hibernatetemplate.java

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/*
 * Copyright 2002-2007 the original author or authors.
 *
 * Licensed 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.springframework.orm.hibernate3;

import java.io.Serializable;
import java.lang.reflect.InvocationHandler;
import java.lang.reflect.InvocationTargetException;
import java.lang.reflect.Method;
import java.lang.reflect.Proxy;
import java.sql.SQLException;
import java.util.Collection;
import java.util.Iterator;
import java.util.List;

import org.hibernate.Criteria;
import org.hibernate.Filter;
import org.hibernate.FlushMode;
import org.hibernate.Hibernate;
import org.hibernate.HibernateException;
import org.hibernate.LockMode;
import org.hibernate.Query;
import org.hibernate.ReplicationMode;
import org.hibernate.Session;
import org.hibernate.SessionFactory;
import org.hibernate.criterion.DetachedCriteria;
import org.hibernate.criterion.Example;
import org.hibernate.engine.SessionImplementor;

import org.springframework.dao.DataAccessException;
import org.springframework.dao.InvalidDataAccessApiUsageException;
import org.springframework.util.Assert;

/**
 * Helper class that simplifies Hibernate data access code. Automatically
 * converts HibernateExceptions into DataAccessExceptions, following the
 * <code>org.springframework.dao</code> exception hierarchy.
 *
 * <p><b>NOTE: As of Hibernate 3.0.1, transactional Hibernate access code can
 * also be coded in plain Hibernate style. Hence, for newly started projects,
 * consider adopting the standard Hibernate3 style of coding data access objects
 * instead, based on <code>SessionFactory.getCurrentSession()</code>.</b>
 * (Spring's LocalSessionFactoryBean automatically supports Spring transaction
 * management for the Hibernate3 <code>getCurrentSession()</code> method.)
 *
 * <p>The central method is <code>execute</code>, supporting Hibernate access code
 * implementing the {@link HibernateCallback} interface. It provides Hibernate Session
 * handling such that neither the HibernateCallback implementation nor the calling
 * code needs to explicitly care about retrieving/closing Hibernate Sessions,
 * or handling Session lifecycle exceptions. For typical single step actions,
 * there are various convenience methods (find, load, saveOrUpdate, delete).
 *
 * <p>Can be used within a service implementation via direct instantiation
 * with a SessionFactory reference, or get prepared in an application context
 * and given to services as bean reference. Note: The SessionFactory should
 * always be configured as bean in the application context, in the first case
 * given to the service directly, in the second case to the prepared template.
 *
 * <p>This class can be considered as direct alternative to working with the raw
 * Hibernate3 Session API (through <code>SessionFactory.getCurrentSession()</code>).
 * The major advantage is its automatic conversion to DataAccessExceptions, the
 * major disadvantage that no checked application exceptions can get thrown from
 * within data access code. Corresponding checks and the actual throwing of such
 * exceptions can often be deferred to after callback execution, though.
 *
 * <p>Note that even if {@link HibernateTransactionManager} is used for transaction
 * demarcation in higher-level services, all those services above the data
 * access layer don't need to be Hibernate-aware. Setting such a special
 * PlatformTransactionManager is a configuration issue: For example,
 * switching to JTA is just a matter of Spring configuration (use
 * JtaTransactionManager instead) that does not affect application code.
 *
 * <p>{@link LocalSessionFactoryBean} is the preferred way of obtaining a reference
 * to a specific Hibernate SessionFactory, at least in a non-EJB environment.
 * The Spring application context will manage its lifecycle, initializing and
 * shutting down the factory as part of the application.
 *
 * <p>Note that operations that return an Iterator (i.e. <code>iterate</code>)
 * are supposed to be used within Spring-driven or JTA-driven transactions
 * (with HibernateTransactionManager, JtaTransactionManager, or EJB CMT).
 * Else, the Iterator won't be able to read results from its ResultSet anymore,
 * as the underlying Hibernate Session will already have been closed.
 *
 * <p>Lazy loading will also just work with an open Hibernate Session,
 * either within a transaction or within OpenSessionInViewFilter/Interceptor.
 * Furthermore, some operations just make sense within transactions,
 * for example: <code>contains</code>, <code>evict</code>, <code>lock</code>,
 * <code>flush</code>, <code>clear</code>.
 *
 * @author Juergen Hoeller
 * @since 1.2
 * @see org.hibernate.SessionFactory#getCurrentSession()
 * @see #setSessionFactory
 * @see HibernateCallback
 * @see org.hibernate.Session
 * @see LocalSessionFactoryBean
 * @see HibernateTransactionManager
 * @see org.springframework.transaction.jta.JtaTransactionManager
 * @see org.springframework.orm.hibernate3.support.OpenSessionInViewFilter
 * @see org.springframework.orm.hibernate3.support.OpenSessionInViewInterceptor
 */
public class HibernateTemplate extends HibernateAccessor implements HibernateOperations {

	private boolean allowCreate = true;

	private boolean alwaysUseNewSession = false;

	private boolean exposeNativeSession = false;

	private boolean checkWriteOperations = true;

	private boolean cacheQueries = false;

	private String queryCacheRegion;

	private int fetchSize = 0;

	private int maxResults = 0;


