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package oracle.toplink.essentials.internal.sessions;

import java.util.*;
import oracle.toplink.essentials.internal.identitymaps.*;
import oracle.toplink.essentials.internal.descriptors.*;
import oracle.toplink.essentials.queryframework.*;
import oracle.toplink.essentials.expressions.*;
import oracle.toplink.essentials.exceptions.*;
import oracle.toplink.essentials.sessions.Record;
import oracle.toplink.essentials.sessions.DatabaseRecord;
import oracle.toplink.essentials.internal.sessions.AbstractSession;
import oracle.toplink.essentials.internal.sessions.AbstractRecord;
import oracle.toplink.essentials.descriptors.ClassDescriptor;
import oracle.toplink.essentials.logging.SessionLog;
import oracle.toplink.essentials.internal.helper.WriteLockManager;
import oracle.toplink.essentials.internal.queryframework.JoinedAttributeManager;

/**
 * INTERNAL:
 * Internal subclass that provides access to identity maps through the session.
 * Implements the IdentityMapAccessor interface which provides all publicly available
 * identity map functionality to users.
 * This is the main class that should be used to access identity maps.  In general, any
 * function that accesses the identity map manager should go through this class
 * Any session specific functionality appears in subclasses
 */
public class IdentityMapAccessor implements oracle.toplink.essentials.sessions.IdentityMapAccessor, java.io.Serializable {

    /** This is the identity map manager for this accessor.  It should only be accessed through the getter **/
    protected IdentityMapManager identityMapManager = null;
    protected AbstractSession session = null;

    /**
     * INTERNAL:
     * An IdentityMapAccessor sits between the session and the identityMapManager
     * It needs references in both directions
     */
    public IdentityMapAccessor(AbstractSession session, IdentityMapManager identityMapManager) {
        this.session = session;
        this.identityMapManager = identityMapManager;
    }

    /**
     * INTERNAL:
     * Deferred lock the identity map for the object, this is used for avoiding deadlock
     * The return cacheKey should be used to release the deferred lock
     */
    public CacheKey acquireDeferredLock(Vector primarKey, Class javaClass, ClassDescriptor descriptor) {
        return getIdentityMapManager().acquireDeferredLock(primarKey, javaClass, descriptor);
    }

    /**
     * INTERNAL:
     * Lock the identity map for the object, this must be done when building objects.
     * The return cacheKey should be used to release the lock
     */
    public CacheKey acquireLock(Vector primarKey, Class javaClass, ClassDescriptor descriptor) {
        return acquireLock(primarKey, javaClass, false, descriptor);
    }

    /**
     * INTERNAL:
     * Provides access for setting a concurrency lock on an object in the IdentityMap.
     * called with true from the merge process, if true then the refresh will not refresh the object
     *    @see IdentityMap#aquire
     */
    public CacheKey acquireLock(Vector primaryKey, Class domainClass, boolean forMerge, ClassDescriptor descriptor) {
        return getIdentityMapManager().acquireLock(primaryKey, domainClass, forMerge, descriptor);
    }

    /**
     * INTERNAL:
     * Provides access for setting a concurrency lock on an object in the IdentityMap.
     * called with true from the merge process, if true then the refresh will not refresh the object
     *    @see IdentityMap#aquire
     */
    public CacheKey acquireLockNoWait(Vector primaryKey, Class domainClass, boolean forMerge, ClassDescriptor descriptor) {
        return getIdentityMapManager().acquireLockNoWait(primaryKey, domainClass, forMerge, descriptor);
    }

    /**
     * INTERNAL:
     * Find the cachekey for the provided primary key and place a readlock on it.
     * This will allow multiple users to read the same object but prevent writes to
     * the object while the read lock is held.
     */
    public CacheKey acquireReadLockOnCacheKey(Vector primaryKey, Class domainClass, ClassDescriptor descriptor) {
        return getIdentityMapManager().acquireReadLockOnCacheKey(primaryKey, domainClass, descriptor);
    }

