nbd.c 68 KB

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  1. // SPDX-License-Identifier: GPL-2.0-or-later
  2. /*
  3. * Network block device - make block devices work over TCP
  4. *
  5. * Note that you can not swap over this thing, yet. Seems to work but
  6. * deadlocks sometimes - you can not swap over TCP in general.
  7. *
  8. * Copyright 1997-2000, 2008 Pavel Machek <pavel@ucw.cz>
  9. * Parts copyright 2001 Steven Whitehouse <steve@chygwyn.com>
  10. *
  11. * (part of code stolen from loop.c)
  12. */
  13. #define pr_fmt(fmt) "nbd: " fmt
  14. #include <linux/major.h>
  15. #include <linux/blkdev.h>
  16. #include <linux/module.h>
  17. #include <linux/init.h>
  18. #include <linux/sched.h>
  19. #include <linux/sched/mm.h>
  20. #include <linux/fs.h>
  21. #include <linux/bio.h>
  22. #include <linux/stat.h>
  23. #include <linux/errno.h>
  24. #include <linux/file.h>
  25. #include <linux/ioctl.h>
  26. #include <linux/mutex.h>
  27. #include <linux/compiler.h>
  28. #include <linux/completion.h>
  29. #include <linux/err.h>
  30. #include <linux/kernel.h>
  31. #include <linux/slab.h>
  32. #include <net/sock.h>
  33. #include <linux/net.h>
  34. #include <linux/kthread.h>
  35. #include <linux/types.h>
  36. #include <linux/debugfs.h>
  37. #include <linux/blk-mq.h>
  38. #include <linux/uaccess.h>
  39. #include <asm/types.h>
  40. #include <linux/nbd.h>
  41. #include <linux/nbd-netlink.h>
  42. #include <net/genetlink.h>
  43. #define CREATE_TRACE_POINTS
  44. #include <trace/events/nbd.h>
  45. static DEFINE_IDR(nbd_index_idr);
  46. static DEFINE_MUTEX(nbd_index_mutex);
  47. static struct workqueue_struct *nbd_del_wq;
  48. static int nbd_total_devices = 0;
  49. struct nbd_sock {
  50. struct socket *sock;
  51. struct mutex tx_lock;
  52. struct request *pending;
  53. int sent;
  54. bool dead;
  55. int fallback_index;
  56. int cookie;
  57. struct work_struct work;
  58. };
  59. struct recv_thread_args {
  60. struct work_struct work;
  61. struct nbd_device *nbd;
  62. struct nbd_sock *nsock;
  63. int index;
  64. };
  65. struct link_dead_args {
  66. struct work_struct work;
  67. int index;
  68. };
  69. #define NBD_RT_TIMEDOUT 0
  70. #define NBD_RT_DISCONNECT_REQUESTED 1
  71. #define NBD_RT_DISCONNECTED 2
  72. #define NBD_RT_HAS_PID_FILE 3
  73. #define NBD_RT_HAS_CONFIG_REF 4
  74. #define NBD_RT_BOUND 5
  75. #define NBD_RT_DISCONNECT_ON_CLOSE 6
  76. #define NBD_RT_HAS_BACKEND_FILE 7
  77. #define NBD_DESTROY_ON_DISCONNECT 0
  78. #define NBD_DISCONNECT_REQUESTED 1
  79. struct nbd_config {
  80. u32 flags;
  81. unsigned long runtime_flags;
  82. u64 dead_conn_timeout;
  83. struct nbd_sock **socks;
  84. int num_connections;
  85. atomic_t live_connections;
  86. wait_queue_head_t conn_wait;
  87. atomic_t recv_threads;
  88. wait_queue_head_t recv_wq;
  89. unsigned int blksize_bits;
  90. loff_t bytesize;
  91. #if IS_ENABLED(CONFIG_DEBUG_FS)
  92. struct dentry *dbg_dir;
  93. #endif
  94. };
  95. static inline unsigned int nbd_blksize(struct nbd_config *config)
  96. {
  97. return 1u << config->blksize_bits;
  98. }
  99. struct nbd_device {
  100. struct blk_mq_tag_set tag_set;
  101. int index;
  102. refcount_t config_refs;
  103. refcount_t refs;
  104. struct nbd_config *config;
  105. struct mutex config_lock;
  106. struct gendisk *disk;
  107. struct workqueue_struct *recv_workq;
  108. struct work_struct remove_work;
  109. struct list_head list;
  110. struct task_struct *task_setup;
  111. unsigned long flags;
  112. pid_t pid; /* pid of nbd-client, if attached */
  113. char *backend;
  114. };
  115. #define NBD_CMD_REQUEUED 1
  116. /*
  117. * This flag will be set if nbd_queue_rq() succeed, and will be checked and
  118. * cleared in completion. Both setting and clearing of the flag are protected
  119. * by cmd->lock.
  120. */
  121. #define NBD_CMD_INFLIGHT 2
  122. /* Just part of request header or data payload is sent successfully */
  123. #define NBD_CMD_PARTIAL_SEND 3
  124. struct nbd_cmd {
  125. struct nbd_device *nbd;
  126. struct mutex lock;
  127. int index;
  128. int cookie;
  129. int retries;
  130. blk_status_t status;
  131. unsigned long flags;
  132. u32 cmd_cookie;
  133. };
  134. #if IS_ENABLED(CONFIG_DEBUG_FS)
  135. static struct dentry *nbd_dbg_dir;
  136. #endif
  137. #define nbd_name(nbd) ((nbd)->disk->disk_name)
  138. #define NBD_DEF_BLKSIZE_BITS 10
  139. static unsigned int nbds_max = 16;
  140. static int max_part = 16;
  141. static int part_shift;
  142. static int nbd_dev_dbg_init(struct nbd_device *nbd);
  143. static void nbd_dev_dbg_close(struct nbd_device *nbd);
  144. static void nbd_config_put(struct nbd_device *nbd);
  145. static void nbd_connect_reply(struct genl_info *info, int index);
  146. static int nbd_genl_status(struct sk_buff *skb, struct genl_info *info);
  147. static void nbd_dead_link_work(struct work_struct *work);
  148. static void nbd_disconnect_and_put(struct nbd_device *nbd);
  149. static inline struct device *nbd_to_dev(struct nbd_device *nbd)
  150. {
  151. return disk_to_dev(nbd->disk);
  152. }
  153. static void nbd_requeue_cmd(struct nbd_cmd *cmd)
  154. {
  155. struct request *req = blk_mq_rq_from_pdu(cmd);
  156. lockdep_assert_held(&cmd->lock);
  157. /*
  158. * Clear INFLIGHT flag so that this cmd won't be completed in
  159. * normal completion path
  160. *
  161. * INFLIGHT flag will be set when the cmd is queued to nbd next
  162. * time.
  163. */
  164. __clear_bit(NBD_CMD_INFLIGHT, &cmd->flags);
  165. if (!test_and_set_bit(NBD_CMD_REQUEUED, &cmd->flags))
  166. blk_mq_requeue_request(req, true);
  167. }
  168. #define NBD_COOKIE_BITS 32
  169. static u64 nbd_cmd_handle(struct nbd_cmd *cmd)
  170. {
  171. struct request *req = blk_mq_rq_from_pdu(cmd);
  172. u32 tag = blk_mq_unique_tag(req);
  173. u64 cookie = cmd->cmd_cookie;
  174. return (cookie << NBD_COOKIE_BITS) | tag;
  175. }
  176. static u32 nbd_handle_to_tag(u64 handle)
  177. {
  178. return (u32)handle;
  179. }
  180. static u32 nbd_handle_to_cookie(u64 handle)
  181. {
  182. return (u32)(handle >> NBD_COOKIE_BITS);
  183. }
  184. static const char *nbdcmd_to_ascii(int cmd)
  185. {
  186. switch (cmd) {
  187. case NBD_CMD_READ: return "read";
  188. case NBD_CMD_WRITE: return "write";
  189. case NBD_CMD_DISC: return "disconnect";
  190. case NBD_CMD_FLUSH: return "flush";
  191. case NBD_CMD_TRIM: return "trim/discard";
  192. }
  193. return "invalid";
  194. }
  195. static ssize_t pid_show(struct device *dev,
  196. struct device_attribute *attr, char *buf)
  197. {
  198. struct gendisk *disk = dev_to_disk(dev);
  199. struct nbd_device *nbd = disk->private_data;
  200. return sprintf(buf, "%d\n", nbd->pid);
  201. }
  202. static const struct device_attribute pid_attr = {
  203. .attr = { .name = "pid", .mode = 0444},
  204. .show = pid_show,
  205. };
  206. static ssize_t backend_show(struct device *dev,
  207. struct device_attribute *attr, char *buf)
  208. {
  209. struct gendisk *disk = dev_to_disk(dev);
  210. struct nbd_device *nbd = disk->private_data;
  211. return sprintf(buf, "%s\n", nbd->backend ?: "");
  212. }
  213. static const struct device_attribute backend_attr = {
  214. .attr = { .name = "backend", .mode = 0444},
  215. .show = backend_show,
  216. };
  217. static void nbd_dev_remove(struct nbd_device *nbd)
  218. {
  219. struct gendisk *disk = nbd->disk;
  220. del_gendisk(disk);
  221. blk_mq_free_tag_set(&nbd->tag_set);
  222. /*
  223. * Remove from idr after del_gendisk() completes, so if the same ID is
  224. * reused, the following add_disk() will succeed.
  225. */
  226. mutex_lock(&nbd_index_mutex);
  227. idr_remove(&nbd_index_idr, nbd->index);
  228. mutex_unlock(&nbd_index_mutex);
  229. destroy_workqueue(nbd->recv_workq);
  230. put_disk(disk);
  231. }
  232. static void nbd_dev_remove_work(struct work_struct *work)
  233. {
  234. nbd_dev_remove(container_of(work, struct nbd_device, remove_work));
  235. }
  236. static void nbd_put(struct nbd_device *nbd)
  237. {
  238. if (!refcount_dec_and_test(&nbd->refs))
  239. return;
  240. /* Call del_gendisk() asynchrounously to prevent deadlock */
  241. if (test_bit(NBD_DESTROY_ON_DISCONNECT, &nbd->flags))
  242. queue_work(nbd_del_wq, &nbd->remove_work);
  243. else
  244. nbd_dev_remove(nbd);
  245. }
  246. static int nbd_disconnected(struct nbd_config *config)
  247. {
  248. return test_bit(NBD_RT_DISCONNECTED, &config->runtime_flags) ||
  249. test_bit(NBD_RT_DISCONNECT_REQUESTED, &config->runtime_flags);
  250. }
  251. static void nbd_mark_nsock_dead(struct nbd_device *nbd, struct nbd_sock *nsock,
  252. int notify)
  253. {
  254. if (!nsock->dead && notify && !nbd_disconnected(nbd->config)) {
  255. struct link_dead_args *args;
  256. args = kmalloc_obj(struct link_dead_args, GFP_NOIO);
  257. if (args) {
  258. INIT_WORK(&args->work, nbd_dead_link_work);
  259. args->index = nbd->index;
  260. queue_work(system_percpu_wq, &args->work);
  261. }
  262. }
  263. if (!nsock->dead) {
  264. kernel_sock_shutdown(nsock->sock, SHUT_RDWR);
  265. if (atomic_dec_return(&nbd->config->live_connections) == 0) {
  266. if (test_and_clear_bit(NBD_RT_DISCONNECT_REQUESTED,
  267. &nbd->config->runtime_flags)) {
  268. set_bit(NBD_RT_DISCONNECTED,
  269. &nbd->config->runtime_flags);
  270. dev_info(nbd_to_dev(nbd),
  271. "Disconnected due to user request.\n");
  272. }
  273. }
  274. }
  275. nsock->dead = true;
  276. nsock->pending = NULL;
  277. nsock->sent = 0;
  278. }
  279. static int nbd_set_size(struct nbd_device *nbd, loff_t bytesize, loff_t blksize)
  280. {
  281. struct queue_limits lim;
  282. int error;
  283. if (!blksize)
  284. blksize = 1u << NBD_DEF_BLKSIZE_BITS;
  285. if (blk_validate_block_size(blksize))
  286. return -EINVAL;
  287. if (bytesize < 0)
  288. return -EINVAL;
  289. nbd->config->bytesize = bytesize;
  290. nbd->config->blksize_bits = __ffs(blksize);
  291. if (!nbd->pid)
  292. return 0;
  293. lim = queue_limits_start_update(nbd->disk->queue);
  294. if (nbd->config->flags & NBD_FLAG_SEND_TRIM)
  295. lim.max_hw_discard_sectors = UINT_MAX >> SECTOR_SHIFT;
  296. else
  297. lim.max_hw_discard_sectors = 0;
  298. if (!(nbd->config->flags & NBD_FLAG_SEND_FLUSH)) {
  299. lim.features &= ~(BLK_FEAT_WRITE_CACHE | BLK_FEAT_FUA);
  300. } else if (nbd->config->flags & NBD_FLAG_SEND_FUA) {
  301. lim.features |= BLK_FEAT_WRITE_CACHE | BLK_FEAT_FUA;
  302. } else {
  303. lim.features |= BLK_FEAT_WRITE_CACHE;
  304. lim.features &= ~BLK_FEAT_FUA;
  305. }
  306. if (nbd->config->flags & NBD_FLAG_ROTATIONAL)
  307. lim.features |= BLK_FEAT_ROTATIONAL;
  308. if (nbd->config->flags & NBD_FLAG_SEND_WRITE_ZEROES)
  309. lim.max_write_zeroes_sectors = UINT_MAX >> SECTOR_SHIFT;
  310. lim.logical_block_size = blksize;
  311. lim.physical_block_size = blksize;
  312. error = queue_limits_commit_update_frozen(nbd->disk->queue, &lim);
  313. if (error)
  314. return error;
  315. if (max_part)
  316. set_bit(GD_NEED_PART_SCAN, &nbd->disk->state);
  317. if (!set_capacity_and_notify(nbd->disk, bytesize >> 9))
  318. kobject_uevent(&nbd_to_dev(nbd)->kobj, KOBJ_CHANGE);
  319. return 0;
  320. }
  321. static void nbd_complete_rq(struct request *req)
  322. {
  323. struct nbd_cmd *cmd = blk_mq_rq_to_pdu(req);
  324. dev_dbg(nbd_to_dev(cmd->nbd), "request %p: %s\n", req,
  325. cmd->status ? "failed" : "done");
  326. blk_mq_end_request(req, cmd->status);
  327. }
  328. /*
  329. * Forcibly shutdown the socket causing all listeners to error
  330. */
  331. static void sock_shutdown(struct nbd_device *nbd)
  332. {
  333. struct nbd_config *config = nbd->config;
  334. int i;
  335. if (config->num_connections == 0)
  336. return;
  337. if (test_and_set_bit(NBD_RT_DISCONNECTED, &config->runtime_flags))
  338. return;
  339. for (i = 0; i < config->num_connections; i++) {
  340. struct nbd_sock *nsock = config->socks[i];
  341. mutex_lock(&nsock->tx_lock);
  342. nbd_mark_nsock_dead(nbd, nsock, 0);
  343. mutex_unlock(&nsock->tx_lock);
  344. }
  345. dev_warn(disk_to_dev(nbd->disk), "shutting down sockets\n");
  346. }
  347. static u32 req_to_nbd_cmd_type(struct request *req)
  348. {
  349. switch (req_op(req)) {
  350. case REQ_OP_DISCARD:
  351. return NBD_CMD_TRIM;
  352. case REQ_OP_FLUSH:
  353. return NBD_CMD_FLUSH;
  354. case REQ_OP_WRITE:
  355. return NBD_CMD_WRITE;
  356. case REQ_OP_READ:
  357. return NBD_CMD_READ;
  358. case REQ_OP_WRITE_ZEROES:
  359. return NBD_CMD_WRITE_ZEROES;
  360. default:
  361. return U32_MAX;
  362. }
  363. }
  364. static struct nbd_config *nbd_get_config_unlocked(struct nbd_device *nbd)
  365. {
  366. if (refcount_inc_not_zero(&nbd->config_refs)) {
  367. /*
  368. * Add smp_mb__after_atomic to ensure that reading nbd->config_refs
  369. * and reading nbd->config is ordered. The pair is the barrier in
  370. * nbd_alloc_and_init_config(), avoid nbd->config_refs is set
  371. * before nbd->config.
