@Override
  public void notify(ChangeSet changeSet) {
    if (changeSet == null) {
      return; // do nothing
    }
    if (!isOpen.get()) {
      // The channel is not open ...
      return;
    }
    if (!multipleAddressesInCluster.get()) {
      // We are in clustered mode, but there is only one participant in the cluster (us).
      // So short-circuit the cluster and just notify the local observers ...
      if (hasObservers()) {
        delegate.notify(changeSet);
        logReceivedOperation(changeSet);
      }
      return;
    }

    // There are multiple participants in the cluster, so send all changes out to JGroups,
    // letting JGroups do the ordering of messages...
    try {
      logSendOperation(changeSet);
      byte[] data = serialize(changeSet);
      Message message = new Message(null, null, data);
      channel.send(message);
    } catch (IllegalStateException e) {
      LOGGER.warn(
          BusI18n.unableToNotifyChanges,
          clusteringConfiguration.getClusterName(),
          changeSet.size(),
          changeSet.getWorkspaceName(),
          changeSet.getUserId(),
          changeSet.getProcessKey(),
          changeSet.getTimestamp());
    } catch (Exception e) {
      // Something went wrong here (this should not happen) ...
      String msg =
          BusI18n.errorSerializingChanges.text(
              clusteringConfiguration.getClusterName(),
              changeSet.size(),
              changeSet.getWorkspaceName(),
              changeSet.getUserId(),
              changeSet.getProcessKey(),
              changeSet.getTimestamp(),
              changeSet);
      throw new SystemFailureException(msg, e);
    }
  }
Beispiel #2
0
 @Override
 public void notify(ChangeSet changeSet) {
   // do not store records from jcr:system
   boolean systemWorkspaceChanges =
       RepositoryConfiguration.SYSTEM_WORKSPACE_NAME.equalsIgnoreCase(
           changeSet.getWorkspaceName());
   if (changeSet.isEmpty() || systemWorkspaceChanges) {
     return;
   }
   addRecords(new JournalRecord(changeSet));
 }
 protected final void logReceivedOperation(ChangeSet changeSet) {
   if (LOGGER.isTraceEnabled()) {
     LOGGER.trace(
         "Received on cluster '{0}' {1} changes on workspace {2} made by {3} from process '{4}' at {5}",
         clusteringConfiguration.getClusterName(),
         changeSet.size(),
         changeSet.getWorkspaceName(),
         changeSet.getUserId(),
         changeSet.getProcessKey(),
         changeSet.getTimestamp());
   }
 }
  protected ScanningTasks notify(ChangeSet changeSet) {
    if (changeSet.getWorkspaceName() == null) {
      // This is a change to the workspaces or repository metadata ...

      // Refresh the index definitions ...
      RepositoryIndexes indexes = readIndexDefinitions();
      ScanningTasks feedback = new ScanningTasks();
      if (!indexes.getIndexDefinitions().isEmpty()) {
        // Build up the names of the added and removed workspace names ...
        Set<String> addedWorkspaces = new HashSet<>();
        Set<String> removedWorkspaces = new HashSet<>();
        for (Change change : changeSet) {
          if (change instanceof WorkspaceAdded) {
            WorkspaceAdded added = (WorkspaceAdded) change;
            addedWorkspaces.add(added.getWorkspaceName());
          } else if (change instanceof WorkspaceRemoved) {
            WorkspaceRemoved removed = (WorkspaceRemoved) change;
            removedWorkspaces.add(removed.getWorkspaceName());
          }
        }
        if (!addedWorkspaces.isEmpty() || !removedWorkspaces.isEmpty()) {
          // Figure out which providers need to be called, and which definitions go with those
          // providers ...
          Map<String, List<IndexDefinition>> defnsByProvider = new HashMap<>();
          for (IndexDefinition defn : indexes.getIndexDefinitions().values()) {
            String providerName = defn.getProviderName();
            List<IndexDefinition> defns = defnsByProvider.get(providerName);
            if (defns == null) {
              defns = new ArrayList<>();
              defnsByProvider.put(providerName, defns);
            }
            defns.add(defn);
          }
          // Then for each provider ...
          for (Map.Entry<String, List<IndexDefinition>> entry : defnsByProvider.entrySet()) {
            String providerName = entry.getKey();
            WorkspaceIndexChanges changes =
                new WorkspaceIndexChanges(entry.getValue(), addedWorkspaces, removedWorkspaces);
            IndexProvider provider = providers.get(providerName);
            if (provider == null) continue;
            provider.notify(
                changes,
                repository.changeBus(),
                repository.nodeTypeManager(),
                repository.repositoryCache().getWorkspaceNames(),
                feedback.forProvider(providerName));
          }
        }
      }
      return feedback;
    }
    if (!systemWorkspaceName.equals(changeSet.getWorkspaceName())) {
      // The change does not affect the 'system' workspace, so skip it ...
      return null;
    }

