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/*
 * Copyright 2002-2024 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
 *
 *      https://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.transaction.annotation;

import java.lang.annotation.Documented;
import java.lang.annotation.ElementType;
import java.lang.annotation.Retention;
import java.lang.annotation.RetentionPolicy;
import java.lang.annotation.Target;

import org.springframework.context.annotation.AdviceMode;
import org.springframework.context.annotation.Import;
import org.springframework.core.Ordered;

/**
 * Enables Spring's annotation-driven transaction management capability, similar to
 * the support found in Spring's {@code } XML namespace. To be used on
 * {@link org.springframework.context.annotation.Configuration @Configuration}
 * classes to configure traditional, imperative transaction management or
 * reactive transaction management.
 *
 * 

The following example demonstrates imperative transaction management * using a {@link org.springframework.transaction.PlatformTransactionManager * PlatformTransactionManager}. For reactive transaction management, configure a * {@link org.springframework.transaction.ReactiveTransactionManager * ReactiveTransactionManager} instead. * *

 * @Configuration
 * @EnableTransactionManagement
 * public class AppConfig {
 *
 *     @Bean
 *     public FooRepository fooRepository() {
 *         // configure and return a class having @Transactional methods
 *         return new JdbcFooRepository(dataSource());
 *     }
 *
 *     @Bean
 *     public DataSource dataSource() {
 *         // configure and return the necessary JDBC DataSource
 *     }
 *
 *     @Bean
 *     public PlatformTransactionManager txManager() {
 *         return new DataSourceTransactionManager(dataSource());
 *     }
 * }
* *

For reference, the example above can be compared to the following Spring XML * configuration: * *

 * <beans>
 *
 *     <tx:annotation-driven/>
 *
 *     <bean id="fooRepository" class="com.foo.JdbcFooRepository">
 *         <constructor-arg ref="dataSource"/>
 *     </bean>
 *
 *     <bean id="dataSource" class="com.vendor.VendorDataSource"/>
 *
 *     <bean id="transactionManager" class="org.sfwk...DataSourceTransactionManager">
 *         <constructor-arg ref="dataSource"/>
 *     </bean>
 *
 * </beans>
 * 
* * In both of the scenarios above, {@code @EnableTransactionManagement} and {@code * } are responsible for registering the necessary Spring * components that power annotation-driven transaction management, such as the * TransactionInterceptor and the proxy- or AspectJ-based advice that weaves the * interceptor into the call stack when {@code JdbcFooRepository}'s {@code @Transactional} * methods are invoked. * *

A minor difference between the two examples lies in the naming of the {@code * TransactionManager} bean: In the {@code @Bean} case, the name is * "txManager" (per the name of the method); in the XML case, the name is * "transactionManager". {@code } is hard-wired to * look for a bean named "transactionManager" by default, however * {@code @EnableTransactionManagement} is more flexible; it will fall back to a by-type * lookup for any {@code TransactionManager} bean in the container. Thus the name * can be "txManager", "transactionManager", or "tm": it simply does not matter. * *

For those that wish to establish a more direct relationship between * {@code @EnableTransactionManagement} and the exact transaction manager bean to be used, * the {@link TransactionManagementConfigurer} callback interface may be implemented - * notice the {@code implements} clause and the {@code @Override}-annotated method below: * *

 * @Configuration
 * @EnableTransactionManagement
 * public class AppConfig implements TransactionManagementConfigurer {
 *
 *     @Bean
 *     public FooRepository fooRepository() {
 *         // configure and return a class having @Transactional methods
 *         return new JdbcFooRepository(dataSource());
 *     }
 *
 *     @Bean
 *     public DataSource dataSource() {
 *         // configure and return the necessary JDBC DataSource
 *     }
 *
 *     @Bean
 *     public PlatformTransactionManager txManager() {
 *         return new DataSourceTransactionManager(dataSource());
 *     }
 *
 *     @Override
 *     public PlatformTransactionManager annotationDrivenTransactionManager() {
 *         return txManager();
 *     }
 * }
* *

This approach may be desirable simply because it is more explicit, or it may be * necessary in order to distinguish between two {@code TransactionManager} beans * present in the same container. As the name suggests, the * {@code annotationDrivenTransactionManager()} will be the one used for processing * {@code @Transactional} methods. See {@link TransactionManagementConfigurer} Javadoc * for further details. * *

The {@link #mode} attribute controls how advice is applied: If the mode is * {@link AdviceMode#PROXY} (the default), then the other attributes control the behavior * of the proxying. Please note that proxy mode allows for interception of calls through * the proxy only; local calls within the same class cannot get intercepted that way. * *

Note that if the {@linkplain #mode} is set to {@link AdviceMode#ASPECTJ}, then the * value of the {@link #proxyTargetClass} attribute will be ignored. Note also that in * this case the {@code spring-aspects} module JAR must be present on the classpath, with * compile-time weaving or load-time weaving applying the aspect to the affected classes. * There is no proxy involved in such a scenario; local calls will be intercepted as well. * * @author Chris Beams * @author Juergen Hoeller * @since 3.1 * @see TransactionManagementConfigurer * @see TransactionManagementConfigurationSelector * @see ProxyTransactionManagementConfiguration * @see org.springframework.transaction.aspectj.AspectJTransactionManagementConfiguration */ @Target(ElementType.TYPE) @Retention(RetentionPolicy.RUNTIME) @Documented @Import(TransactionManagementConfigurationSelector.class) public @interface EnableTransactionManagement { /** * Indicate whether subclass-based (CGLIB) proxies are to be created ({@code true}) * as opposed to standard Java interface-based proxies ({@code false}). * The default is {@code false}. Applicable only if {@link #mode()} * is set to {@link AdviceMode#PROXY}. *

Note that setting this attribute to {@code true} will affect all * Spring-managed beans requiring proxying, not just those marked with * {@code @Transactional}. For example, other beans marked with Spring's * {@code @Async} annotation will be upgraded to subclass proxying at the same * time. This approach has no negative impact in practice unless one is explicitly * expecting one type of proxy vs another, e.g. in tests. */ boolean proxyTargetClass() default false; /** * Indicate how transactional advice should be applied. *

The default is {@link AdviceMode#PROXY}. * Please note that proxy mode allows for interception of calls through the proxy * only. Local calls within the same class cannot get intercepted that way; an * {@link Transactional} annotation on such a method within a local call will be * ignored since Spring's interceptor does not even kick in for such a runtime * scenario. For a more advanced mode of interception, consider switching this to * {@link AdviceMode#ASPECTJ}. */ AdviceMode mode() default AdviceMode.PROXY; /** * Indicate the ordering of the execution of the transaction advisor * when multiple advices are applied at a specific joinpoint. *

The default is {@link Ordered#LOWEST_PRECEDENCE}. */ int order() default Ordered.LOWEST_PRECEDENCE; }





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