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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.File;
import java.io.InputStream;
import java.io.Serializable;
import java.net.URL;
import java.util.Collections;
import java.util.Iterator;
import java.util.List;
import java.util.concurrent.CopyOnWriteArrayList;
import java.util.concurrent.ThreadPoolExecutor;
import java.util.concurrent.atomic.AtomicBoolean;

import javax.jms.BytesMessage;
import javax.jms.Destination;
import javax.jms.IllegalStateException;
import javax.jms.InvalidDestinationException;
import javax.jms.InvalidSelectorException;
import javax.jms.JMSException;
import javax.jms.MapMessage;
import javax.jms.Message;
import javax.jms.MessageConsumer;
import javax.jms.MessageListener;
import javax.jms.MessageProducer;
import javax.jms.ObjectMessage;
import javax.jms.Queue;
import javax.jms.QueueBrowser;
import javax.jms.QueueReceiver;
import javax.jms.QueueSender;
import javax.jms.QueueSession;
import javax.jms.Session;
import javax.jms.StreamMessage;
import javax.jms.TemporaryQueue;
import javax.jms.TemporaryTopic;
import javax.jms.TextMessage;
import javax.jms.Topic;
import javax.jms.TopicPublisher;
import javax.jms.TopicSession;
import javax.jms.TopicSubscriber;
import javax.jms.TransactionRolledBackException;

import org.apache.activemq.blob.BlobDownloader;
import org.apache.activemq.blob.BlobTransferPolicy;
import org.apache.activemq.blob.BlobUploader;
import org.apache.activemq.command.ActiveMQBlobMessage;
import org.apache.activemq.command.ActiveMQBytesMessage;
import org.apache.activemq.command.ActiveMQDestination;
import org.apache.activemq.command.ActiveMQMapMessage;
import org.apache.activemq.command.ActiveMQMessage;
import org.apache.activemq.command.ActiveMQObjectMessage;
import org.apache.activemq.command.ActiveMQQueue;
import org.apache.activemq.command.ActiveMQStreamMessage;
import org.apache.activemq.command.ActiveMQTempDestination;
import org.apache.activemq.command.ActiveMQTempQueue;
import org.apache.activemq.command.ActiveMQTempTopic;
import org.apache.activemq.command.ActiveMQTextMessage;
import org.apache.activemq.command.ActiveMQTopic;
import org.apache.activemq.command.Command;
import org.apache.activemq.command.ConsumerId;
import org.apache.activemq.command.MessageAck;
import org.apache.activemq.command.MessageDispatch;
import org.apache.activemq.command.MessageId;
import org.apache.activemq.command.ProducerId;
import org.apache.activemq.command.RemoveInfo;
import org.apache.activemq.command.Response;
import org.apache.activemq.command.SessionId;
import org.apache.activemq.command.SessionInfo;
import org.apache.activemq.command.TransactionId;
import org.apache.activemq.management.JMSSessionStatsImpl;
import org.apache.activemq.management.StatsCapable;
import org.apache.activemq.management.StatsImpl;
import org.apache.activemq.thread.Scheduler;
import org.apache.activemq.transaction.Synchronization;
import org.apache.activemq.usage.MemoryUsage;
import org.apache.activemq.util.Callback;
import org.apache.activemq.util.JMSExceptionSupport;
import org.apache.activemq.util.LongSequenceGenerator;
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;

/**
 * 

* A Session object is a single-threaded context for producing * and consuming messages. Although it may allocate provider resources outside * the Java virtual machine (JVM), it is considered a lightweight JMS object. *

* A session serves several purposes: *

    *
  • It is a factory for its message producers and consumers. *
  • It supplies provider-optimized message factories. *
  • It is a factory for TemporaryTopics and * TemporaryQueues. *
  • It provides a way to create Queue or Topic * objects for those clients that need to dynamically manipulate * provider-specific destination names. *
  • It supports a single series of transactions that combine work spanning * its producers and consumers into atomic units. *
  • It defines a serial order for the messages it consumes and the messages * it produces. *
  • It retains messages it consumes until they have been acknowledged. *
  • It serializes execution of message listeners registered with its message * consumers. *
  • It is a factory for QueueBrowsers. *
*

* A session can create and service multiple message producers and consumers. *

* One typical use is to have a thread block on a synchronous * MessageConsumer until a message arrives. The thread may then * use one or more of the Session'sMessageProducers. *

* If a client desires to have one thread produce messages while others consume * them, the client should use a separate session for its producing thread. *

* Once a connection has been started, any session with one or more registered * message listeners is dedicated to the thread of control that delivers * messages to it. It is erroneous for client code to use this session or any of * its constituent objects from another thread of control. The only exception to * this rule is the use of the session or connection close * method. *

* It should be easy for most clients to partition their work naturally into * sessions. This model allows clients to start simply and incrementally add * message processing complexity as their need for concurrency grows. *

* The close method is the only session method that can be called * while some other session method is being executed in another thread. *

* A session may be specified as transacted. Each transacted session supports a * single series of transactions. Each transaction groups a set of message sends * and a set of message receives into an atomic unit of work. In effect, * transactions organize a session's input message stream and output message * stream into series of atomic units. When a transaction commits, its atomic * unit of input is acknowledged and its associated atomic unit of output is * sent. If a transaction rollback is done, the transaction's sent messages are * destroyed and the session's input is automatically recovered. *

* The content of a transaction's input and output units is simply those * messages that have been produced and consumed within the session's current * transaction. *

* A transaction is completed using either its session's commit * method or its session's rollback method. The completion of a * session's current transaction automatically begins the next. The result is * that a transacted session always has a current transaction within which its * work is done. *

* The Java Transaction Service (JTS) or some other transaction monitor may be * used to combine a session's transaction with transactions on other resources * (databases, other JMS sessions, etc.). Since Java distributed transactions * are controlled via the Java Transaction API (JTA), use of the session's * commit and rollback methods in this context is * prohibited. *

* The JMS API does not require support for JTA; however, it does define how a * provider supplies this support. *

