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/*
 * Copyright (c) 1998, 2018 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 from Oracle TopLink
package org.eclipse.persistence.descriptors;

import java.io.*;
import java.util.*;
import org.eclipse.persistence.mappings.*;
import org.eclipse.persistence.internal.helper.*;
import org.eclipse.persistence.queries.*;
import org.eclipse.persistence.expressions.*;
import org.eclipse.persistence.exceptions.*;
import org.eclipse.persistence.internal.descriptors.ObjectBuilder;
import org.eclipse.persistence.internal.descriptors.OptimisticLockingPolicy;
import org.eclipse.persistence.internal.identitymaps.CacheKey;
import org.eclipse.persistence.internal.sessions.AbstractRecord;
import org.eclipse.persistence.internal.sessions.AbstractSession;
import org.eclipse.persistence.internal.sessions.DirectToFieldChangeRecord;
import org.eclipse.persistence.internal.sessions.ObjectChangeSet;
import org.eclipse.persistence.internal.sessions.UnitOfWorkImpl;
import org.eclipse.persistence.mappings.foundation.AbstractDirectMapping;


/**
 * 

Purpose: Used to allow a single version number to be used for optimistic locking. * * @since TOPLink/Java 2.0 */ public class VersionLockingPolicy implements OptimisticLockingPolicy, Serializable { protected DatabaseField writeLockField; protected boolean isCascaded; protected int lockValueStored; protected ClassDescriptor descriptor; protected transient Expression cachedExpression; public final static int IN_CACHE = 1; public final static int IN_OBJECT = 2; /** PERF: Cache the lock mapping if mapped with a direct mapping. */ protected AbstractDirectMapping lockMapping; protected LockOnChange lockOnChangeMode; /** * PUBLIC: * Create a new VersionLockingPolicy. Defaults to * storing the lock value in the cache. */ public VersionLockingPolicy() { super(); storeInCache(); } /** * PUBLIC: * Create a new VersionLockingPolicy. Defaults to * storing the lock value in the cache. * @param fieldName specifies the field name for the write * lock field. */ public VersionLockingPolicy(String fieldName) { this(new DatabaseField(fieldName)); } /** * PUBLIC: * Create a new VersionLockingPolicy. Defaults to * storing the lock value in the cache. * @param field the write lock field. */ public VersionLockingPolicy(DatabaseField field) { this(); setWriteLockField(field); } /** * INTERNAL: * Add update fields for template row. * These are any unmapped fields required to write in an update. */ public void addLockFieldsToUpdateRow(AbstractRecord databaseRow, AbstractSession session) { if (isStoredInCache()) { databaseRow.put(getWriteLockField(), null); } } /** * INTERNAL: * This method adds the lock value to the translation row of the * passed in query. depending on the storage flag, the value is * either retrieved from the cache of the object. */ public void addLockValuesToTranslationRow(ObjectLevelModifyQuery query) { Object value; if (isStoredInCache()) { value = query.getSession().getIdentityMapAccessorInstance().getWriteLockValue(query.getPrimaryKey(), query.getObject().getClass(), getDescriptor()); } else { value = lockValueFromObject(query.getObject()); } if (value == null) { if (query.isDeleteObjectQuery()) { throw OptimisticLockException.noVersionNumberWhenDeleting(query.getObject(), query); } else { throw OptimisticLockException.noVersionNumberWhenUpdating(query.getObject(), query); } } // EL bug 319759 if (query.isUpdateObjectQuery()) { query.setShouldValidateUpdateCallCacheUse(true); } query.getTranslationRow().put(this.writeLockField, value); } /** * INTERNAL: * When given an expression, this method will return a new expression with * the optimistic locking values included. The values are taken from the * passed in database row. This expression will be used in a delete call. */ public Expression buildDeleteExpression(DatabaseTable table, Expression mainExpression, AbstractRecord row) { //use the same expression as update return buildUpdateExpression(table, mainExpression, row, null); } /** * INTERNAL: * Returns an expression that will be used for both the update and * delete where clause */ protected Expression buildExpression() { ExpressionBuilder builder = new ExpressionBuilder(); return builder.getField(getWriteLockField()).equal(builder.getParameter(getWriteLockField())); } /** * INTERNAL: * When given an expression, this method will return a new expression * with the optimistic locking values included. The values are taken * from the passed in database row. This expression will be used in * an update call. */ public Expression buildUpdateExpression(DatabaseTable table, Expression mainExpression, AbstractRecord row, AbstractRecord row2) { if (cachedExpression == null) { cachedExpression = buildExpression(); } if (getWriteLockField().getTableName().equals(table.getName())) { return mainExpression.and(cachedExpression); } return mainExpression; } /** * INTERNAL: * Clone the policy */ public Object clone() { try { return super.clone(); } catch (CloneNotSupportedException e) { return null; } } /** * INTERNAL: * Indicates that compareWriteLockValues method is supported by the policy. */ public boolean supportsWriteLockValuesComparison() { return true; } /** * INTERNAL: * This method compares two writeLockValues. * The writeLockValues should be non-null and of type Number. * Returns: * -1 if value1 is less (older) than value2; * 0 if value1 equals value2; * 1 if value1 is greater (newer) than value2. * Throws: * NullPointerException if the passed value is null; * ClassCastException if the passed value is of a wrong type. */ public int compareWriteLockValues(Object value1, Object value2) { long longValue1 = ((Number)value1).longValue(); long longValue2 = ((Number)value2).longValue(); if ( longValue1 < longValue2 ) return -1; if ( longValue1 == longValue2 ) return 0; return 1; } /** * INTERNAL: * Return the default version locking filed java type, default is BigDecimal */ protected Class getDefaultLockingFieldType() { return ClassConstants.LONG; } /** * INTERNAL: * This is the base value that is older than all other values, it is used in the place of * null in some situations. */ public Object getBaseValue() { return Long.valueOf(0); } /** * INTERNAL: */ protected ClassDescriptor getDescriptor() { return descriptor; } /** * INTERNAL: * returns the initial locking value */ protected Object getInitialWriteValue(AbstractSession session) { return Long.valueOf(1); } /** * ADVANCED: * returns the LockOnChange mode for this policy. This mode specifies if a * Optimistic Write lock should be enforced on this entity when a set of mappings are changed. * Unfortunately this locking policy can not enforce an optimistic write lock unless a FK or DTF field * has changed so this type returns LockOnChange.NONE */ public LockOnChange getLockOnChangeMode(){ return this.lockOnChangeMode; } /** * INTERNAL: * This method gets the write lock value from either the cache or * the object stored in the query. It then returns the new incremented value. */ public Object getNewLockValue(ModifyQuery query) { Class objectClass = query.getDescriptor().getJavaClass(); Number value; Number newWriteLockValue = null; if (isStoredInCache()) { value = (Number)query.getSession().getIdentityMapAccessorInstance().getWriteLockValue(((WriteObjectQuery)query).getPrimaryKey(), objectClass, getDescriptor()); } else { value = (Number)lockValueFromObject(((ObjectLevelModifyQuery)query).getObject()); } if (value == null) { throw OptimisticLockException.noVersionNumberWhenUpdating(((ObjectLevelModifyQuery)query).getObject(), (ObjectLevelModifyQuery)query); } // Increment the value, this goes to the database newWriteLockValue = incrementWriteLockValue(value); return newWriteLockValue; } /** * INTERNAL: * This method returns any of the fields that are not mapped in * the object. In the case of the value being stored in the * cache, a vector with one value is returned. In the case * of being stored in the object, an empty vector is returned. */ protected Vector getUnmappedFields() { Vector fields = new Vector(1); if (isStoredInCache()) { fields.addElement(getWriteLockField()); } return fields; } /** * INTERNAL: * Return the value that should be stored in the identity map. * If the value is stored in the object, then return a null. */ public Object getValueToPutInCache(AbstractRecord row, AbstractSession session) { if (isStoredInCache()) { return row.get(getWriteLockField()); } else { return null; } } /** * PUBLIC: * Return the number of versions different between these objects. * @param currentValue the new lock value * @param domainObject