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According to the Intel 64 and IA-32 Architectures Software Developer's Manual the LOCK Signal Prefix "ensures that the processor has exclusive use of any shared memory while the signal is asserted". That can be a in the form of a bus or cache lock.

But - and that's the reason I'm asking this question - it isn't clear to me, if this Prefix also provides any memory-barrier.

I'm developing with NASM in a multi-processor environment and need to implement atomic operations with optional acquire and/or release semantics.

So, do I need to use the MFENCE, SFENCE and LFENCE instructions or would this be redundant?

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2 Answers 2

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No, there is no need to use instructions MFENCE, SFENCE and LFENCE in relation with LOCK prefix.

MFENCE, SFENCE and LFENCE instruction guarantee visibility of memory in all CPU cores. On instance the MOV instruction can't be used with LOCK prefix, so to be sure that result of memory move is visible to all CPU cores we must be sure that CPU cache is flushed to RAM and that we reach with fence instructions.

EDIT: more about locked atomic operations from Intel manual:

LOCKED ATOMIC OPERATIONS

The 32-bit IA-32 processors support locked atomic operations on locations in system memory. These operations are typically used to manage shared data structures (such as semaphores, segment descriptors, system segments, or page tables) in which two or more processors may try simultaneously to modify the same field or flag. The processor uses three interdependent mechanisms for carrying out locked atomic operations:

• Guaranteed atomic operations

• Bus locking, using the LOCK# signal and the LOCK instruction prefix

• Cache coherency protocols that insure that atomic operations can be carried out on cached data structures (cache lock); this mechanism is present in the Pentium 4, Intel Xeon, and P6 family processors

These mechanisms are interdependent in the following ways. Certain basic memory transactions (such as reading or writing a byte in system memory) are always guaranteed to be handled atomically. That is, once started, the processor guarantees that the operation will be completed before another processor or bus agent is allowed access to the memory location. The processor also supports bus locking for performing selected memory operations (such as a read-modify-write operation in a shared area of memory) that typically need to be handled atomically, but are not automatically handled this way. Because frequently used memory locations are often cached in a processor’s L1 or L2 caches, atomic operations can often be carried out inside a processor’s caches without asserting the bus lock. Here the processor’s cache coherency protocols insure that other processors that are caching the same memory locations are managed properly while atomic operations are performed on cached memory locations.

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Yes, I know. But I want to use (for example) an interlocked increment to signal I'm aquiring a resource. Thus means I need to use 'lfence' prior the increment. Why? Because I must be sure that every prior load operation has finished before I'm signaling. –  0xbadf00d Jan 27 '11 at 12:31
    
No, there is no need to do that, it should be made atomaticly. Check my edit about locked atomic operations. –  GJ. Jan 27 '11 at 12:59
    
But an atomic operation has nothing to do with prioer or followed memory reads and writes?! Check this blog: blogs.msdn.com/b/kangsu/archive/2007/07/16/… –  0xbadf00d Jan 27 '11 at 13:07
    
Yes of course. The cache coherency mechanism only automatically prevents two or more processors that have cached the same area of memory from simultaneously modifying data in that area. So you do not need lfence. Check for more information in Intel reference chapter 8: MULTIPLE-PROCESSOR MANAGEMEN intel.com/Assets/PDF/manual/253668.pdf –  GJ. Jan 27 '11 at 13:33
    
To be more clear: You do not need lfence prior the increment if you are using lock prefix! –  GJ. Jan 27 '11 at 13:41
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No. From the IA32 manuals (Volume 3A, Chapter 8.2: Memory Ordering):

Reads or writes cannot be reordered with I/O instructions, locked instructions, or serializing instructions.

Therefore, a fence instruction is not needed with locked instructions.

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