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alfresco-community-repo/source/java/org/alfresco/repo/node/db/DbNodeServiceImpl.java
Britt Park 8031cc6574 Big honkin' merge from head. Sheesh! 
git-svn-id: https://svn.alfresco.com/repos/alfresco-enterprise/alfresco/BRANCHES/WCM-DEV2/root@3617 c4b6b30b-aa2e-2d43-bbcb-ca4b014f7261
2006-08-27 01:01:30 +00:00

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/*
* Copyright (C) 2005 Alfresco, Inc.
*
* Licensed under the Mozilla Public License version 1.1
* with a permitted attribution clause. You may obtain a
* copy of the License at
*
* http://www.alfresco.org/legal/license.txt
*
* 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.alfresco.repo.node.db;
import java.io.Serializable;
import java.util.ArrayList;
import java.util.Collection;
import java.util.Collections;
import java.util.Date;
import java.util.HashMap;
import java.util.HashSet;
import java.util.Iterator;
import java.util.List;
import java.util.Map;
import java.util.Set;
import java.util.Stack;
import org.alfresco.error.AlfrescoRuntimeException;
import org.alfresco.model.ContentModel;
import org.alfresco.repo.domain.ChildAssoc;
import org.alfresco.repo.domain.Node;
import org.alfresco.repo.domain.NodeAssoc;
import org.alfresco.repo.domain.NodeStatus;
import org.alfresco.repo.domain.PropertyValue;
import org.alfresco.repo.domain.Store;
import org.alfresco.repo.node.AbstractNodeServiceImpl;
import org.alfresco.repo.node.StoreArchiveMap;
import org.alfresco.repo.security.authentication.AuthenticationUtil;
import org.alfresco.repo.transaction.AlfrescoTransactionSupport;
import org.alfresco.service.cmr.dictionary.AspectDefinition;
import org.alfresco.service.cmr.dictionary.AssociationDefinition;
import org.alfresco.service.cmr.dictionary.ChildAssociationDefinition;
import org.alfresco.service.cmr.dictionary.ClassDefinition;
import org.alfresco.service.cmr.dictionary.DataTypeDefinition;
import org.alfresco.service.cmr.dictionary.InvalidAspectException;
import org.alfresco.service.cmr.dictionary.InvalidTypeException;
import org.alfresco.service.cmr.dictionary.PropertyDefinition;
import org.alfresco.service.cmr.dictionary.TypeDefinition;
import org.alfresco.service.cmr.repository.AssociationExistsException;
import org.alfresco.service.cmr.repository.AssociationRef;
import org.alfresco.service.cmr.repository.ChildAssociationRef;
import org.alfresco.service.cmr.repository.CyclicChildRelationshipException;
import org.alfresco.service.cmr.repository.InvalidChildAssociationRefException;
import org.alfresco.service.cmr.repository.InvalidNodeRefException;
import org.alfresco.service.cmr.repository.InvalidStoreRefException;
import org.alfresco.service.cmr.repository.NodeRef;
import org.alfresco.service.cmr.repository.NodeService;
import org.alfresco.service.cmr.repository.Path;
import org.alfresco.service.cmr.repository.StoreExistsException;
import org.alfresco.service.cmr.repository.StoreRef;
import org.alfresco.service.cmr.repository.NodeRef.Status;
import org.alfresco.service.namespace.NamespaceService;
import org.alfresco.service.namespace.QName;
import org.alfresco.service.namespace.QNamePattern;
import org.alfresco.util.ParameterCheck;
import org.apache.commons.logging.Log;
import org.apache.commons.logging.LogFactory;
import org.springframework.dao.DataIntegrityViolationException;
import org.springframework.util.Assert;
/**
* Node service using database persistence layer to fulfill functionality
*
* @author Derek Hulley
*/
public class DbNodeServiceImpl extends AbstractNodeServiceImpl
{
private static Log logger = LogFactory.getLog(DbNodeServiceImpl.class);
private NodeDaoService nodeDaoService;
private StoreArchiveMap storeArchiveMap;
private NodeService avmNodeService;
public DbNodeServiceImpl()
{
storeArchiveMap = new StoreArchiveMap(); // in case it is not set
}
public void setNodeDaoService(NodeDaoService nodeDaoService)
{
this.nodeDaoService = nodeDaoService;
}
public void setStoreArchiveMap(StoreArchiveMap storeArchiveMap)
{
this.storeArchiveMap = storeArchiveMap;
}
public void setAvmNodeService(NodeService avmNodeService)
{
this.avmNodeService = avmNodeService;
}
/**
* Performs a null-safe get of the node
*
* @param nodeRef the node to retrieve
* @return Returns the node entity (never null)
* @throws InvalidNodeRefException if the referenced node could not be found
*/
private Node getNodeNotNull(NodeRef nodeRef) throws InvalidNodeRefException
{
Node unchecked = nodeDaoService.getNode(nodeRef);
if (unchecked == null)
{
throw new InvalidNodeRefException("Node does not exist: " + nodeRef, nodeRef);
}
return unchecked;
}
public boolean exists(StoreRef storeRef)
{
Store store = nodeDaoService.getStore(storeRef.getProtocol(), storeRef.getIdentifier());
boolean exists = (store != null);
// done
return exists;
}
public boolean exists(NodeRef nodeRef)
{
Node node = nodeDaoService.getNode(nodeRef);
boolean exists = (node != null);
// done
return exists;
}
public Status getNodeStatus(NodeRef nodeRef)
{
NodeStatus nodeStatus = nodeDaoService.getNodeStatus(nodeRef, false);
if (nodeStatus == null) // node never existed
{
return null;
}
else
{
return new NodeRef.Status(
nodeStatus.getChangeTxnId(),
nodeStatus.isDeleted());
}
}
/**
* @see NodeDaoService#getStores()
*/
public List<StoreRef> getStores()
{
List<Store> stores = nodeDaoService.getStores();
List<StoreRef> storeRefs = new ArrayList<StoreRef>(stores.size());
for (Store store : stores)
{
storeRefs.add(store.getStoreRef());
}
// Now get the AVMStores.
List<StoreRef> avmStores = avmNodeService.getStores();
storeRefs.addAll(avmStores);
// Return them all.
