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/*
 * Licensed to the Apache Software Foundation (ASF) under one or more
 * contributor license agreements.  See the NOTICE file distributed with
 * this work for additional information regarding copyright ownership.
 * The ASF licenses this file to You under the Apache License, Version 2.0
 * (the "License"); you may not use this file except in compliance with
 * the License.  You may obtain a copy of the License at
 *
 *      http://www.apache.org/licenses/LICENSE-2.0
 *
 * Unless required by applicable law or agreed to in writing, software
 * distributed under the License is distributed on an "AS IS" BASIS,
 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 * See the License for the specific language governing permissions and
 * limitations under the License.
 */
package org.apache.jackrabbit.commons;

import static java.net.URLDecoder.decode;

import java.io.FilterInputStream;
import java.io.IOException;
import java.io.InputStream;
import java.io.OutputStream;
import java.io.UnsupportedEncodingException;
import java.math.BigDecimal;
import java.net.URI;
import java.net.URISyntaxException;
import java.util.ArrayList;
import java.util.Calendar;
import java.util.HashMap;
import java.util.Iterator;
import java.util.List;
import java.util.Map;
import java.util.ServiceLoader;
import java.util.StringTokenizer;

import javax.jcr.Binary;
import javax.jcr.Item;
import javax.jcr.Node;
import javax.jcr.NodeIterator;
import javax.jcr.PathNotFoundException;
import javax.jcr.Property;
import javax.jcr.PropertyIterator;
import javax.jcr.PropertyType;
import javax.jcr.Repository;
import javax.jcr.RepositoryException;
import javax.jcr.RepositoryFactory;
import javax.jcr.Session;
import javax.jcr.Value;
import javax.jcr.nodetype.NodeType;
import javax.jcr.nodetype.NodeTypeIterator;
import javax.jcr.observation.Event;
import javax.jcr.observation.EventIterator;
import javax.jcr.observation.EventListener;
import javax.jcr.observation.EventListenerIterator;
import javax.jcr.query.QueryResult;
import javax.jcr.query.Row;
import javax.jcr.query.RowIterator;
import javax.jcr.security.AccessControlPolicyIterator;
import javax.jcr.version.Version;
import javax.jcr.version.VersionIterator;

/**
 * Collection of static utility methods for use with the JCR API.
 *
 * @since Apache Jackrabbit 2.0
 */
public class JcrUtils {

    /**
     * The repository URI parameter name used by the
     * {@link #getRepository(String)} method. All {@link RepositoryFactory}
     * implementations that want to support this repository access convention
     * should implement processing of this parameter.
     * 

* Client applications are recommended to use the * {@link #getRepository(String)} method instead of directly referencing * this constant unless they explicitly want to pass also other * {@link RepositoryFactory} parameters through the * {@link #getRepository(Map)} method. */ public static final String REPOSITORY_URI = "org.apache.jackrabbit.repository.uri"; /** * A pre-allocated empty array of values. * * @since Apache Jackrabbit 2.3 */ public static final Value[] NO_VALUES = new Value[0]; /** * Private constructor to prevent instantiation of this class. */ private JcrUtils() { } /** * Returns the default repository of the current environment. * Implemented by calling {@link #getRepository(Map)} with a * null parameter map. * * @see RepositoryFactory#getRepository(Map) * @return default repository * @throws RepositoryException if a default repository is not available * or can not be accessed */ public static Repository getRepository() throws RepositoryException { return getRepository((Map) null); } /** * Looks up the available {@link RepositoryFactory repository factories} * and returns the {@link Repository repository} that one of the factories * returns for the given settings. *

* Note that unlike {@link RepositoryFactory#getRepository(Map)} this * method will throw an exception instead of returning null * if the given parameters can not be interpreted. * * @param parameters repository settings * @return repository reference * @throws RepositoryException if the repository can not be accessed, * or if an appropriate repository factory * is not available */ public static Repository getRepository(Map parameters) throws RepositoryException { String newline = System.getProperty("line.separator"); // Prepare the potential error message (JCR-2459) StringBuilder log = new StringBuilder("Unable to access a repository"); if (parameters != null) { log.append(" with the following settings:"); for (Map.Entry entry : parameters.entrySet()) { log.append(newline); log.append(" "); log.append(entry.getKey()); log.append(": "); log.append(entry.getValue()); } } else { log.append(" with the default settings."); } // Use the query part of a repository URI as additional parameters if (parameters != null && parameters.containsKey(JcrUtils.REPOSITORY_URI)) { String uri = parameters.get(JcrUtils.REPOSITORY_URI); try { URI u = new URI(uri); String query = u.getRawQuery(); if (query != null) { Map copy = new HashMap(parameters); for (String entry : query.split("&")) { int i = entry.indexOf('='); if (i != -1) { copy.put( decode(entry.substring(0, i), "UTF-8"), decode(entry.substring(i + 1), "UTF-8")); } else { copy.put( decode(entry, "UTF-8"), Boolean.TRUE.toString()); } } copy.put( JcrUtils.REPOSITORY_URI, new URI(u.getScheme(), u.getRawAuthority(), u.getRawPath(), null, u.getRawFragment() ).toASCIIString()); parameters = copy; } } catch (URISyntaxException e) { log.append(newline); log.append("Note that the given repository URI was invalid:"); log.append(newline); log.append(" ").append(uri); log.append(newline); log.append(" ").append(e.getMessage()); } catch (UnsupportedEncodingException e) { throw new RepositoryException("UTF-8 is not supported!", e); } } // Iterate through the available RepositoryFactories, with logging log.append(newline); log.append("The following RepositoryFactory classes were consulted:"); Iterator iterator = ServiceLoader.load(RepositoryFactory.class).iterator(); while (iterator.hasNext()) { RepositoryFactory factory = iterator.next(); log.append(newline); log.append(" "); log.append(factory.getClass().getName()); try { Repository repository = factory.getRepository(parameters); if (repository != null) { // We found the requested repository! Return it // and just ignore the error message being built. return repository; } else { log.append(": declined"); } } catch (Exception e) { log.append(": failed"); for (Throwable c = e; c != null; c = c.getCause()) { log.append(newline); log.append(" because of "); log.append(c.getClass().getSimpleName()); log.append(": "); log.append(c.getMessage()); } } } log.append(newline); log.append( "Perhaps the repository you are trying" + " to access is not available at the moment."); // No matching repository found. Throw an exception with the // detailed information we gathered during the above process. throw new RepositoryException(log.toString()); } /** * Returns the repository identified by the given URI. This feature * is implemented by calling the {@link #getRepository(Map)} method * with the {@link #REPOSITORY_URI} parameter set to the given URI. * Any query parameters are moved from the URI to the parameter map. *

