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[v25,0/7] soc: mediatek: SVS: introduce MTK SVS

Message ID 20220516004311.18358-1-roger.lu@mediatek.com
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Series soc: mediatek: SVS: introduce MTK SVS | expand

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Roger Lu May 16, 2022, 12:43 a.m. UTC
The Smart Voltage Scaling(SVS) engine is a piece of hardware
which calculates suitable SVS bank voltages to OPP voltage table.
Then, DVFS driver could apply those SVS bank voltages to PMIC/Buck
when receiving OPP_EVENT_ADJUST_VOLTAGE.

1. SVS driver uses OPP adjust event in [1] to update OPP table voltage part.
2. SVS driver gets thermal/GPU device by node [2][3] and CPU device by get_cpu_device().
After retrieving subsys device, SVS driver calls device_link_add() to make sure probe/suspend callback priority.

[1] https://git.kernel.org/pub/scm/linux/kernel/git/vireshk/pm.git/commit/?h=opp/linux-next&id=25cb20a212a1f989385dfe23230817e69c62bee5
[2] https://git.kernel.org/pub/scm/linux/kernel/git/vireshk/pm.git/commit/?h=opp/linux-next&id=b325ce39785b1408040d90365a6ab1aa36e94f87
[3] https://git.kernel.org/pub/scm/linux/kernel/git/matthias.bgg/linux.git/commit/?h=v5.16-next/dts64&id=a8168cebf1bca1b5269e8a7eb2626fb76814d6e2

Change since v24:
- Rebase to Linux 5.18-rc6
- Show specific fail log in svs_platform_probe() to help catch which step fails quickly
- Remove struct svs_bank member "pd_dev" because all subsys device's power domain has been merged into one node like above [3]

Test in below environment:
SW: Integration Tree [4] + Thermal patch [5] + SVS v25 (this patchset)
HW: mt8183-Krane

[4] https://github.com/wens/linux/commits/mt8183-cpufreq-cci-svs-test
[5] https://patchwork.kernel.org/project/linux-pm/patch/20210820095206.30981-1-ben.tseng@mediatek.com

Boots up log:
[    4.447369]  SVSB_CPU_LITTLE: svs_init01_isr_handler: VDN74~30:0x141e262e~0x33373c42, DC:0x02f3010b
[    4.447623]  SVSB_CPU_BIG: svs_init01_isr_handler: VDN74~30:0x151f2830~0x363a4046, DC:0x02f90141
[    4.447872]  SVSB_CCI: svs_init01_isr_handler: VDN74~30:0x141a232b~0x30363d42, DC:0x02ed00d5
[    4.448119]  SVSB_GPU: svs_init01_isr_handler: VDN74~30:0x1416171a~0x1d202327, DC:0x02f7012f
[    4.448239]  SVSB_CPU_LITTLE: svs_init02_isr_handler: VOP74~30:0x1b252d35~0x3a3e4349, DC:0x02f30000
[    4.448343]  SVSB_CPU_BIG: svs_init02_isr_handler: VOP74~30:0x1c262f37~0x3d41474d, DC:0x02f90000
[    4.448400]  SVSB_CCI: svs_init02_isr_handler: VOP74~30:0x1b212a32~0x373d4449, DC:0x02ed0000
[    4.448499]  SVSB_GPU: svs_init02_isr_handler: VOP74~30:0x1618191c~0x1f222529, DC:0x02f70000

SVS commands log:
localhost ~ # cat /sys/kernel/debug/svs/*/*
init2
SVSB_CCI: temperature ignore, turn_pt = 0
opp_freq[00]: 1196000000, opp_volt[00]: 968750, svsb_volt[00]: 0x4b, freq_pct[00]: 100
opp_freq[01]: 1144000000, opp_volt[01]: 956250, svsb_volt[01]: 0x49, freq_pct[01]: 96
opp_freq[02]: 1092000000, opp_volt[02]: 937500, svsb_volt[02]: 0x46, freq_pct[02]: 92
opp_freq[03]: 1027000000, opp_volt[03]: 918750, svsb_volt[03]: 0x43, freq_pct[03]: 86
opp_freq[04]: 962000000, opp_volt[04]: 893750, svsb_volt[04]: 0x3f, freq_pct[04]: 81
opp_freq[05]: 923000000, opp_volt[05]: 881250, svsb_volt[05]: 0x3d, freq_pct[05]: 78
opp_freq[06]: 871000000, opp_volt[06]: 856250, svsb_volt[06]: 0x39, freq_pct[06]: 73
opp_freq[07]: 845000000, opp_volt[07]: 850000, svsb_volt[07]: 0x38, freq_pct[07]: 71
opp_freq[08]: 767000000, opp_volt[08]: 825000, svsb_volt[08]: 0x34, freq_pct[08]: 65
opp_freq[09]: 689000000, opp_volt[09]: 800000, svsb_volt[09]: 0x30, freq_pct[09]: 58
opp_freq[10]: 624000000, opp_volt[10]: 775000, svsb_volt[10]: 0x2c, freq_pct[10]: 53
opp_freq[11]: 546000000, opp_volt[11]: 750000, svsb_volt[11]: 0x28, freq_pct[11]: 46
opp_freq[12]: 463000000, opp_volt[12]: 718750, svsb_volt[12]: 0x23, freq_pct[12]: 39
opp_freq[13]: 403000000, opp_volt[13]: 700000, svsb_volt[13]: 0x20, freq_pct[13]: 34
opp_freq[14]: 338000000, opp_volt[14]: 681250, svsb_volt[14]: 0x1d, freq_pct[14]: 29
opp_freq[15]: 273000000, opp_volt[15]: 650000, svsb_volt[15]: 0x1a, freq_pct[15]: 23
init2
SVSB_CPU_BIG: temperature ignore, turn_pt = 0
opp_freq[00]: 1989000000, opp_volt[00]: 1050000, svsb_volt[00]: 0x59, freq_pct[00]: 100
opp_freq[01]: 1924000000, opp_volt[01]: 1025000, svsb_volt[01]: 0x57, freq_pct[01]: 97
opp_freq[02]: 1846000000, opp_volt[02]: 1000000, svsb_volt[02]: 0x53, freq_pct[02]: 93
opp_freq[03]: 1781000000, opp_volt[03]: 975000, svsb_volt[03]: 0x50, freq_pct[03]: 90
opp_freq[04]: 1716000000, opp_volt[04]: 950000, svsb_volt[04]: 0x4d, freq_pct[04]: 87
opp_freq[05]: 1677000000, opp_volt[05]: 931250, svsb_volt[05]: 0x4c, freq_pct[05]: 85
opp_freq[06]: 1625000000, opp_volt[06]: 912500, svsb_volt[06]: 0x49, freq_pct[06]: 82
opp_freq[07]: 1586000000, opp_volt[07]: 900000, svsb_volt[07]: 0x47, freq_pct[07]: 80
opp_freq[08]: 1508000000, opp_volt[08]: 875000, svsb_volt[08]: 0x43, freq_pct[08]: 76
opp_freq[09]: 1417000000, opp_volt[09]: 850000, svsb_volt[09]: 0x40, freq_pct[09]: 72
opp_freq[10]: 1326000000, opp_volt[10]: 825000, svsb_volt[10]: 0x3b, freq_pct[10]: 67
opp_freq[11]: 1248000000, opp_volt[11]: 800000, svsb_volt[11]: 0x38, freq_pct[11]: 63
opp_freq[12]: 1131000000, opp_volt[12]: 775000, svsb_volt[12]: 0x32, freq_pct[12]: 57
opp_freq[13]: 1014000000, opp_volt[13]: 750000, svsb_volt[13]: 0x2d, freq_pct[13]: 51
opp_freq[14]: 910000000, opp_volt[14]: 725000, svsb_volt[14]: 0x28, freq_pct[14]: 46
opp_freq[15]: 793000000, opp_volt[15]: 700000, svsb_volt[15]: 0x23, freq_pct[15]: 40
init2
SVSB_CPU_LITTLE: temperature ignore, turn_pt = 0
opp_freq[00]: 1989000000, opp_volt[00]: 968750, svsb_volt[00]: 0x4b, freq_pct[00]: 100
opp_freq[01]: 1924000000, opp_volt[01]: 956250, svsb_volt[01]: 0x49, freq_pct[01]: 97
opp_freq[02]: 1846000000, opp_volt[02]: 931250, svsb_volt[02]: 0x45, freq_pct[02]: 93
opp_freq[03]: 1781000000, opp_volt[03]: 918750, svsb_volt[03]: 0x43, freq_pct[03]: 90
opp_freq[04]: 1716000000, opp_volt[04]: 900000, svsb_volt[04]: 0x40, freq_pct[04]: 87
opp_freq[05]: 1677000000, opp_volt[05]: 893750, svsb_volt[05]: 0x3f, freq_pct[05]: 85
opp_freq[06]: 1625000000, opp_volt[06]: 875000, svsb_volt[06]: 0x3c, freq_pct[06]: 82
opp_freq[07]: 1586000000, opp_volt[07]: 868750, svsb_volt[07]: 0x3b, freq_pct[07]: 80
opp_freq[08]: 1508000000, opp_volt[08]: 843750, svsb_volt[08]: 0x37, freq_pct[08]: 76
opp_freq[09]: 1417000000, opp_volt[09]: 825000, svsb_volt[09]: 0x34, freq_pct[09]: 72
opp_freq[10]: 1326000000, opp_volt[10]: 793750, svsb_volt[10]: 0x2f, freq_pct[10]: 67
opp_freq[11]: 1248000000, opp_volt[11]: 775000, svsb_volt[11]: 0x2c, freq_pct[11]: 63
opp_freq[12]: 1131000000, opp_volt[12]: 743750, svsb_volt[12]: 0x27, freq_pct[12]: 57
opp_freq[13]: 1014000000, opp_volt[13]: 712500, svsb_volt[13]: 0x22, freq_pct[13]: 51
opp_freq[14]: 910000000, opp_volt[14]: 681250, svsb_volt[14]: 0x1d, freq_pct[14]: 46
opp_freq[15]: 793000000, opp_volt[15]: 650000, svsb_volt[15]: 0x18, freq_pct[15]: 40
mon mode
SVSB_GPU: temperature = 33492, turn_pt = 0
opp_freq[00]: 800000000, opp_volt[00]: 743750, svsb_volt[00]: 0x27, freq_pct[00]: 100
opp_freq[01]: 743000000, opp_volt[01]: 731250, svsb_volt[01]: 0x25, freq_pct[01]: 93
opp_freq[02]: 698000000, opp_volt[02]: 718750, svsb_volt[02]: 0x23, freq_pct[02]: 88
opp_freq[03]: 653000000, opp_volt[03]: 712500, svsb_volt[03]: 0x22, freq_pct[03]: 82
opp_freq[04]: 620000000, opp_volt[04]: 700000, svsb_volt[04]: 0x20, freq_pct[04]: 78
opp_freq[05]: 580000000, opp_volt[05]: 693750, svsb_volt[05]: 0x1f, freq_pct[05]: 73
opp_freq[06]: 540000000, opp_volt[06]: 681250, svsb_volt[06]: 0x1d, freq_pct[06]: 68
opp_freq[07]: 500000000, opp_volt[07]: 675000, svsb_volt[07]: 0x1c, freq_pct[07]: 63
opp_freq[08]: 460000000, opp_volt[08]: 662500, svsb_volt[08]: 0x1a, freq_pct[08]: 58
opp_freq[09]: 420000000, opp_volt[09]: 656250, svsb_volt[09]: 0x19, freq_pct[09]: 53
opp_freq[10]: 400000000, opp_volt[10]: 643750, svsb_volt[10]: 0x17, freq_pct[10]: 50
opp_freq[11]: 380000000, opp_volt[11]: 643750, svsb_volt[11]: 0x17, freq_pct[11]: 48
opp_freq[12]: 360000000, opp_volt[12]: 637500, svsb_volt[12]: 0x16, freq_pct[12]: 45
opp_freq[13]: 340000000, opp_volt[13]: 637500, svsb_volt[13]: 0x16, freq_pct[13]: 43
opp_freq[14]: 320000000, opp_volt[14]: 625000, svsb_volt[14]: 0x14, freq_pct[14]: 40
opp_freq[15]: 300000000, opp_volt[15]: 625000, svsb_volt[15]: 0x14, freq_pct[15]: 38

Roger Lu (7):
  [v25,1/7] dt-bindings: soc: mediatek: add mtk svs dt-bindings
  [v25,2/7] arm64: dts: mt8183: add svs device information
  [v25,3/7] soc: mediatek: SVS: introduce MTK SVS engine
  [v25,4/7] soc: mediatek: SVS: add monitor mode
  [v25,5/7] soc: mediatek: SVS: add debug commands
  [v25,6/7] dt-bindings: soc: mediatek: add mt8192 svs dt-bindings
  [v25,7/7] soc: mediatek: SVS: add mt8192 SVS GPU driver

