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sysfs.c

sysfs.c 20 KB
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  1. /*
    2. 

  2.  * bcache sysfs interfaces
    3. 

  3.  *
    4. 

  4.  * Copyright 2010, 2011 Kent Overstreet <kent.overstreet@gmail.com>
    5. 

  5.  * Copyright 2012 Google, Inc.
    6. 

  6.  */
    7. 

  7. 

  8. #include "bcache.h"
    9. 

  9. #include "sysfs.h"
    10. 

  10. #include "btree.h"
    11. 

  11. #include "request.h"
    12. 

  12. #include "writeback.h"
    13. 

  13. 

  14. #include <linux/blkdev.h>
    15. 

  15. #include <linux/sort.h>
    16. 

  16. 

  17. static const char * const cache_replacement_policies[] = {
    18. 

  18. 	"lru",
    19. 

  19. 	"fifo",
    20. 

  20. 	"random",
    21. 

  21. 	NULL
    22. 

  22. };
    23. 

  23. 

  24. write_attribute(attach);
    25. 

  25. write_attribute(detach);
    26. 

  26. write_attribute(unregister);
    27. 

  27. write_attribute(stop);
    28. 

  28. write_attribute(clear_stats);
    29. 

  29. write_attribute(trigger_gc);
    30. 

  30. write_attribute(prune_cache);
    31. 

  31. write_attribute(flash_vol_create);
    32. 

  32. 

  33. read_attribute(bucket_size);
    34. 

  34. read_attribute(block_size);
    35. 

  35. read_attribute(nbuckets);
    36. 

  36. read_attribute(tree_depth);
    37. 

  37. read_attribute(root_usage_percent);
    38. 

  38. read_attribute(priority_stats);
    39. 

  39. read_attribute(btree_cache_size);
    40. 

  40. read_attribute(btree_cache_max_chain);
    41. 

  41. read_attribute(cache_available_percent);
    42. 

  42. read_attribute(written);
    43. 

  43. read_attribute(btree_written);
    44. 

  44. read_attribute(metadata_written);
    45. 

  45. read_attribute(active_journal_entries);
    46. 

  46. 

  47. sysfs_time_stats_attribute(btree_gc,	sec, ms);
    48. 

  48. sysfs_time_stats_attribute(btree_split, sec, us);
    49. 

  49. sysfs_time_stats_attribute(btree_sort,	ms,  us);
    50. 

  50. sysfs_time_stats_attribute(btree_read,	ms,  us);
    51. 

  51. sysfs_time_stats_attribute(try_harder,	ms,  us);
    52. 

  52. 

  53. read_attribute(btree_nodes);
    54. 

  54. read_attribute(btree_used_percent);
    55. 

  55. read_attribute(average_key_size);
    56. 

  56. read_attribute(dirty_data);
    57. 

  57. read_attribute(bset_tree_stats);
    58. 

  58. 

  59. read_attribute(state);
    60. 

  60. read_attribute(cache_read_races);
    61. 

  61. read_attribute(writeback_keys_done);
    62. 

  62. read_attribute(writeback_keys_failed);
    63. 

  63. read_attribute(io_errors);
    64. 

  64. read_attribute(congested);
    65. 

  65. rw_attribute(congested_read_threshold_us);
    66. 

  66. rw_attribute(congested_write_threshold_us);
    67. 

  67. 

  68. rw_attribute(sequential_cutoff);
    69. 

  69. rw_attribute(sequential_merge);
    70. 

  70. rw_attribute(data_csum);
    71. 

  71. rw_attribute(cache_mode);
    72. 

  72. rw_attribute(writeback_metadata);
    73. 

  73. rw_attribute(writeback_running);
    74. 

  74. rw_attribute(writeback_percent);
    75. 

  75. rw_attribute(writeback_delay);
    76. 

  76. rw_attribute(writeback_rate);
    77. 

  77. 

  78. rw_attribute(writeback_rate_update_seconds);
    79. 

  79. rw_attribute(writeback_rate_d_term);
    80. 

  80. rw_attribute(writeback_rate_p_term_inverse);
    81. 

  81. rw_attribute(writeback_rate_d_smooth);
    82. 

  82. read_attribute(writeback_rate_debug);
    83. 

  83. 

  84. read_attribute(stripe_size);
    85. 

  85. read_attribute(partial_stripes_expensive);
    86. 

  86. 

  87. rw_attribute(synchronous);
    88. 

  88. rw_attribute(journal_delay_ms);
    89. 

  89. rw_attribute(discard);
    90. 

  90. rw_attribute(running);
    91. 

  91. rw_attribute(label);
    92. 

  92. rw_attribute(readahead);
    93. 

  93. rw_attribute(io_error_limit);
    94. 

  94. rw_attribute(io_error_halflife);
    95. 

  95. rw_attribute(verify);
    96. 

  96. rw_attribute(key_merging_disabled);
    97. 

  97. rw_attribute(gc_always_rewrite);
    98. 

  98. rw_attribute(freelist_percent);
    99. 

  99. rw_attribute(cache_replacement_policy);
    100. 

  100. rw_attribute(btree_shrinker_disabled);
    101. 

  101. rw_attribute(copy_gc_enabled);
    102. 

  102. rw_attribute(size);
    103. 

  103. 

  104. SHOW(__bch_cached_dev)
    105. 

  105. {
    106. 

  106. 	struct cached_dev *dc = container_of(kobj, struct cached_dev,
    107. 

  107. 					     disk.kobj);
    108. 

  108. 	const char *states[] = { "no cache", "clean", "dirty", "inconsistent" };
    109. 

  109. 

  110. #define var(stat)		(dc->stat)
    111. 

  111. 

  112. 	if (attr == &sysfs_cache_mode)
    113. 