* See the documentation of the repository implementation you want * to use for whether it supports this repository URI convention and * for what the repository URI should look like. For example, * Jackrabbit 2.0 supports the following types of repository URIs: *

*
http(s)://...
*
* A remote repository connection using SPI2DAVex with the given URL. * See the jackrabbit-jcr2dav component for more details. *
*
file://...
*
* An embedded Jackrabbit repository located in the given directory. * See the jackrabbit-core component for more details. *
*
jndi:...
*
* JNDI lookup for the named repository. See the * {@link JndiRepositoryFactory} class for more details. *
*
* * @param uri repository URI * @return repository instance * @throws RepositoryException if the repository can not be accessed, * or if the given URI is unknown or invalid */ public static Repository getRepository(String uri) throws RepositoryException { Map parameters = new HashMap(); parameters.put(JcrUtils.REPOSITORY_URI, uri); return getRepository(parameters); } /** * Returns an {@link Iterable} over the shared set of the given node. *

* The first iterator is acquired directly during this method call to * allow a possible {@link RepositoryException} to be thrown as-is. * Further iterators are acquired lazily when needed, with possible * {@link RepositoryException}s wrapped into {@link RuntimeException}s. * * @see Node#getSharedSet() * @param node shared node * @return nodes in the shared set * @throws RepositoryException if the {@link Node#getSharedSet()} call fails */ public static Iterable getSharedSet(final Node node) throws RepositoryException { final NodeIterator iterator = node.getSharedSet(); return new Iterable() { private boolean first = true; @Override @SuppressWarnings("unchecked") public synchronized Iterator iterator() { if (first) { first = false; return iterator; } else { try { return node.getSharedSet(); } catch (RepositoryException e) { throw new RuntimeException(e); } } } }; } /** * Returns an {@link Iterable} over the children of the given node. *

* The first iterator is acquired directly during this method call to * allow a possible {@link RepositoryException} to be thrown as-is. * Further iterators are acquired lazily when needed, with possible * {@link RepositoryException}s wrapped into {@link RuntimeException}s. * * @see Node#getNodes() * @param node parent node * @return child nodes * @throws RepositoryException if the {@link Node#getNodes()} call fails */ public static Iterable getChildNodes(final Node node) throws RepositoryException { final NodeIterator iterator = node.getNodes(); return new Iterable() { private boolean first = true; @Override @SuppressWarnings("unchecked") public synchronized Iterator iterator() { if (first) { first = false; return iterator; } else { try { return node.getNodes(); } catch (RepositoryException e) { throw new RuntimeException(e); } } } }; } /** * Returns an {@link Iterable} over those children of the given node * that match the given name pattern. *

* The first iterator is acquired directly during this method call to * allow a possible {@link RepositoryException} to be thrown as-is. * Further iterators are acquired lazily when needed, with possible * {@link RepositoryException}s wrapped into {@link RuntimeException}s. * * @see Node#getNodes(String) * @param node parent node * @param pattern node name pattern * @return matching child nodes * @throws RepositoryException * if the {@link Node#getNodes(String)} call fails */ public static Iterable getChildNodes( final Node node, final String pattern) throws RepositoryException { final NodeIterator iterator = node.getNodes(pattern); return new Iterable() { private boolean first = true; @Override @SuppressWarnings("unchecked") public synchronized Iterator iterator() { if (first) { first = false; return iterator; } else { try { return node.getNodes(pattern); } catch (RepositoryException e) { throw new RuntimeException(e); } } } }; } /** * Returns an {@link Iterable} over those children of the given node * that match the given name patterns. *

* The first iterator is acquired directly during this method call to * allow a possible {@link RepositoryException} to be thrown as-is. * Further iterators are acquired lazily when needed, with possible * {@link RepositoryException}s wrapped into {@link RuntimeException}s. * * @see Node#getNodes(String[]) * @param node parent node * @param globs node name pattern * @return matching child nodes * @throws RepositoryException * if the {@link Node#getNodes(String[])} call fails */ public static Iterable getChildNodes( final Node node, final String[] globs) throws RepositoryException { final NodeIterator iterator = node.getNodes(globs); return new Iterable() { private boolean first = true; @Override @SuppressWarnings("unchecked") public synchronized Iterator iterator() { if (first) { first = false; return iterator; } else { try { return node.getNodes(globs); } catch (RepositoryException e) { throw new RuntimeException(e); } } } }; } /** * Returns an {@link Iterable} over the properties of the given node. *

* The first iterator is acquired directly during this method call to * allow a possible {@link RepositoryException} to be thrown as-is. * Further iterators are acquired lazily when needed, with possible * {@link RepositoryException}s wrapped into {@link RuntimeException}s. * * @see Node#getProperties() * @param node node * @return properties of the node * @throws RepositoryException * if the {@link Node#getProperties()} call fails */ public static Iterable getProperties(final Node node) throws RepositoryException { final PropertyIterator iterator = node.getProperties(); return new Iterable() { private boolean first = true; @Override @SuppressWarnings("unchecked") public synchronized Iterator iterator() { if (first) { first = false; return iterator; } else { try { return node.getProperties(); } catch (RepositoryException e) { throw new RuntimeException(e); } } } }; } /** * Returns an {@link Iterable} over those properties of the * given node that match the given name pattern. *

* The first iterator is acquired directly during this method call to * allow a possible {@link RepositoryException} to be thrown as-is. * Further iterators are acquired lazily when needed, with possible * {@link RepositoryException}s wrapped into {@link RuntimeException}s. * * @see Node#getProperties(String) * @param node node * @param pattern property name pattern * @return matching properties of the node * @throws RepositoryException * if the {@link Node#getProperties(String)} call fails */ public static Iterable getProperties( final Node node, final String pattern) throws RepositoryException { final PropertyIterator iterator = node.getProperties(pattern); return new Iterable() { private boolean first = true; @Override @SuppressWarnings("unchecked") public synchronized Iterator iterator() { if (first) { first = false; return iterator; } else { try { return node.getProperties(pattern); } catch (RepositoryException e) { throw new RuntimeException(e); } } } }; } /** * Returns an {@link Iterable} over those properties of the * given node that match the given name patterns. *