 .../bindings/soc/mediatek/mtk-svs.yaml        |   91 +
 arch/arm64/boot/dts/mediatek/mt8183.dtsi      |   16 +
 drivers/soc/mediatek/Kconfig                  |   10 +
 drivers/soc/mediatek/Makefile                 |    1 +
 drivers/soc/mediatek/mtk-svs.c                | 2399 +++++++++++++++++
 5 files changed, 2517 insertions(+)
 create mode 100644 Documentation/devicetree/bindings/soc/mediatek/mtk-svs.yaml
 create mode 100644 drivers/soc/mediatek/mtk-svs.c

Comments

Kevin Hilman May 19, 2022, 6:25 p.m. UTC | #1
Chen-Yu Tsai <wenst@chromium.org> writes:

> n Wed, May 18, 2022 at 8:03 AM Kevin Hilman <khilman@kernel.org> wrote:
>>
>> Kevin Hilman <khilman@kernel.org> writes:
>>
>> > Chen-Yu Tsai <wenst@chromium.org> writes:
>> >
>> >> On Mon, May 16, 2022 at 8:43 AM Roger Lu <roger.lu@mediatek.com> wrote:
>> >>>
>> >>> The Smart Voltage Scaling(SVS) engine is a piece of hardware
>> >>> which calculates suitable SVS bank voltages to OPP voltage table.
>> >>> Then, DVFS driver could apply those SVS bank voltages to PMIC/Buck
>> >>> when receiving OPP_EVENT_ADJUST_VOLTAGE.
>> >>>
>> >>> 1. SVS driver uses OPP adjust event in [1] to update OPP table voltage part.
>> >>> 2. SVS driver gets thermal/GPU device by node [2][3] and CPU device by get_cpu_device().
>> >>> After retrieving subsys device, SVS driver calls device_link_add() to make sure probe/suspend callback priority.
>> >>>
>> >>> [1] https://git.kernel.org/pub/scm/linux/kernel/git/vireshk/pm.git/commit/?h=opp/linux-next&id=25cb20a212a1f989385dfe23230817e69c62bee5
>> >>> [2] https://git.kernel.org/pub/scm/linux/kernel/git/vireshk/pm.git/commit/?h=opp/linux-next&id=b325ce39785b1408040d90365a6ab1aa36e94f87
>> >>> [3] https://git.kernel.org/pub/scm/linux/kernel/git/matthias.bgg/linux.git/commit/?h=v5.16-next/dts64&id=a8168cebf1bca1b5269e8a7eb2626fb76814d6e2
>> >>>
>> >>> Change since v24:
>> >>> - Rebase to Linux 5.18-rc6
>> >>> - Show specific fail log in svs_platform_probe() to help catch which step fails quickly
>> >>> - Remove struct svs_bank member "pd_dev" because all subsys device's power domain has been merged into one node like above [3]
>> >>>
>> >>> Test in below environment:
>> >>> SW: Integration Tree [4] + Thermal patch [5] + SVS v25 (this patchset)
>> >>> HW: mt8183-Krane
>> >>>
>> >>> [4] https://github.com/wens/linux/commits/mt8183-cpufreq-cci-svs-test
>> >>
>> >> I've updated my branch to include all the latest versions of the relevant
>> >> patch series:
>> >>
>> >> - anx7625 DPI bus type series v2 (so the display works)
>> >> - MT8183 thermal series v9 (this seems to have been overlooked by the
>> >> maintainer)
>> >> - MTK SVS driver series v25
>> >> - devfreq: cpu based scaling support to passive governor series v5
>> >> - MTK CCI devfreq series v4
>> >> - MT8183 cpufreq series v7
>> >> - Additional WIP patches for panfrost MTK devfreq
>> >
>> > Thanks for preparing an integration branch Chen-Yu.
>> >
>> > I'm testing this on mt8183-pumpkin with one patch to add the CCI
>> > regulator[1], and the defconfig you posted in a previous rev of this
>> > series, but the CCI driver still causes a fault on boot[2] on my
>> > platform.
>> >
>> > I mentioned in earlier reviews that I think there's potentially a race
>> > between CCI and SVS loading since they are co-dependent.  My hunch is
>> > that this is still not being handled properly.
>>
>> Ah, actually it's crashing when I try to boot the platform with
>> `maxcpus=4` on the cmdline (which I have to do because mt8183-pumpkin is
>> unstable upstream with the 2nd cluster enabled.)
>>
>> The CCI driver should be a bit more robust about detecting
>> available/online CPUs
>
> This all seems to be handled in the devfreq passive governor.

Well, that's the initial crash.  But the SVS driver will also go through
its svs_mt8183_banks[] array (including both big & little clusters) and
try to init SVS, so presumably that will have some problems also if only
one cluster is enabled.

> And presumably we'd like to have CCI devfreq running even if just one
> core was booted.

Yes, I assume so also.

> Added Chanwoo for more ideas.

OK, thanks.

Kevin
Chanwoo Choi May 20, 2022, 1:54 a.m. UTC | #2
Hi Kevin, Chen-Yu,

On 5/20/22 3:25 AM, Kevin Hilman wrote:
> Chen-Yu Tsai <wenst@chromium.org> writes:
> 
>> n Wed, May 18, 2022 at 8:03 AM Kevin Hilman <khilman@kernel.org> wrote:
>>>
>>> Kevin Hilman <khilman@kernel.org> writes:
>>>
>>>> Chen-Yu Tsai <wenst@chromium.org> writes:
>>>>
>>>>> On Mon, May 16, 2022 at 8:43 AM Roger Lu <roger.lu@mediatek.com> wrote:
>>>>>>
>>>>>> The Smart Voltage Scaling(SVS) engine is a piece of hardware
>>>>>> which calculates suitable SVS bank voltages to OPP voltage table.
>>>>>> Then, DVFS driver could apply those SVS bank voltages to PMIC/Buck
>>>>>> when receiving OPP_EVENT_ADJUST_VOLTAGE.
>>>>>>
>>>>>> 1. SVS driver uses OPP adjust event in [1] to update OPP table voltage part.
>>>>>> 2. SVS driver gets thermal/GPU device by node [2][3] and CPU device by get_cpu_device().
>>>>>> After retrieving subsys device, SVS driver calls device_link_add() to make sure probe/suspend callback priority.
>>>>>>
>>>>>> [1] https://git.kernel.org/pub/scm/linux/kernel/git/vireshk/pm.git/commit/?h=opp/linux-next&id=25cb20a212a1f989385dfe23230817e69c62bee5
>>>>>> [2] https://git.kernel.org/pub/scm/linux/kernel/git/vireshk/pm.git/commit/?h=opp/linux-next&id=b325ce39785b1408040d90365a6ab1aa36e94f87
>>>>>> [3] https://git.kernel.org/pub/scm/linux/kernel/git/matthias.bgg/linux.git/commit/?h=v5.16-next/dts64&id=a8168cebf1bca1b5269e8a7eb2626fb76814d6e2
>>>>>>
>>>>>> Change since v24:
>>>>>> - Rebase to Linux 5.18-rc6
>>>>>> - Show specific fail log in svs_platform_probe() to help catch which step fails quickly
>>>>>> - Remove struct svs_bank member "pd_dev" because all subsys device's power domain has been merged into one node like above [3]
>>>>>>
>>>>>> Test in below environment:
>>>>>> SW: Integration Tree [4] + Thermal patch [5] + SVS v25 (this patchset)
>>>>>> HW: mt8183-Krane
>>>>>>
>>>>>> [4] https://protect2.fireeye.com/v1/url?k=847bae75-e5f0bb43-847a253a-000babff9b5d-0b6f42041b9dea1d&q=1&e=37a26c43-8564-4808-9701-dc76d1ebbb27&u=https%3A%2F%2Fgithub.com%2Fwens%2Flinux%2Fcommits%2Fmt8183-cpufreq-cci-svs-test
>>>>>
>>>>> I've updated my branch to include all the latest versions of the relevant
>>>>> patch series:
>>>>>
>>>>> - anx7625 DPI bus type series v2 (so the display works)
>>>>> - MT8183 thermal series v9 (this seems to have been overlooked by the
>>>>> maintainer)
>>>>> - MTK SVS driver series v25
>>>>> - devfreq: cpu based scaling support to passive governor series v5
>>>>> - MTK CCI devfreq series v4
>>>>> - MT8183 cpufreq series v7
>>>>> - Additional WIP patches for panfrost MTK devfreq
>>>>
>>>> Thanks for preparing an integration branch Chen-Yu.
>>>>
>>>> I'm testing this on mt8183-pumpkin with one patch to add the CCI
>>>> regulator[1], and the defconfig you posted in a previous rev of this
>>>> series, but the CCI driver still causes a fault on boot[2] on my
>>>> platform.
>>>>
>>>> I mentioned in earlier reviews that I think there's potentially a race
>>>> between CCI and SVS loading since they are co-dependent.  My hunch is
>>>> that this is still not being handled properly.
>>>
>>> Ah, actually it's crashing when I try to boot the platform with
>>> `maxcpus=4` on the cmdline (which I have to do because mt8183-pumpkin is
>>> unstable upstream with the 2nd cluster enabled.)

This warning message is printed by 'WARN_ON(cpufreq_passive_unregister_notifier(devfreq))'
on devfreq passive governor. 

If the cpufreq drivers are not probed before of probing cci devfreq driver
with passive governor, passive governor shows this warning message.
Because passive governor with CPUFREQ_PARENT_DEV depends on the cpufreq driver
in order to get 'struct cpufreq_policy'[2].

[1] https://git.kernel.org/pub/scm/linux/kernel/git/chanwoo/linux.git/tree/drivers/devfreq/governor_passive.c?h=devfreq-testing#n339
[2] https://git.kernel.org/pub/scm/linux/kernel/git/chanwoo/linux.git/tree/drivers/devfreq/governor_passive.c?h=devfreq-testing#n282

But, as I knew, this message might not stop the kernel. Just show the warning
message and then return -EPROBE_DEFER error. It means that maybe try to
probe the cci devfreq driver on late time of kernel booting
and then will be working. But, I need the full kernel booting log
and the booting sequence of between cpufreq and cci devfreq driver.

In order to fix your issue, could you share the full booting log?
And if possible, please explain the more detailed something about this.