	/**
	 * Create a new HibernateTemplate instance.
	 */
	public HibernateTemplate() {
	}

	/**
	 * Create a new HibernateTemplate instance.
	 * @param sessionFactory SessionFactory to create Sessions
	 */
	public HibernateTemplate(SessionFactory sessionFactory) {
		setSessionFactory(sessionFactory);
		afterPropertiesSet();
	}

	/**
	 * Create a new HibernateTemplate instance.
	 * @param sessionFactory SessionFactory to create Sessions
	 * @param allowCreate if a non-transactional Session should be created when no
	 * transactional Session can be found for the current thread
	 */
	public HibernateTemplate(SessionFactory sessionFactory, boolean allowCreate) {
		setSessionFactory(sessionFactory);
		setAllowCreate(allowCreate);
		afterPropertiesSet();
	}


	/**
	 * Set if a new {@link Session} should be created when no transactional
	 * <code>Session</code> can be found for the current thread.
	 * The default value is "<code>true</code>".
	 * <p><code>HibernateTemplate</code> is aware of a corresponding
	 * <code>Session</code> bound to the current thread, for example when using
	 * {@link HibernateTransactionManager}. If <code>allowCreate</code> is
	 * <code>true</code>, a new non-transactional <code>Session</code> will be
	 * created if none is found, which needs to be closed at the end of the operation.
	 * If <code>false</code>, an {@link IllegalStateException} will get thrown in
	 * this case.
	 * @see SessionFactoryUtils#getSession(SessionFactory, boolean)
	 */
	public void setAllowCreate(boolean allowCreate) {
		this.allowCreate = allowCreate;
	}

	/**
	 * Return if a new Session should be created if no thread-bound found.
	 */
	public boolean isAllowCreate() {
		return this.allowCreate;
	}

	/**
	 * Set whether to always use a new Hibernate Session for this template.
	 * Default is "false"; if activated, all operations on this template will
	 * work on a new Hibernate Session even in case of a pre-bound Session
	 * (for example, within a transaction or OpenSessionInViewFilter).
	 * <p>Within a transaction, a new Hibernate Session used by this template
	 * will participate in the transaction through using the same JDBC
	 * Connection. In such a scenario, multiple Sessions will participate
	 * in the same database transaction.
	 * <p>Turn this on for operations that are supposed to always execute
	 * independently, without side effects caused by a shared Hibernate Session.
	 */
	public void setAlwaysUseNewSession(boolean alwaysUseNewSession) {
		this.alwaysUseNewSession = alwaysUseNewSession;
	}

	/**
	 * Return whether to always use a new Hibernate Session for this template.
	 */
	public boolean isAlwaysUseNewSession() {
		return this.alwaysUseNewSession;
	}

	/**
	 * Set whether to expose the native Hibernate Session to
	 * HibernateCallback code.
	 * <p>Default is "false": a Session proxy will be returned, suppressing
	 * <code>close</code> calls and automatically applying query cache
	 * settings and transaction timeouts.
	 * @see HibernateCallback
	 * @see org.hibernate.Session
	 * @see #setCacheQueries
	 * @see #setQueryCacheRegion
	 * @see #prepareQuery
	 * @see #prepareCriteria
	 */
	public void setExposeNativeSession(boolean exposeNativeSession) {
		this.exposeNativeSession = exposeNativeSession;
	}

	/**
	 * Return whether to expose the native Hibernate Session to
	 * HibernateCallback code, or rather a Session proxy.
	 */
	public boolean isExposeNativeSession() {
		return this.exposeNativeSession;
	}

	/**
	 * Set whether to check that the Hibernate Session is not in read-only mode
	 * in case of write operations (save/update/delete).
	 * <p>Default is "true", for fail-fast behavior when attempting write operations
	 * within a read-only transaction. Turn this off to allow save/update/delete
	 * on a Session with flush mode NEVER.
	 * @see #setFlushMode
	 * @see #checkWriteOperationAllowed
	 * @see org.springframework.transaction.TransactionDefinition#isReadOnly
	 */
	public void setCheckWriteOperations(boolean checkWriteOperations) {
		this.checkWriteOperations = checkWriteOperations;
	}

	/**
	 * Return whether to check that the Hibernate Session is not in read-only
	 * mode in case of write operations (save/update/delete).
	 */
	public boolean isCheckWriteOperations() {
		return this.checkWriteOperations;
	}

