dm-era-target.c 38 KB

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  1. // SPDX-License-Identifier: GPL-2.0-only
  2. #include "dm.h"
  3. #include "persistent-data/dm-transaction-manager.h"
  4. #include "persistent-data/dm-bitset.h"
  5. #include "persistent-data/dm-space-map.h"
  6. #include <linux/dm-io.h>
  7. #include <linux/dm-kcopyd.h>
  8. #include <linux/init.h>
  9. #include <linux/mempool.h>
  10. #include <linux/module.h>
  11. #include <linux/slab.h>
  12. #include <linux/vmalloc.h>
  13. #define DM_MSG_PREFIX "era"
  14. #define SUPERBLOCK_LOCATION 0
  15. #define SUPERBLOCK_MAGIC 2126579579
  16. #define SUPERBLOCK_CSUM_XOR 146538381
  17. #define MIN_ERA_VERSION 1
  18. #define MAX_ERA_VERSION 1
  19. #define INVALID_WRITESET_ROOT SUPERBLOCK_LOCATION
  20. #define MIN_BLOCK_SIZE 8
  21. /*
  22. *--------------------------------------------------------------
  23. * Writeset
  24. *--------------------------------------------------------------
  25. */
  26. struct writeset_metadata {
  27. uint32_t nr_bits;
  28. dm_block_t root;
  29. };
  30. struct writeset {
  31. struct writeset_metadata md;
  32. /*
  33. * An in core copy of the bits to save constantly doing look ups on
  34. * disk.
  35. */
  36. unsigned long *bits;
  37. };
  38. /*
  39. * This does not free off the on disk bitset as this will normally be done
  40. * after digesting into the era array.
  41. */
  42. static void writeset_free(struct writeset *ws)
  43. {
  44. vfree(ws->bits);
  45. ws->bits = NULL;
  46. }
  47. static int setup_on_disk_bitset(struct dm_disk_bitset *info,
  48. unsigned int nr_bits, dm_block_t *root)
  49. {
  50. int r;
  51. r = dm_bitset_empty(info, root);
  52. if (r)
  53. return r;
  54. return dm_bitset_resize(info, *root, 0, nr_bits, false, root);
  55. }
  56. static size_t bitset_size(unsigned int nr_bits)
  57. {
  58. return sizeof(unsigned long) * dm_div_up(nr_bits, BITS_PER_LONG);
  59. }
  60. /*
  61. * Allocates memory for the in core bitset.
  62. */
  63. static int writeset_alloc(struct writeset *ws, dm_block_t nr_blocks)
  64. {
  65. ws->bits = vzalloc(bitset_size(nr_blocks));
  66. if (!ws->bits) {
  67. DMERR("%s: couldn't allocate in memory bitset", __func__);
  68. return -ENOMEM;
  69. }
  70. return 0;
  71. }
  72. /*
  73. * Wipes the in-core bitset, and creates a new on disk bitset.
  74. */
  75. static int writeset_init(struct dm_disk_bitset *info, struct writeset *ws,
  76. dm_block_t nr_blocks)
  77. {
  78. int r;
  79. memset(ws->bits, 0, bitset_size(nr_blocks));
  80. ws->md.nr_bits = nr_blocks;
  81. r = setup_on_disk_bitset(info, ws->md.nr_bits, &ws->md.root);
  82. if (r) {
  83. DMERR("%s: setup_on_disk_bitset failed", __func__);
  84. return r;
  85. }
  86. return 0;
  87. }
  88. static bool writeset_marked(struct writeset *ws, dm_block_t block)
  89. {
  90. return test_bit(block, ws->bits);
  91. }
  92. static int writeset_marked_on_disk(struct dm_disk_bitset *info,
  93. struct writeset_metadata *m, dm_block_t block,
  94. bool *result)
  95. {
  96. int r;
  97. dm_block_t old = m->root;
  98. /*
  99. * The bitset was flushed when it was archived, so we know there'll
  100. * be no change to the root.
  101. */
  102. r = dm_bitset_test_bit(info, m->root, block, &m->root, result);
  103. if (r) {
  104. DMERR("%s: dm_bitset_test_bit failed", __func__);
  105. return r;
  106. }
  107. BUG_ON(m->root != old);
  108. return r;
  109. }
  110. /*
  111. * Returns < 0 on error, 0 if the bit wasn't previously set, 1 if it was.
  112. */
  113. static int writeset_test_and_set(struct dm_disk_bitset *info,
  114. struct writeset *ws, uint32_t block)
  115. {
  116. int r;
  117. if (!test_bit(block, ws->bits)) {
  118. r = dm_bitset_set_bit(info, ws->md.root, block, &ws->md.root);
  119. if (r) {
  120. /* FIXME: fail mode */
  121. return r;
  122. }
  123. return 0;
  124. }
  125. return 1;
  126. }
  127. /*
  128. *--------------------------------------------------------------
  129. * On disk metadata layout
  130. *--------------------------------------------------------------
  131. */
  132. #define SPACE_MAP_ROOT_SIZE 128
  133. #define UUID_LEN 16
  134. struct writeset_disk {
  135. __le32 nr_bits;
  136. __le64 root;
  137. } __packed;
  138. struct superblock_disk {
  139. __le32 csum;
  140. __le32 flags;
  141. __le64 blocknr;
  142. __u8 uuid[UUID_LEN];
  143. __le64 magic;
  144. __le32 version;
  145. __u8 metadata_space_map_root[SPACE_MAP_ROOT_SIZE];
  146. __le32 data_block_size;
  147. __le32 metadata_block_size;
  148. __le32 nr_blocks;
  149. __le32 current_era;
  150. struct writeset_disk current_writeset;
  151. /*
  152. * Only these two fields are valid within the metadata snapshot.
