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/*
* Copyright (c) 2011, 2021 Oracle and/or its affiliates. All rights reserved.
*
* This program and the accompanying materials are made available under the
* terms of the Eclipse Public License v. 2.0 which is available at
* http://www.eclipse.org/legal/epl-2.0,
* or the Eclipse Distribution License v. 1.0 which is available at
* http://www.eclipse.org/org/documents/edl-v10.php.
*
* SPDX-License-Identifier: EPL-2.0 OR BSD-3-Clause
*/
// Contributors:
// Oracle - initial API and implementation
// 05/19/2014-2.6 Tomas Kraus
// - 437578: Added cacheable field and updated setting isolation from parent.
package org.eclipse.persistence.descriptors;
import java.io.Serializable;
import java.util.HashMap;
import java.util.HashSet;
import java.util.List;
import java.util.Map;
import java.util.Set;
import org.eclipse.persistence.annotations.CacheCoordinationType;
import org.eclipse.persistence.annotations.CacheKeyType;
import org.eclipse.persistence.annotations.DatabaseChangeNotificationType;
import org.eclipse.persistence.config.CacheIsolationType;
import org.eclipse.persistence.exceptions.DescriptorException;
import org.eclipse.persistence.exceptions.ValidationException;
import org.eclipse.persistence.expressions.Expression;
import org.eclipse.persistence.internal.helper.ClassConstants;
import org.eclipse.persistence.internal.helper.DatabaseField;
import org.eclipse.persistence.internal.identitymaps.CacheId;
import org.eclipse.persistence.internal.identitymaps.CacheKey;
import org.eclipse.persistence.internal.identitymaps.IdentityMap;
import org.eclipse.persistence.internal.security.PrivilegedAccessHelper;
import org.eclipse.persistence.internal.sessions.AbstractRecord;
import org.eclipse.persistence.internal.sessions.AbstractSession;
import org.eclipse.persistence.internal.sessions.ObjectChangeSet;
import org.eclipse.persistence.logging.SessionLog;
import org.eclipse.persistence.mappings.DatabaseMapping;
import org.eclipse.persistence.sessions.DatabaseSession;
import org.eclipse.persistence.sessions.interceptors.CacheInterceptor;
/**
* Purpose:
* CachePolicy defines the cache configuration.
* EclipseLink supports an integrated shared (L2) object cache.
* Caching is enabled by default.
* To disable caching use:
* setCacheIsolation(CacheIsolationType.ISOLATED)
*
* @see ClassDescriptor
*/
public class CachePolicy implements Cloneable, Serializable {
protected Class extends IdentityMap> identityMapClass;
protected int identityMapSize;
protected boolean shouldAlwaysRefreshCache;
protected boolean shouldOnlyRefreshCacheIfNewerVersion;
protected boolean shouldDisableCacheHits;
protected Class extends IdentityMap> remoteIdentityMapClass;
protected int remoteIdentityMapSize;
protected boolean shouldAlwaysRefreshCacheOnRemote;
protected boolean shouldDisableCacheHitsOnRemote;
// Used only to evaluate cache isolation type in this class methods.
/**
* Entity @Cacheable annotation value.
* This value contains Boolean value equal to annotation value or null when
* no annotation was set for entity. Parent values are ignored, value refers
* to current class only.
* This value is set only when SharedCacheMode allows to override caching
* on entity level (DISABLE_SELECTIVE or ENABLE_SELECTIVE). Default value
* is null
what means no annotation is present in current class.
*/
private Boolean cacheable = null;
// this attribute is used to determine what classes should be isolated from the shared cache
// and the severity of their isolation.
protected CacheIsolationType cacheIsolation;
/** Configures how objects will be sent via cache synchronization, if synchronization is enabled. */
protected int cacheSynchronizationType = UNDEFINED_OBJECT_CHANGE_BEHAVIOR;
public static final int UNDEFINED_OBJECT_CHANGE_BEHAVIOR = 0;
public static final int SEND_OBJECT_CHANGES = 1;
public static final int INVALIDATE_CHANGED_OBJECTS = 2;
public static final int SEND_NEW_OBJECTS_WITH_CHANGES = 3;
public static final int DO_NOT_SEND_CHANGES = 4;
/** Configures how the unit of work uses the session cache. */
protected int unitOfWorkCacheIsolationLevel = UNDEFINED_ISOLATATION;
/* Required to resolve initialization. */
protected boolean wasDefaultUnitOfWorkCacheIsolationLevel;
public static final int UNDEFINED_ISOLATATION = -1;
public static final int USE_SESSION_CACHE_AFTER_TRANSACTION = 0;
public static final int ISOLATE_NEW_DATA_AFTER_TRANSACTION = 1; // this is the default behaviour even when undefined.
public static final int ISOLATE_CACHE_AFTER_TRANSACTION = 2;
public static final int ISOLATE_FROM_CLIENT_SESSION = 3; // Entity Instances only exist in UOW and shared cache.
public static final int ISOLATE_CACHE_ALWAYS = 4;
/** Allow cache key type to be configured. */
protected CacheKeyType cacheKeyType;
//Added for interceptor support.
protected Class extends CacheInterceptor> cacheInterceptorClass;
//Added for interceptor support.
protected String cacheInterceptorClassName;
/** This flag controls how the MergeManager should merge an Entity when merging into the shared cache.*/
protected boolean fullyMergeEntity;
/**
* In certain cases and cache types it is more efficient to preFetch the cache keys from the cache when
* building the results of the query. Set this flag to true to prefetch the results.
