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这篇文章主要讲解了“MyBatis的事务管理方式”,文中的讲解内容简单清晰,易于学习与理解,下面请大家跟着小编的思路慢慢深入,一起来研究和学习“MyBatis的事务管理方式”吧!
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1. 运行环境 Enviroment
当 MyBatis 与不同的应用结合时,需要不同的事务管理机制。与 Spring 结合时,由 Spring 来管理事务;单独使用时需要自行管理事务,在容器里运行时可能由容器进行管理。
MyBatis 用 Enviroment 来表示运行环境,其封装了三个属性:
public class Configuration { // 一个 MyBatis 的配置只对应一个环境 protected Environment environment; // 其他属性 ..... } public final class Environment { private final String id; private final TransactionFactory transactionFactory; private final DataSource dataSource; }
2. 事务抽象
MyBatis 把事务管理抽象出 Transaction 接口,由 TransactionFactory 接口的实现类负责创建。
public interface Transaction { Connection getConnection() throws SQLException; void commit() throws SQLException; void rollback() throws SQLException; void close() throws SQLException; Integer getTimeout() throws SQLException; } public interface TransactionFactory { void setProperties(Properties props); Transaction newTransaction(Connection conn); Transaction newTransaction(DataSource dataSource, TransactionIsolationLevel level, boolean autoCommit); }
Executor 的实现持有一个 SqlSession 实现,事务控制是委托给 SqlSession 的方法来实现的。
public abstract class BaseExecutor implements Executor { protected Transaction transaction; public void commit(boolean required) throws SQLException { if (closed) { throw new ExecutorException("Cannot commit, transaction is already closed"); } clearLocalCache(); flushStatements(); if (required) { transaction.commit(); } } public void rollback(boolean required) throws SQLException { if (!closed) { try { clearLocalCache(); flushStatements(true); } finally { if (required) { transaction.rollback(); } } } } // 省略其他方法、属性 }
3. 与 Spring 集成的事务管理
3.1 配置 TransactionFactory
与 Spring 集成时,通过 SqlSessionFactoryBean 来初始化 MyBatis 。
protected SqlSessionFactory buildSqlSessionFactory() throws IOException { Configuration configuration; XMLConfigBuilder xmlConfigBuilder = null; if (this.configuration != null) { configuration = this.configuration; if (configuration.getVariables() == null) { configuration.setVariables(this.configurationProperties); } else if (this.configurationProperties != null) { configuration.getVariables().putAll(this.configurationProperties); } } else if (this.configLocation != null) { xmlConfigBuilder = new XMLConfigBuilder(this.configLocation.getInputStream(), null, this.configurationProperties); configuration = xmlConfigBuilder.getConfiguration(); } else { configuration = new Configuration(); configuration.setVariables(this.configurationProperties); } if (this.objectFactory != null) { configuration.setObjectFactory(this.objectFactory); } if (this.objectWrapperFactory != null) { configuration.setObjectWrapperFactory(this.objectWrapperFactory); } if (this.vfs != null) { configuration.setVfsImpl(this.vfs); } if (hasLength(this.typeAliasesPackage)) { String[] typeAliasPackageArray = tokenizeToStringArray(this.typeAliasesPackage, ConfigurableApplicationContext.CONFIG_LOCATION_DELIMITERS); for (String packageToScan : typeAliasPackageArray) { configuration.getTypeAliasRegistry().registerAliases(packageToScan, typeAliasesSuperType == null ? Object.class : typeAliasesSuperType); } } if (!isEmpty(this.typeAliases)) { for (Class> typeAlias : this.typeAliases) { configuration.getTypeAliasRegistry().registerAlias(typeAlias); } } if (!isEmpty(this.plugins)) { for (Interceptor plugin : this.plugins) { configuration.addInterceptor(plugin); } } if (hasLength(this.typeHandlersPackage)) { String[] typeHandlersPackageArray = tokenizeToStringArray(this.typeHandlersPackage, ConfigurableApplicationContext.CONFIG_LOCATION_DELIMITERS); for (String packageToScan : typeHandlersPackageArray) { configuration.getTypeHandlerRegistry().register(packageToScan); } } if (!isEmpty(this.typeHandlers)) { for (TypeHandler> typeHandler : this.typeHandlers) { configuration.getTypeHandlerRegistry().register(typeHandler); } } if (this.databaseIdProvider != null) {//fix #64 set databaseId before parse mapper xmls try { configuration.setDatabaseId(this.databaseIdProvider.getDatabaseId(this.dataSource)); } catch (SQLException e) { throw new NestedIOException("Failed getting a databaseId", e); } } if (this.cache != null) { configuration.addCache(this.cache); } if (xmlConfigBuilder != null) { try { xmlConfigBuilder.parse(); } catch (Exception ex) { throw new NestedIOException("Failed to parse config resource: " + this.configLocation, ex); } finally { ErrorContext.instance().reset(); } } // 创建 SpringManagedTransactionFactory if (this.transactionFactory == null) { this.transactionFactory = new SpringManagedTransactionFactory(); } // 封装成 Environment configuration.setEnvironment(new Environment(this.environment, this.transactionFactory, this.dataSource)); if (!isEmpty(this.mapperLocations)) { for (Resource mapperLocation : this.mapperLocations) { if (mapperLocation == null) { continue; } try { XMLMapperBuilder xmlMapperBuilder = new XMLMapperBuilder(mapperLocation.getInputStream(), configuration, mapperLocation.toString(), configuration.getSqlFragments()); xmlMapperBuilder.parse(); } catch (Exception e) { throw new NestedIOException("Failed to parse mapping resource: '" + mapperLocation + "'", e); } finally { ErrorContext.instance().reset(); } } } else { } return this.sqlSessionFactoryBuilder.build(configuration); }
public class SqlSessionFactoryBuilder { public SqlSessionFactory build(Configuration config) { return new DefaultSqlSessionFactory(config); } }
重点是在构建 MyBatis Configuration 对象时,把 transactionFactory 配置成 SpringManagedTransactionFactory,再封装成 Environment 对象。
3.2 运行时事务管理
Mapper 的代理对象持有的是 SqlSessionTemplate,其实现了 SqlSession 接口。
SqlSessionTemplate 的方法并不直接调用具体的 SqlSession 的方法,而是委托给一个动态代理,通过代理 SqlSessionInterceptor 对方法调用进行拦截。
SqlSessionInterceptor 负责获取真实的与数据库关联的 SqlSession 实现,并在方法执行完后决定提交或回滚事务、关闭会话。
public class SqlSessionTemplate implements SqlSession, DisposableBean { private final SqlSessionFactory sqlSessionFactory; private final ExecutorType executorType; private final SqlSession sqlSessionProxy; private final PersistenceExceptionTranslator exceptionTranslator; public SqlSessionTemplate(SqlSessionFactory sqlSessionFactory, ExecutorType executorType, PersistenceExceptionTranslator exceptionTranslator) { notNull(sqlSessionFactory, "Property 'sqlSessionFactory' is required"); notNull(executorType, "Property 'executorType' is required"); this.sqlSessionFactory = sqlSessionFactory; this.executorType = executorType; this.exceptionTranslator = exceptionTranslator; // 因为 SqlSession 接口声明的方法也不少, // 在每个方法里添加事务相关的拦截比较麻烦, // 不如创建一个内部的代理对象进行统一处理。 this.sqlSessionProxy = (SqlSession) newProxyInstance( SqlSessionFactory.class.getClassLoader(), new Class[] { SqlSession.class }, new SqlSessionInterceptor()); } public int update(String statement) { // 在代理对象上执行方法调用 return this.sqlSessionProxy.update(statement); } // 对方法调用进行拦截,加入事务控制逻辑 private class SqlSessionInterceptor implements InvocationHandler { public Object invoke(Object proxy, Method method, Object[] args) throws Throwable { // 获取与数据库关联的会话 SqlSession sqlSession = SqlSessionUtils.getSqlSession( SqlSessionTemplate.this.sqlSessionFactory, SqlSessionTemplate.this.executorType, SqlSessionTemplate.this.exceptionTranslator); try { // 执行 SQL 操作 Object result = method.invoke(sqlSession, args); if (!SqlSessionUtils.isSqlSessionTransactional(sqlSession, SqlSessionTemplate.this.sqlSessionFactory)) { // 如果 sqlSession 不是 Spring 管理的,则要自行提交事务 sqlSession.commit(true); } return result; } catch (Throwable t) { Throwable unwrapped = unwrapThrowable(t); if (SqlSessionTemplate.this.exceptionTranslator != null && unwrapped instanceof PersistenceException) { SqlSessionUtils.closeSqlSession(sqlSession, SqlSessionTemplate.this.sqlSessionFactory); sqlSession = null; Throwable translated = SqlSessionTemplate.this.exceptionTranslator.translateExceptionIfPossible((PersistenceException) unwrapped); if (translated != null) { unwrapped = translated; } } throw unwrapped; } finally { if (sqlSession != null) { SqlSessionUtils.closeSqlSession(sqlSession, SqlSessionTemplate.this.sqlSessionFactory); } } } } }
SqlSessionUtils 封装了对 Spring 事务管理机制的访问。
// SqlSessionUtils public static SqlSession getSqlSession(SqlSessionFactory sessionFactory, ExecutorType executorType, PersistenceExceptionTranslator exceptionTranslator) { // 从 Spring 的事务管理机制那里获取当前事务关联的会话 SqlSessionHolder holder = (SqlSessionHolder) TransactionSynchronizationManager.getResource(sessionFactory); SqlSession session = sessionHolder(executorType, holder); if (session != null) { // 已经有一个会话则复用 return session; } // 创建新的 会话 session = sessionFactory.openSession(executorType); // 注册到 Spring 的事务管理机制里 registerSessionHolder(sessionFactory, executorType, exceptionTranslator, session); return session; } private static void registerSessionHolder(SqlSessionFactory sessionFactory, ExecutorType executorType, PersistenceExceptionTranslator exceptionTranslator, SqlSession session) { SqlSessionHolder holder; if (TransactionSynchronizationManager.isSynchronizationActive()) { Environment environment = sessionFactory.getConfiguration().getEnvironment(); if (environment.getTransactionFactory() instanceof SpringManagedTransactionFactory) { holder = new SqlSessionHolder(session, executorType, exceptionTranslator); TransactionSynchronizationManager.bindResource(sessionFactory, holder); // 重点:注册会话管理的回调钩子,真正的关闭动作是在回调里完成的。 