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The circumstances changed a lot for JDK9 so I was wondering a possible way it is to unmap a memory mapped file under Java 9 (JDK9).

One of the possible ways for <JDK9 is here

  • Please explain your downvotes. It is recommended to post answers to your own questions if you think they are worth the effort. – Karussell Jun 29 '17 at 19:30
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    I did not downvote but, "bestness" is not a scientific/objective measure, a better question would be "how to unmap an mmapped file in Java?", if such a question already exists, you could post your answer there, with a comment saying it's for Java 9. – Jorn Vernee Jun 29 '17 at 22:49
  • Ok, edited to just 'possible' and added the link – Karussell Jun 30 '17 at 6:58
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Currently no special compiler parameter is necessary if you use something like:

public static void cleanMappedByteBuffer(final ByteBuffer buffer) {
 try {
   AccessController.doPrivileged(new PrivilegedExceptionAction<Object>() {
      @Override
      public Object run() throws Exception {
           final Class<?> unsafeClass = Class.forName("sun.misc.Unsafe");
           // we do not need to check for a specific class, we can call the Unsafe method with any buffer class
           MethodHandle unmapper = MethodHandles.lookup().findVirtual(unsafeClass, "invokeCleaner",
               MethodType.methodType(void.class, ByteBuffer.class));
           // fetch the unsafe instance and bind it to the virtual MethodHandle
           final Field f = unsafeClass.getDeclaredField("theUnsafe");
           f.setAccessible(true);
           final Object theUnsafe = f.get(null);
           try {
               unmapper.bindTo(theUnsafe).invokeExact(buffer);
               return null;
           } catch (Throwable t) {
               throw new RuntimeException(t);
           }
      }      
   });
 } catch (PrivilegedActionException e) {
   throw new RuntimeException("Unable to unmap the mapped buffer", e);
 }
}

Note: "this can be dangerous unless you know everything about what is going on in the system". See comments.

Taken from GraphHopper that was inspired from Lucene its code. Furthmore it has code for Android too and has working solutions for older JDK9 versions where different compiler switches were necessary (see git history).

If you call this often better have a look into the Lucene code (which is a bit more tricky) which creates an 'uncleaner' once and just calls clean for the unmap.

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    This will indeed unmap the buffer, but you should include a warning that this can be dangerous unless you know everything about what is going on in the system. In particular, if any threads still attempt to access the now-unmapped buffer, they will most likely crash the entire JVM. – Stuart Marks Jun 30 '17 at 1:47
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    the whole initialization of the method handle should be moved out of that block into a static initializer so you only have to invoke the MH. otherwise this method will be far more costly than necessary. from the linked source: // TODO avoid reflection on every call – the8472 Jun 30 '17 at 22:08
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    @the8472 If you're concerned about security -- and you should be -- then you should be careful about caching a method handle somewhere such that any caller can invoke it. This is because the security check is done at lookup time, not invocation time. – Stuart Marks Jul 1 '17 at 18:11
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    By the way, the history behind why there is no public MappedByteBuffer.unmap() method is in JDK-4724038. Since threads accessing the buffer after it's been unmapped cause a crash or data corruption, unmapping is done by GC, only after the buffer has become unreachable. The obvious solution of guarding every access imposes an unacceptable performance hit. Some ways of avoiding the performance hit are being investigated, but nothing's implemented yet. – Stuart Marks Jul 1 '17 at 18:24
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    @Holger Whoops, yes, you're right, if return this occurs in a method that's inlined into the caller that ignores the return value, then this might become unreachable earlier than the return this. A buffer might indeed become unreachable after the last access to its long address field and before the code that accesses memory at that address. However, in practice the buffer can't be GCed, since there's (probably) no GC safepoint at this point, so the unreachability can't be detected. However, this is probably a place where reachabilityFence or similar is strictly necessary. – Stuart Marks Jul 7 '17 at 21:30

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