*/
protected boolean prefetchCacheKeys;
protected Map, CacheIndex> cacheIndexes;
/** Allows configuration of database change event notification. */
protected DatabaseChangeNotificationType databaseChangeNotificationType;
/**
* PUBLIC:
* Return a new descriptor.
*/
public CachePolicy() {
this.identityMapSize = -1;
this.remoteIdentityMapSize = -1;
}
/**
* Returns what type of database change notification an entity/descriptor should use.
* This is only relevant if the persistence unit/session has been configured with a DatabaseEventListener,
* such as the OracleChangeNotificationListener that receives database change events.
* This allows for the EclipseLink cache to be invalidated or updated from database changes.
*/
public DatabaseChangeNotificationType getDatabaseChangeNotificationType() {
return databaseChangeNotificationType;
}
/**
* Configures what type of database change notification an entity/descriptor should use.
* This is only relevant if the persistence unit/session has been configured with a DatabaseEventListener,
* such as the OracleChangeNotificationListener that receives database change events.
* This allows for the EclipseLink cache to be invalidated or updated from database changes.
*/
public void setDatabaseChangeNotificationType(DatabaseChangeNotificationType databaseChangeNotificationType) {
this.databaseChangeNotificationType = databaseChangeNotificationType;
}
/**
* INTERNAL:
* Allow the inheritance properties of the descriptor to be initialized.
* The descriptor's parent must first be initialized.
*/
public void initializeFromParent(CachePolicy parentPolicy, ClassDescriptor descriptor, ClassDescriptor descriptorDescriptor, AbstractSession session) throws DescriptorException {
// If the parent is isolated, then the child must also be isolated.
if (!parentPolicy.isSharedIsolation()) {
// Do not override cache isolation when explicitly enabled by @Cacheable(true) annotation in current class.
boolean copyParrent = cacheable == null || !cacheable;
if (!isIsolated() && (getCacheIsolation() != parentPolicy.getCacheIsolation()) && copyParrent) {
session.log(SessionLog.WARNING, SessionLog.METADATA, "overriding_cache_isolation",
new Object[]{descriptorDescriptor.getAlias(),
parentPolicy.getCacheIsolation(), descriptor.getAlias(),
getCacheIsolation()});
setCacheIsolation(parentPolicy.getCacheIsolation());
}
}
// Child must maintain the same indexes as the parent.
for (CacheIndex index : parentPolicy.getCacheIndexes().values()) {
addCacheIndex(index);
}
if ((getDatabaseChangeNotificationType() == null) && (parentPolicy.getDatabaseChangeNotificationType() != null)) {
setDatabaseChangeNotificationType(parentPolicy.getDatabaseChangeNotificationType());
}
if ((getCacheSynchronizationType() == UNDEFINED_OBJECT_CHANGE_BEHAVIOR)
&& (parentPolicy.getCacheSynchronizationType() != UNDEFINED_OBJECT_CHANGE_BEHAVIOR)) {
setCacheSynchronizationType(parentPolicy.getCacheSynchronizationType());
}
}
/**
* INTERNAL:
* Initialize the cache isolation setting.
* This may need to be called multiple times as notifyReferencingDescriptorsOfIsolation() can change the cache isolation.
*/
public void postInitialize(ClassDescriptor descriptor, AbstractSession session) throws DescriptorException {
if (!isSharedIsolation()) {
descriptor.notifyReferencingDescriptorsOfIsolation(session);
}
// PERF: If using isolated cache, then default uow isolation to always (avoids merge/double build).
if ((getUnitOfWorkCacheIsolationLevel() == UNDEFINED_ISOLATATION) || this.wasDefaultUnitOfWorkCacheIsolationLevel) {
this.wasDefaultUnitOfWorkCacheIsolationLevel = true;
if (isIsolated()) {
setUnitOfWorkCacheIsolationLevel(ISOLATE_CACHE_ALWAYS);
} else if (isProtectedIsolation()) {
setUnitOfWorkCacheIsolationLevel(ISOLATE_FROM_CLIENT_SESSION);
} else {
setUnitOfWorkCacheIsolationLevel(ISOLATE_NEW_DATA_AFTER_TRANSACTION);
}
}
// Record that there is an isolated class in the project.
if (!isSharedIsolation()) {
session.getProject().setHasIsolatedClasses(true);
}
if (!shouldIsolateObjectsInUnitOfWork() && !descriptor.shouldBeReadOnly()) {
session.getProject().setHasNonIsolatedUOWClasses(true);
}
}
/**
* INTERNAL:
* Allow the inheritance properties of the descriptor to be initialized.
* The descriptor's parent must first be initialized.
