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/*
* DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS HEADER.
*
* Copyright (c) 2016-2021 Payara Foundation and/or its affiliates. All rights reserved.
*
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* General Public License Version 2 only ("GPL") or the Common Development
* and Distribution License("CDDL") (collectively, the "License"). You
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* obtain a copy of the License at
* https://github.com/payara/Payara/blob/main/LICENSE.txt
* See the License for the specific
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*
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* file and include the License file at glassfish/legal/LICENSE.txt.
*
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* exception as provided by the Payara Foundation in the GPL Version 2 section of the License
* file that accompanied this code.
*
* Modifications:
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package fish.payara.ejb.timer.hazelcast;
import com.hazelcast.core.HazelcastInstance;
import com.hazelcast.map.IMap;
import com.hazelcast.cp.lock.FencedLock;
import com.sun.ejb.containers.BaseContainer;
import com.sun.ejb.containers.EJBTimerSchedule;
import com.sun.ejb.containers.EJBTimerService;
import com.sun.ejb.containers.NonPersistentEJBTimerService;
import com.sun.ejb.containers.RuntimeTimerState;
import com.sun.ejb.containers.TimerPrimaryKey;
import com.sun.enterprise.deployment.MethodDescriptor;
import com.sun.logging.LogDomains;
import fish.payara.appserver.micro.services.PayaraInstanceImpl;
import fish.payara.micro.data.InstanceDescriptor;
import fish.payara.nucleus.cluster.ClusterListener;
import fish.payara.nucleus.cluster.MemberEvent;
import fish.payara.nucleus.cluster.PayaraCluster;
import fish.payara.nucleus.eventbus.ClusterMessage;
import fish.payara.nucleus.eventbus.MessageReceiver;
import fish.payara.nucleus.hazelcast.HazelcastCore;
import java.io.Serializable;
import java.lang.reflect.Method;
import java.util.ArrayList;
import java.util.Collection;
import java.util.Date;
import java.util.HashMap;
import java.util.HashSet;
import java.util.Iterator;
import java.util.List;
import java.util.Map;
import java.util.Map.Entry;
import java.util.Set;
import java.util.logging.Level;
import java.util.logging.Logger;
import jakarta.ejb.EJBException;
import jakarta.ejb.FinderException;
import jakarta.ejb.TimerConfig;
import jakarta.transaction.TransactionManager;
import org.glassfish.ejb.deployment.descriptor.EjbDescriptor;
import org.glassfish.ejb.deployment.descriptor.ScheduledTimerDescriptor;
import org.glassfish.internal.api.Globals;
/**
* Store for EJB timers that exist across a Hazelcast cluster.
* @author steve
* @since 4.1.1.163
*/
public class HazelcastTimerStore extends NonPersistentEJBTimerService implements ClusterListener,
MessageReceiver {
private static final String EJB_TIMER_CACHE_NAME = "HZEjbTmerCache";
private static final String EJB_TIMER_CONTAINER_CACHE_NAME = "HZEjbTmerContainerCache";
private static final String EJB_TIMER_APPLICAION_CACHE_NAME = "HZEjbTmerApplicationCache";
private final IMap pkCache;
private final IMap> containerCache;
private final IMap> applicationCache;
private final String serverName;
private final HazelcastInstance hazelcast;
private static final Logger logger = LogDomains.getLogger(HazelcastTimerStore.class, LogDomains.EJB_LOGGER);
static void init(HazelcastCore core) {
try {
HazelcastTimerStore store = new HazelcastTimerStore(core);
Globals.getDefaultBaseServiceLocator().getService(PayaraCluster.class).addClusterListener(store);
EJBTimerService.setPersistentTimerService(store);
Globals.getDefaultBaseServiceLocator().getService(PayaraCluster.class).getEventBus().addMessageReceiver(
EjbTimerEvent.EJB_TIMER_EVENTS_TOPIC, store);
} catch (Exception ex) {
Logger.getLogger(HazelcastTimerStore.class.getName()).log(Level.WARNING, "Problem when initialising Timer Store", ex);
}
}
public HazelcastTimerStore(HazelcastCore core) throws Exception {
if (!core.isEnabled()) {
throw new Exception("Hazelcast MUST be enabled when using the HazelcastTimerStore");
}
hazelcast = core.getInstance();
pkCache = hazelcast.getMap(EJB_TIMER_CACHE_NAME);
containerCache = hazelcast.getMap(EJB_TIMER_CONTAINER_CACHE_NAME);
applicationCache = hazelcast.getMap(EJB_TIMER_APPLICAION_CACHE_NAME);
serverName = core.getAttribute(core.getInstance().getCluster().getLocalMember().getUuid(), HazelcastCore.INSTANCE_ATTRIBUTE);
this.ownerIdOfThisServer_ = serverName;
