Spring Boot supports distributed JTA transactions across multiple XA resources by using either an Atomikos or Bitronix embedded transaction manager. JTA transactions are also supported when deploying to a suitable Java EE Application Server.
When a JTA environment is detected, Spring’s JtaTransactionManager
is used to manage
transactions. Auto-configured JMS, DataSource, and JPA beans are upgraded to support XA
transactions. You can use standard Spring idioms, such as @Transactional
, to participate
in a distributed transaction. If you are within a JTA environment and still want to use
local transactions, you can set the spring.jta.enabled
property to false
to disable
the JTA auto-configuration.
Atomikos is a popular open source transaction manager which can
be embedded into your Spring Boot application. You can use the
spring-boot-starter-jta-atomikos
Starter to pull in the appropriate Atomikos libraries.
Spring Boot auto-configures Atomikos and ensures that appropriate depends-on
settings
are applied to your Spring beans for correct startup and shutdown ordering.
By default, Atomikos transaction logs are written to a transaction-logs
directory in
your application’s home directory (the directory in which your application jar file
resides). You can customize the location of this directory by setting a
spring.jta.log-dir
property in your application.properties
file. Properties starting
with spring.jta.atomikos.properties
can also be used to customize the Atomikos
UserTransactionServiceImp
. See the
AtomikosProperties
Javadoc
for complete details.
Note | |
---|---|
To ensure that multiple transaction managers can safely coordinate the same
resource managers, each Atomikos instance must be configured with a unique ID. By default,
this ID is the IP address of the machine on which Atomikos is running. To ensure
uniqueness in production, you should configure the |
Bitronix is a popular open-source JTA transaction
manager implementation. You can use the spring-boot-starter-jta-bitronix
starter to add
the appropriate Bitronix dependencies to your project. As with Atomikos, Spring Boot
automatically configures Bitronix and post-processes your beans to ensure that startup and
shutdown ordering is correct.
By default, Bitronix transaction log files (part1.btm
and part2.btm
) are written to
a transaction-logs
directory in your application home directory. You can customize the
location of this directory by setting the spring.jta.log-dir
property. Properties
starting with spring.jta.bitronix.properties
are also bound to the
bitronix.tm.Configuration
bean, allowing for complete customization. See the
Bitronix
documentation for details.
Note | |
---|---|
To ensure that multiple transaction managers can safely coordinate the same
resource managers, each Bitronix instance must be configured with a unique ID. By default,
this ID is the IP address of the machine on which Bitronix is running. To ensure
uniqueness in production, you should configure the |
If you package your Spring Boot application as a war
or ear
file and deploy it to a
Java EE application server, you can use your application server’s built-in transaction
manager. Spring Boot tries to auto-configure a transaction manager by looking at common
JNDI locations (java:comp/UserTransaction
, java:comp/TransactionManager
, and so on).
If you use a transaction service provided by your application server, you generally also
want to ensure that all resources are managed by the server and exposed over JNDI. Spring
Boot tries to auto-configure JMS by looking for a ConnectionFactory
at the JNDI path
(java:/JmsXA
or java:/XAConnectionFactory
), and you can use the
spring.datasource.jndi-name
property
to configure your DataSource
.
When using JTA, the primary JMS ConnectionFactory
bean is XA-aware and participates
in distributed transactions. In some situations, you might want to process certain JMS
messages by using a non-XA ConnectionFactory
. For example, your JMS processing logic
might take longer than the XA timeout.
If you want to use a non-XA ConnectionFactory
, you can inject the
nonXaJmsConnectionFactory
bean rather than the @Primary
jmsConnectionFactory
bean.
For consistency, the jmsConnectionFactory
bean is also provided by using the bean alias
xaJmsConnectionFactory
.
The following example shows how to inject ConnectionFactory
instances:
// Inject the primary (XA aware) ConnectionFactory @Autowired private ConnectionFactory defaultConnectionFactory; // Inject the XA aware ConnectionFactory (uses the alias and injects the same as above) @Autowired @Qualifier("xaJmsConnectionFactory") private ConnectionFactory xaConnectionFactory; // Inject the non-XA aware ConnectionFactory @Autowired @Qualifier("nonXaJmsConnectionFactory") private ConnectionFactory nonXaConnectionFactory;
The XAConnectionFactoryWrapper
and XADataSourceWrapper
interfaces
can be used to support alternative embedded transaction managers. The interfaces are
responsible for wrapping XAConnectionFactory
and XADataSource
beans and exposing them
as regular ConnectionFactory
and DataSource
beans, which transparently enroll in the
distributed transaction. DataSource and JMS auto-configuration use JTA variants, provided
you have a JtaTransactionManager
bean and appropriate XA wrapper beans registered
within your ApplicationContext
.
The BitronixXAConnectionFactoryWrapper and BitronixXADataSourceWrapper provide good examples of how to write XA wrappers.