    /**
     * INTERNAL:
     * Find the cachekey for the provided primary key and place a readlock on it.
     * This will allow multiple users to read the same object but prevent writes to
     * the object while the read lock is held.
     * If no readlock can be acquired then do not wait but return null.
     */
    public CacheKey acquireReadLockOnCacheKeyNoWait(Vector primaryKey, Class domainClass, ClassDescriptor descriptor) {
        return getIdentityMapManager().acquireReadLockOnCacheKeyNoWait(primaryKey, domainClass, descriptor);
    }

    /**
     * INTERNAL:
     * Lock the entire cache if the cache isolation requires.
     * By default concurrent reads and writes are allowed.
     * By write, unit of work merge is meant.
     */
    public boolean acquireWriteLock() {
        return getIdentityMapManager().acquireWriteLock();
    }

    /**
     * ADVANCED:
     * Clear all the query caches
     */
    public void clearQueryCache() {
        getIdentityMapManager().clearQueryCache();
    }

    /**
     * ADVANCED:
     * Clear the query class associated with the passed-in read query
     */
    public void clearQueryCache(ReadQuery query) {
        getIdentityMapManager().clearQueryCache(query);
    }

    /**
     * ADVANCED:
     * Clear the query cache associated with the named query on the session
     */
    public void clearQueryCache(String sessionQueryName) {
        getIdentityMapManager().clearQueryCache((ReadQuery)session.getQuery(sessionQueryName));
    }

    /**
     * ADVANCED:
     * Clear the query cache associated with the named query on the descriptor for the given class
     */
    public void clearQueryCache(String descriptorQueryName, Class queryClass) {
        getIdentityMapManager().clearQueryCache((ReadQuery)session.getDescriptor(queryClass).getQueryManager().getQuery(descriptorQueryName));
    }

    /**
     * INTERNAL:
     * Return whether the identity maps contain an item of the given class and key
     */
    public boolean containsKey(Vector key, Class theClass, ClassDescriptor descriptor) {
        return getIdentityMapManager().containsKey(key, theClass, descriptor);
    }

    /**
     * ADVANCED:
     * Return if their is an object for the primary key.
     */
    public boolean containsObjectInIdentityMap(Object object) {
        return containsObjectInIdentityMap(getSession().keyFromObject(object), object.getClass());
    }

    /**
     * ADVANCED:
     * Return if their is an object for the primary key.
     */
    public boolean containsObjectInIdentityMap(Vector primaryKey, Class theClass) {
        ClassDescriptor descriptor = getSession().getDescriptor(theClass);
        return containsObjectInIdentityMap(primaryKey, theClass, descriptor);
    }
    
    /**
     * INTERNAL:
     * Return if their is an object for the primary key.
     */
    public boolean containsObjectInIdentityMap(Vector primaryKey, Class theClass, ClassDescriptor descriptor) {
        return getIdentityMapManager().containsKey(primaryKey, theClass, descriptor);
    }

    /**
     * ADVANCED:
     * Return if their is an object for the row containing primary key and the class.
     */
    public boolean containsObjectInIdentityMap(Record rowContainingPrimaryKey, Class theClass) {
        return containsObjectInIdentityMap(extractPrimaryKeyFromRow(rowContainingPrimaryKey, theClass), theClass);
    }

    /**
     * INTERNAL:
     * Extract primary key from a row
     * @param DatabaseRow to extract primary key from
     * @param Class
     * @return Vector primary key
     */
    protected Vector extractPrimaryKeyFromRow(Record rowContainingPrimaryKey, Class theClass) {
        return this.session.getDescriptor(theClass).getObjectBuilder().extractPrimaryKeyFromRow((AbstractRecord)rowContainingPrimaryKey, this.session);
    }

