On 11/12/18, 5:23 PM, "John Stultz" <john.stu...@linaro.org> wrote:
On Mon, Nov 12, 2018 at 10:56 AM, Michael Zhivich <mzhiv...@akamai.com>
wrote:
> Revert commit 1f45f1f33c8c ("clocksource: Make clocksource validation work
> for all clocksources") to restore correct clocksource_delta() computation
> for clocksources that wrap frequently, while retaining the check for tsc
> drifting.
>
> Truncating result of clocksource_delta() to 0 causes incorrect behavior
for
> clocksources that wrap frequently (e.g. acpi_pm which is only 24-bit
wide).
> In particular, large time deltas (e.g. last = 0x000000, now = 0x800000)
> will be incorrectly computed as 0.
>
> If acpi_pm is used as the clocksource watchdog, and machine is under heavy
> load, the time period for the watchdog check may be significantly longer
> than the requested 0.5 seconds. If the watchdog check is delayed by 2
> seconds (observed behavior), then acpi_pm time delta will be
>
> 2.5 sec * 3579545 ticks/sec = 8948863 = 0x888c3f
>
> which will be treated as negative and truncated to 0. This behavior will
> cause tsc to be incorrectly declared unstable in clocksource_watchdog(),
as
> it no longer agrees with acpi_pm.
Thanks for raising this issue and submitting the patch!
Yea, this is a concern particularly with quick wrapping clocksources.
Though I worry that if you're already blocking the watchdog from
running for 2.5 seconds, you're likely to also block the watchdog for
more then 5 seconds, which if I'm remembering would result in the same
problem? In other words, does this really solve the problem, or does
it just push the bar a little further out?
So, I'm wondering to really fix this, do we need to find some way to
raise the priority of the clocksource watchdog, so it isn't deferred
for quite so long?
thanks
-john
Thanks for the quick response.
In principle, I agree that a proper solution would have to ensure that watchdog
timer is not blocked for too long. My understanding is that watchdog work is
triggered via TIMER softirq and will get pushed to ksoftirqd when the system is
busy. In particular, it appears that do_softirq() and invoke_softirq() both
check ksoftirqd_running() before deciding to actually do work.
One interesting bit is that ksoftirq_running() will disregard an active
ksoftirqd thread and return "false" when HI_SOFTIRQ or TASKLET_SOFTIRQ is set
(resulting in at least a single pass over pending softirqs). I think it would
make sense to add TIMER_SOFTIRQ to this exception list as well.
In fact, looking back at the commit log, I'm finding similar thoughts on the
subject:
commit 3c53776e29f81719efcf8f7a6e30cdf753bee94d
Author: Linus Torvalds <torva...@linux-foundation.org>
Date: Mon Jan 8 11:51:04 2018 -0800
Mark HI and TASKLET softirq synchronous
...
We should probably also consider the timer softirqs to be synchronous
and not be delayed to ksoftirqd (since they were the issue with the
earlier watchdog problems), but that should be done as a separate patch.
This does only the tasklet cases.
If that makes sense, I'm happy to write up a patch.
Thanks,
~ Michael