  372. */
  373. smp_mb__after_atomic();
  374. return nbd->config;
  375. }
  376. return NULL;
  377. }
  378. static enum blk_eh_timer_return nbd_xmit_timeout(struct request *req)
  379. {
  380. struct nbd_cmd *cmd = blk_mq_rq_to_pdu(req);
  381. struct nbd_device *nbd = cmd->nbd;
  382. struct nbd_config *config;
  383. if (!mutex_trylock(&cmd->lock))
  384. return BLK_EH_RESET_TIMER;
  385. /* partial send is handled in nbd_sock's work function */
  386. if (test_bit(NBD_CMD_PARTIAL_SEND, &cmd->flags)) {
  387. mutex_unlock(&cmd->lock);
  388. return BLK_EH_RESET_TIMER;
  389. }
  390. if (!test_bit(NBD_CMD_INFLIGHT, &cmd->flags)) {
  391. mutex_unlock(&cmd->lock);
  392. return BLK_EH_DONE;
  393. }
  394. config = nbd_get_config_unlocked(nbd);
  395. if (!config) {
  396. cmd->status = BLK_STS_TIMEOUT;
  397. __clear_bit(NBD_CMD_INFLIGHT, &cmd->flags);
  398. mutex_unlock(&cmd->lock);
  399. goto done;
  400. }
  401. if (config->num_connections > 1 ||
  402. (config->num_connections == 1 && nbd->tag_set.timeout)) {
  403. dev_err_ratelimited(nbd_to_dev(nbd),
  404. "Connection timed out, retrying (%d/%d alive)\n",
  405. atomic_read(&config->live_connections),
  406. config->num_connections);
  407. /*
  408. * Hooray we have more connections, requeue this IO, the submit
  409. * path will put it on a real connection. Or if only one
  410. * connection is configured, the submit path will wait util
  411. * a new connection is reconfigured or util dead timeout.
  412. */
  413. if (config->socks) {
  414. if (cmd->index < config->num_connections) {
  415. struct nbd_sock *nsock =
  416. config->socks[cmd->index];
  417. mutex_lock(&nsock->tx_lock);
  418. /* We can have multiple outstanding requests, so
  419. * we don't want to mark the nsock dead if we've
  420. * already reconnected with a new socket, so
  421. * only mark it dead if its the same socket we
  422. * were sent out on.
  423. */
  424. if (cmd->cookie == nsock->cookie)
  425. nbd_mark_nsock_dead(nbd, nsock, 1);
  426. mutex_unlock(&nsock->tx_lock);
  427. }
  428. nbd_requeue_cmd(cmd);
  429. mutex_unlock(&cmd->lock);
  430. nbd_config_put(nbd);
  431. return BLK_EH_DONE;
  432. }
  433. }
  434. if (!nbd->tag_set.timeout) {
  435. /*
  436. * Userspace sets timeout=0 to disable socket disconnection,
  437. * so just warn and reset the timer.
  438. */
  439. struct nbd_sock *nsock = config->socks[cmd->index];
  440. cmd->retries++;
  441. dev_info(nbd_to_dev(nbd), "Possible stuck request %p: control (%s@%llu,%uB). Runtime %u seconds\n",
  442. req, nbdcmd_to_ascii(req_to_nbd_cmd_type(req)),
  443. (unsigned long long)blk_rq_pos(req) << 9,
  444. blk_rq_bytes(req), (req->timeout / HZ) * cmd->retries);
  445. mutex_lock(&nsock->tx_lock);
  446. if (cmd->cookie != nsock->cookie) {
  447. nbd_requeue_cmd(cmd);
  448. mutex_unlock(&nsock->tx_lock);
  449. mutex_unlock(&cmd->lock);
  450. nbd_config_put(nbd);
  451. return BLK_EH_DONE;
  452. }
  453. mutex_unlock(&nsock->tx_lock);
  454. mutex_unlock(&cmd->lock);
  455. nbd_config_put(nbd);
  456. return BLK_EH_RESET_TIMER;
  457. }
  458. dev_err_ratelimited(nbd_to_dev(nbd), "Connection timed out\n");
  459. set_bit(NBD_RT_TIMEDOUT, &config->runtime_flags);
  460. cmd->status = BLK_STS_IOERR;
  461. __clear_bit(NBD_CMD_INFLIGHT, &cmd->flags);
  462. mutex_unlock(&cmd->lock);
  463. sock_shutdown(nbd);
  464. nbd_config_put(nbd);
  465. done:
  466. blk_mq_complete_request(req);
  467. return BLK_EH_DONE;
  468. }
  469. static int __sock_xmit(struct nbd_device *nbd, struct socket *sock, int send,
  470. struct iov_iter *iter, int msg_flags, int *sent)
  471. {
  472. int result;
  473. struct msghdr msg = {} ;
  474. unsigned int noreclaim_flag;
  475. if (unlikely(!sock)) {
  476. dev_err_ratelimited(disk_to_dev(nbd->disk),
  477. "Attempted %s on closed socket in sock_xmit\n",
  478. (send ? "send" : "recv"));
  479. return -EINVAL;
  480. }
  481. msg.msg_iter = *iter;
  482. noreclaim_flag = memalloc_noreclaim_save();
  483. scoped_with_kernel_creds() {
  484. do {
  485. sock->sk->sk_allocation = GFP_NOIO | __GFP_MEMALLOC;
  486. sock->sk->sk_use_task_frag = false;
  487. msg.msg_flags = msg_flags | MSG_NOSIGNAL;
  488. if (send)
  489. result = sock_sendmsg(sock, &msg);
  490. else
  491. result = sock_recvmsg(sock, &msg, msg.msg_flags);
  492. if (result <= 0) {
  493. if (result == 0)
  494. result = -EPIPE; /* short read */
  495. break;
  496. }
  497. if (sent)
  498. *sent += result;
  499. } while (msg_data_left(&msg));
  500. }
  501. memalloc_noreclaim_restore(noreclaim_flag);
  502. return result;
  503. }
  504. /*
  505. * Send or receive packet. Return a positive value on success and
  506. * negtive value on failure, and never return 0.
  507. */
  508. static int sock_xmit(struct nbd_device *nbd, int index, int send,
  509. struct iov_iter *iter, int msg_flags, int *sent)
  510. {
  511. struct nbd_config *config = nbd->config;
  512. struct socket *sock = config->socks[index]->sock;
  513. return __sock_xmit(nbd, sock, send, iter, msg_flags, sent);
  514. }
  515. /*
  516. * Different settings for sk->sk_sndtimeo can result in different return values
  517. * if there is a signal pending when we enter sendmsg, because reasons?
  518. */
  519. static inline int was_interrupted(int result)
  520. {
  521. return result == -ERESTARTSYS || result == -EINTR;
  522. }
  523. /*
  524. * We've already sent header or part of data payload, have no choice but
  525. * to set pending and schedule it in work.
  526. *
  527. * And we have to return BLK_STS_OK to block core, otherwise this same
  528. * request may be re-dispatched with different tag, but our header has
  529. * been sent out with old tag, and this way does confuse reply handling.
  530. */
  531. static void nbd_sched_pending_work(struct nbd_device *nbd,
  532. struct nbd_sock *nsock,
  533. struct nbd_cmd *cmd, int sent)
  534. {
  535. struct request *req = blk_mq_rq_from_pdu(cmd);
  536. /* pending work should be scheduled only once */
  537. WARN_ON_ONCE(test_bit(NBD_CMD_PARTIAL_SEND, &cmd->flags));
  538. nsock->pending = req;
  539. nsock->sent = sent;
  540. set_bit(NBD_CMD_PARTIAL_SEND, &cmd->flags);
  541. refcount_inc(&nbd->config_refs);
  542. schedule_work(&nsock->work);
  543. }
  544. /*
  545. * Returns BLK_STS_RESOURCE if the caller should retry after a delay.
  546. * Returns BLK_STS_IOERR if sending failed.
  547. */
  548. static blk_status_t nbd_send_cmd(struct nbd_device *nbd, struct nbd_cmd *cmd,
  549. int index)
  550. {
  551. struct request *req = blk_mq_rq_from_pdu(cmd);
  552. struct nbd_config *config = nbd->config;
  553. struct nbd_sock *nsock = config->socks[index];
  554. int result;
  555. struct nbd_request request = {.magic = htonl(NBD_REQUEST_MAGIC)};
  556. struct kvec iov = {.iov_base = &request, .iov_len = sizeof(request)};
  557. struct iov_iter from;
  558. struct bio *bio;
  559. u64 handle;
  560. u32 type;
  561. u32 nbd_cmd_flags = 0;
  562. int sent = nsock->sent, skip = 0;
  563. lockdep_assert_held(&cmd->lock);
  564. lockdep_assert_held(&nsock->tx_lock);
  565. iov_iter_kvec(&from, ITER_SOURCE, &iov, 1, sizeof(request));
  566. type = req_to_nbd_cmd_type(req);
  567. if (type == U32_MAX)
  568. return BLK_STS_IOERR;
  569. if (rq_data_dir(req) == WRITE &&
  570. (config->flags & NBD_FLAG_READ_ONLY)) {
  571. dev_err_ratelimited(disk_to_dev(nbd->disk),
  572. "Write on read-only\n");
  573. return BLK_STS_IOERR;
  574. }
  575. if (req->cmd_flags & REQ_FUA)
  576. nbd_cmd_flags |= NBD_CMD_FLAG_FUA;
  577. if ((req->cmd_flags & REQ_NOUNMAP) && (type == NBD_CMD_WRITE_ZEROES))
  578. nbd_cmd_flags |= NBD_CMD_FLAG_NO_HOLE;
  579. /* We did a partial send previously, and we at least sent the whole
  580. * request struct, so just go and send the rest of the pages in the
  581. * request.
  582. */
  583. if (sent) {
  584. if (sent >= sizeof(request)) {
  585. skip = sent - sizeof(request);
  586. /* initialize handle for tracing purposes */
  587. handle = nbd_cmd_handle(cmd);
  588. goto send_pages;
  589. }
  590. iov_iter_advance(&from, sent);
  591. } else {
  592. cmd->cmd_cookie++;
  593. }
  594. cmd->index = index;
  595. cmd->cookie = nsock->cookie;
  596. cmd->retries = 0;
  597. request.type = htonl(type | nbd_cmd_flags);
  598. if (type != NBD_CMD_FLUSH) {
  599. request.from = cpu_to_be64((u64)blk_rq_pos(req) << 9);
  600. request.len = htonl(blk_rq_bytes(req));
  601. }
  602. handle = nbd_cmd_handle(cmd);
  603. request.cookie = cpu_to_be64(handle);
  604. trace_nbd_send_request(&request, nbd->index, blk_mq_rq_from_pdu(cmd));
  605. dev_dbg(nbd_to_dev(nbd), "request %p: sending control (%s@%llu,%uB)\n",
  606. req, nbdcmd_to_ascii(type),
  607. (unsigned long long)blk_rq_pos(req) << 9, blk_rq_bytes(req));
  608. result = sock_xmit(nbd, index, 1, &from,
  609. (type == NBD_CMD_WRITE) ? MSG_MORE : 0, &sent);
  610. trace_nbd_header_sent(req, handle);
  611. if (result < 0) {
  612. if (was_interrupted(result)) {
  613. /* If we haven't sent anything we can just return BUSY,
  614. * however if we have sent something we need to make
  615. * sure we only allow this req to be sent until we are
  616. * completely done.
