#!/usr/bin/env python ############################################################################## # Copyright (c) 2017 Intel Corporation # # All rights reserved. This program and the accompanying materials # are made available under the terms of the Apache License, Version 2.0 # which accompanies this distribution, and is available at # http://www.apache.org/licenses/LICENSE-2.0 ############################################################################## # Unittest for yardstick.benchmark.orchestrator.heat from contextlib import contextmanager from itertools import count from tempfile import NamedTemporaryFile import unittest import uuid import time import mock from yardstick.benchmark.contexts import node from yardstick.orchestrator import heat TARGET_MODULE = 'yardstick.orchestrator.heat' def mock_patch_target_module(inner_import): return mock.patch('.'.join([TARGET_MODULE, inner_import])) @contextmanager def timer(): start = time.time() data = {'start': start} try: yield data finally: data['end'] = end = time.time() data['delta'] = end - start def index_value_iter(index, index_value, base_value=None): for current_index in count(): if current_index == index: yield index_value else: yield base_value def get_error_message(error): try: # py2 return error.message except AttributeError: # py3 return next((arg for arg in error.args if isinstance(arg, str)), None) class HeatContextTestCase(unittest.TestCase): def test_get_short_key_uuid(self): u = uuid.uuid4() k = heat.get_short_key_uuid(u) self.assertEqual(heat.HEAT_KEY_UUID_LENGTH, len(k)) self.assertIn(k, str(u)) class HeatTemplateTestCase(unittest.TestCase): def setUp(self): self.template = heat.HeatTemplate('test') def test_add_tenant_network(self): self.template.add_network('some-network') self.assertEqual(self.template.resources['some-network']['type'], 'OS::Neutron::Net') def test_add_provider_network(self): self.template.add_network('some-network', 'physnet2', 'sriov') self.assertEqual(self.template.resources['some-network']['type'], 'OS::Neutron::ProviderNet') self.assertEqual(self.template.resources['some-network']['properties']['physical_network'], 'physnet2') def test_add_subnet(self): netattrs = {'cidr': '10.0.0.0/24', 'provider': None, 'external_network': 'ext_net'} self.template.add_subnet('some-subnet', "some-network", netattrs['cidr']) self.assertEqual(self.template.resources['some-subnet']['type'], 'OS::Neutron::Subnet') self.assertEqual(self.template.resources['some-subnet']['properties']['cidr'], '10.0.0.0/24') def test_add_router(self): self.template.add_router('some-router', 'ext-net', 'some-subnet') self.assertEqual(self.template.resources['some-router']['type'], 'OS::Neutron::Router') self.assertIn('some-subnet', self.template.resources['some-router']['depends_on']) def test_add_router_interface(self): self.template.add_router_interface('some-router-if', 'some-router', 'some-subnet') self.assertEqual(self.template.resources['some-router-if']['type'], 'OS::Neutron::RouterInterface') self.assertIn('some-subnet', self.template.resources['some-router-if']['depends_on']) def test_add_servergroup(self): self.template.add_servergroup('some-server-group', 'anti-affinity') self.assertEqual(self.template.resources['some-server-group']['type'], 'OS::Nova::ServerGroup') self.assertEqual(self.template.resources['some-server-group']['properties']['policies'], ['anti-affinity']) def test__add_resources_to_template_raw(self): test_context = node.NodeContext() test_context.name = 'foo' test_context.template_file = '/tmp/some-heat-file' test_context.heat_parameters = {'image': 'cirros'} test_context.key_filename = "/tmp/1234" test_context.keypair_name = "foo-key" test_context.secgroup_name = "foo-secgroup" test_context.key_uuid = "2f2e4997-0a8e-4eb7-9fa4-f3f8fbbc393b" heat_object = heat.HeatObject() heat_stack = heat.HeatStack("tmpStack") self.assertTrue(heat_stack.stacks_exist()) test_context.tmpfile = NamedTemporaryFile(delete=True, mode='w+t') test_context.tmpfile.write("heat_template_version: 2015-04-30") test_context.tmpfile.flush() test_context.tmpfile.seek(0) heat_template = heat.HeatTemplate(heat_object) heat_template.resources = {} heat_template.add_network("network1") heat_template.add_network("network2") heat_template.add_security_group("sec_group1") heat_template.add_security_group("sec_group2") heat_template.add_subnet("subnet1", "network1", "cidr1") heat_template.add_subnet("subnet2", "network2", "cidr2") heat_template.add_router("router1", "gw1", "subnet1") heat_template.add_router_interface("router_if1", "router1", "subnet1") heat_template.add_port("port1", "network1", "subnet1", "normal") heat_template.add_port("port2", "network2", "subnet2", "normal", sec_group_id="sec_group1",provider="not-sriov") heat_template.add_port("port3", "network2", "subnet2", "normal", sec_group_id="sec_group1",provider="sriov") heat_template.add_floating_ip("floating_ip1", "network1", "port1", "router_if1") heat_template.add_floating_ip("floating_ip2", "network2", "port2", "router_if2", "foo-secgroup") heat_template.add_floating_ip_association("floating_ip1_association", "floating_ip1", "port1") heat_template.add_servergroup("server_grp2", "affinity") heat_template.add_servergroup("server_grp3", "anti-affinity") heat_template.add_security_group("security_group") heat_template.add_server(name="server1", image="image1", flavor="flavor1", flavors=[]) heat_template.add_server_group(name="servergroup", policies=["policy1","policy2"]) heat_template.add_server_group(name="servergroup", policies="policy1") heat_template.add_server(name="server2", image="image1", flavor="flavor1", flavors=[], ports=["port1", "port2"], networks=["network1", "network2"], scheduler_hints="hints1", user="user1", key_name="foo-key", user_data="user", metadata={"cat": 1, "doc": 2}, additional_properties={"prop1": 1, "prop2": 2}) heat_template.add_server(name="server2", image="image1", flavor="flavor1", flavors=["flavor1", "flavor2"], ports=["port1", "port2"], networks=["network1", "network2"], scheduler_hints="hints1", user="user1", key_name="foo-key", user_data="user", metadata={"cat": 1, "doc": 2}, additional_properties={"prop1": 1, "prop2": 2} ) heat_template.add_server(name="server2", image="image1", flavor="flavor1", flavors=["flavor3", "flavor4"], ports=["port1", "port2"], networks=["network1", "network2"], scheduler_hints="hints1", user="user1", key_name="foo-key", user_data="user", metadata={"cat": 1, "doc": 2}, additional_properties={"prop1": 1, "prop2": 2}) heat_template.add_flavor(name="flavor1", vcpus=1, ram=2048, disk=1,extra_specs={"cat": 1, "dog": 2}) heat_template.add_flavor(name=None, vcpus=1, ram=2048) heat_template.add_server(name="server1", image="image1", flavor="flavor1", flavors=[], ports=["port1", "port2"], networks=["network1", "network2"], scheduler_hints="hints1", user="user1", key_name="foo-key", user_data="user", metadata={"cat": 1, "doc": 2}, additional_properties= {"prop1": 1, "prop2": 2} ) heat_template.add_network("network1") heat_template.add_flavor("test") self.assertEqual(heat_template.resources['test']['type'], 'OS::Nova::Flavor') @mock_patch_target_module('op_utils') @mock_patch_target_module('heatclient') def test_create_negative(self, mock_heat_client_class, mock_op_utils): self.template.HEAT_WAIT_LOOP_INTERVAL = 0 mock_heat_client = mock_heat_client_class() # get the constructed mock # populate attributes of the constructed mock mock_heat_client.stacks.get().stack_status_reason = 'the reason' expected_status_calls = 0 expected_constructor_calls = 1 # above, to get the instance expected_create_calls = 0 expected_op_utils_usage = 0 with mock.patch.object(self.template, 'status', return_value=None) as mock_status: # block with timeout hit timeout = 0 with self.assertRaises(RuntimeError) as raised, timer() as time_data: self.template.create(block=True, timeout=timeout) # ensure op_utils was used expected_op_utils_usage += 1 self.assertEqual(mock_op_utils.get_session.call_count, expected_op_utils_usage) self.assertEqual(mock_op_utils.get_endpoint.call_count, expected_op_utils_usage) self.assertEqual(mock_op_utils.get_heat_api_version.call_count, expected_op_utils_usage) # ensure the constructor and instance were used self.assertEqual(mock_heat_client_class.call_count, expected_constructor_calls) self.assertEqual(mock_heat_client.stacks.create.call_count, expected_create_calls) # ensure that the status was used self.assertGreater(mock_status.call_count, expected_status_calls) expected_status_calls = mock_status.call_count # synchronize the value # ensure the expected exception was raised error_message = get_error_message(raised.exception) self.assertIn('timeout', error_message) self.assertNotIn('the reason', error_message) # block with create failed timeout = 10 mock_status.side_effect = iter([None, None, u'CREATE_FAILED']) with