return storeRefs;
}
/**
* Defers to the typed service
* @see StoreDaoService#createWorkspace(String)
*/
public StoreRef createStore(String protocol, String identifier)
{
StoreRef storeRef = new StoreRef(protocol, identifier);
// check that the store does not already exist
Store store = nodeDaoService.getStore(protocol, identifier);
if (store != null)
{
throw new StoreExistsException("Unable to create a store that already exists: " + storeRef, storeRef);
}
// invoke policies
invokeBeforeCreateStore(ContentModel.TYPE_STOREROOT, storeRef);
// create a new one
store = nodeDaoService.createStore(protocol, identifier);
// get the root node
Node rootNode = store.getRootNode();
// assign the root aspect - this is expected of all roots, even store roots
addAspect(rootNode.getNodeRef(),
ContentModel.ASPECT_ROOT,
Collections.<QName, Serializable>emptyMap());
// invoke policies
invokeOnCreateStore(rootNode.getNodeRef());
// done
if (!store.getStoreRef().equals(storeRef))
{
throw new RuntimeException("Incorrect store reference");
}
return storeRef;
}
public NodeRef getRootNode(StoreRef storeRef) throws InvalidStoreRefException
{
Store store = nodeDaoService.getStore(storeRef.getProtocol(), storeRef.getIdentifier());
if (store == null)
{
throw new InvalidStoreRefException("Store does not exist", storeRef);
}
// get the root
Node node = store.getRootNode();
if (node == null)
{
throw new InvalidStoreRefException("Store does not have a root node", storeRef);
}
NodeRef nodeRef = node.getNodeRef();
// done
return nodeRef;
}
/**
* @see #createNode(NodeRef, QName, QName, QName, Map)
*/
public ChildAssociationRef createNode(
NodeRef parentRef,
QName assocTypeQName,
QName assocQName,
QName nodeTypeQName)
{
return this.createNode(parentRef, assocTypeQName, assocQName, nodeTypeQName, null);
}
/**
* @see org.alfresco.service.cmr.repository.NodeService#createNode(org.alfresco.service.cmr.repository.NodeRef, org.alfresco.service.namespace.QName, org.alfresco.service.namespace.QName, org.alfresco.service.namespace.QName, java.util.Map)
*/
public ChildAssociationRef createNode(
NodeRef parentRef,
QName assocTypeQName,
QName assocQName,
QName nodeTypeQName,
Map<QName, Serializable> properties)
{
Assert.notNull(parentRef);
Assert.notNull(assocTypeQName);
Assert.notNull(assocQName);
// null property map is allowed
if (properties == null)
{
properties = new HashMap<QName, Serializable>();
}
else
{
// Copy the incomming property map since we may need to modify it later
properties = new HashMap<QName, Serializable>(properties);
}
// Invoke policy behaviour
invokeBeforeUpdateNode(parentRef);
invokeBeforeCreateNode(parentRef, assocTypeQName, assocQName, nodeTypeQName);
// get the store that the parent belongs to
StoreRef storeRef = parentRef.getStoreRef();
Store store = nodeDaoService.getStore(storeRef.getProtocol(), storeRef.getIdentifier());
if (store == null)
{
throw new RuntimeException("No store found for parent node: " + parentRef);
}
// check the node type
TypeDefinition nodeTypeDef = dictionaryService.getType(nodeTypeQName);
if (nodeTypeDef == null)
{
throw new InvalidTypeException(nodeTypeQName);
}
// get/generate an ID for the node
String newId = generateGuid(properties);
// create the node instance
Node childNode = nodeDaoService.newNode(store, newId, nodeTypeQName);
// get the parent node
Node parentNode = getNodeNotNull(parentRef);
// Set the default property values
addDefaultPropertyValues(nodeTypeDef, properties);
// Add the default aspects to the node
addDefaultAspects(nodeTypeDef, childNode, properties);
// set the properties - it is a new node so only set properties if there are any
Map<QName, Serializable> propertiesBefore = getPropertiesImpl(childNode);
Map<QName, Serializable> propertiesAfter = null;
if (properties.size() > 0)
{
propertiesAfter = setPropertiesImpl(childNode, properties);
}
// create the association
ChildAssoc childAssoc = nodeDaoService.newChildAssoc(
parentNode,
childNode,
true,
assocTypeQName,
assocQName);
setChildUniqueName(childNode); // ensure uniqueness
ChildAssociationRef childAssocRef = childAssoc.getChildAssocRef();
// Invoke policy behaviour
invokeOnCreateNode(childAssocRef);
invokeOnUpdateNode(parentRef);
if (propertiesAfter != null)
{
invokeOnUpdateProperties(childAssocRef.getChildRef(), propertiesBefore, propertiesAfter);
}
// done
return childAssocRef;
}
/**
* Add the default aspects to a given node
*
* @param nodeTypeDef
*/
private void addDefaultAspects(ClassDefinition classDefinition, Node node, Map<QName, Serializable> properties)
{
NodeRef nodeRef = node.getNodeRef();
// get the mandatory aspects for the node type
List<AspectDefinition> defaultAspectDefs = classDefinition.getDefaultAspects();
// add all the aspects to the node
Set<QName> nodeAspects = node.getAspects();
for (AspectDefinition defaultAspectDef : defaultAspectDefs)
{
invokeBeforeAddAspect(nodeRef, defaultAspectDef.getName());
nodeAspects.add(defaultAspectDef.getName());
addDefaultPropertyValues(defaultAspectDef, properties);
invokeOnAddAspect(nodeRef, defaultAspectDef.getName());
// Now add any default aspects for this aspect
addDefaultAspects(defaultAspectDef, node, properties);
}
}
/**
* Drops the old primary association and creates a new one
*/
public ChildAssociationRef moveNode(
NodeRef nodeToMoveRef,
NodeRef newParentRef,
QName assocTypeQName,
QName assocQName)
throws InvalidNodeRefException
{
Assert.notNull(nodeToMoveRef);
Assert.notNull(newParentRef);
Assert.notNull(assocTypeQName);
Assert.notNull(assocQName);
// check the node references
Node nodeToMove = getNodeNotNull(nodeToMoveRef);
Node newParentNode = getNodeNotNull(newParentRef);
// get the primary parent assoc
ChildAssoc oldAssoc = nodeDaoService.getPrimaryParentAssoc(nodeToMove);
ChildAssociationRef oldAssocRef = oldAssoc.getChildAssocRef();
// get the old parent
Node oldParentNode = oldAssoc.getParent();
boolean movingStore = !nodeToMoveRef.getStoreRef().equals(newParentRef.getStoreRef());
// data needed for policy invocation
QName nodeToMoveTypeQName = nodeToMove.getTypeQName();
Set<QName> nodeToMoveAspects = nodeToMove.getAspects();
// Invoke policy behaviour
if (movingStore)
{
invokeBeforeDeleteNode(nodeToMoveRef);
invokeBeforeCreateNode(newParentRef, assocTypeQName, assocQName, nodeToMoveTypeQName);
}
else
{
invokeBeforeDeleteChildAssociation(oldAssocRef);
invokeBeforeCreateChildAssociation(newParentRef, nodeToMoveRef, assocTypeQName, assocQName);
invokeBeforeUpdateNode(oldParentNode.getNodeRef()); // old parent will be updated
invokeBeforeUpdateNode(newParentRef); // new parent ditto
}
// remove the child assoc from the old parent
// don't cascade as we will still need the node afterwards
nodeDaoService.deleteChildAssoc(oldAssoc, false);
// create a new assoc
ChildAssoc newAssoc = nodeDaoService.newChildAssoc(
newParentNode,
nodeToMove,
true,
assocTypeQName,
assocQName);
setChildUniqueName(nodeToMove); // ensure uniqueness
ChildAssociationRef newAssocRef = newAssoc.getChildAssocRef();
// If the node is moving stores, then drag the node hierarchy with it
if (movingStore)
{
// do the move
Store newStore = newParentNode.getStore();
moveNodeToStore(nodeToMove, newStore);
// the node reference will have changed too
nodeToMoveRef = nodeToMove.getNodeRef();
}
// check that no cyclic relationships have been created
getPaths(nodeToMoveRef, false);
// invoke policy behaviour
if (movingStore)
{
// TODO for now indicate that the node has been archived to prevent the version history from being removed
// in the future a onMove policy could be added and remove the need for onDelete and onCreate to be fired here
invokeOnDeleteNode(oldAssocRef, nodeToMoveTypeQName, nodeToMoveAspects, true);
invokeOnCreateNode(newAssoc.getChildAssocRef());
}
else
{
invokeOnCreateChildAssociation(newAssoc.getChildAssocRef());
invokeOnDeleteChildAssociation(oldAssoc.getChildAssocRef());
invokeOnUpdateNode(oldParentNode.getNodeRef());
invokeOnUpdateNode(newParentRef);
