Return-Path: Received: (majordomo@vger.kernel.org) by vger.kernel.org via listexpand id S1751847AbaLRBKs (ORCPT ); Wed, 17 Dec 2014 20:10:48 -0500 Received: from v094114.home.net.pl ([79.96.170.134]:49963 "HELO v094114.home.net.pl" rhost-flags-OK-OK-OK-OK) by vger.kernel.org with SMTP id S1751452AbaLRBKo (ORCPT ); Wed, 17 Dec 2014 20:10:44 -0500 From: "Rafael J. Wysocki" To: Laurent Pinchart Cc: Tomasz Figa , Ulf Hansson , Kevin Hilman , "open list:ARM/Rockchip SoC..." , "linux-pm@vger.kernel.org" , "linux-arm-kernel@lists.infradead.org" , "linux-kernel@vger.kernel.org" , iommu@lists.linux-foundation.org, Len Brown , Pavel Machek , Heiko Stuebner , Joerg Roedel , Geert Uytterhoeven , Sylwester Nawrocki , Daniel Kurtz Subject: Re: [RFC PATCH 2/2] iommu: rockchip: Handle system-wide and runtime PM Date: Thu, 18 Dec 2014 02:32:30 +0100 Message-ID: <1727491.gphUuq12bL@vostro.rjw.lan> User-Agent: KMail/4.11.5 (Linux/3.16.0-rc5+; KDE/4.11.5; x86_64; ; ) In-Reply-To: <2249350.4v5So9DQ9Z@avalon> References: <1418286387-9663-1-git-send-email-tfiga@chromium.org> <2249350.4v5So9DQ9Z@avalon> MIME-Version: 1.0 Content-Transfer-Encoding: 7Bit Content-Type: text/plain; charset="utf-8" Sender: linux-kernel-owner@vger.kernel.org List-ID: X-Mailing-List: linux-kernel@vger.kernel.org On Wednesday, December 17, 2014 02:15:31 AM Laurent Pinchart wrote: > Hi Tomasz, > > On Tuesday 16 December 2014 11:18:33 Tomasz Figa wrote: > > On Tue, Dec 16, 2014 at 4:53 AM, Laurent Pinchart wrote: > > > On Monday 15 December 2014 11:39:01 Tomasz Figa wrote: > > >> On Sat, Dec 13, 2014 at 5:47 AM, Laurent Pinchart wrote: > > >>> On Friday 12 December 2014 13:15:51 Tomasz Figa wrote: > > >>>> On Fri, Dec 12, 2014 at 5:48 AM, Rafael J. Wysocki wrote: > > >>>>> On Thursday, December 11, 2014 04:51:37 PM Ulf Hansson wrote: > > >>>>>> On 11 December 2014 at 16:31, Kevin Hilman wrote: > > >>>>>>> [+ Laurent Pinchart] > > >>>>>>> > > >>>>>>> Tomasz Figa writes: > > >>>>>>>> On Thu, Dec 11, 2014 at 8:58 PM, Ulf Hansson wrote: > > >>>>>>> [...] > > >>>>>>> > > >>>>>>>>>> @@ -988,11 +1107,28 @@ static int rk_iommu_probe(struct > > >>>>>>>>>> platform_device *pdev) > > >>>>>>>>>> return -ENXIO; > > >>>>>>>>>> } > > >>>>>>>>>> > > >>>>>>>>>> + pm_runtime_no_callbacks(dev); > > >>>>>>>>>> + pm_runtime_enable(dev); > > >>>>>>>>>> + > > >>>>>>>>>> + /* Synchronize state of the domain with driver data. */ > > >>>>>>>>>> + pm_runtime_get_sync(dev); > > >>>>>>>>>> + iommu->is_powered = true; > > >>>>>>>>> > > >>>>>>>>> Doesn't the runtime PM status reflect the value of "is_powered", > > >>>>>>>>> thus why do you need to have a copy of it? Could it perpahps be > > >>>>>>>>> that you try to cope with the case when CONFIG_PM is unset? > > >>>>>>>> > > >>>>>>>> It's worth noting that this driver fully relies on status of other > > >>>>>>>> devices in the power domain the IOMMU is in and does not enforce > > >>>>>>>> the status on its own. So in general, as far as my understanding > > >>>>>>>> of PM runtime subsystem, the status of the IOMMU device will be > > >>>>>>>> always suspended, because nobody will call pm_runtime_get() on it > > >>>>>>>> (except the get and put pair in probe). So is_powered is here to > > >>>>>>>> track status of the domain, not the device. Feel free to suggest a > > >>>>>>>> better way, though. > > >>>>>>> > > >>>>>>> I still don't like these notifiers. I think they add ways to > > >>>>>>> bypass having proper runtime PM implemented for devices/subsystems. > > >>>>>> > > >>>>>> I do agree, but I haven't found another good solution to the > > >>>>>> problem. > > >>>>> > > >>>>> For the record, I'm not liking this mostly because it "fixes" a > > >>>>> generic problem in a way that's hidden in the genpd code and very > > >>>>> indirect. > > >>>> > > >>>> Well, that's true. This is indeed a generic problem of PM dependencies > > >>>> between devices (other than those represented by parent-child > > >>>> relation), which in fact doesn't have much to do with genpd, but > > >>>> rather with those devices directly. It is just that genpd is the most > > >>>> convenient location to solve this in current code and in a simple way. > > >>>> In other words, I see this solution as a reasonable way to get the > > >>>> problem solved quickly for now, so that we can start thinking about a > > >>>> more elegant solution. > > >>>> > > >>>>>>> From a high-level, the IOMMU is just another device inside the PM > > >>>>>>> domain, so ideally it should be doing it's own _get() and _put() > > >>>>>>> calls so the PM domain code would just do the right thing without > > >>>>>>> the need for notifiers. > > >>>>>> > > >>>>>> As I understand it, the IOMMU (or for other similar cases) > > >>>>>> shouldn't be doing any get() and put() at all because there are no > > >>>>>> IO API to serve request from. > > >>> > > >>> Speaking purely from an IOMMU point of view that's not entirely tree. > > >>> IOMMU drivers expose map and unmap operations, so they can track > > >>> whether any memory is mapped. From a bus master point of view the IOMMU > > >>> map and unmap operations are hidden by the DMA mapping API. The IOMMU > > >>> can thus track the existence of mappings without any IOMMU awareness in > > >>> the bus master driver. > > >>> > > >>> If no mapping exist the IOMMU shouldn't receive any translation > > >>> request. An IOMMU driver could thus call pm_runtime_get_sync() in the > > >>> map handler when creating the first mapping, and pm_runtime_put() in > > >>> the unmap handler when tearing the last mapping down. > > >>> > > >>> One could argue that the IOMMU would end up being powered more often > > >>> than strictly needed, as bus masters drivers, even when written > > >>> properly, could keep mappings around at times they don't perform bus > > >>> access. This is true, and that's an argument I've raised during the > > >>> last kernel summit. The general response (including Linus Torvald's) > > >>> was that micro-optimizing power management might not be worth it, and > > >>> that measurements proving that the gain is worth it are required before > > >>> introducing new APIs to solve the problem. I can't disagree with that > > >>> argument. > > >> > > >> This would be a micro optimization if the IOMMU was located in its own > > >> power domain. Unfortunately in most cases it is not, so keeping all > > >> the devices in the domain powered on, because one of them have a > > >> mapping created doesn't sound like a good idea. > > >> > > >> Moreover, most of the drivers will keep the mapping for much longer > > >> than one run cycle. Please take a look at V4L2's videobuf2 subsystem > > >> (which I guess you are more familiar with than me;)), which will keep > > >> MMAP buffers mapped in IOMMU address space for their whole lifetime. I > > >> believe similar is the case for DRM drivers. > > > > > > Yes, but that doesn't mean it gets out of control. Buffers shouldn't be > > > allocated if they won't be used. Granted, they could be preallocated (or > > > rather premapped) slightly before being used, but in sane use cases that > > > shouldn't be long before the hardware needs to be turned on. > > > > Assuming that we don't have a third party, called "user", involved. > > Who needs that ? :-D > > > A simple use case is video playback pause. Usually all the software state > > (including output buffers that can be used as reference for decoding next > > frames) needs to be preserved to continue decoding after resume, but it > > would be nice to power off the decoder, if it is unused for some period. In > > addition, we would like the pause/resume operation to be fast, so > > unmapping/freeing buffers and then exactly the opposite on resume doesn't > > sound like a good idea. > > OK, then we have one possible use case. I expect people to still want to see > power consumption numbers though. Well, we have them, kind of. In the ACPI world there's something called _DEP which gives us a list of devices depended on by the given one. Those may be devices whose drivers provide so called "operation region" handling which means that an ACPI method executed for the dependent device may access a device it depends on indirectly. Because of that indirection we basically need the devices listed by _DEP to be "on" whenever the dependent device is "on" or things may break in nasty ways otherwise. Now, on (some) Intel SoCs some devices listed by _DEP cannot be "on" all the time, because the lowest-power states of the whole SoC cannot be used then, which makes hours of battery life of a difference. This isn't exactly the same problem, but it maps to the IOMMU one quite well IMO. > You can call me annoying, but I'm not sure whether a generic PM dependency > implementation, while it could be a good idea in general, is the best solution > here, especially if the bus master and the IOMMU are in a different power > domain. The bus master could provide functions that don't require DMA access. > For instance a camera controller could feed its output to the display > directly, without going through memory. In that case we probably don't want to > power the IOMMU and its complete power domain on when using the camera > controller in that mode. That's a fair point, but it really boils down to energy usage numbers again. > One alternative solution would be to extend the DMA mapping API with two > functions to signal that DMA is about to be started and that DMA has now > finished. It might be considered too ad-hoc though. It would be better to be able to reference count the DMA engine from the bus master IMO and arguably you can use the runtime PM framework for that. Namely, give bus masters someting like pm_runtime_get_my_DMA_engine(bus_master_device) pm_runtime_put_my_DMA_engine(bus_master_device) and let them call these as they see fit. -- I speak only for myself. Rafael J. Wysocki, Intel Open Source Technology Center. -- To unsubscribe from this list: send the line "unsubscribe linux-kernel" in the body of a message to majordomo@vger.kernel.org More majordomo info at http://vger.kernel.org/majordomo-info.html Please read the FAQ at http://www.tux.org/lkml/