Ejemplo n.º 1
0
  public boolean allocateUnassigned(RoutingAllocation allocation) {
    boolean changed = false;
    DiscoveryNodes nodes = allocation.nodes();
    RoutingNodes routingNodes = allocation.routingNodes();

    // First, handle primaries, they must find a place to be allocated on here
    final MetaData metaData = routingNodes.metaData();
    RoutingNodes.UnassignedShards unassigned = routingNodes.unassigned();
    unassigned.sort(
        new PriorityComparator() {

          @Override
          protected Settings getIndexSettings(String index) {
            IndexMetaData indexMetaData = metaData.index(index);
            return indexMetaData.getSettings();
          }
        }); // sort for priority ordering
    Iterator<ShardRouting> unassignedIterator = unassigned.iterator();
    while (unassignedIterator.hasNext()) {
      ShardRouting shard = unassignedIterator.next();

      if (!shard.primary()) {
        continue;
      }

      // this is an API allocation, ignore since we know there is no data...
      if (!routingNodes
          .routingTable()
          .index(shard.index())
          .shard(shard.id())
          .primaryAllocatedPostApi()) {
        continue;
      }

      AsyncShardFetch<TransportNodesListGatewayStartedShards.NodeGatewayStartedShards> fetch =
          asyncFetchStarted.get(shard.shardId());
      if (fetch == null) {
        fetch = new InternalAsyncFetch<>(logger, "shard_started", shard.shardId(), startedAction);
        asyncFetchStarted.put(shard.shardId(), fetch);
      }
      AsyncShardFetch.FetchResult<TransportNodesListGatewayStartedShards.NodeGatewayStartedShards>
          shardState = fetch.fetchData(nodes, metaData, allocation.getIgnoreNodes(shard.shardId()));
      if (shardState.hasData() == false) {
        logger.trace("{}: ignoring allocation, still fetching shard started state", shard);
        unassignedIterator.remove();
        routingNodes.ignoredUnassigned().add(shard);
        continue;
      }
      shardState.processAllocation(allocation);

      IndexMetaData indexMetaData = metaData.index(shard.getIndex());

      /**
       * Build a map of DiscoveryNodes to shard state number for the given shard. A state of -1
       * means the shard does not exist on the node, where any shard state >= 0 is the state version
       * of the shard on that node's disk.
       *
       * <p>A shard on shared storage will return at least shard state 0 for all nodes, indicating
       * that the shard can be allocated to any node.
       */
      ObjectLongHashMap<DiscoveryNode> nodesState = new ObjectLongHashMap<>();
      for (TransportNodesListGatewayStartedShards.NodeGatewayStartedShards nodeShardState :
          shardState.getData().values()) {
        long version = nodeShardState.version();
        // -1 version means it does not exists, which is what the API returns, and what we expect to
        logger.trace(
            "[{}] on node [{}] has version [{}] of shard",
            shard,
            nodeShardState.getNode(),
            version);
        nodesState.put(nodeShardState.getNode(), version);
      }

      int numberOfAllocationsFound = 0;
      long highestVersion = -1;
      final Map<DiscoveryNode, Long> nodesWithVersion = Maps.newHashMap();

      assert !nodesState.containsKey(null);
      final Object[] keys = nodesState.keys;
      final long[] values = nodesState.values;
      Settings idxSettings = indexMetaData.settings();
      for (int i = 0; i < keys.length; i++) {
        if (keys[i] == null) {
          continue;
        }

        DiscoveryNode node = (DiscoveryNode) keys[i];
        long version = values[i];
        // since we don't check in NO allocation, we need to double check here
        if (allocation.shouldIgnoreShardForNode(shard.shardId(), node.id())) {
          continue;
        }
        if (recoverOnAnyNode(idxSettings)) {
          numberOfAllocationsFound++;
          if (version > highestVersion) {
            highestVersion = version;
          }
          // We always put the node without clearing the map
          nodesWithVersion.put(node, version);
        } else if (version != -1) {
          numberOfAllocationsFound++;
          // If we've found a new "best" candidate, clear the
          // current candidates and add it
          if (version > highestVersion) {
            highestVersion = version;
            nodesWithVersion.clear();
            nodesWithVersion.put(node, version);
          } else if (version == highestVersion) {
            // If the candidate is the same, add it to the
            // list, but keep the current candidate
            nodesWithVersion.put(node, version);
          }
        }
      }
      // Now that we have a map of nodes to versions along with the
      // number of allocations found (and not ignored), we need to sort
      // it so the node with the highest version is at the beginning
      List<DiscoveryNode> nodesWithHighestVersion = Lists.newArrayList();
      nodesWithHighestVersion.addAll(nodesWithVersion.keySet());
      CollectionUtil.timSort(
          nodesWithHighestVersion,
          new Comparator<DiscoveryNode>() {
            @Override
            public int compare(DiscoveryNode o1, DiscoveryNode o2) {
              return Long.compare(nodesWithVersion.get(o2), nodesWithVersion.get(o1));
            }
          });

