/** @throws Exception If failed. */
  public void testAffinityPut() throws Exception {
    Thread.sleep(2 * TOP_REFRESH_FREQ);

    assertEquals(NODES_CNT, client.compute().refreshTopology(false, false).size());

    Map<UUID, Grid> gridsByLocNode = new HashMap<>(NODES_CNT);

    GridClientData partitioned = client.data(PARTITIONED_CACHE_NAME);

    GridClientCompute compute = client.compute();

    for (int i = 0; i < NODES_CNT; i++) gridsByLocNode.put(grid(i).localNode().id(), grid(i));

    for (int i = 0; i < 100; i++) {
      String key = "key" + i;

      UUID primaryNodeId = grid(0).mapKeyToNode(PARTITIONED_CACHE_NAME, key).id();

      assertEquals("Affinity mismatch for key: " + key, primaryNodeId, partitioned.affinity(key));

      assertEquals(primaryNodeId, partitioned.affinity(key));

      // Must go to primary node only. Since backup count is 0, value must present on
      // primary node only.
      partitioned.put(key, "val" + key);

      for (Map.Entry<UUID, Grid> entry : gridsByLocNode.entrySet()) {
        Object val = entry.getValue().cache(PARTITIONED_CACHE_NAME).peek(key);

        if (primaryNodeId.equals(entry.getKey())) assertEquals("val" + key, val);
        else assertNull(val);
      }
    }

    // Now check that we will see value in near cache in pinned mode.
    for (int i = 100; i < 200; i++) {
      String pinnedKey = "key" + i;

      UUID primaryNodeId = grid(0).mapKeyToNode(PARTITIONED_CACHE_NAME, pinnedKey).id();

      UUID pinnedNodeId = F.first(F.view(gridsByLocNode.keySet(), F.notEqualTo(primaryNodeId)));

      GridClientNode node = compute.node(pinnedNodeId);

      partitioned.pinNodes(node).put(pinnedKey, "val" + pinnedKey);

      for (Map.Entry<UUID, Grid> entry : gridsByLocNode.entrySet()) {
        Object val = entry.getValue().cache(PARTITIONED_CACHE_NAME).peek(pinnedKey);

        if (primaryNodeId.equals(entry.getKey()) || pinnedNodeId.equals(entry.getKey()))
          assertEquals("val" + pinnedKey, val);
        else assertNull(val);
      }
    }
  }
  /**
   * Parses HTTP parameters in an appropriate format and return back map of values to predefined
   * list of names.
   *
   * @param req Request.
   * @return Map of parsed parameters.
   */
  @SuppressWarnings({"unchecked"})
  private Map<String, Object> parameters(ServletRequest req) {
    Map<String, String[]> params = req.getParameterMap();

    if (F.isEmpty(params)) return Collections.emptyMap();

    Map<String, Object> map = U.newHashMap(params.size());

    for (Map.Entry<String, String[]> entry : params.entrySet())
      map.put(entry.getKey(), parameter(entry.getValue()));

    return map;
  }
Пример #3
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  /** {@inheritDoc} */
  @Override
  public void prepareMarshal(GridCacheContext<K, V> ctx) throws GridException {
    super.prepareMarshal(ctx);

    if (err != null) errBytes = ctx.marshaller().marshal(err);

    metaDataBytes = marshalCollection(metadata, ctx);
    dataBytes = fields ? marshalFieldsCollection(data, ctx) : marshalCollection(data, ctx);

    if (ctx.deploymentEnabled() && !F.isEmpty(data)) {
      for (Object o : data) {
        if (o instanceof Map.Entry) {
          Map.Entry e = (Map.Entry) o;

          prepareObject(e.getKey(), ctx);
          prepareObject(e.getValue(), ctx);
        }
      }
    }
  }
Пример #4
0
  /** {@inheritDoc} */
  @Override
  public GridFuture<?> addData(Collection<? extends Map.Entry<K, V>> entries) {
    A.notEmpty(entries, "entries");

    enterBusy();

    try {
      GridFutureAdapter<Object> resFut = new GridFutureAdapter<>(ctx);

      activeFuts.add(resFut);

      resFut.listenAsync(rmvActiveFut);

