_off_storage_detach(self, detach_mock): """Test node_power_action to soft power off node and detach storage.""" node = obj_utils.create_test_node(self.context, uuid=uuidutils.generate_uuid(), driver='fake-hardware', power_state=states.POWER_ON, storage_interface="fake", provision_state=states.ACTIVE) task = task_manager.TaskManager(self.context, node.uuid) conductor_utils.node_power_action(task, states.SOFT_POWER_OFF) node.refresh() detach_mock.assert_called_once_with(mock.ANY, task) self.assertEqual(states.POWER_OFF, node['power_state']) self.assertIsNone(node['target_power_state']) self.assertIsNone(node['last_error']) class DeployingErrorHandlerTestCase(tests_base.TestCase): def setUp(self): super(DeployingErrorHandlerTestCase, self).setUp() self.task = mock.Mock(spec=task_manager.TaskManager) self.task.context = self.context self.task.driver = mock.Mock(spec_set=['deploy']) self.task.shared = False self.task.node = mock.Mock(spec_set=objects.Node) self.node = self.task.node self.node.provision_state = states.DEPLOYING self.node.last_error = None self.node.deploy_step = None self.node.driver_internal_info = {} self.logmsg = "log message" self.errmsg = "err message" @mock.patch.object(conductor_utils, 'deploying_error_handler', autospec=True) def test_cleanup_after_timeout(self, mock_handler): conductor_utils.cleanup_after_timeout(self.task) mock_handler.assert_called_once_with(self.task, mock.ANY, mock.ANY) def test_cleanup_after_timeout_shared_lock(self): self.task.shared = True self.assertRaises(exception.ExclusiveLockRequired, conductor_utils.cleanup_after_timeout, self.task) def test_deploying_error_handler(self): info = self.node.driver_internal_info info['deploy_step_index'] = 2 info['deployment_reboot'] = True info['deployment_polling'] = True info['skip_current_deploy_step'] = True info['agent_url'] = 'url' conductor_utils.deploying_error_handler(self.task, self.logmsg, self.errmsg) self.assertEqual([mock.call()] * 2, self.node.save.call_args_list) self.task.driver.deploy.clean_up.assert_called_once_with(self.task) self.assertEqual(self.errmsg, self.node.last_error) self.assertEqual({}, self.node.deploy_step) self.assertNotIn('deploy_step_index', self.node.driver_internal_info) self.assertNotIn('deployment_reboot', self.node.driver_internal_info) self.assertNotIn('deployment_polling', self.node.driver_internal_info) self.assertNotIn('skip_current_deploy_step', self.node.driver_internal_info) self.assertNotIn('agent_url', self.node.driver_internal_info) self.task.process_event.assert_called_once_with('fail') def _test_deploying_error_handler_cleanup(self, exc, expected_str): clean_up_mock = self.task.driver.deploy.clean_up clean_up_mock.side_effect = exc conductor_utils.deploying_error_handler(self.task, self.logmsg, self.errmsg) self.task.driver.deploy.clean_up.assert_called_once_with(self.task) self.assertEqual([mock.call()] * 2, self.node.save.call_args_list) self.assertIn(expected_str, self.node.last_error) self.assertEqual({}, self.node.deploy_step) self.assertNotIn('deploy_step_index', self.node.driver_internal_info) self.task.process_event.assert_called_once_with('fail') def test_deploying_error_handler_cleanup_ironic_exception(self): self._test_deploying_error_handler_cleanup( exception.IronicException('moocow'), 'moocow') def test_deploying_error_handler_cleanup_random_exception(self): self._test_deploying_error_handler_cleanup( Exception('moocow'), 'unhandled exception') def test_deploying_error_handler_no_cleanup(self): conductor_utils.deploying_error_handler( self.task, self.logmsg, self.errmsg, clean_up=False) self.assertFalse(self.task.driver.deploy.clean_up.called) self.assertEqual([mock.call()] * 2, self.node.save.call_args_list) self.assertEqual(self.errmsg, self.node.last_error) self.assertEqual({}, self.node.deploy_step) self.assertNotIn('deploy_step_index', self.node.driver_internal_info) self.task.process_event.assert_called_once_with('fail') def test_deploying_error_handler_not_deploy(self): # Not in a deploy state self.node.provision_state = states.AVAILABLE self.node.driver_internal_info['deploy_step_index'] = 2 conductor_utils.deploying_error_handler( self.task, self.logmsg, self.errmsg, clean_up=False) self.assertEqual([mock.call()] * 2, self.node.save.call_args_list) self.assertEqual(self.errmsg, self.node.last_error) self.assertIsNone(self.node.deploy_step) self.assertIn('deploy_step_index', self.node.driver_internal_info) self.task.process_event.assert_called_once_with('fail') class ErrorHandlersTestCase(tests_base.TestCase): def setUp(self): super(ErrorHandlersTestCase, self).setUp() self.task = mock.Mock(spec=task_manager.TaskManager) self.task.driver = mock.Mock(spec_set=['deploy', 'network', 'rescue']) self.task.node = mock.Mock(spec_set=objects.Node) self.task.shared = False self.node = self.task.node # NOTE(mariojv) Some of the test cases that use the task below require # strict typing of the node power state fields and would fail if passed # a Mock object in constructors. A task context is also required for # notifications. self.node.configure_mock(power_state=states.POWER_OFF, target_power_state=states.POWER_ON, maintenance=False, maintenance_reason=None) self.task.context = self.context @mock.patch.object(conductor_utils, 'LOG', autospec=True) def test_provision_error_handler_no_worker(self, log_mock): exc = exception.NoFreeConductorWorker() conductor_utils.provisioning_error_handler(exc, self.node, 'state-one', 'state-two') self.node.save.assert_called_once_with() self.assertEqual('state-one', self.node.provision_state) self.assertEqual('state-two', self.node.target_provision_state) self.assertIn('No free conductor workers', self.node.last_error) self.assertTrue(log_mock.warning.called) @mock.patch.object(conductor_utils, 'LOG', autospec=True) def test_provision_error_handler_other_error(self, log_mock): exc = Exception('foo') conductor_utils.provisioning_error_handler(exc, self.node, 'state-one', 'state-two') self.assertFalse(self.node.save.called) self.assertFalse(log_mock.warning.called) @mock.patch.object(conductor_utils, 