>>>
>>> The CCI driver should be a bit more robust about detecting
>>> available/online CPUs
>>
>> This all seems to be handled in the devfreq passive governor.
> 
> Well, that's the initial crash.  But the SVS driver will also go through
> its svs_mt8183_banks[] array (including both big & little clusters) and
> try to init SVS, so presumably that will have some problems also if only
> one cluster is enabled.
> 
>> And presumably we'd like to have CCI devfreq running even if just one
>> core was booted.
> 
> Yes, I assume so also.
> 
>> Added Chanwoo for more ideas.
> 
> OK, thanks.
> 
> Kevin
Chen-Yu Tsai May 20, 2022, 2:42 a.m. UTC | #3
On Fri, May 20, 2022 at 9:28 AM Chanwoo Choi <cw00.choi@samsung.com> wrote:
>
> Hi Kevin, Chen-Yu,
>
> On 5/20/22 3:25 AM, Kevin Hilman wrote:
> > Chen-Yu Tsai <wenst@chromium.org> writes:
> >
> >> n Wed, May 18, 2022 at 8:03 AM Kevin Hilman <khilman@kernel.org> wrote:
> >>>
> >>> Kevin Hilman <khilman@kernel.org> writes:
> >>>
> >>>> Chen-Yu Tsai <wenst@chromium.org> writes:
> >>>>
> >>>>> On Mon, May 16, 2022 at 8:43 AM Roger Lu <roger.lu@mediatek.com> wrote:
> >>>>>>
> >>>>>> The Smart Voltage Scaling(SVS) engine is a piece of hardware
> >>>>>> which calculates suitable SVS bank voltages to OPP voltage table.
> >>>>>> Then, DVFS driver could apply those SVS bank voltages to PMIC/Buck
> >>>>>> when receiving OPP_EVENT_ADJUST_VOLTAGE.
> >>>>>>
> >>>>>> 1. SVS driver uses OPP adjust event in [1] to update OPP table voltage part.
> >>>>>> 2. SVS driver gets thermal/GPU device by node [2][3] and CPU device by get_cpu_device().
> >>>>>> After retrieving subsys device, SVS driver calls device_link_add() to make sure probe/suspend callback priority.
> >>>>>>
> >>>>>> [1] https://git.kernel.org/pub/scm/linux/kernel/git/vireshk/pm.git/commit/?h=opp/linux-next&id=25cb20a212a1f989385dfe23230817e69c62bee5
> >>>>>> [2] https://git.kernel.org/pub/scm/linux/kernel/git/vireshk/pm.git/commit/?h=opp/linux-next&id=b325ce39785b1408040d90365a6ab1aa36e94f87
> >>>>>> [3] https://git.kernel.org/pub/scm/linux/kernel/git/matthias.bgg/linux.git/commit/?h=v5.16-next/dts64&id=a8168cebf1bca1b5269e8a7eb2626fb76814d6e2
> >>>>>>
> >>>>>> Change since v24:
> >>>>>> - Rebase to Linux 5.18-rc6
> >>>>>> - Show specific fail log in svs_platform_probe() to help catch which step fails quickly
> >>>>>> - Remove struct svs_bank member "pd_dev" because all subsys device's power domain has been merged into one node like above [3]
> >>>>>>
> >>>>>> Test in below environment:
> >>>>>> SW: Integration Tree [4] + Thermal patch [5] + SVS v25 (this patchset)
> >>>>>> HW: mt8183-Krane
> >>>>>>
> >>>>>> [4] https://protect2.fireeye.com/v1/url?k=847bae75-e5f0bb43-847a253a-000babff9b5d-0b6f42041b9dea1d&q=1&e=37a26c43-8564-4808-9701-dc76d1ebbb27&u=https%3A%2F%2Fgithub.com%2Fwens%2Flinux%2Fcommits%2Fmt8183-cpufreq-cci-svs-test
> >>>>>
> >>>>> I've updated my branch to include all the latest versions of the relevant
> >>>>> patch series:
> >>>>>
> >>>>> - anx7625 DPI bus type series v2 (so the display works)
> >>>>> - MT8183 thermal series v9 (this seems to have been overlooked by the
> >>>>> maintainer)
> >>>>> - MTK SVS driver series v25
> >>>>> - devfreq: cpu based scaling support to passive governor series v5
> >>>>> - MTK CCI devfreq series v4
> >>>>> - MT8183 cpufreq series v7
> >>>>> - Additional WIP patches for panfrost MTK devfreq
> >>>>
> >>>> Thanks for preparing an integration branch Chen-Yu.
> >>>>
> >>>> I'm testing this on mt8183-pumpkin with one patch to add the CCI
> >>>> regulator[1], and the defconfig you posted in a previous rev of this
> >>>> series, but the CCI driver still causes a fault on boot[2] on my
> >>>> platform.
> >>>>
> >>>> I mentioned in earlier reviews that I think there's potentially a race
> >>>> between CCI and SVS loading since they are co-dependent.  My hunch is
> >>>> that this is still not being handled properly.
> >>>
> >>> Ah, actually it's crashing when I try to boot the platform with
> >>> `maxcpus=4` on the cmdline (which I have to do because mt8183-pumpkin is
> >>> unstable upstream with the 2nd cluster enabled.)
>
> This warning message is printed by 'WARN_ON(cpufreq_passive_unregister_notifier(devfreq))'
> on devfreq passive governor.
>
> If the cpufreq drivers are not probed before of probing cci devfreq driver
> with passive governor, passive governor shows this warning message.
> Because passive governor with CPUFREQ_PARENT_DEV depends on the cpufreq driver
> in order to get 'struct cpufreq_policy'[2].
>
> [1] https://git.kernel.org/pub/scm/linux/kernel/git/chanwoo/linux.git/tree/drivers/devfreq/governor_passive.c?h=devfreq-testing#n339
> [2] https://git.kernel.org/pub/scm/linux/kernel/git/chanwoo/linux.git/tree/drivers/devfreq/governor_passive.c?h=devfreq-testing#n282
>
> But, as I knew, this message might not stop the kernel. Just show the warning
> message and then return -EPROBE_DEFER error. It means that maybe try to
> probe the cci devfreq driver on late time of kernel booting
> and then will be working. But, I need the full kernel booting log
> and the booting sequence of between cpufreq and cci devfreq driver.

Maybe just use a standard dev_warn() instead? WARN_ON causes all sorts
of panicking in developers' minds. :p

> In order to fix your issue, could you share the full booting log?
> And if possible, please explain the more detailed something about this.

The shortened version is that on an 8 core system, with maxcpus=4,
only the first four cores are booted and have cpufreq associated.
I've not actually used this mechanism, so I don't really know what
happens if the other cores are brought up later with hotplug. Is
cpufreq expected to attach to them?

Maybe Kevin can add some more details.


ChenYu


> >>>
> >>> The CCI driver should be a bit more robust about detecting
> >>> available/online CPUs
> >>
> >> This all seems to be handled in the devfreq passive governor.
> >
> > Well, that's the initial crash.  But the SVS driver will also go through
> > its svs_mt8183_banks[] array (including both big & little clusters) and
> > try to init SVS, so presumably that will have some problems also if only
> > one cluster is enabled.
> >
> >> And presumably we'd like to have CCI devfreq running even if just one
> >> core was booted.
> >
> > Yes, I assume so also.
> >
> >> Added Chanwoo for more ideas.
> >
> > OK, thanks.
> >
> > Kevin
>
>
> --
> Best Regards,
> Chanwoo Choi
> Samsung Electronics
Chanwoo Choi May 20, 2022, 3:12 a.m. UTC | #4
On 5/20/22 11:42 AM, Chen-Yu Tsai wrote:
> On Fri, May 20, 2022 at 9:28 AM Chanwoo Choi <cw00.choi@samsung.com> wrote:
>>
>> Hi Kevin, Chen-Yu,
>>
>> On 5/20/22 3:25 AM, Kevin Hilman wrote:
>>> Chen-Yu Tsai <wenst@chromium.org> writes:
>>>
>>>> n Wed, May 18, 2022 at 8:03 AM Kevin Hilman <khilman@kernel.org> wrote:
>>>>>
>>>>> Kevin Hilman <khilman@kernel.org> writes:
>>>>>
>>>>>> Chen-Yu Tsai <wenst@chromium.org> writes:
>>>>>>
>>>>>>> On Mon, May 16, 2022 at 8:43 AM Roger Lu <roger.lu@mediatek.com> wrote:
>>>>>>>>
>>>>>>>> The Smart Voltage Scaling(SVS) engine is a piece of hardware
>>>>>>>> which calculates suitable SVS bank voltages to OPP voltage table.
>>>>>>>> Then, DVFS driver could apply those SVS bank voltages to PMIC/Buck
>>>>>>>> when receiving OPP_EVENT_ADJUST_VOLTAGE.
>>>>>>>>
>>>>>>>> 1. SVS driver uses OPP adjust event in [1] to update OPP table voltage part.
>>>>>>>> 2. SVS driver gets thermal/GPU device by node [2][3] and CPU device by get_cpu_device().
>>>>>>>> After retrieving subsys device, SVS driver calls device_link_add() to make sure probe/suspend callback priority.
>>>>>>>>
>>>>>>>> [1] https://git.kernel.org/pub/scm/linux/kernel/git/vireshk/pm.git/commit/?h=opp/linux-next&id=25cb20a212a1f989385dfe23230817e69c62bee5
>>>>>>>> [2] https://git.kernel.org/pub/scm/linux/kernel/git/vireshk/pm.git/commit/?h=opp/linux-next&id=b325ce39785b1408040d90365a6ab1aa36e94f87
>>>>>>>> [3] https://git.kernel.org/pub/scm/linux/kernel/git/matthias.bgg/linux.git/commit/?h=v5.16-next/dts64&id=a8168cebf1bca1b5269e8a7eb2626fb76814d6e2
>>>>>>>>
>>>>>>>> Change since v24:
>>>>>>>> - Rebase to Linux 5.18-rc6
>>>>>>>> - Show specific fail log in svs_platform_probe() to help catch which step fails quickly
>>>>>>>> - Remove struct svs_bank member "pd_dev" because all subsys device's power domain has been merged into one node like above [3]
>>>>>>>>
>>>>>>>> Test in below environment:
>>>>>>>> SW: Integration Tree [4] + Thermal patch [5] + SVS v25 (this patchset)
>>>>>>>> HW: mt8183-Krane
>>>>>>>>
>>>>>>>> [4] https://protect2.fireeye.com/v1/url?k=847bae75-e5f0bb43-847a253a-000babff9b5d-0b6f42041b9dea1d&q=1&e=37a26c43-8564-4808-9701-dc76d1ebbb27&u=https%3A%2F%2Fgithub.com%2Fwens%2Flinux%2Fcommits%2Fmt8183-cpufreq-cci-svs-test
>>>>>>>
>>>>>>> I've updated my branch to include all the latest versions of the relevant
>>>>>>> patch series:
>>>>>>>
>>>>>>> - anx7625 DPI bus type series v2 (so the display works)
>>>>>>> - MT8183 thermal series v9 (this seems to have been overlooked by the
>>>>>>> maintainer)
>>>>>>> - MTK SVS driver series v25
>>>>>>> - devfreq: cpu based scaling support to passive governor series v5
>>>>>>> - MTK CCI devfreq series v4
>>>>>>> - MT8183 cpufreq series v7
>>>>>>> - Additional WIP patches for panfrost MTK devfreq
>>>>>>
>>>>>> Thanks for preparing an integration branch Chen-Yu.
>>>>>>
>>>>>> I'm testing this on mt8183-pumpkin with one patch to add the CCI
>>>>>> regulator[1], and the defconfig you posted in a previous rev of this
>>>>>> series, but the CCI driver still causes a fault on boot[2] on my
>>>>>> platform.
>>>>>>
>>>>>> I mentioned in earlier reviews that I think there's potentially a race
>>>>>> between CCI and SVS loading since they are co-dependent.  My hunch is
>>>>>> that this is still not being handled properly.
>>>>>
>>>>> Ah, actually it's crashing when I try to boot the platform with
>>>>> `maxcpus=4` on the cmdline (which I have to do because mt8183-pumpkin is
>>>>> unstable upstream with the 2nd cluster enabled.)
>>
>> This warning message is printed by 'WARN_ON(cpufreq_passive_unregister_notifier(devfreq))'
>> on devfreq passive governor.
>>
>> If the cpufreq drivers are not probed before of probing cci devfreq driver
>> with passive governor, passive governor shows this warning message.
>> Because passive governor with CPUFREQ_PARENT_DEV depends on the cpufreq driver
>> in order to get 'struct cpufreq_policy'[2].
>>
>> [1] https://git.kernel.org/pub/scm/linux/kernel/git/chanwoo/linux.git/tree/drivers/devfreq/governor_passive.c?h=devfreq-testing#n339
>> [2] https://git.kernel.org/pub/scm/linux/kernel/git/chanwoo/linux.git/tree/drivers/devfreq/governor_passive.c?h=devfreq-testing#n282
>>
>> But, as I knew, this message might not stop the kernel. Just show the warning
>> message and then return -EPROBE_DEFER error. It means that maybe try to
>> probe the cci devfreq driver on late time of kernel booting
>> and then will be working. But, I need the full kernel booting log
>> and the booting sequence of between cpufreq and cci devfreq driver.
> 
> Maybe just use a standard dev_warn() instead? WARN_ON causes all sorts
> of panicking in developers' minds. :p

OK. I'll use dev_warn() instead of WARN_ON.

