org.eclipse.persistence.transaction.JTA11TransactionController Maven / Gradle / Ivy
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/*
* Copyright (c) 2017, 2020 Oracle and/or its affiliates. All rights reserved.
*
* This program and the accompanying materials are made available under the
* terms of the Eclipse Public License v. 2.0 which is available at
* http://www.eclipse.org/legal/epl-2.0,
* or the Eclipse Distribution License v. 1.0 which is available at
* http://www.eclipse.org/org/documents/edl-v10.php.
*
* SPDX-License-Identifier: EPL-2.0 OR BSD-3-Clause
*/
// Contributors:
// 10/24/2017-3.0 Tomas Kraus
// - 526419: Modify EclipseLink to reflect changes in JTA 1.1.
package org.eclipse.persistence.transaction;
import jakarta.transaction.TransactionManager;
import jakarta.transaction.TransactionSynchronizationRegistry;
import org.eclipse.persistence.exceptions.TransactionException;
import org.eclipse.persistence.logging.SessionLog;
/**
*
* Purpose: TransactionController extensions for JTA 1.1
*
* Description: Implements the required behavior for controlling JTA 1.1
* transactions. Specific JTA implementations may need to extend this class
* when special controller behavior is necessary.
*
* The JTA {@link TransactionSynchronizationRegistry} must be obtained and set on the
* instance in order for a Synchronization listener to be registered against
* the transaction. This can be done either by extending this class and defining
* {@code acquireTransactionSynchronizationRegistry()} to return the manager for the server, or by using
* this class and explicitly calling the {@code setTransactionSynchronizationRegistry()} method on it
* after the fact.
* e.g.
* TransactionSynchronizationRegistry tsr = controller.jndiLookup("java:comp/setTransactionSynchronizationRegistry");
* controller.setTransactionManager(tsr);
*
* If a different listener needs to be used for synchronization, the
* SynchronizationListenerFactory should be set on the controller instance.
* The listener subclass should implement the factory interface, so that
* setting the factory is simply a matter of assigning an instance of the
* listener.
* e.g.
* controller.setSynchronizationListenerFactory(
* new DifferentServerSynchronizationListener());
*
* The default listener factory creates instances of {@code JTATransactionListener}.
*
* @see JTASynchronizationListener
* @see AbstractTransactionController
* @since 2.7.1
*/
public class JTA11TransactionController extends JTATransactionController {
// Static content
/** Common JNDI name of {@code TransactionSynchronizationRegistry} instance. */
public static final String JNDI_TRANSACTION_SYNCHRONIZATION_REGISTRY = "java:comp/TransactionSynchronizationRegistry";
/** Allows {@code TransactionSynchronizationRegistry} to be set statically. */
protected static TransactionSynchronizationRegistry defaultTsr;
/**
* PUBLIC:
* Get the default JTA 1.1 synchronization objects registry being used.
* @return synchronization objects registry being used or {@code null} if no default value was set yet.
*/
public static TransactionSynchronizationRegistry getDefaultTransactionSynchronizationRegistry() {
return defaultTsr;
}
/**
* PUBLIC:
* Set the default JTA 1.1 synchronization objects registry to be used.
* This can be called directly before login to configure JTA integration manually, or using Spring injection.
*
* @param tsr synchronization objects registry to set
*/
public static void setDefaultTransactionSynchronizationRegistry(final TransactionSynchronizationRegistry tsr) {
defaultTsr = tsr;
}
// Instance content
/** Primary point of integration with JTA 1.1. */
protected TransactionSynchronizationRegistry tsr;
/**
* PUBLIC:
* Return a new controller for use with acquired JTA 1.1 compliant {@link TransactionSynchronizationRegistry}.
*/
public JTA11TransactionController() {
super();
try {
this.tsr = acquireTransactionSynchronizationRegistry();
} catch (Exception ex) {
throw TransactionException.errorObtainingTsr(ex);
}
}
/**
* PUBLIC:
* Return a new controller for use with supplied JTA 1.1 compliant synchronization objects registry.
