uverbs_cmd.c 107 KB

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  1. /*
  2. * Copyright (c) 2005 Topspin Communications. All rights reserved.
  3. * Copyright (c) 2005, 2006, 2007 Cisco Systems. All rights reserved.
  4. * Copyright (c) 2005 PathScale, Inc. All rights reserved.
  5. * Copyright (c) 2006 Mellanox Technologies. All rights reserved.
  6. *
  7. * This software is available to you under a choice of one of two
  8. * licenses. You may choose to be licensed under the terms of the GNU
  9. * General Public License (GPL) Version 2, available from the file
  10. * COPYING in the main directory of this source tree, or the
  11. * OpenIB.org BSD license below:
  12. *
  13. * Redistribution and use in source and binary forms, with or
  14. * without modification, are permitted provided that the following
  15. * conditions are met:
  16. *
  17. * - Redistributions of source code must retain the above
  18. * copyright notice, this list of conditions and the following
  19. * disclaimer.
  20. *
  21. * - Redistributions in binary form must reproduce the above
  22. * copyright notice, this list of conditions and the following
  23. * disclaimer in the documentation and/or other materials
  24. * provided with the distribution.
  25. *
  26. * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
  27. * EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
  28. * MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
  29. * NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS
  30. * BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN
  31. * ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN
  32. * CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
  33. * SOFTWARE.
  34. */
  35. #include <linux/file.h>
  36. #include <linux/fs.h>
  37. #include <linux/slab.h>
  38. #include <linux/sched.h>
  39. #include <linux/uaccess.h>
  40. #include <rdma/uverbs_types.h>
  41. #include <rdma/uverbs_std_types.h>
  42. #include <rdma/ib_ucaps.h>
  43. #include "rdma_core.h"
  44. #include "uverbs.h"
  45. #include "core_priv.h"
  46. /*
  47. * Copy a response to userspace. If the provided 'resp' is larger than the
  48. * user buffer it is silently truncated. If the user provided a larger buffer
  49. * then the trailing portion is zero filled.
  50. *
  51. * These semantics are intended to support future extension of the output
  52. * structures.
  53. */
  54. static int uverbs_response(struct uverbs_attr_bundle *attrs, const void *resp,
  55. size_t resp_len)
  56. {
  57. int ret;
  58. if (uverbs_attr_is_valid(attrs, UVERBS_ATTR_CORE_OUT))
  59. return uverbs_copy_to_struct_or_zero(
  60. attrs, UVERBS_ATTR_CORE_OUT, resp, resp_len);
  61. if (copy_to_user(attrs->ucore.outbuf, resp,
  62. min(attrs->ucore.outlen, resp_len)))
  63. return -EFAULT;
  64. if (resp_len < attrs->ucore.outlen) {
  65. /*
  66. * Zero fill any extra memory that user
  67. * space might have provided.
  68. */
  69. ret = clear_user(attrs->ucore.outbuf + resp_len,
  70. attrs->ucore.outlen - resp_len);
  71. if (ret)
  72. return -EFAULT;
  73. }
  74. return 0;
  75. }
  76. /*
  77. * Copy a request from userspace. If the provided 'req' is larger than the
  78. * user buffer then the user buffer is zero extended into the 'req'. If 'req'
  79. * is smaller than the user buffer then the uncopied bytes in the user buffer
  80. * must be zero.
  81. */
  82. static int uverbs_request(struct uverbs_attr_bundle *attrs, void *req,
  83. size_t req_len)
  84. {
  85. if (copy_from_user(req, attrs->ucore.inbuf,
  86. min(attrs->ucore.inlen, req_len)))
  87. return -EFAULT;
  88. if (attrs->ucore.inlen < req_len) {
  89. memset(req + attrs->ucore.inlen, 0,
  90. req_len - attrs->ucore.inlen);
  91. } else if (attrs->ucore.inlen > req_len) {
  92. if (!ib_is_buffer_cleared(attrs->ucore.inbuf + req_len,
  93. attrs->ucore.inlen - req_len))
  94. return -EOPNOTSUPP;
  95. }
  96. return 0;
  97. }
  98. /*
  99. * Generate the value for the 'response_length' protocol used by write_ex.
  100. * This is the number of bytes the kernel actually wrote. Userspace can use
  101. * this to detect what structure members in the response the kernel
  102. * understood.
  103. */
  104. static u32 uverbs_response_length(struct uverbs_attr_bundle *attrs,
  105. size_t resp_len)
  106. {
  107. return min_t(size_t, attrs->ucore.outlen, resp_len);
  108. }
  109. /*
  110. * The iterator version of the request interface is for handlers that need to
  111. * step over a flex array at the end of a command header.
  112. */
  113. struct uverbs_req_iter {
  114. const void __user *cur;
  115. const void __user *end;
  116. };
  117. static int uverbs_request_start(struct uverbs_attr_bundle *attrs,
  118. struct uverbs_req_iter *iter,
  119. void *req,
  120. size_t req_len)
  121. {
  122. if (attrs->ucore.inlen < req_len)
  123. return -ENOSPC;
  124. if (copy_from_user(req, attrs->ucore.inbuf, req_len))
  125. return -EFAULT;
  126. iter->cur = attrs->ucore.inbuf + req_len;
  127. iter->end = attrs->ucore.inbuf + attrs->ucore.inlen;
  128. return 0;
  129. }
  130. static int uverbs_request_next(struct uverbs_req_iter *iter, void *val,
  131. size_t len)
  132. {
  133. if (iter->cur + len > iter->end)
  134. return -ENOSPC;
  135. if (copy_from_user(val, iter->cur, len))
  136. return -EFAULT;
  137. iter->cur += len;
  138. return 0;
  139. }
  140. static const void __user *uverbs_request_next_ptr(struct uverbs_req_iter *iter,
  141. size_t len)
  142. {
  143. const void __user *res = iter->cur;
  144. if (len > iter->end - iter->cur)
  145. return (void __force __user *)ERR_PTR(-ENOSPC);
  146. iter->cur += len;
  147. return res;
  148. }
  149. static int uverbs_request_finish(struct uverbs_req_iter *iter)
  150. {
  151. if (!ib_is_buffer_cleared(iter->cur, iter->end - iter->cur))
  152. return -EOPNOTSUPP;
  153. return 0;
  154. }
  155. /*
  156. * When calling a destroy function during an error unwind we need to pass in
  157. * the udata that is sanitized of all user arguments. Ie from the driver
  158. * perspective it looks like no udata was passed.