}
invokeOnMoveNode(oldAssocRef, newAssocRef);
// update the node status
nodeDaoService.recordChangeId(nodeToMoveRef);
// done
return newAssoc.getChildAssocRef();
}
public void setChildAssociationIndex(ChildAssociationRef childAssocRef, int index)
{
// get nodes
Node parentNode = getNodeNotNull(childAssocRef.getParentRef());
Node childNode = getNodeNotNull(childAssocRef.getChildRef());
ChildAssoc assoc = nodeDaoService.getChildAssoc(
parentNode,
childNode,
childAssocRef.getTypeQName(),
childAssocRef.getQName());
if (assoc == null)
{
throw new InvalidChildAssociationRefException("Unable to set child association index: \n" +
" assoc: " + childAssocRef + "\n" +
" index: " + index,
childAssocRef);
}
// set the index
assoc.setIndex(index);
}
public QName getType(NodeRef nodeRef) throws InvalidNodeRefException
{
Node node = getNodeNotNull(nodeRef);
return node.getTypeQName();
}
/**
* @see org.alfresco.service.cmr.repository.NodeService#setType(org.alfresco.service.cmr.repository.NodeRef, org.alfresco.service.namespace.QName)
*/
public void setType(NodeRef nodeRef, QName typeQName) throws InvalidNodeRefException
{
// check the node type
TypeDefinition nodeTypeDef = dictionaryService.getType(typeQName);
if (nodeTypeDef == null)
{
throw new InvalidTypeException(typeQName);
}
// Invoke policies
invokeBeforeUpdateNode(nodeRef);
// Get the node and set the new type
Node node = getNodeNotNull(nodeRef);
node.setTypeQName(typeQName);
// Add the default aspects to the node (update the properties with any new default values)
Map<QName, Serializable> properties = this.getPropertiesImpl(node);
addDefaultAspects(nodeTypeDef, node, properties);
this.setProperties(nodeRef, properties);
// Invoke policies
invokeOnUpdateNode(nodeRef);
}
/**
* @see Node#getAspects()
*/
public void addAspect(
NodeRef nodeRef,
QName aspectTypeQName,
Map<QName, Serializable> aspectProperties)
throws InvalidNodeRefException, InvalidAspectException
{
// check that the aspect is legal
AspectDefinition aspectDef = dictionaryService.getAspect(aspectTypeQName);
if (aspectDef == null)
{
throw new InvalidAspectException("The aspect is invalid: " + aspectTypeQName, aspectTypeQName);
}
// Invoke policy behaviours
invokeBeforeUpdateNode(nodeRef);
invokeBeforeAddAspect(nodeRef, aspectTypeQName);
Node node = getNodeNotNull(nodeRef);
// attach the properties to the current node properties
Map<QName, Serializable> nodeProperties = getPropertiesImpl(node);
if (aspectProperties != null)
{
nodeProperties.putAll(aspectProperties);
}
// Set any default property values that appear on the aspect
addDefaultPropertyValues(aspectDef, nodeProperties);
// Add any dependant aspect
addDefaultAspects(aspectDef, node, nodeProperties);
// Set the property values back on the node
setProperties(nodeRef, nodeProperties);
// physically attach the aspect to the node
if (node.getAspects().add(aspectTypeQName) == true)
{
// Invoke policy behaviours
invokeOnUpdateNode(nodeRef);
invokeOnAddAspect(nodeRef, aspectTypeQName);
// update the node status
nodeDaoService.recordChangeId(nodeRef);
}
}
/**
* @see Node#getAspects()
*/
public void removeAspect(NodeRef nodeRef, QName aspectTypeQName)
throws InvalidNodeRefException, InvalidAspectException
{
// Invoke policy behaviours
invokeBeforeUpdateNode(nodeRef);
invokeBeforeRemoveAspect(nodeRef, aspectTypeQName);
// get the aspect
AspectDefinition aspectDef = dictionaryService.getAspect(aspectTypeQName);
if (aspectDef == null)
{
throw new InvalidAspectException(aspectTypeQName);
}
// get the node
Node node = getNodeNotNull(nodeRef);
// remove the aspect, if present
boolean removed = node.getAspects().remove(aspectTypeQName);
// if the aspect was present, remove the associated properties
if (removed)
{
Map<QName, PropertyValue> nodeProperties = node.getProperties();
Map<QName,PropertyDefinition> propertyDefs = aspectDef.getProperties();
for (QName propertyName : propertyDefs.keySet())
{
nodeProperties.remove(propertyName);
}
// Invoke policy behaviours
invokeOnUpdateNode(nodeRef);
invokeOnRemoveAspect(nodeRef, aspectTypeQName);
// update the node status
nodeDaoService.recordChangeId(nodeRef);
}
}
/**
* Performs a check on the set of node aspects
*
* @see Node#getAspects()
*/
public boolean hasAspect(NodeRef nodeRef, QName aspectRef) throws InvalidNodeRefException, InvalidAspectException
{
Node node = getNodeNotNull(nodeRef);
Set<QName> aspectQNames = node.getAspects();
boolean hasAspect = aspectQNames.contains(aspectRef);
// done
return hasAspect;
}
public Set<QName> getAspects(NodeRef nodeRef) throws InvalidNodeRefException
{
Node node = getNodeNotNull(nodeRef);
Set<QName> aspectQNames = node.getAspects();
// copy the set to ensure initialization
Set<QName> ret = new HashSet<QName>(aspectQNames.size());
ret.addAll(aspectQNames);
// done
return ret;
}
public void deleteNode(NodeRef nodeRef)
{
boolean isArchivedNode = false;
boolean requiresDelete = false;
// Invoke policy behaviours
invokeBeforeDeleteNode(nodeRef);
// get the node
Node node = getNodeNotNull(nodeRef);
// get the primary parent-child relationship before it is gone
ChildAssociationRef childAssocRef = getPrimaryParent(nodeRef);
// get type and aspect QNames as they will be unavailable after the delete
QName nodeTypeQName = node.getTypeQName();
Set<QName> nodeAspectQNames = node.getAspects();
// check if we need to archive the node
StoreRef archiveStoreRef = null;
if (nodeAspectQNames.contains(ContentModel.ASPECT_TEMPORARY))
{
// the node has the temporary aspect meaning
// it can not be archived
requiresDelete = true;
isArchivedNode = false;
}
else
{
StoreRef storeRef = nodeRef.getStoreRef();
archiveStoreRef = storeArchiveMap.getArchiveMap().get(storeRef);
// get the type and check if we need archiving
TypeDefinition typeDef = dictionaryService.getType(node.getTypeQName());
if (typeDef == null || !typeDef.isArchive() || archiveStoreRef == null)
{
requiresDelete = true;
}
}
if (requiresDelete)
{
// perform a normal deletion
nodeDaoService.deleteNode(node, true);
isArchivedNode = false;
}
else
{
// archive it
archiveNode(nodeRef, archiveStoreRef);
isArchivedNode = true;
}
// Invoke policy behaviours
invokeOnDeleteNode(childAssocRef, nodeTypeQName, nodeAspectQNames, isArchivedNode);
}
public ChildAssociationRef addChild(NodeRef parentRef, NodeRef childRef, QName assocTypeQName, QName assocQName)
{
// Invoke policy behaviours
invokeBeforeUpdateNode(parentRef);
invokeBeforeCreateChildAssociation(parentRef, childRef, assocTypeQName, assocQName);
// get the parent node and ensure that it is a container node
Node parentNode = getNodeNotNull(parentRef);
// get the child node
Node childNode = getNodeNotNull(childRef);
// make the association
ChildAssoc assoc = nodeDaoService.newChildAssoc(
parentNode,
childNode,
false,
assocTypeQName,
assocQName);
// ensure name uniqueness
setChildUniqueName(childNode);
ChildAssociationRef assocRef = assoc.getChildAssocRef();
NodeRef childNodeRef = assocRef.getChildRef();
// check that the child addition of the child has not created a cyclic relationship
// this functionality is provided for free in getPath
getPaths(childNodeRef, false);
// Invoke policy behaviours
invokeOnCreateChildAssociation(assocRef);
invokeOnUpdateNode(parentRef);
return assoc.getChildAssocRef();
}
public void removeChild(NodeRef parentRef, NodeRef childRef) throws InvalidNodeRefException
{
Node parentNode = getNodeNotNull(parentRef);
Node childNode = getNodeNotNull(childRef);
Long childNodeId = childNode.getId();
// get all the child assocs
ChildAssociationRef primaryAssocRef = null;
Collection<ChildAssoc> assocs = nodeDaoService.getChildAssocs(parentNode);
assocs = new HashSet<ChildAssoc>(assocs); // copy set as we will be modifying it
for (ChildAssoc assoc : assocs)
{
if (!assoc.getChild().getId().equals(childNodeId))
{
continue; // not a matching association
}
ChildAssociationRef assocRef = assoc.getChildAssocRef();
// Is this a primary association?