> 
>> In order to fix your issue, could you share the full booting log?
>> And if possible, please explain the more detailed something about this.
> 
> The shortened version is that on an 8 core system, with maxcpus=4,
> only the first four cores are booted and have cpufreq associated.
> I've not actually used this mechanism, so I don't really know what
> happens if the other cores are brought up later with hotplug. Is
> cpufreq expected to attach to them?
> 
> Maybe Kevin can add some more details.
> 
> 
> ChenYu
> 
> 
>>>>>
>>>>> The CCI driver should be a bit more robust about detecting
>>>>> available/online CPUs
>>>>
>>>> This all seems to be handled in the devfreq passive governor.
>>>
>>> Well, that's the initial crash.  But the SVS driver will also go through
>>> its svs_mt8183_banks[] array (including both big & little clusters) and
>>> try to init SVS, so presumably that will have some problems also if only
>>> one cluster is enabled.
>>>
>>>> And presumably we'd like to have CCI devfreq running even if just one
>>>> core was booted.
>>>
>>> Yes, I assume so also.
>>>
>>>> Added Chanwoo for more ideas.
>>>
>>> OK, thanks.
>>>
>>> Kevin
>>
>>
>> --
>> Best Regards,
>> Chanwoo Choi
>> Samsung Electronics
> 
>
Chanwoo Choi May 20, 2022, 10:20 a.m. UTC | #5
Hi Kevin,

On 5/20/22 11:42 AM, Chen-Yu Tsai wrote:
> On Fri, May 20, 2022 at 9:28 AM Chanwoo Choi <cw00.choi@samsung.com> wrote:
>>
>> Hi Kevin, Chen-Yu,
>>
>> On 5/20/22 3:25 AM, Kevin Hilman wrote:
>>> Chen-Yu Tsai <wenst@chromium.org> writes:
>>>
>>>> n Wed, May 18, 2022 at 8:03 AM Kevin Hilman <khilman@kernel.org> wrote:
>>>>>
>>>>> Kevin Hilman <khilman@kernel.org> writes:
>>>>>
>>>>>> Chen-Yu Tsai <wenst@chromium.org> writes:
>>>>>>
>>>>>>> On Mon, May 16, 2022 at 8:43 AM Roger Lu <roger.lu@mediatek.com> wrote:
>>>>>>>>
>>>>>>>> The Smart Voltage Scaling(SVS) engine is a piece of hardware
>>>>>>>> which calculates suitable SVS bank voltages to OPP voltage table.
>>>>>>>> Then, DVFS driver could apply those SVS bank voltages to PMIC/Buck
>>>>>>>> when receiving OPP_EVENT_ADJUST_VOLTAGE.
>>>>>>>>
>>>>>>>> 1. SVS driver uses OPP adjust event in [1] to update OPP table voltage part.
>>>>>>>> 2. SVS driver gets thermal/GPU device by node [2][3] and CPU device by get_cpu_device().
>>>>>>>> After retrieving subsys device, SVS driver calls device_link_add() to make sure probe/suspend callback priority.
>>>>>>>>
>>>>>>>> [1] https://git.kernel.org/pub/scm/linux/kernel/git/vireshk/pm.git/commit/?h=opp/linux-next&id=25cb20a212a1f989385dfe23230817e69c62bee5
>>>>>>>> [2] https://git.kernel.org/pub/scm/linux/kernel/git/vireshk/pm.git/commit/?h=opp/linux-next&id=b325ce39785b1408040d90365a6ab1aa36e94f87
>>>>>>>> [3] https://git.kernel.org/pub/scm/linux/kernel/git/matthias.bgg/linux.git/commit/?h=v5.16-next/dts64&id=a8168cebf1bca1b5269e8a7eb2626fb76814d6e2
>>>>>>>>
>>>>>>>> Change since v24:
>>>>>>>> - Rebase to Linux 5.18-rc6
>>>>>>>> - Show specific fail log in svs_platform_probe() to help catch which step fails quickly
>>>>>>>> - Remove struct svs_bank member "pd_dev" because all subsys device's power domain has been merged into one node like above [3]
>>>>>>>>
>>>>>>>> Test in below environment:
>>>>>>>> SW: Integration Tree [4] + Thermal patch [5] + SVS v25 (this patchset)
>>>>>>>> HW: mt8183-Krane
>>>>>>>>
>>>>>>>> [4] https://protect2.fireeye.com/v1/url?k=847bae75-e5f0bb43-847a253a-000babff9b5d-0b6f42041b9dea1d&q=1&e=37a26c43-8564-4808-9701-dc76d1ebbb27&u=https%3A%2F%2Fgithub.com%2Fwens%2Flinux%2Fcommits%2Fmt8183-cpufreq-cci-svs-test
>>>>>>>
>>>>>>> I've updated my branch to include all the latest versions of the relevant
>>>>>>> patch series:
>>>>>>>
>>>>>>> - anx7625 DPI bus type series v2 (so the display works)
>>>>>>> - MT8183 thermal series v9 (this seems to have been overlooked by the
>>>>>>> maintainer)
>>>>>>> - MTK SVS driver series v25
>>>>>>> - devfreq: cpu based scaling support to passive governor series v5
>>>>>>> - MTK CCI devfreq series v4
>>>>>>> - MT8183 cpufreq series v7
>>>>>>> - Additional WIP patches for panfrost MTK devfreq
>>>>>>
>>>>>> Thanks for preparing an integration branch Chen-Yu.
>>>>>>
>>>>>> I'm testing this on mt8183-pumpkin with one patch to add the CCI
>>>>>> regulator[1], and the defconfig you posted in a previous rev of this
>>>>>> series, but the CCI driver still causes a fault on boot[2] on my
>>>>>> platform.
>>>>>>
>>>>>> I mentioned in earlier reviews that I think there's potentially a race
>>>>>> between CCI and SVS loading since they are co-dependent.  My hunch is
>>>>>> that this is still not being handled properly.
>>>>>
>>>>> Ah, actually it's crashing when I try to boot the platform with
>>>>> `maxcpus=4` on the cmdline (which I have to do because mt8183-pumpkin is
>>>>> unstable upstream with the 2nd cluster enabled.)
>>
>> This warning message is printed by 'WARN_ON(cpufreq_passive_unregister_notifier(devfreq))'
>> on devfreq passive governor.
>>
>> If the cpufreq drivers are not probed before of probing cci devfreq driver
>> with passive governor, passive governor shows this warning message.
>> Because passive governor with CPUFREQ_PARENT_DEV depends on the cpufreq driver
>> in order to get 'struct cpufreq_policy'[2].
>>
>> [1] https://git.kernel.org/pub/scm/linux/kernel/git/chanwoo/linux.git/tree/drivers/devfreq/governor_passive.c?h=devfreq-testing#n339
>> [2] https://git.kernel.org/pub/scm/linux/kernel/git/chanwoo/linux.git/tree/drivers/devfreq/governor_passive.c?h=devfreq-testing#n282
>>
>> But, as I knew, this message might not stop the kernel. Just show the warning
>> message and then return -EPROBE_DEFER error. It means that maybe try to
>> probe the cci devfreq driver on late time of kernel booting
>> and then will be working. But, I need the full kernel booting log
>> and the booting sequence of between cpufreq and cci devfreq driver.
> 
> Maybe just use a standard dev_warn() instead? WARN_ON causes all sorts
> of panicking in developers' minds. :p
> 
>> In order to fix your issue, could you share the full booting log?
>> And if possible, please explain the more detailed something about this.
> 
> The shortened version is that on an 8 core system, with maxcpus=4,
> only the first four cores are booted and have cpufreq associated.
> I've not actually used this mechanism, so I don't really know what
> happens if the other cores are brought up later with hotplug. Is
> cpufreq expected to attach to them?
> 
> Maybe Kevin can add some more details.
> 
> 
> ChenYu
> 
> 
>>>>>
>>>>> The CCI driver should be a bit more robust about detecting
>>>>> available/online CPUs
>>>>
>>>> This all seems to be handled in the devfreq passive governor.
>>>
>>> Well, that's the initial crash.  But the SVS driver will also go through
>>> its svs_mt8183_banks[] array (including both big & little clusters) and
>>> try to init SVS, so presumably that will have some problems also if only
>>> one cluster is enabled.
>>>
>>>> And presumably we'd like to have CCI devfreq running even if just one
>>>> core was booted.
>>>
>>> Yes, I assume so also.
>>>
>>>> Added Chanwoo for more ideas.
>>>
>>> OK, thanks.
>>>
>>> Kevin


I tested the passive governor with my temporary test code
on odroid-xu3 which contains the big.LITTLE cluster (Octa-core).


[Sequence of cpufreq/devfreq driver]
1. Turn on all cpus
2. Probed cpufreq driver
3. Probed devfreq driver using passive governor with CPUFREQ_PARENT_DEV

In my test case, there are no warning message during kernel booting.
Also when scaling the cpu frequency of cpus of big.LITTLE clusters,
temporary devfreq driver receives the notfication and then
calculate the target frequency of devfreq device by iterating online cpu.

If there are any h/w constraints on your case, please let me know.
Chen-Yu Tsai May 24, 2022, 6:17 a.m. UTC | #6
On Fri, May 20, 2022 at 5:53 PM Chanwoo Choi <cw00.choi@samsung.com> wrote:
>
> Hi Kevin,
>
> On 5/20/22 11:42 AM, Chen-Yu Tsai wrote:
> > On Fri, May 20, 2022 at 9:28 AM Chanwoo Choi <cw00.choi@samsung.com> wrote:
> >>
> >> Hi Kevin, Chen-Yu,
> >>
> >> On 5/20/22 3:25 AM, Kevin Hilman wrote:
> >>> Chen-Yu Tsai <wenst@chromium.org> writes:
> >>>
> >>>> n Wed, May 18, 2022 at 8:03 AM Kevin Hilman <khilman@kernel.org> wrote:
> >>>>>
> >>>>> Kevin Hilman <khilman@kernel.org> writes:
> >>>>>
> >>>>>> Chen-Yu Tsai <wenst@chromium.org> writes:
> >>>>>>
> >>>>>>> On Mon, May 16, 2022 at 8:43 AM Roger Lu <roger.lu@mediatek.com> wrote:
> >>>>>>>>
> >>>>>>>> The Smart Voltage Scaling(SVS) engine is a piece of hardware
> >>>>>>>> which calculates suitable SVS bank voltages to OPP voltage table.
> >>>>>>>> Then, DVFS driver could apply those SVS bank voltages to PMIC/Buck
> >>>>>>>> when receiving OPP_EVENT_ADJUST_VOLTAGE.
> >>>>>>>>
> >>>>>>>> 1. SVS driver uses OPP adjust event in [1] to update OPP table voltage part.
> >>>>>>>> 2. SVS driver gets thermal/GPU device by node [2][3] and CPU device by get_cpu_device().
> >>>>>>>> After retrieving subsys device, SVS driver calls device_link_add() to make sure probe/suspend callback priority.
> >>>>>>>>
> >>>>>>>> [1] https://git.kernel.org/pub/scm/linux/kernel/git/vireshk/pm.git/commit/?h=opp/linux-next&id=25cb20a212a1f989385dfe23230817e69c62bee5
> >>>>>>>> [2] https://git.kernel.org/pub/scm/linux/kernel/git/vireshk/pm.git/commit/?h=opp/linux-next&id=b325ce39785b1408040d90365a6ab1aa36e94f87
> >>>>>>>> [3] https://git.kernel.org/pub/scm/linux/kernel/git/matthias.bgg/linux.git/commit/?h=v5.16-next/dts64&id=a8168cebf1bca1b5269e8a7eb2626fb76814d6e2
> >>>>>>>>
> >>>>>>>> Change since v24:
> >>>>>>>> - Rebase to Linux 5.18-rc6
> >>>>>>>> - Show specific fail log in svs_platform_probe() to help catch which step fails quickly
> >>>>>>>> - Remove struct svs_bank member "pd_dev" because all subsys device's power domain has been merged into one node like above [3]
> >>>>>>>>
> >>>>>>>> Test in below environment:
> >>>>>>>> SW: Integration Tree [4] + Thermal patch [5] + SVS v25 (this patchset)
> >>>>>>>> HW: mt8183-Krane
> >>>>>>>>
> >>>>>>>> [4] https://protect2.fireeye.com/v1/url?k=847bae75-e5f0bb43-847a253a-000babff9b5d-0b6f42041b9dea1d&q=1&e=37a26c43-8564-4808-9701-dc76d1ebbb27&u=https%3A%2F%2Fgithub.com%2Fwens%2Flinux%2Fcommits%2Fmt8183-cpufreq-cci-svs-test
> >>>>>>>
> >>>>>>> I've updated my branch to include all the latest versions of the relevant
> >>>>>>> patch series:
> >>>>>>>
> >>>>>>> - anx7625 DPI bus type series v2 (so the display works)
> >>>>>>> - MT8183 thermal series v9 (this seems to have been overlooked by the
> >>>>>>> maintainer)
> >>>>>>> - MTK SVS driver series v25
> >>>>>>> - devfreq: cpu based scaling support to passive governor series v5
> >>>>>>> - MTK CCI devfreq series v4
> >>>>>>> - MT8183 cpufreq series v7
> >>>>>>> - Additional WIP patches for panfrost MTK devfreq
> >>>>>>
> >>>>>> Thanks for preparing an integration branch Chen-Yu.
> >>>>>>
> >>>>>> I'm testing this on mt8183-pumpkin with one patch to add the CCI
> >>>>>> regulator[1], and the defconfig you posted in a previous rev of this
> >>>>>> series, but the CCI driver still causes a fault on boot[2] on my
> >>>>>> platform.
> >>>>>>
> >>>>>> I mentioned in earlier reviews that I think there's potentially a race
> >>>>>> between CCI and SVS loading since they are co-dependent.  My hunch is
> >>>>>> that this is still not being handled properly.
> >>>>>
> >>>>> Ah, actually it's crashing when I try to boot the platform with
> >>>>> `maxcpus=4` on the cmdline (which I have to do because mt8183-pumpkin is
> >>>>> unstable upstream with the 2nd cluster enabled.)
> >>
> >> This warning message is printed by 'WARN_ON(cpufreq_passive_unregister_notifier(devfreq))'
> >> on devfreq passive governor.
> >>
> >> If the cpufreq drivers are not probed before of probing cci devfreq driver
> >> with passive governor, passive governor shows this warning message.
> >> Because passive governor with CPUFREQ_PARENT_DEV depends on the cpufreq driver
> >> in order to get 'struct cpufreq_policy'[2].
> >>
> >> [1] https://git.kernel.org/pub/scm/linux/kernel/git/chanwoo/linux.git/tree/drivers/devfreq/governor_passive.c?h=devfreq-testing#n339
> >> [2] https://git.kernel.org/pub/scm/linux/kernel/git/chanwoo/linux.git/tree/drivers/devfreq/governor_passive.c?h=devfreq-testing#n282
> >>
> >> But, as I knew, this message might not stop the kernel. Just show the warning
> >> message and then return -EPROBE_DEFER error. It means that maybe try to
> >> probe the cci devfreq driver on late time of kernel booting
> >> and then will be working. But, I need the full kernel booting log
> >> and the booting sequence of between cpufreq and cci devfreq driver.
> >
> > Maybe just use a standard dev_warn() instead? WARN_ON causes all sorts
> > of panicking in developers' minds. :p
> >
> >> In order to fix your issue, could you share the full booting log?
> >> And if possible, please explain the more detailed something about this.
> >
> > The shortened version is that on an 8 core system, with maxcpus=4,
> > only the first four cores are booted and have cpufreq associated.
> > I've not actually used this mechanism, so I don't really know what
> > happens if the other cores are brought up later with hotplug. Is
> > cpufreq expected to attach to them?
> >
> > Maybe Kevin can add some more details.
> >
> >
> > ChenYu
> >
> >
> >>>>>
> >>>>> The CCI driver should be a bit more robust about detecting
> >>>>> available/online CPUs
> >>>>
> >>>> This all seems to be handled in the devfreq passive governor.
> >>>
> >>> Well, that's the initial crash.  But the SVS driver will also go through
> >>> its svs_mt8183_banks[] array (including both big & little clusters) and
> >>> try to init SVS, so presumably that will have some problems also if only
> >>> one cluster is enabled.
> >>>
> >>>> And presumably we'd like to have CCI devfreq running even if just one
> >>>> core was booted.
> >>>
> >>> Yes, I assume so also.
> >>>
> >>>> Added Chanwoo for more ideas.
> >>>
> >>> OK, thanks.
> >>>
> >>> Kevin
>
>
> I tested the passive governor with my temporary test code
> on odroid-xu3 which contains the big.LITTLE cluster (Octa-core).
>
>
> [Sequence of cpufreq/devfreq driver]
> 1. Turn on all cpus
> 2. Probed cpufreq driver
> 3. Probed devfreq driver using passive governor with CPUFREQ_PARENT_DEV
>
> In my test case, there are no warning message during kernel booting.
> Also when scaling the cpu frequency of cpus of big.LITTLE clusters,
> temporary devfreq driver receives the notfication and then
> calculate the target frequency of devfreq device by iterating online cpu.
>
> If there are any h/w constraints on your case, please let me know.

