[PATCH] drm/msm: Disable frequency clamping on a630
Akhil P Oommen
akhilpo at codeaurora.org
Thu Sep 9 19:49:50 UTC 2021
On 9/9/2021 9:42 PM, Amit Pundir wrote:
> On Thu, 9 Sept 2021 at 17:47, Amit Pundir <amit.pundir at linaro.org> wrote:
>>
>> On Wed, 8 Sept 2021 at 07:50, Bjorn Andersson
>> <bjorn.andersson at linaro.org> wrote:
>>>
>>> On Mon 09 Aug 10:26 PDT 2021, Akhil P Oommen wrote:
>>>
>>>> On 8/9/2021 9:48 PM, Caleb Connolly wrote:
>>>>>
>>>>>
>>>>> On 09/08/2021 17:12, Rob Clark wrote:
>>>>>> On Mon, Aug 9, 2021 at 7:52 AM Akhil P Oommen
>>>>>> <akhilpo at codeaurora.org> wrote:
>>> [..]
>>>>>>> I am a bit confused. We don't define a power domain for gpu in dt,
>>>>>>> correct? Then what exactly set_opp do here? Do you think this usleep is
>>>>>>> what is helping here somehow to mask the issue?
>>>>> The power domains (for cx and gx) are defined in the GMU DT, the OPPs in
>>>>> the GPU DT. For the sake of simplicity I'll refer to the lowest
>>>>> frequency (257000000) and OPP level (RPMH_REGULATOR_LEVEL_LOW_SVS) as
>>>>> the "min" state, and the highest frequency (710000000) and OPP level
>>>>> (RPMH_REGULATOR_LEVEL_TURBO_L1) as the "max" state. These are defined in
>>>>> sdm845.dtsi under the gpu node.
>>>>>
>>>>> The new devfreq behaviour unmasks what I think is a driver bug, it
>>>>> inadvertently puts much more strain on the GPU regulators than they
>>>>> usually get. With the new behaviour the GPU jumps from it's min state to
>>>>> the max state and back again extremely rapidly under workloads as small
>>>>> as refreshing UI. Where previously the GPU would rarely if ever go above
>>>>> 342MHz when interacting with the device, it now jumps between min and
>>>>> max many times per second.
>>>>>
>>>>> If my understanding is correct, the current implementation of the GMU
>>>>> set freq is the following:
>>>>> - Get OPP for frequency to set
>>>>> - Push the frequency to the GMU - immediately updating the core clock
>>>>> - Call dev_pm_opp_set_opp() which triggers a notify chain, this winds
>>>>> up somewhere in power management code and causes the gx regulator level
>>>>> to be updated
>>>>
>>>> Nope. dev_pm_opp_set_opp() sets the bandwidth for gpu and nothing else. We
>>>> were using a different api earlier which got deprecated -
>>>> dev_pm_opp_set_bw().
>>>>
>>>
>>> On the Lenovo Yoga C630 this is reproduced by starting alacritty and if
>>> I'm lucky I managed to hit a few keys before it crashes, so I spent a
>>> few hours looking into this as well...
>>>
>>> As you say, the dev_pm_opp_set_opp() will only cast a interconnect vote.
>>> The opp-level is just there for show and isn't used by anything, at
>>> least not on 845.
>>>
>>> Further more, I'm missing something in my tree, so the interconnect
>>> doesn't hit sync_state, and as such we're not actually scaling the
>>> buses. So the problem is not that Linux doesn't turn on the buses in
>>> time.
>>>
>>> So I suspect that the "AHB bus error" isn't saying that we turned off
>>> the bus, but rather that the GPU becomes unstable or something of that
>>> sort.
>>>
>>>
>>> Lastly, I reverted 9bc95570175a ("drm/msm: Devfreq tuning") and ran
>>> Aquarium for 20 minutes without a problem. I then switched the gpu
>>> devfreq governor to "userspace" and ran the following:
>>>
>>> while true; do
>>> echo 257000000 > /sys/class/devfreq/5000000.gpu/userspace/set_freq
>>> echo 710000000 > /sys/class/devfreq/5000000.gpu/userspace/set_freq
>>> done
>>>
>>> It took 19 iterations of this loop to crash the GPU.
>>
>> Ack. With your above script, I can reproduce a crash too on db845c
>> (A630) running v5.14. I didn't get any crash log though and device
>> just rebooted to USB crash mode.
>>
>> And same crash on RB5 (A650) too https://hastebin.com/raw/ejutetuwun
Are we sure this is the same issue? It could be, but I thought we were
seeing a bunch of random gpu errors (which may eventually hit device crash).
-Akhil
>
> fwiw I can't reproduce this crash on RB5 so far with v5.15-rc1 merge
> window (HEAD: 477f70cd2a67)
>
>>
>>>
>>> So the problem doesn't seem to be Rob's change, it's just that prior to
>>> it the chance to hitting it is way lower. Question is still what it is
>>> that we're triggering.
>>>
>>> Regards,
>>> Bjorn
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