* Although it is also possible for a JMS client to handle distributed * transactions directly, it is unlikely that many JMS clients will do this. * Support for JTA in the JMS API is targeted at systems vendors who will be * integrating the JMS API into their application server products. * * * @see javax.jms.Session * @see javax.jms.QueueSession * @see javax.jms.TopicSession * @see javax.jms.XASession */ public class ActiveMQSession implements Session, QueueSession, TopicSession, StatsCapable, ActiveMQDispatcher { /** * Only acknowledge an individual message - using message.acknowledge() * as opposed to CLIENT_ACKNOWLEDGE which * acknowledges all messages consumed by a session at when acknowledge() * is called */ public static final int INDIVIDUAL_ACKNOWLEDGE = 4; public static final int MAX_ACK_CONSTANT = INDIVIDUAL_ACKNOWLEDGE; public static interface DeliveryListener { void beforeDelivery(ActiveMQSession session, Message msg); void afterDelivery(ActiveMQSession session, Message msg); } private static final Logger LOG = LoggerFactory.getLogger(ActiveMQSession.class); private final ThreadPoolExecutor connectionExecutor; protected int acknowledgementMode; protected final ActiveMQConnection connection; protected final SessionInfo info; protected final LongSequenceGenerator consumerIdGenerator = new LongSequenceGenerator(); protected final LongSequenceGenerator producerIdGenerator = new LongSequenceGenerator(); protected final LongSequenceGenerator deliveryIdGenerator = new LongSequenceGenerator(); protected final ActiveMQSessionExecutor executor; protected final AtomicBoolean started = new AtomicBoolean(false); protected final CopyOnWriteArrayList consumers = new CopyOnWriteArrayList(); protected final CopyOnWriteArrayList producers = new CopyOnWriteArrayList(); protected boolean closed; private volatile boolean synchronizationRegistered; protected boolean asyncDispatch; protected boolean sessionAsyncDispatch; protected final boolean debug; protected Object sendMutex = new Object(); private MessageListener messageListener; private final JMSSessionStatsImpl stats; private TransactionContext transactionContext; private DeliveryListener deliveryListener; private MessageTransformer transformer; private BlobTransferPolicy blobTransferPolicy; private long lastDeliveredSequenceId; /** * Construct the Session * * @param connection * @param sessionId * @param acknowledgeMode n.b if transacted - the acknowledgeMode == * Session.SESSION_TRANSACTED * @param asyncDispatch * @param sessionAsyncDispatch * @throws JMSException on internal error */ protected ActiveMQSession(ActiveMQConnection connection, SessionId sessionId, int acknowledgeMode, boolean asyncDispatch, boolean sessionAsyncDispatch) throws JMSException { this.debug = LOG.isDebugEnabled(); this.connection = connection; this.acknowledgementMode = acknowledgeMode; this.asyncDispatch = asyncDispatch; this.sessionAsyncDispatch = sessionAsyncDispatch; this.info = new SessionInfo(connection.getConnectionInfo(), sessionId.getValue()); setTransactionContext(new TransactionContext(connection)); stats = new JMSSessionStatsImpl(producers, consumers); this.connection.asyncSendPacket(info); setTransformer(connection.getTransformer()); setBlobTransferPolicy(connection.getBlobTransferPolicy()); this.connectionExecutor=connection.getExecutor(); this.executor = new ActiveMQSessionExecutor(this); connection.addSession(this); if (connection.isStarted()) { start(); } } protected ActiveMQSession(ActiveMQConnection connection, SessionId sessionId, int acknowledgeMode, boolean asyncDispatch) throws JMSException { this(connection, sessionId, acknowledgeMode, asyncDispatch, true); } /** * Sets the transaction context of the session. * * @param transactionContext - provides the means to control a JMS * transaction. */ public void setTransactionContext(TransactionContext transactionContext) { this.transactionContext = transactionContext; } /** * Returns the transaction context of the session. * * @return transactionContext - session's transaction context. */ public TransactionContext getTransactionContext() { return transactionContext; } /* * (non-Javadoc) * * @see org.apache.activemq.management.StatsCapable#getStats() */ public StatsImpl getStats() { return stats; } /** * Returns the session's statistics. * * @return stats - session's statistics. */ public JMSSessionStatsImpl getSessionStats() { return stats; } /** * Creates a BytesMessage object. A BytesMessage * object is used to send a message containing a stream of uninterpreted * bytes. * * @return the an ActiveMQBytesMessage * @throws JMSException if the JMS provider fails to create this message due * to some internal error. */ public BytesMessage createBytesMessage() throws JMSException { ActiveMQBytesMessage message = new ActiveMQBytesMessage(); configureMessage(message); return message; } /** * Creates a MapMessage object. A MapMessage * object is used to send a self-defining set of name-value pairs, where * names are String objects and values are primitive values * in the Java programming language. * * @return an ActiveMQMapMessage * @throws JMSException if the JMS provider fails to create this message due * to some internal error. */ public MapMessage createMapMessage() throws JMSException { ActiveMQMapMessage message = new ActiveMQMapMessage(); configureMessage(message); return message; } /** * Creates a Message object. The Message * interface is the root interface of all JMS messages. A * Message object holds all the standard message header * information. It can be sent when a message containing only header * information is sufficient. * * @return an ActiveMQMessage * @throws JMSException if the JMS provider fails to create this message due * to some internal error. */ public Message createMessage() throws JMSException { ActiveMQMessage message = new ActiveMQMessage(); configureMessage(message); return message; } /** * Creates an ObjectMessage object. An * ObjectMessage object is used to send a message that * contains a serializable Java object. * * @return an ActiveMQObjectMessage * @throws JMSException if the JMS provider fails to create this message due * to some internal error. */ public ObjectMessage createObjectMessage() throws JMSException { ActiveMQObjectMessage message = new ActiveMQObjectMessage(); configureMessage(message); return message; } /** * Creates an initialized ObjectMessage object. An * ObjectMessage object is used to send a message that * contains a serializable Java object. * * @param object the object to use to initialize this message * @return an ActiveMQObjectMessage * @throws JMSException if the JMS provider fails to create this message due * to some internal error. */ public ObjectMessage createObjectMessage(Serializable object) throws JMSException { ActiveMQObjectMessage message = new ActiveMQObjectMessage(); configureMessage(message); message.setObject(object); return message; } /** * Creates a StreamMessage object. A * StreamMessage object is used to send a self-defining * stream of primitive values in the Java programming language. * * @return an ActiveMQStreamMessage * @throws JMSException if the JMS provider fails to create this message due * to some internal error. */ public StreamMessage createStreamMessage() throws JMSException { ActiveMQStreamMessage message = new ActiveMQStreamMessage(); configureMessage(message); return message; } /** * Creates a TextMessage object. A TextMessage * object is used to send a message containing a String * object. * * @return an ActiveMQTextMessage * @throws JMSException if the JMS provider fails to create this message due * to some internal error. */ public TextMessage createTextMessage() throws JMSException { ActiveMQTextMessage message = new ActiveMQTextMessage(); configureMessage(message); return message; } /** * Creates an initialized TextMessage object. A * TextMessage object is used to send a message containing a * String. * * @param text the string used to initialize this message * @return an ActiveMQTextMessage * @throws JMSException if the JMS provider fails to create this message due * to some internal error. */ public TextMessage createTextMessage(String text) throws JMSException { ActiveMQTextMessage message = new ActiveMQTextMessage(); message.setText(text); configureMessage(message); return message; } /** * Creates an initialized BlobMessage object. A * BlobMessage object is used to send a message containing a * URL which points to some network addressible BLOB. * * @param url the network addressable URL used to pass directly to the * consumer * @return a BlobMessage * @throws JMSException if the JMS provider fails to create this message due * to some internal error. */ public BlobMessage createBlobMessage(URL url) throws JMSException { return createBlobMessage(url, false); } /** * Creates an initialized BlobMessage object. A * BlobMessage object is used to send a message containing a * URL which points to some network addressible BLOB. * * @param url the network addressable URL used to pass directly to the * consumer * @param deletedByBroker indicates whether or not the resource is deleted * by the broker when the message is acknowledged * @return a BlobMessage * @throws JMSException if the JMS provider fails to create this message due * to some internal error. */ public BlobMessage createBlobMessage(URL url, boolean deletedByBroker) throws JMSException { ActiveMQBlobMessage message = new ActiveMQBlobMessage(); configureMessage(message); message.setURL(url); message.setDeletedByBroker(deletedByBroker); message.setBlobDownloader(new BlobDownloader(getBlobTransferPolicy())); return message; } /** * Creates an initialized BlobMessage object. A * BlobMessage object is used to send a message containing * the File content. Before the message is sent the file * conent will be uploaded to the broker or some other remote repository * depending on the {@link #getBlobTransferPolicy()}. * * @param file the file to be uploaded to some remote repo (or the broker) * depending on the strategy * @return a BlobMessage * @throws JMSException if the JMS provider fails to create this message due * to some internal error. */ public BlobMessage createBlobMessage(File file) throws JMSException { ActiveMQBlobMessage message = new ActiveMQBlobMessage(); configureMessage(message); message.setBlobUploader(new BlobUploader(getBlobTransferPolicy(), file)); message.setBlobDownloader(new BlobDownloader((getBlobTransferPolicy()))); message.setDeletedByBroker(true); message.setName(file.getName()); return message; } /** * Creates an initialized BlobMessage object. A * BlobMessage object is used to send a message containing * the File content. Before the message is sent the file * conent will be uploaded to the broker or some other remote repository * depending on the {@link #getBlobTransferPolicy()}. * * @param in the stream to be uploaded to some remote repo (or the broker) * depending on the strategy * @return a BlobMessage * @throws JMSException if the JMS provider fails to create this message due * to some internal error. */ public BlobMessage createBlobMessage(InputStream in) throws JMSException { ActiveMQBlobMessage message = new ActiveMQBlobMessage(); configureMessage(message); message.setBlobUploader(new BlobUploader(getBlobTransferPolicy(), in)); message.setBlobDownloader(new BlobDownloader(getBlobTransferPolicy())); message.setDeletedByBroker(true); return message; } /** * Indicates whether the session is in transacted mode. * * @return true if the session is in transacted mode * @throws JMSException if there is some internal error. */ public boolean getTransacted() throws JMSException { checkClosed(); return isTransacted(); } /** * Returns the acknowledgement mode of the session. The acknowledgement mode * is set at the time that the session is created. If the session is * transacted, the acknowledgement mode is ignored. * * @return If the session is not transacted, returns the current * acknowledgement mode for the session. If the session is * transacted, returns SESSION_TRANSACTED. * @throws JMSException * @see javax.jms.Connection#createSession(boolean,int) * @since 1.1 exception JMSException if there is some internal error. */ public int getAcknowledgeMode() throws JMSException { checkClosed(); return this.acknowledgementMode; } /** * Commits all messages done in this transaction and releases any locks * currently held. * * @throws JMSException if the JMS provider fails to commit the transaction * due to some internal error. * @throws TransactionRolledBackException if the transaction is rolled back * due to some internal error during commit. * @throws javax.jms.IllegalStateException if the method is not called by a * transacted session. */ public void commit() throws JMSException { checkClosed(); if (!getTransacted()) { throw new javax.jms.IllegalStateException("Not a transacted session"); } if (LOG.isDebugEnabled()) { LOG.debug(getSessionId() + " Transaction Commit :" + transactionContext.getTransactionId()); } transactionContext.commit(); } /** * Rolls back any messages done in this transaction and releases any locks * currently held. * * @throws JMSException if the JMS provider fails to roll back the * transaction due to some internal error. * @throws javax.jms.IllegalStateException if the method is not called by a * transacted session. */ public void rollback() throws JMSException { checkClosed(); if (!getTransacted()) { throw new javax.jms.IllegalStateException("Not a transacted session"); } if (LOG.isDebugEnabled()) { LOG.debug(getSessionId() + " Transaction Rollback, txid:" + transactionContext.getTransactionId()); } transactionContext.rollback(); } /** * Closes the session. *

