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alfresco-community-repo/source/java/org/alfresco/repo/avm/LayeredDirectoryNodeImpl.java
Britt Park 0a76193084 AVM nodes get a useful version id. 
git-svn-id: https://svn.alfresco.com/repos/alfresco-enterprise/alfresco/HEAD/root@4727 c4b6b30b-aa2e-2d43-bbcb-ca4b014f7261
2007-01-04 14:59:29 +00:00

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/*
* Copyright (C) 2006 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.avm;
import java.util.ArrayList;
import java.util.HashMap;
import java.util.List;
import java.util.Map;
import java.util.SortedMap;
import java.util.TreeMap;
import org.alfresco.service.cmr.avm.AVMBadArgumentException;
import org.alfresco.service.cmr.avm.AVMException;
import org.alfresco.service.cmr.avm.AVMExistsException;
import org.alfresco.service.cmr.avm.AVMNodeDescriptor;
import org.alfresco.service.cmr.avm.AVMNotFoundException;
/**
* A layered directory node. A layered directory node points at
* an underlying directory, which may or may not exist. The visible
* contents of a layered directory node is the contents of the underlying node
* pointed at plus those nodes added to or modified in the layered directory node minus
* those nodes which have been deleted in the layered directory node.
* @author britt
*/
class LayeredDirectoryNodeImpl extends DirectoryNodeImpl implements LayeredDirectoryNode
{
static final long serialVersionUID = 4623043057918181724L;
/**
* The layer id.
*/
private long fLayerID;
/**
* The pointer to the underlying directory.
*/
private String fIndirection;
/**
* Whether this is a primary indirection node.
*/
private boolean fPrimaryIndirection;
/**
* Whether this is opaque.
*/
private boolean fOpacity;
/**
* Default constructor. Called by Hibernate.
*/
protected LayeredDirectoryNodeImpl()
{
}
/**
* Make a new one from a specified indirection path.
* @param indirection The indirection path to set.
* @param store The store that owns this node.
*/
public LayeredDirectoryNodeImpl(String indirection, AVMStore store, AVMNode toCopy)
{
super(store.getAVMRepository().issueID(), store);
fLayerID = -1;
fIndirection = indirection;
fPrimaryIndirection = true;
fOpacity = false;
if (toCopy != null)
{
setVersionID(toCopy.getVersionID() + 1);
}
else
{
setVersionID(1);
}
AVMDAOs.Instance().fAVMNodeDAO.save(this);
AVMDAOs.Instance().fAVMNodeDAO.flush();
if (toCopy != null)
{
copyProperties(toCopy);
copyACLs(toCopy);
copyAspects(toCopy);
}
}
/**
* Kind of copy constructor, sort of.
* @param other The LayeredDirectoryNode we are copied from.
* @param repos The AVMStore object we use.
*/
@SuppressWarnings("unchecked")
public LayeredDirectoryNodeImpl(LayeredDirectoryNode other,
AVMStore repos)
{
super(repos.getAVMRepository().issueID(), repos);
fIndirection = other.getUnderlying();
fPrimaryIndirection = other.getPrimaryIndirection();
fLayerID = -1;
fOpacity = false;
AVMDAOs.Instance().fAVMNodeDAO.save(this);
for (ChildEntry child : AVMDAOs.Instance().fChildEntryDAO.getByParent(other))
{
ChildKey key = new ChildKey(this, child.getKey().getName());
ChildEntryImpl newChild = new ChildEntryImpl(key,
child.getChild());
AVMDAOs.Instance().fChildEntryDAO.save(newChild);
}
setVersionID(other.getVersionID() + 1);
AVMDAOs.Instance().fAVMNodeDAO.flush();
copyProperties(other);
copyAspects(other);
copyACLs(other);
}
/**
* Construct one from a PlainDirectoryNode. Called when a COW is performed in a layered
* context.
* @param other The PlainDirectoryNode.
* @param store The AVMStore we should belong to.
* @param lPath The Lookup object.
