public class DataSourceTransactionManager extends AbstractPlatformTransactionManager implements ResourceTransactionManager, InitializingBean
PlatformTransactionManager
implementation for a single JDBC DataSource
. This class is
capable of working in any environment with any JDBC driver, as long as the setup
uses a javax.sql.DataSource
as its Connection
factory mechanism.
Binds a JDBC Connection from the specified DataSource to the current thread,
potentially allowing for one thread-bound Connection per DataSource.
Note: The DataSource that this transaction manager operates on needs to return independent Connections. The Connections may come from a pool (the typical case), but the DataSource must not return thread-scoped / request-scoped Connections or the like. This transaction manager will associate Connections with thread-bound transactions itself, according to the specified propagation behavior. It assumes that a separate, independent Connection can be obtained even during an ongoing transaction.
Application code is required to retrieve the JDBC Connection via
DataSourceUtils.getConnection(DataSource)
instead of a standard
Java EE-style DataSource.getConnection()
call. Spring classes such as
JdbcTemplate
use this strategy implicitly.
If not used in combination with this transaction manager, the
DataSourceUtils
lookup strategy behaves exactly like the native
DataSource lookup; it can thus be used in a portable fashion.
Alternatively, you can allow application code to work with the standard
Java EE-style lookup pattern DataSource.getConnection()
, for example for
legacy code that is not aware of Spring at all. In that case, define a
TransactionAwareDataSourceProxy
for your target DataSource, and pass
that proxy DataSource to your DAOs, which will automatically participate in
Spring-managed transactions when accessing it.
Supports custom isolation levels, and timeouts which get applied as
appropriate JDBC statement timeouts. To support the latter, application code
must either use JdbcTemplate
, call
DataSourceUtils.applyTransactionTimeout(java.sql.Statement, javax.sql.DataSource)
for each created JDBC Statement,
or go through a TransactionAwareDataSourceProxy
which will create
timeout-aware JDBC Connections and Statements automatically.
Consider defining a LazyConnectionDataSourceProxy
for your target
DataSource, pointing both this transaction manager and your DAOs to it.
This will lead to optimized handling of "empty" transactions, i.e. of transactions
without any JDBC statements executed. A LazyConnectionDataSourceProxy will not fetch
an actual JDBC Connection from the target DataSource until a Statement gets executed,
lazily applying the specified transaction settings to the target Connection.
This transaction manager supports nested transactions via the JDBC 3.0
Savepoint
mechanism. The
"nestedTransactionAllowed"
flag defaults
to "true", since nested transactions will work without restrictions on JDBC
drivers that support savepoints (such as the Oracle JDBC driver).
This transaction manager can be used as a replacement for the
JtaTransactionManager
in the single
resource case, as it does not require a container that supports JTA, typically
in combination with a locally defined JDBC DataSource (e.g. an Apache Commons
DBCP connection pool). Switching between this local strategy and a JTA
environment is just a matter of configuration!
As of 4.3.4, this transaction manager triggers flush callbacks on registered
transaction synchronizations (if synchronization is generally active), assuming
resources operating on the underlying JDBC Connection
. This allows for
setup analogous to JtaTransactionManager
, in particular with respect to
lazily registered ORM resources (e.g. a Hibernate Session
).
AbstractPlatformTransactionManager.setNestedTransactionAllowed(boolean)
,
Savepoint
,
DataSourceUtils.getConnection(javax.sql.DataSource)
,
DataSourceUtils.applyTransactionTimeout(java.sql.Statement, javax.sql.DataSource)
,
DataSourceUtils.releaseConnection(java.sql.Connection, javax.sql.DataSource)
,
TransactionAwareDataSourceProxy
,
LazyConnectionDataSourceProxy
,
JdbcTemplate
,
Serialized FormAbstractPlatformTransactionManager.SuspendedResourcesHolder
logger, SYNCHRONIZATION_ALWAYS, SYNCHRONIZATION_NEVER, SYNCHRONIZATION_ON_ACTUAL_TRANSACTION
Constructor and Description |
---|
DataSourceTransactionManager()
Create a new DataSourceTransactionManager instance.
|
DataSourceTransactionManager(DataSource dataSource)
Create a new DataSourceTransactionManager instance.