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

* There is no need to close the producers and consumers of a closed * session. *

* This call will block until a receive call or message * listener in progress has completed. A blocked message consumer * receive call returns null when this session * is closed. *

* Closing a transacted session must roll back the transaction in progress. *

* This method is the only Session method that can be called * concurrently. *

* Invoking any other Session method on a closed session must * throw a JMSException.IllegalStateException. Closing a * closed session must not throw an exception. * * @throws JMSException if the JMS provider fails to close the session due * to some internal error. */ public void close() throws JMSException { if (!closed) { if (getTransactionContext().isInXATransaction()) { if (!synchronizationRegistered) { synchronizationRegistered = true; getTransactionContext().addSynchronization(new Synchronization() { @Override public void afterCommit() throws Exception { doClose(); synchronizationRegistered = false; } @Override public void afterRollback() throws Exception { doClose(); synchronizationRegistered = false; } }); } } else { doClose(); } } } private void doClose() throws JMSException { boolean interrupted = Thread.interrupted(); dispose(); RemoveInfo removeCommand = info.createRemoveCommand(); removeCommand.setLastDeliveredSequenceId(lastDeliveredSequenceId); connection.asyncSendPacket(removeCommand); if (interrupted) { Thread.currentThread().interrupt(); } } void clearMessagesInProgress() { executor.clearMessagesInProgress(); // we are called from inside the transport reconnection logic // which involves us clearing all the connections' consumers // dispatch and delivered lists. So rather than trying to // grab a mutex (which could be already owned by the message // listener calling the send or an ack) we allow it to complete in // a separate thread via the scheduler and notify us via // connection.transportInterruptionProcessingComplete() // for (final ActiveMQMessageConsumer consumer : consumers) { consumer.inProgressClearRequired(); try { connection.getScheduler().executeAfterDelay(new Runnable() { public void run() { consumer.clearMessagesInProgress(); }}, 0l); } catch (JMSException e) { connection.onClientInternalException(e); } } } void deliverAcks() { for (Iterator iter = consumers.iterator(); iter.hasNext();) { ActiveMQMessageConsumer consumer = iter.next(); consumer.deliverAcks(); } } public synchronized void dispose() throws JMSException { if (!closed) { try { executor.stop(); for (Iterator iter = consumers.iterator(); iter.hasNext();) { ActiveMQMessageConsumer consumer = iter.next(); consumer.setFailureError(connection.getFirstFailureError()); consumer.dispose(); lastDeliveredSequenceId = Math.max(lastDeliveredSequenceId, consumer.getLastDeliveredSequenceId()); } consumers.clear(); for (Iterator iter = producers.iterator(); iter.hasNext();) { ActiveMQMessageProducer producer = iter.next(); producer.dispose(); } producers.clear(); try { if (getTransactionContext().isInLocalTransaction()) { rollback(); } } catch (JMSException e) { } } finally { connection.removeSession(this); this.transactionContext = null; closed = true; } } } /** * Checks that the session is not closed then configures the message */ protected void configureMessage(ActiveMQMessage message) throws IllegalStateException { checkClosed(); message.setConnection(connection); } /** * Check if the session is closed. It is used for ensuring that the session * is open before performing various operations. * * @throws IllegalStateException if the Session is closed */ protected void checkClosed() throws IllegalStateException { if (closed) { throw new IllegalStateException("The Session is closed"); } } /** * Checks if the session is closed. * * @return true if the session is closed, false otherwise. */ public boolean isClosed() { return closed; } /** * Stops message delivery in this session, and restarts message delivery * with the oldest unacknowledged message. *

* All consumers deliver messages in a serial order. Acknowledging a * received message automatically acknowledges all messages that have been * delivered to the client. *

* Restarting a session causes it to take the following actions: *

    *
  • Stop message delivery *
  • Mark all messages that might have been delivered but not * acknowledged as "redelivered" *
  • Restart the delivery sequence including all unacknowledged messages * that had been previously delivered. Redelivered messages do not have to * be delivered in exactly their original delivery order. *
* * @throws JMSException if the JMS provider fails to stop and restart * message delivery due to some internal error. * @throws IllegalStateException if the method is called by a transacted * session. */ public void recover() throws JMSException { checkClosed(); if (getTransacted()) { throw new IllegalStateException("This session is transacted"); } for (Iterator iter = consumers.iterator(); iter.hasNext();) { ActiveMQMessageConsumer c = iter.next(); c.rollback(); } } /** * Returns the session's distinguished message listener (optional). * * @return the message listener associated with this session * @throws JMSException if the JMS provider fails to get the message * listener due to an internal error. * @see javax.jms.Session#setMessageListener(javax.jms.MessageListener) * @see javax.jms.ServerSessionPool * @see javax.jms.ServerSession */ public MessageListener getMessageListener() throws JMSException { checkClosed(); return this.messageListener; } /** * Sets the session's distinguished message listener (optional). *

