= 6.0 Migration Guide :toc: :toclevels: 4 :docsBase: https://docs.jboss.org/hibernate/orm/6.0 :userGuideBase: {docsBase}/userguide/html_single/Hibernate_User_Guide.html :javadocsBase: {docsBase}/javadocs :fn-converter: footnote:converter[Think `AttributeConverter`] This guide discusses migration from Hibernate ORM version 6.0. For migration from earlier versions, see any other pertinent migration guides as well. == Jakarta Persistence 6.0 moves from Java Persistence as defined by the Java EE specs to Jakarta Persistence as defined by the Jakarta EE spec. The most immediate impact of this change is that applications would need to be updated to use the Jakarata Persistence classes (`jakarta.persistence.*`) instead of the Java Persistence ones (`javax.persistence.*`). The Jakarta spec also renames the JPA settings (again, from `javax.persistence.*` to 'jakarta.persistence.*') and defines a new set of XSD namespaces for `orm.xml` and `persistence.xml` files. Jakarta provides a https://github.com/eclipse/transformer[transformer] tool which, along with appropriate "rules", will transform a project from Java Persistence to Jakarta Persistence. This can update package names in source, settings, xsd references and more. NOTE: As far as the XSD and setting changes, Hibernate does support both sets as a temporary aid in migration. It logs a deprecation warning when the Java EE variants are used. See the `rules/` directory in the project root for the configuration used to migrate Hibernate itself. == Java 11 With 6.0, Hibernate ORM has moved to expect Java 11 as its baseline version [[read-jdbc]] == Reading from JDBC One of the main reasons for 6.0 development was the move from reading results from the JDBC `ResultSet` by name (read-by-name) as done in previous versions of Hibernate, to reading the results by position (read-by-position). Throughput testing of Hibernate showed that its use of read-by-name was its limiting factor in any further scaling in terms of throughput - much of the issue was actually the call into the `ResultSet`. We like to improve performance all the time :) This change, along with <>, helped achieve this goal. As discussed in <> though, this change has a very big impact on Hibernate's mapping type system [[sql]] == Generated SQL 1. Column aliases are no longer generated. 2. Column references are "unique-d". 3. Better definition of joins 4. Better determination of unnecessary joins (secondary tables, inheritance tables) == Bulk SQM against entities mapped to multiple tables // todo (6.0) - @Christian - can you add some info here? [[identifier-object]] == Identifier as Object Previous versions of Hibernate required that all identifier types implement `Serializable`. 6.0 removes this restriction - identifiers can be any `Object`. This change affects many api and spi methods previously defined using `Serializable`. [[id-gen-type]] == @IdGeneratorType 6.0 adds a new `@IdGeneratorType` annotation that allows better, type-safe way to define custom generators to use for identifier generation. // todo (6.0 - @Steve - need to add content about this to the User Guide [[type]] == Type system Another change is to generally modernize Hibernate's mapping annotations and make them more type-safe. We decided this is the right time since 6.0 is a major release and most of the type-related contracts were already changing to implement the <> changes. One part of this work was the removal of various String-based approaches for specifying Types to use from annotations, including the removal of `@Type`, `@AnyMetaDef`, `@AnyMetaDefs`, `@MapKeyType`, @TypeDef` and `@TypeDefs`, as well as removing annotation attributes accepting the type to use as a String (e.g. `org.hibernate.annotations.CollectionType#type`) The https://docs.jboss.org/hibernate/orm/6.0/userguide/html_single/Hibernate_User_Guide.html#domain-model[User Guide] covers the details of mapping your domain model. [[rename-java-type]] === Renaming of JavaTypeDescriptor contract The interface `org.hibernate.type.descriptor.java.JavaTypeDescriptor` has been renamed to `org.hibernate.type.descriptor.java.JavaType` [[rename-jdbc-type]] === Renaming