if (assoc.getIsPrimary())
{
// keep the primary associaton for last
primaryAssocRef = assocRef;
}
else
{
// delete the association instance - it is not primary
invokeBeforeDeleteChildAssociation(assocRef);
nodeDaoService.deleteChildAssoc(assoc, true); // cascade
invokeOnDeleteChildAssociation(assocRef);
}
}
// remove the child if the primary association was a match
if (primaryAssocRef != null)
{
deleteNode(primaryAssocRef.getChildRef());
}
// Invoke policy behaviours
invokeOnUpdateNode(parentRef);
// done
}
public Map<QName, Serializable> getProperties(NodeRef nodeRef) throws InvalidNodeRefException
{
Node node = getNodeNotNull(nodeRef);
return getPropertiesImpl(node);
}
private Map<QName, Serializable> getPropertiesImpl(Node node) throws InvalidNodeRefException
{
NodeRef nodeRef = node.getNodeRef();
Map<QName, PropertyValue> nodeProperties = node.getProperties();
Map<QName, Serializable> ret = new HashMap<QName, Serializable>(nodeProperties.size());
// copy values
for (Map.Entry<QName, PropertyValue> entry: nodeProperties.entrySet())
{
QName propertyQName = entry.getKey();
PropertyValue propertyValue = entry.getValue();
// get the property definition
PropertyDefinition propertyDef = dictionaryService.getProperty(propertyQName);
// convert to the correct type
Serializable value = makeSerializableValue(propertyDef, propertyValue);
// copy across
ret.put(propertyQName, value);
}
// spoof referencable properties
addReferencableProperties(nodeRef, node.getId(), ret);
// done
return ret;
}
public Serializable getProperty(NodeRef nodeRef, QName qname) throws InvalidNodeRefException
{
// spoof referencable properties
if (qname.equals(ContentModel.PROP_STORE_PROTOCOL))
{
return nodeRef.getStoreRef().getProtocol();
}
else if (qname.equals(ContentModel.PROP_STORE_IDENTIFIER))
{
return nodeRef.getStoreRef().getIdentifier();
}
else if (qname.equals(ContentModel.PROP_NODE_UUID))
{
return nodeRef.getId();
}
// get the property from the node
Node node = getNodeNotNull(nodeRef);
if (qname.equals(ContentModel.PROP_NODE_DBID))
{
return node.getId();
}
Map<QName, PropertyValue> properties = node.getProperties();
PropertyValue propertyValue = properties.get(qname);
// get the property definition
PropertyDefinition propertyDef = dictionaryService.getProperty(qname);
// convert to the correct type
Serializable value = makeSerializableValue(propertyDef, propertyValue);
// done
return value;
}
/**
* Ensures that all required properties are present on the node and copies the
* property values to the <code>Node</code>.
* <p>
* To remove a property, <b>remove it from the map</b> before calling this method.
* Null-valued properties are allowed.
* <p>
* If any of the values are null, a marker object is put in to mimic nulls. They will be turned back into
* a real nulls when the properties are requested again.
*
* @see Node#getProperties()
*/
public void setProperties(NodeRef nodeRef, Map<QName, Serializable> properties) throws InvalidNodeRefException
{
Node node = getNodeNotNull(nodeRef);
// Invoke policy behaviours
invokeBeforeUpdateNode(nodeRef);
// Do the set properties
Map<QName, Serializable> propertiesBefore = getPropertiesImpl(node);
Map<QName, Serializable> propertiesAfter = setPropertiesImpl(node, properties);
setChildUniqueName(node); // ensure uniqueness
// Invoke policy behaviours
invokeOnUpdateNode(nodeRef);
invokeOnUpdateProperties(nodeRef, propertiesBefore, propertiesAfter);
}
/**
* Does the work of setting the property values. Returns a map containing the state of the properties after the set
* operation is complete.
*
* @param node the node
* @param properties the map of property values
* @return the map of property values after the set operation is complete
* @throws InvalidNodeRefException
*/
private Map<QName, Serializable> setPropertiesImpl(Node node, Map<QName, Serializable> properties) throws InvalidNodeRefException
{
ParameterCheck.mandatory("properties", properties);
// remove referencable properties
removeReferencableProperties(properties);
// copy properties onto node
Map<QName, PropertyValue> nodeProperties = node.getProperties();
nodeProperties.clear();
// check the property type and copy the values across
for (QName propertyQName : properties.keySet())
{
PropertyDefinition propertyDef = dictionaryService.getProperty(propertyQName);
Serializable value = properties.get(propertyQName);
// get a persistable value
PropertyValue propertyValue = makePropertyValue(propertyDef, value);
nodeProperties.put(propertyQName, propertyValue);
}
// update the node status
NodeRef nodeRef = node.getNodeRef();
nodeDaoService.recordChangeId(nodeRef);
// Return the properties after
return Collections.unmodifiableMap(properties);
}
/**
* Gets the properties map, sets the value (null is allowed) and checks that the new set
* of properties is valid.
*
* @see DbNodeServiceImpl.NullPropertyValue
*/
public void setProperty(NodeRef nodeRef, QName qname, Serializable value) throws InvalidNodeRefException
{
Assert.notNull(qname);
// Invoke policy behaviours
invokeBeforeUpdateNode(nodeRef);
// get the node
Node node = getNodeNotNull(nodeRef);
// Do the set operation
Map<QName, Serializable> propertiesBefore = getPropertiesImpl(node);
Map<QName, Serializable> propertiesAfter = setPropertyImpl(node, qname, value);
if (qname.equals(ContentModel.PROP_NAME))
{
setChildUniqueName(node); // ensure uniqueness
}
// Invoke policy behaviours
invokeOnUpdateNode(nodeRef);
invokeOnUpdateProperties(nodeRef, propertiesBefore, propertiesAfter);
}
/**
* Does the work of setting a property value. Returns the values of the properties after the set operation is
* complete.
*
* @param node the node
* @param qname the qname of the property
* @param value the value of the property
* @return the values of the properties after the set operation is complete
* @throws InvalidNodeRefException
*/
public Map<QName, Serializable> setPropertyImpl(Node node, QName qname, Serializable value) throws InvalidNodeRefException
{
NodeRef nodeRef = node.getNodeRef();
Map<QName, PropertyValue> properties = node.getProperties();
PropertyDefinition propertyDef = dictionaryService.getProperty(qname);
// get a persistable value
PropertyValue propertyValue = makePropertyValue(propertyDef, value);
properties.put(qname, propertyValue);
// update the node status
nodeDaoService.recordChangeId(nodeRef);
return getPropertiesImpl(node);
}
/**
* Transforms {@link Node#getParentAssocs()} to a new collection
*/
public Collection<NodeRef> getParents(NodeRef nodeRef) throws InvalidNodeRefException
{
Node node = getNodeNotNull(nodeRef);
// get the assocs pointing to it
Collection<ChildAssoc> parentAssocs = node.getParentAssocs();
// list of results
Collection<NodeRef> results = new ArrayList<NodeRef>(parentAssocs.size());
for (ChildAssoc assoc : parentAssocs)
{
// get the parent
Node parentNode = assoc.getParent();
results.add(parentNode.getNodeRef());
}
// done
return results;
}
/**
* Filters out any associations if their qname is not a match to the given pattern.
