]
Manuel Dominguez Sarmiento updated HHH-3360:
--------------------------------------------
Attachment: OracleBatchingBatcher.java
This updated version (attached) accounts for possible cross-transaction issues that might
be caused by aborting/cancelling a transaction. The original version did not reset its
internal state in these scenarios.
Custom Oracle Batcher to allow batch updates for versioned data
---------------------------------------------------------------
Key: HHH-3360
URL:
http://opensource.atlassian.com/projects/hibernate/browse/HHH-3360
Project: Hibernate Core
Issue Type: Improvement
Components: core
Affects Versions: 3.2.0.ga, 3.2.1, 3.2.2, 3.2.3, 3.2.4, 3.2.4.sp1, 3.2.5, 3.2.6,
3.3.0.CR1
Environment: Oracle 10g R1, 10g R2, 11g R1 (have not tried previous Oracle
versions), 11g R1 drivers (older drivers should also work)
Reporter: Manuel Dominguez Sarmiento
Priority: Minor
Attachments: C3P0OracleBatchingBatcherFactory.java,
C3P0OracleBatchingBatcher.java, OracleBatchingBatcherFactory.java,
OracleBatchingBatcher.java, OracleBatchingBatcher.java, OracleBatchingBatcher.java
Original Estimate: 0.5h
Remaining Estimate: 0.5h
We have developed a custom Oracle Batcher which allows batching versioned data. The
Oracle JDBC driver does not return update counts when using the standard JDBC 2.0 batching
mechanism, however the proprietary Oracle batching mechanism allows obtaining the total
batch row update count. The update counts are absolutely necessary to detect stale
updates.
Although it is not exactly the same, the total row update count is actually enough
information to be able to batch versioned data and still detect stale updates.
We'd like to contribute the attached files. They have a compile time dependency on
Oracle JDBC. If this is not acceptable, it could be easily solved by using reflection.
Another Batcher is provided for when the Oracle connection is being managed through c3p0
(a common deployment scenario). This has a compile time dependency on c3p0.
A few "dirty" tricks were necessary to pull this off without patching other
classes. Specifically, it was necessary to override Java private semantics to obtain
BasicExpectation.expectedRowCount. This could be easily solved by adding an accessor
method to the Expectation interface.
There is one issue which we are not completely sure of, however so far we have not found
any problems. When the Expectation is NONE, there is no way to check whether the total row
count is correct or not, even if other batched updates do have expectations with expected
row counts. Our understanding is that actually, since batching requires all statements to
be of the same type (since the same PreparedStatement / CallableStatement is being used),
then either ALL expectations will be NONE, or all will have an expected row count.
We'd welcome comments from the Hibernate team. This could also be probably handled
better by improving the Expectation interface.
Oracle JDBC docs that explain the Oracle batching model:
http://download.oracle.com/docs/cd/B28359_01/java.111/b31224/oraperf.htm#...
As expected, implementing this solution has resulted in drastical improvement in batch
processing.
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