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mm/filemap.c: make global sync not clear error status of individual inodes
[deliverable/linux.git] / mm / list_lru.c
1 /*
2 * Copyright (c) 2013 Red Hat, Inc. and Parallels Inc. All rights reserved.
3 * Authors: David Chinner and Glauber Costa
4 *
5 * Generic LRU infrastructure
6 */
7 #include <linux/kernel.h>
8 #include <linux/module.h>
9 #include <linux/mm.h>
10 #include <linux/list_lru.h>
11 #include <linux/slab.h>
12 #include <linux/mutex.h>
13 #include <linux/memcontrol.h>
14
15 #ifdef CONFIG_MEMCG_KMEM
16 static LIST_HEAD(list_lrus);
17 static DEFINE_MUTEX(list_lrus_mutex);
18
19 static void list_lru_register(struct list_lru *lru)
20 {
21 mutex_lock(&list_lrus_mutex);
22 list_add(&lru->list, &list_lrus);
23 mutex_unlock(&list_lrus_mutex);
24 }
25
26 static void list_lru_unregister(struct list_lru *lru)
27 {
28 mutex_lock(&list_lrus_mutex);
29 list_del(&lru->list);
30 mutex_unlock(&list_lrus_mutex);
31 }
32 #else
33 static void list_lru_register(struct list_lru *lru)
34 {
35 }
36
37 static void list_lru_unregister(struct list_lru *lru)
38 {
39 }
40 #endif /* CONFIG_MEMCG_KMEM */
41
42 #ifdef CONFIG_MEMCG_KMEM
43 static inline bool list_lru_memcg_aware(struct list_lru *lru)
44 {
45 /*
46 * This needs node 0 to be always present, even
47 * in the systems supporting sparse numa ids.
48 */
49 return !!lru->node[0].memcg_lrus;
50 }
51
52 static inline struct list_lru_one *
53 list_lru_from_memcg_idx(struct list_lru_node *nlru, int idx)
54 {
55 /*
56 * The lock protects the array of per cgroup lists from relocation
57 * (see memcg_update_list_lru_node).
58 */
59 lockdep_assert_held(&nlru->lock);
60 if (nlru->memcg_lrus && idx >= 0)
61 return nlru->memcg_lrus->lru[idx];
62
63 return &nlru->lru;
64 }
65
66 static inline struct list_lru_one *
67 list_lru_from_kmem(struct list_lru_node *nlru, void *ptr)
68 {
69 struct mem_cgroup *memcg;
70
71 if (!nlru->memcg_lrus)
72 return &nlru->lru;
73
74 memcg = mem_cgroup_from_kmem(ptr);
75 if (!memcg)
76 return &nlru->lru;
77
78 return list_lru_from_memcg_idx(nlru, memcg_cache_id(memcg));
79 }
80 #else
81 static inline bool list_lru_memcg_aware(struct list_lru *lru)
82 {
83 return false;
84 }
85
86 static inline struct list_lru_one *
87 list_lru_from_memcg_idx(struct list_lru_node *nlru, int idx)
88 {
89 return &nlru->lru;
90 }
91
92 static inline struct list_lru_one *
93 list_lru_from_kmem(struct list_lru_node *nlru, void *ptr)
94 {
95 return &nlru->lru;
96 }
97 #endif /* CONFIG_MEMCG_KMEM */
98
99 bool list_lru_add(struct list_lru *lru, struct list_head *item)
100 {
101 int nid = page_to_nid(virt_to_page(item));
102 struct list_lru_node *nlru = &lru->node[nid];
103 struct list_lru_one *l;
104
105 spin_lock(&nlru->lock);
106 if (list_empty(item)) {
107 l = list_lru_from_kmem(nlru, item);
108 list_add_tail(item, &l->list);
109 l->nr_items++;
110 spin_unlock(&nlru->lock);
111 return true;
112 }
113 spin_unlock(&nlru->lock);
114 return false;
115 }
116 EXPORT_SYMBOL_GPL(list_lru_add);
117
118 bool list_lru_del(struct list_lru *lru, struct list_head *item)
