Re: [RFCv3 0/6] TI camera serdes and I2C address translation (Was: [RFCv3 0/6] Hi,)

[Tomi Valkeinen]

Hi,

On 08/02/2022 08:40, Vaittinen, Matti wrote:
> Morning Tomi,
>
> On 2/7/22 18:23, Tomi Valkeinen wrote:
> > On 07/02/2022 16:38, Vaittinen, Matti wrote:
> > > Hi again Luca,
> > >
> > > On 2/7/22 16:07, Luca Ceresoli wrote:
> > > > Hi Matti,
> > > >
> > > > On 07/02/22 14:21, Vaittinen, Matti wrote:
> > > > > Hi dee Ho peeps,
> > > > >
> > > > > On 2/7/22 14:06, Tomi Valkeinen wrote:
> > > > > > Hi Luca,
> > > > > >
> > > > > > On 06/02/2022 13:59, Luca Ceresoli wrote:
> > > > > > > this RFCv3, codename "FOSDEM Fries", of RFC patches to support the TI
> > > > > > > DS90UB9xx serializer/deserializer chipsets with I2C address
> > > > > > > translation.
> > > > >
> > > > >
> > > > > I am not sure if I am poking in the nest of the wasps - but there's one
> > > > > major difference with the work I've done and with Toni's / Luca's work.
> > > >
> > > > You are. ;)
> > > >
> > > > > The TI DES drivers (like ub960 driver) packs pretty much everything
> > > > > under single driver at media/i2c - which (in my opinion) makes the
> > > > > driver pretty large one.
> > > > >
> > > > > My approach is/was to utilize MFD - and prepare the regmap + IRQs in
> > > > > the
> > > > > MFD (as is pretty usual) - and parse that much of the device-tree that
> > > > > we see how many SER devices are there - and that I get the non I2C
> > > > > related DES<=>SER link parameters set. After that I do kick alive the
> > > > > separate MFD cells for ATR, pinctrl/GPIO and media.
> > > > >
> > > > > The ATR driver instantiates the SER I2C devices like Toni's ub960 does.
> > > > > The SER compatible is once again matched in MFD (for SER) - which again
> > > > > provides regmap for SER, does initial I2C writes so SER starts
> > > > > responding to I2C reads and then kicks cells for media and
> > > > > pinctrl/gpio.
> > > > >
> > > > > I believe splitting the functionality to MFD subdevices makes drivers
> > > > > slightly clearer. You'll get GPIOs/pinctrl under pinctrl as usual,
> > > > > regmaps/IRQ-chips under MFD and only media/v4l2 related parts under
> > > > > media.
> > > >
> > > > There has been quite a fiery discussion about this in the past, you can
> > > > grab some popcorn and read
> > > > https://lore.kernel.org/linux-media/20181008211205.2900-1-vz@xxxxxxxxx/T/#m9b01af81665ac956af3c6d57810239420c3f8cee
> > > >
> > > >
> > > > TL;DR: there have been strong opposition the the MFD idea.
> > >
> > > Hm. I may be missing something but I didn't see opposition to using MFD
> > > or splitting the drivers. I do see opposition to adding _functionality_
> > > in MFD. If I read this correctly, Lee did oppose adding the I2C stuff,
> > > sysfs attributes etc in MFD. Quoting his reply:
> > >
> > > "This driver does too much real work ('stuff') to be an MFD driver.
> > > MFD drivers should not need to care of; links, gates, modes, pixels,
> > > frequencies maps or properties.  Nor should they contain elaborate
> > > sysfs structures to control the aforementioned 'stuff'.
> > >
> > > Granted, there may be some code in there which could be appropriate
> > > for an MFD driver.  However most of it needs moving out into a
> > > function driver (or two)."
> > >
> > > And I tend to agree with Lee here. I would not put I2C bridge stuff or
> > > sysfs attributes in MFD. But I think it does not mean SERDESes should
> > > not use MFD when they clearly contain more IP blocks than the
> > > video/media ones :) I am confident Lee and others might be much more
> > > welcoming for driver which simply configures regmap and kicks subdriver
> > > for doing the ATR / I2C stuff.
> >
> > I admit that I don't know MFD drivers too well, but I was thinking about
> > this some time back and I wasn't quite sure about using MFD here.
> >
> > My thinking was that MFD is fine and good when a device contains more or
> > less independent functionalities, like a PMIC with, say, gpios and
> > regulators, both of which just work as long as the PMIC is powered up.
> >
> > Here all the functionalities depend on the link (fpdlink or some other
> > "link" =), and the serializers. In other words, the link status or any
> > changes to the link or the serializers might affect the GPIO/I2C/IRQ
> > functionalities.
>
> My use case has been such that once the link between DES &  SER
> established, it should not go away. If it does it is some kind of an
> error and there is no recovery mechanims (at least not yet). Hence I
> haven't prepared full solution how to handle dropping/re-connecting the
> link or re-initializing des/ser/slaves.
>
> > So, I don't have any clear concern here. Just a vague feeling that the
> > functionalities in this kind of devices may be more tightly tied
> > together than in normal MFDs. I could be totally wrong here.
>
> I can't prove you're wrong even if that would be so cool :p
>
> I guess a lot of this boils down how the SER behaves when link is
> dropped. Does it maintain the configuration or reset to some other
> state? And what happens on des & what we need to do in order to reconnect.
>
> My initial feeling is that the DES should always be available as it is
> directly connected to I2C. So DES should always be there.

Yes, I don't see how DES would be affected. But all the services offered 
by the MFDs are behind the link.

> Access to SERs and the devices on remote buses is naturally depending on
> the link. So dropping the link means access to SERs and remote devices
> start failing - which is probably visible to the MFD sub-devices as
> failing regmap accesses. This needs then appropriate handling.

I was also thinking about cases like BIST or link-analysis which 
temporarily affect the link. They're not errors, but I guess from MFD's 
point of view they could be handled the same way (whatever that way is).

> After that being said, I think we can't get over this problem even when
> not using MFD. As far as I read your code, the SER and DES have
> independent drivers also when MFD is not used. So dropping the link is
> still someting that pulls the legs from the SER, right? I also guess the
> remote I2C devices like sensors are also implemented as independent drivers.

That's true. I don't think the problem is really different with or 
without MFDs. My thinking was just that it's easier to manage all the 
problem cases if there are no walls between the components.

> Well, (I hope) I'll see where I end up with my code... It really makes
> this discussion a bit dull when I can't just show the code for
> comparison :/ I don't (yet) see why the MFD approach could not work, and
> I still think it's worth trying - but I now certainly understand why you
> hesitated using MFD. Thanks for taking the time to explain this to me.

I don't think MFD approach could not work. I just don't see why to use 
it here.

I'm curious, why do you think using MFDs makes the driver so much 
cleaner? The current fpdlink driver is in one file, but, say, if we 
split it to multiple files, based on the function, while still keeping 
it as a single driver, would that be so much different from an MFD 
solution? Is there something in the MFD approach that makes the code 
simpler?

 Tomi