*/
public List<ChildAssociationRef> getParentAssocs(NodeRef nodeRef, QNamePattern typeQNamePattern, QNamePattern qnamePattern)
{
Node node = getNodeNotNull(nodeRef);
// get the assocs pointing to it
Collection<ChildAssoc> parentAssocs = node.getParentAssocs();
// shortcut if there are no assocs
if (parentAssocs.size() == 0)
{
return Collections.emptyList();
}
// list of results
List<ChildAssociationRef> results = new ArrayList<ChildAssociationRef>(parentAssocs.size());
for (ChildAssoc assoc : parentAssocs)
{
// does the qname match the pattern?
if (!qnamePattern.isMatch(assoc.getQname()) || !typeQNamePattern.isMatch(assoc.getTypeQName()))
{
// no match - ignore
continue;
}
results.add(assoc.getChildAssocRef());
}
// done
return results;
}
/**
* Filters out any associations if their qname is not a match to the given pattern.
*/
public List<ChildAssociationRef> getChildAssocs(NodeRef nodeRef, QNamePattern typeQNamePattern, QNamePattern qnamePattern)
{
Node node = getNodeNotNull(nodeRef);
// get the assocs pointing from it
Collection<ChildAssociationRef> childAssocRefs = nodeDaoService.getChildAssocRefs(node);
// shortcut if there are no assocs
if (childAssocRefs.size() == 0)
{
return Collections.emptyList();
}
// sort results
ArrayList<ChildAssociationRef> orderedList = new ArrayList<ChildAssociationRef>(childAssocRefs);
Collections.sort(orderedList);
// list of results
int nthSibling = 0;
Iterator<ChildAssociationRef> iterator = orderedList.iterator();
while(iterator.hasNext())
{
ChildAssociationRef childAssocRef = iterator.next();
// does the qname match the pattern?
if (!qnamePattern.isMatch(childAssocRef.getQName()) || !typeQNamePattern.isMatch(childAssocRef.getTypeQName()))
{
// no match - remove
iterator.remove();
}
else
{
childAssocRef.setNthSibling(nthSibling);
nthSibling++;
}
}
// done
return orderedList;
}
public NodeRef getChildByName(NodeRef nodeRef, QName assocTypeQName, String childName)
{
Node node = getNodeNotNull(nodeRef);
ChildAssoc childAssoc = nodeDaoService.getChildAssoc(node, assocTypeQName, childName);
if (childAssoc != null)
{
return childAssoc.getChild().getNodeRef();
}
else
{
return null;
}
}
public ChildAssociationRef getPrimaryParent(NodeRef nodeRef) throws InvalidNodeRefException
{
Node node = getNodeNotNull(nodeRef);
// get the primary parent assoc
ChildAssoc assoc = nodeDaoService.getPrimaryParentAssoc(node);
// done - the assoc may be null for a root node
ChildAssociationRef assocRef = null;
if (assoc == null)
{
assocRef = new ChildAssociationRef(null, null, null, nodeRef);
}
else
{
assocRef = assoc.getChildAssocRef();
}
return assocRef;
}
public AssociationRef createAssociation(NodeRef sourceRef, NodeRef targetRef, QName assocTypeQName)
throws InvalidNodeRefException, AssociationExistsException
{
// Invoke policy behaviours
invokeBeforeUpdateNode(sourceRef);
Node sourceNode = getNodeNotNull(sourceRef);
Node targetNode = getNodeNotNull(targetRef);
// see if it exists
NodeAssoc assoc = nodeDaoService.getNodeAssoc(sourceNode, targetNode, assocTypeQName);
if (assoc != null)
{
throw new AssociationExistsException(sourceRef, targetRef, assocTypeQName);
}
// we are sure that the association doesn't exist - make it
assoc = nodeDaoService.newNodeAssoc(sourceNode, targetNode, assocTypeQName);
AssociationRef assocRef = assoc.getNodeAssocRef();
// Invoke policy behaviours
invokeOnUpdateNode(sourceRef);
invokeOnCreateAssociation(assocRef);
return assocRef;
}
public void removeAssociation(NodeRef sourceRef, NodeRef targetRef, QName assocTypeQName)
throws InvalidNodeRefException
{
Node sourceNode = getNodeNotNull(sourceRef);
Node targetNode = getNodeNotNull(targetRef);
// get the association
NodeAssoc assoc = nodeDaoService.getNodeAssoc(sourceNode, targetNode, assocTypeQName);
if (assoc == null)
{
// nothing to remove
return;
}
AssociationRef assocRef = assoc.getNodeAssocRef();
// Invoke policy behaviours
invokeBeforeUpdateNode(sourceRef);
// delete it
nodeDaoService.deleteNodeAssoc(assoc);
// Invoke policy behaviours
invokeOnUpdateNode(sourceRef);
invokeOnDeleteAssociation(assocRef);
}
public List<AssociationRef> getTargetAssocs(NodeRef sourceRef, QNamePattern qnamePattern)
{
Node sourceNode = getNodeNotNull(sourceRef);
// get all assocs to target
Collection<NodeAssoc> assocs = nodeDaoService.getTargetNodeAssocs(sourceNode);
List<AssociationRef> nodeAssocRefs = new ArrayList<AssociationRef>(assocs.size());
for (NodeAssoc assoc : assocs)
{
// check qname pattern
if (!qnamePattern.isMatch(assoc.getTypeQName()))
{
continue; // the assoc name doesn't match the pattern given
}
nodeAssocRefs.add(assoc.getNodeAssocRef());
}
// done
return nodeAssocRefs;
}
public List<AssociationRef> getSourceAssocs(NodeRef targetRef, QNamePattern qnamePattern)
{
Node targetNode = getNodeNotNull(targetRef);
// get all assocs to source
Collection<NodeAssoc> assocs = nodeDaoService.getSourceNodeAssocs(targetNode);
List<AssociationRef> nodeAssocRefs = new ArrayList<AssociationRef>(assocs.size());
for (NodeAssoc assoc : assocs)
{
// check qname pattern
if (!qnamePattern.isMatch(assoc.getTypeQName()))
{
continue; // the assoc name doesn't match the pattern given
}
nodeAssocRefs.add(assoc.getNodeAssocRef());
}
// done
return nodeAssocRefs;
}
/**
* Recursive method used to build up paths from a given node to the root.
* <p>
* Whilst walking up the hierarchy to the root, some nodes may have a <b>root</b> aspect.
* Everytime one of these is encountered, a new path is farmed off, but the method
* continues to walk up the hierarchy.
*
* @param currentNode the node to start from, i.e. the child node to work upwards from
* @param currentPath the path from the current node to the descendent that we started from
* @param completedPaths paths that have reached the root are added to this collection
* @param assocStack the parent-child relationships traversed whilst building the path.
* Used to detected cyclic relationships.
* @param primaryOnly true if only the primary parent association must be traversed.
* If this is true, then the only root is the top level node having no parents.
