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SubjectRe: 2.4.18 clock warps 4294 seconds
Per Gregers Bilse wrote:
>
> On Jul 25, 11:01am, Per Gregers Bilse <bilse@qbfox.com> wrote:
> > Ie, set flag/value in do_fast_gettimeoffset(), check/print in
> > do_gettimeofday(). I figure that should catch it if it happens
> > again, and safely so.
>
> Not sure if that's the right thing to do, the check succeeds very
> frequently. A modified version, printing only every 1000th time,
> yields:

You have the number a bit low. If I recall, this is an 800
MHz machine, so each TSC tick is 1.25 nano seconds. This
means your threshold (with 5,000,000) is 6.25 ms. The
system should easily recover from anything up to about 9.9
ms. If you were to use 8,000,000 it would trigger on loss
of a tick (i.e. 10 ms). On the other hand, the warp you see
is caused by the subtract overflowing. For this the test
would be something like:

if ( eax & 0x80000000) (i.e. is the sign bit set?) OR you
could do:

if ( (int)eax < 0)


Now if we are convinced that you are having these long
"black outs" the question turns to why. We are talking
about an interrupt hold off here, not a preemption issue.
The first thing I would check is that you are using DMA for
you disc transfers. To the best of my knowledge, the
default config file still has DMA off for these transfers
and this can cause long delays. Beyond this, I would look
for special content in your system. From the analytical
point of view, some analysis of what is running when this
happens might be of use.

