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/*
 * Copyright (c) 1998, 2021 Oracle and/or its affiliates. All rights reserved.
 * Copyright (c) 1998, 2021 IBM Corporation. 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:
//     Oracle - initial API and implementation from Oracle TopLink
//     03/19/2009-2.0 Michael O'Brien - 266912: JPA 2.0 Metamodel API (part
//                      of the JSR-317 EJB 3.1 Criteria API)
//     08/17/2010-2.2 Michael O'Brien
//        - 322585: Login the session on the first call to getMetamodel() or getCriteriaBuilder()
//                       after EMF predeploy() completes.  This will do a DB login that calls
//                       initializeDescriptors() so we have real Classes and not just class names for
//                       MappedSuperclass metamodel descriptors.  This is provided for
//                       implementations that use the metamodel before the 1st EntityManager creation.
//                       Login will continue to only be called in EM deploy for users
//                       that do not request the Metamodel
//     11/17/2010-2.2 Guy Pelletier
//       - 329008: Support dynamic context creation without persistence.xml
//     03/22/2016-2.6_WAS Nathan Rauh
//       - 489787: Fixed NullPointerException when specifying non-entity object to PersistenceUnitUtil.isLoaded
//     09/02/2019-3.0 Alexandre Jacob
//        - 527415: Fix code when locale is tr, az or lt
package org.eclipse.persistence.internal.jpa;

import java.util.Collections;
import java.util.List;
import java.util.Locale;
import java.util.Map;
import java.util.Set;

import jakarta.persistence.Cache;
import jakarta.persistence.EntityGraph;
import jakarta.persistence.EntityManager;
import jakarta.persistence.EntityManagerFactory;
import jakarta.persistence.FlushModeType;
import jakarta.persistence.PersistenceException;
import jakarta.persistence.PersistenceUnitUtil;
import jakarta.persistence.Query;
import jakarta.persistence.SynchronizationType;
import jakarta.persistence.criteria.CriteriaBuilder;
import jakarta.persistence.metamodel.Metamodel;

import org.eclipse.persistence.config.EntityManagerProperties;
import org.eclipse.persistence.config.FlushClearCache;
import org.eclipse.persistence.config.PersistenceUnitProperties;
import org.eclipse.persistence.config.ReferenceMode;
import org.eclipse.persistence.descriptors.ClassDescriptor;
import org.eclipse.persistence.internal.jpa.deployment.SEPersistenceUnitInfo;
import org.eclipse.persistence.internal.jpa.querydef.CriteriaBuilderImpl;
import org.eclipse.persistence.internal.localization.ExceptionLocalization;
import org.eclipse.persistence.internal.sessions.AbstractSession;
import org.eclipse.persistence.internal.sessions.DatabaseSessionImpl;
import org.eclipse.persistence.internal.sessions.PropertiesHandler;
import org.eclipse.persistence.jpa.JpaEntityManagerFactory;
import org.eclipse.persistence.queries.AttributeGroup;
import org.eclipse.persistence.queries.DatabaseQuery;
import org.eclipse.persistence.queries.ObjectLevelReadQuery;
import org.eclipse.persistence.queries.ReadQuery;
import org.eclipse.persistence.sessions.DatabaseSession;
import org.eclipse.persistence.sessions.Session;
import org.eclipse.persistence.sessions.UnitOfWork.CommitOrderType;
import org.eclipse.persistence.sessions.broker.SessionBroker;
import org.eclipse.persistence.sessions.server.Server;
import org.eclipse.persistence.sessions.server.ServerSession;

/**
 * 

* Purpose: Provides the implementation for the EntityManager Factory. *

* Description: This class will store a reference to the active * ServerSession. When a request is made for an EntityManager an new * EntityManager is created with the ServerSession and returned. The primary * consumer of these EntityManager is assumed to be either the Container. There * is one EntityManagerFactory per deployment. * * @see jakarta.persistence.EntityManager * @see org.eclipse.persistence.jpa.JpaEntityManager * @see org.eclipse.persistence.jpa.JpaEntityManagerFactory * * @author gyorke * @since TopLink Essentials - JPA 1.0 * */ public class EntityManagerFactoryDelegate implements EntityManagerFactory, PersistenceUnitUtil, JpaEntityManagerFactory { /** Reference to Cache Interface. */ protected Cache myCache; /** Reference to the ServerSession for this deployment. */ protected volatile AbstractSession session; /** EntityManagerSetupImpl that deployed this factory. */ protected EntityManagerSetupImpl setupImpl; /** Stores if closed has been called. */ protected boolean isOpen = true; /** Persistence unit properties from create factory. */ protected Map