mad.c 96 KB

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  1. /*
  2. * Copyright (c) 2004-2007 Voltaire, Inc. All rights reserved.
  3. * Copyright (c) 2005 Intel Corporation. All rights reserved.
  4. * Copyright (c) 2005 Mellanox Technologies Ltd. All rights reserved.
  5. * Copyright (c) 2009 HNR Consulting. All rights reserved.
  6. * Copyright (c) 2014,2018 Intel Corporation. All rights reserved.
  7. *
  8. * This software is available to you under a choice of one of two
  9. * licenses. You may choose to be licensed under the terms of the GNU
  10. * General Public License (GPL) Version 2, available from the file
  11. * COPYING in the main directory of this source tree, or the
  12. * OpenIB.org BSD license below:
  13. *
  14. * Redistribution and use in source and binary forms, with or
  15. * without modification, are permitted provided that the following
  16. * conditions are met:
  17. *
  18. * - Redistributions of source code must retain the above
  19. * copyright notice, this list of conditions and the following
  20. * disclaimer.
  21. *
  22. * - Redistributions in binary form must reproduce the above
  23. * copyright notice, this list of conditions and the following
  24. * disclaimer in the documentation and/or other materials
  25. * provided with the distribution.
  26. *
  27. * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
  28. * EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
  29. * MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
  30. * NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS
  31. * BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN
  32. * ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN
  33. * CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
  34. * SOFTWARE.
  35. *
  36. */
  37. #define pr_fmt(fmt) KBUILD_MODNAME ": " fmt
  38. #include <linux/dma-mapping.h>
  39. #include <linux/slab.h>
  40. #include <linux/module.h>
  41. #include <linux/security.h>
  42. #include <linux/xarray.h>
  43. #include <rdma/ib_cache.h>
  44. #include "mad_priv.h"
  45. #include "core_priv.h"
  46. #include "mad_rmpp.h"
  47. #include "smi.h"
  48. #include "opa_smi.h"
  49. #include "agent.h"
  50. #define CREATE_TRACE_POINTS
  51. #include <trace/events/ib_mad.h>
  52. #ifdef CONFIG_TRACEPOINTS
  53. static void create_mad_addr_info(struct ib_mad_send_wr_private *mad_send_wr,
  54. struct ib_mad_qp_info *qp_info,
  55. struct trace_event_raw_ib_mad_send_template *entry)
  56. {
  57. struct ib_ud_wr *wr = &mad_send_wr->send_wr;
  58. struct rdma_ah_attr attr = {};
  59. rdma_query_ah(wr->ah, &attr);
  60. /* These are common */
  61. entry->sl = attr.sl;
  62. entry->rqpn = wr->remote_qpn;
  63. entry->rqkey = wr->remote_qkey;
  64. entry->dlid = rdma_ah_get_dlid(&attr);
  65. }
  66. #endif
  67. static int mad_sendq_size = IB_MAD_QP_SEND_SIZE;
  68. static int mad_recvq_size = IB_MAD_QP_RECV_SIZE;
  69. module_param_named(send_queue_size, mad_sendq_size, int, 0444);
  70. MODULE_PARM_DESC(send_queue_size, "Size of send queue in number of work requests");
  71. module_param_named(recv_queue_size, mad_recvq_size, int, 0444);
  72. MODULE_PARM_DESC(recv_queue_size, "Size of receive queue in number of work requests");
  73. static DEFINE_XARRAY_ALLOC1(ib_mad_clients);
  74. static u32 ib_mad_client_next;
  75. static struct list_head ib_mad_port_list;
  76. /* Port list lock */
  77. static DEFINE_SPINLOCK(ib_mad_port_list_lock);
  78. /* Forward declarations */
  79. static int method_in_use(struct ib_mad_mgmt_method_table **method,
  80. struct ib_mad_reg_req *mad_reg_req);
  81. static void remove_mad_reg_req(struct ib_mad_agent_private *priv);
  82. static struct ib_mad_agent_private *find_mad_agent(
  83. struct ib_mad_port_private *port_priv,
  84. const struct ib_mad_hdr *mad);
  85. static int ib_mad_post_receive_mads(struct ib_mad_qp_info *qp_info,
  86. struct ib_mad_private *mad);
  87. static void cancel_mads(struct ib_mad_agent_private *mad_agent_priv);
  88. static void timeout_sends(struct work_struct *work);
  89. static void local_completions(struct work_struct *work);
  90. static int add_nonoui_reg_req(struct ib_mad_reg_req *mad_reg_req,
  91. struct ib_mad_agent_private *agent_priv,
  92. u8 mgmt_class);
  93. static int add_oui_reg_req(struct ib_mad_reg_req *mad_reg_req,
  94. struct ib_mad_agent_private *agent_priv);
  95. static bool ib_mad_send_error(struct ib_mad_port_private *port_priv,
  96. struct ib_wc *wc);
  97. static void ib_mad_send_done(struct ib_cq *cq, struct ib_wc *wc);
  98. /*
  99. * Returns a ib_mad_port_private structure or NULL for a device/port
  100. * Assumes ib_mad_port_list_lock is being held
  101. */
  102. static inline struct ib_mad_port_private *
  103. __ib_get_mad_port(struct ib_device *device, u32 port_num)
  104. {
  105. struct ib_mad_port_private *entry;
  106. list_for_each_entry(entry, &ib_mad_port_list, port_list) {
  107. if (entry->device == device && entry->port_num == port_num)
  108. return entry;
  109. }
  110. return NULL;
  111. }
  112. /*
  113. * Wrapper function to return a ib_mad_port_private structure or NULL
  114. * for a device/port
  115. */
  116. static inline struct ib_mad_port_private *
  117. ib_get_mad_port(struct ib_device *device, u32 port_num)
  118. {
  119. struct ib_mad_port_private *entry;
  120. unsigned long flags;
  121. spin_lock_irqsave(&ib_mad_port_list_lock, flags);
  122. entry = __ib_get_mad_port(device, port_num);
  123. spin_unlock_irqrestore(&ib_mad_port_list_lock, flags);
  124. return entry;
  125. }
  126. static inline u8 convert_mgmt_class(u8 mgmt_class)
  127. {
  128. /* Alias IB_MGMT_CLASS_SUBN_DIRECTED_ROUTE to 0 */
  129. return mgmt_class == IB_MGMT_CLASS_SUBN_DIRECTED_ROUTE ?
  130. 0 : mgmt_class;
  131. }
  132. static int get_spl_qp_index(enum ib_qp_type qp_type)
  133. {
  134. switch (qp_type) {
  135. case IB_QPT_SMI:
  136. return 0;
  137. case IB_QPT_GSI:
  138. return 1;
  139. default:
  140. return -1;
  141. }
  142. }
  143. static int vendor_class_index(u8 mgmt_class)
  144. {
  145. return mgmt_class - IB_MGMT_CLASS_VENDOR_RANGE2_START;
  146. }
  147. static int is_vendor_class(u8 mgmt_class)
  148. {
  149. if ((mgmt_class < IB_MGMT_CLASS_VENDOR_RANGE2_START) ||
  150. (mgmt_class > IB_MGMT_CLASS_VENDOR_RANGE2_END))
  151. return 0;
  152. return 1;
  153. }
  154. static int is_vendor_oui(char *oui)
  155. {
  156. if (oui[0] || oui[1] || oui[2])
  157. return 1;
  158. return 0;
  159. }
  160. static int is_vendor_method_in_use(
  161. struct ib_mad_mgmt_vendor_class *vendor_class,
  162. struct ib_mad_reg_req *mad_reg_req)
  163. {
  164. struct ib_mad_mgmt_method_table *method;
  165. int i;
  166. for (i = 0; i < MAX_MGMT_OUI; i++) {
  167. if (!memcmp(vendor_class->oui[i], mad_reg_req->oui, 3)) {
  168. method = vendor_class->method_table[i];
  169. if (method) {
  170. if (method_in_use(&method, mad_reg_req))
  171. return 1;
  172. else
  173. break;
  174. }
  175. }
  176. }
  177. return 0;
  178. }
  179. int ib_response_mad(const struct ib_mad_hdr *hdr)
  180. {
  181. return ((hdr->method & IB_MGMT_METHOD_RESP) ||
  182. (hdr->method == IB_MGMT_METHOD_TRAP_REPRESS) ||
  183. ((hdr->mgmt_class == IB_MGMT_CLASS_BM) &&
  184. (hdr->attr_mod & IB_BM_ATTR_MOD_RESP)));
  185. }
  186. EXPORT_SYMBOL(ib_response_mad);
  187. #define SOL_FC_MAX_DEFAULT_FRAC 4
  188. #define SOL_FC_MAX_SA_FRAC 32
  189. static int get_sol_fc_max_outstanding(struct ib_mad_reg_req *mad_reg_req)
  190. {
  191. if (!mad_reg_req)
  192. /* Send only agent */
  193. return mad_recvq_size / SOL_FC_MAX_DEFAULT_FRAC;
  194. switch (mad_reg_req->mgmt_class) {
  195. case IB_MGMT_CLASS_CM:
  196. return mad_recvq_size / SOL_FC_MAX_DEFAULT_FRAC;
  197. case IB_MGMT_CLASS_SUBN_ADM:
  198. return mad_recvq_size / SOL_FC_MAX_SA_FRAC;
  199. case IB_MGMT_CLASS_SUBN_LID_ROUTED:
  200. case IB_MGMT_CLASS_SUBN_DIRECTED_ROUTE:
  201. return min(mad_recvq_size, IB_MAD_QP_RECV_SIZE) /
  202. SOL_FC_MAX_DEFAULT_FRAC;
  203. default:
  204. return 0;
  205. }
  206. }
  207. /*
  208. * ib_register_mad_agent - Register to send/receive MADs
  209. *
  210. * Context: Process context.
  211. */
  212. struct ib_mad_agent *ib_register_mad_agent(struct ib_device *device,
  213. u32 port_num,
  214. enum ib_qp_type qp_type,
  215. struct ib_mad_reg_req *mad_reg_req,
  216. u8 rmpp_version,
  217. ib_mad_send_handler send_handler,
  218. ib_mad_recv_handler recv_handler,
  219. void *context,
  220. u32 registration_flags)
  221. {
  222. struct ib_mad_port_private *port_priv;
  223. struct ib_mad_agent *ret = ERR_PTR(-EINVAL);
  224. struct ib_mad_agent_private *mad_agent_priv;
  225. struct ib_mad_reg_req *reg_req = NULL;
  226. struct ib_mad_mgmt_class_table *class;
  227. struct ib_mad_mgmt_vendor_class_table *vendor;
  228. struct ib_mad_mgmt_vendor_class *vendor_class;
  229. struct ib_mad_mgmt_method_table *method;
  230. int ret2, qpn;
  231. u8 mgmt_class, vclass;
  232. if ((qp_type == IB_QPT_SMI && !rdma_cap_ib_smi(device, port_num)) ||
  233. (qp_type == IB_QPT_GSI && !rdma_cap_ib_cm(device, port_num)))
  234. return ERR_PTR(-EPROTONOSUPPORT);
  235. /* Validate parameters */
  236. qpn = get_spl_qp_index(qp_type);
  237. if (qpn == -1) {
  238. dev_dbg_ratelimited(&device->dev, "%s: invalid QP Type %d\n",
  239. __func__, qp_type);
  240. goto error1;
  241. }
  242. if (rmpp_version && rmpp_version != IB_MGMT_RMPP_VERSION) {
  243. dev_dbg_ratelimited(&device->dev,
  244. "%s: invalid RMPP Version %u\n",
  245. __func__, rmpp_version);
  246. goto error1;
  247. }
  248. /* Validate MAD registration request if supplied */
  249. if (mad_reg_req) {
  250. if (mad_reg_req->mgmt_class_version >= MAX_MGMT_VERSION) {
  251. dev_dbg_ratelimited(&device->dev,
  252. "%s: invalid Class Version %u\n",
  253. __func__,
  254. mad_reg_req->mgmt_class_version);
  255. goto error1;
  256. }
  257. if (!recv_handler) {
  258. dev_dbg_ratelimited(&device->dev,
  259. "%s: no recv_handler\n", __func__);
  260. goto error1;
  261. }
  262. if (mad_reg_req->mgmt_class >= MAX_MGMT_CLASS) {
  263. /*
  264. * IB_MGMT_CLASS_SUBN_DIRECTED_ROUTE is the only
  265. * one in this range currently allowed
  266. */
  267. if (mad_reg_req->mgmt_class !=
  268. IB_MGMT_CLASS_SUBN_DIRECTED_ROUTE) {
  269. dev_dbg_ratelimited(&device->dev,
  270. "%s: Invalid Mgmt Class 0x%x\n",
  271. __func__, mad_reg_req->mgmt_class);
  272. goto error1;
  273. }
  274. } else if (mad_reg_req->mgmt_class == 0) {
  275. /*
  276. * Class 0 is reserved in IBA and is used for
  277. * aliasing of IB_MGMT_CLASS_SUBN_DIRECTED_ROUTE
  278. */
  279. dev_dbg_ratelimited(&device->dev,
  280. "%s: Invalid Mgmt Class 0\n",
  281. __func__);
  282. goto error1;
  283. } else if (is_vendor_class(mad_reg_req->mgmt_class)) {
  284. /*
  285. * If class is in "new" vendor range,
  286. * ensure supplied OUI is not zero
  287. */
  288. if (!is_vendor_oui(mad_reg_req->oui)) {
  289. dev_dbg_ratelimited(&device->dev,
  290. "%s: No OUI specified for class 0x%x\n",
  291. __func__,
  292. mad_reg_req->mgmt_class);
  293. goto error1;
  294. }
  295. }
  296. /* Make sure class supplied is consistent with RMPP */
  297. if (!ib_is_mad_class_rmpp(mad_reg_req->mgmt_class)) {
  298. if (rmpp_version) {
  299. dev_dbg_ratelimited(&device->dev,
  300. "%s: RMPP version for non-RMPP class 0x%x\n",
  301. __func__, mad_reg_req->mgmt_class);
  302. goto error1;
  303. }
  304. }
  305. /* Make sure class supplied is consistent with QP type */
  306. if (qp_type == IB_QPT_SMI) {
  307. if ((mad_reg_req->mgmt_class !=
  308. IB_MGMT_CLASS_SUBN_LID_ROUTED) &&
  309. (mad_reg_req->mgmt_class !=
  310. IB_MGMT_CLASS_SUBN_DIRECTED_ROUTE)) {
  311. dev_dbg_ratelimited(&device->dev,
  312. "%s: Invalid SM QP type: class 0x%x\n",
  313. __func__, mad_reg_req->mgmt_class);
  314. goto error1;
  315. }
  316. } else {
  317. if ((mad_reg_req->mgmt_class ==
  318. IB_MGMT_CLASS_SUBN_LID_ROUTED) ||
  319. (mad_reg_req->mgmt_class ==
  320. IB_MGMT_CLASS_SUBN_DIRECTED_ROUTE)) {
  321. dev_dbg_ratelimited(&device->dev,
  322. "%s: Invalid GS QP type: class 0x%x\n",
  323. __func__, mad_reg_req->mgmt_class);
  324. goto error1;
  325. }
  326. }
  327. } else {
  328. /* No registration request supplied */
  329. if (!send_handler)
  330. goto error1;
  331. if (registration_flags & IB_MAD_USER_RMPP)
  332. goto error1;
  333. }
  334. /* Validate device and port */
  335. port_priv = ib_get_mad_port(device, port_num);
  336. if (!port_priv) {
  337. dev_dbg_ratelimited(&device->dev, "%s: Invalid port %u\n",
  338. __func__, port_num);
  339. ret = ERR_PTR(-ENODEV);
  340. goto error1;
  341. }
  342. /* Verify the QP requested is supported. For example, Ethernet devices
  343. * will not have QP0.
  344. */
  345. if (!port_priv->qp_info[qpn].qp) {
  346. dev_dbg_ratelimited(&device->dev, "%s: QP %d not supported\n",
  347. __func__, qpn);
  348. ret = ERR_PTR(-EPROTONOSUPPORT);
  349. goto error1;
  350. }
  351. /* Allocate structures */
  352. mad_agent_priv = kzalloc_obj(*mad_agent_priv);
  353. if (!mad_agent_priv) {
  354. ret = ERR_PTR(-ENOMEM);
  355. goto error1;
  356. }
  357. if (mad_reg_req) {
  358. reg_req = kmemdup(mad_reg_req, sizeof *reg_req, GFP_KERNEL);
  359. if (!reg_req) {
  360. ret = ERR_PTR(-ENOMEM);
  361. goto error3;
  362. }
  363. }
  364. /* Now, fill in the various structures */
  365. mad_agent_priv->qp_info = &port_priv->qp_info[qpn];
  366. mad_agent_priv->reg_req = reg_req;
  367. mad_agent_priv->agent.rmpp_version = rmpp_version;
  368. mad_agent_priv->agent.device = device;
  369. mad_agent_priv->agent.recv_handler = recv_handler;
  370. mad_agent_priv->agent.send_handler = send_handler;
  371. mad_agent_priv->agent.context = context;
  372. mad_agent_priv->agent.qp = port_priv->qp_info[qpn].qp;
  373. mad_agent_priv->agent.port_num = port_num;
  374. mad_agent_priv->agent.flags = registration_flags;
  375. spin_lock_init(&mad_agent_priv->lock);
  376. INIT_LIST_HEAD(&mad_agent_priv->send_list);
  377. INIT_LIST_HEAD(&mad_agent_priv->wait_list);
  378. INIT_LIST_HEAD(&mad_agent_priv->rmpp_list);
  379. INIT_LIST_HEAD(&mad_agent_priv->backlog_list);
  380. INIT_DELAYED_WORK(&mad_agent_priv->timed_work, timeout_sends);
  381. INIT_LIST_HEAD(&mad_agent_priv->local_list);
  382. INIT_WORK(&mad_agent_priv->local_work, local_completions);
  383. refcount_set(&mad_agent_priv->refcount, 1);
  384. init_completion(&mad_agent_priv->comp);
  385. mad_agent_priv->sol_fc_send_count = 0;
  386. mad_agent_priv->sol_fc_wait_count = 0;
  387. mad_agent_priv->sol_fc_max =
  388. recv_handler ? get_sol_fc_max_outstanding(mad_reg_req) : 0;
  389. ret2 = ib_mad_agent_security_setup(&mad_agent_priv->agent, qp_type);
  390. if (ret2) {
  391. ret = ERR_PTR(ret2);
  392. goto error4;
  393. }
  394. /*
  395. * The mlx4 driver uses the top byte to distinguish which virtual
  396. * function generated the MAD, so we must avoid using it.
