__asm__ __volatile__ () does and what is significance of
"memory" for ARM architecture?
creates a compiler level memory barrier forcing optimizer to not re-order memory accesses across the barrier.
For example, if you need to access some address in a specific order (probably because that memory area is actually backed by a different device rather than a memory) you need to be able tell this to the compiler otherwise it may just optimize your steps for the sake of efficiency.
Assume in this scenario you must increment a value in address, read something and increment another value in an adjacent address.
Problem is compiler (
Above values for
So you'll get your instruction sequence as you want it to be:
It should be noted that this is only compile time memory barrier to avoid compiler to reorder memory accesses, as it puts no extra hardware level instructions to flush memories or wait for load or stores to be completed. CPUs can still reorder memory accesses if they have the architectural capabilities and memory addresses are on
This sequence is a compiler memory access scheduling barrier, as noted in the article referenced by Udo. This one is GCC specific - other compilers have other ways of describing them, some of them with more explicit (and less esoteric) statements.
The meaning is explained here:
Basically it implies that the assembly code will be executed where you expect it. It tells the compiler to not reorder instructions around it. That is what is coded before this piece of code will be executed before and what is coded after will be executed after.