properties; /** * INTERNAL: The following properties passed to createEMF cached and * processed on the emf directly. None of these properties processed during * predeploy or deploy. **/ protected static final Set supportedNonServerSessionProperties = PersistenceUnitProperties.getSupportedNonServerSessionProperties(); /** * Default join existing transaction property, allows reading through write * connection. */ protected boolean beginEarlyTransaction; /** Default property, allows flush before query to be avoided. */ protected FlushModeType flushMode = FlushModeType.AUTO; /** Default property, allows weak unit of work references. */ protected ReferenceMode referenceMode = ReferenceMode.HARD; /** * Default property to avoid resuming unit of work if going to be closed on * commit anyway. */ protected boolean closeOnCommit; /** * Default property to avoid discover new objects in unit of work if * application always uses persist. */ protected boolean persistOnCommit = true; /** * Default FlashClearCache mode to be used. Relevant only in case call to * flush method followed by call to clear method. * * @see org.eclipse.persistence.config.FlushClearCache */ protected String flushClearCache = FlushClearCache.DEFAULT; /** Default to determine if does-exist should be performed on persist. */ protected boolean shouldValidateExistence; /** Order updates by id to avoid potential deadlocks. Default is true. */ protected CommitOrderType commitOrder = CommitOrderType.ID; protected boolean commitWithoutPersistRules; /** Pointer to the EntityManagerFactoryImpl that created me */ protected JpaEntityManagerFactory owner = null; /** * Will return an instance of the Factory. Should only be called by * EclipseLink. * */ public EntityManagerFactoryDelegate(AbstractSession databaseSession, JpaEntityManagerFactory owner) { this.session = databaseSession; this.owner = owner; processProperties(databaseSession.getProperties()); } public EntityManagerFactoryDelegate(EntityManagerSetupImpl setupImpl, Map properties, JpaEntityManagerFactory owner) { this.setupImpl = setupImpl; this.owner = owner; this.properties = properties; } /** * Create a dynamic persistence unit which does not use the persistence.xml. * Instead all configuration is driven from the provided persistence unit * properties and descriptors. */ public EntityManagerFactoryDelegate(String persistenceUnitName, Map properties, List descriptors, JpaEntityManagerFactory owner) { this.properties = properties; this.owner = owner; SEPersistenceUnitInfo info = new SEPersistenceUnitInfo(); info.setClassLoader((ClassLoader) properties.get(PersistenceUnitProperties.CLASSLOADER)); info.setPersistenceUnitName(persistenceUnitName); info.getProperties().putAll(properties); this.setupImpl = new EntityManagerSetupImpl(); this.setupImpl.predeploy(info, null); this.setupImpl.getDatabaseSession().addDescriptors(descriptors); } /** * INTERNAL: Returns the ServerSession that the Factory will be using and * initializes it if it is not available. This method makes use of the * partially constructed session stored in our setupImpl and completes its * construction */ @Override public DatabaseSessionImpl getDatabaseSession() { return (DatabaseSessionImpl)getAbstractSession(); } /** * INTERNAL: Returns the ServerSession that the Factory will be using and * initializes it if it is not available. This method makes use of the * partially constructed session stored in our setupImpl and completes its * construction */ public AbstractSession getAbstractSession() { if (this.session == null) { // PERF: Avoid synchronization. synchronized (this) { // DCL ok as isLoggedIn is volatile boolean, set after login is // complete. if (this.session == null) { ClassLoader realLoader = setupImpl.getPersistenceUnitInfo().getClassLoader(); // splitProperties[0] contains // supportedNonServerSessionProperties; [1] - all the rest. Map[] splitProperties = EntityManagerFactoryProvider.splitSpecifiedProperties(properties, supportedNonServerSessionProperties); Map serverSessionProperties = splitProperties[1]; // the call to setupImpl.deploy() finishes the session creation AbstractSession tempSession = setupImpl.deploy(realLoader, serverSessionProperties); // discard all but non server session properties from server // session properties. Map tempProperties = EntityManagerFactoryProvider.keepSpecifiedProperties(tempSession.getProperties(), supportedNonServerSessionProperties); // keep only non server session properties - the rest will // be either cached in the server session or ignored properties = splitProperties[0]; // properties override server session properties Map propertiesToProcess = EntityManagerFactoryProvider.mergeMaps(properties, tempProperties); processProperties(propertiesToProcess); this.session = tempSession; } } } return this.session; } /** * INTERNAL: * Return the EntityManagerSetupImpl associated with this factory */ public EntityManagerSetupImpl getSetupImpl(){ return setupImpl; } /** * INTERNAL: Returns the ServerSession that the Factory will be using and * initializes it if it is not available. This method makes use of the * partially constructed session stored in our setupImpl and completes its * construction * TODO: should throw IllegalStateException if not ServerSession */ @Override public ServerSession getServerSession() { return (ServerSession)getAbstractSession(); } /** * INTERNAL: Returns the SessionBroker that the Factory will be using and * initializes it if it is not available. This method makes use of the * partially constructed session stored in our setupImpl and completes its * construction * TODO: should throw IllegalStateException if not SessionBroker */ @Override public SessionBroker getSessionBroker() { return (SessionBroker)getAbstractSession(); } /** * Closes this factory, releasing any resources that might be held by this * factory. After invoking this method, all methods on the instance will * throw an {@link IllegalStateException}, except for {@link #isOpen}, which * will return false. */ @Override public synchronized void close() { verifyOpen(); isOpen = false; // Do not invalidate the metaModel field // (a reopened emf will re-populate the same metaModel) // (a new persistence unit will generate a new metaModel) if (setupImpl != null) { // 260511 null check so that closing a EM // created from the constructor no longer throws a NPE setupImpl.undeploy(); } owner = null; } /** * Indicates whether or not this factory is open. Returns true * until a call to {@link #close} is made. */ @Override public boolean isOpen() { return isOpen; } /** * PUBLIC: Returns an EntityManager for this deployment. */ @Override public EntityManager createEntityManager() { return createEntityManagerImpl(null, null); } /** * PUBLIC: Returns an EntityManager for this deployment. */ @Override public EntityManager createEntityManager(Map properties) { return createEntityManagerImpl(properties, null); } @Override public EntityManager createEntityManager(SynchronizationType synchronizationType, Map map) { return createEntityManagerImpl(map, SynchronizationType.SYNCHRONIZED); } @Override public EntityManager createEntityManager(SynchronizationType synchronizationType) { return createEntityManagerImpl(null, synchronizationType); } protected EntityManagerImpl createEntityManagerImpl(Map properties, SynchronizationType syncType) { verifyOpen(); AbstractSession session = getAbstractSession(); if (session.isDatabaseSession()) { DatabaseSessionImpl databaseSession = (DatabaseSessionImpl)session; if (!databaseSession.isLoggedIn()) { // PERF: Avoid synchronization. synchronized (databaseSession) { // DCL ok as isLoggedIn is volatile boolean, set after login is // complete. if (!databaseSession.isLoggedIn()) { databaseSession.login(); } } } } if (syncType != null && !session.hasExternalTransactionController()){ throw new IllegalStateException(ExceptionLocalization.buildMessage("pu_configured_for_resource_local")); } return new EntityManagerImpl(this, properties, syncType); } /** * Gets the underlying implementation of the EntityManagerFactory. * This method will return a version of EntityManagerFactory that is * based on the available metadata at the time it is called. Future calls * to refresh will not affect that metadata on this EntityManagerFactory. */ @Override public EntityManagerFactoryDelegate unwrap(){ return this; } protected void verifyOpen() { if (!this.isOpen) { throw new IllegalStateException(ExceptionLocalization.buildMessage("operation_on_closed_entity_manager_factory")); } } @Override protected void finalize() throws Throwable { if (isOpen()) { close(); } } /** * The method return user defined property passed in from * EntityManagerFactory. */ public Object getProperty(String name) { if (name == null) { return null; } if (properties != null) { Object value = properties.get(name); if (value != null) { return value; } } AbstractSession tempSession = this.session; if (tempSession != null) { return tempSession.getProperty(name); } else { return null; } } /** * Process all EntityManager properties. This allows all EntityManager * properties specified in the persistence.xml, factory properties, or * System properties to be preprocessed. This save the cost of processing * these properties each time an EntityManager is created, which can add * considerable