/*
* Copyright (c) 2002, 2016, Oracle and/or its affiliates. All rights reserved.
* DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
*
* This code is free software; you can redistribute it and/or modify it
* under the terms of the GNU General Public License version 2 only, as
* published by the Free Software Foundation. Oracle designates this
* particular file as subject to the "Classpath" exception as provided
* by Oracle in the LICENSE file that accompanied this code.
*
* This code is distributed in the hope that it will be useful, but WITHOUT
* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
* version 2 for more details (a copy is included in the LICENSE file that
* accompanied this code).
*
* You should have received a copy of the GNU General Public License version
* 2 along with this work; if not, write to the Free Software Foundation,
* Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
*
* Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
* or visit www.oracle.com if you need additional information or have any
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*/
package com.sun.jmx.remote.internal;
import java.io.IOException;
import java.io.NotSerializableException;
import java.util.ArrayList;
import java.util.HashMap;
import java.util.List;
import java.util.Map;
import java.util.concurrent.Executor;
import java.security.AccessControlContext;
import java.security.AccessController;
import java.security.PrivilegedAction;
import javax.security.auth.Subject;
import javax.management.Notification;
import javax.management.NotificationListener;
import javax.management.NotificationFilter;
import javax.management.ObjectName;
import javax.management.MBeanServerNotification;
import javax.management.InstanceNotFoundException;
import javax.management.ListenerNotFoundException;
import javax.management.remote.NotificationResult;
import javax.management.remote.TargetedNotification;
import com.sun.jmx.remote.util.ClassLogger;
import com.sun.jmx.remote.util.EnvHelp;
import java.lang.reflect.UndeclaredThrowableException;
import java.util.concurrent.RejectedExecutionException;
public abstract class ClientNotifForwarder {
private final AccessControlContext acc;
public ClientNotifForwarder(Map<String, ?> env) {
this(null, env);
}
private static int threadId;
/* An Executor that allows at most one executing and one pending
Runnable. It uses at most one thread -- as soon as there is
no pending Runnable the thread can exit. Another thread is
created as soon as there is a new pending Runnable. This
Executor is adapted for use in a situation where each Runnable
usually schedules up another Runnable. On return from the
first one, the second one is immediately executed. So this
just becomes a complicated way to write a while loop, but with
the advantage that you can replace it with another Executor,
for instance one that you are using to execute a bunch of other
unrelated work.
You might expect that a java.util.concurrent.ThreadPoolExecutor
with corePoolSize=0 and maximumPoolSize=1 would have the same
behavior, but it does not. A ThreadPoolExecutor only creates
a new thread when a new task is submitted and the number of
existing threads is < corePoolSize. This can never happen when
corePoolSize=0, so new threads are never created. Surprising,
but there you are.
*/
private static class LinearExecutor implements Executor {
public synchronized void execute(Runnable command) {
if (this.command != null)
throw new IllegalArgumentException("More than one command");
this.command = command;
if (thread == null) {
thread = new Thread(
null,
()-> {
while (true) {
Runnable r;
synchronized (LinearExecutor.this) {
if (LinearExecutor.this.command == null) {
thread = null;
return;
} else {
r = LinearExecutor.this.command;
LinearExecutor.this.command = null;
}
}
r.run();
}
},
"ClientNotifForwarder-" + ++threadId,
0,
false
);
thread.setDaemon(true);
thread.start();
}
}
private Runnable command;
private Thread thread;
}
public ClientNotifForwarder(ClassLoader defaultClassLoader, Map<String, ?> env) {
maxNotifications = EnvHelp.getMaxFetchNotifNumber(env);
timeout = EnvHelp.getFetchTimeout(env);
/* You can supply an Executor in which the remote call to
fetchNotifications will be made. The Executor's execute
method reschedules another task, so you must not use
an Executor that executes tasks in the caller's thread. */
Executor ex = (Executor)
env.get("jmx.remote.x.fetch.notifications.executor");
if (ex == null)
ex = new LinearExecutor();
else if (logger.traceOn())
logger.trace("ClientNotifForwarder", "executor is " + ex);
this.defaultClassLoader = defaultClassLoader;
this.executor = ex;
this.acc = AccessController.getContext();
}
/**
* Called to fetch notifications from a server.