of SqlTypeDescriptor contract The interface `org.hibernate.type.descriptor.sql.SqlTypeDescriptor` has been renamed to `org.hibernate.type.descriptor.jdbc.JdbcType`. [[basic-type]] === Basic types Basic mappings are no longer configurable through the `BasicType` contract. Instead, users configure the different aspects of mapping the basic value to the database - * `JavaType` * `JdbcType` * `BasicValueConverter` {fn-converter} * `MutabilityPlan` This also made the various implementations of `BasicType` obsolete, thus they have been removed. `NamedBasicTypeImpl` takes the role of all the previous specific implementations by wrapping a `JdbcType` and `JavaType`. The `StandardBasicTypes` class previously exposed `BasicType` instance fields, which now have been replaced with fields of the type `BasicTypeReference`. APIs that previously accepted just a `BasicType` have been adapted to also accept a `BasicTypeReference` which allows for uses of `StandardBasicType` fields to stay mostly source compatible. See https://docs.jboss.org/hibernate/orm/6.0/userguide/html_single/Hibernate_User_Guide.html#basic for details. ==== UserType `UserType` is still supported, and is specified using the new `Type` annotation. See https://docs.jboss.org/hibernate/orm/6.0/userguide/html_single/Hibernate_User_Guide.html#basic-mapping-custom for details. ==== Boolean converters Hibernate now provides standard `AttributeConverter` implementations for handling different database representations as boolean values in the domain model: `YesNoConverter`:: Handles values stored in the database as either `Y` or `N`. Replaces the removed `YesNoBooleanType` (`yes_no`) `TrueFalseConverter`:: Handles values stored in the database as either `T` or `F`. Replaces the removed `TrueFalseBooleanType` (`true_false`) `NumericBooleanConverter`:: Handles values stored in the database as either `1` or `0`. Replaces the removed `NumericBooleanType` (`numeric_boolean`) E.g. ``` @Type(type="yes_no") boolean isActive; ``` becomes ``` @Convert(converter=YesNoConverter.class) boolean isActive; ``` In fact, if your application consistently maps booleans to the same database representation you can even register one as an auto-apply converter. See https://docs.jboss.org/hibernate/orm/6.0/userguide/html_single/Hibernate_User_Guide.html#basic-boolean for details. === Embeddables / components Mapping of embeddables had a few changes as well. ==== Different embeddable mappings Multiple component mappings for the same Java class with different property mappings is no longer supported. Every property mapping combination should have its own Java class ==== EmbeddableInstantiator 6.0 introduces the new `EmbeddableInstantiator` contract. `EmbeddableInstantiator` supports constructor-injection! Note, however, that embeddables used as identifiers cannot use constructor injection. See https://docs.jboss.org/hibernate/orm/6.0/userguide/html_single/Hibernate_User_Guide.html#embeddable-instantiator for details. === Plural attributes 6.0 defines 2 main ways to influence collection mapping `@CollectionType` and `@CollectionTypeRegistration` [[collection-type-ann]] ==== `@CollectionType` The `@CollectionType` annotation is kept from 5.x. However, where it used to define ``` String type(); ``` it now defines ``` Class type(); ``` The type to use must be a `UserCollectionType` (can no longer be a `CollectionType`) and it no longer works with type-definitions. See <> for further discussion of general type changes. See https://docs.jboss.org/hibernate/orm/6.0/userguide/html_single/Hibernate_User_Guide.html#collection-type-ann for details of using `@CollectionType` [[collection-type-reg-ann]] ==== `@CollectionTypeRegistration` Allows to "auto apply" a `UserCollectionType` whenever Hibernate encounters a particular plural attribute classification See https://docs.jboss.org/hibernate/orm/6.0/userguide/html_single/Hibernate_User_Guide.html#collection-type-reg-ann for details of using `@CollectionTypeRegistration` [[collection-list-as-bag]] ==== List as BAG Historically, Hibernate treated `List` attributes with