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-rw-r--r--kernel/sched/cputime.c101
1 files changed, 60 insertions, 41 deletions
diff --git a/kernel/sched/cputime.c b/kernel/sched/cputime.c
index f5a64ffad176..8cbc3db671df 100644
--- a/kernel/sched/cputime.c
+++ b/kernel/sched/cputime.c
@@ -555,48 +555,43 @@ drop_precision:
}
/*
- * Atomically advance counter to the new value. Interrupts, vcpu
- * scheduling, and scaling inaccuracies can cause cputime_advance
- * to be occasionally called with a new value smaller than counter.
- * Let's enforce atomicity.
+ * Adjust tick based cputime random precision against scheduler runtime
+ * accounting.
*
- * Normally a caller will only go through this loop once, or not
- * at all in case a previous caller updated counter the same jiffy.
- */
-static void cputime_advance(cputime_t *counter, cputime_t new)
-{
- cputime_t old;
-
- while (new > (old = READ_ONCE(*counter)))
- cmpxchg_cputime(counter, old, new);
-}
-
-/*
- * Adjust tick based cputime random precision against scheduler
- * runtime accounting.
+ * Tick based cputime accounting depend on random scheduling timeslices of a
+ * task to be interrupted or not by the timer. Depending on these
+ * circumstances, the number of these interrupts may be over or
+ * under-optimistic, matching the real user and system cputime with a variable
+ * precision.
+ *
+ * Fix this by scaling these tick based values against the total runtime
+ * accounted by the CFS scheduler.
+ *
+ * This code provides the following guarantees:
+ *
+ * stime + utime == rtime
+ * stime_i+1 >= stime_i, utime_i+1 >= utime_i
+ *
+ * Assuming that rtime_i+1 >= rtime_i.
*/
static void cputime_adjust(struct task_cputime *curr,
- struct cputime *prev,
+ struct prev_cputime *prev,
cputime_t *ut, cputime_t *st)
{
cputime_t rtime, stime, utime;
+ unsigned long flags;
- /*
- * Tick based cputime accounting depend on random scheduling
- * timeslices of a task to be interrupted or not by the timer.
- * Depending on these circumstances, the number of these interrupts
- * may be over or under-optimistic, matching the real user and system
- * cputime with a variable precision.
- *
- * Fix this by scaling these tick based values against the total
- * runtime accounted by the CFS scheduler.
- */
+ /* Serialize concurrent callers such that we can honour our guarantees */
+ raw_spin_lock_irqsave(&prev->lock, flags);
rtime = nsecs_to_cputime(curr->sum_exec_runtime);
/*
- * Update userspace visible utime/stime values only if actual execution
- * time is bigger than already exported. Note that can happen, that we
- * provided bigger values due to scaling inaccuracy on big numbers.
+ * This is possible under two circumstances:
+ * - rtime isn't monotonic after all (a bug);
+ * - we got reordered by the lock.
+ *
+ * In both cases this acts as a filter such that the rest of the code
+ * can assume it is monotonic regardless of anything else.
*/
if (prev->stime + prev->utime >= rtime)
goto out;
@@ -606,22 +601,46 @@ static void cputime_adjust(struct task_cputime *curr,
if (utime == 0) {
stime = rtime;
- } else if (stime == 0) {
- utime = rtime;
- } else {
- cputime_t total = stime + utime;
+ goto update;
+ }
- stime = scale_stime((__force u64)stime,
- (__force u64)rtime, (__force u64)total);
- utime = rtime - stime;
+ if (stime == 0) {
+ utime = rtime;
+ goto update;
}
- cputime_advance(&prev->stime, stime);
- cputime_advance(&prev->utime, utime);
+ stime = scale_stime((__force u64)stime, (__force u64)rtime,
+ (__force u64)(stime + utime));
+
+ /*
+ * Make sure stime doesn't go backwards; this preserves monotonicity
+ * for utime because rtime is monotonic.
+ *
+ * utime_i+1 = rtime_i+1 - stime_i
+ * = rtime_i+1 - (rtime_i - utime_i)
+ * = (rtime_i+1 - rtime_i) + utime_i
+ * >= utime_i
+ */
+ if (stime < prev->stime)
+ stime = prev->stime;
+ utime = rtime - stime;
+
+ /*
+ * Make sure utime doesn't go backwards; this still preserves
+ * monotonicity for stime, analogous argument to above.
+ */
+ if (utime < prev->utime) {
+ utime = prev->utime;
+ stime = rtime - utime;
+ }
+update:
+ prev->stime = stime;
+ prev->utime = utime;
out:
*ut = prev->utime;
*st = prev->stime;
+ raw_spin_unlock_irqrestore(&prev->lock, flags);
}
void task_cputime_adjusted(struct task_struct *p, cputime_t *ut, cputime_t *st)