  617. */
  618. if (sent) {
  619. nbd_sched_pending_work(nbd, nsock, cmd, sent);
  620. return BLK_STS_OK;
  621. }
  622. set_bit(NBD_CMD_REQUEUED, &cmd->flags);
  623. return BLK_STS_RESOURCE;
  624. }
  625. dev_err_ratelimited(disk_to_dev(nbd->disk),
  626. "Send control failed (result %d)\n", result);
  627. goto requeue;
  628. }
  629. send_pages:
  630. if (type != NBD_CMD_WRITE)
  631. goto out;
  632. bio = req->bio;
  633. while (bio) {
  634. struct bio *next = bio->bi_next;
  635. struct bvec_iter iter;
  636. struct bio_vec bvec;
  637. bio_for_each_segment(bvec, bio, iter) {
  638. bool is_last = !next && bio_iter_last(bvec, iter);
  639. int flags = is_last ? 0 : MSG_MORE;
  640. dev_dbg(nbd_to_dev(nbd), "request %p: sending %d bytes data\n",
  641. req, bvec.bv_len);
  642. iov_iter_bvec(&from, ITER_SOURCE, &bvec, 1, bvec.bv_len);
  643. if (skip) {
  644. if (skip >= iov_iter_count(&from)) {
  645. skip -= iov_iter_count(&from);
  646. continue;
  647. }
  648. iov_iter_advance(&from, skip);
  649. skip = 0;
  650. }
  651. result = sock_xmit(nbd, index, 1, &from, flags, &sent);
  652. if (result < 0) {
  653. if (was_interrupted(result)) {
  654. nbd_sched_pending_work(nbd, nsock, cmd, sent);
  655. return BLK_STS_OK;
  656. }
  657. dev_err(disk_to_dev(nbd->disk),
  658. "Send data failed (result %d)\n",
  659. result);
  660. goto requeue;
  661. }
  662. /*
  663. * The completion might already have come in,
  664. * so break for the last one instead of letting
  665. * the iterator do it. This prevents use-after-free
  666. * of the bio.
  667. */
  668. if (is_last)
  669. break;
  670. }
  671. bio = next;
  672. }
  673. out:
  674. trace_nbd_payload_sent(req, handle);
  675. nsock->pending = NULL;
  676. nsock->sent = 0;
  677. __set_bit(NBD_CMD_INFLIGHT, &cmd->flags);
  678. return BLK_STS_OK;
  679. requeue:
  680. /*
  681. * Can't requeue in case we are dealing with partial send
  682. *
  683. * We must run from pending work function.
  684. * */
  685. if (test_bit(NBD_CMD_PARTIAL_SEND, &cmd->flags))
  686. return BLK_STS_OK;
  687. /* retry on a different socket */
  688. dev_err_ratelimited(disk_to_dev(nbd->disk),
  689. "Request send failed, requeueing\n");
  690. nbd_mark_nsock_dead(nbd, nsock, 1);
  691. nbd_requeue_cmd(cmd);
  692. return BLK_STS_OK;
  693. }
  694. /* handle partial sending */
  695. static void nbd_pending_cmd_work(struct work_struct *work)
  696. {
  697. struct nbd_sock *nsock = container_of(work, struct nbd_sock, work);
  698. struct request *req = nsock->pending;
  699. struct nbd_cmd *cmd = blk_mq_rq_to_pdu(req);
  700. struct nbd_device *nbd = cmd->nbd;
  701. unsigned long deadline = READ_ONCE(req->deadline);
  702. unsigned int wait_ms = 2;
  703. mutex_lock(&cmd->lock);
  704. WARN_ON_ONCE(test_bit(NBD_CMD_REQUEUED, &cmd->flags));
  705. if (WARN_ON_ONCE(!test_bit(NBD_CMD_PARTIAL_SEND, &cmd->flags)))
  706. goto out;
  707. mutex_lock(&nsock->tx_lock);
  708. while (true) {
  709. nbd_send_cmd(nbd, cmd, cmd->index);
  710. if (!nsock->pending)
  711. break;
  712. /* don't bother timeout handler for partial sending */
  713. if (READ_ONCE(jiffies) + msecs_to_jiffies(wait_ms) >= deadline) {
  714. cmd->status = BLK_STS_IOERR;
  715. blk_mq_complete_request(req);
  716. break;
  717. }
  718. msleep(wait_ms);
  719. wait_ms *= 2;
  720. }
  721. mutex_unlock(&nsock->tx_lock);
  722. clear_bit(NBD_CMD_PARTIAL_SEND, &cmd->flags);
  723. out:
  724. mutex_unlock(&cmd->lock);
  725. nbd_config_put(nbd);
  726. }
  727. static int nbd_read_reply(struct nbd_device *nbd, struct socket *sock,
  728. struct nbd_reply *reply)
  729. {
  730. struct kvec iov = {.iov_base = reply, .iov_len = sizeof(*reply)};
  731. struct iov_iter to;
  732. int result;
  733. reply->magic = 0;
  734. iov_iter_kvec(&to, ITER_DEST, &iov, 1, sizeof(*reply));
  735. result = __sock_xmit(nbd, sock, 0, &to, MSG_WAITALL, NULL);
  736. if (result < 0) {
  737. if (!nbd_disconnected(nbd->config))
  738. dev_err(disk_to_dev(nbd->disk),
  739. "Receive control failed (result %d)\n", result);
  740. return result;
  741. }
  742. if (ntohl(reply->magic) != NBD_REPLY_MAGIC) {
  743. dev_err(disk_to_dev(nbd->disk), "Wrong magic (0x%lx)\n",
  744. (unsigned long)ntohl(reply->magic));
  745. return -EPROTO;
  746. }
  747. return 0;
  748. }
  749. /* NULL returned = something went wrong, inform userspace */
  750. static struct nbd_cmd *nbd_handle_reply(struct nbd_device *nbd, int index,
  751. struct nbd_reply *reply)
  752. {
  753. int result;
  754. struct nbd_cmd *cmd;
  755. struct request *req = NULL;
  756. u64 handle;
  757. u16 hwq;
  758. u32 tag;
  759. int ret = 0;
  760. handle = be64_to_cpu(reply->cookie);
  761. tag = nbd_handle_to_tag(handle);
  762. hwq = blk_mq_unique_tag_to_hwq(tag);
  763. if (hwq < nbd->tag_set.nr_hw_queues)
  764. req = blk_mq_tag_to_rq(nbd->tag_set.tags[hwq],
  765. blk_mq_unique_tag_to_tag(tag));
  766. if (!req || !blk_mq_request_started(req)) {
  767. dev_err(disk_to_dev(nbd->disk), "Unexpected reply (%d) %p\n",
  768. tag, req);
  769. return ERR_PTR(-ENOENT);
  770. }
  771. trace_nbd_header_received(req, handle);
  772. cmd = blk_mq_rq_to_pdu(req);
  773. mutex_lock(&cmd->lock);
  774. if (!test_bit(NBD_CMD_INFLIGHT, &cmd->flags)) {
  775. dev_err(disk_to_dev(nbd->disk), "Suspicious reply %d (status %u flags %lu)",
  776. tag, cmd->status, cmd->flags);
  777. ret = -ENOENT;
  778. goto out;
  779. }
  780. if (cmd->index != index) {
  781. dev_err(disk_to_dev(nbd->disk), "Unexpected reply %d from different sock %d (expected %d)",
  782. tag, index, cmd->index);
  783. ret = -ENOENT;
  784. goto out;
  785. }
  786. if (cmd->cmd_cookie != nbd_handle_to_cookie(handle)) {
  787. dev_err(disk_to_dev(nbd->disk), "Double reply on req %p, cmd_cookie %u, handle cookie %u\n",
  788. req, cmd->cmd_cookie, nbd_handle_to_cookie(handle));
  789. ret = -ENOENT;
  790. goto out;
  791. }
  792. if (cmd->status != BLK_STS_OK) {
  793. dev_err(disk_to_dev(nbd->disk), "Command already handled %p\n",
  794. req);
  795. ret = -ENOENT;
  796. goto out;
  797. }
  798. if (test_bit(NBD_CMD_REQUEUED, &cmd->flags)) {
  799. dev_err(disk_to_dev(nbd->disk), "Raced with timeout on req %p\n",
  800. req);
  801. ret = -ENOENT;
  802. goto out;
  803. }
  804. if (ntohl(reply->error)) {
  805. dev_err(disk_to_dev(nbd->disk), "Other side returned error (%d)\n",
  806. ntohl(reply->error));
  807. cmd->status = BLK_STS_IOERR;
  808. goto out;
  809. }
  810. dev_dbg(nbd_to_dev(nbd), "request %p: got reply\n", req);
  811. if (rq_data_dir(req) != WRITE) {
  812. struct req_iterator iter;
  813. struct bio_vec bvec;
  814. struct iov_iter to;
  815. rq_for_each_segment(bvec, req, iter) {
  816. iov_iter_bvec(&to, ITER_DEST, &bvec, 1, bvec.bv_len);
  817. result = sock_xmit(nbd, index, 0, &to, MSG_WAITALL, NULL);
  818. if (result < 0) {
  819. dev_err(disk_to_dev(nbd->disk), "Receive data failed (result %d)\n",
  820. result);
  821. /*
  822. * If we've disconnected, we need to make sure we
  823. * complete this request, otherwise error out
  824. * and let the timeout stuff handle resubmitting
  825. * this request onto another connection.
  826. */
  827. if (nbd_disconnected(nbd->config)) {
  828. cmd->status = BLK_STS_IOERR;
  829. goto out;
  830. }
  831. ret = -EIO;
  832. goto out;
  833. }
  834. dev_dbg(nbd_to_dev(nbd), "request %p: got %d bytes data\n",
  835. req, bvec.bv_len);
  836. }
  837. }
  838. out:
  839. trace_nbd_payload_received(req, handle);
  840. mutex_unlock(&cmd->lock);
  841. return ret ? ERR_PTR(ret) : cmd;
  842. }
  843. static void recv_work(struct work_struct *work)
  844. {
  845. struct recv_thread_args *args = container_of(work,
  846. struct recv_thread_args,
  847. work);
  848. struct nbd_device *nbd = args->nbd;
  849. struct nbd_config *config = nbd->config;
  850. struct request_queue *q = nbd->disk->queue;
  851. struct nbd_sock *nsock = args->nsock;
  852. struct nbd_cmd *cmd;
  853. struct request *rq;
  854. while (1) {
  855. struct nbd_reply reply;
  856. if (nbd_read_reply(nbd, nsock->sock, &reply))
  857. break;
  858. /*
  859. * Grab .q_usage_counter so request pool won't go away, then no
  860. * request use-after-free is possible during nbd_handle_reply().
  861. * If queue is frozen, there won't be any inflight requests, we
  862. * needn't to handle the incoming garbage message.
