reap
retc += r = reap(*argv++, &pid, &wstat);
extern void reap();
sigact.sa_handler = reap;
void reap(int);
long reap;
reap = MIN(cp->cache_full.ml_reaplimit, cp->cache_full.ml_min);
while (reap-- && (mp = umem_depot_alloc(cp, &cp->cache_full)) != NULL)
reap = MIN(cp->cache_empty.ml_reaplimit, cp->cache_empty.ml_min);
while (reap-- && (mp = umem_depot_alloc(cp, &cp->cache_empty)) != NULL)
return (reap(ctx));
ret |= reap(toreap);
long reap;
reap = MIN(cp->cache_full.ml_reaplimit, cp->cache_full.ml_min);
while (reap-- &&
reap = MIN(cp->cache_empty.ml_reaplimit, cp->cache_empty.ml_min);
while (reap-- &&
long reap;
reap = MIN(cp->cache_full.ml_reaplimit, cp->cache_full.ml_min);
reap = MIN(reap, cp->cache_full.ml_total);
reclaimable += ((uint64_t)reap * cp->cache_magtype->mt_magsize);
long reap;
reap = MIN(cp->cache_full.ml_reaplimit, cp->cache_full.ml_min);
reap = MIN(reap, cp->cache_full.ml_total);
nfree += ((uint64_t)reap * cp->cache_magtype->mt_magsize);
boolean_t reap = B_FALSE;
if (kmem_cache_is_fragmented(cp, &reap)) {
if (reap)
htable_steal(uint_t cnt, boolean_t reap)
passes = reap ? 0 : htable_steal_passes;
for (ht = list; (ht) && (reap); ht = ht->ht_next) {