On Mon, Jul 24, 2017 at 01:13:22PM -0400, Alan Stern wrote: > On Mon, 24 Jul 2017, Johan Hovold wrote: > > > On Mon, Jul 24, 2017 at 10:38:41AM -0400, Alan Stern wrote: > > > On Mon, 24 Jul 2017, Johan Hovold wrote: > > > > > > > Make sure that the controller is runtime resumed when system suspending > > > > to avoid an external abort when accessing the interrupt registers: > > > > > > > > Unhandled fault: external abort on non-linefetch (0x1008) at 0xd025840a > > > > ... > > > > [<c05481a4>] (musb_default_readb) from [<c0545abc>] (musb_disable_interrupts+0x84/0xa8) > > > > [<c0545abc>] (musb_disable_interrupts) from [<c0546b08>] (musb_suspend+0x38/0xb8) > > > > [<c0546b08>] (musb_suspend) from [<c04a57f8>] (platform_pm_suspend+0x3c/0x64) > > > > > > > > This is easily reproduced on a BBB by enabling the peripheral port only > > > > (as the host port may enable the shared clock) and keeping it > > > > disconnected so that the controller is runtime suspended. (Well, you > > > > would also need to the not-yet-merged am33xx-suspend patches by Dave > > > > Gerlach to be able to suspend the BBB.) > > > > > > > > This is a regression that was introduced by commit 1c4d0b4e1806 ("usb: > > > > musb: Remove pm_runtime_set_irq_safe") which allowed the parent glue > > > > device to runtime suspend and thereby exposed a couple of older issues: > > > > > > > > Register accesses without explicitly making sure the controller is > > > > runtime resumed during suspend was first introduced by commit > > > > c338412b5ded ("usb: musb: unconditionally save and restore the context > > > > on suspend") in 3.14. > > > > > > > > Commit a1fc1920aaaa ("usb: musb: core: make sure musb is in RPM_ACTIVE on > > > > resume") later started setting the RPM status to active during resume > > > > without first making sure that the parent was runtime resumed. This was > > > > also implicitly relying on the parent always being active. Since commit > > > > 71723f95463d ("PM / runtime: print error when activating a child to > > > > unactive parent") this now also results in following warning: > > > > > > > > musb-hdrc musb-hdrc.0: runtime PM trying to activate child device > > > > musb-hdrc.0 but parent (47401400.usb) is not active > > > > > > I don't understand this. Why wouldn't the parent be in RPM_ACTIVE at > > > this time? After all, how could the system be expected to resume a > > > child device if its parent wasn't fully active? > > > > The parent for a musb controller is a "glue" device (e.g. musb_dsps) > > which previously was always kept active, but that's no longer the case > > as mentioned above. > > Even if the parent is not always kept active, it should still be active > during a system resume. Starting from the time its resume routine > runs, it should remain at full power until the system resume is > finished. It is powered, but its runtime PM status does not reflect that, and that is the problem. This patch makes sure that the child, and thereby parent, are both runtime resumed throughout system suspend, but perhaps that should be done explicitly in the parent driver as well (more below). > > In a system with two controllers (e.g. a Beagle Bone Black), > > Do you mean a host controller and a peripheral controller? Yes, in this example (the BBB has two OTG controllers), but it could just as well be two controllers in peripheral mode where one is active. > > the host > > port may be active and keep the shared clock enabled (managed by the > > grandparent device). Thereby the external-abort crash can be avoided > > when suspending a disconnected (and runtime suspended) peripheral port. > > So what? There are lots of ways of avoiding such crashes. (Disabling > the driver entirely, for example.) They aren't relevant for this > discussion. Perhaps I read your question too literally above; I'm trying to explain how you can end up with a runtime suspended parent during resume, without hitting the external abort during suspend, with the current kernel. This can be done by keeping the sibling/cousin controller enabled, but could of course also have been achieved by preventing the grandparent (omap) device (which controls the clock) from suspending by other means. I'm just describing how this could happen with the current implementation; I'm not claiming that the implementation is correct. > > When the system is later resumed, you would hit that broken activation > > code of the runtime suspended device, with a likewise runtime suspended > > parent, and the warning would be printed. > > Why would the parent be runtime suspended? Why wouldn't it still be in > the full-power state, the way its own resume routine should have left > it? > > Maybe I'm being slow and dumb here, but I don't see how any of this > answers the question I raised earlier. I think understand what you're getting at and yes, the parent *should* be RPM_ACTIVE, while I'm saying that it *currently* is not guaranteed. As mentioned above, this patch does make sure that child and parent are both runtime resume when suspending and therefore remain RPM_ACTIVE throughout suspend. This specifically means that the explicit activation code on resume can now be removed. But I should fix that paragraph and not blame the explicit activation code for not "making sure that the parent was runtime resumed". In fact, some of the parent glue drivers also do register accesses in their suspend/resume callbacks which ought to have been preceded by an explicit runtime resume. These glue drivers are a bit special however and does check for a registered child in their pm callbacks so it's not a problem in practise. I think I'll add them anyway for clarity in a follow up patch. Thanks, Johan -- To unsubscribe from this list: send the line "unsubscribe linux-usb" in the body of a message to majordomo@xxxxxxxxxxxxxxx More majordomo info at http://vger.kernel.org/majordomo-info.html