asadmin set domain1.resources.jdbc-connection-pool.DerbyPool.transaction-isolation-level=serializable
Using the Transaction Service DRAFT |
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The Java EE platform provides several abstractions that simplify development of dependable transaction processing for applications. This chapter discusses Java EE transactions and transaction support in the Oracle GlassFish Server.
The following topics are addressed here:
For more information about the Java Transaction API (JTA) and Java
Transaction Service (JTS), see "Administering
Transactions" in GlassFish Server Open Source Edition Administration
Guide and the following sites:
http://www.oracle.com/technetwork/java/javaee/jta/index.html
and
http://www.oracle.com/technetwork/java/javaee/tech/index.html
.
You might also want to read "https://javaee.github.io/tutorial/transactions.html[Transactions]" in The Java EE 8 Tutorial.
The following topics are addressed here:
Not all database vendors support all transaction isolation levels available in the JDBC API. The GlassFish Server permits specifying any isolation level your database supports. The following table defines transaction isolation levels.
Table 15-1 Transaction Isolation Levels
Transaction Isolation Level | getTransactionIsolation Return Value |
Description |
---|---|---|
|
|
Dirty reads, non-repeatable reads, and phantom reads can occur. |
|
|
Dirty reads are prevented; non-repeatable reads and phantom reads can occur. |
|
|
Dirty reads and non-repeatable reads are prevented; phantom reads can occur. |
|
|
Dirty reads, non-repeatable reads and phantom reads are prevented. |
By default, the transaction isolation level is undefined (empty), and the JDBC driver’s default isolation level is used. You can specify the transaction isolation level in the following ways:
Select the value from the Transaction Isolation drop-down list on the New JDBC Connection Pool or Edit Connection Pool page in the Administration Console. For more information, click the Help button in the Administration Console.
Specify the --isolationlevel
option in the
asadmin create-jdbc-connection-pool
command. For more information, see
the GlassFish Server Open Source Edition Reference Manual.
Specify the transaction-isolation-level
option in the asadmin set
command. For example:
asadmin set domain1.resources.jdbc-connection-pool.DerbyPool.transaction-isolation-level=serializable
For more information, see the GlassFish Server Open Source Edition Reference Manual.
Note that you cannot call setTransactionIsolation
during a
transaction.
You can set the default transaction isolation level for a JDBC connection pool. For details, see "To Create a JDBC Connection Pool" in GlassFish Server Open Source Edition Administration Guide.
To verify that a level is supported by your database management system,
test your database programmatically using the
supportsTransactionIsolationLevel
method in
java.sql.DatabaseMetaData
, as shown in the following example:
InitialContext ctx = new InitialContext();
DataSource ds = (DataSource)
ctx.lookup("jdbc/MyBase");
Connection con = ds.getConnection();
DatabaseMetaData dbmd = con.getMetaData();
if (dbmd.supportsTransactionIsolationLevel(TRANSACTION_SERIALIZABLE)
{ Connection.setTransactionIsolation(TRANSACTION_SERIALIZABLE); }
For more information about these isolation levels and what they mean, see the JDBC API specification.
Setting or resetting the transaction isolation level for every
getConnection
call can degrade performance. So by default the
isolation level is not guaranteed.
Applications that change the transaction isolation level on a pooled
connection programmatically risk polluting the JDBC connection pool,
which can lead to errors. If an application changes the isolation level,
enabling the is-isolation-level-guaranteed
setting in the pool can
minimize such errors.
You can guarantee the transaction isolation level in the following ways:
Check the Isolation Level Guaranteed box on the New JDBC Connection Pool or Edit Connection Pool page in the Administration Console. For more information, click the Help button in the Administration Console.
Specify the --isisolationguaranteed
option in the
asadmin create-jdbc-connection-pool
command. For more information, see
the GlassFish Server Open Source Edition Reference Manual.
Specify the is-isolation-level-guaranteed
option in the
asadmin set
command. For example:
asadmin set domain1.resources.jdbc-connection-pool.DerbyPool.is-isolation-level-guaranteed=true
For more information, see the GlassFish Server Open Source Edition Reference Manual.
You can specify a non-transactional database connection in any of these ways:
Check the Non-Transactional Connections box on the New JDBC Connection Pool or Edit Connection Pool page in the Administration Console. The default is unchecked. For more information, click the Help button in the Administration Console.
Specify the --nontransactionalconnections
option in the
asadmin create-jdbc-connection-pool
command. For more information, see
the GlassFish Server Open Source Edition Reference Manual.
Specify the non-transactional-connections
option in the
asadmin set
command. For example:
asadmin set domain1.resources.jdbc-connection-pool.DerbyPool.non-transactional-connections=true
For more information, see the GlassFish Server Open Source
Edition Reference Manual.
* Use the DataSource
implementation in the GlassFish Server, which
provides a getNonTxConnection
method. This method retrieves a JDBC
connection that is not in the scope of any transaction. There are two
variants.
public java.sql.Connection getNonTxConnection() throws java.sql.SQLException
public java.sql.Connection getNonTxConnection(String user, String password)
throws java.sql.SQLException
Create a resource with the JNDI name ending in __nontx
. This forces
all connections looked up using this resource to be non transactional.
Typically, a connection is enlisted in the context of the transaction in
which a getConnection
call is invoked. However, a non-transactional
connection is not enlisted in a transaction context even if a
transaction is in progress.
