Spring Transaction Management

最近要给一个项目增加事务处理,顺便复习了一下Spring的事务管理机制。Spring提供两种类型的事务管理

Global transactions

Global transactions enable you to work with multiple transactional resources, typically relational databases and message queues. The application server manages global transactions through the JTA, which is a cumbersome API to use (partly due to its exception model). Furthermore, a JTA UserTransaction normally needs to be sourced from JNDI, meaning that you also need to use JNDI in order to use JTA. Obviously the use of global transactions would limit any potential reuse of application code, as JTA is normally only available in an application server environment. Previously, the preferred way to use global transactions was via EJB CMT (Container Managed Transaction): CMT is a form of declarative transaction management (as distinguished from programmatic transaction management). EJB CMT removes the need for transaction-related JNDI lookups, although of course the use of EJB itself necessitates the use of JNDI. It removes most but not all of the need to write Java code to control transactions. The significant downside is that CMT is tied to JTA and an application server environment. Also, it is only available if one chooses to implement business logic in EJBs, or at least behind a transactional EJB facade. The negatives of EJB in general are so great that this is not an attractive proposition, especially in the face of compelling alternatives for declarative transaction management.

Local transactions

Local transactions are resource-specific, such as a transaction associated with a JDBC connection.Local transactions may be easier to use, but have significant disadvantages: they cannot work across multiple transactional resources. For example, code that manages transactions using a JDBC connection cannot run within a global JTA transaction. Because the application server is not involved in transaction management, it cannot help ensure correctness across multiple resources. (It is worth noting that most applications use a single transaction resource.) Another downside is that local transactions are invasive to the programming model.

全局事务支持多数据源事务管理,本地事务是资源确定的,不支持多数据源。

Spring事务抽象接口

public interface PlatformTransactionManager {

   TransactionStatus getTransaction(TransactionDefinition definition) throws TransactionException;

   void commit(TransactionStatus status) throws TransactionException;

   void rollback(TransactionStatus status) throws TransactionException;

}

Spring提供两种事务管理方式,分别是声明试和注解方式的编程式,声明试的事务管理减少对程序的侵入,采用AOP技术,简单高效,编程式事务管理则更灵活,具体例子这里就不列举了,可以去看官方文档.

Transaction propagation

事务传播机制主要是方法嵌套执行时内外方法均声明了事务的情况下的处理策略

Required

When the propagation setting is PROPAGATION_REQUIRED, a logical transaction scope is created for each method upon which the setting is applied. Each such logical transaction scope can determine rollback-only status individually, with an outer transaction scope being logically independent from the inner transaction scope. Of course, in case of standard PROPAGATION_REQUIRED behavior, all these scopes will be mapped to the same physical transaction. So a rollback-only marker set in the inner transaction scope does affect the outer transaction’s chance to actually commit (as you would expect it to).However, in the case where an inner transaction scope sets the rollback-only marker, the outer transaction has not decided on the rollback itself, and so the rollback (silently triggered by the inner transaction scope) is unexpected. A corresponding UnexpectedRollbackException is thrown at that point. This is expected behavior so that the caller of a transaction can never be misled to assume that a commit was performed when it really was not. So if an inner transaction (of which the outer caller is not aware) silently marks a transaction as rollback-only, the outer caller still calls commit. The outer caller needs to receive an UnexpectedRollbackException to indicate clearly that a rollback was performed instead

RequiresNew

PROPAGATION_REQUIRES_NEW, in contrast to PROPAGATION_REQUIRED, always uses an independent physical transaction for each affected transaction scope, never participating in an existing transaction for an outer scope. In such an arrangement, the underlying resource transactions are different and hence can commit or roll back independently, with an outer transaction not affected by an inner transaction’s rollback status, and with an inner transaction’s locks released immediately after its completion. Such an independent inner transaction may also declare its own isolation level, timeout and read-only settings, never inheriting an outer transaction’s characteristics.

Nested

PROPAGATION_NESTED uses a single physical transaction with multiple savepoints that it can roll back to. Such partial rollbacks allow an inner transaction scope to trigger a rollback for its scope, with the outer transaction being able to continue the physical transaction despite some operations having been rolled back. This setting is typically mapped onto JDBC savepoints, so will only work with JDBC resource transactions. See Spring’s DataSourceTransactionManager.

Required方式内外层耦合最紧,共享一个逻辑事务,内外方法独立检测回滚状态,内层方法抛出异常影响外层方法的提交,外部事务必须处理内部方法返回来的异常,否则会报UnexpectedRollbackException。RequiresNew是Required的反面,内外层独立事务,互不影响。Nested是一种折中,共用物理事务,但允许外层方法在内层回滚的情况下继续提交事务。

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