[RFC PATCH v3 2/2] clk: exynos5420: Make sure MDMA0 clock is enabled during suspend
Abhilash Kesavan
kesavan.abhilash at gmail.com
Thu Apr 2 05:22:24 PDT 2015
Hi,
On Thu, Apr 2, 2015 at 4:01 AM, Javier Martinez Canillas
<javier.martinez at collabora.co.uk> wrote:
> Hello Sylwester,
>
> On 04/01/2015 07:31 PM, Sylwester Nawrocki wrote:
>> On 01/04/15 13:44, Javier Martinez Canillas wrote:
>>> On 04/01/2015 01:03 PM, Sylwester Nawrocki wrote:
>>>> It's not clear what subsystems affect state of the CG_STATUSx registers, it
>>>> would be good if we could get more information on that. They are in the PMU
>>>> block and are related to LPI (Low Power Interface handshaking), but what
>>>> subsystems/peripheral blocks exactly are associated with them it's not clear
>>>> from the documentation.
>>>
>>> Yes, I've been looking at the docs again and found out a couple of things:
>>>
>>> * Each GC_STATUSx register bit is associated with an IP hw block
>>> * Some LPI_MASKx registers maps exactly with the GC_STATUSx (i.e: 0 and 1)
>>> and others maps only partially (i.e: LPI_MASK2 and GC_STATUS2)
>>
>> The CG_STATUSx and LPI_MASKx bits meaning is not matching according to
>> documentation I have. I guess you've got something newer than REV0.00?
>>
>
> My Exynos5420 UM is Revision 1.00 dated February 2014 and GC_STATUS0 bits
> maps LPI_MASK0 with the exception of bit 16 (NR3D) that is not mentioned
> in GC_STATUS0, there is a hole between 15 (DIS) and 17 (FIMC_SCALERP).
>
> GC_STATUS1 maps exactly with LPI_MASK1 and GC_STATUS2 and LPI_MASK2 have
> the same bits from 0 to 5 and then differ from there.
>
>>> So it is related to LPI as you said and both LPI_MASKx and GC_STATUSx are
>>> part of the PMU register address space.
>>>
>>> In the particular case of aclk266_g2d, the doc says that the clock can only
>>> be gated when CG_STATUS0[20] and CG_STATUS0[21] are 0. These are associated
>>> with the SSS and SSS_SLIM respectively which AFAIU are crypto h/w modules.
>>
>> In my Exynos5420 UM ACLK_266_G2D is associated with CG_STATUS0 register
>> bits 22, 21, which in turn correspond to NR3D and DIS IP blocks, i.e.
>> the camera subsystem. Such a dependency would be rather surprising.
>>
>
> Sorry, it was a typo error and I actually meant CG_STATUS0 21 and 22 but
> these correspond in the documentation I've to 21 (SSS) and 22 (SSS_SLIM).
>
> As I mentioned before, DIS correspond to CG_STATUS0 15 and NR3D doesn't
> have a corresponding bit in CG_STATUS0. But I don't know if that is an
> error in the doc I've since is suspicious that is the only difference
> between LPI_MASK0 and CG_STATUS0.
>
>>>> I think it's essential to understand what triggers changes in CG_STATUSx
>>>> registers, before we start checking their value in the clock driver.
>>>>
>>>
>>> Indeed, we should really understand what the status on these registers
>>> means. Also is not clear from the docs how much time should be waited,
>>> how long until giving up, etc.
>>
>> Exactly, I checked some kernels from http://opensource.samsung.com
>> (e.g. SM-N900_JB_Opensource.zip) for CG_STATUSx, but I didn't find anything
>> related to these registers yet, except the address macro definitions
>> and debug traces in the power domains driver.
>>
>
> Yes, I also looked in the ChromiumOS v3.8 kernel but didn't find anything.
>
>>>> Also it might be that there are indeed some clocks which must stay enabled
>>>> over suspend/resume cycle, then the approach with enabling/disabling clocks
>>>> in the clock driver might not be such a hack as it looks at first sight.
>>>>
>>>
>>> Having a clock driver to both a provider and consumer feels hacky to me as
>>> well but I didn't find a better way to solve this issue... another option
>>> is to have this workaround to solve the S2R issue while we figure out what
>>> the the state in the CG_STATUSx really mean.
>>
>> Let's try to diagnose the issue best we can, then we would choose the most
>> accurate bug fix.
>>
>
> Sounds good to me.
Based on the earlier comments I was trying to isolate if:
1) s2r fails because we gate aclk266_g2d (but it is one of those
clocks that needs to be always on prior to suspend).
2) s2r fails because we gate aclk266_g2d when CG_STATUS0[21:20] bits
are not 0 (thus not following the spec).
As I did not have access to the hardware guys who could possibly
confirm 1), I decided to
a) find a configuration where CG_STATUS0 allows gating of the
aclk266_g2d clock (i.e. CG_STATUS0[22:21] are 0).
b) disable the aclk266_g2d clock using such a configuration.
c) check s2r.
I found a configuration [1] which gave the following after boot-up:
# devmem 0x10040914
0xFD800014 (CG_STATUS0[22:21] is 0)
# devmem 0x10020700
0xC6F8DE9F (aclk266_g2d is enabled)
At this point s2r works.
I rebooted the board with the same config as above and then disabled
aclk266_g2d.
# devmem 0x10020700 32 0xC6F8DE9D
# devmem 0x10020700
0xC6F8DE9D (aclk266_g2d is disabled)
# devmem 0x10040914
0xFD800014
and tried s2r - It fails.
>From the results, disabling the clock seems to cause the issue rather
than the CG_STATUS violation. This is all a little confusing, so
please let me know if I have missed something.
Regards,
Abhilash
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