*/
@SuppressWarnings("unchecked")
public LayeredDirectoryNodeImpl(PlainDirectoryNode other,
AVMStore store,
Lookup lPath,
boolean copyContents)
{
super(store.getAVMRepository().issueID(), store);
fIndirection = null;
fPrimaryIndirection = false;
fLayerID = -1;
fOpacity = false;
AVMDAOs.Instance().fAVMNodeDAO.save(this);
if (copyContents)
{
for (ChildEntry child : AVMDAOs.Instance().fChildEntryDAO.getByParent(other))
{
ChildKey key = new ChildKey(this, child.getKey().getName());
ChildEntryImpl newChild = new ChildEntryImpl(key,
child.getChild());
AVMDAOs.Instance().fChildEntryDAO.save(newChild);
}
}
setVersionID(other.getVersionID() + 1);
AVMDAOs.Instance().fAVMNodeDAO.flush();
copyProperties(other);
copyAspects(other);
copyACLs(other);
}
/**
* Create a new layered directory based on a directory we are being named from
* that is in not in the layer of the source lookup.
* @param dir The directory
* @param store The store
* @param srcLookup The source lookup.
* @param name The name of the target.
*/
public LayeredDirectoryNodeImpl(DirectoryNode dir,
AVMStore store,
Lookup srcLookup,
String name)
{
super(store.getAVMRepository().issueID(), store);
fIndirection = srcLookup.getIndirectionPath() + "/" + name;
fPrimaryIndirection = true;
fLayerID = -1;
fOpacity = false;
setVersionID(dir.getVersionID() + 1);
AVMDAOs.Instance().fAVMNodeDAO.save(this);
AVMDAOs.Instance().fAVMNodeDAO.flush();
copyProperties(dir);
copyAspects(dir);
copyACLs(dir);
}
/**
* Is this a primary indirection node.
* @return Whether this is a primary indirection.
*/
public boolean getPrimaryIndirection()
{
return fPrimaryIndirection;
}
/**
* Set the primary indirection state of this.
* @param has Whether this is a primary indirection node.
*/
public void setPrimaryIndirection(boolean has)
{
fPrimaryIndirection = has;
}
/**
* Get the indirection path.
* @return The indirection path.
*/
public String getIndirection()
{
return fIndirection;
}
public String getUnderlying()
{
return fIndirection;
}
/**
* Get the underlying path in the Lookup's context.
* @param lPath The Lookup.
* @return The underlying path.
*/
public String getUnderlying(Lookup lPath)
{
if (fPrimaryIndirection)
{
return fIndirection;
}
return lPath.getCurrentIndirection();
}
/**
* Get the layer id.
* @return The layer id.
*/
public long getLayerID()
{
return fLayerID;
}
/**
* Set the layer id.
* @param id The id to set.
*/
public void setLayerID(long id)
{
fLayerID = id;
}
/**
* Copy on write logic.
* @param lPath
* @return The copy or null.
*/
public AVMNode copy(Lookup lPath)
{
// Capture the store.
AVMStore store = lPath.getAVMStore();
LayeredDirectoryNodeImpl newMe = null;
if (!lPath.isInThisLayer())
{
// This means that this is being seen indirectly through the topmost
// layer. The following creates a node that will inherit its
// indirection from its parent.
newMe = new LayeredDirectoryNodeImpl((String)null,
store, this);
newMe.setPrimaryIndirection(false);
newMe.setLayerID(lPath.getTopLayer().getLayerID());
}
else
{
// A simple copy is made.
newMe = new LayeredDirectoryNodeImpl(this,
store);
newMe.setLayerID(getLayerID());
}
newMe.setAncestor(this);
return newMe;
}
/**
* Insert a child node without COW.
* @param name The name to give the child.
*/
public void putChild(String name, AVMNode node)
{
if (DEBUG)
{
checkReadOnly();
}
ChildKey key = new ChildKey(this, name);
ChildEntry existing = AVMDAOs.Instance().fChildEntryDAO.get(key);
if (existing != null)
{
AVMDAOs.Instance().fChildEntryDAO.delete(existing);
}
ChildEntry entry = new ChildEntryImpl(key, node);
AVMDAOs.Instance().fAVMNodeDAO.flush();
AVMDAOs.Instance().fChildEntryDAO.save(entry);
}
/**
* Does this node directly contain the indicated node.