this.domainName_ = core.getInstance().getConfig().getClusterName();
super.enableRescheduleTimers();
}
private void removeTimers(Set timerIdsToRemove) {
for (TimerPrimaryKey timerPrimaryKey : timerIdsToRemove) {
removeTimer(pkCache.get(timerPrimaryKey.timerId));
}
}
@Override
protected void _createTimer(TimerPrimaryKey timerId, long containerId, long applicationId, Object timedObjectPrimaryKey, String server_name, Date initialExpiration, long intervalDuration, EJBTimerSchedule schedule, TimerConfig timerConfig) throws Exception {
if (timerConfig.isPersistent()) {
pkCache.put(timerId.timerId, new HZTimer(timerId, containerId, applicationId, timedObjectPrimaryKey, server_name, server_name, initialExpiration, intervalDuration, schedule, timerConfig));
// add to container cache
Set keysForContainer = containerCache.get(containerId);
if (keysForContainer == null) {
keysForContainer = new HashSet<>();
}
keysForContainer.add(timerId);
containerCache.put(containerId, keysForContainer);
// add to application cache
Set keysForApp = applicationCache.get(applicationId);
if (keysForApp == null) {
keysForApp = new HashSet<>();
}
keysForApp.add(timerId);
applicationCache.put(applicationId, keysForApp);
TransactionManager tm = ejbContainerUtil.getTransactionManager();
boolean localTx = tm.getTransaction() == null;
if (localTx) {
tm.begin();
}
addTimerSynchronization(null,
timerId.getTimerId(), initialExpiration,
containerId, ownerIdOfThisServer_, true);
if (localTx) {
tm.commit();
}
} else {
addTimerSynchronization(null,
timerId.getTimerId(), initialExpiration,
containerId, ownerIdOfThisServer_, false);
}
}
@Override
public void destroyAllTimers(long applicationId) {
// remove all timers
Set timerIds = applicationCache.get(applicationId);
if (timerIds == null || timerIds.isEmpty()) {
if (logger.isLoggable(Level.INFO)) {
logger.log(Level.INFO, "No timers to be deleted for id: {0}", applicationId);
}
return;
}
for (TimerPrimaryKey timerId : timerIds) {
pkCache.remove(timerId.timerId);
}
logger.log(Level.INFO, "Destroyed {0} timers for application {1}", new Object[]{timerIds.size(), applicationId});
timerIds.clear();
applicationCache.remove(applicationId);
}
@Override
public void destroyTimers(long containerId) {
Set timerIds = containerCache.get(containerId);
if (timerIds == null || timerIds.isEmpty()) {
if (logger.isLoggable(Level.INFO)) {
logger.log(Level.INFO, "No timers to be deleted for id: {0}", containerId);
}
return;
}
logger.log(Level.INFO, "Destroyed {0} timers for container {1}", new Object[]{timerIds.size(), containerId});
timerIds.clear();
applicationCache.put(containerId, timerIds);
}
@Override
protected void cancelTimer(TimerPrimaryKey timerId) throws FinderException, Exception {
// Check non-persistent timers first
if (!cancelNonPersistentTimer(timerId)) {
HZTimer timer = pkCache.get(timerId.timerId);
if (timer != null) {
TransactionManager tm = ejbContainerUtil.getTransactionManager();
boolean localTx = tm.getTransaction() == null;
if (localTx) {
tm.begin();
}
super.cancelTimerSynchronization(null, timerId,
timer.getContainerId(), timer.getOwnerId());
if (localTx) {
tm.commit();
}
}
}
}
@Override
protected Serializable getInfo(TimerPrimaryKey timerId) throws FinderException {
// Check non-persistent timers first
if (isNonpersistent(timerId)) {
return super.getInfo(timerId);
}
HZTimer timer = pkCache.get(timerId.timerId);
if (timer == null) {
throw new FinderException("Unable to find timer " + timerId);
} else {
return timer.getTimerConfig().getInfo();
}
}
@Override
protected Date getNextTimeout(TimerPrimaryKey timerId) throws FinderException {
// Check non-persistent timers first
RuntimeTimerState rt = getNonPersistentTimer(timerId);
if (rt != null) {
return _getNextTimeout(rt);
}
// It's a persistent timer
HZTimer timer = getPersistentTimer(timerId);
Date initialExpiration = timer.getInitialExpiration();
long intervalDuration = timer.getIntervalDuration();
EJBTimerSchedule ts = timer.getSchedule();
Date nextTimeout = null;
if (ts != null) {
nextTimeout = getNextScheduledTimeout(ts);
// The caller is responsible to return 0 or -1 for the time remaining....
} else if (intervalDuration > 0) {
nextTimeout = calcNextFixedRateExpiration(initialExpiration,
intervalDuration);
} else {
nextTimeout = initialExpiration;
}
return nextTimeout;
}
@Override
protected void cancelTimersByKey(long containerId, Object primaryKey) {
// Get *all* timers for this entity bean identity. This includes
// even timers *not* owned by this server instance, but that
// are associated with the same entity bean and primary key.