    /**
    * INTERNAL:
    * Retrieve the cache key for the given object from the identity maps
    * @param Object object the object to get the cache key for
    * @return CacheKey
    */
    public CacheKey getCacheKeyForObject(Object object, ClassDescriptor descriptor) {
        return getCacheKeyForObject(getSession().keyFromObject(object, descriptor), object.getClass(), descriptor);
    }

    /**
     * INTERNAL:
     * This method is used to get a list of those classes with IdentityMaps in the Session.
     */
    public Vector getClassesRegistered() {
        return getIdentityMapManager().getClassesRegistered();
    }

    /**
     * ADVANCED:
     * Query the cache in-memory.
     * If the expression is too complex an exception will be thrown.
     */
    public Vector getAllFromIdentityMap(Expression selectionCriteria, Class theClass, Record translationRow) throws QueryException {
        return getAllFromIdentityMap(selectionCriteria, theClass, translationRow, new InMemoryQueryIndirectionPolicy());
    }

    /**
     * ADVANCED:
     * Query the cache in-memory.
     * If the expression is too complex an exception will be thrown.
     * Only return objects that are invalid in the cache if specified.
     */
    public Vector getAllFromIdentityMap(Expression selectionCriteria, Class theClass, Record translationRow, InMemoryQueryIndirectionPolicy valueHolderPolicy, boolean shouldReturnInvalidatedObjects) throws QueryException {
        return getIdentityMapManager().getAllFromIdentityMap(selectionCriteria, theClass, translationRow, valueHolderPolicy, shouldReturnInvalidatedObjects);
    }

    /**
     * ADVANCED:
     * Query the cache in-memory.
     * If the expression is too complex an exception will be thrown.
     */
    public Vector getAllFromIdentityMap(Expression selectionCriteria, Class theClass, Record translationRow, InMemoryQueryIndirectionPolicy valueHolderPolicy) throws QueryException {
        return getAllFromIdentityMap(selectionCriteria, theClass, translationRow, valueHolderPolicy, true);
    }

    /**
     * ADVANCED:
     * Return the object from the identity with primary and class of the given object.
     */
    public Object getFromIdentityMap(Object object) {
        return getFromIdentityMap(getSession().keyFromObject(object), object.getClass());
    }

    /**
     * INTERNAL:
     * Retrieve the cache key for the given identity information
     * @param Vector the primary key of the cache key to be retrieved
     * @param Class the class of the cache key to be retrieved
     * @return CacheKey
     */
    public CacheKey getCacheKeyForObject(Vector primaryKey, Class myClass, ClassDescriptor descriptor) {
        return getIdentityMapManager().getCacheKeyForObject(primaryKey, myClass, descriptor);
    }

    /**
     * ADVANCED:
     * Return the object from the identity with the primary and class.
     */
    public Object getFromIdentityMap(Vector primaryKey, Class theClass) {
        return getFromIdentityMap(primaryKey, theClass, true);
    }
    
    /**
     * INTERNAL:
     * Return the object from the identity with the primary and class.
     */
    public Object getFromIdentityMap(Vector primaryKey, Class theClass, ClassDescriptor descriptor) {
        return getFromIdentityMap(primaryKey, theClass, true, descriptor);
    }

    /**
     * ADVANCED:
     * Return the object from the identity with the primary and class.
     * Only return invalidated objects if requested.
     */
    public Object getFromIdentityMap(Vector primaryKey, Class theClass, boolean shouldReturnInvalidatedObjects) {
        return getFromIdentityMap(primaryKey, theClass, shouldReturnInvalidatedObjects, getSession().getDescriptor(theClass));
    }
    
    /**
     * INTERNAL:
     * Return the object from the identity with the primary and class.
     * Only return invalidated objects if requested.
     */
    public Object getFromIdentityMap(Vector primaryKey, Class theClass, boolean shouldReturnInvalidatedObjects, ClassDescriptor descriptor) {
        return getIdentityMapManager().getFromIdentityMap(primaryKey, theClass, shouldReturnInvalidatedObjects, descriptor);
    }