* When the distinguished message listener is set, no other form of message * receipt in the session can be used; however, all forms of sending * messages are still supported. *

* This is an expert facility not used by regular JMS clients. * * @param listener the message listener to associate with this session * @throws JMSException if the JMS provider fails to set the message * listener due to an internal error. * @see javax.jms.Session#getMessageListener() * @see javax.jms.ServerSessionPool * @see javax.jms.ServerSession */ public void setMessageListener(MessageListener listener) throws JMSException { checkClosed(); this.messageListener = listener; if (listener != null) { executor.setDispatchedBySessionPool(true); } } /** * Optional operation, intended to be used only by Application Servers, not * by ordinary JMS clients. * * @see javax.jms.ServerSession */ public void run() { MessageDispatch messageDispatch; while ((messageDispatch = executor.dequeueNoWait()) != null) { final MessageDispatch md = messageDispatch; ActiveMQMessage message = (ActiveMQMessage)md.getMessage(); if (message.isExpired() || connection.isDuplicate(ActiveMQSession.this, message)) { // TODO: Ack it without delivery to client continue; } if (isClientAcknowledge()||isIndividualAcknowledge()) { message.setAcknowledgeCallback(new Callback() { public void execute() throws Exception { } }); } if (deliveryListener != null) { deliveryListener.beforeDelivery(this, message); } md.setDeliverySequenceId(getNextDeliveryId()); try { messageListener.onMessage(message); } catch (RuntimeException e) { LOG.error("error dispatching message: ", e); // A problem while invoking the MessageListener does not // in general indicate a problem with the connection to the broker, i.e. // it will usually be sufficient to let the afterDelivery() method either // commit or roll back in order to deal with the exception. // However, we notify any registered client internal exception listener // of the problem. connection.onClientInternalException(e); } try { MessageAck ack = new MessageAck(md, MessageAck.STANDARD_ACK_TYPE, 1); ack.setFirstMessageId(md.getMessage().getMessageId()); doStartTransaction(); ack.setTransactionId(getTransactionContext().getTransactionId()); if (ack.getTransactionId() != null) { getTransactionContext().addSynchronization(new Synchronization() { @Override public void afterRollback() throws Exception { md.getMessage().onMessageRolledBack(); // ensure we don't filter this as a duplicate connection.rollbackDuplicate(ActiveMQSession.this, md.getMessage()); RedeliveryPolicy redeliveryPolicy = connection.getRedeliveryPolicy(); int redeliveryCounter = md.getMessage().getRedeliveryCounter(); if (redeliveryPolicy.getMaximumRedeliveries() != RedeliveryPolicy.NO_MAXIMUM_REDELIVERIES && redeliveryCounter > redeliveryPolicy.getMaximumRedeliveries()) { // We need to NACK the messages so that they get // sent to the // DLQ. // Acknowledge the last message. MessageAck ack = new MessageAck(md, MessageAck.POSION_ACK_TYPE, 1); ack.setFirstMessageId(md.getMessage().getMessageId()); asyncSendPacket(ack); } else { MessageAck ack = new MessageAck(md, MessageAck.REDELIVERED_ACK_TYPE, 1); ack.setFirstMessageId(md.getMessage().getMessageId()); asyncSendPacket(ack); // Figure out how long we should wait to resend // this message. long redeliveryDelay = redeliveryPolicy.getInitialRedeliveryDelay(); for (int i = 0; i < redeliveryCounter; i++) { redeliveryDelay = redeliveryPolicy.getNextRedeliveryDelay(redeliveryDelay); } connection.getScheduler().executeAfterDelay(new Runnable() { public void run() { ((ActiveMQDispatcher)md.getConsumer()).dispatch(md); } }, redeliveryDelay); } } }); } asyncSendPacket(ack); } catch (Throwable e) { connection.onClientInternalException(e); } if (deliveryListener != null) { deliveryListener.afterDelivery(this, message); } } } /** * Creates a MessageProducer to send messages to the * specified destination. *

* A client uses a MessageProducer object to send messages to * a destination. Since Queue and Topic both * inherit from Destination, they can be used in the * destination parameter to create a MessageProducer object. * * @param destination the Destination to send to, or null if * this is a producer which does not have a specified * destination. * @return the MessageProducer * @throws JMSException if the session fails to create a MessageProducer due * to some internal error. * @throws InvalidDestinationException if an invalid destination is * specified. * @since 1.1 */ public MessageProducer createProducer(Destination destination) throws JMSException { checkClosed(); if (destination instanceof CustomDestination) { CustomDestination customDestination = (CustomDestination)destination; return customDestination.createProducer(this); } int timeSendOut = connection.getSendTimeout(); return new ActiveMQMessageProducer(this, getNextProducerId(), ActiveMQMessageTransformation.transformDestination(destination),timeSendOut); } /** * Creates a MessageConsumer for the specified destination. * Since Queue and Topic both inherit from * Destination, they can be used in the destination * parameter to create a MessageConsumer. * * @param destination the Destination to access. * @return the MessageConsumer * @throws JMSException if the session fails to create a consumer due to * some internal error. * @throws InvalidDestinationException if an invalid destination is * specified. * @since 1.1 */ public MessageConsumer createConsumer(Destination destination) throws JMSException { return createConsumer(destination, (String) null); } /** * Creates a MessageConsumer for the specified destination, * using a message selector. Since Queue and * Topic both inherit from Destination, they * can be used in the destination parameter to create a * MessageConsumer. *

* A client uses a MessageConsumer object to receive messages * that have been sent to a destination. * * @param destination the Destination to access * @param messageSelector only messages with properties matching the message * selector expression are delivered. A value of null or an * empty string indicates that there is no message selector * for the message consumer. * @return the MessageConsumer * @throws JMSException if the session fails to create a MessageConsumer due * to some internal error. * @throws InvalidDestinationException if an invalid destination is * specified. * @throws InvalidSelectorException if the message selector is invalid. * @since 1.1 */ public MessageConsumer createConsumer(Destination destination, String messageSelector) throws JMSException { return createConsumer(destination, messageSelector, false); } /** * Creates a MessageConsumer for the specified destination. * Since Queue and Topic both inherit from * Destination, they can be used in the destination * parameter to create a MessageConsumer. * * @param destination the Destination to access. * @param messageListener the listener to use for async consumption of messages * @return the MessageConsumer * @throws JMSException if the session fails to create a consumer due to * some internal error. * @throws InvalidDestinationException if an invalid destination is * specified. * @since 1.1 */ public MessageConsumer createConsumer(Destination destination, MessageListener messageListener) throws JMSException { return createConsumer(destination, null, messageListener); } /** * Creates a MessageConsumer for the specified destination, * using a message selector. Since Queue and * Topic both inherit from Destination, they * can be used in the destination parameter to create a * MessageConsumer. *

* A client uses a MessageConsumer object to receive messages * that have been sent to a destination. * * @param destination the Destination to access * @param messageSelector only messages with properties matching the message * selector expression are delivered. A value of null or an * empty string indicates that there is no message selector * for the message consumer. * @param messageListener the listener to use for async consumption of messages * @return the MessageConsumer * @throws JMSException if the session fails to create a MessageConsumer due * to some internal error. * @throws InvalidDestinationException if an invalid destination is * specified. * @throws InvalidSelectorException if the message selector is invalid. * @since 1.1 */ public MessageConsumer createConsumer(Destination destination, String messageSelector, MessageListener messageListener) throws JMSException { return createConsumer(destination, messageSelector, false, messageListener); } /** * Creates MessageConsumer for the specified destination, * using a message selector. This method can specify whether messages * published by its own connection should be delivered to it, if the * destination is a topic. *

