313 lines
13 KiB
Plaintext
313 lines
13 KiB
Plaintext
= 6.2 Migration Guide
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:toc:
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:toclevels: 4
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:docsBase: https://docs.jboss.org/hibernate/orm
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:versionDocBase: {docsBase}/6.2
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:userGuideBase: {versionDocBase}/userguide/html_single/Hibernate_User_Guide.html
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:javadocsBase: {versionDocBase}/javadocs
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:fn-logical-1-1: footnote:[A "true" one-to-one mapping is one in which both sides use the same primary-key value and the foreign-key is defined on the primary-key column to the other primary-key column. A "logical" one-to-one is really a many-to-one with a UNIQUE contraint on the key-side of the foreign-key. See link:{docsBase}/6.2/userguide/html_single/Hibernate_User_Guide.html#associations for more information]
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This guide discusses migration to Hibernate ORM version 6.2. For migration from
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earlier versions, see any other pertinent migration guides as well.
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* link:{docsBase}/6.1/migration-guide/migration-guide.html[6.1 Migration guide]
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* link:{docsBase}/6.0/migration-guide/migration-guide.html[6.0 Migration guide]
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[[ddl-changes]]
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== DDL type changes
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[[ddl-uuid-mariadv]]
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=== UUID mapping changes on MariaDB
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On MariaDB, the type code `SqlTypes.UUID` now by default refers to the DDL type `uuid`, whereas before it was using `binary(16)`.
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Due to this change, schema validation errors could occur on existing databases.
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The migration to `uuid` requires a migration expression like `cast(old as uuid)`.
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To retain backwards compatibility, configure the setting `hibernate.type.preferred_uuid_jdbc_type` to `BINARY`.
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[[ddl-uuid-sqlserver]]
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=== UUID mapping changes on SQL Server
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On SQL Server, the type code `SqlTypes.UUID` now by default refers to the DDL type `uniqueidentifier`, whereas before it was using `binary(16)`.
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Due to this change, schema validation errors could occur on existing databases.
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The migration to `uuid` requires a migration expression like `cast(old as uuid)`.
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To retain backwards compatibility, configure the setting `hibernate.type.preferred_uuid_jdbc_type` to `BINARY`.
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[[ddl-json-oracle]]
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=== JSON mapping changes on Oracle
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On Oracle 12.1+, the type code `SqlTypes.JSON` now by default refers to the DDL type `blob` and on 21+ to `json`, whereas before it was using `clob`.
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Due to this change, schema validation errors could occur on existing databases.
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The migration to `blob` and `json` requires a migration expression like `cast(old as blob)` and `cast(old as json)` respectively.
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To get the old behavior, annotate the column with `@Column(definition = "clob")`.
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This change was done because `blob` and `json` are way more efficient and because we don't expect wide usage of `SqlTypes.JSON` yet.
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[[ddl-json-h2]]
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=== JSON mapping changes on H2
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On H2 1.4.200+, the type code `SqlTypes.JSON` now by default refers to the DDL type `json`, whereas before it was using `clob`.
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Due to this change, schema validation errors could occur on existing databases.
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The migration to `json` requires a migration expression like `cast(old as json)`.
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Note that this change in behavior is backwards compatible and you do not need to change your schema,
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unless you are running into schema validation errors and want to fix them.
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To get the old behavior, annotate the column with `@Column(definition = "clob")`.
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This change was done because the native `json` type is more efficient and because we don't expect wide usage of `SqlTypes.JSON` yet.
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[[ddl-implicit-datatype-enum]]
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=== Datatype for enums
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Hibernate 6.1 changed the implicit SQL datatype for mapping enums from `TINYINT` to `SMALLINT` to account for
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Java supporting up to 32K enum entries which would overflow a `TINYINT`. However, almost no one is developing
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enums with that many entries. Starting in 6.2, the choice of implicit SQL datatype for storing enums is sensitive
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to the number of entries defined on the enum class. Enums with more than 128 entries are stored as `SMALLINT` implicitly,
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otherwise `TINYINT` is used.
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NOTE:: On MySQL, enums are now stored using the `ENUM` datatype by default
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[[ddl-timezones]]
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=== Timezone and offset storage
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`hibernate.timezone.default_storage` now defaults to `DEFAULT`, meaning:
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* if the database/dialect supports it, time zones of date/time values are stored by using the `timestamp with time zone` SQL column type;
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* otherwise, time zones of date/time values are not stored, and date/time values are normalized to UTC.
