/**
* $RCSfile$
* $Revision: 3117 $
* $Date: 2005-11-25 22:57:29 -0300 (Fri, 25 Nov 2005) $
*
* Copyright (C) 2004-2008 Jive Software. All rights reserved.
*
* Licensed 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.jivesoftware.openfire.group;
import java.util.Collection;
import java.util.Collections;
import java.util.Map;
import org.jivesoftware.openfire.XMPPServer;
import org.jivesoftware.openfire.clearspace.ClearspaceManager;
import org.jivesoftware.openfire.event.GroupEventDispatcher;
import org.jivesoftware.openfire.event.GroupEventListener;
import org.jivesoftware.openfire.event.UserEventDispatcher;
import org.jivesoftware.openfire.event.UserEventListener;
import org.jivesoftware.openfire.user.User;
import org.jivesoftware.openfire.user.UserManager;
import org.jivesoftware.openfire.user.UserNotFoundException;
import org.jivesoftware.util.ClassUtils;
import org.jivesoftware.util.JiveGlobals;
import org.jivesoftware.util.PropertyEventDispatcher;
import org.jivesoftware.util.PropertyEventListener;
import org.jivesoftware.util.TaskEngine;
import org.jivesoftware.util.cache.Cache;
import org.jivesoftware.util.cache.CacheFactory;
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
import org.xmpp.packet.JID;
/**
* Manages groups.
*
* @see Group
* @author Matt Tucker
*/
public class GroupManager {
private static final Logger Log = LoggerFactory.getLogger(GroupManager.class);
private static final class GroupManagerContainer {
private static final GroupManager instance = new GroupManager();
}
private static final String GROUP_COUNT_KEY = "GROUP_COUNT";
private static final String SHARED_GROUPS_KEY = "SHARED_GROUPS";
private static final String GROUP_NAMES_KEY = "GROUP_NAMES";
/**
* Returns a singleton instance of GroupManager.
*
* @return a GroupManager instance.
*/
public static GroupManager getInstance() {
return GroupManagerContainer.instance;
}
Cache<String, Group> groupCache;
Cache<String, Object> groupMetaCache;
private GroupProvider provider;
private GroupManager() {
// Initialize caches.
groupCache = CacheFactory.createCache("Group");
// A cache for meta-data around groups: count, group names, groups associated with
// a particular user
groupMetaCache = CacheFactory.createCache("Group Metadata Cache");
initProvider();
GroupEventDispatcher.addListener(new GroupEventListener() {
public void groupCreated(Group group, Map params) {
// Adds default properties if they don't exists, since the creator of
// the group could set them.
if (group.getProperties().get("sharedRoster.showInRoster") == null) {
group.getProperties().put("sharedRoster.showInRoster", "nobody");
group.getProperties().put("sharedRoster.displayName", "");
group.getProperties().put("sharedRoster.groupList", "");
}
// Since the group could be created by the provider, add it possible again
groupCache.put(group.getName(), group);
groupMetaCache.clear();
}
public void groupDeleting(Group group, Map params) {
// Since the group could be deleted by the provider, remove it possible again
groupCache.remove(group.getName());
groupMetaCache.clear();
}
public void groupModified(Group group, Map params) {
String type = (String)params.get("type");
// If shared group settings changed, expire the cache.
if (type != null && (type.equals("propertyModified") ||
type.equals("propertyDeleted") || type.equals("propertyAdded")))
{
if (params.get("propertyKey") != null &&
params.get("propertyKey").equals("sharedRoster.showInRoster"))
{
groupMetaCache.clear();
}
}
// Set object again in cache. This is done so that other cluster nodes
// get refreshed with latest version of the object
groupCache.put(group.getName(), group);
}
public void memberAdded(Group group, Map params) {
groupMetaCache.clear();
// Set object again in cache. This is done so that other cluster nodes
// get refreshed with latest version of the object
groupCache.put(group.getName(), group);
}
public void memberRemoved(Group group, Map params) {
groupMetaCache.clear();
// Set object again in cache. This is done so that other cluster nodes
// get refreshed with latest version of the object
groupCache.put(group.getName(), group);
}
public void adminAdded(Group group, Map params) {
groupMetaCache.clear();
// Set object again in cache. This is done so that other cluster nodes
// get refreshed with latest version of the object
groupCache.put(group.getName(), group);
}
public void adminRemoved(Group group, Map params) {
groupMetaCache.clear();
// Set object again in cache. This is done so that other cluster nodes
// get refreshed with latest version of the object
groupCache.put(group.getName(), group);
}
});
UserEventDispatcher.addListener(new UserEventListener() {
public void userCreated(User user, Map<String, Object> params) {
// ignore
}
public void userDeleting(User user, Map<String, Object> params) {
deleteUser(user);
}
public void userModified(User user, Map<String, Object> params) {
// ignore
}
});
// Detect when a new auth provider class is set
PropertyEventListener propListener = new PropertyEventListener() {
public void propertySet(String property, Map params) {
if ("provider.group.className".equals(property)) {
initProvider();
}
}
public void propertyDeleted(String property, Map params) {
//Ignore
}
public void xmlPropertySet(String property, Map params) {
//Ignore
}
public void xmlPropertyDeleted(String property, Map params) {
//Ignore
}
};
PropertyEventDispatcher.addListener(propListener);
// Pre-load shared groups. This will provide a faster response
// time to the first client that logs in.
