# 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 socket import unittest from unittest import mock import openstack from openstack import exceptions as os_exc from ironic_inspector.common import ironic as ir_utils from ironic_inspector.common import keystone from ironic_inspector.test import base from ironic_inspector import utils @mock.patch.object(keystone, 'get_session', autospec=True) @mock.patch.object(openstack.connection, 'Connection', autospec=True) class TestGetClientBase(base.BaseTest): def setUp(self): super(TestGetClientBase, self).setUp() ir_utils.reset_ironic_session() def test_get_client(self, mock_connection, mock_session): ir_utils.get_client() self.assertEqual(1, mock_session.call_count) class TestGetIpmiAddress(base.BaseTest): def setUp(self): super(TestGetIpmiAddress, self).setUp() self.ipmi_address = 'www.example.com' self.ipmi_ipv4 = '192.168.1.1' self.ipmi_ipv6 = 'fe80::1' def test_ipv4_in_resolves(self): node = mock.Mock(spec=['driver_info', 'uuid'], driver_info={'ipmi_address': self.ipmi_ipv4}) self.assertEqual((self.ipmi_ipv4, self.ipmi_ipv4, None), ir_utils.get_ipmi_address(node)) def test_ipv6_in_resolves(self): node = mock.Mock(spec=['driver_info', 'uuid'], driver_info={'ipmi_address': self.ipmi_ipv6}) self.assertEqual((self.ipmi_ipv6, None, self.ipmi_ipv6), ir_utils.get_ipmi_address(node)) @mock.patch('socket.getaddrinfo', autospec=True) def test_good_hostname_resolves(self, mock_socket): node = mock.Mock(spec=['driver_info', 'uuid'], driver_info={'ipmi_address': self.ipmi_address}) mock_socket.return_value = [ (socket.AF_INET, None, None, None, (self.ipmi_ipv4,)), (socket.AF_INET6, None, None, None, (self.ipmi_ipv6,))] self.assertEqual((self.ipmi_address, self.ipmi_ipv4, self.ipmi_ipv6), ir_utils.get_ipmi_address(node)) mock_socket.assert_called_once_with(self.ipmi_address, None, 0, 0, socket.SOL_TCP) @mock.patch('socket.getaddrinfo', autospec=True) def test_bad_hostname_errors(self, mock_socket): node = mock.Mock(spec=['driver_info', 'uuid'], driver_info={'ipmi_address': 'meow'}, uuid='uuid1') mock_socket.side_effect = socket.gaierror('Boom') self.assertRaises(utils.Error, ir_utils.get_ipmi_address, node) def test_additional_fields(self): node = mock.Mock(spec=['driver_info', 'uuid'], driver_info={'foo': self.ipmi_ipv4}) self.assertEqual((None, None, None), ir_utils.get_ipmi_address(node)) self.cfg.config(ipmi_address_fields=['foo', 'bar', 'baz']) self.assertEqual((self.ipmi_ipv4, self.ipmi_ipv4, None), ir_utils.get_ipmi_address(node)) def test_ipmi_bridging_enabled(self): node = mock.Mock(spec=['driver_info', 'uuid'], driver_info={'ipmi_address': 'www.example.com', 'ipmi_bridging': 'single'}) self.assertEqual((None, None, None), ir_utils.get_ipmi_address(node)) def test_loopback_address(self): node = mock.Mock(spec=['driver_info', 'uuid'], driver_info={'ipmi_address': '127.0.0.2'}) self.assertEqual((None, None, None), ir_utils.get_ipmi_address(node)) class TestCapabilities(unittest.TestCase): def test_capabilities_to_dict(self): capabilities = 'cat:meow,dog:wuff' expected_output = {'cat': 'meow', 'dog': 'wuff'} output = ir_utils.capabilities_to_dict(capabilities) self.assertEqual(expected_output, output) def test_dict_to_capabilities(self): capabilities_dict = {'cat': 'meow', 'dog': 'wuff'} output = ir_utils.dict_to_capabilities(capabilities_dict) self.assertIn('cat:meow', output) self.assertIn('dog:wuff', output) class TestCallWithRetries(unittest.TestCase): def setUp(self): super(TestCallWithRetries, self).setUp() self.call = mock.Mock(spec=[]) def test_no_retries_on_success(self): result = ir_utils.call_with_retries(self.call, 