Set timers = containerCache.get(containerId);
if (timers != null) {
HashSet timersToCancel = new HashSet<>();
for (TimerPrimaryKey timer : timers) {
HZTimer hzTimer = pkCache.get(timer.timerId);
if (hzTimer != null && hzTimer.getTimedObjectPk().equals(primaryKey)) {
timersToCancel.add(hzTimer);
}
}
for (HZTimer hZTimer : timersToCancel) {
removeTimer(hZTimer);
}
}
}
@Override
public void createSchedules(long containerId, long applicationId, Map> methodDescriptorSchedules, String server_name) {
TransactionManager tm = ejbContainerUtil.getTransactionManager();
try {
tm.begin();
Set keys = containerCache.get(containerId);
if (keys == null || keys.isEmpty()) {
// No timers owned by this EJB
createSchedules(containerId, applicationId, methodDescriptorSchedules, null, server_name, false, true);
}
tm.commit();
} catch (Exception e) {
recoverAndCreateSchedulesError(e, tm);
}
}
@Override
public void createSchedulesOnServer(EjbDescriptor ejbDescriptor, String server_name) {
Map> schedules = new HashMap<>();
for (ScheduledTimerDescriptor schd : ejbDescriptor.getScheduledTimerDescriptors()) {
MethodDescriptor method = schd.getTimeoutMethod();
if (method != null && schd.getPersistent()) {
if (logger.isLoggable(Level.FINE)) {
logger.log(Level.FINE, "... processing {0}", method);
}
List list = schedules.get(method);
if (list == null) {
list = new ArrayList<>();
schedules.put(method, list);
}
list.add(schd);
}
}
if (logger.isLoggable(Level.FINE)) {
logger.log(Level.FINE, "EJBTimerService - creating schedules for {0}", ejbDescriptor.getUniqueId());
}
createSchedules(ejbDescriptor.getUniqueId(), ejbDescriptor.getApplication().getUniqueId(), schedules, server_name);
if (logger.isLoggable(Level.FINE)) {
logger.log(Level.FINE, "EJBTimerService - finished processing schedules for BEAN ID: {0}", ejbDescriptor.getUniqueId());
}
}
@Override
protected void expungeTimer(TimerPrimaryKey timerId, boolean removeTimerBean) {
HZTimer timer = pkCache.get(timerId.timerId);
if (timer != null) {
removeTimer(timer);
}
// And finish in the superclass...
super.expungeTimer(timerId, removeTimerBean);
}
@Override
protected Collection getTimerIds(Collection containerIds) {
Collection result = super.getTimerIds(containerIds);
for (Long containerId : containerIds) {
Set colKeys = containerCache.get(containerId);
if (colKeys != null) {
result.addAll(colKeys);
}
}
return result;
}
@Override
protected Collection getTimerIds(long containerId, Object timedObjectPrimaryKey) {
// The results should include all timers for the given ejb
// and/or primary key, including timers owned by other server instances.
// @@@ Might want to consider cases where we can use
// timer cache to avoid some database access in PE/SE, or
// even in EE with the appropriate consistency tradeoff.
Collection timerIdsForTimedObject = new HashSet<>();
if (timedObjectPrimaryKey == null) {
Set contKeys = containerCache.get(containerId);
if (contKeys != null) {
timerIdsForTimedObject.addAll(contKeys);
}
} else {
Collection timersForTimedObject = containerCache.get(containerId);
if (timersForTimedObject != null) {
for (TimerPrimaryKey timer : timersForTimedObject) {
HZTimer hzTimer = pkCache.get(timer.timerId);
if (hzTimer != null && hzTimer.getTimedObjectPk().equals(timedObjectPrimaryKey)) {
timerIdsForTimedObject.add(timer);
}
}
}
}
// Add active non-persistent timer ids
timerIdsForTimedObject.addAll(super.getTimerIds(containerId, null));
return timerIdsForTimedObject;
}
@Override
protected EJBTimerSchedule getTimerSchedule(TimerPrimaryKey timerId) throws FinderException {
// Check non-persistent timers first
EJBTimerSchedule ts = null;
if (isNonpersistent(timerId)) {
ts = super.getTimerSchedule(timerId);
} else {
// @@@ We can't assume this server instance owns the persistent timer
// so always ask the database. Investigate possible use of
// timer cache for optimization.
HZTimer timer = getPersistentTimer(timerId);
ts = timer.getSchedule();
}
return ts;
}
@Override
public boolean isPersistent() {
return true;
}
@Override
protected boolean isCancelledByAnotherInstance(RuntimeTimerState timerState) {
if (timerState.isPersistent() && !isDas) {
if (logger.isLoggable(Level.FINE)) {
logger.log(Level.FINE, "For Timer :{0}: check the database to ensure that the timer is still valid, before delivering the ejbTimeout call",
timerState.getTimerId());
}
if (!checkForTimerValidity(timerState.getTimerId())) {
// The timer for which a ejbTimeout is about to be delivered
// is not present in the database. This could happen in the
// SE/EE case as other server instances (other than the owner)
// could call a cancel on the timer - deleting the timer from
// the database.
