@SuppressWarnings("unchecked")
@Override
/**
* Handle the given delete event. This is the cascaded form.
*
* @param event The delete event.
* @param transientEntities The cache of entities already deleted
* @throws HibernateException
*/
public void onDelete(DeleteEvent event, Set transientEntities) throws HibernateException {
final EventSource source = event.getSession();
final PersistenceContext persistenceContext = source.getPersistenceContext();
Object entity = persistenceContext.unproxyAndReassociate(event.getObject());
EntityEntry entityEntry = persistenceContext.getEntry(entity);
final EntityPersister persister = source.getEntityPersister(event.getEntityName(), entity);
final Object version;
if (persister.isVersioned()) {
version = persister.getVersion(entity, source.getEntityMode());
// Make sure version has not changed on deleted entities
if ((entity instanceof TimelineEntity) && !((TimelineEntity) entity).isNew()) {
if (!persister.getVersionType().isEqual(version, entityEntry.getVersion())) {
throw new StaleObjectStateException(persister.getEntityName(), entityEntry.getId());
}
}
}
super.onDelete(event, transientEntities);
}
@Override
public void execute() throws HibernateException {
final Serializable id = getId();
final EntityPersister persister = getPersister();
final SessionImplementor session = getSession();
final Object instance = getInstance();
final boolean veto = preUpdate();
final SessionFactoryImplementor factory = session.getFactory();
Object previousVersion = this.previousVersion;
if (persister.isVersionPropertyGenerated()) {
// we need to grab the version value from the entity, otherwise
// we have issues with generated-version entities that may have
// multiple actions queued during the same flush
previousVersion = persister.getVersion(instance);
}
final Object ck;
if (persister.hasCache()) {
final EntityRegionAccessStrategy cache = persister.getCacheAccessStrategy();
ck = cache.generateCacheKey(id, persister, factory, session.getTenantIdentifier());
lock = cache.lockItem(session, ck, previousVersion);
} else {
ck = null;
}
if (!veto) {
persister.update(
id,
state,
dirtyFields,
hasDirtyCollection,
previousState,
previousVersion,
instance,
rowId,
session);
}
final EntityEntry entry = session.getPersistenceContext().getEntry(instance);
if (entry == null) {
throw new AssertionFailure("possible nonthreadsafe access to session");
}
if (entry.getStatus() == Status.MANAGED || persister.isVersionPropertyGenerated()) {
// get the updated snapshot of the entity state by cloning current state;
// it is safe to copy in place, since by this time no-one else (should have)
// has a reference to the array
TypeHelper.deepCopy(
state, persister.getPropertyTypes(), persister.getPropertyCheckability(), state, session);
if (persister.hasUpdateGeneratedProperties()) {
// this entity defines proeprty generation, so process those generated
// values...
persister.processUpdateGeneratedProperties(id, instance, state, session);
if (persister.isVersionPropertyGenerated()) {
nextVersion = Versioning.getVersion(state, persister);
}
}
// have the entity entry doAfterTransactionCompletion post-update processing, passing it the
// update state and the new version (if one).
entry.postUpdate(instance, state, nextVersion);
}
if (persister.hasCache()) {
if (persister.isCacheInvalidationRequired() || entry.getStatus() != Status.MANAGED) {
persister.getCacheAccessStrategy().remove(session, ck);
} else {
// TODO: inefficient if that cache is just going to ignore the updated state!
final CacheEntry ce = persister.buildCacheEntry(instance, state, nextVersion, getSession());
cacheEntry = persister.getCacheEntryStructure().structure(ce);
final boolean put = cacheUpdate(persister, previousVersion, ck);
if (put && factory.getStatistics().isStatisticsEnabled()) {
factory
.getStatisticsImplementor()
.secondLevelCachePut(getPersister().getCacheAccessStrategy().getRegion().getName());
}
}
}
session
.getPersistenceContext()
.getNaturalIdHelper()
.manageSharedNaturalIdCrossReference(
persister, id, state, previousNaturalIdValues, CachedNaturalIdValueSource.UPDATE);
postUpdate();
if (factory.getStatistics().isStatisticsEnabled() && !veto) {
factory.getStatisticsImplementor().updateEntity(getPersister().getEntityName());
}
}
public void execute() throws HibernateException {
Serializable id = getId();
EntityPersister persister = getPersister();
SessionImplementor session = getSession();
Object instance = getInstance();
boolean veto = preDelete();
Object version = this.version;
if (persister.isVersionPropertyGenerated()) {
// we need to grab the version value from the entity, otherwise
// we have issues with generated-version entities that may have
// multiple actions queued during the same flush
version = persister.getVersion(instance, session.getEntityMode());
}
final CacheKey ck;
if (persister.hasCache()) {
ck =
new CacheKey(
id,
persister.getIdentifierType(),
persister.getRootEntityName(),
session.getEntityMode(),
session.getFactory());
lock = persister.getCacheAccessStrategy().lockItem(ck, version);
} else {
ck = null;
}
if (!isCascadeDeleteEnabled && !veto) {
persister.delete(id, version, instance, session);
}
// postDelete:
// After actually deleting a row, record the fact that the instance no longer
// exists on the database (needed for identity-column key generation), and
// remove it from the session cache
final PersistenceContext persistenceContext = session.getPersistenceContext();
EntityEntry entry = persistenceContext.removeEntry(instance);
if (entry == null) {
throw new AssertionFailure("possible nonthreadsafe access to session");
}
entry.postDelete();
persistenceContext.removeEntity(entry.getEntityKey());
persistenceContext.removeProxy(entry.getEntityKey());
if (persister.hasCache()) {
persister.getCacheAccessStrategy().remove(ck);
}
postDelete();
if (getSession().getFactory().getStatistics().isStatisticsEnabled() && !veto) {
getSession()
.getFactory()
.getStatisticsImplementor()
.deleteEntity(getPersister().getEntityName());
}
}
/**
* Handle the given delete event. This is the cascaded form.