* @throws CyclicChildRelationshipException
*/
private void prependPaths(
final Node currentNode,
final Path currentPath,
Collection<Path> completedPaths,
Stack<ChildAssoc> assocStack,
boolean primaryOnly)
throws CyclicChildRelationshipException
{
NodeRef currentNodeRef = currentNode.getNodeRef();
// get the parent associations of the given node
Collection<ChildAssoc> parentAssocs = currentNode.getParentAssocs();
// does the node have parents
boolean hasParents = parentAssocs.size() > 0;
// does the current node have a root aspect?
boolean isRoot = hasAspect(currentNodeRef, ContentModel.ASPECT_ROOT);
boolean isStoreRoot = currentNode.getTypeQName().equals(ContentModel.TYPE_STOREROOT);
// look for a root. If we only want the primary root, then ignore all but the top-level root.
if (isRoot && !(primaryOnly && hasParents)) // exclude primary search with parents present
{
// create a one-sided assoc ref for the root node and prepend to the stack
// this effectively spoofs the fact that the current node is not below the root
// - we put this assoc in as the first assoc in the path must be a one-sided
// reference pointing to the root node
ChildAssociationRef assocRef = new ChildAssociationRef(
null,
null,
null,
getRootNode(currentNode.getNodeRef().getStoreRef()));
// create a path to save and add the 'root' assoc
Path pathToSave = new Path();
Path.ChildAssocElement first = null;
for (Path.Element element: currentPath)
{
if (first == null)
{
first = (Path.ChildAssocElement) element;
}
else
{
pathToSave.append(element);
}
}
if (first != null)
{
// mimic an association that would appear if the current node was below
// the root node
// or if first beneath the root node it will make the real thing
ChildAssociationRef updateAssocRef = new ChildAssociationRef(
isStoreRoot ? ContentModel.ASSOC_CHILDREN : first.getRef().getTypeQName(),
getRootNode(currentNode.getNodeRef().getStoreRef()),
first.getRef().getQName(),
first.getRef().getChildRef());
Path.Element newFirst = new Path.ChildAssocElement(updateAssocRef);
pathToSave.prepend(newFirst);
}
Path.Element element = new Path.ChildAssocElement(assocRef);
pathToSave.prepend(element);
// store the path just built
completedPaths.add(pathToSave);
}
if (parentAssocs.size() == 0 && !isRoot)
{
throw new RuntimeException("Node without parents does not have root aspect: " +
currentNodeRef);
}
// walk up each parent association
for (ChildAssoc assoc : parentAssocs)
{
// does the association already exist in the stack
if (assocStack.contains(assoc))
{
// the association was present already
throw new CyclicChildRelationshipException(
"Cyclic parent-child relationship detected: \n" +
" current node: " + currentNode + "\n" +
" current path: " + currentPath + "\n" +
" next assoc: " + assoc,
assoc);
}
// do we consider only primary assocs?
if (primaryOnly && !assoc.getIsPrimary())
{
continue;
}
// build a path element
NodeRef parentRef = assoc.getParent().getNodeRef();
QName qname = assoc.getQname();
NodeRef childRef = assoc.getChild().getNodeRef();
boolean isPrimary = assoc.getIsPrimary();
// build a real association reference
ChildAssociationRef assocRef = new ChildAssociationRef(assoc.getTypeQName(), parentRef, qname, childRef, isPrimary, -1);
// Ordering is not important here: We are building distinct paths upwards
Path.Element element = new Path.ChildAssocElement(assocRef);
// create a new path that builds on the current path
Path path = new Path();
path.append(currentPath);
// prepend element
path.prepend(element);
// get parent node
Node parentNode = assoc.getParent();
// push the assoc stack, recurse and pop
assocStack.push(assoc);
prependPaths(parentNode, path, completedPaths, assocStack, primaryOnly);
assocStack.pop();
}
// done
}
/**
* @see #getPaths(NodeRef, boolean)
* @see #prependPaths(Node, Path, Collection, Stack, boolean)
*/
public Path getPath(NodeRef nodeRef) throws InvalidNodeRefException
{
List<Path> paths = getPaths(nodeRef, true); // checks primary path count
if (paths.size() == 1)
{
return paths.get(0); // we know there is only one
}
throw new RuntimeException("Primary path count not checked"); // checked by getPaths()
}
/**
* When searching for <code>primaryOnly == true</code>, checks that there is exactly
* one path.
* @see #prependPaths(Node, Path, Collection, Stack, boolean)
*/
public List<Path> getPaths(NodeRef nodeRef, boolean primaryOnly) throws InvalidNodeRefException
{
// get the starting node
Node node = getNodeNotNull(nodeRef);
// create storage for the paths - only need 1 bucket if we are looking for the primary path
List<Path> paths = new ArrayList<Path>(primaryOnly ? 1 : 10);
// create an empty current path to start from
Path currentPath = new Path();
// create storage for touched associations
Stack<ChildAssoc> assocStack = new Stack<ChildAssoc>();
// call recursive method to sort it out
prependPaths(node, currentPath, paths, assocStack, primaryOnly);
// check that for the primary only case we have exactly one path
if (primaryOnly && paths.size() != 1)
{
throw new RuntimeException("Node has " + paths.size() + " primary paths: " + nodeRef);
}
// done
return paths;
}
private void archiveNode(NodeRef nodeRef, StoreRef archiveStoreRef)
{
Node node = getNodeNotNull(nodeRef);
ChildAssoc primaryParentAssoc = nodeDaoService.getPrimaryParentAssoc(node);
// add the aspect
Set<QName> aspects = node.getAspects();
aspects.add(ContentModel.ASPECT_ARCHIVED);
Map<QName, PropertyValue> properties = node.getProperties();
PropertyValue archivedByProperty = makePropertyValue(
dictionaryService.getProperty(ContentModel.PROP_ARCHIVED_BY),
AuthenticationUtil.getCurrentUserName());
properties.put(ContentModel.PROP_ARCHIVED_BY, archivedByProperty);
PropertyValue archivedDateProperty = makePropertyValue(
dictionaryService.getProperty(ContentModel.PROP_ARCHIVED_DATE),
new Date());
properties.put(ContentModel.PROP_ARCHIVED_DATE, archivedDateProperty);
PropertyValue archivedPrimaryParentNodeRefProperty = makePropertyValue(
dictionaryService.getProperty(ContentModel.PROP_ARCHIVED_ORIGINAL_PARENT_ASSOC),
primaryParentAssoc.getChildAssocRef());
properties.put(ContentModel.PROP_ARCHIVED_ORIGINAL_PARENT_ASSOC, archivedPrimaryParentNodeRefProperty);
PropertyValue originalOwnerProperty = properties.get(ContentModel.PROP_OWNER);
PropertyValue originalCreatorProperty = properties.get(ContentModel.PROP_CREATOR);
if (originalOwnerProperty != null || originalCreatorProperty != null)
{
properties.put(
ContentModel.PROP_ARCHIVED_ORIGINAL_OWNER,
originalOwnerProperty != null ? originalOwnerProperty : originalCreatorProperty);
}
// change the node ownership
aspects.add(ContentModel.ASPECT_OWNABLE);
PropertyValue newOwnerProperty = makePropertyValue(
dictionaryService.getProperty(ContentModel.PROP_ARCHIVED_ORIGINAL_OWNER),
AuthenticationUtil.getCurrentUserName());
properties.put(ContentModel.PROP_OWNER, newOwnerProperty);
// move the node
NodeRef archiveStoreRootNodeRef = getRootNode(archiveStoreRef);
moveNode(
nodeRef,
archiveStoreRootNodeRef,
ContentModel.ASSOC_CHILDREN,
QName.createQName(NamespaceService.SYSTEM_MODEL_1_0_URI, "archivedItem"));
// get the IDs of all the node's primary children, including its own
Map<Long, Node> nodesById = getNodeHierarchy(node, null);
// Archive all the associations between the archived nodes and non-archived nodes
for (Node nodeToArchive : nodesById.values())
{
archiveAssocs(nodeToArchive, nodesById);
}
// the node reference has changed due to the store move
nodeRef = node.getNodeRef();
}
/**
* Performs all the necessary housekeeping involved in changing a node's store.
