Re: [tip:sched/core] sched: Lower chances of cputime scalingoverflow
From: Peter Zijlstra
Date: Thu Apr 11 2013 - 13:31:41 EST
On Thu, 2013-04-11 at 16:50 +0200, Stanislaw Gruszka wrote:
> > + /*
> > + * Since the stime:utime ratio is already an approximation through
> > + * the sampling, reducing its resolution isn't too big a deal.
> > + * And since total = stime+utime; the total_fls will be the biggest
> > + * of the two;
> > + */
> > + if (total_fls > 32) {
> > + shift = total_fls - 32; /* a = 2^shift */
> > + stime >>= shift;
> > + total >>= shift;
> > + stime_fls -= shift;
> > + total_fls -= shift;
> > + }
> > +
> > + /*
> > + * Since we limited stime to 32bits the multiplication reduced to 96bit.
> > + * stime * rtime = stime * (rl + rh * 2^32) =
> > + * stime * rl + stime * rh * 2^32
> > + */
> > + lo = stime * rtime_lo;
> > + hi = stime * rtime_hi;
> > + t = hi << 32;
> > + lo += t;
> > + if (lo < t) /* overflow */
> > + hi += 0x100000000L;
> > + hi >>= 32;
>
> I do not understand why we shift hi value here, is that correct?
Yes.. remember that we have:
stime * rl + stime * rh * 2^32
How we get this 96bit value but our two 64bit values overlap:
| w3 | w2 | w1 | w0 |
+----+----+----+----+
| lo |
| hi |
So what I do is I add the low word of hi to lo and shift the high word
of hi to get:
| hi | lo |
Two non-overlapping 64bit values where the high word of hi is always 0.
> > + /*
> > + * Pick the 64 most significant bits for division into @lo.
> > + *
> > + * NOTE: res_fls is an approximation (upper-bound) do we want to
> > + * properly calculate?
> > + */
> > + shift = 0;
> > + res_fls = stime_fls + rtime_fls;
> > + if (res_fls > 64) {
> > + shift = res_fls - 64; /* b = 2^shift */
> > + lo >>= shift;
> > + hi <<= 64 - shift;
> > + lo |= hi;
> > }
> > - return (__force cputime_t) scaled;
> > + /*
> > + * So here we do:
> > + *
> > + * ((stime / a) * rtime / b)
> > + * --------------------------- / b
> > + * (total / a)
> > + */
> > + return div_u64(lo, total) >> shift;
>
> I think it should be:
>
> ((stime / a) * rtime / b)
> --------------------------- * b
> (total / a)
>
> return div_u64(lo, total) << shift;
I think you're very right about that.. got my head twisted by staring
at this stuff too long.
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