'cleaning_error_handler', autospec=True) def test_cleanup_cleanwait_timeout_handler_call(self, mock_error_handler): self.node.clean_step = {} conductor_utils.cleanup_cleanwait_timeout(self.task) mock_error_handler.assert_called_once_with( self.task, msg="Timeout reached while cleaning the node. Please " "check if the ramdisk responsible for the cleaning is " "running on the node. Failed on step {}.", set_fail_state=False) def test_cleanup_cleanwait_timeout(self): self.node.provision_state = states.CLEANFAIL target = 'baz' self.node.target_provision_state = target self.node.driver_internal_info = {} self.node.clean_step = {'key': 'val'} clean_error = ("Timeout reached while cleaning the node. Please " "check if the ramdisk responsible for the cleaning is " "running on the node. Failed on step {'key': 'val'}.") self.node.driver_internal_info = { 'cleaning_reboot': True, 'clean_step_index': 0} conductor_utils.cleanup_cleanwait_timeout(self.task) self.assertEqual({}, self.node.clean_step) self.assertNotIn('clean_step_index', self.node.driver_internal_info) self.assertFalse(self.task.process_event.called) self.assertTrue(self.node.maintenance) self.assertEqual(clean_error, self.node.maintenance_reason) self.assertEqual('clean failure', self.node.fault) def _test_cleaning_error_handler(self, prov_state=states.CLEANING): self.node.provision_state = prov_state target = 'baz' self.node.target_provision_state = target self.node.clean_step = {'key': 'val'} self.node.driver_internal_info = { 'cleaning_reboot': True, 'cleaning_polling': True, 'skip_current_clean_step': True, 'clean_step_index': 0, 'agent_url': 'url'} msg = 'error bar' conductor_utils.cleaning_error_handler(self.task, msg) self.node.save.assert_called_once_with() self.assertEqual({}, self.node.clean_step) self.assertNotIn('clean_step_index', self.node.driver_internal_info) self.assertNotIn('cleaning_reboot', self.node.driver_internal_info) self.assertNotIn('cleaning_polling', self.node.driver_internal_info) self.assertNotIn('skip_current_clean_step', self.node.driver_internal_info) self.assertEqual(msg, self.node.last_error) self.assertTrue(self.node.maintenance) self.assertEqual(msg, self.node.maintenance_reason) self.assertEqual('clean failure', self.node.fault) driver = self.task.driver.deploy driver.tear_down_cleaning.assert_called_once_with(self.task) if prov_state == states.CLEANFAIL: self.assertFalse(self.task.process_event.called) else: self.task.process_event.assert_called_once_with('fail', target_state=None) self.assertNotIn('agent_url', self.node.driver_internal_info) def test_cleaning_error_handler(self): self._test_cleaning_error_handler() def test_cleaning_error_handler_cleanwait(self): self._test_cleaning_error_handler(prov_state=states.CLEANWAIT) def test_cleaning_error_handler_cleanfail(self): self._test_cleaning_error_handler(prov_state=states.CLEANFAIL) def test_cleaning_error_handler_manual(self): target = states.MANAGEABLE self.node.target_provision_state = target conductor_utils.cleaning_error_handler(self.task, 'foo') self.task.process_event.assert_called_once_with('fail', target_state=target) def test_cleaning_error_handler_no_teardown(self): target = states.MANAGEABLE self.node.target_provision_state = target conductor_utils.cleaning_error_handler(self.task, 'foo', tear_down_cleaning=False) self.assertFalse(self.task.driver.deploy.tear_down_cleaning.called) self.task.process_event.assert_called_once_with('fail', target_state=target) def test_cleaning_error_handler_no_fail(self): conductor_utils.cleaning_error_handler(self.task, 'foo', set_fail_state=False) driver = self.task.driver.deploy driver.tear_down_cleaning.assert_called_once_with(self.task) self.assertFalse(self.task.process_event.called) @mock.patch.object(conductor_utils, 'LOG', autospec=True) def test_cleaning_error_handler_tear_down_error(self, log_mock): def _side_effect(task): # simulate overwriting last error by another operation (e.g. power) task.node.last_error = None raise Exception('bar') driver = self.task.driver.deploy msg = 'foo' driver.tear_down_cleaning.side_effect = _side_effect conductor_utils.cleaning_error_handler(self.task, msg) self.assertTrue(log_mock.exception.called) self.assertIn(msg, self.node.last_error) self.assertIn(msg, self.node.maintenance_reason) self.assertEqual('clean failure', self.node.fault) def test_abort_on_conductor_take_over_cleaning(self): self.node.provision_state = states.CLEANFAIL conductor_utils.abort_on_conductor_take_over(self.task) self.assertTrue(self.node.maintenance) self.assertIn('take over', self.node.maintenance_reason) self.assertIn('take over', self.node.last_error) self.assertEqual('clean failure', self.node.fault) self.task.driver.deploy.tear_down_cleaning.assert_called_once_with( self.task) self.node.save.assert_called_once_with() def test_abort_on_conductor_take_over_deploying(self): self.node.provision_state = states.DEPLOYFAIL conductor_utils.abort_on_conductor_take_over(self.task) self.assertFalse(self.node.maintenance) self.assertIn('take over', self.node.last_error) self.node.save.assert_called_once_with() @mock.patch.object(conductor_utils, 'LOG', autospec=True) def test_spawn_cleaning_error_handler_no_worker(self, log_mock): exc = exception.NoFreeConductorWorker() conductor_utils.spawn_cleaning_error_handler(exc, self.node) self.node.save.assert_called_once_with() self.assertIn('No free conductor workers', self.node.last_error) self.assertTrue(log_mock.warning.called) @mock.patch.object(conductor_utils, 'LOG', autospec=True) def test_spawn_cleaning_error_handler_other_error(self, log_mock): exc = Exception('foo') conductor_utils.spawn_cleaning_error_handler(exc, self.node) self.assertFalse(self.node.save.called) self.assertFalse(log_mock.warning.called) @mock.patch.object(conductor_utils, 'LOG', autospec=True) def test_spawn_deploying_error_handler_no_worker(self, log_mock): exc = exception.NoFreeConductorWorker() conductor_utils.spawn_deploying_error_handler(exc, self.node) self.node.save.assert_called_once_with() self.assertIn('No