the object containing the version to be compared to * @param primaryKeys a vector containing the primary keys of the domainObject * @param session the session to be used with the comparison */ public int getVersionDifference(Object currentValue, Object domainObject, Object primaryKeys, AbstractSession session) { Number writeLockFieldValue; Number newWriteLockFieldValue = (Number)currentValue; // If null, was an insert, use 0. if (newWriteLockFieldValue == null) { newWriteLockFieldValue = Long.valueOf(0); } if (isStoredInCache()) { writeLockFieldValue = (Number)session.getIdentityMapAccessorInstance().getWriteLockValue(primaryKeys, domainObject.getClass(), getDescriptor()); } else { writeLockFieldValue = (Number)lockValueFromObject(domainObject); } if (writeLockFieldValue == null){ writeLockFieldValue = Long.valueOf(0); } return (int)(newWriteLockFieldValue.longValue() - writeLockFieldValue.longValue()); } /** * INTERNAL: * Return the write lock field. */ public DatabaseField getWriteLockField() { return writeLockField; } /** * PUBLIC: * Return the field name of the field that stores the write lock value. */ public String getWriteLockFieldName() { return getWriteLockField().getQualifiedName(); } /** * INTERNAL: * Retrun an expression that updates the write lock */ public Expression getWriteLockUpdateExpression(ExpressionBuilder builder, AbstractSession session) { return ExpressionMath.add(builder.getField(writeLockField.getName()), 1); } /** * INTERNAL: * This method will return the optimistic lock value for the object */ public Object getWriteLockValue(Object domainObject, Object primaryKey, AbstractSession session) { Number writeLockFieldValue; if (isStoredInCache()) { if (primaryKey == null) { return null; } writeLockFieldValue = (Number)session.getIdentityMapAccessorInstance().getWriteLockValue(primaryKey, domainObject.getClass(), getDescriptor()); } else { writeLockFieldValue = (Number)lockValueFromObject(domainObject); } return writeLockFieldValue; } /** * INTERNAL: * Adds 1 to the value passed in. */ protected Number incrementWriteLockValue(Number numberValue) { return Long.valueOf(numberValue.longValue() + 1); } /** * INTERNAL: * It is responsible for initializing the policy; */ public void initialize(AbstractSession session) { DatabaseMapping mapping = this.descriptor.getObjectBuilder().getMappingForField(getWriteLockField()); if (mapping == null) { if (isStoredInObject()) { if (this.descriptor.getObjectBuilder().getReadOnlyMappingsForField(getWriteLockField()) != null) { mapping = this.descriptor.getObjectBuilder().getReadOnlyMappingsForField(getWriteLockField()).get(0); session.getIntegrityChecker().handleError(DescriptorException.mappingCanNotBeReadOnly(mapping)); } else { session.getIntegrityChecker().handleError(OptimisticLockException.mustHaveMappingWhenStoredInObject(this.descriptor.getJavaClass())); } } else { return; } } if (isStoredInCache()) { session.getIntegrityChecker().handleError(DescriptorException.mustBeReadOnlyMappingWhenStoredInCache(mapping)); } // PERF: Cache the mapping if direct. if (mapping.isDirectToFieldMapping() && (this.descriptor.getObjectBuilder().getReadOnlyMappingsForField(getWriteLockField()) == null)) { this.lockMapping = (AbstractDirectMapping)mapping; } // If the version field is not in the primary table, then they cannot be batched together. if ((this.descriptor.getTables().size() > 0) && !getWriteLockField().getTable().equals(this.descriptor.getTables().get(0))) { this.descriptor.setHasMultipleTableConstraintDependecy(true); } } /** * INTERNAL: * It is responsible for initializing the policy properties; */ public void initializeProperties() { DatabaseField dbField = getWriteLockField(); dbField = descriptor.buildField(dbField); setWriteLockField(dbField); if (isStoredInCache() && (dbField.getType() == null)) { // Set the default type, only if un-mapped. dbField.setType(getDefaultLockingFieldType()); } Enumeration enumtr = this.getUnmappedFields().elements(); while (enumtr.hasMoreElements()) { DatabaseField lockField; lockField = (DatabaseField)enumtr.nextElement(); descriptor.getFields().addElement(lockField); } } /** * PUBLIC: * Return true if the policy uses cascade locking. */ public boolean isCascaded() { return isCascaded; } /** * INTERNAL: * Compares the value with the