af_irda.c 67 KB

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  1. /*********************************************************************
  2. *
  3. * Filename: af_irda.c
  4. * Version: 0.9
  5. * Description: IrDA sockets implementation
  6. * Status: Stable
  7. * Author: Dag Brattli <dagb@cs.uit.no>
  8. * Created at: Sun May 31 10:12:43 1998
  9. * Modified at: Sat Dec 25 21:10:23 1999
  10. * Modified by: Dag Brattli <dag@brattli.net>
  11. * Sources: af_netroom.c, af_ax25.c, af_rose.c, af_x25.c etc.
  12. *
  13. * Copyright (c) 1999 Dag Brattli <dagb@cs.uit.no>
  14. * Copyright (c) 1999-2003 Jean Tourrilhes <jt@hpl.hp.com>
  15. * All Rights Reserved.
  16. *
  17. * This program is free software; you can redistribute it and/or
  18. * modify it under the terms of the GNU General Public License as
  19. * published by the Free Software Foundation; either version 2 of
  20. * the License, or (at your option) any later version.
  21. *
  22. * This program is distributed in the hope that it will be useful,
  23. * but WITHOUT ANY WARRANTY; without even the implied warranty of
  24. * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
  25. * GNU General Public License for more details.
  26. *
  27. * You should have received a copy of the GNU General Public License
  28. * along with this program; if not, see <http://www.gnu.org/licenses/>.
  29. *
  30. * Linux-IrDA now supports four different types of IrDA sockets:
  31. *
  32. * o SOCK_STREAM: TinyTP connections with SAR disabled. The
  33. * max SDU size is 0 for conn. of this type
  34. * o SOCK_SEQPACKET: TinyTP connections with SAR enabled. TTP may
  35. * fragment the messages, but will preserve
  36. * the message boundaries
  37. * o SOCK_DGRAM: IRDAPROTO_UNITDATA: TinyTP connections with Unitdata
  38. * (unreliable) transfers
  39. * IRDAPROTO_ULTRA: Connectionless and unreliable data
  40. *
  41. ********************************************************************/
  42. #include <linux/capability.h>
  43. #include <linux/module.h>
  44. #include <linux/types.h>
  45. #include <linux/socket.h>
  46. #include <linux/sockios.h>
  47. #include <linux/slab.h>
  48. #include <linux/init.h>
  49. #include <linux/net.h>
  50. #include <linux/irda.h>
  51. #include <linux/poll.h>
  52. #include <asm/ioctls.h> /* TIOCOUTQ, TIOCINQ */
  53. #include <asm/uaccess.h>
  54. #include <net/sock.h>
  55. #include <net/tcp_states.h>
  56. #include <net/irda/af_irda.h>
  57. static int irda_create(struct net *net, struct socket *sock, int protocol, int kern);
  58. static const struct proto_ops irda_stream_ops;
  59. static const struct proto_ops irda_seqpacket_ops;
  60. static const struct proto_ops irda_dgram_ops;
  61. #ifdef CONFIG_IRDA_ULTRA
  62. static const struct proto_ops irda_ultra_ops;
  63. #define ULTRA_MAX_DATA 382
  64. #endif /* CONFIG_IRDA_ULTRA */
  65. #define IRDA_MAX_HEADER (TTP_MAX_HEADER)
  66. /*
  67. * Function irda_data_indication (instance, sap, skb)
  68. *
  69. * Received some data from TinyTP. Just queue it on the receive queue
  70. *
  71. */
  72. static int irda_data_indication(void *instance, void *sap, struct sk_buff *skb)
  73. {
  74. struct irda_sock *self;
  75. struct sock *sk;
  76. int err;
  77. self = instance;
  78. sk = instance;
  79. err = sock_queue_rcv_skb(sk, skb);
  80. if (err) {
  81. pr_debug("%s(), error: no more mem!\n", __func__);
  82. self->rx_flow = FLOW_STOP;
  83. /* When we return error, TTP will need to requeue the skb */
  84. return err;
  85. }
  86. return 0;
  87. }
  88. /*
  89. * Function irda_disconnect_indication (instance, sap, reason, skb)
  90. *
  91. * Connection has been closed. Check reason to find out why
  92. *
  93. */
  94. static void irda_disconnect_indication(void *instance, void *sap,
  95. LM_REASON reason, struct sk_buff *skb)
  96. {
  97. struct irda_sock *self;
  98. struct sock *sk;
  99. self = instance;
  100. pr_debug("%s(%p)\n", __func__, self);
  101. /* Don't care about it, but let's not leak it */
  102. if(skb)
  103. dev_kfree_skb(skb);
  104. sk = instance;
  105. if (sk == NULL) {
  106. pr_debug("%s(%p) : BUG : sk is NULL\n",
  107. __func__, self);
  108. return;
  109. }
  110. /* Prevent race conditions with irda_release() and irda_shutdown() */
  111. bh_lock_sock(sk);
  112. if (!sock_flag(sk, SOCK_DEAD) && sk->sk_state != TCP_CLOSE) {
  113. sk->sk_state = TCP_CLOSE;
  114. sk->sk_shutdown |= SEND_SHUTDOWN;
  115. sk->sk_state_change(sk);
  116. /* Close our TSAP.
  117. * If we leave it open, IrLMP put it back into the list of
  118. * unconnected LSAPs. The problem is that any incoming request
  119. * can then be matched to this socket (and it will be, because
  120. * it is at the head of the list). This would prevent any
  121. * listening socket waiting on the same TSAP to get those
  122. * requests. Some apps forget to close sockets, or hang to it
  123. * a bit too long, so we may stay in this dead state long
  124. * enough to be noticed...
  125. * Note : all socket function do check sk->sk_state, so we are
  126. * safe...
  127. * Jean II
  128. */
  129. if (self->tsap) {
  130. irttp_close_tsap(self->tsap);
  131. self->tsap = NULL;
  132. }
  133. }
  134. bh_unlock_sock(sk);
  135. /* Note : once we are there, there is not much you want to do
  136. * with the socket anymore, apart from closing it.
  137. * For example, bind() and connect() won't reset sk->sk_err,
  138. * sk->sk_shutdown and sk->sk_flags to valid values...
  139. * Jean II
  140. */
  141. }
  142. /*
  143. * Function irda_connect_confirm (instance, sap, qos, max_sdu_size, skb)
  144. *
  145. * Connections has been confirmed by the remote device
  146. *
  147. */
  148. static void irda_connect_confirm(void *instance, void *sap,
  149. struct qos_info *qos,
  150. __u32 max_sdu_size, __u8 max_header_size,
  151. struct sk_buff *skb)
  152. {
  153. struct irda_sock *self;
  154. struct sock *sk;
  155. self = instance;
  156. pr_debug("%s(%p)\n", __func__, self);
  157. sk = instance;
  158. if (sk == NULL) {
  159. dev_kfree_skb(skb);
  160. return;
  161. }
  162. dev_kfree_skb(skb);
  163. // Should be ??? skb_queue_tail(&sk->sk_receive_queue, skb);
  164. /* How much header space do we need to reserve */
  165. self->max_header_size = max_header_size;
  166. /* IrTTP max SDU size in transmit direction */
  167. self->max_sdu_size_tx = max_sdu_size;
  168. /* Find out what the largest chunk of data that we can transmit is */
  169. switch (sk->sk_type) {
  170. case SOCK_STREAM:
  171. if (max_sdu_size != 0) {
  172. net_err_ratelimited("%s: max_sdu_size must be 0\n",
  173. __func__);
  174. return;
  175. }
  176. self->max_data_size = irttp_get_max_seg_size(self->tsap);
  177. break;
  178. case SOCK_SEQPACKET:
  179. if (max_sdu_size == 0) {
  180. net_err_ratelimited("%s: max_sdu_size cannot be 0\n",
  181. __func__);
  182. return;
  183. }
  184. self->max_data_size = max_sdu_size;
  185. break;
  186. default:
  187. self->max_data_size = irttp_get_max_seg_size(self->tsap);
  188. }
  189. pr_debug("%s(), max_data_size=%d\n", __func__,
  190. self->max_data_size);
  191. memcpy(&self->qos_tx, qos, sizeof(struct qos_info));
  192. /* We are now connected! */
  193. sk->sk_state = TCP_ESTABLISHED;
  194. sk->sk_state_change(sk);
  195. }
  196. /*
  197. * Function irda_connect_indication(instance, sap, qos, max_sdu_size, userdata)
  198. *
  199. * Incoming connection
  200. *
  201. */
  202. static void irda_connect_indication(void *instance, void *sap,
  203. struct qos_info *qos, __u32 max_sdu_size,
  204. __u8 max_header_size, struct sk_buff *skb)
  205. {
  206. struct irda_sock *self;
  207. struct sock *sk;
  208. self = instance;
  209. pr_debug("%s(%p)\n", __func__, self);
  210. sk = instance;
  211. if (sk == NULL) {
  212. dev_kfree_skb(skb);
  213. return;
  214. }
  215. /* How much header space do we need to reserve */
  216. self->max_header_size = max_header_size;
  217. /* IrTTP max SDU size in transmit direction */
  218. self->max_sdu_size_tx = max_sdu_size;
  219. /* Find out what the largest chunk of data that we can transmit is */
  220. switch (sk->sk_type) {
  221. case SOCK_STREAM:
  222. if (max_sdu_size != 0) {
  223. net_err_ratelimited("%s: max_sdu_size must be 0\n",
  224. __func__);
  225. kfree_skb(skb);
  226. return;
  227. }
  228. self->max_data_size = irttp_get_max_seg_size(self->tsap);
  229. break;
  230. case SOCK_SEQPACKET:
  231. if (max_sdu_size == 0) {
  232. net_err_ratelimited("%s: max_sdu_size cannot be 0\n",
  233. __func__);
  234. kfree_skb(skb);
  235. return;
  236. }
  237. self->max_data_size = max_sdu_size;
  238. break;
  239. default:
  240. self->max_data_size = irttp_get_max_seg_size(self->tsap);
  241. }
  242. pr_debug("%s(), max_data_size=%d\n", __func__,
  243. self->max_data_size);
  244. memcpy(&self->qos_tx, qos, sizeof(struct qos_info));
  245. skb_queue_tail(&sk->sk_receive_queue, skb);
  246. sk->sk_state_change(sk);
  247. }
  248. /*
  249. * Function irda_connect_response (handle)
  250. *
  251. * Accept incoming connection
  252. *
  253. */
  254. static void irda_connect_response(struct irda_sock *self)
  255. {
  256. struct sk_buff *skb;
  257. skb = alloc_skb(TTP_MAX_HEADER + TTP_SAR_HEADER, GFP_KERNEL);
  258. if (skb == NULL) {
  259. pr_debug("%s() Unable to allocate sk_buff!\n",
  260. __func__);
  261. return;
  262. }
  263. /* Reserve space for MUX_CONTROL and LAP header */
  264. skb_reserve(skb, IRDA_MAX_HEADER);
  265. irttp_connect_response(self->tsap, self->max_sdu_size_rx, skb);
  266. }
  267. /*
  268. * Function irda_flow_indication (instance, sap, flow)
  269. *
  270. * Used by TinyTP to tell us if it can accept more data or not
  271. *
  272. */
  273. static void irda_flow_indication(void *instance, void *sap, LOCAL_FLOW flow)
  274. {
  275. struct irda_sock *self;
  276. struct sock *sk;
  277. self = instance;
  278. sk = instance;
  279. BUG_ON(sk == NULL);
  280. switch (flow) {
  281. case FLOW_STOP:
  282. pr_debug("%s(), IrTTP wants us to slow down\n",
  283. __func__);
  284. self->tx_flow = flow;
  285. break;
  286. case FLOW_START:
  287. self->tx_flow = flow;
  288. pr_debug("%s(), IrTTP wants us to start again\n",
  289. __func__);
  290. wake_up_interruptible(sk_sleep(sk));
  291. break;
  292. default:
  293. pr_debug("%s(), Unknown flow command!\n", __func__);
  294. /* Unknown flow command, better stop */
  295. self->tx_flow = flow;
  296. break;
  297. }
  298. }
  299. /*
  300. * Function irda_getvalue_confirm (obj_id, value, priv)
  301. *
  302. * Got answer from remote LM-IAS, just pass object to requester...