  397. */
  398. ret2 = xa_alloc_cyclic(&ib_mad_clients, &mad_agent_priv->agent.hi_tid,
  399. mad_agent_priv, XA_LIMIT(0, (1 << 24) - 1),
  400. &ib_mad_client_next, GFP_KERNEL);
  401. if (ret2 < 0) {
  402. ret = ERR_PTR(ret2);
  403. goto error5;
  404. }
  405. /*
  406. * Make sure MAD registration (if supplied)
  407. * is non overlapping with any existing ones
  408. */
  409. spin_lock_irq(&port_priv->reg_lock);
  410. if (mad_reg_req) {
  411. mgmt_class = convert_mgmt_class(mad_reg_req->mgmt_class);
  412. if (!is_vendor_class(mgmt_class)) {
  413. class = port_priv->version[mad_reg_req->
  414. mgmt_class_version].class;
  415. if (class) {
  416. method = class->method_table[mgmt_class];
  417. if (method) {
  418. if (method_in_use(&method,
  419. mad_reg_req))
  420. goto error6;
  421. }
  422. }
  423. ret2 = add_nonoui_reg_req(mad_reg_req, mad_agent_priv,
  424. mgmt_class);
  425. } else {
  426. /* "New" vendor class range */
  427. vendor = port_priv->version[mad_reg_req->
  428. mgmt_class_version].vendor;
  429. if (vendor) {
  430. vclass = vendor_class_index(mgmt_class);
  431. vendor_class = vendor->vendor_class[vclass];
  432. if (vendor_class) {
  433. if (is_vendor_method_in_use(
  434. vendor_class,
  435. mad_reg_req))
  436. goto error6;
  437. }
  438. }
  439. ret2 = add_oui_reg_req(mad_reg_req, mad_agent_priv);
  440. }
  441. if (ret2) {
  442. ret = ERR_PTR(ret2);
  443. goto error6;
  444. }
  445. }
  446. spin_unlock_irq(&port_priv->reg_lock);
  447. trace_ib_mad_create_agent(mad_agent_priv);
  448. return &mad_agent_priv->agent;
  449. error6:
  450. spin_unlock_irq(&port_priv->reg_lock);
  451. xa_erase(&ib_mad_clients, mad_agent_priv->agent.hi_tid);
  452. error5:
  453. ib_mad_agent_security_cleanup(&mad_agent_priv->agent);
  454. error4:
  455. kfree(reg_req);
  456. error3:
  457. kfree(mad_agent_priv);
  458. error1:
  459. return ret;
  460. }
  461. EXPORT_SYMBOL(ib_register_mad_agent);
  462. static inline void deref_mad_agent(struct ib_mad_agent_private *mad_agent_priv)
  463. {
  464. if (refcount_dec_and_test(&mad_agent_priv->refcount))
  465. complete(&mad_agent_priv->comp);
  466. }
  467. static void unregister_mad_agent(struct ib_mad_agent_private *mad_agent_priv)
  468. {
  469. struct ib_mad_port_private *port_priv;
  470. /* Note that we could still be handling received MADs */
  471. trace_ib_mad_unregister_agent(mad_agent_priv);
  472. /*
  473. * Canceling all sends results in dropping received response
  474. * MADs, preventing us from queuing additional work
  475. */
  476. cancel_mads(mad_agent_priv);
  477. port_priv = mad_agent_priv->qp_info->port_priv;
  478. cancel_delayed_work(&mad_agent_priv->timed_work);
  479. spin_lock_irq(&port_priv->reg_lock);
  480. remove_mad_reg_req(mad_agent_priv);
  481. spin_unlock_irq(&port_priv->reg_lock);
  482. xa_erase(&ib_mad_clients, mad_agent_priv->agent.hi_tid);
  483. flush_workqueue(port_priv->wq);
  484. deref_mad_agent(mad_agent_priv);
  485. wait_for_completion(&mad_agent_priv->comp);
  486. ib_cancel_rmpp_recvs(mad_agent_priv);
  487. ib_mad_agent_security_cleanup(&mad_agent_priv->agent);
  488. kfree(mad_agent_priv->reg_req);
  489. kfree_rcu(mad_agent_priv, rcu);
  490. }
  491. /*
  492. * ib_unregister_mad_agent - Unregisters a client from using MAD services
  493. *
  494. * Context: Process context.
  495. */
  496. void ib_unregister_mad_agent(struct ib_mad_agent *mad_agent)
  497. {
  498. struct ib_mad_agent_private *mad_agent_priv;
  499. mad_agent_priv = container_of(mad_agent,
  500. struct ib_mad_agent_private,
  501. agent);
  502. unregister_mad_agent(mad_agent_priv);
  503. }
  504. EXPORT_SYMBOL(ib_unregister_mad_agent);
  505. static void dequeue_mad(struct ib_mad_list_head *mad_list)
  506. {
  507. struct ib_mad_queue *mad_queue;
  508. unsigned long flags;
  509. mad_queue = mad_list->mad_queue;
  510. spin_lock_irqsave(&mad_queue->lock, flags);
  511. list_del(&mad_list->list);
  512. mad_queue->count--;
  513. spin_unlock_irqrestore(&mad_queue->lock, flags);
  514. }
  515. static void build_smp_wc(struct ib_qp *qp, struct ib_cqe *cqe, u16 slid,
  516. u16 pkey_index, u32 port_num, struct ib_wc *wc)
  517. {
  518. memset(wc, 0, sizeof *wc);
  519. wc->wr_cqe = cqe;
  520. wc->status = IB_WC_SUCCESS;
  521. wc->opcode = IB_WC_RECV;
  522. wc->pkey_index = pkey_index;
  523. wc->byte_len = sizeof(struct ib_mad) + sizeof(struct ib_grh);
  524. wc->src_qp = IB_QP0;
  525. wc->qp = qp;
  526. wc->slid = slid;
  527. wc->sl = 0;
  528. wc->dlid_path_bits = 0;
  529. wc->port_num = port_num;
  530. }
  531. static size_t mad_priv_size(const struct ib_mad_private *mp)
  532. {
  533. return sizeof(struct ib_mad_private) + mp->mad_size;
  534. }
  535. static struct ib_mad_private *alloc_mad_private(size_t mad_size, gfp_t flags)
  536. {
  537. size_t size = sizeof(struct ib_mad_private) + mad_size;
  538. struct ib_mad_private *ret = kzalloc(size, flags);
  539. if (ret)
  540. ret->mad_size = mad_size;
  541. return ret;
  542. }
  543. static size_t port_mad_size(const struct ib_mad_port_private *port_priv)
  544. {
  545. return rdma_max_mad_size(port_priv->device, port_priv->port_num);
  546. }
  547. static size_t mad_priv_dma_size(const struct ib_mad_private *mp)
  548. {
  549. return sizeof(struct ib_grh) + mp->mad_size;
  550. }
  551. /*
  552. * Return 0 if SMP is to be sent
  553. * Return 1 if SMP was consumed locally (whether or not solicited)
  554. * Return < 0 if error
  555. */
  556. static int handle_outgoing_dr_smp(struct ib_mad_agent_private *mad_agent_priv,
  557. struct ib_mad_send_wr_private *mad_send_wr)
  558. {
  559. int ret = 0;
  560. struct ib_smp *smp = mad_send_wr->send_buf.mad;
  561. struct opa_smp *opa_smp = (struct opa_smp *)smp;
  562. unsigned long flags;
  563. struct ib_mad_local_private *local;
  564. struct ib_mad_private *mad_priv;
  565. struct ib_mad_port_private *port_priv;
  566. struct ib_mad_agent_private *recv_mad_agent = NULL;
  567. struct ib_device *device = mad_agent_priv->agent.device;
  568. u32 port_num;
  569. struct ib_wc mad_wc;
  570. struct ib_ud_wr *send_wr = &mad_send_wr->send_wr;
  571. size_t mad_size = port_mad_size(mad_agent_priv->qp_info->port_priv);
  572. u16 out_mad_pkey_index = 0;
  573. u16 drslid;
  574. bool opa = rdma_cap_opa_mad(mad_agent_priv->qp_info->port_priv->device,
  575. mad_agent_priv->qp_info->port_priv->port_num);
  576. if (rdma_cap_ib_switch(device) &&
  577. smp->mgmt_class == IB_MGMT_CLASS_SUBN_DIRECTED_ROUTE)
  578. port_num = send_wr->port_num;
  579. else
  580. port_num = mad_agent_priv->agent.port_num;
  581. /*
  582. * Directed route handling starts if the initial LID routed part of
  583. * a request or the ending LID routed part of a response is empty.
  584. * If we are at the start of the LID routed part, don't update the
  585. * hop_ptr or hop_cnt. See section 14.2.2, Vol 1 IB spec.
  586. */
  587. if (opa && smp->class_version == OPA_SM_CLASS_VERSION) {
  588. u32 opa_drslid;
  589. trace_ib_mad_handle_out_opa_smi(opa_smp);
  590. if ((opa_get_smp_direction(opa_smp)
  591. ? opa_smp->route.dr.dr_dlid : opa_smp->route.dr.dr_slid) ==
  592. OPA_LID_PERMISSIVE &&
  593. opa_smi_handle_dr_smp_send(opa_smp,
  594. rdma_cap_ib_switch(device),
  595. port_num) == IB_SMI_DISCARD) {
  596. ret = -EINVAL;
  597. dev_err(&device->dev, "OPA Invalid directed route\n");
  598. goto out;
  599. }
  600. opa_drslid = be32_to_cpu(opa_smp->route.dr.dr_slid);
  601. if (opa_drslid != be32_to_cpu(OPA_LID_PERMISSIVE) &&
  602. opa_drslid & 0xffff0000) {
  603. ret = -EINVAL;
  604. dev_err(&device->dev, "OPA Invalid dr_slid 0x%x\n",
  605. opa_drslid);
  606. goto out;
  607. }
  608. drslid = (u16)(opa_drslid & 0x0000ffff);
  609. /* Check to post send on QP or process locally */
  610. if (opa_smi_check_local_smp(opa_smp, device) == IB_SMI_DISCARD &&
  611. opa_smi_check_local_returning_smp(opa_smp, device) == IB_SMI_DISCARD)
  612. goto out;
  613. } else {
  614. trace_ib_mad_handle_out_ib_smi(smp);
  615. if ((ib_get_smp_direction(smp) ? smp->dr_dlid : smp->dr_slid) ==
  616. IB_LID_PERMISSIVE &&
  617. smi_handle_dr_smp_send(smp, rdma_cap_ib_switch(device), port_num) ==
  618. IB_SMI_DISCARD) {
  619. ret = -EINVAL;
  620. dev_err(&device->dev, "Invalid directed route\n");
  621. goto out;
  622. }
  623. drslid = be16_to_cpu(smp->dr_slid);
  624. /* Check to post send on QP or process locally */
  625. if (smi_check_local_smp(smp, device) == IB_SMI_DISCARD &&
  626. smi_check_local_returning_smp(smp, device) == IB_SMI_DISCARD)
  627. goto out;
  628. }
  629. local = kmalloc_obj(*local, GFP_ATOMIC);
  630. if (!local) {
  631. ret = -ENOMEM;
  632. goto out;
  633. }
  634. local->mad_priv = NULL;
  635. local->recv_mad_agent = NULL;
  636. mad_priv = alloc_mad_private(mad_size, GFP_ATOMIC);
  637. if (!mad_priv) {
  638. ret = -ENOMEM;
  639. kfree(local);
  640. goto out;
  641. }
  642. build_smp_wc(mad_agent_priv->agent.qp,
  643. send_wr->wr.wr_cqe, drslid,
  644. send_wr->pkey_index,
  645. send_wr->port_num, &mad_wc);
  646. if (opa && smp->base_version == OPA_MGMT_BASE_VERSION) {
  647. mad_wc.byte_len = mad_send_wr->send_buf.hdr_len
  648. + mad_send_wr->send_buf.data_len
  649. + sizeof(struct ib_grh);
  650. }
  651. /* No GRH for DR SMP */
  652. ret = device->ops.process_mad(device, 0, port_num, &mad_wc, NULL,
  653. (const struct ib_mad *)smp,
  654. (struct ib_mad *)mad_priv->mad, &mad_size,
  655. &out_mad_pkey_index);
  656. switch (ret) {
  657. case IB_MAD_RESULT_SUCCESS | IB_MAD_RESULT_REPLY:
  658. if (ib_response_mad((const struct ib_mad_hdr *)mad_priv->mad) &&
  659. mad_agent_priv->agent.recv_handler) {
  660. local->mad_priv = mad_priv;
  661. local->recv_mad_agent = mad_agent_priv;
  662. /*
  663. * Reference MAD agent until receive
  664. * side of local completion handled
  665. */
  666. refcount_inc(&mad_agent_priv->refcount);
  667. } else
  668. kfree(mad_priv);
  669. break;
  670. case IB_MAD_RESULT_SUCCESS | IB_MAD_RESULT_CONSUMED:
  671. kfree(mad_priv);
  672. break;
  673. case IB_MAD_RESULT_SUCCESS:
  674. /* Treat like an incoming receive MAD */
  675. port_priv = ib_get_mad_port(mad_agent_priv->agent.device,
  676. mad_agent_priv->agent.port_num);
  677. if (port_priv) {
  678. memcpy(mad_priv->mad, smp, mad_priv->mad_size);
  679. recv_mad_agent = find_mad_agent(port_priv,
  680. (const struct ib_mad_hdr *)mad_priv->mad);
  681. }
  682. if (!port_priv || !recv_mad_agent) {
  683. /*
  684. * No receiving agent so drop packet and
  685. * generate send completion.