      if (logger.isDebugEnabled()) {
        logger.debug(
            "[{}][{}] found {} allocations of {}, highest version: [{}]",
            shard.index(),
            shard.id(),
            numberOfAllocationsFound,
            shard,
            highestVersion);
      }
      if (logger.isTraceEnabled()) {
        StringBuilder sb = new StringBuilder("[");
        for (DiscoveryNode n : nodesWithHighestVersion) {
          sb.append("[");
          sb.append(n.getName());
          sb.append("]");
          sb.append(" -> ");
          sb.append(nodesWithVersion.get(n));
          sb.append(", ");
        }
        sb.append("]");
        logger.trace("{} candidates for allocation: {}", shard, sb.toString());
      }

      // check if the counts meets the minimum set
      int requiredAllocation = 1;
      // if we restore from a repository one copy is more then enough
      if (shard.restoreSource() == null) {
        try {
          String initialShards =
              indexMetaData
                  .settings()
                  .get(
                      INDEX_RECOVERY_INITIAL_SHARDS,
                      settings.get(INDEX_RECOVERY_INITIAL_SHARDS, this.initialShards));
          if ("quorum".equals(initialShards)) {
            if (indexMetaData.numberOfReplicas() > 1) {
              requiredAllocation = ((1 + indexMetaData.numberOfReplicas()) / 2) + 1;
            }
          } else if ("quorum-1".equals(initialShards) || "half".equals(initialShards)) {
            if (indexMetaData.numberOfReplicas() > 2) {
              requiredAllocation = ((1 + indexMetaData.numberOfReplicas()) / 2);
            }
          } else if ("one".equals(initialShards)) {
            requiredAllocation = 1;
          } else if ("full".equals(initialShards) || "all".equals(initialShards)) {
            requiredAllocation = indexMetaData.numberOfReplicas() + 1;
          } else if ("full-1".equals(initialShards) || "all-1".equals(initialShards)) {
            if (indexMetaData.numberOfReplicas() > 1) {
              requiredAllocation = indexMetaData.numberOfReplicas();
            }
          } else {
            requiredAllocation = Integer.parseInt(initialShards);
          }
        } catch (Exception e) {
          logger.warn(
              "[{}][{}] failed to derived initial_shards from value {}, ignore allocation for {}",
              shard.index(),
              shard.id(),
              initialShards,
              shard);
        }
      }

      // not enough found for this shard, continue...
      if (numberOfAllocationsFound < requiredAllocation) {
        // if we are restoring this shard we still can allocate
        if (shard.restoreSource() == null) {
          // we can't really allocate, so ignore it and continue
          unassignedIterator.remove();
          routingNodes.ignoredUnassigned().add(shard);
          if (logger.isDebugEnabled()) {
            logger.debug(
                "[{}][{}]: not allocating, number_of_allocated_shards_found [{}], required_number [{}]",
                shard.index(),
                shard.id(),
                numberOfAllocationsFound,
                requiredAllocation);
          }
        } else if (logger.isDebugEnabled()) {
          logger.debug(
              "[{}][{}]: missing local data, will restore from [{}]",
              shard.index(),
              shard.id(),
              shard.restoreSource());
        }
        continue;
      }

      Set<DiscoveryNode> throttledNodes = Sets.newHashSet();
      Set<DiscoveryNode> noNodes = Sets.newHashSet();
      for (DiscoveryNode discoNode : nodesWithHighestVersion) {
        RoutingNode node = routingNodes.node(discoNode.id());
        if (node == null) {
          continue;
        }

