protected Indexes( ExecutionContext context, Collection<IndexDefinition> defns, NodeTypes nodeTypes) { // Identify the subtypes for each node type, and do this before we build any views ... if (!defns.isEmpty()) { Map<Name, Collection<String>> subtypesByName = new HashMap<>(); for (JcrNodeType nodeType : nodeTypes.getAllNodeTypes()) { // For each of the supertypes ... for (JcrNodeType supertype : nodeType.getTypeAndSupertypes()) { Collection<String> types = subtypesByName.get(supertype.getInternalName()); if (types == null) { types = new LinkedList<>(); subtypesByName.put(supertype.getInternalName(), types); } types.add(nodeType.getName()); } } // Now process all of the indexes ... NameFactory names = context.getValueFactories().getNameFactory(); Set<Name> nodeTypeNames = new HashSet<>(); for (IndexDefinition defn : defns) { // Determine all of the node types that are subtypes of any columns nodeTypeNames.clear(); Name nodeTypeName = names.create(defn.getNodeTypeName()); if (!subtypesByName.containsKey(nodeTypeName)) { Logger.getLogger(getClass()) .warn( JcrI18n.errorIndexing, "not creating index " + defn.getName() + " because of unknown nodeType " + nodeTypeName.getString()); continue; } indexByName.put(defn.getName(), defn); // Now find out all of the node types that are or subtype the named node types ... for (String typeAndSubtype : subtypesByName.get(nodeTypeName)) { Map<String, Collection<IndexDefinition>> byProvider = indexesByProviderByNodeTypeName.get(typeAndSubtype); if (byProvider == null) { byProvider = new HashMap<>(); indexesByProviderByNodeTypeName.put(typeAndSubtype, byProvider); } Collection<IndexDefinition> indexes = byProvider.get(defn.getProviderName()); if (indexes == null) { indexes = new LinkedList<>(); byProvider.put(typeAndSubtype, indexes); } indexes.add(defn); } } } }
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; }
protected void change(IndexDefinition indexDefn) { this.changedDefinitions.put(indexDefn.getName(), indexDefn); }
@Override public void registerIndexes(IndexDefinition[] indexDefinitions, boolean allowUpdate) throws InvalidIndexDefinitionException, IndexExistsException { CheckArg.isNotNull(indexDefinitions, "indexDefinitions"); // Before we do anything, validate each of the index definitions and throw an exception ... RepositoryNodeTypeManager nodeTypeManager = repository.nodeTypeManager(); List<IndexDefinition> validated = new ArrayList<>(indexDefinitions.length); Problems problems = new SimpleProblems(); for (IndexDefinition defn : indexDefinitions) { String name = defn.getName(); String providerName = defn.getProviderName(); if (name == null) { problems.addError(JcrI18n.indexMustHaveName, defn, repository.name()); continue; } if (indexes.getIndexDefinitions().containsKey(name) && !allowUpdate) { // Throw this one immediately ... String msg = JcrI18n.indexAlreadyExists.text(defn.getName(), repository.name()); throw new IndexExistsException(msg); } if (providerName == null) { problems.addError(JcrI18n.indexMustHaveProviderName, defn.getName(), repository.name()); continue; } if (defn.hasSingleColumn()) { IndexColumnDefinition columnDefn = defn.getColumnDefinition(0); Name propName = context.getValueFactories().getNameFactory().create(columnDefn.getPropertyName()); switch (defn.getKind()) { case UNIQUE_VALUE: if (NON_UNIQUE_PROPERTY_NAMES.contains(propName)) { problems.addError( JcrI18n.unableToCreateUniqueIndexForColumn, defn.getName(), columnDefn.getPropertyName()); } break; case ENUMERATED_VALUE: if (NON_ENUMERATED_PROPERTY_NAMES.contains(propName)) { problems.addError( JcrI18n.unableToCreateEnumeratedIndexForColumn, defn.getName(), columnDefn.getPropertyName()); } break; case VALUE: case NODE_TYPE: case TEXT: break; } } else { // Mulitple columns ... if (defn.getKind() == IndexKind.NODE_TYPE) { // must be single-column indexes problems.addError(JcrI18n.nodeTypeIndexMustHaveOneColumn, defn.getName()); } } IndexProvider provider = providers.get(providerName); if (provider == null) { problems.addError(JcrI18n.indexProviderDoesNotExist, defn.getName(), repository.name()); } else { // Perform some default validations that should be applied to all providers... provider.validateDefaultColumnTypes(context, defn, problems); // Then have the provider perform any custom validations provider.validateProposedIndex(context, defn, nodeTypeManager, problems); // Create an instance of our own definition implementation ... defn = RepositoryIndexDefinition.createFrom(defn, true); validated.add(defn); } } if (problems.hasErrors()) { String msg = JcrI18n.invalidIndexDefinitions.text(repository.name(), problems); throw new InvalidIndexDefinitionException(new JcrProblems(problems), msg); } SessionCache systemCache = repository.createSystemSession(context, false); SystemContent system = new SystemContent(systemCache); for (IndexDefinition defn : validated) { String providerName = defn.getProviderName(); // Determine if the index should be enabled ... defn = RepositoryIndexDefinition.createFrom(defn, providers.containsKey(providerName)); // Write the definition to the system area ... system.store(defn, allowUpdate); } // Save the changes ... systemCache.save(); // Refresh the immutable snapshot ... this.indexes = readIndexDefinitions(); }