*/
public void initialize(ClassDescriptor descriptor, AbstractSession session) throws DescriptorException {
if (hasCacheIndexes()) {
for (CacheIndex index : getCacheIndexes().values()) {
for (int count = 0; count < index.getFields().size(); count++) {
index.getFields().set(count, descriptor.buildField(index.getFields().get(count)));
}
}
}
for (DatabaseMapping mapping : descriptor.getMappings()) {
if (!mapping.isCacheable()) {
if (isSharedIsolation()) {
setCacheIsolation(CacheIsolationType.PROTECTED);
}
}
if (mapping.isForeignReferenceMapping()) {
ClassDescriptor referencedDescriptor = mapping.getReferenceDescriptor();
if (referencedDescriptor!= null) {
if (isSharedIsolation() && !referencedDescriptor.getCachePolicy().isSharedIsolation()) {
setCacheIsolation(CacheIsolationType.PROTECTED);
}
}
}
if (mapping.isAggregateObjectMapping()) {
ClassDescriptor referencedDescriptor = mapping.getReferenceDescriptor();
if (referencedDescriptor != null) {
if (isSharedIsolation() && !referencedDescriptor.getCachePolicy().isSharedIsolation()) {
setCacheIsolation(CacheIsolationType.PROTECTED);
}
}
}
}
if (this.databaseChangeNotificationType == null) {
this.databaseChangeNotificationType = DatabaseChangeNotificationType.INVALIDATE;
}
if (this.cacheSynchronizationType == UNDEFINED_OBJECT_CHANGE_BEHAVIOR) {
this.cacheSynchronizationType = SEND_OBJECT_CHANGES;
}
if ((this.databaseChangeNotificationType != DatabaseChangeNotificationType.NONE)
&& session.isDatabaseSession() && ((DatabaseSession)session).getDatabaseEventListener() != null) {
((DatabaseSession)session).getDatabaseEventListener().initialize(descriptor, session);
}
}
/**
* PUBLIC:
* Return the cache index for the field names.
*/
public CacheIndex getCacheIndex(List fields) {
return getCacheIndexes().get(fields);
}
/**
* PUBLIC:
* Add the cache index to the descriptor's cache settings.
* This allows for cache hits to be obtained on non-primary key fields.
* The primary key is always indexed in the cache.
* Cache indexes are defined by their database column names.
*/
public void addCacheIndex(CacheIndex index) {
getCacheIndexes().put(index.getFields(), index);
}
/**
* PUBLIC:
* Add the cache index to the descriptor's cache settings.
* This allows for cache hits to be obtained on non-primary key fields.
* The primary key is always indexed in the cache.
* Cache indexes are defined by their database column names.
*/
public void addCacheIndex(String... fields) {
addCacheIndex(new CacheIndex(fields));
}
/**
* PUBLIC:
* Add the cache index to the descriptor's cache settings.
* This allows for cache hits to be obtained on non-primary key fields.
* The primary key is always indexed in the cache.
* Cache indexes are defined by their database column names.
*/
public void addCacheIndex(DatabaseField[] fields) {
addCacheIndex(new CacheIndex(fields));
}
public boolean hasCacheIndexes() {
return (this.cacheIndexes != null) && (!this.cacheIndexes.isEmpty());
}
public Map, CacheIndex> getCacheIndexes() {
if (this.cacheIndexes == null) {
this.cacheIndexes = new HashMap<>();
}
return this.cacheIndexes;
}
public void setCacheIndexes(Map, CacheIndex> cacheIndexes) {
this.cacheIndexes = cacheIndexes;
}
@Override
public CachePolicy clone() {
try {
return (CachePolicy)super.clone();
} catch (CloneNotSupportedException cnse) {
throw new InternalError(cnse.getMessage());
}
}
/**
* INTERNAL:
* Some attributes have default values defined in Project.
* If such the value for the attribute hasn't been set then the default value is assigned.
*/
public void assignDefaultValues(AbstractSession session) {
if(this.identityMapSize == -1) {
this.identityMapSize = session.getProject().getDefaultIdentityMapSize();
}
if(this.identityMapClass == null) {
this.identityMapClass = session.getProject().getDefaultIdentityMapClass();
}
if(this.cacheIsolation == null) {
this.cacheIsolation = session.getProject().getDefaultCacheIsolation();
}
}
/**
* INTERNAL:
* Convert all the class-name-based settings in this Descriptor to actual class-based
* settings. This method is used when converting a project that has been built
* with class names to a project with classes.
*/
public void convertClassNamesToClasses(ClassLoader classLoader) {
if (this.cacheInterceptorClass == null && this.cacheInterceptorClassName != null) {
this.cacheInterceptorClass = PrivilegedAccessHelper.callDoPrivilegedWithException(
() -> PrivilegedAccessHelper.getClassForName(this.cacheInterceptorClassName, true, classLoader),
(ex) -> ValidationException.classNotFoundWhileConvertingClassNames(this.cacheInterceptorClassName, ex)
);
}
}
/**
* @return the fullyMergeEntity
*/
public boolean getFullyMergeEntity() {
return fullyMergeEntity;
}
/**
* ADVANCED:
* Set what cache key type to use to store the object in the cache.
*/
public void setCacheKeyType(CacheKeyType cacheKeyType) {
this.cacheKeyType = cacheKeyType;
}
/**
* ADVANCED:
* Return what cache key type to use to store the object in the cache.
*/
public CacheKeyType getCacheKeyType() {
return cacheKeyType;
}
/**
* A CacheInterceptor is an adaptor that when overridden and assigned to a Descriptor all interaction
* between EclipseLink and the internal cache for that class will pass through the Interceptor.
* Advanced users could use this interceptor to audit, profile or log cache access. This Interceptor
* could also be used to redirect or augment the TopLink cache with an alternate cache mechanism.
* EclipseLink's configurated IdentityMaps will be passed to the Interceptor constructor.
*
* As with IdentityMaps an entire class inheritance hierarchy will share the same interceptor.
