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I was wondering if there's a windows API to set a 16-byte array atomically?

I would really hate to introduce critical sections or mutexes into this just to implement this operations, so I'm trying to find an easier solution.

PS. I need this because this 16-byte array can be written into from a worker thread, and mostly read from a main thread.

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A 16-byte array? Meaning an indefinite number of 16-byte elements? That would basically mean an atomic operation that can set an arbitrary large chunk of memory, which does not exist. – John Calsbeek Mar 24 '12 at 4:41
@JohnCalsbeek: That's 16 bits. – James McNellis Mar 24 '12 at 4:50
@JamesMcNellis Ah, damn it, misread the question. The existence of _InterlockedCompareExchange128 appears to suggest that the answer is "yes"... assuming that your data is aligned. – John Calsbeek Mar 24 '12 at 4:50
@ahmd0 Yes, it does require a 64-bit CPU. In fact, some earlier 64-bit CPUs from AMD don't even support it. And, of course, there's the problem that you need to know the previous value in those bytes, so a full atomic write would need to use the operation in a loop. – John Calsbeek Mar 24 '12 at 4:58
@ahmd0 Incidentally, if you want an atomic store that doesn't act as a memory barrier (you can always add barriers yourself), then you can use an aligned SSE store, which should also be atomic. – John Calsbeek Mar 24 '12 at 5:02
up vote 4 down vote accepted

All of the following assumes a 64-bit x86_64 architecture. I believe that in general what you asked for is not possible on 32-bit x86.

There are really two options. The first one is _InterlockedCompareExchange128, which translates to LOCK CMPXCHG16B. To duplicate the functionality of a 16-byte store with it, you'd need to do something like this:

__int64* dest = ...;
__int64* orig = ...;
unsigned char ok;
    __int64 high = dest[0];
    __int64 low  = dest[1];
    ok = _InterlockedCompareExchange128(dest, high, low, orig);
while (!ok);

Note that because this is an interlocked operation, it implies the equivalent of a _ReadWriteBarrier. This is normally what is meant by an "atomic" operation.

If you want a pure store, not a compare-exchange, then you can use anything that translates to an aligned 16-byte store on the hardware. For example, the MOVDQA instruction would qualify. In C++, that'd look something like this:

__m128i* dest = ...;
_mm_store_si128(dest, _mm_loadu_si128((__m128i*)&orig));

Unless you have a reason to avoid SSE instructions, I think the second version might perform better. You also may want to decide if you want to relax the two memory barriers depending on your actual needs.

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Very nice, thank you! – ahmd0 Mar 24 '12 at 19:42
I wish there were an "objectPair" type in .net which held two object references and could be CompareExchanged. Since 32-bit machines have 32-bit object references and a 64-bit compare-exchange, and 64-bit machines have 64-bit object references but a 128-bit compare exchange, it would seem that it should be possible for .net to allow a CompareExchange of a pair of object references. Not as useful as a true double-compare-and-swap operation as found on the 68020, but available on today's hardware. – supercat Apr 13 '12 at 2:20

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