org.jivesoftware.openfire.disco.IQDiscoInfoHandler Maven / Gradle / Ivy
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/*
* 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.disco;
import org.dom4j.DocumentHelper;
import org.dom4j.Element;
import org.dom4j.QName;
import org.jivesoftware.openfire.IQHandlerInfo;
import org.jivesoftware.openfire.SessionManager;
import org.jivesoftware.openfire.XMPPServer;
import org.jivesoftware.openfire.cluster.ClusterEventListener;
import org.jivesoftware.openfire.cluster.ClusterManager;
import org.jivesoftware.openfire.cluster.NodeID;
import org.jivesoftware.openfire.handler.IQHandler;
import org.jivesoftware.openfire.user.UserManager;
import org.jivesoftware.openfire.user.UserNotFoundException;
import org.jivesoftware.util.JiveGlobals;
import org.jivesoftware.util.cache.Cache;
import org.jivesoftware.util.cache.CacheFactory;
import org.xmpp.forms.DataForm;
import org.xmpp.packet.IQ;
import org.xmpp.packet.JID;
import org.xmpp.packet.PacketError;
import org.xmpp.resultsetmanagement.ResultSet;
import java.util.*;
import java.util.concurrent.ConcurrentHashMap;
import java.util.concurrent.CopyOnWriteArraySet;
import java.util.concurrent.locks.Lock;
/**
* IQDiscoInfoHandler is responsible for handling disco#info requests. This class holds a map with
* the main entities and the associated DiscoInfoProvider. We are considering the host of the
* recipient JIDs as main entities. It's the DiscoInfoProvider responsibility to provide information
* about the JID's name together with any possible requested node.
*
* For example, let's have in the entities map the following entries: "localhost" and
* "conference.localhost". Associated with each entry we have different DiscoInfoProviders. Now we
* receive a disco#info request for the following JID: "[email protected]" which is a disco
* request for a MUC room. So IQDiscoInfoHandler will look for the DiscoInfoProvider associated
* with the JID's host which in this case is "conference.localhost". Once we have located the
* provider we will delegate to the provider the responsibility to provide the info specific to
* the JID's name which in this case is "room". Among the information that a room could provide we
* could find its identity and the features it supports (e.g. 'muc_passwordprotected',
* 'muc_unmoderated', etc.). Finally, after we have collected all the information provided by the
* provider we will add it to the reply. On the other hand, if no provider was found or the provider
* has no information for the requested name/node then a not-found error will be returned.
*
* @author Gaston Dombiak
*/
public class IQDiscoInfoHandler extends IQHandler implements ClusterEventListener {
public static final String NAMESPACE_DISCO_INFO = "http://jabber.org/protocol/disco#info";
private Map entities = new HashMap<>();
private Set localServerFeatures = new CopyOnWriteArraySet<>();
private Cache> serverFeatures;
private List serverIdentities = new ArrayList<>();
private Map serverNodeProviders = new ConcurrentHashMap<>();
private IQHandlerInfo info;
private List anonymousUserIdentities = new ArrayList<>();
private List registeredUserIdentities = new ArrayList<>();
public IQDiscoInfoHandler() {
super("XMPP Disco Info Handler");
info = new IQHandlerInfo("query", NAMESPACE_DISCO_INFO);
// Initialize the user identity and features collections (optimization to avoid creating
// the same objects for each response)
Element userIdentity = DocumentHelper.createElement("identity");
userIdentity.addAttribute("category", "account");
userIdentity.addAttribute("type", "anonymous");
anonymousUserIdentities.add(userIdentity);
userIdentity = DocumentHelper.createElement("identity");
userIdentity.addAttribute("category", "account");
userIdentity.addAttribute("type", "registered");
registeredUserIdentities.add(userIdentity);
}
@Override
public IQHandlerInfo getInfo() {
return info;
}
@Override
public IQ handleIQ(IQ packet) {
// Create a copy of the sent pack that will be used as the reply
// we only need to add the requested info to the reply if any otherwise add
// a not found error
IQ reply = IQ.createResultIQ(packet);
// Look for a DiscoInfoProvider associated with the requested entity.
// We consider the host of the recipient JID of the packet as the entity. It's the
// DiscoInfoProvider responsibility to provide information about the JID's name together
// with any possible requested node.
