Commit 8aa42061 authored by Yu Zhao's avatar Yu Zhao Committed by Andrew Morton

mm/mglru: respect min_ttl_ms with memcgs

While investigating kswapd "consuming 100% CPU" [1] (also see "mm/mglru:
try to stop at high watermarks"), it was discovered that the memcg LRU can
breach the thrashing protection imposed by min_ttl_ms.

Before the memcg LRU:
  kswapd()
    shrink_node_memcgs()
      mem_cgroup_iter()
        inc_max_seq()  // always hit a different memcg
    lru_gen_age_node()
      mem_cgroup_iter()
        check the timestamp of the oldest generation

After the memcg LRU:
  kswapd()
    shrink_many()
      restart:
        iterate the memcg LRU:
          inc_max_seq()  // occasionally hit the same memcg
          if raced with lru_gen_rotate_memcg():
            goto restart
    lru_gen_age_node()
      mem_cgroup_iter()
        check the timestamp of the oldest generation

Specifically, when the restart happens in shrink_many(), it needs to stick
with the (memcg LRU) generation it began with.  In other words, it should
neither re-read memcg_lru->seq nor age an lruvec of a different
generation.  Otherwise it can hit the same memcg multiple times without
giving lru_gen_age_node() a chance to check the timestamp of that memcg's
oldest generation (against min_ttl_ms).

[1] https://lore.kernel.org/CAK8fFZ4DY+GtBA40Pm7Nn5xCHy+51w3sfxPqkqpqakSXYyX+Wg@mail.gmail.com/