// Also it is possible that the timer is now owned by some other
// server instance
return true;
}
}
return false;
}
@Override
protected boolean isPersistent(TimerPrimaryKey timerId) throws FinderException {
// Check non-persistent timers first
if (isNonpersistent(timerId)) {
// Found and active
return false;
}
// @@@ We can't assume this server instance owns the persistent timer
// so always ask the database. Investigate possible use of
// timer cache for optimization.
getPersistentTimer(timerId);
// If we reached here, it means the timer is persistent
return true;
}
@Override
protected boolean isValidTimerForThisServer(TimerPrimaryKey timerId, RuntimeTimerState timerState) {
boolean result = true;
if (timerState.isPersistent()) {
HZTimer timer = pkCache.get(timerId.timerId);
if (timer == null || !timer.getMemberName().equals(serverName)) {
result = false;
removeLocalTimer(timer);
}
}
return result;
}
static String [] listTimers(Collection timers, String[] serverIds) {
String result[] = new String[serverIds.length];
// count all server ids
HashMap counts = new HashMap<>();
for (HZTimer timer : timers) {
String serverName = timer.getMemberName();
Long val = counts.get(serverName);
if (val == null) {
val = new Long(0);
}
counts.put(serverName, new Long(val.intValue() + 1));
}
// copy counts into the strings
for (int i = 0; i < serverIds.length; i++) {
Long count = counts.get(serverIds[i]);
if (count != null) {
result[i] = counts.get(serverIds[i]).toString();
} else {
result[i] = "0";
}
}
return result;
}
@Override
public String[] listTimers(String[] serverIds) {
return listTimers(pkCache.values(), serverIds);
}
@Override
public int migrateTimers(String fromOwnerId) {
String ownerIdOfThisServer = getOwnerIdOfThisServer();
if (fromOwnerId.equals(ownerIdOfThisServer)) {
logger.log(Level.WARNING, "Attempt to migrate timers from {0} to itself",
ownerIdOfThisServer);
throw new IllegalStateException("Attempt to migrate timers from " + ownerIdOfThisServer + " to itself");
}
logger.log(Level.INFO, "Beginning timer migration process from owner {0} to {1}", new Object[]{fromOwnerId, ownerIdOfThisServer});
TransactionManager tm = ejbContainerUtil.getTransactionManager();
HashMap toRestore = new HashMap<>();
int totalTimersMigrated = 0;
for (String pk : pkCache.keySet()) {
HZTimer hZTimer = pkCache.get(pk);
if (hZTimer.getOwnerId().equals(fromOwnerId)) {
toRestore.put(pk, hZTimer);
hZTimer.setOwnerId(ownerIdOfThisServer);
hZTimer.setMemberName(serverName);
}
}
for (Entry entry : toRestore.entrySet()) {
pkCache.put(entry.getKey(), entry.getValue());
totalTimersMigrated++;
}
if (totalTimersMigrated > 0) {
boolean success = false;
try {
logger.log(Level.INFO, "Timer migration phase 1 complete. Changed ownership of {0} timers. Now reactivating timers...", toRestore.size());
_notifyContainers(toRestore.values());
tm.begin();
_restoreTimers(toRestore.values());
success = true;
// Inform fromServer that timers have been migrated and it needs to clear its local cache
_notifyMigratedFromInstance(fromOwnerId);
} catch (Exception e) {
logger.log(Level.FINE, "timer restoration error", e);
//Propogate any exceptions caught as part of the transaction
EJBException ejbEx = createEJBException(e);
throw ejbEx;
} finally {
// We're not modifying any state in this tx so no harm in
// always committing.
try {
tm.commit();
} catch (Exception re) {
logger.log(Level.FINE, "timer migration error", re);
if (success) {
//Propogate any exceptions caught when trying to commit
//the transaction
EJBException ejbEx = createEJBException(re);
throw ejbEx;
}
}
}
} else {
logger.log(Level.INFO, "{0} has 0 timers in need of migration", fromOwnerId);
}
return totalTimersMigrated;
}
@Override
protected Map recoverAndCreateSchedules(long containerId, long applicationId, Map> schedules, boolean deploy) {
Map result = new HashMap<>();
boolean lostCluster = false;
Set activeTimers = new HashSet<>();
// get all timers for this container
Set containerKeys = containerCache.get(containerId);
Set deadKeys = new HashSet<>();
Set timers = new HashSet<>();
if (containerKeys != null) {
for (TimerPrimaryKey containerKey : containerKeys) {
HZTimer timer = pkCache.get(containerKey.timerId);
if (timer != null) {
if (timer.getMemberName().equals(this.serverName)) {
activeTimers.add(timer);
} else {
timers.add(timer); //on another instance in the cluster
}
} else {
deadKeys.add(containerKey);
}
}
if (!deadKeys.isEmpty()) {
// clean out dead keys
logger.log(Level.INFO, "Cleaning out {0} dead timer ids from Container Cache ", deadKeys.size());
for (TimerPrimaryKey deadKey : deadKeys) {
containerKeys.remove(deadKey);
}
containerCache.put(containerId, containerKeys);
}
} else if (containerKeys == null && deploy == false) {
// we are in trouble as we are not deploying but our keys are null
// looks like we lost the whole cluster storage
// recreate timers
logger.log(Level.INFO, "Looks like we lost the data grid storage will recreate timers");
lostCluster = true;
}
timers.addAll(_restoreTimers(activeTimers));
if (timers.size() > 0) {
logger.log(Level.FINE, "Found {0} persistent timers for containerId: {1}", new Object[]{timers.size(), containerId});
}