  113. 		return bch_snprint_string_list(buf, PAGE_SIZE,
    114. 

  114. 					       bch_cache_modes + 1,
    115. 

  115. 					       BDEV_CACHE_MODE(&dc->sb));
    116. 

  116. 

  117. 	sysfs_printf(data_csum,		"%i", dc->disk.data_csum);
    118. 

  118. 	var_printf(verify,		"%i");
    119. 

  119. 	var_printf(writeback_metadata,	"%i");
    120. 

  120. 	var_printf(writeback_running,	"%i");
    121. 

  121. 	var_print(writeback_delay);
    122. 

  122. 	var_print(writeback_percent);
    123. 

  123. 	sysfs_print(writeback_rate,	dc->writeback_rate.rate);
    124. 

  124. 

  125. 	var_print(writeback_rate_update_seconds);
    126. 

  126. 	var_print(writeback_rate_d_term);
    127. 

  127. 	var_print(writeback_rate_p_term_inverse);
    128. 

  128. 	var_print(writeback_rate_d_smooth);
    129. 

  129. 

  130. 	if (attr == &sysfs_writeback_rate_debug) {
    131. 

  131. 		char dirty[20];
    132. 

  132. 		char derivative[20];
    133. 

  133. 		char target[20];
    134. 

  134. 		bch_hprint(dirty,
    135. 

  135. 			   bcache_dev_sectors_dirty(&dc->disk) << 9);
    136. 

  136. 		bch_hprint(derivative,	dc->writeback_rate_derivative << 9);
    137. 

  137. 		bch_hprint(target,	dc->writeback_rate_target << 9);
    138. 

  138. 

  139. 		return sprintf(buf,
    140. 

  140. 			       "rate:\t\t%u\n"
    141. 

  141. 			       "change:\t\t%i\n"
    142. 

  142. 			       "dirty:\t\t%s\n"
    143. 

  143. 			       "derivative:\t%s\n"
    144. 

  144. 			       "target:\t\t%s\n",
    145. 

  145. 			       dc->writeback_rate.rate,
    146. 

  146. 			       dc->writeback_rate_change,
    147. 

  147. 			       dirty, derivative, target);
    148. 

  148. 	}
    149. 

  149. 

  150. 	sysfs_hprint(dirty_data,
    151. 

  151. 		     bcache_dev_sectors_dirty(&dc->disk) << 9);
    152. 

  152. 

  153. 	sysfs_hprint(stripe_size,	(1 << dc->disk.stripe_size_bits) << 9);
    154. 

  154. 	var_printf(partial_stripes_expensive,	"%u");
    155. 

  155. 

  156. 	var_printf(sequential_merge,	"%i");
    157. 

  157. 	var_hprint(sequential_cutoff);
    158. 

  158. 	var_hprint(readahead);
    159. 

  159. 

  160. 	sysfs_print(running,		atomic_read(&dc->running));
    161. 

  161. 	sysfs_print(state,		states[BDEV_STATE(&dc->sb)]);
    162. 

  162. 

  163. 	if (attr == &sysfs_label) {
    164. 

  164. 		memcpy(buf, dc->sb.label, SB_LABEL_SIZE);
    165. 

  165. 		buf[SB_LABEL_SIZE + 1] = '\0';
    166. 

  166. 		strcat(buf, "\n");
    167. 

  167. 		return strlen(buf);
    168. 

  168. 	}
    169. 

  169. 

  170. #undef var
    171. 

  171. 	return 0;
    172. 

  172. }
    173. 

  173. SHOW_LOCKED(bch_cached_dev)
    174. 

  174. 

  175. STORE(__cached_dev)
    176. 

  176. {
    177. 

  177. 	struct cached_dev *dc = container_of(kobj, struct cached_dev,
    178. 

  178. 					     disk.kobj);
    179. 

  179. 	unsigned v = size;
    180. 

  180. 	struct cache_set *c;
    181. 

  181. 	struct kobj_uevent_env *env;
    182. 

  182. 

  183. #define d_strtoul(var)		sysfs_strtoul(var, dc->var)
    184. 

  184. #define d_strtoi_h(var)		sysfs_hatoi(var, dc->var)
    185. 

  185. 

  186. 	sysfs_strtoul(data_csum,	dc->disk.data_csum);
    187. 

  187. 	d_strtoul(verify);
    188. 

  188. 	d_strtoul(writeback_metadata);
    189. 

  189. 	d_strtoul(writeback_running);
    190. 

  190. 	d_strtoul(writeback_delay);
    191. 

  191. 	sysfs_strtoul_clamp(writeback_rate,
    192. 

  192. 			    dc->writeback_rate.rate, 1, 1000000);
    193. 

  193. 	sysfs_strtoul_clamp(writeback_percent, dc->writeback_percent, 0, 40);
    194. 

  194. 

  195. 	d_strtoul(writeback_rate_update_seconds);
    196. 

  196. 	d_strtoul(writeback_rate_d_term);
    197. 

  197. 	d_strtoul(writeback_rate_p_term_inverse);
    198. 

  198. 	sysfs_strtoul_clamp(writeback_rate_p_term_inverse,
    199. 

  199. 			    dc->writeback_rate_p_term_inverse, 1, INT_MAX);
    200. 

  200. 	d_strtoul(writeback_rate_d_smooth);
    201. 

  201. 

  202. 	d_strtoul(sequential_merge);
    203. 

  203. 	d_strtoi_h(sequential_cutoff);
    204. 

  204. 	d_strtoi_h(readahead);
    205. 

  205. 

  206. 	if (attr == &sysfs_clear_stats)
    207. 

  207. 		bch_cache_accounting_clear(&dc->accounting);
    208. 

  208. 