no explicit ordering details using its BAG semantics. ``` @ElementCollection List names; ``` This is not the most natural decision and is rooted in the original annotation support being too closely related to the `hbm.xml` mapping format. Starting in 6.0, Hibernate now makes the more natural interpretation of such a mapping using its LIST semantics. It treats the above example with an implicit an `@OrderColumn`. The above mapping is now equivalent to ``` @ElementCollection @OrderColumn(...) List names; ``` A new "compatibility flag" has been added to allow continuing with the legacy behavior: ``` hibernate.mapping.default_list_semantics=bag ``` The same can be achieved for specific attributes using the new `@Bag` annotation as well. === Misc * The default type for `Duration` was changed to `NUMERIC` which could lead to schema validation errors [[query]] == Query // todo (6.0) - Query parameter binding overloads accepting `Type`, `BindableType` // todo (6.0) - addition of parameter binding overloads accepting Class - AttributeConverter, UserType, Java Type (resolved from JavaTypeRegistry), ... [[query-stream]] === Stream `jakarta.persistence.Query#getResultStream()` and `org.hibernate.query.Query#stream()` no longer return a `Stream` decorator. In order to close the underlying IO resources, it is now necessary to explicitly call the `Stream#close()` method. This change makes the Streams returned by Hibernate behave as defined in the JDK https://docs.oracle.com/en/java/javase/11/docs/api/java.base/java/util/stream/Stream.html[Stream] documentation, which is quite explicit about the need for an explicit call to `close` by the user to avoid resource leakages. [[query-iterate]] === Iterate The `Query#iterate()` method has been removed. The alternative is to use one of * `Query#stream()` * `Query#getResultStream()` * Get the `Iterator` from `List` returned by `Query#list()` / `Query#getResultList()` [[query-sqm]] == SQM (HQL/Criteria) Another major change in 6.0 is the move to a dedicated tree structure to model HQL and Criteria queries. This tree structure is called the Semantic Query Model, or SQM for short. todo (6.0) - cover functions todo (6.0) - cover new temporal capabilities todo (6.0) - cover new syntaxes todo (6.0) - cover bulk manipulation query handling [[query-criteria-copy]] == Hibernate Criteria behavior change By default, when bootstrapping Hibernate through the native bootstrap APIs or when explicitly disabling the newly introduced `hibernate.criteria.copy_tree` configuration property, it is expected that criteria queries passed to `jakarta.persistence.EntityManager#createQuery(CriteriaQuery)`, `jakarta.persistence.EntityManager#createQuery(CriteriaUpdate)` or `jakarta.persistence.EntityManager#createQuery(CriteriaDelete)` are not mutated afterwards to avoid the need for copying the criteria query. Prior to 6.0, mutations to criteria queries didn't affect `Query` instances created from that. To retain backwards compatibility, enable the `hibernate.criteria.copy_tree` configuration property. [[query-sqm-rows]] ==== Result "rows" Queries that use joins without specifying a select clause (e.g. `from Person p join p.address`) used to return a `List`. Starting with 6.0, such a query instead returns `List` The HQL query `select p, a from Person p join p.address a` returns instead a `List`. ``` List result = session.createQuery("from Person p join p.address").list(); List results = session.createQuery("select p, a from Person p join p.address a").list(); ``` [[query-sqm-pass-thru]] ==== Pass-through tokens The use of plain HQL identifiers in e.g. functions which couldn't be interpreted as an attribute of a `FROM` root were passed through as-is to SQL in Hibernate 5.x which was dropped in 6.0 because we believe this is unsafe and might lead to surprising results. HQL queries that relied on this, need to be changed and use the newly introduced `sql` function, which allows passing through the content of a string literal to SQL. An HQL query like `select substring( e.description, 21, 11, octets ) from AnEntity e`, which relies on this for passing through `octets` can be migrated to `select substring( e.description, 21, 11, sql('octets') ) from AnEntity e`. [[query-sqm-distinct]] ==== DISTINCT Starting with Hibernate ORM 6 it is no longer necessary to use *distinct* in JPQL and HQL to filter out the same parent entity references when join fetching a child collection. The returning duplicates of entities are now always filtered by Hibernate. Which means that for instance it is no longer necessary to set `QueryHints#HINT_PASS_DISTINCT_THROUGH` to `false` in order to skip the entity duplicates without producing a `distinct` in the SQL query. From Hibernate ORM 6, `distinct` is always passed to the SQL query and the flag `QueryHints#HINT_PASS_DISTINCT_THROUGH` has been removed. ==== Association Comparisons Previously Hibernate did allow comparing an association with an FK value like `... where alias.association = 1` or `... where alias.association = alias.association.id` or even `... where alias.association = :param` where `param` is bound to an integer `1`. This was supported prior to Hibernate 6.0 if the foreign key for the association is an integer. The right way to do this is de-referencing the association by the FK attribute `... where alias.association.id = 1` which is guaranteed to not produce a join, or use an entity reference for `... where alias.association = :param` where `param` is bound to `entityManager.getReference(EntityClass.class, 1)`. [[query-sqm-psuedo-attr]] ==== Collection psuedo-attributes Prior to 6.0, it was possible to de-reference special properties on plural attributes like `size` which was dropped. The special properties lead to confusion and were sometimes ambiguous. The replacement is the function syntax. size:: The collection size can be determined by using the `size( pluralAttribute )` function instead elements:: The collection elements can be referred to by using the `value( pluralAttribute )` function instead indices:: The collection indices can be referred to by using the `index( pluralAttribute )` or `key( pluralAttribute )` function instead index:: The collection index can be referred to by using the `index( pluralAttribute )` or `key( pluralAttribute )` function instead maxindex:: The collection maximum index can be determined by using the `maxindex( pluralAttribute )` function instead minindex:: The collection minimum index can be determined by using the `minindex( pluralAttribute )` function instead maxelement:: The collection maximum element can be determined by using the `maxelement( pluralAttribute )` function instead minelement:: The collection minimum element can be determined by using the `minelement( pluralAttribute )` function instead [[query-native]] == NativeQuery As `NativeQuery` extends from `Query`, all the changes listed in <> also apply to `NativeQuery`. Some additional changes apply specifically to `NativeQuery` [[query-ordinal-param]] === Ordinal Parameters binding HQL ordinal parameter binding is 1-based, this means that queries like ``` s.createQuery( "select p from Parent p where id in ?0", Parent.class ); query.setParameter( 0, Arrays.asList( 0, 1, 2, 3 ) ); ``` that uses a 0-based positional binding are not supported, and they should be changed to the following ``` s.createQuery( "select p from Parent p where id in ?`", Parent.class ); query.setParameter( 1, Arrays.asList( 0, 1, 2, 3 ) ); ``` [[proc-call-nativequery]] === Callable via NativeQuery Using `NativeQuery` to call SQL functions and procedures is no longer supported. `org.hibernate.procedure.ProcedureCall` or `jakarta.persistence.StoredProcedureQuery` should be used instead. `@NamedNativeQuery` references defining execution of procedure or functions should be migrated to use `@NamedStoredProcedureQuery` instead. E.g., the following `@NamedNativeQuery` - ``` @NamedNativeQuery( name = "personAndPhones", query = "{ ? = call fn_person_and_phones( ? ) }", callable = true, resultSetMapping = "personWithPhonesResultMapping" ) ... final List personAndPhones = entityManager .createNamedQuery("personAndPhones" ) .setParameter( 1, 1L ) .getResultList(); ``` should be changed to use `@NamedStoredProcedureQuery` instead - ``` @NamedStoredProcedureQuery( name = "personAndPhones", procedureName = "fn_person_and_phones", resultSetMappings = "personWithPhonesResultMapping", hints = @QueryHint(name = "org.hibernate.callableFunction", value = "true"), parameters = @StoredProcedureParameter(type = Long.class) ) ``` Callable named native queries in hbm.xml files should be migrated to the orm.xml version. E.g., the following `` - ``` { ? = call simpleScalar(:number) } ... final List results = entityManager .createNamedQuery("simpleScalar" ) .setParameter( 1, 1L ) .getResultList(); ``` should be changed to use `` instead - ```xml simpleScalar ``` TIP: To ease the migration, `` and `@NamedNativeQuery(callable = true)` queries will be translated and registered as named stored procedure in 6.0, but future versions will drop this automatic translation. Either `org.hibernate.procedure.ProcedureCall` or `jakarta.persistence.StoredProcedureQuery` can be used to execute the named query - ``` // Use StoredProcedureQuery final List personAndPhones = entityManager .createNamedStoredProcedureQuery( "simpleScalar" ) .setParameter( 1, 1L ) .getResultList(); // Use ProcedureCall final List personAndPhones = entityManager .unwrap( Session.class ) .getNamedProcedureCall( "simpleScalar" ) .setParameter( 1, 1L ) .getResultList(); ``` It is also no longer supported to execute procedures and functions via a dynamic (unnamed) `NativeQuery`. All such usages should be converted to use `ProcedureCall` or `StoredProcedureQuery` instead via `Session#createStoredProcedureCall` or `EntityManager#createStoredProcedureQuery`, respectively. ``` // Use StoredProcedureQuery final List personAndPhones = entityManager .createStoredProcedureQuery( "fn_person_and_phones", "personWithPhonesResultMapping" ) .setParameter( 1, 1L ) .getResultList(); // Use ProcedureCall final List personAndPhones = entityManager .unwrap( Session.class ) .createStoredProcedureCall( "fn_person_and_phones", "personWithPhonesResultMapping" ) .setParameter( 1, 1L ) .getResultList(); ``` [[proc-call-param]] == ProcedureCall / StoredProcedureQuery Parameters For parameters defined on a ProcedureCall as accepting binding (IN and INOUT), a distinction is now made between whether `setParameter` is called or not. If `setParameter` was called, whatever value was set by the user is passed to the database. If it was not called, Hibernate will not set any value which triggers the default value defined on the database procedure argument be used == Interceptor The signature of the `#onSave` method has been changed from ``` boolean onSave(Object entity, Serializable id, Object[] state, String[] propertyNames, Type[] types) ``` to ``` boolean onSave(Object entity, Object id, Object[] state, String[] propertyNames, Type[] types) ``` to account for the general change in expected identifier type from `Serializable` to `Object`. See <>. If custom Interceptor implementations do not use `@Override` on their implementations, this can lead to situations where a custom Interceptor no longer overrides this method. Moral of the story... always use `@Override` - this is why it exists == Removals === Legacy Hibernate Criteria API The legacy Hibernate Criteria API which was deprecated back in Hibernate 5.x and removed in 6.0. Usually, all queries using the legacy API can be modeled with the JPA Criteria API. In some cases it is necessary to use the Hibernate JPA Criteria extensions. === HQL fetch all properties clause The `fetch all properties` clause was removed from the HQL language without a replacement. A similar behavior can be achieved by constructing an entity graph and applying that as load graph: ```java EntityGraph entityGraph = entityManager.createEntityGraph( Document.class ); for ( Attribute attr : entityManager.getMetamodel().entity( Document.class ).getAttributes() ) { entityGraph.addAttributeNodes( attr.getName() ); } List documents = s.createQuery( "from Document", Document.class ) .setHint( "jakarta.persistence.loadgraph", entityGraph ) .getResultList(); ``` === JMX integration Hibernate no longer provides built-in support for integrating