  153. */
  154. __le64 writeset_tree_root;
  155. __le64 era_array_root;
  156. __le64 metadata_snap;
  157. } __packed;
  158. /*
  159. *--------------------------------------------------------------
  160. * Superblock validation
  161. *--------------------------------------------------------------
  162. */
  163. static void sb_prepare_for_write(const struct dm_block_validator *v,
  164. struct dm_block *b,
  165. size_t sb_block_size)
  166. {
  167. struct superblock_disk *disk = dm_block_data(b);
  168. disk->blocknr = cpu_to_le64(dm_block_location(b));
  169. disk->csum = cpu_to_le32(dm_bm_checksum(&disk->flags,
  170. sb_block_size - sizeof(__le32),
  171. SUPERBLOCK_CSUM_XOR));
  172. }
  173. static int check_metadata_version(struct superblock_disk *disk)
  174. {
  175. uint32_t metadata_version = le32_to_cpu(disk->version);
  176. if (metadata_version < MIN_ERA_VERSION || metadata_version > MAX_ERA_VERSION) {
  177. DMERR("Era metadata version %u found, but only versions between %u and %u supported.",
  178. metadata_version, MIN_ERA_VERSION, MAX_ERA_VERSION);
  179. return -EINVAL;
  180. }
  181. return 0;
  182. }
  183. static int sb_check(const struct dm_block_validator *v,
  184. struct dm_block *b,
  185. size_t sb_block_size)
  186. {
  187. struct superblock_disk *disk = dm_block_data(b);
  188. __le32 csum_le;
  189. if (dm_block_location(b) != le64_to_cpu(disk->blocknr)) {
  190. DMERR("%s failed: blocknr %llu: wanted %llu",
  191. __func__, le64_to_cpu(disk->blocknr),
  192. (unsigned long long)dm_block_location(b));
  193. return -ENOTBLK;
  194. }
  195. if (le64_to_cpu(disk->magic) != SUPERBLOCK_MAGIC) {
  196. DMERR("%s failed: magic %llu: wanted %llu",
  197. __func__, le64_to_cpu(disk->magic),
  198. (unsigned long long) SUPERBLOCK_MAGIC);
  199. return -EILSEQ;
  200. }
  201. csum_le = cpu_to_le32(dm_bm_checksum(&disk->flags,
  202. sb_block_size - sizeof(__le32),
  203. SUPERBLOCK_CSUM_XOR));
  204. if (csum_le != disk->csum) {
  205. DMERR("%s failed: csum %u: wanted %u",
  206. __func__, le32_to_cpu(csum_le), le32_to_cpu(disk->csum));
  207. return -EILSEQ;
  208. }
  209. return check_metadata_version(disk);
  210. }
  211. static const struct dm_block_validator sb_validator = {
  212. .name = "superblock",
  213. .prepare_for_write = sb_prepare_for_write,
  214. .check = sb_check
  215. };
  216. /*
  217. *--------------------------------------------------------------
  218. * Low level metadata handling
  219. *--------------------------------------------------------------
  220. */
  221. #define DM_ERA_METADATA_BLOCK_SIZE 4096
  222. #define ERA_MAX_CONCURRENT_LOCKS 5
  223. struct era_metadata {
  224. struct block_device *bdev;
  225. struct dm_block_manager *bm;
  226. struct dm_space_map *sm;
  227. struct dm_transaction_manager *tm;
  228. dm_block_t block_size;
  229. uint32_t nr_blocks;
  230. uint32_t current_era;
  231. /*
  232. * We preallocate 2 writesets. When an era rolls over we
  233. * switch between them. This means the allocation is done at
  234. * preresume time, rather than on the io path.
  235. */
  236. struct writeset writesets[2];
  237. struct writeset *current_writeset;
  238. dm_block_t writeset_tree_root;
  239. dm_block_t era_array_root;
  240. struct dm_disk_bitset bitset_info;
  241. struct dm_btree_info writeset_tree_info;
  242. struct dm_array_info era_array_info;
  243. dm_block_t metadata_snap;
  244. /*
  245. * A flag that is set whenever a writeset has been archived.
  246. */
  247. bool archived_writesets;
  248. /*
  249. * Reading the space map root can fail, so we read it into this
  250. * buffer before the superblock is locked and updated.
  251. */
  252. __u8 metadata_space_map_root[SPACE_MAP_ROOT_SIZE];
  253. };
  254. static int superblock_read_lock(struct era_metadata *md,
  255. struct dm_block **sblock)
  256. {
  257. return dm_bm_read_lock(md->bm, SUPERBLOCK_LOCATION,
  258. &sb_validator, sblock);
  259. }
  260. static int superblock_lock_zero(struct era_metadata *md,
  261. struct dm_block **sblock)
  262. {
  263. return dm_bm_write_lock_zero(md->bm, SUPERBLOCK_LOCATION,
  264. &sb_validator, sblock);
  265. }
  266. static int superblock_lock(struct era_metadata *md,
  267. struct dm_block **sblock)
  268. {
  269. return dm_bm_write_lock(md->bm, SUPERBLOCK_LOCATION,
  270. &sb_validator, sblock);
  271. }
  272. /* FIXME: duplication with cache and thin */
  273. static int superblock_all_zeroes(struct dm_block_manager *bm, bool *result)
  274. {
  275. int r;
  276. unsigned int i;
  277. struct dm_block *b;
  278. __le64 *data_le, zero = cpu_to_le64(0);
  279. unsigned int sb_block_size = dm_bm_block_size(bm) / sizeof(__le64);
  280. /*
  281. * We can't use a validator here - it may be all zeroes.
  282. */
  283. r = dm_bm_read_lock(bm, SUPERBLOCK_LOCATION, NULL, &b);
  284. if (r)
  285. return r;
  286. data_le = dm_block_data(b);
  287. *result = true;
  288. for (i = 0; i < sb_block_size; i++) {
  289. if (data_le[i] != zero) {
  290. *result = false;
  291. break;
  292. }
  293. }
  294. dm_bm_unlock(b);
  295. return 0;
  296. }
  297. /*----------------------------------------------------------------*/
  298. static void ws_pack(const struct writeset_metadata *core, struct writeset_disk *disk)
  299. {
  300. disk->nr_bits = cpu_to_le32(core->nr_bits);
  301. disk->root = cpu_to_le64(core->root);
  302. }
  303. static void ws_unpack(const struct writeset_disk *disk, struct writeset_metadata *core)
  304. {
  305. core->nr_bits = le32_to_cpu(disk->nr_bits);
  306. core->root = le64_to_cpu(disk->root);
  307. }
  308. static void ws_inc(void *context, const void *value, unsigned int count)
  309. {
  310. struct era_metadata *md = context;
  311. struct writeset_disk ws_d;
  312. dm_block_t b;
  313. unsigned int i;
  314. for (i = 0; i < count; i++) {
  315. memcpy(&ws_d, value + (i * sizeof(ws_d)), sizeof(ws_d));
  316. b = le64_to_cpu(ws_d.root);
  317. dm_tm_inc(md->tm, b);
  318. }
  319. }
  320. static void ws_dec(void *context, const void *value, unsigned int count)
  321. {
  322. struct era_metadata *md = context;
  323. struct writeset_disk ws_d;
  324. dm_block_t b;
  325. unsigned int i;
  326. for (i = 0; i < count; i++) {
  327. memcpy(&ws_d, value + (i * sizeof(ws_d)), sizeof(ws_d));
  328. b = le64_to_cpu(ws_d.root);
  329. dm_bitset_del(&md->bitset_info, b);
  330. }
  331. }
  332. static int ws_eq(void *context, const void *value1, const void *value2)
  333. {
  334. return !memcmp(value1, value2, sizeof(struct writeset_disk));
  335. }
  336. /*----------------------------------------------------------------*/
  337. static void setup_writeset_tree_info(struct era_metadata *md)