  209. 	if (attr == &sysfs_running &&
    210. 

  210. 	    strtoul_or_return(buf))
    211. 

  211. 		bch_cached_dev_run(dc);
    212. 

  212. 

  213. 	if (attr == &sysfs_cache_mode) {
    214. 

  214. 		ssize_t v = bch_read_string_list(buf, bch_cache_modes + 1);
    215. 

  215. 

  216. 		if (v < 0)
    217. 

  217. 			return v;
    218. 

  218. 

  219. 		if ((unsigned) v != BDEV_CACHE_MODE(&dc->sb)) {
    220. 

  220. 			SET_BDEV_CACHE_MODE(&dc->sb, v);
    221. 

  221. 			bch_write_bdev_super(dc, NULL);
    222. 

  222. 		}
    223. 

  223. 	}
    224. 

  224. 

  225. 	if (attr == &sysfs_label) {
    226. 

  226. 		if (size > SB_LABEL_SIZE)
    227. 

  227. 			return -EINVAL;
    228. 

  228. 		memcpy(dc->sb.label, buf, size);
    229. 

  229. 		if (size < SB_LABEL_SIZE)
    230. 

  230. 			dc->sb.label[size] = '\0';
    231. 

  231. 		if (size && dc->sb.label[size - 1] == '\n')
    232. 

  232. 			dc->sb.label[size - 1] = '\0';
    233. 

  233. 		bch_write_bdev_super(dc, NULL);
    234. 

  234. 		if (dc->disk.c) {
    235. 

  235. 			memcpy(dc->disk.c->uuids[dc->disk.id].label,
    236. 

  236. 			       buf, SB_LABEL_SIZE);
    237. 

  237. 			bch_uuid_write(dc->disk.c);
    238. 

  238. 		}
    239. 

  239. 		env = kzalloc(sizeof(struct kobj_uevent_env), GFP_KERNEL);
    240. 

  240. 		if (!env)
    241. 

  241. 			return -ENOMEM;
    242. 

  242. 		add_uevent_var(env, "DRIVER=bcache");
    243. 

  243. 		add_uevent_var(env, "CACHED_UUID=%pU", dc->sb.uuid),
    244. 

  244. 		add_uevent_var(env, "CACHED_LABEL=%s", buf);
    245. 

  245. 		kobject_uevent_env(
    246. 

  246. 			&disk_to_dev(dc->disk.disk)->kobj, KOBJ_CHANGE, env->envp);
    247. 

  247. 		kfree(env);
    248. 

  248. 	}
    249. 

  249. 

  250. 	if (attr == &sysfs_attach) {
    251. 

  251. 		if (bch_parse_uuid(buf, dc->sb.set_uuid) < 16)
    252. 

  252. 			return -EINVAL;
    253. 

  253. 

  254. 		list_for_each_entry(c, &bch_cache_sets, list) {
    255. 

  255. 			v = bch_cached_dev_attach(dc, c);
    256. 

  256. 			if (!v)
    257. 

  257. 				return size;
    258. 

  258. 		}
    259. 

  259. 

  260. 		pr_err("Can't attach %s: cache set not found", buf);
    261. 

  261. 		size = v;
    262. 

  262. 	}
    263. 

  263. 

  264. 	if (attr == &sysfs_detach && dc->disk.c)
    265. 

  265. 		bch_cached_dev_detach(dc);
    266. 

  266. 

  267. 	if (attr == &sysfs_stop)
    268. 

  268. 		bcache_device_stop(&dc->disk);
    269. 

  269. 

  270. 	return size;
    271. 

  271. }
    272. 

  272. 

  273. STORE(bch_cached_dev)
    274. 

  274. {
    275. 

  275. 	struct cached_dev *dc = container_of(kobj, struct cached_dev,
    276. 

  276. 					     disk.kobj);
    277. 

  277. 

  278. 	mutex_lock(&bch_register_lock);
    279. 

  279. 	size = __cached_dev_store(kobj, attr, buf, size);
    280. 

  280. 

  281. 	if (attr == &sysfs_writeback_running)
    282. 

  282. 		bch_writeback_queue(dc);
    283. 

  283. 

  284. 	if (attr == &sysfs_writeback_percent)
    285. 

  285. 		schedule_delayed_work(&dc->writeback_rate_update,
    286. 

  286. 				      dc->writeback_rate_update_seconds * HZ);
    287. 

  287. 

  288. 	mutex_unlock(&bch_register_lock);
    289. 

  289. 	return size;
    290. 

  290. }
    291. 

  291. 

  292. static struct attribute *bch_cached_dev_files[] = {
    293. 

  293. 	&sysfs_attach,
    294. 

  294. 	&sysfs_detach,
    295. 

  295. 	&sysfs_stop,
    296. 

  296. #if 0
    297. 

  297. 	&sysfs_data_csum,
    298. 

  298. #endif
    299. 

  299. 	&sysfs_cache_mode,
    300. 

  300. 	&sysfs_writeback_metadata,
    301. 

  301. 	&sysfs_writeback_running,
    302. 

  302. 	&sysfs_writeback_delay,
    303. 

  303. 	&sysfs_writeback_percent,
    304. 

  304. 	&sysfs_writeback_rate,
    305. 

  305. 	&sysfs_writeback_rate_update_seconds,
    306. 

  306. 	&sysfs_writeback_rate_d_term,
    307. 

  307. 	&sysfs_writeback_rate_p_term_inverse,
    308. 

  308. 	&sysfs_writeback_rate_d_smooth,
    309. 

  309. 	&sysfs_writeback_rate_debug,
    310. 

  310. 	&sysfs_dirty_data,
    311. 

  311. 	&sysfs_stripe_size,
    312. 

