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13.7. Envers


13.7.1. About Hibernate Envers

Hibernate Envers is an auditing and versioning system, providing JBoss EAP 6 with a means to track historical changes to persistent classes. Audit tables are created for entities annotated with @Audited, which store the history of changes made to the entity. The data can then be retrieved and queried.
Envers allows developers to:
  • audit all mappings defined by the JPA specification,
  • audit all hibernate mappings that extend the JPA specification,
  • audit entities mapped by or using the native Hibernate API
  • log data for each revision using a revision entity, and
  • query historical data.

13.7.2. About Auditing Persistent Classes

Auditing of persistent classes is done in JBoss EAP 6 through Hibernate Envers and the @Audited annotation. When the annotation is applied to a class, a table is created, which stores the revision history of the entity.
Each time a change is made to the class, an entry is added to the audit table. The entry contains the changes to the class, and is given a revision number. This means that changes can be rolled back, or previous revisions can be viewed.

13.7.3. Auditing Strategies

13.7.3.1. About Auditing Strategies

Auditing strategies define how audit information is persisted, queried and stored. There are currently two audit strategies available with Hibernate Envers:
Default Audit Strategy
This strategy persists the audit data together with a start revision. For each row that is inserted, updated or deleted in an audited table, one or more rows are inserted in the audit tables, along with the start revision of its validity.
Rows in the audit tables are never updated after insertion. Queries of audit information use subqueries to select the applicable rows in the audit tables, which are slow and difficult to index.
Validity Audit Strategy
This strategy stores the start revision, as well as the end revision of the audit information. For each row that is inserted, updated or deleted in an audited table, one or more rows are inserted in the audit tables, along with the start revision of its validity.
At the same time, the end revision field of the previous audit rows (if available) is set to this revision. Queries on the audit information can then use between start and end revision, instead of subqueries. This means that persisting audit information is a little slower because of the extra updates, but retrieving audit information is a lot faster.
This can also be improved by adding extra indexes.
For more information on auditing, refer to Section 13.7.2, “About Auditing Persistent Classes”. To set the auditing strategy for the application, refer here: Section 13.7.3.2, “Set the Auditing Strategy”.

13.7.3.2. Set the Auditing Strategy

Summary

There are two audit strategies supported by JBoss EAP 6: the default and validity audit strategies. This task covers the steps required to define the auditing strategy for an application.

Procedure 13.6. Define a Auditing Strategy

  • Configure the org.hibernate.envers.audit_strategy property in the persistence.xml file of the application. If the property is not set in the persistence.xml file, then the default audit strategy is used.

    Example 13.28. Set the Default Audit Strategy

    <property name="org.hibernate.envers.audit_strategy" value="org.hibernate.envers.strategy.DefaultAuditStrategy"/>
    

    Example 13.29. Set the Validity Audit Strategy

    <property name="org.hibernate.envers.audit_strategy" value="org.hibernate.envers.strategy.ValidityAuditStrategy"/>
    

13.7.4. Getting Started with Entity Auditing

13.7.4.1. Add Auditing Support to a JPA Entity

JBoss EAP 6 uses entity auditing, through Section 13.7.1, “About Hibernate Envers”, to track the historical changes of a persistent class. This topic covers adding auditing support for a JPA entity.

Procedure 13.7. Add Auditing Support to a JPA Entity

  1. Configure the available auditing parameters to suit the deployment: Section 13.7.5.1, “Configure Envers Parameters”.
  2. Open the JPA entity to be audited.
  3. Import the org.hibernate.envers.Audited interface.
  4. Apply the @Audited annotation to each field or property to be audited, or apply it once to the whole class.

    Example 13.30. Audit Two Fields

    import org.hibernate.envers.Audited;
    
    import javax.persistence.Entity;
    import javax.persistence.Id;
    import javax.persistence.GeneratedValue;
    import javax.persistence.Column;
    
    @Entity
    public class Person {
        @Id
        @GeneratedValue
        private int id;
    
        @Audited
        private String name;
    
        private String surname;
    
        @ManyToOne
        @Audited
        private Address address;
    
        // add getters, setters, constructors, equals and hashCode here
    }
    

    Example 13.31. Audit an entire Class

    import org.hibernate.envers.Audited;
    
    import javax.persistence.Entity;
    import javax.persistence.Id;
    import javax.persistence.GeneratedValue;
    import javax.persistence.Column;
    
    @Entity
    @Audited
    public class Person {
        @Id
        @GeneratedValue
        private int id;
    
        private String name;
    
        private String surname;
    
        @ManyToOne
        private Address address;
    
        // add getters, setters, constructors, equals and hashCode here
    }
    
Result

The JPA entity has been configured for auditing. A table called Entity_AUD will be created to store the historical changes.

