Beispiel #1
0
    def setUpClass(cls):
        if SIMULACRON_JAR is None or CASSANDRA_VERSION < "2.1":
            return

        start_and_prime_singledc()
        cls.cluster = Cluster(protocol_version=PROTOCOL_VERSION,
                              compression=False)
        cls.session = cls.cluster.connect(wait_for_all_pools=True)

        spec_ep_brr = ExecutionProfile(
            load_balancing_policy=BadRoundRobinPolicy(),
            speculative_execution_policy=ConstantSpeculativeExecutionPolicy(
                1, 6),
            request_timeout=12)
        spec_ep_rr = ExecutionProfile(
            speculative_execution_policy=ConstantSpeculativeExecutionPolicy(
                .5, 10),
            request_timeout=12)
        spec_ep_rr_lim = ExecutionProfile(
            load_balancing_policy=BadRoundRobinPolicy(),
            speculative_execution_policy=ConstantSpeculativeExecutionPolicy(
                0.5, 1),
            request_timeout=12)
        spec_ep_brr_lim = ExecutionProfile(
            load_balancing_policy=BadRoundRobinPolicy(),
            speculative_execution_policy=ConstantSpeculativeExecutionPolicy(
                4, 10))

        cls.cluster.add_execution_profile("spec_ep_brr", spec_ep_brr)
        cls.cluster.add_execution_profile("spec_ep_rr", spec_ep_rr)
        cls.cluster.add_execution_profile("spec_ep_rr_lim", spec_ep_rr_lim)
        cls.cluster.add_execution_profile("spec_ep_brr_lim", spec_ep_brr_lim)
Beispiel #2
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 def setUp(self):
     spec_ep_brr = ExecutionProfile(
         load_balancing_policy=BadRoundRobinPolicy(),
         speculative_execution_policy=ConstantSpeculativeExecutionPolicy(
             .01, 20))
     spec_ep_rr = ExecutionProfile(
         speculative_execution_policy=ConstantSpeculativeExecutionPolicy(
             .01, 20))
     spec_ep_rr_lim = ExecutionProfile(
         load_balancing_policy=BadRoundRobinPolicy(),
         speculative_execution_policy=ConstantSpeculativeExecutionPolicy(
             .01, 1))
     self.cluster.add_execution_profile("spec_ep_brr", spec_ep_brr)
     self.cluster.add_execution_profile("spec_ep_rr", spec_ep_rr)
     self.cluster.add_execution_profile("spec_ep_rr_lim", spec_ep_rr_lim)
Beispiel #3
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    def test_can_write_speculative(self):
        """
        Verify that the driver will keep querying C* even if there is a host down while being
        upgraded and that all the writes will eventually succeed using the ConstantSpeculativeExecutionPolicy
        policy
        @since 3.12
        @jira_ticket PYTHON-546
        @expected_result all the writes succeed

        @test_category upgrade
        """
        spec_ep_rr = ExecutionProfile(speculative_execution_policy=ConstantSpeculativeExecutionPolicy(.5, 10),
                                      request_timeout=12)
        cluster = Cluster()
        self.addCleanup(cluster.shutdown)
        cluster.add_execution_profile("spec_ep_rr", spec_ep_rr)

        session = cluster.connect()

        self.start_upgrade(0)

        c = count()
        while not self.is_upgraded():
            session.execute("INSERT INTO test3rf.test(k, v) VALUES (%s, 0)", (next(c),),
                                 execution_profile='spec_ep_rr')
            time.sleep(0.0001)

        session.default_consistency_level = ConsistencyLevel.ALL
        total_number_of_inserted = session.execute("SELECT COUNT(*) from test3rf.test")[0][0]
        self.assertEqual(total_number_of_inserted, next(c))

        self.assertEqual(self.logger_handler.get_message_count("error", ""), 0)
    def test_delay_can_be_0(self):
        """
        Test to validate that the delay can be zero for the ConstantSpeculativeExecutionPolicy
        @since 3.13
        @jira_ticket PYTHON-836
        @expected_result all the queries are executed immediately
        @test_category policy
        """
        number_of_requests = 4
        spec = ExecutionProfile(
            speculative_execution_policy=ConstantSpeculativeExecutionPolicy(
                0, number_of_requests))

        cluster = Cluster()
        cluster.add_execution_profile("spec", spec)
        session = cluster.connect(wait_for_all_pools=True)
        self.addCleanup(cluster.shutdown)

        counter = count()