* @see org.eclipse.persistence.sessions.interceptors.CacheInterceptor
*/
@SuppressWarnings({"unchecked"})
public Class getCacheInterceptorClass(){
return (Class) this.cacheInterceptorClass;
}
/**
* A CacheInterceptor is an adaptor that when overridden and assigned to a Descriptor all interaction
* between EclipseLink and the internal cache for that class will pass through the Interceptor.
* Advanced users could use this interceptor to audit, profile or log cache access. This Interceptor
* could also be used to redirect or augment the TopLink cache with an alternate cache mechanism.
* EclipseLink's configurated IdentityMaps will be passed to the Interceptor constructor.
*
* As with IdentityMaps an entire class inheritance hierarchy will share the same interceptor.
* @see org.eclipse.persistence.sessions.interceptors.CacheInterceptor
*/
public String getCacheInterceptorClassName(){
return this.cacheInterceptorClassName;
}
/**
* PUBLIC:
* Get a value indicating the type of cache synchronization that will be used on objects of
* this type. Possible values are:
* SEND_OBJECT_CHANGES
* INVALIDATE_CHANGED_OBJECTS
* SEND_NEW_OBJECTS+WITH_CHANGES
* DO_NOT_SEND_CHANGES
* @return int
*
*/
public int getCacheSynchronizationType() {
return cacheSynchronizationType;
}
/**
* INTERNAL:
* Return the class of identity map to be used by this descriptor.
* The default is the "SoftCacheWeakIdentityMap".
*/
@SuppressWarnings({"unchecked"})
public Class getIdentityMapClass() {
return (Class) identityMapClass;
}
/**
* PUBLIC:
* Return the size of the identity map.
*/
public int getIdentityMapSize() {
return identityMapSize;
}
/**
* INTERNAL:
* Return the class of identity map to be used by this descriptor.
* The default is the "SoftCacheWeakIdentityMap".
*/
@SuppressWarnings({"unchecked"})
public Class getRemoteIdentityMapClass() {
if (remoteIdentityMapClass == null) {
remoteIdentityMapClass = getIdentityMapClass();
}
return (Class) remoteIdentityMapClass;
}
/**
* PUBLIC:
* Return the size of the remote identity map.
*/
public int getRemoteIdentityMapSize() {
if (remoteIdentityMapSize == -1) {
remoteIdentityMapSize = getIdentityMapSize();
}
return remoteIdentityMapSize;
}
/**
* PUBLIC:
* Return if for cache hits on primary key read object queries to be disabled.
*
* @see ClassDescriptor#disableCacheHits()
*/
public boolean shouldDisableCacheHits() {
return shouldDisableCacheHits;
}
/**
* PUBLIC:
* Return if the remote server session cache hits on primary key read object queries is aloowed or not.
*
* @see ClassDescriptor#disableCacheHitsOnRemote()
*/
public boolean shouldDisableCacheHitsOnRemote() {
return shouldDisableCacheHitsOnRemote;
}
/**
* PUBLIC:
* This method returns true
if the ClassDescriptor
is configured to only refresh the cache
* if the data received from the database by a query is newer than the data in the cache (as determined by the
* optimistic locking field). Otherwise, it returns false
.
*
* @see #setShouldOnlyRefreshCacheIfNewerVersion
*/
public boolean shouldOnlyRefreshCacheIfNewerVersion() {
return shouldOnlyRefreshCacheIfNewerVersion;
}
/**
* PUBLIC:
* This method returns true
if the ClassDescriptor
is configured to always refresh
* the cache if data is received from the database by any query. Otherwise, it returns false
.
*
* @see #setShouldAlwaysRefreshCache
*/
public boolean shouldAlwaysRefreshCache() {
return shouldAlwaysRefreshCache;
}
/**
* PUBLIC:
* This method returns true
if the ClassDescriptor
is configured to always remotely
* refresh the cache if data is received from the database by any query in a {@link org.eclipse.persistence.sessions.remote.RemoteSession}.
* Otherwise, it returns false
.
*
* @see #setShouldAlwaysRefreshCacheOnRemote
*/
public boolean shouldAlwaysRefreshCacheOnRemote() {
return shouldAlwaysRefreshCacheOnRemote;
}
/**
* PUBLIC:
* Set if cache hits on primary key read object queries should be disabled.
*
* @see ClassDescriptor#alwaysRefreshCache()
*/
public void setShouldDisableCacheHits(boolean shouldDisableCacheHits) {
this.shouldDisableCacheHits = shouldDisableCacheHits;
}
/**
* PUBLIC:
* Set if the remote session cache hits on primary key read object queries is allowed or not.
*
* @see ClassDescriptor#disableCacheHitsOnRemote()
*/
public void setShouldDisableCacheHitsOnRemote(boolean shouldDisableCacheHitsOnRemote) {
this.shouldDisableCacheHitsOnRemote = shouldDisableCacheHitsOnRemote;
}
/**
* PUBLIC:
* When the shouldOnlyRefreshCacheIfNewerVersion
argument passed into this method is true
,
* this method configures a ClassDescriptor
to only refresh the cache if the data received from the database
* by a query is newer than the data in the cache (as determined by the optimistic locking field) and as long as one of the following is true:
*
*
* - the
ClassDescriptor
was configured by calling {@link ClassDescriptor#alwaysRefreshCache} or {@link ClassDescriptor#alwaysRefreshCacheOnRemote},
* - the query was configured by calling {@link org.eclipse.persistence.queries.ObjectLevelReadQuery#refreshIdentityMapResult}, or
* - the query was a call to {@link org.eclipse.persistence.sessions.Session#refreshObject}
*
*
*
* However, if a query hits the cache, data is not refreshed regardless of how this setting is configured. For example, by default,
* when a query for a single object based on its primary key is executed, OracleAS TopLink will first look in the cache for the object.
