UserManager.java 19.8 KB
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/**
 * $RCSfile$
 * $Revision: 1217 $
 * $Date: 2005-04-11 18:11:06 -0300 (Mon, 11 Apr 2005) $
 *
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 * Copyright (C) 2004-2008 Jive Software. All rights reserved.
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 *
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 * 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.
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 */

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package org.jivesoftware.openfire.user;
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import gnu.inet.encoding.Stringprep;
import gnu.inet.encoding.StringprepException;

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import java.util.Collection;
import java.util.Collections;
import java.util.Iterator;
import java.util.Map;
import java.util.Set;

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import org.dom4j.Element;
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import org.jivesoftware.openfire.XMPPServer;
import org.jivesoftware.openfire.event.UserEventDispatcher;
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import org.jivesoftware.openfire.event.UserEventListener;
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import org.jivesoftware.util.ClassUtils;
import org.jivesoftware.util.JiveGlobals;
import org.jivesoftware.util.PropertyEventDispatcher;
import org.jivesoftware.util.PropertyEventListener;
import org.jivesoftware.util.StringUtils;
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import org.jivesoftware.util.cache.Cache;
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import org.jivesoftware.util.cache.CacheFactory;
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import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
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import org.xmpp.component.IQResultListener;
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import org.xmpp.packet.IQ;
import org.xmpp.packet.JID;
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/**
 * Manages users, including loading, creating and deleting.
 *
 * @author Matt Tucker
 * @see User
 */
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public class UserManager implements IQResultListener {
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	private static final Logger Log = LoggerFactory.getLogger(UserManager.class);

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    // Wrap this guy up so we can mock out the UserManager class.
    private static class UserManagerContainer {
        private static UserManager instance = new UserManager();
    }

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    /**
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     * Returns the currently-installed UserProvider. <b>Warning:</b> in virtually all
     * cases the user provider should not be used directly. Instead, the appropriate
     * methods in UserManager should be called. Direct access to the user provider is
     * only provided for special-case logic.
     *
     * @return the current UserProvider.
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     */
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    public static UserProvider getUserProvider() {
        return UserManagerContainer.instance.provider;
    }

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    /**
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     * Returns a singleton UserManager instance.
     *
     * @return a UserManager instance.
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     */
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    public static UserManager getInstance() {
        return UserManagerContainer.instance;
    }

    /** Cache of local users. */
    private Cache<String, User> userCache;
    /** Cache if a local or remote user exists. */
    private Cache<String, Boolean> remoteUsersCache;
    private UserProvider provider;
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    private UserManager() {
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        // Initialize caches.
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        userCache = CacheFactory.createCache("User");
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        remoteUsersCache = CacheFactory.createCache("Remote Users Existence");
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        // Load a user provider.
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        initProvider();

        // Detect when a new auth provider class is set
        PropertyEventListener propListener = new PropertyEventListener() {
            public void propertySet(String property, Map params) {
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                if ("provider.user.className".equals(property)) {
                    initProvider();
                }
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            }

            public void propertyDeleted(String property, Map params) {
                //Ignore
            }

            public void xmlPropertySet(String property, Map params) {
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                //Ignore
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            }

            public void xmlPropertyDeleted(String property, Map params) {
                //Ignore
            }
        };
        PropertyEventDispatcher.addListener(propListener);
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        UserEventListener userListener = new UserEventListener() {
            public void userCreated(User user, Map<String, Object> params) {
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                // Since the user could be created by the provider, add it possible again
                userCache.put(user.getUsername(), user);
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            }

            public void userDeleting(User user, Map<String, Object> params) {
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                // Since the user could be deleted by the provider, remove it possible again
                userCache.remove(user.getUsername());
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            }

            public void userModified(User user, Map<String, Object> params) {
                // Set object again in cache. This is done so that other cluster nodes
                // get refreshed with latest version of the user
                userCache.put(user.getUsername(), user);
            }
        };
        UserEventDispatcher.addListener(userListener);
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    }