  303. *
  304. * Note : duplicate from above, but we need our own version that
  305. * doesn't touch the dtsap_sel and save the full value structure...
  306. */
  307. static void irda_getvalue_confirm(int result, __u16 obj_id,
  308. struct ias_value *value, void *priv)
  309. {
  310. struct irda_sock *self;
  311. self = priv;
  312. if (!self) {
  313. net_warn_ratelimited("%s: lost myself!\n", __func__);
  314. return;
  315. }
  316. pr_debug("%s(%p)\n", __func__, self);
  317. /* We probably don't need to make any more queries */
  318. iriap_close(self->iriap);
  319. self->iriap = NULL;
  320. /* Check if request succeeded */
  321. if (result != IAS_SUCCESS) {
  322. pr_debug("%s(), IAS query failed! (%d)\n", __func__,
  323. result);
  324. self->errno = result; /* We really need it later */
  325. /* Wake up any processes waiting for result */
  326. wake_up_interruptible(&self->query_wait);
  327. return;
  328. }
  329. /* Pass the object to the caller (so the caller must delete it) */
  330. self->ias_result = value;
  331. self->errno = 0;
  332. /* Wake up any processes waiting for result */
  333. wake_up_interruptible(&self->query_wait);
  334. }
  335. /*
  336. * Function irda_selective_discovery_indication (discovery)
  337. *
  338. * Got a selective discovery indication from IrLMP.
  339. *
  340. * IrLMP is telling us that this node is new and matching our hint bit
  341. * filter. Wake up any process waiting for answer...
  342. */
  343. static void irda_selective_discovery_indication(discinfo_t *discovery,
  344. DISCOVERY_MODE mode,
  345. void *priv)
  346. {
  347. struct irda_sock *self;
  348. self = priv;
  349. if (!self) {
  350. net_warn_ratelimited("%s: lost myself!\n", __func__);
  351. return;
  352. }
  353. /* Pass parameter to the caller */
  354. self->cachedaddr = discovery->daddr;
  355. /* Wake up process if its waiting for device to be discovered */
  356. wake_up_interruptible(&self->query_wait);
  357. }
  358. /*
  359. * Function irda_discovery_timeout (priv)
  360. *
  361. * Timeout in the selective discovery process
  362. *
  363. * We were waiting for a node to be discovered, but nothing has come up
  364. * so far. Wake up the user and tell him that we failed...
  365. */
  366. static void irda_discovery_timeout(u_long priv)
  367. {
  368. struct irda_sock *self;
  369. self = (struct irda_sock *) priv;
  370. BUG_ON(self == NULL);
  371. /* Nothing for the caller */
  372. self->cachelog = NULL;
  373. self->cachedaddr = 0;
  374. self->errno = -ETIME;
  375. /* Wake up process if its still waiting... */
  376. wake_up_interruptible(&self->query_wait);
  377. }
  378. /*
  379. * Function irda_open_tsap (self)
  380. *
  381. * Open local Transport Service Access Point (TSAP)
  382. *
  383. */
  384. static int irda_open_tsap(struct irda_sock *self, __u8 tsap_sel, char *name)
  385. {
  386. notify_t notify;
  387. if (self->tsap) {
  388. pr_debug("%s: busy!\n", __func__);
  389. return -EBUSY;
  390. }
  391. /* Initialize callbacks to be used by the IrDA stack */
  392. irda_notify_init(&notify);
  393. notify.connect_confirm = irda_connect_confirm;
  394. notify.connect_indication = irda_connect_indication;
  395. notify.disconnect_indication = irda_disconnect_indication;
  396. notify.data_indication = irda_data_indication;
  397. notify.udata_indication = irda_data_indication;
  398. notify.flow_indication = irda_flow_indication;
  399. notify.instance = self;
  400. strncpy(notify.name, name, NOTIFY_MAX_NAME);
  401. self->tsap = irttp_open_tsap(tsap_sel, DEFAULT_INITIAL_CREDIT,
  402. &notify);
  403. if (self->tsap == NULL) {
  404. pr_debug("%s(), Unable to allocate TSAP!\n",
  405. __func__);
  406. return -ENOMEM;
  407. }
  408. /* Remember which TSAP selector we actually got */
  409. self->stsap_sel = self->tsap->stsap_sel;
  410. return 0;
  411. }
  412. /*
  413. * Function irda_open_lsap (self)
  414. *
  415. * Open local Link Service Access Point (LSAP). Used for opening Ultra
  416. * sockets
  417. */
  418. #ifdef CONFIG_IRDA_ULTRA
  419. static int irda_open_lsap(struct irda_sock *self, int pid)
  420. {
  421. notify_t notify;
  422. if (self->lsap) {
  423. net_warn_ratelimited("%s(), busy!\n", __func__);
  424. return -EBUSY;
  425. }
  426. /* Initialize callbacks to be used by the IrDA stack */
  427. irda_notify_init(&notify);
  428. notify.udata_indication = irda_data_indication;
  429. notify.instance = self;
  430. strncpy(notify.name, "Ultra", NOTIFY_MAX_NAME);
  431. self->lsap = irlmp_open_lsap(LSAP_CONNLESS, &notify, pid);
  432. if (self->lsap == NULL) {
  433. pr_debug("%s(), Unable to allocate LSAP!\n", __func__);
  434. return -ENOMEM;
  435. }
  436. return 0;
  437. }
  438. #endif /* CONFIG_IRDA_ULTRA */
  439. /*
  440. * Function irda_find_lsap_sel (self, name)
  441. *
  442. * Try to lookup LSAP selector in remote LM-IAS
  443. *
  444. * Basically, we start a IAP query, and then go to sleep. When the query
  445. * return, irda_getvalue_confirm will wake us up, and we can examine the
  446. * result of the query...
  447. * Note that in some case, the query fail even before we go to sleep,
  448. * creating some races...
  449. */
  450. static int irda_find_lsap_sel(struct irda_sock *self, char *name)
  451. {
  452. pr_debug("%s(%p, %s)\n", __func__, self, name);
  453. if (self->iriap) {
  454. net_warn_ratelimited("%s(): busy with a previous query\n",
  455. __func__);
  456. return -EBUSY;
  457. }
  458. self->iriap = iriap_open(LSAP_ANY, IAS_CLIENT, self,
  459. irda_getvalue_confirm);
  460. if(self->iriap == NULL)
  461. return -ENOMEM;
  462. /* Treat unexpected wakeup as disconnect */
  463. self->errno = -EHOSTUNREACH;
  464. /* Query remote LM-IAS */
  465. iriap_getvaluebyclass_request(self->iriap, self->saddr, self->daddr,
  466. name, "IrDA:TinyTP:LsapSel");
  467. /* Wait for answer, if not yet finished (or failed) */
  468. if (wait_event_interruptible(self->query_wait, (self->iriap==NULL)))
  469. /* Treat signals as disconnect */
  470. return -EHOSTUNREACH;
  471. /* Check what happened */
  472. if (self->errno)
  473. {
  474. /* Requested object/attribute doesn't exist */
  475. if((self->errno == IAS_CLASS_UNKNOWN) ||
  476. (self->errno == IAS_ATTRIB_UNKNOWN))
  477. return -EADDRNOTAVAIL;
  478. else
  479. return -EHOSTUNREACH;
  480. }
  481. /* Get the remote TSAP selector */
  482. switch (self->ias_result->type) {
  483. case IAS_INTEGER:
  484. pr_debug("%s() int=%d\n",
  485. __func__, self->ias_result->t.integer);
  486. if (self->ias_result->t.integer != -1)
  487. self->dtsap_sel = self->ias_result->t.integer;
  488. else
  489. self->dtsap_sel = 0;
  490. break;
  491. default:
  492. self->dtsap_sel = 0;
  493. pr_debug("%s(), bad type!\n", __func__);
  494. break;
  495. }
  496. if (self->ias_result)
  497. irias_delete_value(self->ias_result);
  498. if (self->dtsap_sel)
  499. return 0;
  500. return -EADDRNOTAVAIL;
  501. }
  502. /*
  503. * Function irda_discover_daddr_and_lsap_sel (self, name)
  504. *
  505. * This try to find a device with the requested service.
  506. *
  507. * It basically look into the discovery log. For each address in the list,
  508. * it queries the LM-IAS of the device to find if this device offer
  509. * the requested service.
  510. * If there is more than one node supporting the service, we complain
  511. * to the user (it should move devices around).
  512. * The, we set both the destination address and the lsap selector to point
  513. * on the service on the unique device we have found.
  514. *
  515. * Note : this function fails if there is more than one device in range,
  516. * because IrLMP doesn't disconnect the LAP when the last LSAP is closed.
  517. * Moreover, we would need to wait the LAP disconnection...
  518. */
  519. static int irda_discover_daddr_and_lsap_sel(struct irda_sock *self, char *name)
  520. {
  521. discinfo_t *discoveries; /* Copy of the discovery log */
  522. int number; /* Number of nodes in the log */
  523. int i;
  524. int err = -ENETUNREACH;
  525. __u32 daddr = DEV_ADDR_ANY; /* Address we found the service on */
  526. __u8 dtsap_sel = 0x0; /* TSAP associated with it */
  527. pr_debug("%s(), name=%s\n", __func__, name);
  528. /* Ask lmp for the current discovery log
  529. * Note : we have to use irlmp_get_discoveries(), as opposed
  530. * to play with the cachelog directly, because while we are
  531. * making our ias query, le log might change... */
  532. discoveries = irlmp_get_discoveries(&number, self->mask.word,
  533. self->nslots);
  534. /* Check if the we got some results */
  535. if (discoveries == NULL)
  536. return -ENETUNREACH; /* No nodes discovered */
  537. /*
  538. * Now, check all discovered devices (if any), and connect
  539. * client only about the services that the client is
  540. * interested in...