The main advantage of using non-transactional connections is that the overhead incurred in enlisting and delisting connections in transaction contexts is avoided. However, use such connections carefully. For example, if a non-transactional connection is used to query the database while a transaction is in progress that modifies the database, the query retrieves the unmodified data in the database. This is because the in-progress transaction hasn’t committed. For another example, if a non-transactional connection modifies the database and a transaction that is running simultaneously rolls back, the changes made by the non-transactional connection are not rolled back.
Here is a typical use case for a non-transactional connection: a component that is updating a database in a transaction context spanning over several iterations of a loop can refresh cached data by using a non-transactional connection to read data before the transaction commits.
This section describes the transaction support built into the Enterprise JavaBeans programming model for the GlassFish Server.
As a developer, you can write an application that updates data in multiple databases distributed across multiple sites. The site might use EJB servers from different vendors.
The following topics are addressed here:
The Enterprise JavaBeans Specification, v3.0 requires support for flat (as opposed to nested) transactions. In a flat transaction, each transaction is decoupled from and independent of other transactions in the system. Another transaction cannot start in the same thread until the current transaction ends.
Flat transactions are the most prevalent model and are supported by most commercial database systems. Although nested transactions offer a finer granularity of control over transactions, they are supported by far fewer commercial database systems.
Both local and global transactions are demarcated using the
javax.transaction.UserTransaction interface, which the client must use.
Local transactions bypass the XA commit protocol and are faster. For
more information, see The Transaction Manager, the
Transaction Synchronization Registry, and UserTransaction
.
The EJB protocol is designed to give the container the flexibility to select the disposition of the instance state at the time a transaction is committed. This allows the container to best manage caching an entity object’s state and associating an entity object identity with the EJB instances.
There are three commit-time options:
Option A - The container caches a ready instance between transactions.
The container ensures that the instance has exclusive access to the
state of the object in persistent storage.
In this case, the container does not have to synchronize the instance’s
state from the persistent storage at the beginning of the next
transaction.
Note
|
Commit option A is not supported for this GlassFish Server release. |
Option B - The container caches a ready instance between transactions,
but the container does not ensure that the instance has exclusive access
to the state of the object in persistent storage. This is the default.
In this case, the container must synchronize the instance’s state by
invoking ejbLoad
from persistent storage at the beginning of the next
transaction.
Option C - The container does not cache a ready instance between
transactions, but instead returns the instance to the pool of available
instances after a transaction has completed.
The life cycle for every business method invocation under commit option
C looks like this.
ejbActivate ejbLoad business method ejbStore ejbPassivate
If there is more than one transactional client concurrently accessing the same entity, the first client gets the ready instance and subsequent concurrent clients get new instances from the pool.
The glassfish-ejb-jar.xml
deployment descriptor has an element,
commit-option
, that specifies the commit option to be used. Based on
the specified commit option, the appropriate handler is instantiated.
The transaction timeout for the domain is specified using the
Transaction Timeout setting of the Transaction Service. A transaction
started by the container must commit (or rollback) within this time,
regardless of whether the transaction is suspended (and resumed), or the
transaction is marked for rollback. The default value, 0
, specifies
that the server waits indefinitely for a transaction to complete.
To override this timeout for an individual bean, use the optional
cmt-timeout-in-seconds
element in glassfish-ejb-jar.xml
. The default
value, 0
, specifies that the Transaction Service timeout is used. The
value of cmt-timeout-in-seconds
is used for all methods in the bean
that start a new container-managed transaction. This value is not used
if the bean joins a client transaction.
The following topics are addressed here:
During transaction recovery, non-persistent messages might be lost. If the broker fails between the transaction manager’s prepare and commit operations, any non-persistent message in the transaction is lost and cannot be delivered. A message that is not saved to a persistent store is not available for transaction recovery.
The Java EE Connector 1.6 specification allows a resource adapter to use
the transaction-support
attribute to specify the level of transaction
support that the resource adapter handles. However, the resource adapter
vendor does not have a mechanism to figure out the current transactional
context in which a ManagedConnectionFactory
is used.
If a ManagedConnectionFactory
implements an optional interface called
com.sun.appserv.connectors.spi.ConfigurableTransactionSupport , the
GlassFish Server notifies the ManagedConnectionFactory
of the
transaction-support
configured for the connector connection pool when
the ManagedConnectionFactory
instance is created for the pool.
Connections obtained from the pool can then be used with a transaction
level at or lower than the configured value. For example, a connection
obtained from a pool that is set to XA_TRANSACTION
could be used as a
LOCAL resource in a last-agent-optimized transaction or in a
non-transactional context.
UserTransaction
To access a UserTransaction
instance, you can either look it up using
the java:comp/``UserTransaction
JNDI name or inject it using the
@Resource
annotation.
Accessing a DataSource
using the Synchronization.beforeCompletion()
method requires setting Allow Non Component Callers to true
. The
default is false
. For more information about non-component callers,
see Allowing Non-Component Callers.
If possible, you should use the
javax.transaction.TransactionSynchronizationRegistry interface instead
of javax.transaction.TransactionManager , for portability. You can look
up the implementation of this interface by using the JNDI name
java:comp/``TransactionSynchronizationRegistry
. For details, see the
TransactionSynchronizationRegistryInterface
API documentation (https://javaee.github.io/javaee-spec/javadocs/
) and
Java Specification Request (JSR)
907 (http://www.jcp.org/en/jsr/detail?id=907
).
If accessing the javax.transaction.TransactionManager implementation is absolutely necessary, you can look up the GlassFish Server implementation of this interface using the JNDI name java:appserver/TransactionManager . This lookup should not be used by the application code.
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