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/**
 * Licensed to the Apache Software Foundation (ASF) under one or more
 * contributor license agreements.  See the NOTICE file distributed with
 * this work for additional information regarding copyright ownership.
 * The ASF licenses this file to You 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.apache.activemq;

import java.io.IOException;
import java.util.ArrayList;
import java.util.Collections;
import java.util.HashMap;
import java.util.Iterator;
import java.util.LinkedList;
import java.util.List;
import java.util.Map;
import java.util.concurrent.ExecutorService;
import java.util.concurrent.Executors;
import java.util.concurrent.atomic.AtomicBoolean;
import java.util.concurrent.atomic.AtomicInteger;
import java.util.concurrent.atomic.AtomicReference;

import javax.jms.IllegalStateException;
import javax.jms.InvalidDestinationException;
import javax.jms.JMSException;
import javax.jms.Message;
import javax.jms.MessageConsumer;
import javax.jms.MessageListener;
import javax.jms.TransactionRolledBackException;

import org.apache.activemq.blob.BlobDownloader;
import org.apache.activemq.command.ActiveMQBlobMessage;
import org.apache.activemq.command.ActiveMQDestination;
import org.apache.activemq.command.ActiveMQMessage;
import org.apache.activemq.command.ActiveMQObjectMessage;
import org.apache.activemq.command.ActiveMQTempDestination;
import org.apache.activemq.command.CommandTypes;
import org.apache.activemq.command.ConsumerId;
import org.apache.activemq.command.ConsumerInfo;
import org.apache.activemq.command.MessageAck;
import org.apache.activemq.command.MessageDispatch;
import org.apache.activemq.command.MessageId;
import org.apache.activemq.command.MessagePull;
import org.apache.activemq.command.RemoveInfo;
import org.apache.activemq.command.TransactionId;
import org.apache.activemq.management.JMSConsumerStatsImpl;
import org.apache.activemq.management.StatsCapable;
import org.apache.activemq.management.StatsImpl;
import org.apache.activemq.selector.SelectorParser;
import org.apache.activemq.transaction.Synchronization;
import org.apache.activemq.util.Callback;
import org.apache.activemq.util.IntrospectionSupport;
import org.apache.activemq.util.JMSExceptionSupport;
import org.apache.activemq.util.ThreadPoolUtils;
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;

/**
 * A client uses a MessageConsumer object to receive messages
 * from a destination. A  MessageConsumer object is created by
 * passing a Destination object to a message-consumer creation
 * method supplied by a session.
 * 

* MessageConsumer is the parent interface for all message * consumers. *

* A message consumer can be created with a message selector. A message selector * allows the client to restrict the messages delivered to the message consumer * to those that match the selector. *

* A client may either synchronously receive a message consumer's messages or * have the consumer asynchronously deliver them as they arrive. *

* For synchronous receipt, a client can request the next message from a message * consumer using one of its receive methods. There are several * variations of receive that allow a client to poll or wait for * the next message. *

* For asynchronous delivery, a client can register a * MessageListener object with a message consumer. As messages * arrive at the message consumer, it delivers them by calling the * MessageListener's * onMessage method. *

