How does @Version annotation work in JPA?

I found various answers whose extract is as follows:

JPA uses a version field in your entities to detect concurrent modifications to the same datastore record. When the JPA runtime detects an attempt to concurrently modify the same record, it throws an exception to the transaction attempting to commit last.

But I am still not sure how it works.


Also as from the following lines:

You should consider version fields immutable. Changing the field value has undefined results.

Does it mean that we should declare our version field as final?

  • All it does is check/update the version in every update query: UPDATE myentity SET mycolumn = 'new value', version = version + 1 WHERE version = [old.version]. If someone updated the record, old.version will no longer match the one in the DB and the where clause will prevent the update from happening. The 'rows updated' will be 0, which JPA can detect to conclude that a concurrent modification happened. – Stijn de Witt Mar 7 '17 at 9:20
up vote 159 down vote accepted

But still I am not sure how it works?

Let's say an entity MyEntity has an annotated version property:

@Entity
public class MyEntity implements Serializable {    

    @Id
    @GeneratedValue
    private Long id;

    private String name;

    @Version
    private Long version;

    //...
}

On update, the field annotated with @Version will be incremented and added to the WHERE clause, something like this:

UPDATE MYENTITY SET ..., VERSION = VERSION + 1 WHERE ((ID = ?) AND (VERSION = ?))

If the WHERE clause fails to match a record (because the same entity has already been updated by another thread), then the persistence provider will throw an OptimisticLockException.

Does it mean that we should declare our version field as final

No but you could consider making the setter protected as you're not supposed to call it.

  • 5
    I got a null-pointer exception with this piece of code, because Long initialises as null, should probably be initialized explizitly with 0L. – Markus Sep 19 '12 at 10:46
  • 1
    Don't rely on auto-unboxing it to long or just calling longValue() on it. You need explicit null checks. Explicitly initializing it yourself I would not do as this field is supposed to be managed by the ORM provider. I think it gets set to 0L on first insert into the DB, so if it's set to null this tells you this record has not been persisted yet. – Stijn de Witt Oct 19 '15 at 14:00
  • Will this prevent creating an entity being (tried to) created more than once? I mean suppose a JMS topic message triggers creation of an entity and there are multiple instances of an application listens to the message. I just want to avoid the unique constraint violation error.. – Manu Jan 19 '16 at 6:28
  • Sorry, I realize that this is an old thread, but does @Version also take into consideration dirty cache in clustered environments? – Shawn Eion Smith Jan 20 '16 at 0:14
  • @ussmith That's a very good question! Never thought about it. I assume if the cache is part of/managed by the JPA provider (.e.g. Hibernate L1/L2 cache) that yes, it should take it into account. But I have no evidence to back this up. – Stijn de Witt Feb 20 '17 at 8:20

Although @Pascal answer is perfectly valid, from my experience I find the code below helpful to accomplish optimistic locking:

@Entity
public class MyEntity implements Serializable {    
    // ...

    @Version
    @Column(name = "optlock", columnDefinition = "integer DEFAULT 0", nullable = false)
    private long version = 0L;

    // ...
}

Why? Because:

  1. Optimistic locking won't work if field annotated with @Version is accidentally set to null.
  2. As this special field isn't necessarily a business version of the object, to avoid a misleading, I prefer to name such field to sth like optlock rather than version.

First point doesn't matter if application uses only JPA for inserting data into the database, as JPA vendor will enforce 0 for @version field at creation time. But almost always plain SQL statements are also in use (at least during unit/ integration testing).

  • I call it u_lmod (user last modified) where user can be a human or defined (automated) process/entity/app (so storing additionally u_lmod_id could make sense as well). (It is in my view a very basic business-meta-attribute). It is typically storing its value as DATE(TIME) (meaning infos about year...millis) in UTC (if the timezone "location" of the editor is important to store then with timezone). additionally very useful for DWH sync scenarios. – Andreas Dietrich Aug 25 '15 at 10:06
  • 4
    I think bigint instead of an integer should be used in db type to match a long java type. – Dmitry Feb 1 '17 at 17:03
  • Good point Dmitry, thanks, although when it comes to versioning IMHO it doesn't really matter. – G. Demecki Feb 2 '17 at 9:06

Every time an entity is updated in the database the version field will be increased by one. Every operation that updates the entity in the database will have appended WHERE version = VERSION_THAT_WAS_LOADED_FROM_DATABASE to its query.

In checking affected rows of your operation the jpa framework can make sure there was no concurrent modification between loading and persisting your entity because the query would not find your entity in the database when it's version number has been increased between load and persist.

  • Not via JPAUpdateQuery it doesn't. So "Every operation that updates the entity in the database will have appended WHERE version = VERSION_THAT_WAS_LOADED_FROM_DATABASE to its query" is not true. – Pedro Borges Apr 27 '17 at 17:44

Version used to ensure that only one update in a time. JPA provider will check the version, if the expected version already increase then someone else already update the entity so an exception will be thrown.

So updating entity value would be more secure, more optimist.

If the value changes frequent, then you might consider not to use version field. For an example "an entity that has counter field, that will increased everytime a web page accessed"

Just adding a little more info.

JPA manages the version under the hood for you, however it doesn't do so when you update your record via JPAUpdateClause(), in such cases you need to manually add the version increment to the query.

Pedro

  • 2
    What is JPAUpdateClause? – Karl Richter Jun 13 '17 at 21:38

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