*/
abstract protected NotificationResult fetchNotifs(long clientSequenceNumber,
int maxNotifications,
long timeout)
throws IOException, ClassNotFoundException;
abstract protected Integer addListenerForMBeanRemovedNotif()
throws IOException, InstanceNotFoundException;
abstract protected void removeListenerForMBeanRemovedNotif(Integer id)
throws IOException, InstanceNotFoundException,
ListenerNotFoundException;
/**
* Used to send out a notification about lost notifs
*/
abstract protected void lostNotifs(String message, long number);
public synchronized void addNotificationListener(Integer listenerID,
ObjectName name,
NotificationListener listener,
NotificationFilter filter,
Object handback,
Subject delegationSubject)
throws IOException, InstanceNotFoundException {
if (logger.traceOn()) {
logger.trace("addNotificationListener",
"Add the listener "+listener+" at "+name);
}
infoList.put(listenerID,
new ClientListenerInfo(listenerID,
name,
listener,
filter,
handback,
delegationSubject));
init(false);
}
public synchronized Integer[]
getListenerIds(ObjectName name,
NotificationListener listener)
throws ListenerNotFoundException, IOException {
List<Integer> ids = new ArrayList<Integer>();
List<ClientListenerInfo> values =
new ArrayList<ClientListenerInfo>(infoList.values());
for (int i=values.size()-1; i>=0; i--) {
ClientListenerInfo li = values.get(i);
if (li.sameAs(name, listener)) {
ids.add(li.getListenerID());
}
}
if (ids.isEmpty())
throw new ListenerNotFoundException("Listener not found");
return ids.toArray(new Integer[0]);
}
public synchronized Integer
getListenerId(ObjectName name,
NotificationListener listener,
NotificationFilter filter,
Object handback)
throws ListenerNotFoundException, IOException {
Integer id = null;
List<ClientListenerInfo> values =
new ArrayList<ClientListenerInfo>(infoList.values());
for (int i=values.size()-1; i>=0; i--) {
ClientListenerInfo li = values.get(i);
if (li.sameAs(name, listener, filter, handback)) {
id=li.getListenerID();
break;
}
}
if (id == null)
throw new ListenerNotFoundException("Listener not found");
return id;
}
public synchronized Integer[]
removeNotificationListener(ObjectName name,
NotificationListener listener)
throws ListenerNotFoundException, IOException {
beforeRemove();
if (logger.traceOn()) {
logger.trace("removeNotificationListener",
"Remove the listener "+listener+" from "+name);
}
Integer[] liIds = getListenerIds(name, listener);
for (int i = 0; i < liIds.length; i++) {
infoList.remove(liIds[i]);
}
return liIds;
}
public synchronized Integer
removeNotificationListener(ObjectName name,
NotificationListener listener,
NotificationFilter filter,
Object handback)
throws ListenerNotFoundException, IOException {
if (logger.traceOn()) {
logger.trace("removeNotificationListener",
"Remove the listener "+listener+" from "+name);
}
beforeRemove();
Integer liId = getListenerId(name, listener,
filter, handback);
infoList.remove(liId);
return liId;
}
public synchronized Integer[] removeNotificationListener(ObjectName name) {
if (logger.traceOn()) {
logger.trace("removeNotificationListener",
"Remove all listeners registered at "+name);
}
List<Integer> ids = new ArrayList<Integer>();
List<ClientListenerInfo> values =
new ArrayList<ClientListenerInfo>(infoList.values());
for (int i=values.size()-1; i>=0; i--) {
ClientListenerInfo li = values.get(i);
if (li.sameAs(name)) {
ids.add(li.getListenerID());
infoList.remove(li.getListenerID());
}
}
return ids.toArray(new Integer[0]);
}
/*
* Called when a connector is doing reconnection. Like <code>postReconnection</code>,
* this method is intended to be called only by a client connector:
* <code>RMIConnector</code> and <code>ClientIntermediary</code>.
* Call this method will set the flag beingReconnection to <code>true</code>,
* and the thread used to fetch notifis will be stopped, a new thread can be
* created only after the method <code>postReconnection</code> is called.
*
* It is caller's responsiblity to not re-call this method before calling
* <code>postReconnection</code>.
*/
public synchronized ClientListenerInfo[] preReconnection() throws IOException {
if (state == TERMINATED || beingReconnected) { // should never
throw new IOException("Illegal state.");
}
final ClientListenerInfo[] tmp =
infoList.values().toArray(new ClientListenerInfo[0]);
beingReconnected = true;
infoList.clear();
return tmp;
}
/**
* Called after reconnection is finished.
* This method is intended to be called only by a client connector:
* <code>RMIConnector</code> and <code>ClientIntermediary</code>.