    /**
     * ADVANCED:
     * Return the object from the identity with the primary and class.
     */
    public Object getFromIdentityMap(Record rowContainingPrimaryKey, Class theClass) {
        return getFromIdentityMap(extractPrimaryKeyFromRow((AbstractRecord)rowContainingPrimaryKey, theClass), theClass);
    }

    /**
     * ADVANCED:
     * Return the object from the identity with the primary and class.
     * Only return invalidated objects if requested.
     */
    public Object getFromIdentityMap(Record rowContainingPrimaryKey, Class theClass, boolean shouldReturnInvalidatedObjects) {
        return getFromIdentityMap(extractPrimaryKeyFromRow((AbstractRecord)rowContainingPrimaryKey, theClass), theClass, shouldReturnInvalidatedObjects);
    }

    /**
     * ADVANCED:
     * Query the cache in-memory.
     * If the object is not found null is returned.
     * If the expression is too complex an exception will be thrown.
     */
    public Object getFromIdentityMap(Expression selectionCriteria, Class theClass, Record translationRow) throws QueryException {
        return getFromIdentityMap(selectionCriteria, theClass, translationRow, new InMemoryQueryIndirectionPolicy());
    }

    /**
     * ADVANCED:
     * Query the cache in-memory.
     * If the object is not found null is returned.
     * If the expression is too complex an exception will be thrown.
     */
    public Object getFromIdentityMap(Expression selectionCriteria, Class theClass, Record translationRow, InMemoryQueryIndirectionPolicy valueHolderPolicy) throws QueryException {
        return getFromIdentityMap(selectionCriteria, theClass, translationRow, valueHolderPolicy, false);
    }

    /**
     * INTERNAL:
     * Query the cache in-memory.
     * If the object is not found null is returned.
     * If the expression is too complex an exception will be thrown.
     */
    public Object getFromIdentityMap(Expression selectionCriteria, Class theClass, Record translationRow, InMemoryQueryIndirectionPolicy valueHolderPolicy, boolean conforming) {
        return getFromIdentityMap(selectionCriteria, theClass, translationRow, valueHolderPolicy, conforming, true, getSession().getDescriptor(theClass));
    }

    /**
     * INTERNAL:
     * Query the cache in-memory.
     * If the object is not found null is returned.
     * If the expression is too complex an exception will be thrown.
     */
    public Object getFromIdentityMap(Expression selectionCriteria, Class theClass, Record translationRow, InMemoryQueryIndirectionPolicy valueHolderPolicy, boolean conforming, boolean shouldReturnInvalidatedObjects) {
        return getFromIdentityMap(selectionCriteria, theClass, translationRow, valueHolderPolicy, conforming, shouldReturnInvalidatedObjects, getSession().getDescriptor(theClass));
    }
    
    /**
     * INTERNAL:
     * Query the cache in-memory.
     * If the object is not found null is returned.
     * If the expression is too complex an exception will be thrown.
     */
    public Object getFromIdentityMap(Expression selectionCriteria, Class theClass, Record translationRow, InMemoryQueryIndirectionPolicy valueHolderPolicy, boolean conforming, boolean shouldReturnInvalidatedObjects, ClassDescriptor descriptor) {
        return getIdentityMapManager().getFromIdentityMap(selectionCriteria, theClass, translationRow, valueHolderPolicy, conforming, shouldReturnInvalidatedObjects, descriptor);
    }

    /**
     * INTERNAL:
     * Return the object from the identity with the primary and class.
     */
    public Object getFromIdentityMapWithDeferredLock(Vector primaryKey, Class theClass, ClassDescriptor descriptor) {
        return getFromIdentityMapWithDeferredLock(primaryKey, theClass, true, descriptor);
    }

    /**
     * INTERNAL:
     * Return the object from the identity with the primary and class.
     * Only return invalidated objects if requested
     */
    public Object getFromIdentityMapWithDeferredLock(Vector primaryKey, Class theClass, boolean shouldReturnInvalidatedObjects, ClassDescriptor descriptor) {
        return getIdentityMapManager().getFromIdentityMapWithDeferredLock(primaryKey, theClass, shouldReturnInvalidatedObjects, descriptor);
    }