  541. */
  542. for(i = 0; i < number; i++) {
  543. /* Try the address in the log */
  544. self->daddr = discoveries[i].daddr;
  545. self->saddr = 0x0;
  546. pr_debug("%s(), trying daddr = %08x\n",
  547. __func__, self->daddr);
  548. /* Query remote LM-IAS for this service */
  549. err = irda_find_lsap_sel(self, name);
  550. switch (err) {
  551. case 0:
  552. /* We found the requested service */
  553. if(daddr != DEV_ADDR_ANY) {
  554. pr_debug("%s(), discovered service ''%s'' in two different devices !!!\n",
  555. __func__, name);
  556. self->daddr = DEV_ADDR_ANY;
  557. kfree(discoveries);
  558. return -ENOTUNIQ;
  559. }
  560. /* First time we found that one, save it ! */
  561. daddr = self->daddr;
  562. dtsap_sel = self->dtsap_sel;
  563. break;
  564. case -EADDRNOTAVAIL:
  565. /* Requested service simply doesn't exist on this node */
  566. break;
  567. default:
  568. /* Something bad did happen :-( */
  569. pr_debug("%s(), unexpected IAS query failure\n",
  570. __func__);
  571. self->daddr = DEV_ADDR_ANY;
  572. kfree(discoveries);
  573. return -EHOSTUNREACH;
  574. }
  575. }
  576. /* Cleanup our copy of the discovery log */
  577. kfree(discoveries);
  578. /* Check out what we found */
  579. if(daddr == DEV_ADDR_ANY) {
  580. pr_debug("%s(), cannot discover service ''%s'' in any device !!!\n",
  581. __func__, name);
  582. self->daddr = DEV_ADDR_ANY;
  583. return -EADDRNOTAVAIL;
  584. }
  585. /* Revert back to discovered device & service */
  586. self->daddr = daddr;
  587. self->saddr = 0x0;
  588. self->dtsap_sel = dtsap_sel;
  589. pr_debug("%s(), discovered requested service ''%s'' at address %08x\n",
  590. __func__, name, self->daddr);
  591. return 0;
  592. }
  593. /*
  594. * Function irda_getname (sock, uaddr, uaddr_len, peer)
  595. *
  596. * Return the our own, or peers socket address (sockaddr_irda)
  597. *
  598. */
  599. static int irda_getname(struct socket *sock, struct sockaddr *uaddr,
  600. int *uaddr_len, int peer)
  601. {
  602. struct sockaddr_irda saddr;
  603. struct sock *sk = sock->sk;
  604. struct irda_sock *self = irda_sk(sk);
  605. memset(&saddr, 0, sizeof(saddr));
  606. if (peer) {
  607. if (sk->sk_state != TCP_ESTABLISHED)
  608. return -ENOTCONN;
  609. saddr.sir_family = AF_IRDA;
  610. saddr.sir_lsap_sel = self->dtsap_sel;
  611. saddr.sir_addr = self->daddr;
  612. } else {
  613. saddr.sir_family = AF_IRDA;
  614. saddr.sir_lsap_sel = self->stsap_sel;
  615. saddr.sir_addr = self->saddr;
  616. }
  617. pr_debug("%s(), tsap_sel = %#x\n", __func__, saddr.sir_lsap_sel);
  618. pr_debug("%s(), addr = %08x\n", __func__, saddr.sir_addr);
  619. /* uaddr_len come to us uninitialised */
  620. *uaddr_len = sizeof (struct sockaddr_irda);
  621. memcpy(uaddr, &saddr, *uaddr_len);
  622. return 0;
  623. }
  624. /*
  625. * Function irda_listen (sock, backlog)
  626. *
  627. * Just move to the listen state
  628. *
  629. */
  630. static int irda_listen(struct socket *sock, int backlog)
  631. {
  632. struct sock *sk = sock->sk;
  633. int err = -EOPNOTSUPP;
  634. lock_sock(sk);
  635. if ((sk->sk_type != SOCK_STREAM) && (sk->sk_type != SOCK_SEQPACKET) &&
  636. (sk->sk_type != SOCK_DGRAM))
  637. goto out;
  638. if (sk->sk_state != TCP_LISTEN) {
  639. sk->sk_max_ack_backlog = backlog;
  640. sk->sk_state = TCP_LISTEN;
  641. err = 0;
  642. }
  643. out:
  644. release_sock(sk);
  645. return err;
  646. }
  647. /*
  648. * Function irda_bind (sock, uaddr, addr_len)
  649. *
  650. * Used by servers to register their well known TSAP
  651. *
  652. */
  653. static int irda_bind(struct socket *sock, struct sockaddr *uaddr, int addr_len)
  654. {
  655. struct sock *sk = sock->sk;
  656. struct sockaddr_irda *addr = (struct sockaddr_irda *) uaddr;
  657. struct irda_sock *self = irda_sk(sk);
  658. int err;
  659. pr_debug("%s(%p)\n", __func__, self);
  660. if (addr_len != sizeof(struct sockaddr_irda))
  661. return -EINVAL;
  662. lock_sock(sk);
  663. /* Ensure that the socket is not already bound */
  664. if (self->ias_obj) {
  665. err = -EINVAL;
  666. goto out;
  667. }
  668. #ifdef CONFIG_IRDA_ULTRA
  669. /* Special care for Ultra sockets */
  670. if ((sk->sk_type == SOCK_DGRAM) &&
  671. (sk->sk_protocol == IRDAPROTO_ULTRA)) {
  672. self->pid = addr->sir_lsap_sel;
  673. err = -EOPNOTSUPP;
  674. if (self->pid & 0x80) {
  675. pr_debug("%s(), extension in PID not supp!\n",
  676. __func__);
  677. goto out;
  678. }
  679. err = irda_open_lsap(self, self->pid);
  680. if (err < 0)
  681. goto out;
  682. /* Pretend we are connected */
  683. sock->state = SS_CONNECTED;
  684. sk->sk_state = TCP_ESTABLISHED;
  685. err = 0;
  686. goto out;
  687. }
  688. #endif /* CONFIG_IRDA_ULTRA */
  689. self->ias_obj = irias_new_object(addr->sir_name, jiffies);
  690. err = -ENOMEM;
  691. if (self->ias_obj == NULL)
  692. goto out;
  693. err = irda_open_tsap(self, addr->sir_lsap_sel, addr->sir_name);
  694. if (err < 0) {
  695. irias_delete_object(self->ias_obj);
  696. self->ias_obj = NULL;
  697. goto out;
  698. }
  699. /* Register with LM-IAS */
  700. irias_add_integer_attrib(self->ias_obj, "IrDA:TinyTP:LsapSel",
  701. self->stsap_sel, IAS_KERNEL_ATTR);
  702. irias_insert_object(self->ias_obj);
  703. err = 0;
  704. out:
  705. release_sock(sk);
  706. return err;
  707. }
  708. /*
  709. * Function irda_accept (sock, newsock, flags)
  710. *
  711. * Wait for incoming connection
  712. *
  713. */
  714. static int irda_accept(struct socket *sock, struct socket *newsock, int flags)
  715. {
  716. struct sock *sk = sock->sk;
  717. struct irda_sock *new, *self = irda_sk(sk);
  718. struct sock *newsk;
  719. struct sk_buff *skb;
  720. int err;
  721. err = irda_create(sock_net(sk), newsock, sk->sk_protocol, 0);
  722. if (err)
  723. return err;
  724. err = -EINVAL;
  725. lock_sock(sk);
  726. if (sock->state != SS_UNCONNECTED)
  727. goto out;
  728. if ((sk = sock->sk) == NULL)
  729. goto out;
  730. err = -EOPNOTSUPP;
  731. if ((sk->sk_type != SOCK_STREAM) && (sk->sk_type != SOCK_SEQPACKET) &&
  732. (sk->sk_type != SOCK_DGRAM))
  733. goto out;
  734. err = -EINVAL;
  735. if (sk->sk_state != TCP_LISTEN)
  736. goto out;
  737. /*
  738. * The read queue this time is holding sockets ready to use
  739. * hooked into the SABM we saved
  740. */
  741. /*
  742. * We can perform the accept only if there is incoming data
  743. * on the listening socket.
  744. * So, we will block the caller until we receive any data.
  745. * If the caller was waiting on select() or poll() before
  746. * calling us, the data is waiting for us ;-)
  747. * Jean II
  748. */
  749. while (1) {
  750. skb = skb_dequeue(&sk->sk_receive_queue);
  751. if (skb)
  752. break;
  753. /* Non blocking operation */
  754. err = -EWOULDBLOCK;
  755. if (flags & O_NONBLOCK)
  756. goto out;
  757. err = wait_event_interruptible(*(sk_sleep(sk)),
  758. skb_peek(&sk->sk_receive_queue));
  759. if (err)
  760. goto out;
  761. }
  762. newsk = newsock->sk;
  763. err = -EIO;
  764. if (newsk == NULL)
  765. goto out;
  766. newsk->sk_state = TCP_ESTABLISHED;
  767. new = irda_sk(newsk);
  768. /* Now attach up the new socket */
  769. new->tsap = irttp_dup(self->tsap, new);
  770. err = -EPERM; /* value does not seem to make sense. -arnd */
  771. if (!new->tsap) {
  772. pr_debug("%s(), dup failed!\n", __func__);
  773. kfree_skb(skb);
  774. goto out;
  775. }
  776. new->stsap_sel = new->tsap->stsap_sel;
  777. new->dtsap_sel = new->tsap->dtsap_sel;
  778. new->saddr = irttp_get_saddr(new->tsap);
  779. new->daddr = irttp_get_daddr(new->tsap);
  780. new->max_sdu_size_tx = self->max_sdu_size_tx;
  781. new->max_sdu_size_rx = self->max_sdu_size_rx;
  782. new->max_data_size = self->max_data_size;
  783. new->max_header_size = self->max_header_size;
  784. memcpy(&new->qos_tx, &self->qos_tx, sizeof(struct qos_info));
  785. /* Clean up the original one to keep it in listen state */
  786. irttp_listen(self->tsap);
  787. kfree_skb(skb);
  788. sk->sk_ack_backlog--;
  789. newsock->state = SS_CONNECTED;
  790. irda_connect_response(new);
  791. err = 0;
  792. out:
  793. release_sock(sk);
  794. return err;
  795. }
  796. /*
  797. * Function irda_connect (sock, uaddr, addr_len, flags)
  798. *
  799. * Connect to a IrDA device
  800. *
  801. * The main difference with a "standard" connect is that with IrDA we need
  802. * to resolve the service name into a TSAP selector (in TCP, port number
  803. * doesn't have to be resolved).
  804. * Because of this service name resolution, we can offer "auto-connect",
  805. * where we connect to a service without specifying a destination address.
  806. *
  807. * Note : by consulting "errno", the user space caller may learn the cause
  808. * of the failure. Most of them are visible in the function, others may come
  809. * from subroutines called and are listed here :
  810. * o EBUSY : already processing a connect
  811. * o EHOSTUNREACH : bad addr->sir_addr argument
  812. * o EADDRNOTAVAIL : bad addr->sir_name argument
  813. * o ENOTUNIQ : more than one node has addr->sir_name (auto-connect)
  814. * o ENETUNREACH : no node found on the network (auto-connect)
  815. */
  816. static int irda_connect(struct socket *sock, struct sockaddr *uaddr,
  817. int addr_len, int flags)
  818. {
  819. struct sock *sk = sock->sk;
  820. struct sockaddr_irda *addr = (struct sockaddr_irda *) uaddr;
  821. struct irda_sock *self = irda_sk(sk);
  822. int err;
  823. pr_debug("%s(%p)\n", __func__, self);
  824. lock_sock(sk);
  825. /* Don't allow connect for Ultra sockets */
  826. err = -ESOCKTNOSUPPORT;
  827. if ((sk->sk_type == SOCK_DGRAM) && (sk->sk_protocol == IRDAPROTO_ULTRA))
  828. goto out;
  829. if (sk->sk_state == TCP_ESTABLISHED && sock->state == SS_CONNECTING) {
  830. sock->state = SS_CONNECTED;
  831. err = 0;
  832. goto out; /* Connect completed during a ERESTARTSYS event */
  833. }
  834. if (sk->sk_state == TCP_CLOSE && sock->state == SS_CONNECTING) {
  835. sock->state = SS_UNCONNECTED;
  836. err = -ECONNREFUSED;
  837. goto out;
  838. }
  839. err = -EISCONN; /* No reconnect on a seqpacket socket */
  840. if (sk->sk_state == TCP_ESTABLISHED)
  841. goto out;
  842. sk->sk_state = TCP_CLOSE;
  843. sock->state = SS_UNCONNECTED;
  844. err = -EINVAL;
  845. if (addr_len != sizeof(struct sockaddr_irda))
  846. goto out;
  847. /* Check if user supplied any destination device address */
  848. if ((!addr->sir_addr) || (addr->sir_addr == DEV_ADDR_ANY)) {
  849. /* Try to find one suitable */
  850. err = irda_discover_daddr_and_lsap_sel(self, addr->sir_name);
  851. if (err) {
  852. pr_debug("%s(), auto-connect failed!\n", __func__);
  853. goto out;
  854. }
  855. } else {
  856. /* Use the one provided by the user */
  857. self->daddr = addr->sir_addr;
  858. pr_debug("%s(), daddr = %08x\n", __func__, self->daddr);
  859. /* If we don't have a valid service name, we assume the
  860. * user want to connect on a specific LSAP. Prevent
  861. * the use of invalid LSAPs (IrLMP 1.1 p10). Jean II */
  862. if((addr->sir_name[0] != '\0') ||
  863. (addr->sir_lsap_sel >= 0x70)) {
  864. /* Query remote LM-IAS using service name */
  865. err = irda_find_lsap_sel(self, addr->sir_name);
  866. if (err) {
  867. pr_debug("%s(), connect failed!\n", __func__);
  868. goto out;
  869. }
  870. } else {
  871. /* Directly connect to the remote LSAP
  872. * specified by the sir_lsap field.