* Since Queue and Topic both inherit from * Destination, they can be used in the destination * parameter to create a MessageConsumer. *

* A client uses a MessageConsumer object to receive messages * that have been published to a destination. *

* In some cases, a connection may both publish and subscribe to a topic. * The consumer NoLocal attribute allows a consumer to * inhibit the delivery of messages published by its own connection. The * default value for this attribute is False. The noLocal * value must be supported by destinations that are topics. * * @param destination the Destination to access * @param messageSelector only messages with properties matching the message * selector expression are delivered. A value of null or an * empty string indicates that there is no message selector * for the message consumer. * @param noLocal - if true, and the destination is a topic, inhibits the * delivery of messages published by its own connection. The * behavior for NoLocal is not specified if * the destination is a queue. * @return the MessageConsumer * @throws JMSException if the session fails to create a MessageConsumer due * to some internal error. * @throws InvalidDestinationException if an invalid destination is * specified. * @throws InvalidSelectorException if the message selector is invalid. * @since 1.1 */ public MessageConsumer createConsumer(Destination destination, String messageSelector, boolean noLocal) throws JMSException { return createConsumer(destination, messageSelector, noLocal, null); } /** * Creates MessageConsumer for the specified destination, * using a message selector. This method can specify whether messages * published by its own connection should be delivered to it, if the * destination is a topic. *

* Since Queue and Topic both inherit from * Destination, they can be used in the destination * parameter to create a MessageConsumer. *

* A client uses a MessageConsumer object to receive messages * that have been published to a destination. *

* In some cases, a connection may both publish and subscribe to a topic. * The consumer NoLocal attribute allows a consumer to * inhibit the delivery of messages published by its own connection. The * default value for this attribute is False. The noLocal * value must be supported by destinations that are topics. * * @param destination the Destination to access * @param messageSelector only messages with properties matching the message * selector expression are delivered. A value of null or an * empty string indicates that there is no message selector * for the message consumer. * @param noLocal - if true, and the destination is a topic, inhibits the * delivery of messages published by its own connection. The * behavior for NoLocal is not specified if * the destination is a queue. * @param messageListener the listener to use for async consumption of messages * @return the MessageConsumer * @throws JMSException if the session fails to create a MessageConsumer due * to some internal error. * @throws InvalidDestinationException if an invalid destination is * specified. * @throws InvalidSelectorException if the message selector is invalid. * @since 1.1 */ public MessageConsumer createConsumer(Destination destination, String messageSelector, boolean noLocal, MessageListener messageListener) throws JMSException { checkClosed(); if (destination instanceof CustomDestination) { CustomDestination customDestination = (CustomDestination)destination; return customDestination.createConsumer(this, messageSelector, noLocal); } ActiveMQPrefetchPolicy prefetchPolicy = connection.getPrefetchPolicy(); int prefetch = 0; if (destination instanceof Topic) { prefetch = prefetchPolicy.getTopicPrefetch(); } else { prefetch = prefetchPolicy.getQueuePrefetch(); } ActiveMQDestination activemqDestination = ActiveMQMessageTransformation.transformDestination(destination); return new ActiveMQMessageConsumer(this, getNextConsumerId(), activemqDestination, null, messageSelector, prefetch, prefetchPolicy.getMaximumPendingMessageLimit(), noLocal, false, isAsyncDispatch(), messageListener); } /** * Creates a queue identity given a Queue name. *

* This facility is provided for the rare cases where clients need to * dynamically manipulate queue identity. It allows the creation of a queue * identity with a provider-specific name. Clients that depend on this * ability are not portable. *

* Note that this method is not for creating the physical queue. The * physical creation of queues is an administrative task and is not to be * initiated by the JMS API. The one exception is the creation of temporary * queues, which is accomplished with the createTemporaryQueue * method. * * @param queueName the name of this Queue * @return a Queue with the given name * @throws JMSException if the session fails to create a queue due to some * internal error. * @since 1.1 */ public Queue createQueue(String queueName) throws JMSException { checkClosed(); if (queueName.startsWith(ActiveMQDestination.TEMP_DESTINATION_NAME_PREFIX)) { return new ActiveMQTempQueue(queueName); } return new ActiveMQQueue(queueName); } /** * Creates a topic identity given a Topic name. *

* This facility is provided for the rare cases where clients need to * dynamically manipulate topic identity. This allows the creation of a * topic identity with a provider-specific name. Clients that depend on this * ability are not portable. *

* Note that this method is not for creating the physical topic. The * physical creation of topics is an administrative task and is not to be * initiated by the JMS API. The one exception is the creation of temporary * topics, which is accomplished with the createTemporaryTopic * method. * * @param topicName the name of this Topic * @return a Topic with the given name * @throws JMSException if the session fails to create a topic due to some * internal error. * @since 1.1 */ public Topic createTopic(String topicName) throws JMSException { checkClosed(); if (topicName.startsWith(ActiveMQDestination.TEMP_DESTINATION_NAME_PREFIX)) { return new ActiveMQTempTopic(topicName); } return new ActiveMQTopic(topicName); } /** * Creates a QueueBrowser object to peek at the messages on * the specified queue. * * @param queue the queue to access * @exception InvalidDestinationException if an invalid destination is * specified * @since 1.1 */ /** * Creates a durable subscriber to the specified topic. *

* If a client needs to receive all the messages published on a topic, * including the ones published while the subscriber is inactive, it uses a * durable TopicSubscriber. The JMS provider retains a * record of this durable subscription and insures that all messages from * the topic's publishers are retained until they are acknowledged by this * durable subscriber or they have expired. *

* Sessions with durable subscribers must always provide the same client * identifier. In addition, each client must specify a name that uniquely * identifies (within client identifier) each durable subscription it * creates. Only one session at a time can have a * TopicSubscriber for a particular durable subscription. *

* A client can change an existing durable subscription by creating a * durable TopicSubscriber with the same name and a new topic * and/or message selector. Changing a durable subscriber is equivalent to * unsubscribing (deleting) the old one and creating a new one. *

* In some cases, a connection may both publish and subscribe to a topic. * The subscriber NoLocal attribute allows a subscriber to * inhibit the delivery of messages published by its own connection. The * default value for this attribute is false. * * @param topic the non-temporary Topic to subscribe to * @param name the name used to identify this subscription * @return the TopicSubscriber * @throws JMSException if the session fails to create a subscriber due to * some internal error. * @throws InvalidDestinationException if an invalid topic is specified. * @since 1.1 */ public TopicSubscriber createDurableSubscriber(Topic topic, String name) throws JMSException { checkClosed(); return createDurableSubscriber(topic, name, null, false); } /** * Creates a durable subscriber to the specified topic, using a message * selector and specifying whether messages published by its own connection * should be delivered to it. *

* If a client needs to receive all the messages published on a topic, * including the ones published while the subscriber is inactive, it uses a * durable TopicSubscriber. The JMS provider retains a * record of this durable subscription and insures that all messages from * the topic's publishers are retained until they are acknowledged by this * durable subscriber or they have expired. *

* Sessions with durable subscribers must always provide the same client * identifier. In addition, each client must specify a name which uniquely * identifies (within client identifier) each durable subscription it * creates. Only one session at a time can have a * TopicSubscriber for a particular durable subscription. An * inactive durable subscriber is one that exists but does not currently * have a message consumer associated with it. *