|
Modifier and Type | Method and Description |
---|---|
void |
afterPropertiesSet()
Invoked by a BeanFactory after it has set all bean properties supplied
(and satisfied BeanFactoryAware and ApplicationContextAware).
|
protected void |
doBegin(Object transaction,
TransactionDefinition definition)
This implementation sets the isolation level but ignores the timeout.
|
protected void |
doCleanupAfterCompletion(Object transaction)
Cleanup resources after transaction completion.
|
protected void |
doCommit(DefaultTransactionStatus status)
Perform an actual commit of the given transaction.
|
protected Object |
doGetTransaction()
Return a transaction object for the current transaction state.
|
protected void |
doResume(Object transaction,
Object suspendedResources)
Resume the resources of the current transaction.
|
protected void |
doRollback(DefaultTransactionStatus status)
Perform an actual rollback of the given transaction.
|
protected void |
doSetRollbackOnly(DefaultTransactionStatus status)
Set the given transaction rollback-only.
|
protected Object |
doSuspend(Object transaction)
Suspend the resources of the current transaction.
|
DataSource |
getDataSource()
Return the JDBC DataSource that this instance manages transactions for.
|
Object |
getResourceFactory()
Return the resource factory that this transaction manager operates on,
e.g.
|
protected boolean |
isExistingTransaction(Object transaction)
Check if the given transaction object indicates an existing transaction
(that is, a transaction which has already started).
|
void |
setDataSource(DataSource dataSource)
Set the JDBC DataSource that this instance should manage transactions for.
|
commit, determineTimeout, getDefaultTimeout, getTransaction, getTransactionSynchronization, invokeAfterCompletion, isFailEarlyOnGlobalRollbackOnly, isGlobalRollbackOnParticipationFailure, isNestedTransactionAllowed, isRollbackOnCommitFailure, isValidateExistingTransaction, newTransactionStatus, prepareForCommit, prepareSynchronization, prepareTransactionStatus, registerAfterCompletionWithExistingTransaction, resume, rollback, setDefaultTimeout, setFailEarlyOnGlobalRollbackOnly, setGlobalRollbackOnParticipationFailure, setNestedTransactionAllowed, setRollbackOnCommitFailure, setTransactionSynchronization, setTransactionSynchronizationName, setValidateExistingTransaction, shouldCommitOnGlobalRollbackOnly, suspend, triggerBeforeCommit, triggerBeforeCompletion, useSavepointForNestedTransaction
clone, equals, finalize, getClass, hashCode, notify, notifyAll, toString, wait, wait, wait
commit, getTransaction, rollback
public DataSourceTransactionManager()
setDataSource(javax.sql.DataSource)
public DataSourceTransactionManager(DataSource dataSource)
dataSource
- JDBC DataSource to manage transactions forpublic void setDataSource(DataSource dataSource)
This will typically be a locally defined DataSource, for example an Apache Commons DBCP connection pool. Alternatively, you can also drive transactions for a non-XA J2EE DataSource fetched from JNDI. For an XA DataSource, use JtaTransactionManager.
The DataSource specified here should be the target DataSource to manage transactions for, not a TransactionAwareDataSourceProxy. Only data access code may work with TransactionAwareDataSourceProxy, while the transaction manager needs to work on the underlying target DataSource. If there's nevertheless a TransactionAwareDataSourceProxy passed in, it will be unwrapped to extract its target DataSource.
The DataSource passed in here needs to return independent Connections. The Connections may come from a pool (the typical case), but the DataSource must not return thread-scoped / request-scoped Connections or the like.
public DataSource getDataSource()
public void afterPropertiesSet()
InitializingBean
This method allows the bean instance to perform initialization only possible when all bean properties have been set and to throw an exception in the event of misconfiguration.
afterPropertiesSet
in interface InitializingBean
public Object getResourceFactory()
ResourceTransactionManager
This target resource factory is usually used as resource key for
TransactionSynchronizationManager
's resource bindings per thread.
getResourceFactory
in interface ResourceTransactionManager
null
)TransactionSynchronizationManager.bindResource(java.lang.Object, java.lang.Object)
,
TransactionSynchronizationManager.getResource(java.lang.Object)
protected Object doGetTransaction()
AbstractPlatformTransactionManager
The returned object will usually be specific to the concrete transaction manager implementation, carrying corresponding transaction state in a modifiable fashion. This object will be passed into the other template methods (e.g. doBegin and doCommit), either directly or as part of a DefaultTransactionStatus instance.