  863. */
  864. if (!percpu_ref_tryget(&q->q_usage_counter)) {
  865. dev_err(disk_to_dev(nbd->disk), "%s: no io inflight\n",
  866. __func__);
  867. break;
  868. }
  869. cmd = nbd_handle_reply(nbd, args->index, &reply);
  870. if (IS_ERR(cmd)) {
  871. percpu_ref_put(&q->q_usage_counter);
  872. break;
  873. }
  874. rq = blk_mq_rq_from_pdu(cmd);
  875. if (likely(!blk_should_fake_timeout(rq->q))) {
  876. bool complete;
  877. mutex_lock(&cmd->lock);
  878. complete = __test_and_clear_bit(NBD_CMD_INFLIGHT,
  879. &cmd->flags);
  880. mutex_unlock(&cmd->lock);
  881. if (complete)
  882. blk_mq_complete_request(rq);
  883. }
  884. percpu_ref_put(&q->q_usage_counter);
  885. }
  886. mutex_lock(&nsock->tx_lock);
  887. nbd_mark_nsock_dead(nbd, nsock, 1);
  888. mutex_unlock(&nsock->tx_lock);
  889. atomic_dec(&config->recv_threads);
  890. wake_up(&config->recv_wq);
  891. nbd_config_put(nbd);
  892. kfree(args);
  893. }
  894. static bool nbd_clear_req(struct request *req, void *data)
  895. {
  896. struct nbd_cmd *cmd = blk_mq_rq_to_pdu(req);
  897. /* don't abort one completed request */
  898. if (blk_mq_request_completed(req))
  899. return true;
  900. mutex_lock(&cmd->lock);
  901. if (!__test_and_clear_bit(NBD_CMD_INFLIGHT, &cmd->flags)) {
  902. mutex_unlock(&cmd->lock);
  903. return true;
  904. }
  905. cmd->status = BLK_STS_IOERR;
  906. mutex_unlock(&cmd->lock);
  907. blk_mq_complete_request(req);
  908. return true;
  909. }
  910. static void nbd_clear_que(struct nbd_device *nbd)
  911. {
  912. blk_mq_quiesce_queue(nbd->disk->queue);
  913. blk_mq_tagset_busy_iter(&nbd->tag_set, nbd_clear_req, NULL);
  914. blk_mq_unquiesce_queue(nbd->disk->queue);
  915. dev_dbg(disk_to_dev(nbd->disk), "queue cleared\n");
  916. }
  917. static int find_fallback(struct nbd_device *nbd, int index)
  918. {
  919. struct nbd_config *config = nbd->config;
  920. int new_index = -1;
  921. struct nbd_sock *nsock = config->socks[index];
  922. int fallback = nsock->fallback_index;
  923. if (test_bit(NBD_RT_DISCONNECTED, &config->runtime_flags))
  924. return new_index;
  925. if (config->num_connections <= 1) {
  926. dev_err_ratelimited(disk_to_dev(nbd->disk),
  927. "Dead connection, failed to find a fallback\n");
  928. return new_index;
  929. }
  930. if (fallback >= 0 && fallback < config->num_connections &&
  931. !config->socks[fallback]->dead)
  932. return fallback;
  933. if (nsock->fallback_index < 0 ||
  934. nsock->fallback_index >= config->num_connections ||
  935. config->socks[nsock->fallback_index]->dead) {
  936. int i;
  937. for (i = 0; i < config->num_connections; i++) {
  938. if (i == index)
  939. continue;
  940. if (!config->socks[i]->dead) {
  941. new_index = i;
  942. break;
  943. }
  944. }
  945. nsock->fallback_index = new_index;
  946. if (new_index < 0) {
  947. dev_err_ratelimited(disk_to_dev(nbd->disk),
  948. "Dead connection, failed to find a fallback\n");
  949. return new_index;
  950. }
  951. }
  952. new_index = nsock->fallback_index;
  953. return new_index;
  954. }
  955. static int wait_for_reconnect(struct nbd_device *nbd)
  956. {
  957. struct nbd_config *config = nbd->config;
  958. if (!config->dead_conn_timeout)
  959. return 0;
  960. if (!wait_event_timeout(config->conn_wait,
  961. test_bit(NBD_RT_DISCONNECTED,
  962. &config->runtime_flags) ||
  963. atomic_read(&config->live_connections) > 0,
  964. config->dead_conn_timeout))
  965. return 0;
  966. return !test_bit(NBD_RT_DISCONNECTED, &config->runtime_flags);
  967. }
  968. static blk_status_t nbd_handle_cmd(struct nbd_cmd *cmd, int index)
  969. {
  970. struct request *req = blk_mq_rq_from_pdu(cmd);
  971. struct nbd_device *nbd = cmd->nbd;
  972. struct nbd_config *config;
  973. struct nbd_sock *nsock;
  974. blk_status_t ret;
  975. lockdep_assert_held(&cmd->lock);
  976. config = nbd_get_config_unlocked(nbd);
  977. if (!config) {
  978. dev_err_ratelimited(disk_to_dev(nbd->disk),
  979. "Socks array is empty\n");
  980. return BLK_STS_IOERR;
  981. }
  982. if (index >= config->num_connections) {
  983. dev_err_ratelimited(disk_to_dev(nbd->disk),
  984. "Attempted send on invalid socket\n");
  985. nbd_config_put(nbd);
  986. return BLK_STS_IOERR;
  987. }
  988. cmd->status = BLK_STS_OK;
  989. again:
  990. nsock = config->socks[index];
  991. mutex_lock(&nsock->tx_lock);
  992. if (nsock->dead) {
  993. int old_index = index;
  994. index = find_fallback(nbd, index);
  995. mutex_unlock(&nsock->tx_lock);
  996. if (index < 0) {
  997. if (wait_for_reconnect(nbd)) {
  998. index = old_index;
  999. goto again;
  1000. }
  1001. /* All the sockets should already be down at this point,
  1002. * we just want to make sure that DISCONNECTED is set so
  1003. * any requests that come in that were queue'ed waiting
  1004. * for the reconnect timer don't trigger the timer again
  1005. * and instead just error out.
  1006. */
  1007. sock_shutdown(nbd);
  1008. nbd_config_put(nbd);
  1009. return BLK_STS_IOERR;
  1010. }
  1011. goto again;
  1012. }
  1013. /* Handle the case that we have a pending request that was partially
  1014. * transmitted that _has_ to be serviced first. We need to call requeue
  1015. * here so that it gets put _after_ the request that is already on the
  1016. * dispatch list.
  1017. */
  1018. blk_mq_start_request(req);
  1019. if (unlikely(nsock->pending && nsock->pending != req)) {
  1020. nbd_requeue_cmd(cmd);
  1021. ret = BLK_STS_OK;
  1022. goto out;
  1023. }
  1024. ret = nbd_send_cmd(nbd, cmd, index);
  1025. out:
  1026. mutex_unlock(&nsock->tx_lock);
  1027. nbd_config_put(nbd);
  1028. return ret;
  1029. }
  1030. static blk_status_t nbd_queue_rq(struct blk_mq_hw_ctx *hctx,
  1031. const struct blk_mq_queue_data *bd)
  1032. {
  1033. struct nbd_cmd *cmd = blk_mq_rq_to_pdu(bd->rq);
  1034. blk_status_t ret;
  1035. /*
  1036. * Since we look at the bio's to send the request over the network we
  1037. * need to make sure the completion work doesn't mark this request done
  1038. * before we are done doing our send. This keeps us from dereferencing
  1039. * freed data if we have particularly fast completions (ie we get the
  1040. * completion before we exit sock_xmit on the last bvec) or in the case
  1041. * that the server is misbehaving (or there was an error) before we're
  1042. * done sending everything over the wire.
  1043. */
  1044. mutex_lock(&cmd->lock);
  1045. clear_bit(NBD_CMD_REQUEUED, &cmd->flags);
  1046. /* We can be called directly from the user space process, which means we
  1047. * could possibly have signals pending so our sendmsg will fail. In
  1048. * this case we need to return that we are busy, otherwise error out as
  1049. * appropriate.
  1050. */
  1051. ret = nbd_handle_cmd(cmd, hctx->queue_num);
  1052. mutex_unlock(&cmd->lock);
  1053. return ret;
  1054. }
  1055. static struct socket *nbd_get_socket(struct nbd_device *nbd, unsigned long fd,
  1056. int *err)
  1057. {
  1058. struct socket *sock;
  1059. *err = 0;
  1060. sock = sockfd_lookup(fd, err);
  1061. if (!sock)
  1062. return NULL;
  1063. if (!sk_is_tcp(sock->sk) &&
  1064. !sk_is_stream_unix(sock->sk)) {
  1065. dev_err(disk_to_dev(nbd->disk), "Unsupported socket: should be TCP or UNIX.\n");
  1066. *err = -EINVAL;
  1067. sockfd_put(sock);
  1068. return NULL;
  1069. }
  1070. if (sock->ops->shutdown == sock_no_shutdown) {
  1071. dev_err(disk_to_dev(nbd->disk), "Unsupported socket: shutdown callout must be supported.\n");
  1072. *err = -EINVAL;
  1073. sockfd_put(sock);
  1074. return NULL;
  1075. }
  1076. return sock;
  1077. }
  1078. static int nbd_add_socket(struct nbd_device *nbd, unsigned long arg,
  1079. bool netlink)
  1080. {
  1081. struct nbd_config *config = nbd->config;
  1082. struct socket *sock;
  1083. struct nbd_sock **socks;
  1084. struct nbd_sock *nsock;
  1085. unsigned int memflags;
  1086. int err;
  1087. /* Arg will be cast to int, check it to avoid overflow */
  1088. if (arg > INT_MAX)
  1089. return -EINVAL;
  1090. sock = nbd_get_socket(nbd, arg, &err);
  1091. if (!sock)
  1092. return err;
  1093. /*
  1094. * We need to make sure we don't get any errant requests while we're
  1095. * reallocating the ->socks array.
  1096. */
  1097. memflags = blk_mq_freeze_queue(nbd->disk->queue);
  1098. if (!netlink && !nbd->task_setup &&
  1099. !test_bit(NBD_RT_BOUND, &config->runtime_flags))
  1100. nbd->task_setup = current;
  1101. if (!netlink &&
  1102. (nbd->task_setup != current ||
  1103. test_bit(NBD_RT_BOUND, &config->runtime_flags))) {
  1104. dev_err(disk_to_dev(nbd->disk),
  1105. "Device being setup by another task");
  1106. err = -EBUSY;
  1107. goto put_socket;
  1108. }
  1109. nsock = kzalloc_obj(*nsock);
  1110. if (!nsock) {
  1111. err = -ENOMEM;
  1112. goto put_socket;
  1113. }
  1114. socks = krealloc(config->socks, (config->num_connections + 1) *
  1115. sizeof(struct nbd_sock *), GFP_KERNEL);
  1116. if (!socks) {
  1117. kfree(nsock);
  1118. err = -ENOMEM;
  1119. goto put_socket;
  1120. }
  1121. config->socks = socks;
  1122. nsock->fallback_index = -1;
  1123. nsock->dead = false;
  1124. mutex_init(&nsock->tx_lock);
  1125. nsock->sock = sock;
  1126. nsock->pending = NULL;
  1127. nsock->sent = 0;
  1128. nsock->cookie = 0;
  1129. INIT_WORK(&nsock->work, nbd_pending_cmd_work);
  1130. socks[config->num_connections++] = nsock;
  1131. atomic_inc(&config->live_connections);
  1132. blk_mq_unfreeze_queue(nbd->disk->queue, memflags);
  1133. return 0;
  1134. put_socket:
  1135. blk_mq_unfreeze_queue(nbd->disk->queue, memflags);
  1136. sockfd_put(sock);
  1137. return err;
  1138. }
  1139. static int nbd_reconnect_socket(struct nbd_device *nbd, unsigned long arg)
  1140. {
  1141. struct nbd_config *config = nbd->config;
  1142. struct socket *sock, *old;
  1143. struct recv_thread_args *args;
  1144. int i;
  1145. int err;
  1146. sock = nbd_get_socket(nbd, arg, &err);
  1147. if (!sock)
  1148. return err;
  1149. args = kzalloc_obj(*args);
  1150. if (!args) {
  1151. sockfd_put(sock);
  1152. return -ENOMEM;
  1153. }
  1154. for (i = 0; i < config->num_connections; i++) {
  1155. struct nbd_sock *nsock = config->socks[i];
  1156. if (!nsock->dead)
  1157. continue;
  1158. mutex_lock(&nsock->tx_lock);
  1159. if (!nsock->dead) {
  1160. mutex_unlock(&nsock->tx_lock);
  1161. continue;
  1162. }
  1163. sk_set_memalloc(sock->sk);
  1164. if (nbd->tag_set.timeout)
  1165. sock->sk->sk_sndtimeo = nbd->tag_set.timeout;
  1166. atomic_inc(&config->recv_threads);
  1167. refcount_inc(&nbd->config_refs);
  1168. old = nsock->sock;
  1169. nsock->fallback_index = -1;
  1170. nsock->sock = sock;
  1171. nsock->dead = false;
  1172. INIT_WORK(&args->work, recv_work);
  1173. args->index = i;
  1174. args->nbd = nbd;
  1175. args->nsock = nsock;
  1176. nsock->cookie++;
  1177. mutex_unlock(&nsock->tx_lock);
  1178. sockfd_put(old);
  1179. clear_bit(NBD_RT_DISCONNECTED, &config->runtime_flags);
  1180. /* We take the tx_mutex in an error path in the recv_work, so we
  1181. * need to queue_work outside of the tx_mutex.
