Ejemplo n.º 1
0
  @Test
  public void testEchoedRow() throws IOException, ExecutionException, InterruptedException {
    // This test check that EchoedRow doesn't skipp rows: see CASSANDRA-2653

    Keyspace keyspace = Keyspace.open(KEYSPACE1);
    ColumnFamilyStore cfs = keyspace.getColumnFamilyStore("Standard2");

    // disable compaction while flushing
    cfs.disableAutoCompaction();

    // Insert 4 keys in two sstables. We need the sstables to have 2 rows
    // at least to trigger what was causing CASSANDRA-2653
    for (int i = 1; i < 5; i++) {
      DecoratedKey key = Util.dk(String.valueOf(i));
      RowMutation rm = new RowMutation(KEYSPACE1, key.key);
      rm.add(
          "Standard2",
          ByteBufferUtil.bytes(String.valueOf(i)),
          ByteBufferUtil.EMPTY_BYTE_BUFFER,
          i);
      rm.apply();

      if (i % 2 == 0) cfs.forceBlockingFlush();
    }
    Collection<SSTableReader> toCompact = cfs.getSSTables();
    assert toCompact.size() == 2;

    // Reinserting the same keys. We will compact only the previous sstable, but we need those new
    // ones
    // to make sure we use EchoedRow, otherwise it won't be used because purge can be done.
    for (int i = 1; i < 5; i++) {
      DecoratedKey key = Util.dk(String.valueOf(i));
      RowMutation rm = new RowMutation(KEYSPACE1, key.key);
      rm.add(
          "Standard2",
          ByteBufferUtil.bytes(String.valueOf(i)),
          ByteBufferUtil.EMPTY_BYTE_BUFFER,
          i);
      rm.apply();
    }
    cfs.forceBlockingFlush();
    SSTableReader tmpSSTable = null;
    for (SSTableReader sstable : cfs.getSSTables())
      if (!toCompact.contains(sstable)) tmpSSTable = sstable;
    assert tmpSSTable != null;

    // Force compaction on first sstables. Since each row is in only one sstable, we will be using
    // EchoedRow.
    Util.compact(cfs, toCompact);
    assertEquals(2, cfs.getSSTables().size());

    // Now, we remove the sstable that was just created to force the use of EchoedRow (so that it
    // doesn't hide the problem)
    cfs.markObsolete(Collections.singleton(tmpSSTable), OperationType.UNKNOWN);
    assertEquals(1, cfs.getSSTables().size());

    // Now assert we do have the 4 keys
    assertEquals(4, Util.getRangeSlice(cfs).size());
  }
Ejemplo n.º 2
0
  @Test
  public void testFirstOfType() {
    Collection<A> collection = new HashSet<A>();
    collection.add(new B());
    collection.add(new B());

    assertTrue(Groups.firstOfType(C.class, collection) == null);
    assertTrue(collection.contains(Groups.firstOfType(A.class, collection)));
    assertTrue(collection.contains(Groups.firstOfType(B.class, collection)));
  }
Ejemplo n.º 3
0
  @Test
  public void testFirstEmpty() {
    Collection<String> collection = new HashSet<String>();

    assertTrue(Groups.first(collection) == null);

    collection.add("Hello World");
    assertTrue(Groups.first(collection).equals("Hello World"));

    collection.add("Goodbye World");
    assertTrue(collection.contains(Groups.first(collection)));
  }
Ejemplo n.º 4
0
  private void testDontPurgeAccidentaly(String k, String cfname)
      throws IOException, ExecutionException, InterruptedException {
    // This test catches the regression of CASSANDRA-2786
    Keyspace keyspace = Keyspace.open(KEYSPACE1);
    ColumnFamilyStore cfs = keyspace.getColumnFamilyStore(cfname);

    // disable compaction while flushing
    cfs.clearUnsafe();
    cfs.disableAutoCompaction();

    // Add test row
    DecoratedKey key = Util.dk(k);
    RowMutation rm = new RowMutation(KEYSPACE1, key.key);
    rm.add(
        cfname,
        CompositeType.build(ByteBufferUtil.bytes("sc"), ByteBufferUtil.bytes("c")),
        ByteBufferUtil.EMPTY_BYTE_BUFFER,
        0);
    rm.apply();

    cfs.forceBlockingFlush();