* A client can change an existing durable subscription by creating a * durable TopicSubscriber with the same name and a new topic * and/or message selector. Changing a durable subscriber is equivalent to * unsubscribing (deleting) the old one and creating a new one. * * @param topic the non-temporary Topic to subscribe to * @param name the name used to identify this subscription * @param messageSelector only messages with properties matching the message * selector expression are delivered. A value of null or an * empty string indicates that there is no message selector * for the message consumer. * @param noLocal if set, inhibits the delivery of messages published by its * own connection * @return the Queue Browser * @throws JMSException if the session fails to create a subscriber due to * some internal error. * @throws InvalidDestinationException if an invalid topic is specified. * @throws InvalidSelectorException if the message selector is invalid. * @since 1.1 */ public TopicSubscriber createDurableSubscriber(Topic topic, String name, String messageSelector, boolean noLocal) throws JMSException { checkClosed(); if (isIndividualAcknowledge()) { throw JMSExceptionSupport.create("Cannot create a durable consumer for a Session in "+ "INDIVIDUAL_ACKNOWLEDGE mode.", null); } if (topic instanceof CustomDestination) { CustomDestination customDestination = (CustomDestination)topic; return customDestination.createDurableSubscriber(this, name, messageSelector, noLocal); } connection.checkClientIDWasManuallySpecified(); ActiveMQPrefetchPolicy prefetchPolicy = this.connection.getPrefetchPolicy(); int prefetch = isAutoAcknowledge() && connection.isOptimizedMessageDispatch() ? prefetchPolicy.getOptimizeDurableTopicPrefetch() : prefetchPolicy.getDurableTopicPrefetch(); int maxPrendingLimit = prefetchPolicy.getMaximumPendingMessageLimit(); return new ActiveMQTopicSubscriber(this, getNextConsumerId(), ActiveMQMessageTransformation.transformDestination(topic), name, messageSelector, prefetch, maxPrendingLimit, noLocal, false, asyncDispatch); } /** * Creates a QueueBrowser object to peek at the messages on * the specified queue. * * @param queue the queue to access * @return the Queue Browser * @throws JMSException if the session fails to create a browser due to some * internal error. * @throws InvalidDestinationException if an invalid destination is * specified * @since 1.1 */ public QueueBrowser createBrowser(Queue queue) throws JMSException { checkClosed(); return createBrowser(queue, null); } /** * Creates a QueueBrowser object to peek at the messages on * the specified queue using a message selector. * * @param queue the queue to access * @param messageSelector only messages with properties matching the message * selector expression are delivered. A value of null or an * empty string indicates that there is no message selector * for the message consumer. * @return the Queue Browser * @throws JMSException if the session fails to create a browser due to some * internal error. * @throws InvalidDestinationException if an invalid destination is * specified * @throws InvalidSelectorException if the message selector is invalid. * @since 1.1 */ public QueueBrowser createBrowser(Queue queue, String messageSelector) throws JMSException { checkClosed(); return new ActiveMQQueueBrowser(this, getNextConsumerId(), ActiveMQMessageTransformation.transformDestination(queue), messageSelector, asyncDispatch); } /** * Creates a TemporaryQueue object. Its lifetime will be that * of the Connection unless it is deleted earlier. * * @return a temporary queue identity * @throws JMSException if the session fails to create a temporary queue due * to some internal error. * @since 1.1 */ public TemporaryQueue createTemporaryQueue() throws JMSException { checkClosed(); return (TemporaryQueue)connection.createTempDestination(false); } /** * Creates a TemporaryTopic object. Its lifetime will be that * of the Connection unless it is deleted earlier. * * @return a temporary topic identity * @throws JMSException if the session fails to create a temporary topic due * to some internal error. * @since 1.1 */ public TemporaryTopic createTemporaryTopic() throws JMSException { checkClosed(); return (TemporaryTopic)connection.createTempDestination(true); } /** * Creates a QueueReceiver object to receive messages from * the specified queue. * * @param queue the Queue to access * @return * @throws JMSException if the session fails to create a receiver due to * some internal error. * @throws JMSException * @throws InvalidDestinationException if an invalid queue is specified. */ public QueueReceiver createReceiver(Queue queue) throws JMSException { checkClosed(); return createReceiver(queue, null); } /** * Creates a QueueReceiver object to receive messages from * the specified queue using a message selector. * * @param queue the Queue to access * @param messageSelector only messages with properties matching the message * selector expression are delivered. A value of null or an * empty string indicates that there is no message selector * for the message consumer. * @return QueueReceiver * @throws JMSException if the session fails to create a receiver due to * some internal error. * @throws InvalidDestinationException if an invalid queue is specified. * @throws InvalidSelectorException if the message selector is invalid. */ public QueueReceiver createReceiver(Queue queue, String messageSelector) throws JMSException { checkClosed(); if (queue instanceof CustomDestination) { CustomDestination customDestination = (CustomDestination)queue; return customDestination.createReceiver(this, messageSelector); } ActiveMQPrefetchPolicy prefetchPolicy = this.connection.getPrefetchPolicy(); return new ActiveMQQueueReceiver(this, getNextConsumerId(), ActiveMQMessageTransformation.transformDestination(queue), messageSelector, prefetchPolicy.getQueuePrefetch(), prefetchPolicy.getMaximumPendingMessageLimit(), asyncDispatch); } /** * Creates a QueueSender object to send messages to the * specified queue. * * @param queue the Queue to access, or null if this is an * unidentified producer * @return QueueSender * @throws JMSException if the session fails to create a sender due to some * internal error. * @throws InvalidDestinationException if an invalid queue is specified. */ public QueueSender createSender(Queue queue) throws JMSException { checkClosed(); if (queue instanceof CustomDestination) { CustomDestination customDestination = (CustomDestination)queue; return customDestination.createSender(this); } int timeSendOut = connection.getSendTimeout(); return new ActiveMQQueueSender(this, ActiveMQMessageTransformation.transformDestination(queue),timeSendOut); } /** * Creates a nondurable subscriber to the specified topic.

*

* A client uses a TopicSubscriber object to receive messages * that have been published to a topic.

*

* Regular TopicSubscriber objects are not durable. They * receive only messages that are published while they are active.

*

* In some cases, a connection may both publish and subscribe to a topic. * The subscriber NoLocal attribute allows a subscriber to * inhibit the delivery of messages published by its own connection. The * default value for this attribute is false. * * @param topic the Topic to subscribe to * @return TopicSubscriber * @throws JMSException if the session fails to create a subscriber due to * some internal error. * @throws InvalidDestinationException if an invalid topic is specified. */ public TopicSubscriber createSubscriber(Topic topic) throws JMSException { checkClosed(); return createSubscriber(topic, null, false); } /** * Creates a nondurable subscriber to the specified topic, using a message * selector or specifying whether messages published by its own connection * should be delivered to it.

*

* A client uses a TopicSubscriber object to receive messages * that have been published to a topic.

*

* Regular TopicSubscriber objects are not durable. They * receive only messages that are published while they are active.

*

* Messages filtered out by a subscriber's message selector will never be * delivered to the subscriber. From the subscriber's perspective, they do * not exist.

*

* In some cases, a connection may both publish and subscribe to a topic. * The subscriber NoLocal attribute allows a subscriber to * inhibit the delivery of messages published by its own connection. The * default value for this attribute is false. * * @param topic the Topic to subscribe to * @param messageSelector only messages with properties matching the message * selector expression are delivered. A value of null or an * empty string indicates that there is no message selector * for the message consumer. * @param noLocal if set, inhibits the delivery of messages published by its * own connection * @return TopicSubscriber * @throws JMSException if the session fails to create a subscriber due to * some internal error. * @throws InvalidDestinationException if an invalid topic is specified. * @throws InvalidSelectorException if the message selector is invalid. */ public TopicSubscriber createSubscriber(Topic topic, String messageSelector, boolean noLocal) throws JMSException { checkClosed(); if (topic instanceof CustomDestination) { CustomDestination customDestination = (CustomDestination)topic; return customDestination.createSubscriber(this, messageSelector, noLocal); } ActiveMQPrefetchPolicy prefetchPolicy = this.connection.getPrefetchPolicy(); return new ActiveMQTopicSubscriber(this, getNextConsumerId(), ActiveMQMessageTransformation.transformDestination(topic), null, messageSelector, prefetchPolicy .getTopicPrefetch(), prefetchPolicy.getMaximumPendingMessageLimit(), noLocal, false, asyncDispatch); } /** * Creates a publisher for the specified topic.

