# # Copyright 2012, 2013 Dell Inc. # # 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. """Tests for ceilometer/storage/impl_hbase.py .. note:: In order to run the tests against real HBase server set the environment variable CEILOMETER_TEST_HBASE_URL to point to that HBase instance before running the tests. Make sure the Thrift server is running on that server. """ import mock try: import happybase # noqa except ImportError: import testtools.testcase raise testtools.testcase.TestSkipped("happybase is needed") from ceilometer.alarm.storage import impl_hbase as hbase_alarm from ceilometer.event.storage import impl_hbase as hbase_event from ceilometer.storage import impl_hbase as hbase from ceilometer.tests import base as test_base from ceilometer.tests import db as tests_db class ConnectionTest(tests_db.TestBase, tests_db.MixinTestsWithBackendScenarios): @tests_db.run_with('hbase') def test_hbase_connection(self): class TestConn(object): def __init__(self, host, port): self.netloc = '%s:%s' % (host, port) def open(self): pass def get_connection_pool(conf): return TestConn(conf['host'], conf['port']) with mock.patch.object(hbase.Connection, '_get_connection_pool', side_effect=get_connection_pool): conn = hbase.Connection('hbase://test_hbase:9090') self.assertIsInstance(conn.conn_pool, TestConn) class CapabilitiesTest(test_base.BaseTestCase): # Check the returned capabilities list, which is specific to each DB # driver def test_capabilities(self): expected_capabilities = { 'meters': {'query': {'simple': True, 'metadata': True, 'complex': False}}, 'resources': {'query': {'simple': True, 'metadata': True, 'complex': False}}, 'samples': {'query': {'simple': True, 'metadata': True, 'complex': False}}, 'statistics': {'groupby': False, 'query': {'simple': True, 'metadata': True, 'complex': False}, 'aggregation': {'standard': True, 'selectable': { 'max': False, 'min': False, 'sum': False, 'avg': False, 'count': False, 'stddev': False, 'cardinality': False}} }, } actual_capabilities = hbase.Connection.get_capabilities() self.assertEqual(expected_capabilities, actual_capabilities) def test_alarm_capabilities(self): expected_capabilities = { 'alarms': {'query': {'simple': True, 'complex': False}, 'history': {'query': {'simple': True, 'complex': False}}}, } actual_capabilities = hbase_alarm.Connection.get_capabilities() self.assertEqual(expected_capabilities, actual_capabilities) def test_event_capabilities(self): expected_capabilities = { 'events': {'query': {'simple': True}}, } actual_capabilities = hbase_event.Connection.get_capabilities() self.assertEqual(expected_capabilities, actual_capabilities) def test_storage_capabilities(self): expected_capabilities = { 'storage': {'production_ready': True}, } actual_capabilities = hbase.Connection.get_storage_capabilities() self.assertEqual(expected_capabilities, actual_capabilities)