  312. 	&sysfs_partial_stripes_expensive,
    313. 

  313. 	&sysfs_sequential_cutoff,
    314. 

  314. 	&sysfs_sequential_merge,
    315. 

  315. 	&sysfs_clear_stats,
    316. 

  316. 	&sysfs_running,
    317. 

  317. 	&sysfs_state,
    318. 

  318. 	&sysfs_label,
    319. 

  319. 	&sysfs_readahead,
    320. 

  320. #ifdef CONFIG_BCACHE_DEBUG
    321. 

  321. 	&sysfs_verify,
    322. 

  322. #endif
    323. 

  323. 	NULL
    324. 

  324. };
    325. 

  325. KTYPE(bch_cached_dev);
    326. 

  326. 

  327. SHOW(bch_flash_dev)
    328. 

  328. {
    329. 

  329. 	struct bcache_device *d = container_of(kobj, struct bcache_device,
    330. 

  330. 					       kobj);
    331. 

  331. 	struct uuid_entry *u = &d->c->uuids[d->id];
    332. 

  332. 

  333. 	sysfs_printf(data_csum,	"%i", d->data_csum);
    334. 

  334. 	sysfs_hprint(size,	u->sectors << 9);
    335. 

  335. 

  336. 	if (attr == &sysfs_label) {
    337. 

  337. 		memcpy(buf, u->label, SB_LABEL_SIZE);
    338. 

  338. 		buf[SB_LABEL_SIZE + 1] = '\0';
    339. 

  339. 		strcat(buf, "\n");
    340. 

  340. 		return strlen(buf);
    341. 

  341. 	}
    342. 

  342. 

  343. 	return 0;
    344. 

  344. }
    345. 

  345. 

  346. STORE(__bch_flash_dev)
    347. 

  347. {
    348. 

  348. 	struct bcache_device *d = container_of(kobj, struct bcache_device,
    349. 

  349. 					       kobj);
    350. 

  350. 	struct uuid_entry *u = &d->c->uuids[d->id];
    351. 

  351. 

  352. 	sysfs_strtoul(data_csum,	d->data_csum);
    353. 

  353. 

  354. 	if (attr == &sysfs_size) {
    355. 

  355. 		uint64_t v;
    356. 

  356. 		strtoi_h_or_return(buf, v);
    357. 

  357. 

  358. 		u->sectors = v >> 9;
    359. 

  359. 		bch_uuid_write(d->c);
    360. 

  360. 		set_capacity(d->disk, u->sectors);
    361. 

  361. 	}
    362. 

  362. 

  363. 	if (attr == &sysfs_label) {
    364. 

  364. 		memcpy(u->label, buf, SB_LABEL_SIZE);
    365. 

  365. 		bch_uuid_write(d->c);
    366. 

  366. 	}
    367. 

  367. 

  368. 	if (attr == &sysfs_unregister) {
    369. 

  369. 		atomic_set(&d->detaching, 1);
    370. 

  370. 		bcache_device_stop(d);
    371. 

  371. 	}
    372. 

  372. 

  373. 	return size;
    374. 

  374. }
    375. 

  375. STORE_LOCKED(bch_flash_dev)
    376. 

  376. 

  377. static struct attribute *bch_flash_dev_files[] = {
    378. 

  378. 	&sysfs_unregister,
    379. 

  379. #if 0
    380. 

  380. 	&sysfs_data_csum,
    381. 

  381. #endif
    382. 

  382. 	&sysfs_label,
    383. 

  383. 	&sysfs_size,
    384. 

  384. 	NULL
    385. 

  385. };
    386. 

  386. KTYPE(bch_flash_dev);
    387. 

  387. 

  388. SHOW(__bch_cache_set)
    389. 

  389. {
    390. 

  390. 	unsigned root_usage(struct cache_set *c)
    391. 

  391. 	{
    392. 

  392. 		unsigned bytes = 0;
    393. 

  393. 		struct bkey *k;
    394. 

  394. 		struct btree *b;
    395. 

  395. 		struct btree_iter iter;
    396. 

  396. 

  397. 		goto lock_root;
    398. 

  398. 

  399. 		do {
    400. 

  400. 			rw_unlock(false, b);
    401. 

  401. lock_root:
    402. 

  402. 			b = c->root;
    403. 

  403. 			rw_lock(false, b, b->level);
    404. 

  404. 		} while (b != c->root);
    405. 

  405. 

  406. 		for_each_key_filter(b, k, &iter, bch_ptr_bad)
    407. 

  407. 			bytes += bkey_bytes(k);
    408. 

  408. 

  409. 		rw_unlock(false, b);
    410. 

  410. 

  411. 		return (bytes * 100) / btree_bytes(c);
    412. 

  412. 	}
    413. 

  413. 

  414. 	size_t cache_size(struct cache_set *c)
    415. 

  415. 	{
    416. 

  416. 		size_t ret = 0;
    417. 

  417. 		struct btree *b;
    418. 

  418. 

  419. 		mutex_lock(&c->bucket_lock);
    420. 

  420. 		list_for_each_entry(b, &c->btree_cache, list)
    421. 

  421. 			ret += 1 << (b->page_order + PAGE_SHIFT);
    422. 

  422. 

  423. 		mutex_unlock(&c->bucket_lock);
    424. 

  424. 		return ret;
    425. 

  425. 	}
    426. 

  426. 

  427. 	unsigned cache_max_chain(struct cache_set *c)
    428. 

  428. 	{
    429. 

  429. 		unsigned ret = 0;
    430. 

  430. 		struct hlist_head *h;
    431. 

  431. 

  432. 		mutex_lock(&c->bucket_lock);
    433. 

  433. 

  434. 		for (h = c->bucket_hash;
    435. 