    Collection<SSTableReader> sstablesBefore = cfs.getSSTables();

    QueryFilter filter = QueryFilter.getIdentityFilter(key, cfname, System.currentTimeMillis());
    assert !(cfs.getColumnFamily(filter).getColumnCount() == 0);

    // Remove key
    rm = new RowMutation(KEYSPACE1, key.key);
    rm.delete(cfname, 2);
    rm.apply();

    ColumnFamily cf = cfs.getColumnFamily(filter);
    assert cf == null || cf.getColumnCount() == 0 : "should be empty: " + cf;

    // Sleep one second so that the removal is indeed purgeable even with gcgrace == 0
    Thread.sleep(1000);

    cfs.forceBlockingFlush();

    Collection<SSTableReader> sstablesAfter = cfs.getSSTables();
    Collection<SSTableReader> toCompact = new ArrayList<SSTableReader>();
    for (SSTableReader sstable : sstablesAfter)
      if (!sstablesBefore.contains(sstable)) toCompact.add(sstable);

    Util.compact(cfs, toCompact);

    cf = cfs.getColumnFamily(filter);
    assert cf == null || cf.getColumnCount() == 0 : "should be empty: " + cf;
  }
  /** Test pending ranges and write endpoints when multiple nodes are on the move simultaneously */
  @Test
  public void testSimultaneousMove() throws UnknownHostException {
    StorageService ss = StorageService.instance;
    final int RING_SIZE = 10;
    TokenMetadata tmd = ss.getTokenMetadata();
    tmd.clearUnsafe();
    IPartitioner partitioner = RandomPartitioner.instance;
    VersionedValue.VersionedValueFactory valueFactory =
        new VersionedValue.VersionedValueFactory(partitioner);

    ArrayList<Token> endpointTokens = new ArrayList<Token>();
    ArrayList<Token> keyTokens = new ArrayList<Token>();
    List<InetAddress> hosts = new ArrayList<InetAddress>();
    List<UUID> hostIds = new ArrayList<UUID>();

    // create a ring or 10 nodes
    Util.createInitialRing(ss, partitioner, endpointTokens, keyTokens, hosts, hostIds, RING_SIZE);

    // nodes 6, 8 and 9 leave
    final int[] LEAVING = new int[] {6, 8, 9};
    for (int leaving : LEAVING)
      ss.onChange(
          hosts.get(leaving),
          ApplicationState.STATUS,
          valueFactory.leaving(Collections.singleton(endpointTokens.get(leaving))));

    // boot two new nodes with keyTokens.get(5) and keyTokens.get(7)
    InetAddress boot1 = InetAddress.getByName("127.0.1.1");
    Gossiper.instance.initializeNodeUnsafe(boot1, UUID.randomUUID(), 1);
    Gossiper.instance.injectApplicationState(
        boot1,
        ApplicationState.TOKENS,
        valueFactory.tokens(Collections.singleton(keyTokens.get(5))));
    ss.onChange(
        boot1,
        ApplicationState.STATUS,
        valueFactory.bootstrapping(Collections.<Token>singleton(keyTokens.get(5))));
    InetAddress boot2 = InetAddress.getByName("127.0.1.2");
    Gossiper.instance.initializeNodeUnsafe(boot2, UUID.randomUUID(), 1);
    Gossiper.instance.injectApplicationState(
        boot2,
        ApplicationState.TOKENS,
        valueFactory.tokens(Collections.singleton(keyTokens.get(7))));
    ss.onChange(
        boot2,
        ApplicationState.STATUS,
        valueFactory.bootstrapping(Collections.<Token>singleton(keyTokens.get(7))));

    Collection<InetAddress> endpoints = null;

    /* don't require test update every time a new keyspace is added to test/conf/cassandra.yaml */
    Map<String, AbstractReplicationStrategy> keyspaceStrategyMap =
        new HashMap<String, AbstractReplicationStrategy>();
    for (int i = 1; i <= 4; i++) {
      keyspaceStrategyMap.put(
          "LeaveAndBootstrapTestKeyspace" + i,
          getStrategy("LeaveAndBootstrapTestKeyspace" + i, tmd));
    }