DiscoInfoProvider infoProvider = getProvider(packet.getTo() == null ?
XMPPServer.getInstance().getServerInfo().getXMPPDomain() : packet.getTo().getDomain());
if (infoProvider != null) {
// Get the JID's name
String name = packet.getTo() == null ? null : packet.getTo().getNode();
if (name == null || name.trim().length() == 0) {
name = null;
}
// Get the requested node
Element iq = packet.getChildElement();
String node = iq.attributeValue("node");
//String node = metaData.getProperty("query:node");
// Check if we have information about the requested name and node
if (infoProvider.hasInfo(name, node, packet.getFrom())) {
reply.setChildElement(iq.createCopy());
Element queryElement = reply.getChildElement();
// Add to the reply all the identities provided by the DiscoInfoProvider
Element identity;
Iterator identities = infoProvider.getIdentities(name, node, packet.getFrom());
while (identities.hasNext()) {
identity = identities.next();
identity.setQName(new QName(identity.getName(), queryElement.getNamespace()));
queryElement.add((Element)identity.clone());
}
// Add to the reply all the features provided by the DiscoInfoProvider
Iterator features = infoProvider.getFeatures(name, node, packet.getFrom());
boolean hasDiscoInfoFeature = false;
boolean hasDiscoItemsFeature = false;
boolean hasResultSetManagementFeature = false;
while (features.hasNext()) {
final String feature = features.next();
queryElement.addElement("feature").addAttribute("var", feature);
if (feature.equals(NAMESPACE_DISCO_INFO)) {
hasDiscoInfoFeature = true;
} else if (feature.equals("http://jabber.org/protocol/disco#items")) {
hasDiscoItemsFeature = true;
} else if (feature.equals(ResultSet.NAMESPACE_RESULT_SET_MANAGEMENT)) {
hasResultSetManagementFeature = true;
}
}
if (hasDiscoItemsFeature && !hasResultSetManagementFeature) {
// IQDiscoItemsHandler provides result set management
// support.
queryElement.addElement("feature").addAttribute("var",
ResultSet.NAMESPACE_RESULT_SET_MANAGEMENT);
}
if (!hasDiscoInfoFeature) {
// XEP-0030 requires that every entity that supports service
// discovery broadcasts the disco#info feature.
queryElement.addElement("feature").addAttribute("var", NAMESPACE_DISCO_INFO);
}
// Add to the reply the extended info (XDataForm) provided by the DiscoInfoProvider
DataForm dataForm = infoProvider.getExtendedInfo(name, node, packet.getFrom());
if (dataForm != null) {
queryElement.add(dataForm.getElement());
}
}
else {
// If the DiscoInfoProvider has no information for the requested name and node
// then answer a not found error
reply.setChildElement(packet.getChildElement().createCopy());
reply.setError(PacketError.Condition.item_not_found);
}
}
else {
// If we didn't find a DiscoInfoProvider then answer a not found error
reply.setChildElement(packet.getChildElement().createCopy());
reply.setError(PacketError.Condition.item_not_found);
}
return reply;
}
/**
* Sets the DiscoInfoProvider to use when a disco#info packet is sent to the server itself
* and the specified node. For instance, if node matches "http://jabber.org/protocol/offline"
* then a special DiscoInfoProvider should be use to return information about offline messages.
*
* @param node the node that the provider will handle.
* @param provider the DiscoInfoProvider that will handle disco#info packets sent with the
* specified node.
*/
public void setServerNodeInfoProvider(String node, DiscoInfoProvider provider) {
serverNodeProviders.put(node, provider);
}
/**
* Removes the DiscoInfoProvider to use when a disco#info packet is sent to the server itself
* and the specified node.
*
* @param node the node that the provider was handling.
*/
public void removeServerNodeInfoProvider(String node) {
serverNodeProviders.remove(node);
}
/**
* Returns the DiscoInfoProvider responsible for providing information about a given entity or
* null if none was found.
*
* @param name the name of the identity.
* @return the DiscoInfoProvider responsible for providing information about a given entity or
* null if none was found.
*/
private DiscoInfoProvider getProvider(String name) {
return entities.get(name);
}
/**
* Sets that a given DiscoInfoProvider will provide information about a given entity. This
* message must be used when new modules (e.g. MUC) are implemented and need to provide
* information about them.