  686. */
  687. kfree(mad_priv);
  688. break;
  689. }
  690. local->mad_priv = mad_priv;
  691. local->recv_mad_agent = recv_mad_agent;
  692. break;
  693. default:
  694. kfree(mad_priv);
  695. kfree(local);
  696. ret = -EINVAL;
  697. goto out;
  698. }
  699. local->mad_send_wr = mad_send_wr;
  700. if (opa) {
  701. local->mad_send_wr->send_wr.pkey_index = out_mad_pkey_index;
  702. local->return_wc_byte_len = mad_size;
  703. }
  704. /* Reference MAD agent until send side of local completion handled */
  705. refcount_inc(&mad_agent_priv->refcount);
  706. /* Queue local completion to local list */
  707. spin_lock_irqsave(&mad_agent_priv->lock, flags);
  708. list_add_tail(&local->completion_list, &mad_agent_priv->local_list);
  709. spin_unlock_irqrestore(&mad_agent_priv->lock, flags);
  710. queue_work(mad_agent_priv->qp_info->port_priv->wq,
  711. &mad_agent_priv->local_work);
  712. ret = 1;
  713. out:
  714. return ret;
  715. }
  716. static int get_pad_size(int hdr_len, int data_len, size_t mad_size)
  717. {
  718. int seg_size, pad;
  719. seg_size = mad_size - hdr_len;
  720. if (data_len && seg_size) {
  721. pad = seg_size - data_len % seg_size;
  722. return pad == seg_size ? 0 : pad;
  723. } else
  724. return seg_size;
  725. }
  726. static void free_send_rmpp_list(struct ib_mad_send_wr_private *mad_send_wr)
  727. {
  728. struct ib_rmpp_segment *s, *t;
  729. list_for_each_entry_safe(s, t, &mad_send_wr->rmpp_list, list) {
  730. list_del(&s->list);
  731. kfree(s);
  732. }
  733. }
  734. static int alloc_send_rmpp_list(struct ib_mad_send_wr_private *send_wr,
  735. size_t mad_size, gfp_t gfp_mask)
  736. {
  737. struct ib_mad_send_buf *send_buf = &send_wr->send_buf;
  738. struct ib_rmpp_mad *rmpp_mad = send_buf->mad;
  739. struct ib_rmpp_segment *seg = NULL;
  740. int left, seg_size, pad;
  741. send_buf->seg_size = mad_size - send_buf->hdr_len;
  742. send_buf->seg_rmpp_size = mad_size - IB_MGMT_RMPP_HDR;
  743. seg_size = send_buf->seg_size;
  744. pad = send_wr->pad;
  745. /* Allocate data segments. */
  746. for (left = send_buf->data_len + pad; left > 0; left -= seg_size) {
  747. seg = kmalloc(sizeof(*seg) + seg_size, gfp_mask);
  748. if (!seg) {
  749. free_send_rmpp_list(send_wr);
  750. return -ENOMEM;
  751. }
  752. seg->num = ++send_buf->seg_count;
  753. list_add_tail(&seg->list, &send_wr->rmpp_list);
  754. }
  755. /* Zero any padding */
  756. if (pad)
  757. memset(seg->data + seg_size - pad, 0, pad);
  758. rmpp_mad->rmpp_hdr.rmpp_version = send_wr->mad_agent_priv->
  759. agent.rmpp_version;
  760. rmpp_mad->rmpp_hdr.rmpp_type = IB_MGMT_RMPP_TYPE_DATA;
  761. ib_set_rmpp_flags(&rmpp_mad->rmpp_hdr, IB_MGMT_RMPP_FLAG_ACTIVE);
  762. send_wr->cur_seg = container_of(send_wr->rmpp_list.next,
  763. struct ib_rmpp_segment, list);
  764. send_wr->last_ack_seg = send_wr->cur_seg;
  765. return 0;
  766. }
  767. int ib_mad_kernel_rmpp_agent(const struct ib_mad_agent *agent)
  768. {
  769. return agent->rmpp_version && !(agent->flags & IB_MAD_USER_RMPP);
  770. }
  771. EXPORT_SYMBOL(ib_mad_kernel_rmpp_agent);
  772. struct ib_mad_send_buf *ib_create_send_mad(struct ib_mad_agent *mad_agent,
  773. u32 remote_qpn, u16 pkey_index,
  774. int rmpp_active, int hdr_len,
  775. int data_len, gfp_t gfp_mask,
  776. u8 base_version)
  777. {
  778. struct ib_mad_agent_private *mad_agent_priv;
  779. struct ib_mad_send_wr_private *mad_send_wr;
  780. int pad, message_size, ret, size;
  781. void *buf;
  782. size_t mad_size;
  783. bool opa;
  784. mad_agent_priv = container_of(mad_agent, struct ib_mad_agent_private,
  785. agent);
  786. opa = rdma_cap_opa_mad(mad_agent->device, mad_agent->port_num);
  787. if (opa && base_version == OPA_MGMT_BASE_VERSION)
  788. mad_size = sizeof(struct opa_mad);
  789. else
  790. mad_size = sizeof(struct ib_mad);
  791. pad = get_pad_size(hdr_len, data_len, mad_size);
  792. message_size = hdr_len + data_len + pad;
  793. if (ib_mad_kernel_rmpp_agent(mad_agent)) {
  794. if (!rmpp_active && message_size > mad_size)
  795. return ERR_PTR(-EINVAL);
  796. } else
  797. if (rmpp_active || message_size > mad_size)
  798. return ERR_PTR(-EINVAL);
  799. size = rmpp_active ? hdr_len : mad_size;
  800. buf = kzalloc(sizeof *mad_send_wr + size, gfp_mask);
  801. if (!buf)
  802. return ERR_PTR(-ENOMEM);
  803. mad_send_wr = buf + size;
  804. INIT_LIST_HEAD(&mad_send_wr->rmpp_list);
  805. mad_send_wr->send_buf.mad = buf;
  806. mad_send_wr->send_buf.hdr_len = hdr_len;
  807. mad_send_wr->send_buf.data_len = data_len;
  808. mad_send_wr->pad = pad;
  809. mad_send_wr->mad_agent_priv = mad_agent_priv;
  810. mad_send_wr->sg_list[0].length = hdr_len;
  811. mad_send_wr->sg_list[0].lkey = mad_agent->qp->pd->local_dma_lkey;
  812. /* OPA MADs don't have to be the full 2048 bytes */
  813. if (opa && base_version == OPA_MGMT_BASE_VERSION &&
  814. data_len < mad_size - hdr_len)
  815. mad_send_wr->sg_list[1].length = data_len;
  816. else
  817. mad_send_wr->sg_list[1].length = mad_size - hdr_len;
  818. mad_send_wr->sg_list[1].lkey = mad_agent->qp->pd->local_dma_lkey;
  819. mad_send_wr->mad_list.cqe.done = ib_mad_send_done;
  820. mad_send_wr->send_wr.wr.wr_cqe = &mad_send_wr->mad_list.cqe;
  821. mad_send_wr->send_wr.wr.sg_list = mad_send_wr->sg_list;
  822. mad_send_wr->send_wr.wr.num_sge = 2;
  823. mad_send_wr->send_wr.wr.opcode = IB_WR_SEND;
  824. mad_send_wr->send_wr.wr.send_flags = IB_SEND_SIGNALED;
  825. mad_send_wr->send_wr.remote_qpn = remote_qpn;
  826. mad_send_wr->send_wr.remote_qkey = IB_QP_SET_QKEY;
  827. mad_send_wr->send_wr.pkey_index = pkey_index;
  828. if (rmpp_active) {
  829. ret = alloc_send_rmpp_list(mad_send_wr, mad_size, gfp_mask);
  830. if (ret) {
  831. kfree(buf);
  832. return ERR_PTR(ret);
  833. }
  834. }
  835. mad_send_wr->send_buf.mad_agent = mad_agent;
  836. refcount_inc(&mad_agent_priv->refcount);
  837. return &mad_send_wr->send_buf;
  838. }
  839. EXPORT_SYMBOL(ib_create_send_mad);
  840. int ib_get_mad_data_offset(u8 mgmt_class)
  841. {
  842. if (mgmt_class == IB_MGMT_CLASS_SUBN_ADM)
  843. return IB_MGMT_SA_HDR;
  844. else if ((mgmt_class == IB_MGMT_CLASS_DEVICE_MGMT) ||
  845. (mgmt_class == IB_MGMT_CLASS_DEVICE_ADM) ||
  846. (mgmt_class == IB_MGMT_CLASS_BIS))
  847. return IB_MGMT_DEVICE_HDR;
  848. else if ((mgmt_class >= IB_MGMT_CLASS_VENDOR_RANGE2_START) &&
  849. (mgmt_class <= IB_MGMT_CLASS_VENDOR_RANGE2_END))
  850. return IB_MGMT_VENDOR_HDR;
  851. else
  852. return IB_MGMT_MAD_HDR;
  853. }
  854. EXPORT_SYMBOL(ib_get_mad_data_offset);
  855. int ib_is_mad_class_rmpp(u8 mgmt_class)
  856. {
  857. if ((mgmt_class == IB_MGMT_CLASS_SUBN_ADM) ||
  858. (mgmt_class == IB_MGMT_CLASS_DEVICE_MGMT) ||
  859. (mgmt_class == IB_MGMT_CLASS_DEVICE_ADM) ||
  860. (mgmt_class == IB_MGMT_CLASS_BIS) ||
  861. ((mgmt_class >= IB_MGMT_CLASS_VENDOR_RANGE2_START) &&
  862. (mgmt_class <= IB_MGMT_CLASS_VENDOR_RANGE2_END)))
  863. return 1;
  864. return 0;
  865. }
  866. EXPORT_SYMBOL(ib_is_mad_class_rmpp);
  867. void *ib_get_rmpp_segment(struct ib_mad_send_buf *send_buf, int seg_num)
  868. {
  869. struct ib_mad_send_wr_private *mad_send_wr;
  870. struct list_head *list;
  871. mad_send_wr = container_of(send_buf, struct ib_mad_send_wr_private,
  872. send_buf);
  873. list = &mad_send_wr->cur_seg->list;
  874. if (mad_send_wr->cur_seg->num < seg_num) {
  875. list_for_each_entry(mad_send_wr->cur_seg, list, list)
  876. if (mad_send_wr->cur_seg->num == seg_num)
  877. break;
  878. } else if (mad_send_wr->cur_seg->num > seg_num) {
  879. list_for_each_entry_reverse(mad_send_wr->cur_seg, list, list)
  880. if (mad_send_wr->cur_seg->num == seg_num)
  881. break;
  882. }
  883. return mad_send_wr->cur_seg->data;
  884. }
  885. EXPORT_SYMBOL(ib_get_rmpp_segment);
  886. static inline void *ib_get_payload(struct ib_mad_send_wr_private *mad_send_wr)
  887. {
  888. if (mad_send_wr->send_buf.seg_count)
  889. return ib_get_rmpp_segment(&mad_send_wr->send_buf,
  890. mad_send_wr->seg_num);
  891. else
  892. return mad_send_wr->send_buf.mad +
  893. mad_send_wr->send_buf.hdr_len;
  894. }
  895. void ib_free_send_mad(struct ib_mad_send_buf *send_buf)
  896. {
  897. struct ib_mad_agent_private *mad_agent_priv;
  898. struct ib_mad_send_wr_private *mad_send_wr;
  899. mad_agent_priv = container_of(send_buf->mad_agent,
  900. struct ib_mad_agent_private, agent);
  901. mad_send_wr = container_of(send_buf, struct ib_mad_send_wr_private,
  902. send_buf);
  903. free_send_rmpp_list(mad_send_wr);
  904. kfree(send_buf->mad);
  905. deref_mad_agent(mad_agent_priv);
  906. }
  907. EXPORT_SYMBOL(ib_free_send_mad);
  908. int ib_send_mad(struct ib_mad_send_wr_private *mad_send_wr)
  909. {
  910. struct ib_mad_qp_info *qp_info;
  911. struct list_head *list;
  912. struct ib_mad_agent *mad_agent;
  913. struct ib_sge *sge;
  914. unsigned long flags;
  915. int ret;
  916. /* Set WR ID to find mad_send_wr upon completion */
  917. qp_info = mad_send_wr->mad_agent_priv->qp_info;
  918. mad_send_wr->mad_list.mad_queue = &qp_info->send_queue;
  919. mad_send_wr->mad_list.cqe.done = ib_mad_send_done;
  920. mad_send_wr->send_wr.wr.wr_cqe = &mad_send_wr->mad_list.cqe;
  921. mad_agent = mad_send_wr->send_buf.mad_agent;
  922. sge = mad_send_wr->sg_list;
  923. sge[0].addr = ib_dma_map_single(mad_agent->device,
  924. mad_send_wr->send_buf.mad,
  925. sge[0].length,
  926. DMA_TO_DEVICE);
  927. if (unlikely(ib_dma_mapping_error(mad_agent->device, sge[0].addr)))
  928. return -ENOMEM;
  929. mad_send_wr->header_mapping = sge[0].addr;
  930. sge[1].addr = ib_dma_map_single(mad_agent->device,
  931. ib_get_payload(mad_send_wr),
  932. sge[1].length,
  933. DMA_TO_DEVICE);
  934. if (unlikely(ib_dma_mapping_error(mad_agent->device, sge[1].addr))) {
  935. ib_dma_unmap_single(mad_agent->device,
  936. mad_send_wr->header_mapping,
  937. sge[0].length, DMA_TO_DEVICE);
  938. return -ENOMEM;
  939. }
  940. mad_send_wr->payload_mapping = sge[1].addr;
  941. spin_lock_irqsave(&qp_info->send_queue.lock, flags);
  942. if (qp_info->send_queue.count < qp_info->send_queue.max_active) {
  943. trace_ib_mad_ib_send_mad(mad_send_wr, qp_info);
  944. ret = ib_post_send(mad_agent->qp, &mad_send_wr->send_wr.wr,
  945. NULL);
  946. list = &qp_info->send_queue.list;
  947. } else {
  948. ret = 0;
  949. list = &qp_info->overflow_list;
  950. }
  951. if (!ret) {
  952. qp_info->send_queue.count++;
  953. list_add_tail(&mad_send_wr->mad_list.list, list);
  954. }
  955. spin_unlock_irqrestore(&qp_info->send_queue.lock, flags);
  956. if (ret) {
  957. ib_dma_unmap_single(mad_agent->device,
  958. mad_send_wr->header_mapping,
  959. sge[0].length, DMA_TO_DEVICE);
  960. ib_dma_unmap_single(mad_agent->device,
  961. mad_send_wr->payload_mapping,
  962. sge[1].length, DMA_TO_DEVICE);
  963. }
  964. return ret;
  965. }
  966. static void handle_queued_state(struct ib_mad_send_wr_private *mad_send_wr,
  967. struct ib_mad_agent_private *mad_agent_priv)
  968. {
  969. if (mad_send_wr->state == IB_MAD_STATE_WAIT_RESP) {
  970. mad_agent_priv->sol_fc_wait_count--;
  971. list_move_tail(&mad_send_wr->agent_list,
  972. &mad_agent_priv->backlog_list);
  973. } else {
  974. expect_mad_state(mad_send_wr, IB_MAD_STATE_INIT);
  975. list_add_tail(&mad_send_wr->agent_list,
  976. &mad_agent_priv->backlog_list);
  977. }
  978. }
  979. static void handle_send_state(struct ib_mad_send_wr_private *mad_send_wr,
  980. struct ib_mad_agent_private *mad_agent_priv)
  981. {
  982. if (mad_send_wr->state == IB_MAD_STATE_INIT) {
  983. list_add_tail(&mad_send_wr->agent_list,
  984. &mad_agent_priv->send_list);
  985. } else {
  986. expect_mad_state2(mad_send_wr, IB_MAD_STATE_WAIT_RESP,
  987. IB_MAD_STATE_QUEUED);
  988. list_move_tail(&mad_send_wr->agent_list,
  989. &mad_agent_priv->send_list);
  990. }
  991. if (mad_send_wr->is_solicited_fc) {
  992. if (mad_send_wr->state == IB_MAD_STATE_WAIT_RESP)
  993. mad_agent_priv->sol_fc_wait_count--;
  994. mad_agent_priv->sol_fc_send_count++;
  995. }
  996. }
  997. static void handle_wait_state(struct ib_mad_send_wr_private *mad_send_wr,
  998. struct ib_mad_agent_private *mad_agent_priv)
  999. {
  1000. struct ib_mad_send_wr_private *temp_mad_send_wr;
  1001. struct list_head *list_item;
  1002. unsigned long delay;
  1003. expect_mad_state3(mad_send_wr, IB_MAD_STATE_SEND_START,
  1004. IB_MAD_STATE_WAIT_RESP, IB_MAD_STATE_CANCELED);
  1005. if (mad_send_wr->state == IB_MAD_STATE_SEND_START &&
  1006. mad_send_wr->is_solicited_fc) {
  1007. mad_agent_priv->sol_fc_send_count--;
  1008. mad_agent_priv->sol_fc_wait_count++;
  1009. }
  1010. list_del_init(&mad_send_wr->agent_list);
  1011. delay = mad_send_wr->timeout;
  1012. mad_send_wr->timeout += jiffies;
  1013. if (delay) {
  1014. list_for_each_prev(list_item,
  1015. &mad_agent_priv->wait_list) {
  1016. temp_mad_send_wr = list_entry(
  1017. list_item,
  1018. struct ib_mad_send_wr_private,
  1019. agent_list);
  1020. if (time_after(mad_send_wr->timeout,
  1021. temp_mad_send_wr->timeout))
  1022. break;
  1023. }
  1024. } else {
  1025. list_item = &mad_agent_priv->wait_list;
  1026. }
  1027. list_add(&mad_send_wr->agent_list, list_item);
  1028. }
  1029. static void handle_early_resp_state(struct ib_mad_send_wr_private *mad_send_wr,
  1030. struct ib_mad_agent_private *mad_agent_priv)
  1031. {
  1032. expect_mad_state(mad_send_wr, IB_MAD_STATE_SEND_START);
  1033. mad_agent_priv->sol_fc_send_count -= mad_send_wr->is_solicited_fc;
  1034. }
  1035. static void handle_canceled_state(struct ib_mad_send_wr_private *mad_send_wr,
  1036. struct ib_mad_agent_private *mad_agent_priv)
  1037. {
  1038. not_expect_mad_state(mad_send_wr, IB_MAD_STATE_DONE);
  1039. if (mad_send_wr->is_solicited_fc) {
  1040. if (mad_send_wr->state == IB_MAD_STATE_SEND_START)
  1041. mad_agent_priv->sol_fc_send_count--;
  1042. else if (mad_send_wr->state == IB_MAD_STATE_WAIT_RESP)
  1043. mad_agent_priv->sol_fc_wait_count--;
  1044. }
  1045. }
  1046. static void handle_done_state(struct ib_mad_send_wr_private *mad_send_wr,
  1047. struct ib_mad_agent_private *mad_agent_priv)
  1048. {
  1049. if (mad_send_wr->is_solicited_fc) {
  1050. if (mad_send_wr->state == IB_MAD_STATE_SEND_START)
  1051. mad_agent_priv->sol_fc_send_count--;
  1052. else if (mad_send_wr->state == IB_MAD_STATE_WAIT_RESP)
  1053. mad_agent_priv->sol_fc_wait_count--;
  1054. }
  1055. list_del_init(&mad_send_wr->agent_list);
  1056. }
  1057. void change_mad_state(struct ib_mad_send_wr_private *mad_send_wr,
  1058. enum ib_mad_state new_state)
  1059. {
  1060. struct ib_mad_agent_private *mad_agent_priv =
  1061. mad_send_wr->mad_agent_priv;
  1062. switch (new_state) {
  1063. case IB_MAD_STATE_INIT:
  1064. break;
  1065. case IB_MAD_STATE_QUEUED:
  1066. handle_queued_state(mad_send_wr, mad_agent_priv);
  1067. break;
  1068. case IB_MAD_STATE_SEND_START:
  1069. handle_send_state(mad_send_wr, mad_agent_priv);
  1070. break;
  1071. case IB_MAD_STATE_WAIT_RESP:
  1072. handle_wait_state(mad_send_wr, mad_agent_priv);
  1073. if (mad_send_wr->state == IB_MAD_STATE_CANCELED)
  1074. return;
  1075. break;
  1076. case IB_MAD_STATE_EARLY_RESP:
  1077. handle_early_resp_state(mad_send_wr, mad_agent_priv);
  1078. break;
  1079. case IB_MAD_STATE_CANCELED:
  1080. handle_canceled_state(mad_send_wr, mad_agent_priv);
  1081. break;
  1082. case IB_MAD_STATE_DONE:
  1083. handle_done_state(mad_send_wr, mad_agent_priv);
  1084. break;
  1085. }
  1086. mad_send_wr->state = new_state;
  1087. }
  1088. static bool is_solicited_fc_mad(struct ib_mad_send_wr_private *mad_send_wr)
  1089. {
  1090. struct ib_rmpp_mad *rmpp_mad;
  1091. u8 mgmt_class;
  1092. if (!mad_send_wr->timeout)
  1093. return 0;
  1094. rmpp_mad = mad_send_wr->send_buf.mad;
  1095. if (mad_send_wr->mad_agent_priv->agent.rmpp_version &&
  1096. (ib_get_rmpp_flags(&rmpp_mad->rmpp_hdr) & IB_MGMT_RMPP_FLAG_ACTIVE))
  1097. return 0;
  1098. mgmt_class =
  1099. ((struct ib_mad_hdr *)mad_send_wr->send_buf.mad)->mgmt_class;
  1100. return mgmt_class == IB_MGMT_CLASS_CM ||