* The first iterator is acquired directly during this method call to * allow a possible {@link RepositoryException} to be thrown as-is. * Further iterators are acquired lazily when needed, with possible * {@link RepositoryException}s wrapped into {@link RuntimeException}s. * * @see Node#getProperties(String[]) * @param node node * @param globs property name globs * @return matching properties of the node * @throws RepositoryException * if the {@link Node#getProperties(String[])} call fails */ public static Iterable getProperties( final Node node, final String[] globs) throws RepositoryException { final PropertyIterator iterator = node.getProperties(globs); return new Iterable() { private boolean first = true; @Override @SuppressWarnings("unchecked") public synchronized Iterator iterator() { if (first) { first = false; return iterator; } else { try { return node.getProperties(globs); } catch (RepositoryException e) { throw new RuntimeException(e); } } } }; } /** * Returns an {@link Iterable} over references to the given node. *

* The first iterator is acquired directly during this method call to * allow a possible {@link RepositoryException} to be thrown as-is. * Further iterators are acquired lazily when needed, with possible * {@link RepositoryException}s wrapped into {@link RuntimeException}s. * * @see Node#getReferences() * @param node reference target * @return references that point to the given node * @throws RepositoryException * if the {@link Node#getReferences()} call fails */ public static Iterable getReferences(final Node node) throws RepositoryException { final PropertyIterator iterator = node.getReferences(); return new Iterable() { private boolean first = true; @Override @SuppressWarnings("unchecked") public synchronized Iterator iterator() { if (first) { first = false; return iterator; } else { try { return node.getReferences(); } catch (RepositoryException e) { throw new RuntimeException(e); } } } }; } /** * Returns an {@link Iterable} over those references to the * given node that have the given name. *

* The first iterator is acquired directly during this method call to * allow a possible {@link RepositoryException} to be thrown as-is. * Further iterators are acquired lazily when needed, with possible * {@link RepositoryException}s wrapped into {@link RuntimeException}s. * * @see Node#getReferences(String) * @param node reference target * @param name reference property name * @return references with the given name that point to the given node * @throws RepositoryException * if the {@link Node#getReferences(String)} call fails */ public static Iterable getReferences( final Node node, final String name) throws RepositoryException { final PropertyIterator iterator = node.getReferences(name); return new Iterable() { private boolean first = true; @Override @SuppressWarnings("unchecked") public synchronized Iterator iterator() { if (first) { first = false; return iterator; } else { try { return node.getReferences(name); } catch (RepositoryException e) { throw new RuntimeException(e); } } } }; } /** * Returns an {@link Iterable} over weak references to the given node. *

* The first iterator is acquired directly during this method call to * allow a possible {@link RepositoryException} to be thrown as-is. * Further iterators are acquired lazily when needed, with possible * {@link RepositoryException}s wrapped into {@link RuntimeException}s. * * @see Node#getWeakReferences() * @param node reference target * @return weak references that point to the given node * @throws RepositoryException * if the {@link Node#getWeakReferences()} call fails */ public static Iterable getWeakReferences(final Node node) throws RepositoryException { final PropertyIterator iterator = node.getWeakReferences(); return new Iterable() { private boolean first = true; @Override @SuppressWarnings("unchecked") public synchronized Iterator iterator() { if (first) { first = false; return iterator; } else { try { return node.getWeakReferences(); } catch (RepositoryException e) { throw new RuntimeException(e); } } } }; } /** * Returns an {@link Iterable} over those weak references to the * given node that have the given name. *

* The first iterator is acquired directly during this method call to * allow a possible {@link RepositoryException} to be thrown as-is. * Further iterators are acquired lazily when needed, with possible * {@link RepositoryException}s wrapped into {@link RuntimeException}s. * * @see Node#getWeakReferences(String) * @param node reference target * @param name reference property name * @return weak references with the given name that point to the given node * @throws RepositoryException * if the {@link Node#getWeakReferences(String)} call fails */ public static Iterable getWeakReferences( final Node node, final String name) throws RepositoryException { final PropertyIterator iterator = node.getWeakReferences(name); return new Iterable() { private boolean first = true; @Override @SuppressWarnings("unchecked") public synchronized Iterator iterator() { if (first) { first = false; return iterator; } else { try { return node.getWeakReferences(name); } catch (RepositoryException e) { throw new RuntimeException(e); } } } }; } /** * Returns an {@link Iterable} over nodes in the given query result. *

* The first iterator is acquired directly during this method call to * allow a possible {@link RepositoryException} to be thrown as-is. * Further iterators are acquired lazily when needed, with possible * {@link RepositoryException}s wrapped into {@link RuntimeException}s. * * @see QueryResult#getNodes() * @param result query result * @return nodes in the query result * @throws RepositoryException * if the {@link QueryResult#getNodes()} call fails */ public static Iterable getNodes(final QueryResult result) throws RepositoryException { final NodeIterator iterator = result.getNodes(); return new Iterable() { private boolean first = true; @Override @SuppressWarnings("unchecked") public synchronized Iterator iterator() { if (first) { first = false; return iterator; } else { try { return result.getNodes(); } catch (RepositoryException e) { throw new RuntimeException(e); } } } }; } /** * Returns an {@link Iterable} over nodes in the given query result. *

* The first iterator is acquired directly during this method call to * allow a possible {@link RepositoryException} to be thrown as-is. * Further iterators are acquired lazily when needed, with possible * {@link RepositoryException}s wrapped into {@link RuntimeException}s. * * @see QueryResult#getRows() * @param result query result * @return rows in the query result * @throws RepositoryException * if the {@link QueryResult#getRows()} call fails */ public static Iterable getRows(final QueryResult result) throws RepositoryException { final RowIterator iterator = result.getRows(); return new Iterable() { private boolean first = true; @Override @SuppressWarnings("unchecked") public synchronized Iterator iterator() { if (first) { first = false; return iterator; } else { try { return result.getRows(); } catch (RepositoryException e) { throw new RuntimeException(e); } } } }; } /** * Transform any type of {@link Iterator} into an {@link Iterable} * for single use in a Java 5 for-each loop. *

* While general purpose Iterables tend to be reusable, * this wrapper Iterable consumes the argument * Iterator, leaving it in a non-reusable state. The returned * Iterable will throw an IllegalStateException if * its iterator() method is invoked a second time. * * @param type * @param iterator * The input Iterator * @return The wrapping Iterable */ public static Iterable in(final Iterator iterator) { return new Iterable() { private boolean stale = false; @Override public synchronized Iterator iterator() { if (stale) { throw new IllegalStateException("Cannot reuse Iterable intended for single use"); } stale = true; return iterator; } }; } /** * Transform an {@link AccessControlPolicyIterator} into an {@link Iterable} * for single use in a Java 5 for-each loop. *

