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 = raf.map(MapMode.READ_WRITE, offset, allocationSize); Thread.yield(); 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.