I have a set and test
xchg based assembly lock. my question is :
Do we need to use memory fencing (
lfence ) when using
xchg instruction ?
64 Bit platform : with Intel nehalem
As said in the other answers the lock prefix is implicit, here, so there is no problem on the assembler level. The problem may lay on the C (or C++) level when you use that as inline assembler. Here you have to ensure that the compiler doesn't reorder instructions with respect to your
xchg. If you are using gcc (or cousins) you would typically do something like:
__asm__ __volatile__("xchgl %1, %0" : "=r"(ret) : "m"(*point), "0"(ret) : "memory");
that is declare the instruction as volatile and add the "memory" clobber.
According to Chapter 8 Bus Locking, of the Intel 64 and IA-32 Architectures Software Developer’s Manual, Volume 3A
The memory-ordering model prevents loads and stores from being reordered with locked instructions that execute earlier or later.
So the locked
XCHG instruction acts as a memory barrier, and no additional barrier is needed.