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/*
* Hibernate, Relational Persistence for Idiomatic Java
*
* License: GNU Lesser General Public License (LGPL), version 2.1 or later.
* See the lgpl.txt file in the root directory or .
*/
package org.hibernate;
/**
* An API for directly querying and managing the second-level cache.
*
* Hibernate has two levels of caching:
*
* - The first-level cache is better known as the persistence context.
* It's the collection of managed entity instances associated with an open
* {@link Session}.
*
- The second-level cache is shared between all sessions belonging to
* a given {@link SessionFactory}. It stores the state of an entity instance
* in a destructured format, as a tuple of persistent attribute values. The
* second-level cache is also used to store cached query result sets.
*
*
* By nature, a second-level cache tends to undermine the ACID properties of
* transaction processing in a relational database. A second-level cache is often
* by far the easiest way to improve the performance of a system, but only at the
* cost of making it much more difficult to reason about concurrency. And so the
* cache is a potential source of bugs which are difficult to isolate and reproduce.
*
* Therefore, only entities and collection roles explicitly annotated
* {@link jakarta.persistence.Cacheable} or {@link org.hibernate.annotations.Cache}
* are eligible for storage in the second-level cache, and so by default the state
* of an entity is always retrieved from the database when requested.
*
* Hibernate segments the second-level cache into named regions, one for
* each mapped entity hierarchy or collection role, each with its own policies for
* expiry, persistence, and replication, which must be configured externally to
* Hibernate. An entity hierarchy or collection role may be explicitly assigned a
* region using the {@link org.hibernate.annotations.Cache} annotation, but, by
* default, the region name is just the name of the entity class or collection role.
*
* The appropriate policies depend on the kind of data an entity represents. For
* example, a program might have different caching policies for "reference" data,
* for transactional data, and for data used for analytics. Ordinarily, the
* implementation of those policies is the responsibility of the
* {@linkplain org.hibernate.cache.spi.RegionFactory cache provider} and is
* transparent to code which makes use of a Hibernate {@link Session}. At worst,
* interaction with the cache may be controlled by specification of an explicit
* {@link CacheMode}.
*
* Very occasionally, it's necessary or advantageous to control the cache explicitly
* via programmatic eviction, using, for example, {@link #evictEntityData(Class)} to
* evict a whole cache region, or {@link #evictEntityData(Class, Object)}, to evict
* a single item.
*
* If multiple entities or roles are mapped to the same cache region, they share
* policies and even the same FIFO-type expiry queue (if any). This sounds useful,
* but comes with the downside that {@link #evictEntityData(Class)} for any one of
* the entities evicts all entities mapped to the same region. It's
* therefore much more common to have a distinct region for each entity and role.
*
* None of the operations of this interface respect any isolation or transactional
* semantics associated with the underlying caches. In particular, eviction via
* the methods of this interface causes an immediate "hard" removal outside any
* current transaction and/or locking scheme.
*
* The {@link org.hibernate.annotations.Cache} annotation also specifies a
* {@link org.hibernate.annotations.CacheConcurrencyStrategy}, a policy governing
* access to the second-level cache by concurrent transactions. Either:
*
* - {@linkplain org.hibernate.annotations.CacheConcurrencyStrategy#READ_ONLY
* read-only access} for immutable data,
*
- {@linkplain org.hibernate.annotations.CacheConcurrencyStrategy#NONSTRICT_READ_WRITE
* read/write access with no locking}, when concurrent updates are
* extremely improbable,
*
- {@linkplain org.hibernate.annotations.CacheConcurrencyStrategy#READ_WRITE
* read/write access using soft locks} when concurrent updates are possible
* but not common, or
*
- {@linkplain org.hibernate.annotations.CacheConcurrencyStrategy#TRANSACTIONAL
* transactional access} when concurrent updates are frequent.
*
*
* It's important to always explicitly specify an appropriate policy, taking into
* account the expected patterns of data access, most importantly, the frequency
* of updates.
*
* Query result sets may also be stored in the second-level cache. A query is made
* eligible for caching by calling
* {@link org.hibernate.query.SelectionQuery#setCacheable(boolean)}, and may be
* assigned to a region of the second-level cache by calling
* {@link org.hibernate.query.SelectionQuery#setCacheRegion(String)}. It's very
* important to understand that any entity instance in a query result set is cached
* by its id. If the entity itself is not {@linkplain org.hibernate.annotations.Cache
* cacheable}, or if the instance is not available in the second-level cache at the
* time a result set is retrieved from the cache, then the state of the entity must
* be read from the database. This negates the benefits of caching the result
* set. It's therefore very important to carefully "match" the caching policies
* of a query and the entities it returns.
*
* Hibernate does not itself contain a high-quality implementation of a second-level
* cache backend with expiry, persistence, and replication, and depends on a plug-in
* implementation of {@link org.hibernate.cache.spi.RegionFactory} to integrate a
* backend storage mechanism. Therefore, the second-level cache is completely disabled
* by default, unless {@value org.hibernate.cfg.AvailableSettings#CACHE_REGION_FACTORY}
* is explicitly specified. For convenience, the second-level cache may also be enabled
* or disabled using {@value org.hibernate.cfg.AvailableSettings#USE_SECOND_LEVEL_CACHE}.