* If the object is in the cache, the cached object is returned and data is not refreshed. To avoid cache hits, use
* the {@link ClassDescriptor#disableCacheHits} method.
*
* Also note that the {@link org.eclipse.persistence.sessions.UnitOfWork} will not refresh its registered objects.
*
* When the shouldOnlyRefreshCacheIfNewerVersion
argument passed into this method is false
, this method
* ensures that a ClassDescriptor
is not configured to only refresh the cache if the data received from the database by a
* query is newer than the data in the cache (as determined by the optimistic locking field).
*
* @see ClassDescriptor#onlyRefreshCacheIfNewerVersion
* @see ClassDescriptor#dontOnlyRefreshCacheIfNewerVersion
*/
public void setShouldOnlyRefreshCacheIfNewerVersion(boolean shouldOnlyRefreshCacheIfNewerVersion) {
this.shouldOnlyRefreshCacheIfNewerVersion = shouldOnlyRefreshCacheIfNewerVersion;
}
/**
* PUBLIC:
* When the shouldAlwaysRefreshCache
argument passed into this method is true
,
* this method configures a ClassDescriptor
to always refresh the cache if data is received from
* the database by any query.
*
* However, if a query hits the cache, data is not refreshed regardless of how this setting is configured.
* For example, by default, when a query for a single object based on its primary key is executed, OracleAS TopLink
* will first look in the cache for the object. If the object is in the cache, the cached object is returned and
* data is not refreshed. To avoid cache hits, use the {@link ClassDescriptor#disableCacheHits} method.
*
* Also note that the {@link org.eclipse.persistence.sessions.UnitOfWork} will not refresh its registered objects.
*
* Use this property with caution because it can lead to poor performance and may refresh on queries when it is not desired.
* Normally, if you require fresh data, it is better to configure a query with {@link org.eclipse.persistence.queries.ObjectLevelReadQuery#refreshIdentityMapResult}.
* To ensure that refreshes are only done when required, use this method in conjunction with {@link ClassDescriptor#onlyRefreshCacheIfNewerVersion}.
*
* When the shouldAlwaysRefreshCache
argument passed into this method is false
, this method
* ensures that a ClassDescriptor
is not configured to always refresh the cache if data is received from the database by any query.
*
* @see ClassDescriptor#alwaysRefreshCache
* @see ClassDescriptor#dontAlwaysRefreshCache
*/
public void setShouldAlwaysRefreshCache(boolean shouldAlwaysRefreshCache) {
this.shouldAlwaysRefreshCache = shouldAlwaysRefreshCache;
}
/**
* PUBLIC:
* When the shouldAlwaysRefreshCacheOnRemote
argument passed into this method is true
,
* this method configures a ClassDescriptor
to always remotely refresh the cache if data is received from
* the database by any query in a {@link org.eclipse.persistence.sessions.remote.RemoteSession}.
*
* However, if a query hits the cache, data is not refreshed regardless of how this setting is configured. For
* example, by default, when a query for a single object based on its primary key is executed, OracleAS TopLink
* will first look in the cache for the object. If the object is in the cache, the cached object is returned and
* data is not refreshed. To avoid cache hits, use the {@link ClassDescriptor#disableCacheHitsOnRemote} method.
*
* Also note that the {@link org.eclipse.persistence.sessions.UnitOfWork} will not refresh its registered objects.
*
* Use this property with caution because it can lead to poor performance and may refresh on queries when it is
* not desired. Normally, if you require fresh data, it is better to configure a query with {@link org.eclipse.persistence.queries.ObjectLevelReadQuery#refreshIdentityMapResult}.
* To ensure that refreshes are only done when required, use this method in conjunction with {@link ClassDescriptor#onlyRefreshCacheIfNewerVersion}.
*
* When the shouldAlwaysRefreshCacheOnRemote
argument passed into this method is false
,
* this method ensures that a ClassDescriptor
is not configured to always remotely refresh the cache if data
* is received from the database by any query in a {@link org.eclipse.persistence.sessions.remote.RemoteSession}.
*
* @see ClassDescriptor#alwaysRefreshCacheOnRemote
* @see ClassDescriptor#dontAlwaysRefreshCacheOnRemote
*/
public void setShouldAlwaysRefreshCacheOnRemote(boolean shouldAlwaysRefreshCacheOnRemote) {
this.shouldAlwaysRefreshCacheOnRemote = shouldAlwaysRefreshCacheOnRemote;
}
/**
* PUBLIC:
* Set the class of identity map to be used by this descriptor.
* The default is the "FullIdentityMap".
*/
public void setRemoteIdentityMapClass(Class extends IdentityMap> theIdentityMapClass) {
remoteIdentityMapClass = theIdentityMapClass;
}
/**
* PUBLIC:
* Set the size of the identity map to be used by this descriptor.
* The default is the 100.
*/
public void setRemoteIdentityMapSize(int identityMapSize) {
remoteIdentityMapSize = identityMapSize;
}
/**
* INTERNAL:
* Set entity @Cacheable annotation value.