free conductor workers', self.node.last_error) self.assertTrue(log_mock.warning.called) @mock.patch.object(conductor_utils, 'LOG', autospec=True) def test_spawn_deploying_error_handler_other_error(self, log_mock): exc = Exception('foo') conductor_utils.spawn_deploying_error_handler(exc, self.node) self.assertFalse(self.node.save.called) self.assertFalse(log_mock.warning.called) @mock.patch.object(conductor_utils, 'LOG', autospec=True) def test_spawn_rescue_error_handler_no_worker(self, log_mock): exc = exception.NoFreeConductorWorker() self.node.instance_info = {'rescue_password': 'pass', 'hashed_rescue_password': '12'} conductor_utils.spawn_rescue_error_handler(exc, self.node) self.node.save.assert_called_once_with() self.assertIn('No free conductor workers', self.node.last_error) self.assertTrue(log_mock.warning.called) self.assertNotIn('rescue_password', self.node.instance_info) self.assertNotIn('hashed_rescue_password', self.node.instance_info) @mock.patch.object(conductor_utils, 'LOG', autospec=True) def test_spawn_rescue_error_handler_other_error(self, log_mock): exc = Exception('foo') self.node.instance_info = {'rescue_password': 'pass', 'hashed_rescue_password': '12'} conductor_utils.spawn_rescue_error_handler(exc, self.node) self.assertFalse(self.node.save.called) self.assertFalse(log_mock.warning.called) self.assertIn('rescue_password', self.node.instance_info) @mock.patch.object(conductor_utils, 'LOG', autospec=True) def test_power_state_error_handler_no_worker(self, log_mock): exc = exception.NoFreeConductorWorker() conductor_utils.power_state_error_handler(exc, self.node, 'newstate') self.node.save.assert_called_once_with() self.assertEqual('newstate', self.node.power_state) self.assertEqual(states.NOSTATE, self.node.target_power_state) self.assertIn('No free conductor workers', self.node.last_error) self.assertTrue(log_mock.warning.called) @mock.patch.object(conductor_utils, 'LOG', autospec=True) def test_power_state_error_handler_other_error(self, log_mock): exc = Exception('foo') conductor_utils.power_state_error_handler(exc, self.node, 'foo') self.assertFalse(self.node.save.called) self.assertFalse(log_mock.warning.called) @mock.patch.object(conductor_utils, 'LOG', autospec=True) @mock.patch.object(conductor_utils, 'node_power_action', autospec=True) def test_cleanup_rescuewait_timeout(self, node_power_mock, log_mock): conductor_utils.cleanup_rescuewait_timeout(self.task) self.assertTrue(log_mock.error.called) node_power_mock.assert_called_once_with(mock.ANY, states.POWER_OFF) self.task.driver.rescue.clean_up.assert_called_once_with(self.task) self.assertIn('Timeout reached', self.node.last_error) self.node.save.assert_called_once_with() @mock.patch.object(conductor_utils, 'LOG', autospec=True) @mock.patch.object(conductor_utils, 'node_power_action', autospec=True) def test_cleanup_rescuewait_timeout_known_exc( self, node_power_mock, log_mock): clean_up_mock = self.task.driver.rescue.clean_up clean_up_mock.side_effect = exception.IronicException('moocow') conductor_utils.cleanup_rescuewait_timeout(self.task) self.assertEqual(2, log_mock.error.call_count) node_power_mock.assert_called_once_with(mock.ANY, states.POWER_OFF) self.task.driver.rescue.clean_up.assert_called_once_with(self.task) self.assertIn('moocow', self.node.last_error) self.node.save.assert_called_once_with() @mock.patch.object(conductor_utils, 'LOG', autospec=True) @mock.patch.object(conductor_utils, 'node_power_action', autospec=True) def test_cleanup_rescuewait_timeout_unknown_exc( self, node_power_mock, log_mock): clean_up_mock = self.task.driver.rescue.clean_up clean_up_mock.side_effect = Exception('moocow') conductor_utils.cleanup_rescuewait_timeout(self.task) self.assertTrue(log_mock.error.called) node_power_mock.assert_called_once_with(mock.ANY, states.POWER_OFF) self.task.driver.rescue.clean_up.assert_called_once_with(self.task) self.assertIn('Rescue failed', self.node.last_error) self.node.save.assert_called_once_with() self.assertTrue(log_mock.exception.called) @mock.patch.object(conductor_utils, 'node_power_action', autospec=True) def _test_rescuing_error_handler(self, node_power_mock, set_state=True): self.node.provision_state = states.RESCUEWAIT self.node.driver_internal_info.update({'agent_url': 'url'}) conductor_utils.rescuing_error_handler(self.task, 'some exception for node', set_fail_state=set_state) node_power_mock.assert_called_once_with(mock.ANY, states.POWER_OFF) self.task.driver.rescue.clean_up.assert_called_once_with(self.task) self.node.save.assert_called_once_with() self.assertNotIn('agent_url', self.node.driver_internal_info) if set_state: self.assertTrue(self.task.process_event.called) else: self.assertFalse(self.task.process_event.called) def test_rescuing_error_handler(self): self._test_rescuing_error_handler() def test_rescuing_error_handler_set_failed_state_false(self): self._test_rescuing_error_handler(set_state=False) @mock.patch.object(conductor_utils.LOG, 'error', autospec=True) @mock.patch.object(conductor_utils, 'node_power_action', autospec=True) def test_rescuing_error_handler_ironic_exc(self, node_power_mock, log_mock): self.node.provision_state = states.RESCUEWAIT expected_exc = exception.IronicException('moocow') clean_up_mock = self.task.driver.rescue.clean_up clean_up_mock.side_effect = expected_exc conductor_utils.rescuing_error_handler(self.task, 'some exception for node') node_power_mock.assert_called_once_with(mock.ANY, states.POWER_OFF) self.task.driver.rescue.clean_up.assert_called_once_with(self.task) log_mock.assert_called_once_with('Rescue operation was unsuccessful, ' 'clean up failed for node %(node)s: ' '%(error)s', {'node': self.node.uuid, 'error': expected_exc}) self.node.save.assert_called_once_with() @mock.patch.object(conductor_utils.LOG, 'exception', autospec=True) @mock.patch.object(conductor_utils, 'node_power_action', autospec=True) def test_rescuing_error_handler_other_exc(self, node_power_mock, log_mock): self.node.provision_state = states.RESCUEWAIT expected_exc = RuntimeError() clean_up_mock = self.task.driver.rescue.clean_up clean_up_mock.side_effect = expected_exc conductor_utils.rescuing_error_handler(self.task, 'some exception for node') node_power_mock.assert_called_once_with(mock.ANY, states.POWER_OFF) self.task.driver.rescue.clean_up.assert_called_once_with(self.task) log_mock.assert_called_once_with('Rescue failed for node ' '%(node)s, an exception was ' 'encountered while aborting.', {'node': self.node.uuid}) self.node.save.assert_called_once_with() @mock.patch.object(conductor_utils.LOG, 'error', autospec=True) @mock.patch.object(conductor_utils, 'node_power_action', autospec=True) def test_rescuing_error_handler_bad_state(self, node_power_mock, log_mock): self.node.provision_state = states.RESCUE self.task.process_event.side_effect = exception.InvalidState expected_exc = exception.IronicException('moocow') clean_up_mock = self.task.driver.rescue.clean_up clean_up_mock.side_effect = expected_exc conductor_utils.rescuing_error_handler(self.task, 'some exception for node') node_power_mock.assert_called_once_with(mock.ANY, states.POWER_OFF) self.task.driver.rescue.clean_up.assert_called_once_with(self.task) self.task.process_event.assert_called_once_with('fail') log_calls = [mock.call('Rescue operation was unsuccessful, clean up ' 'failed for node %(node)s: %(error)s', {'node': self.node.uuid, 'error': expected_exc}), mock.call('Internal error. Node %(node)s in provision ' 'state "%(state)s" could not transition to a ' 'failed state.', {'node': self.node.uuid, 'state': self.node.provision_state})] log_mock.assert_has_calls(log_calls) self.node.save.assert_called_once_with() class ValidatePortPhysnetTestCase(db_base.DbTestCase): def setUp(self): super(ValidatePortPhysnetTestCase, self).setUp() self.node = obj_utils.create_test_node(self.context, driver='fake-hardware') @mock.patch.object(objects.Port, 'obj_what_changed', autospec=True) def test_validate_port_physnet_no_portgroup_create(self, mock_owc): port = obj_utils.get_test_port(self.context, node_id=self.node.id) # NOTE(mgoddard): The port object passed to the conductor will not have # a portgroup_id attribute in this case. del port.portgroup_id with task_manager.acquire(self.context, self.node.uuid) as task: conductor_utils.validate_port_physnet(task, port) # Verify the early return in the non-portgroup case. self.assertFalse(mock_owc.called) @mock.patch.object(network, 'get_ports_by_portgroup_id', autospec=True) def test_validate_port_physnet_no_portgroup_update(self, mock_gpbpi): port = obj_utils.create_test_port(self.context, node_id=self.node.id) port.extra = {'foo': 'bar'} with task_manager.acquire(self.context, self.node.uuid) as task: conductor_utils.validate_port_physnet(task, port) # Verify the early return in the no portgroup update case. self.assertFalse(mock_gpbpi.called) def test_validate_port_physnet_inconsistent_physnets(self): # NOTE(mgoddard): This *shouldn't* happen, but let's make sure we can # handle it. portgroup = obj_utils.create_test_portgroup(self.context, node_id=self.node.id) obj_utils.create_test_port(self.context, node_id=self.node.id, portgroup_id=portgroup.id, address='00:11:22:33:44:55', physical_network='physnet1', uuid=uuidutils.generate_uuid()) obj_utils.create_test_port(self.context, node_id=self.node.id, portgroup_id=portgroup.id, address='00:11:22:33:44:56', physical_network='physnet2', uuid=uuidutils.generate_uuid()) port = obj_utils.get_test_port(self.context, node_id=self.node.id, portgroup_id=portgroup.id, address='00:11:22:33:44:57', physical_network='physnet2', uuid=uuidutils.generate_uuid()) with task_manager.acquire(self.context, self.node.uuid) as task: self.assertRaises(exception.PortgroupPhysnetInconsistent, conductor_utils.validate_port_physnet, task, port) def test_validate_port_physnet_inconsistent_physnets_fix(self): # NOTE(mgoddard): This *shouldn't* happen, but let's make sure that if # we do get into this state that it is possible to resolve by setting # the physical_network correctly. portgroup = obj_utils.create_test_portgroup(self.context, node_id=self.node.id) obj_utils.create_test_port(self.context, node_id=self.node.id, portgroup_id=portgroup.id, address='00:11:22:33:44:55', physical_network='physnet1', uuid=uuidutils.generate_uuid()) port = obj_utils.create_test_port(self.context, node_id=self.node.id, portgroup_id=portgroup.id, address='00:11:22:33:44:56', physical_network='physnet2', uuid=uuidutils.generate_uuid()) port.physical_network = 'physnet1' with task_manager.acquire(self.context, self.node.uuid) as task: conductor_utils.validate_port_physnet(task, port) def _test_validate_port_physnet(self, num_current_ports, current_physnet, new_physnet, operation, valid=True): """Helper method for testing validate_port_physnet. :param num_current_ports: Number of existing ports in the portgroup. :param current_physnet: Physical network of existing ports in the portgroup. :param new_physnet: Physical network to set on the port that is being created or updated. :param operation: The operation to perform. One of 'create', 'update', or 'update_add'. 'create' creates a new port and adds it to the portgroup. 'update' updates one of the existing ports. 