    // It is simple to listen to all local and remote changes. Therefore, any changes made locally
    // to the index definitions
    // will be propagated through the cached representation via this listener.
    AtomicReference<Map<Name, IndexChangeInfo>> changesByProviderName = new AtomicReference<>();
    for (Change change : changeSet) {
      if (change instanceof NodeAdded) {
        NodeAdded added = (NodeAdded) change;
        Path addedPath = added.getPath();
        if (indexesPath.isAncestorOf(addedPath)) {
          // Get the name of the affected provider ...
          Name providerName = addedPath.getSegment(2).getName();
          if (addedPath.size() > 3) {
            // Adding an index (or column definition), but all we care about is the name of the
            // index
            Name indexName = addedPath.getSegment(3).getName();
            changeInfoForProvider(changesByProviderName, providerName).changed(indexName);
          }
        }
      } else if (change instanceof NodeRemoved) {
        NodeRemoved removed = (NodeRemoved) change;
        Path removedPath = removed.getPath();
        if (indexesPath.isAncestorOf(removedPath)) {
          // Get the name of the affected provider ...
          Name providerName = removedPath.getSegment(2).getName();
          if (removedPath.size() > 4) {
            // It's a column definition being removed, so the index is changed ...
            Name indexName = removedPath.getSegment(3).getName();
            changeInfoForProvider(changesByProviderName, providerName).removed(indexName);
          } else if (removedPath.size() > 3) {
            // Removing an index (or column definition), but all we care about is the name of the
            // index
            Name indexName = removedPath.getSegment(3).getName();
            changeInfoForProvider(changesByProviderName, providerName).removed(indexName);
          } else if (removedPath.size() == 3) {
            // The whole provider was removed ...
            changeInfoForProvider(changesByProviderName, providerName).removedAll();
          }
        }
      } else if (change instanceof PropertyChanged) {
        PropertyChanged propChanged = (PropertyChanged) change;
        Path changedPath = propChanged.getPathToNode();
        if (indexesPath.isAncestorOf(changedPath)) {
          if (changedPath.size() > 3) {
            // Adding an index (or column definition), but all we care about is the name of the
            // index
            Name providerName = changedPath.getSegment(2).getName();
            Name indexName = changedPath.getSegment(3).getName();
            changeInfoForProvider(changesByProviderName, providerName).changed(indexName);
          }
        }
      } // we don't care about node moves (don't happen) or property added/removed (handled by node
      // add/remove)
    }

    if (changesByProviderName.get() == null || changesByProviderName.get().isEmpty()) {
      // No changes to the indexes ...
      return null;
    }
    // Refresh the index definitions ...
    RepositoryIndexes indexes = readIndexDefinitions();

    // And notify the affected providers ...
    StringFactory strings = context.getValueFactories().getStringFactory();
    ScanningTasks feedback = new ScanningTasks();
    for (Map.Entry<Name, IndexChangeInfo> entry : changesByProviderName.get().entrySet()) {
      String providerName = strings.create(entry.getKey());
      IndexProvider provider = providers.get(providerName);
      if (provider == null) continue;