  435. 		     h < c->bucket_hash + (1 << BUCKET_HASH_BITS);
    436. 

  436. 		     h++) {
    437. 

  437. 			unsigned i = 0;
    438. 

  438. 			struct hlist_node *p;
    439. 

  439. 

  440. 			hlist_for_each(p, h)
    441. 

  441. 				i++;
    442. 

  442. 

  443. 			ret = max(ret, i);
    444. 

  444. 		}
    445. 

  445. 

  446. 		mutex_unlock(&c->bucket_lock);
    447. 

  447. 		return ret;
    448. 

  448. 	}
    449. 

  449. 

  450. 	unsigned btree_used(struct cache_set *c)
    451. 

  451. 	{
    452. 

  452. 		return div64_u64(c->gc_stats.key_bytes * 100,
    453. 

  453. 				 (c->gc_stats.nodes ?: 1) * btree_bytes(c));
    454. 

  454. 	}
    455. 

  455. 

  456. 	unsigned average_key_size(struct cache_set *c)
    457. 

  457. 	{
    458. 

  458. 		return c->gc_stats.nkeys
    459. 

  459. 			? div64_u64(c->gc_stats.data, c->gc_stats.nkeys)
    460. 

  460. 			: 0;
    461. 

  461. 	}
    462. 

  462. 

  463. 	struct cache_set *c = container_of(kobj, struct cache_set, kobj);
    464. 

  464. 

  465. 	sysfs_print(synchronous,		CACHE_SYNC(&c->sb));
    466. 

  466. 	sysfs_print(journal_delay_ms,		c->journal_delay_ms);
    467. 

  467. 	sysfs_hprint(bucket_size,		bucket_bytes(c));
    468. 

  468. 	sysfs_hprint(block_size,		block_bytes(c));
    469. 

  469. 	sysfs_print(tree_depth,			c->root->level);
    470. 

  470. 	sysfs_print(root_usage_percent,		root_usage(c));
    471. 

  471. 

  472. 	sysfs_hprint(btree_cache_size,		cache_size(c));
    473. 

  473. 	sysfs_print(btree_cache_max_chain,	cache_max_chain(c));
    474. 

  474. 	sysfs_print(cache_available_percent,	100 - c->gc_stats.in_use);
    475. 

  475. 

  476. 	sysfs_print_time_stats(&c->btree_gc_time,	btree_gc, sec, ms);
    477. 

  477. 	sysfs_print_time_stats(&c->btree_split_time,	btree_split, sec, us);
    478. 

  478. 	sysfs_print_time_stats(&c->sort_time,		btree_sort, ms, us);
    479. 

  479. 	sysfs_print_time_stats(&c->btree_read_time,	btree_read, ms, us);
    480. 

  480. 	sysfs_print_time_stats(&c->try_harder_time,	try_harder, ms, us);
    481. 

  481. 

  482. 	sysfs_print(btree_used_percent,	btree_used(c));
    483. 

  483. 	sysfs_print(btree_nodes,	c->gc_stats.nodes);
    484. 

  484. 	sysfs_hprint(dirty_data,	c->gc_stats.dirty);
    485. 

  485. 	sysfs_hprint(average_key_size,	average_key_size(c));
    486. 

  486. 

  487. 	sysfs_print(cache_read_races,
    488. 

  488. 		    atomic_long_read(&c->cache_read_races));
    489. 

  489. 

  490. 	sysfs_print(writeback_keys_done,
    491. 

  491. 		    atomic_long_read(&c->writeback_keys_done));
    492. 

  492. 	sysfs_print(writeback_keys_failed,
    493. 

  493. 		    atomic_long_read(&c->writeback_keys_failed));
    494. 

  494. 

  495. 	/* See count_io_errors for why 88 */
    496. 

  496. 	sysfs_print(io_error_halflife,	c->error_decay * 88);
    497. 

  497. 	sysfs_print(io_error_limit,	c->error_limit >> IO_ERROR_SHIFT);
    498. 

  498. 

  499. 	sysfs_hprint(congested,
    500. 

  500. 		     ((uint64_t) bch_get_congested(c)) << 9);
    501. 

  501. 	sysfs_print(congested_read_threshold_us,
    502. 

  502. 		    c->congested_read_threshold_us);
    503. 

  503. 	sysfs_print(congested_write_threshold_us,
    504. 

  504. 		    c->congested_write_threshold_us);
    505. 

  505. 

  506. 	sysfs_print(active_journal_entries,	fifo_used(&c->journal.pin));
    507. 

  507. 	sysfs_printf(verify,			"%i", c->verify);
    508. 

  508. 	sysfs_printf(key_merging_disabled,	"%i", c->key_merging_disabled);
    509. 

  509. 	sysfs_printf(gc_always_rewrite,		"%i", c->gc_always_rewrite);
    510. 

  510. 	sysfs_printf(btree_shrinker_disabled,	"%i", c->shrinker_disabled);
    511. 

  511. 	sysfs_printf(copy_gc_enabled,		"%i", c->copy_gc_enabled);
    512. 

  512. 

  513. 	if (attr == &sysfs_bset_tree_stats)
    514. 

  514. 		return bch_bset_print_stats(c, buf);
    515. 

  515. 

  516. 	return 0;
    517. 

  517. }
    518. 

  518. SHOW_LOCKED(bch_cache_set)
    519. 

  519. 

  520. STORE(__bch_cache_set)
    521. 

  521. {
    522. 

  522. 	struct cache_set *c = container_of(kobj, struct cache_set, kobj);
    523. 

  523. 

  524. 	if (attr == &sysfs_unregister)
    525. 

  525. 		bch_cache_set_unregister(c);
    526. 

  526. 

  527. 	if (attr == &sysfs_stop)
    528. 