    /**
     * Creates a new User. Required values are username and password. The email address
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     * and name can optionally be <tt>null</tt>, unless the UserProvider deems that
     * either of them are required.
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     *
     * @param username the new and unique username for the account.
     * @param password the password for the account (plain text).
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     * @param name the name of the user, which can be <tt>null</tt> unless the UserProvider
     *      deems that it's required.
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     * @param email the email address to associate with the new account, which can
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     *      be <tt>null</tt>, unless the UserProvider deems that it's required.
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     * @return a new User.
     * @throws UserAlreadyExistsException if the username already exists in the system.
     * @throws UnsupportedOperationException if the provider does not support the
     *      operation.
     */
    public User createUser(String username, String password, String name, String email)
            throws UserAlreadyExistsException
    {
        if (provider.isReadOnly()) {
            throw new UnsupportedOperationException("User provider is read-only.");
        }
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        if (username == null || username.isEmpty()) {
            throw new IllegalArgumentException("Null or empty username.");
        }
        if (password == null || password.isEmpty()) {
            throw new IllegalArgumentException("Null or empty password.");
        }
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        // Make sure that the username is valid.
        try {
            username = Stringprep.nodeprep(username);
        }
        catch (StringprepException se) {
            throw new IllegalArgumentException("Invalid username: " + username,  se);
        }
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        if (provider.isNameRequired() && (name == null || name.matches("\\s*"))) {
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            throw new IllegalArgumentException("Invalid or empty name specified with provider that requires name. User: "
                                                + username + " Name: " + name);
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        }
        if (provider.isEmailRequired() && !StringUtils.isValidEmailAddress(email)) {
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            throw new IllegalArgumentException("Invalid or empty email address specified with provider that requires email address. User: "
                                                + username + " Email: " + email);
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        }
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        User user = provider.createUser(username, password, name, email);
        userCache.put(username, user);

        // Fire event.
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        Map<String,Object> params = Collections.emptyMap();
        UserEventDispatcher.dispatchEvent(user, UserEventDispatcher.EventType.user_created, params);
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        return user;
    }

    /**
     * Deletes a user (optional operation).
     *
     * @param user the user to delete.
     */
    public void deleteUser(User user) {
        if (provider.isReadOnly()) {
            throw new UnsupportedOperationException("User provider is read-only.");
        }

        String username = user.getUsername();
        // Make sure that the username is valid.
        try {
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            /*username =*/ Stringprep.nodeprep(username);
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        }
        catch (StringprepException se) {
            throw new IllegalArgumentException("Invalid username: " + username,  se);
        }

        // Fire event.
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        Map<String,Object> params = Collections.emptyMap();
        UserEventDispatcher.dispatchEvent(user, UserEventDispatcher.EventType.user_deleting, params);
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        provider.deleteUser(user.getUsername());
        // Remove the user from cache.
        userCache.remove(user.getUsername());
    }

    /**
     * Returns the User specified by username.
     *
     * @param username the username of the user.
     * @return the User that matches <tt>username</tt>.
     * @throws UserNotFoundException if the user does not exist.
     */
    public User getUser(String username) throws UserNotFoundException {
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        if (username == null) {
            throw new UserNotFoundException("Username cannot be null");
        }
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        // Make sure that the username is valid.
        username = username.trim().toLowerCase();
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        User user = userCache.get(username);
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        if (user == null) {
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            synchronized (username.intern()) {
                user = userCache.get(username);
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                if (user == null) {
                    user = provider.loadUser(username);
                    userCache.put(username, user);
                }
            }
        }
        return user;
    }

    /**
     * Returns the total number of users in the system.
     *
     * @return the total number of users.
     */
    public int getUserCount() {
        return provider.getUserCount();
    }

    /**
     * Returns an unmodifiable Collection of all users in the system.
     *
     * @return an unmodifiable Collection of all users.
     */
    public Collection<User> getUsers() {
        return provider.getUsers();
    }

