forked from luck/tmp_suning_uos_patched
3e85899637
We have a single node system with node 0 disabled:
Scanning NUMA topology in Northbridge 24
Number of physical nodes 2
Skipping disabled node 0
Node 1 MemBase 0000000000000000 Limit 00000000fbff0000
NODE_DATA(1) allocated [mem 0xfbfda000-0xfbfeffff]
This causes crashes in memcg when system boots:
BUG: unable to handle kernel NULL pointer dereference at 0000000000000008
#PF error: [normal kernel read fault]
...
RIP: 0010:list_lru_add+0x94/0x170
...
Call Trace:
d_lru_add+0x44/0x50
dput.part.34+0xfc/0x110
__fput+0x108/0x230
task_work_run+0x9f/0xc0
exit_to_usermode_loop+0xf5/0x100
It is reproducible as far as 4.12. I did not try older kernels. You have
to have a new enough systemd, e.g. 241 (the reason is unknown -- was not
investigated). Cannot be reproduced with systemd 234.
The system crashes because the size of lru array is never updated in
memcg_update_all_list_lrus and the reads are past the zero-sized array,
causing dereferences of random memory.
The root cause are list_lru_memcg_aware checks in the list_lru code. The
test in list_lru_memcg_aware is broken: it assumes node 0 is always
present, but it is not true on some systems as can be seen above.
So fix this by avoiding checks on node 0. Remember the memcg-awareness by
a bool flag in struct list_lru.
Link: http://lkml.kernel.org/r/20190522091940.3615-1-jslaby@suse.cz
Fixes: 60d3fd32a7
("list_lru: introduce per-memcg lists")
Signed-off-by: Jiri Slaby <jslaby@suse.cz>
Acked-by: Michal Hocko <mhocko@suse.com>
Suggested-by: Vladimir Davydov <vdavydov.dev@gmail.com>
Acked-by: Vladimir Davydov <vdavydov.dev@gmail.com>
Reviewed-by: Shakeel Butt <shakeelb@google.com>
Cc: Johannes Weiner <hannes@cmpxchg.org>
Cc: Raghavendra K T <raghavendra.kt@linux.vnet.ibm.com>
Cc: <stable@vger.kernel.org>
Signed-off-by: Andrew Morton <akpm@linux-foundation.org>
Signed-off-by: Linus Torvalds <torvalds@linux-foundation.org>
223 lines
7.3 KiB
C
223 lines
7.3 KiB
C
/* SPDX-License-Identifier: GPL-2.0 */
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/*
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* Copyright (c) 2013 Red Hat, Inc. and Parallels Inc. All rights reserved.
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* Authors: David Chinner and Glauber Costa
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*
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* Generic LRU infrastructure
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*/
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#ifndef _LRU_LIST_H
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#define _LRU_LIST_H
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#include <linux/list.h>
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#include <linux/nodemask.h>
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#include <linux/shrinker.h>
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struct mem_cgroup;
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/* list_lru_walk_cb has to always return one of those */
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enum lru_status {
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LRU_REMOVED, /* item removed from list */
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LRU_REMOVED_RETRY, /* item removed, but lock has been
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dropped and reacquired */
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LRU_ROTATE, /* item referenced, give another pass */
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LRU_SKIP, /* item cannot be locked, skip */
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LRU_RETRY, /* item not freeable. May drop the lock
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internally, but has to return locked. */
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};
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struct list_lru_one {
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struct list_head list;
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/* may become negative during memcg reparenting */
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long nr_items;
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};
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struct list_lru_memcg {
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struct rcu_head rcu;
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/* array of per cgroup lists, indexed by memcg_cache_id */
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struct list_lru_one *lru[0];
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};
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struct list_lru_node {
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/* protects all lists on the node, including per cgroup */
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spinlock_t lock;
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/* global list, used for the root cgroup in cgroup aware lrus */
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struct list_lru_one lru;
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#ifdef CONFIG_MEMCG_KMEM
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/* for cgroup aware lrus points to per cgroup lists, otherwise NULL */
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struct list_lru_memcg __rcu *memcg_lrus;
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#endif
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long nr_items;
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} ____cacheline_aligned_in_smp;
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struct list_lru {
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struct list_lru_node *node;
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#ifdef CONFIG_MEMCG_KMEM
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struct list_head list;
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int shrinker_id;
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bool memcg_aware;
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#endif
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};
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void list_lru_destroy(struct list_lru *lru);
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int __list_lru_init(struct list_lru *lru, bool memcg_aware,
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struct lock_class_key *key, struct shrinker *shrinker);
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#define list_lru_init(lru) \
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__list_lru_init((lru), false, NULL, NULL)
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#define list_lru_init_key(lru, key) \
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__list_lru_init((lru), false, (key), NULL)
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#define list_lru_init_memcg(lru, shrinker) \
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__list_lru_init((lru), true, NULL, shrinker)
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int memcg_update_all_list_lrus(int num_memcgs);
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void memcg_drain_all_list_lrus(int src_idx, struct mem_cgroup *dst_memcg);
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/**
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* list_lru_add: add an element to the lru list's tail
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* @list_lru: the lru pointer
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* @item: the item to be added.