* It is a client programming error for a MessageListener to * throw an exception. * * * @see javax.jms.MessageConsumer * @see javax.jms.QueueReceiver * @see javax.jms.TopicSubscriber * @see javax.jms.Session */ public class ActiveMQMessageConsumer implements MessageAvailableConsumer, StatsCapable, ActiveMQDispatcher { @SuppressWarnings("serial") class PreviouslyDeliveredMap extends HashMap { final TransactionId transactionId; public PreviouslyDeliveredMap(TransactionId transactionId) { this.transactionId = transactionId; } } class PreviouslyDelivered { org.apache.activemq.command.Message message; boolean redelivered; PreviouslyDelivered(MessageDispatch messageDispatch) { message = messageDispatch.getMessage(); } PreviouslyDelivered(MessageDispatch messageDispatch, boolean redelivered) { message = messageDispatch.getMessage(); this.redelivered = redelivered; } } private static final Logger LOG = LoggerFactory.getLogger(ActiveMQMessageConsumer.class); protected final ActiveMQSession session; protected final ConsumerInfo info; // These are the messages waiting to be delivered to the client protected final MessageDispatchChannel unconsumedMessages; // The are the messages that were delivered to the consumer but that have // not been acknowledged. It's kept in reverse order since we // Always walk list in reverse order. protected final LinkedList deliveredMessages = new LinkedList(); // track duplicate deliveries in a transaction such that the tx integrity can be validated private PreviouslyDeliveredMap previouslyDeliveredMessages; private int deliveredCounter; private int additionalWindowSize; private int ackCounter; private int dispatchedCount; private final AtomicReference messageListener = new AtomicReference(); private final JMSConsumerStatsImpl stats; private final String selector; private boolean synchronizationRegistered; private final AtomicBoolean started = new AtomicBoolean(false); private MessageAvailableListener availableListener; private RedeliveryPolicy redeliveryPolicy; private boolean optimizeAcknowledge; private final AtomicBoolean deliveryingAcknowledgements = new AtomicBoolean(); private ExecutorService executorService; private MessageTransformer transformer; private volatile boolean clearDeliveredList; AtomicInteger inProgressClearRequiredFlag = new AtomicInteger(0); private MessageAck pendingAck; private long lastDeliveredSequenceId = -1; private IOException failureError; private long optimizeAckTimestamp = System.currentTimeMillis(); private long optimizeAcknowledgeTimeOut = 0; private long optimizedAckScheduledAckInterval = 0; private Runnable optimizedAckTask; private long failoverRedeliveryWaitPeriod = 0; private boolean transactedIndividualAck = false; private boolean nonBlockingRedelivery = false; private boolean consumerExpiryCheckEnabled = true; /** * Create a MessageConsumer * * @param session * @param dest * @param name * @param selector * @param prefetch * @param maximumPendingMessageCount * @param noLocal * @param browser * @param dispatchAsync * @param messageListener * @throws JMSException */ public ActiveMQMessageConsumer(ActiveMQSession session, ConsumerId consumerId, ActiveMQDestination dest, String name, String selector, int prefetch, int maximumPendingMessageCount, boolean noLocal, boolean browser, boolean dispatchAsync, MessageListener messageListener) throws JMSException { if (dest == null) { throw new InvalidDestinationException("Don't understand null destinations"); } else if (dest.getPhysicalName() == null) { throw new InvalidDestinationException("The destination object was not given a physical name."); } else if (dest.isTemporary()) { String physicalName = dest.getPhysicalName(); if (physicalName == null) { throw new IllegalArgumentException("Physical name of Destination should be valid: " + dest); } String connectionID = session.connection.getConnectionInfo().getConnectionId().getValue(); if (physicalName.indexOf(connectionID) < 0) { throw new InvalidDestinationException("Cannot use a Temporary destination from another Connection"); } if (session.connection.isDeleted(dest)) { throw new InvalidDestinationException("Cannot use a Temporary destination that has been deleted"); } if (prefetch < 0) { throw new JMSException("Cannot have a prefetch size less than zero"); } } if (session.connection.isMessagePrioritySupported()) { this.unconsumedMessages = new SimplePriorityMessageDispatchChannel(); }else { this.unconsumedMessages = new FifoMessageDispatchChannel(); } this.session = session; this.redeliveryPolicy = session.connection.getRedeliveryPolicyMap().getEntryFor(dest); if (this.redeliveryPolicy == null) { this.redeliveryPolicy = new RedeliveryPolicy(); } setTransformer(session.getTransformer()); this.info = new ConsumerInfo(consumerId); this.info.setExclusive(this.session.connection.isExclusiveConsumer()); this.info.setClientId(this.session.connection.getClientID()); this.info.setSubscriptionName(name); this.info.setPrefetchSize(prefetch); this.info.setCurrentPrefetchSize(prefetch); this.info.setMaximumPendingMessageLimit(maximumPendingMessageCount); this.info.setNoLocal(noLocal); this.info.setDispatchAsync(dispatchAsync); this.info.setRetroactive(this.session.connection.isUseRetroactiveConsumer()); this.info.setSelector(null); // Allows the options on the destination to configure the consumerInfo if (dest.getOptions() != null) { Map options = IntrospectionSupport.extractProperties( new HashMap(dest.getOptions()), "consumer."); IntrospectionSupport.setProperties(this.info, options); if (options.size() > 0) { String msg = "There are " + options.size() + " consumer options that couldn't be set on the consumer." + " Check the options are spelled correctly." + " Unknown parameters=[" + options + "]." + " This consumer cannot be started."; LOG.warn(msg); throw new ConfigurationException(msg); } } this.info.setDestination(dest); this.info.setBrowser(browser); if (selector != null && selector.trim().length() != 0) { // Validate the selector SelectorParser.parse(selector); this.info.setSelector(selector); this.selector = selector; } else if (info.getSelector() != null) { // Validate the selector SelectorParser.parse(this.info.getSelector()); this.selector = this.info.getSelector(); } else { this.selector = null; } this.stats = new JMSConsumerStatsImpl(session.getSessionStats(), dest); this.optimizeAcknowledge = session.connection.isOptimizeAcknowledge() && session.isAutoAcknowledge() && !info.isBrowser(); if (this.optimizeAcknowledge) { this.optimizeAcknowledgeTimeOut = session.connection.getOptimizeAcknowledgeTimeOut(); setOptimizedAckScheduledAckInterval(session.connection.getOptimizedAckScheduledAckInterval()); } this.info.setOptimizedAcknowledge(this.optimizeAcknowledge); this.failoverRedeliveryWaitPeriod = session.connection.getConsumerFailoverRedeliveryWaitPeriod(); this.nonBlockingRedelivery = session.connection.isNonBlockingRedelivery(); this.transactedIndividualAck = session.connection.isTransactedIndividualAck() || this.nonBlockingRedelivery || session.connection.isMessagePrioritySupported(); this.consumerExpiryCheckEnabled = session.connection.isConsumerExpiryCheckEnabled(); if (messageListener != null) { setMessageListener(messageListener); } try { this.session.addConsumer(this); this.session.syncSendPacket(info); } catch (JMSException e) { this.session.removeConsumer(this); throw e; } if (session.connection.isStarted()) { start(); } } private boolean isAutoAcknowledgeEach() { return session.isAutoAcknowledge() || ( session.isDupsOkAcknowledge() && getDestination().isQueue() ); } private boolean isAutoAcknowledgeBatch() { return session.isDupsOkAcknowledge() && !getDestination().isQueue() ; } @Override public StatsImpl getStats() { return stats; } public JMSConsumerStatsImpl getConsumerStats() { return stats; } public RedeliveryPolicy getRedeliveryPolicy() { return redeliveryPolicy; } /** * Sets the redelivery policy used when messages are redelivered */ public void setRedeliveryPolicy(RedeliveryPolicy redeliveryPolicy) { this.redeliveryPolicy = redeliveryPolicy; } public MessageTransformer getTransformer() { return transformer; } /** * Sets the transformer used to transform messages before they are sent on * to the JMS bus */ public void setTransformer(MessageTransformer transformer) { this.transformer = transformer; } /** * @return Returns the value. */ public ConsumerId getConsumerId() { return info.getConsumerId(); } /** * @return the consumer name - used for durable consumers */ public String getConsumerName() { return this.info.getSubscriptionName(); } /** * @return true if this consumer does not accept locally produced messages */ protected boolean isNoLocal() { return info.isNoLocal(); } /** * Retrieve is a browser * * @return true if a browser */ protected boolean isBrowser() { return info.isBrowser(); } /** * @return ActiveMQDestination */ protected ActiveMQDestination getDestination() { return info.getDestination(); } /** * @return Returns the prefetchNumber. */ public int getPrefetchNumber() { return info.getPrefetchSize(); } /** * @return true if this is a durable topic subscriber */ public boolean isDurableSubscriber() { return info.getSubscriptionName() != null && info.getDestination().isTopic(); } /** * Gets this message consumer's message selector expression. * * @return this message consumer's message selector, or null if no message * selector exists for the message consumer (that is, if the message * selector was not set or was set to null or the empty string) * @throws JMSException if the JMS provider fails to receive the next * message due to some internal error. */ @Override public String getMessageSelector() throws JMSException { checkClosed(); return selector; } /** * Gets the message consumer's MessageListener. * * @return the listener for the message consumer, or null if no listener is * set * @throws JMSException if the JMS provider fails to get the message * listener due to some internal error. * @see javax.jms.MessageConsumer#setMessageListener(javax.jms.MessageListener) */ @Override public MessageListener getMessageListener() throws JMSException { checkClosed(); return this.messageListener.get(); } /** * Sets the message consumer's MessageListener. *