'update_add' updates a port and adds it to the portgroup. :param valid: Whether the operation is expected to succeed. """ # Prepare existing resources - a node, and a portgroup with optional # existing ports. port = None portgroup = obj_utils.create_test_portgroup(self.context, node_id=self.node.id) macs = ("00:11:22:33:44:%02x" % index for index in range(num_current_ports + 1)) for _ in range(num_current_ports): # NOTE: When operation == 'update' we update the last port in the # portgroup. port = obj_utils.create_test_port( self.context, node_id=self.node.id, portgroup_id=portgroup.id, address=next(macs), physical_network=current_physnet, uuid=uuidutils.generate_uuid()) # Prepare the port on which we are performing the operation. if operation == 'create': # NOTE(mgoddard): We use db_utils here rather than obj_utils as it # allows us to create a Port without a physical_network field, more # closely matching what happens during creation of a port when a # physical_network is not specified. port = db_utils.get_test_port( node_id=self.node.id, portgroup_id=portgroup.id, address=next(macs), uuid=uuidutils.generate_uuid(), physical_network=new_physnet) if new_physnet is None: del port["physical_network"] port = objects.Port(self.context, **port) elif operation == 'update_add': port = obj_utils.create_test_port( self.context, node_id=self.node.id, portgroup_id=None, address=next(macs), physical_network=current_physnet, uuid=uuidutils.generate_uuid()) port.portgroup_id = portgroup.id if operation != 'create' and new_physnet != current_physnet: port.physical_network = new_physnet # Perform the validation. with task_manager.acquire(self.context, self.node.uuid) as task: if valid: conductor_utils.validate_port_physnet(task, port) else: self.assertRaises(exception.Conflict, conductor_utils.validate_port_physnet, task, port) def _test_validate_port_physnet_create(self, **kwargs): self._test_validate_port_physnet(operation='create', **kwargs) def _test_validate_port_physnet_update(self, **kwargs): self._test_validate_port_physnet(operation='update', **kwargs) def _test_validate_port_physnet_update_add(self, **kwargs): self._test_validate_port_physnet(operation='update_add', **kwargs) # Empty portgroup def test_validate_port_physnet_empty_portgroup_create_1(self): self._test_validate_port_physnet_create( num_current_ports=0, current_physnet=None, new_physnet=None) def test_validate_port_physnet_empty_portgroup_create_2(self): self._test_validate_port_physnet_create( num_current_ports=0, current_physnet=None, new_physnet='physnet1') def test_validate_port_physnet_empty_portgroup_update_1(self): self._test_validate_port_physnet_update_add( num_current_ports=0, current_physnet=None, new_physnet=None) def test_validate_port_physnet_empty_portgroup_update_2(self): self._test_validate_port_physnet_update_add( num_current_ports=0, current_physnet=None, new_physnet='physnet1') # 1-port portgroup, no physnet. def test_validate_port_physnet_1_port_portgroup_no_physnet_create_1(self): self._test_validate_port_physnet_create( num_current_ports=1, current_physnet=None, new_physnet=None) def test_validate_port_physnet_1_port_portgroup_no_physnet_create_2(self): self._test_validate_port_physnet_create( num_current_ports=1, current_physnet=None, new_physnet='physnet1', valid=False) def test_validate_port_physnet_1_port_portgroup_no_physnet_update_1(self): self._test_validate_port_physnet_update( num_current_ports=1, current_physnet=None, new_physnet=None) def test_validate_port_physnet_1_port_portgroup_no_physnet_update_2(self): self._test_validate_port_physnet_update( num_current_ports=1, current_physnet=None, new_physnet='physnet1') def test_validate_port_physnet_1_port_portgroup_no_physnet_update_add_1( self): self._test_validate_port_physnet_update_add( num_current_ports=1, current_physnet=None, new_physnet=None) def test_validate_port_physnet_1_port_portgroup_no_physnet_update_add_2( self): self._test_validate_port_physnet_update_add( num_current_ports=1, current_physnet=None, new_physnet='physnet1', valid=False) # 1-port portgroup, with physnet 'physnet1'. def test_validate_port_physnet_1_port_portgroup_w_physnet_create_1(self): self._test_validate_port_physnet_create( num_current_ports=1, current_physnet='physnet1', new_physnet='physnet1') def test_validate_port_physnet_1_port_portgroup_w_physnet_create_2(self): self._test_validate_port_physnet_create( num_current_ports=1, current_physnet='physnet1', new_physnet='physnet2', valid=False) def test_validate_port_physnet_1_port_portgroup_w_physnet_create_3(self): self._test_validate_port_physnet_create( num_current_ports=1, current_physnet='physnet1', new_physnet=None, valid=False) def test_validate_port_physnet_1_port_portgroup_w_physnet_update_1(self): self._test_validate_port_physnet_update( num_current_ports=1, current_physnet='physnet1', new_physnet='physnet1') def test_validate_port_physnet_1_port_portgroup_w_physnet_update_2(self): self._test_validate_port_physnet_update( num_current_ports=1, current_physnet='physnet1', new_physnet='physnet2') def test_validate_port_physnet_1_port_portgroup_w_physnet_update_3(self): self._test_validate_port_physnet_update( num_current_ports=1, current_physnet='physnet1', new_physnet=None) def test_validate_port_physnet_1_port_portgroup_w_physnet_update_add_1( self): self._test_validate_port_physnet_update_add( num_current_ports=1, current_physnet='physnet1', new_physnet='physnet1') def test_validate_port_physnet_1_port_portgroup_w_physnet_update_add_2( self): self._test_validate_port_physnet_update_add( num_current_ports=1, current_physnet='physnet1', new_physnet='physnet2', valid=False) def test_validate_port_physnet_1_port_portgroup_w_physnet_update_add_3( self): self._test_validate_port_physnet_update_add( num_current_ports=1, current_physnet='physnet1', new_physnet=None, valid=False) # 2-port portgroup, no physnet def test_validate_port_physnet_2_port_portgroup_no_physnet_update_1(self): self._test_validate_port_physnet_update( num_current_ports=2, current_physnet=None, new_physnet=None) def test_validate_port_physnet_2_port_portgroup_no_physnet_update_2(self): self._test_validate_port_physnet_update( num_current_ports=2, current_physnet=None, new_physnet='physnet1', valid=False) # 2-port portgroup, with physnet 'physnet1' def test_validate_port_physnet_2_port_portgroup_w_physnet_update_1(self): self._test_validate_port_physnet_update( num_current_ports=2, current_physnet='physnet1', new_physnet='physnet1') def test_validate_port_physnet_2_port_portgroup_w_physnet_update_2(self): self._test_validate_port_physnet_update( num_current_ports=2, current_physnet='physnet1', new_physnet='physnet2', valid=False) def test_validate_port_physnet_2_port_portgroup_w_physnet_update_3(self): self._test_validate_port_physnet_update( num_current_ports=2, current_physnet='physnet1', new_physnet=None, valid=False) class