	/**
	 * Set whether to cache all queries executed by this template.
	 * <p>If this is "true", all Query and Criteria objects created by
	 * this template will be marked as cacheable (including all
	 * queries through find methods).
	 * <p>To specify the query region to be used for queries cached
	 * by this template, set the "queryCacheRegion" property.
	 * @see #setQueryCacheRegion
	 * @see org.hibernate.Query#setCacheable
	 * @see org.hibernate.Criteria#setCacheable
	 */
	public void setCacheQueries(boolean cacheQueries) {
		this.cacheQueries = cacheQueries;
	}

	/**
	 * Return whether to cache all queries executed by this template.
	 */
	public boolean isCacheQueries() {
		return this.cacheQueries;
	}

	/**
	 * Set the name of the cache region for queries executed by this template.
	 * <p>If this is specified, it will be applied to all Query and Criteria objects
	 * created by this template (including all queries through find methods).
	 * <p>The cache region will not take effect unless queries created by this
	 * template are configured to be cached via the "cacheQueries" property.
	 * @see #setCacheQueries
	 * @see org.hibernate.Query#setCacheRegion
	 * @see org.hibernate.Criteria#setCacheRegion
	 */
	public void setQueryCacheRegion(String queryCacheRegion) {
		this.queryCacheRegion = queryCacheRegion;
	}

	/**
	 * Return the name of the cache region for queries executed by this template.
	 */
	public String getQueryCacheRegion() {
		return this.queryCacheRegion;
	}

	/**
	 * Set the fetch size for this HibernateTemplate. This is important for processing
	 * large result sets: Setting this higher than the default value will increase
	 * processing speed at the cost of memory consumption; setting this lower can
	 * avoid transferring row data that will never be read by the application.
	 * <p>Default is 0, indicating to use the JDBC driver's default.
	 */
	public void setFetchSize(int fetchSize) {
		this.fetchSize = fetchSize;
	}

	/**
	 * Return the fetch size specified for this HibernateTemplate.
	 */
	public int getFetchSize() {
		return this.fetchSize;
	}

	/**
	 * Set the maximum number of rows for this HibernateTemplate. This is important
	 * for processing subsets of large result sets, avoiding to read and hold
	 * the entire result set in the database or in the JDBC driver if we're
	 * never interested in the entire result in the first place (for example,
	 * when performing searches that might return a large number of matches).
	 * <p>Default is 0, indicating to use the JDBC driver's default.
	 */
	public void setMaxResults(int maxResults) {
		this.maxResults = maxResults;
	}

	/**
	 * Return the maximum number of rows specified for this HibernateTemplate.
	 */
	public int getMaxResults() {
		return this.maxResults;
	}


	public Object execute(HibernateCallback action) throws DataAccessException {
		return execute(action, isExposeNativeSession());
	}

	public List executeFind(HibernateCallback action) throws DataAccessException {
		Object result = execute(action, isExposeNativeSession());
		if (result != null && !(result instanceof List)) {
			throw new InvalidDataAccessApiUsageException(
					"Result object returned from HibernateCallback isn't a List: [" + result + "]");
		}
		return (List) result;
	}

	/**
	 * Execute the action specified by the given action object within a Session.
	 * @param action callback object that specifies the Hibernate action
	 * @param exposeNativeSession whether to expose the native Hibernate Session
	 * to callback code
	 * @return a result object returned by the action, or <code>null</code>
	 * @throws org.springframework.dao.DataAccessException in case of Hibernate errors
	 */
	public Object execute(HibernateCallback action, boolean exposeNativeSession) throws DataAccessException {
		Assert.notNull(action, "Callback object must not be null");

		Session session = getSession();
		boolean existingTransaction = SessionFactoryUtils.isSessionTransactional(session, getSessionFactory());
		if (existingTransaction) {
			logger.debug("Found thread-bound Session for HibernateTemplate");
		}

		FlushMode previousFlushMode = null;
		try {
			previousFlushMode = applyFlushMode(session, existingTransaction);
			enableFilters(session);
			Session sessionToExpose = (exposeNativeSession ? session : createSessionProxy(session));
			Object result = action.doInHibernate(sessionToExpose);
			flushIfNecessary(session, existingTransaction);
			return result;
		}
		catch (HibernateException ex) {
			throw convertHibernateAccessException(ex);
		}
		catch (SQLException ex) {
			throw convertJdbcAccessException(ex);
		}
		catch (RuntimeException ex) {
			// Callback code threw application exception...
			throw ex;
		}
		finally {
			if (existingTransaction) {
				logger.debug("Not closing pre-bound Hibernate Session after HibernateTemplate");
				disableFilters(session);
				if (previousFlushMode != null) {
					session.setFlushMode(previousFlushMode);
				}
			}
			else {
				// Never use deferred close for an explicitly new Session.
				if (isAlwaysUseNewSession()) {
					SessionFactoryUtils.closeSession(session);
				}
				else {
					SessionFactoryUtils.closeSessionOrRegisterDeferredClose(session, getSessionFactory());
				}
			}
		}
	}

	/**
	 * Return a Session for use by this template.
	 * <p>Returns a new Session in case of "alwaysUseNewSession" (using the same