  873. * Please use with caution, in IrDA LSAPs are
  874. * dynamic and there is no "well-known" LSAP. */
  875. self->dtsap_sel = addr->sir_lsap_sel;
  876. }
  877. }
  878. /* Check if we have opened a local TSAP */
  879. if (!self->tsap) {
  880. err = irda_open_tsap(self, LSAP_ANY, addr->sir_name);
  881. if (err)
  882. goto out;
  883. }
  884. /* Move to connecting socket, start sending Connect Requests */
  885. sock->state = SS_CONNECTING;
  886. sk->sk_state = TCP_SYN_SENT;
  887. /* Connect to remote device */
  888. err = irttp_connect_request(self->tsap, self->dtsap_sel,
  889. self->saddr, self->daddr, NULL,
  890. self->max_sdu_size_rx, NULL);
  891. if (err) {
  892. pr_debug("%s(), connect failed!\n", __func__);
  893. goto out;
  894. }
  895. /* Now the loop */
  896. err = -EINPROGRESS;
  897. if (sk->sk_state != TCP_ESTABLISHED && (flags & O_NONBLOCK))
  898. goto out;
  899. err = -ERESTARTSYS;
  900. if (wait_event_interruptible(*(sk_sleep(sk)),
  901. (sk->sk_state != TCP_SYN_SENT)))
  902. goto out;
  903. if (sk->sk_state != TCP_ESTABLISHED) {
  904. sock->state = SS_UNCONNECTED;
  905. err = sock_error(sk);
  906. if (!err)
  907. err = -ECONNRESET;
  908. goto out;
  909. }
  910. sock->state = SS_CONNECTED;
  911. /* At this point, IrLMP has assigned our source address */
  912. self->saddr = irttp_get_saddr(self->tsap);
  913. err = 0;
  914. out:
  915. release_sock(sk);
  916. return err;
  917. }
  918. static struct proto irda_proto = {
  919. .name = "IRDA",
  920. .owner = THIS_MODULE,
  921. .obj_size = sizeof(struct irda_sock),
  922. };
  923. /*
  924. * Function irda_create (sock, protocol)
  925. *
  926. * Create IrDA socket
  927. *
  928. */
  929. static int irda_create(struct net *net, struct socket *sock, int protocol,
  930. int kern)
  931. {
  932. struct sock *sk;
  933. struct irda_sock *self;
  934. if (protocol < 0 || protocol > SK_PROTOCOL_MAX)
  935. return -EINVAL;
  936. if (net != &init_net)
  937. return -EAFNOSUPPORT;
  938. /* Check for valid socket type */
  939. switch (sock->type) {
  940. case SOCK_STREAM: /* For TTP connections with SAR disabled */
  941. case SOCK_SEQPACKET: /* For TTP connections with SAR enabled */
  942. case SOCK_DGRAM: /* For TTP Unitdata or LMP Ultra transfers */
  943. break;
  944. default:
  945. return -ESOCKTNOSUPPORT;
  946. }
  947. /* Allocate networking socket */
  948. sk = sk_alloc(net, PF_IRDA, GFP_KERNEL, &irda_proto, kern);
  949. if (sk == NULL)
  950. return -ENOMEM;
  951. self = irda_sk(sk);
  952. pr_debug("%s() : self is %p\n", __func__, self);
  953. init_waitqueue_head(&self->query_wait);
  954. switch (sock->type) {
  955. case SOCK_STREAM:
  956. sock->ops = &irda_stream_ops;
  957. self->max_sdu_size_rx = TTP_SAR_DISABLE;
  958. break;
  959. case SOCK_SEQPACKET:
  960. sock->ops = &irda_seqpacket_ops;
  961. self->max_sdu_size_rx = TTP_SAR_UNBOUND;
  962. break;
  963. case SOCK_DGRAM:
  964. switch (protocol) {
  965. #ifdef CONFIG_IRDA_ULTRA
  966. case IRDAPROTO_ULTRA:
  967. sock->ops = &irda_ultra_ops;
  968. /* Initialise now, because we may send on unbound
  969. * sockets. Jean II */
  970. self->max_data_size = ULTRA_MAX_DATA - LMP_PID_HEADER;
  971. self->max_header_size = IRDA_MAX_HEADER + LMP_PID_HEADER;
  972. break;
  973. #endif /* CONFIG_IRDA_ULTRA */
  974. case IRDAPROTO_UNITDATA:
  975. sock->ops = &irda_dgram_ops;
  976. /* We let Unitdata conn. be like seqpack conn. */
  977. self->max_sdu_size_rx = TTP_SAR_UNBOUND;
  978. break;
  979. default:
  980. sk_free(sk);
  981. return -ESOCKTNOSUPPORT;
  982. }
  983. break;
  984. default:
  985. sk_free(sk);
  986. return -ESOCKTNOSUPPORT;
  987. }
  988. /* Initialise networking socket struct */
  989. sock_init_data(sock, sk); /* Note : set sk->sk_refcnt to 1 */
  990. sk->sk_family = PF_IRDA;
  991. sk->sk_protocol = protocol;
  992. /* Register as a client with IrLMP */
  993. self->ckey = irlmp_register_client(0, NULL, NULL, NULL);
  994. self->mask.word = 0xffff;
  995. self->rx_flow = self->tx_flow = FLOW_START;
  996. self->nslots = DISCOVERY_DEFAULT_SLOTS;
  997. self->daddr = DEV_ADDR_ANY; /* Until we get connected */
  998. self->saddr = 0x0; /* so IrLMP assign us any link */
  999. return 0;
  1000. }
  1001. /*
  1002. * Function irda_destroy_socket (self)
  1003. *
  1004. * Destroy socket
  1005. *
  1006. */
  1007. static void irda_destroy_socket(struct irda_sock *self)
  1008. {
  1009. pr_debug("%s(%p)\n", __func__, self);
  1010. /* Unregister with IrLMP */
  1011. irlmp_unregister_client(self->ckey);
  1012. irlmp_unregister_service(self->skey);
  1013. /* Unregister with LM-IAS */
  1014. if (self->ias_obj) {
  1015. irias_delete_object(self->ias_obj);
  1016. self->ias_obj = NULL;
  1017. }
  1018. if (self->iriap) {
  1019. iriap_close(self->iriap);
  1020. self->iriap = NULL;
  1021. }
  1022. if (self->tsap) {
  1023. irttp_disconnect_request(self->tsap, NULL, P_NORMAL);
  1024. irttp_close_tsap(self->tsap);
  1025. self->tsap = NULL;
  1026. }
  1027. #ifdef CONFIG_IRDA_ULTRA
  1028. if (self->lsap) {
  1029. irlmp_close_lsap(self->lsap);
  1030. self->lsap = NULL;
  1031. }
  1032. #endif /* CONFIG_IRDA_ULTRA */
  1033. }
  1034. /*
  1035. * Function irda_release (sock)
  1036. */
  1037. static int irda_release(struct socket *sock)
  1038. {
  1039. struct sock *sk = sock->sk;
  1040. if (sk == NULL)
  1041. return 0;
  1042. lock_sock(sk);
  1043. sk->sk_state = TCP_CLOSE;
  1044. sk->sk_shutdown |= SEND_SHUTDOWN;
  1045. sk->sk_state_change(sk);
  1046. /* Destroy IrDA socket */
  1047. irda_destroy_socket(irda_sk(sk));
  1048. sock_orphan(sk);
  1049. sock->sk = NULL;
  1050. release_sock(sk);
  1051. /* Purge queues (see sock_init_data()) */
  1052. skb_queue_purge(&sk->sk_receive_queue);
  1053. /* Destroy networking socket if we are the last reference on it,
  1054. * i.e. if(sk->sk_refcnt == 0) -> sk_free(sk) */
  1055. sock_put(sk);
  1056. /* Notes on socket locking and deallocation... - Jean II
  1057. * In theory we should put pairs of sock_hold() / sock_put() to
  1058. * prevent the socket to be destroyed whenever there is an
  1059. * outstanding request or outstanding incoming packet or event.
  1060. *
  1061. * 1) This may include IAS request, both in connect and getsockopt.
  1062. * Unfortunately, the situation is a bit more messy than it looks,
  1063. * because we close iriap and kfree(self) above.
  1064. *
  1065. * 2) This may include selective discovery in getsockopt.
  1066. * Same stuff as above, irlmp registration and self are gone.
  1067. *
  1068. * Probably 1 and 2 may not matter, because it's all triggered
  1069. * by a process and the socket layer already prevent the
  1070. * socket to go away while a process is holding it, through
  1071. * sockfd_put() and fput()...
  1072. *
  1073. * 3) This may include deferred TSAP closure. In particular,
  1074. * we may receive a late irda_disconnect_indication()
  1075. * Fortunately, (tsap_cb *)->close_pend should protect us
  1076. * from that.
  1077. *
  1078. * I did some testing on SMP, and it looks solid. And the socket
  1079. * memory leak is now gone... - Jean II
  1080. */
  1081. return 0;
  1082. }
  1083. /*
  1084. * Function irda_sendmsg (sock, msg, len)
  1085. *
  1086. * Send message down to TinyTP. This function is used for both STREAM and
  1087. * SEQPACK services. This is possible since it forces the client to
  1088. * fragment the message if necessary
  1089. */
  1090. static int irda_sendmsg(struct socket *sock, struct msghdr *msg, size_t len)
  1091. {
  1092. struct sock *sk = sock->sk;
  1093. struct irda_sock *self;
  1094. struct sk_buff *skb;
  1095. int err = -EPIPE;
  1096. pr_debug("%s(), len=%zd\n", __func__, len);
  1097. /* Note : socket.c set MSG_EOR on SEQPACKET sockets */
  1098. if (msg->msg_flags & ~(MSG_DONTWAIT | MSG_EOR | MSG_CMSG_COMPAT |
  1099. MSG_NOSIGNAL)) {
  1100. return -EINVAL;
  1101. }
  1102. lock_sock(sk);
  1103. if (sk->sk_shutdown & SEND_SHUTDOWN)
  1104. goto out_err;
  1105. if (sk->sk_state != TCP_ESTABLISHED) {
  1106. err = -ENOTCONN;
  1107. goto out;
  1108. }
  1109. self = irda_sk(sk);
  1110. /* Check if IrTTP is wants us to slow down */
  1111. if (wait_event_interruptible(*(sk_sleep(sk)),
  1112. (self->tx_flow != FLOW_STOP || sk->sk_state != TCP_ESTABLISHED))) {
  1113. err = -ERESTARTSYS;
  1114. goto out;
  1115. }
  1116. /* Check if we are still connected */
  1117. if (sk->sk_state != TCP_ESTABLISHED) {
  1118. err = -ENOTCONN;
  1119. goto out;
  1120. }
  1121. /* Check that we don't send out too big frames */
  1122. if (len > self->max_data_size) {
  1123. pr_debug("%s(), Chopping frame from %zd to %d bytes!\n",
  1124. __func__, len, self->max_data_size);
  1125. len = self->max_data_size;
  1126. }
  1127. skb = sock_alloc_send_skb(sk, len + self->max_header_size + 16,
  1128. msg->msg_flags & MSG_DONTWAIT, &err);
  1129. if (!skb)
  1130. goto out_err;
  1131. skb_reserve(skb, self->max_header_size + 16);
  1132. skb_reset_transport_header(skb);
  1133. skb_put(skb, len);
  1134. err = memcpy_from_msg(skb_transport_header(skb), msg, len);
  1135. if (err) {
  1136. kfree_skb(skb);
  1137. goto out_err;
  1138. }
  1139. /*
  1140. * Just send the message to TinyTP, and let it deal with possible
  1141. * errors. No need to duplicate all that here
  1142. */
  1143. err = irttp_data_request(self->tsap, skb);
  1144. if (err) {
  1145. pr_debug("%s(), err=%d\n", __func__, err);
  1146. goto out_err;
  1147. }
  1148. release_sock(sk);
  1149. /* Tell client how much data we actually sent */
  1150. return len;
  1151. out_err:
  1152. err = sk_stream_error(sk, msg->msg_flags, err);
  1153. out:
  1154. release_sock(sk);
  1155. return err;
  1156. }
  1157. /*
  1158. * Function irda_recvmsg_dgram (sock, msg, size, flags)
  1159. *
  1160. * Try to receive message and copy it to user. The frame is discarded
  1161. * after being read, regardless of how much the user actually read
  1162. */
  1163. static int irda_recvmsg_dgram(struct socket *sock, struct msghdr *msg,
  1164. size_t size, int flags)
  1165. {
  1166. struct sock *sk = sock->sk;
  1167. struct irda_sock *self = irda_sk(sk);
  1168. struct sk_buff *skb;
  1169. size_t copied;
  1170. int err;
  1171. skb = skb_recv_datagram(sk, flags & ~MSG_DONTWAIT,
  1172. flags & MSG_DONTWAIT, &err);
  1173. if (!skb)
  1174. return err;
  1175. skb_reset_transport_header(skb);
  1176. copied = skb->len;
  1177. if (copied > size) {
  1178. pr_debug("%s(), Received truncated frame (%zd < %zd)!\n",
  1179. __func__, copied, size);
  1180. copied = size;
  1181. msg->msg_flags |= MSG_TRUNC;
  1182. }
  1183. skb_copy_datagram_msg(skb, 0, msg, copied);
  1184. skb_free_datagram(sk, skb);
  1185. /*
  1186. * Check if we have previously stopped IrTTP and we know
  1187. * have more free space in our rx_queue. If so tell IrTTP
  1188. * to start delivering frames again before our rx_queue gets
  1189. * empty
  1190. */
  1191. if (self->rx_flow == FLOW_STOP) {
  1192. if ((atomic_read(&sk->sk_rmem_alloc) << 2) <= sk->sk_rcvbuf) {
  1193. pr_debug("%s(), Starting IrTTP\n", __func__);
  1194. self->rx_flow = FLOW_START;
  1195. irttp_flow_request(self->tsap, FLOW_START);
  1196. }
  1197. }
  1198. return copied;
  1199. }
  1200. /*
  1201. * Function irda_recvmsg_stream (sock, msg, size, flags)
  1202. */
  1203. static int irda_recvmsg_stream(struct socket *sock, struct msghdr *msg,
  1204. size_t size, int flags)
  1205. {
  1206. struct sock *sk = sock->sk;
  1207. struct irda_sock *self = irda_sk(sk);
  1208. int noblock = flags & MSG_DONTWAIT;
  1209. size_t copied = 0;
  1210. int target, err;
  1211. long timeo;
  1212. if ((err = sock_error(sk)) < 0)
  1213. return err;
  1214. if (sock->flags & __SO_ACCEPTCON)
  1215. return -EINVAL;
  1216. err =-EOPNOTSUPP;
  1217. if (flags & MSG_OOB)
  1218. return -EOPNOTSUPP;
  1219. err = 0;
  1220. target = sock_rcvlowat(sk, flags & MSG_WAITALL, size);
  1221. timeo = sock_rcvtimeo(sk, noblock);
  1222. do {
  1223. int chunk;
  1224. struct sk_buff *skb = skb_dequeue(&sk->sk_receive_queue);
  1225. if (skb == NULL) {
  1226. DEFINE_WAIT(wait);
  1227. err = 0;
  1228. if (copied >= target)
  1229. break;
  1230. prepare_to_wait_exclusive(sk_sleep(sk), &wait, TASK_INTERRUPTIBLE);
  1231. /*
  1232. * POSIX 1003.1g mandates this order.