Could you run your system with maxcpus=4 added to your cmdline?
This is what Kevin was running.

The current result is that the latter four cores aren't booted, so no
cpufreq tied to them, and the passive governor will fail to get their
cpufreq_policy. As mentioned before, the code path used to have a
WARN_ON(). Now it's a dev_warn(). It will still fail initialization
though.

We're wondering if devfreq passive governor should be made to work
even if not all cpu cores are available when it probes.


Regards
ChenYu
Kevin Hilman May 25, 2022, 10:07 p.m. UTC | #7
Chen-Yu Tsai <wenst@chromium.org> writes:

> On Fri, May 20, 2022 at 5:53 PM Chanwoo Choi <cw00.choi@samsung.com> wrote:
>>
>> Hi Kevin,
>>
>> On 5/20/22 11:42 AM, Chen-Yu Tsai wrote:
>> > On Fri, May 20, 2022 at 9:28 AM Chanwoo Choi <cw00.choi@samsung.com> wrote:
>> >>
>> >> Hi Kevin, Chen-Yu,
>> >>
>> >> On 5/20/22 3:25 AM, Kevin Hilman wrote:
>> >>> Chen-Yu Tsai <wenst@chromium.org> writes:
>> >>>
>> >>>> n Wed, May 18, 2022 at 8:03 AM Kevin Hilman <khilman@kernel.org> wrote:
>> >>>>>
>> >>>>> Kevin Hilman <khilman@kernel.org> writes:
>> >>>>>
>> >>>>>> Chen-Yu Tsai <wenst@chromium.org> writes:
>> >>>>>>
>> >>>>>>> On Mon, May 16, 2022 at 8:43 AM Roger Lu <roger.lu@mediatek.com> wrote:
>> >>>>>>>>
>> >>>>>>>> The Smart Voltage Scaling(SVS) engine is a piece of hardware
>> >>>>>>>> which calculates suitable SVS bank voltages to OPP voltage table.
>> >>>>>>>> Then, DVFS driver could apply those SVS bank voltages to PMIC/Buck
>> >>>>>>>> when receiving OPP_EVENT_ADJUST_VOLTAGE.
>> >>>>>>>>
>> >>>>>>>> 1. SVS driver uses OPP adjust event in [1] to update OPP table voltage part.
>> >>>>>>>> 2. SVS driver gets thermal/GPU device by node [2][3] and CPU device by get_cpu_device().
>> >>>>>>>> After retrieving subsys device, SVS driver calls device_link_add() to make sure probe/suspend callback priority.
>> >>>>>>>>
>> >>>>>>>> [1] https://git.kernel.org/pub/scm/linux/kernel/git/vireshk/pm.git/commit/?h=opp/linux-next&id=25cb20a212a1f989385dfe23230817e69c62bee5
>> >>>>>>>> [2] https://git.kernel.org/pub/scm/linux/kernel/git/vireshk/pm.git/commit/?h=opp/linux-next&id=b325ce39785b1408040d90365a6ab1aa36e94f87
>> >>>>>>>> [3] https://git.kernel.org/pub/scm/linux/kernel/git/matthias.bgg/linux.git/commit/?h=v5.16-next/dts64&id=a8168cebf1bca1b5269e8a7eb2626fb76814d6e2
>> >>>>>>>>
>> >>>>>>>> Change since v24:
>> >>>>>>>> - Rebase to Linux 5.18-rc6
>> >>>>>>>> - Show specific fail log in svs_platform_probe() to help catch which step fails quickly
>> >>>>>>>> - Remove struct svs_bank member "pd_dev" because all subsys device's power domain has been merged into one node like above [3]
>> >>>>>>>>
>> >>>>>>>> Test in below environment:
>> >>>>>>>> SW: Integration Tree [4] + Thermal patch [5] + SVS v25 (this patchset)
>> >>>>>>>> HW: mt8183-Krane
>> >>>>>>>>
>> >>>>>>>> [4] https://protect2.fireeye.com/v1/url?k=847bae75-e5f0bb43-847a253a-000babff9b5d-0b6f42041b9dea1d&q=1&e=37a26c43-8564-4808-9701-dc76d1ebbb27&u=https%3A%2F%2Fgithub.com%2Fwens%2Flinux%2Fcommits%2Fmt8183-cpufreq-cci-svs-test
>> >>>>>>>
>> >>>>>>> I've updated my branch to include all the latest versions of the relevant
>> >>>>>>> patch series:
>> >>>>>>>
>> >>>>>>> - anx7625 DPI bus type series v2 (so the display works)
>> >>>>>>> - MT8183 thermal series v9 (this seems to have been overlooked by the
>> >>>>>>> maintainer)
>> >>>>>>> - MTK SVS driver series v25
>> >>>>>>> - devfreq: cpu based scaling support to passive governor series v5
>> >>>>>>> - MTK CCI devfreq series v4
>> >>>>>>> - MT8183 cpufreq series v7
>> >>>>>>> - Additional WIP patches for panfrost MTK devfreq
>> >>>>>>
>> >>>>>> Thanks for preparing an integration branch Chen-Yu.
>> >>>>>>
>> >>>>>> I'm testing this on mt8183-pumpkin with one patch to add the CCI
>> >>>>>> regulator[1], and the defconfig you posted in a previous rev of this
>> >>>>>> series, but the CCI driver still causes a fault on boot[2] on my
>> >>>>>> platform.
>> >>>>>>
>> >>>>>> I mentioned in earlier reviews that I think there's potentially a race
>> >>>>>> between CCI and SVS loading since they are co-dependent.  My hunch is
>> >>>>>> that this is still not being handled properly.
>> >>>>>
>> >>>>> Ah, actually it's crashing when I try to boot the platform with
>> >>>>> `maxcpus=4` on the cmdline (which I have to do because mt8183-pumpkin is
>> >>>>> unstable upstream with the 2nd cluster enabled.)
>> >>
>> >> This warning message is printed by 'WARN_ON(cpufreq_passive_unregister_notifier(devfreq))'
>> >> on devfreq passive governor.
>> >>
>> >> If the cpufreq drivers are not probed before of probing cci devfreq driver
>> >> with passive governor, passive governor shows this warning message.
>> >> Because passive governor with CPUFREQ_PARENT_DEV depends on the cpufreq driver
>> >> in order to get 'struct cpufreq_policy'[2].
>> >>
>> >> [1] https://git.kernel.org/pub/scm/linux/kernel/git/chanwoo/linux.git/tree/drivers/devfreq/governor_passive.c?h=devfreq-testing#n339
>> >> [2] https://git.kernel.org/pub/scm/linux/kernel/git/chanwoo/linux.git/tree/drivers/devfreq/governor_passive.c?h=devfreq-testing#n282
>> >>
>> >> But, as I knew, this message might not stop the kernel. Just show the warning
>> >> message and then return -EPROBE_DEFER error. It means that maybe try to
>> >> probe the cci devfreq driver on late time of kernel booting
>> >> and then will be working. But, I need the full kernel booting log
>> >> and the booting sequence of between cpufreq and cci devfreq driver.
>> >
>> > Maybe just use a standard dev_warn() instead? WARN_ON causes all sorts
>> > of panicking in developers' minds. :p
>> >
>> >> In order to fix your issue, could you share the full booting log?
>> >> And if possible, please explain the more detailed something about this.
>> >
>> > The shortened version is that on an 8 core system, with maxcpus=4,
>> > only the first four cores are booted and have cpufreq associated.
>> > I've not actually used this mechanism, so I don't really know what
>> > happens if the other cores are brought up later with hotplug. Is
>> > cpufreq expected to attach to them?
>> >
>> > Maybe Kevin can add some more details.
>> >
>> >
>> > ChenYu
>> >
>> >
>> >>>>>
>> >>>>> The CCI driver should be a bit more robust about detecting
>> >>>>> available/online CPUs
>> >>>>
>> >>>> This all seems to be handled in the devfreq passive governor.
>> >>>
>> >>> Well, that's the initial crash.  But the SVS driver will also go through
>> >>> its svs_mt8183_banks[] array (including both big & little clusters) and
>> >>> try to init SVS, so presumably that will have some problems also if only
>> >>> one cluster is enabled.
>> >>>
>> >>>> And presumably we'd like to have CCI devfreq running even if just one
>> >>>> core was booted.
>> >>>
>> >>> Yes, I assume so also.
>> >>>
>> >>>> Added Chanwoo for more ideas.
>> >>>
>> >>> OK, thanks.
>> >>>
>> >>> Kevin
>>
>>
>> I tested the passive governor with my temporary test code
>> on odroid-xu3 which contains the big.LITTLE cluster (Octa-core).
>>
>>
>> [Sequence of cpufreq/devfreq driver]
>> 1. Turn on all cpus
>> 2. Probed cpufreq driver
>> 3. Probed devfreq driver using passive governor with CPUFREQ_PARENT_DEV
>>
>> In my test case, there are no warning message during kernel booting.
>> Also when scaling the cpu frequency of cpus of big.LITTLE clusters,
>> temporary devfreq driver receives the notfication and then
>> calculate the target frequency of devfreq device by iterating online cpu.
>>
>> If there are any h/w constraints on your case, please let me know.
>
> Could you run your system with maxcpus=4 added to your cmdline?
> This is what Kevin was running.
>
> The current result is that the latter four cores aren't booted, so no
> cpufreq tied to them, and the passive governor will fail to get their
> cpufreq_policy. As mentioned before, the code path used to have a
> WARN_ON(). Now it's a dev_warn(). It will still fail initialization
> though.
>
> We're wondering if devfreq passive governor should be made to work
> even if not all cpu cores are available when it probes.

For info, here is a boot log[1] from mt8183-pumpkin board where I'm
testing Chen-Yu's lastest integration branch.  