        Decision decision = allocation.deciders().canAllocate(shard, node, allocation);
        if (decision.type() == Decision.Type.THROTTLE) {
          throttledNodes.add(discoNode);
        } else if (decision.type() == Decision.Type.NO) {
          noNodes.add(discoNode);
        } else {
          if (logger.isDebugEnabled()) {
            logger.debug(
                "[{}][{}]: allocating [{}] to [{}] on primary allocation",
                shard.index(),
                shard.id(),
                shard,
                discoNode);
          }
          // we found a match
          changed = true;
          // make sure we create one with the version from the recovered state
          routingNodes.initialize(new ShardRouting(shard, highestVersion), node.nodeId());
          unassignedIterator.remove();

          // found a node, so no throttling, no "no", and break out of the loop
          throttledNodes.clear();
          noNodes.clear();
          break;
        }
      }
      if (throttledNodes.isEmpty()) {
        // if we have a node that we "can't" allocate to, force allocation, since this is our master
        // data!
        if (!noNodes.isEmpty()) {
          DiscoveryNode discoNode = noNodes.iterator().next();
          RoutingNode node = routingNodes.node(discoNode.id());
          if (logger.isDebugEnabled()) {
            logger.debug(
                "[{}][{}]: forcing allocating [{}] to [{}] on primary allocation",
                shard.index(),
                shard.id(),
                shard,
                discoNode);
          }
          // we found a match
          changed = true;
          // make sure we create one with the version from the recovered state
          routingNodes.initialize(new ShardRouting(shard, highestVersion), node.nodeId());
          unassignedIterator.remove();
        }
      } else {
        if (logger.isDebugEnabled()) {
          logger.debug(
              "[{}][{}]: throttling allocation [{}] to [{}] on primary allocation",
              shard.index(),
              shard.id(),
              shard,
              throttledNodes);
        }
        // we are throttling this, but we have enough to allocate to this node, ignore it for now
        unassignedIterator.remove();
        routingNodes.ignoredUnassigned().add(shard);
      }
    }

    if (!routingNodes.hasUnassigned()) {
      return changed;
    }

    // Now, handle replicas, try to assign them to nodes that are similar to the one the primary was
    // allocated on
    unassignedIterator = unassigned.iterator();
    while (unassignedIterator.hasNext()) {
      ShardRouting shard = unassignedIterator.next();
      if (shard.primary()) {
        continue;
      }

      // pre-check if it can be allocated to any node that currently exists, so we won't list the
      // store for it for nothing
      boolean canBeAllocatedToAtLeastOneNode = false;
      for (ObjectCursor<DiscoveryNode> cursor : nodes.dataNodes().values()) {
        RoutingNode node = routingNodes.node(cursor.value.id());
        if (node == null) {
          continue;
        }
        // if we can't allocate it on a node, ignore it, for example, this handles
        // cases for only allocating a replica after a primary
        Decision decision = allocation.deciders().canAllocate(shard, node, allocation);
        if (decision.type() == Decision.Type.YES) {
          canBeAllocatedToAtLeastOneNode = true;
          break;
        }
      }

      if (!canBeAllocatedToAtLeastOneNode) {
        logger.trace("{}: ignoring allocation, can't be allocated on any node", shard);
        unassignedIterator.remove();
        routingNodes.ignoredUnassigned().add(shard);
        continue;
      }

      AsyncShardFetch<TransportNodesListShardStoreMetaData.NodeStoreFilesMetaData> fetch =
          asyncFetchStore.get(shard.shardId());
      if (fetch == null) {
        fetch = new InternalAsyncFetch<>(logger, "shard_store", shard.shardId(), storeAction);
        asyncFetchStore.put(shard.shardId(), fetch);
      }
      AsyncShardFetch.FetchResult<TransportNodesListShardStoreMetaData.NodeStoreFilesMetaData>
          shardStores =
              fetch.fetchData(nodes, metaData, allocation.getIgnoreNodes(shard.shardId()));
      if (shardStores.hasData() == false) {
        logger.trace("{}: ignoring allocation, still fetching shard stores", shard);
        unassignedIterator.remove();
        routingNodes.ignoredUnassigned().add(shard);
        continue; // still fetching
      }
      shardStores.processAllocation(allocation);