value from the object (or cache). * Will return true if the currentValue is newer than the domainObject. */ public boolean isNewerVersion(Object currentValue, Object domainObject, Object primaryKey, AbstractSession session) { Number writeLockFieldValue; Number newWriteLockFieldValue = (Number)currentValue; if (isStoredInCache()) { writeLockFieldValue = (Number)session.getIdentityMapAccessorInstance().getWriteLockValue(primaryKey, domainObject.getClass(), getDescriptor()); } else { writeLockFieldValue = (Number)lockValueFromObject(domainObject); } return isNewerVersion(newWriteLockFieldValue, writeLockFieldValue); } /** * INTERNAL: * Compares the value from the row and from the object (or cache). * Will return true if the row is newer than the object. */ public boolean isNewerVersion(AbstractRecord databaseRow, Object domainObject, Object primaryKey, AbstractSession session) { Number writeLockFieldValue; Number newWriteLockFieldValue = (Number)databaseRow.get(getWriteLockField()); if (isStoredInCache()) { writeLockFieldValue = (Number)session.getIdentityMapAccessorInstance().getWriteLockValue(primaryKey, domainObject.getClass(), getDescriptor()); } else { writeLockFieldValue = (Number)lockValueFromObject(domainObject); } return isNewerVersion(newWriteLockFieldValue, writeLockFieldValue); } /** * INTERNAL: * Compares two values. * Will return true if the firstLockFieldValue is newer than the secondWriteLockFieldValue. */ public boolean isNewerVersion(Object firstLockFieldValue, Object secondWriteLockFieldValue) { Number firstValue = (Number)firstLockFieldValue;//domain object/clone Number secondValue = (Number)secondWriteLockFieldValue;//base value/cache // 2.5.1.6 if the write lock value is null, then what ever we have is treated as newer. if (firstValue == null) { return false; } // bug 6342382: first is not null, second is null, so we know first>second. if(secondValue == null) { return true; } if (firstValue.longValue() > secondValue.longValue()){ return true; } return false; } /** * PUBLIC: * Return true if the lock value is stored in the cache. */ public boolean isStoredInCache() { return lockValueStored == IN_CACHE; } /** * PUBLIC: * Return true if the lock value is stored in the object. */ public boolean isStoredInObject() { return lockValueStored == IN_OBJECT; } /** * INTERNAL: * Retrieves the lock value from the object. */ protected Object lockValueFromObject(Object domainObject) { // PERF: If mapping with a direct mapping get from cached mapping. if (this.lockMapping != null) { return this.lockMapping.getAttributeValueFromObject(domainObject); } else { return this.descriptor.getObjectBuilder().getBaseValueForField(this.writeLockField, domainObject); } } /** * INTERNAL: * Returns the mapping that will be used to access the version value from an object. */ public AbstractDirectMapping getVersionMapping(){ if (this.lockMapping != null){ return this.lockMapping; }else{ return (AbstractDirectMapping)this.descriptor.getObjectBuilder().getBaseMappingForField(this.writeLockField); } } /** * INTERNAL: * Only applicable when the value is stored in the cache. Will merge with the parent unit of work. */ public void mergeIntoParentCache(UnitOfWorkImpl uow, Object primaryKey, Object object) { if (isStoredInCache()) { Object parentValue = uow.getParentIdentityMapSession(descriptor, false, false).getIdentityMapAccessorInstance().getWriteLockValue(primaryKey, object.getClass(), getDescriptor()); uow.getIdentityMapAccessor().updateWriteLockValue(primaryKey, object.getClass(), parentValue); } } /** * INTERNAL: * This method should merge changes from the parent into the child. * * #see this method in VersionLockingPolicy */ public void mergeIntoParentCache(CacheKey unitOfWorkCacheKey, CacheKey parentSessionCacheKey){ if (isStoredInCache() && unitOfWorkCacheKey != null && parentSessionCacheKey != null) { unitOfWorkCacheKey.setWriteLockValue(parentSessionCacheKey.getWriteLockValue()); } } /** * INTERNAL: */ public void setDescriptor(ClassDescriptor descriptor) { this.descriptor = descriptor; } /** * PUBLIC: * Set whether to store the lock in the cache or in the object. * @param isStoredInCache set this to true if you would like to store lock in the cache and set it * to false if you would like to store it in the object. */ public void