    // pre-calculate the results.
    Map<String, Multimap<Token, InetAddress>> expectedEndpoints =
        new HashMap<String, Multimap<Token, InetAddress>>();
    expectedEndpoints.put(KEYSPACE1, HashMultimap.<Token, InetAddress>create());
    expectedEndpoints.get(KEYSPACE1).putAll(new BigIntegerToken("5"), makeAddrs("127.0.0.2"));
    expectedEndpoints.get(KEYSPACE1).putAll(new BigIntegerToken("15"), makeAddrs("127.0.0.3"));
    expectedEndpoints.get(KEYSPACE1).putAll(new BigIntegerToken("25"), makeAddrs("127.0.0.4"));
    expectedEndpoints.get(KEYSPACE1).putAll(new BigIntegerToken("35"), makeAddrs("127.0.0.5"));
    expectedEndpoints.get(KEYSPACE1).putAll(new BigIntegerToken("45"), makeAddrs("127.0.0.6"));
    expectedEndpoints
        .get(KEYSPACE1)
        .putAll(new BigIntegerToken("55"), makeAddrs("127.0.0.7", "127.0.0.8", "127.0.1.1"));
    expectedEndpoints.get(KEYSPACE1).putAll(new BigIntegerToken("65"), makeAddrs("127.0.0.8"));
    expectedEndpoints
        .get(KEYSPACE1)
        .putAll(new BigIntegerToken("75"), makeAddrs("127.0.0.9", "127.0.1.2", "127.0.0.1"));
    expectedEndpoints
        .get(KEYSPACE1)
        .putAll(new BigIntegerToken("85"), makeAddrs("127.0.0.10", "127.0.0.1"));
    expectedEndpoints.get(KEYSPACE1).putAll(new BigIntegerToken("95"), makeAddrs("127.0.0.1"));
    expectedEndpoints.put(KEYSPACE2, HashMultimap.<Token, InetAddress>create());
    expectedEndpoints.get(KEYSPACE2).putAll(new BigIntegerToken("5"), makeAddrs("127.0.0.2"));
    expectedEndpoints.get(KEYSPACE2).putAll(new BigIntegerToken("15"), makeAddrs("127.0.0.3"));
    expectedEndpoints.get(KEYSPACE2).putAll(new BigIntegerToken("25"), makeAddrs("127.0.0.4"));
    expectedEndpoints.get(KEYSPACE2).putAll(new BigIntegerToken("35"), makeAddrs("127.0.0.5"));
    expectedEndpoints.get(KEYSPACE2).putAll(new BigIntegerToken("45"), makeAddrs("127.0.0.6"));
    expectedEndpoints
        .get(KEYSPACE2)
        .putAll(new BigIntegerToken("55"), makeAddrs("127.0.0.7", "127.0.0.8", "127.0.1.1"));
    expectedEndpoints.get(KEYSPACE2).putAll(new BigIntegerToken("65"), makeAddrs("127.0.0.8"));
    expectedEndpoints
        .get(KEYSPACE2)
        .putAll(new BigIntegerToken("75"), makeAddrs("127.0.0.9", "127.0.1.2", "127.0.0.1"));
    expectedEndpoints
        .get(KEYSPACE2)
        .putAll(new BigIntegerToken("85"), makeAddrs("127.0.0.10", "127.0.0.1"));
    expectedEndpoints.get(KEYSPACE2).putAll(new BigIntegerToken("95"), makeAddrs("127.0.0.1"));
    expectedEndpoints.put(KEYSPACE3, HashMultimap.<Token, InetAddress>create());
    expectedEndpoints
        .get(KEYSPACE3)
        .putAll(
            new BigIntegerToken("5"),
            makeAddrs("127.0.0.2", "127.0.0.3", "127.0.0.4", "127.0.0.5", "127.0.0.6"));
    expectedEndpoints
        .get(KEYSPACE3)
        .putAll(
            new BigIntegerToken("15"),
            makeAddrs(
                "127.0.0.3",
                "127.0.0.4",
                "127.0.0.5",
                "127.0.0.6",
                "127.0.0.7",
                "127.0.1.1",
                "127.0.0.8"));
    expectedEndpoints
        .get(KEYSPACE3)
        .putAll(
            new BigIntegerToken("25"),
            makeAddrs(
                "127.0.0.4",
                "127.0.0.5",
                "127.0.0.6",
                "127.0.0.7",
                "127.0.0.8",
                "127.0.1.2",
                "127.0.0.1",
                "127.0.1.1"));
    expectedEndpoints
        .get(KEYSPACE3)
        .putAll(
            new BigIntegerToken("35"),
            makeAddrs(
                "127.0.0.5",
                "127.0.0.6",
                "127.0.0.7",
                "127.0.0.8",
                "127.0.0.9",
                "127.0.1.2",
                "127.0.0.1",
                "127.0.0.2",
                "127.0.1.1"));
    expectedEndpoints
        .get(KEYSPACE3)
        .putAll(