  1233. */
  1234. err = sock_error(sk);
  1235. if (err)
  1236. ;
  1237. else if (sk->sk_shutdown & RCV_SHUTDOWN)
  1238. ;
  1239. else if (noblock)
  1240. err = -EAGAIN;
  1241. else if (signal_pending(current))
  1242. err = sock_intr_errno(timeo);
  1243. else if (sk->sk_state != TCP_ESTABLISHED)
  1244. err = -ENOTCONN;
  1245. else if (skb_peek(&sk->sk_receive_queue) == NULL)
  1246. /* Wait process until data arrives */
  1247. schedule();
  1248. finish_wait(sk_sleep(sk), &wait);
  1249. if (err)
  1250. return err;
  1251. if (sk->sk_shutdown & RCV_SHUTDOWN)
  1252. break;
  1253. continue;
  1254. }
  1255. chunk = min_t(unsigned int, skb->len, size);
  1256. if (memcpy_to_msg(msg, skb->data, chunk)) {
  1257. skb_queue_head(&sk->sk_receive_queue, skb);
  1258. if (copied == 0)
  1259. copied = -EFAULT;
  1260. break;
  1261. }
  1262. copied += chunk;
  1263. size -= chunk;
  1264. /* Mark read part of skb as used */
  1265. if (!(flags & MSG_PEEK)) {
  1266. skb_pull(skb, chunk);
  1267. /* put the skb back if we didn't use it up.. */
  1268. if (skb->len) {
  1269. pr_debug("%s(), back on q!\n",
  1270. __func__);
  1271. skb_queue_head(&sk->sk_receive_queue, skb);
  1272. break;
  1273. }
  1274. kfree_skb(skb);
  1275. } else {
  1276. pr_debug("%s() questionable!?\n", __func__);
  1277. /* put message back and return */
  1278. skb_queue_head(&sk->sk_receive_queue, skb);
  1279. break;
  1280. }
  1281. } while (size);
  1282. /*
  1283. * Check if we have previously stopped IrTTP and we know
  1284. * have more free space in our rx_queue. If so tell IrTTP
  1285. * to start delivering frames again before our rx_queue gets
  1286. * empty
  1287. */
  1288. if (self->rx_flow == FLOW_STOP) {
  1289. if ((atomic_read(&sk->sk_rmem_alloc) << 2) <= sk->sk_rcvbuf) {
  1290. pr_debug("%s(), Starting IrTTP\n", __func__);
  1291. self->rx_flow = FLOW_START;
  1292. irttp_flow_request(self->tsap, FLOW_START);
  1293. }
  1294. }
  1295. return copied;
  1296. }
  1297. /*
  1298. * Function irda_sendmsg_dgram (sock, msg, len)
  1299. *
  1300. * Send message down to TinyTP for the unreliable sequenced
  1301. * packet service...
  1302. *
  1303. */
  1304. static int irda_sendmsg_dgram(struct socket *sock, struct msghdr *msg,
  1305. size_t len)
  1306. {
  1307. struct sock *sk = sock->sk;
  1308. struct irda_sock *self;
  1309. struct sk_buff *skb;
  1310. int err;
  1311. pr_debug("%s(), len=%zd\n", __func__, len);
  1312. if (msg->msg_flags & ~(MSG_DONTWAIT|MSG_CMSG_COMPAT))
  1313. return -EINVAL;
  1314. lock_sock(sk);
  1315. if (sk->sk_shutdown & SEND_SHUTDOWN) {
  1316. send_sig(SIGPIPE, current, 0);
  1317. err = -EPIPE;
  1318. goto out;
  1319. }
  1320. err = -ENOTCONN;
  1321. if (sk->sk_state != TCP_ESTABLISHED)
  1322. goto out;
  1323. self = irda_sk(sk);
  1324. /*
  1325. * Check that we don't send out too big frames. This is an unreliable
  1326. * service, so we have no fragmentation and no coalescence
  1327. */
  1328. if (len > self->max_data_size) {
  1329. pr_debug("%s(), Warning too much data! Chopping frame from %zd to %d bytes!\n",
  1330. __func__, len, self->max_data_size);
  1331. len = self->max_data_size;
  1332. }
  1333. skb = sock_alloc_send_skb(sk, len + self->max_header_size,
  1334. msg->msg_flags & MSG_DONTWAIT, &err);
  1335. err = -ENOBUFS;
  1336. if (!skb)
  1337. goto out;
  1338. skb_reserve(skb, self->max_header_size);
  1339. skb_reset_transport_header(skb);
  1340. pr_debug("%s(), appending user data\n", __func__);
  1341. skb_put(skb, len);
  1342. err = memcpy_from_msg(skb_transport_header(skb), msg, len);
  1343. if (err) {
  1344. kfree_skb(skb);
  1345. goto out;
  1346. }
  1347. /*
  1348. * Just send the message to TinyTP, and let it deal with possible
  1349. * errors. No need to duplicate all that here
  1350. */
  1351. err = irttp_udata_request(self->tsap, skb);
  1352. if (err) {
  1353. pr_debug("%s(), err=%d\n", __func__, err);
  1354. goto out;
  1355. }
  1356. release_sock(sk);
  1357. return len;
  1358. out:
  1359. release_sock(sk);
  1360. return err;
  1361. }
  1362. /*
  1363. * Function irda_sendmsg_ultra (sock, msg, len)
  1364. *
  1365. * Send message down to IrLMP for the unreliable Ultra
  1366. * packet service...
  1367. */
  1368. #ifdef CONFIG_IRDA_ULTRA
  1369. static int irda_sendmsg_ultra(struct socket *sock, struct msghdr *msg,
  1370. size_t len)
  1371. {
  1372. struct sock *sk = sock->sk;
  1373. struct irda_sock *self;
  1374. __u8 pid = 0;
  1375. int bound = 0;
  1376. struct sk_buff *skb;
  1377. int err;
  1378. pr_debug("%s(), len=%zd\n", __func__, len);
  1379. err = -EINVAL;
  1380. if (msg->msg_flags & ~(MSG_DONTWAIT|MSG_CMSG_COMPAT))
  1381. return -EINVAL;
  1382. lock_sock(sk);
  1383. err = -EPIPE;
  1384. if (sk->sk_shutdown & SEND_SHUTDOWN) {
  1385. send_sig(SIGPIPE, current, 0);
  1386. goto out;
  1387. }
  1388. self = irda_sk(sk);
  1389. /* Check if an address was specified with sendto. Jean II */
  1390. if (msg->msg_name) {
  1391. DECLARE_SOCKADDR(struct sockaddr_irda *, addr, msg->msg_name);
  1392. err = -EINVAL;
  1393. /* Check address, extract pid. Jean II */
  1394. if (msg->msg_namelen < sizeof(*addr))
  1395. goto out;
  1396. if (addr->sir_family != AF_IRDA)
  1397. goto out;
  1398. pid = addr->sir_lsap_sel;
  1399. if (pid & 0x80) {
  1400. pr_debug("%s(), extension in PID not supp!\n",
  1401. __func__);
  1402. err = -EOPNOTSUPP;
  1403. goto out;
  1404. }
  1405. } else {
  1406. /* Check that the socket is properly bound to an Ultra
  1407. * port. Jean II */
  1408. if ((self->lsap == NULL) ||
  1409. (sk->sk_state != TCP_ESTABLISHED)) {
  1410. pr_debug("%s(), socket not bound to Ultra PID.\n",
  1411. __func__);
  1412. err = -ENOTCONN;
  1413. goto out;
  1414. }
  1415. /* Use PID from socket */
  1416. bound = 1;
  1417. }
  1418. /*
  1419. * Check that we don't send out too big frames. This is an unreliable
  1420. * service, so we have no fragmentation and no coalescence
  1421. */
  1422. if (len > self->max_data_size) {
  1423. pr_debug("%s(), Warning too much data! Chopping frame from %zd to %d bytes!\n",
  1424. __func__, len, self->max_data_size);
  1425. len = self->max_data_size;
  1426. }
  1427. skb = sock_alloc_send_skb(sk, len + self->max_header_size,
  1428. msg->msg_flags & MSG_DONTWAIT, &err);
  1429. err = -ENOBUFS;
  1430. if (!skb)
  1431. goto out;
  1432. skb_reserve(skb, self->max_header_size);
  1433. skb_reset_transport_header(skb);
  1434. pr_debug("%s(), appending user data\n", __func__);
  1435. skb_put(skb, len);
  1436. err = memcpy_from_msg(skb_transport_header(skb), msg, len);
  1437. if (err) {
  1438. kfree_skb(skb);
  1439. goto out;
  1440. }
  1441. err = irlmp_connless_data_request((bound ? self->lsap : NULL),
  1442. skb, pid);
  1443. if (err)
  1444. pr_debug("%s(), err=%d\n", __func__, err);
  1445. out:
  1446. release_sock(sk);
  1447. return err ? : len;
  1448. }
  1449. #endif /* CONFIG_IRDA_ULTRA */
  1450. /*
  1451. * Function irda_shutdown (sk, how)
  1452. */
  1453. static int irda_shutdown(struct socket *sock, int how)
  1454. {
  1455. struct sock *sk = sock->sk;
  1456. struct irda_sock *self = irda_sk(sk);
  1457. pr_debug("%s(%p)\n", __func__, self);
  1458. lock_sock(sk);
  1459. sk->sk_state = TCP_CLOSE;
  1460. sk->sk_shutdown |= SEND_SHUTDOWN;
  1461. sk->sk_state_change(sk);
  1462. if (self->iriap) {
  1463. iriap_close(self->iriap);
  1464. self->iriap = NULL;
  1465. }
  1466. if (self->tsap) {
  1467. irttp_disconnect_request(self->tsap, NULL, P_NORMAL);
  1468. irttp_close_tsap(self->tsap);
  1469. self->tsap = NULL;
  1470. }
  1471. /* A few cleanup so the socket look as good as new... */
  1472. self->rx_flow = self->tx_flow = FLOW_START; /* needed ??? */
  1473. self->daddr = DEV_ADDR_ANY; /* Until we get re-connected */
  1474. self->saddr = 0x0; /* so IrLMP assign us any link */
  1475. release_sock(sk);
  1476. return 0;
  1477. }
  1478. /*
  1479. * Function irda_poll (file, sock, wait)
  1480. */
  1481. static unsigned int irda_poll(struct file * file, struct socket *sock,
  1482. poll_table *wait)
  1483. {
  1484. struct sock *sk = sock->sk;
  1485. struct irda_sock *self = irda_sk(sk);
  1486. unsigned int mask;
  1487. poll_wait(file, sk_sleep(sk), wait);
  1488. mask = 0;
  1489. /* Exceptional events? */
  1490. if (sk->sk_err)