  159. */
  160. struct ib_udata *uverbs_get_cleared_udata(struct uverbs_attr_bundle *attrs)
  161. {
  162. attrs->driver_udata = (struct ib_udata){};
  163. return &attrs->driver_udata;
  164. }
  165. static struct ib_uverbs_completion_event_file *
  166. _ib_uverbs_lookup_comp_file(s32 fd, struct uverbs_attr_bundle *attrs)
  167. {
  168. struct ib_uobject *uobj = ufd_get_read(UVERBS_OBJECT_COMP_CHANNEL,
  169. fd, attrs);
  170. if (IS_ERR(uobj))
  171. return ERR_CAST(uobj);
  172. uverbs_uobject_get(uobj);
  173. uobj_put_read(uobj);
  174. return container_of(uobj, struct ib_uverbs_completion_event_file,
  175. uobj);
  176. }
  177. #define ib_uverbs_lookup_comp_file(_fd, _ufile) \
  178. _ib_uverbs_lookup_comp_file((_fd)*typecheck(s32, _fd), _ufile)
  179. int ib_alloc_ucontext(struct uverbs_attr_bundle *attrs)
  180. {
  181. struct ib_uverbs_file *ufile = attrs->ufile;
  182. struct ib_ucontext *ucontext;
  183. struct ib_device *ib_dev;
  184. ib_dev = srcu_dereference(ufile->device->ib_dev,
  185. &ufile->device->disassociate_srcu);
  186. if (!ib_dev)
  187. return -EIO;
  188. ucontext = rdma_zalloc_drv_obj(ib_dev, ib_ucontext);
  189. if (!ucontext)
  190. return -ENOMEM;
  191. ucontext->device = ib_dev;
  192. ucontext->ufile = ufile;
  193. xa_init_flags(&ucontext->mmap_xa, XA_FLAGS_ALLOC);
  194. rdma_restrack_new(&ucontext->res, RDMA_RESTRACK_CTX);
  195. rdma_restrack_set_name(&ucontext->res, NULL);
  196. attrs->context = ucontext;
  197. return 0;
  198. }
  199. int ib_init_ucontext(struct uverbs_attr_bundle *attrs)
  200. {
  201. struct ib_ucontext *ucontext = attrs->context;
  202. struct ib_uverbs_file *file = attrs->ufile;
  203. int *fd_array;
  204. int fd_count;
  205. int ret;
  206. if (!down_read_trylock(&file->hw_destroy_rwsem))
  207. return -EIO;
  208. mutex_lock(&file->ucontext_lock);
  209. if (file->ucontext) {
  210. ret = -EINVAL;
  211. goto err;
  212. }
  213. ret = ib_rdmacg_try_charge(&ucontext->cg_obj, ucontext->device,
  214. RDMACG_RESOURCE_HCA_HANDLE);
  215. if (ret)
  216. goto err;
  217. if (uverbs_attr_is_valid(attrs, UVERBS_ATTR_GET_CONTEXT_FD_ARR)) {
  218. fd_count = uverbs_attr_ptr_get_array_size(attrs,
  219. UVERBS_ATTR_GET_CONTEXT_FD_ARR,
  220. sizeof(int));
  221. if (fd_count < 0) {
  222. ret = fd_count;
  223. goto err_uncharge;
  224. }
  225. fd_array = uverbs_attr_get_alloced_ptr(attrs,
  226. UVERBS_ATTR_GET_CONTEXT_FD_ARR);
  227. ret = ib_get_ucaps(fd_array, fd_count, &ucontext->enabled_caps);
  228. if (ret)
  229. goto err_uncharge;
  230. }
  231. ret = ucontext->device->ops.alloc_ucontext(ucontext,
  232. &attrs->driver_udata);
  233. if (ret)
  234. goto err_uncharge;
  235. rdma_restrack_add(&ucontext->res);
  236. /*
  237. * Make sure that ib_uverbs_get_ucontext() sees the pointer update
  238. * only after all writes to setup the ucontext have completed
  239. */
  240. smp_store_release(&file->ucontext, ucontext);
  241. mutex_unlock(&file->ucontext_lock);
  242. up_read(&file->hw_destroy_rwsem);
  243. return 0;
  244. err_uncharge:
  245. ib_rdmacg_uncharge(&ucontext->cg_obj, ucontext->device,
  246. RDMACG_RESOURCE_HCA_HANDLE);
  247. err:
  248. mutex_unlock(&file->ucontext_lock);
  249. up_read(&file->hw_destroy_rwsem);
  250. return ret;
  251. }
  252. static int ib_uverbs_get_context(struct uverbs_attr_bundle *attrs)
  253. {
  254. struct ib_uverbs_get_context_resp resp;
  255. struct ib_uverbs_get_context cmd;
  256. struct ib_device *ib_dev;
  257. struct ib_uobject *uobj;
  258. int ret;
  259. ret = uverbs_request(attrs, &cmd, sizeof(cmd));
  260. if (ret)
  261. return ret;
  262. ret = ib_alloc_ucontext(attrs);
  263. if (ret)
  264. return ret;
  265. uobj = uobj_alloc(UVERBS_OBJECT_ASYNC_EVENT, attrs, &ib_dev);
  266. if (IS_ERR(uobj)) {
  267. ret = PTR_ERR(uobj);
  268. goto err_ucontext;
  269. }
  270. resp = (struct ib_uverbs_get_context_resp){
  271. .num_comp_vectors = attrs->ufile->device->num_comp_vectors,
  272. .async_fd = uobj->id,
  273. };
  274. ret = uverbs_response(attrs, &resp, sizeof(resp));
  275. if (ret)
  276. goto err_uobj;
  277. ret = ib_init_ucontext(attrs);
  278. if (ret)
  279. goto err_uobj;
  280. ib_uverbs_init_async_event_file(
  281. container_of(uobj, struct ib_uverbs_async_event_file, uobj));
  282. rdma_alloc_commit_uobject(uobj, attrs);
  283. return 0;
  284. err_uobj:
  285. rdma_alloc_abort_uobject(uobj, attrs, false);
  286. err_ucontext:
  287. rdma_restrack_put(&attrs->context->res);
  288. kfree(attrs->context);
  289. attrs->context = NULL;
  290. return ret;
  291. }
  292. static void copy_query_dev_fields(struct ib_ucontext *ucontext,
  293. struct ib_uverbs_query_device_resp *resp,
  294. struct ib_device_attr *attr)
  295. {
  296. struct ib_device *ib_dev = ucontext->device;
  297. resp->fw_ver = attr->fw_ver;
  298. resp->node_guid = ib_dev->node_guid;
  299. resp->sys_image_guid = attr->sys_image_guid;
  300. resp->max_mr_size = attr->max_mr_size;
  301. resp->page_size_cap = attr->page_size_cap;
  302. resp->vendor_id = attr->vendor_id;
  303. resp->vendor_part_id = attr->vendor_part_id;
  304. resp->hw_ver = attr->hw_ver;
  305. resp->max_qp = attr->max_qp;
  306. resp->max_qp_wr = attr->max_qp_wr;
  307. resp->device_cap_flags = lower_32_bits(attr->device_cap_flags);
  308. resp->max_sge = min(attr->max_send_sge, attr->max_recv_sge);
  309. resp->max_sge_rd = attr->max_sge_rd;
  310. resp->max_cq = attr->max_cq;
  311. resp->max_cqe = attr->max_cqe;
  312. resp->max_mr = attr->max_mr;
  313. resp->max_pd = attr->max_pd;
  314. resp->max_qp_rd_atom = attr->max_qp_rd_atom;
  315. resp->max_ee_rd_atom = attr->max_ee_rd_atom;
  316. resp->max_res_rd_atom = attr->max_res_rd_atom;
  317. resp->max_qp_init_rd_atom = attr->max_qp_init_rd_atom;
  318. resp->max_ee_init_rd_atom = attr->max_ee_init_rd_atom;
  319. resp->atomic_cap = attr->atomic_cap;
  320. resp->max_ee = attr->max_ee;
  321. resp->max_rdd = attr->max_rdd;
  322. resp->max_mw = attr->max_mw;
  323. resp->max_raw_ipv6_qp = attr->max_raw_ipv6_qp;
