On 26.09.2005 [17:12:32 +0900], Horms wrote:
> On Mon, Sep 26, 2005 at 05:05:10PM +0900, Horms wrote:
>
> [snip]
>
> > > > > > Furthermore, if I make an "rgrep" in the source tree of kernel
> > > > > > 2.6.12
> > > > > > the function schedule_timeout() is more used than the ssleep() (517
> > > > > > occurrencies vs. 43), so why in ip_vs_sync.c there was this change?
> > > > > >
> > > > > > The other oddity is that Horms reported on this list that on non
> > > > > > Xeon
> > > > > > CPU the same version of kernel of mine does not present the problem.
> > > > > >
> > > > > > I'm getting crazy :-)
> > > >
> > > > I've prepared a patch, which reverts the change which was introduced
> > > > by Nishanth Aravamudan in February.
> > >
> > > Was the 100% cpu utilization only occurring on Xeon processors?
> >
> > That seems to be the only case where were this problem has been
> > observed. I don't have such a processor myself, so I haven't actually
> > been able to produce the problem locally.
> >
> > One reason I posted this issue to netdev was to get some more
> > eyes on the problem as it is puzzling to say the least.
> >
> > > Care to try to use msleep_interruptible() instead of ssleep(), as
> > > opposed to schedule_timeout()?
> >
> > I will send a version that does that shortly, Luca, can
> > you plase check that too?
>
> Here is that version of the patch. Nishanth, I take it that I do not
> need to set TASK_INTERRUPTABLE before calling msleep_interruptible(),
> please let me know if I am wrong.
Yes, exactly. I'm just trying to narrow it down to see if it's the task
state that's causing the issue (which, to be honest, doesn't make a lot
of sense to me -- with ssleep() your load average will go up as the task
will be UNINTERRUPTIBLE state, but I am not sure why utilisation would
rise, as you are still sleeping...)
Thanks,
Nish
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