* While general purpose Iterables tend to be reusable, * this wrapper Iterable consumes the argument * Iterator, leaving it in a non-reusable state. The returned * Iterable will throw an IllegalStateException if * its iterator() method is invoked a second time. * * @param iterator * The input Iterator * @return The wrapping Iterable */ @SuppressWarnings("unchecked") public static Iterable in(AccessControlPolicyIterator iterator) { return in((Iterator) iterator); } /** * Transform an {@link EventIterator} into an {@link Iterable} * for single use in a Java 5 for-each loop. *

* While general purpose Iterables tend to be reusable, * this wrapper Iterable consumes the argument * Iterator, leaving it in a non-reusable state. The returned * Iterable will throw an IllegalStateException if * its iterator() method is invoked a second time. * * @param iterator * The input Iterator * @return The wrapping Iterable */ @SuppressWarnings("unchecked") public static Iterable in(EventIterator iterator) { return in((Iterator) iterator); } /** * Transform an {@link EventListenerIterator} into an {@link Iterable} * for single use in a Java 5 for-each loop. *

* While general purpose Iterables tend to be reusable, * this wrapper Iterable consumes the argument * Iterator, leaving it in a non-reusable state. The returned * Iterable will throw an IllegalStateException if * its iterator() method is invoked a second time. * * @param iterator * The input Iterator * @return The wrapping Iterable */ @SuppressWarnings("unchecked") public static Iterable in(EventListenerIterator iterator) { return in((Iterator) iterator); } /** * Transform an {@link NodeIterator} into an {@link Iterable} * for single use in a Java 5 for-each loop. *

* While general purpose Iterables tend to be reusable, * this wrapper Iterable consumes the argument * Iterator, leaving it in a non-reusable state. The returned * Iterable will throw an IllegalStateException if * its iterator() method is invoked a second time. * * @param iterator * The input Iterator * @return The wrapping Iterable */ @SuppressWarnings("unchecked") public static Iterable in(NodeIterator iterator) { return in((Iterator) iterator); } /** * Transform an {@link NodeTypeIterator} into an {@link Iterable} * for single use in a Java 5 for-each loop. *

* While general purpose Iterables tend to be reusable, * this wrapper Iterable consumes the argument * Iterator, leaving it in a non-reusable state. The returned * Iterable will throw an IllegalStateException if * its iterator() method is invoked a second time. * * @param iterator * The input Iterator * @return The wrapping Iterable */ @SuppressWarnings("unchecked") public static Iterable in(NodeTypeIterator iterator) { return in((Iterator) iterator); } /** * Transform an {@link PropertyIterator} into an {@link Iterable} * for single use in a Java 5 for-each loop. *

* While general purpose Iterables tend to be reusable, * this wrapper Iterable consumes the argument * Iterator, leaving it in a non-reusable state. The returned * Iterable will throw an IllegalStateException if * its iterator() method is invoked a second time. * * @param iterator * The input Iterator * @return The wrapping Iterable */ @SuppressWarnings("unchecked") public static Iterable in(PropertyIterator iterator) { return in((Iterator) iterator); } /** * Transform an {@link RowIterator} into an {@link Iterable} * for single use in a Java 5 for-each loop. *

* While general purpose Iterables tend to be reusable, * this wrapper Iterable consumes the argument * Iterator, leaving it in a non-reusable state. The returned * Iterable will throw an IllegalStateException if * its iterator() method is invoked a second time. * * @param iterator * The input Iterator * @return The wrapping Iterable */ @SuppressWarnings("unchecked") public static Iterable in(RowIterator iterator) { return in((Iterator) iterator); } /** * Transform an {@link VersionIterator} into an {@link Iterable} * for single use in a Java 5 for-each loop. *

* While general purpose Iterables tend to be reusable, * this wrapper Iterable consumes the argument * Iterator, leaving it in a non-reusable state. The returned * Iterable will throw an IllegalStateException if * its iterator() method is invoked a second time. * * @param iterator * The input Iterator * @return The wrapping Iterable */ @SuppressWarnings("unchecked") public static Iterable in(VersionIterator iterator) { return in((Iterator) iterator); } /** * Returns the named child of the given node, creating the child if * it does not already exist. If the child node gets added, then its * type will be determined by the child node definitions associated * with the parent node. The caller is expected to take care of saving * or discarding any transient changes. * * @see Node#getNode(String) * @see Node#addNode(String) * @param parent parent node * @param name name of the child node * @return the child node * @throws RepositoryException if the child node can not be * accessed or created */ public static Node getOrAddNode(Node parent, String name) throws RepositoryException { return getOrAddNode(parent, name, null); } /** * Returns the named child of the given node, creating the child if * it does not already exist. If the child node gets added, then it * is created with the given node type. The caller is expected to take * care of saving or discarding any transient changes. * * @see Node#getNode(String) * @see Node#addNode(String, String) * @see Node#isNodeType(String) * @param parent parent node * @param name name of the child node * @param type type of the child node or {@code null}, * ignored if the child already exists * @return the child node * @throws RepositoryException if the child node can not be accessed * or created */ public static Node getOrAddNode(Node parent, String name, String type) throws RepositoryException { if (parent.hasNode(name)) { return parent.getNode(name); } else if (type != null) { return parent.addNode(name, type); } else { return parent.addNode(name); } } /** * Returns the named child of the given node, creating it as an * nt:folder node if it does not already exist. The caller is expected * to take care of saving or discarding any transient changes. *

* Note that the type of the returned node is not guaranteed * to match nt:folder in case the node already existed. The caller can * use an explicit {@link Node#isNodeType(String)} check if needed, or * simply use a data-first approach and not worry about the node type * until a constraint violation is encountered. * * @param parent parent node * @param name name of the child node * @return the child node * @throws RepositoryException if the child node can not be accessed * or created */ public static Node getOrAddFolder(Node parent, String name) throws RepositoryException { return getOrAddNode(parent, name, NodeType.NT_FOLDER); } /** * Creates or updates the named child of the given node. If the child * does not already exist, then it is created using the nt:file node type. * This file child node is returned from this method. *

* If the file node does not already contain a jcr:content child, then * one is created using the nt:resource node type. The following * properties are set on the jcr:content node: *

*
jcr:mimeType
*
media type
*
jcr:encoding (optional)
*
charset parameter of the media type, if any
*
jcr:lastModified
*
current time
*
jcr:data
*
binary content
*
*

* Note that the types of the returned node or the jcr:content child are * not guaranteed to match nt:file and nt:resource in case the * nodes already existed. The caller can use an explicit * {@link Node#isNodeType(String)} check if needed, or simply use a * data-first approach and not worry about the node type until a constraint * violation is encountered. *