boolean schedulesExist = (schedules.size() > 0);
for (HZTimer timer : timers) {
EJBTimerSchedule ts = timer.getSchedule();
if (ts != null && ts.isAutomatic() && schedulesExist) {
Iterator>> schedulesIterator = schedules.entrySet().iterator();
while (schedulesIterator.hasNext()){
Map.Entry> entry = schedulesIterator.next();
Method m = entry.getKey();
if (m.getName().equals(ts.getTimerMethodName())
&& m.getParameterTypes().length == ts.getMethodParamCount()) {
result.put(new TimerPrimaryKey(timer.getKey().getTimerId()), m);
if (logger.isLoggable(Level.FINE)) {
logger.log(Level.FINE, "@@@ FOUND existing schedule: {0} FOR method: {1}", new Object[]{ts.getScheduleAsString(), m});
}
schedulesIterator.remove();
}
}
}
}
try {
if (!schedules.isEmpty()) {
createSchedules(containerId, applicationId, schedules, result, serverName, true,
(deploy && isDas) || lostCluster);
}
} catch (Exception ex) {
Logger.getLogger(HazelcastTimerStore.class.getName()).log(Level.SEVERE, null, ex);
}
return result;
}
@Override
protected boolean redeliverTimeout(RuntimeTimerState timerState) {
return (timerState.getNumFailedDeliveries()
< getMaxRedeliveries());
}
@Override
protected void resetLastExpiration(TimerPrimaryKey timerId, RuntimeTimerState timerState
) {
if (timerState.isPersistent()) {
HZTimer timer = pkCache.get(timerId.timerId);
if (null == timer) {
return;
}
if (removeLocalTimer(timer)) {
return;
}
Date now = new Date();
timer.setLastExpiration(now);
pkCache.put(timer.getKey().timerId, timer);
// Since timer was successfully delivered, update
// last delivery time in database if that option is
// enabled.
// @@@ add configuration for update-db-on-delivery
if (logger.isLoggable(Level.FINE)) {
logger.log(Level.FINE, "Setting last expiration for periodic timer {0} to {1}", new Object[]{timerState, now});
}
}
}
@Override
protected void resetEJBTimers(String target) {
if (target == null) {
// target is null when accessed from the BaseContainer on load, i.e. where timers are running
logger.log(Level.INFO, "==> Restoring Timers ... ");
if (restoreEJBTimers()) {
logger.log(Level.INFO, "<== ... Timers Restored.");
}
}
}
@Override
protected boolean stopOnFailure() {
return false;
}
@Override
protected boolean timerExists(TimerPrimaryKey timerId) {
boolean exists = super.timerExists(timerId);
// Check persistent timers only if non-persistent is not found
if (!exists) {
// @@@ We can't assume this server instance owns the persistent timer
// so always ask the database. Investigate possible use of
// timer cache for optimization.
HZTimer timer = pkCache.get(timerId.timerId);
if (timer != null) {
// Make sure timer hasn't been cancelled within the current tx.
exists = true;
}
}
return exists;
}
@Override
protected void stopTimers(long containerId) {
super.stopTimers(containerId);
stopTimers(containerCache.get(containerId));
}
private HZTimer getPersistentTimer(TimerPrimaryKey timerId) throws FinderException {
HZTimer result = pkCache.get(timerId.timerId);
if (result == null) {
throw new FinderException("Unable to find timer " + timerId);
}
return result;
}
private void removeTimer(HZTimer timer) {
pkCache.remove(timer.getKey().timerId);
Set keys = applicationCache.get(timer.getApplicationId());
if (keys != null) {
keys.remove(timer.getKey());
applicationCache.put(timer.getApplicationId(), keys);
}
keys = containerCache.get(timer.getContainerId());
if (keys != null) {
keys.remove(timer.getKey());
containerCache.put(timer.getContainerId(), keys);
}
}
/**
* Common code for exception processing in recoverAndCreateSchedules
*/
private void recoverAndCreateSchedulesError(Exception e, TransactionManager tm) {
logger.log(Level.WARNING, "Timer restore or schedule creation error", e);
try {
tm.rollback();
} catch (Exception re) {
logger.log(Level.FINE, "Timer restore or schedule creation rollback error", re);
}
//Propagate the exception caught as an EJBException
EJBException ejbEx = createEJBException(e);
throw ejbEx;
}
private boolean checkForTimerValidity(TimerPrimaryKey timerId) {
// check the timer still exists and is owned by me
boolean result = false;
ClassLoader cl = Thread.currentThread().getContextClassLoader();
Thread.currentThread().setContextClassLoader(HazelcastTimerStore.class.getClassLoader());
HZTimer timer = pkCache.get(timerId.timerId);
if (timer != null && timer.getMemberName().equals(this.serverName)) {
result = true;
}
Thread.currentThread().setContextClassLoader(cl);
return result;
}
/**
* The portion of timer migration that notifies containers about automatic
* timers being migrated to this instance
*/
private void _notifyContainers(Collection timers) {
for (HZTimer timer : timers) {
EJBTimerSchedule ts = timer.getSchedule();
if (ts != null && ts.isAutomatic()) {
addToSchedules(timer.getContainerId(), timer.getKey(), ts);
}
}
}
private void restoreTimers() throws Exception {
// Optimization. Skip timer restoration if there aren't any
// applications with timed objects deployed.
if (totalTimedObjectsInitialized_ == 0) {
return;
}
_restoreTimers(findActiveTimersOwnedByThisServer());
}
/**
* The portion of timer restoration that deals with registering the JDK
* timer tasks and checking for missed expirations.