  324. resp->max_raw_ethy_qp = attr->max_raw_ethy_qp;
  325. resp->max_mcast_grp = attr->max_mcast_grp;
  326. resp->max_mcast_qp_attach = attr->max_mcast_qp_attach;
  327. resp->max_total_mcast_qp_attach = attr->max_total_mcast_qp_attach;
  328. resp->max_ah = attr->max_ah;
  329. resp->max_srq = attr->max_srq;
  330. resp->max_srq_wr = attr->max_srq_wr;
  331. resp->max_srq_sge = attr->max_srq_sge;
  332. resp->max_pkeys = attr->max_pkeys;
  333. resp->local_ca_ack_delay = attr->local_ca_ack_delay;
  334. resp->phys_port_cnt = min_t(u32, ib_dev->phys_port_cnt, U8_MAX);
  335. }
  336. static int ib_uverbs_query_device(struct uverbs_attr_bundle *attrs)
  337. {
  338. struct ib_uverbs_query_device cmd;
  339. struct ib_uverbs_query_device_resp resp;
  340. struct ib_ucontext *ucontext;
  341. int ret;
  342. ucontext = ib_uverbs_get_ucontext(attrs);
  343. if (IS_ERR(ucontext))
  344. return PTR_ERR(ucontext);
  345. ret = uverbs_request(attrs, &cmd, sizeof(cmd));
  346. if (ret)
  347. return ret;
  348. memset(&resp, 0, sizeof resp);
  349. copy_query_dev_fields(ucontext, &resp, &ucontext->device->attrs);
  350. return uverbs_response(attrs, &resp, sizeof(resp));
  351. }
  352. static int ib_uverbs_query_port(struct uverbs_attr_bundle *attrs)
  353. {
  354. struct ib_uverbs_query_port cmd;
  355. struct ib_uverbs_query_port_resp resp;
  356. struct ib_port_attr attr;
  357. int ret;
  358. struct ib_ucontext *ucontext;
  359. struct ib_device *ib_dev;
  360. ucontext = ib_uverbs_get_ucontext(attrs);
  361. if (IS_ERR(ucontext))
  362. return PTR_ERR(ucontext);
  363. ib_dev = ucontext->device;
  364. ret = uverbs_request(attrs, &cmd, sizeof(cmd));
  365. if (ret)
  366. return ret;
  367. ret = ib_query_port(ib_dev, cmd.port_num, &attr);
  368. if (ret)
  369. return ret;
  370. memset(&resp, 0, sizeof resp);
  371. copy_port_attr_to_resp(&attr, &resp, ib_dev, cmd.port_num);
  372. return uverbs_response(attrs, &resp, sizeof(resp));
  373. }
  374. static int ib_uverbs_alloc_pd(struct uverbs_attr_bundle *attrs)
  375. {
  376. struct ib_uverbs_alloc_pd_resp resp = {};
  377. struct ib_uverbs_alloc_pd cmd;
  378. struct ib_uobject *uobj;
  379. struct ib_pd *pd;
  380. int ret;
  381. struct ib_device *ib_dev;
  382. ret = uverbs_request(attrs, &cmd, sizeof(cmd));
  383. if (ret)
  384. return ret;
  385. uobj = uobj_alloc(UVERBS_OBJECT_PD, attrs, &ib_dev);
  386. if (IS_ERR(uobj))
  387. return PTR_ERR(uobj);
  388. pd = rdma_zalloc_drv_obj(ib_dev, ib_pd);
  389. if (!pd) {
  390. ret = -ENOMEM;
  391. goto err;
  392. }
  393. pd->device = ib_dev;
  394. pd->uobject = uobj;
  395. atomic_set(&pd->usecnt, 0);
  396. rdma_restrack_new(&pd->res, RDMA_RESTRACK_PD);
  397. rdma_restrack_set_name(&pd->res, NULL);
  398. ret = ib_dev->ops.alloc_pd(pd, &attrs->driver_udata);
  399. if (ret)
  400. goto err_alloc;
  401. rdma_restrack_add(&pd->res);
  402. uobj->object = pd;
  403. uobj_finalize_uobj_create(uobj, attrs);
  404. resp.pd_handle = uobj->id;
  405. return uverbs_response(attrs, &resp, sizeof(resp));
  406. err_alloc:
  407. rdma_restrack_put(&pd->res);
  408. kfree(pd);
  409. err:
  410. uobj_alloc_abort(uobj, attrs);
  411. return ret;
  412. }
  413. static int ib_uverbs_dealloc_pd(struct uverbs_attr_bundle *attrs)
  414. {
  415. struct ib_uverbs_dealloc_pd cmd;
  416. int ret;
  417. ret = uverbs_request(attrs, &cmd, sizeof(cmd));
  418. if (ret)
  419. return ret;
  420. return uobj_perform_destroy(UVERBS_OBJECT_PD, cmd.pd_handle, attrs);
  421. }
  422. struct xrcd_table_entry {
  423. struct rb_node node;
  424. struct ib_xrcd *xrcd;
  425. struct inode *inode;
  426. };
  427. static int xrcd_table_insert(struct ib_uverbs_device *dev,
  428. struct inode *inode,
  429. struct ib_xrcd *xrcd)
  430. {
  431. struct xrcd_table_entry *entry, *scan;
  432. struct rb_node **p = &dev->xrcd_tree.rb_node;
  433. struct rb_node *parent = NULL;
  434. entry = kmalloc_obj(*entry);
  435. if (!entry)
  436. return -ENOMEM;
  437. entry->xrcd = xrcd;
  438. entry->inode = inode;
  439. while (*p) {
  440. parent = *p;
  441. scan = rb_entry(parent, struct xrcd_table_entry, node);
  442. if (inode < scan->inode) {
  443. p = &(*p)->rb_left;
  444. } else if (inode > scan->inode) {
  445. p = &(*p)->rb_right;
  446. } else {
  447. kfree(entry);
  448. return -EEXIST;
  449. }
  450. }
  451. rb_link_node(&entry->node, parent, p);
  452. rb_insert_color(&entry->node, &dev->xrcd_tree);
  453. igrab(inode);
  454. return 0;
  455. }
  456. static struct xrcd_table_entry *xrcd_table_search(struct ib_uverbs_device *dev,
  457. struct inode *inode)
  458. {
  459. struct xrcd_table_entry *entry;
  460. struct rb_node *p = dev->xrcd_tree.rb_node;
  461. while (p) {
  462. entry = rb_entry(p, struct xrcd_table_entry, node);
  463. if (inode < entry->inode)
  464. p = p->rb_left;
  465. else if (inode > entry->inode)
  466. p = p->rb_right;
  467. else
  468. return entry;
  469. }
  470. return NULL;
  471. }
  472. static struct ib_xrcd *find_xrcd(struct ib_uverbs_device *dev, struct inode *inode)
  473. {
  474. struct xrcd_table_entry *entry;
  475. entry = xrcd_table_search(dev, inode);
  476. if (!entry)
  477. return NULL;
  478. return entry->xrcd;
  479. }
  480. static void xrcd_table_delete(struct ib_uverbs_device *dev,
  481. struct inode *inode)
  482. {
  483. struct xrcd_table_entry *entry;
  484. entry = xrcd_table_search(dev, inode);
  485. if (entry) {
  486. iput(inode);
  487. rb_erase(&entry->node, &dev->xrcd_tree);
  488. kfree(entry);
  489. }
  490. }
  491. static int ib_uverbs_open_xrcd(struct uverbs_attr_bundle *attrs)
  492. {
  493. struct ib_uverbs_device *ibudev = attrs->ufile->device;
  494. struct ib_uverbs_open_xrcd_resp resp = {};
  495. struct ib_uverbs_open_xrcd cmd;
  496. struct ib_uxrcd_object *obj;
  497. struct ib_xrcd *xrcd = NULL;
  498. struct inode *inode = NULL;
  499. int new_xrcd = 0;
  500. struct ib_device *ib_dev;
  501. struct fd f = EMPTY_FD;
  502. int ret;
  503. ret = uverbs_request(attrs, &cmd, sizeof(cmd));
  504. if (ret)
  505. return ret;