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In Hibernate ORM 5, time zones were not stored, but normalized to the time zone set in `hibernate.jdbc.time_zone`, the JVM time zone by default.
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This discrepancy might lead to incorrect date/time being loaded from the database
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for properties of type `OffsetDateTime` and `ZonedDateTime`
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if your application was migrated from Hibernate ORM 5 and
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was setting `hibernate.jdbc.time_zone` to a non-UTC timezone.
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To revert to Hibernate ORM 5's behavior, set the configuration property `hibernate.timezone.default_storage` to `NORMALIZE`.
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[[ddl-check]]
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=== Check constraints for boolean and enum mappings
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Check constraints now correctly generated for boolean and enum mappings
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[[logical-1-1-unique]]
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== UNIQUE constraint for optional one-to-one mappings
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Previous versions of Hibernate did not create a UNIQUE constraint on the database for
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logical{fn-logical-1-1} one-to-one associations marked as optional. That is not correct
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from a modeling perspective as the foreign-key should be constrained as unique. Starting in
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6.2, those UNIQUE constraints are now created.
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If this causes problems for an application, creation of the UNIQUE constraint can be skipped
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using `@jakarta.persistence.ForeignKey(NO_CONSTRAINT)`.
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Often the association can also be remapped using `@ManyToOne` + `@UniqueConstraint` instead.
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[[oracle-number]]
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== Column type inference for `number(n,0)` in native SQL queries on Oracle
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Since Hibernate 6.0, columns of type `number` with scale 0 on Oracle were interpreted as `boolean`, `tinyint`, `smallint`, `int`, or `bigint`,
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depending on the precision.
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Now, columns of type `number` with scale 0 are interpreted as `int` or `bigint` depending on the precision.
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[[database-versions]]
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== Removal of support for legacy database versions
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This version introduces the concept of minimum supported database version for most of the database dialects that Hibernate supports.
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This implies that the legacy code for versions that are no longer supported by their vendors, has been removed from the hibernate-core module.
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It is, however, still available in the hibernate-community-dialects module, just under a different package,
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namely `org.hibernate.community.dialect` instead of `org.hibernate.dialect`.
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Note that this also includes version specific dialects like `PostgreSQL81Dialect`, `MariaDB102Dialect` etc.
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The minimum supported dialect versions are as follows:
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|===
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|Dialect |Minimum supported version
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|MySQL
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|5.7
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|SQL Server 2008
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|10.0
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|DB2
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|10.5
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|DB2i
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|7.1
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|DB2z
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|12.1
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|MariaDB
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|10.3
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|H2
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|1.4.197
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|Derby
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|10.14.2
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|Sybase
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|16.0
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|CockroachDB
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|21.1
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|PostgreSQL
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|10.0
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|Oracle
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|11.2
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|HSQLDB
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|2.6.1
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|===
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[[cdi]]
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== Changes to CDI handling
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When CDI is available and configured, Hibernate can use the CDI `BeanManager` to resolve various
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bean references. JPA explicitly defines support for this for both attribute-converters and
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entity-listeners.
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Hibernate also has the ability to resolve some of its extension points using the CDI `BeanManager`.
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Version 6.2 adds a new boolean `hibernate.cdi.extensions` setting to control this:
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true:: indicates to use the CDI `BeanManager` to resolve these extensions
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false:: (the default) indicates to not use the CDI `BeanManager` to resolve these extensions
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The previous behavior was to always load the extensions from CDI if it was available. However,
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this can sometimes lead to timing issues with the `BeanManager` not being ready for use when we need
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those extension beans. Starting with 6.2, these extensions will only be resolved from the CDI
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`BeanManager` if `hibernate.cdi.extensions` is set to true.
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[[enhancement]]
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== Change enhancement defaults and deprecation
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The `enableLazyInitialization` and `enableDirtyTracking` enhancement tooling options in the ANT task, Maven Plugin and Gradle Plugin,
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as well as the respective `hibernate.enhancer.enableLazyInitialization` and `hibernate.enhancer.enableDirtyTracking` configuration settings,
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switched their default values to `true` and the settings are now deprecated for removal without replacement.
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See link:https://hibernate.atlassian.net/browse/HHH-15641[HHH-15641] for details.
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The global property `hibernate.bytecode.use_reflection_optimizer` switched the default value to `true`
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and the setting is now deprecated for removal without replacement. See link:https://hibernate.atlassian.net/browse/HHH-15631[HHH-15631] for details.