TransactionSynchronizationManager.registerSynchronization(new SqlSessionSynchronization(holder, sessionFactory)); holder.setSynchronizedWithTransaction(true); // 维护会话的引用计数 holder.requested(); } else { if (TransactionSynchronizationManager.getResource(environment.getDataSource()) == null) { } else { throw new TransientDataAccessResourceException( "SqlSessionFactory must be using a SpringManagedTransactionFactory in order to use Spring transaction synchronization"); } } } else { } } public static void closeSqlSession(SqlSession session, SqlSessionFactory sessionFactory) { // 从线程本地变量里获取 Spring 管理的会话 SqlSessionHolder holder = (SqlSessionHolder) TransactionSynchronizationManager.getResource(sessionFactory); if ((holder != null) && (holder.getSqlSession() == session)) { // Spring 管理的不直接关闭,由回调钩子来关闭 holder.released(); } else { // 非 Spring 管理的直接关闭 session.close(); } }
SqlSessionSynchronization 是 SqlSessionUtils 的内部私有类,用于作为回调钩子与 Spring 的事务管理机制协调工作,TransactionSynchronizationManager 在适当的时候回调其方法。
private static final class SqlSessionSynchronization extends TransactionSynchronizationAdapter { private final SqlSessionHolder holder; private final SqlSessionFactory sessionFactory; private boolean holderActive = true; public SqlSessionSynchronization(SqlSessionHolder holder, SqlSessionFactory sessionFactory) { this.holder = holder; this.sessionFactory = sessionFactory; } public int getOrder() { return DataSourceUtils.CONNECTION_SYNCHRONIZATION_ORDER - 1; } public void suspend() { if (this.holderActive) { TransactionSynchronizationManager.unbindResource(this.sessionFactory); } } public void resume() { if (this.holderActive) { TransactionSynchronizationManager.bindResource(this.sessionFactory, this.holder); } } public void beforeCommit(boolean readOnly) { if (TransactionSynchronizationManager.isActualTransactionActive()) { try { this.holder.getSqlSession().commit(); } catch (PersistenceException p) { if (this.holder.getPersistenceExceptionTranslator() != null) { DataAccessException translated = this.holder .getPersistenceExceptionTranslator() .translateExceptionIfPossible(p); if (translated != null) { throw translated; } } throw p; } } } public void beforeCompletion() { if (!this.holder.isOpen()) { TransactionSynchronizationManager.unbindResource(sessionFactory); this.holderActive = false; // 真正关闭数据库会话 this.holder.getSqlSession().close(); } } public void afterCompletion(int status) { if (this.holderActive) { TransactionSynchronizationManager.unbindResourceIfPossible(sessionFactory); this.holderActive = false; // 真正关闭数据库会话 this.holder.getSqlSession().close(); } this.holder.reset(); } }
3.3 创建新会话
// DefaultSqlSessionFactory private SqlSession openSessionFromDataSource(ExecutorType execType, TransactionIsolationLevel level, boolean autoCommit) { Transaction tx = null; try { final Environment environment = configuration.getEnvironment(); // 获取事务工厂实现 final TransactionFactory transactionFactory = getTransactionFactoryFromEnvironment(environment); tx = transactionFactory.newTransaction(environment.getDataSource(), level, autoCommit); final Executor executor = configuration.newExecutor(tx, execType); return new DefaultSqlSession(configuration, executor, autoCommit); } catch (Exception e) { closeTransaction(tx); // may have fetched a connection so lets call close() throw ExceptionFactory.wrapException("Error opening session. Cause: " + e, e); } finally { ErrorContext.instance().reset(); } } private TransactionFactory getTransactionFactoryFromEnvironment(Environment environment) { if (environment == null || environment.getTransactionFactory() == null) { return new ManagedTransactionFactory(); } return environment.getTransactionFactory(); }
4. 小结
MyBatis 的核心组件 Executor 通过 Transaction 接口来进行事务控制。
与 Spring 集成时,初始化 Configuration 时会把 transactionFactory 设置为 SpringManagedTransactionFactory 的实例。
每个 Mapper 代理里注入的 SqlSession 是 SqlSessionTemplate 的实例,其实现了 SqlSession 接口;
SqlSessionTemplate 把对 SqlSession 接口里声明的方法调用委托给内部的一个动态代理,该代理的方法处理器为内部类 SqlSessionInterceptor 。
SqlSessionInterceptor 接收到方法调用时,通过 SqlSessionUtil 访问 Spring 的事务设施,如果有与 Spring 当前事务关联的 SqlSession 则复用;没有则创建一个。
SqlSessionInterceptor 根据 Spring 当前事务的状态来决定是否提交或回滚事务。会话的真正关闭是通过注册在 TransactionSynchronizationManager 上的回调钩子实现的。
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