*/
public synchronized void postReconnection(ClientListenerInfo[] listenerInfos)
throws IOException {
if (state == TERMINATED) {
return;
}
while (state == STOPPING) {
try {
wait();
} catch (InterruptedException ire) {
IOException ioe = new IOException(ire.toString());
EnvHelp.initCause(ioe, ire);
throw ioe;
}
}
final boolean trace = logger.traceOn();
final int len = listenerInfos.length;
for (int i=0; i<len; i++) {
if (trace) {
logger.trace("addNotificationListeners",
"Add a listener at "+
listenerInfos[i].getListenerID());
}
infoList.put(listenerInfos[i].getListenerID(), listenerInfos[i]);
}
beingReconnected = false;
notifyAll();
if (currentFetchThread == Thread.currentThread() ||
state == STARTING || state == STARTED) { // doing or waiting reconnection
// only update mbeanRemovedNotifID
try {
mbeanRemovedNotifID = addListenerForMBeanRemovedNotif();
} catch (Exception e) {
final String msg =
"Failed to register a listener to the mbean " +
"server: the client will not do clean when an MBean " +
"is unregistered";
if (logger.traceOn()) {
logger.trace("init", msg, e);
}
}
} else {
while (state == STOPPING) {
try {
wait();
} catch (InterruptedException ire) {
IOException ioe = new IOException(ire.toString());
EnvHelp.initCause(ioe, ire);
throw ioe;
}
}
if (listenerInfos.length > 0) { // old listeners are re-added
init(true); // not update clientSequenceNumber
} else if (infoList.size() > 0) { // only new listeners added during reconnection
init(false); // need update clientSequenceNumber
}
}
}
public synchronized void terminate() {
if (state == TERMINATED) {
return;
}
if (logger.traceOn()) {
logger.trace("terminate", "Terminating...");
}
if (state == STARTED) {
infoList.clear();
}
setState(TERMINATED);
}
// -------------------------------------------------
// private classes
// -------------------------------------------------
//
private class NotifFetcher implements Runnable {
private volatile boolean alreadyLogged = false;
private void logOnce(String msg, SecurityException x) {
if (alreadyLogged) return;
// Log only once.
logger.config("setContextClassLoader",msg);
if (x != null) logger.fine("setContextClassLoader", x);
alreadyLogged = true;
}
// Set new context class loader, returns previous one.
private final ClassLoader setContextClassLoader(final ClassLoader loader) {
final AccessControlContext ctxt = ClientNotifForwarder.this.acc;
// if ctxt is null, log a config message and throw a
// SecurityException.
if (ctxt == null) {
logOnce("AccessControlContext must not be null.",null);
throw new SecurityException("AccessControlContext must not be null");
}
return AccessController.doPrivileged(
new PrivilegedAction<ClassLoader>() {
public ClassLoader run() {
try {
// get context class loader - may throw
// SecurityException - though unlikely.
final ClassLoader previous =
Thread.currentThread().getContextClassLoader();
// if nothing needs to be done, break here...
if (loader == previous) return previous;
// reset context class loader - may throw
// SecurityException
Thread.currentThread().setContextClassLoader(loader);
return previous;
} catch (SecurityException x) {
logOnce("Permission to set ContextClassLoader missing. " +
"Notifications will not be dispatched. " +
"Please check your Java policy configuration: " +
x, x);
throw x;
}
}
}, ctxt);
}
public void run() {
final ClassLoader previous;
if (defaultClassLoader != null) {
previous = setContextClassLoader(defaultClassLoader);
} else {
previous = null;
}
try {
doRun();
} finally {
if (defaultClassLoader != null) {
setContextClassLoader(previous);
}
}
}
private void doRun() {
synchronized (ClientNotifForwarder.this) {
currentFetchThread = Thread.currentThread();
if (state == STARTING) {
setState(STARTED);
}
}
NotificationResult nr = null;
if (!shouldStop() && (nr = fetchNotifs()) != null) {
// nr == null means got exception
final TargetedNotification[] notifs =
nr.getTargetedNotifications();
final int len = notifs.length;
final Map<Integer, ClientListenerInfo> listeners;
final Integer myListenerID;
long missed = 0;
synchronized(ClientNotifForwarder.this) {
// check sequence number.