-g


>
> Jul 25 11:18:36 vulpes kernel: do_gettimeofday warp 0 eax 6968466
> Jul 25 11:18:39 vulpes kernel: do_gettimeofday warp 1000 eax 5301486
> Jul 25 11:18:39 vulpes kernel: do_gettimeofday warp 2000 eax 5814470
> Jul 25 11:18:39 vulpes kernel: do_gettimeofday warp 3000 eax 6238995
> Jul 25 11:18:39 vulpes kernel: do_gettimeofday warp 4000 eax 6662828
> Jul 25 11:18:39 vulpes kernel: do_gettimeofday warp 5000 eax 7109559
> Jul 25 11:18:39 vulpes kernel: do_gettimeofday warp 6000 eax 7534440
> Jul 25 11:18:39 vulpes kernel: do_gettimeofday warp 7000 eax 7959034
> Jul 25 11:18:39 vulpes kernel: do_gettimeofday warp 8000 eax 6302366
> Jul 25 11:18:39 vulpes kernel: do_gettimeofday warp 9000 eax 6736399
> Jul 25 11:18:39 vulpes kernel: do_gettimeofday warp 10000 eax 7160461
> Jul 25 11:18:39 vulpes kernel: do_gettimeofday warp 11000 eax 7584511
> Jul 25 11:18:39 vulpes kernel: do_gettimeofday warp 12000 eax 5855713
> Jul 25 11:19:15 vulpes kernel: do_gettimeofday warp 13000 eax 6265463
> Jul 25 11:19:15 vulpes kernel: do_gettimeofday warp 14000 eax 7992560
> Jul 25 11:19:15 vulpes kernel: do_gettimeofday warp 15000 eax 6263791
> Jul 25 11:19:20 vulpes kernel: do_gettimeofday warp 16000 eax 5247486
> Jul 25 11:19:20 vulpes kernel: do_gettimeofday warp 17000 eax 6358315
> Jul 25 11:19:20 vulpes kernel: do_gettimeofday warp 18000 eax 7393344
> Jul 25 11:19:20 vulpes kernel: do_gettimeofday warp 19000 eax 6237626
> Jul 25 11:19:20 vulpes kernel: do_gettimeofday warp 20000 eax 6406708
> Jul 25 11:19:21 vulpes kernel: do_gettimeofday warp 21000 eax 6005906
> Jul 25 11:19:21 vulpes kernel: do_gettimeofday warp 22000 eax 5056750
> Jul 25 11:19:23 vulpes kernel: do_gettimeofday warp 23000 eax 6434750
> Jul 25 11:19:24 vulpes kernel: do_gettimeofday warp 24000 eax 5093940
> Jul 25 11:19:25 vulpes kernel: do_gettimeofday warp 25000 eax 6269335
> Jul 25 11:19:26 vulpes kernel: do_gettimeofday warp 26000 eax 5596617
> Jul 25 11:19:27 vulpes kernel: do_gettimeofday warp 27000 eax 7918244
> Jul 25 11:19:29 vulpes kernel: do_gettimeofday warp 28000 eax 7266647
> Jul 25 11:19:33 vulpes kernel: do_gettimeofday warp 29000 eax 5293260
> Jul 25 11:19:53 vulpes kernel: do_gettimeofday warp 30000 eax 6751016
> Jul 25 11:21:32 vulpes kernel: do_gettimeofday warp 31000 eax 6213632
> Jul 25 11:23:24 vulpes kernel: do_gettimeofday warp 32000 eax 6997568
> Jul 25 11:24:16 vulpes kernel: do_gettimeofday warp 33000 eax 5326413
> Jul 25 11:25:10 vulpes kernel: do_gettimeofday warp 34000 eax 5717715
> Jul 25 11:25:37 vulpes kernel: do_gettimeofday warp 35000 eax 6464694
> Jul 25 11:26:19 vulpes kernel: do_gettimeofday warp 36000 eax 5969042
> Jul 25 11:27:05 vulpes kernel: do_gettimeofday warp 37000 eax 7196006
> Jul 25 11:28:10 vulpes kernel: do_gettimeofday warp 38000 eax 7129216
> Jul 25 11:28:40 vulpes kernel: do_gettimeofday warp 39000 eax 5971848
> Jul 25 11:29:04 vulpes kernel: do_gettimeofday warp 40000 eax 6347832
> Jul 25 11:29:38 vulpes kernel: do_gettimeofday warp 41000 eax 6769141
> Jul 25 11:30:19 vulpes kernel: do_gettimeofday warp 42000 eax 5279110
> Jul 25 11:31:18 vulpes kernel: do_gettimeofday warp 43000 eax 6256288
> Jul 25 11:31:34 vulpes kernel: do_gettimeofday warp 44000 eax 6483175
>
> Here are complete code excerpts from arch/i386/kernel/time.c,
> look for glob_eax:
>
> static unsigned long glob_eax;
>
> static inline unsigned long do_fast_gettimeoffset(void)
> {
> register unsigned long eax, edx;
>
> /* Read the Time Stamp Counter */
>
> rdtsc(eax,edx);
>
> /* .. relative to previous jiffy (32 bits is enough) */
> eax -= last_tsc_low; /* tsc_low delta */
>
> if ( eax > 5000000 ) {
> glob_eax = eax;
> return delay_at_last_interrupt;
> }
>
> /*
> * Time offset = (tsc_low delta) * fast_gettimeoffset_quotient
> * = (tsc_low delta) * (usecs_per_clock)
> * = (tsc_low delta) * (usecs_per_jiffy / clocks_per_jiffy)
> *
> * Using a mull instead of a divl saves up to 31 clock cycles
> * in the critical path.
> */
>
> __asm__("mull %2"
> :"=a" (eax), "=d" (edx)
> :"rm" (fast_gettimeoffset_quotient),
> "0" (eax));
>
> /* our adjusted time offset in microseconds */
> return delay_at_last_interrupt + edx;
> }
>
> void do_gettimeofday(struct timeval *tv)
> {
> unsigned long flags;
> unsigned long usec, sec;
> static unsigned warp;
>
> read_lock_irqsave(&xtime_lock, flags);
> usec = do_gettimeoffset();
> {
> unsigned long lost = jiffies - wall_jiffies;
> if (lost)
> usec += lost * (1000000 / HZ);
> }
> sec = xtime.tv_sec;
> usec += xtime.tv_usec;
> read_unlock_irqrestore(&xtime_lock, flags);
>
> while (usec >= 1000000) {
> usec -= 1000000;
> sec++;
> }
>
> tv->tv_sec = sec;
> tv->tv_usec = usec;
>
> if ( glob_eax != 0 ) {
> if ( warp % 1000 == 0 )
> printk("do_gettimeofday warp %u eax %lu\n",warp,glob_eax);
> warp++;
> glob_eax = 0;
> }
> }
>
> Is this correctly detecting the problem? Or is the low word (eax) of the TSC
> a red herring?
>
> Thanks.
>
> -- Per

--
George Anzinger george@mvista.com
High-res-timers:
http://sourceforge.net/projects/high-res-timers/
Real time sched: http://sourceforge.net/projects/rtsched/
Preemption patch:
http://www.kernel.org/pub/linux/kernel/people/rml
-
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