      long lastSizeMatched = 0;
      DiscoveryNode lastDiscoNodeMatched = null;
      RoutingNode lastNodeMatched = null;
      boolean hasReplicaData = false;
      IndexMetaData indexMetaData = metaData.index(shard.getIndex());

      for (Map.Entry<DiscoveryNode, TransportNodesListShardStoreMetaData.NodeStoreFilesMetaData>
          nodeStoreEntry : shardStores.getData().entrySet()) {
        DiscoveryNode discoNode = nodeStoreEntry.getKey();
        TransportNodesListShardStoreMetaData.StoreFilesMetaData storeFilesMetaData =
            nodeStoreEntry.getValue().storeFilesMetaData();
        logger.trace("{}: checking node [{}]", shard, discoNode);

        if (storeFilesMetaData == null) {
          // already allocated on that node...
          continue;
        }

        RoutingNode node = routingNodes.node(discoNode.id());
        if (node == null) {
          continue;
        }

        // check if we can allocate on that node...
        // we only check for NO, since if this node is THROTTLING and it has enough "same data"
        // then we will try and assign it next time
        Decision decision = allocation.deciders().canAllocate(shard, node, allocation);
        if (decision.type() == Decision.Type.NO) {
          continue;
        }

        // if it is already allocated, we can't assign to it...
        if (storeFilesMetaData.allocated()) {
          continue;
        }

        if (!shard.primary()) {
          hasReplicaData |= storeFilesMetaData.iterator().hasNext();
          ShardRouting primaryShard = routingNodes.activePrimary(shard);
          if (primaryShard != null) {
            assert primaryShard.active();
            DiscoveryNode primaryNode = nodes.get(primaryShard.currentNodeId());
            if (primaryNode != null) {
              TransportNodesListShardStoreMetaData.NodeStoreFilesMetaData primaryNodeFilesStore =
                  shardStores.getData().get(primaryNode);
              if (primaryNodeFilesStore != null) {
                TransportNodesListShardStoreMetaData.StoreFilesMetaData primaryNodeStore =
                    primaryNodeFilesStore.storeFilesMetaData();
                if (primaryNodeStore != null && primaryNodeStore.allocated()) {
                  long sizeMatched = 0;

                  String primarySyncId = primaryNodeStore.syncId();
                  String replicaSyncId = storeFilesMetaData.syncId();
                  // see if we have a sync id we can make use of
                  if (replicaSyncId != null && replicaSyncId.equals(primarySyncId)) {
                    logger.trace(
                        "{}: node [{}] has same sync id {} as primary",
                        shard,
                        discoNode.name(),
                        replicaSyncId);
                    lastNodeMatched = node;
                    lastSizeMatched = Long.MAX_VALUE;
                    lastDiscoNodeMatched = discoNode;
                  } else {
                    for (StoreFileMetaData storeFileMetaData : storeFilesMetaData) {
                      String metaDataFileName = storeFileMetaData.name();
                      if (primaryNodeStore.fileExists(metaDataFileName)
                          && primaryNodeStore.file(metaDataFileName).isSame(storeFileMetaData)) {
                        sizeMatched += storeFileMetaData.length();
                      }
                    }
                    logger.trace(
                        "{}: node [{}] has [{}/{}] bytes of re-usable data",
                        shard,
                        discoNode.name(),
                        new ByteSizeValue(sizeMatched),
                        sizeMatched);
                    if (sizeMatched > lastSizeMatched) {
                      lastSizeMatched = sizeMatched;
                      lastDiscoNodeMatched = discoNode;
                      lastNodeMatched = node;
                    }
                  }
                }
              }
            }
          }
        }
      }

