On Wed, Apr 12, 2017 at 10:41:00PM +0530, Keerthy wrote: > > > On Wednesday 12 April 2017 10:38 PM, Grygorii Strashko wrote: > > > > > > On 04/12/2017 11:44 AM, Keerthy wrote: > >> > >> > >> On Wednesday 12 April 2017 10:01 PM, Grygorii Strashko wrote: > >>> > >>> > >>> On 04/12/2017 10:44 AM, Eduardo Valentin wrote: > >>>> Hello, > >>>> > >>> ... > >>> > >>>> > >>>> I agree. But there it nothing that says it is not reenterable. If you > >>>> saw something in this line, can you please share? > >>>> > >>>>>>> will you generate a patch to do this? > >>>>>> Sure. I will generate a patch to take care of 1) To make sure that > >>>>>> orderly_poweroff is called only once right away. I have already > >>>>>> tested. > >>>>>> > >>>>>> for 2) Cancel all the scheduled work queues to monitor the > >>>>>> temperature. > >>>>>> I will take some more time to make it and test. > >>>>>> > >>>>>> Is that okay? Or you want me to send both together? > >>>>>> > >>>>> I think you can send patch for step 1 first. > >>>> > >>>> I am happy to see that Keerthy found the problem with his setup and a > >>>> possible solution. But I have a few concerns here. > >>>> > >>>> 1. If regular shutdown process takes 10seconds, that is a ballpark that > >>>> thermal should never wait. orderly_poweroff() calls run_cmd() with wait > >>>> flag set. That means, if regular userland shutdown takes 10s, we are > >>>> waiting for it. Obviously this not acceptable. Specially if you setup > >>>> critical trip to be 125C. Now, if you properly size the critical trip to > >>>> fire before hotspot really reach 125C, for 10s (or the time it takes to > >>>> shutdown), then fine. But based on what was described in this thread, > >>>> his system is waiting 10s on regular shutdown, and his silicon is on > >>>> out-of-spec temperature for 10s, which is wrong. > >>>> > >>>> 2. The above scenario is not acceptable in a long run, specially from a > >>>> reliability perspective. If orderly_poweroff() has a possibility to > >>>> simply never return (or take too long), I would say the thermal > >>>> subsystem is using the wrong API. > > > > ^ this question just repeat everything which was already discussed in > > previous versions of this patch - orderly_poweroff() is not good for critical shutdown/poweroff, > > but what to use instead? It is still useful on a properly sized system. The point is the thermal subsystem still wants to give one opportunity to gracefully shutdown the running system on a thermal scenario, as I explained in the other email. But, you have to do this accounting the down time, and your reliability concerns. > > > > > >>>> > >>> > >>> > >>> Hh, I do not see that orderly_poweroff() will wait for anything now: > >>> void orderly_poweroff(bool force) > >>> { > >>> if (force) /* do not override the pending "true" */ > >>> poweroff_force = true; > >>> schedule_work(&poweroff_work); > >>> ^^^^^^^ async call. even here can be pretty big delay if system is under pressure > >>> } > >>> > >>> > >>> static int __orderly_poweroff(bool force) > >>> { > >>> int ret; > >>> > >>> ret = run_cmd(poweroff_cmd); > >> > >> When i tried with multiple orderly_poweroff calls ret was always 0. > >> So every 250mS i see this ret = 0. > >> > >>> ^^^^ no wait for the process - only for exec. flags == UMH_WAIT_EXEC > >>> > >>> if (ret && force) { > >> > >> So it never entered this path. ret = 0 so if is not executed. > > > > correct, because exec can find poweroff tool and start it, so you, > > most probably, have bunch of this tool instance running in parallel (some of them can fail or block) > > Issue 1 - you've sent fix for is actual :). > > Precisely yes! > As I mentioned, the fix is a two fold, a. avoid spam of orderly_poweroff(), but make sure eventually we shutdown. > > > > Again, thermal has no control of power off process once run_cmd() is returned, > > and it do not know what US poweroff binary is doing and how much time can it take > > (which include disks maintenance - loooong delay). > > > >> > >>> pr_warn("Failed to start orderly shutdown: forcing the issue\n"); > >>> > >>> /* > >>> * I guess this should try to kick off some daemon to sync and > >>> * poweroff asap. Or not even bother syncing if we're doing an > >>> * emergency shutdown? > >>> */ > >>> emergency_sync(); > >>> kernel_power_off(); > >>> ^^^ force power off, but only if run_cmd() failed - for example /sbin/poweroff doesn't exist > >>> } > >>> > >>> return ret; > >>> } > >>> > >>> static bool poweroff_force; > >>> > >>> static void poweroff_work_func(struct work_struct *work) > >>> { > >>> __orderly_poweroff(poweroff_force); > >>> } > >>> > >>> As result thermal has no control of power off any more after calling orderly_poweroff() and can get the result > >>> of US poweroff binary execution. > >>> > >>>> > >>>> If you are going to implement the above two patches, keep in mind: > >>>> i. At least within the thermal subsystem, you need to take care of all > >>>> zones that could trigger a shutdown. > >>>> ii. serializing the calls to orderly_poweroff() seams to be more > >>>> concerning than cancelling all monitoring. > >>>> > >>>> > >>> > > -- To unsubscribe from this list: send the line "unsubscribe linux-omap" in the body of a message to majordomo@xxxxxxxxxxxxxxx More majordomo info at http://vger.kernel.org/majordomo-info.html