* @param cacheable Entity @Cacheable annotation value for current class
* or null
if @Cacheable annotation is not set. Parent
* values are ignored, value shall refer to current class only.
*/
public void setCacheable(Boolean cacheable) {
this.cacheable = cacheable;
}
/**
* PUBLIC:
* Controls how the Entity instances will be cached. See the CacheIsolationType for details on the options.
* @return the isolationType
*/
public CacheIsolationType getCacheIsolation() {
return cacheIsolation;
}
/**
* PUBLIC:
* Controls how the Entity instances and data will be cached. See the CacheIsolationType for details on the options.
* To disable all second level caching simply set CacheIsolationType.ISOLATED. Note that setting the isolation
* will automatically set the corresponding cacheSynchronizationType.
* ISOLATED = DO_NOT_SEND_CHANGES, PROTECTED and SHARED = SEND_OBJECT_CHANGES
*/
public void setCacheIsolation(CacheIsolationType isolationType) {
this.cacheIsolation = isolationType;
if (CacheIsolationType.ISOLATED == isolationType) {
// bug 3587273 - set the cache synchronization type so isolated objects are not sent
// do not call the setter method because it does not allow changing the cache synchronization
// type of isolated objects
cacheSynchronizationType = DO_NOT_SEND_CHANGES;
}
}
/**
* INTERNAL:
* Return if the unit of work should by-pass the session cache.
* Objects will be built in the unit of work, and never merged into the session cache.
*/
public boolean shouldIsolateObjectsInUnitOfWork() {
return this.unitOfWorkCacheIsolationLevel == ISOLATE_CACHE_ALWAYS;
}
/**
* INTERNAL:
* Return if the unit of work should by-pass the IsolatedSession cache.
* Objects will be built/merged into the unit of work and into the session cache.
* but not built/merge into the IsolatedClientSession cache.
*/
public boolean shouldIsolateProtectedObjectsInUnitOfWork() {
return this.unitOfWorkCacheIsolationLevel == ISOLATE_FROM_CLIENT_SESSION;
}
/**
* INTERNAL:
* Return if the unit of work should by-pass the session cache after an early transaction.
*/
public boolean shouldIsolateObjectsInUnitOfWorkEarlyTransaction() {
return this.unitOfWorkCacheIsolationLevel == ISOLATE_CACHE_AFTER_TRANSACTION;
}
/**
* INTERNAL:
* Return if the unit of work should use the session cache after an early transaction.
*/
public boolean shouldUseSessionCacheInUnitOfWorkEarlyTransaction() {
return this.unitOfWorkCacheIsolationLevel == USE_SESSION_CACHE_AFTER_TRANSACTION;
}
/**
* ADVANCED:
* Return the unit of work cache isolation setting.
* This setting configures how the session cache will be used in a unit of work.
* @see #setUnitOfWorkCacheIsolationLevel(int)
*/
public int getUnitOfWorkCacheIsolationLevel() {
return unitOfWorkCacheIsolationLevel;
}
/**
* ADVANCED:
* This setting configures how the session cache will be used in a unit of work.
* Most of the options only apply to a unit of work in an early transaction,
* such as a unit of work that was flushed (writeChanges), issued a modify query, or acquired a pessimistic lock.
*
USE_SESSION_CACHE_AFTER_TRANSACTION - Objects built from new data accessed after a unit of work early transaction are stored in the session cache.
* This options is the most efficient as it allows the cache to be used after an early transaction.
* This should only be used if it is known that this class is not modified in the transaction,
* otherwise this could cause uncommitted data to be loaded into the session cache.
* ISOLATE_NEW_DATA_AFTER_TRANSACTION - Default (when using caching): Objects built from new data accessed after a unit of work early transaction are only stored in the unit of work.
* This still allows previously cached objects to be accessed in the unit of work after an early transaction,
* but ensures uncommitted data will never be put in the session cache by storing any object built from new data only in the unit of work.
* ISOLATE_CACHE_AFTER_TRANSACTION - After a unit of work early transaction the session cache is no longer used for this class.
* Objects will be directly built from the database data and only stored in the unit of work, even if previously cached.
* Note that this may lead to poor performance as the session cache is bypassed after an early transaction.
* ISOLATE_CACHE_ALWAYS - Default (when using isolated cache): The session cache will never be used for this class.
* Objects will be directly built from the database data and only stored in the unit of work.
* New objects and changes will also never be merged into the session cache.
* Note that this may lead to poor performance as the session cache is bypassed,
* however if this class is isolated or pessimistic locked and always accessed in a transaction, this can avoid having to build two copies of the object.
*/
public void setUnitOfWorkCacheIsolationLevel(int unitOfWorkCacheIsolationLevel) {
this.unitOfWorkCacheIsolationLevel = unitOfWorkCacheIsolationLevel;
}
/**
* @param fullyMergeEntity the fullyMergeEntity to set
*/
public void setFullyMergeEntity(boolean fullyMergeEntity) {
this.fullyMergeEntity = fullyMergeEntity;
}
/**
* PUBLIC:
* Set the class of identity map to be used by this descriptor.
* The default is the "FullIdentityMap".
*/
public void setIdentityMapClass(Class extends IdentityMap> theIdentityMapClass) {
identityMapClass = theIdentityMapClass;
}
/**
* PUBLIC:
* Set the size of the identity map to be used by this descriptor.