  1182. */
  1183. queue_work(nbd->recv_workq, &args->work);
  1184. atomic_inc(&config->live_connections);
  1185. wake_up(&config->conn_wait);
  1186. return 0;
  1187. }
  1188. sockfd_put(sock);
  1189. kfree(args);
  1190. return -ENOSPC;
  1191. }
  1192. static void nbd_bdev_reset(struct nbd_device *nbd)
  1193. {
  1194. if (disk_openers(nbd->disk) > 1)
  1195. return;
  1196. set_capacity(nbd->disk, 0);
  1197. }
  1198. static void nbd_parse_flags(struct nbd_device *nbd)
  1199. {
  1200. if (nbd->config->flags & NBD_FLAG_READ_ONLY)
  1201. set_disk_ro(nbd->disk, true);
  1202. else
  1203. set_disk_ro(nbd->disk, false);
  1204. }
  1205. static void send_disconnects(struct nbd_device *nbd)
  1206. {
  1207. struct nbd_config *config = nbd->config;
  1208. struct nbd_request request = {
  1209. .magic = htonl(NBD_REQUEST_MAGIC),
  1210. .type = htonl(NBD_CMD_DISC),
  1211. };
  1212. struct kvec iov = {.iov_base = &request, .iov_len = sizeof(request)};
  1213. struct iov_iter from;
  1214. int i, ret;
  1215. for (i = 0; i < config->num_connections; i++) {
  1216. struct nbd_sock *nsock = config->socks[i];
  1217. iov_iter_kvec(&from, ITER_SOURCE, &iov, 1, sizeof(request));
  1218. mutex_lock(&nsock->tx_lock);
  1219. ret = sock_xmit(nbd, i, 1, &from, 0, NULL);
  1220. if (ret < 0)
  1221. dev_err(disk_to_dev(nbd->disk),
  1222. "Send disconnect failed %d\n", ret);
  1223. mutex_unlock(&nsock->tx_lock);
  1224. }
  1225. }
  1226. static int nbd_disconnect(struct nbd_device *nbd)
  1227. {
  1228. struct nbd_config *config = nbd->config;
  1229. dev_info(disk_to_dev(nbd->disk), "NBD_DISCONNECT\n");
  1230. set_bit(NBD_RT_DISCONNECT_REQUESTED, &config->runtime_flags);
  1231. set_bit(NBD_DISCONNECT_REQUESTED, &nbd->flags);
  1232. send_disconnects(nbd);
  1233. return 0;
  1234. }
  1235. static void nbd_clear_sock(struct nbd_device *nbd)
  1236. {
  1237. sock_shutdown(nbd);
  1238. nbd_clear_que(nbd);
  1239. nbd->task_setup = NULL;
  1240. }
  1241. static void nbd_config_put(struct nbd_device *nbd)
  1242. {
  1243. if (refcount_dec_and_mutex_lock(&nbd->config_refs,
  1244. &nbd->config_lock)) {
  1245. struct nbd_config *config = nbd->config;
  1246. nbd_dev_dbg_close(nbd);
  1247. invalidate_disk(nbd->disk);
  1248. if (nbd->config->bytesize)
  1249. kobject_uevent(&nbd_to_dev(nbd)->kobj, KOBJ_CHANGE);
  1250. if (test_and_clear_bit(NBD_RT_HAS_PID_FILE,
  1251. &config->runtime_flags))
  1252. device_remove_file(disk_to_dev(nbd->disk), &pid_attr);
  1253. nbd->pid = 0;
  1254. if (test_and_clear_bit(NBD_RT_HAS_BACKEND_FILE,
  1255. &config->runtime_flags)) {
  1256. device_remove_file(disk_to_dev(nbd->disk), &backend_attr);
  1257. kfree(nbd->backend);
  1258. nbd->backend = NULL;
  1259. }
  1260. nbd_clear_sock(nbd);
  1261. if (config->num_connections) {
  1262. int i;
  1263. for (i = 0; i < config->num_connections; i++) {
  1264. sockfd_put(config->socks[i]->sock);
  1265. kfree(config->socks[i]);
  1266. }
  1267. kfree(config->socks);
  1268. }
  1269. kfree(nbd->config);
  1270. nbd->config = NULL;
  1271. nbd->tag_set.timeout = 0;
  1272. mutex_unlock(&nbd->config_lock);
  1273. nbd_put(nbd);
  1274. module_put(THIS_MODULE);
  1275. }
  1276. }
  1277. static int nbd_start_device(struct nbd_device *nbd)
  1278. {
  1279. struct nbd_config *config = nbd->config;
  1280. int num_connections = config->num_connections;
  1281. int error = 0, i;
  1282. if (nbd->pid)
  1283. return -EBUSY;
  1284. if (!config->socks)
  1285. return -EINVAL;
  1286. if (num_connections > 1 &&
  1287. !(config->flags & NBD_FLAG_CAN_MULTI_CONN)) {
  1288. dev_err(disk_to_dev(nbd->disk), "server does not support multiple connections per device.\n");
  1289. return -EINVAL;
  1290. }
  1291. retry:
  1292. mutex_unlock(&nbd->config_lock);
  1293. blk_mq_update_nr_hw_queues(&nbd->tag_set, num_connections);
  1294. mutex_lock(&nbd->config_lock);
  1295. /* if another code path updated nr_hw_queues, retry until succeed */
  1296. if (num_connections != config->num_connections) {
  1297. num_connections = config->num_connections;
  1298. goto retry;
  1299. }
  1300. nbd->pid = task_pid_nr(current);
  1301. nbd_parse_flags(nbd);
  1302. error = device_create_file(disk_to_dev(nbd->disk), &pid_attr);
  1303. if (error) {
  1304. dev_err(disk_to_dev(nbd->disk), "device_create_file failed for pid!\n");
  1305. return error;
  1306. }
  1307. set_bit(NBD_RT_HAS_PID_FILE, &config->runtime_flags);
  1308. nbd_dev_dbg_init(nbd);
  1309. for (i = 0; i < num_connections; i++) {
  1310. struct recv_thread_args *args;
  1311. args = kzalloc_obj(*args);
  1312. if (!args) {
  1313. sock_shutdown(nbd);
  1314. /*
  1315. * If num_connections is m (2 < m),
  1316. * and NO.1 ~ NO.n(1 < n < m) kzallocs are successful.
  1317. * But NO.(n + 1) failed. We still have n recv threads.
  1318. * So, add flush_workqueue here to prevent recv threads
  1319. * dropping the last config_refs and trying to destroy
  1320. * the workqueue from inside the workqueue.
  1321. */
  1322. if (i)
  1323. flush_workqueue(nbd->recv_workq);
  1324. return -ENOMEM;
  1325. }
  1326. sk_set_memalloc(config->socks[i]->sock->sk);
  1327. if (nbd->tag_set.timeout)
  1328. config->socks[i]->sock->sk->sk_sndtimeo =
  1329. nbd->tag_set.timeout;
  1330. atomic_inc(&config->recv_threads);
  1331. refcount_inc(&nbd->config_refs);
  1332. INIT_WORK(&args->work, recv_work);
  1333. args->nbd = nbd;
  1334. args->nsock = config->socks[i];
  1335. args->index = i;
  1336. queue_work(nbd->recv_workq, &args->work);
  1337. }
  1338. return nbd_set_size(nbd, config->bytesize, nbd_blksize(config));
  1339. }
  1340. static int nbd_start_device_ioctl(struct nbd_device *nbd)
  1341. {
  1342. struct nbd_config *config = nbd->config;
  1343. int ret;
  1344. ret = nbd_start_device(nbd);
  1345. if (ret)
  1346. return ret;
  1347. if (max_part)
  1348. set_bit(GD_NEED_PART_SCAN, &nbd->disk->state);
  1349. mutex_unlock(&nbd->config_lock);
  1350. ret = wait_event_interruptible(config->recv_wq,
  1351. atomic_read(&config->recv_threads) == 0);
  1352. if (ret) {
  1353. sock_shutdown(nbd);
  1354. nbd_clear_que(nbd);
  1355. }
  1356. flush_workqueue(nbd->recv_workq);
  1357. mutex_lock(&nbd->config_lock);
  1358. nbd_bdev_reset(nbd);
  1359. /* user requested, ignore socket errors */
  1360. if (test_bit(NBD_RT_DISCONNECT_REQUESTED, &config->runtime_flags))
  1361. ret = 0;
  1362. if (test_bit(NBD_RT_TIMEDOUT, &config->runtime_flags))
  1363. ret = -ETIMEDOUT;
  1364. return ret;
  1365. }
  1366. static void nbd_clear_sock_ioctl(struct nbd_device *nbd)
  1367. {
  1368. nbd_clear_sock(nbd);
  1369. disk_force_media_change(nbd->disk);
  1370. nbd_bdev_reset(nbd);
  1371. if (test_and_clear_bit(NBD_RT_HAS_CONFIG_REF,
  1372. &nbd->config->runtime_flags))
  1373. nbd_config_put(nbd);
  1374. }
  1375. static void nbd_set_cmd_timeout(struct nbd_device *nbd, u64 timeout)
  1376. {
  1377. nbd->tag_set.timeout = timeout * HZ;
  1378. if (timeout)
  1379. blk_queue_rq_timeout(nbd->disk->queue, timeout * HZ);
  1380. else
  1381. blk_queue_rq_timeout(nbd->disk->queue, 30 * HZ);
  1382. }
  1383. /* Must be called with config_lock held */
  1384. static int __nbd_ioctl(struct block_device *bdev, struct nbd_device *nbd,
  1385. unsigned int cmd, unsigned long arg)
  1386. {
  1387. struct nbd_config *config = nbd->config;
  1388. loff_t bytesize;
  1389. switch (cmd) {
  1390. case NBD_DISCONNECT:
  1391. return nbd_disconnect(nbd);
  1392. case NBD_CLEAR_SOCK:
  1393. nbd_clear_sock_ioctl(nbd);
  1394. return 0;
  1395. case NBD_SET_SOCK:
  1396. return nbd_add_socket(nbd, arg, false);
  1397. case NBD_SET_BLKSIZE:
  1398. return nbd_set_size(nbd, config->bytesize, arg);
  1399. case NBD_SET_SIZE:
  1400. return nbd_set_size(nbd, arg, nbd_blksize(config));
  1401. case NBD_SET_SIZE_BLOCKS:
  1402. if (check_shl_overflow(arg, config->blksize_bits, &bytesize))
  1403. return -EINVAL;
  1404. return nbd_set_size(nbd, bytesize, nbd_blksize(config));
  1405. case NBD_SET_TIMEOUT:
  1406. nbd_set_cmd_timeout(nbd, arg);
  1407. return 0;
  1408. case NBD_SET_FLAGS:
  1409. config->flags = arg;
  1410. return 0;
  1411. case NBD_DO_IT:
  1412. return nbd_start_device_ioctl(nbd);
  1413. case NBD_CLEAR_QUE:
  1414. /*
  1415. * This is for compatibility only. The queue is always cleared
  1416. * by NBD_DO_IT or NBD_CLEAR_SOCK.
  1417. */
  1418. return 0;
  1419. case NBD_PRINT_DEBUG:
  1420. /*
  1421. * For compatibility only, we no longer keep a list of
  1422. * outstanding requests.
  1423. */
  1424. return 0;
  1425. }
  1426. return -ENOTTY;
  1427. }
  1428. static int nbd_ioctl(struct block_device *bdev, blk_mode_t mode,
  1429. unsigned int cmd, unsigned long arg)
  1430. {
  1431. struct nbd_device *nbd = bdev->bd_disk->private_data;
  1432. struct nbd_config *config = nbd->config;
  1433. int error = -EINVAL;
  1434. if (!capable(CAP_SYS_ADMIN))
  1435. return -EPERM;
  1436. /* The block layer will pass back some non-nbd ioctls in case we have
  1437. * special handling for them, but we don't so just return an error.
  1438. */
  1439. if (_IOC_TYPE(cmd) != 0xab)
  1440. return -EINVAL;
  1441. mutex_lock(&nbd->config_lock);
  1442. /* Don't allow ioctl operations on a nbd device that was created with
  1443. * netlink, unless it's DISCONNECT or CLEAR_SOCK, which are fine.
  1444. */
  1445. if (!test_bit(NBD_RT_BOUND, &config->runtime_flags) ||
  1446. (cmd == NBD_DISCONNECT || cmd == NBD_CLEAR_SOCK))
  1447. error = __nbd_ioctl(bdev, nbd, cmd, arg);
  1448. else
  1449. dev_err(nbd_to_dev(nbd), "Cannot use ioctl interface on a netlink controlled device.\n");
  1450. mutex_unlock(&nbd->config_lock);
  1451. return error;
  1452. }
  1453. static int nbd_alloc_and_init_config(struct nbd_device *nbd)
  1454. {
  1455. struct nbd_config *config;
  1456. if (WARN_ON(nbd->config))
  1457. return -EINVAL;
  1458. if (!try_module_get(THIS_MODULE))
  1459. return -ENODEV;
  1460. config = kzalloc_obj(struct nbd_config, GFP_NOFS);
  1461. if (!config) {
  1462. module_put(THIS_MODULE);
  1463. return -ENOMEM;
  1464. }
  1465. atomic_set(&config->recv_threads, 0);
  1466. init_waitqueue_head(&config->recv_wq);
  1467. init_waitqueue_head(&config->conn_wait);
  1468. config->blksize_bits = NBD_DEF_BLKSIZE_BITS;
  1469. atomic_set(&config->live_connections, 0);
  1470. nbd->config = config;
  1471. /*
  1472. * Order refcount_set(&nbd->config_refs, 1) and nbd->config assignment,
  1473. * its pair is the barrier in nbd_get_config_unlocked().
  1474. * So nbd_get_config_unlocked() won't see nbd->config as null after
  1475. * refcount_inc_not_zero() succeed.