119 {
120 int nid = page_to_nid(virt_to_page(item));
121 struct list_lru_node *nlru = &lru->node[nid];
122 struct list_lru_one *l;
123
124 spin_lock(&nlru->lock);
125 if (!list_empty(item)) {
126 l = list_lru_from_kmem(nlru, item);
127 list_del_init(item);
128 l->nr_items--;
129 spin_unlock(&nlru->lock);
130 return true;
131 }
132 spin_unlock(&nlru->lock);
133 return false;
134 }
135 EXPORT_SYMBOL_GPL(list_lru_del);
136
137 void list_lru_isolate(struct list_lru_one *list, struct list_head *item)
138 {
139 list_del_init(item);
140 list->nr_items--;
141 }
142 EXPORT_SYMBOL_GPL(list_lru_isolate);
143
144 void list_lru_isolate_move(struct list_lru_one *list, struct list_head *item,
145 struct list_head *head)
146 {
147 list_move(item, head);
148 list->nr_items--;
149 }
150 EXPORT_SYMBOL_GPL(list_lru_isolate_move);
151
152 static unsigned long __list_lru_count_one(struct list_lru *lru,
153 int nid, int memcg_idx)
154 {
155 struct list_lru_node *nlru = &lru->node[nid];
156 struct list_lru_one *l;
157 unsigned long count;
158
159 spin_lock(&nlru->lock);
160 l = list_lru_from_memcg_idx(nlru, memcg_idx);
161 count = l->nr_items;
162 spin_unlock(&nlru->lock);
163
164 return count;
165 }
166
167 unsigned long list_lru_count_one(struct list_lru *lru,
168 int nid, struct mem_cgroup *memcg)
169 {
170 return __list_lru_count_one(lru, nid, memcg_cache_id(memcg));
171 }
172 EXPORT_SYMBOL_GPL(list_lru_count_one);
173
174 unsigned long list_lru_count_node(struct list_lru *lru, int nid)
175 {
176 long count = 0;
177 int memcg_idx;
178
179 count += __list_lru_count_one(lru, nid, -1);
180 if (list_lru_memcg_aware(lru)) {
181 for_each_memcg_cache_index(memcg_idx)
182 count += __list_lru_count_one(lru, nid, memcg_idx);
183 }
184 return count;
185 }
186 EXPORT_SYMBOL_GPL(list_lru_count_node);
187
188 static unsigned long
189 __list_lru_walk_one(struct list_lru *lru, int nid, int memcg_idx,
190 list_lru_walk_cb isolate, void *cb_arg,
191 unsigned long *nr_to_walk)
192 {
193
194 struct list_lru_node *nlru = &lru->node[nid];
195 struct list_lru_one *l;
196 struct list_head *item, *n;
197 unsigned long isolated = 0;
198
199 spin_lock(&nlru->lock);
200 l = list_lru_from_memcg_idx(nlru, memcg_idx);
201 restart:
202 list_for_each_safe(item, n, &l->list) {
203 enum lru_status ret;
204
205 /*
206 * decrement nr_to_walk first so that we don't livelock if we
207 * get stuck on large numbesr of LRU_RETRY items
208 */
209 if (!*nr_to_walk)
210 break;
211 --*nr_to_walk;
212
213 ret = isolate(item, l, &nlru->lock, cb_arg);
214 switch (ret) {
215 case LRU_REMOVED_RETRY:
216 assert_spin_locked(&nlru->lock);
217 case LRU_REMOVED:
218 isolated++;
219 /*
220 * If the lru lock has been dropped, our list
221 * traversal is now invalid and so we have to
222 * restart from scratch.
223 */
224 if (ret == LRU_REMOVED_RETRY)
225 goto restart;
226 break;
227 case LRU_ROTATE:
228 list_move_tail(item, &l->list);
229 break;
230 case LRU_SKIP:
231 break;
232 case LRU_RETRY:
233 /*
234 * The lru lock has been dropped, our list traversal is
235 * now invalid and so we have to restart from scratch.