            new BigIntegerToken("45"),
            makeAddrs(
                "127.0.0.6",
                "127.0.0.7",
                "127.0.0.8",
                "127.0.0.9",
                "127.0.0.10",
                "127.0.1.2",
                "127.0.0.1",
                "127.0.0.2",
                "127.0.1.1",
                "127.0.0.3"));
    expectedEndpoints
        .get(KEYSPACE3)
        .putAll(
            new BigIntegerToken("55"),
            makeAddrs(
                "127.0.0.7",
                "127.0.0.8",
                "127.0.0.9",
                "127.0.0.10",
                "127.0.0.1",
                "127.0.0.2",
                "127.0.0.3",
                "127.0.0.4",
                "127.0.1.1",
                "127.0.1.2"));
    expectedEndpoints
        .get(KEYSPACE3)
        .putAll(
            new BigIntegerToken("65"),
            makeAddrs(
                "127.0.0.8",
                "127.0.0.9",
                "127.0.0.10",
                "127.0.0.1",
                "127.0.0.2",
                "127.0.1.2",
                "127.0.0.3",
                "127.0.0.4"));
    expectedEndpoints
        .get(KEYSPACE3)
        .putAll(
            new BigIntegerToken("75"),
            makeAddrs(
                "127.0.0.9",
                "127.0.0.10",
                "127.0.0.1",
                "127.0.0.2",
                "127.0.0.3",
                "127.0.1.2",
                "127.0.0.4",
                "127.0.0.5"));
    expectedEndpoints
        .get(KEYSPACE3)
        .putAll(
            new BigIntegerToken("85"),
            makeAddrs(
                "127.0.0.10", "127.0.0.1", "127.0.0.2", "127.0.0.3", "127.0.0.4", "127.0.0.5"));
    expectedEndpoints
        .get(KEYSPACE3)
        .putAll(
            new BigIntegerToken("95"),
            makeAddrs("127.0.0.1", "127.0.0.2", "127.0.0.3", "127.0.0.4", "127.0.0.5"));
    expectedEndpoints.put(KEYSPACE4, HashMultimap.<Token, InetAddress>create());
    expectedEndpoints
        .get(KEYSPACE4)
        .putAll(new BigIntegerToken("5"), makeAddrs("127.0.0.2", "127.0.0.3", "127.0.0.4"));
    expectedEndpoints
        .get(KEYSPACE4)
        .putAll(new BigIntegerToken("15"), makeAddrs("127.0.0.3", "127.0.0.4", "127.0.0.5"));
    expectedEndpoints
        .get(KEYSPACE4)
        .putAll(new BigIntegerToken("25"), makeAddrs("127.0.0.4", "127.0.0.5", "127.0.0.6"));
    expectedEndpoints
        .get(KEYSPACE4)
        .putAll(
            new BigIntegerToken("35"),
            makeAddrs("127.0.0.5", "127.0.0.6", "127.0.0.7", "127.0.1.1", "127.0.0.8"));
    expectedEndpoints
        .get(KEYSPACE4)
        .putAll(
            new BigIntegerToken("45"),
            makeAddrs(
                "127.0.0.6", "127.0.0.7", "127.0.0.8", "127.0.1.2", "127.0.0.1", "127.0.1.1"));
    expectedEndpoints
        .get(KEYSPACE4)
        .putAll(
            new BigIntegerToken("55"),
            makeAddrs(
                "127.0.0.7",
                "127.0.0.8",
                "127.0.0.9",
                "127.0.0.1",
                "127.0.0.2",
                "127.0.1.1",
                "127.0.1.2"));
    expectedEndpoints
        .get(KEYSPACE4)
        .putAll(
            new BigIntegerToken("65"),
            makeAddrs(
                "127.0.0.8", "127.0.0.9", "127.0.0.10", "127.0.1.2", "127.0.0.1", "127.0.0.2"));
    expectedEndpoints
        .get(KEYSPACE4)
        .putAll(
            new BigIntegerToken("75"),
            makeAddrs(
                "127.0.0.9", "127.0.0.10", "127.0.0.1", "127.0.1.2", "127.0.0.2", "127.0.0.3"));
    expectedEndpoints
        .get(KEYSPACE4)
        .putAll(
            new BigIntegerToken("85"),
            makeAddrs("127.0.0.10", "127.0.0.1", "127.0.0.2", "127.0.0.3"));
    expectedEndpoints
        .get(KEYSPACE4)
        .putAll(new BigIntegerToken("95"), makeAddrs("127.0.0.1", "127.0.0.2", "127.0.0.3"));