  1476. */
  1477. smp_mb__before_atomic();
  1478. refcount_set(&nbd->config_refs, 1);
  1479. return 0;
  1480. }
  1481. static int nbd_open(struct gendisk *disk, blk_mode_t mode)
  1482. {
  1483. struct nbd_device *nbd;
  1484. struct nbd_config *config;
  1485. int ret = 0;
  1486. mutex_lock(&nbd_index_mutex);
  1487. nbd = disk->private_data;
  1488. if (!nbd) {
  1489. ret = -ENXIO;
  1490. goto out;
  1491. }
  1492. if (!refcount_inc_not_zero(&nbd->refs)) {
  1493. ret = -ENXIO;
  1494. goto out;
  1495. }
  1496. config = nbd_get_config_unlocked(nbd);
  1497. if (!config) {
  1498. mutex_lock(&nbd->config_lock);
  1499. if (refcount_inc_not_zero(&nbd->config_refs)) {
  1500. mutex_unlock(&nbd->config_lock);
  1501. goto out;
  1502. }
  1503. ret = nbd_alloc_and_init_config(nbd);
  1504. if (ret) {
  1505. mutex_unlock(&nbd->config_lock);
  1506. goto out;
  1507. }
  1508. refcount_inc(&nbd->refs);
  1509. mutex_unlock(&nbd->config_lock);
  1510. if (max_part)
  1511. set_bit(GD_NEED_PART_SCAN, &disk->state);
  1512. } else if (nbd_disconnected(config)) {
  1513. if (max_part)
  1514. set_bit(GD_NEED_PART_SCAN, &disk->state);
  1515. }
  1516. out:
  1517. mutex_unlock(&nbd_index_mutex);
  1518. return ret;
  1519. }
  1520. static void nbd_release(struct gendisk *disk)
  1521. {
  1522. struct nbd_device *nbd = disk->private_data;
  1523. if (test_bit(NBD_RT_DISCONNECT_ON_CLOSE, &nbd->config->runtime_flags) &&
  1524. disk_openers(disk) == 0)
  1525. nbd_disconnect_and_put(nbd);
  1526. nbd_config_put(nbd);
  1527. nbd_put(nbd);
  1528. }
  1529. static void nbd_free_disk(struct gendisk *disk)
  1530. {
  1531. struct nbd_device *nbd = disk->private_data;
  1532. kfree(nbd);
  1533. }
  1534. static const struct block_device_operations nbd_fops =
  1535. {
  1536. .owner = THIS_MODULE,
  1537. .open = nbd_open,
  1538. .release = nbd_release,
  1539. .ioctl = nbd_ioctl,
  1540. .compat_ioctl = nbd_ioctl,
  1541. .free_disk = nbd_free_disk,
  1542. };
  1543. #if IS_ENABLED(CONFIG_DEBUG_FS)
  1544. static int nbd_dbg_tasks_show(struct seq_file *s, void *unused)
  1545. {
  1546. struct nbd_device *nbd = s->private;
  1547. if (nbd->pid)
  1548. seq_printf(s, "recv: %d\n", nbd->pid);
  1549. return 0;
  1550. }
  1551. DEFINE_SHOW_ATTRIBUTE(nbd_dbg_tasks);
  1552. static int nbd_dbg_flags_show(struct seq_file *s, void *unused)
  1553. {
  1554. struct nbd_device *nbd = s->private;
  1555. u32 flags = nbd->config->flags;
  1556. seq_printf(s, "Hex: 0x%08x\n\n", flags);
  1557. seq_puts(s, "Known flags:\n");
  1558. if (flags & NBD_FLAG_HAS_FLAGS)
  1559. seq_puts(s, "NBD_FLAG_HAS_FLAGS\n");
  1560. if (flags & NBD_FLAG_READ_ONLY)
  1561. seq_puts(s, "NBD_FLAG_READ_ONLY\n");
  1562. if (flags & NBD_FLAG_SEND_FLUSH)
  1563. seq_puts(s, "NBD_FLAG_SEND_FLUSH\n");
  1564. if (flags & NBD_FLAG_SEND_FUA)
  1565. seq_puts(s, "NBD_FLAG_SEND_FUA\n");
  1566. if (flags & NBD_FLAG_SEND_TRIM)
  1567. seq_puts(s, "NBD_FLAG_SEND_TRIM\n");
  1568. if (flags & NBD_FLAG_SEND_WRITE_ZEROES)
  1569. seq_puts(s, "NBD_FLAG_SEND_WRITE_ZEROES\n");
  1570. if (flags & NBD_FLAG_ROTATIONAL)
  1571. seq_puts(s, "NBD_FLAG_ROTATIONAL\n");
  1572. return 0;
  1573. }
  1574. DEFINE_SHOW_ATTRIBUTE(nbd_dbg_flags);
  1575. static int nbd_dev_dbg_init(struct nbd_device *nbd)
  1576. {
  1577. struct dentry *dir;
  1578. struct nbd_config *config = nbd->config;
  1579. if (!nbd_dbg_dir)
  1580. return -EIO;
  1581. dir = debugfs_create_dir(nbd_name(nbd), nbd_dbg_dir);
  1582. if (IS_ERR(dir)) {
  1583. dev_err(nbd_to_dev(nbd), "Failed to create debugfs dir for '%s'\n",
  1584. nbd_name(nbd));
  1585. return -EIO;
  1586. }
  1587. config->dbg_dir = dir;
  1588. debugfs_create_file("tasks", 0444, dir, nbd, &nbd_dbg_tasks_fops);
  1589. debugfs_create_u64("size_bytes", 0444, dir, &config->bytesize);
  1590. debugfs_create_u32("timeout", 0444, dir, &nbd->tag_set.timeout);
  1591. debugfs_create_u32("blocksize_bits", 0444, dir, &config->blksize_bits);
  1592. debugfs_create_file("flags", 0444, dir, nbd, &nbd_dbg_flags_fops);
  1593. return 0;
  1594. }
  1595. static void nbd_dev_dbg_close(struct nbd_device *nbd)
  1596. {
  1597. debugfs_remove_recursive(nbd->config->dbg_dir);
  1598. }
  1599. static int nbd_dbg_init(void)
  1600. {
  1601. struct dentry *dbg_dir;
  1602. dbg_dir = debugfs_create_dir("nbd", NULL);
  1603. if (IS_ERR(dbg_dir))
  1604. return -EIO;
  1605. nbd_dbg_dir = dbg_dir;
  1606. return 0;
  1607. }
  1608. static void nbd_dbg_close(void)
  1609. {
  1610. debugfs_remove_recursive(nbd_dbg_dir);
  1611. }
  1612. #else /* IS_ENABLED(CONFIG_DEBUG_FS) */
  1613. static int nbd_dev_dbg_init(struct nbd_device *nbd)
  1614. {
  1615. return 0;
  1616. }
  1617. static void nbd_dev_dbg_close(struct nbd_device *nbd)
  1618. {
  1619. }
  1620. static int nbd_dbg_init(void)
  1621. {
  1622. return 0;
  1623. }
  1624. static void nbd_dbg_close(void)
  1625. {
  1626. }
  1627. #endif
  1628. static int nbd_init_request(struct blk_mq_tag_set *set, struct request *rq,
  1629. unsigned int hctx_idx, unsigned int numa_node)
  1630. {
  1631. struct nbd_cmd *cmd = blk_mq_rq_to_pdu(rq);
  1632. cmd->nbd = set->driver_data;
  1633. cmd->flags = 0;
  1634. mutex_init(&cmd->lock);
  1635. return 0;
  1636. }
  1637. static const struct blk_mq_ops nbd_mq_ops = {
  1638. .queue_rq = nbd_queue_rq,
  1639. .complete = nbd_complete_rq,
  1640. .init_request = nbd_init_request,
  1641. .timeout = nbd_xmit_timeout,
  1642. };
  1643. static struct nbd_device *nbd_dev_add(int index, unsigned int refs)
  1644. {
  1645. struct queue_limits lim = {
  1646. .max_hw_sectors = 65536,
  1647. .io_opt = 256 << SECTOR_SHIFT,
  1648. .max_segments = USHRT_MAX,
  1649. .max_segment_size = UINT_MAX,
  1650. };
  1651. struct nbd_device *nbd;
  1652. struct gendisk *disk;
  1653. int err = -ENOMEM;
  1654. nbd = kzalloc_obj(struct nbd_device);
  1655. if (!nbd)
  1656. goto out;
  1657. nbd->tag_set.ops = &nbd_mq_ops;
  1658. nbd->tag_set.nr_hw_queues = 1;
  1659. nbd->tag_set.queue_depth = 128;
  1660. nbd->tag_set.numa_node = NUMA_NO_NODE;
  1661. nbd->tag_set.cmd_size = sizeof(struct nbd_cmd);
  1662. nbd->tag_set.flags = BLK_MQ_F_BLOCKING;
  1663. nbd->tag_set.driver_data = nbd;
  1664. INIT_WORK(&nbd->remove_work, nbd_dev_remove_work);
  1665. nbd->backend = NULL;
  1666. err = blk_mq_alloc_tag_set(&nbd->tag_set);
  1667. if (err)
  1668. goto out_free_nbd;
  1669. mutex_lock(&nbd_index_mutex);
  1670. if (index >= 0) {
  1671. err = idr_alloc(&nbd_index_idr, nbd, index, index + 1,
  1672. GFP_KERNEL);
  1673. if (err == -ENOSPC)
  1674. err = -EEXIST;
  1675. } else {
  1676. err = idr_alloc(&nbd_index_idr, nbd, 0,
  1677. (MINORMASK >> part_shift) + 1, GFP_KERNEL);
  1678. if (err >= 0)
  1679. index = err;
  1680. }
  1681. nbd->index = index;
  1682. mutex_unlock(&nbd_index_mutex);
  1683. if (err < 0)
  1684. goto out_free_tags;
  1685. disk = blk_mq_alloc_disk(&nbd->tag_set, &lim, NULL);
  1686. if (IS_ERR(disk)) {
  1687. err = PTR_ERR(disk);
  1688. goto out_free_idr;
  1689. }
  1690. nbd->disk = disk;
  1691. nbd->recv_workq = alloc_workqueue("nbd%d-recv",
  1692. WQ_MEM_RECLAIM | WQ_HIGHPRI |
  1693. WQ_UNBOUND, 0, nbd->index);
  1694. if (!nbd->recv_workq) {
  1695. dev_err(disk_to_dev(nbd->disk), "Could not allocate knbd recv work queue.\n");
  1696. err = -ENOMEM;
  1697. goto out_err_disk;
  1698. }
  1699. mutex_init(&nbd->config_lock);
  1700. refcount_set(&nbd->config_refs, 0);
  1701. /*
  1702. * Start out with a zero references to keep other threads from using
  1703. * this device until it is fully initialized.
  1704. */
  1705. refcount_set(&nbd->refs, 0);
  1706. INIT_LIST_HEAD(&nbd->list);
  1707. disk->major = NBD_MAJOR;
  1708. disk->first_minor = index << part_shift;
  1709. disk->minors = 1 << part_shift;
  1710. disk->fops = &nbd_fops;
  1711. disk->private_data = nbd;
  1712. sprintf(disk->disk_name, "nbd%d", index);
  1713. err = add_disk(disk);
  1714. if (err)
  1715. goto out_free_work;
  1716. /*
  1717. * Now publish the device.
  1718. */
  1719. refcount_set(&nbd->refs, refs);
  1720. nbd_total_devices++;
  1721. return nbd;
  1722. out_free_work:
  1723. destroy_workqueue(nbd->recv_workq);
  1724. out_err_disk:
  1725. put_disk(disk);
  1726. out_free_idr:
  1727. mutex_lock(&nbd_index_mutex);
  1728. idr_remove(&nbd_index_idr, index);
  1729. mutex_unlock(&nbd_index_mutex);
  1730. out_free_tags:
  1731. blk_mq_free_tag_set(&nbd->tag_set);
  1732. out_free_nbd:
  1733. kfree(nbd);
  1734. out:
  1735. return ERR_PTR(err);
  1736. }
  1737. static struct nbd_device *nbd_find_get_unused(void)
  1738. {
  1739. struct nbd_device *nbd;
  1740. int id;
  1741. lockdep_assert_held(&nbd_index_mutex);
  1742. idr_for_each_entry(&nbd_index_idr, nbd, id) {
  1743. if (refcount_read(&nbd->config_refs) ||
  1744. test_bit(NBD_DESTROY_ON_DISCONNECT, &nbd->flags))
  1745. continue;
  1746. if (refcount_inc_not_zero(&nbd->refs))
  1747. return nbd;
  1748. }
  1749. return NULL;
  1750. }
  1751. /* Netlink interface. */
  1752. static const struct nla_policy nbd_attr_policy[NBD_ATTR_MAX + 1] = {
  1753. [NBD_ATTR_INDEX] = { .type = NLA_U32 },
  1754. [NBD_ATTR_SIZE_BYTES] = { .type = NLA_U64 },
  1755. [NBD_ATTR_BLOCK_SIZE_BYTES] = { .type = NLA_U64 },
  1756. [NBD_ATTR_TIMEOUT] = { .type = NLA_U64 },
  1757. [NBD_ATTR_SERVER_FLAGS] = { .type = NLA_U64 },
  1758. [NBD_ATTR_CLIENT_FLAGS] = { .type = NLA_U64 },
  1759. [NBD_ATTR_SOCKETS] = { .type = NLA_NESTED},
  1760. [NBD_ATTR_DEAD_CONN_TIMEOUT] = { .type = NLA_U64 },
  1761. [NBD_ATTR_DEVICE_LIST] = { .type = NLA_NESTED},
  1762. [NBD_ATTR_BACKEND_IDENTIFIER] = { .type = NLA_STRING},
  1763. };
  1764. static const struct nla_policy nbd_sock_policy[NBD_SOCK_MAX + 1] = {
  1765. [NBD_SOCK_FD] = { .type = NLA_U32 },
  1766. };
  1767. /* We don't use this right now since we don't parse the incoming list, but we
  1768. * still want it here so userspace knows what to expect.
  1769. */
  1770. static const struct nla_policy __attribute__((unused))
  1771. nbd_device_policy[NBD_DEVICE_ATTR_MAX + 1] = {
  1772. [NBD_DEVICE_INDEX] = { .type = NLA_U32 },
  1773. [NBD_DEVICE_CONNECTED] = { .type = NLA_U8 },
  1774. };
  1775. static int nbd_genl_size_set(struct genl_info *info, struct nbd_device *nbd)
  1776. {
  1777. struct nbd_config *config = nbd->config;
  1778. u64 bsize = nbd_blksize(config);
  1779. u64 bytes = config->bytesize;
  1780. if (info->attrs[NBD_ATTR_SIZE_BYTES])
  1781. bytes = nla_get_u64(info->attrs[NBD_ATTR_SIZE_BYTES]);
  1782. if (info->attrs[NBD_ATTR_BLOCK_SIZE_BYTES])
  1783. bsize = nla_get_u64(info->attrs[NBD_ATTR_BLOCK_SIZE_BYTES]);
  1784. if (bytes != config->bytesize || bsize != nbd_blksize(config))
  1785. return nbd_set_size(nbd, bytes, bsize);
  1786. return 0;
  1787. }
  1788. static int nbd_genl_connect(struct sk_buff *skb, struct genl_info *info)
  1789. {
  1790. struct nbd_device *nbd;
  1791. struct nbd_config *config;
  1792. int index = -1;
  1793. int ret;
  1794. bool put_dev = false;
  1795. if (!netlink_capable(skb, CAP_SYS_ADMIN))
  1796. return -EPERM;
  1797. if (info->attrs[NBD_ATTR_INDEX]) {
  1798. index = nla_get_u32(info->attrs[NBD_ATTR_INDEX]);
  1799. /*
  1800. * Too big first_minor can cause duplicate creation of
  1801. * sysfs files/links, since index << part_shift might overflow, or
  1802. * MKDEV() expect that the max bits of first_minor is 20.