'meow', answer=42) self.assertEqual(result, self.call.return_value) self.call.assert_called_once_with('meow', answer=42) def test_no_retries_on_python_error(self): self.call.side_effect = RuntimeError('boom') self.assertRaisesRegexp(RuntimeError, 'boom', ir_utils.call_with_retries, self.call, 'meow', answer=42) self.call.assert_called_once_with('meow', answer=42) @mock.patch('time.sleep', lambda _x: None) def test_retries_on_ironicclient_error(self): self.call.side_effect = [ os_exc.SDKException('boom') ] * 3 + [mock.sentinel.result] result = ir_utils.call_with_retries(self.call, 'meow', answer=42) self.assertEqual(result, mock.sentinel.result) self.call.assert_called_with('meow', answer=42) self.assertEqual(4, self.call.call_count) @mock.patch('time.sleep', lambda _x: None) def test_retries_on_ironicclient_error_with_failure(self): self.call.side_effect = os_exc.SDKException('boom') self.assertRaisesRegexp(os_exc.SDKException, 'boom', ir_utils.call_with_retries, self.call, 'meow', answer=42) self.call.assert_called_with('meow', answer=42) self.assertEqual(5, self.call.call_count) class TestLookupNode(base.NodeTest): def setUp(self): super(TestLookupNode, self).setUp() self.ironic = mock.Mock(spec=['nodes', 'ports'], nodes=mock.Mock(spec=['list']), ports=mock.Mock(spec=['list'])) self.ironic.nodes.return_value = [self.node] # Simulate only the PXE port enrolled self.port = mock.Mock(address=self.pxe_mac, node_id=self.node.uuid) self.ironic.ports.side_effect = [ [self.port] ] + [[]] * (len(self.macs) - 1) def test_no_input_no_result(self): self.assertIsNone(ir_utils.lookup_node()) def test_lookup_by_mac_only(self): uuid = ir_utils.lookup_node(macs=self.macs, ironic=self.ironic) self.assertEqual(self.node.uuid, uuid) self.ironic.ports.assert_has_calls([ mock.call(address=mac, fields=['uuid', 'node_uuid']) for mac in self.macs ]) def test_lookup_by_mac_duplicates(self): self.ironic.ports.side_effect = [ [self.port], [mock.Mock(address=self.inactive_mac, node_id='another')] ] + [[]] * (len(self.macs) - 1) self.assertRaisesRegex(utils.Error, 'more than one node', ir_utils.lookup_node, macs=self.macs, ironic=self.ironic) self.ironic.ports.assert_has_calls([ mock.call(address=mac, fields=['uuid', 'node_uuid']) for mac in self.macs ]) def test_lookup_by_bmc_only(self): uuid = ir_utils.lookup_node(bmc_addresses=[self.bmc_address, '42.42.42.42'], ironic=self.ironic) self.assertEqual(self.node.uuid, uuid) self.assertEqual(1, self.ironic.nodes.call_count) def test_lookup_by_bmc_duplicates(self): self.ironic.nodes.return_value = [ self.node, mock.Mock(id='another', driver_info={'ipmi_address': '42.42.42.42'}), ] self.assertRaisesRegex(utils.Error, 'more than one node', ir_utils.lookup_node, bmc_addresses=[self.bmc_address, '42.42.42.42'], ironic=self.ironic) self.assertEqual(1, self.ironic.nodes.call_count) def test_lookup_by_both(self): uuid = ir_utils.lookup_node(bmc_addresses=[self.bmc_address, self.bmc_v6address], macs=self.macs, ironic=self.ironic) self.assertEqual(self.node.uuid, uuid) self.ironic.ports.assert_has_calls([ mock.call(address=mac, fields=['uuid', 'node_uuid']) for mac in self.macs ]) self.assertEqual(1, self.ironic.nodes.call_count) def test_lookup_by_both_duplicates(self): self.ironic.ports.side_effect = [ [mock.Mock(address=self.inactive_mac, node_id='another')] ] + [[]] * (len(self.macs) - 1) self.assertRaisesRegex(utils.Error, 'correspond to different nodes', ir_utils.lookup_node, bmc_addresses=[self.bmc_address, self.bmc_v6address], macs=self.macs, ironic=self.ironic) self.ironic.ports.assert_has_calls([ mock.call(address=mac, fields=['uuid', 'node_uuid']) for mac in self.macs ]) self.assertEqual(1, self.ironic.nodes.call_count)