    /**
     * INTERNAL:
     * Get the IdentityMapManager for this IdentityMapAccessor
     * This method should be used for all IdentityMapManager access since it may
     * be overridden in sub classes.
     */
    public IdentityMapManager getIdentityMapManager() {
        if (session.hasBroker()) {
            return getSession().getBroker().getIdentityMapAccessorInstance().getIdentityMapManager();
        }
        return identityMapManager;
    }

    /**
     * INTERNAL:
     * Get the identity map for the given class from the IdentityMapManager
     */
    public IdentityMap getIdentityMap(Class theClass) {
        ClassDescriptor descriptor = getSession().getDescriptor(theClass);
        if (descriptor == null) {
            throw ValidationException.missingDescriptor(theClass.toString());
        }
        return this.getIdentityMap(descriptor);
    }

    /**
     * INTERNAL:
     * Get the identity map for the given class from the IdentityMapManager
     */
    public IdentityMap getIdentityMap(ClassDescriptor descriptor) {
        return getIdentityMapManager().getIdentityMap(descriptor);
    }

    /**
     * ADVANCED:
     * Return the remaining life of this object.  This method is associated with use of
     * TopLink's cache invalidation feature and returns the difference between the next expiry
     * time of the object and its read time.  The method will return 0 for invalidated objects.
     */
    public long getRemainingValidTime(Object object) {
        Vector primaryKey = getSession().keyFromObject(object);
        ClassDescriptor descriptor = getSession().getDescriptor(object);
        CacheKey key = getCacheKeyForObject(primaryKey, object.getClass(), descriptor);
        if (key == null) {
            throw QueryException.objectDoesNotExistInCache(object);
        }
        return descriptor.getCacheInvalidationPolicy().getRemainingValidTime(key);
    }

    /**
     * INTERNAL:
     * get the session associated with this IdentityMapAccessor
     */
    public AbstractSession getSession() {
        return session;
    }

    /**
     * INTERNAL:
     * Get the wrapper object from the cache key associated with the given primary key,
     * this is used for EJB.
     */
    public Object getWrapper(Vector primaryKey, Class theClass) {
        return getIdentityMapManager().getWrapper(primaryKey, theClass);
    }

    /**
     * INTERNAL:
     * Returns the single write Lock manager for this session
     */
    public WriteLockManager getWriteLockManager() {
        return getIdentityMapManager().getWriteLockManager();
    }

    /**
    * ADVANCED:
    * Extract the write lock value from the identity map.
    */
    public Object getWriteLockValue(Object object) {
        return getWriteLockValue(getSession().keyFromObject(object), object.getClass());
    }

    /**
     * ADVANCED:
     * Extract the write lock value from the identity map.
     */
    public Object getWriteLockValue(Vector primaryKey, Class theClass) {
        return getWriteLockValue(primaryKey, theClass, getSession().getDescriptor(theClass));
    }
        
    /**
     * ADVANCED:
     * Extract the write lock value from the identity map.
     */
    public Object getWriteLockValue(Vector primaryKey, Class theClass, ClassDescriptor descriptor) {
        return getIdentityMapManager().getWriteLockValue(primaryKey, theClass, descriptor);
    }