  338. {
  339. struct dm_btree_value_type *vt = &md->writeset_tree_info.value_type;
  340. md->writeset_tree_info.tm = md->tm;
  341. md->writeset_tree_info.levels = 1;
  342. vt->context = md;
  343. vt->size = sizeof(struct writeset_disk);
  344. vt->inc = ws_inc;
  345. vt->dec = ws_dec;
  346. vt->equal = ws_eq;
  347. }
  348. static void setup_era_array_info(struct era_metadata *md)
  349. {
  350. struct dm_btree_value_type vt;
  351. vt.context = NULL;
  352. vt.size = sizeof(__le32);
  353. vt.inc = NULL;
  354. vt.dec = NULL;
  355. vt.equal = NULL;
  356. dm_array_info_init(&md->era_array_info, md->tm, &vt);
  357. }
  358. static void setup_infos(struct era_metadata *md)
  359. {
  360. dm_disk_bitset_init(md->tm, &md->bitset_info);
  361. setup_writeset_tree_info(md);
  362. setup_era_array_info(md);
  363. }
  364. /*----------------------------------------------------------------*/
  365. static int create_fresh_metadata(struct era_metadata *md)
  366. {
  367. int r;
  368. r = dm_tm_create_with_sm(md->bm, SUPERBLOCK_LOCATION,
  369. &md->tm, &md->sm);
  370. if (r < 0) {
  371. DMERR("dm_tm_create_with_sm failed");
  372. return r;
  373. }
  374. setup_infos(md);
  375. r = dm_btree_empty(&md->writeset_tree_info, &md->writeset_tree_root);
  376. if (r) {
  377. DMERR("couldn't create new writeset tree");
  378. goto bad;
  379. }
  380. r = dm_array_empty(&md->era_array_info, &md->era_array_root);
  381. if (r) {
  382. DMERR("couldn't create era array");
  383. goto bad;
  384. }
  385. return 0;
  386. bad:
  387. dm_sm_destroy(md->sm);
  388. dm_tm_destroy(md->tm);
  389. return r;
  390. }
  391. static int save_sm_root(struct era_metadata *md)
  392. {
  393. int r;
  394. size_t metadata_len;
  395. r = dm_sm_root_size(md->sm, &metadata_len);
  396. if (r < 0)
  397. return r;
  398. return dm_sm_copy_root(md->sm, &md->metadata_space_map_root,
  399. metadata_len);
  400. }
  401. static void copy_sm_root(struct era_metadata *md, struct superblock_disk *disk)
  402. {
  403. memcpy(&disk->metadata_space_map_root,
  404. &md->metadata_space_map_root,
  405. sizeof(md->metadata_space_map_root));
  406. }
  407. /*
  408. * Writes a superblock, including the static fields that don't get updated
  409. * with every commit (possible optimisation here). 'md' should be fully
  410. * constructed when this is called.
  411. */
  412. static void prepare_superblock(struct era_metadata *md, struct superblock_disk *disk)
  413. {
  414. disk->magic = cpu_to_le64(SUPERBLOCK_MAGIC);
  415. disk->flags = cpu_to_le32(0ul);
  416. /* FIXME: can't keep blanking the uuid (uuid is currently unused though) */
  417. memset(disk->uuid, 0, sizeof(disk->uuid));
  418. disk->version = cpu_to_le32(MAX_ERA_VERSION);
  419. copy_sm_root(md, disk);
  420. disk->data_block_size = cpu_to_le32(md->block_size);
  421. disk->metadata_block_size = cpu_to_le32(DM_ERA_METADATA_BLOCK_SIZE >> SECTOR_SHIFT);
  422. disk->nr_blocks = cpu_to_le32(md->nr_blocks);
  423. disk->current_era = cpu_to_le32(md->current_era);
  424. ws_pack(&md->current_writeset->md, &disk->current_writeset);
  425. disk->writeset_tree_root = cpu_to_le64(md->writeset_tree_root);
  426. disk->era_array_root = cpu_to_le64(md->era_array_root);
  427. disk->metadata_snap = cpu_to_le64(md->metadata_snap);
  428. }
  429. static int write_superblock(struct era_metadata *md)
  430. {
  431. int r;
  432. struct dm_block *sblock;
  433. struct superblock_disk *disk;
  434. r = save_sm_root(md);
  435. if (r) {
  436. DMERR("%s: save_sm_root failed", __func__);
  437. return r;
  438. }
  439. r = superblock_lock_zero(md, &sblock);
  440. if (r)
  441. return r;
  442. disk = dm_block_data(sblock);
  443. prepare_superblock(md, disk);
  444. return dm_tm_commit(md->tm, sblock);
  445. }
  446. /*
  447. * Assumes block_size and the infos are set.
  448. */
  449. static int format_metadata(struct era_metadata *md)
  450. {
  451. int r;
  452. r = create_fresh_metadata(md);
  453. if (r)
  454. return r;
  455. r = write_superblock(md);
  456. if (r) {
  457. dm_sm_destroy(md->sm);
  458. dm_tm_destroy(md->tm);
  459. return r;
  460. }
  461. return 0;
  462. }
  463. static int open_metadata(struct era_metadata *md)
  464. {
  465. int r;
  466. struct dm_block *sblock;
  467. struct superblock_disk *disk;
  468. r = superblock_read_lock(md, &sblock);
  469. if (r) {
  470. DMERR("couldn't read_lock superblock");
  471. return r;
  472. }
  473. disk = dm_block_data(sblock);
  474. /* Verify the data block size hasn't changed */
  475. if (le32_to_cpu(disk->data_block_size) != md->block_size) {
  476. DMERR("changing the data block size (from %u to %llu) is not supported",
  477. le32_to_cpu(disk->data_block_size), md->block_size);
  478. r = -EINVAL;
  479. goto bad;
  480. }
  481. r = dm_tm_open_with_sm(md->bm, SUPERBLOCK_LOCATION,
  482. disk->metadata_space_map_root,
  483. sizeof(disk->metadata_space_map_root),
  484. &md->tm, &md->sm);
  485. if (r) {
  486. DMERR("dm_tm_open_with_sm failed");
  487. goto bad;
  488. }
  489. setup_infos(md);
  490. md->nr_blocks = le32_to_cpu(disk->nr_blocks);
  491. md->current_era = le32_to_cpu(disk->current_era);
  492. ws_unpack(&disk->current_writeset, &md->current_writeset->md);
  493. md->writeset_tree_root = le64_to_cpu(disk->writeset_tree_root);
  494. md->era_array_root = le64_to_cpu(disk->era_array_root);
  495. md->metadata_snap = le64_to_cpu(disk->metadata_snap);
  496. md->archived_writesets = true;
  497. dm_bm_unlock(sblock);
  498. return 0;
  499. bad:
  500. dm_bm_unlock(sblock);
  501. return r;
  502. }
  503. static int open_or_format_metadata(struct era_metadata *md,
  504. bool may_format)
  505. {
  506. int r;
  507. bool unformatted = false;
  508. r = superblock_all_zeroes(md->bm, &unformatted);
  509. if (r)
  510. return r;
  511. if (unformatted)
  512. return may_format ? format_metadata(md) : -EPERM;
  513. return open_metadata(md);
  514. }
  515. static int create_persistent_data_objects(struct era_metadata *md,
  516. bool may_format)
  517. {
  518. int r;
  519. md->bm = dm_block_manager_create(md->bdev, DM_ERA_METADATA_BLOCK_SIZE,
  520. ERA_MAX_CONCURRENT_LOCKS);
  521. if (IS_ERR(md->bm)) {
  522. DMERR("could not create block manager");
  523. return PTR_ERR(md->bm);
  524. }
  525. r = open_or_format_metadata(md, may_format);
  526. if (r)
  527. dm_block_manager_destroy(md->bm);
  528. return r;
  529. }
  530. static void destroy_persistent_data_objects(struct era_metadata *md)
  531. {
  532. dm_sm_destroy(md->sm);
  533. dm_tm_destroy(md->tm);
  534. dm_block_manager_destroy(md->bm);
  535. }
  536. /*
  537. * This waits until all era_map threads have picked up the new filter.