setIsStoredInCache(boolean isStoredInCache) { if (isStoredInCache) { storeInCache(); } else { storeInObject(); } } /** * PUBLIC: * Set whether to use cascade locking on the policy. * @param isCascaded set this to true if you would like cascade the locking * and set it to false if you would like no cascade locking. */ public void setIsCascaded(boolean isCascaded) { this.isCascaded = isCascaded; } /** * INTERNAL: * This method must be included in any locking policy. * Put the initial writelock value into the modifyRow. */ public void setupWriteFieldsForInsert(ObjectLevelModifyQuery query) { Object lockValue = getInitialWriteValue(query.getSession()); ObjectChangeSet objectChangeSet = query.getObjectChangeSet(); if (objectChangeSet != null) { objectChangeSet.setInitialWriteLockValue(lockValue); } updateWriteLockValueForWrite(query, lockValue); } /** * INTERNAL: * Update the row, object and change set with the version value. * This handles the version being mapped in nested aggregates, writable or read-only. */ protected void updateWriteLockValueForWrite(ObjectLevelModifyQuery query, Object lockValue) { // PERF: direct-access. query.getModifyRow().put(this.writeLockField, lockValue); updateObjectWithWriteValue(query, lockValue); } /** * INTERNAL: * Returns true if the policy has been set to set an optimistic read lock when a owning mapping changes. */ public boolean shouldUpdateVersionOnOwnedMappingChange(){ return this.lockOnChangeMode == LockOnChange.OWNING; } /** * INTERNAL: * Returns true if the policy has been set to set an optimistic read lock when any mapping changes. */ public boolean shouldUpdateVersionOnMappingChange(){ return this.lockOnChangeMode == LockOnChange.ALL; } public void updateObjectWithWriteValue(ObjectLevelModifyQuery query, Object lockValue){ AbstractSession session = query.getSession(); Object object = query.getObject(); ObjectChangeSet objectChangeSet = query.getObjectChangeSet(); if (objectChangeSet == null) { if (session.isUnitOfWork() && (((UnitOfWorkImpl)session).getUnitOfWorkChangeSet() != null)) { // For aggregate collections the change set may be null, as they use the old commit still. objectChangeSet = (ObjectChangeSet)((UnitOfWorkImpl)session).getUnitOfWorkChangeSet().getObjectChangeSetForClone(object); } } // PERF: handle normal case faster. if (this.lockMapping != null) { // converted to the correct (for the mapping) type lock value. Object convertedLockValue = this.lockMapping.getObjectValue(lockValue, session); if (objectChangeSet != null && (!objectChangeSet.isNew() || query.getDescriptor().shouldUseFullChangeSetsForNewObjects())) { Object oldValue = this.lockMapping.getAttributeValueFromObject(object); this.lockMapping.setAttributeValueInObject(object, convertedLockValue); objectChangeSet.setWriteLockValue(lockValue); // Don't use ObjectChangeSet.updateChangeRecordForAttributeWithMappedObject to avoid unnecessary conversion - convertedLockValue is already converted. DirectToFieldChangeRecord changeRecord = new DirectToFieldChangeRecord(objectChangeSet); changeRecord.setAttribute(this.lockMapping.getAttributeName()); changeRecord.setMapping(this.lockMapping); changeRecord.setNewValue(convertedLockValue); changeRecord.setOldValue(oldValue); objectChangeSet.addChange(changeRecord); } else { this.lockMapping.setAttributeValueInObject(object, convertedLockValue); } } else { // CR#3173211 // If the value is stored in the cache or object, there still may // be read-only mappings for it, so the object must always be updated for // any writable or read-only mappings for the version value. // Reuse the method used for returning as has the same requirements. ObjectBuilder objectBuilder = this.descriptor.getObjectBuilder(); AbstractRecord record = objectBuilder.createRecord(1, session); record.put(this.writeLockField, lockValue); if (objectChangeSet != null) { objectChangeSet.setWriteLockValue(lockValue); } objectBuilder.assignReturnRow(object, session, record, objectChangeSet); } } /** * ADVANCED: * Sets the LockOnChange mode for this policy. This mode specifies if a * Optimistic Write lock should be enforced on this entity when set of mappings are changed. */ public void setLockOnChangeMode(LockOnChange lockOnChangeMode){ this.lockOnChangeMode = lockOnChangeMode; } /** * ADVANCED: * Set the write lock