//
if (clientSequenceNumber >= 0) {
missed = nr.getEarliestSequenceNumber() -
clientSequenceNumber;
}
clientSequenceNumber = nr.getNextSequenceNumber();
listeners = new HashMap<Integer, ClientListenerInfo>();
for (int i = 0 ; i < len ; i++) {
final TargetedNotification tn = notifs[i];
final Integer listenerID = tn.getListenerID();
// check if an mbean unregistration notif
if (!listenerID.equals(mbeanRemovedNotifID)) {
final ClientListenerInfo li = infoList.get(listenerID);
if (li != null) {
listeners.put(listenerID, li);
}
continue;
}
final Notification notif = tn.getNotification();
final String unreg =
MBeanServerNotification.UNREGISTRATION_NOTIFICATION;
if (notif instanceof MBeanServerNotification &&
notif.getType().equals(unreg)) {
MBeanServerNotification mbsn =
(MBeanServerNotification) notif;
ObjectName name = mbsn.getMBeanName();
removeNotificationListener(name);
}
}
myListenerID = mbeanRemovedNotifID;
}
if (missed > 0) {
final String msg =
"May have lost up to " + missed +
" notification" + (missed == 1 ? "" : "s");
lostNotifs(msg, missed);
logger.trace("NotifFetcher.run", msg);
}
// forward
for (int i = 0 ; i < len ; i++) {
final TargetedNotification tn = notifs[i];
dispatchNotification(tn,myListenerID,listeners);
}
}
synchronized (ClientNotifForwarder.this) {
currentFetchThread = null;
}
if (nr == null) {
if (logger.traceOn()) {
logger.trace("NotifFetcher-run",
"Recieved null object as notifs, stops fetching because the "
+ "notification server is terminated.");
}
}
if (nr == null || shouldStop()) {
// tell that the thread is REALLY stopped
setState(STOPPED);
try {
removeListenerForMBeanRemovedNotif(mbeanRemovedNotifID);
} catch (Exception e) {
if (logger.traceOn()) {
logger.trace("NotifFetcher-run",
"removeListenerForMBeanRemovedNotif", e);
}
}
} else {
try {
executor.execute(this);
} catch (Exception e) {
if (isRejectedExecutionException(e)) {
// We reached here because the executor was shutdown.
// If executor was supplied by client, then it was shutdown
// abruptly or JMXConnector was shutdown along with executor
// while this thread was suspended at L564.
if (!(executor instanceof LinearExecutor)) {
// Spawn new executor that will do cleanup if JMXConnector is closed
// or keep notif system running otherwise
executor = new LinearExecutor();
executor.execute(this);
}
} else {
throw e;
}
}
}
}
private boolean isRejectedExecutionException(Exception e) {
Throwable cause = e;
while (cause != null) {
if (cause instanceof RejectedExecutionException) {
return true;
}
cause = cause.getCause();
}
return false;
}
void dispatchNotification(TargetedNotification tn,
Integer myListenerID,
Map<Integer, ClientListenerInfo> listeners) {
final Notification notif = tn.getNotification();
final Integer listenerID = tn.getListenerID();
if (listenerID.equals(myListenerID)) return;
final ClientListenerInfo li = listeners.get(listenerID);
if (li == null) {
logger.trace("NotifFetcher.dispatch",
"Listener ID not in map");
return;
}
NotificationListener l = li.getListener();
Object h = li.getHandback();
try {
l.handleNotification(notif, h);
} catch (RuntimeException e) {
final String msg =
"Failed to forward a notification " +
"to a listener";
logger.trace("NotifFetcher-run", msg, e);
}
}
private NotificationResult fetchNotifs() {
try {
NotificationResult nr = ClientNotifForwarder.this.
fetchNotifs(clientSequenceNumber,maxNotifications,
timeout);
if (logger.traceOn()) {
logger.trace("NotifFetcher-run",
"Got notifications from the server: "+nr);
}
return nr;
} catch (ClassNotFoundException | NotSerializableException e) {
logger.trace("NotifFetcher.fetchNotifs", e);
return fetchOneNotif();
} catch (IOException ioe) {
if (!shouldStop()) {
logger.error("NotifFetcher-run",
"Failed to fetch notification, " +
"stopping thread. Error is: " + ioe, ioe);
logger.debug("NotifFetcher-run",ioe);
}
// no more fetching
return null;
}
}
/* Fetch one notification when we suspect that it might be a
notification that we can't deserialize (because of a
missing class). First we ask for 0 notifications with 0
timeout. This allows us to skip sequence numbers for
notifications that don't match our filters. Then we ask
for one notification. If that produces a
ClassNotFoundException, NotSerializableException or
UnmarshalException, we increase our sequence number and ask again.
Eventually we will either get a successful notification, or a
return with 0 notifications. In either case we can return a
NotificationResult. This algorithm works (albeit less
well) even if the server implementation doesn't optimize a
request for 0 notifications to skip sequence numbers for
notifications that don't match our filters.