  538. */
  539. static void swap_writeset(struct era_metadata *md, struct writeset *new_writeset)
  540. {
  541. rcu_assign_pointer(md->current_writeset, new_writeset);
  542. synchronize_rcu();
  543. }
  544. /*
  545. *------------------------------------------------------------------------
  546. * Writesets get 'digested' into the main era array.
  547. *
  548. * We're using a coroutine here so the worker thread can do the digestion,
  549. * thus avoiding synchronisation of the metadata. Digesting a whole
  550. * writeset in one go would cause too much latency.
  551. *------------------------------------------------------------------------
  552. */
  553. struct digest {
  554. uint32_t era;
  555. unsigned int nr_bits, current_bit;
  556. struct writeset_metadata writeset;
  557. __le32 value;
  558. struct dm_disk_bitset info;
  559. int (*step)(struct era_metadata *md, struct digest *d);
  560. };
  561. static int metadata_digest_lookup_writeset(struct era_metadata *md,
  562. struct digest *d);
  563. static int metadata_digest_remove_writeset(struct era_metadata *md,
  564. struct digest *d)
  565. {
  566. int r;
  567. uint64_t key = d->era;
  568. r = dm_btree_remove(&md->writeset_tree_info, md->writeset_tree_root,
  569. &key, &md->writeset_tree_root);
  570. if (r) {
  571. DMERR("%s: dm_btree_remove failed", __func__);
  572. return r;
  573. }
  574. d->step = metadata_digest_lookup_writeset;
  575. return 0;
  576. }
  577. #define INSERTS_PER_STEP 100
  578. static int metadata_digest_transcribe_writeset(struct era_metadata *md,
  579. struct digest *d)
  580. {
  581. int r;
  582. bool marked;
  583. unsigned int b, e = min(d->current_bit + INSERTS_PER_STEP, d->nr_bits);
  584. for (b = d->current_bit; b < e; b++) {
  585. r = writeset_marked_on_disk(&d->info, &d->writeset, b, &marked);
  586. if (r) {
  587. DMERR("%s: writeset_marked_on_disk failed", __func__);
  588. return r;
  589. }
  590. if (!marked)
  591. continue;
  592. __dm_bless_for_disk(&d->value);
  593. r = dm_array_set_value(&md->era_array_info, md->era_array_root,
  594. b, &d->value, &md->era_array_root);
  595. if (r) {
  596. DMERR("%s: dm_array_set_value failed", __func__);
  597. return r;
  598. }
  599. }
  600. if (b == d->nr_bits)
  601. d->step = metadata_digest_remove_writeset;
  602. else
  603. d->current_bit = b;
  604. return 0;
  605. }
  606. static int metadata_digest_lookup_writeset(struct era_metadata *md,
  607. struct digest *d)
  608. {
  609. int r;
  610. uint64_t key;
  611. struct writeset_disk disk;
  612. r = dm_btree_find_lowest_key(&md->writeset_tree_info,
  613. md->writeset_tree_root, &key);
  614. if (r < 0)
  615. return r;
  616. d->era = key;
  617. r = dm_btree_lookup(&md->writeset_tree_info,
  618. md->writeset_tree_root, &key, &disk);
  619. if (r) {
  620. if (r == -ENODATA) {
  621. d->step = NULL;
  622. return 0;
  623. }
  624. DMERR("%s: dm_btree_lookup failed", __func__);
  625. return r;
  626. }
  627. ws_unpack(&disk, &d->writeset);
  628. d->value = cpu_to_le32(key);
  629. /*
  630. * We initialise another bitset info to avoid any caching side effects
  631. * with the previous one.
  632. */
  633. dm_disk_bitset_init(md->tm, &d->info);
  634. d->nr_bits = min(d->writeset.nr_bits, md->nr_blocks);
  635. d->current_bit = 0;
  636. d->step = metadata_digest_transcribe_writeset;
  637. return 0;
  638. }
  639. static int metadata_digest_start(struct era_metadata *md, struct digest *d)
  640. {
  641. if (d->step)
  642. return 0;
  643. memset(d, 0, sizeof(*d));
  644. d->step = metadata_digest_lookup_writeset;
  645. return 0;
  646. }
  647. /*
  648. *-----------------------------------------------------------------
  649. * High level metadata interface. Target methods should use these,
  650. * and not the lower level ones.
  651. *-----------------------------------------------------------------
  652. */
  653. static struct era_metadata *metadata_open(struct block_device *bdev,
  654. sector_t block_size,
  655. bool may_format)
  656. {
  657. int r;
  658. struct era_metadata *md = kzalloc_obj(*md);
  659. if (!md)
  660. return NULL;
  661. md->bdev = bdev;
  662. md->block_size = block_size;
  663. md->writesets[0].md.root = INVALID_WRITESET_ROOT;
  664. md->writesets[1].md.root = INVALID_WRITESET_ROOT;
  665. md->current_writeset = &md->writesets[0];
  666. r = create_persistent_data_objects(md, may_format);
  667. if (r) {
  668. kfree(md);
  669. return ERR_PTR(r);
  670. }
  671. return md;
  672. }
  673. static void metadata_close(struct era_metadata *md)
  674. {
  675. writeset_free(&md->writesets[0]);
  676. writeset_free(&md->writesets[1]);
  677. destroy_persistent_data_objects(md);
  678. kfree(md);
  679. }
  680. static bool valid_nr_blocks(dm_block_t n)
  681. {
  682. /*
  683. * dm_bitset restricts us to 2^32. test_bit & co. restrict us
  684. * further to 2^31 - 1
  685. */
  686. return n < (1ull << 31);
  687. }
  688. static int metadata_resize(struct era_metadata *md, void *arg)
  689. {
  690. int r;
  691. dm_block_t *new_size = arg;
  692. __le32 value;
  693. if (!valid_nr_blocks(*new_size)) {
  694. DMERR("Invalid number of origin blocks %llu",
  695. (unsigned long long) *new_size);
  696. return -EINVAL;
  697. }
  698. writeset_free(&md->writesets[0]);
  699. writeset_free(&md->writesets[1]);
  700. r = writeset_alloc(&md->writesets[0], *new_size);
  701. if (r) {
  702. DMERR("%s: writeset_alloc failed for writeset 0", __func__);
  703. return r;
  704. }
  705. r = writeset_alloc(&md->writesets[1], *new_size);
  706. if (r) {
  707. DMERR("%s: writeset_alloc failed for writeset 1", __func__);
  708. writeset_free(&md->writesets[0]);
  709. return r;
  710. }
  711. value = cpu_to_le32(0u);
  712. __dm_bless_for_disk(&value);
  713. r = dm_array_resize(&md->era_array_info, md->era_array_root,
  714. md->nr_blocks, *new_size,
  715. &value, &md->era_array_root);
  716. if (r) {
  717. DMERR("%s: dm_array_resize failed", __func__);
  718. writeset_free(&md->writesets[0]);
  719. writeset_free(&md->writesets[1]);
  720. return r;
  721. }
  722. md->nr_blocks = *new_size;
  723. return 0;
  724. }
  725. static int metadata_era_archive(struct era_metadata *md)
  726. {
  727. int r;
  728. uint64_t keys[1];
  729. struct writeset_disk value;
  730. r = dm_bitset_flush(&md->bitset_info, md->current_writeset->md.root,
  731. &md->current_writeset->md.root);
  732. if (r) {
  733. DMERR("%s: dm_bitset_flush failed", __func__);
  734. return r;
  735. }
  736. ws_pack(&md->current_writeset->md, &value);
  737. keys[0] = md->current_era;
  738. __dm_bless_for_disk(&value);
  739. r = dm_btree_insert(&md->writeset_tree_info, md->writeset_tree_root,
  740. keys, &value, &md->writeset_tree_root);
  741. if (r) {
  742. DMERR("%s: couldn't insert writeset into btree", __func__);
  743. /* FIXME: fail mode */
  744. return r;
  745. }
  746. md->current_writeset->md.root = INVALID_WRITESET_ROOT;
  747. md->archived_writesets = true;
  748. return 0;
  749. }
  750. static struct writeset *next_writeset(struct era_metadata *md)
  751. {
  752. return (md->current_writeset == &md->writesets[0]) ?