  1101. mgmt_class == IB_MGMT_CLASS_SUBN_ADM ||
  1102. mgmt_class == IB_MGMT_CLASS_SUBN_LID_ROUTED ||
  1103. mgmt_class == IB_MGMT_CLASS_SUBN_DIRECTED_ROUTE;
  1104. }
  1105. static bool mad_is_for_backlog(struct ib_mad_send_wr_private *mad_send_wr)
  1106. {
  1107. struct ib_mad_agent_private *mad_agent_priv =
  1108. mad_send_wr->mad_agent_priv;
  1109. if (!mad_send_wr->is_solicited_fc || !mad_agent_priv->sol_fc_max)
  1110. return false;
  1111. if (!list_empty(&mad_agent_priv->backlog_list))
  1112. return true;
  1113. return mad_agent_priv->sol_fc_send_count +
  1114. mad_agent_priv->sol_fc_wait_count >=
  1115. mad_agent_priv->sol_fc_max;
  1116. }
  1117. /*
  1118. * ib_post_send_mad - Posts MAD(s) to the send queue of the QP associated
  1119. * with the registered client
  1120. */
  1121. int ib_post_send_mad(struct ib_mad_send_buf *send_buf,
  1122. struct ib_mad_send_buf **bad_send_buf)
  1123. {
  1124. struct ib_mad_agent_private *mad_agent_priv;
  1125. struct ib_mad_send_buf *next_send_buf;
  1126. struct ib_mad_send_wr_private *mad_send_wr;
  1127. unsigned long flags;
  1128. int ret = -EINVAL;
  1129. /* Walk list of send WRs and post each on send list */
  1130. for (; send_buf; send_buf = next_send_buf) {
  1131. mad_send_wr = container_of(send_buf,
  1132. struct ib_mad_send_wr_private,
  1133. send_buf);
  1134. mad_agent_priv = mad_send_wr->mad_agent_priv;
  1135. ret = ib_mad_enforce_security(mad_agent_priv,
  1136. mad_send_wr->send_wr.pkey_index);
  1137. if (ret)
  1138. goto error;
  1139. if (!send_buf->mad_agent->send_handler) {
  1140. ret = -EINVAL;
  1141. goto error;
  1142. }
  1143. if (!ib_is_mad_class_rmpp(((struct ib_mad_hdr *) send_buf->mad)->mgmt_class)) {
  1144. if (mad_agent_priv->agent.rmpp_version) {
  1145. ret = -EINVAL;
  1146. goto error;
  1147. }
  1148. }
  1149. /*
  1150. * Save pointer to next work request to post in case the
  1151. * current one completes, and the user modifies the work
  1152. * request associated with the completion
  1153. */
  1154. next_send_buf = send_buf->next;
  1155. mad_send_wr->send_wr.ah = send_buf->ah;
  1156. if (((struct ib_mad_hdr *) send_buf->mad)->mgmt_class ==
  1157. IB_MGMT_CLASS_SUBN_DIRECTED_ROUTE) {
  1158. ret = handle_outgoing_dr_smp(mad_agent_priv,
  1159. mad_send_wr);
  1160. if (ret < 0) /* error */
  1161. goto error;
  1162. else if (ret == 1) /* locally consumed */
  1163. continue;
  1164. }
  1165. mad_send_wr->tid = ((struct ib_mad_hdr *) send_buf->mad)->tid;
  1166. /* Timeout will be updated after send completes */
  1167. mad_send_wr->timeout = msecs_to_jiffies(send_buf->timeout_ms);
  1168. mad_send_wr->max_retries = send_buf->retries;
  1169. mad_send_wr->retries_left = send_buf->retries;
  1170. send_buf->retries = 0;
  1171. change_mad_state(mad_send_wr, IB_MAD_STATE_INIT);
  1172. /* Reference MAD agent until send completes */
  1173. refcount_inc(&mad_agent_priv->refcount);
  1174. spin_lock_irqsave(&mad_agent_priv->lock, flags);
  1175. mad_send_wr->is_solicited_fc = is_solicited_fc_mad(mad_send_wr);
  1176. if (mad_is_for_backlog(mad_send_wr)) {
  1177. change_mad_state(mad_send_wr, IB_MAD_STATE_QUEUED);
  1178. spin_unlock_irqrestore(&mad_agent_priv->lock, flags);
  1179. return 0;
  1180. }
  1181. change_mad_state(mad_send_wr, IB_MAD_STATE_SEND_START);
  1182. spin_unlock_irqrestore(&mad_agent_priv->lock, flags);
  1183. if (ib_mad_kernel_rmpp_agent(&mad_agent_priv->agent)) {
  1184. ret = ib_send_rmpp_mad(mad_send_wr);
  1185. if (ret >= 0 && ret != IB_RMPP_RESULT_CONSUMED)
  1186. ret = ib_send_mad(mad_send_wr);
  1187. } else
  1188. ret = ib_send_mad(mad_send_wr);
  1189. if (ret < 0) {
  1190. /* Fail send request */
  1191. spin_lock_irqsave(&mad_agent_priv->lock, flags);
  1192. change_mad_state(mad_send_wr, IB_MAD_STATE_DONE);
  1193. spin_unlock_irqrestore(&mad_agent_priv->lock, flags);
  1194. deref_mad_agent(mad_agent_priv);
  1195. goto error;
  1196. }
  1197. }
  1198. return 0;
  1199. error:
  1200. if (bad_send_buf)
  1201. *bad_send_buf = send_buf;
  1202. return ret;
  1203. }
  1204. EXPORT_SYMBOL(ib_post_send_mad);
  1205. /*
  1206. * ib_free_recv_mad - Returns data buffers used to receive
  1207. * a MAD to the access layer
  1208. */
  1209. void ib_free_recv_mad(struct ib_mad_recv_wc *mad_recv_wc)
  1210. {
  1211. struct ib_mad_recv_buf *mad_recv_buf, *temp_recv_buf;
  1212. struct ib_mad_private_header *mad_priv_hdr;
  1213. struct ib_mad_private *priv;
  1214. struct list_head free_list;
  1215. INIT_LIST_HEAD(&free_list);
  1216. list_splice_init(&mad_recv_wc->rmpp_list, &free_list);
  1217. list_for_each_entry_safe(mad_recv_buf, temp_recv_buf,
  1218. &free_list, list) {
  1219. mad_recv_wc = container_of(mad_recv_buf, struct ib_mad_recv_wc,
  1220. recv_buf);
  1221. mad_priv_hdr = container_of(mad_recv_wc,
  1222. struct ib_mad_private_header,
  1223. recv_wc);
  1224. priv = container_of(mad_priv_hdr, struct ib_mad_private,
  1225. header);
  1226. kfree(priv);
  1227. }
  1228. }
  1229. EXPORT_SYMBOL(ib_free_recv_mad);
  1230. static int method_in_use(struct ib_mad_mgmt_method_table **method,
  1231. struct ib_mad_reg_req *mad_reg_req)
  1232. {
  1233. int i;
  1234. for_each_set_bit(i, mad_reg_req->method_mask, IB_MGMT_MAX_METHODS) {
  1235. if ((*method)->agent[i]) {
  1236. pr_err("Method %d already in use\n", i);
  1237. return -EINVAL;
  1238. }
  1239. }
  1240. return 0;
  1241. }
  1242. static int allocate_method_table(struct ib_mad_mgmt_method_table **method)
  1243. {
  1244. /* Allocate management method table */
  1245. *method = kzalloc_obj(**method, GFP_ATOMIC);
  1246. return (*method) ? 0 : (-ENOMEM);
  1247. }
  1248. /*
  1249. * Check to see if there are any methods still in use
  1250. */
  1251. static int check_method_table(struct ib_mad_mgmt_method_table *method)
  1252. {
  1253. int i;
  1254. for (i = 0; i < IB_MGMT_MAX_METHODS; i++)
  1255. if (method->agent[i])
  1256. return 1;
  1257. return 0;
  1258. }
  1259. /*
  1260. * Check to see if there are any method tables for this class still in use
  1261. */
  1262. static int check_class_table(struct ib_mad_mgmt_class_table *class)
  1263. {
  1264. int i;
  1265. for (i = 0; i < MAX_MGMT_CLASS; i++)
  1266. if (class->method_table[i])
  1267. return 1;
  1268. return 0;
  1269. }
  1270. static int check_vendor_class(struct ib_mad_mgmt_vendor_class *vendor_class)
  1271. {
  1272. int i;
  1273. for (i = 0; i < MAX_MGMT_OUI; i++)
  1274. if (vendor_class->method_table[i])
  1275. return 1;
  1276. return 0;
  1277. }
  1278. static int find_vendor_oui(struct ib_mad_mgmt_vendor_class *vendor_class,
  1279. const char *oui)
  1280. {
  1281. int i;
  1282. for (i = 0; i < MAX_MGMT_OUI; i++)
  1283. /* Is there matching OUI for this vendor class ? */
  1284. if (!memcmp(vendor_class->oui[i], oui, 3))
  1285. return i;
  1286. return -1;
  1287. }
  1288. static int check_vendor_table(struct ib_mad_mgmt_vendor_class_table *vendor)
  1289. {
  1290. int i;
  1291. for (i = 0; i < MAX_MGMT_VENDOR_RANGE2; i++)
  1292. if (vendor->vendor_class[i])
  1293. return 1;
  1294. return 0;
  1295. }
  1296. static void remove_methods_mad_agent(struct ib_mad_mgmt_method_table *method,
  1297. struct ib_mad_agent_private *agent)
  1298. {
  1299. int i;
  1300. /* Remove any methods for this mad agent */
  1301. for (i = 0; i < IB_MGMT_MAX_METHODS; i++)
  1302. if (method->agent[i] == agent)
  1303. method->agent[i] = NULL;
  1304. }
  1305. static int add_nonoui_reg_req(struct ib_mad_reg_req *mad_reg_req,
  1306. struct ib_mad_agent_private *agent_priv,
  1307. u8 mgmt_class)
  1308. {
  1309. struct ib_mad_port_private *port_priv;
  1310. struct ib_mad_mgmt_class_table **class;
  1311. struct ib_mad_mgmt_method_table **method;
  1312. int i, ret;
  1313. port_priv = agent_priv->qp_info->port_priv;
  1314. class = &port_priv->version[mad_reg_req->mgmt_class_version].class;
  1315. if (!*class) {
  1316. /* Allocate management class table for "new" class version */
  1317. *class = kzalloc_obj(**class, GFP_ATOMIC);
  1318. if (!*class) {
  1319. ret = -ENOMEM;
  1320. goto error1;
  1321. }
  1322. /* Allocate method table for this management class */
  1323. method = &(*class)->method_table[mgmt_class];
  1324. if ((ret = allocate_method_table(method)))
  1325. goto error2;
  1326. } else {
  1327. method = &(*class)->method_table[mgmt_class];
  1328. if (!*method) {
  1329. /* Allocate method table for this management class */
  1330. if ((ret = allocate_method_table(method)))
  1331. goto error1;
  1332. }
  1333. }
  1334. /* Now, make sure methods are not already in use */
  1335. if (method_in_use(method, mad_reg_req))
  1336. goto error3;
  1337. /* Finally, add in methods being registered */
  1338. for_each_set_bit(i, mad_reg_req->method_mask, IB_MGMT_MAX_METHODS)
  1339. (*method)->agent[i] = agent_priv;
  1340. return 0;
  1341. error3:
  1342. /* Remove any methods for this mad agent */
  1343. remove_methods_mad_agent(*method, agent_priv);
  1344. /* Now, check to see if there are any methods in use */
  1345. if (!check_method_table(*method)) {
  1346. /* If not, release management method table */
  1347. kfree(*method);
  1348. *method = NULL;
  1349. }
  1350. ret = -EINVAL;
  1351. goto error1;
  1352. error2:
  1353. kfree(*class);
  1354. *class = NULL;
  1355. error1:
  1356. return ret;
  1357. }
  1358. static int add_oui_reg_req(struct ib_mad_reg_req *mad_reg_req,
  1359. struct ib_mad_agent_private *agent_priv)
  1360. {
  1361. struct ib_mad_port_private *port_priv;
  1362. struct ib_mad_mgmt_vendor_class_table **vendor_table;
  1363. struct ib_mad_mgmt_vendor_class_table *vendor = NULL;
  1364. struct ib_mad_mgmt_vendor_class *vendor_class = NULL;
  1365. struct ib_mad_mgmt_method_table **method;
  1366. int i, ret = -ENOMEM;
  1367. u8 vclass;
  1368. /* "New" vendor (with OUI) class */
  1369. vclass = vendor_class_index(mad_reg_req->mgmt_class);
  1370. port_priv = agent_priv->qp_info->port_priv;
  1371. vendor_table = &port_priv->version[
  1372. mad_reg_req->mgmt_class_version].vendor;
  1373. if (!*vendor_table) {
  1374. /* Allocate mgmt vendor class table for "new" class version */
  1375. vendor = kzalloc_obj(*vendor, GFP_ATOMIC);
  1376. if (!vendor)
  1377. goto error1;
  1378. *vendor_table = vendor;
  1379. }
  1380. if (!(*vendor_table)->vendor_class[vclass]) {
  1381. /* Allocate table for this management vendor class */
  1382. vendor_class = kzalloc_obj(*vendor_class, GFP_ATOMIC);
  1383. if (!vendor_class)
  1384. goto error2;
  1385. (*vendor_table)->vendor_class[vclass] = vendor_class;
  1386. }
  1387. for (i = 0; i < MAX_MGMT_OUI; i++) {
  1388. /* Is there matching OUI for this vendor class ? */
  1389. if (!memcmp((*vendor_table)->vendor_class[vclass]->oui[i],
  1390. mad_reg_req->oui, 3)) {
  1391. method = &(*vendor_table)->vendor_class[
  1392. vclass]->method_table[i];
  1393. if (!*method)
  1394. goto error3;
  1395. goto check_in_use;
  1396. }
  1397. }
  1398. for (i = 0; i < MAX_MGMT_OUI; i++) {
  1399. /* OUI slot available ? */
  1400. if (!is_vendor_oui((*vendor_table)->vendor_class[
  1401. vclass]->oui[i])) {
  1402. method = &(*vendor_table)->vendor_class[
  1403. vclass]->method_table[i];
  1404. /* Allocate method table for this OUI */
  1405. if (!*method) {
  1406. ret = allocate_method_table(method);
  1407. if (ret)
  1408. goto error3;
  1409. }
  1410. memcpy((*vendor_table)->vendor_class[vclass]->oui[i],
  1411. mad_reg_req->oui, 3);
  1412. goto check_in_use;
  1413. }
  1414. }
  1415. dev_err(&agent_priv->agent.device->dev, "All OUI slots in use\n");
  1416. goto error3;
  1417. check_in_use:
  1418. /* Now, make sure methods are not already in use */
  1419. if (method_in_use(method, mad_reg_req))
  1420. goto error4;
  1421. /* Finally, add in methods being registered */
  1422. for_each_set_bit(i, mad_reg_req->method_mask, IB_MGMT_MAX_METHODS)
  1423. (*method)->agent[i] = agent_priv;
  1424. return 0;
  1425. error4:
  1426. /* Remove any methods for this mad agent */
  1427. remove_methods_mad_agent(*method, agent_priv);
  1428. /* Now, check to see if there are any methods in use */
  1429. if (!check_method_table(*method)) {
  1430. /* If not, release management method table */
  1431. kfree(*method);
  1432. *method = NULL;
  1433. }
  1434. ret = -EINVAL;
  1435. error3:
  1436. if (vendor_class) {
  1437. (*vendor_table)->vendor_class[vclass] = NULL;
  1438. kfree(vendor_class);
  1439. }
  1440. error2:
  1441. if (vendor) {
  1442. *vendor_table = NULL;
  1443. kfree(vendor);
  1444. }
  1445. error1:
  1446. return ret;
  1447. }
  1448. static void remove_mad_reg_req(struct ib_mad_agent_private *agent_priv)
  1449. {
  1450. struct ib_mad_port_private *port_priv;
  1451. struct ib_mad_mgmt_class_table *class;
  1452. struct ib_mad_mgmt_method_table *method;
  1453. struct ib_mad_mgmt_vendor_class_table *vendor;
  1454. struct ib_mad_mgmt_vendor_class *vendor_class;
  1455. int index;
  1456. u8 mgmt_class;
  1457. /*
  1458. * Was MAD registration request supplied
  1459. * with original registration ?
  1460. */
  1461. if (!agent_priv->reg_req)
  1462. goto out;
  1463. port_priv = agent_priv->qp_info->port_priv;
  1464. mgmt_class = convert_mgmt_class(agent_priv->reg_req->mgmt_class);
  1465. class = port_priv->version[
  1466. agent_priv->reg_req->mgmt_class_version].class;
  1467. if (!class)
  1468. goto vendor_check;
  1469. method = class->method_table[mgmt_class];
  1470. if (method) {
  1471. /* Remove any methods for this mad agent */
  1472. remove_methods_mad_agent(method, agent_priv);
  1473. /* Now, check to see if there are any methods still in use */
  1474. if (!check_method_table(method)) {
  1475. /* If not, release management method table */
  1476. kfree(method);
  1477. class->method_table[mgmt_class] = NULL;
  1478. /* Any management classes left ? */
  1479. if (!check_class_table(class)) {
  1480. /* If not, release management class table */
  1481. kfree(class);
  1482. port_priv->version[
  1483. agent_priv->reg_req->
  1484. mgmt_class_version].class = NULL;
  1485. }
  1486. }
  1487. }
  1488. vendor_check:
  1489. if (!is_vendor_class(mgmt_class))
  1490. goto out;
  1491. /* normalize mgmt_class to vendor range 2 */
  1492. mgmt_class = vendor_class_index(agent_priv->reg_req->mgmt_class);
  1493. vendor = port_priv->version[
  1494. agent_priv->reg_req->mgmt_class_version].vendor;
  1495. if (!vendor)
  1496. goto out;
  1497. vendor_class = vendor->vendor_class[mgmt_class];
  1498. if (vendor_class) {
  1499. index = find_vendor_oui(vendor_class, agent_priv->reg_req->oui);
  1500. if (index < 0)
  1501. goto out;
  1502. method = vendor_class->method_table[index];
  1503. if (method) {
  1504. /* Remove any methods for this mad agent */
  1505. remove_methods_mad_agent(method, agent_priv);
  1506. /*
  1507. * Now, check to see if there are
  1508. * any methods still in use
  1509. */
  1510. if (!check_method_table(method)) {
  1511. /* If not, release management method table */
  1512. kfree(method);
  1513. vendor_class->method_table[index] = NULL;
  1514. memset(vendor_class->oui[index], 0, 3);
  1515. /* Any OUIs left ? */
  1516. if (!check_vendor_class(vendor_class)) {
  1517. /* If not, release vendor class table */
  1518. kfree(vendor_class);
  1519. vendor->vendor_class[mgmt_class] = NULL;
  1520. /* Any other vendor classes left ? */
  1521. if (!check_vendor_table(vendor)) {
  1522. kfree(vendor);
  1523. port_priv->version[
  1524. agent_priv->reg_req->
  1525. mgmt_class_version].
  1526. vendor = NULL;
  1527. }
  1528. }
  1529. }
  1530. }
  1531. }
  1532. out:
  1533. return;
  1534. }
  1535. static struct ib_mad_agent_private *
  1536. find_mad_agent(struct ib_mad_port_private *port_priv,
  1537. const struct ib_mad_hdr *mad_hdr)
  1538. {
  1539. struct ib_mad_agent_private *mad_agent = NULL;
  1540. unsigned long flags;
  1541. if (ib_response_mad(mad_hdr)) {
  1542. u32 hi_tid;
  1543. /*
  1544. * Routing is based on high 32 bits of transaction ID
  1545. * of MAD.