overhead to both performance and concurrency as System * properties are a Hashtable and synchronized. ATTENTION: If you add a new * property to be processed in this method please also add the property's * name to PersistenceUnitProperties.supportedNonServerSessionProperties */ protected void processProperties(Map properties) { String beginEarlyTransactionProperty = PropertiesHandler.getPropertyValueLogDebug(EntityManagerProperties.JOIN_EXISTING_TRANSACTION, properties, this.session, true); if (beginEarlyTransactionProperty != null) { this.beginEarlyTransaction = "true".equalsIgnoreCase(beginEarlyTransactionProperty); } String referenceMode = PropertiesHandler.getPropertyValueLogDebug(EntityManagerProperties.PERSISTENCE_CONTEXT_REFERENCE_MODE, properties, this.session, true); if (referenceMode != null) { this.referenceMode = ReferenceMode.valueOf(referenceMode); } String flushMode = PropertiesHandler.getPropertyValueLogDebug(EntityManagerProperties.PERSISTENCE_CONTEXT_FLUSH_MODE, properties, this.session, true); if (flushMode != null) { this.flushMode = FlushModeType.valueOf(flushMode); } String closeOnCommit = PropertiesHandler.getPropertyValueLogDebug(EntityManagerProperties.PERSISTENCE_CONTEXT_CLOSE_ON_COMMIT, properties, this.session, true); if (closeOnCommit != null) { this.closeOnCommit = "true".equalsIgnoreCase(closeOnCommit); } String persistOnCommit = PropertiesHandler.getPropertyValueLogDebug(EntityManagerProperties.PERSISTENCE_CONTEXT_PERSIST_ON_COMMIT, properties, this.session, true); if (persistOnCommit != null) { this.persistOnCommit = "true".equalsIgnoreCase(persistOnCommit); } String commitWithoutPersist = PropertiesHandler.getPropertyValueLogDebug(EntityManagerProperties.PERSISTENCE_CONTEXT_COMMIT_WITHOUT_PERSIST_RULES, properties, this.session, true); if (commitWithoutPersist != null) { this.commitWithoutPersistRules = "true".equalsIgnoreCase(commitWithoutPersist); } String shouldValidateExistence = PropertiesHandler.getPropertyValueLogDebug(EntityManagerProperties.VALIDATE_EXISTENCE, properties, this.session, true); if (shouldValidateExistence != null) { this.shouldValidateExistence = "true".equalsIgnoreCase(shouldValidateExistence); } String shouldOrderUpdates = PropertiesHandler.getPropertyValueLogDebug(EntityManagerProperties.ORDER_UPDATES, properties, this.session, true); if (shouldOrderUpdates != null) { if ("true".equalsIgnoreCase(shouldOrderUpdates)) { this.commitOrder = CommitOrderType.ID; } else { this.commitOrder = CommitOrderType.NONE; } } String commitOrder = PropertiesHandler.getPropertyValueLogDebug(EntityManagerProperties.PERSISTENCE_CONTEXT_COMMIT_ORDER, properties, this.session, true); if (commitOrder != null) { this.commitOrder = CommitOrderType.valueOf(commitOrder.toUpperCase(Locale.ROOT)); } String flushClearCache = PropertiesHandler.getPropertyValueLogDebug(EntityManagerProperties.FLUSH_CLEAR_CACHE, properties, this.session, true); if (flushClearCache != null) { this.flushClearCache = flushClearCache; } } /** * ADVANCED: * Re-bootstrap this factory. This method will rebuild the EntityManagerFactory. It should be used * in conjunction with a MetadataSource to allow mappings to be changed in a running system. All existing * EntityMangers will continue to function with the old metadata, but new factories will use the new metadata. * * This call will throw an exception when called on EntityManagerFactoryImplDelegate */ @Override public void refreshMetadata(Map properties){ throw new UnsupportedOperationException(); } /** * Return default join existing transaction property, allows reading through * write connection. */ public boolean getBeginEarlyTransaction() { return beginEarlyTransaction; } /** * Set default join existing transaction property, allows reading through * write connection. */ public void setBeginEarlyTransaction(boolean beginEarlyTransaction) { this.beginEarlyTransaction = beginEarlyTransaction; } /** * Return default property, allows flush before query to be avoided. */ public FlushModeType getFlushMode() { return flushMode; } /** * Set default property, allows flush before query to be avoided. */ public void setFlushMode(FlushModeType flushMode) { this.flushMode = flushMode; } /** * Return default property, allows weak unit of work references. */ public ReferenceMode getReferenceMode() { return referenceMode; } /** * Set default property, allows weak unit of work references. */ public void setReferenceMode(ReferenceMode referenceMode) { this.referenceMode = referenceMode; } /** * Return default property to avoid resuming unit of work if going to be * closed on commit anyway. */ public boolean getCloseOnCommit() { return