MiscTestCase(db_base.DbTestCase): def setUp(self): super(MiscTestCase, self).setUp() self.node = obj_utils.create_test_node( self.context, driver='fake-hardware', instance_info={'rescue_password': 'pass'}) def _test_remove_node_rescue_password(self, save=True): conductor_utils.remove_node_rescue_password(self.node, save=save) self.assertNotIn('rescue_password', self.node.instance_info) self.node.refresh() if save: self.assertNotIn('rescue_password', self.node.instance_info) else: self.assertIn('rescue_password', self.node.instance_info) def test_remove_node_rescue_password_save_true(self): self._test_remove_node_rescue_password(save=True) def test_remove_node_rescue_password_save_false(self): self._test_remove_node_rescue_password(save=False) @mock.patch.object(rpcapi.ConductorAPI, 'continue_node_deploy', autospec=True) @mock.patch.object(rpcapi.ConductorAPI, 'get_topic_for', autospec=True) def test_notify_conductor_resume_operation(self, mock_topic, mock_rpc_call): mock_topic.return_value = 'topic' with task_manager.acquire( self.context, self.node.uuid, shared=False) as task: conductor_utils.notify_conductor_resume_operation(task, 'deploy') mock_rpc_call.assert_called_once_with( mock.ANY, task.context, self.node.uuid, topic='topic') @mock.patch.object(conductor_utils, 'notify_conductor_resume_operation', autospec=True) def test_notify_conductor_resume_clean(self, mock_resume): with task_manager.acquire( self.context, self.node.uuid, shared=False) as task: conductor_utils.notify_conductor_resume_clean(task) mock_resume.assert_called_once_with(task, 'clean') @mock.patch.object(conductor_utils, 'notify_conductor_resume_operation', autospec=True) def test_notify_conductor_resume_deploy(self, mock_resume): with task_manager.acquire( self.context, self.node.uuid, shared=False) as task: conductor_utils.notify_conductor_resume_deploy(task) mock_resume.assert_called_once_with(task, 'deploy') @mock.patch.object(time, 'sleep', autospec=True) @mock.patch.object(fake.FakePower, 'get_power_state', autospec=True) @mock.patch.object(drivers_base.NetworkInterface, 'need_power_on', autospec=True) @mock.patch.object(conductor_utils, 'node_set_boot_device', autospec=True) @mock.patch.object(conductor_utils, 'node_power_action', autospec=True) def test_power_on_node_if_needed_true( self, power_action_mock, boot_device_mock, need_power_on_mock, get_power_state_mock, time_mock): with task_manager.acquire( self.context, self.node.uuid, shared=False) as task: need_power_on_mock.return_value = True get_power_state_mock.return_value = states.POWER_OFF power_state = conductor_utils.power_on_node_if_needed(task) self.assertEqual(power_state, states.POWER_OFF) boot_device_mock.assert_called_once_with( task, boot_devices.BIOS, persistent=False) power_action_mock.assert_called_once_with(task, states.POWER_ON) @mock.patch.object(time, 'sleep', autospec=True) @mock.patch.object(fake.FakePower, 'get_power_state', autospec=True) @mock.patch.object(drivers_base.NetworkInterface, 'need_power_on', autospec=True) @mock.patch.object(conductor_utils, 'node_set_boot_device', autospec=True) @mock.patch.object(conductor_utils, 'node_power_action', autospec=True) def test_power_on_node_if_needed_false_power_on( self, power_action_mock, boot_device_mock, need_power_on_mock, get_power_state_mock, time_mock): with task_manager.acquire( self.context, self.node.uuid, shared=False) as task: need_power_on_mock.return_value = True get_power_state_mock.return_value = states.POWER_ON power_state = conductor_utils.power_on_node_if_needed(task) self.assertIsNone(power_state) self.assertEqual(0, boot_device_mock.call_count) self.assertEqual(0, power_action_mock.call_count) @mock.patch.object(time, 'sleep', autospec=True) @mock.patch.object(fake.FakePower, 'get_power_state', autospec=True) @mock.patch.object(drivers_base.NetworkInterface, 'need_power_on', autospec=True) @mock.patch.object(conductor_utils, 'node_set_boot_device', autospec=True) @mock.patch.object(conductor_utils, 'node_power_action', autospec=True) def test_power_on_node_if_needed_false_no_need( self, power_action_mock, boot_device_mock, need_power_on_mock, get_power_state_mock, time_mock): with task_manager.acquire( self.context, self.node.uuid, shared=False) as task: need_power_on_mock.return_value = False get_power_state_mock.return_value = states.POWER_OFF power_state = conductor_utils.power_on_node_if_needed(task) self.assertIsNone(power_state) self.assertEqual(0, boot_device_mock.call_count) self.assertEqual(0, power_action_mock.call_count) @mock.patch.object(neutron, 'get_client', autospec=True) @mock.patch.object(neutron, 'wait_for_host_agent', autospec=True) @mock.patch.object(time, 'sleep', autospec=True) @mock.patch.object(fake.FakePower, 'get_power_state', autospec=True) @mock.patch.object(drivers_base.NetworkInterface, 'need_power_on', autospec=True) @mock.patch.object(conductor_utils, 'node_set_boot_device', autospec=True) @mock.patch.object(conductor_utils, 'node_power_action', autospec=True) def test_power_on_node_if_needed_with_smart_nic_port( self, power_action_mock, boot_device_mock, need_power_on_mock, get_power_state_mock, time_mock, wait_agent_mock, get_client_mock): llc = {'port_id': 'rep0-0', 'hostname': 'host1'} port = obj_utils.get_test_port(self.context, node_id=self.node.id, is_smartnic=True, local_link_connection=llc) with task_manager.acquire( self.context, self.node.uuid, shared=False) as task: task.ports = [port] need_power_on_mock.return_value = True get_power_state_mock.return_value = states.POWER_OFF power_state = conductor_utils.power_on_node_if_needed(task) self.assertEqual(power_state, states.POWER_OFF) boot_device_mock.assert_called_once_with( task, boot_devices.BIOS, persistent=False) power_action_mock.assert_called_once_with(task, states.POWER_ON) get_client_mock.assert_called_once_with(context=self.context) wait_agent_mock.assert_called_once_with(mock.ANY, 'host1', target_state='down') @mock.patch.object(time, 