13.7.5. Configuration

13.7.5.1. Configure Envers Parameters

JBoss EAP 6 uses entity auditing, through Hibernate Envers, to track the historical changes of a persistent class. This topic covers configuring the available Envers parameters.

Procedure 13.8. Configure Envers Parameters

  1. Open the persistence.xml file for the application.
  2. Add, remove or configure Envers properties as required. For a list of available properties, refer to Section 13.7.5.4, “Envers Configuration Properties”.

Example 13.32. Example Envers Parameters

<persistence-unit name="mypc">
  <description>Persistence Unit.</description>
  <jta-data-source>java:jboss/datasources/ExampleDS</jta-data-source>
  <shared-cache-mode>ENABLE_SELECTIVE</shared-cache-mode>
  <properties>
    <property name="hibernate.hbm2ddl.auto" value="create-drop" />
    <property name="hibernate.show_sql" value="true" />
    <property name="hibernate.cache.use_second_level_cache"	value="true" />
    <property name="hibernate.cache.use_query_cache" value="true" />
    <property name="hibernate.generate_statistics" value="true" />
    <property name="org.hibernate.envers.versionsTableSuffix" value="_V" />
    <property name="org.hibernate.envers.revisionFieldName" value="ver_rev" />
  </properties>
</persistence-unit>
Result
Auditing has been configured for all JPA entities in the application.

13.7.5.2. Enable or Disable Auditing at Runtime

Summary

This task covers the configuration steps required to enable/disable entity version auditing at runtime.

Procedure 13.9. Enable/Disable Auditing

  1. Subclass the AuditEventListener class.
  2. Override the following methods that are called on Hibernate events:
    • onPostInsert
    • onPostUpdate
    • onPostDelete
    • onPreUpdateCollection
    • onPreRemoveCollection
    • onPostRecreateCollection
  3. Specify the subclass as the listener for the events.
  4. Determine if the change should be audited.
  5. Pass the call to the superclass if the change should be audited.

13.7.5.3. Configure Conditional Auditing

Summary

Hibernate Envers persists audit data in reaction to various Hibernate events, using a series of event listeners. These listeners are registered automatically if the Envers jar is in the class path. This task covers the steps required to implement conditional auditing, by overriding some of the Envers event listeners.

Procedure 13.10. Implement Conditional Auditing

  1. Set the hibernate.listeners.envers.autoRegister Hibernate property to false in the persistence.xml file.
  2. Subclass each event listener to be overridden. Place the conditional auditing logic in the subclass, and call the super method if auditing should be performed.
  3. Create a custom implementation of org.hibernate.integrator.spi.Integrator, similar to org.hibernate.envers.event.EnversIntegrator. Use the event listener subclasses created in step two, rather than the default classes.
  4. Add a META-INF/services/org.hibernate.integrator.spi.Integrator file to the jar. This file should contain the fully qualified name of the class implementing the interface.
Result

Conditional auditing has been configured, overriding the default Envers event listeners.