  753. &md->writesets[1] : &md->writesets[0];
  754. }
  755. static int metadata_new_era(struct era_metadata *md)
  756. {
  757. int r;
  758. struct writeset *new_writeset = next_writeset(md);
  759. r = writeset_init(&md->bitset_info, new_writeset, md->nr_blocks);
  760. if (r) {
  761. DMERR("%s: writeset_init failed", __func__);
  762. return r;
  763. }
  764. swap_writeset(md, new_writeset);
  765. md->current_era++;
  766. return 0;
  767. }
  768. static int metadata_era_rollover(struct era_metadata *md)
  769. {
  770. int r;
  771. if (md->current_writeset->md.root != INVALID_WRITESET_ROOT) {
  772. r = metadata_era_archive(md);
  773. if (r) {
  774. DMERR("%s: metadata_archive_era failed", __func__);
  775. /* FIXME: fail mode? */
  776. return r;
  777. }
  778. }
  779. r = metadata_new_era(md);
  780. if (r) {
  781. DMERR("%s: new era failed", __func__);
  782. /* FIXME: fail mode */
  783. return r;
  784. }
  785. return 0;
  786. }
  787. static bool metadata_current_marked(struct era_metadata *md, dm_block_t block)
  788. {
  789. bool r;
  790. struct writeset *ws;
  791. rcu_read_lock();
  792. ws = rcu_dereference(md->current_writeset);
  793. r = writeset_marked(ws, block);
  794. rcu_read_unlock();
  795. return r;
  796. }
  797. static int metadata_commit(struct era_metadata *md)
  798. {
  799. int r;
  800. struct dm_block *sblock;
  801. if (md->current_writeset->md.root != INVALID_WRITESET_ROOT) {
  802. r = dm_bitset_flush(&md->bitset_info, md->current_writeset->md.root,
  803. &md->current_writeset->md.root);
  804. if (r) {
  805. DMERR("%s: bitset flush failed", __func__);
  806. return r;
  807. }
  808. }
  809. r = dm_tm_pre_commit(md->tm);
  810. if (r) {
  811. DMERR("%s: pre commit failed", __func__);
  812. return r;
  813. }
  814. r = save_sm_root(md);
  815. if (r) {
  816. DMERR("%s: save_sm_root failed", __func__);
  817. return r;
  818. }
  819. r = superblock_lock(md, &sblock);
  820. if (r) {
  821. DMERR("%s: superblock lock failed", __func__);
  822. return r;
  823. }
  824. prepare_superblock(md, dm_block_data(sblock));
  825. return dm_tm_commit(md->tm, sblock);
  826. }
  827. static int metadata_checkpoint(struct era_metadata *md)
  828. {
  829. /*
  830. * For now we just rollover, but later I want to put a check in to
  831. * avoid this if the filter is still pretty fresh.
  832. */
  833. return metadata_era_rollover(md);
  834. }
  835. /*
  836. * Metadata snapshots allow userland to access era data.
  837. */
  838. static int metadata_take_snap(struct era_metadata *md)
  839. {
  840. int r, inc;
  841. struct dm_block *clone;
  842. if (md->metadata_snap != SUPERBLOCK_LOCATION) {
  843. DMERR("%s: metadata snapshot already exists", __func__);
  844. return -EINVAL;
  845. }
  846. r = metadata_era_rollover(md);
  847. if (r) {
  848. DMERR("%s: era rollover failed", __func__);
  849. return r;
  850. }
  851. r = metadata_commit(md);
  852. if (r) {
  853. DMERR("%s: pre commit failed", __func__);
  854. return r;
  855. }
  856. r = dm_sm_inc_block(md->sm, SUPERBLOCK_LOCATION);
  857. if (r) {
  858. DMERR("%s: couldn't increment superblock", __func__);
  859. return r;
  860. }
  861. r = dm_tm_shadow_block(md->tm, SUPERBLOCK_LOCATION,
  862. &sb_validator, &clone, &inc);
  863. if (r) {
  864. DMERR("%s: couldn't shadow superblock", __func__);
  865. dm_sm_dec_block(md->sm, SUPERBLOCK_LOCATION);
  866. return r;
  867. }
  868. BUG_ON(!inc);
  869. r = dm_sm_inc_block(md->sm, md->writeset_tree_root);
  870. if (r) {
  871. DMERR("%s: couldn't inc writeset tree root", __func__);
  872. dm_tm_unlock(md->tm, clone);
  873. return r;
  874. }
  875. r = dm_sm_inc_block(md->sm, md->era_array_root);
  876. if (r) {
  877. DMERR("%s: couldn't inc era tree root", __func__);
  878. dm_sm_dec_block(md->sm, md->writeset_tree_root);
  879. dm_tm_unlock(md->tm, clone);
  880. return r;
  881. }
  882. md->metadata_snap = dm_block_location(clone);
  883. dm_tm_unlock(md->tm, clone);
  884. return 0;
  885. }
  886. static int metadata_drop_snap(struct era_metadata *md)
  887. {
  888. int r;
  889. dm_block_t location;
  890. struct dm_block *clone;
  891. struct superblock_disk *disk;
  892. if (md->metadata_snap == SUPERBLOCK_LOCATION) {
  893. DMERR("%s: no snap to drop", __func__);
  894. return -EINVAL;
  895. }
  896. r = dm_tm_read_lock(md->tm, md->metadata_snap, &sb_validator, &clone);
  897. if (r) {
  898. DMERR("%s: couldn't read lock superblock clone", __func__);
  899. return r;
  900. }
  901. /*
  902. * Whatever happens now we'll commit with no record of the metadata
  903. * snap.