  528. 		bch_cache_set_stop(c);
    529. 

  529. 

  530. 	if (attr == &sysfs_synchronous) {
    531. 

  531. 		bool sync = strtoul_or_return(buf);
    532. 

  532. 

  533. 		if (sync != CACHE_SYNC(&c->sb)) {
    534. 

  534. 			SET_CACHE_SYNC(&c->sb, sync);
    535. 

  535. 			bcache_write_super(c);
    536. 

  536. 		}
    537. 

  537. 	}
    538. 

  538. 

  539. 	if (attr == &sysfs_flash_vol_create) {
    540. 

  540. 		int r;
    541. 

  541. 		uint64_t v;
    542. 

  542. 		strtoi_h_or_return(buf, v);
    543. 

  543. 

  544. 		r = bch_flash_dev_create(c, v);
    545. 

  545. 		if (r)
    546. 

  546. 			return r;
    547. 

  547. 	}
    548. 

  548. 

  549. 	if (attr == &sysfs_clear_stats) {
    550. 

  550. 		atomic_long_set(&c->writeback_keys_done,	0);
    551. 

  551. 		atomic_long_set(&c->writeback_keys_failed,	0);
    552. 

  552. 

  553. 		memset(&c->gc_stats, 0, sizeof(struct gc_stat));
    554. 

  554. 		bch_cache_accounting_clear(&c->accounting);
    555. 

  555. 	}
    556. 

  556. 

  557. 	if (attr == &sysfs_trigger_gc)
    558. 

  558. 		bch_queue_gc(c);
    559. 

  559. 

  560. 	if (attr == &sysfs_prune_cache) {
    561. 

  561. 		struct shrink_control sc;
    562. 

  562. 		sc.gfp_mask = GFP_KERNEL;
    563. 

  563. 		sc.nr_to_scan = strtoul_or_return(buf);
    564. 

  564. 		c->shrink.scan_objects(&c->shrink, &sc);
    565. 

  565. 	}
    566. 

  566. 

  567. 	sysfs_strtoul(congested_read_threshold_us,
    568. 

  568. 		      c->congested_read_threshold_us);
    569. 

  569. 	sysfs_strtoul(congested_write_threshold_us,
    570. 

  570. 		      c->congested_write_threshold_us);
    571. 

  571. 

  572. 	if (attr == &sysfs_io_error_limit)
    573. 

  573. 		c->error_limit = strtoul_or_return(buf) << IO_ERROR_SHIFT;
    574. 

  574. 

  575. 	/* See count_io_errors() for why 88 */
    576. 

  576. 	if (attr == &sysfs_io_error_halflife)
    577. 

  577. 		c->error_decay = strtoul_or_return(buf) / 88;
    578. 

  578. 

  579. 	sysfs_strtoul(journal_delay_ms,		c->journal_delay_ms);
    580. 

  580. 	sysfs_strtoul(verify,			c->verify);
    581. 

  581. 	sysfs_strtoul(key_merging_disabled,	c->key_merging_disabled);
    582. 

  582. 	sysfs_strtoul(gc_always_rewrite,	c->gc_always_rewrite);
    583. 

  583. 	sysfs_strtoul(btree_shrinker_disabled,	c->shrinker_disabled);
    584. 

  584. 	sysfs_strtoul(copy_gc_enabled,		c->copy_gc_enabled);
    585. 

  585. 

  586. 	return size;
    587. 

  587. }
    588. 

  588. STORE_LOCKED(bch_cache_set)
    589. 

  589. 

  590. SHOW(bch_cache_set_internal)
    591. 

  591. {
    592. 

  592. 	struct cache_set *c = container_of(kobj, struct cache_set, internal);
    593. 

  593. 	return bch_cache_set_show(&c->kobj, attr, buf);
    594. 

  594. }
    595. 

  595. 

  596. STORE(bch_cache_set_internal)
    597. 

  597. {
    598. 

  598. 	struct cache_set *c = container_of(kobj, struct cache_set, internal);
    599. 

  599. 	return bch_cache_set_store(&c->kobj, attr, buf, size);
    600. 

  600. }
    601. 

  601. 

  602. static void bch_cache_set_internal_release(struct kobject *k)
    603. 

  603. {
    604. 

  604. }
    605. 

  605. 

  606. static struct attribute *bch_cache_set_files[] = {
    607. 

  607. 	&sysfs_unregister,
    608. 

  608. 	&sysfs_stop,
    609. 

  609. 	&sysfs_synchronous,
    610. 

  610. 	&sysfs_journal_delay_ms,
    611. 

  611. 	&sysfs_flash_vol_create,
    612. 

  612. 

  613. 	&sysfs_bucket_size,
    614. 

  614. 	&sysfs_block_size,
    615. 

  615. 	&sysfs_tree_depth,
    616. 

  616. 	&sysfs_root_usage_percent,
    617. 

  617. 	&sysfs_btree_cache_size,
    618. 

  618. 	&sysfs_cache_available_percent,
    619. 

  619. 

  620. 	&sysfs_average_key_size,
    621. 

  621. 	&sysfs_dirty_data,
    622. 

  622. 

  623. 	&sysfs_io_error_limit,
    624. 

  624. 	&sysfs_io_error_halflife,
    625. 

  625. 	&sysfs_congested,
    626. 

  626. 	&sysfs_congested_read_threshold_us,
    627. 

  627. 	&sysfs_congested_write_threshold_us,
    628. 

  628. 	&sysfs_clear_stats,
    629. 

  629. 	NULL
    630. 

  630. };
    631. 

  631. KTYPE(bch_cache_set);
    632. 

  632. 

  633. static struct attribute *bch_cache_set_internal_files[] = {
    634. 