closeOnCommit; } /** * Set default property to avoid resuming unit of work if going to be closed * on commit anyway. */ public void setCloseOnCommit(boolean closeOnCommit) { this.closeOnCommit = closeOnCommit; } /** * Return default property to avoid discover new objects in unit of work if * application always uses persist. */ public boolean getPersistOnCommit() { return persistOnCommit; } /** * Return interface providing access to utility methods for the persistence * unit. * * @return PersistenceUnitUtil interface * @throws IllegalStateException * if the entity manager factory has been closed. */ @Override public PersistenceUnitUtil getPersistenceUnitUtil() { if (!isOpen()){ throw new IllegalStateException(ExceptionLocalization.buildMessage("getpersistenceunitutil_called_on_closed_emf")); } return this; } /** * Set default property to avoid discover new objects in unit of work if * application always uses persist. */ public void setPersistOnCommit(boolean persistOnCommit) { this.persistOnCommit = persistOnCommit; } /** * Return default property to avoid discover new objects in unit of work if * application always uses persist. */ public boolean getCommitWithoutPersistRules() { return commitWithoutPersistRules; } /** * Set default property to avoid discover new objects in unit of work if * application always uses persist. */ public void setCommitWithoutPersistRules(boolean commitWithoutPersistRules) { this.commitWithoutPersistRules = commitWithoutPersistRules; } /** * Return the default FlashClearCache mode to be used. Relevant only in case * call to flush method followed by call to clear method. * * @see org.eclipse.persistence.config.FlushClearCache */ public String getFlushClearCache() { return flushClearCache; } /** * Set the default FlashClearCache mode to be used. Relevant only in case * call to flush method followed by call to clear method. * * @see org.eclipse.persistence.config.FlushClearCache */ public void setFlushClearCache(String flushClearCache) { this.flushClearCache = flushClearCache; } /** * Return the default to determine if does-exist should be performed on * persist. */ public boolean shouldValidateExistence() { return shouldValidateExistence; } /** * Set the default to determine if does-exist should be performed on * persist. */ public void setShouldValidateExistence(boolean shouldValidateExistence) { this.shouldValidateExistence = shouldValidateExistence; } /** * Access the cache that is associated with the entity manager * factory (the "second level cache"). * @return instance of the Cache interface * @throws IllegalStateException if the entity manager factory has been closed * @see jakarta.persistence.EntityManagerFactory#getCache() * @since Java Persistence 2.0 */ @Override public Cache getCache() { verifyOpen(); if (null == myCache) { myCache = new CacheImpl(this); } return myCache; } /** * @see jakarta.persistence.EntityManagerFactory#getProperties() * @since Java Persistence API 2.0 */ @Override public Map getProperties() { if (!this.isOpen()) { throw new IllegalStateException(ExceptionLocalization.buildMessage("operation_on_closed_entity_manager_factory")); } AbstractSession tempSession = this.session; if (tempSession != null) { return Collections.unmodifiableMap(EntityManagerFactoryProvider.mergeMaps(properties, tempSession.getProperties())); } else { return Collections.unmodifiableMap(properties); } } /** * @see jakarta.persistence.EntityManagerFactory#getCriteriaBuilder() * @since Java Persistence 2.0 */ @Override public CriteriaBuilder getCriteriaBuilder() { return new CriteriaBuilderImpl(this.getMetamodel()); } /** * Return an instance of Metamodel interface for access to the metamodel of * the persistence unit. * * @return Metamodel instance * @throws IllegalStateException * if the entity manager factory has been closed. * @see jakarta.persistence.EntityManagerFactory#getMetamodel() * @since Java Persistence 2.0 */ @Override public Metamodel getMetamodel() { if (!this.isOpen()) { throw new IllegalStateException(ExceptionLocalization.buildMessage("operation_on_closed_entity_manager_factory")); } /** * Login the session and initialize descriptors - if not already, subsequent calls will just return the session * 322585: Login the session on the first call to getMetamodel() or getCriteriaBuilder() * after EMF predeploy() completes. This will do a DB login that calls * initializeDescriptors() so we have real Classes and not just class names for * MappedSuperclass metamodel descriptors. This is provided for * implementations that use the metamodel before the 1st EntityManager creation. */ getAbstractSession(); return