Пример #1
0
        private void RetryPolicyTest(ITestCluster testCluster)
        {
            PolicyTestTools policyTestTools = new PolicyTestTools();

            policyTestTools.TableName = TestUtils.GetUniqueTableName();
            policyTestTools.CreateSchema(testCluster.Session, 2);

            // Test before state
            policyTestTools.InitPreparedStatement(testCluster, 12);
            policyTestTools.Query(testCluster, 12);
            int clusterPosQueried    = 1;
            int clusterPosNotQueried = 2;

            if (!policyTestTools.Coordinators.ContainsKey(testCluster.ClusterIpPrefix + clusterPosQueried))
            {
                clusterPosQueried    = 2;
                clusterPosNotQueried = 1;
            }
            policyTestTools.AssertQueriedAtLeast(testCluster.ClusterIpPrefix + clusterPosQueried + ":" + DefaultCassandraPort, 1);

            // Stop one of the nodes and test
            policyTestTools.ResetCoordinators();
            testCluster.Stop(clusterPosQueried);
            TestUtils.WaitForDown(testCluster.ClusterIpPrefix + clusterPosQueried, testCluster.Cluster, 30);
            policyTestTools.Query(testCluster, 120);
            policyTestTools.AssertQueried(testCluster.ClusterIpPrefix + clusterPosNotQueried + ":" + DefaultCassandraPort, 120);
            policyTestTools.AssertQueried(testCluster.ClusterIpPrefix + clusterPosQueried + ":" + DefaultCassandraPort, 0);

            // Start the node that was just down, then down the node that was just up
            policyTestTools.ResetCoordinators();
            testCluster.Start(clusterPosQueried);
            TestUtils.WaitForUp(testCluster.ClusterIpPrefix + clusterPosQueried, DefaultCassandraPort, 30);

            // Test successful reads
            DateTime futureDateTime = DateTime.Now.AddSeconds(120);

            while (policyTestTools.Coordinators.Count < 2 && DateTime.Now < futureDateTime)
            {
                policyTestTools.Query(testCluster, 120);
                Thread.Sleep(75);
            }

            // Ensure that the nodes were contacted
            policyTestTools.AssertQueriedAtLeast(testCluster.ClusterIpPrefix + clusterPosQueried + ":" + DefaultCassandraPort, 1);
            policyTestTools.AssertQueriedAtLeast(testCluster.ClusterIpPrefix + clusterPosNotQueried + ":" + DefaultCassandraPort, 1);
        }
        public void RoundRobin_OneDc_OneNodeAdded_OneNodeDecommissioned()
        {
            // Setup
            PolicyTestTools policyTestTools = new PolicyTestTools();
            ITestCluster    testCluster     = TestClusterManager.GetNonShareableTestCluster(1);

            testCluster.Builder = Cluster.Builder().WithLoadBalancingPolicy(new RoundRobinPolicy());
            testCluster.InitClient();

            policyTestTools.CreateSchema(testCluster.Session);
            policyTestTools.InitPreparedStatement(testCluster, 12);
            policyTestTools.Query(testCluster, 12);

            // Validate that all host were queried equally
            policyTestTools.AssertQueried(testCluster.ClusterIpPrefix + "1:" + DefaultCassandraPort, 12);

            // Add new node to the end of second cluster, remove node from beginning of first cluster
            policyTestTools.ResetCoordinators();
            // Bootstrap step
            int bootStrapPos = 2;

            testCluster.BootstrapNode(bootStrapPos);
            string newlyBootstrappedIp = testCluster.ClusterIpPrefix + bootStrapPos;

            TestUtils.WaitForUp(newlyBootstrappedIp, DefaultCassandraPort, 30);

            // Validate expected nodes where queried
            policyTestTools.WaitForPolicyToolsQueryToHitBootstrappedIp(testCluster, newlyBootstrappedIp);
            policyTestTools.Query(testCluster, 12);
            policyTestTools.AssertQueriedAtLeast(testCluster.ClusterIpPrefix + "1:" + DefaultCassandraPort, 6);
            policyTestTools.AssertQueriedAtLeast(testCluster.ClusterIpPrefix + "2:" + DefaultCassandraPort, 6);