    PendingRangeCalculatorService.instance.blockUntilFinished();

    for (Map.Entry<String, AbstractReplicationStrategy> keyspaceStrategy :
        keyspaceStrategyMap.entrySet()) {
      String keyspaceName = keyspaceStrategy.getKey();
      AbstractReplicationStrategy strategy = keyspaceStrategy.getValue();

      for (int i = 0; i < keyTokens.size(); i++) {
        endpoints =
            tmd.getWriteEndpoints(
                keyTokens.get(i), keyspaceName, strategy.getNaturalEndpoints(keyTokens.get(i)));
        assertEquals(
            expectedEndpoints.get(keyspaceName).get(keyTokens.get(i)).size(), endpoints.size());
        assertTrue(
            expectedEndpoints.get(keyspaceName).get(keyTokens.get(i)).containsAll(endpoints));
      }

      // just to be sure that things still work according to the old tests, run them:
      if (strategy.getReplicationFactor() != 3) continue;
      // tokens 5, 15 and 25 should go three nodes
      for (int i = 0; i < 3; ++i) {
        endpoints =
            tmd.getWriteEndpoints(
                keyTokens.get(i), keyspaceName, strategy.getNaturalEndpoints(keyTokens.get(i)));
        assertEquals(3, endpoints.size());
        assertTrue(endpoints.contains(hosts.get(i + 1)));
        assertTrue(endpoints.contains(hosts.get(i + 2)));
        assertTrue(endpoints.contains(hosts.get(i + 3)));
      }

      // token 35 should go to nodes 4, 5, 6, 7 and boot1
      endpoints =
          tmd.getWriteEndpoints(
              keyTokens.get(3), keyspaceName, strategy.getNaturalEndpoints(keyTokens.get(3)));
      assertEquals(5, endpoints.size());
      assertTrue(endpoints.contains(hosts.get(4)));
      assertTrue(endpoints.contains(hosts.get(5)));
      assertTrue(endpoints.contains(hosts.get(6)));
      assertTrue(endpoints.contains(hosts.get(7)));
      assertTrue(endpoints.contains(boot1));

      // token 45 should go to nodes 5, 6, 7, 0, boot1 and boot2
      endpoints =
          tmd.getWriteEndpoints(
              keyTokens.get(4), keyspaceName, strategy.getNaturalEndpoints(keyTokens.get(4)));
      assertEquals(6, endpoints.size());
      assertTrue(endpoints.contains(hosts.get(5)));
      assertTrue(endpoints.contains(hosts.get(6)));
      assertTrue(endpoints.contains(hosts.get(7)));
      assertTrue(endpoints.contains(hosts.get(0)));
      assertTrue(endpoints.contains(boot1));
      assertTrue(endpoints.contains(boot2));