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    /**
     * Returns an unmodifiable Collection of usernames of all users in the system.
     *
     * @return an unmodifiable Collection of all usernames in the system.
     */
    public Collection<String> getUsernames() {
        return provider.getUsernames();
    }

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    /**
     * Returns an unmodifiable Collection of all users starting at <tt>startIndex</tt>
     * with the given 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 <tt>numResults</tt> if <tt>numResults</tt> is greater than the number of
     * records left to display.
     *
     * @param startIndex the beginning index to start the results at.
     * @param numResults the total number of results to return.
     * @return a Collection of users in the specified range.
     */
    public Collection<User> getUsers(int startIndex, int numResults) {
        return provider.getUsers(startIndex, numResults);
    }

    /**
     * Returns the set of fields that can be used for searching for users. Each field
     * returned must support wild-card and keyword searching. For example, an
     * implementation might send back the set {"Username", "Name", "Email"}. Any of
     * those three fields can then be used in a search with the
     * {@link #findUsers(Set,String)} method.<p>
     *
     * This method should throw an UnsupportedOperationException if this
     * operation is not supported by the backend user store.
     *
     * @return the valid search fields.
     * @throws UnsupportedOperationException if the provider does not
     *      support the operation (this is an optional operation).
     */
    public Set<String> getSearchFields() throws UnsupportedOperationException {
        return provider.getSearchFields();
    }

    /**
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     * Searches for users based on a set of fields and a query string. The fields must
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     * be taken from the values returned by {@link #getSearchFields()}. The query can
     * include wildcards. For example, a search on the field "Name" with a query of "Ma*"
     * might return user's with the name "Matt", "Martha" and "Madeline".<p>
     *
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     * This method throws an UnsupportedOperationException if this operation is
     * not supported by the user provider.
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     *
     * @param fields the fields to search on.
     * @param query the query string.
     * @return a Collection of users that match the search.
     * @throws UnsupportedOperationException if the provider does not
     *      support the operation (this is an optional operation).
     */
    public Collection<User> findUsers(Set<String> fields, String query)
            throws UnsupportedOperationException
    {
        return provider.findUsers(fields, query);
    }
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    /**
     * Searches for users based on a set of fields and a query string. The fields must
     * be taken from the values returned by {@link #getSearchFields()}. The query can
     * include wildcards. For example, a search on the field "Name" with a query of "Ma*"
     * might return user's with the name "Matt", "Martha" and "Madeline".<p>
     *
     * The startIndex and numResults parameters are used to page through search
     * results. For example, if the startIndex is 0 and numResults is 10, the first
     * 10 search results will be returned. Note that numResults is a request for the
     * number of results to return and that the actual number of results returned
     * may be fewer.<p>
     *
     * This method should throw an UnsupportedOperationException if this
     * operation is not supported by the backend user store.
     *
     * @param fields the fields to search on.
     * @param query the query string.
     * @param startIndex the starting index in the search result to return.
     * @param numResults the number of users to return in the search result.
     * @return a Collection of users that match the search.
     * @throws UnsupportedOperationException if the provider does not
     *      support the operation (this is an optional operation).
     */
    public Collection<User> findUsers(Set<String> fields, String query, int startIndex,
            int numResults)
            throws UnsupportedOperationException
    {
        return provider.findUsers(fields, query, startIndex, numResults);
    }

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    /**
     * Returns true if the specified local username belongs to a registered local user.
     *
     * @param username to username of the user to check it it's a registered user.
     * @return true if the specified JID belongs to a local registered user.
     */
    public boolean isRegisteredUser(String username) {
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        if (username == null || "".equals(username)) {
            return false;
        }
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        try {
            getUser(username);
            return true;
        }
        catch (UserNotFoundException e) {
            return false;
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        }
    }