            // decommission old node
            policyTestTools.ResetCoordinators();
            testCluster.DecommissionNode(1);
            TestUtils.waitForDecommission(testCluster.ClusterIpPrefix + "1:" + DefaultCassandraPort, testCluster.Cluster, 60);

            policyTestTools.Query(testCluster, 12);
            policyTestTools.AssertQueried(testCluster.ClusterIpPrefix + "2:" + DefaultCassandraPort, 12);
        }
        public void RoundRobin_OneDc_AllNodesForceStoppedOneAtATime()
        {
            // Setup
            PolicyTestTools policyTestTools = new PolicyTestTools();
            ITestCluster    testCluster     = TestClusterManager.GetNonShareableTestCluster(2);

            testCluster.Builder = Cluster.Builder()
                                  .WithLoadBalancingPolicy(new RoundRobinPolicy())
                                  .WithQueryTimeout(10000);
            testCluster.InitClient();

            policyTestTools.CreateSchema(testCluster.Session);
            policyTestTools.InitPreparedStatement(testCluster, 12);
            policyTestTools.Query(testCluster, 12);

            policyTestTools.AssertQueried(testCluster.ClusterIpPrefix + "1:" + DefaultCassandraPort, 6);
            policyTestTools.AssertQueried(testCluster.ClusterIpPrefix + "2:" + DefaultCassandraPort, 6);

            policyTestTools.ResetCoordinators();
            testCluster.StopForce(1);
            TestUtils.WaitForDown(testCluster.ClusterIpPrefix + "1", testCluster.Cluster, 20);

            policyTestTools.Query(testCluster, 12);
            policyTestTools.AssertQueried(testCluster.ClusterIpPrefix + "1:" + DefaultCassandraPort, 0);
            policyTestTools.AssertQueried(testCluster.ClusterIpPrefix + "2:" + DefaultCassandraPort, 12);

            testCluster.StopForce(2);
            TestUtils.WaitForDown(testCluster.ClusterIpPrefix + "2", testCluster.Cluster, 20);

            try
            {
                policyTestTools.Query(testCluster, 3);
                Assert.Fail("Exception should have been thrown, but wasn't!");
            }
            catch (NoHostAvailableException)
            {
                Trace.TraceInformation("Expected NoHostAvailableException exception was thrown.");
            }
        }
        public void TokenMap_Rebuild_With_Decommissioned_DC_Existing_RF()
        {
            // Create a 2dc:1node each cluster
            var clusterOptions = new TestClusterOptions();

            clusterOptions.Dc2NodeLength = 1;
            var testCluster = TestClusterManager.CreateNew(1, clusterOptions);

            testCluster.Builder = Cluster.Builder().AddContactPoint("127.0.0.1").WithLoadBalancingPolicy(new DCAwareRoundRobinPolicy("dc1"));
            testCluster.Cluster = testCluster.Builder.Build();
            testCluster.Session = testCluster.Cluster.Connect();

            PolicyTestTools policyTestTools = new PolicyTestTools();

            // Create a ks with RF = dc1:1, dc2:1
            policyTestTools.CreateMultiDcSchema(testCluster.Session, 1, 1);
            policyTestTools.InitPreparedStatement(testCluster, 12, false, ConsistencyLevel.All);
            // Replicas now in each node in each dc

            policyTestTools.Query(testCluster, 12, false);
            policyTestTools.AssertQueried(testCluster.ClusterIpPrefix + "1:" + DefaultCassandraPort, 12);
            policyTestTools.AssertQueried(testCluster.ClusterIpPrefix + "2:" + DefaultCassandraPort, 0);
            testCluster.Cluster.Shutdown();

            testCluster.DecommissionNode(1);
            // dc1 no longer has any hosts

            testCluster.Builder = Cluster.Builder().AddContactPoint("127.0.0.2").WithLoadBalancingPolicy(new DCAwareRoundRobinPolicy("dc2"));
            testCluster.Cluster = testCluster.Builder.Build();
            // Should be able to connect and rebuild token map
            testCluster.Session = testCluster.Cluster.Connect(policyTestTools.DefaultKeyspace);

            policyTestTools.ResetCoordinators();
            policyTestTools.Query(testCluster, 12, false);
            policyTestTools.AssertQueried(testCluster.ClusterIpPrefix + "1:" + DefaultCassandraPort, 0);
            policyTestTools.AssertQueried(testCluster.ClusterIpPrefix + "2:" + DefaultCassandraPort, 12);
            testCluster.Cluster.Shutdown();
        }
        public void TokenAwareTest(bool usePrepared)
        {
            // Setup
            PolicyTestTools policyTestTools = new PolicyTestTools();
            ITestCluster    testCluster     = TestClusterManager.GetNonShareableTestCluster(1, 1, DefaultMaxClusterCreateRetries, true);

            testCluster.Builder = Cluster.Builder().WithLoadBalancingPolicy(new TokenAwarePolicy(new RoundRobinPolicy()));
            testCluster.InitClient();

            policyTestTools.CreateSchema(testCluster.Session);
            //clusterInfo.Cluster.RefreshSchema();
            policyTestTools.InitPreparedStatement(testCluster, 12);
            policyTestTools.Query(testCluster, 12);