* This method cascades down through all the primary children of the node as
* well.
*
* @param node the node whose store is changing
* @param store the new store for the node
*/
private void moveNodeToStore(Node node, Store store)
{
// get the IDs of all the node's primary children, including its own
Map<Long, Node> nodesById = getNodeHierarchy(node, null);
// move each node into the archive store
for (Node nodeToMove : nodesById.values())
{
NodeRef oldNodeRef = nodeToMove.getNodeRef();
nodeToMove.setStore(store);
NodeRef newNodeRef = nodeToMove.getNodeRef();
String txnId = AlfrescoTransactionSupport.getTransactionId();
// update old status
NodeStatus oldNodeStatus = nodeDaoService.getNodeStatus(oldNodeRef, true);
oldNodeStatus.setNode(null);
oldNodeStatus.setChangeTxnId(txnId);
// create the new status
NodeStatus newNodeStatus = nodeDaoService.getNodeStatus(newNodeRef, true);
newNodeStatus.setNode(nodeToMove);
newNodeStatus.setChangeTxnId(txnId);
}
}
/**
* Fill the map of all primary children below the given node.
* The given node will be added to the map and the method is recursive
* to all primary children.
*
* @param node the start of the hierarchy
* @param nodesById a map of nodes that will be reused as the return value
* @return Returns a map of nodes in the hierarchy keyed by their IDs
*/
private Map<Long, Node> getNodeHierarchy(Node node, Map<Long, Node> nodesById)
{
if (nodesById == null)
{
nodesById = new HashMap<Long, Node>(23);
}
Long id = node.getId();
if (nodesById.containsKey(id))
{
// this ID was already added - circular reference
logger.warn("Circular hierarchy found including node " + id);
return nodesById;
}
// add the node to the map
nodesById.put(id, node);
// recurse into the primary children
Collection<ChildAssoc> childAssocs = nodeDaoService.getChildAssocs(node);
for (ChildAssoc childAssoc : childAssocs)
{
// cascade into primary associations
if (childAssoc.getIsPrimary())
{
Node primaryChild = childAssoc.getChild();
nodesById = getNodeHierarchy(primaryChild, nodesById);
}
}
return nodesById;
}
/**
* Archive all associations to and from the given node, with the
* exception of associations to or from nodes in the given map.
* <p>
* Primary parent associations are also ignored.
*
* @param node the node whose associations must be archived
* @param nodesById a map of nodes partaking in the archival process
*/
private void archiveAssocs(Node node, Map<Long, Node> nodesById)
{
List<ChildAssoc> childAssocsToDelete = new ArrayList<ChildAssoc>(5);
// child associations
ArrayList<ChildAssociationRef> archivedChildAssocRefs = new ArrayList<ChildAssociationRef>(5);
Collection<ChildAssoc> childAssocs = nodeDaoService.getChildAssocs(node);
for (ChildAssoc assoc : childAssocs)
{
Long relatedNodeId = assoc.getChild().getId();
if (nodesById.containsKey(relatedNodeId))
{
// a sibling in the archive process
continue;
}
childAssocsToDelete.add(assoc);
archivedChildAssocRefs.add(assoc.getChildAssocRef());
}
// parent associations
ArrayList<ChildAssociationRef> archivedParentAssocRefs = new ArrayList<ChildAssociationRef>(5);
for (ChildAssoc assoc : node.getParentAssocs())
{
Long relatedNodeId = assoc.getParent().getId();
if (nodesById.containsKey(relatedNodeId))
{
// a sibling in the archive process
continue;
}
else if (assoc.getIsPrimary())
{
// ignore the primary parent as this is handled more specifically
continue;
}
childAssocsToDelete.add(assoc);
archivedParentAssocRefs.add(assoc.getChildAssocRef());
}
List<NodeAssoc> nodeAssocsToDelete = new ArrayList<NodeAssoc>(5);
// source associations
ArrayList<AssociationRef> archivedSourceAssocRefs = new ArrayList<AssociationRef>(5);
for (NodeAssoc assoc : nodeDaoService.getSourceNodeAssocs(node))
{
Long relatedNodeId = assoc.getSource().getId();
if (nodesById.containsKey(relatedNodeId))
{
// a sibling in the archive process
continue;
}
nodeAssocsToDelete.add(assoc);
archivedSourceAssocRefs.add(assoc.getNodeAssocRef());
}
// target associations
ArrayList<AssociationRef> archivedTargetAssocRefs = new ArrayList<AssociationRef>(5);
for (NodeAssoc assoc : nodeDaoService.getTargetNodeAssocs(node))
{
Long relatedNodeId = assoc.getTarget().getId();
if (nodesById.containsKey(relatedNodeId))
{
// a sibling in the archive process
continue;
}
nodeAssocsToDelete.add(assoc);
archivedTargetAssocRefs.add(assoc.getNodeAssocRef());
}
// delete child assocs
for (ChildAssoc assoc : childAssocsToDelete)
{
nodeDaoService.deleteChildAssoc(assoc, false);
}
// delete node assocs
for (NodeAssoc assoc : nodeAssocsToDelete)
{
nodeDaoService.deleteNodeAssoc(assoc);
}
// add archived aspect
node.getAspects().add(ContentModel.ASPECT_ARCHIVED_ASSOCS);
// set properties
Map<QName, PropertyValue> properties = node.getProperties();
if (archivedParentAssocRefs.size() > 0)
{
PropertyDefinition propertyDef = dictionaryService.getProperty(ContentModel.PROP_ARCHIVED_PARENT_ASSOCS);
PropertyValue propertyValue = makePropertyValue(propertyDef, archivedParentAssocRefs);
properties.put(ContentModel.PROP_ARCHIVED_PARENT_ASSOCS, propertyValue);
}
if (archivedChildAssocRefs.size() > 0)
{
PropertyDefinition propertyDef = dictionaryService.getProperty(ContentModel.PROP_ARCHIVED_CHILD_ASSOCS);
PropertyValue propertyValue = makePropertyValue(propertyDef, archivedChildAssocRefs);
properties.put(ContentModel.PROP_ARCHIVED_CHILD_ASSOCS, propertyValue);
}
if (archivedSourceAssocRefs.size() > 0)
{
PropertyDefinition propertyDef = dictionaryService.getProperty(ContentModel.PROP_ARCHIVED_SOURCE_ASSOCS);
PropertyValue propertyValue = makePropertyValue(propertyDef, archivedSourceAssocRefs);
properties.put(ContentModel.PROP_ARCHIVED_SOURCE_ASSOCS, propertyValue);
}
if (archivedTargetAssocRefs.size() > 0)
{
PropertyDefinition propertyDef = dictionaryService.getProperty(ContentModel.PROP_ARCHIVED_TARGET_ASSOCS);
PropertyValue propertyValue = makePropertyValue(propertyDef, archivedTargetAssocRefs);
properties.put(ContentModel.PROP_ARCHIVED_TARGET_ASSOCS, propertyValue);
}
}
public NodeRef getStoreArchiveNode(StoreRef storeRef)
{
StoreRef archiveStoreRef = storeArchiveMap.getArchiveMap().get(storeRef);
if (archiveStoreRef == null)
{
// no mapping for the given store
return null;
}
else
{
return getRootNode(archiveStoreRef);
}
}
public NodeRef restoreNode(NodeRef archivedNodeRef, NodeRef destinationParentNodeRef, QName assocTypeQName, QName assocQName)
{
Node archivedNode = getNodeNotNull(archivedNodeRef);
Set<QName> aspects = archivedNode.getAspects();
Map<QName, PropertyValue> properties = archivedNode.getProperties();
// the node must be a top-level archive node
if (!aspects.contains(ContentModel.ASPECT_ARCHIVED))