*

* A client uses a TopicPublisher object to publish messages * on a topic. Each time a client creates a TopicPublisher on * a topic, it defines a new sequence of messages that have no ordering * relationship with the messages it has previously sent. * * @param topic the Topic to publish to, or null if this is * an unidentified producer * @return TopicPublisher * @throws JMSException if the session fails to create a publisher due to * some internal error. * @throws InvalidDestinationException if an invalid topic is specified. */ public TopicPublisher createPublisher(Topic topic) throws JMSException { checkClosed(); if (topic instanceof CustomDestination) { CustomDestination customDestination = (CustomDestination)topic; return customDestination.createPublisher(this); } int timeSendOut = connection.getSendTimeout(); return new ActiveMQTopicPublisher(this, ActiveMQMessageTransformation.transformDestination(topic),timeSendOut); } /** * Unsubscribes a durable subscription that has been created by a client. *

* This method deletes the state being maintained on behalf of the * subscriber by its provider. *

* It is erroneous for a client to delete a durable subscription while there * is an active MessageConsumer or * TopicSubscriber for the subscription, or while a consumed * message is part of a pending transaction or has not been acknowledged in * the session. * * @param name the name used to identify this subscription * @throws JMSException if the session fails to unsubscribe to the durable * subscription due to some internal error. * @throws InvalidDestinationException if an invalid subscription name is * specified. * @since 1.1 */ public void unsubscribe(String name) throws JMSException { checkClosed(); connection.unsubscribe(name); } public void dispatch(MessageDispatch messageDispatch) { try { executor.execute(messageDispatch); } catch (InterruptedException e) { Thread.currentThread().interrupt(); connection.onClientInternalException(e); } } /** * Acknowledges all consumed messages of the session of this consumed * message. *

* All consumed JMS messages support the acknowledge method * for use when a client has specified that its JMS session's consumed * messages are to be explicitly acknowledged. By invoking * acknowledge on a consumed message, a client acknowledges * all messages consumed by the session that the message was delivered to. *

* Calls to acknowledge are ignored for both transacted * sessions and sessions specified to use implicit acknowledgement modes. *

* A client may individually acknowledge each message as it is consumed, or * it may choose to acknowledge messages as an application-defined group * (which is done by calling acknowledge on the last received message of the * group, thereby acknowledging all messages consumed by the session.) *

