From mboxrd@z Thu Jan 1 00:00:00 1970 Return-Path: X-Spam-Checker-Version: SpamAssassin 3.4.0 (2014-02-07) on aws-us-west-2-korg-lkml-1.web.codeaurora.org X-Spam-Level: X-Spam-Status: No, score=-2.3 required=3.0 tests=HEADER_FROM_DIFFERENT_DOMAINS, MAILING_LIST_MULTI,SPF_HELO_NONE,SPF_PASS,USER_AGENT_SANE_1 autolearn=no autolearn_force=no version=3.4.0 Received: from mail.kernel.org (mail.kernel.org [198.145.29.99]) by smtp.lore.kernel.org (Postfix) with ESMTP id 4C46BC2D0F1 for ; Wed, 1 Apr 2020 11:47:38 +0000 (UTC) Received: from vger.kernel.org (vger.kernel.org [209.132.180.67]) by mail.kernel.org (Postfix) with ESMTP id 16F0A20776 for ; Wed, 1 Apr 2020 11:47:38 +0000 (UTC) Received: (majordomo@vger.kernel.org) by vger.kernel.org via listexpand id S1732358AbgDALrh (ORCPT ); Wed, 1 Apr 2020 07:47:37 -0400 Received: from metis.ext.pengutronix.de ([85.220.165.71]:44397 "EHLO metis.ext.pengutronix.de" rhost-flags-OK-OK-OK-OK) by vger.kernel.org with ESMTP id S1726427AbgDALrg (ORCPT ); Wed, 1 Apr 2020 07:47:36 -0400 Received: from pty.hi.pengutronix.de ([2001:67c:670:100:1d::c5]) by metis.ext.pengutronix.de with esmtps (TLS1.2:ECDHE_RSA_AES_256_GCM_SHA384:256) (Exim 4.92) (envelope-from ) id 1jJbqH-0005t0-Ev; Wed, 01 Apr 2020 13:47:33 +0200 Received: from ukl by pty.hi.pengutronix.de with local (Exim 4.89) (envelope-from ) id 1jJbqG-0007Yi-HE; Wed, 01 Apr 2020 13:47:32 +0200 Date: Wed, 1 Apr 2020 13:47:32 +0200 From: Uwe =?iso-8859-1?Q?Kleine-K=F6nig?= To: Lokesh Vutla Cc: Thierry Reding , Tony Lindgren , Linux OMAP Mailing List , linux-kernel@vger.kernel.org, linux-pwm@vger.kernel.org, Sekhar Nori , Vignesh R , kernel@pengutronix.de Subject: Re: [PATCH v3 4/5] pwm: omap-dmtimer: Do not disable pwm before changing period/duty_cycle Message-ID: <20200401114732.cxy3fsluzag7pxff@pengutronix.de> References: <20200312042210.17344-1-lokeshvutla@ti.com> <20200312042210.17344-5-lokeshvutla@ti.com> <20200312064042.p7himm3odxjyzroi@pengutronix.de> <20200330141436.GG2431644@ulmo> <20200330191654.waoocllctanh5nk5@pengutronix.de> <20200331204559.GB2954599@ulmo> <20200401082227.sxtarbttsmmhs2of@pengutronix.de> MIME-Version: 1.0 Content-Type: text/plain; charset=iso-8859-1 Content-Disposition: inline Content-Transfer-Encoding: 8bit In-Reply-To: User-Agent: NeoMutt/20170113 (1.7.2) X-SA-Exim-Connect-IP: 2001:67c:670:100:1d::c5 X-SA-Exim-Mail-From: ukl@pengutronix.de X-SA-Exim-Scanned: No (on metis.ext.pengutronix.de); SAEximRunCond expanded to false X-PTX-Original-Recipient: linux-kernel@vger.kernel.org Sender: linux-kernel-owner@vger.kernel.org Precedence: bulk List-ID: X-Mailing-List: linux-kernel@vger.kernel.org On Wed, Apr 01, 2020 at 03:52:21PM +0530, Lokesh Vutla wrote: > Hi Uwe, > > On 01/04/20 1:52 PM, Uwe Kleine-König wrote: > > Hello Thierry, > > > > On Tue, Mar 31, 2020 at 10:45:59PM +0200, Thierry Reding wrote: > >> On Mon, Mar 30, 2020 at 09:16:54PM +0200, Uwe Kleine-König wrote: > >>> On Mon, Mar 30, 2020 at 04:14:36PM +0200, Thierry Reding wrote: > >>>> On Thu, Mar 12, 2020 at 07:40:42AM +0100, Uwe Kleine-König wrote: > >>>>> On Thu, Mar 12, 2020 at 09:52:09AM +0530, Lokesh Vutla wrote: > >>>>>> Only the Timer control register(TCLR) cannot be updated when the timer > >>>>>> is running. Registers like Counter register(TCRR), loader register(TLDR), > >>>>>> match register(TMAR) can be updated when the counter is running. Since > >>>>>> TCLR is not updated in pwm_omap_dmtimer_config(), do not stop the > >>>>>> timer for period/duty_cycle update. > >>>>> > >>>>> I'm not sure what is sensible here. Stopping the PWM for a short period > >>>>> is bad, but maybe emitting a wrong period isn't better. You can however > >>>>> optimise it if only one of period or duty_cycle changes. > >>>>> > >>>>> @Thierry, what is your position here? I tend to say a short stop is > >>>>> preferable. > >>>> > >>>> It's not clear to me from the above description how exactly the device > >>>> behaves, but I suspect that it may latch the