  904. */
  905. md->metadata_snap = SUPERBLOCK_LOCATION;
  906. disk = dm_block_data(clone);
  907. r = dm_btree_del(&md->writeset_tree_info,
  908. le64_to_cpu(disk->writeset_tree_root));
  909. if (r) {
  910. DMERR("%s: error deleting writeset tree clone", __func__);
  911. dm_tm_unlock(md->tm, clone);
  912. return r;
  913. }
  914. r = dm_array_del(&md->era_array_info, le64_to_cpu(disk->era_array_root));
  915. if (r) {
  916. DMERR("%s: error deleting era array clone", __func__);
  917. dm_tm_unlock(md->tm, clone);
  918. return r;
  919. }
  920. location = dm_block_location(clone);
  921. dm_tm_unlock(md->tm, clone);
  922. return dm_sm_dec_block(md->sm, location);
  923. }
  924. struct metadata_stats {
  925. dm_block_t used;
  926. dm_block_t total;
  927. dm_block_t snap;
  928. uint32_t era;
  929. };
  930. static int metadata_get_stats(struct era_metadata *md, void *ptr)
  931. {
  932. int r;
  933. struct metadata_stats *s = ptr;
  934. dm_block_t nr_free, nr_total;
  935. r = dm_sm_get_nr_free(md->sm, &nr_free);
  936. if (r) {
  937. DMERR("dm_sm_get_nr_free returned %d", r);
  938. return r;
  939. }
  940. r = dm_sm_get_nr_blocks(md->sm, &nr_total);
  941. if (r) {
  942. DMERR("dm_pool_get_metadata_dev_size returned %d", r);
  943. return r;
  944. }
  945. s->used = nr_total - nr_free;
  946. s->total = nr_total;
  947. s->snap = md->metadata_snap;
  948. s->era = md->current_era;
  949. return 0;
  950. }
  951. /*----------------------------------------------------------------*/
  952. struct era {
  953. struct dm_target *ti;
  954. struct dm_dev *metadata_dev;
  955. struct dm_dev *origin_dev;
  956. dm_block_t nr_blocks;
  957. uint32_t sectors_per_block;
  958. int sectors_per_block_shift;
  959. struct era_metadata *md;
  960. struct workqueue_struct *wq;
  961. struct work_struct worker;
  962. spinlock_t deferred_lock;
  963. struct bio_list deferred_bios;
  964. spinlock_t rpc_lock;
  965. struct list_head rpc_calls;
  966. struct digest digest;
  967. atomic_t suspended;
  968. };
  969. struct rpc {
  970. struct list_head list;
  971. int (*fn0)(struct era_metadata *md);
  972. int (*fn1)(struct era_metadata *md, void *ref);
  973. void *arg;
  974. int result;
  975. struct completion complete;
  976. };
  977. /*
  978. *---------------------------------------------------------------
  979. * Remapping.
  980. *---------------------------------------------------------------
  981. */
  982. static bool block_size_is_power_of_two(struct era *era)
  983. {
  984. return era->sectors_per_block_shift >= 0;
  985. }
  986. static dm_block_t get_block(struct era *era, struct bio *bio)
  987. {
  988. sector_t block_nr = bio->bi_iter.bi_sector;
  989. if (!block_size_is_power_of_two(era))
  990. (void) sector_div(block_nr, era->sectors_per_block);
  991. else
  992. block_nr >>= era->sectors_per_block_shift;
  993. return block_nr;
  994. }
  995. static void remap_to_origin(struct era *era, struct bio *bio)
  996. {
  997. bio_set_dev(bio, era->origin_dev->bdev);
  998. }
  999. /*
  1000. *--------------------------------------------------------------
  1001. * Worker thread
  1002. *--------------------------------------------------------------
  1003. */
  1004. static void wake_worker(struct era *era)
  1005. {
  1006. if (!atomic_read(&era->suspended))
  1007. queue_work(era->wq, &era->worker);
  1008. }
  1009. static void process_old_eras(struct era *era)
  1010. {
  1011. int r;
  1012. if (!era->digest.step)
  1013. return;
  1014. r = era->digest.step(era->md, &era->digest);
  1015. if (r < 0) {
  1016. DMERR("%s: digest step failed, stopping digestion", __func__);
  1017. era->digest.step = NULL;
  1018. } else if (era->digest.step)
  1019. wake_worker(era);
  1020. }
  1021. static void process_deferred_bios(struct era *era)
  1022. {
  1023. int r;
  1024. struct bio_list deferred_bios, marked_bios;
  1025. struct bio *bio;
  1026. struct blk_plug plug;
  1027. bool commit_needed = false;
  1028. bool failed = false;
  1029. struct writeset *ws = era->md->current_writeset;
  1030. bio_list_init(&deferred_bios);
  1031. bio_list_init(&marked_bios);
  1032. spin_lock(&era->deferred_lock);
  1033. bio_list_merge_init(&deferred_bios, &era->deferred_bios);
  1034. spin_unlock(&era->deferred_lock);
  1035. if (bio_list_empty(&deferred_bios))
  1036. return;
  1037. while ((bio = bio_list_pop(&deferred_bios))) {
  1038. r = writeset_test_and_set(&era->md->bitset_info, ws,
  1039. get_block(era, bio));
  1040. if (r < 0) {
  1041. /*
  1042. * This is bad news, we need to rollback.
  1043. * FIXME: finish.
  1044. */
  1045. failed = true;
  1046. } else if (r == 0)
  1047. commit_needed = true;
  1048. bio_list_add(&marked_bios, bio);
  1049. }
  1050. if (commit_needed) {
  1051. r = metadata_commit(era->md);
  1052. if (r)
  1053. failed = true;
  1054. }
  1055. if (failed)
  1056. while ((bio = bio_list_pop(&marked_bios)))
  1057. bio_io_error(bio);
  1058. else {
  1059. blk_start_plug(&plug);
  1060. while ((bio = bio_list_pop(&marked_bios))) {
  1061. /*
  1062. * Only update the in-core writeset if the on-disk one
  1063. * was updated too.
