# Copyright DataStax, 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. import time from cassandra.connection import ConnectionShutdown from cassandra.policies import HostFilterPolicy, RoundRobinPolicy, FallthroughRetryPolicy import unittest from cassandra.query import SimpleStatement from cassandra import ConsistencyLevel, WriteTimeout, Unavailable, ReadTimeout from cassandra.protocol import SyntaxException from cassandra.cluster import NoHostAvailable, ExecutionProfile, EXEC_PROFILE_DEFAULT from tests.integration import get_cluster, get_node, use_singledc, execute_until_pass, TestCluster from greplin import scales from tests.integration import BasicSharedKeyspaceUnitTestCaseRF3WM, BasicExistingKeyspaceUnitTestCase, local import pprint as pp def setup_module(): use_singledc() @local class MetricsTests(unittest.TestCase): def setUp(self): contact_point = ['127.0.0.2'] self.cluster = TestCluster(contact_points=contact_point, metrics_enabled=True, execution_profiles= {EXEC_PROFILE_DEFAULT: ExecutionProfile( load_balancing_policy=HostFilterPolicy( RoundRobinPolicy(), lambda host: host.address in contact_point), retry_policy=FallthroughRetryPolicy() ) } ) self.session = self.cluster.connect("test3rf", wait_for_all_pools=True) def tearDown(self): self.cluster.shutdown() def test_connection_error(self): """ Trigger and ensure connection_errors are counted Stop all node with the driver knowing about the "DOWN" states. """ # Test writes for i in range(0, 100): self.session.execute_async("INSERT INTO test (k, v) VALUES ({0}, {1})".format(i, i)) # Stop the cluster get_cluster().stop(wait=True, gently=False) try: # Ensure the nodes are actually down query = SimpleStatement("SELECT * FROM test", consistency_level=ConsistencyLevel.ALL) # both exceptions can happen depending on when the connection has been detected as defunct with self.assertRaises((NoHostAvailable, ConnectionShutdown)): self.session.execute(query) finally: get_cluster().start(wait_for_binary_proto=True, wait_other_notice=True) # Give some time for the cluster to come back up, for the next test time.sleep(5) self.assertGreater(self.cluster.metrics.stats.connection_errors, 0) def test_write_timeout(self): """ Trigger and ensure write_timeouts are counted Write a key, value pair. Pause a node without the coordinator node knowing about the "DOWN" state. Attempt a write at cl.ALL and receive a WriteTimeout. """ # Test write self.session.execute("INSERT INTO test (k, v) VALUES (1, 1)") # Assert read query = SimpleStatement("SELECT * FROM test WHERE k=1", consistency_level=ConsistencyLevel.ALL) results = execute_until_pass(self.session, query) self.assertTrue(results) # Pause node so it shows as unreachable to coordinator get_node(1).pause() try: # Test write query = SimpleStatement("INSERT INTO test (k, v) VALUES (2, 2)", consistency_level=ConsistencyLevel.ALL) with self.assertRaises(WriteTimeout): self.session.execute(query, timeout=None) self.assertEqual(1, self.cluster.metrics.stats.write_timeouts) finally: get_node(1).resume() def test_read_timeout(self): """ Trigger and ensure read_timeouts are counted Write a key, value pair. Pause a node without the coordinator node knowing about the "DOWN" state. Attempt a read at cl.ALL and receive a ReadTimeout. """ # Test write self.session.execute("INSERT INTO test (k, v) VALUES (1, 1)") # Assert read query = SimpleStatement("SELECT * FROM test WHERE k=1", consistency_level=ConsistencyLevel.ALL) results = execute_until_pass(self.session, query) self.assertTrue(results) # Pause node so it shows as unreachable to coordinator get_node(1).pause() try: # Test read query = SimpleStatement("SELECT * FROM test", consistency_level=ConsistencyLevel.ALL) with self.assertRaises(ReadTimeout): self.session.execute(query, timeout=None) self.assertEqual(1, self.cluster.metrics.stats.read_timeouts) finally: get_node(1).resume() def test_unavailable(self): """ Trigger and ensure unavailables are counted Write a key, value pair. Stop a node with the coordinator node knowing about the "DOWN" state. Attempt an insert/read at cl.ALL and receive a Unavailable Exception. """ # Test write self.session.execute("INSERT INTO test (k, v) VALUES (1, 1)") # Assert read query = SimpleStatement("SELECT * FROM test WHERE k=1", consistency_level=ConsistencyLevel.ALL) results = execute_until_pass(self.session, query) self.assertTrue(results) # Stop node gracefully # Sometimes this commands continues with the other nodes having not noticed # 1 is down, and a Timeout error is returned instead of an Unavailable get_node(1).stop(wait=True, wait_other_notice=True) time.sleep(5) try: # Test write query = SimpleStatement("INSERT INTO test (k, v) VALUES (2, 2)", consistency_level=ConsistencyLevel.ALL) with self.assertRaises(Unavailable): self.session.execute(query) self.assertEqual(self.cluster.metrics.stats.unavailables, 1) # Test write query = SimpleStatement("SELECT * FROM test", consistency_level=ConsistencyLevel.ALL) with self.assertRaises(Unavailable): self.session.execute(query, timeout=None) self.assertEqual(self.cluster.metrics.stats.unavailables, 2) finally: get_node(1).start(wait_other_notice=True, wait_for_binary_proto=True) # Give some time for the cluster to come back up, for the next test time.sleep(5) self.cluster.shutdown() # def test_other_error(self): # # TODO: Bootstrapping or Overloaded cases # pass # # def test_ignore(self): # # TODO: Look for ways to generate ignores # pass # # def test_retry(self): # # TODO: Look for ways to generate retries # pass class MetricsNamespaceTest(BasicSharedKeyspaceUnitTestCaseRF3WM): @local def test_metrics_per_cluster(self): """ Test to validate that metrics can be scopped to invdividual clusters @since 3.6.0 @jira_ticket PYTHON-561 @expected_result metrics should be scopped to a cluster level @test_category metrics """ cluster2 = TestCluster( metrics_enabled=True, execution_profiles={EXEC_PROFILE_DEFAULT: ExecutionProfile(retry_policy=FallthroughRetryPolicy())} ) cluster2.connect(self.ks_name, wait_for_all_pools=True) self.assertEqual(len(cluster2.metadata.all_hosts()), 3) query = SimpleStatement("SELECT * FROM {0}.{0}".format(self.ks_name), consistency_level=ConsistencyLevel.ALL) self.session.execute(query) # Pause node so it shows as unreachable to coordinator get_node(1).pause() try: # Test write query = SimpleStatement("INSERT INTO {0}.{0} (k, v) VALUES (2, 2)".format(self.ks_name), consistency_level=ConsistencyLevel.ALL) with self.assertRaises(WriteTimeout): self.session.execute(query, timeout=None) finally: get_node(1).resume() # Change the scales stats_name of the cluster2 cluster2.metrics.set_stats_name('cluster2-metrics') stats_cluster1 = self.cluster.metrics.get_stats() stats_cluster2 = cluster2.metrics.get_stats() # Test direct access to stats self.assertEqual(1, self.cluster.metrics.stats.write_timeouts) self.assertEqual(0, cluster2.metrics.stats.write_timeouts) # Test direct access to a child stats self.assertNotEqual(0.0, self.cluster.metrics.request_timer['mean']) self.assertEqual(0.0, cluster2.metrics.request_timer['mean']) # Test access via metrics.get_stats() self.assertNotEqual(0.0, stats_cluster1['request_timer']['mean']) self.assertEqual(0.0, stats_cluster2['request_timer']['mean']) # Test access by stats_name self.assertEqual(0.0, scales.getStats()['cluster2-metrics']['request_timer']['mean']) cluster2.shutdown() def test_duplicate_metrics_per_cluster(self): """ Test to validate that cluster metrics names can't overlap. @since 3.6.0 @jira_ticket PYTHON-561 @expected_result metric names should not be allowed to be same. @test_category metrics """ cluster2 = TestCluster( metrics_enabled=True, monitor_reporting_enabled=False, execution_profiles={EXEC_PROFILE_DEFAULT: ExecutionProfile(retry_policy=FallthroughRetryPolicy())} ) cluster3 = TestCluster( metrics_enabled=True, monitor_reporting_enabled=False, execution_profiles={EXEC_PROFILE_DEFAULT: ExecutionProfile(retry_policy=FallthroughRetryPolicy())} ) # Ensure duplicate metric names are not allowed cluster2.metrics.set_stats_name("appcluster") cluster2.metrics.set_stats_name("appcluster") with self.assertRaises(ValueError): cluster3.metrics.set_stats_name("appcluster") cluster3.metrics.set_stats_name("devops") session2 = cluster2.connect(self.ks_name, wait_for_all_pools=True) session3 = cluster3.connect(self.ks_name, wait_for_all_pools=True) # Basic validation that naming metrics doesn't impact their segration or accuracy for i in range(10): query = SimpleStatement("SELECT * FROM {0}.