Re: [PATCH] sched: fix timeval conversion to jiffies
From: Paul Turner
Date: Wed Sep 03 2014 - 14:57:53 EST
John -- Any chance to take a look at this? (The dilation is pretty
unfortunate when profiling reprograms a timer with it.)
On Thu, Aug 7, 2014 at 5:09 PM, Andrew Hunter <ahh@xxxxxxxxxx> wrote:
> timeval_to_jiffies rounding was broken. It essentially computed
> (eliding seconds)
>
> jiffies = usec * (NSEC_PER_USEC/TICK_NSEC)
>
> by using scaling arithmetic, which took the best approximation of
> NSEC_PER_USEC/TICK_NSEC with denominator of 2^USEC_JIFFIE_SC =
> x/(2^USEC_JIFFIE_SC), and computed:
>
> jiffies = (usec * x) >> USEC_JIFFIE_SC
>
> and it rounded this calculation up in the intermediate form (since we
> can't necessarily exactly represent TICK_NSEC in usec.) But the
> scaling arithmetic is a (very slight) *over*approximation of the true
> value: rounding the division up by adding 2^USEC_JIFFIE_SC - 1, when
> the error in scaling was added in, was sufficient to add one jiffie to
> the final result.
>
> In particular, with HZ=1000, we consistently computed that 10000 usec
> was 11 jiffies; the same was true for any exact multiple of
> TICK_NSEC. This is obviously bad as a general rule, and caused
> observable user problems with setitimer() at the very least:
>
> setitimer(ITIMER_PROF, &val, NULL);
> setitimer(ITIMER_PROF, NULL, &val);
>
> would actually add a tick to val!
>
> We could possibly still round in the intermediate form, adding
> something less than 2^USEC_JIFFIE_SC - 1, but easier still is to
> convert usec->nsec, round in nanoseconds, and then convert using
> time*spec*_to_jiffies. This adds one constant multiplication, and is
> not observably slower in microbenchmarks on recent x86 hardware.
>
> Tested: the following program:
>
> int main() {
> struct itimerval zero = {{0, 0}, {0, 0}};
> /* Initially set to 10 ms. */
> struct itimerval initial = zero;
> initial.it_interval.tv_usec = 10000;
> setitimer(ITIMER_PROF, &initial, NULL);
> /* Save and restore several times. */
> for (size_t i = 0; i < 10; ++i) {
> struct itimerval prev;
> setitimer(ITIMER_PROF, &zero, &prev);
> /* on old kernels, this goes up by TICK_USEC every iteration */
> printf("previous value: %ld %ld %ld %ld\n",
> prev.it_interval.tv_sec, prev.it_interval.tv_usec,
> prev.it_value.tv_sec, prev.it_value.tv_usec);
> setitimer(ITIMER_PROF, &prev, NULL);
> }
> return 0;
> }
>
> Signed-off-by: Andrew Hunter <ahh@xxxxxxxxxx>
> Reviewed-by: Paul Turner <pjt@xxxxxxxxxx>
> Reported-by: Aaron Jacobs <jacobsa@xxxxxxxxxx>
> Change-Id: I7cd0f0764847fd055d39531f54e6ea3dd3ce5453
> ---
> include/linux/jiffies.h | 12 -----------
> kernel/time.c | 54 +++++++++++++++++++++++++++----------------------
> 2 files changed, 30 insertions(+), 36 deletions(-)
>
> diff --git a/include/linux/jiffies.h b/include/linux/jiffies.h
> index 1f44466..c367cbd 100644
> --- a/include/linux/jiffies.h
> +++ b/include/linux/jiffies.h
> @@ -258,23 +258,11 @@ extern unsigned long preset_lpj;
> #define SEC_JIFFIE_SC (32 - SHIFT_HZ)
> #endif
> #define NSEC_JIFFIE_SC (SEC_JIFFIE_SC + 29)
> -#define USEC_JIFFIE_SC (SEC_JIFFIE_SC + 19)
> #define SEC_CONVERSION ((unsigned long)((((u64)NSEC_PER_SEC << SEC_JIFFIE_SC) +\
> TICK_NSEC -1) / (u64)TICK_NSEC))
>
> #define NSEC_CONVERSION ((unsigned long)((((u64)1 << NSEC_JIFFIE_SC) +\
> TICK_NSEC -1) / (u64)TICK_NSEC))
> -#define USEC_CONVERSION \
> - ((unsigned long)((((u64)NSEC_PER_USEC << USEC_JIFFIE_SC) +\
> - TICK_NSEC -1) / (u64)TICK_NSEC))
> -/*
> - * USEC_ROUND is used in the timeval to jiffie conversion. See there
> - * for more details. It is the scaled resolution rounding value. Note
> - * that it is a 64-bit value. Since, when it is applied, we are already
> - * in jiffies (albit scaled), it is nothing but the bits we will shift
> - * off.