            // Not the best test ever, we should use OPP and check we do it the
            // right nodes. But since M3P is hard-coded for now, let just check
            // we just hit only one node.
            int nodePosToDecommission         = 2;
            int nodePositionToNotDecommission = 1;

            if (policyTestTools.Coordinators.ContainsKey(testCluster.ClusterIpPrefix + "1:" + DefaultCassandraPort))
            {
                nodePosToDecommission         = 1;
                nodePositionToNotDecommission = 2;
            }
            policyTestTools.AssertQueried(testCluster.ClusterIpPrefix + nodePosToDecommission + ":" + DefaultCassandraPort, 12);
            policyTestTools.AssertQueried(testCluster.ClusterIpPrefix + nodePositionToNotDecommission + ":" + DefaultCassandraPort, 0);

            // now try again having stopped the node that was just queried
            policyTestTools.ResetCoordinators();
            testCluster.DecommissionNode(nodePosToDecommission);
            TestUtils.waitForDecommission(testCluster.ClusterIpPrefix + nodePosToDecommission + ":" + DefaultCassandraPort, testCluster.Cluster, 40);
            policyTestTools.Query(testCluster, 12, usePrepared);
            policyTestTools.AssertQueried(testCluster.ClusterIpPrefix + nodePosToDecommission + ":" + DefaultCassandraPort, 0);
            policyTestTools.AssertQueried(testCluster.ClusterIpPrefix + nodePositionToNotDecommission + ":" + DefaultCassandraPort, 12);
        }
Пример #6
0
        public void TryNextHostRetryPolicyTest()
        {
            ITestCluster testCluster   = TestClusterManager.GetNonShareableTestCluster(2);
            var          socketOptions = new SocketOptions().SetReadTimeoutMillis(2000);

            testCluster.Builder = Cluster.Builder()
                                  .WithRetryPolicy(new LoggingRetryPolicy(TryNextHostRetryPolicy.Instance))
                                  .AddContactPoint(testCluster.ClusterIpPrefix + "1")
                                  .AddContactPoint(testCluster.ClusterIpPrefix + "2")
                                  .WithSocketOptions(socketOptions);
            testCluster.InitClient();

            // Setup cluster
            PolicyTestTools policyTestTools = new PolicyTestTools();

            policyTestTools.CreateSchema(testCluster.Session, 2);
            policyTestTools.InitPreparedStatement(testCluster, 12);

            // Try with both hosts
            policyTestTools.Query(testCluster, 10);
            policyTestTools.AssertQueriedAtLeast(testCluster.ClusterIpPrefix + 1 + ":" + DefaultCassandraPort, 5);
            policyTestTools.AssertQueriedAtLeast(testCluster.ClusterIpPrefix + 2 + ":" + DefaultCassandraPort, 5);

            // Try with host 1
            policyTestTools.ResetCoordinators();
            testCluster.PauseNode(2);
            policyTestTools.Query(testCluster, 10);
            policyTestTools.AssertQueried(testCluster.ClusterIpPrefix + 1 + ":" + DefaultCassandraPort, 10);
            policyTestTools.AssertQueried(testCluster.ClusterIpPrefix + 2 + ":" + DefaultCassandraPort, 0);
            testCluster.ResumeNode(2);

            // Try with host 2
            policyTestTools.ResetCoordinators();
            testCluster.PauseNode(1);
            policyTestTools.Query(testCluster, 10);
            policyTestTools.AssertQueried(testCluster.ClusterIpPrefix + 1 + ":" + DefaultCassandraPort, 0);
            policyTestTools.AssertQueried(testCluster.ClusterIpPrefix + 2 + ":" + DefaultCassandraPort, 10);