{0}".format(self.ks_name), consistency_level=ConsistencyLevel.ALL) session2.execute(query) for i in range(5): query = SimpleStatement("SELECT * FROM {0}.{0}".format(self.ks_name), consistency_level=ConsistencyLevel.ALL) session3.execute(query) self.assertEqual(cluster2.metrics.get_stats()['request_timer']['count'], 10) self.assertEqual(cluster3.metrics.get_stats()['request_timer']['count'], 5) # Check scales to ensure they are appropriately named self.assertTrue("appcluster" in scales._Stats.stats.keys()) self.assertTrue("devops" in scales._Stats.stats.keys()) cluster2.shutdown() cluster3.shutdown() class RequestAnalyzer(object): """ Class used to track request and error counts for a Session. Also computes statistics on encoded request size. """ requests = scales.PmfStat('request size') errors = scales.IntStat('errors') successful = scales.IntStat("success") # Throw exceptions when invoked. throw_on_success = False throw_on_fail = False def __init__(self, session, throw_on_success=False, throw_on_fail=False): scales.init(self, '/request') # each instance will be registered with a session, and receive a callback for each request generated session.add_request_init_listener(self.on_request) self.throw_on_fail = throw_on_fail self.throw_on_success = throw_on_success def on_request(self, rf): # This callback is invoked each time a request is created, on the thread creating the request. # We can use this to count events, or add callbacks rf.add_callbacks(self.on_success, self.on_error, callback_args=(rf,), errback_args=(rf,)) def on_success(self, _, response_future): # future callback on a successful request; just record the size self.requests.addValue(response_future.request_encoded_size) self.successful += 1 if self.throw_on_success: raise AttributeError def on_error(self, _, response_future): # future callback for failed; record size and increment errors self.requests.addValue(response_future.request_encoded_size) self.errors += 1 if self.throw_on_fail: raise AttributeError def remove_ra(self, session): session.remove_request_init_listener(self.on_request) def __str__(self): # just extracting request count from the size stats (which are recorded on all requests) request_sizes = dict(self.requests) count = request_sizes.pop('count') return "%d requests (%d errors)\nRequest size statistics:\n%s" % (count, self.errors, pp.pformat(request_sizes)) class MetricsRequestSize(BasicExistingKeyspaceUnitTestCase): @classmethod def setUpClass(cls): cls.common_setup(1, keyspace_creation=False, monitor_reporting_enabled=False) def wait_for_count(self, ra, expected_count, error=False): for _ in range(10): if not error: if ra.successful is expected_count: return True else: if ra.errors is expected_count: return True time.sleep(.01) return False def test_metrics_per_cluster(self): """ Test to validate that requests listeners. This test creates a simple metrics based request listener to track request size, it then check to ensure that on_success and on_error methods are invoked appropriately. @since 3.7.0 @jira_ticket PYTHON-284 @expected_result in_error, and on_success should be invoked apropriately @test_category metrics """ ra = RequestAnalyzer(self.session) for _ in range(10): self.session.execute("SELECT release_version FROM system.local") for _ in range(3): try: self.session.execute("nonesense") except SyntaxException: continue self.assertTrue(self.wait_for_count(ra, 10)) self.assertTrue(self.wait_for_count(ra, 3, error=True)) ra.remove_ra(self.session) # Make sure a poorly coded RA doesn't cause issues ra = RequestAnalyzer(self.session, throw_on_success=False, throw_on_fail=True) self.session.execute("SELECT release_version FROM system.local") ra.remove_ra(self.session) RequestAnalyzer(self.session, throw_on_success=True) try: self.session.execute("nonesense") except SyntaxException: pass