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/*
 * Copyright 2002-2004 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.jdbc.datasource;

import java.lang.reflect.InvocationHandler;
import java.lang.reflect.InvocationTargetException;
import java.lang.reflect.Method;
import java.lang.reflect.Proxy;
import java.sql.Connection;
import java.sql.SQLException;

import javax.sql.DataSource;

/**
 * Proxy for a target DataSource, fetching actual JDBC Connections lazily,
 * i.e. not until first creation of a Statement. Connection initialization
 * properties like auto-commit mode, transaction isolation and read-only mode
 * will be kept and applied to the actual JDBC Connection as soon as an
 * actual Connection is fetched (if ever). Consequently, commit and rollback
 * calls will be ignored if no Statements have been created.
 *
 * 

This DataSource proxy allows to avoid fetching JDBC Connections from * a pool unless actually necessary. JDBC transaction control can happen * without fetching a Connection from the pool or communicating with the * database; this will be done lazily on first creation of a JDBC Statement. * *

Lazy fetching of physical JDBC Connections is particularly beneficial * in a generic transaction demarcation environment. It allows you to demarcate * transactions on all methods that could potentially perform data access, * without paying a performance penalty if no actual data access happens. * *

This DataSource proxy gives you behavior analogous to JTA and a * transactional JNDI DataSource (as provided by the J2EE server), even * with a local transaction strategy like DataSourceTransactionManager or * HibernateTransactionManager. It does not add value with Spring's * JtaTransactionManager as transaction strategy. * *

Lazy fetching of JDBC Connections is also recommended for read-only * operations with Hibernate, in particular if the chances of resolving the * result in the second-level cache are high. This avoids the need to * communicate with the database at all for such read-only operations. * You will get the same effect with non-transactional reads, but lazy fetching * of JDBC Connections allows you to still perform reads in transactions. * *

NOTE: This DataSource proxy needs to return wrapped Connections to * handle lazy fetching of an actual JDBC Connection. Therefore, the returned * Connections cannot be cast to a native JDBC Connection type like OracleConnection, * or to a connection pool implementation type. Use a corresponding * NativeJdbcExtractor to retrieve the native JDBC Connection. * * @author Juergen Hoeller * @since 1.1.4 * @see ConnectionProxy * @see DataSourceTransactionManager * @see org.springframework.orm.hibernate.HibernateTransactionManager * @see org.springframework.jdbc.support.nativejdbc.NativeJdbcExtractor */ public class LazyConnectionDataSourceProxy extends DelegatingDataSource { private Boolean defaultAutoCommit; private Integer defaultTransactionIsolation; /** * Create a new LazyConnectionDataSourceProxy. * @see #setTargetDataSource */ public LazyConnectionDataSourceProxy() { } /** * Create a new LazyConnectionDataSourceProxy. * @param targetDataSource the target DataSource */ public LazyConnectionDataSourceProxy(DataSource targetDataSource) { setTargetDataSource(targetDataSource); afterPropertiesSet(); } /** * Set the default auto-commit mode to expose when no target Connection * has been fetched yet (-> actual JDBC Connection default not known yet). *

If not specified, the default gets determined by checking a target * Connection on startup. If that check fails, the default will be determined * lazily on first access of a Connection. * @see java.sql.Connection#getAutoCommit */ public void setDefaultAutoCommit(boolean defaultAutoCommit) { this.defaultAutoCommit = new Boolean(defaultAutoCommit); } /** * Set the default transaction isolation level to expose when no target Connection * has been fetched yet (-> actual JDBC Connection default not known yet). *

If not specified, the default gets determined by checking a target * Connection on startup. If that check fails, the default will be determined * lazily on first access of a Connection. * @see java.sql.Connection#getTransactionIsolation */ public void setDefaultTransactionIsolation(int defaultTransactionIsolation) { this.defaultTransactionIsolation = new Integer(defaultTransactionIsolation); } public void afterPropertiesSet() { super.afterPropertiesSet(); // Determine default auto-commit and transaction isolation // via a Connection from the target DataSource, if possible. if (this.defaultAutoCommit == null || this.defaultTransactionIsolation == null) { try { Connection con = getTargetDataSource().getConnection(); try { checkDefaultConnectionProperties(con); } finally { con.close(); } } catch (SQLException ex) { logger.warn("Could not retrieve default auto-commit and transaction isolation settings", ex); } } } /** * Check the default connection properties (auto-commit, transaction isolation), * keeping them to be able to expose them correctly without fetching an actual * JDBC Connection from the target DataSource. *

This will be invoked once on startup, but also for each retrieval of a * target Connection. If the check failed on startup (because the database was * down), we'll lazily retrieve those settings. * @param con the Connection to use for checking * @throws SQLException if thrown by Connection methods */ protected synchronized void checkDefaultConnectionProperties(Connection con) throws SQLException { if (this.defaultAutoCommit == null) { this.defaultAutoCommit = new Boolean(con.getAutoCommit()); } if (this.defaultTransactionIsolation == null) { this.defaultTransactionIsolation = new Integer(con.getTransactionIsolation()); } } /** * Expose the default auto-commit value. */ protected Boolean defaultAutoCommit() { return defaultAutoCommit; } /** * Expose the default transaction isolation value. */ protected Integer defaultTransactionIsolation() { return defaultTransactionIsolation; } /** * Return a Connection handle that lazily fetches an actual JDBC Connection * when asked for a Statement (or PreparedStatement or CallableStatement). *