  1491. mask |= POLLERR;
  1492. if (sk->sk_shutdown & RCV_SHUTDOWN) {
  1493. pr_debug("%s(), POLLHUP\n", __func__);
  1494. mask |= POLLHUP;
  1495. }
  1496. /* Readable? */
  1497. if (!skb_queue_empty(&sk->sk_receive_queue)) {
  1498. pr_debug("Socket is readable\n");
  1499. mask |= POLLIN | POLLRDNORM;
  1500. }
  1501. /* Connection-based need to check for termination and startup */
  1502. switch (sk->sk_type) {
  1503. case SOCK_STREAM:
  1504. if (sk->sk_state == TCP_CLOSE) {
  1505. pr_debug("%s(), POLLHUP\n", __func__);
  1506. mask |= POLLHUP;
  1507. }
  1508. if (sk->sk_state == TCP_ESTABLISHED) {
  1509. if ((self->tx_flow == FLOW_START) &&
  1510. sock_writeable(sk))
  1511. {
  1512. mask |= POLLOUT | POLLWRNORM | POLLWRBAND;
  1513. }
  1514. }
  1515. break;
  1516. case SOCK_SEQPACKET:
  1517. if ((self->tx_flow == FLOW_START) &&
  1518. sock_writeable(sk))
  1519. {
  1520. mask |= POLLOUT | POLLWRNORM | POLLWRBAND;
  1521. }
  1522. break;
  1523. case SOCK_DGRAM:
  1524. if (sock_writeable(sk))
  1525. mask |= POLLOUT | POLLWRNORM | POLLWRBAND;
  1526. break;
  1527. default:
  1528. break;
  1529. }
  1530. return mask;
  1531. }
  1532. /*
  1533. * Function irda_ioctl (sock, cmd, arg)
  1534. */
  1535. static int irda_ioctl(struct socket *sock, unsigned int cmd, unsigned long arg)
  1536. {
  1537. struct sock *sk = sock->sk;
  1538. int err;
  1539. pr_debug("%s(), cmd=%#x\n", __func__, cmd);
  1540. err = -EINVAL;
  1541. switch (cmd) {
  1542. case TIOCOUTQ: {
  1543. long amount;
  1544. amount = sk->sk_sndbuf - sk_wmem_alloc_get(sk);
  1545. if (amount < 0)
  1546. amount = 0;
  1547. err = put_user(amount, (unsigned int __user *)arg);
  1548. break;
  1549. }
  1550. case TIOCINQ: {
  1551. struct sk_buff *skb;
  1552. long amount = 0L;
  1553. /* These two are safe on a single CPU system as only user tasks fiddle here */
  1554. if ((skb = skb_peek(&sk->sk_receive_queue)) != NULL)
  1555. amount = skb->len;
  1556. err = put_user(amount, (unsigned int __user *)arg);
  1557. break;
  1558. }
  1559. case SIOCGSTAMP:
  1560. if (sk != NULL)
  1561. err = sock_get_timestamp(sk, (struct timeval __user *)arg);
  1562. break;
  1563. case SIOCGIFADDR:
  1564. case SIOCSIFADDR:
  1565. case SIOCGIFDSTADDR:
  1566. case SIOCSIFDSTADDR:
  1567. case SIOCGIFBRDADDR:
  1568. case SIOCSIFBRDADDR:
  1569. case SIOCGIFNETMASK:
  1570. case SIOCSIFNETMASK:
  1571. case SIOCGIFMETRIC:
  1572. case SIOCSIFMETRIC:
  1573. break;
  1574. default:
  1575. pr_debug("%s(), doing device ioctl!\n", __func__);
  1576. err = -ENOIOCTLCMD;
  1577. }
  1578. return err;
  1579. }
  1580. #ifdef CONFIG_COMPAT
  1581. /*
  1582. * Function irda_ioctl (sock, cmd, arg)
  1583. */
  1584. static int irda_compat_ioctl(struct socket *sock, unsigned int cmd, unsigned long arg)
  1585. {
  1586. /*
  1587. * All IRDA's ioctl are standard ones.
  1588. */
  1589. return -ENOIOCTLCMD;
  1590. }
  1591. #endif
  1592. /*
  1593. * Function irda_setsockopt (sock, level, optname, optval, optlen)
  1594. *
  1595. * Set some options for the socket
  1596. *
  1597. */
  1598. static int irda_setsockopt(struct socket *sock, int level, int optname,
  1599. char __user *optval, unsigned int optlen)
  1600. {
  1601. struct sock *sk = sock->sk;
  1602. struct irda_sock *self = irda_sk(sk);
  1603. struct irda_ias_set *ias_opt;
  1604. struct ias_object *ias_obj;
  1605. struct ias_attrib * ias_attr; /* Attribute in IAS object */
  1606. int opt, free_ias = 0, err = 0;
  1607. pr_debug("%s(%p)\n", __func__, self);
  1608. if (level != SOL_IRLMP)
  1609. return -ENOPROTOOPT;
  1610. lock_sock(sk);
  1611. switch (optname) {
  1612. case IRLMP_IAS_SET:
  1613. /* The user want to add an attribute to an existing IAS object
  1614. * (in the IAS database) or to create a new object with this
  1615. * attribute.
  1616. * We first query IAS to know if the object exist, and then
  1617. * create the right attribute...
  1618. */
  1619. if (optlen != sizeof(struct irda_ias_set)) {
  1620. err = -EINVAL;
  1621. goto out;
  1622. }
  1623. ias_opt = kmalloc(sizeof(struct irda_ias_set), GFP_ATOMIC);
  1624. if (ias_opt == NULL) {
  1625. err = -ENOMEM;
  1626. goto out;
  1627. }
  1628. /* Copy query to the driver. */
  1629. if (copy_from_user(ias_opt, optval, optlen)) {
  1630. kfree(ias_opt);
  1631. err = -EFAULT;
  1632. goto out;
  1633. }
  1634. /* Find the object we target.
  1635. * If the user gives us an empty string, we use the object
  1636. * associated with this socket. This will workaround
  1637. * duplicated class name - Jean II */
  1638. if(ias_opt->irda_class_name[0] == '\0') {
  1639. if(self->ias_obj == NULL) {
  1640. kfree(ias_opt);
  1641. err = -EINVAL;
  1642. goto out;
  1643. }
  1644. ias_obj = self->ias_obj;
  1645. } else
  1646. ias_obj = irias_find_object(ias_opt->irda_class_name);
  1647. /* Only ROOT can mess with the global IAS database.
  1648. * Users can only add attributes to the object associated
  1649. * with the socket they own - Jean II */
  1650. if((!capable(CAP_NET_ADMIN)) &&
  1651. ((ias_obj == NULL) || (ias_obj != self->ias_obj))) {
  1652. kfree(ias_opt);
  1653. err = -EPERM;
  1654. goto out;
  1655. }
  1656. /* If the object doesn't exist, create it */
  1657. if(ias_obj == (struct ias_object *) NULL) {
  1658. /* Create a new object */
  1659. ias_obj = irias_new_object(ias_opt->irda_class_name,
  1660. jiffies);
  1661. if (ias_obj == NULL) {
  1662. kfree(ias_opt);
  1663. err = -ENOMEM;
  1664. goto out;
  1665. }
  1666. free_ias = 1;
  1667. }
  1668. /* Do we have the attribute already ? */
  1669. if(irias_find_attrib(ias_obj, ias_opt->irda_attrib_name)) {
  1670. kfree(ias_opt);
  1671. if (free_ias) {
  1672. kfree(ias_obj->name);
  1673. kfree(ias_obj);
  1674. }
  1675. err = -EINVAL;
  1676. goto out;
  1677. }
  1678. /* Look at the type */
  1679. switch(ias_opt->irda_attrib_type) {
  1680. case IAS_INTEGER:
  1681. /* Add an integer attribute */
  1682. irias_add_integer_attrib(
  1683. ias_obj,
  1684. ias_opt->irda_attrib_name,
  1685. ias_opt->attribute.irda_attrib_int,
  1686. IAS_USER_ATTR);
  1687. break;
  1688. case IAS_OCT_SEQ:
  1689. /* Check length */
  1690. if(ias_opt->attribute.irda_attrib_octet_seq.len >
  1691. IAS_MAX_OCTET_STRING) {
  1692. kfree(ias_opt);
  1693. if (free_ias) {
  1694. kfree(ias_obj->name);
  1695. kfree(ias_obj);
  1696. }
  1697. err = -EINVAL;
  1698. goto out;
  1699. }
  1700. /* Add an octet sequence attribute */
  1701. irias_add_octseq_attrib(
  1702. ias_obj,
  1703. ias_opt->irda_attrib_name,
  1704. ias_opt->attribute.irda_attrib_octet_seq.octet_seq,
  1705. ias_opt->attribute.irda_attrib_octet_seq.len,
  1706. IAS_USER_ATTR);
  1707. break;
  1708. case IAS_STRING:
  1709. /* Should check charset & co */
  1710. /* Check length */
  1711. /* The length is encoded in a __u8, and
  1712. * IAS_MAX_STRING == 256, so there is no way
  1713. * userspace can pass us a string too large.
  1714. * Jean II */
  1715. /* NULL terminate the string (avoid troubles) */
  1716. ias_opt->attribute.irda_attrib_string.string[ias_opt->attribute.irda_attrib_string.len] = '\0';
  1717. /* Add a string attribute */
  1718. irias_add_string_attrib(
  1719. ias_obj,
  1720. ias_opt->irda_attrib_name,
  1721. ias_opt->attribute.irda_attrib_string.string,
  1722. IAS_USER_ATTR);
  1723. break;
  1724. default :
  1725. kfree(ias_opt);
  1726. if (free_ias) {
  1727. kfree(ias_obj->name);
  1728. kfree(ias_obj);
  1729. }
  1730. err = -EINVAL;
  1731. goto out;
  1732. }
  1733. /* Only insert newly allocated objects */
  1734. if (free_ias)
  1735. irias_insert_object(ias_obj);
  1736. kfree(ias_opt);
  1737. break;
  1738. case IRLMP_IAS_DEL:
  1739. /* The user want to delete an object from our local IAS
  1740. * database. We just need to query the IAS, check is the
  1741. * object is not owned by the kernel and delete it.
  1742. */
  1743. if (optlen != sizeof(struct irda_ias_set)) {
  1744. err = -EINVAL;
  1745. goto out;
  1746. }
  1747. ias_opt = kmalloc(sizeof(struct irda_ias_set), GFP_ATOMIC);
  1748. if (ias_opt == NULL) {
  1749. err = -ENOMEM;
  1750. goto out;
  1751. }
  1752. /* Copy query to the driver. */
  1753. if (copy_from_user(ias_opt, optval, optlen)) {
  1754. kfree(ias_opt);
  1755. err = -EFAULT;
  1756. goto out;
  1757. }
  1758. /* Find the object we target.