As Chen-Yu said, the part that makes it trigger the warn is disabling
some of the CPUs *at boot time*.  In this case, I'm passing `maxcpus=4`
on the kernel command line.

Kevin

[1] https://termbin.com/zidi
Chanwoo Choi May 31, 2022, 5:55 a.m. UTC | #8
On 5/26/22 7:07 AM, Kevin Hilman wrote:
> Chen-Yu Tsai <wenst@chromium.org> writes:
> 
>> On Fri, May 20, 2022 at 5:53 PM Chanwoo Choi <cw00.choi@samsung.com> wrote:
>>>
>>> Hi Kevin,
>>>
>>> On 5/20/22 11:42 AM, Chen-Yu Tsai wrote:
>>>> On Fri, May 20, 2022 at 9:28 AM Chanwoo Choi <cw00.choi@samsung.com> wrote:
>>>>>
>>>>> Hi Kevin, Chen-Yu,
>>>>>
>>>>> On 5/20/22 3:25 AM, Kevin Hilman wrote:
>>>>>> Chen-Yu Tsai <wenst@chromium.org> writes:
>>>>>>
>>>>>>> n Wed, May 18, 2022 at 8:03 AM Kevin Hilman <khilman@kernel.org> wrote:
>>>>>>>>
>>>>>>>> Kevin Hilman <khilman@kernel.org> writes:
>>>>>>>>
>>>>>>>>> Chen-Yu Tsai <wenst@chromium.org> writes:
>>>>>>>>>
>>>>>>>>>> On Mon, May 16, 2022 at 8:43 AM Roger Lu <roger.lu@mediatek.com> wrote:
>>>>>>>>>>>
>>>>>>>>>>> The Smart Voltage Scaling(SVS) engine is a piece of hardware
>>>>>>>>>>> which calculates suitable SVS bank voltages to OPP voltage table.
>>>>>>>>>>> Then, DVFS driver could apply those SVS bank voltages to PMIC/Buck
>>>>>>>>>>> when receiving OPP_EVENT_ADJUST_VOLTAGE.
>>>>>>>>>>>
>>>>>>>>>>> 1. SVS driver uses OPP adjust event in [1] to update OPP table voltage part.
>>>>>>>>>>> 2. SVS driver gets thermal/GPU device by node [2][3] and CPU device by get_cpu_device().
>>>>>>>>>>> After retrieving subsys device, SVS driver calls device_link_add() to make sure probe/suspend callback priority.
>>>>>>>>>>>
>>>>>>>>>>> [1] https://git.kernel.org/pub/scm/linux/kernel/git/vireshk/pm.git/commit/?h=opp/linux-next&id=25cb20a212a1f989385dfe23230817e69c62bee5
>>>>>>>>>>> [2] https://git.kernel.org/pub/scm/linux/kernel/git/vireshk/pm.git/commit/?h=opp/linux-next&id=b325ce39785b1408040d90365a6ab1aa36e94f87
>>>>>>>>>>> [3] https://git.kernel.org/pub/scm/linux/kernel/git/matthias.bgg/linux.git/commit/?h=v5.16-next/dts64&id=a8168cebf1bca1b5269e8a7eb2626fb76814d6e2
>>>>>>>>>>>
>>>>>>>>>>> Change since v24:
>>>>>>>>>>> - Rebase to Linux 5.18-rc6
>>>>>>>>>>> - Show specific fail log in svs_platform_probe() to help catch which step fails quickly
>>>>>>>>>>> - Remove struct svs_bank member "pd_dev" because all subsys device's power domain has been merged into one node like above [3]
>>>>>>>>>>>
>>>>>>>>>>> Test in below environment:
>>>>>>>>>>> SW: Integration Tree [4] + Thermal patch [5] + SVS v25 (this patchset)
>>>>>>>>>>> HW: mt8183-Krane
>>>>>>>>>>>
>>>>>>>>>>> [4] https://protect2.fireeye.com/v1/url?k=847bae75-e5f0bb43-847a253a-000babff9b5d-0b6f42041b9dea1d&q=1&e=37a26c43-8564-4808-9701-dc76d1ebbb27&u=https%3A%2F%2Fgithub.com%2Fwens%2Flinux%2Fcommits%2Fmt8183-cpufreq-cci-svs-test
>>>>>>>>>>
>>>>>>>>>> I've updated my branch to include all the latest versions of the relevant
>>>>>>>>>> patch series:
>>>>>>>>>>
>>>>>>>>>> - anx7625 DPI bus type series v2 (so the display works)
>>>>>>>>>> - MT8183 thermal series v9 (this seems to have been overlooked by the
>>>>>>>>>> maintainer)
>>>>>>>>>> - MTK SVS driver series v25
>>>>>>>>>> - devfreq: cpu based scaling support to passive governor series v5
>>>>>>>>>> - MTK CCI devfreq series v4
>>>>>>>>>> - MT8183 cpufreq series v7
>>>>>>>>>> - Additional WIP patches for panfrost MTK devfreq
>>>>>>>>>
>>>>>>>>> Thanks for preparing an integration branch Chen-Yu.
>>>>>>>>>
>>>>>>>>> I'm testing this on mt8183-pumpkin with one patch to add the CCI
>>>>>>>>> regulator[1], and the defconfig you posted in a previous rev of this
>>>>>>>>> series, but the CCI driver still causes a fault on boot[2] on my
>>>>>>>>> platform.
>>>>>>>>>
>>>>>>>>> I mentioned in earlier reviews that I think there's potentially a race
>>>>>>>>> between CCI and SVS loading since they are co-dependent.  My hunch is
>>>>>>>>> that this is still not being handled properly.
>>>>>>>>
>>>>>>>> Ah, actually it's crashing when I try to boot the platform with
>>>>>>>> `maxcpus=4` on the cmdline (which I have to do because mt8183-pumpkin is
>>>>>>>> unstable upstream with the 2nd cluster enabled.)
>>>>>
>>>>> This warning message is printed by 'WARN_ON(cpufreq_passive_unregister_notifier(devfreq))'
>>>>> on devfreq passive governor.
>>>>>
>>>>> If the cpufreq drivers are not probed before of probing cci devfreq driver
>>>>> with passive governor, passive governor shows this warning message.
>>>>> Because passive governor with CPUFREQ_PARENT_DEV depends on the cpufreq driver
>>>>> in order to get 'struct cpufreq_policy'[2].
>>>>>
>>>>> [1] https://git.kernel.org/pub/scm/linux/kernel/git/chanwoo/linux.git/tree/drivers/devfreq/governor_passive.c?h=devfreq-testing#n339
>>>>> [2] https://git.kernel.org/pub/scm/linux/kernel/git/chanwoo/linux.git/tree/drivers/devfreq/governor_passive.c?h=devfreq-testing#n282
>>>>>
>>>>> But, as I knew, this message might not stop the kernel. Just show the warning
>>>>> message and then return -EPROBE_DEFER error. It means that maybe try to
>>>>> probe the cci devfreq driver on late time of kernel booting
>>>>> and then will be working. But, I need the full kernel booting log
>>>>> and the booting sequence of between cpufreq and cci devfreq driver.
>>>>
>>>> Maybe just use a standard dev_warn() instead? WARN_ON causes all sorts
>>>> of panicking in developers' minds. :p
>>>>
>>>>> In order to fix your issue, could you share the full booting log?
>>>>> And if possible, please explain the more detailed something about this.
>>>>
>>>> The shortened version is that on an 8 core system, with maxcpus=4,
>>>> only the first four cores are booted and have cpufreq associated.
>>>> I've not actually used this mechanism, so I don't really know what
>>>> happens if the other cores are brought up later with hotplug. Is
>>>> cpufreq expected to attach to them?
>>>>
>>>> Maybe Kevin can add some more details.
>>>>
>>>>
>>>> ChenYu
>>>>
>>>>
>>>>>>>>
>>>>>>>> The CCI driver should be a bit more robust about detecting
>>>>>>>> available/online CPUs
>>>>>>>
>>>>>>> This all seems to be handled in the devfreq passive governor.
>>>>>>
>>>>>> Well, that's the initial crash.  But the SVS driver will also go through
>>>>>> its svs_mt8183_banks[] array (including both big & little clusters) and
>>>>>> try to init SVS, so presumably that will have some problems also if only
>>>>>> one cluster is enabled.
>>>>>>
>>>>>>> And presumably we'd like to have CCI devfreq running even if just one
>>>>>>> core was booted.
>>>>>>
>>>>>> Yes, I assume so also.
>>>>>>
>>>>>>> Added Chanwoo for more ideas.
>>>>>>
>>>>>> OK, thanks.
>>>>>>
>>>>>> Kevin
>>>
>>>
>>> I tested the passive governor with my temporary test code
>>> on odroid-xu3 which contains the big.LITTLE cluster (Octa-core).
>>>
>>>
>>> [Sequence of cpufreq/devfreq driver]
>>> 1. Turn on all cpus
>>> 2. Probed cpufreq driver
>>> 3. Probed devfreq driver using passive governor with CPUFREQ_PARENT_DEV
>>>
>>> In my test case, there are no warning message during kernel booting.
>>> Also when scaling the cpu frequency of cpus of big.LITTLE clusters,
>>> temporary devfreq driver receives the notfication and then
>>> calculate the target frequency of devfreq device by iterating online cpu.
>>>
>>> If there are any h/w constraints on your case, please let me know.
>>
>> Could you run your system with maxcpus=4 added to your cmdline?
>> This is what Kevin was running.
>>
>> The current result is that the latter four cores aren't booted, so no
>> cpufreq tied to them, and the passive governor will fail to get their
>> cpufreq_policy. As mentioned before, the code path used to have a
>> WARN_ON(). Now it's a dev_warn(). It will still fail initialization
>> though.
>>
>> We're wondering if devfreq passive governor should be made to work
>> even if not all cpu cores are available when it probes.
> 
> For info, here is a boot log[1] from mt8183-pumpkin board where I'm
> testing Chen-Yu's lastest integration branch.  
> 
> As Chen-Yu said, the part that makes it trigger the warn is disabling
> some of the CPUs *at boot time*.  In this case, I'm passing `maxcpus=4`
> on the kernel command line.
> 
> Kevin
> 
> [1] https://protect2.fireeye.com/v1/url?k=05bb8eea-64309bc5-05ba05a5-74fe485cbfe7-9281bdbd13e5cf90&q=1&e=8ab47ff1-daee-4db3-a26d-6fc652568a44&u=https%3A%2F%2Ftermbin.com%2Fzidi
> 
> 