*
* @return the Set of restored timers
*/
private Collection _restoreTimers(Collection timersEligibleForRestoration) {
// Do timer restoration in two passes. The first pass updates
// the timer cache with each timer. The second pass schedules
// the JDK timer tasks.
Map timersToRestore = new HashMap<>();
Set timerIdsToRemove = new HashSet<>();
Set result = new HashSet<>();
for (HZTimer timer : timersEligibleForRestoration) {
TimerPrimaryKey timerId = timer.getKey();
if (getTimerState(timerId) != null) {
// Already restored. Add it to the result but do nothing else.
logger.log(Level.FINE, "@@@ Timer already restored: {0}", timer);
result.add(timer);
continue;
}
long containerId = timer.getContainerId();
// Timer might refer to an obsolete container.
BaseContainer container = getContainer(containerId);
if (container != null) {
// Update applicationId if it is null (from previous version)
long appid = timer.getApplicationId();
if (appid == 0) {
timer.setApplicationId(container.getApplicationId());
}
if (!timer.getMemberName().equals(serverName)) {
timer.setMemberName(serverName);
}
// End update
Date initialExpiration = timer.getInitialExpiration();
// Create an instance of RuntimeTimerState.
// Only access timedObjectPrimaryKey if timed object is
// an entity bean. That allows us to lazily load the underlying
// blob for stateless session and message-driven bean timers.
Object timedObjectPrimaryKey = null;
if (container.getContainerType() == BaseContainer.ContainerType.ENTITY) {
timedObjectPrimaryKey = timer.getTimedObjectPk();
}
RuntimeTimerState timerState = new RuntimeTimerState(timerId, initialExpiration,
timer.getIntervalDuration(), container,
timedObjectPrimaryKey,
timer.getSchedule(),
// Don't need to store the info ref for persistent timer
null, true);
timerCache_.addTimer(timerId, timerState);
// If a single-action timer is still in the database it never
// successfully delivered, so always reschedule a timer task
// for it. For periodic timers, we use the last known
// expiration time to decide whether we need to fire one
// ejbTimeout to make up for any missed ones.
Date expirationTime = initialExpiration;
Date now = new Date();
if (timerState.isPeriodic()) {
// lastExpiration time, or null if we either aren't
// tracking last expiration or an expiration hasn't
// occurred yet for this timer.
Date lastExpiration = timer.getLastExpiration();
EJBTimerSchedule ts = timer.getSchedule();
// @@@ need to handle case where last expiration time
// is not stored in database. This will be the case
// when we add configuration for update-db-on-delivery.
// However, for now assume we do update the db on each
// ejbTimeout. Therefore, if (lastExpirationTime == null),
// it means the timer didn't successfully complete any
// timer expirations.
if ((lastExpiration == null)
&& now.after(initialExpiration)) {
if (!timerState.isExpired()) {
// This timer didn't even expire one time.
logger.log(Level.INFO, "Rescheduling missed expiration for periodic timer {0}. Timer expirations should have been delivered starting at {1}",
new Object[]{timerState, initialExpiration});
}
// keep expiration time at initialExpiration. That
// will force an ejbTimeout almost immediately. After
// that the timer will return to fixed rate expiration.
} else if ((lastExpiration != null)
&& ((ts != null && ts.getNextTimeout(lastExpiration).getTimeInMillis()
< now.getTime())
|| ((ts == null) && now.getTime() - lastExpiration.getTime()
> timer.getIntervalDuration()))) {
// Schedule-based timer is periodic
logger.log(Level.INFO, "Rescheduling missed expiration for periodic timer {0}. Last timer expiration occurred at {1}",
new Object[]{timerState, lastExpiration});
// Timer expired at least once and at least one
// missed expiration has occurred.
// keep expiration time at initialExpiration. That
// will force an ejbTimeout almost immediately. After
// that the timer will return to fixed rate expiration.
} else {
// In this case, at least one expiration has occurred
// but that was less than one period ago so there were
// no missed expirations.
expirationTime = calcNextFixedRateExpiration(timerState);
}
} else // single-action timer
if (now.after(initialExpiration)) {
logger.log(Level.INFO, "Rescheduling missed expiration for single-action timer {0}. Timer expiration should have been delivered at {1}",
new Object[]{timerState, initialExpiration});
}
if (expirationTime == null) {
// Schedule-based timer will never expire again - remove it.
logger.log(Level.INFO, "Removing schedule-based timer {0} that will never expire again", timerState);
timerIdsToRemove.add(timerId);
} else {
timersToRestore.put(timerState, expirationTime);
result.add(timer);
}
} else {
// Timed object's container no longer exists - remember its id.
logger.log(Level.FINE, "Skipping timer {0} for container that is not up: {1}", new Object[]{timerId, containerId});
}
} // End -- for each active timer
removeTimers(timerIdsToRemove);
for (Map.Entry next : timersToRestore.entrySet()) {
RuntimeTimerState nextTimer = next.getKey();
TimerPrimaryKey timerId = nextTimer.getTimerId();
Date expiration = next.getValue();
scheduleTask(timerId, expiration);
logger.log(Level.FINE, "EJBTimerService.restoreTimers(), scheduling timer {0}", nextTimer);
}
logger.log(Level.FINE, "DONE EJBTimerService.restoreTimers()");
return result;
}
/**
* The portion of timer restoration that deals with registering the JDK
* timer tasks and checking for missed expirations.