* The default is the 100.
*/
public void setIdentityMapSize(int identityMapSize) {
this.identityMapSize = identityMapSize;
}
/**
* OBSOLETE:
* Set the type of cache coordination that will be used on objects of this type. Possible values
* are:
* - SEND_OBJECT_CHANGES
*
- INVALIDATE_CHANGED_OBJECTS
*
- SEND_NEW_OBJECTS_WITH_CHANGES
*
- DO_NOT_SEND_CHANGES
* Note: Cache Synchronization type cannot be altered for descriptors that are set as isolated using
* the setIsIsolated method.
* This has been replaced by setCacheCoordinationType().
* @see #setCacheCoordinationType(CacheCoordinationType)
* @param type int The synchronization type for this descriptor
*/
public void setCacheSynchronizationType(int type) {
// bug 3587273
if (!isIsolated()) {
cacheSynchronizationType = type;
}
}
/**
* PUBLIC:
* Set the type of cache coordination that will be used on objects of this type.
* Valid values defined in CacheCoordinationType.
*/
public void setCacheCoordinationType(CacheCoordinationType type) {
if (type == null) {
setCacheSynchronizationType(UNDEFINED_OBJECT_CHANGE_BEHAVIOR);
} else if (type == CacheCoordinationType.SEND_OBJECT_CHANGES) {
setCacheSynchronizationType(SEND_OBJECT_CHANGES);
} else if (type == CacheCoordinationType.INVALIDATE_CHANGED_OBJECTS) {
setCacheSynchronizationType(INVALIDATE_CHANGED_OBJECTS);
} else if (type == CacheCoordinationType.SEND_NEW_OBJECTS_WITH_CHANGES) {
setCacheSynchronizationType(SEND_NEW_OBJECTS_WITH_CHANGES);
} else if (type == CacheCoordinationType.NONE) {
setCacheSynchronizationType(DO_NOT_SEND_CHANGES);
}
}
/**
* PUBLIC:
* A CacheInterceptor is an adaptor that when overridden and assigned to a Descriptor all interaction
* between EclipseLink and the internal cache for that class will pass through the Interceptor.
* Advanced users could use this interceptor to audit, profile or log cache access. This Interceptor
* could also be used to redirect or augment the TopLink cache with an alternate cache mechanism.
* EclipseLink's configurated IdentityMaps will be passed to the Interceptor constructor.
* As with IdentityMaps an entire class inheritance hierarchy will share the same interceptor.
* @see org.eclipse.persistence.sessions.interceptors.CacheInterceptor
*/
public void setCacheInterceptorClass(Class extends CacheInterceptor> cacheInterceptorClass){
this.cacheInterceptorClass = cacheInterceptorClass;
}
/**
* PUBLIC:
* A CacheInterceptor is an adaptor that when overridden and assigned to a Descriptor all interaction
* between EclipseLink and the internal cache for that class will pass through the Interceptor.
* Advanced users could use this interceptor to audit, profile or log cache access. This Interceptor
* could also be used to redirect or augment the TopLink cache with an alternate cache mechanism.
* EclipseLink's configurated IdentityMaps will be passed to the Interceptor constructor.
* As with IdentityMaps an entire class inheritance hierarchy will share the same interceptor.
* @see org.eclipse.persistence.sessions.interceptors.CacheInterceptor
*/
public void setCacheInterceptorClassName(String cacheInterceptorClassName){
this.cacheInterceptorClassName = cacheInterceptorClassName;
}
/**
* PUBLIC:
* Returns true if the descriptor represents an isolated class
*/
public boolean isIsolated() {
return CacheIsolationType.ISOLATED == this.cacheIsolation;
}
/**
* PUBLIC:
* Returns true if the descriptor represents a protected class.
*/
public boolean isProtectedIsolation() {
return CacheIsolationType.PROTECTED ==this.cacheIsolation;
}
/**
* PUBLIC:
* Returns true if the descriptor represents a shared class.
*/
public boolean isSharedIsolation() {
return this.cacheIsolation == null || CacheIsolationType.SHARED == this.cacheIsolation;
}
/**
* INTERNAL:
* Index the object by index in the cache using its row.
*/
public void indexObjectInCache(CacheKey cacheKey, AbstractRecord databaseRow, Object domainObject, ClassDescriptor descriptor, AbstractSession session, boolean refresh) {
if (!hasCacheIndexes()) {
return;
}
for (CacheIndex index : this.cacheIndexes.values()) {
if (!refresh || index.isUpdateable()) {
List fields = index.getFields();
int size = fields.size();
Object[] values = new Object[size];
for (int count = 0; count < size; count++) {
values[count] = databaseRow.get(fields.get(count));
}
CacheId indexValues = new CacheId(values);
session.getIdentityMapAccessorInstance().putCacheKeyByIndex(index, indexValues, cacheKey, descriptor);
}
}
}
/**
* INTERNAL:
* Index the object by index in the cache using the object.
*/
public void indexObjectInCache(CacheKey cacheKey, Object object, ClassDescriptor descriptor, AbstractSession session, boolean refresh) {
if (!hasCacheIndexes()) {
return;
}
for (CacheIndex index : this.cacheIndexes.values()) {
if (!refresh || index.isUpdateable()) {
List fields = index.getFields();
int size = fields.size();
Object[] values = new Object[size];
for (int count = 0; count < size; count++) {
values[count] = descriptor.getObjectBuilder().extractValueFromObjectForField(object, fields.get(count), session);
}
CacheId indexValues = new CacheId(values);
session.getIdentityMapAccessorInstance().putCacheKeyByIndex(index, indexValues, cacheKey, descriptor);
}
}
}
/**
* INTERNAL:
* Index the object by index in the cache using its changeSet.
