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According to Wiki, CAS do something like this:

function cas(p : pointer to int, old : int, new : int) returns bool {
    if *p ≠ old {
        return false
    }
    *p ← new
    return true
}

Well, it seems for me that if several processors will try to execute CAS instruction with the same arguments, there can be several write attempts at the same time so it's not safe to do it anyway.

Where am I wrong?

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    Having several writes at the same time is not a problem as long as it's clear who won. You may be thinking of the ABA problem which requires additional handling to be safe. But in the case of ints that's no problem. – Voo Aug 14 '16 at 9:05
  • @Voo "Having several writes at the same time is not a problem" -- are you sure? I thought that it's unsafe to do that because, for example, x86 doesn't guarantee atomicity of writes for non-aligned DWORDs – FrozenHeart Aug 14 '16 at 9:09
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Atomic read-compare-write instructions from multiple cores at the same time do contend with each other, but it's up to hardware to sort that out. Hardware arbitration of atomic RMW instructions is a real thing in modern CPUs, and provides some degree of fairness so that one thread spinning on lock cmpxchg can't totally block other threads doing the same thing. (Although that's a bad design: better to spin on an acquire-load and only do the CAS if it should succeed)

There's no guarantee what order they happen in, which is why you need to carefully design your algorithm so that correctness only depends on that compare-and-exchange being atomic. (The ABA problem is a common pitfall).


BTW, that entire block of pseudocode happens as a single atomic operation. Making a read-compare-write or read-modify-write happen as a single atomic operation is much harder for the hardware than just stores, which MESIF/MOESI handle just fine.

are you sure? I thought that it's unsafe to do that because, for example, x86 doesn't guarantee atomicity of writes for non-aligned DWORDs

lock cmpxchg makes the operation atomic regardless of alignment. It's potentially a lot slower for unaligned, especially on cache-line splits where atomically modifying a single cache line isn't enough.

See also Atomicity on x86 where I explain what it means for an operation to be atomic.

  • Is it not enough to just have the CMPXCHG instruction? Should I mark it with the LOCK prefix too? – FrozenHeart Aug 14 '16 at 9:18
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    @FrozenHeart: You need lock if you want it to be atomic! lock is implicit for xchg with a memory operand, but not for any other instruction. – Peter Cordes Aug 14 '16 at 9:26
  • So, CAS by itself is not enough to provide atomicity, so we should prefix it with the LOCK prefix as well. What's the point of having such instruction like CMPXCHG then? Just because we can LOCK only one instruction at the time? – FrozenHeart Aug 14 '16 at 9:30
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    Using instructions such as cmpxchg without the prefix is useful in at least a couple of scenarios: (1) on single-CPU systems, the lock prefix can be removed, at least outside of obscure scenarios such as DMA or other non-CPU agents contending on the same macro. Single-CPU builds (i.e., CONFIG_SMP=n) are a good example - most of the atomic ops are hidden behind macros which can simply omit the lock prefix when SMP is disabled. Without the lock prefix, you still have instruction-atomicty in the face of interrupts which is all you need. – BeeOnRope Aug 30 '16 at 6:03
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    @BeeOnRope: that's a good point. Linux actually goes farther than that: booting an SMP kernel on a UP system actually patches the lock prefixes into 0x90 NOP in all the places where it's not needed on UP. It also patches out some lock/unlock code if preemption is disabled. (IIRC, the kernel log message is patching SMP alternatives or something). Excellent point about being atomic at an instruction level; I can see how non-LOCKed CMPXCHG could actually be useful, the same way that inc [foo] is different from separate load/store. – Peter Cordes Aug 30 '16 at 6:32
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If you read the wiki it says that CAS "is an atomic version of the following pseudocode" of the code you posted. Atomic means that the code will execute without interruptions from other threads. So even if several threads try to execute this code at the same time with the same arguments (like you suggest) only one of them will return true, because in practice they will not execute simultaneously since the atomicity require they run in isolation.

And since you mention "x86 doesn't guarantee atomicity of writes for non-aligned DWORDs", this is not an issue here either because the atomic property of the cas function.

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