      IndexChanges changes = new IndexChanges();
      IndexChangeInfo info = entry.getValue();
      if (info.removedAll) {
        // Get all of the definitions for this provider ...
        for (IndexDefinition defn : indexes.getIndexDefinitions().values()) {
          if (defn.getProviderName().equals(providerName)) changes.remove(defn.getName());
        }
      }
      // Others might have been added or changed after the existing ones were removed ...
      for (Name name : info.removedIndexes) {
        changes.remove(strings.create(name));
      }
      for (Name name : info.changedIndexes) {
        IndexDefinition defn = indexes.getIndexDefinitions().get(strings.create(name));
        if (defn != null) changes.change(defn);
      }
      // Notify the provider ...
      try {
        provider.notify(
            changes,
            repository.changeBus(),
            repository.nodeTypeManager(),
            repository.repositoryCache().getWorkspaceNames(),
            feedback.forProvider(providerName));
      } catch (RuntimeException e) {
        logger.error(
            e,
            JcrI18n.errorNotifyingProviderOfIndexChanges,
            providerName,
            repository.name(),
            e.getMessage());
      }
    }

    // Finally swap the snapshot of indexes ...
    this.indexes = indexes;
    return feedback;
  }
  @Override
  public void notify(ChangeSet changeSet) {
    if (!systemWorkspaceName.equals(changeSet.getWorkspaceName())) {
      // The change does not affect the 'system' workspace, so skip it ...
      return;
    }
    if (context.getProcessId().equals(changeSet.getProcessKey())) {
      // We generated these changes, so skip them ...
      return;
    }

    // Now process the changes ...
    Set<Name> nodeTypesToRefresh = new HashSet<Name>();
    Set<Name> nodeTypesToDelete = new HashSet<Name>();
    for (Change change : changeSet) {
      if (change instanceof NodeAdded) {
        NodeAdded added = (NodeAdded) change;
        Path addedPath = added.getPath();
        if (nodeTypesPath.isAncestorOf(addedPath)) {
          // Get the name of the node type ...
          Name nodeTypeName = addedPath.getSegment(2).getName();
          nodeTypesToRefresh.add(nodeTypeName);
        }
      } else if (change instanceof NodeRemoved) {
        NodeRemoved removed = (NodeRemoved) change;
        Path removedPath = removed.getPath();
        if (nodeTypesPath.isAncestorOf(removedPath)) {
          // Get the name of the node type ...
          Name nodeTypeName = removedPath.getSegment(2).getName();
          if (removedPath.size() == 3) {
            nodeTypesToDelete.add(nodeTypeName);
          } else {
            // It's a child defn or property defn ...
            if (!nodeTypesToDelete.contains(nodeTypeName)) {
              // The child defn or property defn is being removed but the node type is not ...
              nodeTypesToRefresh.add(nodeTypeName);
            }
          }
        }
      } else if (change instanceof PropertyChanged) {
        PropertyChanged propChanged = (PropertyChanged) change;
        Path changedPath = propChanged.getPathToNode();
        if (nodeTypesPath.isAncestorOf(changedPath)) {
          // Get the name of the node type ...
          Name nodeTypeName = changedPath.getSegment(2).getName();
          nodeTypesToRefresh.add(nodeTypeName);
        }
      } // we don't care about node moves (don't happen) or property added/removed (handled by node
        // add/remove)
    }

    if (nodeTypesToRefresh.isEmpty() && nodeTypesToDelete.isEmpty()) {
      // No changes
      return;
    }

    // There were at least some changes ...
    this.nodeTypesLock.writeLock().lock();
    try {
      // Re-register the node types that were changed or added ...
      SessionCache systemCache = repository.createSystemSession(context, false);
      SystemContent system = new SystemContent(systemCache);
      Collection<NodeTypeDefinition> nodeTypes = system.readNodeTypes(nodeTypesToRefresh);
      registerNodeTypes(nodeTypes, false, false, false);

      // Unregister those that were removed ...
      unregisterNodeType(nodeTypesToDelete, false);
    } catch (Throwable e) {
      logger.error(e, JcrI18n.errorRefreshingNodeTypes, repository.name());
    } finally {
      this.nodeTypesLock.writeLock().unlock();
    }
  }