self.assertRaises(RuntimeError) as raised, timer() as time_data: self.template.create(block=True, timeout=timeout) # ensure the existing heat_client was used and op_utils was used again self.assertEqual(mock_op_utils.get_session.call_count, expected_op_utils_usage) self.assertEqual(mock_op_utils.get_endpoint.call_count, expected_op_utils_usage) self.assertEqual(mock_op_utils.get_heat_api_version.call_count, expected_op_utils_usage) # ensure the constructor was not used but the instance was used self.assertEqual(mock_heat_client_class.call_count, expected_constructor_calls) self.assertEqual(mock_heat_client.stacks.create.call_count, expected_create_calls) # ensure that the status was used three times expected_status_calls += 3 self.assertEqual(mock_status.call_count, expected_status_calls) @mock_patch_target_module('op_utils') @mock_patch_target_module('heatclient') def test_create(self, mock_heat_client_class, mock_op_utils): self.template.HEAT_WAIT_LOOP_INTERVAL = 0.2 mock_heat_client = mock_heat_client_class() # populate attributes of the constructed mock mock_heat_client.stacks.get().outputs = [ {'output_key': 'key1', 'output_value': 'value1'}, {'output_key': 'key2', 'output_value': 'value2'}, {'output_key': 'key3', 'output_value': 'value3'}, ] expected_outputs = { 'key1': 'value1', 'key2': 'value2', 'key3': 'value3', } expected_status_calls = 0 expected_constructor_calls = 1 # above, to get the instance expected_create_calls = 0 expected_op_utils_usage = 0 with mock.patch.object(self.template, 'status') as mock_status: self.template.name = 'no block test' mock_status.return_value = None # no block self.assertIsInstance(self.template.create(block=False, timeout=2), heat.HeatStack) # ensure op_utils was used expected_op_utils_usage += 1 self.assertEqual(mock_op_utils.get_session.call_count, expected_op_utils_usage) self.assertEqual(mock_op_utils.get_endpoint.call_count, expected_op_utils_usage) self.assertEqual(mock_op_utils.get_heat_api_version.call_count, expected_op_utils_usage) # ensure the constructor and instance were used self.assertEqual(mock_heat_client_class.call_count, expected_constructor_calls) self.assertEqual(mock_heat_client.stacks.create.call_count, expected_create_calls) # ensure that the status was not used self.assertEqual(mock_status.call_count, expected_status_calls) # ensure no outputs because this requires blocking self.assertEqual(self.template.outputs, {}) # block with immediate complete self.template.name = 'block, immediate complete test' mock_status.return_value = self.template.HEAT_CREATE_COMPLETE_STATUS self.assertIsInstance(self.template.create(block=True, timeout=2), heat.HeatStack) # ensure existing instance was re-used and op_utils was not used self.assertEqual(mock_heat_client_class.call_count, expected_constructor_calls) self.assertEqual(mock_heat_client.stacks.create.call_count, expected_create_calls) # ensure status was checked once expected_status_calls += 1 self.assertEqual(mock_status.call_count, expected_status_calls) # reset template outputs self.template.outputs = None # block with delayed complete self.template.name = 'block, delayed complete test' success_index = 2 mock_status.side_effect = index_value_iter(success_index, self.template.HEAT_CREATE_COMPLETE_STATUS) self.assertIsInstance(self.template.create(block=True, timeout=2), heat.HeatStack) # ensure existing instance was re-used and op_utils was not used self.assertEqual(mock_heat_client_class.call_count, expected_constructor_calls) self.assertEqual(mock_heat_client.stacks.create.call_count, expected_create_calls) # ensure status was checked three more times expected_status_calls += 1 + success_index self.assertEqual(mock_status.call_count, expected_status_calls) class HeatStackTestCase(unittest.TestCase): def test_delete_calls__delete_multiple_times(self): stack = heat.HeatStack('test') stack.uuid = 1 with mock.patch.object(stack, "_delete") as delete_mock: stack.delete() # call once and then call again if uuid is not none self.assertGreater(delete_mock.call_count, 1) @mock.patch('yardstick.orchestrator.heat.op_utils') def test_delete_all_calls_delete(self, mock_op): # we must patch the object before we create an instance # so we can override delete() in all the instances with mock.patch.object(heat.HeatStack, "delete") as delete_mock: stack = heat.HeatStack('test') stack.uuid = 1 stack.delete_all() self.assertGreater(delete_mock.call_count, 0)