    /**
     * PUBLIC:
     * Reset the entire object cache.
     * 

NOTE: be careful using this method. This method blows away both this session's and its parents caches, * this includes the server cache or any other cache. This throws away any objects that have been read in. * Extream caution should be used before doing this because object identity will no longer * be maintained for any objects currently read in. This should only be called * if the application knows that it no longer has references to object held in the cache. */ public void initializeAllIdentityMaps() { getSession().log(SessionLog.FINER, SessionLog.CACHE, "initialize_all_identitymaps"); getIdentityMapManager().initializeIdentityMaps(); } /** * PUBLIC: * Reset the identity map for only the instances of the class. * For inheritance the user must make sure that they only use the root class. * Caution must be used in doing this to ensure that the objects within the identity map * are not referenced from other objects of other classes or from the application. */ public void initializeIdentityMap(Class theClass) { getSession().log(SessionLog.FINER, SessionLog.CACHE, "initialize_identitymap", theClass); getIdentityMapManager().initializeIdentityMap(theClass); } /** * PUBLIC: * Reset the entire local object cache. * This throws away any objects that have been read in. * Extream caution should be used before doing this because object identity will no longer * be maintained for any objects currently read in. This should only be called * if the application knows that it no longer has references to object held in the cache. */ public void initializeIdentityMaps() { getSession().log(SessionLog.FINER, SessionLog.CACHE, "initialize_identitymaps"); getIdentityMapManager().initializeIdentityMaps(); getSession().getCommitManager().reinitialize(); } /** * ADVANCED: * Set an object to be invalid in the TopLink identity maps. * If the object does not exist in the cache, thiss method will return * without any action */ public void invalidateObject(Object object) { invalidateObject(getSession().keyFromObject(object), object.getClass()); } /** * ADVANCED: * Set an object to be invalid in the TopLink identity maps. * If the object does not exist in the cache, this method will return * without any action */ public void invalidateObject(Vector primaryKey, Class theClass) { ClassDescriptor descriptor = getSession().getDescriptor(theClass); //forward the call to getCacheKeyForObject locally in case subclasses overload CacheKey key = this.getCacheKeyForObject(primaryKey, theClass, descriptor); if (key != null) { key.setInvalidationState(CacheKey.CACHE_KEY_INVALID); } } /** * ADVANCED: * Set an object to be invalid in the TopLink identity maps. * If the object does not exist in the cache, this method will return * without any action */ public void invalidateObject(Record rowContainingPrimaryKey, Class theClass) { invalidateObject(extractPrimaryKeyFromRow(rowContainingPrimaryKey, theClass), theClass); } /** * ADVANCED: * Set all of the objects from the given Expression to be invalid in the TopLink Identity Maps */ public void invalidateObjects(Expression selectionCriteria) { invalidateObjects(getAllFromIdentityMap(selectionCriteria, selectionCriteria.getBuilder().getQueryClass(), new DatabaseRecord(1))); } /** * ADVANCED: * Set all of the objects in the given collection to be invalid in the TopLink Identity Maps * This method will take no action for any objects in the collection that do not exist in the cache. */ public void invalidateObjects(Vector collection) { Enumeration enumtr = collection.elements(); while (enumtr.hasMoreElements()) { invalidateObject(enumtr.nextElement()); } } /** * ADVANCED: * Set all of the objects of a specific class to be invalid in TopLink's identity maps * Will set the recurse on inheritance to true. */ public void invalidateClass(Class myClass) { invalidateClass(myClass, true); } /** * ADVANCED: * Set all of the objects of a specific class to be invalid in TopLink's identity maps. * User can set the recurse flag to false if they do not want to invalidate * all the classes within an inheritance tree. */ public void invalidateClass(Class myClass, boolean recurse) { //forward the call to getIdentityMap locally in case subclasses overload IdentityMap identityMap = this.getIdentityMap(myClass); //removed synchronization that would result in deadlock //no need to synchronize as