        def patch_and_count(f):
            def patched(*args, **kwargs):
                next(counter)
                f(*args, **kwargs)

            return patched

        ResponseFuture._on_speculative_execute = patch_and_count(
            ResponseFuture._on_speculative_execute)
        stmt = SimpleStatement("INSERT INTO test3rf.test(k, v) VALUES (1, 2)")
        stmt.is_idempotent = True
        results = session.execute(stmt, execution_profile="spec")
        self.assertEqual(len(results.response_future.attempted_hosts), 3)
        self.assertEqual(next(counter), number_of_requests)
Beispiel #5
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 def test_constant_spec_exec_policy(self):
     self.assertEqual(
         insights_registry.serialize(ConstantSpeculativeExecutionPolicy(100, 101)),
         {'type': 'ConstantSpeculativeExecutionPolicy',
          'namespace': 'cassandra.policies',
          'options': {'delay': 100,
                      'max_attempts': 101}
          }
     )
    def setUpClass(cls):
        cls.common_setup(1)

        spec_ep_brr = ExecutionProfile(load_balancing_policy=BadRoundRobinPolicy(), speculative_execution_policy=ConstantSpeculativeExecutionPolicy(.01, 20))
        spec_ep_rr = ExecutionProfile(speculative_execution_policy=ConstantSpeculativeExecutionPolicy(.01, 20))
        spec_ep_rr_lim = ExecutionProfile(load_balancing_policy=BadRoundRobinPolicy(), speculative_execution_policy=ConstantSpeculativeExecutionPolicy(.01, 1))
        spec_ep_brr_lim = ExecutionProfile(load_balancing_policy=BadRoundRobinPolicy(), speculative_execution_policy=ConstantSpeculativeExecutionPolicy(0.4, 10))

        cls.cluster.add_execution_profile("spec_ep_brr", spec_ep_brr)
        cls.cluster.add_execution_profile("spec_ep_rr", spec_ep_rr)
        cls.cluster.add_execution_profile("spec_ep_rr_lim", spec_ep_rr_lim)
        cls.cluster.add_execution_profile("spec_ep_brr_lim", spec_ep_brr_lim)
Beispiel #7
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    def __init__(self, url, dbname, consistency=None):

        self.isShutdown = False
        self.url = url
        self.dbname = dbname
        self.nSuccess = 0
        self.nErrors = 0
        self.nActive = 0
        self.consistency = ConsistencyLevel.ONE if consistency is None else consistency
        self.cluster = Cluster(
            url,
            control_connection_timeout=30.0,
            reconnection_policy=ConstantReconnectionPolicy(15.0,
                                                           max_attempts=None),
            default_retry_policy=ConstantSpeculativeExecutionPolicy(30, 10))
        self.cur = self.cluster.connect(dbname)
        self.cur.default_timeout = 60.0
Beispiel #8
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    def test_delay_can_be_0(self):
        """
        Test to validate that the delay can be zero for the ConstantSpeculativeExecutionPolicy
        @since 3.13
        @jira_ticket PYTHON-836
        @expected_result all the queries are executed immediately
        @test_category policy
        """
        query_to_prime = "INSERT INTO madeup_keyspace.madeup_table(k, v) VALUES (1, 2)"
        prime_query(query_to_prime, then={"delay_in_ms": 5000})
        number_of_requests = 4
        spec = ExecutionProfile(
            load_balancing_policy=RoundRobinPolicy(),
            speculative_execution_policy=ConstantSpeculativeExecutionPolicy(
                0, number_of_requests))

        cluster = Cluster()
        cluster.add_execution_profile("spec", spec)
        session = cluster.connect(wait_for_all_pools=True)
        self.addCleanup(cluster.shutdown)

        counter = count()

        def patch_and_count(f):
            def patched(*args, **kwargs):
                next(counter)
                print("patched")
                f(*args, **kwargs)

            return patched

        self.addCleanup(setattr, ResponseFuture, "send_request",
                        ResponseFuture.send_request)
        ResponseFuture.send_request = patch_and_count(
            ResponseFuture.send_request)
        stmt = SimpleStatement(query_to_prime)
        stmt.is_idempotent = True
        results = session.execute(stmt, execution_profile="spec")
        self.assertEqual(len(results.response_future.attempted_hosts), 3)

        # send_request is called number_of_requests times for the speculative request
        # plus one for the call from the main thread.
        self.assertEqual(next(counter), number_of_requests + 1)