            // Try with 0 hosts
            policyTestTools.ResetCoordinators();
            testCluster.PauseNode(2);
            Assert.Throws <NoHostAvailableException>(() => policyTestTools.Query(testCluster, 10));
            policyTestTools.AssertQueried(testCluster.ClusterIpPrefix + 1 + ":" + DefaultCassandraPort, 0);
            policyTestTools.AssertQueried(testCluster.ClusterIpPrefix + 2 + ":" + DefaultCassandraPort, 0);

            testCluster.ResumeNode(1);
            testCluster.ResumeNode(2);
        }
Пример #7
0
        public void ReconnectionPolicyTest(Builder builder, long restartTime, long retryTime, long breakTime)
        {
            ITestCluster testCluster = TestClusterManager.GetNonShareableTestCluster(1);

            _policyTestTools.CreateSchema(testCluster.Session, 1);

            _policyTestTools.InitPreparedStatement(testCluster, 12);
            _policyTestTools.Query(testCluster, 12);

            // Ensure a basic test works
            _policyTestTools.AssertQueried(testCluster.ClusterIpPrefix + "1:" + DefaultCassandraPort, 12);
            _policyTestTools.ResetCoordinators();
            testCluster.StopForce(1);

            // Start timing and ensure that the node is down

            //long startTime = 0;
            var startTime = Stopwatch.StartNew(); // = 0;

            try
            {
                //startTime = System.nanoTime() / 1000000000;
                _policyTestTools.Query(testCluster, 12);
                Assert.Fail("Test race condition where node has not shut off quickly enough.");
            }
            catch (NoHostAvailableException) {}

            long elapsedSeconds;
            bool restarted = false;

            while (true)
            {
                //thisTime = System.nanoTime() / 1000000000;
                elapsedSeconds = startTime.ElapsedMilliseconds / 1000;

                // Restart node at restartTime
                if (!restarted && elapsedSeconds > restartTime)
                {
                    testCluster.Start(1);
                    restarted = true;
                }

                // Continue testing queries each second
                try
                {
                    _policyTestTools.Query(testCluster, 12);
                    _policyTestTools.AssertQueried(testCluster.ClusterIpPrefix + "1:" + DefaultCassandraPort, 12);
                    _policyTestTools.ResetCoordinators();

                    // Ensure the time when the query completes successfully is what was expected
                    Assert.True(retryTime - 6 < elapsedSeconds && elapsedSeconds < retryTime + 6, string.Format("Waited {0} seconds instead an expected {1} seconds wait", elapsedSeconds, retryTime));
                }
                catch (NoHostAvailableException)
                {
                    Thread.Sleep(1000);
                    continue;
                }

                Thread.Sleep((int)(breakTime * 1000));

                // The same query once more, just to be sure
                _policyTestTools.Query(testCluster, 12);
                _policyTestTools.AssertQueried(testCluster.ClusterIpPrefix + "1:" + DefaultCassandraPort, 12);
                _policyTestTools.ResetCoordinators();

                // Ensure the reconnection times reset
                testCluster.StopForce(1);

                // Start timing and ensure that the node is down
                //startTime = 0;
                startTime.Reset();
                try
                {
                    //startTime = System.nanoTime() / 1000000000;
                    startTime.Start();
                    _policyTestTools.Query(testCluster, 12);
                    Assert.Fail("Test race condition where node has not shut off quickly enough.");
                }
                catch (NoHostAvailableException)
                {
                }

                restarted = false;
                while (true)
                {
                    //elapsedSeconds = System.nanoTime() / 1000000000;
                    elapsedSeconds = startTime.ElapsedMilliseconds / 1000;

                    // Restart node at restartTime
                    if (!restarted && elapsedSeconds > restartTime)
                    {
                        testCluster.Start(1);
                        restarted = true;
                    }

                    // Continue testing queries each second
                    try
                    {
                        _policyTestTools.Query(testCluster, 12);
                        _policyTestTools.AssertQueried(testCluster.ClusterIpPrefix + "1:" + DefaultCassandraPort, 12);
                        _policyTestTools.ResetCoordinators();

                        // Ensure the time when the query completes successfully is what was expected
                        Assert.True(retryTime - 3 < elapsedSeconds && elapsedSeconds < retryTime + 3, string.Format("Waited {0} seconds instead an expected {1} seconds wait", elapsedSeconds, retryTime));
                    }
                    catch (NoHostAvailableException)
                    {
                        Thread.Sleep(1000);
                        continue;
                    }
                    break;
                }
                break;
            }
        }
Пример #8
0
        public void ReplicationFactorOne_TokenAware()
        {
            ITestCluster testCluster = TestClusterManager.GetNonShareableTestCluster(3);

            testCluster.Builder = Cluster.Builder().WithLoadBalancingPolicy(new TokenAwarePolicy(new RoundRobinPolicy()));
            testCluster.InitClient();