  1803. */
  1804. if (index < 0 || index > MINORMASK >> part_shift) {
  1805. pr_err("illegal input index %d\n", index);
  1806. return -EINVAL;
  1807. }
  1808. }
  1809. if (GENL_REQ_ATTR_CHECK(info, NBD_ATTR_SOCKETS)) {
  1810. pr_err("must specify at least one socket\n");
  1811. return -EINVAL;
  1812. }
  1813. if (GENL_REQ_ATTR_CHECK(info, NBD_ATTR_SIZE_BYTES)) {
  1814. pr_err("must specify a size in bytes for the device\n");
  1815. return -EINVAL;
  1816. }
  1817. again:
  1818. mutex_lock(&nbd_index_mutex);
  1819. if (index == -1) {
  1820. nbd = nbd_find_get_unused();
  1821. } else {
  1822. nbd = idr_find(&nbd_index_idr, index);
  1823. if (nbd) {
  1824. if ((test_bit(NBD_DESTROY_ON_DISCONNECT, &nbd->flags) &&
  1825. test_bit(NBD_DISCONNECT_REQUESTED, &nbd->flags)) ||
  1826. !refcount_inc_not_zero(&nbd->refs)) {
  1827. mutex_unlock(&nbd_index_mutex);
  1828. pr_err("device at index %d is going down\n",
  1829. index);
  1830. return -EINVAL;
  1831. }
  1832. }
  1833. }
  1834. mutex_unlock(&nbd_index_mutex);
  1835. if (!nbd) {
  1836. nbd = nbd_dev_add(index, 2);
  1837. if (IS_ERR(nbd)) {
  1838. pr_err("failed to add new device\n");
  1839. return PTR_ERR(nbd);
  1840. }
  1841. }
  1842. mutex_lock(&nbd->config_lock);
  1843. if (refcount_read(&nbd->config_refs)) {
  1844. mutex_unlock(&nbd->config_lock);
  1845. nbd_put(nbd);
  1846. if (index == -1)
  1847. goto again;
  1848. pr_err("nbd%d already in use\n", index);
  1849. return -EBUSY;
  1850. }
  1851. ret = nbd_alloc_and_init_config(nbd);
  1852. if (ret) {
  1853. mutex_unlock(&nbd->config_lock);
  1854. nbd_put(nbd);
  1855. pr_err("couldn't allocate config\n");
  1856. return ret;
  1857. }
  1858. config = nbd->config;
  1859. set_bit(NBD_RT_BOUND, &config->runtime_flags);
  1860. ret = nbd_genl_size_set(info, nbd);
  1861. if (ret)
  1862. goto out;
  1863. if (info->attrs[NBD_ATTR_TIMEOUT])
  1864. nbd_set_cmd_timeout(nbd,
  1865. nla_get_u64(info->attrs[NBD_ATTR_TIMEOUT]));
  1866. if (info->attrs[NBD_ATTR_DEAD_CONN_TIMEOUT]) {
  1867. config->dead_conn_timeout =
  1868. nla_get_u64(info->attrs[NBD_ATTR_DEAD_CONN_TIMEOUT]);
  1869. config->dead_conn_timeout *= HZ;
  1870. }
  1871. if (info->attrs[NBD_ATTR_SERVER_FLAGS])
  1872. config->flags =
  1873. nla_get_u64(info->attrs[NBD_ATTR_SERVER_FLAGS]);
  1874. if (info->attrs[NBD_ATTR_CLIENT_FLAGS]) {
  1875. u64 flags = nla_get_u64(info->attrs[NBD_ATTR_CLIENT_FLAGS]);
  1876. if (flags & NBD_CFLAG_DESTROY_ON_DISCONNECT) {
  1877. /*
  1878. * We have 1 ref to keep the device around, and then 1
  1879. * ref for our current operation here, which will be
  1880. * inherited by the config. If we already have
  1881. * DESTROY_ON_DISCONNECT set then we know we don't have
  1882. * that extra ref already held so we don't need the
  1883. * put_dev.
  1884. */
  1885. if (!test_and_set_bit(NBD_DESTROY_ON_DISCONNECT,
  1886. &nbd->flags))
  1887. put_dev = true;
  1888. } else {
  1889. if (test_and_clear_bit(NBD_DESTROY_ON_DISCONNECT,
  1890. &nbd->flags))
  1891. refcount_inc(&nbd->refs);
  1892. }
  1893. if (flags & NBD_CFLAG_DISCONNECT_ON_CLOSE) {
  1894. set_bit(NBD_RT_DISCONNECT_ON_CLOSE,
  1895. &config->runtime_flags);
  1896. }
  1897. }
  1898. if (info->attrs[NBD_ATTR_SOCKETS]) {
  1899. struct nlattr *attr;
  1900. int rem, fd;
  1901. nla_for_each_nested(attr, info->attrs[NBD_ATTR_SOCKETS],
  1902. rem) {
  1903. struct nlattr *socks[NBD_SOCK_MAX+1];
  1904. if (nla_type(attr) != NBD_SOCK_ITEM) {
  1905. pr_err("socks must be embedded in a SOCK_ITEM attr\n");
  1906. ret = -EINVAL;
  1907. goto out;
  1908. }
  1909. ret = nla_parse_nested_deprecated(socks, NBD_SOCK_MAX,
  1910. attr,
  1911. nbd_sock_policy,
  1912. info->extack);
  1913. if (ret != 0) {
  1914. pr_err("error processing sock list\n");
  1915. ret = -EINVAL;
  1916. goto out;
  1917. }
  1918. if (!socks[NBD_SOCK_FD])
  1919. continue;
  1920. fd = (int)nla_get_u32(socks[NBD_SOCK_FD]);
  1921. ret = nbd_add_socket(nbd, fd, true);
  1922. if (ret)
  1923. goto out;
  1924. }
  1925. }
  1926. if (info->attrs[NBD_ATTR_BACKEND_IDENTIFIER]) {
  1927. nbd->backend = nla_strdup(info->attrs[NBD_ATTR_BACKEND_IDENTIFIER],
  1928. GFP_KERNEL);
  1929. if (!nbd->backend) {
  1930. ret = -ENOMEM;
  1931. goto out;
  1932. }
  1933. }
  1934. ret = device_create_file(disk_to_dev(nbd->disk), &backend_attr);
  1935. if (ret) {
  1936. dev_err(disk_to_dev(nbd->disk),
  1937. "device_create_file failed for backend!\n");
  1938. goto out;
  1939. }
  1940. set_bit(NBD_RT_HAS_BACKEND_FILE, &config->runtime_flags);
  1941. ret = nbd_start_device(nbd);
  1942. out:
  1943. if (!ret) {
  1944. set_bit(NBD_RT_HAS_CONFIG_REF, &config->runtime_flags);
  1945. refcount_inc(&nbd->config_refs);
  1946. nbd_connect_reply(info, nbd->index);
  1947. }
  1948. mutex_unlock(&nbd->config_lock);
  1949. nbd_config_put(nbd);
  1950. if (put_dev)
  1951. nbd_put(nbd);
  1952. return ret;
  1953. }
  1954. static void nbd_disconnect_and_put(struct nbd_device *nbd)
  1955. {
  1956. mutex_lock(&nbd->config_lock);
  1957. nbd_disconnect(nbd);
  1958. sock_shutdown(nbd);
  1959. wake_up(&nbd->config->conn_wait);
  1960. /*
  1961. * Make sure recv thread has finished, we can safely call nbd_clear_que()
  1962. * to cancel the inflight I/Os.
  1963. */
  1964. flush_workqueue(nbd->recv_workq);
  1965. nbd_clear_que(nbd);
  1966. nbd->task_setup = NULL;
  1967. clear_bit(NBD_RT_BOUND, &nbd->config->runtime_flags);
  1968. mutex_unlock(&nbd->config_lock);
  1969. if (test_and_clear_bit(NBD_RT_HAS_CONFIG_REF,
  1970. &nbd->config->runtime_flags))
  1971. nbd_config_put(nbd);
  1972. }
  1973. static int nbd_genl_disconnect(struct sk_buff *skb, struct genl_info *info)
  1974. {
  1975. struct nbd_device *nbd;
  1976. int index;
  1977. if (!netlink_capable(skb, CAP_SYS_ADMIN))
  1978. return -EPERM;
  1979. if (GENL_REQ_ATTR_CHECK(info, NBD_ATTR_INDEX)) {
  1980. pr_err("must specify an index to disconnect\n");
  1981. return -EINVAL;
  1982. }
  1983. index = nla_get_u32(info->attrs[NBD_ATTR_INDEX]);
  1984. mutex_lock(&nbd_index_mutex);
  1985. nbd = idr_find(&nbd_index_idr, index);
  1986. if (!nbd) {
  1987. mutex_unlock(&nbd_index_mutex);
  1988. pr_err("couldn't find device at index %d\n", index);
  1989. return -EINVAL;
  1990. }
  1991. if (!refcount_inc_not_zero(&nbd->refs)) {
  1992. mutex_unlock(&nbd_index_mutex);
  1993. pr_err("device at index %d is going down\n", index);
  1994. return -EINVAL;
  1995. }
  1996. mutex_unlock(&nbd_index_mutex);
  1997. if (!refcount_inc_not_zero(&nbd->config_refs))
  1998. goto put_nbd;
  1999. nbd_disconnect_and_put(nbd);
  2000. nbd_config_put(nbd);
  2001. put_nbd:
  2002. nbd_put(nbd);
  2003. return 0;
  2004. }
  2005. static int nbd_genl_reconfigure(struct sk_buff *skb, struct genl_info *info)
  2006. {
  2007. struct nbd_device *nbd = NULL;
  2008. struct nbd_config *config;
  2009. int index;
  2010. int ret = 0;
  2011. bool put_dev = false;
  2012. if (!netlink_capable(skb, CAP_SYS_ADMIN))
  2013. return -EPERM;
  2014. if (GENL_REQ_ATTR_CHECK(info, NBD_ATTR_INDEX)) {
  2015. pr_err("must specify a device to reconfigure\n");
  2016. return -EINVAL;
  2017. }
  2018. index = nla_get_u32(info->attrs[NBD_ATTR_INDEX]);
  2019. mutex_lock(&nbd_index_mutex);
  2020. nbd = idr_find(&nbd_index_idr, index);
  2021. if (!nbd) {
  2022. mutex_unlock(&nbd_index_mutex);
  2023. pr_err("couldn't find a device at index %d\n", index);
  2024. return -EINVAL;
  2025. }
  2026. if (nbd->backend) {
  2027. if (info->attrs[NBD_ATTR_BACKEND_IDENTIFIER]) {
  2028. if (nla_strcmp(info->attrs[NBD_ATTR_BACKEND_IDENTIFIER],
  2029. nbd->backend)) {
  2030. mutex_unlock(&nbd_index_mutex);
  2031. dev_err(nbd_to_dev(nbd),
  2032. "backend image doesn't match with %s\n",
  2033. nbd->backend);
  2034. return -EINVAL;
  2035. }
  2036. } else {
  2037. mutex_unlock(&nbd_index_mutex);
  2038. dev_err(nbd_to_dev(nbd), "must specify backend\n");
  2039. return -EINVAL;
  2040. }
  2041. }
  2042. if (!refcount_inc_not_zero(&nbd->refs)) {
  2043. mutex_unlock(&nbd_index_mutex);
  2044. pr_err("device at index %d is going down\n", index);
  2045. return -EINVAL;
  2046. }
  2047. mutex_unlock(&nbd_index_mutex);
  2048. config = nbd_get_config_unlocked(nbd);
  2049. if (!config) {
  2050. dev_err(nbd_to_dev(nbd),
  2051. "not configured, cannot reconfigure\n");
  2052. nbd_put(nbd);
  2053. return -EINVAL;
  2054. }
  2055. mutex_lock(&nbd->config_lock);
  2056. if (!test_bit(NBD_RT_BOUND, &config->runtime_flags) ||
  2057. !nbd->pid) {
  2058. dev_err(nbd_to_dev(nbd),
  2059. "not configured, cannot reconfigure\n");
  2060. ret = -EINVAL;
  2061. goto out;
  2062. }
  2063. ret = nbd_genl_size_set(info, nbd);
  2064. if (ret)
  2065. goto out;
  2066. if (info->attrs[NBD_ATTR_TIMEOUT])
  2067. nbd_set_cmd_timeout(nbd,
  2068. nla_get_u64(info->attrs[NBD_ATTR_TIMEOUT]));
  2069. if (info->attrs[NBD_ATTR_DEAD_CONN_TIMEOUT]) {
  2070. config->dead_conn_timeout =
  2071. nla_get_u64(info->attrs[NBD_ATTR_DEAD_CONN_TIMEOUT]);
  2072. config->dead_conn_timeout *= HZ;
  2073. }
  2074. if (info->attrs[NBD_ATTR_CLIENT_FLAGS]) {
  2075. u64 flags = nla_get_u64(info->attrs[NBD_ATTR_CLIENT_FLAGS]);
  2076. if (flags & NBD_CFLAG_DESTROY_ON_DISCONNECT) {
  2077. if (!test_and_set_bit(NBD_DESTROY_ON_DISCONNECT,
  2078. &nbd->flags))
  2079. put_dev = true;
  2080. } else {
  2081. if (test_and_clear_bit(NBD_DESTROY_ON_DISCONNECT,
  2082. &nbd->flags))
  2083. refcount_inc(&nbd->refs);
  2084. }
  2085. if (flags & NBD_CFLAG_DISCONNECT_ON_CLOSE) {
  2086. set_bit(NBD_RT_DISCONNECT_ON_CLOSE,
  2087. &config->runtime_flags);
  2088. } else {
  2089. clear_bit(NBD_RT_DISCONNECT_ON_CLOSE,
  2090. &config->runtime_flags);
  2091. }
  2092. }
  2093. if (info->attrs[NBD_ATTR_SOCKETS]) {
  2094. struct nlattr *attr;
  2095. int rem, fd;
