[...] > >>>> We have three components comprising PM on Tegra: > >>>> > >>>> 1. Power gate > >>>> 2. Clock state > >>>> 3. Voltage state > >>>> > >>>> GENPD on/off represents the 'power gate'. > >>>> > >>>> Clock and reset are controlled by device drivers using clk and rst APIs. > >>>> > >>>> Voltage state is represented by GENPD's performance level. > >>>> > >>>> GENPD core assumes that at a first rpm-resume of a consumer device, its > >>>> genpd_performance=0. Not true for Tegra because h/w of the device is > >>>> preconfigured to a non-zero perf level initially, h/w may not support > >>>> zero level at all. > >>> > >>> I think you may be misunderstanding genpd's behaviour around this, but > >>> let me elaborate. > >>> > >>> In genpd_runtime_resume(), we try to restore the performance state for > >>> the device that genpd_runtime_suspend() *may* have dropped earlier. > >>> That means, if genpd_runtime_resume() is called prior > >>> genpd_runtime_suspend() for the first time, it means that > >>> genpd_runtime_resume() will *not* restore a performance state, but > >>> instead just leave the performance state as is for the device (see > >>> genpd_restore_performance_state()). > >>> > >>> In other words, a consumer driver may use the following sequence to > >>> set an initial performance state for the device during ->probe(): > >>> > >>> ... > >>> rate = clk_get_rate() > >>> dev_pm_opp_set_rate(rate) > >>> > >>> pm_runtime_enable() > >>> pm_runtime_resume_and_get() > >>> ... > >>> > >>> Note that, it's the consumer driver's responsibility to manage device > >>> specific resources, in its ->runtime_suspend|resume() callbacks. > >>> Typically that means dealing with clock gating/ungating, for example. > >>> > >>> In the other scenario where a consumer driver prefers to *not* call > >>> pm_runtime_resume_and_get() in its ->probe(), because it doesn't need > >>> to power on the device to complete probing, then we don't want to vote > >>> for an OPP at all - and we also want the performance state for the > >>> device in genpd to be set to zero. Correct? > >> > >> Yes > >> > >>> Is this the main problem you are trying to solve, because I think this > >>> doesn't work out of the box as of today? > >> > >> The main problem is that the restored performance state is zero for the > >> first genpd_runtime_resume(), while it's not zero from the h/w perspective. > > > > This should not be a problem, but can be handled by the consumer driver. > > > > genpd_runtime_resume() calls genpd_restore_performance_state() to > > restore a performance state for the device. However, in the scenario > > you describe, "gpd_data->rpm_pstate" is zero, which makes > > genpd_restore_performance_state() to just leave the device's > > performance state as is - it will *not* restore the performance state > > to zero. > > > > To make the consumer driver deal with this, it would need to call > > dev_pm_opp_set_rate() from within its ->runtime_resume() callback. > > > >> > >>> There is another concern though, but perhaps it's not a problem after > >>> all. Viresh told us that dev_pm_opp_set_rate() may turn on resources > >>> like clock/regulators. That could certainly be problematic, in > >>> particular if the device and its genpd have OPP tables associated with > >>> it and the consumer driver wants to follow the above sequence in > >>> probe. > >> > >> dev_pm_opp_set_rate() won't enable clocks and regulators, but it may > >> change the clock rate and voltage. This is also platform/driver specific > >> because it's up to OPP user how to configure OPP table. On Tegra we only > >> assign clock to OPP table, regulators are unused. > >> > >>> Viresh, can you please chime in here and elaborate on some of the > >>> magic happening behind dev_pm_opp_set_rate() API - is there a problem > >>> here or not? > >>> > >>>> > >>>> GENPD core assumes that consumer devices can work at any performance > >>>> level. Not true for Tegra because voltage needs to be set in accordance > >>>> to the clock rate before clock is enabled, otherwise h/w won't work > >>>> properly, perhaps clock may be unstable or h/w won't be latching. > >>> > >>> Correct. Genpd relies on the callers to use the OPP framework if there > >>> are constraints like you describe