*
* @return the Set of restored timers
*/
private Set _restoreTimers(Set timersEligibleForRestoration) {
// Do timer restoration in two passes. The first pass updates
// the timer cache with each timer. The second pass schedules
// the JDK timer tasks.
Map timersToRestore = new HashMap<>();
Set timerIdsToRemove = new HashSet<>();
Set result = new HashSet<>();
for (HZTimer timer : timersEligibleForRestoration) {
TimerPrimaryKey timerId = timer.getKey();
if (getTimerState(timerId) != null) {
// Already restored. Add it to the result but do nothing else.
logger.log(Level.FINE, "@@@ Timer already restored: {0}", timer);
result.add(timer);
continue;
}
long containerId = timer.getContainerId();
// Timer might refer to an obsolete container.
BaseContainer container = getContainer(containerId);
if (container != null) {
// Update applicationId if it is null (from previous version)
long appid = timer.getApplicationId();
if (appid == 0) {
timer.setApplicationId(container.getApplicationId());
}
// End update
Date initialExpiration = timer.getInitialExpiration();
// Create an instance of RuntimeTimerState.
// Only access timedObjectPrimaryKey if timed object is
// an entity bean. That allows us to lazily load the underlying
// blob for stateless session and message-driven bean timers.
Object timedObjectPrimaryKey = null;
if (container.getContainerType() == BaseContainer.ContainerType.ENTITY) {
timedObjectPrimaryKey = timer.getTimedObjectPk();
}
RuntimeTimerState timerState = new RuntimeTimerState(timerId, initialExpiration,
timer.getIntervalDuration(), container,
timedObjectPrimaryKey,
timer.getSchedule(),
// Don't need to store the info ref for persistent timer
null, true);
timerCache_.addTimer(timerId, timerState);
// If a single-action timer is still in the database it never
// successfully delivered, so always reschedule a timer task
// for it. For periodic timers, we use the last known
// expiration time to decide whether we need to fire one
// ejbTimeout to make up for any missed ones.
Date expirationTime = initialExpiration;
Date now = new Date();
if (timerState.isPeriodic()) {
// lastExpiration time, or null if we either aren't
// tracking last expiration or an expiration hasn't
// occurred yet for this timer.
Date lastExpiration = timer.getLastExpiration();
EJBTimerSchedule ts = timer.getSchedule();
// @@@ need to handle case where last expiration time
// is not stored in database. This will be the case
// when we add configuration for update-db-on-delivery.
// However, for now assume we do update the db on each
// ejbTimeout. Therefore, if (lastExpirationTime == null),
// it means the timer didn't successfully complete any
// timer expirations.
if ((lastExpiration == null)
&& now.after(initialExpiration)) {
if (!timerState.isExpired()) {
// This timer didn't even expire one time.
logger.log(Level.INFO, "Rescheduling missed expiration for periodic timer {0}. "
+ "Timer expirations should have been delivered starting at {1}", new Object[]{timerState, initialExpiration});
}
// keep expiration time at initialExpiration. That
// will force an ejbTimeout almost immediately. After
// that the timer will return to fixed rate expiration.
} else if ((lastExpiration != null)
&& ((ts != null && ts.getNextTimeout(lastExpiration).getTimeInMillis()
< now.getTime())
|| ((ts == null) && now.getTime() - lastExpiration.getTime()
> timer.getIntervalDuration()))) {
// Schedule-based timer is periodic
logger.log(Level.INFO, "Rescheduling missed expiration for periodic timer {0}. Last timer expiration occurred at {1}",
new Object[]{timerState, lastExpiration});
// Timer expired at least once and at least one
// missed expiration has occurred.
// keep expiration time at initialExpiration. That
// will force an ejbTimeout almost immediately. After
// that the timer will return to fixed rate expiration.
} else {
// In this case, at least one expiration has occurred
// but that was less than one period ago so there were
// no missed expirations.
expirationTime
= calcNextFixedRateExpiration(timerState);
}
} else // single-action timer
if (now.after(initialExpiration)) {
logger.log(Level.INFO, "Rescheduling missed expiration for single-action timer {0}. Timer expiration should have been delivered at {1}",
new Object[]{timerState, initialExpiration});
}
if (expirationTime == null) {
// Schedule-based timer will never expire again - remove it.
logger.log(Level.INFO, "Removing schedule-based timer {0} that will never expire again", timerState);
timerIdsToRemove.add(timerId);
} else {
timersToRestore.put(timerState, expirationTime);
result.add(timer);
}
} else {
// Timed object's container no longer exists - remember its id.
