When are connections returned to the connection pool with Spring JPA (Hibernate) Entity Manager?
In my java process I'm connecting to MySql using the following spring configuration:
@Configuration
@EnableTransactionManagement
@PropertySources({ @PropertySource("classpath:/myProperties1.properties"), @PropertySource("classpath:/myProperties2.properties") })
public class MyConfiguration {
@Autowired
protected Environment env;
/**
* @return EntityManagerFactory for use with Hibernate JPA provider
*/
@Bean(destroyMethod = "destroy")
public LocalContainerEntityManagerFactoryBean entityManagerFactory() {
LocalContainerEntityManagerFactoryBean em = new LocalContainerEntityManagerFactoryBean();
em.setDataSource(dataSource());
em.setJpaVendorAdapter(jpaVendorAdapter());
em.setPersistenceUnitManager(persistenceUnitManager());
return em;
}
/**
*
* @return jpaVendorAdapter that works in conjunction with the
* persistence.xml
*/
@Bean
public JpaVendorAdapter jpaVendorAdapter() {
HibernateJpaVendorAdapter vendorAdapter = new HibernateJpaVendorAdapter();
vendorAdapter.setDatabase(Database.valueOf(env.getProperty("jpa.database")));
vendorAdapter.setDatabasePlatform(env.getProperty("jpa.dialect"));
vendorAdapter.setGenerateDdl(env.getProperty("jpa.generateDdl", Boolean.class, false));
vendorAdapter.setShowSql(env.getProperty("jpa.showSql", Boolean.class, false));
return vendorAdapter;
}
@Bean
public PersistenceUnitManager persistenceUnitManager() {
DefaultPersistenceUnitManager pum = new DefaultPersistenceUnitManager();
pum.setPackagesToScan("com.app.dal");
pum.setDefaultPersistenceUnitName("my-pu");
pum.setPersistenceXmlLocations("classpath:/META-INF/persistence.xml");
pum.setDefaultDataSource(dataSource());
return pum;
}
@Bean(destroyMethod = "close")
public DataSource dataSource() {
Properties dsProps = new Properties();
dsProps.put("driverClassName", env.getProperty("hikari.driverClassName"));
dsProps.put("username", env.getProperty("hikari.username"));
dsProps.put("password", env.getProperty("hikari.password"));
dsProps.put("jdbcUrl", env.getProperty("hikari.source.data.jdbcUrl"));
dsProps.put("connectionTimeout", env.getProperty("hikari.connectionTimeout", Integer.class));
dsProps.put("idleTimeout", env.getProperty("hikari.idleTimeout", Integer.class));
dsProps.put("maxLifetime", env.getProperty("hikari.maxLifetime", Integer.class));
dsProps.put("maximumPoolSize", env.getProperty("hikari.maximumPoolSize.rtb.source", Integer.class));
dsProps.put("leakDetectionThreshold", env.getProperty("hikari.leakDetectionThreshold", Integer.class));
dsProps.put("jdbc4ConnectionTest", env.getProperty("hikari.jdbc4ConnectionTest", Boolean.class));
HikariConfig config = new HikariConfig(dsProps);
HikariDataSource ds = new HikariDataSource(config);
return ds;
}
@Bean(name = "sourceTxMgr")
public PlatformTransactionManager sourceDatatransactionManager() {
JpaTransactionManager transactionManager = new JpaTransactionManager();
transactionManager.setPersistenceUnitName("my-pu");
transactionManager.setDataSource(dataSource());
return transactionManager;
}
@Bean
public PersistencyManager persistencyManager() {
return new JpaPersistencyManager();
}
@Bean
public PersistenceExceptionTranslationPostProcessor exceptionTranslation() {
return new PersistenceExceptionTranslationPostProcessor();
}
}
The Entity-Manager is injected to the data access layer by the container:
@PersistenceContext(type = PersistenceContextType.TRANSACTION, unitName = "my-pu")
private EntityManager myEntityManager;
And my public business logic methods are annotated with the @Transactional
annotation.