* The given binary content stream is closed by this method. * * @param parent parent node * @param name name of the file * @param mime media type of the file * @param data binary content of the file * @return the child node * @throws RepositoryException if the child node can not be created * or updated */ public static Node putFile( Node parent, String name, String mime, InputStream data) throws RepositoryException { return putFile(parent, name, mime, data, Calendar.getInstance()); } /** * Creates or updates the named child of the given node. If the child * does not already exist, then it is created using the nt:file node type. * This file child node is returned from this method. *

* If the file node does not already contain a jcr:content child, then * one is created using the nt:resource node type. The following * properties are set on the jcr:content node: *

*
jcr:mimeType
*
media type
*
jcr:encoding (optional)
*
charset parameter of the media type, if any
*
jcr:lastModified
*
date of last modification
*
jcr:data
*
binary content
*
*

* Note that the types of the returned node or the jcr:content child are * not guaranteed to match nt:file and nt:resource in case the * nodes already existed. The caller can use an explicit * {@link Node#isNodeType(String)} check if needed, or simply use a * data-first approach and not worry about the node type until a constraint * violation is encountered. *

* The given binary content stream is closed by this method. * * @param parent parent node * @param name name of the file * @param mime media type of the file * @param data binary content of the file * @param date date of last modification * @return the child node * @throws RepositoryException if the child node can not be created * or updated */ public static Node putFile( Node parent, String name, String mime, InputStream data, Calendar date) throws RepositoryException { Binary binary = parent.getSession().getValueFactory().createBinary(data); try { Node file = getOrAddNode(parent, name, NodeType.NT_FILE); Node content = getOrAddNode(file, Node.JCR_CONTENT, NodeType.NT_RESOURCE); content.setProperty(Property.JCR_MIMETYPE, mime); String[] parameters = mime.split(";"); for (int i = 1; i < parameters.length; i++) { int equals = parameters[i].indexOf('='); if (equals != -1) { String parameter = parameters[i].substring(0, equals); if ("charset".equalsIgnoreCase(parameter.trim())) { content.setProperty( Property.JCR_ENCODING, parameters[i].substring(equals + 1).trim()); } } } content.setProperty(Property.JCR_LAST_MODIFIED, date); content.setProperty(Property.JCR_DATA, binary); return file; } finally { binary.dispose(); } } /** * Returns a stream for reading the contents of the file stored at the * given node. This method works with both on nt:file and nt:resource and * on any other similar node types, as it only looks for the jcr:data * property or a jcr:content child node. *

* The returned stream contains a reference to the underlying * {@link Binary} value instance that will be disposed when the stream * is closed. It is the responsibility of the caller to close the stream * once it is no longer needed. * * @since Apache Jackrabbit 2.3 * @param node node to be read * @return stream for reading the file contents * @throws RepositoryException if the file can not be accessed */ public static InputStream readFile(Node node) throws RepositoryException { if (node.hasProperty(Property.JCR_DATA)) { Property data = node.getProperty(Property.JCR_DATA); final Binary binary = data.getBinary(); return new FilterInputStream(binary.getStream()) { @Override public void close() throws IOException { super.close(); binary.dispose(); } }; } else if (node.hasNode(Node.JCR_CONTENT)) { return readFile(node.getNode(Node.JCR_CONTENT)); } else { throw new RepositoryException( "Unable to read file node: " + node.getPath()); } } /** * Writes the contents of file stored at the given node to the given * stream. Similar file handling logic is used as in the * {@link #readFile(Node)} method. * * @since Apache Jackrabbit 2.3 * @param node node to be read * @param output to which the file contents are written * @throws RepositoryException if the file can not be accessed * @throws IOException if the file can not be read or written */ public static void readFile(Node node, OutputStream output) throws RepositoryException, IOException { InputStream input = readFile(node); try { byte[] buffer = new byte[16 * 1024]; int n = input.read(buffer); while (n != -1) { output.write(buffer, 0, n); n = input.read(buffer); } } finally { input.close(); } } /** * Returns the last modified date of the given file node. The value is * read from the jcr:lastModified property of this node or alternatively * from a jcr:content child node. * * @since Apache Jackrabbit 2.3 * @param node file node * @return last modified date, or null if not available * @throws RepositoryException if the last modified date can not be accessed */ public static Calendar getLastModified(Node node) throws RepositoryException { if (node.hasProperty(Property.JCR_LAST_MODIFIED)) { return node.getProperty(Property.JCR_LAST_MODIFIED).getDate(); } else if (node.hasNode(Node.JCR_CONTENT)) { return getLastModified(node.getNode(Node.JCR_CONTENT)); } else { return null; } } /** * Sets the last modified date of the given file node. The value is * written to the jcr:lastModified property of a jcr:content child node * or this node if such a child does not exist. * * @since Apache Jackrabbit 2.3 * @param node file node * @param date modified date * @throws RepositoryException if the last modified date can not be set */ public static void setLastModified(Node node, Calendar date) throws RepositoryException { if (node.hasNode(Node.JCR_CONTENT)) { setLastModified(node.getNode(Node.JCR_CONTENT), date); } else { node.setProperty(Property.JCR_LAST_MODIFIED, date); } } /** * Returns a string representation of the given item. The returned string * is designed to be easily readable while providing maximum amount of * information for logging and debugging purposes. *