itself with JMX environments. === JACC integration Hibernate no longer provides built-in support for integrating itself with JACC environments. === Previously Deprecated features: * 'hibernate.classLoader.application', 'hibernate.classLoader.resources', 'hibernate.classLoader.hibernate' and 'hibernate.classLoader.environment': use 'hibernate.classLoaders' instead. * 'hibernate.hbm2dll.create_namespaces': use 'jakarta.persistence.create-database-schemas' or 'hibernate.hbm2ddl.create_namespaces' // todo (6.0) - surely there are more than this... == Width-first fetch determination Previous versions of Hibernate determined fetches using a depth-first approach, which occasionally led to odd "circularity" determination. Starting with 6.0, we now perform fetch determination using a width first approach. As back-ground, Hibernate does not always know that a fetch is truly circular. So it uses the approach that seeing the same table and column(s) as keys might be a circularity and stops processing fetches using that table/column(s) combination. Given a model such as ``` @Entity class Node { @ManyToOne Node node1; @ManyToOne Node node2; } ``` Hibernate previously walked the graph for the `Node#node1` sub-tree prior to walking the `Node#node2` sub-tree // todo (6.0) : clarify this some more? being all eager we are executing a query with 4 joins ``` FROM Node JOIN Node.node1 JOIN Node.node1.node2 JOIN Node.node2 JOIN Node.node2.node1 ``` whereas before we ``` FROM Node JOIN Node.node1 JOIN Node.node1.node2 ``` and issue a select for `Node.node2` if the FK of `Node.node2` is not null ``` FROM Node.node2 JOIN Node.node2.node1 JOIN Node.node2.node1.node2 ``` In this simple example this is not such a big deal, but if we increase the number of eager fetched self-associations to e.g. 3 like here: ``` @Entity class Node { @ManyToOne Node node1; @ManyToOne Node node2; @ManyToOne Node node3; } ``` this results in mind-blowing 15 joins ``` FROM Node JOIN Node.node1 JOIN Node.node1.node2 JOIN Node.node1.node2.node3 JOIN Node.node1.node3 JOIN Node.node1.node3.node2 JOIN Node.node2 JOIN Node.node2.node1 JOIN Node.node2.node1.node3 JOIN Node.node2.node3 JOIN Node.node2.node3.node1 JOIN Node.node3 JOIN Node.node3.node1 JOIN Node.node3.node1.node2 JOIN Node.node3.node2 JOIN Node.node3.node2.node1 ``` as you can see, this leads to a lot of joins very quickly, but the behavior of 5.x simply was not intuitive. To avoid creating so many joins, and also in general, we recommend that you use lazy fetching i.e. `@ManyToOne(fetch = FetchType.LAZY)` or `@OneToOne(fetch = FetchType.LAZY)` for most associations, but this is especially important if you have multiple self-referencing associations as you can see in the example. == Restructuring of `org.hibernate.loader` The contents of the `loader.collection` package were restructured into `loader.ast.spi` and `loader.ast.internal` as well as adapted to the SQM API. The contents of `loader.custom` were adapted and moved to `query.sql`. The contents of `loader.entity` and `loader.plan` were removed == Restructuring of the sql package The contents of `sql.ordering` were adapted and moved to `metamodel.mapping.ordering.ast`. Classes of the `sql` package that were previously used for building SQL, but aren't needed anymore, were removed. The SQL generation is now fully handled through the `SqlAstTranslator` which a `Dialect` exposes a factory for. == Deprecation of hbm.xml mappings Legacy `hbm.xml` mapping format is considered deprecated and will no longer supported beyond 6.x. == Association laziness now respected Prior to Hibernate 6.0, lazy associations that used `fetch="join"` or `@Fetch(FetchMode.JOIN)` were considered eager when loaded by-id i.e. through `Session#get`/`EntityManager#find`, even though for queries the association was treated as lazy. Starting with Hibernate 6.0, the laziness of such associations is properly respected, regardless of the fetch mechanism. Backwards compatibility can be achieved by specifying `lazy="false"` or `@ManyToOne(fetch = EAGER)`/`@OneToOne(fetch = EAGER)`/`@OneToMany(fetch = EAGER)`/`@ManyToMany(fetch = EAGER)`.