Re: [PATCH v5 02/10] dt-bindings: introduce RPMH RSC bindings for Qualcomm SoCs

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On Fri, Apr 13 2018 at 16:40 -0600, Stephen Boyd wrote:
Quoting Lina Iyer (2018-04-11 14:24:31)
On Wed, Apr 11 2018 at 09:29 -0600, Stephen Boyd wrote:
>Quoting Lina Iyer (2018-04-09 09:08:00)
>> On Fri, Apr 06 2018 at 19:14 -0600, Stephen Boyd wrote:
>> >Quoting Lina Iyer (2018-04-05 09:18:26)
>> >> diff --git a/Documentation/devicetree/bindings/soc/qcom/rpmh-rsc.txt b/Documentation/devicetree/bindings/soc/qcom/rpmh-rsc.txt
>> >> new file mode 100644
>> >> index 000000000000..dcf71a5b302f
>> >> --- /dev/null
>> >> +++ b/Documentation/devicetree/bindings/soc/qcom/rpmh-rsc.txt
>> >> @@ -0,0 +1,127 @@
>> >> +
>> >> +Example 1:
>> >> +
>> >> +For a TCS whose RSC base address is is 0x179C0000 and is at a DRV id of 2, the
>> >> +register offsets for DRV2 start at 0D00, the register calculations are like
>> >> +this -
>> >> +First tuple: 0x179C0000 + 0x10000 * 2 = 0x179E0000
>> >> +Second tuple: 0x179E0000 + 0xD00 = 0x179E0D00
>> >> +
>> >> +       apps_rsc: rsc@179e000 {
>> >> +               label = "apps_rsc";
>> >> +               compatible = "qcom,rpmh-rsc";
>> >> +               reg = <0x179e0000 0x10000>, <0x179e0d00 0x3000>;
>> >
>> >The first reg property overlaps the second one. Does this second one
>> >ever move around? I would hardcode it in the driver to be 0xd00 away
>> >from the drv base instead of specifying it in DT if it's the same all
>> >the time.
>> >
>> >Also, the example shows 0x179c0000 which I guess is the actual beginning
>> >of the RSC block. So the binding seems to be for one DRV inside of an
>> >RSC. Can we get the full description of the RSC in the binding instead?
>> >I imagine that means there's a DRV0,1,2 and those probably have an
>> >interrupt per each DRV and then a different TCS config per each one too?
>> >If the binding can describe all of the RSC then we can use different
>> >DRVs by changing the qcom,drv-id property.
>> >
>> >       rsc@179c0000 {
>> >               compatible = "qcom,rpmh-rsc";
>> >               reg = <0x179c0000 0x10000>,
>> >                     <0x179d0000 0x10000>,
>> >                     <0x179e0000 0x10000>;
>> >               qcom,tcs-offset = <0xd00>;
>> >               qcom,drv-id = <0/1/2>;
>> >               interrupts = <GIC_SPI 3 IRQ_TYPE_LEVEL_HIGH>,
>> >                            <GIC_SPI 4 IRQ_TYPE_LEVEL_HIGH>,
>> >                            <GIC_SPI 5 IRQ_TYPE_LEVEL_HIGH>;
>> >       }
>> >
>> >This is sort of what I imagine it would look like. I have no idea how
>> >the tcs config would work unless each DRV has the same TCS config
>> >though. Otherwise, if each node is for a drv, then I would expect the
>> >node would be called 'drv' and we wouldn't need the drv-id property and
>> >the compatible string would say drv instead of rsc?
>> >
>> >BTW, what are the other DRVs used for in the apps RSC?
>> >
>> The DRV is the voter for an execution environment (Linux, Hypervisor,
>> ATF) in the RSC. The RSC has a lot of other registers that Linux is not
>> privy to. They are access restricted.
>
>Alright. Well sometimes access restrictions aren't there, so this isn't
>a good assumption to make.
>
>> The memory organization of the RSC
>> mandates that we know the DRV id to access registers specific to the
>> DRV.
>
>I think qcom,drv-id covers that, no?
>
>> Unfortunately, not all RSC have identical DRV configuration and the
>> register space is also variable depending on the capability of the RSC.
>> There are functionalities supported by other RSCs in the SoC that are
>> not supported by the RSC associated with the application processor,
>> while not many RSCs' support multiple DRVs. Therefore it doesn't benefit
>> describing the whole RSC as it is not usable from Linux (because of
>> access restrictions).
>
>If we're not describing the whole RSC in the RSC binding then we're not
>going to get very far. From what I can tell, this binding describes one
>DRV inside of an RSC instead of the whole RSC. Yes we'll probably never
>use the ATF part of the RSC in Linux, but we may use the hypervisor part
>if we use KVM/Xen so the binding should be describing as much as it can
>about this device in case some software needs to use it.
>
The RSC is pretty much this. A set of registers that are RSC specific at
the address pointed to by the "rsc" reg and the TCS regsiters pointed to
by the "tcs" reg. You do not want to clobber multiple DRVs into the same
device node. It will be a lot confusing for the drivers to determine
which DRV to vote.