* Setting the message listener to null is the equivalent of unsetting the * message listener for the message consumer. *

* The effect of calling MessageConsumer.setMessageListener * while messages are being consumed by an existing listener or the consumer * is being used to consume messages synchronously is undefined. * * @param listener the listener to which the messages are to be delivered * @throws JMSException if the JMS provider fails to receive the next * message due to some internal error. * @see javax.jms.MessageConsumer#getMessageListener */ @Override public void setMessageListener(MessageListener listener) throws JMSException { checkClosed(); if (info.getPrefetchSize() == 0) { throw new JMSException("Illegal prefetch size of zero. This setting is not supported for asynchronous consumers please set a value of at least 1"); } if (listener != null) { boolean wasRunning = session.isRunning(); if (wasRunning) { session.stop(); } this.messageListener.set(listener); session.redispatch(this, unconsumedMessages); if (wasRunning) { session.start(); } } else { this.messageListener.set(null); } } @Override public MessageAvailableListener getAvailableListener() { return availableListener; } /** * Sets the listener used to notify synchronous consumers that there is a * message available so that the {@link MessageConsumer#receiveNoWait()} can * be called. */ @Override public void setAvailableListener(MessageAvailableListener availableListener) { this.availableListener = availableListener; } /** * Used to get an enqueued message from the unconsumedMessages list. The * amount of time this method blocks is based on the timeout value. - if * timeout==-1 then it blocks until a message is received. - if timeout==0 * then it it tries to not block at all, it returns a message if it is * available - if timeout>0 then it blocks up to timeout amount of time. * Expired messages will consumed by this method. * * @throws JMSException * @return null if we timeout or if the consumer is closed. */ private MessageDispatch dequeue(long timeout) throws JMSException { try { long deadline = 0; if (timeout > 0) { deadline = System.currentTimeMillis() + timeout; } while (true) { MessageDispatch md = unconsumedMessages.dequeue(timeout); if (md == null) { if (timeout > 0 && !unconsumedMessages.isClosed()) { timeout = Math.max(deadline - System.currentTimeMillis(), 0); } else { if (failureError != null) { throw JMSExceptionSupport.create(failureError); } else { return null; } } } else if (md.getMessage() == null) { return null; } else if (consumeExpiredMessage(md)) { LOG.debug("{} received expired message: {}", getConsumerId(), md); beforeMessageIsConsumed(md); afterMessageIsConsumed(md, true); if (timeout > 0) { timeout = Math.max(deadline - System.currentTimeMillis(), 0); } sendPullCommand(timeout); } else if (redeliveryExceeded(md)) { LOG.debug("{} received with excessive redelivered: {}", getConsumerId(), md); poisonAck(md, "Dispatch[" + md.getRedeliveryCounter() + "] to " + getConsumerId() + " exceeds redelivery policy limit:" + redeliveryPolicy); if (timeout > 0) { timeout = Math.max(deadline - System.currentTimeMillis(), 0); } sendPullCommand(timeout); } else { if (LOG.isTraceEnabled()) { LOG.trace(getConsumerId() + " received message: " + md); } return md; } } } catch (InterruptedException e) { Thread.currentThread().interrupt(); throw JMSExceptionSupport.create(e); } } private boolean consumeExpiredMessage(MessageDispatch dispatch) { return isConsumerExpiryCheckEnabled() && dispatch.getMessage().isExpired(); } private void poisonAck(MessageDispatch md, String cause) throws JMSException { MessageAck poisonAck = new MessageAck(md, MessageAck.POISON_ACK_TYPE, 1); poisonAck.setFirstMessageId(md.getMessage().getMessageId()); poisonAck.setPoisonCause(new Throwable(cause)); session.sendAck(poisonAck); } private boolean redeliveryExceeded(MessageDispatch md) { try { return session.getTransacted() && redeliveryPolicy != null && redeliveryPolicy.isPreDispatchCheck() && redeliveryPolicy.getMaximumRedeliveries() != RedeliveryPolicy.NO_MAXIMUM_REDELIVERIES && md.getRedeliveryCounter() > redeliveryPolicy.getMaximumRedeliveries() // redeliveryCounter > x expected after resend via brokerRedeliveryPlugin && md.getMessage().getProperty("redeliveryDelay") == null; } catch (Exception ignored) { return false; } } /** * Receives the next message produced for this message consumer. *

* This call blocks indefinitely until a message is produced or until this * message consumer is closed. *

* If this receive is done within a transaction, the consumer * retains the message until the transaction commits. * * @return the next message produced for this message consumer, or null if * this message consumer is concurrently closed */ @Override public Message receive() throws JMSException { checkClosed(); checkMessageListener(); sendPullCommand(0); MessageDispatch md = dequeue(-1); if (md == null) { return null; } beforeMessageIsConsumed(md); afterMessageIsConsumed(md, false); return createActiveMQMessage(md); } /** * @param md * the MessageDispatch that arrived from the Broker. * * @return an ActiveMQMessage initialized from the Message in the dispatch. */ private ActiveMQMessage createActiveMQMessage(final MessageDispatch md) throws JMSException { ActiveMQMessage m = (ActiveMQMessage)md.getMessage().copy(); if (m.getDataStructureType()==CommandTypes.ACTIVEMQ_BLOB_MESSAGE) { ((ActiveMQBlobMessage)m).setBlobDownloader(new BlobDownloader(session.getBlobTransferPolicy())); } if (m.getDataStructureType() == CommandTypes.ACTIVEMQ_OBJECT_MESSAGE) { ((ActiveMQObjectMessage)m).setTrustAllPackages(session.getConnection().isTrustAllPackages()); ((ActiveMQObjectMessage)m).setTrustedPackages(session.getConnection().getTrustedPackages()); } if (transformer != null) { Message transformedMessage = transformer.consumerTransform(session, this, m); if (transformedMessage != null) { m = ActiveMQMessageTransformation.transformMessage(transformedMessage, session.connection); } } if (session.isClientAcknowledge()) { m.setAcknowledgeCallback(new Callback() { @Override public void execute() throws Exception { checkClosed(); session.checkClosed(); session.acknowledge(); } }); } else if (session.isIndividualAcknowledge()) { m.setAcknowledgeCallback(new Callback() { @Override public void execute() throws Exception { checkClosed(); session.checkClosed(); acknowledge(md); } }); } return m; } /** * Receives the next message that arrives within the specified timeout * interval. *