236 */
237 assert_spin_locked(&nlru->lock);
238 goto restart;
239 default:
240 BUG();
241 }
242 }
243
244 spin_unlock(&nlru->lock);
245 return isolated;
246 }
247
248 unsigned long
249 list_lru_walk_one(struct list_lru *lru, int nid, struct mem_cgroup *memcg,
250 list_lru_walk_cb isolate, void *cb_arg,
251 unsigned long *nr_to_walk)
252 {
253 return __list_lru_walk_one(lru, nid, memcg_cache_id(memcg),
254 isolate, cb_arg, nr_to_walk);
255 }
256 EXPORT_SYMBOL_GPL(list_lru_walk_one);
257
258 unsigned long list_lru_walk_node(struct list_lru *lru, int nid,
259 list_lru_walk_cb isolate, void *cb_arg,
260 unsigned long *nr_to_walk)
261 {
262 long isolated = 0;
263 int memcg_idx;
264
265 isolated += __list_lru_walk_one(lru, nid, -1, isolate, cb_arg,
266 nr_to_walk);
267 if (*nr_to_walk > 0 && list_lru_memcg_aware(lru)) {
268 for_each_memcg_cache_index(memcg_idx) {
269 isolated += __list_lru_walk_one(lru, nid, memcg_idx,
270 isolate, cb_arg, nr_to_walk);
271 if (*nr_to_walk <= 0)
272 break;
273 }
274 }
275 return isolated;
276 }
277 EXPORT_SYMBOL_GPL(list_lru_walk_node);
278
279 static void init_one_lru(struct list_lru_one *l)
280 {
281 INIT_LIST_HEAD(&l->list);
282 l->nr_items = 0;
283 }
284
285 #ifdef CONFIG_MEMCG_KMEM
286 static void __memcg_destroy_list_lru_node(struct list_lru_memcg *memcg_lrus,
287 int begin, int end)
288 {
289 int i;
290
291 for (i = begin; i < end; i++)
292 kfree(memcg_lrus->lru[i]);
293 }
294
295 static int __memcg_init_list_lru_node(struct list_lru_memcg *memcg_lrus,
296 int begin, int end)
297 {
298 int i;
299
300 for (i = begin; i < end; i++) {
301 struct list_lru_one *l;
302
303 l = kmalloc(sizeof(struct list_lru_one), GFP_KERNEL);
304 if (!l)
305 goto fail;
306
307 init_one_lru(l);
308 memcg_lrus->lru[i] = l;
309 }
310 return 0;
311 fail:
312 __memcg_destroy_list_lru_node(memcg_lrus, begin, i - 1);
313 return -ENOMEM;
314 }
315
316 static int memcg_init_list_lru_node(struct list_lru_node *nlru)
317 {
318 int size = memcg_nr_cache_ids;
319
320 nlru->memcg_lrus = kmalloc(size * sizeof(void *), GFP_KERNEL);
321 if (!nlru->memcg_lrus)
322 return -ENOMEM;
323
324 if (__memcg_init_list_lru_node(nlru->memcg_lrus, 0, size)) {
325 kfree(nlru->memcg_lrus);
326 return -ENOMEM;
327 }
328
329 return 0;
330 }
331
332 static void memcg_destroy_list_lru_node(struct list_lru_node *nlru)
333 {
334 __memcg_destroy_list_lru_node(nlru->memcg_lrus, 0, memcg_nr_cache_ids);
335 kfree(nlru->memcg_lrus);
336 }
337
338 static int memcg_update_list_lru_node(struct list_lru_node *nlru,
339 int old_size, int new_size)
340 {
341 struct list_lru_memcg *old, *new;
342
343 BUG_ON(old_size > new_size);
344
345 old = nlru->memcg_lrus;
346 new = kmalloc(new_size * sizeof(void *), GFP_KERNEL);
347 if (!new)
348 return -ENOMEM;
349
350 if (__memcg_init_list_lru_node(new, old_size, new_size)) {
351 kfree(new);
352 return -ENOMEM;
353 }
354
355 memcpy(new, old, old_size * sizeof(void *));
356
357 /*
358 * The lock guarantees that we won't race with a reader
359 * (see list_lru_from_memcg_idx).
360 *
361 * Since list_lru_{add,del} may be called under an IRQ-safe lock,
362 * we have to use IRQ-safe primitives here to avoid deadlock.
363 */
364 spin_lock_irq(&nlru->lock);
365 nlru->memcg_lrus = new;
366 spin_unlock_irq(&nlru->lock);
367
368 kfree(old);
369 return 0;
370 }
371
372 static void memcg_cancel_update_list_lru_node(struct list_lru_node *nlru,
373 int old_size, int new_size)
374 {
375 /* do not bother shrinking the array back to the old size, because we
376 * cannot handle allocation failures here */
377 __memcg_destroy_list_lru_node(nlru->memcg_lrus, old_size, new_size);
378 }
379
380 static int memcg_init_list_lru(struct list_lru *lru, bool memcg_aware)
381 {
382 int i;
383
384 if (!memcg_aware)
385 return 0;
386
387 for_each_node(i) {
388 if (memcg_init_list_lru_node(&lru->node[i]))
389 goto fail;
390 }
391 return 0;
392 fail:
393 for (i = i - 1; i >= 0; i--) {
394 if (!lru->node[i].memcg_lrus)
395 continue;
396 memcg_destroy_list_lru_node(&lru->node[i]);
397 }
398 return -ENOMEM;