'sleep', autospec=True) @mock.patch.object(conductor_utils, 'node_power_action', autospec=True) def test_restore_power_state_if_needed_true( self, power_action_mock, time_mock): with task_manager.acquire( self.context, self.node.uuid, shared=False) as task: power_state = states.POWER_OFF conductor_utils.restore_power_state_if_needed(task, power_state) power_action_mock.assert_called_once_with(task, power_state) @mock.patch.object(time, 'sleep', autospec=True) @mock.patch.object(conductor_utils, 'node_power_action', autospec=True) def test_restore_power_state_if_needed_false( self, power_action_mock, time_mock): with task_manager.acquire( self.context, self.node.uuid, shared=False) as task: power_state = None conductor_utils.restore_power_state_if_needed(task, power_state) self.assertEqual(0, power_action_mock.call_count) class ValidateInstanceInfoTraitsTestCase(tests_base.TestCase): def setUp(self): super(ValidateInstanceInfoTraitsTestCase, self).setUp() self.node = obj_utils.get_test_node(self.context, driver='fake-hardware', traits=['trait1', 'trait2']) def test_validate_instance_info_traits_no_instance_traits(self): conductor_utils.validate_instance_info_traits(self.node) def test_validate_instance_info_traits_empty_instance_traits(self): self.node.instance_info['traits'] = [] conductor_utils.validate_instance_info_traits(self.node) def test_validate_instance_info_traits_invalid_type(self): self.node.instance_info['traits'] = 'not-a-list' self.assertRaisesRegex(exception.InvalidParameterValue, 'Error parsing traits from Node', conductor_utils.validate_instance_info_traits, self.node) def test_validate_instance_info_traits_invalid_trait_type(self): self.node.instance_info['traits'] = ['trait1', {}] self.assertRaisesRegex(exception.InvalidParameterValue, 'Error parsing traits from Node', conductor_utils.validate_instance_info_traits, self.node) def test_validate_instance_info_traits(self): self.node.instance_info['traits'] = ['trait1', 'trait2'] conductor_utils.validate_instance_info_traits(self.node) def test_validate_instance_info_traits_missing(self): self.node.instance_info['traits'] = ['trait1', 'trait3'] self.assertRaisesRegex(exception.InvalidParameterValue, 'Cannot specify instance traits that are not', conductor_utils.validate_instance_info_traits, self.node) @mock.patch.object(fake.FakePower, 'get_power_state', autospec=True) class FastTrackTestCase(db_base.DbTestCase): def setUp(self): super(FastTrackTestCase, self).setUp() self.node = obj_utils.create_test_node( self.context, driver='fake-hardware', uuid=uuidutils.generate_uuid(), driver_internal_info={ 'agent_last_heartbeat': str(timeutils.utcnow().isoformat())}) self.config(fast_track=True, group='deploy') def test_is_fast_track(self, mock_get_power): mock_get_power.return_value = states.POWER_ON with task_manager.acquire( self.context, self.node.uuid, shared=False) as task: self.assertTrue(conductor_utils.is_fast_track(task)) def test_is_fast_track_config_false(self, mock_get_power): self.config(fast_track=False, group='deploy') mock_get_power.return_value = states.POWER_ON with task_manager.acquire( self.context, self.node.uuid, shared=False) as task: self.assertFalse(conductor_utils.is_fast_track(task)) def test_is_fast_track_power_off_false(self, mock_get_power): mock_get_power.return_value = states.POWER_OFF with task_manager.acquire( self.context, self.node.uuid, shared=False) as task: self.assertFalse(conductor_utils.is_fast_track(task)) def test_is_fast_track_no_heartbeat(self, mock_get_power): mock_get_power.return_value = states.POWER_ON i_info = self.node.driver_internal_info i_info.pop('agent_last_heartbeat') self.node.driver_internal_info = i_info self.node.save() with task_manager.acquire( self.context, self.node.uuid, shared=False) as task: self.assertFalse(conductor_utils.is_fast_track(task)) def test_is_fast_track_error_blocks(self, mock_get_power): mock_get_power.return_value = states.POWER_ON self.node.last_error = "bad things happened" self.node.save() with task_manager.acquire( self.context, self.node.uuid, shared=False) as task: self.assertFalse(conductor_utils.is_fast_track(task)) class GetNodeNextStepsTestCase(db_base.DbTestCase): def setUp(self): super(GetNodeNextStepsTestCase, self).setUp() self.power_update = { 'step': 'update_firmware', 'priority': 10, 'interface': 'power'} self.deploy_update = { 'step': 'update_firmware', 'priority': 10, 'interface': 'deploy'} self.deploy_erase = { 'step': 'erase_disks', 'priority': 20, 'interface': 'deploy'} # Automated cleaning should be executed in this order self.clean_steps = [self.deploy_erase, self.power_update, self.deploy_update] self.deploy_start = { 'step': 'deploy_start', 'priority': 50, 'interface': 'deploy'} self.deploy_end = { 'step': 'deploy_end', 'priority': 20, 'interface': 'deploy'} self.deploy_steps = [self.deploy_start, self.deploy_end] def _test_get_node_next_deploy_steps(self, skip=True): driver_internal_info = {'deploy_steps': self.deploy_steps, 'deploy_step_index': 0} node = obj_utils.create_test_node( self.context, driver='fake-hardware', provision_state=states.DEPLOYWAIT, target_provision_state=states.ACTIVE, driver_internal_info=driver_internal_info, last_error=None, deploy_step=self.deploy_steps[0]) with task_manager.acquire(self.context, node.uuid) as task: step_index = conductor_utils.get_node_next_deploy_steps( task, skip_current_step=skip) expected_index = 1 if skip else 0 self.assertEqual(expected_index, step_index) def test_get_node_next_deploy_steps(self): self._test_get_node_next_deploy_steps() def test_get_node_next_deploy_steps_no_skip(self): self._test_get_node_next_deploy_steps(skip=False) def test_get_node_next_deploy_steps_unset_deploy_step(self): driver_internal_info = {'deploy_steps': self.deploy_steps, 'deploy_step_index': None} node = obj_utils.create_test_node( self.context, driver='fake-hardware', provision_state=states.DEPLOYWAIT, target_provision_state=states.ACTIVE, driver_internal_info=driver_internal_info, last_error=None, deploy_step=None) with