      Collection<K> keys = new GridConcurrentHashSet<>(entries.size(), 1.0f, 16);

      for (Map.Entry<K, V> entry : entries) keys.add(entry.getKey());

      load0(entries, resFut, keys, 0);

      return resFut;
    } finally {
      leaveBusy();
    }
  }
Пример #5
0
  /**
   * @param entries Entries.
   * @param resFut Result future.
   * @param activeKeys Active keys.
   * @param remaps Remaps count.
   */
  private void load0(
      Collection<? extends Map.Entry<K, V>> entries,
      final GridFutureAdapter<Object> resFut,
      final Collection<K> activeKeys,
      final int remaps) {
    assert entries != null;

    if (remaps >= MAX_REMAP_CNT) {
      resFut.onDone(new GridException("Failed to finish operation (too many remaps): " + remaps));

      return;
    }

    Map<GridNode, Collection<Map.Entry<K, V>>> mappings = new HashMap<>();

    boolean initPda = ctx.deploy().enabled() && jobPda == null;

    for (Map.Entry<K, V> entry : entries) {
      GridNode node;

      try {
        K key = entry.getKey();

        assert key != null;

        if (initPda) {
          jobPda = new DataLoaderPda(key, entry.getValue(), updater);

          initPda = false;
        }

        node = ctx.affinity().mapKeyToNode(cacheName, key);
      } catch (GridException e) {
        resFut.onDone(e);

        return;
      }

      if (node == null) {
        resFut.onDone(
            new GridTopologyException(
                "Failed to map key to node "
                    + "(no nodes with cache found in topology) [infos="
                    + entries.size()
                    + ", cacheName="
                    + cacheName
                    + ']'));

        return;
      }

      Collection<Map.Entry<K, V>> col = mappings.get(node);

      if (col == null) mappings.put(node, col = new ArrayList<>());

      col.add(entry);
    }

    for (final Map.Entry<GridNode, Collection<Map.Entry<K, V>>> e : mappings.entrySet()) {
      final UUID nodeId = e.getKey().id();

      Buffer buf = bufMappings.get(nodeId);

      if (buf == null) {
        Buffer old = bufMappings.putIfAbsent(nodeId, buf = new Buffer(e.getKey()));

        if (old != null) buf = old;
      }

      final Collection<Map.Entry<K, V>> entriesForNode = e.getValue();

      GridInClosure<GridFuture<?>> lsnr =
          new GridInClosure<GridFuture<?>>() {
            @Override
            public void apply(GridFuture<?> t) {
              try {
                t.get();

                for (Map.Entry<K, V> e : entriesForNode) activeKeys.remove(e.getKey());

                if (activeKeys.isEmpty()) resFut.onDone();
              } catch (GridException e1) {
                if (log.isDebugEnabled())
                  log.debug("Future finished with error [nodeId=" + nodeId + ", err=" + e1 + ']');

                if (cancelled) {
                  resFut.onDone(
                      new GridException(
                          "Data loader has been cancelled: " + GridDataLoaderImpl.this, e1));
                } else load0(entriesForNode, resFut, activeKeys, remaps + 1);
              }
            }
          };

      GridFutureAdapter<?> f;

      try {
        f = buf.update(entriesForNode, lsnr);
      } catch (GridInterruptedException e1) {
        resFut.onDone(e1);

        return;
      }

      if (ctx.discovery().node(nodeId) == null) {
        if (bufMappings.remove(nodeId, buf)) buf.onNodeLeft();

        if (f != null)
          f.onDone(
              new GridTopologyException(
                  "Failed to wait for request completion " + "(node has left): " + nodeId));
      }
    }
  }