Re: [PATCH 3/3] soc: ti: Add ti_sci_pm_domains driver

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On 08/30/2016 03:26 PM, Ulf Hansson wrote:
On 30 August 2016 at 21:43, Dave Gerlach <d-gerlach@xxxxxx> wrote:
Jon, Ulf,

On 08/26/2016 06:37 PM, Dave Gerlach wrote:

Hi,
On 08/25/2016 02:27 AM, Ulf Hansson wrote:

+ Jon

[...]

+
+static int ti_sci_pm_domains_probe(struct platform_device *pdev)
+{
+       struct device *dev = &pdev->dev;
+       struct device_node *np = dev->of_node;
+       struct ti_sci_genpd_data *ti_sci_genpd;
+
+       ti_sci_genpd = devm_kzalloc(dev, sizeof(*ti_sci_genpd),
GFP_KERNEL);
+       if (!ti_sci_genpd)
+               return -ENOMEM;
+
+       ti_sci_genpd->ti_sci = devm_ti_sci_get_handle(dev);
+       if (IS_ERR(ti_sci_genpd->ti_sci))
+               return PTR_ERR(ti_sci_genpd->ti_sci);
+
+       ti_sci_genpd->dev = dev;
+
+       INIT_LIST_HEAD(&ti_sci_genpd->pd_list);
+       mutex_init(&ti_sci_genpd->pd_list_mutex);
+
+       return __of_genpd_add_provider(np,
of_ti_sci_genpd_xlate_onecell,
+                                      ti_sci_genpd);


Jon Hunter are working on adding robust method to be able to remove
initialized genpds [1].

In that series we intend to remove the __of_genpd_add_provider() API,
and instead only have of_genpd_add_provider_onecell() and
of_genpd_add_provider_simple(). Could you please convert to use any of
these APIs instead?


Thanks for pointing this out. I took at look at the series you've linked
and the
short answer is that I see no good way to directly convert what we've done
to
use those APIs.

On this platform each device has it's power state controlled through the
SCI
protocol described in the cover letter. The system makes a request for
powering
on or off the device using a unique ID number for each device, as provided
in
patches 1 and 2. These operations map to those of a genpd, so we decided
to do a
1:1 device to genpd mapping, where each device has it's own genpd.

The split that we took from the provided simple and onecell xlate
functions
arises from this mapping. The IDs are not necessarily linear and also they
are
not necessarily defined in a fixed way for all SoCs, they are entirely
data
driven based on the provided device ID. To make use of these IDs, I
created a
new xlate function that takes a onecell value but instead dynamically
allocates
a new genpd, at probe time, to give us a genpd that contains the necessary
SoC
specific data for that device that probed and is mapped directly to the
device.
This lets us only create the genpds we need without having to redefine a
static
list of all possible genpds and duplicate the data.

So my question back would be, how critical is it to be able to drop the
ability
to provide custom xlate functions?


After thinking about this a bit more, I believe I see a way we can use the
of_genpd_add_provider_onecell, although not optimally. The device IDs, and
therefore the genpd IDs (in the last email I mentioned we are doing a 1:1
device to genpd mapping) are fixed and defined by the hardware, and are not
linear, there can be gaps and we won't necessarily always start at 0 even
though we do on this SoC. However, we could build an array of genpds that
map to our IDs similar to how several have done it, like in
drivers/soc/bcm/raspberrypi-power.c, but because our IDs can have gaps,
there will be unused struct generic_pm_domains that get allocated and are
never touched because the index of the element doesn't correspond to a genpd
ID.

There are a couple of ways to solve your problem without having to
create one genpd instance for each of the platform devices. As a
matter of fact, I think that approach should be avoided if possible.
Genpd isn't designed for these kind purposes, even if it can be done
like that.


Yes, ok. For K2G and future devices, the kernel will just request the device over the TI_SCI protocol and the firmware will guarantee everything that it needs it on. So we thought the 1:1 device to genpd mapping made sense in that regard, but maybe it is a stretch of the framework in the wrong way.

Here are some ideas which could be used to solve the problem differently.

*)
Assuming each platform device has a driver for it!?
Then why don't you implement the ->runtime_suspend|resume() callbacks
on the driver level and call the SCI interface to power on/off the
device from there? This ought to be the most straight forward
solution.

Straightforward yes but not a realistic option as we are using shared drivers from other platforms so sticking in platform specific code won't work.



**)
You may also use genpd's (struct generic_pm_domain)
->attach|detach_dev() callbacks to create the device specific data
(the SCI device ID). The ->attach_dev() callback are invoked when a
device gets attached to its PM domain (genpd) at probe time.

Currently these callbacks are already being used by SoCs that uses the
PM clk API from a genpd client. That is needed to create the device
specific PM clock list. We would have to do something similar here for
the SCI device IDs.

Then, you must also assign/implement the ->start() and ->stop()
callbacks of the struct gpd_dev_ops, which is a part of the genpd
struct. These callbacks can then easily invoke SoC specific code/APIs
and perhaps that is the issue with my first suggested approach!?

I've taken a look at what you have suggested here and I think it could work for us, thanks for the suggestion, I will give it a shot, I think that this will work just as well from a functional perspective.



Based on the ID set provided in patch 2 of this series I see 12 gaps, so
we'd be wasting space the size of 12 genpds. The ID mapping will change on
future SoCs, so this number could be larger. Do you think this is an
acceptable solution? It allows us to play nice with the new genpd framework
changes at the cost of wasting some space allocated to filler genpds.

There are other issues as well, which mostly has do to with a
unnecessary long execution path, involving taking mutexes etc in
genpd.

All you actually need, is to be able to power on/off a device from a
driver's ->runtime_suspend|resume() callback. Don't you think?

Yes, but I thought the point of these frameworks was that they let us avoid doing it manually with platform specific code inside the drivers. I'll look at the callbacks in the genpd framework instead, that seems like a good place to do it.

Regards,
Dave


Kind regards
Uffe


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