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authorHidetoshi Seto <seto.hidetoshi@jp.fujitsu.com>2009-11-12 13:33:45 +0900
committerIngo Molnar <mingo@elte.hu>2009-11-12 15:23:47 +0100
commit761b1d26df542fd5eb348837351e4d2f3bc7bffe (patch)
tree3c548070fdf81b618d32f9878b41fb16d26ffcde /kernel/sched.c
parentffd44db5f02af32bcc25a8eb5981bf02a141cdab (diff)
downloadop-kernel-dev-761b1d26df542fd5eb348837351e4d2f3bc7bffe.zip
op-kernel-dev-761b1d26df542fd5eb348837351e4d2f3bc7bffe.tar.gz
sched: Fix granularity of task_u/stime()
Originally task_s/utime() were designed to return clock_t but later changed to return cputime_t by following commit: commit efe567fc8281661524ffa75477a7c4ca9b466c63 Author: Christian Borntraeger <borntraeger@de.ibm.com> Date: Thu Aug 23 15:18:02 2007 +0200 It only changed the type of return value, but not the implementation. As the result the granularity of task_s/utime() is still that of clock_t, not that of cputime_t. So using task_s/utime() in __exit_signal() makes values accumulated to the signal struct to be rounded and coarse grained. This patch removes casts to clock_t in task_u/stime(), to keep granularity of cputime_t over the calculation. v2: Use div_u64() to avoid error "undefined reference to `__udivdi3`" on some 32bit systems. Signed-off-by: Hidetoshi Seto <seto.hidetoshi@jp.fujitsu.com> Acked-by: Peter Zijlstra <peterz@infradead.org> Cc: xiyou.wangcong@gmail.com Cc: Spencer Candland <spencer@bluehost.com> Cc: Oleg Nesterov <oleg@redhat.com> Cc: Stanislaw Gruszka <sgruszka@redhat.com> LKML-Reference: <4AFB9029.9000208@jp.fujitsu.com> Signed-off-by: Ingo Molnar <mingo@elte.hu>
Diffstat (limited to 'kernel/sched.c')
-rw-r--r--kernel/sched.c22
1 files changed, 13 insertions, 9 deletions
diff --git a/kernel/sched.c b/kernel/sched.c
index 43e61fa..ab9a034 100644
--- a/kernel/sched.c
+++ b/kernel/sched.c
@@ -5156,41 +5156,45 @@ cputime_t task_stime(struct task_struct *p)
return p->stime;
}
#else
+
+#ifndef nsecs_to_cputime
+# define nsecs_to_cputime(__nsecs) \
+ msecs_to_cputime(div_u64((__nsecs), NSEC_PER_MSEC))
+#endif
+
cputime_t task_utime(struct task_struct *p)
{
- clock_t utime = cputime_to_clock_t(p->utime),
- total = utime + cputime_to_clock_t(p->stime);
+ cputime_t utime = p->utime, total = utime + p->stime;
u64 temp;
/*
* Use CFS's precise accounting:
*/
- temp = (u64)nsec_to_clock_t(p->se.sum_exec_runtime);
+ temp = (u64)nsecs_to_cputime(p->se.sum_exec_runtime);
if (total) {
temp *= utime;
do_div(temp, total);
}
- utime = (clock_t)temp;
+ utime = (cputime_t)temp;
- p->prev_utime = max(p->prev_utime, clock_t_to_cputime(utime));
+ p->prev_utime = max(p->prev_utime, utime);
return p->prev_utime;
}
cputime_t task_stime(struct task_struct *p)
{
- clock_t stime;
+ cputime_t stime;
/*
* Use CFS's precise accounting. (we subtract utime from
* the total, to make sure the total observed by userspace
* grows monotonically - apps rely on that):
*/
- stime = nsec_to_clock_t(p->se.sum_exec_runtime) -
- cputime_to_clock_t(task_utime(p));
+ stime = nsecs_to_cputime(p->se.sum_exec_runtime) - task_utime(p);
if (stime >= 0)
- p->prev_stime = max(p->prev_stime, clock_t_to_cputime(stime));
+ p->prev_stime = max(p->prev_stime, stime);
return p->prev_stime;
}
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