*
* @param name the name of the entity.
* @param provider the DiscoInfoProvider that will provide the entity's information.
*/
protected void setProvider(String name, DiscoInfoProvider provider) {
entities.put(name, provider);
}
/**
* Removes the DiscoInfoProvider related to a given entity.
*
* @param name the name of the entity.
*/
protected void removeProvider(String name) {
entities.remove(name);
}
/**
* Adds the features provided by the new service that implements the ServerFeaturesProvider
* interface. This information will be used whenever a disco for information is made against
* the server (i.e. the packet's target is the server).
* Example of features are: jabber:iq:agents, jabber:iq:time, etc.
*
* @param provider the ServerFeaturesProvider that provides new server features.
*/
private void addServerFeaturesProvider(ServerFeaturesProvider provider) {
for (Iterator it = provider.getFeatures(); it.hasNext();) {
addServerFeature(it.next());
}
}
/**
* Adds one specific feature to the information returned whenever a disco for information is
* made against the server.
*
* @param namespace the namespace identifying the new server feature.
*/
public void addServerFeature(String namespace) {
if (localServerFeatures.add(namespace)) {
Lock lock = CacheFactory.getLock(namespace, serverFeatures);
try {
lock.lock();
Set nodeIDs = serverFeatures.get(namespace);
if (nodeIDs == null) {
nodeIDs = new HashSet<>();
}
nodeIDs.add(XMPPServer.getInstance().getNodeID());
serverFeatures.put(namespace, nodeIDs);
}
finally {
lock.unlock();
}
}
}
/**
* Removes a feature from the information returned whenever a disco for information is
* made against the server.
*
* @param namespace the namespace of the feature to be removed.
*/
public void removeServerFeature(String namespace) {
if (localServerFeatures.remove(namespace)) {
Lock lock = CacheFactory.getLock(namespace, serverFeatures);
try {
lock.lock();
Set nodeIDs = serverFeatures.get(namespace);
if (nodeIDs != null) {
nodeIDs.remove(XMPPServer.getInstance().getNodeID());
if (nodeIDs.isEmpty()) {
serverFeatures.remove(namespace);
}
else {
serverFeatures.put(namespace, nodeIDs);
}
}
}
finally {
lock.unlock();
}
}
}
@Override
public void initialize(XMPPServer server) {
super.initialize(server);
serverFeatures = CacheFactory.createCache("Disco Server Features");
addServerFeature(NAMESPACE_DISCO_INFO);
// Track the implementors of ServerFeaturesProvider so that we can collect the features
// provided by the server
for (ServerFeaturesProvider provider : server.getServerFeaturesProviders()) {
addServerFeaturesProvider(provider);
}
// Collect the implementors of ServerIdentitiesProvider so that we can collect the identities
// for protocols supported by the server
for (ServerIdentitiesProvider provider : server.getServerIdentitiesProviders()) {
for (Iterator it = provider.getIdentities(); it.hasNext();) {
serverIdentities.add(it.next());
}
}
// Collect the implementors of UserIdentitiesProvider so that we can collect identities
// for registered users.
for (UserIdentitiesProvider provider : server.getUserIdentitiesProviders()) {
for (Iterator it = provider.getIdentities(); it.hasNext();) {
registeredUserIdentities.add(it.next());
}
}
setProvider(server.getServerInfo().getXMPPDomain(), getServerInfoProvider());
// Listen to cluster events
ClusterManager.addListener(this);
}
@Override
public void joinedCluster() {
restoreCacheContent();
}
@Override
public void joinedCluster(byte[] nodeID) {
// Do nothing
}
@Override
public void leftCluster() {
if (!XMPPServer.getInstance().isShuttingDown()) {
restoreCacheContent();
}
}
@Override
public void leftCluster(byte[] nodeID) {
if (ClusterManager.isSeniorClusterMember()) {
NodeID leftNode = NodeID.getInstance(nodeID);
// Remove server features added by node that is gone
for (Map.Entry> entry : serverFeatures.entrySet()) {
String namespace = entry.getKey();
Lock lock = CacheFactory.getLock(namespace, serverFeatures);
try {
lock.lock();
Set nodeIDs = entry.getValue();
if (nodeIDs.remove(leftNode)) {
if (nodeIDs.isEmpty()) {
serverFeatures.remove(namespace);
}
else {
serverFeatures.put(namespace, nodeIDs);
}
}
}
finally {
lock.unlock();
}
}
}
}
@Override
public void markedAsSeniorClusterMember() {
// Do nothing
}
private void restoreCacheContent() {
for (String feature : localServerFeatures) {
Lock lock = CacheFactory.getLock(feature, serverFeatures);
try {
lock.lock();
Set nodeIDs = serverFeatures.get(feature);
if (nodeIDs == null) {
nodeIDs = new HashSet<>();
}
nodeIDs.add(XMPPServer.getInstance().getNodeID());
serverFeatures.put(feature, nodeIDs);
}
finally {
lock.unlock();
}
}
}
/**
* Returns the DiscoInfoProvider responsible for providing information at the server level. This
* means that this DiscoInfoProvider will provide information whenever a disco request whose
* recipient JID is the server (e.g. localhost) is made.