  1546. */
  1547. hi_tid = be64_to_cpu(mad_hdr->tid) >> 32;
  1548. rcu_read_lock();
  1549. mad_agent = xa_load(&ib_mad_clients, hi_tid);
  1550. if (mad_agent && !refcount_inc_not_zero(&mad_agent->refcount))
  1551. mad_agent = NULL;
  1552. rcu_read_unlock();
  1553. } else {
  1554. struct ib_mad_mgmt_class_table *class;
  1555. struct ib_mad_mgmt_method_table *method;
  1556. struct ib_mad_mgmt_vendor_class_table *vendor;
  1557. struct ib_mad_mgmt_vendor_class *vendor_class;
  1558. const struct ib_vendor_mad *vendor_mad;
  1559. int index;
  1560. spin_lock_irqsave(&port_priv->reg_lock, flags);
  1561. /*
  1562. * Routing is based on version, class, and method
  1563. * For "newer" vendor MADs, also based on OUI
  1564. */
  1565. if (mad_hdr->class_version >= MAX_MGMT_VERSION)
  1566. goto out;
  1567. if (!is_vendor_class(mad_hdr->mgmt_class)) {
  1568. class = port_priv->version[
  1569. mad_hdr->class_version].class;
  1570. if (!class)
  1571. goto out;
  1572. if (convert_mgmt_class(mad_hdr->mgmt_class) >=
  1573. ARRAY_SIZE(class->method_table))
  1574. goto out;
  1575. method = class->method_table[convert_mgmt_class(
  1576. mad_hdr->mgmt_class)];
  1577. if (method)
  1578. mad_agent = method->agent[mad_hdr->method &
  1579. ~IB_MGMT_METHOD_RESP];
  1580. } else {
  1581. vendor = port_priv->version[
  1582. mad_hdr->class_version].vendor;
  1583. if (!vendor)
  1584. goto out;
  1585. vendor_class = vendor->vendor_class[vendor_class_index(
  1586. mad_hdr->mgmt_class)];
  1587. if (!vendor_class)
  1588. goto out;
  1589. /* Find matching OUI */
  1590. vendor_mad = (const struct ib_vendor_mad *)mad_hdr;
  1591. index = find_vendor_oui(vendor_class, vendor_mad->oui);
  1592. if (index == -1)
  1593. goto out;
  1594. method = vendor_class->method_table[index];
  1595. if (method) {
  1596. mad_agent = method->agent[mad_hdr->method &
  1597. ~IB_MGMT_METHOD_RESP];
  1598. }
  1599. }
  1600. if (mad_agent)
  1601. refcount_inc(&mad_agent->refcount);
  1602. out:
  1603. spin_unlock_irqrestore(&port_priv->reg_lock, flags);
  1604. }
  1605. if (mad_agent && !mad_agent->agent.recv_handler) {
  1606. dev_notice(&port_priv->device->dev,
  1607. "No receive handler for client %p on port %u\n",
  1608. &mad_agent->agent, port_priv->port_num);
  1609. deref_mad_agent(mad_agent);
  1610. mad_agent = NULL;
  1611. }
  1612. return mad_agent;
  1613. }
  1614. static int validate_mad(const struct ib_mad_hdr *mad_hdr,
  1615. const struct ib_mad_qp_info *qp_info,
  1616. bool opa)
  1617. {
  1618. int valid = 0;
  1619. u32 qp_num = qp_info->qp->qp_num;
  1620. /* Make sure MAD base version is understood */
  1621. if (mad_hdr->base_version != IB_MGMT_BASE_VERSION &&
  1622. (!opa || mad_hdr->base_version != OPA_MGMT_BASE_VERSION)) {
  1623. pr_err("MAD received with unsupported base version %u %s\n",
  1624. mad_hdr->base_version, opa ? "(opa)" : "");
  1625. goto out;
  1626. }
  1627. /* Filter SMI packets sent to other than QP0 */
  1628. if ((mad_hdr->mgmt_class == IB_MGMT_CLASS_SUBN_LID_ROUTED) ||
  1629. (mad_hdr->mgmt_class == IB_MGMT_CLASS_SUBN_DIRECTED_ROUTE)) {
  1630. if (qp_num == 0)
  1631. valid = 1;
  1632. } else {
  1633. /* CM attributes other than ClassPortInfo only use Send method */
  1634. if ((mad_hdr->mgmt_class == IB_MGMT_CLASS_CM) &&
  1635. (mad_hdr->attr_id != IB_MGMT_CLASSPORTINFO_ATTR_ID) &&
  1636. (mad_hdr->method != IB_MGMT_METHOD_SEND))
  1637. goto out;
  1638. /* Filter GSI packets sent to QP0 */
  1639. if (qp_num != 0)
  1640. valid = 1;
  1641. }
  1642. out:
  1643. return valid;
  1644. }
  1645. static int is_rmpp_data_mad(const struct ib_mad_agent_private *mad_agent_priv,
  1646. const struct ib_mad_hdr *mad_hdr)
  1647. {
  1648. struct ib_rmpp_mad *rmpp_mad;
  1649. rmpp_mad = (struct ib_rmpp_mad *)mad_hdr;
  1650. return !mad_agent_priv->agent.rmpp_version ||
  1651. !ib_mad_kernel_rmpp_agent(&mad_agent_priv->agent) ||
  1652. !(ib_get_rmpp_flags(&rmpp_mad->rmpp_hdr) &
  1653. IB_MGMT_RMPP_FLAG_ACTIVE) ||
  1654. (rmpp_mad->rmpp_hdr.rmpp_type == IB_MGMT_RMPP_TYPE_DATA);
  1655. }
  1656. static inline int rcv_has_same_class(const struct ib_mad_send_wr_private *wr,
  1657. const struct ib_mad_recv_wc *rwc)
  1658. {
  1659. return ((struct ib_mad_hdr *)(wr->send_buf.mad))->mgmt_class ==
  1660. rwc->recv_buf.mad->mad_hdr.mgmt_class;
  1661. }
  1662. static inline int
  1663. rcv_has_same_gid(const struct ib_mad_agent_private *mad_agent_priv,
  1664. const struct ib_mad_send_wr_private *wr,
  1665. const struct ib_mad_recv_wc *rwc)
  1666. {
  1667. struct rdma_ah_attr attr;
  1668. u8 send_resp, rcv_resp;
  1669. union ib_gid sgid;
  1670. struct ib_device *device = mad_agent_priv->agent.device;
  1671. u32 port_num = mad_agent_priv->agent.port_num;
  1672. u8 lmc;
  1673. bool has_grh;
  1674. send_resp = ib_response_mad((struct ib_mad_hdr *)wr->send_buf.mad);
  1675. rcv_resp = ib_response_mad(&rwc->recv_buf.mad->mad_hdr);
  1676. if (send_resp == rcv_resp)
  1677. /* both requests, or both responses. GIDs different */
  1678. return 0;
  1679. if (rdma_query_ah(wr->send_buf.ah, &attr))
  1680. /* Assume not equal, to avoid false positives. */
  1681. return 0;
  1682. has_grh = !!(rdma_ah_get_ah_flags(&attr) & IB_AH_GRH);
  1683. if (has_grh != !!(rwc->wc->wc_flags & IB_WC_GRH))
  1684. /* one has GID, other does not. Assume different */
  1685. return 0;
  1686. if (!send_resp && rcv_resp) {
  1687. /* is request/response. */
  1688. if (!has_grh) {
  1689. if (ib_get_cached_lmc(device, port_num, &lmc))
  1690. return 0;
  1691. return (!lmc || !((rdma_ah_get_path_bits(&attr) ^
  1692. rwc->wc->dlid_path_bits) &
  1693. ((1 << lmc) - 1)));
  1694. } else {
  1695. const struct ib_global_route *grh =
  1696. rdma_ah_read_grh(&attr);
  1697. if (rdma_query_gid(device, port_num,
  1698. grh->sgid_index, &sgid))
  1699. return 0;
  1700. return !memcmp(sgid.raw, rwc->recv_buf.grh->dgid.raw,
  1701. 16);
  1702. }
  1703. }
  1704. if (!has_grh)
  1705. return rdma_ah_get_dlid(&attr) == rwc->wc->slid;
  1706. else
  1707. return !memcmp(rdma_ah_read_grh(&attr)->dgid.raw,
  1708. rwc->recv_buf.grh->sgid.raw,
  1709. 16);
  1710. }
  1711. static inline int is_direct(u8 class)
  1712. {
  1713. return (class == IB_MGMT_CLASS_SUBN_DIRECTED_ROUTE);
  1714. }
  1715. struct ib_mad_send_wr_private*
  1716. ib_find_send_mad(const struct ib_mad_agent_private *mad_agent_priv,
  1717. const struct ib_mad_recv_wc *wc)
  1718. {
  1719. struct ib_mad_send_wr_private *wr;
  1720. const struct ib_mad_hdr *mad_hdr;
  1721. mad_hdr = &wc->recv_buf.mad->mad_hdr;
  1722. list_for_each_entry(wr, &mad_agent_priv->wait_list, agent_list) {
  1723. if ((wr->tid == mad_hdr->tid) &&
  1724. rcv_has_same_class(wr, wc) &&
  1725. /*
  1726. * Don't check GID for direct routed MADs.
  1727. * These might have permissive LIDs.
  1728. */
  1729. (is_direct(mad_hdr->mgmt_class) ||
  1730. rcv_has_same_gid(mad_agent_priv, wr, wc)))
  1731. return (wr->state != IB_MAD_STATE_CANCELED) ? wr : NULL;
  1732. }
  1733. list_for_each_entry(wr, &mad_agent_priv->backlog_list, agent_list) {
  1734. if ((wr->tid == mad_hdr->tid) &&
  1735. rcv_has_same_class(wr, wc) &&
  1736. /*
  1737. * Don't check GID for direct routed MADs.
  1738. * These might have permissive LIDs.
  1739. */
  1740. (is_direct(mad_hdr->mgmt_class) ||
  1741. rcv_has_same_gid(mad_agent_priv, wr, wc)))
  1742. return (wr->state != IB_MAD_STATE_CANCELED) ? wr : NULL;
  1743. }
  1744. /*
  1745. * It's possible to receive the response before we've
  1746. * been notified that the send has completed
  1747. */
  1748. list_for_each_entry(wr, &mad_agent_priv->send_list, agent_list) {
  1749. if (is_rmpp_data_mad(mad_agent_priv, wr->send_buf.mad) &&
  1750. wr->tid == mad_hdr->tid &&
  1751. wr->timeout &&
  1752. rcv_has_same_class(wr, wc) &&
  1753. /*
  1754. * Don't check GID for direct routed MADs.
  1755. * These might have permissive LIDs.
  1756. */
  1757. (is_direct(mad_hdr->mgmt_class) ||
  1758. rcv_has_same_gid(mad_agent_priv, wr, wc)))
  1759. /* Verify request has not been canceled */
  1760. return (wr->state != IB_MAD_STATE_CANCELED) ? wr : NULL;
  1761. }
  1762. return NULL;
  1763. }
  1764. static void
  1765. process_backlog_mads(struct ib_mad_agent_private *mad_agent_priv)
  1766. {
  1767. struct ib_mad_send_wr_private *mad_send_wr;
  1768. struct ib_mad_send_wc mad_send_wc = {};
  1769. unsigned long flags;
  1770. int ret;
  1771. spin_lock_irqsave(&mad_agent_priv->lock, flags);
  1772. while (!list_empty(&mad_agent_priv->backlog_list) &&
  1773. (mad_agent_priv->sol_fc_send_count +
  1774. mad_agent_priv->sol_fc_wait_count <
  1775. mad_agent_priv->sol_fc_max)) {
  1776. mad_send_wr = list_entry(mad_agent_priv->backlog_list.next,
  1777. struct ib_mad_send_wr_private,
  1778. agent_list);
  1779. change_mad_state(mad_send_wr, IB_MAD_STATE_SEND_START);
  1780. spin_unlock_irqrestore(&mad_agent_priv->lock, flags);
  1781. ret = ib_send_mad(mad_send_wr);
  1782. if (ret) {
  1783. spin_lock_irqsave(&mad_agent_priv->lock, flags);
  1784. deref_mad_agent(mad_agent_priv);
  1785. change_mad_state(mad_send_wr, IB_MAD_STATE_DONE);
  1786. spin_unlock_irqrestore(&mad_agent_priv->lock, flags);
  1787. mad_send_wc.send_buf = &mad_send_wr->send_buf;
  1788. mad_send_wc.status = IB_WC_LOC_QP_OP_ERR;
  1789. mad_agent_priv->agent.send_handler(
  1790. &mad_agent_priv->agent, &mad_send_wc);
  1791. }
  1792. spin_lock_irqsave(&mad_agent_priv->lock, flags);
  1793. }
  1794. spin_unlock_irqrestore(&mad_agent_priv->lock, flags);
  1795. }
  1796. void ib_mark_mad_done(struct ib_mad_send_wr_private *mad_send_wr)
  1797. {
  1798. mad_send_wr->timeout = 0;
  1799. if (mad_send_wr->state == IB_MAD_STATE_WAIT_RESP ||
  1800. mad_send_wr->state == IB_MAD_STATE_QUEUED)
  1801. change_mad_state(mad_send_wr, IB_MAD_STATE_DONE);
  1802. else
  1803. change_mad_state(mad_send_wr, IB_MAD_STATE_EARLY_RESP);
  1804. }
  1805. static void ib_mad_complete_recv(struct ib_mad_agent_private *mad_agent_priv,
  1806. struct ib_mad_recv_wc *mad_recv_wc)
  1807. {
  1808. struct ib_mad_send_wr_private *mad_send_wr;
  1809. struct ib_mad_send_wc mad_send_wc;
  1810. unsigned long flags;
  1811. bool is_mad_done;
  1812. int ret;
  1813. INIT_LIST_HEAD(&mad_recv_wc->rmpp_list);
  1814. ret = ib_mad_enforce_security(mad_agent_priv,
  1815. mad_recv_wc->wc->pkey_index);
  1816. if (ret) {
  1817. ib_free_recv_mad(mad_recv_wc);
  1818. deref_mad_agent(mad_agent_priv);
  1819. return;
  1820. }
  1821. list_add(&mad_recv_wc->recv_buf.list, &mad_recv_wc->rmpp_list);
  1822. if (ib_mad_kernel_rmpp_agent(&mad_agent_priv->agent)) {
  1823. mad_recv_wc = ib_process_rmpp_recv_wc(mad_agent_priv,
  1824. mad_recv_wc);
  1825. if (!mad_recv_wc) {
  1826. deref_mad_agent(mad_agent_priv);
  1827. return;
  1828. }
  1829. }
  1830. /* Complete corresponding request */
  1831. if (ib_response_mad(&mad_recv_wc->recv_buf.mad->mad_hdr)) {
  1832. spin_lock_irqsave(&mad_agent_priv->lock, flags);
  1833. mad_send_wr = ib_find_send_mad(mad_agent_priv, mad_recv_wc);
  1834. if (!mad_send_wr) {
  1835. spin_unlock_irqrestore(&mad_agent_priv->lock, flags);
  1836. if (!ib_mad_kernel_rmpp_agent(&mad_agent_priv->agent)
  1837. && ib_is_mad_class_rmpp(mad_recv_wc->recv_buf.mad->mad_hdr.mgmt_class)
  1838. && (ib_get_rmpp_flags(&((struct ib_rmpp_mad *)mad_recv_wc->recv_buf.mad)->rmpp_hdr)
  1839. & IB_MGMT_RMPP_FLAG_ACTIVE)) {
  1840. /* user rmpp is in effect
  1841. * and this is an active RMPP MAD
  1842. */
  1843. mad_agent_priv->agent.recv_handler(
  1844. &mad_agent_priv->agent, NULL,
  1845. mad_recv_wc);
  1846. deref_mad_agent(mad_agent_priv);
  1847. } else {
  1848. /* not user rmpp, revert to normal behavior and
  1849. * drop the mad
  1850. */
  1851. ib_free_recv_mad(mad_recv_wc);
  1852. deref_mad_agent(mad_agent_priv);
  1853. return;
  1854. }
  1855. } else {
  1856. ib_mark_mad_done(mad_send_wr);
  1857. is_mad_done = (mad_send_wr->state == IB_MAD_STATE_DONE);
  1858. spin_unlock_irqrestore(&mad_agent_priv->lock, flags);
  1859. /* Defined behavior is to complete response before request */
  1860. mad_agent_priv->agent.recv_handler(
  1861. &mad_agent_priv->agent,
  1862. &mad_send_wr->send_buf,
  1863. mad_recv_wc);
  1864. deref_mad_agent(mad_agent_priv);
  1865. if (is_mad_done) {
  1866. mad_send_wc.status = IB_WC_SUCCESS;
  1867. mad_send_wc.vendor_err = 0;
  1868. mad_send_wc.send_buf = &mad_send_wr->send_buf;
  1869. ib_mad_complete_send_wr(mad_send_wr,
  1870. &mad_send_wc);
  1871. }
  1872. }
  1873. } else {
  1874. mad_agent_priv->agent.recv_handler(&mad_agent_priv->agent, NULL,
  1875. mad_recv_wc);
  1876. deref_mad_agent(mad_agent_priv);
  1877. }
  1878. }
  1879. static enum smi_action handle_ib_smi(const struct ib_mad_port_private *port_priv,
  1880. const struct ib_mad_qp_info *qp_info,
  1881. const struct ib_wc *wc,
  1882. u32 port_num,
  1883. struct ib_mad_private *recv,
  1884. struct ib_mad_private *response)
  1885. {
  1886. enum smi_forward_action retsmi;
  1887. struct ib_smp *smp = (struct ib_smp *)recv->mad;
  1888. trace_ib_mad_handle_ib_smi(smp);
  1889. if (smi_handle_dr_smp_recv(smp,
  1890. rdma_cap_ib_switch(port_priv->device),
  1891. port_num,
  1892. port_priv->device->phys_port_cnt) ==
  1893. IB_SMI_DISCARD)
  1894. return IB_SMI_DISCARD;
  1895. retsmi = smi_check_forward_dr_smp(smp);
  1896. if (retsmi == IB_SMI_LOCAL)
  1897. return IB_SMI_HANDLE;
  1898. if (retsmi == IB_SMI_SEND) { /* don't forward */
  1899. if (smi_handle_dr_smp_send(smp,
  1900. rdma_cap_ib_switch(port_priv->device),
  1901. port_num) == IB_SMI_DISCARD)
  1902. return IB_SMI_DISCARD;
  1903. if (smi_check_local_smp(smp, port_priv->device) == IB_SMI_DISCARD)
  1904. return IB_SMI_DISCARD;
  1905. } else if (rdma_cap_ib_switch(port_priv->device)) {
  1906. /* forward case for switches */
  1907. memcpy(response, recv, mad_priv_size(response));
