[Intel-gfx] [PATCH 1/5] drm/i915: document caching related bits
Ville Syrjälä
ville.syrjala at linux.intel.com
Tue Jul 13 17:47:31 UTC 2021
On Tue, Jul 13, 2021 at 05:13:37PM +0100, Matthew Auld wrote:
> On Tue, 13 Jul 2021 at 16:55, Ville Syrjälä
> <ville.syrjala at linux.intel.com> wrote:
> >
> > On Tue, Jul 13, 2021 at 11:45:50AM +0100, Matthew Auld wrote:
> > > + /**
> > > + * @cache_coherent:
> > > + *
> > > + * Track whether the pages are coherent with the GPU if reading or
> > > + * writing through the CPU cache.
> > > + *
> > > + * This largely depends on the @cache_level, for example if the object
> > > + * is marked as I915_CACHE_LLC, then GPU access is coherent for both
> > > + * reads and writes through the CPU cache.
> > > + *
> > > + * Note that on platforms with shared-LLC support(HAS_LLC) reads through
> > > + * the CPU cache are always coherent, regardless of the @cache_level. On
> > > + * snooping based platforms this is not the case, unless the full
> > > + * I915_CACHE_LLC or similar setting is used.
> > > + *
> > > + * As a result of this we need to track coherency separately for reads
> > > + * and writes, in order to avoid superfluous flushing on shared-LLC
> > > + * platforms, for reads.
> > > + *
> > > + * I915_BO_CACHE_COHERENT_FOR_READ:
> > > + *
> > > + * When reading through the CPU cache, the GPU is still coherent. Note
> > > + * that no data has actually been modified here, so it might seem
> > > + * strange that we care about this.
> > > + *
> > > + * As an example, if some object is mapped on the CPU with write-back
> > > + * caching, and we read some page, then the cache likely now contains
> > > + * the data from that read. At this point the cache and main memory
> > > + * match up, so all good. But next the GPU needs to write some data to
> > > + * that same page. Now if the @cache_level is I915_CACHE_NONE and the
> > > + * the platform doesn't have the shared-LLC, then the GPU will
> > > + * effectively skip invalidating the cache(or however that works
> > > + * internally) when writing the new value. This is really bad since the
> > > + * GPU has just written some new data to main memory, but the CPU cache
> > > + * is still valid and now contains stale data. As a result the next time
> > > + * we do a cached read with the CPU, we are rewarded with stale data.
> > > + * Likewise if the cache is later flushed, we might be rewarded with
> > > + * overwriting main memory with stale data.
> > > + *
> > > + * I915_BO_CACHE_COHERENT_FOR_WRITE:
> > > + *
> > > + * When writing through the CPU cache, the GPU is still coherent. Note
> > > + * that this also implies I915_BO_CACHE_COHERENT_FOR_READ.
> > > + *
> > > + * This is never set when I915_CACHE_NONE is used for @cache_level,
> > > + * where instead we have to manually flush the caches after writing
> > > + * through the CPU cache. For other cache levels this should be set and
> > > + * the object is therefore considered coherent for both reads and writes
> > > + * through the CPU cache.
> >
> > I don't remember why we have this read vs. write split and this new
> > documentation doesn't seem to really explain it either.
>
> Hmm, I attempted to explain that earlier:
>
> * Note that on platforms with shared-LLC support(HAS_LLC) reads through
> * the CPU cache are always coherent, regardless of the @cache_level. On
> * snooping based platforms this is not the case, unless the full
> * I915_CACHE_LLC or similar setting is used.
> *
> * As a result of this we need to track coherency separately for reads
> * and writes, in order to avoid superfluous flushing on shared-LLC
> * platforms, for reads.
>
> So AFAIK it's just because shared-LLC can be coherent for reads, while
> also not being coherent for writes(CACHE_NONE),
CPU vs. GPU is fully coherent when it comes to LLC. Or at least I've
never heard of any mechanism that would make it only partially coherent.
--
Ville Syrjälä
Intel
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