  506. mutex_lock(&ibudev->xrcd_tree_mutex);
  507. if (cmd.fd != -1) {
  508. /* search for file descriptor */
  509. f = fdget(cmd.fd);
  510. if (fd_empty(f)) {
  511. ret = -EBADF;
  512. goto err_tree_mutex_unlock;
  513. }
  514. inode = file_inode(fd_file(f));
  515. xrcd = find_xrcd(ibudev, inode);
  516. if (!xrcd && !(cmd.oflags & O_CREAT)) {
  517. /* no file descriptor. Need CREATE flag */
  518. ret = -EAGAIN;
  519. goto err_tree_mutex_unlock;
  520. }
  521. if (xrcd && cmd.oflags & O_EXCL) {
  522. ret = -EINVAL;
  523. goto err_tree_mutex_unlock;
  524. }
  525. }
  526. obj = (struct ib_uxrcd_object *)uobj_alloc(UVERBS_OBJECT_XRCD, attrs,
  527. &ib_dev);
  528. if (IS_ERR(obj)) {
  529. ret = PTR_ERR(obj);
  530. goto err_tree_mutex_unlock;
  531. }
  532. if (!xrcd) {
  533. xrcd = ib_alloc_xrcd_user(ib_dev, inode, &attrs->driver_udata);
  534. if (IS_ERR(xrcd)) {
  535. ret = PTR_ERR(xrcd);
  536. goto err;
  537. }
  538. new_xrcd = 1;
  539. }
  540. atomic_set(&obj->refcnt, 0);
  541. obj->uobject.object = xrcd;
  542. if (inode) {
  543. if (new_xrcd) {
  544. /* create new inode/xrcd table entry */
  545. ret = xrcd_table_insert(ibudev, inode, xrcd);
  546. if (ret)
  547. goto err_dealloc_xrcd;
  548. }
  549. atomic_inc(&xrcd->usecnt);
  550. }
  551. fdput(f);
  552. mutex_unlock(&ibudev->xrcd_tree_mutex);
  553. uobj_finalize_uobj_create(&obj->uobject, attrs);
  554. resp.xrcd_handle = obj->uobject.id;
  555. return uverbs_response(attrs, &resp, sizeof(resp));
  556. err_dealloc_xrcd:
  557. ib_dealloc_xrcd_user(xrcd, uverbs_get_cleared_udata(attrs));
  558. err:
  559. uobj_alloc_abort(&obj->uobject, attrs);
  560. err_tree_mutex_unlock:
  561. fdput(f);
  562. mutex_unlock(&ibudev->xrcd_tree_mutex);
  563. return ret;
  564. }
  565. static int ib_uverbs_close_xrcd(struct uverbs_attr_bundle *attrs)
  566. {
  567. struct ib_uverbs_close_xrcd cmd;
  568. int ret;
  569. ret = uverbs_request(attrs, &cmd, sizeof(cmd));
  570. if (ret)
  571. return ret;
  572. return uobj_perform_destroy(UVERBS_OBJECT_XRCD, cmd.xrcd_handle, attrs);
  573. }
  574. int ib_uverbs_dealloc_xrcd(struct ib_uobject *uobject, struct ib_xrcd *xrcd,
  575. enum rdma_remove_reason why,
  576. struct uverbs_attr_bundle *attrs)
  577. {
  578. struct inode *inode;
  579. int ret;
  580. struct ib_uverbs_device *dev = attrs->ufile->device;
  581. inode = xrcd->inode;
  582. if (inode && !atomic_dec_and_test(&xrcd->usecnt))
  583. return 0;
  584. ret = ib_dealloc_xrcd_user(xrcd, &attrs->driver_udata);
  585. if (ret) {
  586. atomic_inc(&xrcd->usecnt);
  587. return ret;
  588. }
  589. if (inode)
  590. xrcd_table_delete(dev, inode);
  591. return 0;
  592. }
  593. static int ib_uverbs_reg_mr(struct uverbs_attr_bundle *attrs)
  594. {
  595. struct ib_uverbs_reg_mr_resp resp = {};
  596. struct ib_uverbs_reg_mr cmd;
  597. struct ib_uobject *uobj;
  598. struct ib_pd *pd;
  599. struct ib_mr *mr;
  600. int ret;
  601. struct ib_device *ib_dev;
  602. ret = uverbs_request(attrs, &cmd, sizeof(cmd));
  603. if (ret)
  604. return ret;
  605. if ((cmd.start & ~PAGE_MASK) != (cmd.hca_va & ~PAGE_MASK))
  606. return -EINVAL;
  607. uobj = uobj_alloc(UVERBS_OBJECT_MR, attrs, &ib_dev);
  608. if (IS_ERR(uobj))
  609. return PTR_ERR(uobj);
  610. ret = ib_check_mr_access(ib_dev, cmd.access_flags);
  611. if (ret)
  612. goto err_free;
  613. pd = uobj_get_obj_read(pd, UVERBS_OBJECT_PD, cmd.pd_handle, attrs);
  614. if (IS_ERR(pd)) {
  615. ret = PTR_ERR(pd);
  616. goto err_free;
  617. }
  618. mr = pd->device->ops.reg_user_mr(pd, cmd.start, cmd.length, cmd.hca_va,
  619. cmd.access_flags, NULL,
  620. &attrs->driver_udata);
  621. if (IS_ERR(mr)) {
  622. ret = PTR_ERR(mr);
  623. goto err_put;
  624. }
  625. mr->device = pd->device;
  626. mr->pd = pd;
  627. mr->type = IB_MR_TYPE_USER;
  628. mr->dm = NULL;
  629. mr->sig_attrs = NULL;
  630. mr->uobject = uobj;
  631. atomic_inc(&pd->usecnt);
  632. mr->iova = cmd.hca_va;
  633. mr->length = cmd.length;
  634. rdma_restrack_new(&mr->res, RDMA_RESTRACK_MR);
  635. rdma_restrack_set_name(&mr->res, NULL);
  636. rdma_restrack_add(&mr->res);
  637. uobj->object = mr;
  638. uobj_put_obj_read(pd);
  639. uobj_finalize_uobj_create(uobj, attrs);
  640. resp.lkey = mr->lkey;
  641. resp.rkey = mr->rkey;
  642. resp.mr_handle = uobj->id;
  643. return uverbs_response(attrs, &resp, sizeof(resp));
  644. err_put:
  645. uobj_put_obj_read(pd);
  646. err_free:
  647. uobj_alloc_abort(uobj, attrs);
  648. return ret;
  649. }
  650. static int ib_uverbs_rereg_mr(struct uverbs_attr_bundle *attrs)
  651. {
  652. struct ib_uverbs_rereg_mr cmd;
  653. struct ib_uverbs_rereg_mr_resp resp;
  654. struct ib_mr *mr;
  655. int ret;
  656. struct ib_uobject *uobj;
  657. struct ib_uobject *new_uobj;
  658. struct ib_device *ib_dev;
  659. struct ib_pd *orig_pd;
  660. struct ib_pd *new_pd;
  661. struct ib_mr *new_mr;
  662. ret = uverbs_request(attrs, &cmd, sizeof(cmd));
  663. if (ret)
  664. return ret;
  665. if (!cmd.flags)
  666. return -EINVAL;
  667. if (cmd.flags & ~IB_MR_REREG_SUPPORTED)
  668. return -EOPNOTSUPP;
  669. if ((cmd.flags & IB_MR_REREG_TRANS) &&
  670. (cmd.start & ~PAGE_MASK) != (cmd.hca_va & ~PAGE_MASK))
  671. return -EINVAL;
  672. uobj = uobj_get_write(UVERBS_OBJECT_MR, cmd.mr_handle, attrs);
  673. if (IS_ERR(uobj))
  674. return PTR_ERR(uobj);
  675. mr = uobj->object;
  676. if (mr->dm) {
  677. ret = -EINVAL;
  678. goto put_uobjs;
  679. }
  680. if (cmd.flags & IB_MR_REREG_ACCESS) {
  681. ret = ib_check_mr_access(mr->device, cmd.access_flags);
  682. if (ret)
  683. goto put_uobjs;
  684. }
  685. orig_pd = mr->pd;
  686. if (cmd.flags & IB_MR_REREG_PD) {
  687. new_pd = uobj_get_obj_read(pd, UVERBS_OBJECT_PD, cmd.pd_handle,
  688. attrs);
  689. if (IS_ERR(new_pd)) {
  690. ret = PTR_ERR(new_pd);
  691. goto put_uobjs;
  692. }
  693. } else {
  694. new_pd = mr->pd;
  695. }
  696. /*
  697. * The driver might create a new HW object as part of the rereg, we need
  698. * to have a uobject ready to hold it.