logger.log(Level.FINE, "Skipping timer {0} for container that is not up: {1}", new Object[]{timerId, containerId});
}
} // End -- for each active timer
removeTimers(timerIdsToRemove);
for (Map.Entry next : timersToRestore.entrySet()) {
RuntimeTimerState nextTimer = next.getKey();
TimerPrimaryKey timerId = nextTimer.getTimerId();
Date expiration = next.getValue();
scheduleTask(timerId, expiration);
logger.log(Level.FINE, "EJBTimerService.restoreTimers(), scheduling timer {0}", nextTimer);
}
logger.log(Level.FINE, "DONE EJBTimerService.restoreTimers()");
return result;
}
private Collection findActiveTimersOwnedByThisServer() {
HashSet result = new HashSet<>();
for (HZTimer timer : pkCache.values()) {
if (timer.getMemberName().equals(this.serverName)) {
result.add(timer);
}
}
return result;
}
private boolean restoreEJBTimers() {
boolean rc = false;
try {
if (totalTimedObjectsInitialized_ > 0) {
restoreTimers();
rc = true;
} else {
int s = (findActiveTimersOwnedByThisServer()).size();
if (s > 0) {
logger.log(Level.INFO, "[{0}] EJB Timers owned by this server will be restored when timeout beans are loaded", s);
} else {
logger.log(Level.INFO, "There are no EJB Timers owned by this server");
}
rc = true;
}
} catch (Exception ex) {
// Problem accessing timer service so disable it.
EJBTimerService.setPersistentTimerService(null);
logger.log(Level.WARNING, "ejb.timer_service_init_error", ex);
}
return rc;
}
@Override
public void memberAdded(MemberEvent event) {
//do nothing
}
@Override
public void memberRemoved(MemberEvent event) {
FencedLock hazelcastLock = hazelcast.getCPSubsystem().getLock("EJB-TIMER-LOCK");
hazelcastLock.lock();
try {
Collection allTimers = pkCache.values();
Collection removedTimers = new HashSet<>();
for (HZTimer timer : allTimers) {
if (timer.getMemberName().equals(event.getServer())) {
removedTimers.add(timer);
}
}
if (!removedTimers.isEmpty()) {
logger.log(Level.INFO, "==> Restoring Timers ... ");
Collection restored = _restoreTimers(removedTimers);
for (HZTimer timer : restored) {
pkCache.put(timer.getKey().getTimerId(), timer);
}
logger.log(Level.INFO, "<== ... Timers Restored.");
}
} finally {
hazelcastLock.unlock();
}
}
/**
* Remove all local timers that are no longer owned by this instance.
*/
private void removeLocalTimers() {
Collection allTimers = pkCache.values();
for (HZTimer timer : allTimers) {
removeLocalTimer(timer);
}
}
/**
* Removes a given local timer if it is no longer owned by this instance
* @param timer The timer to potentially be removed.
* @return True if a timer was removed.
*/
private boolean removeLocalTimer(HZTimer timer) {
boolean result = false;
TimerPrimaryKey timerId = timer.getKey();
if (!timer.getOwnerId().equals(getOwnerIdOfThisServer()) && getTimerState(timerId) != null) {
logger.log(Level.INFO,
"The timer (" + timerId + ") is now owned by (" + timer.getOwnerId() + "). Removing from " +
"local cache");
// We don't want to expunge it from the Hazelcast caches since it's a distributed cache,
// so only expunge from local cache
super.expungeTimer(timerId, false);
result = true;
}
return result;
}
/**
* Sends an {@link EjbTimerEvent} across the DataGrid with the {@link InstanceDescriptor} of the instance from
* which the EJB timers were migrated from, to allow other instances to react to the migration.
* @param fromOwnerId The {@link InstanceDescriptor} of the instance from which the timers were migrated from
*/
private void _notifyMigratedFromInstance(String fromOwnerId) {
PayaraCluster cluster = Globals.getDefaultBaseServiceLocator().getService(PayaraCluster.class);
PayaraInstanceImpl instance = Globals.getDefaultBaseServiceLocator().getService(PayaraInstanceImpl.class);
if (cluster == null || instance == null) {
return;
}
// Get the InstanceDescriptor of the fromOwnerId instance
InstanceDescriptor fromOwnerInstanceDescriptor = null;
for (InstanceDescriptor instanceDescriptor : instance.getClusteredPayaras()) {
if (instanceDescriptor.getInstanceName().equals(fromOwnerId)) {
fromOwnerInstanceDescriptor = instanceDescriptor;
break;
}
}
if (fromOwnerInstanceDescriptor == null) {
return;
}
EjbTimerEvent ejbTimerEvent = new EjbTimerEvent(EjbTimerEvent.Event.MIGRATED, fromOwnerInstanceDescriptor);
ClusterMessage message = new ClusterMessage<>(ejbTimerEvent);
cluster.getEventBus().publish(EjbTimerEvent.EJB_TIMER_EVENTS_TOPIC, message);
}
@Override
public void receiveMessage(ClusterMessage ejbTimerEvent) {
if (ejbTimerEvent.getPayload().getEventType().equals(EjbTimerEvent.Event.MIGRATED)) {
PayaraInstanceImpl instance = Globals.getDefaultBaseServiceLocator().getService(PayaraInstanceImpl.class);
if (instance == null) {
return;
}
if (ejbTimerEvent.getPayload().getId().equals(instance.getLocalDescriptor())) {
removeLocalTimers();
}
}
}
}
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