* @param node The node we are checking.
* @return Whether node is directly contained.
*/
public boolean directlyContains(AVMNode node)
{
return AVMDAOs.Instance().fChildEntryDAO.getByParentChild(this, node) != null;
}
/**
* Get a listing of the virtual contents of this directory.
* @param lPath The Lookup.
* @return A Map from names to nodes. This is a sorted Map.
*/
@SuppressWarnings("unchecked")
public Map<String, AVMNode> getListing(Lookup lPath, boolean includeDeleted)
{
// Get the base listing from the thing we indirect to.
Map<String, AVMNode> listing = null;
if (fOpacity)
{
listing = new HashMap<String, AVMNode>();
}
else
{
Lookup lookup = AVMRepository.GetInstance().lookupDirectory(-1, getUnderlying(lPath));
if (lookup != null)
{
DirectoryNode dir = (DirectoryNode)lookup.getCurrentNode();
listing = dir.getListing(lookup, includeDeleted);
}
else
{
// It's OK for an indirection to dangle.
listing = new HashMap<String, AVMNode>();
}
}
for (ChildEntry entry : AVMDAOs.Instance().fChildEntryDAO.getByParent(this))
{
if (!includeDeleted && entry.getChild().getType() == AVMNodeType.DELETED_NODE)
{
listing.remove(entry.getKey().getName());
}
else
{
listing.put(entry.getKey().getName(), entry.getChild());
}
}
return listing;
}
/**
* Get a listing of the nodes directly contained by a directory.
* @param lPath The Lookup to this directory.
* @return A Map of names to nodes.
*/
public Map<String, AVMNode> getListingDirect(Lookup lPath, boolean includeDeleted)
{
Map<String, AVMNode> listing = new HashMap<String, AVMNode>();
for (ChildEntry entry : AVMDAOs.Instance().fChildEntryDAO.getByParent(this))
{
if (includeDeleted || entry.getChild().getType() != AVMNodeType.DELETED_NODE)
{
listing.put(entry.getKey().getName(), entry.getChild());
}
}
return listing;
}
/**
* Get the direct contents of this directory.
* @param dir The descriptor that describes us.
* @param includeDeleted Whether to inlude deleted nodes.
* @return A Map of Strings to descriptors.
*/
public SortedMap<String, AVMNodeDescriptor> getListingDirect(AVMNodeDescriptor dir,
boolean includeDeleted)
{
List<ChildEntry> children = AVMDAOs.Instance().fChildEntryDAO.getByParent(this);
SortedMap<String, AVMNodeDescriptor> listing = new TreeMap<String, AVMNodeDescriptor>();
for (ChildEntry child : children)
{
AVMNode childNode = child.getChild();
if (!includeDeleted && childNode.getType() == AVMNodeType.DELETED_NODE)
{
continue;
}
AVMNodeDescriptor childDesc =
childNode.getDescriptor(dir.getPath(), child.getKey().getName(), dir.getIndirection());
listing.put(child.getKey().getName(), childDesc);
}
return listing;
}
/**
* Get a listing from a directory node descriptor.
* @param dir The directory node descriptor.
* @param includeDeleted Should DeletedNodes be shown.
* @return A Map of names to node descriptors.
*/
public SortedMap<String, AVMNodeDescriptor> getListing(AVMNodeDescriptor dir,
boolean includeDeleted)
{
if (dir.getPath() == null || dir.getIndirection() == null)
{
throw new AVMBadArgumentException("Illegal null argument.");
}
SortedMap<String, AVMNodeDescriptor> baseListing = new TreeMap<String, AVMNodeDescriptor>();
// If we are not opaque, get the underlying base listing.