  699. */
  700. new_uobj = uobj_alloc(UVERBS_OBJECT_MR, attrs, &ib_dev);
  701. if (IS_ERR(new_uobj)) {
  702. ret = PTR_ERR(new_uobj);
  703. goto put_uobj_pd;
  704. }
  705. new_mr = ib_dev->ops.rereg_user_mr(mr, cmd.flags, cmd.start, cmd.length,
  706. cmd.hca_va, cmd.access_flags, new_pd,
  707. &attrs->driver_udata);
  708. if (IS_ERR(new_mr)) {
  709. ret = PTR_ERR(new_mr);
  710. goto put_new_uobj;
  711. }
  712. if (new_mr) {
  713. new_mr->device = new_pd->device;
  714. new_mr->pd = new_pd;
  715. new_mr->type = IB_MR_TYPE_USER;
  716. new_mr->uobject = uobj;
  717. atomic_inc(&new_pd->usecnt);
  718. new_uobj->object = new_mr;
  719. rdma_restrack_new(&new_mr->res, RDMA_RESTRACK_MR);
  720. rdma_restrack_set_name(&new_mr->res, NULL);
  721. rdma_restrack_add(&new_mr->res);
  722. /*
  723. * The new uobj for the new HW object is put into the same spot
  724. * in the IDR and the old uobj & HW object is deleted.
  725. */
  726. rdma_assign_uobject(uobj, new_uobj, attrs);
  727. rdma_alloc_commit_uobject(new_uobj, attrs);
  728. uobj_put_destroy(uobj);
  729. new_uobj = NULL;
  730. uobj = NULL;
  731. mr = new_mr;
  732. } else {
  733. if (cmd.flags & IB_MR_REREG_PD) {
  734. atomic_dec(&orig_pd->usecnt);
  735. mr->pd = new_pd;
  736. atomic_inc(&new_pd->usecnt);
  737. }
  738. if (cmd.flags & IB_MR_REREG_TRANS) {
  739. mr->iova = cmd.hca_va;
  740. mr->length = cmd.length;
  741. }
  742. }
  743. memset(&resp, 0, sizeof(resp));
  744. resp.lkey = mr->lkey;
  745. resp.rkey = mr->rkey;
  746. ret = uverbs_response(attrs, &resp, sizeof(resp));
  747. put_new_uobj:
  748. if (new_uobj)
  749. uobj_alloc_abort(new_uobj, attrs);
  750. put_uobj_pd:
  751. if (cmd.flags & IB_MR_REREG_PD)
  752. uobj_put_obj_read(new_pd);
  753. put_uobjs:
  754. if (uobj)
  755. uobj_put_write(uobj);
  756. return ret;
  757. }
  758. static int ib_uverbs_dereg_mr(struct uverbs_attr_bundle *attrs)
  759. {
  760. struct ib_uverbs_dereg_mr cmd;
  761. int ret;
  762. ret = uverbs_request(attrs, &cmd, sizeof(cmd));
  763. if (ret)
  764. return ret;
  765. return uobj_perform_destroy(UVERBS_OBJECT_MR, cmd.mr_handle, attrs);
  766. }
  767. static int ib_uverbs_alloc_mw(struct uverbs_attr_bundle *attrs)
  768. {
  769. struct ib_uverbs_alloc_mw cmd;
  770. struct ib_uverbs_alloc_mw_resp resp = {};
  771. struct ib_uobject *uobj;
  772. struct ib_pd *pd;
  773. struct ib_mw *mw;
  774. int ret;
  775. struct ib_device *ib_dev;
  776. ret = uverbs_request(attrs, &cmd, sizeof(cmd));
  777. if (ret)
  778. return ret;
  779. uobj = uobj_alloc(UVERBS_OBJECT_MW, attrs, &ib_dev);
  780. if (IS_ERR(uobj))
  781. return PTR_ERR(uobj);
  782. pd = uobj_get_obj_read(pd, UVERBS_OBJECT_PD, cmd.pd_handle, attrs);
  783. if (IS_ERR(pd)) {
  784. ret = PTR_ERR(pd);
  785. goto err_free;
  786. }
  787. if (cmd.mw_type != IB_MW_TYPE_1 && cmd.mw_type != IB_MW_TYPE_2) {
  788. ret = -EINVAL;
  789. goto err_put;
  790. }
  791. mw = rdma_zalloc_drv_obj(ib_dev, ib_mw);
  792. if (!mw) {
  793. ret = -ENOMEM;
  794. goto err_put;
  795. }
  796. mw->device = ib_dev;
  797. mw->pd = pd;
  798. mw->uobject = uobj;
  799. mw->type = cmd.mw_type;
  800. ret = pd->device->ops.alloc_mw(mw, &attrs->driver_udata);
  801. if (ret)
  802. goto err_alloc;
  803. atomic_inc(&pd->usecnt);
  804. uobj->object = mw;
  805. uobj_put_obj_read(pd);
  806. uobj_finalize_uobj_create(uobj, attrs);
  807. resp.rkey = mw->rkey;
  808. resp.mw_handle = uobj->id;
  809. return uverbs_response(attrs, &resp, sizeof(resp));
  810. err_alloc:
  811. kfree(mw);
  812. err_put:
  813. uobj_put_obj_read(pd);
  814. err_free:
  815. uobj_alloc_abort(uobj, attrs);
  816. return ret;
  817. }
  818. static int ib_uverbs_dealloc_mw(struct uverbs_attr_bundle *attrs)
  819. {
  820. struct ib_uverbs_dealloc_mw cmd;
  821. int ret;
  822. ret = uverbs_request(attrs, &cmd, sizeof(cmd));
  823. if (ret)
  824. return ret;
  825. return uobj_perform_destroy(UVERBS_OBJECT_MW, cmd.mw_handle, attrs);
  826. }
  827. static int ib_uverbs_create_comp_channel(struct uverbs_attr_bundle *attrs)
  828. {
  829. struct ib_uverbs_create_comp_channel cmd;
  830. struct ib_uverbs_create_comp_channel_resp resp;
  831. struct ib_uobject *uobj;
  832. struct ib_uverbs_completion_event_file *ev_file;
  833. struct ib_device *ib_dev;
  834. int ret;
  835. ret = uverbs_request(attrs, &cmd, sizeof(cmd));
  836. if (ret)
  837. return ret;
  838. uobj = uobj_alloc(UVERBS_OBJECT_COMP_CHANNEL, attrs, &ib_dev);
  839. if (IS_ERR(uobj))
  840. return PTR_ERR(uobj);
  841. ev_file = container_of(uobj, struct ib_uverbs_completion_event_file,
  842. uobj);
  843. ib_uverbs_init_event_queue(&ev_file->ev_queue);
  844. uobj_finalize_uobj_create(uobj, attrs);
  845. resp.fd = uobj->id;
  846. return uverbs_response(attrs, &resp, sizeof(resp));
  847. }
  848. static int create_cq(struct uverbs_attr_bundle *attrs,
  849. struct ib_uverbs_ex_create_cq *cmd)
  850. {
  851. struct ib_ucq_object *obj;
  852. struct ib_uverbs_completion_event_file *ev_file = NULL;
  853. struct ib_cq *cq;
  854. int ret;
  855. struct ib_uverbs_ex_create_cq_resp resp = {};
  856. struct ib_cq_init_attr attr = {};
  857. struct ib_device *ib_dev;
  858. if (cmd->comp_vector >= attrs->ufile->device->num_comp_vectors)
  859. return -EINVAL;
  860. obj = (struct ib_ucq_object *)uobj_alloc(UVERBS_OBJECT_CQ, attrs,
  861. &ib_dev);
  862. if (IS_ERR(obj))
  863. return PTR_ERR(obj);
  864. if (cmd->comp_channel >= 0) {
  865. ev_file = ib_uverbs_lookup_comp_file(cmd->comp_channel, attrs);
  866. if (IS_ERR(ev_file)) {
  867. ret = PTR_ERR(ev_file);
  868. goto err;
  869. }
  870. }
  871. obj->uevent.uobject.user_handle = cmd->user_handle;
  872. INIT_LIST_HEAD(&obj->comp_list);
  873. INIT_LIST_HEAD(&obj->uevent.event_list);
  874. attr.cqe = cmd->cqe;
