Recently, I am reading some Linux kernel space codes, I see this
uint64_t used; uint64_t blocked; used = atomic64_read(&g_variable->used); //#1 barrier(); //#2 blocked = atomic64_read(&g_variable->blocked); //#3
What is the semantics of this code snippet? Does it make sure #1 executes before #3 by #2. But I am a litter bit confused, becasue
#A In 64 bit platform, atomic64_read macro is expanded to
used = (&g_variable->used)->counter // where counter is volatile.
In 32 bits platform, it was converted to use lock cmpxchg8b. I assume these two have the same semantic, and for 64 bits version, I think it means:
- all-or-nothing, we can exclude case where address is unaligned and word size large than CPU's native word size.
- no optimization, force CPU read from memory location.
atomic64_read doesn't have semantic for preserve read ordering!!! see this
#B the barrier macro is defined as
/* Optimization barrier */ /* The "volatile" is due to gcc bugs */ #define barrier() __asm__ __volatile__("": : :"memory")
From the wiki this just prevents gcc compiler from reordering read and write.
What i am confused is how does it disable reorder optimization for CPU? In addition, can i think barrier macro is full fence?