      // token 55 should go to nodes 6, 7, 8, 0, 1, boot1 and boot2
      endpoints =
          tmd.getWriteEndpoints(
              keyTokens.get(5), keyspaceName, strategy.getNaturalEndpoints(keyTokens.get(5)));
      assertEquals(7, endpoints.size());
      assertTrue(endpoints.contains(hosts.get(6)));
      assertTrue(endpoints.contains(hosts.get(7)));
      assertTrue(endpoints.contains(hosts.get(8)));
      assertTrue(endpoints.contains(hosts.get(0)));
      assertTrue(endpoints.contains(hosts.get(1)));
      assertTrue(endpoints.contains(boot1));
      assertTrue(endpoints.contains(boot2));

      // token 65 should go to nodes 7, 8, 9, 0, 1 and boot2
      endpoints =
          tmd.getWriteEndpoints(
              keyTokens.get(6), keyspaceName, strategy.getNaturalEndpoints(keyTokens.get(6)));
      assertEquals(6, endpoints.size());
      assertTrue(endpoints.contains(hosts.get(7)));
      assertTrue(endpoints.contains(hosts.get(8)));
      assertTrue(endpoints.contains(hosts.get(9)));
      assertTrue(endpoints.contains(hosts.get(0)));
      assertTrue(endpoints.contains(hosts.get(1)));
      assertTrue(endpoints.contains(boot2));

      // token 75 should to go nodes 8, 9, 0, 1, 2 and boot2
      endpoints =
          tmd.getWriteEndpoints(
              keyTokens.get(7), keyspaceName, strategy.getNaturalEndpoints(keyTokens.get(7)));
      assertEquals(6, endpoints.size());
      assertTrue(endpoints.contains(hosts.get(8)));
      assertTrue(endpoints.contains(hosts.get(9)));
      assertTrue(endpoints.contains(hosts.get(0)));
      assertTrue(endpoints.contains(hosts.get(1)));
      assertTrue(endpoints.contains(hosts.get(2)));
      assertTrue(endpoints.contains(boot2));

      // token 85 should go to nodes 9, 0, 1 and 2
      endpoints =
          tmd.getWriteEndpoints(
              keyTokens.get(8), keyspaceName, strategy.getNaturalEndpoints(keyTokens.get(8)));
      assertEquals(4, endpoints.size());
      assertTrue(endpoints.contains(hosts.get(9)));
      assertTrue(endpoints.contains(hosts.get(0)));
      assertTrue(endpoints.contains(hosts.get(1)));
      assertTrue(endpoints.contains(hosts.get(2)));

      // token 95 should go to nodes 0, 1 and 2
      endpoints =
          tmd.getWriteEndpoints(
              keyTokens.get(9), keyspaceName, strategy.getNaturalEndpoints(keyTokens.get(9)));
      assertEquals(3, endpoints.size());
      assertTrue(endpoints.contains(hosts.get(0)));
      assertTrue(endpoints.contains(hosts.get(1)));
      assertTrue(endpoints.contains(hosts.get(2)));
    }

    // Now finish node 6 and node 9 leaving, as well as boot1 (after this node 8 is still
    // leaving and boot2 in progress
    ss.onChange(
        hosts.get(LEAVING[0]),
        ApplicationState.STATUS,
        valueFactory.left(
            Collections.singleton(endpointTokens.get(LEAVING[0])), Gossiper.computeExpireTime()));
    ss.onChange(
        hosts.get(LEAVING[2]),
        ApplicationState.STATUS,
        valueFactory.left(
            Collections.singleton(endpointTokens.get(LEAVING[2])), Gossiper.computeExpireTime()));
    ss.onChange(
        boot1,
        ApplicationState.STATUS,
        valueFactory.normal(Collections.singleton(keyTokens.get(5))));