  875. attr.comp_vector = cmd->comp_vector;
  876. attr.flags = cmd->flags;
  877. cq = rdma_zalloc_drv_obj(ib_dev, ib_cq);
  878. if (!cq) {
  879. ret = -ENOMEM;
  880. goto err_file;
  881. }
  882. cq->device = ib_dev;
  883. cq->uobject = obj;
  884. cq->comp_handler = ib_uverbs_comp_handler;
  885. cq->event_handler = ib_uverbs_cq_event_handler;
  886. cq->cq_context = ev_file ? &ev_file->ev_queue : NULL;
  887. atomic_set(&cq->usecnt, 0);
  888. rdma_restrack_new(&cq->res, RDMA_RESTRACK_CQ);
  889. rdma_restrack_set_name(&cq->res, NULL);
  890. ret = ib_dev->ops.create_cq(cq, &attr, attrs);
  891. if (ret)
  892. goto err_free;
  893. rdma_restrack_add(&cq->res);
  894. obj->uevent.uobject.object = cq;
  895. obj->uevent.event_file = READ_ONCE(attrs->ufile->default_async_file);
  896. if (obj->uevent.event_file)
  897. uverbs_uobject_get(&obj->uevent.event_file->uobj);
  898. uobj_finalize_uobj_create(&obj->uevent.uobject, attrs);
  899. resp.base.cq_handle = obj->uevent.uobject.id;
  900. resp.base.cqe = cq->cqe;
  901. resp.response_length = uverbs_response_length(attrs, sizeof(resp));
  902. return uverbs_response(attrs, &resp, sizeof(resp));
  903. err_free:
  904. rdma_restrack_put(&cq->res);
  905. kfree(cq);
  906. err_file:
  907. if (ev_file)
  908. ib_uverbs_release_ucq(ev_file, obj);
  909. err:
  910. uobj_alloc_abort(&obj->uevent.uobject, attrs);
  911. return ret;
  912. }
  913. static int ib_uverbs_create_cq(struct uverbs_attr_bundle *attrs)
  914. {
  915. struct ib_uverbs_create_cq cmd;
  916. struct ib_uverbs_ex_create_cq cmd_ex;
  917. int ret;
  918. ret = uverbs_request(attrs, &cmd, sizeof(cmd));
  919. if (ret)
  920. return ret;
  921. memset(&cmd_ex, 0, sizeof(cmd_ex));
  922. cmd_ex.user_handle = cmd.user_handle;
  923. cmd_ex.cqe = cmd.cqe;
  924. cmd_ex.comp_vector = cmd.comp_vector;
  925. cmd_ex.comp_channel = cmd.comp_channel;
  926. return create_cq(attrs, &cmd_ex);
  927. }
  928. static int ib_uverbs_ex_create_cq(struct uverbs_attr_bundle *attrs)
  929. {
  930. struct ib_uverbs_ex_create_cq cmd;
  931. int ret;
  932. ret = uverbs_request(attrs, &cmd, sizeof(cmd));
  933. if (ret)
  934. return ret;
  935. if (cmd.comp_mask)
  936. return -EINVAL;
  937. if (cmd.reserved)
  938. return -EINVAL;
  939. return create_cq(attrs, &cmd);
  940. }
  941. static int ib_uverbs_resize_cq(struct uverbs_attr_bundle *attrs)
  942. {
  943. struct ib_uverbs_resize_cq cmd;
  944. struct ib_uverbs_resize_cq_resp resp = {};
  945. struct ib_cq *cq;
  946. int ret;
  947. ret = uverbs_request(attrs, &cmd, sizeof(cmd));
  948. if (ret)
  949. return ret;
  950. cq = uobj_get_obj_read(cq, UVERBS_OBJECT_CQ, cmd.cq_handle, attrs);
  951. if (IS_ERR(cq))
  952. return PTR_ERR(cq);
  953. ret = cq->device->ops.resize_cq(cq, cmd.cqe, &attrs->driver_udata);
  954. if (ret)
  955. goto out;
  956. resp.cqe = cq->cqe;
  957. ret = uverbs_response(attrs, &resp, sizeof(resp));
  958. out:
  959. rdma_lookup_put_uobject(&cq->uobject->uevent.uobject,
  960. UVERBS_LOOKUP_READ);
  961. return ret;
  962. }
  963. static int copy_wc_to_user(struct ib_device *ib_dev, void __user *dest,
  964. struct ib_wc *wc)
  965. {
  966. struct ib_uverbs_wc tmp;
  967. tmp.wr_id = wc->wr_id;
  968. tmp.status = wc->status;
  969. tmp.opcode = wc->opcode;
  970. tmp.vendor_err = wc->vendor_err;
  971. tmp.byte_len = wc->byte_len;
  972. tmp.ex.imm_data = wc->ex.imm_data;
  973. tmp.qp_num = wc->qp->qp_num;
  974. tmp.src_qp = wc->src_qp;
  975. tmp.wc_flags = wc->wc_flags;
  976. tmp.pkey_index = wc->pkey_index;
  977. if (rdma_cap_opa_ah(ib_dev, wc->port_num))
  978. tmp.slid = OPA_TO_IB_UCAST_LID(wc->slid);
  979. else
  980. tmp.slid = ib_lid_cpu16(wc->slid);
  981. tmp.sl = wc->sl;
  982. tmp.dlid_path_bits = wc->dlid_path_bits;
  983. tmp.port_num = wc->port_num;
  984. tmp.reserved = 0;
  985. if (copy_to_user(dest, &tmp, sizeof tmp))
  986. return -EFAULT;
  987. return 0;
  988. }
  989. static int ib_uverbs_poll_cq(struct uverbs_attr_bundle *attrs)
  990. {
  991. struct ib_uverbs_poll_cq cmd;
  992. struct ib_uverbs_poll_cq_resp resp;
  993. u8 __user *header_ptr;
  994. u8 __user *data_ptr;
  995. struct ib_cq *cq;
  996. struct ib_wc wc;
  997. int ret;
  998. ret = uverbs_request(attrs, &cmd, sizeof(cmd));
  999. if (ret)
  1000. return ret;
  1001. cq = uobj_get_obj_read(cq, UVERBS_OBJECT_CQ, cmd.cq_handle, attrs);
  1002. if (IS_ERR(cq))
  1003. return PTR_ERR(cq);
  1004. /* we copy a struct ib_uverbs_poll_cq_resp to user space */
  1005. header_ptr = attrs->ucore.outbuf;
  1006. data_ptr = header_ptr + sizeof resp;
  1007. memset(&resp, 0, sizeof resp);
  1008. while (resp.count < cmd.ne) {
  1009. ret = ib_poll_cq(cq, 1, &wc);
  1010. if (ret < 0)
  1011. goto out_put;
  1012. if (!ret)
  1013. break;
  1014. ret = copy_wc_to_user(cq->device, data_ptr, &wc);
  1015. if (ret)
  1016. goto out_put;
  1017. data_ptr += sizeof(struct ib_uverbs_wc);
  1018. ++resp.count;
  1019. }
  1020. if (copy_to_user(header_ptr, &resp, sizeof resp)) {
  1021. ret = -EFAULT;
  1022. goto out_put;
  1023. }
  1024. ret = 0;
  1025. if (uverbs_attr_is_valid(attrs, UVERBS_ATTR_CORE_OUT))
  1026. ret = uverbs_output_written(attrs, UVERBS_ATTR_CORE_OUT);
  1027. out_put:
  1028. rdma_lookup_put_uobject(&cq->uobject->uevent.uobject,
  1029. UVERBS_LOOKUP_READ);
  1030. return ret;
  1031. }
  1032. static int ib_uverbs_req_notify_cq(struct uverbs_attr_bundle *attrs)
  1033. {
  1034. struct ib_uverbs_req_notify_cq cmd;
  1035. struct ib_cq *cq;
  1036. int ret;
  1037. ret = uverbs_request(attrs, &cmd, sizeof(cmd));
  1038. if (ret)
  1039. return ret;
  1040. cq = uobj_get_obj_read(cq, UVERBS_OBJECT_CQ, cmd.cq_handle, attrs);
  1041. if (IS_ERR(cq))
  1042. return PTR_ERR(cq);
  1043. ib_req_notify_cq(cq, cmd.solicited_only ?