> - */
> -#define USEC_ROUND (u64)(((u64)1 << USEC_JIFFIE_SC) - 1)
> /*
> * The maximum jiffie value is (MAX_INT >> 1). Here we translate that
> * into seconds. The 64-bit case will overflow if we are not careful,
> diff --git a/kernel/time.c b/kernel/time.c
> index 7c7964c..3c49ab4 100644
> --- a/kernel/time.c
> +++ b/kernel/time.c
> @@ -496,17 +496,20 @@ EXPORT_SYMBOL(usecs_to_jiffies);
> * that a remainder subtract here would not do the right thing as the
> * resolution values don't fall on second boundries. I.e. the line:
> * nsec -= nsec % TICK_NSEC; is NOT a correct resolution rounding.
> + * Note that due to the small error in the multiplier here, this
> + * rounding is incorrect for sufficiently large values of tv_nsec, but
> + * well formed timespecs should have tv_nsec < NSEC_PER_SEC, so we're
> + * OK.
> *
> * Rather, we just shift the bits off the right.
> *
> * The >> (NSEC_JIFFIE_SC - SEC_JIFFIE_SC) converts the scaled nsec
> * value to a scaled second value.
> */
> -unsigned long
> -timespec_to_jiffies(const struct timespec *value)
> +static unsigned long
> +__timespec_to_jiffies(unsigned long sec, long nsec)
> {
> - unsigned long sec = value->tv_sec;
> - long nsec = value->tv_nsec + TICK_NSEC - 1;
> + nsec = nsec + TICK_NSEC - 1;
>
> if (sec >= MAX_SEC_IN_JIFFIES){
> sec = MAX_SEC_IN_JIFFIES;
> @@ -517,6 +520,13 @@ timespec_to_jiffies(const struct timespec *value)
> (NSEC_JIFFIE_SC - SEC_JIFFIE_SC))) >> SEC_JIFFIE_SC;
>
> }
> +
> +unsigned long
> +timespec_to_jiffies(const struct timespec *value)
> +{
> + return __timespec_to_jiffies(value->tv_sec, value->tv_nsec);
> +}
> +
> EXPORT_SYMBOL(timespec_to_jiffies);
>
> void
> @@ -533,31 +543,27 @@ jiffies_to_timespec(const unsigned long jiffies, struct timespec *value)
> }
> EXPORT_SYMBOL(jiffies_to_timespec);
>
> -/* Same for "timeval"
> +/*
> + * We could use a similar algorithm to timespec_to_jiffies (with a
> + * different multiplier for usec instead of nsec). But this has a
> + * problem with rounding: we can't exactly add TICK_NSEC - 1 to the
> + * usec value, since it's not necessarily integral.
> *
> - * Well, almost. The problem here is that the real system resolution is
> - * in nanoseconds and the value being converted is in micro seconds.
> - * Also for some machines (those that use HZ = 1024, in-particular),
> - * there is a LARGE error in the tick size in microseconds.
> -
> - * The solution we use is to do the rounding AFTER we convert the
> - * microsecond part. Thus the USEC_ROUND, the bits to be shifted off.
> - * Instruction wise, this should cost only an additional add with carry
> - * instruction above the way it was done above.
> + * We could instead round in the intermediate scaled representation
> + * (i.e. in units of 1/2^(large scale) jiffies) but that's also
> + * perilous: the scaling introduces a small positive error, which
> + * combined with a division-rounding-upward (i.e. adding 2^(scale) - 1
> + * units to the intermediate before shifting) leads to accidental
> + * overflow and overestimates.
> + *
> + * At the cost of one additional multiplication by a constant, just
> + * use the timespec implementation.
> */
> unsigned long
> timeval_to_jiffies(const struct timeval *value)
> {
> - unsigned long sec = value->tv_sec;
> - long usec = value->tv_usec;
> -
> - if (sec >= MAX_SEC_IN_JIFFIES){
> - sec = MAX_SEC_IN_JIFFIES;
> - usec = 0;
> - }
> - return (((u64)sec * SEC_CONVERSION) +
> - (((u64)usec * USEC_CONVERSION + USEC_ROUND) >>
> - (USEC_JIFFIE_SC - SEC_JIFFIE_SC))) >> SEC_JIFFIE_SC;
> + return __timespec_to_jiffies(value->tv_sec,
> + value->tv_usec * NSEC_PER_USEC);
> }
> EXPORT_SYMBOL(timeval_to_jiffies);
>
> --
> 2.0.0.526.g5318336
>
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