13.7.5.4. Envers Configuration Properties

Table 13.12. Entity Data Versioning Configuration Parameters
Property Name Default Value Description
org.hibernate.envers.audit_table_prefix
A string that is prepended to the name of an audited entity, to create the name of the entity that will hold the audit information.
org.hibernate.envers.audit_table_suffix
_AUD
A string that is appended to the name of an audited entity to create the name of the entity that will hold the audit information. For example, if an entity with a table name of Person is audited, Envers will generate a table called Person_AUD to store the historical data.
org.hibernate.envers.revision_field_name
REV
The name of the field in the audit entity that holds the revision number.
org.hibernate.envers.revision_type_field_name
REVTYPE
The name of the field in the audit entity that holds the type of revision. The current types of revisions possible are: add, mod and del.
org.hibernate.envers.revision_on_collection_change
true
This property determines if a revision should be generated if a relation field that is not owned changes. This can either be a collection in a one-to-many relation, or the field using the mappedBy attribute in a one-to-one relation.
org.hibernate.envers.do_not_audit_optimistic_locking_field
true
When true, properties used for optimistic locking (annotated with @Version) will automatically be excluded from auditing.
org.hibernate.envers.store_data_at_delete
false
This property defines whether or not entity data should be stored in the revision when the entity is deleted, instead of only the ID, with all other properties marked as null. This is not usually necessary, as the data is present in the last-but-one revision. Sometimes, however, it is easier and more efficient to access it in the last revision. However, this means the data the entity contained before deletion is stored twice.
org.hibernate.envers.default_schema
null (same as normal tables)
The default schema name used for audit tables. Can be overridden using the @AuditTable(schema="...") annotation. If not present, the schema will be the same as the schema of the normal tables.
org.hibernate.envers.default_catalog
null (same as normal tables)
The default catalog name that should be used for audit tables. Can be overridden using the @AuditTable(catalog="...") annotation. If not present, the catalog will be the same as the catalog of the normal tables.
org.hibernate.envers.audit_strategy
org.hibernate.envers.strategy.DefaultAuditStrategy
This property defines the audit strategy that should be used when persisting audit data. By default, only the revision where an entity was modified is stored. Alternatively, org.hibernate.envers.strategy.ValidityAuditStrategy stores both the start revision and the end revision. Together, these define when an audit row was valid.
org.hibernate.envers.audit_strategy_validity_end_rev_field_name
REVEND
The column name that will hold the end revision number in audit entities. This property is only valid if the validity audit strategy is used.
org.hibernate.envers.audit_strategy_validity_store_revend_timestamp
false
This property defines whether the timestamp of the end revision, where the data was last valid, should be stored in addition to the end revision itself. This is useful to be able to purge old audit records out of a relational database by using table partitioning. Partitioning requires a column that exists within the table. This property is only evaluated if the ValidityAuditStrategy is used.
org.hibernate.envers.audit_strategy_validity_revend_timestamp_field_name
REVEND_TSTMP
Column name of the timestamp of the end revision at which point the data was still valid. Only used if the ValidityAuditStrategy is used, and org.hibernate.envers.audit_strategy_validity_store_revend_timestamp evaluates to true.

13.7.6. Queries

13.7.6.1. Retrieve Auditing Information

Summary

Hibernate Envers provides the functionality to retrieve audit information through queries. This topic provides examples of those queries.

Note

Queries on the audited data will be, in many cases, much slower than corresponding queries on live data, as they involve correlated subselects.

Example 13.33. Querying for Entities of a Class at a Given Revision

The entry point for this type of query is:
AuditQuery query = getAuditReader()
    .createQuery()
    .forEntitiesAtRevision(MyEntity.class, revisionNumber);
Constraints can then be specified, using the AuditEntity factory class. The query below only selects entities where the name property is equal to John:
query.add(AuditEntity.property("name").eq("John"));
The queries below only select entities that are related to a given entity:
query.add(AuditEntity.property("address").eq(relatedEntityInstance));
// or
query.add(AuditEntity.relatedId("address").eq(relatedEntityId));
The results can then be ordered, limited, and have aggregations and projections (except grouping) set. The example below is a full query.
List personsAtAddress = getAuditReader().createQuery()
    .forEntitiesAtRevision(Person.class, 12)
    .addOrder(AuditEntity.property("surname").desc())
    .add(AuditEntity.relatedId("address").eq(addressId))
    .setFirstResult(4)
    .setMaxResults(2)
    .getResultList();