If we had at least one
ClassNotFoundException/NotSerializableException/UnmarshalException,
then we must emit a JMXConnectionNotification.LOST_NOTIFS.
*/
private NotificationResult fetchOneNotif() {
ClientNotifForwarder cnf = ClientNotifForwarder.this;
long startSequenceNumber = clientSequenceNumber;
int notFoundCount = 0;
NotificationResult result = null;
long firstEarliest = -1;
while (result == null && !shouldStop()) {
NotificationResult nr;
try {
// 0 notifs to update startSequenceNumber
nr = cnf.fetchNotifs(startSequenceNumber, 0, 0L);
} catch (ClassNotFoundException e) {
logger.warning("NotifFetcher.fetchOneNotif",
"Impossible exception: " + e);
logger.debug("NotifFetcher.fetchOneNotif",e);
return null;
} catch (IOException e) {
if (!shouldStop())
logger.trace("NotifFetcher.fetchOneNotif", e);
return null;
}
if (shouldStop() || nr == null)
return null;
startSequenceNumber = nr.getNextSequenceNumber();
if (firstEarliest < 0)
firstEarliest = nr.getEarliestSequenceNumber();
try {
// 1 notif to skip possible missing class
result = cnf.fetchNotifs(startSequenceNumber, 1, 0L);
} catch (ClassNotFoundException | NotSerializableException e) {
logger.warning("NotifFetcher.fetchOneNotif",
"Failed to deserialize a notification: "+e.toString());
if (logger.traceOn()) {
logger.trace("NotifFetcher.fetchOneNotif",
"Failed to deserialize a notification.", e);
}
notFoundCount++;
startSequenceNumber++;
} catch (Exception e) {
if (!shouldStop())
logger.trace("NotifFetcher.fetchOneNotif", e);
return null;
}
}
if (notFoundCount > 0) {
final String msg =
"Dropped " + notFoundCount + " notification" +
(notFoundCount == 1 ? "" : "s") +
" because classes were missing locally or incompatible";
lostNotifs(msg, notFoundCount);
// Even if result.getEarliestSequenceNumber() is now greater than
// it was initially, meaning some notifs have been dropped
// from the buffer, we don't want the caller to see that
// because it is then likely to renotify about the lost notifs.
// So we put back the first value of earliestSequenceNumber
// that we saw.
if (result != null) {
result = new NotificationResult(
firstEarliest, result.getNextSequenceNumber(),
result.getTargetedNotifications());
}
}
return result;
}
private boolean shouldStop() {
synchronized (ClientNotifForwarder.this) {
if (state != STARTED) {
return true;
} else if (infoList.size() == 0) {
// no more listener, stop fetching
setState(STOPPING);
return true;
}
return false;
}
}
}
// -------------------------------------------------
// private methods
// -------------------------------------------------
private synchronized void setState(int newState) {
if (state == TERMINATED) {
return;
}
state = newState;
this.notifyAll();
}
/*
* Called to decide whether need to start a thread for fetching notifs.
* <P>The parameter reconnected will decide whether to initilize the clientSequenceNumber,
* initilaizing the clientSequenceNumber means to ignore all notifications arrived before.
* If it is reconnected, we will not initialize in order to get all notifications arrived
* during the reconnection. It may cause the newly registered listeners to receive some
* notifications arrived before its registray.
*/
private synchronized void init(boolean reconnected) throws IOException {
switch (state) {
case STARTED:
return;
case STARTING:
return;
case TERMINATED:
throw new IOException("The ClientNotifForwarder has been terminated.");
case STOPPING:
if (beingReconnected == true) {
// wait for another thread to do, which is doing reconnection
return;
}
while (state == STOPPING) { // make sure only one fetching thread.
try {
wait();
} catch (InterruptedException ire) {
IOException ioe = new IOException(ire.toString());
EnvHelp.initCause(ioe, ire);
throw ioe;
}
}
// re-call this method to check the state again,
// the state can be other value like TERMINATED.
init(reconnected);
return;
case STOPPED:
if (beingReconnected == true) {
// wait for another thread to do, which is doing reconnection
return;
}
if (logger.traceOn()) {
logger.trace("init", "Initializing...");
}
// init the clientSequenceNumber if not reconnected.
if (!reconnected) {
try {
NotificationResult nr = fetchNotifs(-1, 0, 0);
if (state != STOPPED) { // JDK-8038940
// reconnection must happen during
// fetchNotifs(-1, 0, 0), and a new
// thread takes over the fetching job
return;
}
clientSequenceNumber = nr.getNextSequenceNumber();
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