*
* @author Steve Ebersole
*
* @see org.hibernate.annotations.Cache
* @see org.hibernate.annotations.CacheConcurrencyStrategy
* @see org.hibernate.cfg.AvailableSettings#CACHE_REGION_FACTORY
* @see org.hibernate.cfg.AvailableSettings#USE_SECOND_LEVEL_CACHE
*/
public interface Cache extends jakarta.persistence.Cache {
/**
* The {@link SessionFactory} to which this {@code Cache} belongs.
*
* @return The SessionFactory
*/
SessionFactory getSessionFactory();
// ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
// Entity data
/**
* Determine whether the cache contains an item for the entity of the given
* type, and with the given identifier.
*
* @param entityClass The entity type
* @param identifier The entity identifier
*
* @return True if the underlying cache contains corresponding data; false
* otherwise.
*/
boolean containsEntity(Class entityClass, Object identifier);
/**
* Determine whether the cache contains an item for the entity of the type
* with the given name, and with the given identifier.
*
* @param entityName The entity name
* @param identifier The entity identifier
*
* @return True if the underlying cache contains corresponding data; false otherwise.
*/
boolean containsEntity(String entityName, Object identifier);
/**
* Evicts the cached item for the entity of the given type, and with the
* given identifier, if there is any such item in the cache.
*
* @param entityClass The entity type
* @param identifier The entity identifier
*
* @since 5.3
*/
void evictEntityData(Class entityClass, Object identifier);
/**
* Evict the cached item for the entity of the type with the given name,
* and with the given identifier, if there is any such item in the cache.
*
* @param entityName The entity name
* @param identifier The entity identifier
*
* @since 5.3
*/
void evictEntityData(String entityName, Object identifier);
/**
* Evict all cached data from the cache region to which the given entity
* type is assigned. Thus, every cached item for the given entity type will
* be evicted, along with any cached items for any other entity type
* assigned to the same cache region.
*
* @param entityClass The entity type
*
* @since 5.3
*/
void evictEntityData(Class entityClass);
/**
* Evict all cached data from the cache region to which the given named
* entity type is assigned. Thus, every cached item for the given entity
* type will be evicted, along with any cached items for any other entity
* type assigned to the same cache region.
*
* @param entityName The entity name
*
* @since 5.3
*/
void evictEntityData(String entityName);
/**
* Evict all cached data from every cache region to which any entity type
* is assigned.
*
* @since 5.3
*/
void evictEntityData();
// ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
// Natural-id data
/**
* Evict all cached natural id mappings for the given entity type.
*
* @param entityClass The entity type
*
* @since 5.3
*/
void evictNaturalIdData(Class entityClass);
/**
* Evict all cached natural id mappings for the entity type with the
* given name.
*
* @param entityName The entity name
*
* @since 5.3
*/
void evictNaturalIdData(String entityName);
/**
* Evict all cached natural id mappings for every entity type.
*
* @since 5.3
*/
void evictNaturalIdData();
// ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
// Collection data
/**
* Determine whether the cache contains an item for the collection with the
* given role and given identifier.
*
* @param role The name of the collection role in the form
* {@code package.OwnerEntityName.collectionPropertyName}
* @param ownerIdentifier The identifier of the owning entity
*
* @return True if the underlying cache contains corresponding data; false otherwise.
*/
boolean containsCollection(String role, Object ownerIdentifier);
/**
* Evict the cached item for the collection with the given role and given
* identifier, if there is any such item in the cache.
*
* @param role The name of the collection role in the form
* {@code package.OwnerEntityName.collectionPropertyName}
* @param ownerIdentifier The identifier of the owning entity
*
* @since 5.3
*/
void evictCollectionData(String role, Object ownerIdentifier);
/**
* Evict all cached data from the cache region to which the given collection
* role is assigned.
*
* @param role The name of the collection role in the form
* {@code package.OwnerEntityName.collectionPropertyName}
*
* @since 5.3
*/
void evictCollectionData(String role);
/**
* Evict all cache data from every cache region to which some collection
* role is assigned.
*
* @since 5.3
*/
void evictCollectionData();
// ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
// Query result data
/**
* Determine whether the given region name contains cached query results.
*
* @param regionName The name of a cache region to which some query is assigned
*
* @return True if the underlying cache contains corresponding data; false otherwise.
*/
boolean containsQuery(String regionName);
/**
* Evict all cached query results from the default region.
*/
void evictDefaultQueryRegion();
/**
* Evict all cached query results from the region with the given name.
*
* @param regionName The cache name associated to the queries being cached.
*/
void evictQueryRegion(String regionName);
/**
* Evict all cached query results from every region.
*/
void evictQueryRegions();
// ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
// Misc
/**
* Evict all cached data from the named cache region.
*
* @since 5.3
*/
void evictRegion(String regionName);
/**
* {@inheritDoc}
*
* @apiNote This operation only affects cached data for entities, in keeping
* with the intent of the JPA specification, which only defines caching for
* entity data. To evict all data from every cache region, including cached
* collections, natural-id mappings, and cached query results, use
* {@link #evictAllRegions()} instead.
*/
@Override
default void evictAll() {
// Evict only the "JPA cache", which is purely defined as the entity regions.
evictEntityData();
}
/**
* Evict all cached data from every cache region.
*/
default void evictAllRegions() {
evictEntityData();
evictNaturalIdData();
evictCollectionData();
evictDefaultQueryRegion();
evictQueryRegions();
}
}