if (!fOpacity)
{
Lookup lookup = AVMRepository.GetInstance().lookupDirectory(-1, dir.getIndirection());
if (lookup != null)
{
DirectoryNode dirNode = (DirectoryNode)lookup.getCurrentNode();
Map<String, AVMNode> listing = dirNode.getListing(lookup, includeDeleted);
for (String name : listing.keySet())
{
baseListing.put(name,
listing.get(name).getDescriptor(dir.getPath(), name,
lookup.getCurrentIndirection()));
}
}
}
List<ChildEntry> children = AVMDAOs.Instance().fChildEntryDAO.getByParent(this);
for (ChildEntry child : children)
{
if (!includeDeleted && child.getChild().getType() == AVMNodeType.DELETED_NODE)
{
baseListing.remove(child.getKey().getName());
}
else
{
baseListing.put(child.getKey().getName(),
child.getChild().getDescriptor(dir.getPath(),
child.getKey().getName(),
dir.getIndirection()));
}
}
return baseListing;
}
/**
* Get the names of nodes deleted in this directory.
* @return A List of names.
*/
public List<String> getDeletedNames()
{
List<ChildEntry> children = AVMDAOs.Instance().fChildEntryDAO.getByParent(this);
List<String> listing = new ArrayList<String>();
for (ChildEntry entry : children)
{
if (entry.getChild().getType() == AVMNodeType.DELETED_NODE)
{
listing.add(entry.getKey().getName());
}
}
return listing;
}
/**
* Lookup a child by name.
* @param lPath The Lookup.
* @param name The name we are looking.
* @param version The version in which we are looking.
* @param write Whether this lookup is occurring in a write context.
* @return The child or null if not found.
*/
@SuppressWarnings("unchecked")
public AVMNode lookupChild(Lookup lPath, String name, boolean includeDeleted)
{
ChildKey key = new ChildKey(this, name);
ChildEntry entry = AVMDAOs.Instance().fChildEntryDAO.get(key);
if (entry != null)
{
if (!includeDeleted && entry.getChild().getType() == AVMNodeType.DELETED_NODE)
{
return null;
}
return AVMNodeUnwrapper.Unwrap(entry.getChild());
}
// Don't check our underlying directory if we are opaque.
if (fOpacity)
{
return null;
}
// Not here so check our indirection.
Lookup lookup = AVMRepository.GetInstance().lookupDirectory(-1, getUnderlying(lPath));
if (lookup != null)
{
DirectoryNode dir = (DirectoryNode)lookup.getCurrentNode();
AVMNode retVal = dir.lookupChild(lookup, name, includeDeleted);
lPath.setFinalStore(lookup.getFinalStore());
return retVal;
}
else
{
return null;
}
}
/**
* Lookup a child using a node descriptor as context.
* @param mine The node descriptor for this,
* @param name The name to lookup,
* @return The node descriptor.
*/
public AVMNodeDescriptor lookupChild(AVMNodeDescriptor mine, String name, boolean includeDeleted)
{
if (mine.getPath() == null || mine.getIndirection() == null)
{
throw new AVMBadArgumentException("Illegal null argument.");
}
ChildKey key = new ChildKey(this, name);
ChildEntry entry = AVMDAOs.Instance().fChildEntryDAO.get(key);
if (entry != null)
{
if (!includeDeleted && entry.getChild().getType() == AVMNodeType.DELETED_NODE)
{
return null;
}
return entry.getChild().getDescriptor(mine.getPath(),
name,
mine.getIndirection());
}
// If we are opaque don't check underneath.
if (fOpacity)
{
return null;
}
Lookup lookup = AVMRepository.GetInstance().lookupDirectory(-1, mine.getIndirection());
if (lookup != null)
{
DirectoryNode dir = (DirectoryNode)lookup.getCurrentNode();
AVMNode child = dir.lookupChild(lookup, name, includeDeleted);
if (child == null)
{
return null;
}
return child.getDescriptor(lookup);
}
else
{
return null;
}
}
/**
* Directly remove a child. Do not COW. Do not pass go etc.
* @param lPath The lookup that arrived at this.
* @param name The name of the child to remove.