The returned object should contain information about any existing
transaction, that is, a transaction that has already started before the
current getTransaction
call on the transaction manager.
Consequently, a doGetTransaction
implementation will usually
look for an existing transaction and store corresponding state in the
returned transaction object.
doGetTransaction
in class AbstractPlatformTransactionManager
AbstractPlatformTransactionManager.doBegin(java.lang.Object, org.springframework.transaction.TransactionDefinition)
,
AbstractPlatformTransactionManager.doCommit(org.springframework.transaction.support.DefaultTransactionStatus)
,
AbstractPlatformTransactionManager.doRollback(org.springframework.transaction.support.DefaultTransactionStatus)
,
DefaultTransactionStatus.getTransaction()
protected boolean isExistingTransaction(Object transaction)
AbstractPlatformTransactionManager
The result will be evaluated according to the specified propagation behavior for the new transaction. An existing transaction might get suspended (in case of PROPAGATION_REQUIRES_NEW), or the new transaction might participate in the existing one (in case of PROPAGATION_REQUIRED).
The default implementation returns false
, assuming that
participating in existing transactions is generally not supported.
Subclasses are of course encouraged to provide such support.
isExistingTransaction
in class AbstractPlatformTransactionManager
transaction
- transaction object returned by doGetTransactionAbstractPlatformTransactionManager.doGetTransaction()
protected void doBegin(Object transaction, TransactionDefinition definition)
doBegin
in class AbstractPlatformTransactionManager
transaction
- transaction object returned by doGetTransaction
definition
- TransactionDefinition instance, describing propagation
behavior, isolation level, read-only flag, timeout, and transaction nameprotected Object doSuspend(Object transaction)
AbstractPlatformTransactionManager
The default implementation throws a TransactionSuspensionNotSupportedException, assuming that transaction suspension is generally not supported.
doSuspend
in class AbstractPlatformTransactionManager
transaction
- transaction object returned by doGetTransaction
AbstractPlatformTransactionManager.doResume(java.lang.Object, java.lang.Object)
protected void doResume(Object transaction, Object suspendedResources)
AbstractPlatformTransactionManager
The default implementation throws a TransactionSuspensionNotSupportedException, assuming that transaction suspension is generally not supported.
doResume
in class AbstractPlatformTransactionManager
transaction
- transaction object returned by doGetTransaction
suspendedResources
- the object that holds suspended resources,
as returned by doSuspendAbstractPlatformTransactionManager.doSuspend(java.lang.Object)
protected void doCommit(DefaultTransactionStatus status)
AbstractPlatformTransactionManager
An implementation does not need to check the "new transaction" flag or the rollback-only flag; this will already have been handled before. Usually, a straight commit will be performed on the transaction object contained in the passed-in status.
doCommit
in class AbstractPlatformTransactionManager
status
- the status representation of the transactionDefaultTransactionStatus.getTransaction()
protected void doRollback(DefaultTransactionStatus status)
AbstractPlatformTransactionManager
An implementation does not need to check the "new transaction" flag; this will already have been handled before. Usually, a straight rollback will be performed on the transaction object contained in the passed-in status.
doRollback
in class AbstractPlatformTransactionManager
status
- the status representation of the transactionDefaultTransactionStatus.getTransaction()
protected void doSetRollbackOnly(DefaultTransactionStatus status)
AbstractPlatformTransactionManager
The default implementation throws an IllegalTransactionStateException, assuming that participating in existing transactions is generally not supported. Subclasses are of course encouraged to provide such support.
doSetRollbackOnly
in class AbstractPlatformTransactionManager
status
- the status representation of the transactionprotected void doCleanupAfterCompletion(Object transaction)
AbstractPlatformTransactionManager
Called after doCommit
and doRollback
execution,
on any outcome. The default implementation does nothing.
Should not throw any exceptions but just issue warnings on errors.
doCleanupAfterCompletion
in class AbstractPlatformTransactionManager
transaction
- transaction object returned by doGetTransaction