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I'm reading a legacy C++ code where memory barrier is defined as below. The main OS are linux and vxworks. The compilers are gcc(WindRiver's gcc).

   #define MEMORY_BARRIER   __asm__ volatile("nop\n");
   #define MEMORY_BARRIER   __asm nop;

But I don't see how a no-op operation works to produce a memory barrier? Or it's just a fault implementation?

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you probably got the wrong interpretation of memory barrier. you probably take it to mean fence. the person who wrote it probably meant it as a filler. i.e. for padding code to align to certain boundary. –  thang Feb 4 '13 at 1:24
The legacy code is using it as the purpose of a memory fence in lots of places that you can clearly tell. Btw, how does a nop serve as the alignment purpose anyway? –  Eric Z Feb 4 '13 at 1:26
it's a filler. if you know your code is 15 bytes and need to pad it to 16 bytes (on x86) before more stuff, sometimes people insert a nop. here: stackoverflow.com/questions/234906/… –  thang Feb 4 '13 at 1:27

1 Answer 1

up vote 7 down vote accepted

This is a compiler barrier, not a full hardware memory barrier. That is, it is intended to be an opaque call that the compiler can't optimize across, but it doesn't have any effect on the hardware in terms of memory re-ordering. It may be defined correctly for that purpose if the compilers in question do in fact treat asm blocks as opaque (for example, gcc asm blocks have specific rules for defining exactly what can change across a block, etc).

It may be appropriate to call it a full memory barrier (which usually suppresses both compiler and hardware re-orderings) if you know the hardware this code targets has a strong memory model that never reorders memory operations.

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But shouldn't we use asm volatile("" ::: "memory"); for compiler barrier? –  Eric Z Feb 4 '13 at 1:36
Sure, on gcc, or compilers that support the gcc asm syntax, but I have no idea what compilers the #else case is actually targeting. For all I know the #else case is not targeting gcc but some other compilers which never look inside the asm block at all, and always insert it at its location in the source. If I had my way, the #ifs would cover all compilers explicitly, with a final #ifelse that fails with an "unsupported compiler" warning. I'm not sure how Wind River's gcc asm syntax differs from gcc. You should check whether just volatile is enough, or if clobber lists are required. –  BeeOnRope Feb 4 '13 at 1:44
I'll look into that. Thanks! –  Eric Z Feb 4 '13 at 1:50
FWIW, it seems to me that recent gcc documentation implies that volatile alone is not enough - that you need volatile and [memory] in the clobber list, as you suggested. If this code is old, it may have worked in the past, but may no longer work, etc. Of course, compiler-only barriers are highly suspect anyway if your hardware does any reordering. –  BeeOnRope Feb 4 '13 at 1:59

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