*/
@SuppressWarnings("unchecked")
public void removeChild(Lookup lPath, String name)
{
if (DEBUG)
{
checkReadOnly();
}
ChildKey key = new ChildKey(this, name);
ChildEntry entry = AVMDAOs.Instance().fChildEntryDAO.get(key);
AVMNode child = null;
boolean indirect = false;
if (entry != null)
{
child = entry.getChild();
if (child.getType() == AVMNodeType.DELETED_NODE)
{
return;
}
AVMDAOs.Instance().fChildEntryDAO.delete(entry);
}
else
{
child = lookupChild(lPath, name, false);
indirect = true;
}
if (child != null && (indirect || child.getStoreNew() == null || child.getAncestor() != null))
{
DeletedNodeImpl ghost = new DeletedNodeImpl(lPath.getAVMStore().getAVMRepository().issueID(),
lPath.getAVMStore());
AVMDAOs.Instance().fAVMNodeDAO.save(ghost);
AVMDAOs.Instance().fAVMNodeDAO.flush();
ghost.setAncestor(child);
ghost.setDeletedType(child.getType());
this.putChild(name, ghost);
}
else
{
AVMDAOs.Instance().fAVMNodeDAO.flush();
}
}
/**
* Get the type of this node.
* @return The type of this node.
*/
public int getType()
{
return AVMNodeType.LAYERED_DIRECTORY;
}
/**
* For diagnostics. Get a String representation.
* @param lPath The Lookup.
* @return A String representation.
*/
public String toString(Lookup lPath)
{
return "[LD:" + getId() + ":" + getUnderlying(lPath) + "]";
}
/**
* Set the primary indirection. No COW.
* @param path The indirection path.
*/
public void rawSetPrimary(String path)
{
if (DEBUG)
{
checkReadOnly();
}
fIndirection = path;
fPrimaryIndirection = true;
}
/**
* Make this node become a primary indirection. COW.
* @param lPath The Lookup.
*/
public void turnPrimary(Lookup lPath)
{
if (DEBUG)
{
checkReadOnly();
}
String path = lPath.getCurrentIndirection();
rawSetPrimary(path);
}
/**
* Make this point at a new target.
* @param lPath The Lookup.
*/
public void retarget(Lookup lPath, String target)
{
if (DEBUG)
{
checkReadOnly();
}
rawSetPrimary(target);
}
/**
* Let anything behind name in this become visible.
* @param lPath The Lookup.
* @param name The name to uncover.
*/
public void uncover(Lookup lPath, String name)
{
if (DEBUG)
{
checkReadOnly();
}
ChildKey key = new ChildKey(this, name);
ChildEntry entry = AVMDAOs.Instance().fChildEntryDAO.get(key);
if (entry.getChild().getType() != AVMNodeType.DELETED_NODE)
{
throw new AVMException("One can only uncover deleted nodes.");
}
if (entry != null)
{
AVMDAOs.Instance().fChildEntryDAO.delete(entry);
}
}
/**
* Get the descriptor for this node.
* @param lPath The Lookup.
* @return A descriptor.
*/
public AVMNodeDescriptor getDescriptor(Lookup lPath, String name)
{
BasicAttributes attrs = getBasicAttributes();
String path = lPath.getRepresentedPath();
path = AVMNodeConverter.ExtendAVMPath(path, name);
String indirect = null;
if (fPrimaryIndirection)
{
indirect = fIndirection;
}
else
{
indirect = AVMNodeConverter.ExtendAVMPath(lPath.getCurrentIndirection(), name);
}
return new AVMNodeDescriptor(path,
name,
AVMNodeType.LAYERED_DIRECTORY,
attrs.getCreator(),
attrs.getOwner(),
attrs.getLastModifier(),
attrs.getCreateDate(),
attrs.getModDate(),
attrs.getAccessDate(),
getId(),
getVersionID(),
indirect,
fPrimaryIndirection,
fLayerID,
fOpacity,
-1,
-1);
}
/**
* Get the descriptor for this node.
* @param lPath The Lookup.
* @return A descriptor.
