[PATCH 4/4] powerpc/64: reuse PPC32 static inline flush_dcache_range()
segher at kernel.crashing.org
Wed Jul 10 03:04:22 AEST 2019
On Tue, Jul 09, 2019 at 08:21:54AM +0530, Aneesh Kumar K.V wrote:
> On 7/9/19 7:50 AM, Oliver O'Halloran wrote:
> >I don't think it's that, there's some magic in flush_icache_range() to
> >handle dropping prefetched instructions on 970.
> >>So overall wondering why we need that extra barriers there.
> >I think the isync is needed there because the architecture only
> >requires sync to provide ordering. A sync alone doesn't guarantee the
> >dcbfs have actually completed so the isync is necessary to ensure the
> >flushed cache lines are back in memory. That said, as far as I know
> >all the IBM book3s chips from power4 onwards will wait for pending
> >dcbfs when they hit a sync, but that might change in the future.
> ISA doesn't list that as the sequence. Only place where isync was
> mentioned was w.r.t icbi where want to discards the prefetch.
You need an isync to guarantee all icbi insns before the isync have been
performed before any code after the isync is fetched. Killing the
prefetch is just part of it.
> >If it's a problem we could add a cpu-feature section around the isync
> >to no-op it in the common case. However, when I had a look with perf
> >it always showed that the sync was the hotspot so I don't think it'll
> >help much.
> What about the preceding barriers (sync; isync;) before dcbf? Why are
> they needed?
This isn't very generic code. The code seems to be trying to do
coherency in software. Like you needed to do for DART on U3/U4, or for
some of the PMU/SMU communication -- both are through main memory, but
both are not cache coherent. Which means all rules go out of the
To do this properly you need some platform-specific code, for example
to kill hardware and software prefetch streams. Or hope^Wguarantee
those never touch your communication buffers.
I recommend you keep the original function, maybe with a more specific
name, for the DART etc. code; and have all normal(*) dcbf users use a
new more normal function, with just a single sync instruction.
(*) As far as anything using dcbf can be called "normal"!
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