Messages in this thread | | | Date | Thu, 4 Jul 2019 19:34:54 -0400 (EDT) | From | Mathieu Desnoyers <> | Subject | Re: [PATCH] cpu/hotplug: Cache number of online CPUs |
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----- On Jul 4, 2019, at 6:33 PM, Thomas Gleixner tglx@linutronix.de wrote:
> On Thu, 4 Jul 2019, Mathieu Desnoyers wrote: >> ----- On Jul 4, 2019, at 5:10 PM, Thomas Gleixner tglx@linutronix.de wrote: >> > >> > num_online_cpus() is racy today vs. CPU hotplug operations as >> > long as you don't hold the hotplug lock. >> >> Fair point, AFAIU none of the loads performed within num_online_cpus() >> seem to rely on atomic nor volatile accesses. So not using a volatile >> access to load the cached value should not introduce any regression. >> >> I'm concerned that some code may rely on re-fetching of the cached >> value between iterations of a loop. The lack of READ_ONCE() would >> let the compiler keep a lifted load within a register and never >> re-fetch, unless there is a cpu_relax() or a barrier() within the >> loop. > > If someone really wants to write code which can handle concurrent CPU > hotplug operations and rely on that information, then it's probably better > to write out: > > ncpus = READ_ONCE(__num_online_cpus); > > explicitely along with a big fat comment. > > I can't figure out why one wants to do that and how it is supposed to work, > but my brain is in shutdown mode already :) > > I'd rather write a proper kernel doc comment for num_online_cpus() which > explains what the constraints are instead of pretending that the READ_ONCE > in the inline has any meaning.
The other aspect I am concerned about is freedom given to the compiler to perform the store to __num_online_cpus non-atomically, or the load non-atomically due to memory pressure. Is that something we should be concerned about ?
I thought we had WRITE_ONCE and READ_ONCE to take care of that kind of situation.
The semantic I am looking for here is C11's relaxed atomics.
Thanks,
Mathieu
> > Thanks, > > tglx
-- Mathieu Desnoyers EfficiOS Inc. http://www.efficios.com
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