  1044. IB_CQ_SOLICITED : IB_CQ_NEXT_COMP);
  1045. rdma_lookup_put_uobject(&cq->uobject->uevent.uobject,
  1046. UVERBS_LOOKUP_READ);
  1047. return 0;
  1048. }
  1049. static int ib_uverbs_destroy_cq(struct uverbs_attr_bundle *attrs)
  1050. {
  1051. struct ib_uverbs_destroy_cq cmd;
  1052. struct ib_uverbs_destroy_cq_resp resp;
  1053. struct ib_uobject *uobj;
  1054. struct ib_ucq_object *obj;
  1055. int ret;
  1056. ret = uverbs_request(attrs, &cmd, sizeof(cmd));
  1057. if (ret)
  1058. return ret;
  1059. uobj = uobj_get_destroy(UVERBS_OBJECT_CQ, cmd.cq_handle, attrs);
  1060. if (IS_ERR(uobj))
  1061. return PTR_ERR(uobj);
  1062. obj = container_of(uobj, struct ib_ucq_object, uevent.uobject);
  1063. memset(&resp, 0, sizeof(resp));
  1064. resp.comp_events_reported = obj->comp_events_reported;
  1065. resp.async_events_reported = obj->uevent.events_reported;
  1066. uobj_put_destroy(uobj);
  1067. return uverbs_response(attrs, &resp, sizeof(resp));
  1068. }
  1069. static int create_qp(struct uverbs_attr_bundle *attrs,
  1070. struct ib_uverbs_ex_create_qp *cmd)
  1071. {
  1072. struct ib_uqp_object *obj;
  1073. struct ib_device *device;
  1074. struct ib_pd *pd = NULL;
  1075. struct ib_xrcd *xrcd = NULL;
  1076. struct ib_uobject *xrcd_uobj = ERR_PTR(-ENOENT);
  1077. struct ib_cq *scq = NULL, *rcq = NULL;
  1078. struct ib_srq *srq = NULL;
  1079. struct ib_qp *qp;
  1080. struct ib_qp_init_attr attr = {};
  1081. struct ib_uverbs_ex_create_qp_resp resp = {};
  1082. int ret;
  1083. struct ib_rwq_ind_table *ind_tbl = NULL;
  1084. bool has_sq = true;
  1085. struct ib_device *ib_dev;
  1086. switch (cmd->qp_type) {
  1087. case IB_QPT_RAW_PACKET:
  1088. if (!rdma_uattrs_has_raw_cap(attrs))
  1089. return -EPERM;
  1090. fallthrough;
  1091. case IB_QPT_RC:
  1092. case IB_QPT_UC:
  1093. case IB_QPT_UD:
  1094. case IB_QPT_XRC_INI:
  1095. case IB_QPT_XRC_TGT:
  1096. case IB_QPT_DRIVER:
  1097. break;
  1098. default:
  1099. return -EINVAL;
  1100. }
  1101. obj = (struct ib_uqp_object *)uobj_alloc(UVERBS_OBJECT_QP, attrs,
  1102. &ib_dev);
  1103. if (IS_ERR(obj))
  1104. return PTR_ERR(obj);
  1105. obj->uxrcd = NULL;
  1106. obj->uevent.uobject.user_handle = cmd->user_handle;
  1107. mutex_init(&obj->mcast_lock);
  1108. if (cmd->comp_mask & IB_UVERBS_CREATE_QP_MASK_IND_TABLE) {
  1109. ind_tbl = uobj_get_obj_read(rwq_ind_table,
  1110. UVERBS_OBJECT_RWQ_IND_TBL,
  1111. cmd->rwq_ind_tbl_handle, attrs);
  1112. if (IS_ERR(ind_tbl)) {
  1113. ret = PTR_ERR(ind_tbl);
  1114. goto err_put;
  1115. }
  1116. attr.rwq_ind_tbl = ind_tbl;
  1117. }
  1118. if (ind_tbl && (cmd->max_recv_wr || cmd->max_recv_sge || cmd->is_srq)) {
  1119. ret = -EINVAL;
  1120. goto err_put;
  1121. }
  1122. if (ind_tbl && !cmd->max_send_wr)
  1123. has_sq = false;
  1124. if (cmd->qp_type == IB_QPT_XRC_TGT) {
  1125. xrcd_uobj = uobj_get_read(UVERBS_OBJECT_XRCD, cmd->pd_handle,
  1126. attrs);
  1127. if (IS_ERR(xrcd_uobj)) {
  1128. ret = -EINVAL;
  1129. goto err_put;
  1130. }
  1131. xrcd = (struct ib_xrcd *)xrcd_uobj->object;
  1132. if (!xrcd) {
  1133. ret = -EINVAL;
  1134. goto err_put;
  1135. }
  1136. device = xrcd->device;
  1137. } else {
  1138. if (cmd->qp_type == IB_QPT_XRC_INI) {
  1139. cmd->max_recv_wr = 0;
  1140. cmd->max_recv_sge = 0;
  1141. } else {
  1142. if (cmd->is_srq) {
  1143. srq = uobj_get_obj_read(srq, UVERBS_OBJECT_SRQ,
  1144. cmd->srq_handle, attrs);
  1145. if (IS_ERR(srq) ||
  1146. srq->srq_type == IB_SRQT_XRC) {
  1147. ret = IS_ERR(srq) ? PTR_ERR(srq) :
  1148. -EINVAL;
  1149. goto err_put;
  1150. }
  1151. }
  1152. if (!ind_tbl) {
  1153. if (cmd->recv_cq_handle != cmd->send_cq_handle) {
  1154. rcq = uobj_get_obj_read(
  1155. cq, UVERBS_OBJECT_CQ,
  1156. cmd->recv_cq_handle, attrs);
  1157. if (IS_ERR(rcq)) {
  1158. ret = PTR_ERR(rcq);
  1159. goto err_put;
  1160. }
  1161. }
  1162. }
  1163. }
  1164. if (has_sq) {
  1165. scq = uobj_get_obj_read(cq, UVERBS_OBJECT_CQ,
  1166. cmd->send_cq_handle, attrs);
  1167. if (IS_ERR(scq)) {
  1168. ret = PTR_ERR(scq);
  1169. goto err_put;
  1170. }
  1171. }
  1172. if (!ind_tbl && cmd->qp_type != IB_QPT_XRC_INI)
  1173. rcq = rcq ?: scq;
  1174. pd = uobj_get_obj_read(pd, UVERBS_OBJECT_PD, cmd->pd_handle,
  1175. attrs);
  1176. if (IS_ERR(pd)) {
  1177. ret = PTR_ERR(pd);
  1178. goto err_put;
  1179. }
  1180. device = pd->device;
  1181. }
  1182. attr.event_handler = ib_uverbs_qp_event_handler;
  1183. attr.send_cq = scq;
  1184. attr.recv_cq = rcq;
  1185. attr.srq = srq;
  1186. attr.xrcd = xrcd;
  1187. attr.sq_sig_type = cmd->sq_sig_all ? IB_SIGNAL_ALL_WR :
  1188. IB_SIGNAL_REQ_WR;
  1189. attr.qp_type = cmd->qp_type;
  1190. attr.cap.max_send_wr = cmd->max_send_wr;
  1191. attr.cap.max_recv_wr = cmd->max_recv_wr;
  1192. attr.cap.max_send_sge = cmd->max_send_sge;
  1193. attr.cap.max_recv_sge = cmd->max_recv_sge;
