On Mon, Feb 06, 2023 at 07:48:23PM +0200, Abel Vesa wrote: > > CC'ed Saravana > > On 23-02-06 17:22:23, Matthias Kaehlcke wrote: > > On Mon, Feb 06, 2023 at 06:31:21PM +0200, Abel Vesa wrote: > > > On 23-02-02 18:24:15, Matthias Kaehlcke wrote: > > > > Hi Abel, > > > > > > > > On Fri, Jan 27, 2023 at 12:40:53PM +0200, Abel Vesa wrote: > > > > > Currently, there are cases when a domain needs to remain enabled until > > > > > the consumer driver probes. Sometimes such consumer drivers may be built > > > > > as modules. Since the genpd_power_off_unused is called too early for > > > > > such consumer driver modules to get a chance to probe, the domain, since > > > > > it is unused, will get disabled. On the other hand, the best time for > > > > > an unused domain to be disabled is on the provider's sync_state > > > > > callback. So, if the provider has registered a sync_state callback, > > > > > assume the unused domains for that provider will be disabled on its > > > > > sync_state callback. Also provide a generic sync_state callback which > > > > > disables all the domains unused for the provider that registers it. > > > > > > > > > > Signed-off-by: Abel Vesa <abel.vesa@xxxxxxxxxx> > > > > > --- > > > > > > > > > > This approach has been applied for unused clocks as well. > > > > > With this patch merged in, all the providers that have sync_state > > > > > callback registered will leave the domains enabled unless the provider's > > > > > sync_state callback explicitly disables them. So those providers will > > > > > need to add the disabling part to their sync_state callback. On the > > > > > other hand, the platforms that have cases where domains need to remain > > > > > enabled (even if unused) until the consumer driver probes, will be able, > > > > > with this patch in, to run without the pd_ignore_unused kernel argument, > > > > > which seems to be the case for most Qualcomm platforms, at this moment. > > > > > > > > I recently encountered a related issue on a Qualcomm platform with a > > > > v6.2-rc kernel, which includes 3a39049f88e4 ("soc: qcom: rpmhpd: Use > > > > highest corner until sync_state"). The issue involves a DT node with a > > > > rpmhpd, the DT node is enabled, however the corresponding device driver > > > > is not enabled in the kernel. In such a scenario the sync_state callback > > > > is never called, because the genpd consumer never probes. As a result > > > > the Always-on subsystem (AOSS) of the SoC doesn't enter sleep mode during > > > > system suspend, which results in a substantially higher power consumption > > > > in S3. > > > > > > If I get this correctly, one of the providers is missing (doesn't matter > > > the reason), in which case, your kernel needs that driver, period. There > > > is no reason why you would expect the consumer to work without the > > > provider. Or, you could just remove the property in the devicetree node, > > > the property that makes the consumer wait for that provider. Anyway, you > > > should never end up with a consumer provider relationship in devicetree > > > without providing the provider driver. > > > > I would agree if it was actually a provider that's missing, however it's a > > 'missing' consumer that prevents the sync_state() call. > > Oh, my bad. > > Still, why would you keep the consumer node enabled in devicetree if you don't > intend to allow its driver to ever probe? As Doug pointed out, the device tree is supposed to describe the hardware, but that shouldn't impose a user/admin/downstream maintainer to use every single existing piece of hardware with the potential power implications on battery powererd devices. I someone uses an off the shelf board like a Raspberry Pi for a project in which they only use a subset of the functionality, they would be forced to use a downstream device tree if they can't just disable the drivers they are not interested in. Supposedly we want people/companies to use upstream kernels as much as possible, however you suggest to adapt the device tree in a way that does not describe the hardware, which effectively forces folks to user downstream kernels (or at least device trees). > > > > I wonder if genpd (and some other frameworks) needs something like > > > > regulator_init_complete(), which turns off unused regulators 30s after > > > > system boot. That's conceptually similar to the current > > > > genpd_power_off_unused(), but would provide time for modules being loaded. > > > > > > NACK, timeouts are just another hack in this case, specially when we > > > have a pretty reliable mechanism like sync_state. > > > > It does not work properly unless all consumers are probed successfully. It > > makes sense to wait some time for the consumers to probe, but not eternally, > > it's perfectly valid that a driver for a (potential) consumer is not enabled. > > Usually, if you have a consumer devicetree node that you consider it > should not probe, you should consider disabling that node in your board > dts, specially if you don't intend to provide its driver. Nope, the device tree is supposed to describe the hardware and the hardware doesn't change because a particular use case doesn't require/want the use of all existing parts. > Again, timeouts are bad all-around. What happens if rootfs doesn't get > mounted in time? Will 30 seconds be enough for every scenario? What > happens if I want to load the driver (module) for a consumer a day after boot? I am not sure if I have a complete/correct picture here. My understanding is that sync_state is above all used for handing over critical hardware from the bootloader to the kernel. For example the CPUs may require clocks and interconnects to run at a certain speed during boot, before they are 'probed' and can ask the provider to run the resource (at least) at a certain speed. I would expect that drivers on the roots aren't critical for the system to enter the rootfs, all these should be either built-in or as modules on an initramfs. Let's say we have an audio driver that uses a clock (provider) and this audio driver lives as a modules on the rootfs. For some reason our rootfs takes a long time to mount and sync_state() of the clock provider is called, due to the timeout we introduced. The provider determines that it hasn't received any requests for the audio clock and disables it. Now finally the rootfs is mounted and out audio module is loaded. The audio device probes, gets the clock and asks the provider to run it at certain speed. The clock provider puts the clock at the requested speed and audio works as if the sync_state timeout never happened. Am I missing/misunderstanding anything important? > IMHO, I think even the regulator_init_complete should be switched to some sync > state approach. Maybe, with a timeout :)