As far as I understand the container is responsible for ensuring that the entity-manager returns connections to the pool (in my case HikariCP) once a transaction is done but I did not find any official documentation that describes how the connections are managed. Can anyone explain it to me or provide a good reference that can explain when exactly connections are returned to the pool when using such a configuration?
UPDATE:
The best related info I could come up with so far (taken from here):
The persistence context proxy that implements EntityManager is not the only component needed for making declarative transaction management work. Actually three separate components are needed:
The EntityManager Proxy itself The Transactional Aspect The Transaction Manager Let's go over each one and see how they interact.
The Transactional Aspect
The Transactional Aspect is an 'around' aspect that gets called both before and after the annotated business method. The concrete class for implementing the aspect is TransactionInterceptor.
The Transactional Aspect has two main responsibilities:
At the 'before' moment, the aspect provides a hook point for determining if the business method about to be called should run in the scope of an ongoing database transaction, or if a new separate transaction should be started.
At the 'after' moment, the aspect needs to decide if the transaction should be committed, rolled back or left running.
At the 'before' moment the Transactional Aspect itself does not contain any decision logic, the decision to start a new transaction if needed is delegated to the Transaction Manager.
The Transaction Manager
The transaction manager needs to provide an answer to two questions:
should a new Entity Manager be created? should a new database transaction be started? This needs to be decided at the moment the Transactional Aspect 'before' logic is called. The transaction manager will decide based on:
the fact that one transaction is already ongoing or not the propagation attribute of the transactional method (for example REQUIRES_NEW always starts a new transaction) If the transaction manager decides to create a new transaction, then it will:
create a new entity manager bind the entity manager to the current thread grab a connection from the DB connection pool bind the connection to the current thread The entity manager and the connection are both bound to the current thread using ThreadLocal variables.
They are stored in the thread while the transaction is running, and it's up to the Transaction Manager to clean them up when no longer needed.
Any parts of the program that need the current entity manager or connection can retrieve them from the thread. One program component that does exactly that is the EntityManager proxy.
It's not complicated at all.
-
First, you need to understand that the Spring transaction manager is only a transaction management abstraction. In your case, the actual transactions happen at the JDBC Connection level.
-
All
@Transactional
service method calls are intercepted by theTransactionInterceptor
Aspect. -
The
TransactionIntreceptor
delegates transaction management to the current configuredAbstractPlatformTransactionManager
implementation (JpaTransactionManager
in your case). -
JpaTransactionManager
will bind the current running Spring transaction to an EntityManager, so all DAOs participating in the current transaction share the same Persistence Context. -
JpaTransactionManager
simply uses theEntityManager
Transaction API for controlling transactions:EntityTransaction tx = txObject.getEntityManagerHolder().getEntityManager().getTransaction(); tx.commit();
The JPA Transaction API simply delegates the call to the underlying JDBC Connection commit/rollback methods.
-
When the transaction is done (commit/rollback), the
org.hibernate.engine.transaction.internal.jdbc.JdbcTransaction
calls:transactionCoordinator().getTransactionContext().managedClose();
which triggers a Hibernate Session (Entity Manager) close.
-
The underlying JDBC connection is therefore triggered to be closed as well:
jdbcCoordinator.close();
-
Hibernate has a logical JDBC connection handle:
@Override public Connection close() { LOG.tracev( "Closing JDBC container [{0}]", this ); if ( currentBatch != null ) { LOG.closingUnreleasedBatch(); currentBatch.release(); } cleanup(); return logicalConnection.close(); }
-
The logical connection delegates the close call to the currently configured connection provider (
DataSourceConnectionProvider
in your case), which simply calls the close method on the JDBC connection:@Override public void closeConnection(Connection connection) throws SQLException { connection.close(); }
-
Like any other connection pooling DataSource, the JDBC connection close simply returns the connection to the pool and doesn't close the physical database connection. That's because the connection pooling DataSource returns a JDBC Connection proxy that intercepts all calls and delegates the closing to the connection pool handling logic.
Note that for RESOURCE_LOCAL transactions, you should also set the hibernate.connection.provider_disables_autocommit
property if the autocommit
check was disabled by the connection pool. This way, the database connections are going to be acquired lazily prior to executing a SQL query or flushing the Persistence Context.