changes to identity map will not aversely //affect this code Enumeration keys = identityMap.keys(); while (keys.hasMoreElements()) { CacheKey key = (CacheKey)keys.nextElement(); Object obj = key.getObject(); if (recurse || ((obj != null) && obj.getClass().equals(myClass))) { key.setInvalidationState(CacheKey.CACHE_KEY_INVALID); } } } /** * ADVANCED: * Set all of the objects from all identity maps to be invalid in TopLink's * identity maps. */ public void invalidateAll() { Enumeration identiyMapClasses = getIdentityMapManager().getIdentityMapClasses(); while (identiyMapClasses.hasMoreElements()) { invalidateClass((Class) identiyMapClasses.nextElement()); } } /** * ADVANCED: * Return true if this object is valid in TopLink's identity maps * return false otherwise */ public boolean isValid(Object object) { return isValid(getSession().keyFromObject(object), object.getClass()); } /** * ADVANCED: * Return true if this object is valid in TopLink's identity maps * return false otherwise */ public boolean isValid(Vector primaryKey, Class theClass) { ClassDescriptor descriptor = getSession().getDescriptor(theClass); //forward the call to getCacheKeyForObject locally in case subclasses overload CacheKey key = this.getCacheKeyForObject(primaryKey, theClass, descriptor); if (key == null) { throw QueryException.classPkDoesNotExistInCache(theClass, primaryKey); } return !descriptor.getCacheInvalidationPolicy().isInvalidated(key, System.currentTimeMillis()); } /** * ADVANCED: * Return true if this object is valid in TopLink's identity maps * return false otherwise */ public boolean isValid(AbstractRecord rowContainingPrimaryKey, Class theClass) { return isValid(extractPrimaryKeyFromRow(rowContainingPrimaryKey, theClass), theClass); } /** * PUBLIC: * Used to print all the objects in the identity map of the passed in class. * The output of this method will be logged to this session's SessionLog at SEVERE level. */ public void printIdentityMap(Class businessClass) { if (getSession().shouldLog(SessionLog.SEVERE, SessionLog.CACHE)) { getIdentityMapManager().printIdentityMap(businessClass); } } /** * PUBLIC: * Used to print all the objects in every identity map in this session. * The output of this method will be logged to this session's SessionLog at SEVERE level. */ public void printIdentityMaps() { if (getSession().shouldLog(SessionLog.SEVERE, SessionLog.CACHE)) { getIdentityMapManager().printIdentityMaps(); } } /** * PUBLIC: * Used to print all the locks in every identity map in this session. * The output of this method will be logged to this session's SessionLog at FINEST level. */ public void printIdentityMapLocks() { if (getSession().shouldLog(SessionLog.FINEST, SessionLog.CACHE)) { getIdentityMapManager().printLocks(); } } /** * ADVANCED: * Register the object with the identity map. * The object must always be registered with its version number if optimistic locking is used. */ public Object putInIdentityMap(Object object) { return putInIdentityMap(object, getSession().keyFromObject(object)); } /** * ADVANCED: * Register the object with the identity map. * The object must always be registered with its version number if optimistic locking is used. */ public Object putInIdentityMap(Object object, Vector key) { return putInIdentityMap(object, key, null); } /** * ADVANCED: * Register the object with the identity map. * The object must always be registered with its version number if optimistic locking is used. */ public Object putInIdentityMap(Object object, Vector key, Object writeLockValue) { return putInIdentityMap(object, key, writeLockValue, 0); } /** * ADVANCED: * Register the object with the identity map. * The object must always be registered with its version number if optimistic locking is used. * The readTime may also be included in the cache key as it is constructed */ public Object putInIdentityMap(Object object, Vector key, Object writeLockValue, long readTime) { ClassDescriptor descriptor = getSession().getDescriptor(object); return putInIdentityMap(object, key, writeLockValue, readTime, descriptor); } /** * ADVANCED: * Register the object with the identity map. * The object must always be registered with its version number if optimistic locking is used. * The readTime may also be included in the cache key as it is constructed */ public Object putInIdentityMap(Object object, Vector key, Object writeLockValue, long readTime, ClassDescriptor