On 07/09/2018 10:55, Lionel Landwerlin wrote:
On 07/09/2018 10:39, Tvrtko Ursulin wrote:
On 07/09/2018 10:23, Lionel Landwerlin wrote:
On 07/09/2018 09:26, Tvrtko Ursulin wrote:
On 06/09/2018 11:36, Lionel Landwerlin wrote:
On 06/09/2018 11:22, Chris Wilson wrote:
Quoting Lionel Landwerlin (2018-09-06 11:18:01)
On 06/09/2018 11:10, Chris Wilson wrote:
Quoting Lionel Landwerlin (2018-09-06 10:57:47)
On 05/09/2018 15:22, Tvrtko Ursulin wrote:
From: Lionel Landwerlin <lionel.g.landwerlin@xxxxxxxxx>
If some of the contexts submitting workloads to the GPU have been
configured to shutdown slices/subslices, we might loose the NOA
configurations written in the NOA muxes.
One possible solution to this problem is to reprogram the NOA
muxes
when we switch to a new context. We initially tried this in the
workaround batchbuffer but some concerns where raised about
the cost
of reprogramming at every context switch. This solution is
also not
without consequences from the userspace point of view.
Reprogramming
of the muxes can only happen once the powergating
configuration has
changed (which happens after context switch). This means for a
window
of time during the recording, counters recorded by the OA unit
might
be invalid. This requires userspace dealing with OA reports to
discard
the invalid values.
Minimizing the reprogramming could be implemented by tracking
of the
last programmed configuration somewhere in GGTT and use
MI_PREDICATE
to discard some of the programming commands, but the command
streamer
would still have to parse all the MI_LRI instructions in the
workaround batchbuffer.
Another solution, which this change implements, is to simply
disregard
the user requested configuration for the period of time when
i915/perf
is active. There is no known issue with this apart from a
performance
penality for some media workloads that benefit from running on a
partially powergated GPU. We already prevent RC6 from
affecting the
programming so it doesn't sound completely unreasonable to
hold on
powergating for the same reason.
v2: Leave RPCS programming in intel_lrc.c (Lionel)
v3: Update for s/union intel_sseu/struct intel_sseu/ (Lionel)
More to_intel_context() (Tvrtko)
s/dev_priv/i915/ (Tvrtko)
Tvrtko Ursulin:
v4:
* Rebase for make_rpcs changes.
v5:
* Apply OA restriction from make_rpcs directly.
v6:
* Rebase for context image setup changes.
Signed-off-by: Lionel Landwerlin <lionel.g.landwerlin@xxxxxxxxx>
Signed-off-by: Tvrtko Ursulin <tvrtko.ursulin@xxxxxxxxx>
---
drivers/gpu/drm/i915/i915_perf.c | 5 +++++
drivers/gpu/drm/i915/intel_lrc.c | 30
++++++++++++++++++++----------
drivers/gpu/drm/i915/intel_lrc.h | 3 +++
3 files changed, 28 insertions(+), 10 deletions(-)
diff --git a/drivers/gpu/drm/i915/i915_perf.c
b/drivers/gpu/drm/i915/i915_perf.c
index ccb20230df2c..dd65b72bddd4 100644
--- a/drivers/gpu/drm/i915/i915_perf.c
+++ b/drivers/gpu/drm/i915/i915_perf.c
@@ -1677,6 +1677,11 @@ static void
gen8_update_reg_state_unlocked(struct i915_gem_context *ctx,
CTX_REG(reg_state, state_offset, flex_regs[i],
value);
}
+
+ CTX_REG(reg_state, CTX_R_PWR_CLK_STATE,
GEN8_R_PWR_CLK_STATE,
+ gen8_make_rpcs(dev_priv,
+ &to_intel_context(ctx,
+ dev_priv->engine[RCS])->sseu));
I think there is one issue I missed on the previous iterations
of this
patch.
This gen8_update_reg_state_unlocked() is called when the GPU is
parked
on the kernel context.
It's supposed to update all contexts, but I think we might not
be able
to update the kernel context image while the GPU is using it.
The kernel context is only ever taken in extremis (you are either
parking or stalling userspace) so I don't care.
The patch exposing the RPCS configuration to userspace will make
use of
the kernel context while OA/perf is enabled. Even if it
reprograms the
locked value that will break the power configuration stability on
Gen11
(because the locked configuration will be different from the kernel
context configuration).
Sure, but as you point out that's only on changing configuration.
What's missing in the patch is that we only bail early if the new
sseu
matches the ce->sseu, but that doesn't necessarily match whats in the
context due to OA. (Or maybe I missed the conversion to rpcs value
and
checking.)
-Chris
Yep, because the gen8_make_rpcs() post processes the values store
at the gem context level, we risk rerunning the kernel context to
write the exiting value.
Sorry this is all so messy :(
Lets see if I managed to follow here.
The current code indeed bails out at the set ctx param level if the
requested state matches the ce->state. My thinking was that
ce->state is the master state and whatever happens in "post
processing" via gen8_make_rpcs should be hidden from it since the
design is that the i915_perf.c will re-configure all contexts when
the OA active status changes (to either direction).
So I don't see a problem in those two interactions.
Let's say you have contextA with sseu(slice,subslice)=(0x1/0xff) for
ICL.
You then enable OA which locks the configuration at (0x1,0xf).
The kernel context has retained its (0x1/0xff) configuration.
And after you change the config of contextA to (0x1,0x7).
This would lead to the kernel context scheduled with (0x1,0xff) while
OA is active.
Okay that's a problem discussed in the paragraph below - that the
kernel context is not updated at all. But is it a problem for OA? Will
it mess up some counters even if kernel context isn't executing
anything interacting with them? Or is it?
What the HW is going to do to the NOA logic in power configuration
changes is not really documented.
Experimentally on SKL GT4, it seems a change in power configuration will
trigger a power off of everything before applying the power at the new
configuration.
So that would imply loosing the NOA programming when we switch to the
kernel context which means invalid values in the counters.
Apart from one, get_param_sseu will lie a bit - we can discuss about
this one more. At one point I suggested we have two sets of masks in
the uAPI, requested and active in a way. So userspace could query
what it set and what is actually active.
Now second issue is if i915_perf.c is able to reprogram the kernel
config.
Here its true, it will write to the context image and that will get
overwritten by context save.
If that is a problem for OA, I was initially if a throw-away second
"kernel" context could be use to re-program the real one, but
perhaps even simpler - what about a mmio write to program the RPCS
while kernel context is active?
Documentation says : "This register must not be programmed directly
through CPU MMIO cycle."
Sorry :(
Ugh.. okay, help me understand if kernel context absolutely needs to
follow the "lock" for OA to work and then we'll see what to do.
I think so.
Your idea of a throw away context to reprogramming every seems sound.
I was in the middle of refactoring the series to implement this when I
started suspecting the need for it.
Premise of the problem statement was the kernel context doesn't get
updated by the OA code, but, there is a loop in
gen8_configure_all_contexts which goes through exactly all of them after
it has idled the GPU.
AFAICS that means it is able to map the kernel context state and edit it
so everything seems fine from this angle. (Kernel context is
perma-pinned in software, but after idling the GPU we know it is not
actually on the GPU so it safe to edit it's image.)
Am I missing some hole here, and if not, why does the code needs to have
a primary update via a request in gen8_switch_to_updated_kernel_context?
Context image after idling seems again sufficient.
Would it be possible to exercise the hypothetical loss of NOA
configuration from an IGT, if kernel context wasn't correctly updated?
Regards,
Tvrtko
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