above. > >>> > >>> That said, it's not forbidden for a consumer driver to call > >>> dev_pm_genpd_set_performance_state() directly, but then it better > >>> knows exactly what it's doing. > >>> > >>>> > >>>> Performance level should be set to 0 while device is suspended. > >>> > >>> Do you mean system suspend or runtime suspend? Or both? > >> > >> Runtime suspend. > > > > Alright. So that's already taken care of for us in genpd_runtime_suspend(). > > > > Or perhaps you have discovered some problem with this? > > > >> > >>>> Performance level needs to be bumped on rpm-resume of a device in > >>>> accordance to h/w state before hardware is enabled. > >>> > >>> Assuming there was a performance state set for the device when > >>> genpd_runtime_suspend() was called, genpd_runtime_resume() will > >>> restore that state according to the sequence you described. > >> > >> What do you think about adding API that will allow drivers to explicitly > >> set the restored performance state of a power domain? > >> > >> Another option could be to change the GENPD core, making it to set the > >> rpm_pstate when dev_pm_genpd_set_performance_state(dev) is invoked and > >> device is rpm-suspended, instead of calling the > >> genpd->set_performance_state callback. > >> > >> Then drivers will be able to sync the perf state at a probe time. > >> > >> What do you think? > > > > I don't think it's needed, see my reply earlier above. However your > > change touches another problem though, see below. > > > >> > >> diff --git a/drivers/base/power/domain.c b/drivers/base/power/domain.c > >> index a934c679e6ce..cc15ab9eacc9 100644 > >> --- a/drivers/base/power/domain.c > >> +++ b/drivers/base/power/domain.c > >> @@ -435,7 +435,7 @@ static void genpd_restore_performance_state(struct > >> device *dev, > >> int dev_pm_genpd_set_performance_state(struct device *dev, unsigned int > >> state) > >> { > >> struct generic_pm_domain *genpd; > >> - int ret; > >> + int ret = 0; > >> > >> genpd = dev_to_genpd_safe(dev); > >> if (!genpd) > >> @@ -446,7 +446,10 @@ int dev_pm_genpd_set_performance_state(struct > >> device *dev, unsigned int state) > >> return -EINVAL; > >> > >> genpd_lock(genpd); > >> - ret = genpd_set_performance_state(dev, state); > >> + if (pm_runtime_suspended(dev)) > >> + dev_gpd_data(dev)->rpm_pstate = state; > >> + else > >> + ret = genpd_set_performance_state(dev, state); > >> genpd_unlock(genpd); > > > > This doesn't work for all cases. For example, when a consumer driver > > deploys runtime PM support in its ->probe() according to the below > > sequence: > > > > ... > > dev_pm_opp_set_rate(rate) > > pm_runtime_get_noresume() > > pm_runtime_set_active() > > pm_runtime_enable() > > ... > > pm_runtime_put() > > ... > > > > We need to call genpd_set_performance_state() independently of whether > > the device is runtime suspended or not. > > I don't see where is the problem in yours example. > > pm_runtime_suspended() = false while RPM is disabled. When device is > resumed, the rpm_pstate=0, so it won't change the pstate on resume. Yes, you are certainly correct, my bad! I mixed it up with pm_runtime_status_suspended(), which only cares about the status. So, after a second thought, your suggestion sounds very much reasonable to me! I have also tried to consider all different scenarios, including the system suspend/resume path, but I think it should be fine. I also think that a patch like the above should be considered as a fix, because it actually fixes a problem, according to what I said in my earlier reply, below. Fixes : 5937c3ce2122 ("PM: domains: Drop/restore performance state votes for devices at runtime PM"). > > > Although, it actually seems like good idea to update > > dev_gpd_data(dev)->rpm_pstate = state here, as to make sure > > genpd_runtime_resume() doesn't restore an old/invalid value that was > > saved while dropping the performance state vote for the device in > > genpd_runtime_suspend() earlier. > > > > Let me send a patch for this shortly, to close this window of a possible error. > > It will also remove the need to resume device just to change the clock > rate, like I needed to do it in the PWM patch of this series. Do you want to send the patch formally? Or do you prefer it if I do it? Kind regards Uffe