      if (lastNodeMatched != null) {
        // we only check on THROTTLE since we checked before before on NO
        Decision decision = allocation.deciders().canAllocate(shard, lastNodeMatched, allocation);
        if (decision.type() == Decision.Type.THROTTLE) {
          if (logger.isDebugEnabled()) {
            logger.debug(
                "[{}][{}]: throttling allocation [{}] to [{}] in order to reuse its unallocated persistent store with total_size [{}]",
                shard.index(),
                shard.id(),
                shard,
                lastDiscoNodeMatched,
                new ByteSizeValue(lastSizeMatched));
          }
          // we are throttling this, but we have enough to allocate to this node, ignore it for now
          unassignedIterator.remove();
          routingNodes.ignoredUnassigned().add(shard);
        } else {
          if (logger.isDebugEnabled()) {
            logger.debug(
                "[{}][{}]: allocating [{}] to [{}] in order to reuse its unallocated persistent store with total_size [{}]",
                shard.index(),
                shard.id(),
                shard,
                lastDiscoNodeMatched,
                new ByteSizeValue(lastSizeMatched));
          }
          // we found a match
          changed = true;
          routingNodes.initialize(shard, lastNodeMatched.nodeId());
          unassignedIterator.remove();
        }
      } else if (hasReplicaData == false) {
        // if we didn't manage to find *any* data (regardless of matching sizes), check if the
        // allocation
        // of the replica shard needs to be delayed, and if so, add it to the ignore unassigned list
        // note: we only care about replica in delayed allocation, since if we have an unassigned
        // primary it
        //       will anyhow wait to find an existing copy of the shard to be allocated
        // note: the other side of the equation is scheduling a reroute in a timely manner, which
        // happens in the RoutingService
        long delay =
            shard
                .unassignedInfo()
                .getDelayAllocationExpirationIn(settings, indexMetaData.getSettings());
        if (delay > 0) {
          logger.debug(
              "[{}][{}]: delaying allocation of [{}] for [{}]",
              shard.index(),
              shard.id(),
              shard,
              TimeValue.timeValueMillis(delay));
          /**
           * mark it as changed, since we want to kick a publishing to schedule future allocation,
           * see {@link
           * org.elasticsearch.cluster.routing.RoutingService#clusterChanged(ClusterChangedEvent)}).
           */
          changed = true;
          unassignedIterator.remove();
          routingNodes.ignoredUnassigned().add(shard);
        }
      }
    }
    return changed;
  }
  private ObjectLongOpenHashMap<DiscoveryNode> buildShardStates(
      final DiscoveryNodes nodes, MutableShardRouting shard) {
    ObjectLongOpenHashMap<DiscoveryNode> shardStates = cachedShardsState.get(shard.shardId());
    ObjectOpenHashSet<String> nodeIds;
    if (shardStates == null) {
      shardStates = new ObjectLongOpenHashMap<>();
      cachedShardsState.put(shard.shardId(), shardStates);
      nodeIds = ObjectOpenHashSet.from(nodes.dataNodes().keys());
    } else {
      // clean nodes that have failed
      shardStates
          .keys()
          .removeAll(
              new ObjectPredicate<DiscoveryNode>() {
                @Override
                public boolean apply(DiscoveryNode node) {
                  return !nodes.nodeExists(node.id());
                }
              });
      nodeIds = ObjectOpenHashSet.newInstance();
      // we have stored cached from before, see if the nodes changed, if they have, go fetch again
      for (ObjectCursor<DiscoveryNode> cursor : nodes.dataNodes().values()) {
        DiscoveryNode node = cursor.value;
        if (!shardStates.containsKey(node)) {
          nodeIds.add(node.id());
        }
      }
    }
    if (nodeIds.isEmpty()) {
      return shardStates;
    }

    String[] nodesIdsArray = nodeIds.toArray(String.class);
    TransportNodesListGatewayStartedShards.NodesGatewayStartedShards response =
        listGatewayStartedShards.list(shard.shardId(), nodesIdsArray, listTimeout).actionGet();
    if (logger.isDebugEnabled()) {
      if (response.failures().length > 0) {
        StringBuilder sb =
            new StringBuilder(shard + ": failures when trying to list shards on nodes:");
        for (int i = 0; i < response.failures().length; i++) {
          Throwable cause = ExceptionsHelper.unwrapCause(response.failures()[i]);
          if (cause instanceof ConnectTransportException) {
            continue;
          }
          sb.append("\n    -> ").append(response.failures()[i].getDetailedMessage());
        }
        logger.debug(sb.toString());
      }
    }

    for (TransportNodesListGatewayStartedShards.NodeGatewayStartedShards nodeShardState :
        response) {
      // -1 version means it does not exists, which is what the API returns, and what we expect to
      logger.trace(
          "[{}] on node [{}] has version [{}] of shard",
          shard,
          nodeShardState.getNode(),
          nodeShardState.version());
      shardStates.put(nodeShardState.getNode(), nodeShardState.version());
    }
    return shardStates;
  }