* The returned string is not meant to be parsed and the exact contents * can change in future releases. The current string representation of * a node is "/path/to/node [type]" and the representation of a property is * "@name = value(s)". Binary values are expressed like "<123 bytes>" * and other values as their standard binary representation. Multi-valued * properties have their values listed in like "[ v1, v2, v3, ... ]". No * more than the three first values are included. Long string values are * truncated. * * @param item given node or property * @return string representation of the given item */ public static String toString(Item item) { StringBuilder builder = new StringBuilder(); try { if (item.isNode()) { builder.append(item.getPath()); builder.append(" ["); builder.append(((Node) item).getPrimaryNodeType().getName()); builder.append("]"); } else { builder.append("@"); builder.append(item.getName()); builder.append(" = "); Property property = (Property) item; if (property.isMultiple()) { builder.append("[ "); Value[] values = property.getValues(); for (int i = 0; i < values.length && i < 3; i++) { if (i > 0) { builder.append(", "); } append(builder, values[i]); } if (values.length >= 3) { builder.append(", ..."); } builder.append(" ]"); } else { append(builder, property.getValue()); } } } catch (RepositoryException e) { builder.append("!!! "); builder.append(e.getMessage()); builder.append(" !!!"); } return builder.toString(); } /** * Private helper method that adds the string representation of the given * value to the given {@link StringBuilder}. Used by the * {{@link #toString(Item)} method. */ private static void append(StringBuilder builder, Value value) throws RepositoryException { if (value.getType() == PropertyType.BINARY) { Binary binary = value.getBinary(); try { builder.append("<"); builder.append(binary.getSize()); builder.append(" bytes>"); } finally { binary.dispose(); } } else { String string = value.getString(); if (string.length() > 40) { builder.append(string.substring(0, 37)); builder.append("..."); } else { builder.append(string); } } } private static final List PROPERTY_TYPES_NAMES = new ArrayList(); private static final Map PROPERTY_TYPES = new HashMap(); static { for (int i = PropertyType.UNDEFINED; i <= PropertyType.DECIMAL; i++) { String typeName = PropertyType.nameFromValue(i); PROPERTY_TYPES_NAMES.add(typeName); PROPERTY_TYPES.put(typeName.toLowerCase(), i); } } /** * Returns the numeric constant value of the property type with * the specified name. This method is like * {@link PropertyType#valueFromName(String)}, but the name lookup * is case insensitive. * * @since Apache Jackrabbit 2.3 * @param name name of the property type (case insensitive) * @return property type constant * @throws IllegalArgumentException if the given name is not a valid * property type name */ public static int getPropertyType(String name) throws IllegalArgumentException { Integer type = PROPERTY_TYPES.get(name.toLowerCase()); if (type != null) { return type; } else { throw new IllegalArgumentException("Unknown property type: " + name); } } /** * Return the property type names including or excluding 'undefined' depending * on the specified flag. * * @param includeUndefined If true the returned array will contain the name * of the 'undefined' property type. * @return array of property type names. */ public static String[] getPropertyTypeNames(boolean includeUndefined) { if (includeUndefined) { return PROPERTY_TYPES_NAMES.toArray(new String[PROPERTY_TYPES_NAMES.size()]); } else { String[] typeNames = new String[PROPERTY_TYPES_NAMES.size()-1]; int i = 0; for (String name : PROPERTY_TYPES_NAMES) { if (!PropertyType.TYPENAME_UNDEFINED.equals(name)) { typeNames[i++] = name; } } return typeNames; } } /** * Creates or gets the {@link javax.jcr.Node Node} at the given Path. * In case it has to create the Node all non-existent intermediate path-elements * will be created with the given NodeType. * *

* Changes made are not saved by this method, so session.save() * has to be called to persist them. * * @param absolutePath absolute path to create * @param nodeType to use for creation of nodes If null the node type * is determined by the child node definitions of the parent node. * @param session to use * @return the Node at path * @throws RepositoryException in case of exception accessing the Repository */ public static Node getOrCreateByPath(String absolutePath, String nodeType, Session session) throws RepositoryException { return getOrCreateByPath(absolutePath, false, nodeType, nodeType, session, false); } /** * Creates or gets the {@link javax.jcr.Node Node} at the given Path. * In case it has to create the Node all non-existent intermediate path-elements * will be created with the given intermediate node type and the returned node * will be created with the given nodeType. * * @param absolutePath absolute path to create * @param intermediateNodeType to use for creation of intermediate nodes. If null the node type * is determined by the child node definitions of the parent node. * @param nodeType to use for creation of the final node. If null the node type * is determined by the child node definitions of the parent node. * @param session to use * @param autoSave Should save be called when a new node is created? * @return the Node at absolutePath * @throws RepositoryException in case of exception accessing the Repository */ public static Node getOrCreateByPath(String absolutePath, String intermediateNodeType, String nodeType, Session session, boolean autoSave) throws RepositoryException { return getOrCreateByPath(absolutePath, false, intermediateNodeType, nodeType, session, autoSave); } /** * Creates a {@link javax.jcr.Node Node} at the given Path. In case it has * to create the Node all non-existent intermediate path-elements will be * created with the given intermediate node type and the returned node will * be created with the given nodeType. * *

* If the path points to an existing node, the leaf node name will be * regarded as a name hint and a unique node name will be created by * appending a number to the given name (eg. /some/path/foobar2). * Please note that the uniqueness check is not an atomic JCR operation, * so it is possible that you get a {@link RepositoryException} (path * already exists) if another concurrent session created the same node in * the meantime. * *

* Changes made are not saved by this method, so session.save() * has to be called to persist them. * * @param pathHint * path to create * @param nodeType * to use for creation of nodes. . If null the node type * is determined by the child node definitions of the parent node. * @param session * to use * @return the newly created Node * @throws RepositoryException * in case of exception accessing the Repository */ public static Node getOrCreateUniqueByPath(String pathHint, String nodeType, Session session) throws RepositoryException { return getOrCreateByPath(pathHint, true, nodeType, nodeType, session, false); } /** * Creates or gets the {@link javax.jcr.Node Node} at the given Path. In * case it has to create the Node all non-existent intermediate * path-elements will be created with the given intermediate node type and * the returned node will be created with the given nodeType. * *

* If the parameter createUniqueLeaf is set, it will not get * an existing node but rather try to create a unique node by appending a * number to the last path element (leaf node). Please note that the * uniqueness check is not an atomic JCR operation, so it is possible * that you get a {@link RepositoryException} (path already exists) if * another concurrent session created the same node in the meantime. * * @param absolutePath * absolute path to create * @param createUniqueLeaf * whether the leaf of the path should be regarded as a name hint * and a unique node name should be created by appending a number * to the given name (eg. /some/path/foobar2) * @param intermediateNodeType * to use for creation of intermediate nodes. If null the node type * is determined by the child node definitions of the parent node. * @param nodeType * to use for creation of the final node. If null the node type * is determined by the child node definitions of the parent node. * @param session * to use * @param autoSave * Should save be called when a new node is created? * @return the Node at absolutePath * @throws RepositoryException * in case of exception accessing the Repository */ public static Node getOrCreateByPath(String absolutePath, boolean createUniqueLeaf, String intermediateNodeType, String nodeType, Session session, boolean autoSave) throws RepositoryException { if (absolutePath == null || absolutePath.length() == 0 || "/".equals(absolutePath)) { // path denotes root node return session.getRootNode(); } else if (!absolutePath.startsWith("/")) { throw new IllegalArgumentException("not an absolute path: " + absolutePath); } else if (session.nodeExists(absolutePath) && !createUniqueLeaf) { return session.getNode(absolutePath); } else { // find deepest existing parent node String path = absolutePath; int currentIndex = path.lastIndexOf('/'); String existingPath = null; while (currentIndex > 0 && existingPath == null) { path = path.substring(0, currentIndex); if (session.nodeExists(path)) { existingPath = path; } else { currentIndex = path.lastIndexOf('/'); } } // create path relative to the root node return getOrCreateByPath(existingPath == null ? session.getRootNode() : session.getNode(existingPath), absolutePath.substring(currentIndex + 1), createUniqueLeaf, intermediateNodeType, nodeType, autoSave); } } /** * Creates or gets the {@link javax.jcr.Node node} at the given path. In * case it has to create the node, nodes for all non-existent intermediate * path-elements will be created with the given intermediate node type and * the returned node will be created with the given nodeType. * Note: When the given path contains parent elements this method might * create multiple nodes at leaf position (e.g "a/../b" will create the * child nodes "a" and "b" on the current node). * *