*
* @return the DiscoInfoProvider responsible for providing information at the server level.
*/
private DiscoInfoProvider getServerInfoProvider() {
return new DiscoInfoProvider() {
final ArrayList identities = new ArrayList<>();
@Override
public Iterator getIdentities(String name, String node, JID senderJID) {
if (node != null && serverNodeProviders.get(node) != null) {
// Redirect the request to the disco info provider of the specified node
return serverNodeProviders.get(node).getIdentities(name, node, senderJID);
}
if (name == null || name.equals(XMPPServer.getInstance().getServerInfo().getXMPPDomain())) {
// Answer identity of the server
synchronized (identities) {
if (identities.isEmpty()) {
Element identity = DocumentHelper.createElement("identity");
identity.addAttribute("category", "server");
identity.addAttribute("name", JiveGlobals.getProperty(
"xmpp.server.name", "Openfire Server"));
identity.addAttribute("type", "im");
identities.add(identity);
// Include identities from modules that implement ServerIdentitiesProvider
for (Element identityElement : serverIdentities) {
identities.add(identityElement);
}
}
}
return identities.iterator();
}
else if (node != null) {
return XMPPServer.getInstance().getIQPEPHandler().getIdentities(name, node, senderJID);
}
else {
if (SessionManager.getInstance().isAnonymousRoute(name)) {
// Answer identity of an anonymous user.
return anonymousUserIdentities.iterator();
}
else {
// Answer identity of a registered user.
// Note: We know that this user exists because #hasInfo returned true
return registeredUserIdentities.iterator();
}
}
}
@Override
public Iterator getFeatures(String name, String node, JID senderJID) {
if (node != null && serverNodeProviders.get(node) != null) {
// Redirect the request to the disco info provider of the specified node
return serverNodeProviders.get(node).getFeatures(name, node, senderJID);
}
if (node != null && name != null) {
return XMPPServer.getInstance().getIQPEPHandler().getFeatures(name, node, senderJID);
}
// Answer features of the server
return new HashSet<>(serverFeatures.keySet()).iterator();
}
@Override
public boolean hasInfo(String name, String node, JID senderJID) {
if (node != null) {
if (serverNodeProviders.get(node) != null) {
// Redirect the request to the disco info provider of the specified node
return serverNodeProviders.get(node).hasInfo(name, node, senderJID);
}
if (name != null) {
return XMPPServer.getInstance().getIQPEPHandler().hasInfo(name, node, senderJID);
}
// Unknown node
return false;
}
try {
// True if it is an info request of the server, a registered user or an
// anonymous user. We now support disco of user's bare JIDs
if (name == null) return true;
if (UserManager.getInstance().getUser(name) != null ||
SessionManager.getInstance().isAnonymousRoute(name)) {
if (node == null) {
return true;
}
return XMPPServer.getInstance().getIQPEPHandler().hasInfo(name, node, senderJID);
}
return false;
}
catch (UserNotFoundException e) {
return false;
}
}
@Override
public DataForm getExtendedInfo(String name, String node, JID senderJID) {
if (node != null && serverNodeProviders.get(node) != null) {
// Redirect the request to the disco info provider of the specified node
return serverNodeProviders.get(node).getExtendedInfo(name, node, senderJID);
}
if (node != null && name != null) {
return XMPPServer.getInstance().getIQPEPHandler().getExtendedInfo(name, node, senderJID);
}
return null;
}
};
}
}