  634. 	&sysfs_active_journal_entries,
    635. 

  635. 

  636. 	sysfs_time_stats_attribute_list(btree_gc, sec, ms)
    637. 

  637. 	sysfs_time_stats_attribute_list(btree_split, sec, us)
    638. 

  638. 	sysfs_time_stats_attribute_list(btree_sort, ms, us)
    639. 

  639. 	sysfs_time_stats_attribute_list(btree_read, ms, us)
    640. 

  640. 	sysfs_time_stats_attribute_list(try_harder, ms, us)
    641. 

  641. 

  642. 	&sysfs_btree_nodes,
    643. 

  643. 	&sysfs_btree_used_percent,
    644. 

  644. 	&sysfs_btree_cache_max_chain,
    645. 

  645. 

  646. 	&sysfs_bset_tree_stats,
    647. 

  647. 	&sysfs_cache_read_races,
    648. 

  648. 	&sysfs_writeback_keys_done,
    649. 

  649. 	&sysfs_writeback_keys_failed,
    650. 

  650. 

  651. 	&sysfs_trigger_gc,
    652. 

  652. 	&sysfs_prune_cache,
    653. 

  653. #ifdef CONFIG_BCACHE_DEBUG
    654. 

  654. 	&sysfs_verify,
    655. 

  655. 	&sysfs_key_merging_disabled,
    656. 

  656. #endif
    657. 

  657. 	&sysfs_gc_always_rewrite,
    658. 

  658. 	&sysfs_btree_shrinker_disabled,
    659. 

  659. 	&sysfs_copy_gc_enabled,
    660. 

  660. 	NULL
    661. 

  661. };
    662. 

  662. KTYPE(bch_cache_set_internal);
    663. 

  663. 

  664. SHOW(__bch_cache)
    665. 

  665. {
    666. 

  666. 	struct cache *ca = container_of(kobj, struct cache, kobj);
    667. 

  667. 

  668. 	sysfs_hprint(bucket_size,	bucket_bytes(ca));
    669. 

  669. 	sysfs_hprint(block_size,	block_bytes(ca));
    670. 

  670. 	sysfs_print(nbuckets,		ca->sb.nbuckets);
    671. 

  671. 	sysfs_print(discard,		ca->discard);
    672. 

  672. 	sysfs_hprint(written, atomic_long_read(&ca->sectors_written) << 9);
    673. 

  673. 	sysfs_hprint(btree_written,
    674. 

  674. 		     atomic_long_read(&ca->btree_sectors_written) << 9);
    675. 

  675. 	sysfs_hprint(metadata_written,
    676. 

  676. 		     (atomic_long_read(&ca->meta_sectors_written) +
    677. 

  677. 		      atomic_long_read(&ca->btree_sectors_written)) << 9);
    678. 

  678. 

  679. 	sysfs_print(io_errors,
    680. 

  680. 		    atomic_read(&ca->io_errors) >> IO_ERROR_SHIFT);
    681. 

  681. 

  682. 	sysfs_print(freelist_percent, ca->free.size * 100 /
    683. 

  683. 		    ((size_t) ca->sb.nbuckets));
    684. 

  684. 

  685. 	if (attr == &sysfs_cache_replacement_policy)
    686. 

  686. 		return bch_snprint_string_list(buf, PAGE_SIZE,
    687. 

  687. 					       cache_replacement_policies,
    688. 

  688. 					       CACHE_REPLACEMENT(&ca->sb));
    689. 

  689. 

  690. 	if (attr == &sysfs_priority_stats) {
    691. 

  691. 		int cmp(const void *l, const void *r)
    692. 

  692. 		{	return *((uint16_t *) r) - *((uint16_t *) l); }
    693. 

  693. 

  694. 		size_t n = ca->sb.nbuckets, i, unused, btree;
    695. 

  695. 		uint64_t sum = 0;
    696. 

  696. 		/* Compute 31 quantiles */
    697. 

  697. 		uint16_t q[31], *p, *cached;
    698. 

  698. 		ssize_t ret;
    699. 

  699. 

  700. 		cached = p = vmalloc(ca->sb.nbuckets * sizeof(uint16_t));
    701. 

  701. 		if (!p)
    702. 

  702. 			return -ENOMEM;
    703. 

  703. 

  704. 		mutex_lock(&ca->set->bucket_lock);
    705. 

  705. 		for (i = ca->sb.first_bucket; i < n; i++)
    706. 

  706. 			p[i] = ca->buckets[i].prio;
    707. 

  707. 		mutex_unlock(&ca->set->bucket_lock);
    708. 

  708. 

  709. 		sort(p, n, sizeof(uint16_t), cmp, NULL);
    710. 

  710. 

  711. 		while (n &&
    712. 

  712. 		       !cached[n - 1])
    713. 

  713. 			--n;
    714. 

  714. 

  715. 		unused = ca->sb.nbuckets - n;
    716. 

  716. 

  717. 		while (cached < p + n &&
    718. 

  718. 		       *cached == BTREE_PRIO)
    719. 

  719. 			cached++;
    720. 

  720. 

  721. 		btree = cached - p;
    722. 

  722. 		n -= btree;
    723. 

  723. 

  724. 		for (i = 0; i < n; i++)
    725. 

  725. 			sum += INITIAL_PRIO - cached[i];
    726. 

  726. 

  727. 		if (n)
    728. 

  728. 			do_div(sum, n);
    729. 

  729. 

  730. 		for (i = 0; i < ARRAY_SIZE(q); i++)
    731. 

  731. 			q[i] = INITIAL_PRIO - cached[n * (i + 1) /
    732. 

  732. 				(ARRAY_SIZE(q) + 1)];
    733. 

  733. 

  734. 		vfree(p);
    735. 

  735. 