*
* @param event The delete event.
* @param transientEntities The cache of entities already deleted
* @throws HibernateException
*/
public void onDelete(DeleteEvent event, Set transientEntities) throws HibernateException {
final EventSource source = event.getSession();
final PersistenceContext persistenceContext = source.getPersistenceContext();
Object entity = persistenceContext.unproxyAndReassociate(event.getObject());
EntityEntry entityEntry = persistenceContext.getEntry(entity);
final EntityPersister persister;
final Serializable id;
final Object version;
if (entityEntry == null) {
LOG.trace("Entity was not persistent in delete processing");
persister = source.getEntityPersister(event.getEntityName(), entity);
if (ForeignKeys.isTransient(persister.getEntityName(), entity, null, source)) {
deleteTransientEntity(
source, entity, event.isCascadeDeleteEnabled(), persister, transientEntities);
// EARLY EXIT!!!
return;
}
performDetachedEntityDeletionCheck(event);
id = persister.getIdentifier(entity, source);
if (id == null) {
throw new TransientObjectException(
"the detached instance passed to delete() had a null identifier");
}
final EntityKey key = source.generateEntityKey(id, persister);
persistenceContext.checkUniqueness(key, entity);
new OnUpdateVisitor(source, id, entity).process(entity, persister);
version = persister.getVersion(entity);
entityEntry =
persistenceContext.addEntity(
entity,
(persister.isMutable() ? Status.MANAGED : Status.READ_ONLY),
persister.getPropertyValues(entity),
key,
version,
LockMode.NONE,
true,
persister,
false);
} else {
LOG.trace("Deleting a persistent instance");
if (entityEntry.getStatus() == Status.DELETED || entityEntry.getStatus() == Status.GONE) {
LOG.trace("Object was already deleted");
return;
}
persister = entityEntry.getPersister();
id = entityEntry.getId();
version = entityEntry.getVersion();
}
/*if ( !persister.isMutable() ) {
throw new HibernateException(
"attempted to delete an object of immutable class: " +
MessageHelper.infoString(persister)
);
}*/
if (invokeDeleteLifecycle(source, entity, persister)) {
return;
}
deleteEntity(
source,
entity,
entityEntry,
event.isCascadeDeleteEnabled(),
event.isOrphanRemovalBeforeUpdates(),
persister,
transientEntities);
if (source.getFactory().getSettings().isIdentifierRollbackEnabled()) {
persister.resetIdentifier(entity, id, version, source);
}
}
protected void performUpdate(SaveOrUpdateEvent event, Object entity, EntityPersister persister)
throws HibernateException {
if (!persister.isMutable()) LOG.trace("Immutable instance passed to performUpdate()");
if (LOG.isTraceEnabled())
LOG.trace(
"Updating "
+ MessageHelper.infoString(
persister, event.getRequestedId(), event.getSession().getFactory()));
final EventSource source = event.getSession();
final EntityKey key = source.generateEntityKey(event.getRequestedId(), persister);
source.getPersistenceContext().checkUniqueness(key, entity);
if (invokeUpdateLifecycle(entity, persister, source)) {
reassociate(event, event.getObject(), event.getRequestedId(), persister);
return;
}
// this is a transient object with existing persistent state not loaded by the session
new OnUpdateVisitor(source, event.getRequestedId(), entity).process(entity, persister);
// TODO: put this stuff back in to read snapshot from
// the second-level cache (needs some extra work)
/*Object[] cachedState = null;
if ( persister.hasCache() ) {
CacheEntry entry = (CacheEntry) persister.getCache()
.get( event.getRequestedId(), source.getTimestamp() );
cachedState = entry==null ?
null :
entry.getState(); //TODO: half-assemble this stuff
}*/
source
.getPersistenceContext()
.addEntity(
entity,
(persister.isMutable() ? Status.MANAGED : Status.READ_ONLY),
null, // cachedState,
key,
persister.getVersion(entity, source.getEntityMode()),
LockMode.NONE,
true,
persister,
false,
true // assume true, since we don't really know, and it doesn't matter
);
persister.afterReassociate(entity, source);
if (LOG.isTraceEnabled())
LOG.trace(
"Updating "
+ MessageHelper.infoString(persister, event.getRequestedId(), source.getFactory()));
cascadeOnUpdate(event, persister, entity);
}