  2096. nla_for_each_nested(attr, info->attrs[NBD_ATTR_SOCKETS],
  2097. rem) {
  2098. struct nlattr *socks[NBD_SOCK_MAX+1];
  2099. if (nla_type(attr) != NBD_SOCK_ITEM) {
  2100. pr_err("socks must be embedded in a SOCK_ITEM attr\n");
  2101. ret = -EINVAL;
  2102. goto out;
  2103. }
  2104. ret = nla_parse_nested_deprecated(socks, NBD_SOCK_MAX,
  2105. attr,
  2106. nbd_sock_policy,
  2107. info->extack);
  2108. if (ret != 0) {
  2109. pr_err("error processing sock list\n");
  2110. ret = -EINVAL;
  2111. goto out;
  2112. }
  2113. if (!socks[NBD_SOCK_FD])
  2114. continue;
  2115. fd = (int)nla_get_u32(socks[NBD_SOCK_FD]);
  2116. ret = nbd_reconnect_socket(nbd, fd);
  2117. if (ret) {
  2118. if (ret == -ENOSPC)
  2119. ret = 0;
  2120. goto out;
  2121. }
  2122. dev_info(nbd_to_dev(nbd), "reconnected socket\n");
  2123. }
  2124. }
  2125. out:
  2126. mutex_unlock(&nbd->config_lock);
  2127. nbd_config_put(nbd);
  2128. nbd_put(nbd);
  2129. if (put_dev)
  2130. nbd_put(nbd);
  2131. return ret;
  2132. }
  2133. static const struct genl_small_ops nbd_connect_genl_ops[] = {
  2134. {
  2135. .cmd = NBD_CMD_CONNECT,
  2136. .validate = GENL_DONT_VALIDATE_STRICT | GENL_DONT_VALIDATE_DUMP,
  2137. .doit = nbd_genl_connect,
  2138. },
  2139. {
  2140. .cmd = NBD_CMD_DISCONNECT,
  2141. .validate = GENL_DONT_VALIDATE_STRICT | GENL_DONT_VALIDATE_DUMP,
  2142. .doit = nbd_genl_disconnect,
  2143. },
  2144. {
  2145. .cmd = NBD_CMD_RECONFIGURE,
  2146. .validate = GENL_DONT_VALIDATE_STRICT | GENL_DONT_VALIDATE_DUMP,
  2147. .doit = nbd_genl_reconfigure,
  2148. },
  2149. {
  2150. .cmd = NBD_CMD_STATUS,
  2151. .validate = GENL_DONT_VALIDATE_STRICT | GENL_DONT_VALIDATE_DUMP,
  2152. .doit = nbd_genl_status,
  2153. },
  2154. };
  2155. static const struct genl_multicast_group nbd_mcast_grps[] = {
  2156. { .name = NBD_GENL_MCAST_GROUP_NAME, },
  2157. };
  2158. static struct genl_family nbd_genl_family __ro_after_init = {
  2159. .hdrsize = 0,
  2160. .name = NBD_GENL_FAMILY_NAME,
  2161. .version = NBD_GENL_VERSION,
  2162. .module = THIS_MODULE,
  2163. .small_ops = nbd_connect_genl_ops,
  2164. .n_small_ops = ARRAY_SIZE(nbd_connect_genl_ops),
  2165. .resv_start_op = NBD_CMD_STATUS + 1,
  2166. .maxattr = NBD_ATTR_MAX,
  2167. .netnsok = 1,
  2168. .policy = nbd_attr_policy,
  2169. .mcgrps = nbd_mcast_grps,
  2170. .n_mcgrps = ARRAY_SIZE(nbd_mcast_grps),
  2171. };
  2172. MODULE_ALIAS_GENL_FAMILY(NBD_GENL_FAMILY_NAME);
  2173. static int populate_nbd_status(struct nbd_device *nbd, struct sk_buff *reply)
  2174. {
  2175. struct nlattr *dev_opt;
  2176. u8 connected = 0;
  2177. int ret;
  2178. /* This is a little racey, but for status it's ok. The
  2179. * reason we don't take a ref here is because we can't
  2180. * take a ref in the index == -1 case as we would need
  2181. * to put under the nbd_index_mutex, which could
  2182. * deadlock if we are configured to remove ourselves
  2183. * once we're disconnected.
  2184. */
  2185. if (refcount_read(&nbd->config_refs))
  2186. connected = 1;
  2187. dev_opt = nla_nest_start_noflag(reply, NBD_DEVICE_ITEM);
  2188. if (!dev_opt)
  2189. return -EMSGSIZE;
  2190. ret = nla_put_u32(reply, NBD_DEVICE_INDEX, nbd->index);
  2191. if (ret)
  2192. return -EMSGSIZE;
  2193. ret = nla_put_u8(reply, NBD_DEVICE_CONNECTED,
  2194. connected);
  2195. if (ret)
  2196. return -EMSGSIZE;
  2197. nla_nest_end(reply, dev_opt);
  2198. return 0;
  2199. }
  2200. static int status_cb(int id, void *ptr, void *data)
  2201. {
  2202. struct nbd_device *nbd = ptr;
  2203. return populate_nbd_status(nbd, (struct sk_buff *)data);
  2204. }
  2205. static int nbd_genl_status(struct sk_buff *skb, struct genl_info *info)
  2206. {
  2207. struct nlattr *dev_list;
  2208. struct sk_buff *reply;
  2209. void *reply_head;
  2210. size_t msg_size;
  2211. int index = -1;
  2212. int ret = -ENOMEM;
  2213. if (info->attrs[NBD_ATTR_INDEX])
  2214. index = nla_get_u32(info->attrs[NBD_ATTR_INDEX]);
  2215. mutex_lock(&nbd_index_mutex);
  2216. msg_size = nla_total_size(nla_attr_size(sizeof(u32)) +
  2217. nla_attr_size(sizeof(u8)));
  2218. msg_size *= (index == -1) ? nbd_total_devices : 1;
  2219. reply = genlmsg_new(msg_size, GFP_KERNEL);
  2220. if (!reply)
  2221. goto out;
  2222. reply_head = genlmsg_put_reply(reply, info, &nbd_genl_family, 0,
  2223. NBD_CMD_STATUS);
  2224. if (!reply_head) {
  2225. nlmsg_free(reply);
  2226. goto out;
  2227. }
  2228. dev_list = nla_nest_start_noflag(reply, NBD_ATTR_DEVICE_LIST);
  2229. if (!dev_list) {
  2230. nlmsg_free(reply);
  2231. ret = -EMSGSIZE;
  2232. goto out;
  2233. }
  2234. if (index == -1) {
  2235. ret = idr_for_each(&nbd_index_idr, &status_cb, reply);
  2236. if (ret) {
  2237. nlmsg_free(reply);
  2238. goto out;
  2239. }
  2240. } else {
  2241. struct nbd_device *nbd;
  2242. nbd = idr_find(&nbd_index_idr, index);
  2243. if (nbd) {
  2244. ret = populate_nbd_status(nbd, reply);
  2245. if (ret) {
  2246. nlmsg_free(reply);
  2247. goto out;
  2248. }
  2249. }
  2250. }
  2251. nla_nest_end(reply, dev_list);
  2252. genlmsg_end(reply, reply_head);
  2253. ret = genlmsg_reply(reply, info);
  2254. out:
  2255. mutex_unlock(&nbd_index_mutex);
  2256. return ret;
  2257. }
  2258. static void nbd_connect_reply(struct genl_info *info, int index)
  2259. {
  2260. struct sk_buff *skb;
  2261. void *msg_head;
  2262. int ret;
  2263. skb = genlmsg_new(nla_total_size(sizeof(u32)), GFP_KERNEL);
  2264. if (!skb)
  2265. return;
  2266. msg_head = genlmsg_put_reply(skb, info, &nbd_genl_family, 0,
  2267. NBD_CMD_CONNECT);
  2268. if (!msg_head) {
  2269. nlmsg_free(skb);
  2270. return;
  2271. }
  2272. ret = nla_put_u32(skb, NBD_ATTR_INDEX, index);
  2273. if (ret) {
  2274. nlmsg_free(skb);
  2275. return;
  2276. }
  2277. genlmsg_end(skb, msg_head);
  2278. genlmsg_reply(skb, info);
  2279. }
  2280. static void nbd_mcast_index(int index)
  2281. {
  2282. struct sk_buff *skb;
  2283. void *msg_head;
  2284. int ret;
  2285. skb = genlmsg_new(nla_total_size(sizeof(u32)), GFP_KERNEL);
  2286. if (!skb)
  2287. return;
  2288. msg_head = genlmsg_put(skb, 0, 0, &nbd_genl_family, 0,
  2289. NBD_CMD_LINK_DEAD);
  2290. if (!msg_head) {
  2291. nlmsg_free(skb);
  2292. return;
  2293. }
  2294. ret = nla_put_u32(skb, NBD_ATTR_INDEX, index);
  2295. if (ret) {
  2296. nlmsg_free(skb);
  2297. return;
  2298. }
  2299. genlmsg_end(skb, msg_head);
  2300. genlmsg_multicast(&nbd_genl_family, skb, 0, 0, GFP_KERNEL);
  2301. }
  2302. static void nbd_dead_link_work(struct work_struct *work)
  2303. {
  2304. struct link_dead_args *args = container_of(work, struct link_dead_args,
  2305. work);
  2306. nbd_mcast_index(args->index);
  2307. kfree(args);
  2308. }
  2309. static int __init nbd_init(void)
  2310. {
  2311. int i;
  2312. BUILD_BUG_ON(sizeof(struct nbd_request) != 28);
  2313. if (max_part < 0) {
  2314. pr_err("max_part must be >= 0\n");
  2315. return -EINVAL;
  2316. }
  2317. part_shift = 0;
  2318. if (max_part > 0) {
  2319. part_shift = fls(max_part);
  2320. /*
  2321. * Adjust max_part according to part_shift as it is exported
  2322. * to user space so that user can know the max number of
  2323. * partition kernel should be able to manage.
  2324. *
  2325. * Note that -1 is required because partition 0 is reserved
  2326. * for the whole disk.
  2327. */
  2328. max_part = (1UL << part_shift) - 1;
  2329. }
  2330. if ((1UL << part_shift) > DISK_MAX_PARTS)
  2331. return -EINVAL;
  2332. if (nbds_max > 1UL << (MINORBITS - part_shift))
  2333. return -EINVAL;
  2334. if (register_blkdev(NBD_MAJOR, "nbd"))
  2335. return -EIO;
  2336. nbd_del_wq = alloc_workqueue("nbd-del", WQ_UNBOUND, 0);
  2337. if (!nbd_del_wq) {
  2338. unregister_blkdev(NBD_MAJOR, "nbd");
  2339. return -ENOMEM;
  2340. }
  2341. if (genl_register_family(&nbd_genl_family)) {
  2342. destroy_workqueue(nbd_del_wq);
  2343. unregister_blkdev(NBD_MAJOR, "nbd");
  2344. return -EINVAL;
  2345. }
  2346. nbd_dbg_init();
  2347. for (i = 0; i < nbds_max; i++)
  2348. nbd_dev_add(i, 1);
  2349. return 0;
  2350. }
  2351. static int nbd_exit_cb(int id, void *ptr, void *data)
  2352. {
  2353. struct list_head *list = (struct list_head *)data;
  2354. struct nbd_device *nbd = ptr;
  2355. /* Skip nbd that is being removed asynchronously */
  2356. if (refcount_read(&nbd->refs))
  2357. list_add_tail(&nbd->list, list);
  2358. return 0;
  2359. }
  2360. static void __exit nbd_cleanup(void)
  2361. {
  2362. struct nbd_device *nbd;
  2363. LIST_HEAD(del_list);
  2364. /*
  2365. * Unregister netlink interface prior to waiting
  2366. * for the completion of netlink commands.
  2367. */
  2368. genl_unregister_family(&nbd_genl_family);
  2369. nbd_dbg_close();
  2370. mutex_lock(&nbd_index_mutex);
  2371. idr_for_each(&nbd_index_idr, &nbd_exit_cb, &del_list);
  2372. mutex_unlock(&nbd_index_mutex);
  2373. while (!list_empty(&del_list)) {
  2374. nbd = list_first_entry(&del_list, struct nbd_device, list);
  2375. list_del_init(&nbd->list);
  2376. if (refcount_read(&nbd->config_refs))
  2377. pr_err("possibly leaking nbd_config (ref %d)\n",
  2378. refcount_read(&nbd->config_refs));
  2379. if (refcount_read(&nbd->refs) != 1)
  2380. pr_err("possibly leaking a device\n");
  2381. nbd_put(nbd);
  2382. }
  2383. /* Also wait for nbd_dev_remove_work() completes */
  2384. destroy_workqueue(nbd_del_wq);
  2385. idr_destroy(&nbd_index_idr);
  2386. unregister_blkdev(NBD_MAJOR, "nbd");
  2387. }
  2388. module_init(nbd_init);
  2389. module_exit(nbd_cleanup);
  2390. MODULE_DESCRIPTION("Network Block Device");
  2391. MODULE_LICENSE("GPL");
  2392. module_param(nbds_max, int, 0444);
  2393. MODULE_PARM_DESC(nbds_max, "number of network block devices to initialize (default: 16)");
  2394. module_param(max_part, int, 0444);
  2395. MODULE_PARM_DESC(max_part, "number of partitions per device (default: 16)");