# # Copyright 2012 eNovance # Copyright 2012 Red Hat, Inc # # Author: Julien Danjou # Author: Eoghan Glynn # # 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 time import mock import six from ceilometer.compute import manager from ceilometer.compute.pollsters import cpu from ceilometer.compute.virt import inspector as virt_inspector from ceilometer.tests.compute.pollsters import base class TestCPUPollster(base.TestPollsterBase): def setUp(self): super(TestCPUPollster, self).setUp() @mock.patch('ceilometer.pipeline.setup_pipeline', mock.MagicMock()) def test_get_samples(self): next_value = iter(( virt_inspector.CPUStats(time=1 * (10 ** 6), number=2), virt_inspector.CPUStats(time=3 * (10 ** 6), number=2), # cpu_time resets on instance restart virt_inspector.CPUStats(time=2 * (10 ** 6), number=2), )) def inspect_cpus(name): return six.next(next_value) self.inspector.inspect_cpus = mock.Mock(side_effect=inspect_cpus) mgr = manager.AgentManager() pollster = cpu.CPUPollster() def _verify_cpu_metering(expected_time): cache = {} samples = list(pollster.get_samples(mgr, cache, [self.instance])) self.assertEqual(1, len(samples)) self.assertEqual(set(['cpu']), set([s.name for s in samples])) self.assertEqual(expected_time, samples[0].volume) self.assertEqual(2, samples[0].resource_metadata.get('cpu_number')) # ensure elapsed time between polling cycles is non-zero time.sleep(0.001) _verify_cpu_metering(1 * (10 ** 6)) _verify_cpu_metering(3 * (10 ** 6)) _verify_cpu_metering(2 * (10 ** 6)) @mock.patch('ceilometer.pipeline.setup_pipeline', mock.MagicMock()) def test_get_samples_no_caching(self): cpu_stats = virt_inspector.CPUStats(time=1 * (10 ** 6), number=2) self.inspector.inspect_cpus = mock.Mock(return_value=cpu_stats) mgr = manager.AgentManager() pollster = cpu.CPUPollster() cache = {} samples = list(pollster.get_samples(mgr, cache, [self.instance])) self.assertEqual(1, len(samples)) self.assertEqual(10 ** 6, samples[0].volume) self.assertEqual(0, len(cache)) class TestCPUUtilPollster(base.TestPollsterBase): def setUp(self): super(TestCPUUtilPollster, self).setUp() @mock.patch('ceilometer.pipeline.setup_pipeline', mock.MagicMock()) def test_get_samples(self): next_value = iter(( virt_inspector.CPUUtilStats(util=40), virt_inspector.CPUUtilStats(util=60), )) def inspect_cpu_util(name, duration): return six.next(next_value) self.inspector.inspect_cpu_util = \ mock.Mock(side_effect=inspect_cpu_util) mgr = manager.AgentManager() pollster = cpu.CPUUtilPollster() def _verify_cpu_util_metering(expected_util): cache = {} samples = list(pollster.get_samples(mgr, cache, [self.instance])) self.assertEqual(1, len(samples)) self.assertEqual(set(['cpu_util']), set([s.name for s in samples])) self.assertEqual(expected_util, samples[0].volume) _verify_cpu_util_metering(40) _verify_cpu_util_metering(60)