*/
public void indexObjectInCache(ObjectChangeSet changeSet, Object object, ClassDescriptor descriptor, AbstractSession session) {
if (!hasCacheIndexes()) {
return;
}
for (CacheIndex index : this.cacheIndexes.values()) {
if ((changeSet == null) || (changeSet.isNew() && index.isInsertable()) || (!changeSet.isNew() && index.isUpdateable())) {
List fields = index.getFields();
int size = fields.size();
Object[] values = new Object[size];
for (int count = 0; count < size; count++) {
values[count] = descriptor.getObjectBuilder().extractValueFromObjectForField(object, fields.get(count), session);
}
CacheId indexValues = new CacheId(values);
CacheKey cacheKey = null;
Object id = null;
if (changeSet != null) {
cacheKey = changeSet.getActiveCacheKey();
if (cacheKey == null) {
id = changeSet.getId();
}
} else {
id = descriptor.getObjectBuilder().extractPrimaryKeyFromObject(object, session);
}
if (cacheKey == null) {
cacheKey = session.getIdentityMapAccessorInstance().getCacheKeyForObject(id, descriptor.getJavaClass(), descriptor, true);
}
session.getIdentityMapAccessorInstance().putCacheKeyByIndex(index, indexValues, cacheKey, descriptor);
}
}
}
/**
* INTERNAL:
* Lookup the expression in the cache if it contains any indexes.
*/
public CacheKey checkCacheByIndex(Expression expression, AbstractRecord translationRow, ClassDescriptor descriptor, AbstractSession session) {
if (!hasCacheIndexes()) {
return null;
}
AbstractRecord record = descriptor.getObjectBuilder().extractRowFromExpression(expression, translationRow, session);
if (record == null) {
return null;
}
for (CacheIndex index : this.cacheIndexes.values()) {
List fields = index.getFields();
int size = fields.size();
Object[] values = new Object[size];
for (int count = 0; count < size; count++) {
Object value = record.get(fields.get(count));
if (value == null) {
break;
}
values[count] = value;
}
CacheId indexValues = new CacheId(values);
CacheKey cacheKey = session.getIdentityMapAccessorInstance().getCacheKeyByIndex(index, indexValues, true, descriptor);
if (cacheKey != null) {
return cacheKey;
}
}
return null;
}
/**
* INTERNAL:
* Lookup the expression in the cache if it contains any indexes.
*/
public boolean isIndexableExpression(Expression expression, ClassDescriptor descriptor, AbstractSession session) {
if (!hasCacheIndexes()) {
return false;
}
for (CacheIndex index : this.cacheIndexes.values()) {
List searchFields = index.getFields();
int size = searchFields.size();
Set foundFields = new HashSet<>(size);
boolean isValid = expression.extractFields(true, false, descriptor, searchFields, foundFields);
if (isValid && (foundFields.size() == size)) {
return true;
}
}
return false;
}
/**
* PUBLIC:
* Set the class of identity map to be the full identity map.
* This map caches all instances read and grows to accomodate them.
* The default is the "SoftCacheWeakIdentityMap".
*/
public void useFullIdentityMap() {
setIdentityMapClass(ClassConstants.FullIdentityMap_Class);
}
/**
* PUBLIC:
* Set the class of identity map to be the hard cache weak identity map.
* This map uses weak references to only cache object in-memory.
* It also includes a secondary fixed sized hard cache to improve caching performance.
* This is provided because some Java VM's implement soft references differently.
* The default is the "SoftCacheWeakIdentityMap".
*/
public void useHardCacheWeakIdentityMap() {
setIdentityMapClass(ClassConstants.HardCacheWeakIdentityMap_Class);
}
/**
* PUBLIC:
* Set the class of identity map to be the soft identity map.
* This map uses soft references to only cache all object in-memory, until memory is low.
* Note that "low" is interpreted differently by different JVM's.
* The default is the "SoftCacheWeakIdentityMap".
*/
public void useSoftIdentityMap() {
setIdentityMapClass(ClassConstants.SoftIdentityMap_Class);
}
/**
* PUBLIC:
* Set the class of identity map to be the no identity map.
* This map does no caching.
* Note: This map does not maintain object identity.
* In general if caching is not desired a WeakIdentityMap should be used with an isolated descriptor.
* The default is the "SoftCacheWeakIdentityMap".
* @see ClassDescriptor#setCacheIsolation(CacheIsolationType)
*/
public void useNoIdentityMap() {
setIdentityMapClass(ClassConstants.NoIdentityMap_Class);
}
/**
* PUBLIC:
* Set the class of identity map to be the weak identity map.
* The default is the "SoftCacheWeakIdentityMap".
*/
public void useWeakIdentityMap() {
setIdentityMapClass(ClassConstants.WeakIdentityMap_Class);
}
public void setPrefetchCacheKeys(boolean prefetchCacheKeys) {
this.prefetchCacheKeys = prefetchCacheKeys;
}
public boolean shouldPrefetchCacheKeys() {
return this.prefetchCacheKeys ;
}
}