*
* @param supplTm supplied JTA 1.0 compliant transaction manager.
* @param supplTsr supplied JTA 1.1 compliant synchronization objects registry
*/
public JTA11TransactionController(final TransactionSynchronizationRegistry supplTsr, final TransactionManager supplTm) {
super(supplTm);
this.tsr = supplTsr;
}
/**
* INTERNAL:
* Obtain and return the JTA 1.1 {@link TransactionSynchronizationRegistry} on this platform.
*
* This method can be can be overridden by subclasses to obtain the
* {@code TransactionSynchronizationRegistry} by whatever means is appropriate to the server.
* This method is invoked by the constructor to initialize the synchronization objects registry
* at instance-creation time. Alternatively the synchronization objects registry
* can be set directly on the controller instance using the setTransactionManager() method
* after the instance has been created.
*
* @return the {@code TransactionSynchronizationRegistry} for the transaction system or {@code null}
* if no default value was found
*/
protected TransactionSynchronizationRegistry acquireTransactionSynchronizationRegistry() {
if (defaultTsr != null) {
return defaultTsr;
}
try {
return (TransactionSynchronizationRegistry)jndiLookup(JNDI_TRANSACTION_SYNCHRONIZATION_REGISTRY);
} catch (TransactionException ex) {
session.log(SessionLog.WARNING, SessionLog.TRANSACTION, "jta_tsr_lookup_failure", ex.getLocalizedMessage());
}
return null;
}
/**
* PUBLIC:
* Return the synchronization objects registry used to control the JTA 1.1 transactions.
*
* @return the JTA 1.1 {@link TransactionSynchronizationRegistry} that is used to obtain transaction
* state information and control the active transaction
*/
public TransactionSynchronizationRegistry getTransactionSynchronizationRegistry() {
return tsr;
}
/**
* PUBLIC:
* Set the synchronization objects registry used to control the JTA 1.1 transactions.
*
* @param supplTsr a valid JTA 1.1 {@link TransactionSynchronizationRegistry} that can be accessed by this controller
* to obtain transaction state information and control the active transaction
*/
public void setTransactionManager(final TransactionSynchronizationRegistry supplTsr) {
tsr = supplTsr;
}
/**
* INTERNAL:
* Register the specified synchronization listener with the given active transaction.
*
* @param listener the synchronization listener created for this transaction
* @param txn the active transaction for which notification is being requested
*/
@Override
protected void registerSynchronization_impl(final AbstractSynchronizationListener listener, final Object txn) throws Exception {
tsr.registerInterposedSynchronization(listener);
}
/**
* INTERNAL:
* Return a key for the specified external transaction object.
* The key is just something that can be inserted into a hash table (must support {@code hashCode()}
* and {@code equals()} methods).
*
* @param transaction The transaction to which the returned key applies (may be null)
* @return an opaque object to represent the transaction bound to the current thread at the time this method
* is called, or {@code null} if no transaction specified
*/
@Override
protected Object getTransactionKey_impl(final Object transaction) throws Exception {
return tsr.getTransactionKey();
}
/**
* INTERNAL:
* Return the transaction status as an object. We will pass around {@code Integer}s that wrap the {@code int}
* JTA status values.
*
* @return the status of the transaction bound to the current thread at the time this method is called
*/
@Override
protected Object getTransactionStatus_impl() throws Exception {
return tsr.getTransactionStatus();
}
/**
* INTERNAL:
* Mark the external transaction for rollback.
*/
@Override
protected void markTransactionForRollback_impl() throws Exception {
tsr.setRollbackOnly();
}
/**
* INTERNAL:
* Check whether the transaction is rolled back.
* @param status {@code true} if the transaction is rolled back or {@code false} otherwise
*/
@Override
public boolean isRolledBack_impl(final Object status) {
return tsr.getRollbackOnly();
}
}