            _policyTestTools.CreateSchema(testCluster.Session, 1);
            _policyTestTools.InitPreparedStatement(testCluster, 12, ConsistencyLevel.One);
            _policyTestTools.Query(testCluster, 12, ConsistencyLevel.One);

            string coordinatorHostQueried = _policyTestTools.Coordinators.First().Key.Split(':').First();
            int    awareCoord             = int.Parse(coordinatorHostQueried.Split('.').Last());

            _policyTestTools.AssertQueried(testCluster.ClusterIpPrefix + awareCoord + ":" + DefaultCassandraPort, 12);

            _policyTestTools.ResetCoordinators();
            testCluster.StopForce(awareCoord);
            TestUtils.WaitForDownWithWait(testCluster.ClusterIpPrefix + awareCoord + ":" + DefaultCassandraPort, testCluster.Cluster, 30);

            var acceptedList = new List <ConsistencyLevel>
            {
                ConsistencyLevel.Any
            };

            var failList = new List <ConsistencyLevel>
            {
                ConsistencyLevel.One,
                ConsistencyLevel.Two,
                ConsistencyLevel.Three,
                ConsistencyLevel.Quorum,
                ConsistencyLevel.All
            };

            // Test successful writes
            foreach (ConsistencyLevel consistencyLevel in acceptedList)
            {
                try
                {
                    _policyTestTools.InitPreparedStatement(testCluster, 12, consistencyLevel);
                }
                catch (Exception e)
                {
                    Assert.Fail(String.Format("Test failed at CL.{0} with message: {1}", consistencyLevel, e.Message));
                }
            }

            // Test successful reads
            foreach (ConsistencyLevel consistencyLevel in acceptedList)
            {
                try
                {
                    _policyTestTools.Query(testCluster, 12, consistencyLevel);
                }
                catch (InvalidQueryException e)
                {
                    var acceptableErrorMessages = new List <string>
                    {
                        "ANY ConsistencyLevel is only supported for writes"
                    };
                    Assert.True(acceptableErrorMessages.Contains(e.Message));
                }
            }

            // Test writes which should fail
            foreach (ConsistencyLevel consistencyLevel in failList)
            {
                try
                {
                    _policyTestTools.InitPreparedStatement(testCluster, 12, consistencyLevel);
                    Assert.Fail(String.Format("It must not pass at consistency level {0}.", consistencyLevel));
                }
                catch (InvalidQueryException e)
                {
                    var acceptableErrorMessages = new List <string>
                    {
                        "consistency level LOCAL_QUORUM not compatible with replication strategy (org.apache.cassandra.locator.SimpleStrategy)",
                        "consistency level EACH_QUORUM not compatible with replication strategy (org.apache.cassandra.locator.SimpleStrategy)"
                    };
                    Assert.True(acceptableErrorMessages.Contains(e.Message), String.Format("Received: {0}", e.Message));
                }
                catch (UnavailableException)
                {
                    // expected to fail when the client has already marked the
                    // node as DOWN
                }
                catch (WriteTimeoutException)
                {
                    // expected to fail when the client hasn't marked the'
                    // node as DOWN yet
                }
            }

            // Test reads which should fail
            foreach (ConsistencyLevel consistencyLevel in failList)
            {
                try
                {
                    _policyTestTools.Query(testCluster, 12, consistencyLevel);
                    Assert.Fail(String.Format("Test passed at CL.{0}.", consistencyLevel));
                }
                catch (InvalidQueryException e)
                {
                    var acceptableErrorMessages = new List <string>
                    {
                        "consistency level LOCAL_QUORUM not compatible with replication strategy (org.apache.cassandra.locator.SimpleStrategy)",
                        "EACH_QUORUM ConsistencyLevel is only supported for writes"
                    };
                    Assert.True(acceptableErrorMessages.Contains(e.Message), String.Format("Received: {0}", e.Message));
                }
                catch (ReadTimeoutException)
                {
                    // expected to fail when the client hasn't marked the'
                    // node as DOWN yet
                }
                catch (UnavailableException)
                {
                    // expected to fail when the client has already marked the
                    // node as DOWN
                }
            }
        }
        public void RoundRobin_TwoDCs_EachDcHasOneNodeAddedAndDecommissioned()
        {
            // Setup
            PolicyTestTools policyTestTools = new PolicyTestTools();
            ITestCluster    testCluster     = TestClusterManager.GetNonShareableTestCluster(1, 1, DefaultMaxClusterCreateRetries, true);

            testCluster.Builder = Cluster.Builder().WithLoadBalancingPolicy(new RoundRobinPolicy());
            testCluster.InitClient();

            policyTestTools.CreateSchema(testCluster.Session);
            policyTestTools.InitPreparedStatement(testCluster, 12);
            policyTestTools.Query(testCluster, 12);

