/** {@inheritDoc} */ @Override public Map<K, V> peekAll( @Nullable Collection<? extends K> keys, @Nullable GridPredicate<? super GridCacheEntry<K, V>>[] filter) { if (keys == null || keys.isEmpty()) return emptyMap(); final Collection<K> skipped = new GridLeanSet<K>(); final Map<K, V> map = peekAll0(keys, filter, skipped); if (map.size() + skipped.size() != keys.size()) { map.putAll( dht.peekAll( F.view( keys, new P1<K>() { @Override public boolean apply(K k) { return !map.containsKey(k) && !skipped.contains(k); } }), filter)); } return map; }
/** @param node Node to remove. */ public void removeMappedNode(GridNode node) { if (mappedDhtNodes.contains(node)) mappedDhtNodes = new ArrayList<>(F.view(mappedDhtNodes, F.notEqualTo(node))); if (mappedNearNodes != null && mappedNearNodes.contains(node)) mappedNearNodes = new ArrayList<>(F.view(mappedNearNodes, F.notEqualTo(node))); }
/** @param nodes Nodes. */ private Queue<ClusterNode> fallbacks(Collection<ClusterNode> nodes) { Queue<ClusterNode> fallbacks = new LinkedList<>(); ClusterNode node = F.first(F.view(nodes, IS_LOC_NODE)); if (node != null) fallbacks.add(node); fallbacks.addAll(node != null ? F.view(nodes, F.not(IS_LOC_NODE)) : nodes); return fallbacks; }
/** {@inheritDoc} */ @Override public Map<K, V> peekAll( @Nullable Collection<? extends K> keys, @Nullable Collection<GridCachePeekMode> modes) throws GridException { if (keys == null || keys.isEmpty()) return emptyMap(); final Collection<K> skipped = new GridLeanSet<K>(); final Map<K, V> map = !modes.contains(PARTITIONED_ONLY) ? peekAll0(keys, modes, ctx.tm().localTxx(), skipped) : new GridLeanMap<K, V>(0); if (map.size() != keys.size() && !modes.contains(NEAR_ONLY)) { map.putAll( dht.peekAll( F.view( keys, new P1<K>() { @Override public boolean apply(K k) { return !map.containsKey(k) && !skipped.contains(k); } }), modes)); } return map; }
/** * @param keys keys. * @param topVer Topology version. * @return Nodes for the keys. */ public Collection<GridNode> remoteNodes(Iterable<? extends K> keys, long topVer) { Collection<Collection<GridNode>> colcol = new GridLeanSet<>(); for (K key : keys) colcol.add(nodes(key, topVer)); return F.view(F.flatCollections(colcol), F.remoteNodes(cctx.localNodeId())); }
/** * @param cctx Cache context. * @param prj Projection (optional). * @return Collection of data nodes in provided projection (if any). */ private static Collection<ClusterNode> nodes( final GridCacheContext<?, ?> cctx, @Nullable final ClusterGroup prj, @Nullable final Integer part) { assert cctx != null; final AffinityTopologyVersion topVer = cctx.affinity().affinityTopologyVersion(); Collection<ClusterNode> affNodes = CU.affinityNodes(cctx); if (prj == null && part == null) return affNodes; final Set<ClusterNode> owners = part == null ? Collections.<ClusterNode>emptySet() : new HashSet<>(cctx.topology().owners(part, topVer)); return F.view( affNodes, new P1<ClusterNode>() { @Override public boolean apply(ClusterNode n) { return cctx.discovery().cacheAffinityNode(n, cctx.name()) && (prj == null || prj.node(n.id()) != null) && (part == null || owners.contains(n)); } }); }
/** * @param part Partition. * @param topVer Topology version. * @return Backup nodes. */ public Collection<GridNode> backups(int part, long topVer) { Collection<GridNode> nodes = nodes(part, topVer); assert !F.isEmpty(nodes); if (nodes.size() <= 1) return Collections.emptyList(); return F.view(nodes, F.notEqualTo(nodes.iterator().next())); }
/** @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); } } }
/** * Starts dynamic caches. * * @throws IgniteCheckedException If failed. */ private void startCaches() throws IgniteCheckedException { cctx.cache() .prepareCachesStart( F.view( reqs, new IgnitePredicate<DynamicCacheChangeRequest>() { @Override public boolean apply(DynamicCacheChangeRequest req) { return req.start(); } }), exchId.topologyVersion()); }
/** * @param cctx Cache context. * @param prj Projection (optional). * @return Collection of data nodes in provided projection (if any). */ private static Collection<GridNode> nodes( final GridCacheContext<?, ?> cctx, @Nullable final GridProjection prj) { assert cctx != null; return F.view( CU.allNodes(cctx), new P1<GridNode>() { @Override public boolean apply(GridNode n) { GridCacheDistributionMode mode = U.distributionMode(n, cctx.name()); return (mode == PARTITIONED_ONLY || mode == NEAR_PARTITIONED) && (prj == null || prj.node(n.id()) != null); } }); }
/** {@inheritDoc} */ @SuppressWarnings({"MismatchedQueryAndUpdateOfCollection"}) @Nullable @Override public GridDhtPartitionMap update( @Nullable GridDhtPartitionExchangeId exchId, GridDhtPartitionMap parts) { if (log.isDebugEnabled()) log.debug( "Updating single partition map [exchId=" + exchId + ", parts=" + mapString(parts) + ']'); if (!cctx.discovery().alive(parts.nodeId())) { if (log.isDebugEnabled()) log.debug( "Received partition update for non-existing node (will ignore) [exchId=" + exchId + ", parts=" + parts + ']'); return null; } lock.writeLock().lock(); try { if (stopping) return null; if (lastExchangeId != null && exchId != null && lastExchangeId.compareTo(exchId) > 0) { if (log.isDebugEnabled()) log.debug( "Stale exchange id for single partition map update (will ignore) [lastExchId=" + lastExchangeId + ", exchId=" + exchId + ']'); return null; } if (exchId != null) lastExchangeId = exchId; if (node2part == null) // Create invalid partition map. node2part = new GridDhtPartitionFullMap(); GridDhtPartitionMap cur = node2part.get(parts.nodeId()); if (cur != null && cur.updateSequence() >= parts.updateSequence()) { if (log.isDebugEnabled()) log.debug( "Stale update sequence for single partition map update (will ignore) [exchId=" + exchId + ", curSeq=" + cur.updateSequence() + ", newSeq=" + parts.updateSequence() + ']'); return null; } long updateSeq = this.updateSeq.incrementAndGet(); node2part = new GridDhtPartitionFullMap(node2part, updateSeq); boolean changed = false; if (cur == null || !cur.equals(parts)) changed = true; node2part.put(parts.nodeId(), parts); part2node = new HashMap<>(part2node); // Add new mappings. for (Integer p : parts.keySet()) { Set<UUID> ids = part2node.get(p); if (ids == null) // Initialize HashSet to size 3 in anticipation that there won't be // more than 3 nodes per partition. part2node.put(p, ids = U.newHashSet(3)); changed |= ids.add(parts.nodeId()); } // Remove obsolete mappings. if (cur != null) { for (Integer p : F.view(cur.keySet(), F0.notIn(parts.keySet()))) { Set<UUID> ids = part2node.get(p); if (ids != null) changed |= ids.remove(parts.nodeId()); } } changed |= checkEvictions(updateSeq); consistencyCheck(); if (log.isDebugEnabled()) log.debug("Partition map after single update: " + fullMapString()); return changed ? localPartitionMap() : null; } finally { lock.writeLock().unlock(); } }