* If the node name points to an existing node, the node name will be * regarded as a name hint and a unique node name will be created by * appending a number to the given name (eg. /some/path/foobar2). * Please note that the uniqueness check is not an atomic JCR operation, * so it is possible that you get a {@link RepositoryException} (path * already exists) if another concurrent session created the same node in * the meantime. * *

* Changes made are not saved by this method, so session.save() * has to be called to persist them. * * @param parent * existing parent node for the new node * @param nodeNameHint * name hint for the new node * @param nodeType * to use for creation of the node. If null the node type * is determined by the child node definitions of the parent node. * @return the newly created Node * @throws RepositoryException * in case of exception accessing the Repository */ public static Node getOrCreateUniqueByPath(Node parent, String nodeNameHint, String nodeType) throws RepositoryException { return getOrCreateByPath(parent, nodeNameHint, true, nodeType, nodeType, false); } /** * Creates or gets the {@link javax.jcr.Node node} at the given path * relative to the baseNode. In case it has to create the node, nodes for * all non-existent intermediate path-elements will be created with the given * intermediate node type and the returned node will be created with the * given nodeType. Note: When the given path contains parent elements * this method might create multiple nodes at leaf position (e.g "a/../b" * will create the child nodes "a" and "b" on the current node). *

* If the parameter createUniqueLeaf is set, it will not get * an existing node but rather try to create a unique node by appending a * number to the last path element (leaf node). Please note that the * uniqueness check is not an atomic JCR operation, so it is possible * that you get a {@link RepositoryException} (path already exists) if * another concurrent session created the same node in the meantime. * * @param baseNode * existing node that should be the base for the relative path * @param path * relative path to create * @param createUniqueLeaf * whether the leaf of the path should be regarded as a name hint * and a unique node name should be created by appending a number * to the given name (eg. /some/path/foobar2) * @param intermediateNodeType * to use for creation of intermediate nodes. If null the node type * is determined by the child node definitions of the parent node. * @param nodeType * to use for creation of the final node. If null the node type * is determined by the child node definitions of the parent node. * @param autoSave * Should save be called when a new node is created? * @return the Node at path * @throws RepositoryException * in case of exception accessing the Repository */ public static Node getOrCreateByPath(Node baseNode, String path, boolean createUniqueLeaf, String intermediateNodeType, String nodeType, boolean autoSave) throws RepositoryException { if (!createUniqueLeaf && baseNode.hasNode(path)) { // node at path already exists, quicker way return baseNode.getNode(path); } // find the parent that exists // we can start from the deepest child in tree String fullPath = baseNode.getPath().equals("/") ? "/" + path : baseNode.getPath() + "/" + path; int currentIndex = fullPath.lastIndexOf('/'); String temp = fullPath; String existingPath = null; while (currentIndex > 0) { temp = temp.substring(0, currentIndex); // break when first existing parent is found if (baseNode.getSession().itemExists(temp)) { existingPath = temp; break; } currentIndex = temp.lastIndexOf('/'); } if (existingPath != null) { baseNode = baseNode.getSession().getNode(existingPath); path = fullPath.substring(existingPath.length() + 1); } Node node = baseNode; int pos = path.lastIndexOf('/'); // intermediate path elements if (pos != -1) { final StringTokenizer st = new StringTokenizer(path.substring(0, pos), "/"); while (st.hasMoreTokens()) { final String token = st.nextToken(); if (!node.hasNode(token)) { try { if (intermediateNodeType != null) { node.addNode(token, intermediateNodeType); } else { node.addNode(token); } if (autoSave) { node.getSession().save(); } } catch (RepositoryException e) { // we ignore this as this folder might be created from a different task node.refresh(false); } } node = node.getNode(token); } path = path.substring(pos + 1); } // last path element (path = leaf node name) if (!node.hasNode(path)) { if (nodeType != null) { node.addNode(path, nodeType); } else { node.addNode(path); } if (autoSave) { node.getSession().save(); } } else if (createUniqueLeaf) { // leaf node already exists, create new unique name String leafNodeName; int i = 0; do { leafNodeName = path + String.valueOf(i); i++; } while (node.hasNode(leafNodeName)); Node leaf; if (nodeType != null) { leaf = node.addNode(leafNodeName, nodeType); } else { leaf = node.addNode(leafNodeName); } if (autoSave) { node.getSession().save(); } return leaf; } return node.getNode(path); } /** * Get the node at relPath from baseNode or null if no such node exists. * * @param baseNode existing node that should be the base for the relative path * @param relPath relative path to the node to get * @return the node at relPath from baseNode or null if no such node exists. * @throws RepositoryException in case of exception accessing the Repository */ public static Node getNodeIfExists(Node baseNode, String relPath) throws RepositoryException { try { return baseNode.getNode(relPath); } catch (PathNotFoundException e) { return null; } } /** * Gets the node at absPath or null if no such node exists. * * @param absPath the absolute path to the node to return * @param session to use * @return the node at absPath or null if no such node exists. * @throws RepositoryException in case of exception accessing the Repository */ public static Node getNodeIfExists(String absPath, Session session) throws RepositoryException { try { return session.getNode(absPath); } catch (PathNotFoundException e) { return null; } } /** * Returns the string property value at relPath from baseNode or defaultValue * if no such property exists. * * @param baseNode existing node that should be the base for the relative path * @param relPath relative path to the property to get * @param defaultValue default value to return when the property does not exist * @return the string property value at relPath from baseNode or defaultValue * if no such property exists * @throws RepositoryException in case of exception accessing the Repository */ public static String getStringProperty(Node baseNode, String relPath, String defaultValue) throws RepositoryException { try { return baseNode.getProperty(relPath).getString(); } catch (PathNotFoundException e) { return defaultValue; } } /** * Returns the long property value at relPath from baseNode or defaultValue * if no such property exists. * * @param baseNode existing node that should be the base for the relative path * @param relPath relative path to the property to get * @param defaultValue default value to return when the property does not exist * @return the long property value at relPath from baseNode or defaultValue * if no such property exists * @throws RepositoryException in case of exception accessing the Repository */ public static long getLongProperty(Node baseNode, String relPath, long defaultValue) throws RepositoryException { try { return baseNode.getProperty(relPath).getLong(); } catch (PathNotFoundException e) { return defaultValue; } } /** * Returns the double property value at relPath from baseNode or defaultValue * if no such property exists. * * @param baseNode existing node that should be the base for the relative path * @param relPath relative path to the property to get * @param defaultValue default value to return when the property does not exist * @return the double property value at relPath from baseNode or defaultValue * if no such property exists * @throws RepositoryException in case of exception accessing the Repository */ public static double getDoubleProperty(Node baseNode, String relPath, double defaultValue) throws RepositoryException { try { return baseNode.getProperty(relPath).getDouble(); } catch (PathNotFoundException e) { return defaultValue; } } /** * Returns the boolean property value at relPath from baseNode or defaultValue * if no such property exists. * * @param baseNode existing node that should be the base for the relative path * @param relPath relative path to the property to get * @param defaultValue default value to return when the property does not exist * @return the boolean property value at relPath from baseNode or defaultValue * if no such property exists * @throws RepositoryException in case of exception accessing the Repository */ public static boolean getBooleanProperty(Node baseNode, String relPath, boolean defaultValue) throws RepositoryException { try { return baseNode.getProperty(relPath).getBoolean(); } catch (PathNotFoundException e) { return defaultValue; } } /** * Returns the date property value at relPath from baseNode or defaultValue * if no such property exists. * * @param baseNode existing node that should be the base for the relative path * @param relPath relative path to the property to get * @param defaultValue default value to return when the property does not exist * @return the date property value at relPath from baseNode or defaultValue * if no such property exists * @throws RepositoryException in case of exception accessing the Repository */ public static Calendar getDateProperty(Node baseNode, String relPath, Calendar defaultValue) throws RepositoryException { try { return baseNode.getProperty(relPath).getDate(); } catch (PathNotFoundException e) { return defaultValue; } } /** * Returns the decimal property value at relPath from baseNode or defaultValue * if no such property exists. * * @param baseNode existing node that should be the base for the relative path * @param relPath relative path to the property to get * @param defaultValue default value to return when the property does not exist * @return the decimal property value at relPath from baseNode or defaultValue * if no such property exists * @throws RepositoryException in case of exception accessing the Repository */ public static BigDecimal getDecimalProperty(Node baseNode, String relPath, BigDecimal defaultValue) throws RepositoryException { try { return baseNode.getProperty(relPath).getDecimal(); } catch (PathNotFoundException e) { return defaultValue; } } /** * Returns the binary property value at relPath from baseNode or defaultValue * if no such property exists. * * @param baseNode existing node that should be the base for the relative path * @param relPath relative path to the property to get * @param defaultValue default value to return when the property does not exist * @return the binary property value at relPath from baseNode or defaultValue * if no such property exists * @throws RepositoryException in case of exception accessing the Repository */ public static Binary getBinaryProperty(Node baseNode, String relPath, Binary defaultValue) throws RepositoryException { try { return baseNode.getProperty(relPath).getBinary(); } catch (PathNotFoundException e) { return defaultValue; } } /** * Returns the string property value at absPath or defaultValue * if no such property exists. * * @param session to use * @param absPath absolute path to the property to get * @param defaultValue default value to return when the property does not exist * @return the string property value at absPath or defaultValue * if no such property exists * @throws RepositoryException in case of exception accessing the Repository */ public static String getStringProperty(Session session, String absPath, String defaultValue) throws RepositoryException { try { return session.getProperty(absPath).getString(); } catch (PathNotFoundException e) { return defaultValue; } } /** * Returns the long property value at absPath or defaultValue * if no such property exists. * * @param session to use * @param absPath absolute path to the property to get * @param defaultValue default value to return when the property does not exist * @return the long property value at absPath or defaultValue * if no such property exists * @throws RepositoryException in case of exception accessing the Repository */ public static long getLongProperty(Session session, String absPath, long defaultValue) throws RepositoryException { try { return session.getProperty(absPath).getLong(); } catch (PathNotFoundException e) { return defaultValue; } } /** * Returns the double property value at absPath or defaultValue * if no such property exists. * * @param session to use * @param absPath absolute path to the property to get * @param defaultValue default value to return when the property does not exist * @return the double property value at absPath or defaultValue * if no such property exists * @throws RepositoryException in case of exception accessing the Repository */ public static double getDoubleProperty(Session session, String absPath, double defaultValue) throws RepositoryException { try { return session.getProperty(absPath).getDouble(); } catch (PathNotFoundException e) { return defaultValue; } } /** * Returns the boolean property value at absPath or defaultValue * if no such property exists. * * @param session to use * @param absPath absolute path to the property to get * @param defaultValue default value to return when the property does not exist * @return the boolean property value at absPath or defaultValue * if no such property exists * @throws RepositoryException in case of exception accessing the Repository */ public static boolean getBooleanProperty(Session session, String absPath, boolean defaultValue) throws RepositoryException { try { return session.getProperty(absPath).getBoolean(); } catch (PathNotFoundException e) { return defaultValue; } } /** * Returns the date property value at absPath or defaultValue * if no such property exists. * * @param session to use * @param absPath absolute path to the property to get * @param defaultValue default value to return when the property does not exist * @return the date property value at absPath or defaultValue * if no such property exists * @throws RepositoryException in case of exception accessing the Repository */ public static Calendar getDateProperty(Session session, String absPath, Calendar defaultValue) throws RepositoryException { try { return session.getProperty(absPath).getDate(); } catch (PathNotFoundException e) { return defaultValue; } } /** * Returns the decimal property value at absPath or defaultValue * if no such property exists. * * @param session to use * @param absPath absolute path to the property to get * @param defaultValue default value to return when the property does not exist * @return the decimal property value at absPath or defaultValue * if no such property exists * @throws RepositoryException in case of exception accessing the Repository */ public static BigDecimal getDecimalProperty(Session session, String absPath, BigDecimal defaultValue) throws RepositoryException { try { return session.getProperty(absPath).getDecimal(); } catch (PathNotFoundException e) { return defaultValue; } } /** * Returns the binary property value at absPath or defaultValue * if no such property exists. * * @param session to use * @param absPath absolute path to the property to get * @param defaultValue default value to return when the property does not exist * @return the binary property value at absPath or defaultValue * if no such property exists * @throws RepositoryException in case of exception accessing the Repository */ public static Binary getBinaryProperty(Session session, String absPath, Binary defaultValue) throws RepositoryException { try { return session.getProperty(absPath).getBinary(); } catch (PathNotFoundException e) { return defaultValue; } } }