Am 30.06.21 um 10:41 schrieb Pekka Paalanen:
On Tue, 29 Jun 2021 13:39:18 +0200
Werner Sembach <wse@xxxxxxxxxxxxxxxxxxx> wrote:
Am 29.06.21 um 13:17 schrieb Pekka Paalanen:
On Tue, 29 Jun 2021 08:12:54 +0000
Simon Ser <contact@xxxxxxxxxxx> wrote:
On Tuesday, June 22nd, 2021 at 09:15, Pekka Paalanen <ppaalanen@xxxxxxxxx> wrote:
yes, I think this makes sense, even if it is a property that one can't
tell for sure what it does before hand.
Using a pair of properties, preference and active, to ask for something
and then check what actually worked is good for reducing the
combinatorial explosion caused by needing to "atomic TEST_ONLY commit"
test different KMS configurations. Userspace has a better chance of
finding a configuration that is possible.
OTOH, this has the problem than in UI one cannot tell the user in
advance which options are truly possible. Given that KMS properties are
rarely completely independent, and in this case known to depend on
several other KMS properties, I think it is good enough to know after
the fact.
If a driver does not use what userspace prefers, there is no way to
understand why, or what else to change to make it happen. That problem
exists anyway, because TEST_ONLY commits do not give useful feedback
but only a yes/no.
By submitting incremental atomic reqs with TEST_ONLY (i.e. only changing one
property at a time), user-space can discover which property makes the atomic
commit fail.
That works if the properties are independent of each other. Color
range, color format, bpc and more may all be interconnected,
allowing only certain combinations to work.
If all these properties have "auto" setting too, then it would be
possible to probe each property individually, but that still does not
tell which combinations are valid.
If you probe towards a certain configuration by setting the properties
one by one, then depending on the order you pick the properties, you
may come to a different conclusion on which property breaks the
configuration.
My mind crossed another point that must be considered: When plugin in
a Monitor a list of possible Resolutions+Framerate combinations is
created for xrandr and other userspace (I guess by atomic checks? but
I don't know).
Hi,
I would not think so, but I hope to be corrected if I'm wrong.
My belief is that the driver collects a list of modes from EDID, some
standard modes, and maybe some other hardcoded modes, and then
validates each entry against all the known limitations like vertical
and horizontal frequency limits, discarding modes that do not fit.
Not all limitations are known during that phase, which is why KMS
property "link-status" exists. When userspace actually programs a mode
(not a TEST_ONLY commit), the link training may fail. The kernel prunes
the mode from the list and sets the link status property to signal
failure, and sends a hotplug uevent. Userspace needs to re-check the
mode list and try again.
That is a generic escape hatch for when TEST_ONLY commit succeeds, but
in reality the hardware cannot do it, you just cannot know until you
actually try for real. It causes end user visible flicker if it happens
on an already running connector, but since it usually happens when
turning a connector on to begin with, there is no flicker to be seen,
just a small delay in finding a mode that works.
During this drm
properties are already considered, which is no problem atm because as
far as i can tell there is currently no drm property that would make
a certain Resolutions+Framerate combination unreachable that would be
possible with everything on default.
I would not expect KMS properties to be considered at all. It would
reject modes that are actually possible if the some KMS properties were
changed. So at least going forward, current KMS property values cannot
factor in.
At least the debugfs variable "force_yuv420_output" did change the
available modes here:
https://elixir.bootlin.com/linux/v5.13/source/drivers/gpu/drm/amd/display/amdgpu_dm/amdgpu_dm.c#L5165
before my patch
https://git.kernel.org/pub/scm/linux/kernel/git/torvalds/linux.git/commit/?id=68eb3ae3c63708f823aeeb63bb15197c727bd9bf
Forcing a color format via a DRM property in this function would
reintroduce the problem.
And I think i915 driver works similar in this regard.
However for example forcing YCbCr420 encoding would limit the
available resolutions (my screen for example only supports YCbCr420
on 4k@60 and @50Hz and on no other resolution or frequency (native is
2560x1440@144Hz).
So would a "force color format" that does not get resetted on
repluging/reenabling a monitor break the output, for example, of an
not updated xrandr, unaware of this new property?
Yes, not because the mode list would be missing the mode, but because
actually setting the mode would fail.
Well, like described above, I think the mode would actually be missing,
which is also an unexpected behavior from a user perspective.
RandR in particular is problematic, because it does not actually
understand any KMS properties, it is merely a relay. So anything
that *uses* RandR protocol or xrandr command would also need to be
patched to understand the new properties.
The kernel automatically resetting *some* properties in *some*
occasions seems really fragile and complicated to me, which is why I'm
a lot more keen to see a "reset everything to sensible defaults"
generic mechanism added to KMS.
Would you see that mechanism not (yet) existing a blocker for this
patchset/the "force-" properties?
Thanks,
pq
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