  1759. * If the user gives us an empty string, we use the object
  1760. * associated with this socket. This will workaround
  1761. * duplicated class name - Jean II */
  1762. if(ias_opt->irda_class_name[0] == '\0')
  1763. ias_obj = self->ias_obj;
  1764. else
  1765. ias_obj = irias_find_object(ias_opt->irda_class_name);
  1766. if(ias_obj == (struct ias_object *) NULL) {
  1767. kfree(ias_opt);
  1768. err = -EINVAL;
  1769. goto out;
  1770. }
  1771. /* Only ROOT can mess with the global IAS database.
  1772. * Users can only del attributes from the object associated
  1773. * with the socket they own - Jean II */
  1774. if((!capable(CAP_NET_ADMIN)) &&
  1775. ((ias_obj == NULL) || (ias_obj != self->ias_obj))) {
  1776. kfree(ias_opt);
  1777. err = -EPERM;
  1778. goto out;
  1779. }
  1780. /* Find the attribute (in the object) we target */
  1781. ias_attr = irias_find_attrib(ias_obj,
  1782. ias_opt->irda_attrib_name);
  1783. if(ias_attr == (struct ias_attrib *) NULL) {
  1784. kfree(ias_opt);
  1785. err = -EINVAL;
  1786. goto out;
  1787. }
  1788. /* Check is the user space own the object */
  1789. if(ias_attr->value->owner != IAS_USER_ATTR) {
  1790. pr_debug("%s(), attempting to delete a kernel attribute\n",
  1791. __func__);
  1792. kfree(ias_opt);
  1793. err = -EPERM;
  1794. goto out;
  1795. }
  1796. /* Remove the attribute (and maybe the object) */
  1797. irias_delete_attrib(ias_obj, ias_attr, 1);
  1798. kfree(ias_opt);
  1799. break;
  1800. case IRLMP_MAX_SDU_SIZE:
  1801. if (optlen < sizeof(int)) {
  1802. err = -EINVAL;
  1803. goto out;
  1804. }
  1805. if (get_user(opt, (int __user *)optval)) {
  1806. err = -EFAULT;
  1807. goto out;
  1808. }
  1809. /* Only possible for a seqpacket service (TTP with SAR) */
  1810. if (sk->sk_type != SOCK_SEQPACKET) {
  1811. pr_debug("%s(), setting max_sdu_size = %d\n",
  1812. __func__, opt);
  1813. self->max_sdu_size_rx = opt;
  1814. } else {
  1815. net_warn_ratelimited("%s: not allowed to set MAXSDUSIZE for this socket type!\n",
  1816. __func__);
  1817. err = -ENOPROTOOPT;
  1818. goto out;
  1819. }
  1820. break;
  1821. case IRLMP_HINTS_SET:
  1822. if (optlen < sizeof(int)) {
  1823. err = -EINVAL;
  1824. goto out;
  1825. }
  1826. /* The input is really a (__u8 hints[2]), easier as an int */
  1827. if (get_user(opt, (int __user *)optval)) {
  1828. err = -EFAULT;
  1829. goto out;
  1830. }
  1831. /* Unregister any old registration */
  1832. irlmp_unregister_service(self->skey);
  1833. self->skey = irlmp_register_service((__u16) opt);
  1834. break;
  1835. case IRLMP_HINT_MASK_SET:
  1836. /* As opposed to the previous case which set the hint bits
  1837. * that we advertise, this one set the filter we use when
  1838. * making a discovery (nodes which don't match any hint
  1839. * bit in the mask are not reported).
  1840. */
  1841. if (optlen < sizeof(int)) {
  1842. err = -EINVAL;
  1843. goto out;
  1844. }
  1845. /* The input is really a (__u8 hints[2]), easier as an int */
  1846. if (get_user(opt, (int __user *)optval)) {
  1847. err = -EFAULT;
  1848. goto out;
  1849. }
  1850. /* Set the new hint mask */
  1851. self->mask.word = (__u16) opt;
  1852. /* Mask out extension bits */
  1853. self->mask.word &= 0x7f7f;
  1854. /* Check if no bits */
  1855. if(!self->mask.word)
  1856. self->mask.word = 0xFFFF;
  1857. break;
  1858. default:
  1859. err = -ENOPROTOOPT;
  1860. break;
  1861. }
  1862. out:
  1863. release_sock(sk);
  1864. return err;
  1865. }
  1866. /*
  1867. * Function irda_extract_ias_value(ias_opt, ias_value)
  1868. *
  1869. * Translate internal IAS value structure to the user space representation
  1870. *
  1871. * The external representation of IAS values, as we exchange them with
  1872. * user space program is quite different from the internal representation,
  1873. * as stored in the IAS database (because we need a flat structure for
  1874. * crossing kernel boundary).
  1875. * This function transform the former in the latter. We also check
  1876. * that the value type is valid.
  1877. */
  1878. static int irda_extract_ias_value(struct irda_ias_set *ias_opt,
  1879. struct ias_value *ias_value)
  1880. {
  1881. /* Look at the type */
  1882. switch (ias_value->type) {
  1883. case IAS_INTEGER:
  1884. /* Copy the integer */
  1885. ias_opt->attribute.irda_attrib_int = ias_value->t.integer;
  1886. break;
  1887. case IAS_OCT_SEQ:
  1888. /* Set length */
  1889. ias_opt->attribute.irda_attrib_octet_seq.len = ias_value->len;
  1890. /* Copy over */
  1891. memcpy(ias_opt->attribute.irda_attrib_octet_seq.octet_seq,
  1892. ias_value->t.oct_seq, ias_value->len);
  1893. break;
  1894. case IAS_STRING:
  1895. /* Set length */
  1896. ias_opt->attribute.irda_attrib_string.len = ias_value->len;
  1897. ias_opt->attribute.irda_attrib_string.charset = ias_value->charset;
  1898. /* Copy over */
  1899. memcpy(ias_opt->attribute.irda_attrib_string.string,
  1900. ias_value->t.string, ias_value->len);
  1901. /* NULL terminate the string (avoid troubles) */
  1902. ias_opt->attribute.irda_attrib_string.string[ias_value->len] = '\0';
  1903. break;
  1904. case IAS_MISSING:
  1905. default :
  1906. return -EINVAL;
  1907. }
  1908. /* Copy type over */
  1909. ias_opt->irda_attrib_type = ias_value->type;
  1910. return 0;
  1911. }
  1912. /*
  1913. * Function irda_getsockopt (sock, level, optname, optval, optlen)
  1914. */
  1915. static int irda_getsockopt(struct socket *sock, int level, int optname,
  1916. char __user *optval, int __user *optlen)
  1917. {
  1918. struct sock *sk = sock->sk;
  1919. struct irda_sock *self = irda_sk(sk);
  1920. struct irda_device_list list = { 0 };
  1921. struct irda_device_info *discoveries;
  1922. struct irda_ias_set * ias_opt; /* IAS get/query params */
  1923. struct ias_object * ias_obj; /* Object in IAS */
  1924. struct ias_attrib * ias_attr; /* Attribute in IAS object */
  1925. int daddr = DEV_ADDR_ANY; /* Dest address for IAS queries */
  1926. int val = 0;
  1927. int len = 0;
  1928. int err = 0;
  1929. int offset, total;
  1930. pr_debug("%s(%p)\n", __func__, self);
  1931. if (level != SOL_IRLMP)
  1932. return -ENOPROTOOPT;
  1933. if (get_user(len, optlen))
  1934. return -EFAULT;
  1935. if(len < 0)
  1936. return -EINVAL;
  1937. lock_sock(sk);
  1938. switch (optname) {
  1939. case IRLMP_ENUMDEVICES:
  1940. /* Offset to first device entry */
  1941. offset = sizeof(struct irda_device_list) -
  1942. sizeof(struct irda_device_info);
  1943. if (len < offset) {
  1944. err = -EINVAL;
  1945. goto out;
  1946. }
  1947. /* Ask lmp for the current discovery log */
  1948. discoveries = irlmp_get_discoveries(&list.len, self->mask.word,
  1949. self->nslots);
  1950. /* Check if the we got some results */
  1951. if (discoveries == NULL) {
  1952. err = -EAGAIN;
  1953. goto out; /* Didn't find any devices */
  1954. }
  1955. /* Write total list length back to client */
  1956. if (copy_to_user(optval, &list, offset))
  1957. err = -EFAULT;
  1958. /* Copy the list itself - watch for overflow */
  1959. if (list.len > 2048) {
  1960. err = -EINVAL;
  1961. goto bed;
  1962. }
  1963. total = offset + (list.len * sizeof(struct irda_device_info));
  1964. if (total > len)
  1965. total = len;
  1966. if (copy_to_user(optval+offset, discoveries, total - offset))
  1967. err = -EFAULT;
  1968. /* Write total number of bytes used back to client */
  1969. if (put_user(total, optlen))
  1970. err = -EFAULT;
  1971. bed:
  1972. /* Free up our buffer */
  1973. kfree(discoveries);
  1974. break;
  1975. case IRLMP_MAX_SDU_SIZE:
  1976. val = self->max_data_size;
  1977. len = sizeof(int);
  1978. if (put_user(len, optlen)) {
  1979. err = -EFAULT;
  1980. goto out;
  1981. }
  1982. if (copy_to_user(optval, &val, len)) {
  1983. err = -EFAULT;
  1984. goto out;
  1985. }
  1986. break;
  1987. case IRLMP_IAS_GET:
  1988. /* The user want an object from our local IAS database.
  1989. * We just need to query the IAS and return the value
  1990. * that we found */
  1991. /* Check that the user has allocated the right space for us */
  1992. if (len != sizeof(struct irda_ias_set)) {
  1993. err = -EINVAL;
  1994. goto out;
  1995. }
  1996. ias_opt = kmalloc(sizeof(struct irda_ias_set), GFP_ATOMIC);
  1997. if (ias_opt == NULL) {
  1998. err = -ENOMEM;
  1999. goto out;
  2000. }
  2001. /* Copy query to the driver. */
  2002. if (copy_from_user(ias_opt, optval, len)) {
  2003. kfree(ias_opt);
  2004. err = -EFAULT;
  2005. goto out;
  2006. }
  2007. /* Find the object we target.
  2008. * If the user gives us an empty string, we use the object
  2009. * associated with this socket. This will workaround
  2010. * duplicated class name - Jean II */
  2011. if(ias_opt->irda_class_name[0] == '\0')
  2012. ias_obj = self->ias_obj;
  2013. else
  2014. ias_obj = irias_find_object(ias_opt->irda_class_name);
  2015. if(ias_obj == (struct ias_object *) NULL) {
  2016. kfree(ias_opt);
  2017. err = -EINVAL;
  2018. goto out;
  2019. }
  2020. /* Find the attribute (in the object) we target */
  2021. ias_attr = irias_find_attrib(ias_obj,
  2022. ias_opt->irda_attrib_name);
  2023. if(ias_attr == (struct ias_attrib *) NULL) {
  2024. kfree(ias_opt);
  2025. err = -EINVAL;
  2026. goto out;
  2027. }
  2028. /* Translate from internal to user structure */
  2029. err = irda_extract_ias_value(ias_opt, ias_attr->value);
  2030. if(err) {
  2031. kfree(ias_opt);
  2032. goto out;
  2033. }
  2034. /* Copy reply to the user */
  2035. if (copy_to_user(optval, ias_opt,
  2036. sizeof(struct irda_ias_set))) {
  2037. kfree(ias_opt);
  2038. err = -EFAULT;
  2039. goto out;
  2040. }
  2041. /* Note : don't need to put optlen, we checked it */
  2042. kfree(ias_opt);
  2043. break;
  2044. case IRLMP_IAS_QUERY:
  2045. /* The user want an object from a remote IAS database.
  2046. * We need to use IAP to query the remote database and
  2047. * then wait for the answer to come back. */
  2048. /* Check that the user has allocated the right space for us */
  2049. if (len != sizeof(struct irda_ias_set)) {
  2050. err = -EINVAL;
  2051. goto out;
  2052. }
  2053. ias_opt = kmalloc(sizeof(struct irda_ias_set), GFP_ATOMIC);
  2054. if (ias_opt == NULL) {
  2055. err = -ENOMEM;
  2056. goto out;
  2057. }
  2058. /* Copy query to the driver. */
  2059. if (copy_from_user(ias_opt, optval, len)) {
  2060. kfree(ias_opt);
  2061. err = -EFAULT;
  2062. goto out;
  2063. }
  2064. /* At this point, there are two cases...