399 }
400
401 static void memcg_destroy_list_lru(struct list_lru *lru)
402 {
403 int i;
404
405 if (!list_lru_memcg_aware(lru))
406 return;
407
408 for_each_node(i)
409 memcg_destroy_list_lru_node(&lru->node[i]);
410 }
411
412 static int memcg_update_list_lru(struct list_lru *lru,
413 int old_size, int new_size)
414 {
415 int i;
416
417 if (!list_lru_memcg_aware(lru))
418 return 0;
419
420 for_each_node(i) {
421 if (memcg_update_list_lru_node(&lru->node[i],
422 old_size, new_size))
423 goto fail;
424 }
425 return 0;
426 fail:
427 for (i = i - 1; i >= 0; i--) {
428 if (!lru->node[i].memcg_lrus)
429 continue;
430
431 memcg_cancel_update_list_lru_node(&lru->node[i],
432 old_size, new_size);
433 }
434 return -ENOMEM;
435 }
436
437 static void memcg_cancel_update_list_lru(struct list_lru *lru,
438 int old_size, int new_size)
439 {
440 int i;
441
442 if (!list_lru_memcg_aware(lru))
443 return;
444
445 for_each_node(i)
446 memcg_cancel_update_list_lru_node(&lru->node[i],
447 old_size, new_size);
448 }
449
450 int memcg_update_all_list_lrus(int new_size)
451 {
452 int ret = 0;
453 struct list_lru *lru;
454 int old_size = memcg_nr_cache_ids;
455
456 mutex_lock(&list_lrus_mutex);
457 list_for_each_entry(lru, &list_lrus, list) {
458 ret = memcg_update_list_lru(lru, old_size, new_size);
459 if (ret)
460 goto fail;
461 }
462 out:
463 mutex_unlock(&list_lrus_mutex);
464 return ret;
465 fail:
466 list_for_each_entry_continue_reverse(lru, &list_lrus, list)
467 memcg_cancel_update_list_lru(lru, old_size, new_size);
468 goto out;
469 }
470
471 static void memcg_drain_list_lru_node(struct list_lru_node *nlru,
472 int src_idx, int dst_idx)
473 {
474 struct list_lru_one *src, *dst;
475
476 /*
477 * Since list_lru_{add,del} may be called under an IRQ-safe lock,
478 * we have to use IRQ-safe primitives here to avoid deadlock.
479 */
480 spin_lock_irq(&nlru->lock);
481
482 src = list_lru_from_memcg_idx(nlru, src_idx);
483 dst = list_lru_from_memcg_idx(nlru, dst_idx);
484
485 list_splice_init(&src->list, &dst->list);
486 dst->nr_items += src->nr_items;
487 src->nr_items = 0;
488
489 spin_unlock_irq(&nlru->lock);
490 }
491
492 static void memcg_drain_list_lru(struct list_lru *lru,
493 int src_idx, int dst_idx)
494 {
495 int i;
496
497 if (!list_lru_memcg_aware(lru))
498 return;
499
500 for_each_node(i)
501 memcg_drain_list_lru_node(&lru->node[i], src_idx, dst_idx);
502 }
503
504 void memcg_drain_all_list_lrus(int src_idx, int dst_idx)
505 {
506 struct list_lru *lru;
507
508 mutex_lock(&list_lrus_mutex);
509 list_for_each_entry(lru, &list_lrus, list)
510 memcg_drain_list_lru(lru, src_idx, dst_idx);
511 mutex_unlock(&list_lrus_mutex);
512 }
513 #else
514 static int memcg_init_list_lru(struct list_lru *lru, bool memcg_aware)
515 {
516 return 0;
517 }
518
519 static void memcg_destroy_list_lru(struct list_lru *lru)
520 {
521 }
522 #endif /* CONFIG_MEMCG_KMEM */
523
524 int __list_lru_init(struct list_lru *lru, bool memcg_aware,
525 struct lock_class_key *key)
526 {
527 int i;
528 size_t size = sizeof(*lru->node) * nr_node_ids;
529 int err = -ENOMEM;
530
531 memcg_get_cache_ids();
532
533 lru->node = kzalloc(size, GFP_KERNEL);
534 if (!lru->node)
535 goto out;
536
537 for_each_node(i) {
538 spin_lock_init(&lru->node[i].lock);
539 if (key)
540 lockdep_set_class(&lru->node[i].lock, key);
541 init_one_lru(&lru->node[i].lru);
542 }
543
544 err = memcg_init_list_lru(lru, memcg_aware);
545 if (err) {
546 kfree(lru->node);
547 goto out;
548 }
549
550 list_lru_register(lru);
551 out:
552 memcg_put_cache_ids();
553 return err;
554 }
555 EXPORT_SYMBOL_GPL(__list_lru_init);
556
557 void list_lru_destroy(struct list_lru *lru)
558 {
559 /* Already destroyed or not yet initialized? */
560 if (!lru->node)
561 return;
562
563 memcg_get_cache_ids();
564
565 list_lru_unregister(lru);
566
567 memcg_destroy_list_lru(lru);
568 kfree(lru->node);
569 lru->node = NULL;
570
571 memcg_put_cache_ids();
572 }
573 EXPORT_SYMBOL_GPL(list_lru_destroy);
Linux kernel - Deliverables
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