* This call blocks until a message arrives, the timeout expires, or this * message consumer is closed. A timeout of zero never * expires, and the call blocks indefinitely. * * @param timeout the timeout value (in milliseconds), a time out of zero * never expires. * @return the next message produced for this message consumer, or null if * the timeout expires or this message consumer is concurrently * closed */ @Override public Message receive(long timeout) throws JMSException { checkClosed(); checkMessageListener(); if (timeout == 0) { return this.receive(); } sendPullCommand(timeout); while (timeout > 0) { MessageDispatch md; if (info.getPrefetchSize() == 0) { md = dequeue(-1); // We let the broker let us know when we timeout. } else { md = dequeue(timeout); } if (md == null) { return null; } beforeMessageIsConsumed(md); afterMessageIsConsumed(md, false); return createActiveMQMessage(md); } return null; } /** * Receives the next message if one is immediately available. * * @return the next message produced for this message consumer, or null if * one is not available * @throws JMSException if the JMS provider fails to receive the next * message due to some internal error. */ @Override public Message receiveNoWait() throws JMSException { checkClosed(); checkMessageListener(); sendPullCommand(-1); MessageDispatch md; if (info.getPrefetchSize() == 0) { md = dequeue(-1); // We let the broker let us know when we // timeout. } else { md = dequeue(0); } if (md == null) { return null; } beforeMessageIsConsumed(md); afterMessageIsConsumed(md, false); return createActiveMQMessage(md); } /** * Closes the message consumer. *

* Since a provider may allocate some resources on behalf of a * MessageConsumer * outside the Java virtual machine, clients should close them when they are * not needed. Relying on garbage collection to eventually reclaim these * resources may not be timely enough. *