    // adjust precalcuated results.  this changes what the epected endpoints are.
    expectedEndpoints
        .get(KEYSPACE1)
        .get(new BigIntegerToken("55"))
        .removeAll(makeAddrs("127.0.0.7", "127.0.0.8"));
    expectedEndpoints
        .get(KEYSPACE1)
        .get(new BigIntegerToken("85"))
        .removeAll(makeAddrs("127.0.0.10"));
    expectedEndpoints
        .get(KEYSPACE2)
        .get(new BigIntegerToken("55"))
        .removeAll(makeAddrs("127.0.0.7", "127.0.0.8"));
    expectedEndpoints
        .get(KEYSPACE2)
        .get(new BigIntegerToken("85"))
        .removeAll(makeAddrs("127.0.0.10"));
    expectedEndpoints
        .get(KEYSPACE3)
        .get(new BigIntegerToken("15"))
        .removeAll(makeAddrs("127.0.0.7", "127.0.0.8"));
    expectedEndpoints
        .get(KEYSPACE3)
        .get(new BigIntegerToken("25"))
        .removeAll(makeAddrs("127.0.0.7", "127.0.1.2", "127.0.0.1"));
    expectedEndpoints
        .get(KEYSPACE3)
        .get(new BigIntegerToken("35"))
        .removeAll(makeAddrs("127.0.0.7", "127.0.0.2"));
    expectedEndpoints
        .get(KEYSPACE3)
        .get(new BigIntegerToken("45"))
        .removeAll(makeAddrs("127.0.0.7", "127.0.0.10", "127.0.0.3"));
    expectedEndpoints
        .get(KEYSPACE3)
        .get(new BigIntegerToken("55"))
        .removeAll(makeAddrs("127.0.0.7", "127.0.0.10", "127.0.0.4"));
    expectedEndpoints
        .get(KEYSPACE3)
        .get(new BigIntegerToken("65"))
        .removeAll(makeAddrs("127.0.0.10"));
    expectedEndpoints
        .get(KEYSPACE3)
        .get(new BigIntegerToken("75"))
        .removeAll(makeAddrs("127.0.0.10"));
    expectedEndpoints
        .get(KEYSPACE3)
        .get(new BigIntegerToken("85"))
        .removeAll(makeAddrs("127.0.0.10"));
    expectedEndpoints
        .get(KEYSPACE4)
        .get(new BigIntegerToken("35"))
        .removeAll(makeAddrs("127.0.0.7", "127.0.0.8"));
    expectedEndpoints
        .get(KEYSPACE4)
        .get(new BigIntegerToken("45"))
        .removeAll(makeAddrs("127.0.0.7", "127.0.1.2", "127.0.0.1"));
    expectedEndpoints
        .get(KEYSPACE4)
        .get(new BigIntegerToken("55"))
        .removeAll(makeAddrs("127.0.0.2", "127.0.0.7"));
    expectedEndpoints
        .get(KEYSPACE4)
        .get(new BigIntegerToken("65"))
        .removeAll(makeAddrs("127.0.0.10"));
    expectedEndpoints
        .get(KEYSPACE4)
        .get(new BigIntegerToken("75"))
        .removeAll(makeAddrs("127.0.0.10"));
    expectedEndpoints
        .get(KEYSPACE4)
        .get(new BigIntegerToken("85"))
        .removeAll(makeAddrs("127.0.0.10"));

    PendingRangeCalculatorService.instance.blockUntilFinished();

    for (Map.Entry<String, AbstractReplicationStrategy> keyspaceStrategy :
        keyspaceStrategyMap.entrySet()) {
      String keyspaceName = keyspaceStrategy.getKey();
      AbstractReplicationStrategy strategy = keyspaceStrategy.getValue();

      for (int i = 0; i < keyTokens.size(); i++) {
        endpoints =
            tmd.getWriteEndpoints(
                keyTokens.get(i), keyspaceName, strategy.getNaturalEndpoints(keyTokens.get(i)));
        assertEquals(
            expectedEndpoints.get(keyspaceName).get(keyTokens.get(i)).size(), endpoints.size());
        assertTrue(
            expectedEndpoints.get(keyspaceName).get(keyTokens.get(i)).containsAll(endpoints));
      }

      if (strategy.getReplicationFactor() != 3) continue;
      // leave this stuff in to guarantee the old tests work the way they were supposed to.
      // tokens 5, 15 and 25 should go three nodes
      for (int i = 0; i < 3; ++i) {
        endpoints =
            tmd.getWriteEndpoints(
                keyTokens.get(i), keyspaceName, strategy.getNaturalEndpoints(keyTokens.get(i)));
        assertEquals(3, endpoints.size());
        assertTrue(endpoints.contains(hosts.get(i + 1)));
        assertTrue(endpoints.contains(hosts.get(i + 2)));
        assertTrue(endpoints.contains(hosts.get(i + 3)));
      }