descriptor) { CacheKey cacheKey = internalPutInIdentityMap(object, key, writeLockValue, readTime, descriptor); if (cacheKey == null) { return null; } return cacheKey.getObject(); } /** * INTERNAL: * Register the object with the identity map. * The object must always be registered with its version number if optimistic locking is used. * The readTime may also be included in the cache key as it is constructed. * Return the cache-key. */ public CacheKey internalPutInIdentityMap(Object object, Vector key, Object writeLockValue, long readTime, ClassDescriptor descriptor) { return getIdentityMapManager().putInIdentityMap(object, key, writeLockValue, readTime, descriptor); } /** * INTERNAL: * Lock the entire cache if the cache isolation requires. * By default concurrent reads and writes are allowed. * By write, unit of work merge is meant. */ public void releaseWriteLock() { getIdentityMapManager().releaseWriteLock(); } /** * ADVANCED: * Remove the object from the object cache. * Caution should be used when calling to avoid violating object identity. * The application should only call this is it knows that no references to the object exist. */ public Object removeFromIdentityMap(Object object) { return removeFromIdentityMap(getSession().keyFromObject(object), object.getClass()); } /** * ADVANCED: * Remove the object from the object cache. */ public Object removeFromIdentityMap(Vector key, Class theClass) { ClassDescriptor descriptor = getSession().getDescriptor(theClass); return removeFromIdentityMap(key, theClass, descriptor); } /** * INTERNAL: * Remove the object from the object cache. */ public Object removeFromIdentityMap(Vector key, Class theClass, ClassDescriptor descriptor) { return getIdentityMapManager().removeFromIdentityMap(key, theClass, descriptor); } /** * INTERNAL: * Set the IdentityMapManager for this IdentityMapAccessor */ public void setIdentityMapManager(IdentityMapManager identityMapManager) { this.identityMapManager = identityMapManager; } /** * INTERNAL: * Update the wrapper object the cache key associated with the given primary key, * this is used for EJB. */ public void setWrapper(Vector primaryKey, Class theClass, Object wrapper) { getIdentityMapManager().setWrapper(primaryKey, theClass, wrapper); } /** * ADVANCED: * Update the write lock value in the identity map. */ public void updateWriteLockValue(Object object, Object writeLockValue) { updateWriteLockValue(getSession().keyFromObject(object), object.getClass(), writeLockValue); } /** * ADVANCED: * Update the write lock value in the identity map. */ public void updateWriteLockValue(Vector primaryKey, Class theClass, Object writeLockValue) { getIdentityMapManager().setWriteLockValue(primaryKey, theClass, writeLockValue); } /** * INTERNAL: * This can be used to help debugging an object identity problem. * An object identity problem is when an object in the cache references an object not in the cache. * This method will validate that all cached objects are in a correct state. */ public void validateCache() { //pass certain calls to this in order to allow subclasses to implement own behaviour getSession().log(SessionLog.FINER, SessionLog.CACHE, "validate_cache"); // This define an inner class for process the itteration operation, don't be scared, its just an inner class. DescriptorIterator iterator = new DescriptorIterator() { public void iterate(Object object) { if (!containsObjectInIdentityMap(IdentityMapAccessor.this.session.getDescriptor(object.getClass()).getObjectBuilder().extractPrimaryKeyFromObject(object, IdentityMapAccessor.this.getSession()), object.getClass())) { IdentityMapAccessor.this.session.log(SessionLog.FINEST, SessionLog.CACHE, "stack_of_visited_objects_that_refer_to_the_corrupt_object", getVisitedStack()); IdentityMapAccessor.this.session.log(SessionLog.FINER, SessionLog.CACHE, "corrupt_object_referenced_through_mapping", getCurrentMapping()); IdentityMapAccessor.this.session.log(SessionLog.FINER, SessionLog.CACHE, "corrupt_object", object); } } }; iterator.setSession(getSession()); Iterator descriptors = getSession().getDescriptors().values().iterator(); while (descriptors.hasNext()) { ClassDescriptor descriptor = (ClassDescriptor)descriptors.next(); for (Enumeration mapEnum = getIdentityMap(descriptor).elements(); mapEnum.hasMoreElements();) { iterator.startIterationOn(mapEnum.nextElement()); } } } }





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