* This call blocks until a receive or message listener in * progress has completed. A blocked message consumer receive * call returns null when this message consumer is closed. * * @throws JMSException if the JMS provider fails to close the consumer due * to some internal error. */ @Override public void close() throws JMSException { if (!unconsumedMessages.isClosed()) { if (!deliveredMessages.isEmpty() && session.getTransactionContext().isInTransaction()) { session.getTransactionContext().addSynchronization(new Synchronization() { @Override public void afterCommit() throws Exception { doClose(); } @Override public void afterRollback() throws Exception { doClose(); } }); } else { doClose(); } } } void doClose() throws JMSException { dispose(); RemoveInfo removeCommand = info.createRemoveCommand(); LOG.debug("remove: {}, lastDeliveredSequenceId: {}", getConsumerId(), lastDeliveredSequenceId); removeCommand.setLastDeliveredSequenceId(lastDeliveredSequenceId); this.session.asyncSendPacket(removeCommand); } void inProgressClearRequired() { inProgressClearRequiredFlag.incrementAndGet(); // deal with delivered messages async to avoid lock contention with in progress acks clearDeliveredList = true; // force a rollback if we will be acking in a transaction after/during failover // bc acks are async they may not get there reliably on reconnect and the consumer // may not be aware of the reconnect in a timely fashion if in onMessage if (!deliveredMessages.isEmpty() && session.getTransactionContext().isInTransaction()) { session.getTransactionContext().setRollbackOnly(true); } } void clearMessagesInProgress() { if (inProgressClearRequiredFlag.get() > 0) { synchronized (unconsumedMessages.getMutex()) { if (inProgressClearRequiredFlag.get() > 0) { LOG.debug("{} clearing unconsumed list ({}) on transport interrupt", getConsumerId(), unconsumedMessages.size()); // ensure unconsumed are rolledback up front as they may get redelivered to another consumer List list = unconsumedMessages.removeAll(); if (!this.info.isBrowser()) { for (MessageDispatch old : list) { session.connection.rollbackDuplicate(this, old.getMessage()); } } // allow dispatch on this connection to resume session.connection.transportInterruptionProcessingComplete(); inProgressClearRequiredFlag.set(0); // Wake up any blockers and allow them to recheck state. unconsumedMessages.getMutex().notifyAll(); } } clearDeliveredList(); } } void deliverAcks() { MessageAck ack = null; if (deliveryingAcknowledgements.compareAndSet(false, true)) { synchronized(deliveredMessages) { if (isAutoAcknowledgeEach()) { ack = makeAckForAllDeliveredMessages(MessageAck.STANDARD_ACK_TYPE); if (ack != null) { deliveredMessages.clear(); ackCounter = 0; } else { ack = pendingAck; pendingAck = null; } } else if (pendingAck != null && pendingAck.isStandardAck()) { ack = pendingAck; pendingAck = null; } } if (ack != null) { final MessageAck ackToSend = ack; if (executorService == null) { executorService = Executors.newSingleThreadExecutor(); } executorService.submit(new Runnable() { @Override public void run() { try { session.sendAck(ackToSend,true); } catch (JMSException e) { LOG.error(getConsumerId() + " failed to deliver acknowledgements", e); } finally { deliveryingAcknowledgements.set(false); } } }); } else { deliveryingAcknowledgements.set(false); } } } public void dispose() throws JMSException { if (!unconsumedMessages.isClosed()) { // Do we have any acks we need to send out before closing? // Ack any delivered messages now. if (!session.getTransacted()) { deliverAcks(); if (isAutoAcknowledgeBatch()) { acknowledge(); } } if (executorService != null) { ThreadPoolUtils.shutdownGraceful(executorService, 60000L); executorService = null; } if (optimizedAckTask != null) { this.session.connection.getScheduler().cancel(optimizedAckTask); optimizedAckTask = null; } if (session.isClientAcknowledge() || session.isIndividualAcknowledge()) { if (!this.info.isBrowser()) { // rollback duplicates that aren't acknowledged List tmp = null; synchronized (this.deliveredMessages) { tmp = new ArrayList(this.deliveredMessages); } for (MessageDispatch old : tmp) { this.session.connection.rollbackDuplicate(this, old.getMessage()); } tmp.clear(); } } if (!session.isTransacted()) { synchronized(deliveredMessages) { deliveredMessages.clear(); } } unconsumedMessages.close(); this.session.removeConsumer(this); List list = unconsumedMessages.removeAll(); if (!this.info.isBrowser()) { for (MessageDispatch old : list) { // ensure we don't filter this as a duplicate if (old.getMessage() != null) { LOG.debug("on close, rollback duplicate: {}", old.getMessage().getMessageId()); } session.connection.rollbackDuplicate(this, old.getMessage()); } } } if (previouslyDeliveredMessages != null) { for (PreviouslyDelivered previouslyDelivered : previouslyDeliveredMessages.values()) { session.connection.rollbackDuplicate(this, previouslyDelivered.message); } } clearPreviouslyDelivered(); } /** * @throws IllegalStateException */ protected void checkClosed() throws IllegalStateException { if (unconsumedMessages.isClosed()) { throw new IllegalStateException("The Consumer is closed"); } } /** * If we have a zero prefetch specified then send a pull command to the * broker to pull a message we are about to receive */ protected void sendPullCommand(long timeout) throws JMSException { clearDeliveredList(); if (info.getCurrentPrefetchSize() == 0 && unconsumedMessages.isEmpty()) { MessagePull messagePull = new MessagePull(); messagePull.configure(info); messagePull.setTimeout(timeout); session.asyncSendPacket(messagePull); } } protected void checkMessageListener() throws JMSException { session.checkMessageListener(); } protected void setOptimizeAcknowledge(boolean value) { if (optimizeAcknowledge && !value) { deliverAcks(); } optimizeAcknowledge = value; } protected void setPrefetchSize(int prefetch) { deliverAcks(); this.info.setCurrentPrefetchSize(prefetch); } private void beforeMessageIsConsumed(MessageDispatch md) throws JMSException { md.setDeliverySequenceId(session.getNextDeliveryId()); lastDeliveredSequenceId = md.getMessage().getMessageId().getBrokerSequenceId(); if (!isAutoAcknowledgeBatch()) { synchronized(deliveredMessages) { deliveredMessages.addFirst(md); } if (session.getTransacted()) { if (transactedIndividualAck) { immediateIndividualTransactedAck(md); } else { ackLater(md, MessageAck.DELIVERED_ACK_TYPE); } } } } private void immediateIndividualTransactedAck(MessageDispatch md) throws JMSException { // acks accumulate on the broker pending transaction completion to indicate // delivery status registerSync(); MessageAck ack = new MessageAck(md, MessageAck.INDIVIDUAL_ACK_TYPE, 1); ack.setTransactionId(session.getTransactionContext().getTransactionId()); session.sendAck(ack); } private void afterMessageIsConsumed(MessageDispatch md, boolean messageExpired) throws JMSException { if (unconsumedMessages.isClosed()) { return; } if (messageExpired) { acknowledge(md, MessageAck.EXPIRED_ACK_TYPE); stats.getExpiredMessageCount().increment(); } else { stats.onMessage(); if (session.getTransacted()) { // Do nothing. } else if (isAutoAcknowledgeEach()) { if (deliveryingAcknowledgements.compareAndSet(false, true)) { synchronized (deliveredMessages) { if (!deliveredMessages.isEmpty()) { if (optimizeAcknowledge) { ackCounter++; // AMQ-3956 evaluate both expired and normal msgs as // otherwise consumer may get stalled if (ackCounter + deliveredCounter >= (info.getPrefetchSize() * .65) || (optimizeAcknowledgeTimeOut > 0 && System.currentTimeMillis() >= (optimizeAckTimestamp + optimizeAcknowledgeTimeOut))) { MessageAck ack = makeAckForAllDeliveredMessages(MessageAck.STANDARD_ACK_TYPE); if (ack != null) { deliveredMessages.clear(); ackCounter = 0; session.sendAck(ack); optimizeAckTimestamp = System.currentTimeMillis(); } // AMQ-3956 - as further optimization send // ack for expired msgs when there are any. // This resets the deliveredCounter to 0 so that // we won't sent standard acks with every msg just // because the deliveredCounter just below // 0.5 * prefetch as used in ackLater() if (pendingAck != null && deliveredCounter > 0) { session.sendAck(pendingAck); pendingAck = null; deliveredCounter = 0; } } } else { MessageAck ack = makeAckForAllDeliveredMessages(MessageAck.STANDARD_ACK_TYPE); if (ack!=null) { deliveredMessages.clear(); session.sendAck(ack); } } } } deliveryingAcknowledgements.set(false); } } else if (isAutoAcknowledgeBatch()) { ackLater(md, MessageAck.STANDARD_ACK_TYPE); } else if (session.isClientAcknowledge()||session.isIndividualAcknowledge()) { boolean messageUnackedByConsumer = false; synchronized (deliveredMessages) { messageUnackedByConsumer = deliveredMessages.contains(md); } if (messageUnackedByConsumer) { ackLater(md, MessageAck.DELIVERED_ACK_TYPE); } } else { throw new IllegalStateException("Invalid session state."); } } } /** * Creates a MessageAck for all messages contained in deliveredMessages. * Caller should hold the lock for deliveredMessages. * * @param type Ack-Type (i.e. MessageAck.STANDARD_ACK_TYPE) * @return null if nothing to ack. */ private MessageAck makeAckForAllDeliveredMessages(byte type) { synchronized (deliveredMessages) { if (deliveredMessages.isEmpty()) { return null; } MessageDispatch md = deliveredMessages.getFirst(); MessageAck ack = new MessageAck(md, type, deliveredMessages.size()); ack.setFirstMessageId(deliveredMessages.getLast().getMessage().getMessageId()); return ack; } } private void ackLater(MessageDispatch md, byte ackType) throws JMSException { // Don't acknowledge now, but we may need to let the broker know the // consumer got the message to expand the pre-fetch window if (session.getTransacted()) { registerSync(); } deliveredCounter++; synchronized(deliveredMessages) { MessageAck oldPendingAck = pendingAck; pendingAck = new MessageAck(md, ackType, deliveredCounter); pendingAck.setTransactionId(session.getTransactionContext().getTransactionId()); if( oldPendingAck==null ) { pendingAck.setFirstMessageId(pendingAck.getLastMessageId()); } else if ( oldPendingAck.getAckType() == pendingAck.getAckType() ) { pendingAck.setFirstMessageId(oldPendingAck.getFirstMessageId()); } else { // old pending ack being superseded by ack of another type, if is is not a delivered // ack and hence important, send it now so it is not lost. if (!oldPendingAck.isDeliveredAck()) { LOG.debug("Sending old pending ack {}, new pending: {}", oldPendingAck, pendingAck); session.sendAck(oldPendingAck); } else { LOG.debug("dropping old pending ack {}, new pending: {}", oldPendingAck, pendingAck); } } // AMQ-3956 evaluate both expired and normal msgs as // otherwise consumer may get stalled if ((0.5 * info.getPrefetchSize()) <= (deliveredCounter + ackCounter - additionalWindowSize)) { LOG.debug("ackLater: sending: {}", pendingAck); session.sendAck(pendingAck); pendingAck=null; deliveredCounter = 0; additionalWindowSize = 0; } } } private void registerSync() throws JMSException { session.doStartTransaction(); if (!synchronizationRegistered) { synchronizationRegistered = true; session.getTransactionContext().addSynchronization(new Synchronization() { @Override public void beforeEnd() throws Exception { if (transactedIndividualAck) { clearDeliveredList(); waitForRedeliveries(); synchronized(deliveredMessages) { rollbackOnFailedRecoveryRedelivery(); } } else { acknowledge(); } synchronizationRegistered = false; } @Override public void afterCommit() throws Exception { commit(); synchronizationRegistered = false; } @Override public void afterRollback() throws Exception { rollback(); synchronizationRegistered = false; } }); } } /** * Acknowledge all the messages that have been delivered to the client up to * this point. * * @throws JMSException */ public void acknowledge() throws JMSException { clearDeliveredList(); waitForRedeliveries(); synchronized(deliveredMessages) { // Acknowledge all messages so far. MessageAck ack = makeAckForAllDeliveredMessages(MessageAck.STANDARD_ACK_TYPE); if (ack == null) { return; // no msgs } if (session.getTransacted()) { rollbackOnFailedRecoveryRedelivery(); session.doStartTransaction(); ack.setTransactionId(session.getTransactionContext().getTransactionId()); } pendingAck = null; session.sendAck(ack); // Adjust the counters deliveredCounter = Math.max(0, deliveredCounter - deliveredMessages.size()); additionalWindowSize = Math.max(0, additionalWindowSize - deliveredMessages.size()); if (!session.getTransacted()) { deliveredMessages.clear(); } } } private void waitForRedeliveries() { if (failoverRedeliveryWaitPeriod > 0 && previouslyDeliveredMessages != null) { long expiry = System.currentTimeMillis() + failoverRedeliveryWaitPeriod; int numberNotReplayed; do { numberNotReplayed = 0; synchronized(deliveredMessages) { if (previouslyDeliveredMessages != null) { for (PreviouslyDelivered entry: previouslyDeliveredMessages.values()) { if (!entry.redelivered) { numberNotReplayed++; } } } } if (numberNotReplayed > 0) { LOG.info("waiting for redelivery of {} in transaction: {}, to consumer: {}", numberNotReplayed, this.getConsumerId(), previouslyDeliveredMessages.transactionId); try { Thread.sleep(Math.max(500, failoverRedeliveryWaitPeriod/4)); } catch (InterruptedException outOfhere) { break; } } } while (numberNotReplayed > 0 && expiry - System.currentTimeMillis() < 0); } } /* * called with deliveredMessages locked */ private void rollbackOnFailedRecoveryRedelivery() throws JMSException { if (previouslyDeliveredMessages != null) { // if any previously delivered messages was not re-delivered, transaction is invalid and must rollback // as messages have been dispatched else where. int numberNotReplayed = 0; for (PreviouslyDelivered entry: previouslyDeliveredMessages.values()) { if (!entry.redelivered) { numberNotReplayed++; LOG.debug("previously delivered message has not been replayed in transaction: {}, messageId: {}", previouslyDeliveredMessages.transactionId, entry.message.getMessageId()); } } if (numberNotReplayed > 0) { String message = "rolling back transaction (" + previouslyDeliveredMessages.transactionId + ") post failover recovery. " + numberNotReplayed + " previously delivered message(s) not replayed to consumer: " + this.getConsumerId(); LOG.warn(message); throw new TransactionRolledBackException(message); } } } void acknowledge(MessageDispatch md) throws JMSException { acknowledge(md, MessageAck.INDIVIDUAL_ACK_TYPE); } void acknowledge(MessageDispatch