public Runnable prepareMergeRunnable() { Map<MapContainer, Collection<Record>> recordMap = new HashMap<MapContainer, Collection<Record>>(mapContainers.size()); InternalPartitionService partitionService = nodeEngine.getPartitionService(); int partitionCount = partitionService.getPartitionCount(); Address thisAddress = nodeEngine.getClusterService().getThisAddress(); for (MapContainer mapContainer : mapContainers.values()) { for (int i = 0; i < partitionCount; i++) { RecordStore recordStore = getPartitionContainer(i).getRecordStore(mapContainer.getName()); // add your owned entries to the map so they will be merged if (thisAddress.equals(partitionService.getPartitionOwner(i))) { Collection<Record> records = recordMap.get(mapContainer); if (records == null) { records = new ArrayList<Record>(); recordMap.put(mapContainer, records); } records.addAll(recordStore.getReadonlyRecordMap().values()); } // clear all records either owned or backup recordStore.reset(); } } return new Merger(recordMap); }
public void init(final NodeEngine nodeEngine, Properties properties) { int partitionCount = nodeEngine.getPartitionService().getPartitionCount(); for (int i = 0; i < partitionCount; i++) { partitionContainers[i] = new PartitionContainer(this, i); } final LockService lockService = nodeEngine.getSharedService(LockService.SERVICE_NAME); if (lockService != null) { lockService.registerLockStoreConstructor( SERVICE_NAME, new ConstructorFunction<ObjectNamespace, LockStoreInfo>() { public LockStoreInfo createNew(final ObjectNamespace key) { final MapContainer mapContainer = getMapContainer(key.getObjectName()); return new LockStoreInfo() { public int getBackupCount() { return mapContainer.getBackupCount(); } public int getAsyncBackupCount() { return mapContainer.getAsyncBackupCount(); } }; } }); } mapEvictionManager.init(); }
@Override public void onReplicationEvent(WanReplicationEvent replicationEvent) { Object eventObject = replicationEvent.getEventObject(); if (eventObject instanceof MapReplicationUpdate) { MapReplicationUpdate replicationUpdate = (MapReplicationUpdate) eventObject; EntryView entryView = replicationUpdate.getEntryView(); MapMergePolicy mergePolicy = replicationUpdate.getMergePolicy(); String mapName = replicationUpdate.getMapName(); MapContainer mapContainer = getMapContainer(mapName); MergeOperation operation = new MergeOperation( mapName, toData(entryView.getKey(), mapContainer.getPartitioningStrategy()), entryView, mergePolicy); try { int partitionId = nodeEngine.getPartitionService().getPartitionId(entryView.getKey()); Future f = nodeEngine .getOperationService() .invokeOnPartition(SERVICE_NAME, operation, partitionId); f.get(); } catch (Throwable t) { throw ExceptionUtil.rethrow(t); } } else if (eventObject instanceof MapReplicationRemove) { MapReplicationRemove replicationRemove = (MapReplicationRemove) eventObject; WanOriginatedDeleteOperation operation = new WanOriginatedDeleteOperation( replicationRemove.getMapName(), replicationRemove.getKey()); try { int partitionId = nodeEngine.getPartitionService().getPartitionId(replicationRemove.getKey()); Future f = nodeEngine .getOperationService() .invokeOnPartition(SERVICE_NAME, operation, partitionId); f.get(); } catch (Throwable t) { throw ExceptionUtil.rethrow(t); } } }
public MapService(NodeEngine nodeEngine) { this.nodeEngine = nodeEngine; this.mapEvictionManager = new MapEvictionManager(this); this.replicaWaitSecondsForScheduledTasks = getNodeEngine() .getGroupProperties() .MAP_REPLICA_WAIT_SECONDS_FOR_SCHEDULED_TASKS .getInteger() * 1000; logger = nodeEngine.getLogger(MapService.class.getName()); partitionContainers = new PartitionContainer[nodeEngine.getPartitionService().getPartitionCount()]; ownedPartitions = new AtomicReference<List<Integer>>(); mergePolicyMap = new ConcurrentHashMap<String, MapMergePolicy>(); mergePolicyMap.put(PutIfAbsentMapMergePolicy.class.getName(), new PutIfAbsentMapMergePolicy()); mergePolicyMap.put(HigherHitsMapMergePolicy.class.getName(), new HigherHitsMapMergePolicy()); mergePolicyMap.put(PassThroughMergePolicy.class.getName(), new PassThroughMergePolicy()); mergePolicyMap.put( LatestUpdateMapMergePolicy.class.getName(), new LatestUpdateMapMergePolicy()); }