The returned Connection handle implements the ConnectionProxy interface, * allowing to retrieve the underlying target Connection. * @return a lazy Connection handle * @see ConnectionProxy#getTargetConnection */ public Connection getConnection() throws SQLException { return (Connection) Proxy.newProxyInstance( ConnectionProxy.class.getClassLoader(), new Class[] {ConnectionProxy.class}, new LazyConnectionInvocationHandler()); } /** * Return a Connection handle that lazily fetches an actual JDBC Connection * when asked for a Statement (or PreparedStatement or CallableStatement). *

The returned Connection handle implements the ConnectionProxy interface, * allowing to retrieve the underlying target Connection. * @param username the per-Connection username * @param password the per-Connection password * @return a lazy Connection handle * @see ConnectionProxy#getTargetConnection */ public Connection getConnection(String username, String password) throws SQLException { return (Connection) Proxy.newProxyInstance( ConnectionProxy.class.getClassLoader(), new Class[] {ConnectionProxy.class}, new LazyConnectionInvocationHandler(username, password)); } /** * Invocation handler that defers fetching an actual JDBC Connection * until first creation of a Statement. */ private class LazyConnectionInvocationHandler implements InvocationHandler { private String username; private String password; private Boolean readOnly = Boolean.FALSE; private Integer transactionIsolation; private Boolean autoCommit; private boolean closed = false; private Connection target; public LazyConnectionInvocationHandler() { this.autoCommit = defaultAutoCommit(); this.transactionIsolation = defaultTransactionIsolation(); } public LazyConnectionInvocationHandler(String username, String password) { this(); this.username = username; this.password = password; } public Object invoke(Object proxy, Method method, Object[] args) throws Throwable { // Invocation on ConnectionProxy interface coming in... // Handle getTargetConnection method: return underlying connection. if (method.getName().equals("getTargetConnection")) { return getTargetConnection(); } if (!hasTargetConnection()) { // No physical target Connection kept yet -> // resolve transaction demarcation methods without fetching // a physical JDBC Connection until absolutely necessary. if (method.getName().equals("isReadOnly")) { return this.readOnly; } else if (method.getName().equals("setReadOnly")) { this.readOnly = (Boolean) args[0]; return null; } else if (method.getName().equals("getTransactionIsolation")) { if (this.transactionIsolation != null) { return this.transactionIsolation; } // Else fetch actual Connection and check there, // because we didn't have a default specified. } else if (method.getName().equals("setTransactionIsolation")) { this.transactionIsolation = (Integer) args[0]; return null; } else if (method.getName().equals("getAutoCommit")) { if (this.autoCommit != null) { return this.autoCommit; } // Else fetch actual Connection and check there, // because we didn't have a default specified. } else if (method.getName().equals("setAutoCommit")) { this.autoCommit = (Boolean) args[0]; return null; } else if (method.getName().equals("commit")) { // Ignore: no statements created yet. return null; } else if (method.getName().equals("rollback")) { // Ignore: no statements created yet. return null; } else if (method.getName().equals("getWarnings")) { return null; } else if (method.getName().equals("clearWarnings")) { return null; } else if (method.getName().equals("isClosed")) { return new Boolean(this.closed); } else if (method.getName().equals("close")) { // Ignore: no target connection yet. this.closed = true; return null; } else if (this.closed) { // Connection proxy closed, without ever having fetched a // physical JDBC Connection: throw corresponding SQLException. throw new SQLException("Illegal operation: connection is closed"); } } // Target Connection already fetched, // or target Connection necessary for current operation -> // invoke method on target connection. try { return method.invoke(getTargetConnection(), args); } catch (InvocationTargetException ex) { throw ex.getTargetException(); } } /** * Return whether the proxy currently holds a target Connection. */ protected boolean hasTargetConnection() { return (this.target != null); } /** * Return the target Connection, fetching it and initializing it if necessary. */ protected Connection getTargetConnection() throws SQLException { if (this.target == null) { // Fetch physical Connection from DataSource. this.target = (this.username != null) ? getTargetDataSource().getConnection(this.username, this.password) : getTargetDataSource().getConnection(); // If we still lack default connection properties, check them now. checkDefaultConnectionProperties(this.target); // Apply kept transaction settings, if any. if (this.readOnly.booleanValue()) { this.target.setReadOnly(this.readOnly.booleanValue()); } if (this.transactionIsolation != null && !this.transactionIsolation.equals(defaultTransactionIsolation())) { this.target.setTransactionIsolation(this.transactionIsolation.intValue()); } if (this.autoCommit != null && this.autoCommit.booleanValue() != this.target.getAutoCommit()) { this.target.setAutoCommit(this.autoCommit.booleanValue()); } } return this.target; } } }





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