Example 13.34. Query Revisions where Entities of a Given Class Changed

The entry point for this type of query is:
AuditQuery query = getAuditReader().createQuery()
    .forRevisionsOfEntity(MyEntity.class, false, true);
Constraints can be added to this query in the same way as the previous example. There are additional possibilities for this query:
AuditEntity.revisionNumber()
Specify constraints, projections and order on the revision number in which the audited entity was modified.
AuditEntity.revisionProperty(propertyName)
Specify constraints, projections and order on a property of the revision entity, corresponding to the revision in which the audited entity was modified.
AuditEntity.revisionType()
Provides accesses to the type of the revision (ADD, MOD, DEL).
The query results can then be adjusted as necessary. The query below selects the smallest revision number at which the entity of the MyEntity class, with the entityId ID has changed, after revision number 42:
Number revision = (Number) getAuditReader().createQuery()
    .forRevisionsOfEntity(MyEntity.class, false, true)
    .setProjection(AuditEntity.revisionNumber().min())
    .add(AuditEntity.id().eq(entityId))
    .add(AuditEntity.revisionNumber().gt(42))
    .getSingleResult();
Queries for revisions can also minimize/maximize a property. The query below selects the revision at which the value of the actualDate for a given entity was larger than a given value, but as small as possible:
Number revision = (Number) getAuditReader().createQuery()
    .forRevisionsOfEntity(MyEntity.class, false, true)
    // We are only interested in the first revision
    .setProjection(AuditEntity.revisionNumber().min())
    .add(AuditEntity.property("actualDate").minimize()
        .add(AuditEntity.property("actualDate").ge(givenDate))
        .add(AuditEntity.id().eq(givenEntityId)))
    .getSingleResult();
The minimize() and maximize() methods return a criteria, to which constraints can be added, which must be met by the entities with the maximized/minimized properties.
There are two boolean parameters passed when creating the query.
selectEntitiesOnly
This parameter is only valid when an explicit projection is not set.
If true, the result of the query will be a list of entities that changed at revisions satisfying the specified constraints.
If false, the result will be a list of three element arrays. The first element will be the changed entity instance. The second will be an entity containing revision data. If no custom entity is used, this will be an instance of DefaultRevisionEntity. The third element array will be the type of the revision (ADD, MOD, DEL).
selectDeletedEntities
This parameter specifies if revisions in which the entity was deleted must be included in the results. If true, the entities will have the revision type DEL, and all fields, except id, will have the value null.

Example 13.35. Query Revisions of an Entity that Modified a Given Property

The query below will return all revisions of MyEntity with a given id, where the actualDate property has been changed.
AuditQuery query = getAuditReader().createQuery()
  .forRevisionsOfEntity(MyEntity.class, false, true)
  .add(AuditEntity.id().eq(id));
  .add(AuditEntity.property("actualDate").hasChanged())
The hasChanged condition can be combined with additional criteria. The query below will return a horizontal slice for MyEntity at the time the revisionNumber was generated. It will be limited to the revisions that modified prop1, but not prop2.
AuditQuery query = getAuditReader().createQuery()
  .forEntitiesAtRevision(MyEntity.class, revisionNumber)
  .add(AuditEntity.property("prop1").hasChanged())
  .add(AuditEntity.property("prop2").hasNotChanged());
The result set will also contain revisions with numbers lower than the revisionNumber. This means that this query cannot be read as "Return all MyEntities changed in revisionNumber with prop1 modified and prop2 untouched."
The query below shows how this result can be returned, using the forEntitiesModifiedAtRevision query:
AuditQuery query = getAuditReader().createQuery()
  .forEntitiesModifiedAtRevision(MyEntity.class, revisionNumber)
  .add(AuditEntity.property("prop1").hasChanged())
  .add(AuditEntity.property("prop2").hasNotChanged());

Example 13.36. Query Entities Modified in a Given Revision

The example below shows the basic query for entities modified in a given revision. It allows entity names and corresponding Java classes changed in a specified revision to be retrieved:
Set<Pair<String, Class>> modifiedEntityTypes = getAuditReader()
    .getCrossTypeRevisionChangesReader().findEntityTypes(revisionNumber);
There are a number of other queries that are also accessible from org.hibernate.envers.CrossTypeRevisionChangesReader:
List<Object> findEntities(Number)
Returns snapshots of all audited entities changed (added, updated and removed) in a given revision. Executes n+1 SQL queries, where n is a number of different entity classes modified within the specified revision.
List<Object> findEntities(Number, RevisionType)
Returns snapshots of all audited entities changed (added, updated or removed) in a given revision filtered by modification type. Executes n+1 SQL queries, where n is a number of different entity classes modified within specified revision.
Map<RevisionType, List<Object>> findEntitiesGroupByRevisionType(Number)
Returns a map containing lists of entity snapshots grouped by modification operation (e.g. addition, update and removal). Executes 3n+1 SQL queries, where n is a number of different entity classes modified within specified revision.
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