Runnable task = new Runnable() {
public void run() {
Collection<Group> groups = getSharedGroups();
// Load each group into cache.
for (Group group : groups) {
// Load each user in the group into cache.
for (JID jid : group.getMembers()) {
try {
if (XMPPServer.getInstance().isLocal(jid)) {
UserManager.getInstance().getUser(jid.getNode());
}
}
catch (UserNotFoundException unfe) {
// Ignore.
}
}
}
}
};
TaskEngine.getInstance().submit(task);
}
private void initProvider() {
// Convert XML based provider setup to Database based
JiveGlobals.migrateProperty("provider.group.className");
// Load a group provider.
String className = JiveGlobals.getProperty("provider.group.className",
"org.jivesoftware.openfire.group.DefaultGroupProvider");
try {
Class c = ClassUtils.forName(className);
provider = (GroupProvider) c.newInstance();
}
catch (Exception e) {
Log.error("Error loading group provider: " + className, e);
provider = new DefaultGroupProvider();
}
}
/**
* Factory method for creating a new Group. A unique name is the only required field.
*
* @param name the new and unique name for the group.
* @return a new Group.
* @throws GroupAlreadyExistsException if the group name already exists in the system.
*/
public Group createGroup(String name) throws GroupAlreadyExistsException {
synchronized (name.intern()) {
Group newGroup;
try {
getGroup(name);
// The group already exists since now exception, so:
throw new GroupAlreadyExistsException();
}
catch (GroupNotFoundException unfe) {
// The group doesn't already exist so we can create a new group
newGroup = provider.createGroup(name);
// Update caches.
groupCache.put(name, newGroup);
// Fire event.
GroupEventDispatcher.dispatchEvent(newGroup,
GroupEventDispatcher.EventType.group_created, Collections.emptyMap());
}
return newGroup;
}
}
/**
* Returns a Group by name.
*
* @param name The name of the group to retrieve
* @return The group corresponding to that name
* @throws GroupNotFoundException if the group does not exist.
*/
public Group getGroup(String name) throws GroupNotFoundException {
return getGroup(name, false);
}
/**
* Returns a Group by name.
*
* @param name The name of the group to retrieve
* @return The group corresponding to that name
* @throws GroupNotFoundException if the group does not exist.
*/
public Group getGroup(String name, boolean forceLookup) throws GroupNotFoundException {
Group group = null;
if (!forceLookup) {
group = groupCache.get(name);
}
// If ID wan't found in cache, load it up and put it there.
if (group == null) {
synchronized (name.intern()) {
group = groupCache.get(name);
// If group wan't found in cache, load it up and put it there.
if (group == null) {
group = provider.getGroup(name);
groupCache.put(name, group);
}
}
}
return group;
}
/**
* Deletes a group from the system.
*
* @param group the group to delete.
*/
public void deleteGroup(Group group) {
// Fire event.
GroupEventDispatcher.dispatchEvent(group, GroupEventDispatcher.EventType.group_deleting,
Collections.emptyMap());
// Delete the group.
provider.deleteGroup(group.getName());
// Expire cache.
groupCache.remove(group.getName());
}
/**
* Deletes a user from all the groups where he/she belongs. The most probable cause
* for this request is that the user has been deleted from the system.
*
* @param user the deleted user from the system.
*/
public void deleteUser(User user) {
JID userJID = XMPPServer.getInstance().createJID(user.getUsername(), null);
for (Group group : getGroups(userJID)) {
if (group.getAdmins().contains(userJID)) {
if (group.getAdmins().remove(userJID)) {
// Remove the group from cache.
groupCache.remove(group.getName());
}
}
else {
if (group.getMembers().remove(userJID)) {
// Remove the group from cache.
groupCache.remove(group.getName());
}
}
}
}
/**
* Returns the total number of groups in the system.
*
* @return the total number of groups.
*/
public int getGroupCount() {
Integer count = (Integer)groupMetaCache.get(GROUP_COUNT_KEY);
if (count == null) {
synchronized(GROUP_COUNT_KEY.intern()) {
count = (Integer)groupMetaCache.get(GROUP_COUNT_KEY);
if (count == null) {
count = provider.getGroupCount();
groupMetaCache.put(GROUP_COUNT_KEY, count);
}
}
}
return count;
}
/**
* Returns an unmodifiable Collection of all groups in the system.
*
* @return an unmodifiable Collection of all groups.