Well it seems like an RSC contains many DRVs and those DRVs contain many
TCSes. This is what I get after talking with Bjorn on IRC.

	+--------------------------------------------------+ (0x00000)
	|                                                  |
	|                  DRV #0                          |
	|                                                  |
	|----------                          --------------| (tcs-offset (0xd00))
	|                  DRV0_TCS0                       |
	|                common space                      |
	|                cmd sequencer                     | 0xd00 + 0x14
	|                                                  |
	|                  DRV0_TCS1                       |
	|                common space                      | 0xd00 + 0x2a0
	|                cmd sequencer                     | 0xd00 + 0x2a0 + 0x14
	|                                                  |
	|                  DRV0_TCS2                       |
	|                                                  |
	|                                                  |
	+--------------------------------------------------+ (0x10000)
	|                                                  |
	|                  DRV #1                          |
	|                                                  |
	|----------                          --------------| (tcs-offset)
	|                  DRV1_TCS0                       |
	|                  DRV1_TCS1                       |
	|                  DRV1_TCS2                       |
	+--------------------------------------------------+ (0x20000)
	|                                                  |
	|                  DRV #2                          |
	|                                                  |
	|----------                          --------------|
	|                  DRV2_TCS0                       |
	|                  DRV2_TCS1                       |
	|                  DRV2_TCS2                       |
	|                  DRV2_TCS3                       |
	|                  DRV2_TCS4                       |
	|                  DRV2_TCS5                       |
	+--------------------------------------------------+

I think I understand it now. There aren't any "RSC common" registers
that are common to the entire RSC. Instead, everything goes into a DRV,
or into a common TCS space, or into a TCS "queue".

>Put another way, even if the "apps" RSC is complicated, we should be
>describing it to the best of our abilities in the binding so that when
>it is used by non-linux OSes things still work by simply tweaking the
>drv-id that we use to pick the right things out of the node.
>
>Or we're describing the RSC but it's really a container node that
>doesn't do much besides hold DRVs? So this is described at the wrong
>level?
What we are describing is a DRV, but a standalone DRV alone is useless
without the necessary RSC registers. So its a unique RSC+DRV combination
that is represented here.


If my understanding is correct up there then the binding could either
describe a single RSC DRV, or it could describe all the RSC DRV
instances and interrupts going into the RSC "block" and then we can use
drv-id to pick the offset we jump to.

Your understanding is correct.

I imagine we don't have any practical use-case for the entire RSC space
because there aren't any common RSC registers to deal with.
Not true.

So we've
boiled this all down to describing one DRV and then I wonder why we care
about having drv-id at all? It looks to be used to check for a max
number of TCS, but that's already described by DT so it doesn't seem
very useful to double check what the hardware can tells us.

There is also a number of commands per TCS (NCPT), that may way vary
between different RSCs. The RSC of the application processor has 16
commands in each TCS, but that is variable. I am not saying it cannot be
described in DT, but it is something I read from the common RSC
registers, currently.
Also, I will using common/DRV0 registers to write wakeup time value,
when the processor subsystem goes into power down. This is not DRV2
register, but is a DRV0 register that we will have special access to.
The patches for those I intend to publish, when we have support for
sleep/suspend with this new architecture. So the address of the start of
the RSC (=DRV0) is necessary.

Long story short, we can remove drv-id and just describe drvs by
themselves?
Yes, we may. As long as I have a way to describe the register addresss
of the start of the DRV (0x20000 for DRV#2)  and the tcs-offset (0xd00),
we can work with the RSC-DRV in the driver.

Thanks,
Lina

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