  1064. */
  1065. if (commit_needed)
  1066. set_bit(get_block(era, bio), ws->bits);
  1067. submit_bio_noacct(bio);
  1068. }
  1069. blk_finish_plug(&plug);
  1070. }
  1071. }
  1072. static void process_rpc_calls(struct era *era)
  1073. {
  1074. int r;
  1075. bool need_commit = false;
  1076. struct list_head calls;
  1077. struct rpc *rpc, *tmp;
  1078. INIT_LIST_HEAD(&calls);
  1079. spin_lock(&era->rpc_lock);
  1080. list_splice_init(&era->rpc_calls, &calls);
  1081. spin_unlock(&era->rpc_lock);
  1082. list_for_each_entry_safe(rpc, tmp, &calls, list) {
  1083. rpc->result = rpc->fn0 ? rpc->fn0(era->md) : rpc->fn1(era->md, rpc->arg);
  1084. need_commit = true;
  1085. }
  1086. if (need_commit) {
  1087. r = metadata_commit(era->md);
  1088. if (r)
  1089. list_for_each_entry_safe(rpc, tmp, &calls, list)
  1090. rpc->result = r;
  1091. }
  1092. list_for_each_entry_safe(rpc, tmp, &calls, list)
  1093. complete(&rpc->complete);
  1094. }
  1095. static void kick_off_digest(struct era *era)
  1096. {
  1097. if (era->md->archived_writesets) {
  1098. era->md->archived_writesets = false;
  1099. metadata_digest_start(era->md, &era->digest);
  1100. }
  1101. }
  1102. static void do_work(struct work_struct *ws)
  1103. {
  1104. struct era *era = container_of(ws, struct era, worker);
  1105. kick_off_digest(era);
  1106. process_old_eras(era);
  1107. process_deferred_bios(era);
  1108. process_rpc_calls(era);
  1109. }
  1110. static void defer_bio(struct era *era, struct bio *bio)
  1111. {
  1112. spin_lock(&era->deferred_lock);
  1113. bio_list_add(&era->deferred_bios, bio);
  1114. spin_unlock(&era->deferred_lock);
  1115. wake_worker(era);
  1116. }
  1117. /*
  1118. * Make an rpc call to the worker to change the metadata.
  1119. */
  1120. static int perform_rpc(struct era *era, struct rpc *rpc)
  1121. {
  1122. rpc->result = 0;
  1123. init_completion(&rpc->complete);
  1124. spin_lock(&era->rpc_lock);
  1125. list_add(&rpc->list, &era->rpc_calls);
  1126. spin_unlock(&era->rpc_lock);
  1127. wake_worker(era);
  1128. wait_for_completion(&rpc->complete);
  1129. return rpc->result;
  1130. }
  1131. static int in_worker0(struct era *era, int (*fn)(struct era_metadata *md))
  1132. {
  1133. struct rpc rpc;
  1134. rpc.fn0 = fn;
  1135. rpc.fn1 = NULL;
  1136. return perform_rpc(era, &rpc);
  1137. }
  1138. static int in_worker1(struct era *era,
  1139. int (*fn)(struct era_metadata *md, void *ref), void *arg)
  1140. {
  1141. struct rpc rpc;
  1142. rpc.fn0 = NULL;
  1143. rpc.fn1 = fn;
  1144. rpc.arg = arg;
  1145. return perform_rpc(era, &rpc);
  1146. }
  1147. static void start_worker(struct era *era)
  1148. {
  1149. atomic_set(&era->suspended, 0);
  1150. }
  1151. static void stop_worker(struct era *era)
  1152. {
  1153. atomic_set(&era->suspended, 1);
  1154. drain_workqueue(era->wq);
  1155. }
  1156. /*
  1157. *--------------------------------------------------------------
  1158. * Target methods
  1159. *--------------------------------------------------------------
  1160. */
  1161. static void era_destroy(struct era *era)
  1162. {
  1163. if (era->md)
  1164. metadata_close(era->md);
  1165. if (era->wq)
  1166. destroy_workqueue(era->wq);
  1167. if (era->origin_dev)
  1168. dm_put_device(era->ti, era->origin_dev);
  1169. if (era->metadata_dev)
  1170. dm_put_device(era->ti, era->metadata_dev);
  1171. kfree(era);
  1172. }
  1173. static dm_block_t calc_nr_blocks(struct era *era)
  1174. {
  1175. return dm_sector_div_up(era->ti->len, era->sectors_per_block);
  1176. }
  1177. static bool valid_block_size(dm_block_t block_size)
  1178. {
  1179. bool greater_than_zero = block_size > 0;
  1180. bool multiple_of_min_block_size = (block_size & (MIN_BLOCK_SIZE - 1)) == 0;
  1181. return greater_than_zero && multiple_of_min_block_size;
  1182. }
  1183. /*
  1184. * <metadata dev> <data dev> <data block size (sectors)>
  1185. */
  1186. static int era_ctr(struct dm_target *ti, unsigned int argc, char **argv)
  1187. {
  1188. int r;
  1189. char dummy;
  1190. struct era *era;
  1191. struct era_metadata *md;
  1192. if (argc != 3) {
  1193. ti->error = "Invalid argument count";
  1194. return -EINVAL;
  1195. }
  1196. era = kzalloc_obj(*era);
  1197. if (!era) {
  1198. ti->error = "Error allocating era structure";
  1199. return -ENOMEM;
  1200. }
  1201. era->ti = ti;
  1202. r = dm_get_device(ti, argv[0], BLK_OPEN_READ | BLK_OPEN_WRITE,
  1203. &era->metadata_dev);
  1204. if (r) {
  1205. ti->error = "Error opening metadata device";
  1206. era_destroy(era);
  1207. return -EINVAL;
  1208. }
  1209. r = dm_get_device(ti, argv[1], BLK_OPEN_READ | BLK_OPEN_WRITE,
  1210. &era->origin_dev);
  1211. if (r) {
  1212. ti->error = "Error opening data device";
  1213. era_destroy(era);
  1214. return -EINVAL;
  1215. }
  1216. r = sscanf(argv[2], "%u%c", &era->sectors_per_block, &dummy);
  1217. if (r != 1) {
  1218. ti->error = "Error parsing block size";
  1219. era_destroy(era);
  1220. return -EINVAL;
  1221. }
  1222. r = dm_set_target_max_io_len(ti, era->sectors_per_block);
  1223. if (r) {
  1224. ti->error = "could not set max io len";
  1225. era_destroy(era);
  1226. return -EINVAL;
  1227. }
  1228. if (!valid_block_size(era->sectors_per_block)) {
  1229. ti->error = "Invalid block size";
  1230. era_destroy(era);
  1231. return -EINVAL;
  1232. }
  1233. if (era->sectors_per_block & (era->sectors_per_block - 1))
  1234. era->sectors_per_block_shift = -1;
  1235. else
  1236. era->sectors_per_block_shift = __ffs(era->sectors_per_block);
  1237. md = metadata_open(era->metadata_dev->bdev, era->sectors_per_block, true);
  1238. if (IS_ERR(md)) {
  1239. ti->error = "Error reading metadata";
  1240. era_destroy(era);
  1241. return PTR_ERR(md);
  1242. }
  1243. era->md = md;
  1244. era->wq = alloc_ordered_workqueue("dm-" DM_MSG_PREFIX, WQ_MEM_RECLAIM);
  1245. if (!era->wq) {
  1246. ti->error = "could not create workqueue for metadata object";
  1247. era_destroy(era);
  1248. return -ENOMEM;
  1249. }
  1250. INIT_WORK(&era->worker, do_work);
  1251. spin_lock_init(&era->deferred_lock);
  1252. bio_list_init(&era->deferred_bios);
  1253. spin_lock_init(&era->rpc_lock);
  1254. INIT_LIST_HEAD(&era->rpc_calls);
  1255. ti->private = era;
  1256. ti->num_flush_bios = 1;
  1257. ti->flush_supported = true;
  1258. ti->num_discard_bios = 1;
  1259. return 0;
  1260. }
  1261. static void era_dtr(struct dm_target *ti)
  1262. {
  1263. era_destroy(ti->private);
  1264. }
  1265. static int era_map(struct dm_target *ti, struct bio *bio)
  1266. {
  1267. struct era *era = ti->private;
  1268. dm_block_t block = get_block(era, bio);
  1269. /*
  1270. * All bios get remapped to the origin device. We do this now, but
  1271. * it may not get issued until later. Depending on whether the
  1272. * block is marked in this era.
