5

Describtion

Im working on a little java game server... in order to update and save the game in another thread, im forced to deep clone some of my entities. Otherwhise a internal hibernate exception occurs : "ConcurrentModificationException" when updating my entities

So my flow currently looks like this :

  • Mark game entities to update
  • Pass those entities into another thread
  • Clone those entities
  • Call "session.update" on the cloned entities
  • Repeat in one minute

It works fine with simple classes, but theres a huge problem with relations.

The problem

When i deep clone my "chunk" entity ( see below ), its collection ( inChunk ) also gets deep cloned. I use that deep cloned entity and pass it to "session.update".

During the update, the chunk ALWAYS inserts its collection childs. It never updates them. Because i repeat this update process every minute ( see above ), it results in a "Duplicate Entry" exception at the second update cycle.


// Run the database operation for updating the entities async in a new thread, return updated entities once done
        return CompletableFuture.runAsync(() -> {

            var session = database.openSession();
            session.beginTransaction();

            try {

                // Save entities
                for (var entity: entities)
                    session.update(entity);

                session.flush();
                session.clear();

                session.getTransaction().commit();
            } catch (Exception e){

                var messageComposer = new ExceptionMessageComposer(e);
                GameExtension.getInstance().trace("Update : "+messageComposer.toString());
                session.getTransaction().rollback();
            }

            session.close();
        }).thenApply(v -> entities);

@Entity
@Table(name = "chunk", uniqueConstraints = {@UniqueConstraint(columnNames={"x", "y"})}, indexes = {@Index(columnList = "x,y")})
@Access(value = AccessType.FIELD)
@SelectBeforeUpdate(false)
public class Chunk extends HibernateComponent{

    public int x;
    public int y;
    public Date createdOn;

    @OneToMany(fetch = FetchType.EAGER)
    @JoinTable(name = "chunk_identity", joinColumns = @JoinColumn(name = "identity_id"), inverseJoinColumns = @JoinColumn(name = "id"), inverseForeignKey = @ForeignKey(ConstraintMode.NO_CONSTRAINT))
    @Fetch(FetchMode.JOIN)
    @BatchSize(size = 50)
    public Set<Identity> inChunk = new LinkedHashSet<>();

    @Transient
    public Set<ChunkLoader> loadedBy = new LinkedHashSet<>();

    public Chunk() {}
    public Chunk(int x, int y, Date createdOn) {
        this.x = x;
        this.y = y;
        this.createdOn = createdOn;
    }
}


/**
 * Represents a ID of a {@link com.artemis.Entity} which is unique for each entity and mostly the database id
 */
@Entity
@Table(name = "identity")
@Access(AccessType.FIELD)
@SQLInsert(sql = "insert into identity(tag, typeID, id) values(?,?,?) ON DUPLICATE KEY UPDATE id = VALUES(id), tag = values(tag), typeID = values(typeID)")
@SelectBeforeUpdate(value = false)
public class Identity extends Component {

    @Id public long id;
    public String tag;
    public String typeID;

    public Identity() {}
    public Identity(long id, String tag, String typeID) {
        this.id = id;
        this.tag = tag;
        this.typeID = typeID;
    }

}

Question

Why the hell does hibernate always inserts my childs without any checking if those had already been inserted ? And what can i do to prevent/fix this ?

Things i have tried

  • Removing "@SelectBeforeUpdate" annotations
  • Adding cascading to the "Chunk.InChunk" relation with "All" or "Merge"
  • Run a "session.merge" instead of "session.update" which results in the same duplicate entry exception, simply ignoring the fact that its children are already inserted.

None of them worked

Disclaimer

I need to clone the entities, otherwhise it results in an internal hibernate exception, see the link above.

Im using a library called "DeppClone" https://github.com/kostaskougios/cloning for cloning my entities in an other thread.

If more informations are required, please write a comment. Its a complex issue and hard to generalize, but i hope that i have described it properly.

12
  • That's because, as far as Hibernate is concerned, those are new entities you're trying to insert. You need to put cascade = MERGE on top of Chunk.inChunk to merge the children as well when merging the parent into the context
    – crizzis
    Nov 8, 2020 at 18:00
  • @crizzis Thanks a lot ! Im gonna try that later :) Hopefully it solves that damn issue... nevertheles, such a merge would cause multiple select statements, they dont even get batched. Is there another way to tell hibernate to merge those without actually doing the select stuff ?
    – genaray
    Nov 8, 2020 at 18:49
  • Well, you could put @SelectBeforeUpdate(false) on top of Identity as well, but just to make sure - you understand that preventing SELECTs can only be done at the expense of more UPDATEs? If you're absolutely sure that all Identity instances need to be updated, that's fine, of course
    – crizzis
    Nov 8, 2020 at 19:08
  • @crizzis This did not work :/ Well it runs a few selects but once it merges the deep cloned "chunk", i still receive a duplicate entry exception... and yes, the database is empty, i generate stuff during runtime
    – genaray
    Nov 10, 2020 at 15:45
  • Could you also post the Identity entity? I understand that, since you have @OneToMany on Chunk.inChunk with no mappedBy, Identity does not have a backreference to its parent Chunk, right?
    – crizzis
    Nov 10, 2020 at 20:39

1 Answer 1

1

You should consider to achieve two major changes:

  1. separation of concerns (read & write)
  2. choose a consistency principle

With #1 you don't have to deal with ConcurrentModificationException anymore. There is only one component or service involved modifying your entities.

A second component or service only reads the entities in a separate context. All entities must be immutable to stay away from implementation accidents.

Both need a contract or interface (in the general meaning, not a Java interface) which brings you to #2. As soon as a change happened any speed-up trickery in your read-only-context must flush caches or re-read/ merge changes. And according to CAP-theorem you have to sacrifice one of the three, depending on your preferred consistency strategy. Since there is no hint about the number of writes, entities and read-constraints I cannot suggest anything more detailed.

If I would have to implement it now there'd be at least 3 modules (Java 11/ Jigsaw):

  • API-module holding only interfaces to force for example unified get-methods across the following two modules
  • Writer-modules, with all your Hibernate magic to write entities and a sort of listener-pattern, so the next module can register itself
  • Reader-module with Hibernate magic to read entities and provide them to others (over REST, RCP, …), registering itself to the writer to have some sort of refresh upon changes.

The reader-module could also read the database upon start and consume events produced by the writer. These events would be sort of commands, changing in memory in the reader-module instead of re-reading from the database. So you could drop Hibernate completely through plain in-memory caching with a bit of event-modeling. This would still work in a single JVM by using BlockingQueues and ConcurrentHashMap (as cache). Simple JDBC would be enough to bootstrap your model.

If it were that easy by deep copying and a bit of Thread.start others would do it this way. Since there are plenty of models, strategies and patterns out there regarding concurrent persistence I suggest to refactor.

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