            // Validate that all host were queried equally
            policyTestTools.AssertQueried(testCluster.ClusterIpPrefix + "1:" + DefaultCassandraPort, 6);
            policyTestTools.AssertQueried(testCluster.ClusterIpPrefix + "2:" + DefaultCassandraPort, 6);

            // Add new node to the end of first cluster, remove node from beginning of first cluster
            policyTestTools.ResetCoordinators();
            // Bootstrap step
            testCluster.BootstrapNode(3, "dc1");
            string newlyBootstrappedIp = testCluster.ClusterIpPrefix + "3";

            TestUtils.WaitForUp(newlyBootstrappedIp, DefaultCassandraPort, 30);

            // Validate expected nodes where queried
            policyTestTools.WaitForPolicyToolsQueryToHitBootstrappedIp(testCluster, newlyBootstrappedIp);
            policyTestTools.Query(testCluster, 12);
            policyTestTools.AssertQueriedAtLeast(testCluster.ClusterIpPrefix + "1:" + DefaultCassandraPort, 4);
            policyTestTools.AssertQueriedAtLeast(testCluster.ClusterIpPrefix + "2:" + DefaultCassandraPort, 4);
            policyTestTools.AssertQueriedAtLeast(testCluster.ClusterIpPrefix + "3:" + DefaultCassandraPort, 4);

            // Remove node from beginning of first cluster
            policyTestTools.ResetCoordinators();
            testCluster.DecommissionNode(1);
            TestUtils.waitForDecommission(testCluster.ClusterIpPrefix + "1:" + DefaultCassandraPort, testCluster.Cluster, 20);

            // Validate expected nodes where queried
            policyTestTools.Query(testCluster, 12);
            policyTestTools.AssertQueried(testCluster.ClusterIpPrefix + "1:" + DefaultCassandraPort, 0);
            policyTestTools.AssertQueried(testCluster.ClusterIpPrefix + "2:" + DefaultCassandraPort, 6);
            policyTestTools.AssertQueried(testCluster.ClusterIpPrefix + "3:" + DefaultCassandraPort, 6);

            // Add new node to the end of second cluster, remove node from beginning of first cluster
            policyTestTools.ResetCoordinators();
            testCluster.BootstrapNode(4, "dc2");
            newlyBootstrappedIp = testCluster.ClusterIpPrefix + "4";
            TestUtils.WaitForUp(newlyBootstrappedIp, DefaultCassandraPort, 30);
            policyTestTools.ResetCoordinators();
            policyTestTools.Query(testCluster, 12);
            policyTestTools.AssertQueried(testCluster.ClusterIpPrefix + "1:" + DefaultCassandraPort, 0);
            policyTestTools.AssertQueried(testCluster.ClusterIpPrefix + "2:" + DefaultCassandraPort, 4);
            policyTestTools.AssertQueried(testCluster.ClusterIpPrefix + "3:" + DefaultCassandraPort, 4);
            policyTestTools.AssertQueried(testCluster.ClusterIpPrefix + "4:" + DefaultCassandraPort, 4);

            // Remove node from beginning of second cluster
            policyTestTools.ResetCoordinators();
            testCluster.DecommissionNode(2);
            TestUtils.waitForDecommission(testCluster.ClusterIpPrefix + "2", testCluster.Cluster, 20);
            policyTestTools.Query(testCluster, 12);
            policyTestTools.AssertQueried(testCluster.ClusterIpPrefix + "1:" + DefaultCassandraPort, 0);
            policyTestTools.AssertQueried(testCluster.ClusterIpPrefix + "2:" + DefaultCassandraPort, 0);
            policyTestTools.AssertQueried(testCluster.ClusterIpPrefix + "3:" + DefaultCassandraPort, 6);
            policyTestTools.AssertQueried(testCluster.ClusterIpPrefix + "4:" + DefaultCassandraPort, 6);
        }