private List<Integer> getMemberPartitions() { InternalPartitionService partitionService = nodeEngine.getPartitionService(); List<Integer> partitions = partitionService.getMemberPartitions(nodeEngine.getThisAddress()); return Collections.unmodifiableList(partitions); }
public LocalMapStatsImpl createLocalMapStats(String mapName) { MapContainer mapContainer = getMapContainer(mapName); LocalMapStatsImpl localMapStats = getLocalMapStatsImpl(mapName); if (!mapContainer.getMapConfig().isStatisticsEnabled()) { return localMapStats; } long ownedEntryCount = 0; long backupEntryCount = 0; long dirtyCount = 0; long ownedEntryMemoryCost = 0; long backupEntryMemoryCost = 0; long hits = 0; long lockedEntryCount = 0; long heapCost = 0; int backupCount = mapContainer.getTotalBackupCount(); ClusterService clusterService = nodeEngine.getClusterService(); final InternalPartitionService partitionService = nodeEngine.getPartitionService(); Address thisAddress = clusterService.getThisAddress(); for (int partitionId = 0; partitionId < partitionService.getPartitionCount(); partitionId++) { InternalPartition partition = partitionService.getPartition(partitionId); Address owner = partition.getOwner(); if (owner == null) { // no-op because no owner is set yet. Therefor we don't know anything about the map continue; } if (owner.equals(thisAddress)) { PartitionContainer partitionContainer = getPartitionContainer(partitionId); RecordStore recordStore = partitionContainer.getExistingRecordStore(mapName); // we don't want to force loading the record store because we are loading statistics. So // that is why // we ask for 'getExistingRecordStore' instead of 'getRecordStore' which does the load. if (recordStore != null) { heapCost += recordStore.getHeapCost(); Map<Data, Record> records = recordStore.getReadonlyRecordMap(); for (Record record : records.values()) { RecordStatistics stats = record.getStatistics(); // there is map store and the record is dirty (waits to be stored) ownedEntryCount++; ownedEntryMemoryCost += record.getCost(); localMapStats.setLastAccessTime(stats.getLastAccessTime()); localMapStats.setLastUpdateTime(stats.getLastUpdateTime()); hits += stats.getHits(); if (recordStore.isLocked(record.getKey())) { lockedEntryCount++; } } } } else { for (int replica = 1; replica <= backupCount; replica++) { Address replicaAddress = partition.getReplicaAddress(replica); int tryCount = 30; // wait if the partition table is not updated yet while (replicaAddress == null && clusterService.getSize() > backupCount && tryCount-- > 0) { try { Thread.sleep(100); } catch (InterruptedException e) { throw ExceptionUtil.rethrow(e); } replicaAddress = partition.getReplicaAddress(replica); } if (replicaAddress != null && replicaAddress.equals(thisAddress)) { PartitionContainer partitionContainer = getPartitionContainer(partitionId); RecordStore recordStore = partitionContainer.getRecordStore(mapName); heapCost += recordStore.getHeapCost(); Map<Data, Record> records = recordStore.getReadonlyRecordMap(); for (Record record : records.values()) { backupEntryCount++; backupEntryMemoryCost += record.getCost(); } } else if (replicaAddress == null && clusterService.getSize() > backupCount) { logger.warning("Partition: " + partition + ", replica: " + replica + " has no owner!"); } } } } if (mapContainer.getMapStoreScheduler() != null) { dirtyCount = mapContainer.getMapStoreScheduler().size(); } localMapStats.setBackupCount(backupCount); localMapStats.setDirtyEntryCount(zeroOrPositive(dirtyCount)); localMapStats.setLockedEntryCount(zeroOrPositive(lockedEntryCount)); localMapStats.setHits(zeroOrPositive(hits)); localMapStats.setOwnedEntryCount(zeroOrPositive(ownedEntryCount)); localMapStats.setBackupEntryCount(zeroOrPositive(backupEntryCount)); localMapStats.setOwnedEntryMemoryCost(zeroOrPositive(ownedEntryMemoryCost)); localMapStats.setBackupEntryMemoryCost(zeroOrPositive(backupEntryMemoryCost)); // add near cache heap cost. heapCost += mapContainer.getNearCacheSizeEstimator().getSize(); localMapStats.setHeapCost(heapCost); if (mapContainer.getMapConfig().isNearCacheEnabled()) { NearCacheStatsImpl nearCacheStats = getNearCache(mapName).getNearCacheStats(); localMapStats.setNearCacheStats(nearCacheStats); } return localMapStats; }