task_manager.acquire(self.context, node.uuid) as task: step_index = conductor_utils.get_node_next_deploy_steps(task) self.assertEqual(0, step_index) def test_get_node_next_steps_exception(self): node = obj_utils.create_test_node(self.context) with task_manager.acquire(self.context, node.uuid) as task: self.assertRaises(exception.Invalid, conductor_utils._get_node_next_steps, task, 'foo') def _test_get_node_next_clean_steps(self, skip=True): driver_internal_info = {'clean_steps': self.clean_steps, 'clean_step_index': 0} node = obj_utils.create_test_node( self.context, driver='fake-hardware', provision_state=states.CLEANWAIT, target_provision_state=states.AVAILABLE, driver_internal_info=driver_internal_info, last_error=None, clean_step=self.clean_steps[0]) with task_manager.acquire(self.context, node.uuid) as task: step_index = conductor_utils.get_node_next_clean_steps( task, skip_current_step=skip) expected_index = 1 if skip else 0 self.assertEqual(expected_index, step_index) def test_get_node_next_clean_steps(self): self._test_get_node_next_clean_steps() def test_get_node_next_clean_steps_no_skip(self): self._test_get_node_next_clean_steps(skip=False) def test_get_node_next_clean_steps_unset_clean_step(self): driver_internal_info = {'clean_steps': self.clean_steps, 'clean_step_index': None} node = obj_utils.create_test_node( self.context, driver='fake-hardware', provision_state=states.CLEANWAIT, target_provision_state=states.AVAILABLE, driver_internal_info=driver_internal_info, last_error=None, clean_step=None) with task_manager.acquire(self.context, node.uuid) as task: step_index = conductor_utils.get_node_next_clean_steps(task) self.assertEqual(0, step_index) class AgentTokenUtilsTestCase(tests_base.TestCase): def setUp(self): super(AgentTokenUtilsTestCase, self).setUp() self.node = obj_utils.get_test_node(self.context, driver='fake-hardware') def test_add_secret_token(self): self.assertNotIn('agent_secret_token', self.node.driver_internal_info) conductor_utils.add_secret_token(self.node) self.assertIn('agent_secret_token', self.node.driver_internal_info) def test_wipe_deploy_internal_info(self): conductor_utils.add_secret_token(self.node) self.assertIn('agent_secret_token', self.node.driver_internal_info) conductor_utils.wipe_deploy_internal_info(mock.Mock(node=self.node)) self.assertNotIn('agent_secret_token', self.node.driver_internal_info) def test_is_agent_token_present(self): # This should always be False as the token has not been added yet. self.assertFalse(conductor_utils.is_agent_token_present(self.node)) conductor_utils.add_secret_token(self.node) self.assertTrue(conductor_utils.is_agent_token_present(self.node)) def test_is_agent_token_supported(self): self.assertTrue( conductor_utils.is_agent_token_supported('6.1.1.dev39')) self.assertTrue( conductor_utils.is_agent_token_supported('6.2.1')) self.assertFalse( conductor_utils.is_agent_token_supported('6.0.0')) class GetAttachedVifTestCase(db_base.DbTestCase): def setUp(self): super(GetAttachedVifTestCase, self).setUp() self.node = obj_utils.create_test_node(self.context, driver='fake-hardware') self.port = obj_utils.get_test_port(self.context, node_id=self.node.id) def test_get_attached_vif_none(self): vif, use = conductor_utils.get_attached_vif(self.port) self.assertIsNone(vif) self.assertIsNone(use) def test_get_attached_vif_tenant(self): self.port.internal_info = {'tenant_vif_port_id': '1'} vif, use = conductor_utils.get_attached_vif(self.port) self.assertEqual('1', vif) self.assertEqual('tenant', use) def test_get_attached_vif_provisioning(self): self.port.internal_info = {'provisioning_vif_port_id': '1'} vif, use = conductor_utils.get_attached_vif(self.port) self.assertEqual('1', vif) self.assertEqual('provisioning', use) def test_get_attached_vif_cleaning(self): self.port.internal_info = {'cleaning_vif_port_id': '1'} vif, use = conductor_utils.get_attached_vif(self.port) self.assertEqual('1', vif) self.assertEqual('cleaning', use) def test_get_attached_vif_rescuing(self): self.port.internal_info = {'rescuing_vif_port_id': '1'} vif, use = conductor_utils.get_attached_vif(self.port) self.assertEqual('1', vif) self.assertEqual('rescuing', use) def test_get_attached_vif_inspecting(self): self.port.internal_info = {'inspection_vif_port_id': '1'} vif, use = conductor_utils.get_attached_vif(self.port) self.assertEqual('1', vif) self.assertEqual('inspecting', use) class StoreAgentCertificateTestCase(db_base.DbTestCase): def setUp(self): super(StoreAgentCertificateTestCase, self).setUp() self.node = obj_utils.create_test_node(self.context, driver='fake-hardware') self.tempdir = tempfile.mkdtemp() CONF.set_override('certificates_path', self.tempdir, group='agent') self.fname = os.path.join(self.tempdir, '%s.crt' % self.node.uuid) def test_store_new(self): result = conductor_utils.store_agent_certificate(self.node, 'cert text') self.assertEqual(self.fname, result) with open(self.fname, 'rt') as fp: self.assertEqual('cert text', fp.read()) def test_store_existing(self): old_fname = os.path.join(self.tempdir, 'old.crt') with open(old_fname, 'wt') as fp: fp.write('cert text') self.node.driver_internal_info['agent_verify_ca'] = old_fname result = conductor_utils.store_agent_certificate(self.node, 'cert text') self.assertEqual(old_fname, result) self.assertFalse(os.path.exists(self.fname)) def test_no_change(self): old_fname = os.path.join(self.tempdir, 'old.crt') with open(old_fname, 'wt') as fp: fp.write('cert text') self.node.driver_internal_info['agent_verify_ca'] = old_fname self.assertRaises(exception.InvalidParameterValue, conductor_utils.store_agent_certificate, self.node, 'new cert text') self.assertFalse(os.path.exists(self.fname)) def test_take_over(self): old_fname = os.path.join(self.tempdir, 'old.crt') self.node.driver_internal_info['agent_verify_ca'] = old_fname result = conductor_utils.store_agent_certificate(self.node, 'cert text') self.assertEqual(self.fname, result) with open(self.fname, 'rt') as fp: self.assertEqual('cert text', fp.read())