*/
public Collection<Group> getGroups() {
Collection<String> groupNames = (Collection<String>)groupMetaCache.get(GROUP_NAMES_KEY);
if (groupNames == null) {
synchronized(GROUP_NAMES_KEY.intern()) {
groupNames = (Collection<String>)groupMetaCache.get(GROUP_NAMES_KEY);
if (groupNames == null) {
groupNames = provider.getGroupNames();
groupMetaCache.put(GROUP_NAMES_KEY, groupNames);
}
}
}
return new GroupCollection(groupNames);
}
/**
* Returns an unmodifiable Collection of all shared groups in the system.
*
* @return an unmodifiable Collection of all shared groups.
*/
public Collection<Group> getSharedGroups() {
Collection<String> groupNames = (Collection<String>)groupMetaCache.get(SHARED_GROUPS_KEY);
if (groupNames == null) {
synchronized(SHARED_GROUPS_KEY.intern()) {
groupNames = (Collection<String>)groupMetaCache.get(SHARED_GROUPS_KEY);
if (groupNames == null) {
groupNames = provider.getSharedGroupsNames();
groupMetaCache.put(SHARED_GROUPS_KEY, groupNames);
}
}
}
return new GroupCollection(groupNames);
}
/**
* Returns all groups given a start index and desired number of results. This is
* useful to support pagination in a GUI where you may only want to display a certain
* number of results per page. It is possible that the number of results returned will
* be less than that specified by numResults if numResults is greater than the number
* of records left in the system to display.
*
* @param startIndex start index in results.
* @param numResults number of results to return.
* @return an Iterator for all groups in the specified range.
*/
public Collection<Group> getGroups(int startIndex, int numResults) {
String key = GROUP_NAMES_KEY + startIndex + "," + numResults;
Collection<String> groupNames = (Collection<String>)groupMetaCache.get(key);
if (groupNames == null) {
synchronized(key.intern()) {
groupNames = (Collection<String>)groupMetaCache.get(key);
if (groupNames == null) {
groupNames = provider.getGroupNames(startIndex, numResults);
groupMetaCache.put(key, groupNames);
}
}
}
return new GroupCollection(groupNames);
}
/**
* Returns an iterator for all groups that the User is a member of.
*
* @param user the user.
* @return all groups the user belongs to.
*/
public Collection<Group> getGroups(User user) {
return getGroups(XMPPServer.getInstance().createJID(user.getUsername(), null, true));
}
/**
* Returns an iterator for all groups that the entity with the specified JID is a member of.
*
* @param user the JID of the entity to get a list of groups for.
* @return all groups that an entity belongs to.
*/
public Collection<Group> getGroups(JID user) {
String key = user.toBareJID();
Collection<String> groupNames = (Collection<String>)groupMetaCache.get(key);
if (groupNames == null) {
synchronized(key.intern()) {
groupNames = (Collection<String>)groupMetaCache.get(key);
if (groupNames == null) {
groupNames = provider.getGroupNames(user);
groupMetaCache.put(key, groupNames);
}
}
}
return new GroupCollection(groupNames);
}
/**
* Returns true if groups are read-only.
*
* @return true if groups are read-only.
*/
public boolean isReadOnly() {
return provider.isReadOnly();
}
/**
* Returns true if properties of groups are read only.
* They are read only if Clearspace is the group provider.
*
* @return true if properties of groups are read only.
*/
public boolean isPropertyReadOnly() {
return ClearspaceManager.isEnabled();
}
/**
* Returns true if searching for groups is supported.
*
* @return true if searching for groups are supported.
*/
public boolean isSearchSupported() {
return provider.isSearchSupported();
}
/**
* Returns the groups that match the search. The search is over group names and
* implicitly uses wildcard matching (although the exact search semantics are left
* up to each provider implementation). For example, a search for "HR" should match
* the groups "HR", "HR Department", and "The HR People".<p>
*
* Before searching or showing a search UI, use the {@link #isSearchSupported} method
* to ensure that searching is supported.
*
* @param query the search string for group names.
* @return all groups that match the search.
*/
public Collection<Group> search(String query) {
Collection<String> groupNames = provider.search(query);
return new GroupCollection(groupNames);
}
/**
* Returns the groups that match the search given a start index and desired number
* of results. The search is over group names and implicitly uses wildcard matching
* (although the exact search semantics are left up to each provider implementation).
* For example, a search for "HR" should match the groups "HR", "HR Department", and
* "The HR People".<p>
*
* Before searching or showing a search UI, use the {@link #isSearchSupported} method
* to ensure that searching is supported.
*
* @param query the search string for group names.
* @return all groups that match the search.
*/
public Collection<Group> search(String query, int startIndex, int numResults) {
Collection<String> groupNames = provider.search(query, startIndex, numResults);
return new GroupCollection(groupNames);
}
/**
* Returns the configured group provider. Note that this method has special access
* privileges since only a few certain classes need to access the provider directly.
*
* @return the group provider.
*/
public GroupProvider getProvider() {
return provider;
}
}