  736. 		ret = scnprintf(buf, PAGE_SIZE,
    737. 

  737. 				"Unused:		%zu%%\n"
    738. 

  738. 				"Metadata:	%zu%%\n"
    739. 

  739. 				"Average:	%llu\n"
    740. 

  740. 				"Sectors per Q:	%zu\n"
    741. 

  741. 				"Quantiles:	[",
    742. 

  742. 				unused * 100 / (size_t) ca->sb.nbuckets,
    743. 

  743. 				btree * 100 / (size_t) ca->sb.nbuckets, sum,
    744. 

  744. 				n * ca->sb.bucket_size / (ARRAY_SIZE(q) + 1));
    745. 

  745. 

  746. 		for (i = 0; i < ARRAY_SIZE(q); i++)
    747. 

  747. 			ret += scnprintf(buf + ret, PAGE_SIZE - ret,
    748. 

  748. 					 "%u ", q[i]);
    749. 

  749. 		ret--;
    750. 

  750. 

  751. 		ret += scnprintf(buf + ret, PAGE_SIZE - ret, "]\n");
    752. 

  752. 

  753. 		return ret;
    754. 

  754. 	}
    755. 

  755. 

  756. 	return 0;
    757. 

  757. }
    758. 

  758. SHOW_LOCKED(bch_cache)
    759. 

  759. 

  760. STORE(__bch_cache)
    761. 

  761. {
    762. 

  762. 	struct cache *ca = container_of(kobj, struct cache, kobj);
    763. 

  763. 

  764. 	if (attr == &sysfs_discard) {
    765. 

  765. 		bool v = strtoul_or_return(buf);
    766. 

  766. 

  767. 		if (blk_queue_discard(bdev_get_queue(ca->bdev)))
    768. 

  768. 			ca->discard = v;
    769. 

  769. 

  770. 		if (v != CACHE_DISCARD(&ca->sb)) {
    771. 

  771. 			SET_CACHE_DISCARD(&ca->sb, v);
    772. 

  772. 			bcache_write_super(ca->set);
    773. 

  773. 		}
    774. 

  774. 	}
    775. 

  775. 

  776. 	if (attr == &sysfs_cache_replacement_policy) {
    777. 

  777. 		ssize_t v = bch_read_string_list(buf, cache_replacement_policies);
    778. 

  778. 

  779. 		if (v < 0)
    780. 

  780. 			return v;
    781. 

  781. 

  782. 		if ((unsigned) v != CACHE_REPLACEMENT(&ca->sb)) {
    783. 

  783. 			mutex_lock(&ca->set->bucket_lock);
    784. 

  784. 			SET_CACHE_REPLACEMENT(&ca->sb, v);
    785. 

  785. 			mutex_unlock(&ca->set->bucket_lock);
    786. 

  786. 

  787. 			bcache_write_super(ca->set);
    788. 

  788. 		}
    789. 

  789. 	}
    790. 

  790. 

  791. 	if (attr == &sysfs_freelist_percent) {
    792. 

  792. 		DECLARE_FIFO(long, free);
    793. 

  793. 		long i;
    794. 

  794. 		size_t p = strtoul_or_return(buf);
    795. 

  795. 

  796. 		p = clamp_t(size_t,
    797. 

  797. 			    ((size_t) ca->sb.nbuckets * p) / 100,
    798. 

  798. 			    roundup_pow_of_two(ca->sb.nbuckets) >> 9,
    799. 

  799. 			    ca->sb.nbuckets / 2);
    800. 

  800. 

  801. 		if (!init_fifo_exact(&free, p, GFP_KERNEL))
    802. 

  802. 			return -ENOMEM;
    803. 

  803. 

  804. 		mutex_lock(&ca->set->bucket_lock);
    805. 

  805. 

  806. 		fifo_move(&free, &ca->free);
    807. 

  807. 		fifo_swap(&free, &ca->free);
    808. 

  808. 

  809. 		mutex_unlock(&ca->set->bucket_lock);
    810. 

  810. 

  811. 		while (fifo_pop(&free, i))
    812. 

  812. 			atomic_dec(&ca->buckets[i].pin);
    813. 

  813. 

  814. 		free_fifo(&free);
    815. 

  815. 	}
    816. 

  816. 

  817. 	if (attr == &sysfs_clear_stats) {
    818. 

  818. 		atomic_long_set(&ca->sectors_written, 0);
    819. 

  819. 		atomic_long_set(&ca->btree_sectors_written, 0);
    820. 

  820. 		atomic_long_set(&ca->meta_sectors_written, 0);
    821. 

  821. 		atomic_set(&ca->io_count, 0);
    822. 

  822. 		atomic_set(&ca->io_errors, 0);
    823. 

  823. 	}
    824. 

  824. 

  825. 	return size;
    826. 

  826. }
    827. 

  827. STORE_LOCKED(bch_cache)
    828. 

  828. 

  829. static struct attribute *bch_cache_files[] = {
    830. 

  830. 	&sysfs_bucket_size,
    831. 

  831. 	&sysfs_block_size,
    832. 

  832. 	&sysfs_nbuckets,
    833. 

  833. 	&sysfs_priority_stats,
    834. 

  834. 	&sysfs_discard,
    835. 

  835. 	&sysfs_written,
    836. 

  836. 	&sysfs_btree_written,
    837. 

  837. 	&sysfs_metadata_written,
    838. 

  838. 	&sysfs_io_errors,
    839. 

  839. 	&sysfs_clear_stats,
    840. 

  840. 	&sysfs_freelist_percent,
    841. 

  841. 	&sysfs_cache_replacement_policy,
    842. 

  842. 	NULL
    843. 

  843. };
    844. 

  844. KTYPE(bch_cache);
    845.