  1908. response->header.recv_wc.wc = &response->header.wc;
  1909. response->header.recv_wc.recv_buf.mad = (struct ib_mad *)response->mad;
  1910. response->header.recv_wc.recv_buf.grh = &response->grh;
  1911. agent_send_response((const struct ib_mad_hdr *)response->mad,
  1912. &response->grh, wc,
  1913. port_priv->device,
  1914. smi_get_fwd_port(smp),
  1915. qp_info->qp->qp_num,
  1916. response->mad_size,
  1917. false);
  1918. return IB_SMI_DISCARD;
  1919. }
  1920. return IB_SMI_HANDLE;
  1921. }
  1922. static bool generate_unmatched_resp(const struct ib_mad_private *recv,
  1923. struct ib_mad_private *response,
  1924. size_t *resp_len, bool opa)
  1925. {
  1926. const struct ib_mad_hdr *recv_hdr = (const struct ib_mad_hdr *)recv->mad;
  1927. struct ib_mad_hdr *resp_hdr = (struct ib_mad_hdr *)response->mad;
  1928. if (recv_hdr->method == IB_MGMT_METHOD_GET ||
  1929. recv_hdr->method == IB_MGMT_METHOD_SET) {
  1930. memcpy(response, recv, mad_priv_size(response));
  1931. response->header.recv_wc.wc = &response->header.wc;
  1932. response->header.recv_wc.recv_buf.mad = (struct ib_mad *)response->mad;
  1933. response->header.recv_wc.recv_buf.grh = &response->grh;
  1934. resp_hdr->method = IB_MGMT_METHOD_GET_RESP;
  1935. resp_hdr->status = cpu_to_be16(IB_MGMT_MAD_STATUS_UNSUPPORTED_METHOD_ATTRIB);
  1936. if (recv_hdr->mgmt_class == IB_MGMT_CLASS_SUBN_DIRECTED_ROUTE)
  1937. resp_hdr->status |= IB_SMP_DIRECTION;
  1938. if (opa && recv_hdr->base_version == OPA_MGMT_BASE_VERSION) {
  1939. if (recv_hdr->mgmt_class ==
  1940. IB_MGMT_CLASS_SUBN_LID_ROUTED ||
  1941. recv_hdr->mgmt_class ==
  1942. IB_MGMT_CLASS_SUBN_DIRECTED_ROUTE)
  1943. *resp_len = opa_get_smp_header_size(
  1944. (struct opa_smp *)recv->mad);
  1945. else
  1946. *resp_len = sizeof(struct ib_mad_hdr);
  1947. }
  1948. return true;
  1949. } else {
  1950. return false;
  1951. }
  1952. }
  1953. static enum smi_action
  1954. handle_opa_smi(struct ib_mad_port_private *port_priv,
  1955. struct ib_mad_qp_info *qp_info,
  1956. struct ib_wc *wc,
  1957. u32 port_num,
  1958. struct ib_mad_private *recv,
  1959. struct ib_mad_private *response)
  1960. {
  1961. enum smi_forward_action retsmi;
  1962. struct opa_smp *smp = (struct opa_smp *)recv->mad;
  1963. trace_ib_mad_handle_opa_smi(smp);
  1964. if (opa_smi_handle_dr_smp_recv(smp,
  1965. rdma_cap_ib_switch(port_priv->device),
  1966. port_num,
  1967. port_priv->device->phys_port_cnt) ==
  1968. IB_SMI_DISCARD)
  1969. return IB_SMI_DISCARD;
  1970. retsmi = opa_smi_check_forward_dr_smp(smp);
  1971. if (retsmi == IB_SMI_LOCAL)
  1972. return IB_SMI_HANDLE;
  1973. if (retsmi == IB_SMI_SEND) { /* don't forward */
  1974. if (opa_smi_handle_dr_smp_send(smp,
  1975. rdma_cap_ib_switch(port_priv->device),
  1976. port_num) == IB_SMI_DISCARD)
  1977. return IB_SMI_DISCARD;
  1978. if (opa_smi_check_local_smp(smp, port_priv->device) ==
  1979. IB_SMI_DISCARD)
  1980. return IB_SMI_DISCARD;
  1981. } else if (rdma_cap_ib_switch(port_priv->device)) {
  1982. /* forward case for switches */
  1983. memcpy(response, recv, mad_priv_size(response));
  1984. response->header.recv_wc.wc = &response->header.wc;
  1985. response->header.recv_wc.recv_buf.opa_mad =
  1986. (struct opa_mad *)response->mad;
  1987. response->header.recv_wc.recv_buf.grh = &response->grh;
  1988. agent_send_response((const struct ib_mad_hdr *)response->mad,
  1989. &response->grh, wc,
  1990. port_priv->device,
  1991. opa_smi_get_fwd_port(smp),
  1992. qp_info->qp->qp_num,
  1993. recv->header.wc.byte_len,
  1994. true);
  1995. return IB_SMI_DISCARD;
  1996. }
  1997. return IB_SMI_HANDLE;
  1998. }
  1999. static enum smi_action
  2000. handle_smi(struct ib_mad_port_private *port_priv,
  2001. struct ib_mad_qp_info *qp_info,
  2002. struct ib_wc *wc,
  2003. u32 port_num,
  2004. struct ib_mad_private *recv,
  2005. struct ib_mad_private *response,
  2006. bool opa)
  2007. {
  2008. struct ib_mad_hdr *mad_hdr = (struct ib_mad_hdr *)recv->mad;
  2009. if (opa && mad_hdr->base_version == OPA_MGMT_BASE_VERSION &&
  2010. mad_hdr->class_version == OPA_SM_CLASS_VERSION)
  2011. return handle_opa_smi(port_priv, qp_info, wc, port_num, recv,
  2012. response);
  2013. return handle_ib_smi(port_priv, qp_info, wc, port_num, recv, response);
  2014. }
  2015. static void ib_mad_recv_done(struct ib_cq *cq, struct ib_wc *wc)
  2016. {
  2017. struct ib_mad_port_private *port_priv = cq->cq_context;
  2018. struct ib_mad_list_head *mad_list =
  2019. container_of(wc->wr_cqe, struct ib_mad_list_head, cqe);
  2020. struct ib_mad_qp_info *qp_info;
  2021. struct ib_mad_private_header *mad_priv_hdr;
  2022. struct ib_mad_private *recv, *response = NULL;
  2023. struct ib_mad_agent_private *mad_agent;
  2024. u32 port_num;
  2025. int ret = IB_MAD_RESULT_SUCCESS;
  2026. size_t mad_size;
  2027. u16 resp_mad_pkey_index = 0;
  2028. bool opa;
  2029. if (list_empty_careful(&port_priv->port_list))
  2030. return;
  2031. if (wc->status != IB_WC_SUCCESS) {
  2032. /*
  2033. * Receive errors indicate that the QP has entered the error
  2034. * state - error handling/shutdown code will cleanup
  2035. */
  2036. return;
  2037. }
  2038. qp_info = mad_list->mad_queue->qp_info;
  2039. dequeue_mad(mad_list);
  2040. opa = rdma_cap_opa_mad(qp_info->port_priv->device,
  2041. qp_info->port_priv->port_num);
  2042. mad_priv_hdr = container_of(mad_list, struct ib_mad_private_header,
  2043. mad_list);
  2044. recv = container_of(mad_priv_hdr, struct ib_mad_private, header);
  2045. ib_dma_unmap_single(port_priv->device,
  2046. recv->header.mapping,
  2047. mad_priv_dma_size(recv),
  2048. DMA_FROM_DEVICE);
  2049. /* Setup MAD receive work completion from "normal" work completion */
  2050. recv->header.wc = *wc;
  2051. recv->header.recv_wc.wc = &recv->header.wc;
  2052. if (opa && ((struct ib_mad_hdr *)(recv->mad))->base_version == OPA_MGMT_BASE_VERSION) {
  2053. recv->header.recv_wc.mad_len = wc->byte_len - sizeof(struct ib_grh);
  2054. recv->header.recv_wc.mad_seg_size = sizeof(struct opa_mad);
  2055. } else {
  2056. recv->header.recv_wc.mad_len = sizeof(struct ib_mad);
  2057. recv->header.recv_wc.mad_seg_size = sizeof(struct ib_mad);
  2058. }
  2059. recv->header.recv_wc.recv_buf.mad = (struct ib_mad *)recv->mad;
  2060. recv->header.recv_wc.recv_buf.grh = &recv->grh;
  2061. /* Validate MAD */
  2062. if (!validate_mad((const struct ib_mad_hdr *)recv->mad, qp_info, opa))
  2063. goto out;
  2064. trace_ib_mad_recv_done_handler(qp_info, wc,
  2065. (struct ib_mad_hdr *)recv->mad);
  2066. mad_size = recv->mad_size;
  2067. response = alloc_mad_private(mad_size, GFP_KERNEL);
  2068. if (!response)
  2069. goto out;
  2070. if (rdma_cap_ib_switch(port_priv->device))
  2071. port_num = wc->port_num;
  2072. else
  2073. port_num = port_priv->port_num;
  2074. if (((struct ib_mad_hdr *)recv->mad)->mgmt_class ==
  2075. IB_MGMT_CLASS_SUBN_DIRECTED_ROUTE) {
  2076. if (handle_smi(port_priv, qp_info, wc, port_num, recv,
  2077. response, opa)
  2078. == IB_SMI_DISCARD)
  2079. goto out;
  2080. }
  2081. /* Give driver "right of first refusal" on incoming MAD */
  2082. if (port_priv->device->ops.process_mad) {
  2083. ret = port_priv->device->ops.process_mad(
  2084. port_priv->device, 0, port_priv->port_num, wc,
  2085. &recv->grh, (const struct ib_mad *)recv->mad,
  2086. (struct ib_mad *)response->mad, &mad_size,
  2087. &resp_mad_pkey_index);
  2088. if (opa)
  2089. wc->pkey_index = resp_mad_pkey_index;
  2090. if (ret & IB_MAD_RESULT_SUCCESS) {
  2091. if (ret & IB_MAD_RESULT_CONSUMED)
  2092. goto out;
  2093. if (ret & IB_MAD_RESULT_REPLY) {
  2094. agent_send_response((const struct ib_mad_hdr *)response->mad,
  2095. &recv->grh, wc,
  2096. port_priv->device,
  2097. port_num,
  2098. qp_info->qp->qp_num,
  2099. mad_size, opa);
  2100. goto out;
  2101. }
  2102. }
  2103. }
  2104. mad_agent = find_mad_agent(port_priv, (const struct ib_mad_hdr *)recv->mad);
  2105. if (mad_agent) {
  2106. trace_ib_mad_recv_done_agent(mad_agent);
  2107. ib_mad_complete_recv(mad_agent, &recv->header.recv_wc);
  2108. /*
  2109. * recv is freed up in error cases in ib_mad_complete_recv
  2110. * or via recv_handler in ib_mad_complete_recv()
  2111. */
  2112. recv = NULL;
  2113. } else if ((ret & IB_MAD_RESULT_SUCCESS) &&
  2114. generate_unmatched_resp(recv, response, &mad_size, opa)) {
  2115. agent_send_response((const struct ib_mad_hdr *)response->mad, &recv->grh, wc,
  2116. port_priv->device, port_num,
  2117. qp_info->qp->qp_num, mad_size, opa);
  2118. }
  2119. out:
  2120. /* Post another receive request for this QP */
  2121. if (response) {
  2122. ib_mad_post_receive_mads(qp_info, response);
  2123. kfree(recv);
  2124. } else
  2125. ib_mad_post_receive_mads(qp_info, recv);
  2126. }
  2127. static void adjust_timeout(struct ib_mad_agent_private *mad_agent_priv)
  2128. {
  2129. struct ib_mad_send_wr_private *mad_send_wr;
  2130. unsigned long delay;
  2131. if (list_empty(&mad_agent_priv->wait_list)) {
  2132. cancel_delayed_work(&mad_agent_priv->timed_work);
  2133. } else {
  2134. mad_send_wr = list_entry(mad_agent_priv->wait_list.next,
  2135. struct ib_mad_send_wr_private,
  2136. agent_list);
  2137. if (time_after(mad_agent_priv->timeout,
  2138. mad_send_wr->timeout)) {
  2139. mad_agent_priv->timeout = mad_send_wr->timeout;
  2140. delay = mad_send_wr->timeout - jiffies;
  2141. if ((long)delay <= 0)
  2142. delay = 1;
  2143. mod_delayed_work(mad_agent_priv->qp_info->port_priv->wq,
  2144. &mad_agent_priv->timed_work, delay);
  2145. }
  2146. }
  2147. }
  2148. static void wait_for_response(struct ib_mad_send_wr_private *mad_send_wr)
  2149. {
  2150. struct ib_mad_agent_private *mad_agent_priv;
  2151. unsigned long delay;
  2152. mad_agent_priv = mad_send_wr->mad_agent_priv;
  2153. delay = mad_send_wr->timeout;
  2154. change_mad_state(mad_send_wr, IB_MAD_STATE_WAIT_RESP);
  2155. /* Reschedule a work item if we have a shorter timeout */
  2156. if (mad_agent_priv->wait_list.next == &mad_send_wr->agent_list)
  2157. mod_delayed_work(mad_agent_priv->qp_info->port_priv->wq,
  2158. &mad_agent_priv->timed_work, delay);
  2159. }
  2160. void ib_reset_mad_timeout(struct ib_mad_send_wr_private *mad_send_wr,
  2161. unsigned long timeout_ms)
  2162. {
  2163. mad_send_wr->timeout = msecs_to_jiffies(timeout_ms);
  2164. wait_for_response(mad_send_wr);
  2165. }
  2166. /*
  2167. * Process a send work completion
  2168. */
  2169. void ib_mad_complete_send_wr(struct ib_mad_send_wr_private *mad_send_wr,
  2170. struct ib_mad_send_wc *mad_send_wc)
  2171. {
  2172. struct ib_mad_agent_private *mad_agent_priv;
  2173. unsigned long flags;
  2174. int ret;
  2175. mad_agent_priv = mad_send_wr->mad_agent_priv;
  2176. spin_lock_irqsave(&mad_agent_priv->lock, flags);
  2177. if (ib_mad_kernel_rmpp_agent(&mad_agent_priv->agent)) {
  2178. ret = ib_process_rmpp_send_wc(mad_send_wr, mad_send_wc);
  2179. if (ret == IB_RMPP_RESULT_CONSUMED)
  2180. goto done;
  2181. } else
  2182. ret = IB_RMPP_RESULT_UNHANDLED;
  2183. if (mad_send_wr->state == IB_MAD_STATE_CANCELED)
  2184. mad_send_wc->status = IB_WC_WR_FLUSH_ERR;
  2185. else if (mad_send_wr->state == IB_MAD_STATE_SEND_START &&
  2186. mad_send_wr->timeout) {
  2187. wait_for_response(mad_send_wr);
  2188. goto done;
  2189. }
  2190. /* Remove send from MAD agent and notify client of completion */
  2191. if (mad_send_wr->state != IB_MAD_STATE_DONE)
  2192. change_mad_state(mad_send_wr, IB_MAD_STATE_DONE);
  2193. adjust_timeout(mad_agent_priv);
  2194. spin_unlock_irqrestore(&mad_agent_priv->lock, flags);
  2195. if (ret == IB_RMPP_RESULT_INTERNAL) {
  2196. ib_rmpp_send_handler(mad_send_wc);
  2197. } else {
  2198. if (mad_send_wr->is_solicited_fc)
  2199. process_backlog_mads(mad_agent_priv);
  2200. mad_agent_priv->agent.send_handler(&mad_agent_priv->agent,
  2201. mad_send_wc);
  2202. }
  2203. /* Release reference on agent taken when sending */
  2204. deref_mad_agent(mad_agent_priv);
  2205. return;
  2206. done:
  2207. spin_unlock_irqrestore(&mad_agent_priv->lock, flags);
  2208. }
  2209. static void ib_mad_send_done(struct ib_cq *cq, struct ib_wc *wc)
  2210. {
  2211. struct ib_mad_port_private *port_priv = cq->cq_context;
  2212. struct ib_mad_list_head *mad_list =
  2213. container_of(wc->wr_cqe, struct ib_mad_list_head, cqe);
  2214. struct ib_mad_send_wr_private *mad_send_wr, *queued_send_wr;
  2215. struct ib_mad_qp_info *qp_info;
  2216. struct ib_mad_queue *send_queue;
  2217. struct ib_mad_send_wc mad_send_wc;
  2218. unsigned long flags;
  2219. int ret;
  2220. if (list_empty_careful(&port_priv->port_list))
  2221. return;
  2222. if (wc->status != IB_WC_SUCCESS) {
  2223. if (!ib_mad_send_error(port_priv, wc))
  2224. return;
  2225. }
  2226. mad_send_wr = container_of(mad_list, struct ib_mad_send_wr_private,
  2227. mad_list);
  2228. send_queue = mad_list->mad_queue;
  2229. qp_info = send_queue->qp_info;
  2230. trace_ib_mad_send_done_agent(mad_send_wr->mad_agent_priv);
  2231. trace_ib_mad_send_done_handler(mad_send_wr, wc);
  2232. retry:
  2233. ib_dma_unmap_single(mad_send_wr->send_buf.mad_agent->device,
  2234. mad_send_wr->header_mapping,
  2235. mad_send_wr->sg_list[0].length, DMA_TO_DEVICE);
  2236. ib_dma_unmap_single(mad_send_wr->send_buf.mad_agent->device,
  2237. mad_send_wr->payload_mapping,
  2238. mad_send_wr->sg_list[1].length, DMA_TO_DEVICE);
  2239. queued_send_wr = NULL;
  2240. spin_lock_irqsave(&send_queue->lock, flags);
  2241. list_del(&mad_list->list);
  2242. /* Move queued send to the send queue */
  2243. if (send_queue->count-- > send_queue->max_active) {
  2244. mad_list = container_of(qp_info->overflow_list.next,
  2245. struct ib_mad_list_head, list);
  2246. queued_send_wr = container_of(mad_list,
  2247. struct ib_mad_send_wr_private,
  2248. mad_list);