* Messages that have been received but not acknowledged may be redelivered. * * @throws JMSException if the JMS provider fails to acknowledge the * messages due to some internal error. * @throws javax.jms.IllegalStateException if this method is called on a * closed session. * @see javax.jms.Session#CLIENT_ACKNOWLEDGE */ public void acknowledge() throws JMSException { for (Iterator iter = consumers.iterator(); iter.hasNext();) { ActiveMQMessageConsumer c = iter.next(); c.acknowledge(); } } /** * Add a message consumer. * * @param consumer - message consumer. * @throws JMSException */ protected void addConsumer(ActiveMQMessageConsumer consumer) throws JMSException { this.consumers.add(consumer); if (consumer.isDurableSubscriber()) { stats.onCreateDurableSubscriber(); } this.connection.addDispatcher(consumer.getConsumerId(), this); } /** * Remove the message consumer. * * @param consumer - consumer to be removed. * @throws JMSException */ protected void removeConsumer(ActiveMQMessageConsumer consumer) { this.connection.removeDispatcher(consumer.getConsumerId()); if (consumer.isDurableSubscriber()) { stats.onRemoveDurableSubscriber(); } this.consumers.remove(consumer); this.connection.removeDispatcher(consumer); } /** * Adds a message producer. * * @param producer - message producer to be added. * @throws JMSException */ protected void addProducer(ActiveMQMessageProducer producer) throws JMSException { this.producers.add(producer); this.connection.addProducer(producer.getProducerInfo().getProducerId(), producer); } /** * Removes a message producer. * * @param producer - message producer to be removed. * @throws JMSException */ protected void removeProducer(ActiveMQMessageProducer producer) { this.connection.removeProducer(producer.getProducerInfo().getProducerId()); this.producers.remove(producer); } /** * Start this Session. * * @throws JMSException */ protected void start() throws JMSException { started.set(true); for (Iterator iter = consumers.iterator(); iter.hasNext();) { ActiveMQMessageConsumer c = iter.next(); c.start(); } executor.start(); } /** * Stops this session. * * @throws JMSException */ protected void stop() throws JMSException { for (Iterator iter = consumers.iterator(); iter.hasNext();) { ActiveMQMessageConsumer c = iter.next(); c.stop(); } started.set(false); executor.stop(); } /** * Returns the session id. * * @return value - session id. */ protected SessionId getSessionId() { return info.getSessionId(); } /** * @return */ protected ConsumerId getNextConsumerId() { return new ConsumerId(info.getSessionId(), consumerIdGenerator.getNextSequenceId()); } /** * @return */ protected ProducerId getNextProducerId() { return new ProducerId(info.getSessionId(), producerIdGenerator.getNextSequenceId()); } /** * Sends the message for dispatch by the broker. * * * @param producer - message producer. * @param destination - message destination. * @param message - message to be sent. * @param deliveryMode - JMS messsage delivery mode. * @param priority - message priority. * @param timeToLive - message expiration. * @param producerWindow * @param onComplete * @throws JMSException */ protected void send(ActiveMQMessageProducer producer, ActiveMQDestination destination, Message message, int deliveryMode, int priority, long timeToLive, MemoryUsage producerWindow, int sendTimeout, AsyncCallback onComplete) throws JMSException { checkClosed(); if (destination.isTemporary() && connection.isDeleted(destination)) { throw new InvalidDestinationException("Cannot publish to a deleted Destination: " + destination); } synchronized (sendMutex) { // tell the Broker we are about to start a new transaction doStartTransaction(); TransactionId txid = transactionContext.getTransactionId(); long sequenceNumber = producer.getMessageSequence(); //Set the "JMS" header fields on the original message, see 1.1 spec section 3.4.11 message.setJMSDeliveryMode(deliveryMode); long expiration = 0L; if (!producer.getDisableMessageTimestamp()) { long timeStamp = System.currentTimeMillis(); message.setJMSTimestamp(timeStamp); if (timeToLive > 0) { expiration = timeToLive + timeStamp; } } message.setJMSExpiration(expiration); message.setJMSPriority(priority); message.setJMSRedelivered(false); // transform to our own message format here ActiveMQMessage msg = ActiveMQMessageTransformation.transformMessage(message, connection); // Set the message id. if (msg == message) { msg.setMessageId(new MessageId(producer.getProducerInfo().getProducerId(), sequenceNumber)); } else { msg.setMessageId(new MessageId(producer.getProducerInfo().getProducerId(), sequenceNumber)); message.setJMSMessageID(msg.getMessageId().toString()); } //clear the brokerPath in case we are re-sending this message msg.setBrokerPath(null); // destination format is provider specific so only set on transformed message msg.setJMSDestination(destination); msg.setTransactionId(txid); if (connection.isCopyMessageOnSend()) { msg = (ActiveMQMessage)msg.copy(); } msg.setConnection(connection); msg.onSend(); msg.setProducerId(msg.getMessageId().getProducerId()); if (LOG.isTraceEnabled()) { LOG.trace(getSessionId() + " sending message: " + msg); } if (onComplete==null && sendTimeout <= 0 && !msg.isResponseRequired() && !connection.isAlwaysSyncSend() && (!msg.isPersistent() || connection.isUseAsyncSend() || txid != null)) { this.connection.asyncSendPacket(msg); if (producerWindow != null) { // Since we defer lots of the marshaling till we hit the // wire, this might not // provide and accurate size. We may change over to doing // more aggressive marshaling, // to get more accurate sizes.. this is more important once // users start using producer window // flow control. int size = msg.getSize(); producerWindow.increaseUsage(size); } } else { if (sendTimeout > 0 && onComplete==null) { this.connection.syncSendPacket(msg,sendTimeout); }else { this.connection.syncSendPacket(msg, onComplete); } } } } /** * Send TransactionInfo to indicate transaction has started * * @throws JMSException if some internal error occurs */ protected void doStartTransaction() throws JMSException { if (getTransacted() && !transactionContext.isInXATransaction()) { transactionContext.begin(); } } /** * Checks whether the session has unconsumed messages. * * @return true - if there are unconsumed messages. */ public boolean hasUncomsumedMessages() { return executor.hasUncomsumedMessages(); } /** * Checks whether the session uses transactions. * * @return true - if the session uses transactions. */ public boolean isTransacted() { return this.acknowledgementMode == Session.SESSION_TRANSACTED || (transactionContext.isInXATransaction()); } /** * Checks whether the session used client acknowledgment. * * @return true - if the session uses client acknowledgment. */ protected boolean isClientAcknowledge() { return this.acknowledgementMode == Session.CLIENT_ACKNOWLEDGE; } /** * Checks whether the session used auto acknowledgment. * * @return true - if the session uses client acknowledgment. */ public boolean isAutoAcknowledge() { return acknowledgementMode == Session.AUTO_ACKNOWLEDGE; } /** * Checks whether the session used dup ok acknowledgment. * * @return true - if the session uses client acknowledgment. */ public boolean isDupsOkAcknowledge() { return acknowledgementMode == Session.DUPS_OK_ACKNOWLEDGE; } public boolean isIndividualAcknowledge(){ return acknowledgementMode == ActiveMQSession.INDIVIDUAL_ACKNOWLEDGE; } /** * Returns the message delivery listener. * * @return deliveryListener - message delivery listener. */ public DeliveryListener getDeliveryListener() { return deliveryListener; } /** * Sets the message delivery listener. * * @param deliveryListener - message delivery listener. */ public void setDeliveryListener(DeliveryListener deliveryListener) { this.deliveryListener = deliveryListener; } /** * Returns the SessionInfo bean. * * @return info - SessionInfo bean. * @throws JMSException */ protected SessionInfo getSessionInfo() throws JMSException { SessionInfo info = new SessionInfo(connection.getConnectionInfo(), getSessionId().getValue()); return info; } /** * Send the asynchronus command. * * @param command - command to be executed. * @throws JMSException */ public void asyncSendPacket(Command command) throws JMSException { connection.asyncSendPacket(command); } /** * Send the synchronus command. * * @param command - command to be executed. * @return Response * @throws JMSException */ public Response syncSendPacket(Command command) throws JMSException { return connection.syncSendPacket(command); } public long getNextDeliveryId() { return deliveryIdGenerator.getNextSequenceId(); } public void redispatch(ActiveMQDispatcher dispatcher, MessageDispatchChannel unconsumedMessages) throws JMSException { List c = unconsumedMessages.removeAll(); for (MessageDispatch md : c) { this.connection.rollbackDuplicate(dispatcher, md.getMessage()); } Collections.reverse(c); for (Iterator iter = c.iterator(); iter.hasNext();) { MessageDispatch md = iter.next(); executor.executeFirst(md); } } public boolean isRunning() { return started.get(); } public boolean isAsyncDispatch() { return asyncDispatch; } public void setAsyncDispatch(boolean asyncDispatch) { this.asyncDispatch = asyncDispatch; } /** * @return Returns the sessionAsyncDispatch. */ public boolean isSessionAsyncDispatch() { return sessionAsyncDispatch; } /** * @param sessionAsyncDispatch The sessionAsyncDispatch to set. */ public void setSessionAsyncDispatch(boolean sessionAsyncDispatch) { this.sessionAsyncDispatch = sessionAsyncDispatch; } public MessageTransformer getTransformer() { return transformer; } public ActiveMQConnection getConnection() { return connection; } /** * Sets the transformer used to transform messages before they are sent on * to the JMS bus or when they are received from the bus but before they are * delivered to the JMS client */ public void setTransformer(MessageTransformer transformer) { this.transformer = transformer; } public BlobTransferPolicy getBlobTransferPolicy() { return blobTransferPolicy; } /** * Sets the policy used to describe how out-of-band BLOBs (Binary Large * OBjects) are transferred from producers to brokers to consumers */ public void setBlobTransferPolicy(BlobTransferPolicy blobTransferPolicy) { this.blobTransferPolicy = blobTransferPolicy; } public List getUnconsumedMessages() { return executor.getUnconsumedMessages(); } @Override public String toString() { return "ActiveMQSession {id=" + info.getSessionId() + ",started=" + started.get() + "}"; } public void checkMessageListener() throws JMSException { if (messageListener != null) { throw new IllegalStateException("Cannot synchronously receive a message when a MessageListener is set"); } for (Iterator i = consumers.iterator(); i.hasNext();) { ActiveMQMessageConsumer consumer = i.next(); if (consumer.getMessageListener() != null) { throw new IllegalStateException("Cannot synchronously receive a message when a MessageListener is set"); } } } protected void setOptimizeAcknowledge(boolean value) { for (Iterator iter = consumers.iterator(); iter.hasNext();) { ActiveMQMessageConsumer c = iter.next(); c.setOptimizeAcknowledge(value); } } protected void setPrefetchSize(ConsumerId id, int prefetch) { for (Iterator iter = consumers.iterator(); iter.hasNext();) { ActiveMQMessageConsumer c = iter.next(); if (c.getConsumerId().equals(id)) { c.setPrefetchSize(prefetch); break; } } } protected void close(ConsumerId id) { for (Iterator iter = consumers.iterator(); iter.hasNext();) { ActiveMQMessageConsumer c = iter.next(); if (c.getConsumerId().equals(id)) { try { c.close(); } catch (JMSException e) { LOG.warn("Exception closing consumer", e); } LOG.warn("Closed consumer on Command"); break; } } } public boolean isInUse(ActiveMQTempDestination destination) { for (Iterator iter = consumers.iterator(); iter.hasNext();) { ActiveMQMessageConsumer c = iter.next(); if (c.isInUse(destination)) { return true; } } return false; } /** * highest sequence id of the last message delivered by this session. * Passed to the broker in the close command, maintained by dispose() * @return lastDeliveredSequenceId */ public long getLastDeliveredSequenceId() { return lastDeliveredSequenceId; } protected void sendAck(MessageAck ack) throws JMSException { sendAck(ack,false); } protected void sendAck(MessageAck ack, boolean lazy) throws JMSException { if (lazy || connection.isSendAcksAsync() || getTransacted()) { asyncSendPacket(ack); } else { syncSendPacket(ack); } } protected Scheduler getScheduler() throws JMSException { return this.connection.getScheduler(); } protected ThreadPoolExecutor getConnectionExecutor() { return this.connectionExecutor; } }





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