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*
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* If the element is already part of a list, this function returns doing
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* nothing. Therefore the caller does not need to keep state about whether or
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* not the element already belongs in the list and is allowed to lazy update
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* it. Note however that this is valid for *a* list, not *this* list. If
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* the caller organize itself in a way that elements can be in more than
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* one type of list, it is up to the caller to fully remove the item from
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* the previous list (with list_lru_del() for instance) before moving it
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* to @list_lru
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*
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* Return value: true if the list was updated, false otherwise
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*/
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bool list_lru_add(struct list_lru *lru, struct list_head *item);
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/**
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* list_lru_del: delete an element to the lru list
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* @list_lru: the lru pointer
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* @item: the item to be deleted.
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*
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* This function works analogously as list_lru_add in terms of list
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* manipulation. The comments about an element already pertaining to
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* a list are also valid for list_lru_del.
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*
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* Return value: true if the list was updated, false otherwise
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*/
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bool list_lru_del(struct list_lru *lru, struct list_head *item);
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/**
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* list_lru_count_one: return the number of objects currently held by @lru
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* @lru: the lru pointer.
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* @nid: the node id to count from.
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* @memcg: the cgroup to count from.
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*
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* Always return a non-negative number, 0 for empty lists. There is no
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* guarantee that the list is not updated while the count is being computed.
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* Callers that want such a guarantee need to provide an outer lock.
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*/
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unsigned long list_lru_count_one(struct list_lru *lru,
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int nid, struct mem_cgroup *memcg);
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unsigned long list_lru_count_node(struct list_lru *lru, int nid);
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static inline unsigned long list_lru_shrink_count(struct list_lru *lru,
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struct shrink_control *sc)
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{
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return list_lru_count_one(lru, sc->nid, sc->memcg);
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}
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static inline unsigned long list_lru_count(struct list_lru *lru)
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{
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long count = 0;
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int nid;
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for_each_node_state(nid, N_NORMAL_MEMORY)
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count += list_lru_count_node(lru, nid);
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return count;
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}
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void list_lru_isolate(struct list_lru_one *list, struct list_head *item);
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void list_lru_isolate_move(struct list_lru_one *list, struct list_head *item,
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struct list_head *head);
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typedef enum lru_status (*list_lru_walk_cb)(struct list_head *item,
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struct list_lru_one *list, spinlock_t *lock, void *cb_arg);
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/**
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* list_lru_walk_one: walk a list_lru, isolating and disposing freeable items.
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* @lru: the lru pointer.
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* @nid: the node id to scan from.
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* @memcg: the cgroup to scan from.
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* @isolate: callback function that is resposible for deciding what to do with
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* the item currently being scanned
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* @cb_arg: opaque type that will be passed to @isolate
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* @nr_to_walk: how many items to scan.
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*
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* This function will scan all elements in a particular list_lru, calling the
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* @isolate callback for each of those items, along with the current list
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* spinlock and a caller-provided opaque. The @isolate callback can choose to
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* drop the lock internally, but *must* return with the lock held. The callback
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* will return an enum lru_status telling the list_lru infrastructure what to
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* do with the object being scanned.
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*
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* Please note that nr_to_walk does not mean how many objects will be freed,
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* just how many objects will be scanned.
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*
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* Return value: the number of objects effectively removed from the LRU.
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*/
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unsigned long list_lru_walk_one(struct list_lru *lru,
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int nid, struct mem_cgroup *memcg,
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list_lru_walk_cb isolate, void *cb_arg,
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unsigned long *nr_to_walk);
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/**
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* list_lru_walk_one_irq: walk a list_lru, isolating and disposing freeable items.
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* @lru: the lru pointer.
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* @nid: the node id to scan from.
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* @memcg: the cgroup to scan from.
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* @isolate: callback function that is resposible for deciding what to do with
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* the item currently being scanned
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* @cb_arg: opaque type that will be passed to @isolate
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* @nr_to_walk: how many items to scan.
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*
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* Same as @list_lru_walk_one except that the spinlock is acquired with
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* spin_lock_irq().
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*/
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unsigned long list_lru_walk_one_irq(struct list_lru *lru,
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int nid, struct mem_cgroup *memcg,
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list_lru_walk_cb isolate, void *cb_arg,
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unsigned long *nr_to_walk);
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unsigned long list_lru_walk_node(struct list_lru *lru, int nid,
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list_lru_walk_cb isolate, void *cb_arg,
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unsigned long *nr_to_walk);
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static inline unsigned long
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list_lru_shrink_walk(struct list_lru *lru, struct shrink_control *sc,
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list_lru_walk_cb isolate, void *cb_arg)
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{
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return list_lru_walk_one(lru, sc->nid, sc->memcg, isolate, cb_arg,
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&sc->nr_to_scan);
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}
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static inline unsigned long
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list_lru_shrink_walk_irq(struct list_lru *lru, struct shrink_control *sc,
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list_lru_walk_cb isolate, void *cb_arg)
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{
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return list_lru_walk_one_irq(lru, sc->nid, sc->memcg, isolate, cb_arg,
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&sc->nr_to_scan);
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}
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static inline unsigned long
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list_lru_walk(struct list_lru *lru, list_lru_walk_cb isolate,
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void *cb_arg, unsigned long nr_to_walk)
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{
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long isolated = 0;
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int nid;
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for_each_node_state(nid, N_NORMAL_MEMORY) {
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isolated += list_lru_walk_node(lru, nid, isolate,
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cb_arg, &nr_to_walk);
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if (nr_to_walk <= 0)
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break;
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}
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return isolated;
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}
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#endif /* _LRU_LIST_H */
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