  1273. */
  1274. remap_to_origin(era, bio);
  1275. /*
  1276. * REQ_PREFLUSH bios carry no data, so we're not interested in them.
  1277. */
  1278. if (!(bio->bi_opf & REQ_PREFLUSH) &&
  1279. (bio_data_dir(bio) == WRITE) &&
  1280. !metadata_current_marked(era->md, block)) {
  1281. defer_bio(era, bio);
  1282. return DM_MAPIO_SUBMITTED;
  1283. }
  1284. return DM_MAPIO_REMAPPED;
  1285. }
  1286. static void era_postsuspend(struct dm_target *ti)
  1287. {
  1288. int r;
  1289. struct era *era = ti->private;
  1290. r = in_worker0(era, metadata_era_archive);
  1291. if (r) {
  1292. DMERR("%s: couldn't archive current era", __func__);
  1293. /* FIXME: fail mode */
  1294. }
  1295. stop_worker(era);
  1296. r = metadata_commit(era->md);
  1297. if (r) {
  1298. DMERR("%s: metadata_commit failed", __func__);
  1299. /* FIXME: fail mode */
  1300. }
  1301. }
  1302. static int era_preresume(struct dm_target *ti)
  1303. {
  1304. int r;
  1305. struct era *era = ti->private;
  1306. dm_block_t new_size = calc_nr_blocks(era);
  1307. if (era->nr_blocks != new_size) {
  1308. r = metadata_resize(era->md, &new_size);
  1309. if (r) {
  1310. DMERR("%s: metadata_resize failed", __func__);
  1311. return r;
  1312. }
  1313. r = metadata_commit(era->md);
  1314. if (r) {
  1315. DMERR("%s: metadata_commit failed", __func__);
  1316. return r;
  1317. }
  1318. era->nr_blocks = new_size;
  1319. }
  1320. start_worker(era);
  1321. r = in_worker0(era, metadata_era_rollover);
  1322. if (r) {
  1323. DMERR("%s: metadata_era_rollover failed", __func__);
  1324. return r;
  1325. }
  1326. return 0;
  1327. }
  1328. /*
  1329. * Status format:
  1330. *
  1331. * <metadata block size> <#used metadata blocks>/<#total metadata blocks>
  1332. * <current era> <held metadata root | '-'>
  1333. */
  1334. static void era_status(struct dm_target *ti, status_type_t type,
  1335. unsigned int status_flags, char *result, unsigned int maxlen)
  1336. {
  1337. int r;
  1338. struct era *era = ti->private;
  1339. ssize_t sz = 0;
  1340. struct metadata_stats stats;
  1341. char buf[BDEVNAME_SIZE];
  1342. switch (type) {
  1343. case STATUSTYPE_INFO:
  1344. r = in_worker1(era, metadata_get_stats, &stats);
  1345. if (r)
  1346. goto err;
  1347. DMEMIT("%u %llu/%llu %u",
  1348. (unsigned int) (DM_ERA_METADATA_BLOCK_SIZE >> SECTOR_SHIFT),
  1349. (unsigned long long) stats.used,
  1350. (unsigned long long) stats.total,
  1351. (unsigned int) stats.era);
  1352. if (stats.snap != SUPERBLOCK_LOCATION)
  1353. DMEMIT(" %llu", stats.snap);
  1354. else
  1355. DMEMIT(" -");
  1356. break;
  1357. case STATUSTYPE_TABLE:
  1358. format_dev_t(buf, era->metadata_dev->bdev->bd_dev);
  1359. DMEMIT("%s ", buf);
  1360. format_dev_t(buf, era->origin_dev->bdev->bd_dev);
  1361. DMEMIT("%s %u", buf, era->sectors_per_block);
  1362. break;
  1363. case STATUSTYPE_IMA:
  1364. *result = '\0';
  1365. break;
  1366. }
  1367. return;
  1368. err:
  1369. DMEMIT("Error");
  1370. }
  1371. static int era_message(struct dm_target *ti, unsigned int argc, char **argv,
  1372. char *result, unsigned int maxlen)
  1373. {
  1374. struct era *era = ti->private;
  1375. if (argc != 1) {
  1376. DMERR("incorrect number of message arguments");
  1377. return -EINVAL;
  1378. }
  1379. if (!strcasecmp(argv[0], "checkpoint"))
  1380. return in_worker0(era, metadata_checkpoint);
  1381. if (!strcasecmp(argv[0], "take_metadata_snap"))
  1382. return in_worker0(era, metadata_take_snap);
  1383. if (!strcasecmp(argv[0], "drop_metadata_snap"))
  1384. return in_worker0(era, metadata_drop_snap);
  1385. DMERR("unsupported message '%s'", argv[0]);
  1386. return -EINVAL;
  1387. }
  1388. static sector_t get_dev_size(struct dm_dev *dev)
  1389. {
  1390. return bdev_nr_sectors(dev->bdev);
  1391. }
  1392. static int era_iterate_devices(struct dm_target *ti,
  1393. iterate_devices_callout_fn fn, void *data)
  1394. {
  1395. struct era *era = ti->private;
  1396. return fn(ti, era->origin_dev, 0, get_dev_size(era->origin_dev), data);
  1397. }
  1398. static void era_io_hints(struct dm_target *ti, struct queue_limits *limits)
  1399. {
  1400. struct era *era = ti->private;
  1401. uint64_t io_opt_sectors = limits->io_opt >> SECTOR_SHIFT;
  1402. /*
  1403. * If the system-determined stacked limits are compatible with the
  1404. * era device's blocksize (io_opt is a factor) do not override them.
  1405. */
  1406. if (io_opt_sectors < era->sectors_per_block ||
  1407. do_div(io_opt_sectors, era->sectors_per_block)) {
  1408. limits->io_min = 0;
  1409. limits->io_opt = era->sectors_per_block << SECTOR_SHIFT;
  1410. }
  1411. }
  1412. /*----------------------------------------------------------------*/
  1413. static struct target_type era_target = {
  1414. .name = "era",
  1415. .version = {1, 0, 0},
  1416. .module = THIS_MODULE,
  1417. .ctr = era_ctr,
  1418. .dtr = era_dtr,
  1419. .map = era_map,
  1420. .postsuspend = era_postsuspend,
  1421. .preresume = era_preresume,
  1422. .status = era_status,
  1423. .message = era_message,
  1424. .iterate_devices = era_iterate_devices,
  1425. .io_hints = era_io_hints
  1426. };
  1427. module_dm(era);
  1428. MODULE_DESCRIPTION(DM_NAME " era target");
  1429. MODULE_AUTHOR("Joe Thornber <ejt@redhat.com>");
  1430. MODULE_LICENSE("GPL");