*/
public AVMNodeDescriptor getDescriptor(Lookup lPath)
{
BasicAttributes attrs = getBasicAttributes();
String path = lPath.getRepresentedPath();
String name = path.substring(path.lastIndexOf("/") + 1);
return new AVMNodeDescriptor(path,
name,
AVMNodeType.LAYERED_DIRECTORY,
attrs.getCreator(),
attrs.getOwner(),
attrs.getLastModifier(),
attrs.getCreateDate(),
attrs.getModDate(),
attrs.getAccessDate(),
getId(),
getVersionID(),
getUnderlying(lPath),
fPrimaryIndirection,
fLayerID,
fOpacity,
-1,
-1);
}
/**
* Get a descriptor for this.
* @param parentPath The parent path.
* @param name The name this was looked up with.
* @param parentIndirection The indirection of the parent.
* @return The descriptor.
*/
public AVMNodeDescriptor getDescriptor(String parentPath, String name, String parentIndirection)
{
BasicAttributes attrs = getBasicAttributes();
String path = parentPath.endsWith("/") ? parentPath + name : parentPath + "/" + name;
String indirection = null;
if (fPrimaryIndirection)
{
indirection = fIndirection;
}
else
{
indirection = parentIndirection.endsWith("/") ? parentIndirection + name :
parentIndirection + "/" + name;
}
return new AVMNodeDescriptor(path,
name,
AVMNodeType.LAYERED_DIRECTORY,
attrs.getCreator(),
attrs.getOwner(),
attrs.getLastModifier(),
attrs.getCreateDate(),
attrs.getModDate(),
attrs.getAccessDate(),
getId(),
getVersionID(),
indirection,
fPrimaryIndirection,
fLayerID,
fOpacity,
-1,
-1);
}
/**
* Set the indirection.
* @param indirection
*/
public void setIndirection(String indirection)
{
fIndirection = indirection;
}
/**
* Does nothing because LayeredDirectoryNodes can't be roots.
* @param isRoot
*/
public void setIsRoot(boolean isRoot)
{
}
/**
* Get the opacity of this.
* @return The opacity.
*/
public boolean getOpacity()
{
return fOpacity;
}
/**
* Set the opacity of this, ie, whether it blocks things normally
* seen through its indirection.
* @param opacity
*/
public void setOpacity(boolean opacity)
{
fOpacity = opacity;
}
/**
* Link a node with the given id into this directory.
* @param lPath The Lookup for this.
* @param name The name to give the node.
* @param toLink The node to link in.
*/
public void link(Lookup lPath, String name, AVMNodeDescriptor toLink)
{
if (DEBUG)
{
checkReadOnly();
}
AVMNode node = AVMDAOs.Instance().fAVMNodeDAO.getByID(toLink.getId());
if (node == null)
{
throw new AVMNotFoundException("Not Found: " + toLink.getId());
}
if (node.getType() == AVMNodeType.LAYERED_DIRECTORY &&
!((LayeredDirectoryNode)node).getPrimaryIndirection())
{
throw new AVMBadArgumentException("Non primary layered directories cannot be linked.");
}
// Look for an existing child of that name.
AVMNode existing = lookupChild(lPath, name, true);
ChildKey key = new ChildKey(this, name);
if (existing != null)
{
if (existing.getType() != AVMNodeType.DELETED_NODE)
{
// If the existing child is not a DELETED_NODE it's an error.
throw new AVMExistsException(name + " exists.");
}
// Only if the existing DELETED_NODE child exists directly in this
// directory do we delete it.
if (directlyContains(existing))
{
ChildEntry entry = AVMDAOs.Instance().fChildEntryDAO.get(key);
AVMDAOs.Instance().fChildEntryDAO.delete(entry);
AVMDAOs.Instance().fAVMNodeDAO.flush();
}
}
// Make the new ChildEntry and save.
ChildEntry newChild = new ChildEntryImpl(key, node);
AVMDAOs.Instance().fChildEntryDAO.save(newChild);
}
/**
* Remove name without leaving behind a deleted node.
* @param name The name of the child to flatten.
*/
public void flatten(String name)
{
if (DEBUG)
{
checkReadOnly();
}
ChildKey key = new ChildKey(this, name);
ChildEntry entry = AVMDAOs.Instance().fChildEntryDAO.get(key);
if (entry != null)
{
AVMDAOs.Instance().fChildEntryDAO.delete(entry);
}
}
}
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