  2065. * 1) the socket is connected - that's the easy case, we
  2066. * just query the device we are connected to...
  2067. * 2) the socket is not connected - the user doesn't want
  2068. * to connect and/or may not have a valid service name
  2069. * (so can't create a fake connection). In this case,
  2070. * we assume that the user pass us a valid destination
  2071. * address in the requesting structure...
  2072. */
  2073. if(self->daddr != DEV_ADDR_ANY) {
  2074. /* We are connected - reuse known daddr */
  2075. daddr = self->daddr;
  2076. } else {
  2077. /* We are not connected, we must specify a valid
  2078. * destination address */
  2079. daddr = ias_opt->daddr;
  2080. if((!daddr) || (daddr == DEV_ADDR_ANY)) {
  2081. kfree(ias_opt);
  2082. err = -EINVAL;
  2083. goto out;
  2084. }
  2085. }
  2086. /* Check that we can proceed with IAP */
  2087. if (self->iriap) {
  2088. net_warn_ratelimited("%s: busy with a previous query\n",
  2089. __func__);
  2090. kfree(ias_opt);
  2091. err = -EBUSY;
  2092. goto out;
  2093. }
  2094. self->iriap = iriap_open(LSAP_ANY, IAS_CLIENT, self,
  2095. irda_getvalue_confirm);
  2096. if (self->iriap == NULL) {
  2097. kfree(ias_opt);
  2098. err = -ENOMEM;
  2099. goto out;
  2100. }
  2101. /* Treat unexpected wakeup as disconnect */
  2102. self->errno = -EHOSTUNREACH;
  2103. /* Query remote LM-IAS */
  2104. iriap_getvaluebyclass_request(self->iriap,
  2105. self->saddr, daddr,
  2106. ias_opt->irda_class_name,
  2107. ias_opt->irda_attrib_name);
  2108. /* Wait for answer, if not yet finished (or failed) */
  2109. if (wait_event_interruptible(self->query_wait,
  2110. (self->iriap == NULL))) {
  2111. /* pending request uses copy of ias_opt-content
  2112. * we can free it regardless! */
  2113. kfree(ias_opt);
  2114. /* Treat signals as disconnect */
  2115. err = -EHOSTUNREACH;
  2116. goto out;
  2117. }
  2118. /* Check what happened */
  2119. if (self->errno)
  2120. {
  2121. kfree(ias_opt);
  2122. /* Requested object/attribute doesn't exist */
  2123. if((self->errno == IAS_CLASS_UNKNOWN) ||
  2124. (self->errno == IAS_ATTRIB_UNKNOWN))
  2125. err = -EADDRNOTAVAIL;
  2126. else
  2127. err = -EHOSTUNREACH;
  2128. goto out;
  2129. }
  2130. /* Translate from internal to user structure */
  2131. err = irda_extract_ias_value(ias_opt, self->ias_result);
  2132. if (self->ias_result)
  2133. irias_delete_value(self->ias_result);
  2134. if (err) {
  2135. kfree(ias_opt);
  2136. goto out;
  2137. }
  2138. /* Copy reply to the user */
  2139. if (copy_to_user(optval, ias_opt,
  2140. sizeof(struct irda_ias_set))) {
  2141. kfree(ias_opt);
  2142. err = -EFAULT;
  2143. goto out;
  2144. }
  2145. /* Note : don't need to put optlen, we checked it */
  2146. kfree(ias_opt);
  2147. break;
  2148. case IRLMP_WAITDEVICE:
  2149. /* This function is just another way of seeing life ;-)
  2150. * IRLMP_ENUMDEVICES assumes that you have a static network,
  2151. * and that you just want to pick one of the devices present.
  2152. * On the other hand, in here we assume that no device is
  2153. * present and that at some point in the future a device will
  2154. * come into range. When this device arrive, we just wake
  2155. * up the caller, so that he has time to connect to it before
  2156. * the device goes away...
  2157. * Note : once the node has been discovered for more than a
  2158. * few second, it won't trigger this function, unless it
  2159. * goes away and come back changes its hint bits (so we
  2160. * might call it IRLMP_WAITNEWDEVICE).
  2161. */
  2162. /* Check that the user is passing us an int */
  2163. if (len != sizeof(int)) {
  2164. err = -EINVAL;
  2165. goto out;
  2166. }
  2167. /* Get timeout in ms (max time we block the caller) */
  2168. if (get_user(val, (int __user *)optval)) {
  2169. err = -EFAULT;
  2170. goto out;
  2171. }
  2172. /* Tell IrLMP we want to be notified */
  2173. irlmp_update_client(self->ckey, self->mask.word,
  2174. irda_selective_discovery_indication,
  2175. NULL, (void *) self);
  2176. /* Do some discovery (and also return cached results) */
  2177. irlmp_discovery_request(self->nslots);
  2178. /* Wait until a node is discovered */
  2179. if (!self->cachedaddr) {
  2180. pr_debug("%s(), nothing discovered yet, going to sleep...\n",
  2181. __func__);
  2182. /* Set watchdog timer to expire in <val> ms. */
  2183. self->errno = 0;
  2184. setup_timer(&self->watchdog, irda_discovery_timeout,
  2185. (unsigned long)self);
  2186. mod_timer(&self->watchdog,
  2187. jiffies + msecs_to_jiffies(val));
  2188. /* Wait for IR-LMP to call us back */
  2189. err = __wait_event_interruptible(self->query_wait,
  2190. (self->cachedaddr != 0 || self->errno == -ETIME));
  2191. /* If watchdog is still activated, kill it! */
  2192. del_timer(&(self->watchdog));
  2193. pr_debug("%s(), ...waking up !\n", __func__);
  2194. if (err != 0)
  2195. goto out;
  2196. }
  2197. else
  2198. pr_debug("%s(), found immediately !\n",
  2199. __func__);
  2200. /* Tell IrLMP that we have been notified */
  2201. irlmp_update_client(self->ckey, self->mask.word,
  2202. NULL, NULL, NULL);
  2203. /* Check if the we got some results */
  2204. if (!self->cachedaddr) {
  2205. err = -EAGAIN; /* Didn't find any devices */
  2206. goto out;
  2207. }
  2208. daddr = self->cachedaddr;
  2209. /* Cleanup */
  2210. self->cachedaddr = 0;
  2211. /* We return the daddr of the device that trigger the
  2212. * wakeup. As irlmp pass us only the new devices, we
  2213. * are sure that it's not an old device.
  2214. * If the user want more details, he should query
  2215. * the whole discovery log and pick one device...
  2216. */
  2217. if (put_user(daddr, (int __user *)optval)) {
  2218. err = -EFAULT;
  2219. goto out;
  2220. }
  2221. break;
  2222. default:
  2223. err = -ENOPROTOOPT;
  2224. }
  2225. out:
  2226. release_sock(sk);
  2227. return err;
  2228. }
  2229. static const struct net_proto_family irda_family_ops = {
  2230. .family = PF_IRDA,
  2231. .create = irda_create,
  2232. .owner = THIS_MODULE,
  2233. };
  2234. static const struct proto_ops irda_stream_ops = {
  2235. .family = PF_IRDA,
  2236. .owner = THIS_MODULE,
  2237. .release = irda_release,
  2238. .bind = irda_bind,
  2239. .connect = irda_connect,
  2240. .socketpair = sock_no_socketpair,
  2241. .accept = irda_accept,
  2242. .getname = irda_getname,
  2243. .poll = irda_poll,
  2244. .ioctl = irda_ioctl,
  2245. #ifdef CONFIG_COMPAT
  2246. .compat_ioctl = irda_compat_ioctl,
  2247. #endif
  2248. .listen = irda_listen,
  2249. .shutdown = irda_shutdown,
  2250. .setsockopt = irda_setsockopt,
  2251. .getsockopt = irda_getsockopt,
  2252. .sendmsg = irda_sendmsg,
  2253. .recvmsg = irda_recvmsg_stream,
  2254. .mmap = sock_no_mmap,
  2255. .sendpage = sock_no_sendpage,
  2256. };
  2257. static const struct proto_ops irda_seqpacket_ops = {
  2258. .family = PF_IRDA,
  2259. .owner = THIS_MODULE,
  2260. .release = irda_release,
  2261. .bind = irda_bind,
  2262. .connect = irda_connect,
  2263. .socketpair = sock_no_socketpair,
  2264. .accept = irda_accept,
  2265. .getname = irda_getname,
  2266. .poll = datagram_poll,
  2267. .ioctl = irda_ioctl,
  2268. #ifdef CONFIG_COMPAT
  2269. .compat_ioctl = irda_compat_ioctl,
  2270. #endif
  2271. .listen = irda_listen,
  2272. .shutdown = irda_shutdown,
  2273. .setsockopt = irda_setsockopt,
  2274. .getsockopt = irda_getsockopt,
  2275. .sendmsg = irda_sendmsg,
  2276. .recvmsg = irda_recvmsg_dgram,
  2277. .mmap = sock_no_mmap,
  2278. .sendpage = sock_no_sendpage,
  2279. };
  2280. static const struct proto_ops irda_dgram_ops = {
  2281. .family = PF_IRDA,
  2282. .owner = THIS_MODULE,
  2283. .release = irda_release,
  2284. .bind = irda_bind,
  2285. .connect = irda_connect,
  2286. .socketpair = sock_no_socketpair,
  2287. .accept = irda_accept,
  2288. .getname = irda_getname,
  2289. .poll = datagram_poll,
  2290. .ioctl = irda_ioctl,
  2291. #ifdef CONFIG_COMPAT
  2292. .compat_ioctl = irda_compat_ioctl,
  2293. #endif
  2294. .listen = irda_listen,
  2295. .shutdown = irda_shutdown,
  2296. .setsockopt = irda_setsockopt,
  2297. .getsockopt = irda_getsockopt,
  2298. .sendmsg = irda_sendmsg_dgram,
  2299. .recvmsg = irda_recvmsg_dgram,
  2300. .mmap = sock_no_mmap,
  2301. .sendpage = sock_no_sendpage,
  2302. };
  2303. #ifdef CONFIG_IRDA_ULTRA
  2304. static const struct proto_ops irda_ultra_ops = {
  2305. .family = PF_IRDA,
  2306. .owner = THIS_MODULE,
  2307. .release = irda_release,
  2308. .bind = irda_bind,
  2309. .connect = sock_no_connect,
  2310. .socketpair = sock_no_socketpair,
  2311. .accept = sock_no_accept,
  2312. .getname = irda_getname,
  2313. .poll = datagram_poll,
  2314. .ioctl = irda_ioctl,
  2315. #ifdef CONFIG_COMPAT
  2316. .compat_ioctl = irda_compat_ioctl,
  2317. #endif
  2318. .listen = sock_no_listen,
  2319. .shutdown = irda_shutdown,
  2320. .setsockopt = irda_setsockopt,
  2321. .getsockopt = irda_getsockopt,
  2322. .sendmsg = irda_sendmsg_ultra,
  2323. .recvmsg = irda_recvmsg_dgram,
  2324. .mmap = sock_no_mmap,
  2325. .sendpage = sock_no_sendpage,
  2326. };
  2327. #endif /* CONFIG_IRDA_ULTRA */
  2328. /*
  2329. * Function irsock_init (pro)
  2330. *
  2331. * Initialize IrDA protocol
  2332. *
  2333. */
  2334. int __init irsock_init(void)
  2335. {
  2336. int rc = proto_register(&irda_proto, 0);
  2337. if (rc == 0)
  2338. rc = sock_register(&irda_family_ops);
  2339. return rc;
  2340. }
  2341. /*
  2342. * Function irsock_cleanup (void)
  2343. *
  2344. * Remove IrDA protocol
  2345. *
  2346. */
  2347. void irsock_cleanup(void)
  2348. {
  2349. sock_unregister(PF_IRDA);
  2350. proto_unregister(&irda_proto);
  2351. }