values in those registers > >>>> and only update the actual signal output once a period has finished. I > >>>> know of a couple of other devices that do that, so it wouldn't be > >>>> surprising. > >>>> > >>>> Even if that was not the case, I think this is just the kind of thing > >>>> that we have to live with. Sometimes it just isn't possible to have all > >>>> supported devices adhere strictly to an API. So I think the best we can > >>>> do is have an API that loosely defines what's supposed to happen and > >>>> make a best effort to implement those semantics. If a device deviates > >>>> slightly from those expectations, we can always cross fingers and hope > >>>> that things still work. And it looks like they are. > >>>> > >>>> So I think if Lokesh and Tony agree that this is the right thing to do > >>>> and have verified that things still work after this, that's about as > >>>> good as it's going to get. > >>> > >>> I'd say this isn't for the platform people to decide. My position here > >>> is that the PWM drivers should behave as uniform as possible to minimize > >>> surprises for consumers. And so it's a "PWM decision" that is to be made > >>> here, not an "omap decision". > >> > >> I think there's a fine line to be walked here. I agree that we should > >> aim to have as much consistency between drivers as possible. At the same > >> time I think we need to be pragmatic. As Lokesh said, the particular use > >> case here requires this type of on-the-fly adjustment of the PWM period > >> without stopping and restarting the PWM. It doesn't work otherwise. So > >> th alternative that you're proposing is to say that we don't support > >> that use-case, even though it works just fine given this particular > >> hardware. That's not really an option. > > > > I understand your opinion here. The situation now is that in current > > mainline the driver stops the hardware for reconfiguration and it > > doesn't fit Lokesh's use case so he changed to on-the-fly update > > (accepting that maybe a wrong period is emitted). What if someone relies > > on the old behaviour? What if in a year someone comes and claims the > > wrong period is bad for their usecase and changes back to > > stop-to-update? > > > > When I write a consumer driver, do I have a chance to know how the PWM, > > that I happen to use, behaves? To be able to get my consumer driver > > reliable I might need to know that however. > > > >>>> I know this is perhaps cheating a little, or turning a blind eye, but I > >>>> don't know what the alternative would be. Do we want to tell people that > >>>> a given PWM controller can't be used if it doesn't work according to our > >>>> expectations? That's hard to argue if that controller works just fine > >>>> for all known use-cases. > >>> > >>> I'd like have some official policy here which of the alternatives is the > >>> preferred cheat. > >>> > >>> The situation here is that period and duty_cycle cannot be updated > >>> atomically. So the two options are: > >>> > >>> - stop shortly > >>> - update with hardware running and maybe emit a broken period > >> > >> I think we can already support both of those with the existing API. If > >> a consumer wants to stop the PWM while reconfiguring, they should be > >> able to do pwm_enable(), pwm_config(), pwm_enable() (or the atomic > >> equivalent) and for the second case they can just do pwm_config() (or > >> the atomic equivalent). > > > > Yes, the consumer can force the stop and update. But assume I'm "only" a > > consumer driver author and I want: atomic update and if this is not > > possible I prefer "stop-to-update" over "on-the-fly-and-maybe-faulty". > > So I cannot benefit from a good driver/hardware that can do atomic > > updates? Or I have to patch each driver that I actually use to use > > stop-to-update? > > > >> Some hardware may actually require the PWM to be disabled before > >> reconfiguring, so they won't be able to strictly adhere to the second > >> use-case. > >> > >> But as discussed above, I don't want to strive for a lowest common > >> denominator that would preclude some more specific use-cases from > >> working if the hardware supports it. > >> > >> So I think we should aim for drivers to implement the semantics as > >> closely as possible. If the hardware doesn't support some of these > >> requirements strictly while a particular use-case depends on that, then > >> that just means that the hardware isn't compatible with that use-case. > >> Chances are that the system just isn't going to be designed to support > >> that use-case in the first place if the hardware can't do it. > >> > >> The sysfs interface is a bit of a special case here because it isn't > >> possible to know what use-cases people are going to come up with. > > > > In my eyes the sysfs interface isn't special here. You also don't know > > what the OMAP PWM hardware is used for. > > > >> It's most likely that they'll try something and if it doesn't work > >> they can see if a driver patch can improve things. > > > > So either the group who prefers "stop-to-update" or the group who > > prefers "on-the-fly-and-maybe-faulty" has to carry a system specific > > driver patch? > > > >> One possible extension that I can imagine would be to introduce some > >> sort of capability structure that drivers can fill in to describe the > >> behaviour of the hardware. Drivers like pwm-omap-dmtimer, for example, > >> could describe that they are able to change the period and/or duty cycle > >> while the PWM is on. There could be another capability bit that says > >> that the current period will finish before new settings are applied. Yet > >> another capability could describe that duty-cycle and period can be > >> applied atomically. Consumers could then check those capabilities to see > >> if they match their requirements. > >> > >> But then again, I think that would just make things overly complicated. > >> None of the existing consumers need that, so it doesn't seem like there > >> is much demand for that feature. In practice I suspect most consumers > >> work fine despite potentially small deviations in how the PWM behaves. > > > > I think the status quo is what I asked about above: People use sysfs and > > if the PWM behaves different than needed, the driver is patched and most > > of the time not mainlined. If your focus is to support a certain > > industrial system with a defined use case, this is fine. If however you > > target for an universal framework that works for any combination of > > consumer + lowlevel driver without patching (that at least is able to > > diagnose: This PWM cannot provide what my consumer needs), this is bad. > > Also this means that whenever a system designer changes something on > > their machine (kernel update, different hardware, an new usecase for a > > PWM) they might have to reverify if the given PWM driver behaves as > > needed. > > > > My suggestion for now is to start documenting how the drivers behave > > expanding how limitations are documented in some drivers. So maybe > > change from "Limitations" to "Implementation and Hardware Details"? > > Does it help if a new DT property is introduced across PWM subsystem, > representing dynamic period/duty-cycle updates. Based on this property driver > can handle the updates. If the property is not present existing behaviour can be > restored. This way based on the use-case things can be changed and need not > patch the driver :). Does this sound good or you have other thoughts? That's something that I'd rather see in the pwm API. (Either by a rule that drivers should prefer one or the other, or by making it configurable.) IMHO this property doesn't belong into the hardware description as it is a software property. That's not constructive though as I don't have an idea how to map this into the API. Best regards Uwe -- Pengutronix e.K. | Uwe Kleine-König | Industrial Linux Solutions | https://www.pengutronix.de/ |