Link: https://lkml.kernel.org/r/20231208061407.2125867-3-yuzhao@google.com
Fixes: e4dde56c ("mm: multi-gen LRU: per-node lru_gen_folio lists")
Signed-off-by: default avatarYu Zhao <yuzhao@google.com>
Tested-by: default avatarT.J. Mercier <tjmercier@google.com>
Cc: Charan Teja Kalla <quic_charante@quicinc.com>
Cc: Hillf Danton <hdanton@sina.com>
Cc: Jaroslav Pulchart <jaroslav.pulchart@gooddata.com>
Cc: Kairui Song <ryncsn@gmail.com>
Cc: Kalesh Singh <kaleshsingh@google.com>
Cc: <stable@vger.kernel.org>
Signed-off-by: default avatarAndrew Morton <akpm@linux-foundation.org>
parent 5095a2b2
......@@ -505,33 +505,37 @@ void lru_gen_look_around(struct page_vma_mapped_walk *pvmw);
* the old generation, is incremented when all its bins become empty.
*
* There are four operations:
* 1. MEMCG_LRU_HEAD, which moves an memcg to the head of a random bin in its
* 1. MEMCG_LRU_HEAD, which moves a memcg to the head of a random bin in its
* current generation (old or young) and updates its "seg" to "head";
* 2. MEMCG_LRU_TAIL, which moves an memcg to the tail of a random bin in its
* 2. MEMCG_LRU_TAIL, which moves a memcg to the tail of a random bin in its
* current generation (old or young) and updates its "seg" to "tail";
* 3. MEMCG_LRU_OLD, which moves an memcg to the head of a random bin in the old
* 3. MEMCG_LRU_OLD, which moves a memcg to the head of a random bin in the old
* generation, updates its "gen" to "old" and resets its "seg" to "default";
* 4. MEMCG_LRU_YOUNG, which moves an memcg to the tail of a random bin in the
* 4. MEMCG_LRU_YOUNG, which moves a memcg to the tail of a random bin in the
* young generation, updates its "gen" to "young" and resets its "seg" to
* "default".
*
* The events that trigger the above operations are:
* 1. Exceeding the soft limit, which triggers MEMCG_LRU_HEAD;
* 2. The first attempt to reclaim an memcg below low, which triggers
* 2. The first attempt to reclaim a memcg below low, which triggers
* MEMCG_LRU_TAIL;
* 3. The first attempt to reclaim an memcg below reclaimable size threshold,
* 3. The first attempt to reclaim a memcg below reclaimable size threshold,
* which triggers MEMCG_LRU_TAIL;
* 4. The second attempt to reclaim an memcg below reclaimable size threshold,
* 4. The second attempt to reclaim a memcg below reclaimable size threshold,
* which triggers MEMCG_LRU_YOUNG;
* 5. Attempting to reclaim an memcg below min, which triggers MEMCG_LRU_YOUNG;
* 5. Attempting to reclaim a memcg below min, which triggers MEMCG_LRU_YOUNG;
* 6. Finishing the aging on the eviction path, which triggers MEMCG_LRU_YOUNG;
* 7. Offlining an memcg, which triggers MEMCG_LRU_OLD.
* 7. Offlining a memcg, which triggers MEMCG_LRU_OLD.
*
* Note that memcg LRU only applies to global reclaim, and the round-robin
* incrementing of their max_seq counters ensures the eventual fairness to all
* eligible memcgs. For memcg reclaim, it still relies on mem_cgroup_iter().
* Notes:
* 1. Memcg LRU only applies to global reclaim, and the round-robin incrementing
* of their max_seq counters ensures the eventual fairness to all eligible
* memcgs. For memcg reclaim, it still relies on mem_cgroup_iter().
* 2. There are only two valid generations: old (seq) and young (seq+1).
* MEMCG_NR_GENS is set to three so that when reading the generation counter
* locklessly, a stale value (seq-1) does not wraparound to young.
*/
#define MEMCG_NR_GENS 2
#define MEMCG_NR_GENS 3
#define MEMCG_NR_BINS 8
struct lru_gen_memcg {
......
......@@ -4089,6 +4089,9 @@ static void lru_gen_rotate_memcg(struct lruvec *lruvec, int op)
else
VM_WARN_ON_ONCE(true);
WRITE_ONCE(lruvec->lrugen.seg, seg);
WRITE_ONCE(lruvec->lrugen.gen, new);
hlist_nulls_del_rcu(&lruvec->lrugen.list);
if (op == MEMCG_LRU_HEAD || op == MEMCG_LRU_OLD)
......@@ -4099,9 +4102,6 @@ static void lru_gen_rotate_memcg(struct lruvec *lruvec, int op)
pgdat->memcg_lru.nr_memcgs[old]--;
pgdat->memcg_lru.nr_memcgs[new]++;
lruvec->lrugen.gen = new;
WRITE_ONCE(lruvec->lrugen.seg, seg);
if (!pgdat->memcg_lru.nr_memcgs[old] && old == get_memcg_gen(pgdat->memcg_lru.seq))
WRITE_ONCE(pgdat->memcg_lru.seq, pgdat->memcg_lru.seq + 1);
......@@ -4124,11 +4124,11 @@ void lru_gen_online_memcg(struct mem_cgroup *memcg)
gen = get_memcg_gen(pgdat->memcg_lru.seq);
lruvec->lrugen.gen = gen;
hlist_nulls_add_tail_rcu(&lruvec->lrugen.list, &pgdat->memcg_lru.fifo[gen][bin]);
pgdat->memcg_lru.nr_memcgs[gen]++;
lruvec->lrugen.gen = gen;
spin_unlock_irq(&pgdat->memcg_lru.lock);
}
}
......@@ -4635,7 +4635,7 @@ static long get_nr_to_scan(struct lruvec *lruvec, struct scan_control *sc, bool
DEFINE_MAX_SEQ(lruvec);
if (mem_cgroup_below_min(sc->target_mem_cgroup, memcg))
return 0;
return -1;
if (!should_run_aging(lruvec, max_seq, sc, can_swap, &nr_to_scan))
return nr_to_scan;
......@@ -4710,7 +4710,7 @@ static bool try_to_shrink_lruvec(struct lruvec *lruvec, struct scan_control *sc)
cond_resched();
}
/* whether try_to_inc_max_seq() was successful */
/* whether this lruvec should be rotated */
return nr_to_scan < 0;
}
......@@ -4764,13 +4764,13 @@ static void shrink_many(struct pglist_data *pgdat, struct scan_control *sc)
struct lruvec *lruvec;
struct lru_gen_folio *lrugen;
struct mem_cgroup *memcg;
const struct hlist_nulls_node *pos;
struct hlist_nulls_node *pos;
gen = get_memcg_gen(READ_ONCE(pgdat->memcg_lru.seq));
bin = first_bin = get_random_u32_below(MEMCG_NR_BINS);
restart:
op = 0;
memcg = NULL;
gen = get_memcg_gen(READ_ONCE(pgdat->memcg_lru.seq));
rcu_read_lock();
......@@ -4781,6 +4781,10 @@ static void shrink_many(struct pglist_data *pgdat, struct scan_control *sc)
}
mem_cgroup_put(memcg);
memcg = NULL;
if (gen != READ_ONCE(lrugen->gen))
continue;
lruvec = container_of(lrugen, struct lruvec, lrugen);
memcg = lruvec_memcg(lruvec);
......@@ -4865,16 +4869,14 @@ static void set_initial_priority(struct pglist_data *pgdat, struct scan_control
if (sc->priority != DEF_PRIORITY || sc->nr_to_reclaim < MIN_LRU_BATCH)
return;
/*
* Determine the initial priority based on ((total / MEMCG_NR_GENS) >>
* priority) * reclaimed_to_scanned_ratio = nr_to_reclaim, where the
* estimated reclaimed_to_scanned_ratio = inactive / total.
* Determine the initial priority based on
* (total >> priority) * reclaimed_to_scanned_ratio = nr_to_reclaim,
* where reclaimed_to_scanned_ratio = inactive / total.
*/
reclaimable = node_page_state(pgdat, NR_INACTIVE_FILE);
if (get_swappiness(lruvec, sc))
reclaimable += node_page_state(pgdat, NR_INACTIVE_ANON);
reclaimable /= MEMCG_NR_GENS;
/* round down reclaimable and round up sc->nr_to_reclaim */
priority = fls_long(reclaimable) - 1 - fls_long(sc->nr_to_reclaim - 1);
......
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