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Memory barriers guarantee that the data cache will be consistent. However, does it guarantee that the TLB will be consistent?

I am seeing a problem where the JVM (java 7 update 1) sometimes crashes with memory errors (SIGBUS, SIGSEG) when passing a MappedByteBuffer between threads.


final AtomicReference<MappedByteBuffer> mbbQueue = new AtomicReference<>();

// in a background thread.
MappedByteBuffer map =, offset, allocationSize);
while (!inQueue.compareAndSet(null, map));

// the main thread. (more than 10x faster than using map() in the same thread)
MappedByteBuffer mbb = inQueue.getAndSet(null);

Without the Thread.yield() I occasionally get crashes in force(), put(), and C's memcpy() all indicating I am trying to access memory illegally. With the Thread.yield() I haven't had a problem, but that doesn't sound like a reliable solution.

Has anyone come across this problem? Are there any guarantees about TLB and memory barriers?

EDIT: The OS is Centos 5.7, I have seen the behaviour on i7 and a Dual Xeon machines.

Why do I do this? Because the average time to write a message is 35-100 ns depending on length and using a plain write() isn't as fast. If I memory map and clean up in the current thread this takes 50-130 microseconds, using a background thread to do it takes about 3-5 microseconds for the main thread to swap buffers. Why do I need to be swapping buffers at all? Because I am writing many GB of data and ByteBuffer cannot be 2+ GB in size.

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Peter, would you mind specifying the details of the OS and CPU models/configuration, in case this is pertinent? – NPE Nov 30 '11 at 13:52
@aix, good suggestion. It could matter. – Peter Lawrey Nov 30 '11 at 13:59
Have you tried with an older jdk? There are changes to the unmapper used in the directbuffer cleaner in jdk7. You may also want to try removing the cleaner call you make just to see if you are in some strange race condition with whatever else may be working with that phantomref. – philwb Dec 6 '11 at 16:45
@philwb, Cleaners are paranoid to be executed once and actually Java contains code that does invoke them "manually", besides the in the ref-handler. So, it cannot be that. Invoking the cleaner pertains the race possibility of actually still using the mapped memory, though. Btw, the lack of normal unmap is a real issue and it doesn't have an easy solution as the mapped ByteBuffer's address can be in use by native code. Using locks would kill any performance, though. – bestsss Dec 7 '11 at 12:06
@bestsss good point on the lock. Agreed on the map access looking the real culprit. Where else are cleaners manually called? A quick scan of the java sources only turned up the referencehandler for me. Thanks for the responses - always very enlightened. – philwb Dec 7 '11 at 16:35

1 Answer 1

up vote 11 down vote accepted

The mapping is done via mmap64 ( When the address is accessed there will be a page fault and the kernel shall read/write there for you. TLB doesn't need to be updated during mmap.

TLB (of all cpus) is unvalidated during munmap which is handled by the finalization of the MappedByteBuffer, hence munmap is costly.

Mapping involves a lot synchronization so the address value shall not be corrupted.

Any chance you try fancy stuff via Unsafe?

share|improve this answer
Using Unsafe would be a next step, assuming I can get this stable. I do call ((DirectBuffer) buffer).cleaner().clean() to clean up the memory without waiting for a GC. ;) – Peter Lawrey Nov 30 '11 at 18:19
this is your problem... you are unmapping w/o all references gone: prime reason for SIGSEV. If you want to use it, wrap the ByteBuffer into something w/ a Reference w/ refCount and make sure you do support it well. – bestsss Nov 30 '11 at 19:37
also manual unmap might not be super efficient as it flushes the TLB of all CPUs. When performed by the GC, it's usually in a bulk [i.e. multiple cleaner in the queue] and the effect is lesser, of course when the Cleaner is invoked is another unpleasant story. – bestsss Nov 30 '11 at 19:44
I ensure there is only one reference to the MappedByteBuffer and only release it after the thread which alters it no longer has a reference. – Peter Lawrey Dec 1 '11 at 7:44
@Peter, btw, you dont need force before clean (unmap). you told you are attempting to use it as interprocess communication and you are getting the issues on the writing side only. TLB shall not matter, it's a cache after all, page faults are handled by the kernel anyways (and updates TLB) – bestsss Dec 1 '11 at 17:07

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