On 01/22/2016 05:26 PM, Steve Ebersole wrote: > On Fri, Jan 22, 2016 at 9:30 AM Radim Vansa <rva...@redhat.com > <mailto:rva...@redhat.com>> wrote: > > On 01/22/2016 03:11 PM, Steve Ebersole wrote: > > On Fri, Jan 22, 2016 at 7:21 AM Radim Vansa <rva...@redhat.com > <mailto:rva...@redhat.com> > > <mailto:rva...@redhat.com <mailto:rva...@redhat.com>>> wrote: > > > > Why should the strategy 'never be used if serializable > transaction > > isolation level is required'? What guarantees it gives, and what > > in ORM > > core depends on this? When I've asked the last time, Steve said > > that all modes but the > > > > nonstrict one require that the 2LC is absolutely transparent > > (consistency-wise), so you always get the same answer as if > you were > > directly talking to DB. > > > > > > I would guess this is talking about "serializable isolation" at the > > application layer. Yes extended across both the application and > > database. In our original implementations we had no L2 cache > > providers that would support serializable isolation. Does > > hibernate-infinispan? If we ask for a certain entry from the > cache in > > T1, T2 adds that entry and commits, and then we ask for it again > in T1 > > do we still see it as "not existing"? I'd highly doubt it, but > if it > > does then lets make note of that. > > No, without a transactional cache, it does not. Thanks for the > example. > But will the request get to 2LC, or will it be served already from > Session cache? > > > It won't work even with a transactional cache I believe. It won't work > with Infinispan e.g. I do not think. Hibernate does not keep reference > to "non-existing" entities. That's the only way the Session could > "serve" the fact that the first T1 lookup found nothing. Again, this > gets right back to that idea of consistency. Without L2 caching, in > this scenario with serializable isolation the database would return me > "no row" in both T1 SELECTs.
Infinispan keeps 'transactional context' for the current transaction and stores all reads there, even if this is a null read. However, as I've checked the distribution code, it still does the remote lookup (which escapes the transaction) and the value could get there even with so-called repeatable reads. I'll check infinispan-dev why. > > > Does the ' you should ensure that the transaction is completed when > > `Session.close()` or `Session.disconnect()` is called' still > hold, or > > does the transactional rework in 5.0 somehow obsolete this info? > > > > > > I cannot say why this is discussed in a chapter on caching. > > Session#disconnect is largely deprecated (its main use case is > handled > > much more transparently now). IMO it's always a good idea to make > > sure a transaction against a resource is completed prior to closing > > that transaction. That's no different for a Hibernate Session > then it > > is for a JDBC Connection, etc. > > Did you meant 'commit the transaction before closing the session'? If > the Session.close() is called with tx open, will the transaction be > committed? But any way, this should be really the same as without 2LC. > > > I meant to say " make sure a transaction against a resource is > completed prior to closing that resource". Saying "complete the > transaction" != "commit the transaction". Completion might be either > commit or rollback. But the idea is that it is in a definitive state. > > Historically what a stranded transaction at the time of Session#close > meant depended on the JDBC driver. Most drivers rollback back on a > stranded transaction; Oracle has always been the notable exception as > they would commit a stranded transaction. But regardless in terms of > Session locks etc in the cache that would strand the locks as well iirc. > > In developing 5.0 and the new transaction handling I know we talked > about making this more deterministic, specifically always handling > this as if a rollback had been called. But to be honest, that's not > what I am seeing in the code. Andrea, do you remember? If not, we > should definitely add some tests for this to see what happens atm and > make sure its really what we want to have happen moving forward. > > > > Basically this passage is a poorly worded hint. What it is > trying to > > convey is that for "asynchronous" cache access what drives the > > interactions with the Cache is the Hibernate transaction, and in > these > > case the user should take extra care to make sure that the > transaction > > is handled properly. That still holds true. > > > > As a refresher, the idea of "synchronous" versus "asynchronous" is > > simply cache access that is driven by JTA ("synchronous") versus > those > > that are driven by local transactions ("asynchronous"). > > > Eh, I probably don't get the exact meaning of 'driving the access' :-/ > And I can't find any reference to 'async' in user guide. > > > I keep pointing y'all to > org.hibernate.cache.spi.access.EntityRegionAccessStrategy, > org.hibernate.cache.spi.access.CollectionRegionAccessStrategy, etc as > the best source for this information. I spent a lot of time > documenting (javadoc) these contracts as I developed them. > sync/async is discussed there. No need for it to be discussed in the > user guide IMO, its a concept for developers of cache implementations > to understand not users. Okay, this sync/async. Sure, then it makes sense that it's not in user guide. But pardon my confusion, that class documents which methods are used by sync/async strategies, and what's the order of method invocation, but I never got what is the idea behind the sync/async strategy differentiation. As I've started messing with ORM only after the 5.0 tx rework, I always considered the difference between JTA and local transactions just an implementation detail orthogonal to 2LC. Radim -- Radim Vansa <rva...@redhat.com> JBoss Performance Team _______________________________________________ hibernate-dev mailing list hibernate-dev@lists.jboss.org https://lists.jboss.org/mailman/listinfo/hibernate-dev