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// ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
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// API / internal
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[[api-internal]]
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== API / SPI / Internal distinction
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Dating back to Hibernate 5.x, we have been cleaning up packages to make the distinction between contracts
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which are considered an API, SPI and internal. We've done some more work on that in 6.2 as well.
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[[api-internal-cfg]]
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=== org.hibernate.cfg package
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The `org.hibernate.cfg` package has been especially egregious in mixing APIs and internals historically. The only
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true API contracts in this package include `org.hibernate.cfg.AvailableSettings` and `org.hibernate.cfg.Configuration`
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which have been left in place.
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Additionally, while it is considered an internal detail, `org.hibernate.cfg.Environment` has also been left in place
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as many applications have historically used it rather than `org.hibernate.cfg.AvailableSettings`.
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A number of contracts are considered deprecated and have been left in place.
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The rest have been moved under the `org.hibernate.boot` package where they more properly belong.
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[[api-internal-loader]]
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=== org.hibernate.loader package
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Most of the `org.hibernate.loader` package is really an SPI centered around `org.hibernate.loader.ast`
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which supports loading entities and collections by various types of keys - primary-key, unique-key,
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foreign-key and natural-key. `org.hibernate.loader.ast` has already been previously well-defined
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in terms of SPI / internal split.
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// ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
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// SPI
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[[spi]]
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== Changes in integration contracts (SPIs)
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SPI is a category of interfaces that we strive to maintain with more stability than internal APIs, but which might change from minor to minor
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upgrades as the project needs a bit of flexibility.
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These are not considered public API so should not affect end-user (application developer's) code but such changes might break integration
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with other libraries which integrate with Hibernate ORM.
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During the development of Hibernate ORM 6.2 the following SPIs have seen some modifications:
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[[spi-lock]]
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=== EntityPersister#lock
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Changed from `EntityPersister#lock(Object, Object, Object, LockMode, SharedSessionContractImplementor)` to `EntityPersister#lock(Object, Object, Object, LockMode, EventSource)`.
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This should be trivial to fix as `EventSource` and `SharedSessionContractImplementor` are both contracts of the `SessionImpl`; to help transition we recommend using
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the methods `isEventSource` and `asEventSource`, available on the `SharedSessionContractImplementor`contract.
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N.B. method `asEventSource` will throw an exception for non-compatible type; but because of previous restrictions all invocations to `lock` actually had to be compatible:
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this is now made cleared with the signature change.
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[[spi-multiLoad]]
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=== EntityPersister#multiLoad
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The same change was applieed to `multiLoad(Object[] ids, SharedSessionContractImplementor session, MultiIdLoadOptions loadOptions)`,
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now migrated to `multiLoad(Object[] ids, EventSource session, MultiIdLoadOptions loadOptions)`
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The same conversion can be safely applied.
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[[spi-afterDeserialize]]
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=== Executable#afterDeserialize
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As in the previous two cases, the parameter now accepts `EventSource` instead of `SharedSessionContractImplementor`.
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The same conversion can be safely applied.
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[[spi-JdbcType]]
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=== JdbcType#getJdbcRecommendedJavaTypeMapping()
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The return type of `JdbcType#getJdbcRecommendedJavaTypeMapping()` was changed from `BasicJavaType` to `JavaType`.
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Even though this is a source compatible change, it breaks binary backwards compatibility.
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We decided that it is fine to do this though, as this is a new minor version.
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[[query-path-comparison]]
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=== Query Path comparison
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As of 6.2, comparisons of paths are type checked early. This means that a comparison predicate in HQL or JPA Criteria
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might fail to construct if the types of the left and right hand side are not compatible.
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In general, two types T1 and T2 are considered compatible if
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* T1 == T2
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* T1 instanceof T2 or T2 instanceof T1
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* T1 is temporal and T2 is temporal
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* T1 or T2 is unknown
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* T1 can be widened/coerced to T2, or the other way around
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Widening/Coercion usually refers to e.g. widening an integer to a long, but can also mean
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that a string constant can be interpreted as enum when comparing against an enum attribute.
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Note that a comparison of a temporal attribute against a string literal worked before
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```sql
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from MyEntity e where e.temporalAttribute > '2020-01-01'
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```
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but has to be changed to the proper temporal literal now
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```sql
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from MyEntity e where e.temporalAttribute > date 2020-01-01
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```
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