  2249. list_move_tail(&mad_list->list, &send_queue->list);
  2250. }
  2251. spin_unlock_irqrestore(&send_queue->lock, flags);
  2252. mad_send_wc.send_buf = &mad_send_wr->send_buf;
  2253. mad_send_wc.status = wc->status;
  2254. mad_send_wc.vendor_err = wc->vendor_err;
  2255. ib_mad_complete_send_wr(mad_send_wr, &mad_send_wc);
  2256. if (queued_send_wr) {
  2257. trace_ib_mad_send_done_resend(queued_send_wr, qp_info);
  2258. ret = ib_post_send(qp_info->qp, &queued_send_wr->send_wr.wr,
  2259. NULL);
  2260. if (ret) {
  2261. dev_err(&port_priv->device->dev,
  2262. "ib_post_send failed: %d\n", ret);
  2263. mad_send_wr = queued_send_wr;
  2264. wc->status = IB_WC_LOC_QP_OP_ERR;
  2265. goto retry;
  2266. }
  2267. }
  2268. }
  2269. static void mark_sends_for_retry(struct ib_mad_qp_info *qp_info)
  2270. {
  2271. struct ib_mad_send_wr_private *mad_send_wr;
  2272. struct ib_mad_list_head *mad_list;
  2273. unsigned long flags;
  2274. spin_lock_irqsave(&qp_info->send_queue.lock, flags);
  2275. list_for_each_entry(mad_list, &qp_info->send_queue.list, list) {
  2276. mad_send_wr = container_of(mad_list,
  2277. struct ib_mad_send_wr_private,
  2278. mad_list);
  2279. mad_send_wr->retry = 1;
  2280. }
  2281. spin_unlock_irqrestore(&qp_info->send_queue.lock, flags);
  2282. }
  2283. static bool ib_mad_send_error(struct ib_mad_port_private *port_priv,
  2284. struct ib_wc *wc)
  2285. {
  2286. struct ib_mad_list_head *mad_list =
  2287. container_of(wc->wr_cqe, struct ib_mad_list_head, cqe);
  2288. struct ib_mad_qp_info *qp_info = mad_list->mad_queue->qp_info;
  2289. struct ib_mad_send_wr_private *mad_send_wr;
  2290. int ret;
  2291. /*
  2292. * Send errors will transition the QP to SQE - move
  2293. * QP to RTS and repost flushed work requests
  2294. */
  2295. mad_send_wr = container_of(mad_list, struct ib_mad_send_wr_private,
  2296. mad_list);
  2297. if (wc->status == IB_WC_WR_FLUSH_ERR) {
  2298. if (mad_send_wr->retry) {
  2299. /* Repost send */
  2300. mad_send_wr->retry = 0;
  2301. trace_ib_mad_error_handler(mad_send_wr, qp_info);
  2302. ret = ib_post_send(qp_info->qp, &mad_send_wr->send_wr.wr,
  2303. NULL);
  2304. if (!ret)
  2305. return false;
  2306. }
  2307. } else {
  2308. struct ib_qp_attr *attr;
  2309. /* Transition QP to RTS and fail offending send */
  2310. attr = kmalloc_obj(*attr);
  2311. if (attr) {
  2312. attr->qp_state = IB_QPS_RTS;
  2313. attr->cur_qp_state = IB_QPS_SQE;
  2314. ret = ib_modify_qp(qp_info->qp, attr,
  2315. IB_QP_STATE | IB_QP_CUR_STATE);
  2316. kfree(attr);
  2317. if (ret)
  2318. dev_err(&port_priv->device->dev,
  2319. "%s - ib_modify_qp to RTS: %d\n",
  2320. __func__, ret);
  2321. else
  2322. mark_sends_for_retry(qp_info);
  2323. }
  2324. }
  2325. return true;
  2326. }
  2327. static void clear_mad_error_list(struct list_head *list,
  2328. enum ib_wc_status wc_status,
  2329. struct ib_mad_agent_private *mad_agent_priv)
  2330. {
  2331. struct ib_mad_send_wr_private *mad_send_wr, *n;
  2332. struct ib_mad_send_wc mad_send_wc;
  2333. mad_send_wc.status = wc_status;
  2334. mad_send_wc.vendor_err = 0;
  2335. list_for_each_entry_safe(mad_send_wr, n, list, agent_list) {
  2336. mad_send_wc.send_buf = &mad_send_wr->send_buf;
  2337. mad_agent_priv->agent.send_handler(&mad_agent_priv->agent,
  2338. &mad_send_wc);
  2339. deref_mad_agent(mad_agent_priv);
  2340. }
  2341. }
  2342. static void cancel_mads(struct ib_mad_agent_private *mad_agent_priv)
  2343. {
  2344. unsigned long flags;
  2345. struct ib_mad_send_wr_private *mad_send_wr, *temp_mad_send_wr;
  2346. struct list_head cancel_list;
  2347. INIT_LIST_HEAD(&cancel_list);
  2348. spin_lock_irqsave(&mad_agent_priv->lock, flags);
  2349. list_for_each_entry_safe(mad_send_wr, temp_mad_send_wr,
  2350. &mad_agent_priv->send_list, agent_list)
  2351. change_mad_state(mad_send_wr, IB_MAD_STATE_CANCELED);
  2352. /* Empty wait & backlog list to prevent receives from finding request */
  2353. list_for_each_entry_safe(mad_send_wr, temp_mad_send_wr,
  2354. &mad_agent_priv->wait_list, agent_list) {
  2355. change_mad_state(mad_send_wr, IB_MAD_STATE_DONE);
  2356. list_add_tail(&mad_send_wr->agent_list, &cancel_list);
  2357. }
  2358. list_for_each_entry_safe(mad_send_wr, temp_mad_send_wr,
  2359. &mad_agent_priv->backlog_list, agent_list) {
  2360. change_mad_state(mad_send_wr, IB_MAD_STATE_DONE);
  2361. list_add_tail(&mad_send_wr->agent_list, &cancel_list);
  2362. }
  2363. spin_unlock_irqrestore(&mad_agent_priv->lock, flags);
  2364. /* Report all cancelled requests */
  2365. clear_mad_error_list(&cancel_list, IB_WC_WR_FLUSH_ERR, mad_agent_priv);
  2366. }
  2367. static struct ib_mad_send_wr_private*
  2368. find_send_wr(struct ib_mad_agent_private *mad_agent_priv,
  2369. struct ib_mad_send_buf *send_buf)
  2370. {
  2371. struct ib_mad_send_wr_private *mad_send_wr;
  2372. list_for_each_entry(mad_send_wr, &mad_agent_priv->wait_list,
  2373. agent_list) {
  2374. if (&mad_send_wr->send_buf == send_buf)
  2375. return mad_send_wr;
  2376. }
  2377. list_for_each_entry(mad_send_wr, &mad_agent_priv->send_list,
  2378. agent_list) {
  2379. if (is_rmpp_data_mad(mad_agent_priv,
  2380. mad_send_wr->send_buf.mad) &&
  2381. &mad_send_wr->send_buf == send_buf)
  2382. return mad_send_wr;
  2383. }
  2384. list_for_each_entry(mad_send_wr, &mad_agent_priv->backlog_list,
  2385. agent_list) {
  2386. if (&mad_send_wr->send_buf == send_buf)
  2387. return mad_send_wr;
  2388. }
  2389. return NULL;
  2390. }
  2391. int ib_modify_mad(struct ib_mad_send_buf *send_buf, u32 timeout_ms)
  2392. {
  2393. struct ib_mad_agent_private *mad_agent_priv;
  2394. struct ib_mad_send_wr_private *mad_send_wr;
  2395. unsigned long flags;
  2396. int active;
  2397. if (!send_buf)
  2398. return -EINVAL;
  2399. mad_agent_priv = container_of(send_buf->mad_agent,
  2400. struct ib_mad_agent_private, agent);
  2401. spin_lock_irqsave(&mad_agent_priv->lock, flags);
  2402. mad_send_wr = find_send_wr(mad_agent_priv, send_buf);
  2403. if (!mad_send_wr || mad_send_wr->state == IB_MAD_STATE_CANCELED) {
  2404. spin_unlock_irqrestore(&mad_agent_priv->lock, flags);
  2405. return -EINVAL;
  2406. }
  2407. active = ((mad_send_wr->state == IB_MAD_STATE_SEND_START) ||
  2408. (mad_send_wr->state == IB_MAD_STATE_EARLY_RESP) ||
  2409. (mad_send_wr->state == IB_MAD_STATE_QUEUED && timeout_ms));
  2410. if (!timeout_ms)
  2411. change_mad_state(mad_send_wr, IB_MAD_STATE_CANCELED);
  2412. mad_send_wr->send_buf.timeout_ms = timeout_ms;
  2413. if (active)
  2414. mad_send_wr->timeout = msecs_to_jiffies(timeout_ms);
  2415. else
  2416. ib_reset_mad_timeout(mad_send_wr, timeout_ms);
  2417. spin_unlock_irqrestore(&mad_agent_priv->lock, flags);
  2418. return 0;
  2419. }
  2420. EXPORT_SYMBOL(ib_modify_mad);
  2421. static void local_completions(struct work_struct *work)
  2422. {
  2423. struct ib_mad_agent_private *mad_agent_priv;
  2424. struct ib_mad_local_private *local;
  2425. struct ib_mad_agent_private *recv_mad_agent;
  2426. unsigned long flags;
  2427. int free_mad;
  2428. struct ib_wc wc;
  2429. struct ib_mad_send_wc mad_send_wc;
  2430. bool opa;
  2431. mad_agent_priv =
  2432. container_of(work, struct ib_mad_agent_private, local_work);
  2433. opa = rdma_cap_opa_mad(mad_agent_priv->qp_info->port_priv->device,
  2434. mad_agent_priv->qp_info->port_priv->port_num);
  2435. spin_lock_irqsave(&mad_agent_priv->lock, flags);
  2436. while (!list_empty(&mad_agent_priv->local_list)) {
  2437. local = list_entry(mad_agent_priv->local_list.next,
  2438. struct ib_mad_local_private,
  2439. completion_list);
  2440. list_del(&local->completion_list);
  2441. spin_unlock_irqrestore(&mad_agent_priv->lock, flags);
  2442. free_mad = 0;
  2443. if (local->mad_priv) {
  2444. u8 base_version;
  2445. recv_mad_agent = local->recv_mad_agent;
  2446. if (!recv_mad_agent) {
  2447. dev_err(&mad_agent_priv->agent.device->dev,
  2448. "No receive MAD agent for local completion\n");
  2449. free_mad = 1;
  2450. goto local_send_completion;
  2451. }
  2452. /*
  2453. * Defined behavior is to complete response
  2454. * before request
  2455. */
  2456. build_smp_wc(recv_mad_agent->agent.qp,
  2457. local->mad_send_wr->send_wr.wr.wr_cqe,
  2458. be16_to_cpu(IB_LID_PERMISSIVE),
  2459. local->mad_send_wr->send_wr.pkey_index,
  2460. recv_mad_agent->agent.port_num, &wc);
  2461. local->mad_priv->header.recv_wc.wc = &wc;
  2462. base_version = ((struct ib_mad_hdr *)(local->mad_priv->mad))->base_version;
  2463. if (opa && base_version == OPA_MGMT_BASE_VERSION) {
  2464. local->mad_priv->header.recv_wc.mad_len = local->return_wc_byte_len;
  2465. local->mad_priv->header.recv_wc.mad_seg_size = sizeof(struct opa_mad);
  2466. } else {
  2467. local->mad_priv->header.recv_wc.mad_len = sizeof(struct ib_mad);
  2468. local->mad_priv->header.recv_wc.mad_seg_size = sizeof(struct ib_mad);
  2469. }
  2470. INIT_LIST_HEAD(&local->mad_priv->header.recv_wc.rmpp_list);
  2471. list_add(&local->mad_priv->header.recv_wc.recv_buf.list,
  2472. &local->mad_priv->header.recv_wc.rmpp_list);
  2473. local->mad_priv->header.recv_wc.recv_buf.grh = NULL;
  2474. local->mad_priv->header.recv_wc.recv_buf.mad =
  2475. (struct ib_mad *)local->mad_priv->mad;
  2476. recv_mad_agent->agent.recv_handler(
  2477. &recv_mad_agent->agent,
  2478. &local->mad_send_wr->send_buf,
  2479. &local->mad_priv->header.recv_wc);
  2480. spin_lock_irqsave(&recv_mad_agent->lock, flags);
  2481. deref_mad_agent(recv_mad_agent);
  2482. spin_unlock_irqrestore(&recv_mad_agent->lock, flags);
  2483. }
  2484. local_send_completion:
  2485. /* Complete send */
  2486. mad_send_wc.status = IB_WC_SUCCESS;
  2487. mad_send_wc.vendor_err = 0;
  2488. mad_send_wc.send_buf = &local->mad_send_wr->send_buf;
  2489. mad_agent_priv->agent.send_handler(&mad_agent_priv->agent,
  2490. &mad_send_wc);
  2491. spin_lock_irqsave(&mad_agent_priv->lock, flags);
  2492. deref_mad_agent(mad_agent_priv);
  2493. if (free_mad)
  2494. kfree(local->mad_priv);
  2495. kfree(local);
  2496. }
  2497. spin_unlock_irqrestore(&mad_agent_priv->lock, flags);
  2498. }
  2499. static int retry_send(struct ib_mad_send_wr_private *mad_send_wr)
  2500. {
  2501. int ret;
  2502. if (!mad_send_wr->retries_left)
  2503. return -ETIMEDOUT;
  2504. mad_send_wr->retries_left--;
  2505. mad_send_wr->send_buf.retries++;
  2506. mad_send_wr->timeout = msecs_to_jiffies(mad_send_wr->send_buf.timeout_ms);
  2507. if (mad_send_wr->is_solicited_fc &&
  2508. !list_empty(&mad_send_wr->mad_agent_priv->backlog_list)) {
  2509. change_mad_state(mad_send_wr, IB_MAD_STATE_QUEUED);
  2510. return 0;
  2511. }
  2512. if (ib_mad_kernel_rmpp_agent(&mad_send_wr->mad_agent_priv->agent)) {
  2513. ret = ib_retry_rmpp(mad_send_wr);
  2514. switch (ret) {
  2515. case IB_RMPP_RESULT_UNHANDLED:
  2516. ret = ib_send_mad(mad_send_wr);
  2517. break;
  2518. case IB_RMPP_RESULT_CONSUMED:
  2519. ret = 0;
  2520. break;
  2521. default:
  2522. ret = -ECOMM;
  2523. break;
  2524. }
  2525. } else
  2526. ret = ib_send_mad(mad_send_wr);
  2527. if (!ret)
  2528. change_mad_state(mad_send_wr, IB_MAD_STATE_SEND_START);
  2529. return ret;
  2530. }
  2531. static void timeout_sends(struct work_struct *work)
  2532. {
  2533. struct ib_mad_send_wr_private *mad_send_wr;
  2534. struct ib_mad_agent_private *mad_agent_priv;
  2535. struct list_head timeout_list;
  2536. struct list_head cancel_list;
  2537. struct list_head *list_item;
  2538. unsigned long flags, delay;
  2539. mad_agent_priv = container_of(work, struct ib_mad_agent_private,
  2540. timed_work.work);
  2541. INIT_LIST_HEAD(&timeout_list);
  2542. INIT_LIST_HEAD(&cancel_list);
  2543. spin_lock_irqsave(&mad_agent_priv->lock, flags);
  2544. while (!list_empty(&mad_agent_priv->wait_list)) {
  2545. mad_send_wr = list_entry(mad_agent_priv->wait_list.next,
  2546. struct ib_mad_send_wr_private,
  2547. agent_list);
  2548. if (time_after(mad_send_wr->timeout, jiffies)) {
  2549. delay = mad_send_wr->timeout - jiffies;
  2550. if ((long)delay <= 0)
  2551. delay = 1;
  2552. queue_delayed_work(mad_agent_priv->qp_info->
  2553. port_priv->wq,
  2554. &mad_agent_priv->timed_work, delay);
  2555. break;
  2556. }
  2557. if (mad_send_wr->state == IB_MAD_STATE_CANCELED)
  2558. list_item = &cancel_list;
  2559. else if (retry_send(mad_send_wr))
  2560. list_item = &timeout_list;
  2561. else
  2562. continue;
  2563. change_mad_state(mad_send_wr, IB_MAD_STATE_DONE);
  2564. list_add_tail(&mad_send_wr->agent_list, list_item);
  2565. }
  2566. spin_unlock_irqrestore(&mad_agent_priv->lock, flags);
  2567. process_backlog_mads(mad_agent_priv);
  2568. clear_mad_error_list(&timeout_list, IB_WC_RESP_TIMEOUT_ERR,
  2569. mad_agent_priv);
  2570. clear_mad_error_list(&cancel_list, IB_WC_WR_FLUSH_ERR, mad_agent_priv);
  2571. }
  2572. /*
  2573. * Allocate receive MADs and post receive WRs for them
  2574. */
  2575. static int ib_mad_post_receive_mads(struct ib_mad_qp_info *qp_info,
  2576. struct ib_mad_private *mad)
  2577. {
  2578. unsigned long flags;
  2579. struct ib_mad_private *mad_priv;
  2580. struct ib_sge sg_list;
  2581. struct ib_recv_wr recv_wr;
  2582. struct ib_mad_queue *recv_queue = &qp_info->recv_queue;
  2583. int ret = 0;
  2584. /* Initialize common scatter list fields */
  2585. sg_list.lkey = qp_info->port_priv->pd->local_dma_lkey;
  2586. /* Initialize common receive WR fields */
  2587. recv_wr.next = NULL;
  2588. recv_wr.sg_list = &sg_list;
  2589. recv_wr.num_sge = 1;
  2590. while (true) {
  2591. /* Allocate and map receive buffer */
  2592. if (mad) {
  2593. mad_priv = mad;
  2594. mad = NULL;
  2595. } else {
  2596. mad_priv = alloc_mad_private(port_mad_size(qp_info->port_priv),
  2597. GFP_ATOMIC);
  2598. if (!mad_priv)
  2599. return -ENOMEM;
  2600. }
  2601. sg_list.length = mad_priv_dma_size(mad_priv);