md, byte ackType) throws JMSException { MessageAck ack = new MessageAck(md, ackType, 1); if (ack.isExpiredAck()) { ack.setFirstMessageId(ack.getLastMessageId()); } session.sendAck(ack); synchronized(deliveredMessages){ deliveredMessages.remove(md); } } public void commit() throws JMSException { synchronized (deliveredMessages) { deliveredMessages.clear(); clearPreviouslyDelivered(); } } public void rollback() throws JMSException { clearDeliveredList(); synchronized (unconsumedMessages.getMutex()) { if (optimizeAcknowledge) { // remove messages read but not acked at the broker yet through // optimizeAcknowledge if (!this.info.isBrowser()) { synchronized(deliveredMessages) { for (int i = 0; (i < deliveredMessages.size()) && (i < ackCounter); i++) { // ensure we don't filter this as a duplicate MessageDispatch md = deliveredMessages.removeLast(); session.connection.rollbackDuplicate(this, md.getMessage()); } } } } synchronized(deliveredMessages) { rollbackPreviouslyDeliveredAndNotRedelivered(); if (deliveredMessages.isEmpty()) { return; } MessageDispatch lastMd = deliveredMessages.getFirst(); MessageId firstMsgId = deliveredMessages.getLast().getMessage().getMessageId(); for (Iterator iter = deliveredMessages.iterator(); iter.hasNext();) { MessageDispatch md = iter.next(); md.getMessage().onMessageRolledBack(); // ensure we don't filter this as a duplicate session.connection.rollbackDuplicate(this, md.getMessage()); } if (redeliveryPolicy.getMaximumRedeliveries() != RedeliveryPolicy.NO_MAXIMUM_REDELIVERIES && lastMd.getMessage().getRedeliveryCounter() > redeliveryPolicy.getMaximumRedeliveries()) { // We need to NACK the messages so that they get sent to the // DLQ. // Acknowledge the last message. MessageAck ack = new MessageAck(lastMd, MessageAck.POISON_ACK_TYPE, deliveredMessages.size()); ack.setFirstMessageId(firstMsgId); ack.setPoisonCause(new Throwable("Delivery[" + lastMd.getMessage().getRedeliveryCounter() + "] exceeds redelivery policy limit:" + redeliveryPolicy + ", cause:" + lastMd.getRollbackCause(), lastMd.getRollbackCause())); session.sendAck(ack,true); // Adjust the window size. additionalWindowSize = Math.max(0, additionalWindowSize - deliveredMessages.size()); deliveredCounter -= deliveredMessages.size(); deliveredMessages.clear(); } else { // Find what redelivery delay to use, based on the redelivery count of last message. // Current redelivery count is already increased at this point final int currentRedeliveryCount = lastMd.getMessage().getRedeliveryCounter(); long redeliveryDelay = redeliveryPolicy.getInitialRedeliveryDelay(); // Iterating based on redelivery count to find delay to use. // NOTE: One less than current redelivery count, to use initial delay for first redelivery. for (int i = 0; i < (currentRedeliveryCount-1); i++) { redeliveryDelay = redeliveryPolicy.getNextRedeliveryDelay(redeliveryDelay); } LOG.debug("Redelivery delay calculated for redelivery count {}: {}, for messageId '{}'.", currentRedeliveryCount, redeliveryDelay, lastMd.getMessage().getMessageId()); // only redelivery_ack after first delivery if (currentRedeliveryCount > 0) { MessageAck ack = new MessageAck(lastMd, MessageAck.REDELIVERED_ACK_TYPE, deliveredMessages.size()); ack.setFirstMessageId(firstMsgId); session.sendAck(ack,true); } final LinkedList pendingSessionRedelivery = new LinkedList(deliveredMessages); captureDeliveredMessagesForDuplicateSuppressionWithRequireRedelivery(false); deliveredCounter -= deliveredMessages.size(); deliveredMessages.clear(); if (!unconsumedMessages.isClosed()) { if (nonBlockingRedelivery) { Collections.reverse(pendingSessionRedelivery); // Start up the delivery again a little later. session.getScheduler().executeAfterDelay(new Runnable() { @Override public void run() { try { if (!unconsumedMessages.isClosed()) { for(MessageDispatch dispatch : pendingSessionRedelivery) { session.dispatch(dispatch); } } } catch (Exception e) { session.connection.onAsyncException(e); } } }, redeliveryDelay); } else { // stop the delivery of messages. unconsumedMessages.stop(); final ActiveMQMessageConsumer dispatcher = this; Runnable redispatchWork = new Runnable() { @Override public void run() { try { if (!unconsumedMessages.isClosed()) { synchronized (unconsumedMessages.getMutex()) { for (MessageDispatch md : pendingSessionRedelivery) { unconsumedMessages.enqueueFirst(md); } if (messageListener.get() != null) { session.redispatch(dispatcher, unconsumedMessages); } } if (started.get()) { start(); } } } catch (JMSException e) { session.connection.onAsyncException(e); } } }; if (redeliveryDelay > 0 && !unconsumedMessages.isClosed()) { // Start up the delivery again a little later. session.getScheduler().executeAfterDelay(redispatchWork, redeliveryDelay); } else { redispatchWork.run(); } } } else { for (MessageDispatch md : pendingSessionRedelivery) { session.connection.rollbackDuplicate(this, md.getMessage()); } } } } } } /* * called with unconsumedMessages && deliveredMessages locked * remove any message not re-delivered as they can't be replayed to this * consumer on rollback */ private void rollbackPreviouslyDeliveredAndNotRedelivered() { if (previouslyDeliveredMessages != null) { for (PreviouslyDelivered entry: previouslyDeliveredMessages.values()) { if (!entry.redelivered) { LOG.trace("rollback non redelivered: {}", entry.message.getMessageId()); removeFromDeliveredMessages(entry.message.getMessageId()); } } clearPreviouslyDelivered(); } } /* * called with deliveredMessages locked */ private void removeFromDeliveredMessages(MessageId key) { Iterator iterator = deliveredMessages.iterator(); while (iterator.hasNext()) { MessageDispatch candidate = iterator.next(); if (key.equals(candidate.getMessage().getMessageId())) { session.connection.rollbackDuplicate(this, candidate.getMessage()); iterator.remove(); break; } } } /* * called with deliveredMessages locked */ private void clearPreviouslyDelivered() { if (previouslyDeliveredMessages != null) { previouslyDeliveredMessages.clear(); previouslyDeliveredMessages = null; } } @Override public void dispatch(MessageDispatch md) { MessageListener listener = this.messageListener.get(); try { clearMessagesInProgress(); clearDeliveredList(); synchronized (unconsumedMessages.getMutex()) { if (!unconsumedMessages.isClosed()) { // deliverySequenceId non zero means previously queued dispatch if (this.info.isBrowser() || md.getDeliverySequenceId() != 0l || !session.connection.isDuplicate(this, md.getMessage())) { if (listener != null && unconsumedMessages.isRunning()) { if (redeliveryExceeded(md)) { poisonAck(md, "listener dispatch[" + md.getRedeliveryCounter() + "] to " + getConsumerId() + " exceeds redelivery policy limit:" + redeliveryPolicy); return; } ActiveMQMessage message = createActiveMQMessage(md); beforeMessageIsConsumed(md); try { boolean expired = isConsumerExpiryCheckEnabled() && message.isExpired(); if (!expired) { listener.onMessage(message); } afterMessageIsConsumed(md, expired); } catch (RuntimeException e) { LOG.error("{} Exception while processing message: {}", getConsumerId(), md.getMessage().getMessageId(), e); md.setRollbackCause(e); if (isAutoAcknowledgeBatch() || isAutoAcknowledgeEach() || session.isIndividualAcknowledge()) { // schedual