When using 'maxcpus=' on my test board, I got the warning message.
I'm fixing it and then send the patch. Thanks for the test.
Chen-Yu Tsai June 6, 2022, 10:05 a.m. UTC | #9
On Mon, May 16, 2022 at 8:43 AM Roger Lu <roger.lu@mediatek.com> wrote:
>
> The Smart Voltage Scaling(SVS) engine is a piece of hardware
> which calculates suitable SVS bank voltages to OPP voltage table.
> Then, DVFS driver could apply those SVS bank voltages to PMIC/Buck
> when receiving OPP_EVENT_ADJUST_VOLTAGE.
>
> 1. SVS driver uses OPP adjust event in [1] to update OPP table voltage part.
> 2. SVS driver gets thermal/GPU device by node [2][3] and CPU device by get_cpu_device().
> After retrieving subsys device, SVS driver calls device_link_add() to make sure probe/suspend callback priority.
>
> [1] https://git.kernel.org/pub/scm/linux/kernel/git/vireshk/pm.git/commit/?h=opp/linux-next&id=25cb20a212a1f989385dfe23230817e69c62bee5
> [2] https://git.kernel.org/pub/scm/linux/kernel/git/vireshk/pm.git/commit/?h=opp/linux-next&id=b325ce39785b1408040d90365a6ab1aa36e94f87
> [3] https://git.kernel.org/pub/scm/linux/kernel/git/matthias.bgg/linux.git/commit/?h=v5.16-next/dts64&id=a8168cebf1bca1b5269e8a7eb2626fb76814d6e2
>
> Change since v24:
> - Rebase to Linux 5.18-rc6
> - Show specific fail log in svs_platform_probe() to help catch which step fails quickly
> - Remove struct svs_bank member "pd_dev" because all subsys device's power domain has been merged into one node like above [3]
>
> Test in below environment:
> SW: Integration Tree [4] + Thermal patch [5] + SVS v25 (this patchset)
> HW: mt8183-Krane
>
> [4] https://github.com/wens/linux/commits/mt8183-cpufreq-cci-svs-test
> [5] https://patchwork.kernel.org/project/linux-pm/patch/20210820095206.30981-1-ben.tseng@mediatek.com
>
> Boots up log:
> [    4.447369]  SVSB_CPU_LITTLE: svs_init01_isr_handler: VDN74~30:0x141e262e~0x33373c42, DC:0x02f3010b
> [    4.447623]  SVSB_CPU_BIG: svs_init01_isr_handler: VDN74~30:0x151f2830~0x363a4046, DC:0x02f90141
> [    4.447872]  SVSB_CCI: svs_init01_isr_handler: VDN74~30:0x141a232b~0x30363d42, DC:0x02ed00d5
> [    4.448119]  SVSB_GPU: svs_init01_isr_handler: VDN74~30:0x1416171a~0x1d202327, DC:0x02f7012f
> [    4.448239]  SVSB_CPU_LITTLE: svs_init02_isr_handler: VOP74~30:0x1b252d35~0x3a3e4349, DC:0x02f30000
> [    4.448343]  SVSB_CPU_BIG: svs_init02_isr_handler: VOP74~30:0x1c262f37~0x3d41474d, DC:0x02f90000
> [    4.448400]  SVSB_CCI: svs_init02_isr_handler: VOP74~30:0x1b212a32~0x373d4449, DC:0x02ed0000
> [    4.448499]  SVSB_GPU: svs_init02_isr_handler: VOP74~30:0x1618191c~0x1f222529, DC:0x02f70000
>
> SVS commands log:
> localhost ~ # cat /sys/kernel/debug/svs/*/*
> init2
> SVSB_CCI: temperature ignore, turn_pt = 0
> opp_freq[00]: 1196000000, opp_volt[00]: 968750, svsb_volt[00]: 0x4b, freq_pct[00]: 100
> opp_freq[01]: 1144000000, opp_volt[01]: 956250, svsb_volt[01]: 0x49, freq_pct[01]: 96
> opp_freq[02]: 1092000000, opp_volt[02]: 937500, svsb_volt[02]: 0x46, freq_pct[02]: 92
> opp_freq[03]: 1027000000, opp_volt[03]: 918750, svsb_volt[03]: 0x43, freq_pct[03]: 86
> opp_freq[04]: 962000000, opp_volt[04]: 893750, svsb_volt[04]: 0x3f, freq_pct[04]: 81
> opp_freq[05]: 923000000, opp_volt[05]: 881250, svsb_volt[05]: 0x3d, freq_pct[05]: 78
> opp_freq[06]: 871000000, opp_volt[06]: 856250, svsb_volt[06]: 0x39, freq_pct[06]: 73
> opp_freq[07]: 845000000, opp_volt[07]: 850000, svsb_volt[07]: 0x38, freq_pct[07]: 71
> opp_freq[08]: 767000000, opp_volt[08]: 825000, svsb_volt[08]: 0x34, freq_pct[08]: 65
> opp_freq[09]: 689000000, opp_volt[09]: 800000, svsb_volt[09]: 0x30, freq_pct[09]: 58
> opp_freq[10]: 624000000, opp_volt[10]: 775000, svsb_volt[10]: 0x2c, freq_pct[10]: 53
> opp_freq[11]: 546000000, opp_volt[11]: 750000, svsb_volt[11]: 0x28, freq_pct[11]: 46
> opp_freq[12]: 463000000, opp_volt[12]: 718750, svsb_volt[12]: 0x23, freq_pct[12]: 39
> opp_freq[13]: 403000000, opp_volt[13]: 700000, svsb_volt[13]: 0x20, freq_pct[13]: 34
> opp_freq[14]: 338000000, opp_volt[14]: 681250, svsb_volt[14]: 0x1d, freq_pct[14]: 29
> opp_freq[15]: 273000000, opp_volt[15]: 650000, svsb_volt[15]: 0x1a, freq_pct[15]: 23
> init2
> SVSB_CPU_BIG: temperature ignore, turn_pt = 0
> opp_freq[00]: 1989000000, opp_volt[00]: 1050000, svsb_volt[00]: 0x59, freq_pct[00]: 100
> opp_freq[01]: 1924000000, opp_volt[01]: 1025000, svsb_volt[01]: 0x57, freq_pct[01]: 97
> opp_freq[02]: 1846000000, opp_volt[02]: 1000000, svsb_volt[02]: 0x53, freq_pct[02]: 93
> opp_freq[03]: 1781000000, opp_volt[03]: 975000, svsb_volt[03]: 0x50, freq_pct[03]: 90
> opp_freq[04]: 1716000000, opp_volt[04]: 950000, svsb_volt[04]: 0x4d, freq_pct[04]: 87
> opp_freq[05]: 1677000000, opp_volt[05]: 931250, svsb_volt[05]: 0x4c, freq_pct[05]: 85
> opp_freq[06]: 1625000000, opp_volt[06]: 912500, svsb_volt[06]: 0x49, freq_pct[06]: 82
> opp_freq[07]: 1586000000, opp_volt[07]: 900000, svsb_volt[07]: 0x47, freq_pct[07]: 80
> opp_freq[08]: 1508000000, opp_volt[08]: 875000, svsb_volt[08]: 0x43, freq_pct[08]: 76
> opp_freq[09]: 1417000000, opp_volt[09]: 850000, svsb_volt[09]: 0x40, freq_pct[09]: 72
> opp_freq[10]: 1326000000, opp_volt[10]: 825000, svsb_volt[10]: 0x3b, freq_pct[10]: 67
> opp_freq[11]: 1248000000, opp_volt[11]: 800000, svsb_volt[11]: 0x38, freq_pct[11]: 63
> opp_freq[12]: 1131000000, opp_volt[12]: 775000, svsb_volt[12]: 0x32, freq_pct[12]: 57
> opp_freq[13]: 1014000000, opp_volt[13]: 750000, svsb_volt[13]: 0x2d, freq_pct[13]: 51
> opp_freq[14]: 910000000, opp_volt[14]: 725000, svsb_volt[14]: 0x28, freq_pct[14]: 46
> opp_freq[15]: 793000000, opp_volt[15]: 700000, svsb_volt[15]: 0x23, freq_pct[15]: 40
> init2
> SVSB_CPU_LITTLE: temperature ignore, turn_pt = 0
> opp_freq[00]: 1989000000, opp_volt[00]: 968750, svsb_volt[00]: 0x4b, freq_pct[00]: 100
> opp_freq[01]: 1924000000, opp_volt[01]: 956250, svsb_volt[01]: 0x49, freq_pct[01]: 97
> opp_freq[02]: 1846000000, opp_volt[02]: 931250, svsb_volt[02]: 0x45, freq_pct[02]: 93
> opp_freq[03]: 1781000000, opp_volt[03]: 918750, svsb_volt[03]: 0x43, freq_pct[03]: 90
> opp_freq[04]: 1716000000, opp_volt[04]: 900000, svsb_volt[04]: 0x40, freq_pct[04]: 87
> opp_freq[05]: 1677000000, opp_volt[05]: 893750, svsb_volt[05]: 0x3f, freq_pct[05]: 85
> opp_freq[06]: 1625000000, opp_volt[06]: 875000, svsb_volt[06]: 0x3c, freq_pct[06]: 82
> opp_freq[07]: 1586000000, opp_volt[07]: 868750, svsb_volt[07]: 0x3b, freq_pct[07]: 80
> opp_freq[08]: 1508000000, opp_volt[08]: 843750, svsb_volt[08]: 0x37, freq_pct[08]: 76
> opp_freq[09]: 1417000000, opp_volt[09]: 825000, svsb_volt[09]: 0x34, freq_pct[09]: 72
> opp_freq[10]: 1326000000, opp_volt[10]: 793750, svsb_volt[10]: 0x2f, freq_pct[10]: 67
> opp_freq[11]: 1248000000, opp_volt[11]: 775000, svsb_volt[11]: 0x2c, freq_pct[11]: 63
> opp_freq[12]: 1131000000, opp_volt[12]: 743750, svsb_volt[12]: 0x27, freq_pct[12]: 57
> opp_freq[13]: 1014000000, opp_volt[13]: 712500, svsb_volt[13]: 0x22, freq_pct[13]: 51
> opp_freq[14]: 910000000, opp_volt[14]: 681250, svsb_volt[14]: 0x1d, freq_pct[14]: 46
> opp_freq[15]: 793000000, opp_volt[15]: 650000, svsb_volt[15]: 0x18, freq_pct[15]: 40
> mon mode
> SVSB_GPU: temperature = 33492, turn_pt = 0
> opp_freq[00]: 800000000, opp_volt[00]: 743750, svsb_volt[00]: 0x27, freq_pct[00]: 100
> opp_freq[01]: 743000000, opp_volt[01]: 731250, svsb_volt[01]: 0x25, freq_pct[01]: 93
> opp_freq[02]: 698000000, opp_volt[02]: 718750, svsb_volt[02]: 0x23, freq_pct[02]: 88
> opp_freq[03]: 653000000, opp_volt[03]: 712500, svsb_volt[03]: 0x22, freq_pct[03]: 82
> opp_freq[04]: 620000000, opp_volt[04]: 700000, svsb_volt[04]: 0x20, freq_pct[04]: 78
> opp_freq[05]: 580000000, opp_volt[05]: 693750, svsb_volt[05]: 0x1f, freq_pct[05]: 73
> opp_freq[06]: 540000000, opp_volt[06]: 681250, svsb_volt[06]: 0x1d, freq_pct[06]: 68
> opp_freq[07]: 500000000, opp_volt[07]: 675000, svsb_volt[07]: 0x1c, freq_pct[07]: 63
> opp_freq[08]: 460000000, opp_volt[08]: 662500, svsb_volt[08]: 0x1a, freq_pct[08]: 58
> opp_freq[09]: 420000000, opp_volt[09]: 656250, svsb_volt[09]: 0x19, freq_pct[09]: 53
> opp_freq[10]: 400000000, opp_volt[10]: 643750, svsb_volt[10]: 0x17, freq_pct[10]: 50
> opp_freq[11]: 380000000, opp_volt[11]: 643750, svsb_volt[11]: 0x17, freq_pct[11]: 48
> opp_freq[12]: 360000000, opp_volt[12]: 637500, svsb_volt[12]: 0x16, freq_pct[12]: 45
> opp_freq[13]: 340000000, opp_volt[13]: 637500, svsb_volt[13]: 0x16, freq_pct[13]: 43
> opp_freq[14]: 320000000, opp_volt[14]: 625000, svsb_volt[14]: 0x14, freq_pct[14]: 40
> opp_freq[15]: 300000000, opp_volt[15]: 625000, svsb_volt[15]: 0x14, freq_pct[15]: 38
>
> Roger Lu (7):
>   [v25,1/7] dt-bindings: soc: mediatek: add mtk svs dt-bindings
>   [v25,2/7] arm64: dts: mt8183: add svs device information
>   [v25,3/7] soc: mediatek: SVS: introduce MTK SVS engine
>   [v25,4/7] soc: mediatek: SVS: add monitor mode
>   [v25,5/7] soc: mediatek: SVS: add debug commands
>   [v25,6/7] dt-bindings: soc: mediatek: add mt8192 svs dt-bindings
>   [v25,7/7] soc: mediatek: SVS: add mt8192 SVS GPU driver

Tested-by: Chen-Yu Tsai <wenst@chromium.org>
Kevin Hilman June 8, 2022, 9:33 a.m. UTC | #10
Roger Lu <roger.lu@mediatek.com> writes:

> The Smart Voltage Scaling(SVS) engine is a piece of hardware
> which calculates suitable SVS bank voltages to OPP voltage table.
> Then, DVFS driver could apply those SVS bank voltages to PMIC/Buck
> when receiving OPP_EVENT_ADJUST_VOLTAGE.

Tested-by: Kevin Hilman <khilman@baylibre.com>
Matthias Brugger June 17, 2022, 8:53 a.m. UTC | #11
On 16/05/2022 02:43, Roger Lu wrote:
> The Smart Voltage Scaling(SVS) engine is a piece of hardware
> which calculates suitable SVS bank voltages to OPP voltage table.
> Then, DVFS driver could apply those SVS bank voltages to PMIC/Buck
> when receiving OPP_EVENT_ADJUST_VOLTAGE.

Whole series applied to v5.19-next/soc and v5.19-next/dts64

Thanks to all people involved!