field. * This can be used for advanced field types, such as XML nodes, or to set the field type. */ public void setWriteLockField(DatabaseField writeLockField) { this.writeLockField = writeLockField; } /** * PUBLIC: * Set the write lock field name. * @param writeLockFieldName the name of the field to lock against. */ public void setWriteLockFieldName(String writeLockFieldName) { setWriteLockField(new DatabaseField(writeLockFieldName)); } /** * PUBLIC: * Configure the version lock value to be stored in the cache. * This allows for the object not to require to store its version value as an attribute. * Note: if using a stateless model where the object can be passed to a client and then * later updated in a different transaction context, then the version lock value should * not be stored in the cache, but in the object to ensure it is the correct value for * that object. This is the default. */ public void storeInCache() { lockValueStored = IN_CACHE; } /** * PUBLIC: * Configure the version lock value to be stored in the object. * The object must define a mapping and an attribute to store the version value. * Note: the value will be updated internally by EclipseLink and should not be updated * by the application. */ public void storeInObject() { lockValueStored = IN_OBJECT; } /** * INTERNAL: * This method updates the modify row, and the domain object * with the new lock value. */ public void updateRowAndObjectForUpdate(ObjectLevelModifyQuery query, Object domainObject) { Object lockValue = getNewLockValue(query); if (isStoredInCache()) { query.getSession().getIdentityMapAccessor().updateWriteLockValue(query.getPrimaryKey(), domainObject.getClass(), lockValue); } updateWriteLockValueForWrite(query, lockValue); } /** * INTERNAL: * This method updates the modify row with the old lock value. */ public void writeLockValueIntoRow(ObjectLevelModifyQuery query, Object domainObject) { Object lockValue = getWriteLockValue(domainObject, query.getPrimaryKey(), query.getSession()); query.getModifyRow().put(this.writeLockField, lockValue); if (isStoredInCache()) { query.getSession().getIdentityMapAccessor().updateWriteLockValue(query.getPrimaryKey(), domainObject.getClass(), lockValue); } } /** * INTERNAL: * Check the row count for lock failure. */ public void validateDelete(int rowCount, Object object, DeleteObjectQuery query) { if (rowCount <= 0) { // Mark the object as invalid in the session cache, only if version is the same as in query. Object primaryKey = query.getPrimaryKey(); AbstractSession session = query.getSession().getParentIdentityMapSession(query, true, true); CacheKey cacheKey = session.getIdentityMapAccessorInstance().getCacheKeyForObject(primaryKey, query.getReferenceClass(), query.getDescriptor(), false); if ((cacheKey != null) && (cacheKey.getObject() != null) && (query.getObjectChangeSet() != null)) { Object queryVersion = query.getObjectChangeSet().getInitialWriteLockValue(); Object cacheVersion = getWriteLockValue(cacheKey.getObject(), primaryKey, session); if (compareWriteLockValues(queryVersion, cacheVersion) != 0) { cacheKey.setInvalidationState(CacheKey.CACHE_KEY_INVALID); } } throw OptimisticLockException.objectChangedSinceLastReadWhenDeleting(object, query); } } /** * INTERNAL: * Check the row count for lock failure. */ public void validateUpdate(int rowCount, Object object, WriteObjectQuery query) { if (rowCount <= 0) { // Mark the object as invalid in the session cache, only if version is the same as in query. Object primaryKey = query.getPrimaryKey(); AbstractSession session = query.getSession().getParentIdentityMapSession(query, true, true); CacheKey cacheKey = session.getIdentityMapAccessorInstance().getCacheKeyForObject(primaryKey, query.getReferenceClass(), query.getDescriptor(), false); if ((cacheKey != null) && (cacheKey.getObject() != null) && (query.getObjectChangeSet() != null)) { Object queryVersion = query.getObjectChangeSet().getInitialWriteLockValue(); Object cacheVersion = getWriteLockValue(cacheKey.getObject(), primaryKey, session); if (compareWriteLockValues(queryVersion, cacheVersion) >= 0) { cacheKey.setInvalidationState(CacheKey.CACHE_KEY_INVALID); } } throw OptimisticLockException.objectChangedSinceLastReadWhenUpdating(object, query); } } }





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