redelivery and possible dlq processing rollback(); } else { // Transacted or Client ack: Deliver the next message. afterMessageIsConsumed(md, false); } } } else { md.setDeliverySequenceId(-1); // skip duplicate check on subsequent queued delivery if (md.getMessage() == null) { // End of browse or pull request timeout. unconsumedMessages.enqueue(md); } else { if (!consumeExpiredMessage(md)) { unconsumedMessages.enqueue(md); if (availableListener != null) { availableListener.onMessageAvailable(this); } } else { beforeMessageIsConsumed(md); afterMessageIsConsumed(md, true); // Pull consumer needs to check if pull timed out and send // a new pull command if not. if (info.getCurrentPrefetchSize() == 0) { unconsumedMessages.enqueue(null); } } } } } else { // deal with duplicate delivery ConsumerId consumerWithPendingTransaction; if (redeliveryExpectedInCurrentTransaction(md, true)) { LOG.debug("{} tracking transacted redelivery {}", getConsumerId(), md.getMessage()); if (transactedIndividualAck) { immediateIndividualTransactedAck(md); } else { session.sendAck(new MessageAck(md, MessageAck.DELIVERED_ACK_TYPE, 1)); } } else if ((consumerWithPendingTransaction = redeliveryPendingInCompetingTransaction(md)) != null) { LOG.warn("{} delivering duplicate {}, pending transaction completion on {} will rollback", getConsumerId(), md.getMessage(), consumerWithPendingTransaction); session.getConnection().rollbackDuplicate(this, md.getMessage()); dispatch(md); } else { LOG.warn("{} suppressing duplicate delivery on connection, poison acking: {}", getConsumerId(), md); poisonAck(md, "Suppressing duplicate delivery on connection, consumer " + getConsumerId()); } } } } if (++dispatchedCount % 1000 == 0) { dispatchedCount = 0; Thread.yield(); } } catch (Exception e) { session.connection.onClientInternalException(e); } } private boolean redeliveryExpectedInCurrentTransaction(MessageDispatch md, boolean markReceipt) { if (session.isTransacted()) { synchronized (deliveredMessages) { if (previouslyDeliveredMessages != null) { PreviouslyDelivered entry; if ((entry = previouslyDeliveredMessages.get(md.getMessage().getMessageId())) != null) { if (markReceipt) { entry.redelivered = true; } return true; } } } } return false; } private ConsumerId redeliveryPendingInCompetingTransaction(MessageDispatch md) { for (ActiveMQSession activeMQSession: session.connection.getSessions()) { for (ActiveMQMessageConsumer activeMQMessageConsumer : activeMQSession.consumers) { if (activeMQMessageConsumer.redeliveryExpectedInCurrentTransaction(md, false)) { return activeMQMessageConsumer.getConsumerId(); } } } return null; } // async (on next call) clear or track delivered as they may be flagged as duplicates if they arrive again private void clearDeliveredList() { if (clearDeliveredList) { synchronized (deliveredMessages) { if (clearDeliveredList) { if (!deliveredMessages.isEmpty()) { if (session.isTransacted()) { captureDeliveredMessagesForDuplicateSuppression(); } else { if (session.isClientAcknowledge()) { LOG.debug("{} rolling back delivered list ({}) on transport interrupt", getConsumerId(), deliveredMessages.size()); // allow redelivery if (!this.info.isBrowser()) { for (MessageDispatch md: deliveredMessages) { this.session.connection.rollbackDuplicate(this, md.getMessage()); } } } LOG.debug("{} clearing delivered list ({}) on transport interrupt", getConsumerId(), deliveredMessages.size()); deliveredMessages.clear(); pendingAck = null; } } clearDeliveredList = false; } } } } // called with deliveredMessages locked private void captureDeliveredMessagesForDuplicateSuppression() { captureDeliveredMessagesForDuplicateSuppressionWithRequireRedelivery (true); } private void captureDeliveredMessagesForDuplicateSuppressionWithRequireRedelivery(boolean requireRedelivery) { if (previouslyDeliveredMessages == null) { previouslyDeliveredMessages = new PreviouslyDeliveredMap(session.getTransactionContext().getTransactionId()); } for (MessageDispatch delivered : deliveredMessages) { previouslyDeliveredMessages.put(delivered.getMessage().getMessageId(), new PreviouslyDelivered(delivered, !requireRedelivery)); } LOG.trace("{} tracking existing transacted {} delivered list({})", getConsumerId(), previouslyDeliveredMessages.transactionId, deliveredMessages.size()); } public int getMessageSize() { return unconsumedMessages.size(); } public void start() throws JMSException { if (unconsumedMessages.isClosed()) { return; } started.set(true); unconsumedMessages.start(); session.executor.wakeup(); } public void stop() { started.set(false); unconsumedMessages.stop(); } @Override public String toString() { return "ActiveMQMessageConsumer { value=" + info.getConsumerId() + ", started=" + started.get() + " }"; } /** * Delivers a message to the message listener. * * @return true if another execution is needed. * * @throws JMSException */ public boolean iterate() { MessageListener listener = this.messageListener.get(); if (listener != null) { MessageDispatch md = unconsumedMessages.dequeueNoWait(); if (md != null) { dispatch(md); return true; } } return false; } public boolean isInUse(ActiveMQTempDestination destination) { return info.getDestination().equals(destination); } public long getLastDeliveredSequenceId() { return lastDeliveredSequenceId; } public IOException getFailureError() { return failureError; } public void setFailureError(IOException failureError) { this.failureError = failureError; } /** * @return the optimizedAckScheduledAckInterval */ public long getOptimizedAckScheduledAckInterval() { return optimizedAckScheduledAckInterval; } /** * @param optimizedAckScheduledAckInterval the optimizedAckScheduledAckInterval to set */ public void setOptimizedAckScheduledAckInterval(long optimizedAckScheduledAckInterval) throws JMSException { this.optimizedAckScheduledAckInterval = optimizedAckScheduledAckInterval; if (this.optimizedAckTask != null) { try { this.session.connection.getScheduler().cancel(optimizedAckTask); } catch (JMSException e) { LOG.debug("Caught exception while cancelling old optimized ack task", e); throw e; } this.optimizedAckTask = null; } // Should we periodically send out all outstanding acks. if (this.optimizeAcknowledge && this.optimizedAckScheduledAckInterval > 0) { this.optimizedAckTask = new Runnable() { @Override public void run() { try { if (optimizeAcknowledge && !unconsumedMessages.isClosed()) { LOG.info("Consumer:{} is performing scheduled delivery of outstanding optimized Acks", info.getConsumerId()); deliverAcks(); } } catch (Exception e) { LOG.debug("Optimized Ack Task caught exception during ack", e); } } }; try { this.session.connection.getScheduler().executePeriodically(optimizedAckTask, optimizedAckScheduledAckInterval); } catch (JMSException e) { LOG.debug("Caught exception while scheduling new optimized ack task", e); throw e; } } } public boolean hasMessageListener() { return messageListener.get() != null; } public boolean isConsumerExpiryCheckEnabled() { return consumerExpiryCheckEnabled; } public void setConsumerExpiryCheckEnabled(boolean consumerExpiryCheckEnabled) { this.consumerExpiryCheckEnabled = consumerExpiryCheckEnabled; } }





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