> 
> 1. SVS driver uses OPP adjust event in [1] to update OPP table voltage part.
> 2. SVS driver gets thermal/GPU device by node [2][3] and CPU device by get_cpu_device().
> After retrieving subsys device, SVS driver calls device_link_add() to make sure probe/suspend callback priority.
> 
> [1] https://git.kernel.org/pub/scm/linux/kernel/git/vireshk/pm.git/commit/?h=opp/linux-next&id=25cb20a212a1f989385dfe23230817e69c62bee5
> [2] https://git.kernel.org/pub/scm/linux/kernel/git/vireshk/pm.git/commit/?h=opp/linux-next&id=b325ce39785b1408040d90365a6ab1aa36e94f87
> [3] https://git.kernel.org/pub/scm/linux/kernel/git/matthias.bgg/linux.git/commit/?h=v5.16-next/dts64&id=a8168cebf1bca1b5269e8a7eb2626fb76814d6e2
> 
> Change since v24:
> - Rebase to Linux 5.18-rc6
> - Show specific fail log in svs_platform_probe() to help catch which step fails quickly
> - Remove struct svs_bank member "pd_dev" because all subsys device's power domain has been merged into one node like above [3]
> 
> Test in below environment:
> SW: Integration Tree [4] + Thermal patch [5] + SVS v25 (this patchset)
> HW: mt8183-Krane
> 
> [4] https://github.com/wens/linux/commits/mt8183-cpufreq-cci-svs-test
> [5] https://patchwork.kernel.org/project/linux-pm/patch/20210820095206.30981-1-ben.tseng@mediatek.com
> 
> Boots up log:
> [    4.447369]  SVSB_CPU_LITTLE: svs_init01_isr_handler: VDN74~30:0x141e262e~0x33373c42, DC:0x02f3010b
> [    4.447623]  SVSB_CPU_BIG: svs_init01_isr_handler: VDN74~30:0x151f2830~0x363a4046, DC:0x02f90141
> [    4.447872]  SVSB_CCI: svs_init01_isr_handler: VDN74~30:0x141a232b~0x30363d42, DC:0x02ed00d5
> [    4.448119]  SVSB_GPU: svs_init01_isr_handler: VDN74~30:0x1416171a~0x1d202327, DC:0x02f7012f
> [    4.448239]  SVSB_CPU_LITTLE: svs_init02_isr_handler: VOP74~30:0x1b252d35~0x3a3e4349, DC:0x02f30000
> [    4.448343]  SVSB_CPU_BIG: svs_init02_isr_handler: VOP74~30:0x1c262f37~0x3d41474d, DC:0x02f90000
> [    4.448400]  SVSB_CCI: svs_init02_isr_handler: VOP74~30:0x1b212a32~0x373d4449, DC:0x02ed0000
> [    4.448499]  SVSB_GPU: svs_init02_isr_handler: VOP74~30:0x1618191c~0x1f222529, DC:0x02f70000
> 
> SVS commands log:
> localhost ~ # cat /sys/kernel/debug/svs/*/*
> init2
> SVSB_CCI: temperature ignore, turn_pt = 0
> opp_freq[00]: 1196000000, opp_volt[00]: 968750, svsb_volt[00]: 0x4b, freq_pct[00]: 100
> opp_freq[01]: 1144000000, opp_volt[01]: 956250, svsb_volt[01]: 0x49, freq_pct[01]: 96
> opp_freq[02]: 1092000000, opp_volt[02]: 937500, svsb_volt[02]: 0x46, freq_pct[02]: 92
> opp_freq[03]: 1027000000, opp_volt[03]: 918750, svsb_volt[03]: 0x43, freq_pct[03]: 86
> opp_freq[04]: 962000000, opp_volt[04]: 893750, svsb_volt[04]: 0x3f, freq_pct[04]: 81
> opp_freq[05]: 923000000, opp_volt[05]: 881250, svsb_volt[05]: 0x3d, freq_pct[05]: 78
> opp_freq[06]: 871000000, opp_volt[06]: 856250, svsb_volt[06]: 0x39, freq_pct[06]: 73
> opp_freq[07]: 845000000, opp_volt[07]: 850000, svsb_volt[07]: 0x38, freq_pct[07]: 71
> opp_freq[08]: 767000000, opp_volt[08]: 825000, svsb_volt[08]: 0x34, freq_pct[08]: 65
> opp_freq[09]: 689000000, opp_volt[09]: 800000, svsb_volt[09]: 0x30, freq_pct[09]: 58
> opp_freq[10]: 624000000, opp_volt[10]: 775000, svsb_volt[10]: 0x2c, freq_pct[10]: 53
> opp_freq[11]: 546000000, opp_volt[11]: 750000, svsb_volt[11]: 0x28, freq_pct[11]: 46
> opp_freq[12]: 463000000, opp_volt[12]: 718750, svsb_volt[12]: 0x23, freq_pct[12]: 39
> opp_freq[13]: 403000000, opp_volt[13]: 700000, svsb_volt[13]: 0x20, freq_pct[13]: 34
> opp_freq[14]: 338000000, opp_volt[14]: 681250, svsb_volt[14]: 0x1d, freq_pct[14]: 29
> opp_freq[15]: 273000000, opp_volt[15]: 650000, svsb_volt[15]: 0x1a, freq_pct[15]: 23
> init2
> SVSB_CPU_BIG: temperature ignore, turn_pt = 0
> opp_freq[00]: 1989000000, opp_volt[00]: 1050000, svsb_volt[00]: 0x59, freq_pct[00]: 100
> opp_freq[01]: 1924000000, opp_volt[01]: 1025000, svsb_volt[01]: 0x57, freq_pct[01]: 97
> opp_freq[02]: 1846000000, opp_volt[02]: 1000000, svsb_volt[02]: 0x53, freq_pct[02]: 93
> opp_freq[03]: 1781000000, opp_volt[03]: 975000, svsb_volt[03]: 0x50, freq_pct[03]: 90
> opp_freq[04]: 1716000000, opp_volt[04]: 950000, svsb_volt[04]: 0x4d, freq_pct[04]: 87
> opp_freq[05]: 1677000000, opp_volt[05]: 931250, svsb_volt[05]: 0x4c, freq_pct[05]: 85
> opp_freq[06]: 1625000000, opp_volt[06]: 912500, svsb_volt[06]: 0x49, freq_pct[06]: 82
> opp_freq[07]: 1586000000, opp_volt[07]: 900000, svsb_volt[07]: 0x47, freq_pct[07]: 80
> opp_freq[08]: 1508000000, opp_volt[08]: 875000, svsb_volt[08]: 0x43, freq_pct[08]: 76
> opp_freq[09]: 1417000000, opp_volt[09]: 850000, svsb_volt[09]: 0x40, freq_pct[09]: 72
> opp_freq[10]: 1326000000, opp_volt[10]: 825000, svsb_volt[10]: 0x3b, freq_pct[10]: 67
> opp_freq[11]: 1248000000, opp_volt[11]: 800000, svsb_volt[11]: 0x38, freq_pct[11]: 63
> opp_freq[12]: 1131000000, opp_volt[12]: 775000, svsb_volt[12]: 0x32, freq_pct[12]: 57
> opp_freq[13]: 1014000000, opp_volt[13]: 750000, svsb_volt[13]: 0x2d, freq_pct[13]: 51
> opp_freq[14]: 910000000, opp_volt[14]: 725000, svsb_volt[14]: 0x28, freq_pct[14]: 46
> opp_freq[15]: 793000000, opp_volt[15]: 700000, svsb_volt[15]: 0x23, freq_pct[15]: 40
> init2
> SVSB_CPU_LITTLE: temperature ignore, turn_pt = 0
> opp_freq[00]: 1989000000, opp_volt[00]: 968750, svsb_volt[00]: 0x4b, freq_pct[00]: 100
> opp_freq[01]: 1924000000, opp_volt[01]: 956250, svsb_volt[01]: 0x49, freq_pct[01]: 97
> opp_freq[02]: 1846000000, opp_volt[02]: 931250, svsb_volt[02]: 0x45, freq_pct[02]: 93
> opp_freq[03]: 1781000000, opp_volt[03]: 918750, svsb_volt[03]: 0x43, freq_pct[03]: 90
> opp_freq[04]: 1716000000, opp_volt[04]: 900000, svsb_volt[04]: 0x40, freq_pct[04]: 87
> opp_freq[05]: 1677000000, opp_volt[05]: 893750, svsb_volt[05]: 0x3f, freq_pct[05]: 85
> opp_freq[06]: 1625000000, opp_volt[06]: 875000, svsb_volt[06]: 0x3c, freq_pct[06]: 82
> opp_freq[07]: 1586000000, opp_volt[07]: 868750, svsb_volt[07]: 0x3b, freq_pct[07]: 80
> opp_freq[08]: 1508000000, opp_volt[08]: 843750, svsb_volt[08]: 0x37, freq_pct[08]: 76
> opp_freq[09]: 1417000000, opp_volt[09]: 825000, svsb_volt[09]: 0x34, freq_pct[09]: 72
> opp_freq[10]: 1326000000, opp_volt[10]: 793750, svsb_volt[10]: 0x2f, freq_pct[10]: 67
> opp_freq[11]: 1248000000, opp_volt[11]: 775000, svsb_volt[11]: 0x2c, freq_pct[11]: 63
> opp_freq[12]: 1131000000, opp_volt[12]: 743750, svsb_volt[12]: 0x27, freq_pct[12]: 57
> opp_freq[13]: 1014000000, opp_volt[13]: 712500, svsb_volt[13]: 0x22, freq_pct[13]: 51
> opp_freq[14]: 910000000, opp_volt[14]: 681250, svsb_volt[14]: 0x1d, freq_pct[14]: 46
> opp_freq[15]: 793000000, opp_volt[15]: 650000, svsb_volt[15]: 0x18, freq_pct[15]: 40
> mon mode
> SVSB_GPU: temperature = 33492, turn_pt = 0
> opp_freq[00]: 800000000, opp_volt[00]: 743750, svsb_volt[00]: 0x27, freq_pct[00]: 100
> opp_freq[01]: 743000000, opp_volt[01]: 731250, svsb_volt[01]: 0x25, freq_pct[01]: 93
> opp_freq[02]: 698000000, opp_volt[02]: 718750, svsb_volt[02]: 0x23, freq_pct[02]: 88
> opp_freq[03]: 653000000, opp_volt[03]: 712500, svsb_volt[03]: 0x22, freq_pct[03]: 82
> opp_freq[04]: 620000000, opp_volt[04]: 700000, svsb_volt[04]: 0x20, freq_pct[04]: 78
> opp_freq[05]: 580000000, opp_volt[05]: 693750, svsb_volt[05]: 0x1f, freq_pct[05]: 73
> opp_freq[06]: 540000000, opp_volt[06]: 681250, svsb_volt[06]: 0x1d, freq_pct[06]: 68
> opp_freq[07]: 500000000, opp_volt[07]: 675000, svsb_volt[07]: 0x1c, freq_pct[07]: 63
> opp_freq[08]: 460000000, opp_volt[08]: 662500, svsb_volt[08]: 0x1a, freq_pct[08]: 58
> opp_freq[09]: 420000000, opp_volt[09]: 656250, svsb_volt[09]: 0x19, freq_pct[09]: 53
> opp_freq[10]: 400000000, opp_volt[10]: 643750, svsb_volt[10]: 0x17, freq_pct[10]: 50
> opp_freq[11]: 380000000, opp_volt[11]: 643750, svsb_volt[11]: 0x17, freq_pct[11]: 48
> opp_freq[12]: 360000000, opp_volt[12]: 637500, svsb_volt[12]: 0x16, freq_pct[12]: 45
> opp_freq[13]: 340000000, opp_volt[13]: 637500, svsb_volt[13]: 0x16, freq_pct[13]: 43
> opp_freq[14]: 320000000, opp_volt[14]: 625000, svsb_volt[14]: 0x14, freq_pct[14]: 40
> opp_freq[15]: 300000000, opp_volt[15]: 625000, svsb_volt[15]: 0x14, freq_pct[15]: 38
> 
> Roger Lu (7):
>    [v25,1/7] dt-bindings: soc: mediatek: add mtk svs dt-bindings
>    [v25,2/7] arm64: dts: mt8183: add svs device information
>    [v25,3/7] soc: mediatek: SVS: introduce MTK SVS engine
>    [v25,4/7] soc: mediatek: SVS: add monitor mode
>    [v25,5/7] soc: mediatek: SVS: add debug commands
>    [v25,6/7] dt-bindings: soc: mediatek: add mt8192 svs dt-bindings
>    [v25,7/7] soc: mediatek: SVS: add mt8192 SVS GPU driver
> 
>   .../bindings/soc/mediatek/mtk-svs.yaml        |   91 +
>   arch/arm64/boot/dts/mediatek/mt8183.dtsi      |   16 +
>   drivers/soc/mediatek/Kconfig                  |   10 +
>   drivers/soc/mediatek/Makefile                 |    1 +
>   drivers/soc/mediatek/mtk-svs.c                | 2399 +++++++++++++++++
>   5 files changed, 2517 insertions(+)
>   create mode 100644 Documentation/devicetree/bindings/soc/mediatek/mtk-svs.yaml
>   create mode 100644 drivers/soc/mediatek/mtk-svs.c
> 
>