    /**
     * Returns true if the specified JID belongs to a local or remote registered user. For
     * remote users (i.e. domain does not match local domain) a disco#info request is going
     * to be sent to the bare JID of the user.
     *
     * @param user to JID of the user to check it it's a registered user.
     * @return true if the specified JID belongs to a local or remote registered user.
     */
    public boolean isRegisteredUser(JID user) {
        XMPPServer server = XMPPServer.getInstance();
        if (server.isLocal(user)) {
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            try {
                getUser(user.getNode());
                return true;
            }
            catch (UserNotFoundException e) {
                return false;
            }
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        }
        else {
            // Look up in the cache using the full JID
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            Boolean isRegistered = remoteUsersCache.get(user.toString());
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            if (isRegistered == null) {
                // Check if the bare JID of the user is cached
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                isRegistered = remoteUsersCache.get(user.toBareJID());
                if (isRegistered == null) {
                    // No information is cached so check user identity and cache it
                    // A disco#info is going to be sent to the bare JID of the user. This packet
                    // is going to be handled by the remote server.
                    IQ iq = new IQ(IQ.Type.get);
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                    iq.setFrom(server.getServerInfo().getXMPPDomain());
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                    iq.setTo(user.toBareJID());
                    iq.setChildElement("query", "http://jabber.org/protocol/disco#info");
                    // Send the disco#info request to the remote server. The reply will be
                    // processed by the IQResultListener (interface that this class implements)
                    server.getIQRouter().addIQResultListener(iq.getID(), this);
                    synchronized (user.toBareJID().intern()) {
                        server.getIQRouter().route(iq);
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                        // Wait for the reply to be processed. Time out in 1 minute.
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                        try {
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                            user.toBareJID().intern().wait(60000);
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                        }
                        catch (InterruptedException e) {
                            // Do nothing
                        }
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                    }
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                    // Get the discovered result
                    isRegistered = remoteUsersCache.get(user.toBareJID());
                    if (isRegistered == null) {
                        // Disco failed for some reason (i.e. we timed out before getting a result)
                        // so assume that user is not anonymous and cache result
                        isRegistered = Boolean.FALSE;
                        remoteUsersCache.put(user.toString(), isRegistered);
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                    }
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                }
            }
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            return isRegistered;
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        }
    }

    public void receivedAnswer(IQ packet) {
        JID from = packet.getFrom();
        // Assume that the user is not a registered user
        Boolean isRegistered = Boolean.FALSE;
        // Analyze the disco result packet
        if (IQ.Type.result == packet.getType()) {
            Element child = packet.getChildElement();
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            if (child != null) {
                for (Iterator it=child.elementIterator("identity"); it.hasNext();) {
                    Element identity = (Element) it.next();
                    String accountType = identity.attributeValue("type");
                    if ("registered".equals(accountType) || "admin".equals(accountType)) {
                        isRegistered = Boolean.TRUE;
                        break;
                    }
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                }
            }
        }
        // Update cache of remote registered users
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        remoteUsersCache.put(from.toBareJID(), isRegistered);
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        // Wake up waiting thread
        synchronized (from.toBareJID().intern()) {
            from.toBareJID().intern().notifyAll();
        }
    }
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    public void answerTimeout(String packetId) {
        Log.warn("An answer to a previously sent IQ stanza was never received. Packet id: " + packetId);
    }

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    private void initProvider() {
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        // Convert XML based provider setup to Database based
        JiveGlobals.migrateProperty("provider.user.className");

        String className = JiveGlobals.getProperty("provider.user.className",
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                "org.jivesoftware.openfire.user.DefaultUserProvider");
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        // Check if we need to reset the provider class
        if (provider == null || !className.equals(provider.getClass().getName())) {
            try {
                Class c = ClassUtils.forName(className);
                provider = (UserProvider) c.newInstance();
            }
            catch (Exception e) {
                Log.error("Error loading user provider: " + className, e);
                provider = new DefaultUserProvider();
            }
        }
    }
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}