{
throw new AlfrescoRuntimeException("The node to archive is not an archive node");
}
ChildAssociationRef originalPrimaryParentAssocRef = (ChildAssociationRef) makeSerializableValue(
dictionaryService.getProperty(ContentModel.PROP_ARCHIVED_ORIGINAL_PARENT_ASSOC),
properties.get(ContentModel.PROP_ARCHIVED_ORIGINAL_PARENT_ASSOC));
PropertyValue originalOwnerProperty = properties.get(ContentModel.PROP_ARCHIVED_ORIGINAL_OWNER);
// remove the aspect archived aspect
aspects.remove(ContentModel.ASPECT_ARCHIVED);
properties.remove(ContentModel.PROP_ARCHIVED_ORIGINAL_PARENT_ASSOC);
properties.remove(ContentModel.PROP_ARCHIVED_BY);
properties.remove(ContentModel.PROP_ARCHIVED_DATE);
properties.remove(ContentModel.PROP_ARCHIVED_ORIGINAL_OWNER);
// restore the original ownership
if (originalOwnerProperty != null)
{
aspects.add(ContentModel.ASPECT_OWNABLE);
properties.put(ContentModel.PROP_OWNER, originalOwnerProperty);
}
if (destinationParentNodeRef == null)
{
// we must restore to the original location
destinationParentNodeRef = originalPrimaryParentAssocRef.getParentRef();
}
// check the associations
if (assocTypeQName == null)
{
assocTypeQName = originalPrimaryParentAssocRef.getTypeQName();
}
if (assocQName == null)
{
assocQName = originalPrimaryParentAssocRef.getQName();
}
// move the node to the target parent, which may or may not be the original parent
moveNode(
archivedNodeRef,
destinationParentNodeRef,
assocTypeQName,
assocQName);
// get the IDs of all the node's primary children, including its own
Map<Long, Node> restoredNodesById = getNodeHierarchy(archivedNode, null);
// Restore the archived associations, if required
for (Node restoredNode : restoredNodesById.values())
{
restoreAssocs(restoredNode);
}
// the node reference has changed due to the store move
NodeRef restoredNodeRef = archivedNode.getNodeRef();
// done
if (logger.isDebugEnabled())
{
logger.debug("Restored node: \n" +
" original noderef: " + archivedNodeRef + "\n" +
" restored noderef: " + restoredNodeRef + "\n" +
" new parent: " + destinationParentNodeRef);
}
return restoredNodeRef;
}
private void restoreAssocs(Node node)
{
NodeRef nodeRef = node.getNodeRef();
// set properties
Map<QName, PropertyValue> properties = node.getProperties();
// restore parent associations
Collection<ChildAssociationRef> parentAssocRefs = (Collection<ChildAssociationRef>) getProperty(
nodeRef,
ContentModel.PROP_ARCHIVED_PARENT_ASSOCS);
if (parentAssocRefs != null)
{
for (ChildAssociationRef assocRef : parentAssocRefs)
{
NodeRef parentNodeRef = assocRef.getParentRef();
if (!exists(parentNodeRef))
{
continue;
}
Node parentNode = getNodeNotNull(parentNodeRef);
// get the name to use for the unique child check
QName assocTypeQName = assocRef.getTypeQName();
nodeDaoService.newChildAssoc(
parentNode,
node,
assocRef.isPrimary(),
assocTypeQName,
assocRef.getQName());
}
properties.remove(ContentModel.PROP_ARCHIVED_PARENT_ASSOCS);
}
// make sure that the node name uniqueness is enforced
setChildUniqueName(node);
// restore child associations
Collection<ChildAssociationRef> childAssocRefs = (Collection<ChildAssociationRef>) getProperty(
nodeRef,
ContentModel.PROP_ARCHIVED_CHILD_ASSOCS);
if (childAssocRefs != null)
{
for (ChildAssociationRef assocRef : childAssocRefs)
{
NodeRef childNodeRef = assocRef.getChildRef();
if (!exists(childNodeRef))
{
continue;
}
Node childNode = getNodeNotNull(childNodeRef);
QName assocTypeQName = assocRef.getTypeQName();
// get the name to use for the unique child check
nodeDaoService.newChildAssoc(
node,
childNode,
assocRef.isPrimary(),
assocTypeQName,
assocRef.getQName());
// ensure that the name uniqueness is enforced for the child node
setChildUniqueName(childNode);
}
properties.remove(ContentModel.PROP_ARCHIVED_CHILD_ASSOCS);
}
// restore source associations
Collection<AssociationRef> sourceAssocRefs = (Collection<AssociationRef>) getProperty(
nodeRef,
ContentModel.PROP_ARCHIVED_SOURCE_ASSOCS);
if (sourceAssocRefs != null)
{
for (AssociationRef assocRef : sourceAssocRefs)
{
NodeRef sourceNodeRef = assocRef.getSourceRef();
if (!exists(sourceNodeRef))
{
continue;
}
Node sourceNode = getNodeNotNull(sourceNodeRef);
nodeDaoService.newNodeAssoc(sourceNode, node, assocRef.getTypeQName());
}
properties.remove(ContentModel.PROP_ARCHIVED_SOURCE_ASSOCS);
}
// restore target associations
Collection<AssociationRef> targetAssocRefs = (Collection<AssociationRef>) getProperty(
nodeRef,
ContentModel.PROP_ARCHIVED_TARGET_ASSOCS);
if (targetAssocRefs != null)
{
for (AssociationRef assocRef : targetAssocRefs)
{
NodeRef targetNodeRef = assocRef.getTargetRef();
if (!exists(targetNodeRef))
{
continue;
}
Node targetNode = getNodeNotNull(targetNodeRef);
nodeDaoService.newNodeAssoc(node, targetNode, assocRef.getTypeQName());
}
properties.remove(ContentModel.PROP_ARCHIVED_TARGET_ASSOCS);
}
// remove the aspect
node.getAspects().remove(ContentModel.ASPECT_ARCHIVED_ASSOCS);
}
/**
* Checks the dictionary's definition of the association to assign a unique name to the child node.
*
* @param assocTypeQName the type of the child association
* @param childNode the child node being added. The name will be extracted from it, if necessary.
* @return Returns the value to be put on the child association for uniqueness, or null if
*/
private void setChildUniqueName(Node childNode)
{
// get the name property
Map<QName, PropertyValue> properties = childNode.getProperties();
PropertyValue nameValue = properties.get(ContentModel.PROP_NAME);
String useName = null;
if (nameValue == null)
{
// no name has been assigned, so assign the ID of the child node
useName = childNode.getUuid();
}
else
{
useName = (String) nameValue.getValue(DataTypeDefinition.TEXT);
}
// get all the parent assocs
Collection<ChildAssoc> parentAssocs = childNode.getParentAssocs();
for (ChildAssoc assoc : parentAssocs)
{
QName assocTypeQName = assoc.getTypeQName();
AssociationDefinition assocDef = dictionaryService.getAssociation(assocTypeQName);
if (!assocDef.isChild())
{
throw new DataIntegrityViolationException("Child association has non-child type: " + assoc.getId());
}
ChildAssociationDefinition childAssocDef = (ChildAssociationDefinition) assocDef;
if (childAssocDef.getDuplicateChildNamesAllowed())
{
// the name is irrelevant, so it doesn't need to be put into the unique key
nodeDaoService.setChildNameUnique(assoc, null);
}
else
{
nodeDaoService.setChildNameUnique(assoc, useName);
}
}
// done
if (logger.isDebugEnabled())
{
logger.debug(
"Unique name set for all " + parentAssocs.size() + " parent associations: \n" +
" name: " + useName);
}
}
}
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