this.setupImpl.getMetamodel(session.getLoader()); } /** * INTERNAL: * Get the EntityManagerFactoryImpl that created this */ public JpaEntityManagerFactory getOwner() { return owner; } /** * INTERNAL: Convenience function to allow us to reset the Metamodel in the * possible case that we want to regenerate it. This function is outside of * the JPA 2.0 specification. * * @since Java Persistence 2.0 */ public void setMetamodel(Metamodel aMetamodel) { if (!this.isOpen()) { throw new IllegalStateException(ExceptionLocalization.buildMessage("operation_on_closed_entity_manager_factory")); } this.setupImpl.setMetamodel(aMetamodel); } /** * Determine the load state of a given persistent attribute of an entity * belonging to the persistence unit. * * @param entity * containing the attribute * @param attributeName * name of attribute whose load state is to be determined * @return false if entity's state has not been loaded or if the attribute * state has not been loaded, otherwise true */ @Override public boolean isLoaded(Object entity, String attributeName) { if (Boolean.TRUE.equals(EntityManagerFactoryImpl.isLoaded(entity, attributeName, session))) { return true; } return false; } /** * Determine the load state of an entity belonging to the persistence unit. * This method can be used to determine the load state of an entity passed * as a reference. An entity is considered loaded if all attributes for * which FetchType EAGER has been specified have been loaded. The * isLoaded(Object, String) method should be used to determine the load * state of an attribute. Not doing so might lead to unintended loading of * state. * * @param entity * whose load state is to be determined * @return false if the entity has not been loaded, else true. */ @Override public boolean isLoaded(Object entity) { if (Boolean.TRUE.equals(EntityManagerFactoryImpl.isLoaded(entity, session))) { return true; } return false; } /** * Returns the id of the entity. A generated id is not guaranteed to be * available until after the database insert has occurred. Returns null if * the entity does not yet have an id * * @return id of the entity * @throws IllegalArgumentException * if the entity is found not to be an entity. */ @Override public Object getIdentifier(Object entity) { try{ return EntityManagerFactoryImpl.getIdentifier(entity, session); } catch (IllegalArgumentException iae) { throw iae; } catch (Exception e){ throw new PersistenceException(e); } } /** * Return if updates should be ordered by primary key, to avoid potential database deadlocks. */ public CommitOrderType getCommitOrder() { return commitOrder; } /** * Set update ordering by primary key, to avoid potential database deadlocks. */ public void setCommitOrder(CommitOrderType commitOrder) { this.commitOrder = commitOrder; } @Override public void addNamedQuery(String name, Query query) { DatabaseQuery unwrapped = (DatabaseQuery) query.unwrap(DatabaseQuery.class).clone(); QueryImpl originalQuery = query.unwrap(QueryImpl.class); if (originalQuery.lockMode != null){ ((ObjectLevelReadQuery)unwrapped).setLockModeType(originalQuery.lockMode.name(), session); } if (unwrapped.isReadQuery()){ ((ReadQuery)unwrapped).setInternalMax((originalQuery.getMaxResultsInternal())); if (query.getFirstResult() != QueryImpl.UNDEFINED){ ((ReadQuery)unwrapped).setFirstResult(query.getFirstResult()); } } this.getServerSession().addQuery(name, unwrapped, true); } @Override public T unwrap(Class cls) { if (cls.equals(JpaEntityManagerFactory.class) || cls.equals(EntityManagerFactoryImpl.class)) { return (T) this; }else if (cls.equals(EntityManagerFactoryDelegate.class)) { return (T) this; }else if (cls.equals(Session.class) || cls.equals(AbstractSession.class)) { return (T) this.getAbstractSession(); } else if (cls.equals(DatabaseSession.class) || cls.equals(DatabaseSessionImpl.class)) { return (T) this.getDatabaseSession(); } else if (cls.equals(Server.class) || cls.equals(ServerSession.class)) { return (T) this.getServerSession(); } else if (cls.equals(SessionBroker.class)) { return (T) this.getSessionBroker(); } throw new PersistenceException(ExceptionLocalization.buildMessage("unable_to_unwrap_jpa", new String[]{EntityManagerFactory.class.getName(),cls.getName()})); } @Override public void addNamedEntityGraph(String graphName, EntityGraph entityGraph) { AttributeGroup group = ((EntityGraphImpl)entityGraph).getAttributeGroup().clone(); group.setName(graphName); this.getAbstractSession().getAttributeGroups().put(graphName, group); this.getAbstractSession().getDescriptor(((EntityGraphImpl)entityGraph).getClassType()).addAttributeGroup(group); } }





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