      // token 35 goes to nodes 4, 5 and boot1
      endpoints =
          tmd.getWriteEndpoints(
              keyTokens.get(3), keyspaceName, strategy.getNaturalEndpoints(keyTokens.get(3)));
      assertEquals(3, endpoints.size());
      assertTrue(endpoints.contains(hosts.get(4)));
      assertTrue(endpoints.contains(hosts.get(5)));
      assertTrue(endpoints.contains(boot1));

      // token 45 goes to nodes 5, boot1 and node7
      endpoints =
          tmd.getWriteEndpoints(
              keyTokens.get(4), keyspaceName, strategy.getNaturalEndpoints(keyTokens.get(4)));
      assertEquals(3, endpoints.size());
      assertTrue(endpoints.contains(hosts.get(5)));
      assertTrue(endpoints.contains(boot1));
      assertTrue(endpoints.contains(hosts.get(7)));

      // token 55 goes to boot1, 7, boot2, 8 and 0
      endpoints =
          tmd.getWriteEndpoints(
              keyTokens.get(5), keyspaceName, strategy.getNaturalEndpoints(keyTokens.get(5)));
      assertEquals(5, endpoints.size());
      assertTrue(endpoints.contains(boot1));
      assertTrue(endpoints.contains(hosts.get(7)));
      assertTrue(endpoints.contains(boot2));
      assertTrue(endpoints.contains(hosts.get(8)));
      assertTrue(endpoints.contains(hosts.get(0)));

      // token 65 goes to nodes 7, boot2, 8, 0 and 1
      endpoints =
          tmd.getWriteEndpoints(
              keyTokens.get(6), keyspaceName, strategy.getNaturalEndpoints(keyTokens.get(6)));
      assertEquals(5, endpoints.size());
      assertTrue(endpoints.contains(hosts.get(7)));
      assertTrue(endpoints.contains(boot2));
      assertTrue(endpoints.contains(hosts.get(8)));
      assertTrue(endpoints.contains(hosts.get(0)));
      assertTrue(endpoints.contains(hosts.get(1)));

      // token 75 goes to nodes boot2, 8, 0, 1 and 2
      endpoints =
          tmd.getWriteEndpoints(
              keyTokens.get(7), keyspaceName, strategy.getNaturalEndpoints(keyTokens.get(7)));
      assertEquals(5, endpoints.size());
      assertTrue(endpoints.contains(boot2));
      assertTrue(endpoints.contains(hosts.get(8)));
      assertTrue(endpoints.contains(hosts.get(0)));
      assertTrue(endpoints.contains(hosts.get(1)));
      assertTrue(endpoints.contains(hosts.get(2)));

      // token 85 goes to nodes 0, 1 and 2
      endpoints =
          tmd.getWriteEndpoints(
              keyTokens.get(8), keyspaceName, strategy.getNaturalEndpoints(keyTokens.get(8)));
      assertEquals(3, endpoints.size());
      assertTrue(endpoints.contains(hosts.get(0)));
      assertTrue(endpoints.contains(hosts.get(1)));
      assertTrue(endpoints.contains(hosts.get(2)));

      // token 95 goes to nodes 0, 1 and 2
      endpoints =
          tmd.getWriteEndpoints(
              keyTokens.get(9), keyspaceName, strategy.getNaturalEndpoints(keyTokens.get(9)));
      assertEquals(3, endpoints.size());
      assertTrue(endpoints.contains(hosts.get(0)));
      assertTrue(endpoints.contains(hosts.get(1)));
      assertTrue(endpoints.contains(hosts.get(2)));
    }
  }