  2602. sg_list.addr = ib_dma_map_single(qp_info->port_priv->device,
  2603. &mad_priv->grh,
  2604. mad_priv_dma_size(mad_priv),
  2605. DMA_FROM_DEVICE);
  2606. if (unlikely(ib_dma_mapping_error(qp_info->port_priv->device,
  2607. sg_list.addr))) {
  2608. ret = -ENOMEM;
  2609. goto free_mad_priv;
  2610. }
  2611. mad_priv->header.mapping = sg_list.addr;
  2612. mad_priv->header.mad_list.mad_queue = recv_queue;
  2613. mad_priv->header.mad_list.cqe.done = ib_mad_recv_done;
  2614. recv_wr.wr_cqe = &mad_priv->header.mad_list.cqe;
  2615. spin_lock_irqsave(&recv_queue->lock, flags);
  2616. if (recv_queue->count >= recv_queue->max_active) {
  2617. /* Fully populated the receive queue */
  2618. spin_unlock_irqrestore(&recv_queue->lock, flags);
  2619. break;
  2620. }
  2621. recv_queue->count++;
  2622. list_add_tail(&mad_priv->header.mad_list.list,
  2623. &recv_queue->list);
  2624. spin_unlock_irqrestore(&recv_queue->lock, flags);
  2625. ret = ib_post_recv(qp_info->qp, &recv_wr, NULL);
  2626. if (ret) {
  2627. spin_lock_irqsave(&recv_queue->lock, flags);
  2628. list_del(&mad_priv->header.mad_list.list);
  2629. recv_queue->count--;
  2630. spin_unlock_irqrestore(&recv_queue->lock, flags);
  2631. dev_err(&qp_info->port_priv->device->dev,
  2632. "ib_post_recv failed: %d\n", ret);
  2633. break;
  2634. }
  2635. }
  2636. ib_dma_unmap_single(qp_info->port_priv->device,
  2637. mad_priv->header.mapping,
  2638. mad_priv_dma_size(mad_priv), DMA_FROM_DEVICE);
  2639. free_mad_priv:
  2640. kfree(mad_priv);
  2641. return ret;
  2642. }
  2643. /*
  2644. * Return all the posted receive MADs
  2645. */
  2646. static void cleanup_recv_queue(struct ib_mad_qp_info *qp_info)
  2647. {
  2648. struct ib_mad_private_header *mad_priv_hdr;
  2649. struct ib_mad_private *recv;
  2650. struct ib_mad_list_head *mad_list;
  2651. if (!qp_info->qp)
  2652. return;
  2653. while (!list_empty(&qp_info->recv_queue.list)) {
  2654. mad_list = list_entry(qp_info->recv_queue.list.next,
  2655. struct ib_mad_list_head, list);
  2656. mad_priv_hdr = container_of(mad_list,
  2657. struct ib_mad_private_header,
  2658. mad_list);
  2659. recv = container_of(mad_priv_hdr, struct ib_mad_private,
  2660. header);
  2661. /* Remove from posted receive MAD list */
  2662. list_del(&mad_list->list);
  2663. ib_dma_unmap_single(qp_info->port_priv->device,
  2664. recv->header.mapping,
  2665. mad_priv_dma_size(recv),
  2666. DMA_FROM_DEVICE);
  2667. kfree(recv);
  2668. }
  2669. qp_info->recv_queue.count = 0;
  2670. }
  2671. /*
  2672. * Start the port
  2673. */
  2674. static int ib_mad_port_start(struct ib_mad_port_private *port_priv)
  2675. {
  2676. int ret, i;
  2677. struct ib_qp_attr *attr;
  2678. struct ib_qp *qp;
  2679. u16 pkey_index;
  2680. attr = kmalloc_obj(*attr);
  2681. if (!attr)
  2682. return -ENOMEM;
  2683. ret = ib_find_pkey(port_priv->device, port_priv->port_num,
  2684. IB_DEFAULT_PKEY_FULL, &pkey_index);
  2685. if (ret)
  2686. pkey_index = 0;
  2687. for (i = 0; i < IB_MAD_QPS_CORE; i++) {
  2688. qp = port_priv->qp_info[i].qp;
  2689. if (!qp)
  2690. continue;
  2691. /*
  2692. * PKey index for QP1 is irrelevant but
  2693. * one is needed for the Reset to Init transition
  2694. */
  2695. attr->qp_state = IB_QPS_INIT;
  2696. attr->pkey_index = pkey_index;
  2697. attr->qkey = (qp->qp_num == 0) ? 0 : IB_QP1_QKEY;
  2698. ret = ib_modify_qp(qp, attr, IB_QP_STATE |
  2699. IB_QP_PKEY_INDEX | IB_QP_QKEY);
  2700. if (ret) {
  2701. dev_err(&port_priv->device->dev,
  2702. "Couldn't change QP%d state to INIT: %d\n",
  2703. i, ret);
  2704. goto out;
  2705. }
  2706. attr->qp_state = IB_QPS_RTR;
  2707. ret = ib_modify_qp(qp, attr, IB_QP_STATE);
  2708. if (ret) {
  2709. dev_err(&port_priv->device->dev,
  2710. "Couldn't change QP%d state to RTR: %d\n",
  2711. i, ret);
  2712. goto out;
  2713. }
  2714. attr->qp_state = IB_QPS_RTS;
  2715. attr->sq_psn = IB_MAD_SEND_Q_PSN;
  2716. ret = ib_modify_qp(qp, attr, IB_QP_STATE | IB_QP_SQ_PSN);
  2717. if (ret) {
  2718. dev_err(&port_priv->device->dev,
  2719. "Couldn't change QP%d state to RTS: %d\n",
  2720. i, ret);
  2721. goto out;
  2722. }
  2723. }
  2724. ret = ib_req_notify_cq(port_priv->cq, IB_CQ_NEXT_COMP);
  2725. if (ret) {
  2726. dev_err(&port_priv->device->dev,
  2727. "Failed to request completion notification: %d\n",
  2728. ret);
  2729. goto out;
  2730. }
  2731. for (i = 0; i < IB_MAD_QPS_CORE; i++) {
  2732. if (!port_priv->qp_info[i].qp)
  2733. continue;
  2734. ret = ib_mad_post_receive_mads(&port_priv->qp_info[i], NULL);
  2735. if (ret) {
  2736. dev_err(&port_priv->device->dev,
  2737. "Couldn't post receive WRs\n");
  2738. goto out;
  2739. }
  2740. }
  2741. out:
  2742. kfree(attr);
  2743. return ret;
  2744. }
  2745. static void qp_event_handler(struct ib_event *event, void *qp_context)
  2746. {
  2747. struct ib_mad_qp_info *qp_info = qp_context;
  2748. /* It's worse than that! He's dead, Jim! */
  2749. dev_err(&qp_info->port_priv->device->dev,
  2750. "Fatal error (%d) on MAD QP (%u)\n",
  2751. event->event, qp_info->qp->qp_num);
  2752. }
  2753. static void init_mad_queue(struct ib_mad_qp_info *qp_info,
  2754. struct ib_mad_queue *mad_queue)
  2755. {
  2756. mad_queue->qp_info = qp_info;
  2757. mad_queue->count = 0;
  2758. spin_lock_init(&mad_queue->lock);
  2759. INIT_LIST_HEAD(&mad_queue->list);
  2760. }
  2761. static void init_mad_qp(struct ib_mad_port_private *port_priv,
  2762. struct ib_mad_qp_info *qp_info)
  2763. {
  2764. qp_info->port_priv = port_priv;
  2765. init_mad_queue(qp_info, &qp_info->send_queue);
  2766. init_mad_queue(qp_info, &qp_info->recv_queue);
  2767. INIT_LIST_HEAD(&qp_info->overflow_list);
  2768. }
  2769. static int create_mad_qp(struct ib_mad_qp_info *qp_info,
  2770. enum ib_qp_type qp_type)
  2771. {
  2772. struct ib_qp_init_attr qp_init_attr;
  2773. int ret;
  2774. memset(&qp_init_attr, 0, sizeof qp_init_attr);
  2775. qp_init_attr.send_cq = qp_info->port_priv->cq;
  2776. qp_init_attr.recv_cq = qp_info->port_priv->cq;
  2777. qp_init_attr.sq_sig_type = IB_SIGNAL_ALL_WR;
  2778. qp_init_attr.cap.max_send_wr = mad_sendq_size;
  2779. qp_init_attr.cap.max_recv_wr = mad_recvq_size;
  2780. qp_init_attr.cap.max_send_sge = IB_MAD_SEND_REQ_MAX_SG;
  2781. qp_init_attr.cap.max_recv_sge = IB_MAD_RECV_REQ_MAX_SG;
  2782. qp_init_attr.qp_type = qp_type;
  2783. qp_init_attr.port_num = qp_info->port_priv->port_num;
  2784. qp_init_attr.qp_context = qp_info;
  2785. qp_init_attr.event_handler = qp_event_handler;
  2786. qp_info->qp = ib_create_qp(qp_info->port_priv->pd, &qp_init_attr);
  2787. if (IS_ERR(qp_info->qp)) {
  2788. dev_err(&qp_info->port_priv->device->dev,
  2789. "Couldn't create ib_mad QP%d\n",
  2790. get_spl_qp_index(qp_type));
  2791. ret = PTR_ERR(qp_info->qp);
  2792. goto error;
  2793. }
  2794. /* Use minimum queue sizes unless the CQ is resized */
  2795. qp_info->send_queue.max_active = mad_sendq_size;
  2796. qp_info->recv_queue.max_active = mad_recvq_size;
  2797. return 0;
  2798. error:
  2799. return ret;
  2800. }
  2801. static void destroy_mad_qp(struct ib_mad_qp_info *qp_info)
  2802. {
  2803. if (!qp_info->qp)
  2804. return;
  2805. ib_destroy_qp(qp_info->qp);
  2806. }
  2807. /*
  2808. * Open the port
  2809. * Create the QP, PD, MR, and CQ if needed
  2810. */
  2811. static int ib_mad_port_open(struct ib_device *device,
  2812. u32 port_num)
  2813. {
  2814. int ret, cq_size;
  2815. struct ib_mad_port_private *port_priv;
  2816. unsigned long flags;
  2817. int has_smi;
  2818. if (WARN_ON(rdma_max_mad_size(device, port_num) < IB_MGMT_MAD_SIZE))
  2819. return -EFAULT;
  2820. if (WARN_ON(rdma_cap_opa_mad(device, port_num) &&
  2821. rdma_max_mad_size(device, port_num) < OPA_MGMT_MAD_SIZE))
  2822. return -EFAULT;
  2823. /* Create new device info */
  2824. port_priv = kzalloc_obj(*port_priv);
  2825. if (!port_priv)
  2826. return -ENOMEM;
  2827. port_priv->device = device;
  2828. port_priv->port_num = port_num;
  2829. spin_lock_init(&port_priv->reg_lock);
  2830. init_mad_qp(port_priv, &port_priv->qp_info[0]);
  2831. init_mad_qp(port_priv, &port_priv->qp_info[1]);
  2832. cq_size = mad_sendq_size + mad_recvq_size;
  2833. has_smi = rdma_cap_ib_smi(device, port_num);
  2834. if (has_smi)
  2835. cq_size *= 2;
  2836. port_priv->pd = ib_alloc_pd(device, 0);
  2837. if (IS_ERR(port_priv->pd)) {
  2838. dev_err(&device->dev, "Couldn't create ib_mad PD\n");
  2839. ret = PTR_ERR(port_priv->pd);
  2840. goto error3;
  2841. }
  2842. port_priv->cq = ib_alloc_cq(port_priv->device, port_priv, cq_size, 0,
  2843. IB_POLL_UNBOUND_WORKQUEUE);
  2844. if (IS_ERR(port_priv->cq)) {
  2845. dev_err(&device->dev, "Couldn't create ib_mad CQ\n");
  2846. ret = PTR_ERR(port_priv->cq);
  2847. goto error4;
  2848. }
  2849. if (has_smi) {
  2850. ret = create_mad_qp(&port_priv->qp_info[0], IB_QPT_SMI);
  2851. if (ret)
  2852. goto error6;
  2853. }
  2854. if (rdma_cap_ib_cm(device, port_num)) {
  2855. ret = create_mad_qp(&port_priv->qp_info[1], IB_QPT_GSI);
  2856. if (ret)
  2857. goto error7;
  2858. }
  2859. port_priv->wq = alloc_ordered_workqueue("ib_mad%u", WQ_MEM_RECLAIM,
  2860. port_num);
  2861. if (!port_priv->wq) {
  2862. ret = -ENOMEM;
  2863. goto error8;
  2864. }
  2865. spin_lock_irqsave(&ib_mad_port_list_lock, flags);
  2866. list_add_tail(&port_priv->port_list, &ib_mad_port_list);
  2867. spin_unlock_irqrestore(&ib_mad_port_list_lock, flags);
  2868. ret = ib_mad_port_start(port_priv);
  2869. if (ret) {
  2870. dev_err(&device->dev, "Couldn't start port\n");
  2871. goto error9;
  2872. }
  2873. return 0;
  2874. error9:
  2875. spin_lock_irqsave(&ib_mad_port_list_lock, flags);
  2876. list_del_init(&port_priv->port_list);
  2877. spin_unlock_irqrestore(&ib_mad_port_list_lock, flags);
  2878. destroy_workqueue(port_priv->wq);
  2879. error8:
  2880. destroy_mad_qp(&port_priv->qp_info[1]);
  2881. error7:
  2882. destroy_mad_qp(&port_priv->qp_info[0]);
  2883. error6:
  2884. ib_free_cq(port_priv->cq);
  2885. cleanup_recv_queue(&port_priv->qp_info[1]);
  2886. cleanup_recv_queue(&port_priv->qp_info[0]);
  2887. error4:
  2888. ib_dealloc_pd(port_priv->pd);
  2889. error3:
  2890. kfree(port_priv);
  2891. return ret;
  2892. }
  2893. /*
  2894. * Close the port
  2895. * If there are no classes using the port, free the port
  2896. * resources (CQ, MR, PD, QP) and remove the port's info structure
  2897. */
  2898. static int ib_mad_port_close(struct ib_device *device, u32 port_num)
  2899. {
  2900. struct ib_mad_port_private *port_priv;
  2901. unsigned long flags;
  2902. spin_lock_irqsave(&ib_mad_port_list_lock, flags);
  2903. port_priv = __ib_get_mad_port(device, port_num);
  2904. if (port_priv == NULL) {
  2905. spin_unlock_irqrestore(&ib_mad_port_list_lock, flags);
  2906. dev_err(&device->dev, "Port %u not found\n", port_num);
  2907. return -ENODEV;
  2908. }
  2909. list_del_init(&port_priv->port_list);
  2910. spin_unlock_irqrestore(&ib_mad_port_list_lock, flags);
  2911. destroy_workqueue(port_priv->wq);
  2912. destroy_mad_qp(&port_priv->qp_info[1]);
  2913. destroy_mad_qp(&port_priv->qp_info[0]);
  2914. ib_free_cq(port_priv->cq);
  2915. ib_dealloc_pd(port_priv->pd);
  2916. cleanup_recv_queue(&port_priv->qp_info[1]);
  2917. cleanup_recv_queue(&port_priv->qp_info[0]);
  2918. /* XXX: Handle deallocation of MAD registration tables */
  2919. kfree(port_priv);
  2920. return 0;
  2921. }
  2922. static int ib_mad_init_device(struct ib_device *device)
  2923. {
  2924. int start, i;
  2925. unsigned int count = 0;
  2926. int ret;
  2927. start = rdma_start_port(device);
  2928. for (i = start; i <= rdma_end_port(device); i++) {
  2929. if (!rdma_cap_ib_mad(device, i))
  2930. continue;
  2931. ret = ib_mad_port_open(device, i);
  2932. if (ret) {
  2933. dev_err(&device->dev, "Couldn't open port %d\n", i);
  2934. goto error;
  2935. }
  2936. ret = ib_agent_port_open(device, i);
  2937. if (ret) {
  2938. dev_err(&device->dev,
  2939. "Couldn't open port %d for agents\n", i);
  2940. goto error_agent;
  2941. }
  2942. count++;
  2943. }
  2944. if (!count)
  2945. return -EOPNOTSUPP;
  2946. return 0;
  2947. error_agent:
  2948. if (ib_mad_port_close(device, i))
  2949. dev_err(&device->dev, "Couldn't close port %d\n", i);
  2950. error:
  2951. while (--i >= start) {
  2952. if (!rdma_cap_ib_mad(device, i))
  2953. continue;
  2954. if (ib_agent_port_close(device, i))
  2955. dev_err(&device->dev,
  2956. "Couldn't close port %d for agents\n", i);
  2957. if (ib_mad_port_close(device, i))
  2958. dev_err(&device->dev, "Couldn't close port %d\n", i);
  2959. }
  2960. return ret;
  2961. }
  2962. static void ib_mad_remove_device(struct ib_device *device, void *client_data)
  2963. {
  2964. unsigned int i;
  2965. rdma_for_each_port (device, i) {
  2966. if (!rdma_cap_ib_mad(device, i))
  2967. continue;
  2968. if (ib_agent_port_close(device, i))
  2969. dev_err(&device->dev,
  2970. "Couldn't close port %u for agents\n", i);
  2971. if (ib_mad_port_close(device, i))
  2972. dev_err(&device->dev, "Couldn't close port %u\n", i);
  2973. }
  2974. }
  2975. static struct ib_client mad_client = {
  2976. .name = "mad",
  2977. .add = ib_mad_init_device,
  2978. .remove = ib_mad_remove_device
  2979. };
  2980. int ib_mad_init(void)
  2981. {
  2982. mad_recvq_size = min(mad_recvq_size, IB_MAD_QP_MAX_SIZE);
  2983. mad_recvq_size = max(mad_recvq_size, IB_MAD_QP_MIN_SIZE);
  2984. mad_sendq_size = min(mad_sendq_size, IB_MAD_QP_MAX_SIZE);
  2985. mad_sendq_size = max(mad_sendq_size, IB_MAD_QP_MIN_SIZE);
  2986. INIT_LIST_HEAD(&ib_mad_port_list);
  2987. if (ib_register_client(&mad_client)) {
  2988. pr_err("Couldn't register ib_mad client\n");
  2989. return -EINVAL;
  2990. }
  2991. return 0;
  2992. }
  2993. void ib_mad_cleanup(void)
  2994. {
  2995. ib_unregister_client(&mad_client);
  2996. }