  1194. attr.cap.max_inline_data = cmd->max_inline_data;
  1195. INIT_LIST_HEAD(&obj->uevent.event_list);
  1196. INIT_LIST_HEAD(&obj->mcast_list);
  1197. attr.create_flags = cmd->create_flags;
  1198. if (attr.create_flags & ~(IB_QP_CREATE_BLOCK_MULTICAST_LOOPBACK |
  1199. IB_QP_CREATE_CROSS_CHANNEL |
  1200. IB_QP_CREATE_MANAGED_SEND |
  1201. IB_QP_CREATE_MANAGED_RECV |
  1202. IB_QP_CREATE_SCATTER_FCS |
  1203. IB_QP_CREATE_CVLAN_STRIPPING |
  1204. IB_QP_CREATE_SOURCE_QPN |
  1205. IB_QP_CREATE_PCI_WRITE_END_PADDING)) {
  1206. ret = -EINVAL;
  1207. goto err_put;
  1208. }
  1209. if (attr.create_flags & IB_QP_CREATE_SOURCE_QPN) {
  1210. if (!rdma_uattrs_has_raw_cap(attrs)) {
  1211. ret = -EPERM;
  1212. goto err_put;
  1213. }
  1214. attr.source_qpn = cmd->source_qpn;
  1215. }
  1216. qp = ib_create_qp_user(device, pd, &attr, &attrs->driver_udata, obj,
  1217. KBUILD_MODNAME);
  1218. if (IS_ERR(qp)) {
  1219. ret = PTR_ERR(qp);
  1220. goto err_put;
  1221. }
  1222. ib_qp_usecnt_inc(qp);
  1223. obj->uevent.uobject.object = qp;
  1224. obj->uevent.event_file = READ_ONCE(attrs->ufile->default_async_file);
  1225. if (obj->uevent.event_file)
  1226. uverbs_uobject_get(&obj->uevent.event_file->uobj);
  1227. if (xrcd) {
  1228. obj->uxrcd = container_of(xrcd_uobj, struct ib_uxrcd_object,
  1229. uobject);
  1230. atomic_inc(&obj->uxrcd->refcnt);
  1231. uobj_put_read(xrcd_uobj);
  1232. }
  1233. if (pd)
  1234. uobj_put_obj_read(pd);
  1235. if (scq)
  1236. rdma_lookup_put_uobject(&scq->uobject->uevent.uobject,
  1237. UVERBS_LOOKUP_READ);
  1238. if (rcq && rcq != scq)
  1239. rdma_lookup_put_uobject(&rcq->uobject->uevent.uobject,
  1240. UVERBS_LOOKUP_READ);
  1241. if (srq)
  1242. rdma_lookup_put_uobject(&srq->uobject->uevent.uobject,
  1243. UVERBS_LOOKUP_READ);
  1244. if (ind_tbl)
  1245. uobj_put_obj_read(ind_tbl);
  1246. uobj_finalize_uobj_create(&obj->uevent.uobject, attrs);
  1247. resp.base.qpn = qp->qp_num;
  1248. resp.base.qp_handle = obj->uevent.uobject.id;
  1249. resp.base.max_recv_sge = attr.cap.max_recv_sge;
  1250. resp.base.max_send_sge = attr.cap.max_send_sge;
  1251. resp.base.max_recv_wr = attr.cap.max_recv_wr;
  1252. resp.base.max_send_wr = attr.cap.max_send_wr;
  1253. resp.base.max_inline_data = attr.cap.max_inline_data;
  1254. resp.response_length = uverbs_response_length(attrs, sizeof(resp));
  1255. return uverbs_response(attrs, &resp, sizeof(resp));
  1256. err_put:
  1257. if (!IS_ERR(xrcd_uobj))
  1258. uobj_put_read(xrcd_uobj);
  1259. if (!IS_ERR_OR_NULL(pd))
  1260. uobj_put_obj_read(pd);
  1261. if (!IS_ERR_OR_NULL(scq))
  1262. rdma_lookup_put_uobject(&scq->uobject->uevent.uobject,
  1263. UVERBS_LOOKUP_READ);
  1264. if (!IS_ERR_OR_NULL(rcq) && rcq != scq)
  1265. rdma_lookup_put_uobject(&rcq->uobject->uevent.uobject,
  1266. UVERBS_LOOKUP_READ);
  1267. if (!IS_ERR_OR_NULL(srq))
  1268. rdma_lookup_put_uobject(&srq->uobject->uevent.uobject,
  1269. UVERBS_LOOKUP_READ);
  1270. if (!IS_ERR_OR_NULL(ind_tbl))
  1271. uobj_put_obj_read(ind_tbl);
  1272. uobj_alloc_abort(&obj->uevent.uobject, attrs);
  1273. return ret;
  1274. }
  1275. static int ib_uverbs_create_qp(struct uverbs_attr_bundle *attrs)
  1276. {
  1277. struct ib_uverbs_create_qp cmd;
  1278. struct ib_uverbs_ex_create_qp cmd_ex;
  1279. int ret;
  1280. ret = uverbs_request(attrs, &cmd, sizeof(cmd));
  1281. if (ret)
  1282. return ret;
  1283. memset(&cmd_ex, 0, sizeof(cmd_ex));
  1284. cmd_ex.user_handle = cmd.user_handle;
  1285. cmd_ex.pd_handle = cmd.pd_handle;
  1286. cmd_ex.send_cq_handle = cmd.send_cq_handle;
  1287. cmd_ex.recv_cq_handle = cmd.recv_cq_handle;
  1288. cmd_ex.srq_handle = cmd.srq_handle;
  1289. cmd_ex.max_send_wr = cmd.max_send_wr;
  1290. cmd_ex.max_recv_wr = cmd.max_recv_wr;
  1291. cmd_ex.max_send_sge = cmd.max_send_sge;
  1292. cmd_ex.max_recv_sge = cmd.max_recv_sge;
  1293. cmd_ex.max_inline_data = cmd.max_inline_data;
  1294. cmd_ex.sq_sig_all = cmd.sq_sig_all;
  1295. cmd_ex.qp_type = cmd.qp_type;
  1296. cmd_ex.is_srq = cmd.is_srq;
  1297. return create_qp(attrs, &cmd_ex);
  1298. }
  1299. static int ib_uverbs_ex_create_qp(struct uverbs_attr_bundle *attrs)
  1300. {
  1301. struct ib_uverbs_ex_create_qp cmd;
  1302. int ret;
  1303. ret = uverbs_request(attrs, &cmd, sizeof(cmd));
  1304. if (ret)
  1305. return ret;
  1306. if (cmd.comp_mask & ~IB_UVERBS_CREATE_QP_SUP_COMP_MASK)
  1307. return -EINVAL;
  1308. if (cmd.reserved)
  1309. return -EINVAL;
  1310. return create_qp(attrs, &cmd);
  1311. }
  1312. static int ib_uverbs_open_qp(struct uverbs_attr_bundle *attrs)
  1313. {
  1314. struct ib_uverbs_create_qp_resp resp = {};
  1315. struct ib_uverbs_open_qp cmd;
  1316. struct ib_uqp_object *obj;
  1317. struct ib_xrcd *xrcd;
  1318. struct ib_qp *qp;
  1319. struct ib_qp_open_attr attr = {};
  1320. int ret;
  1321. struct ib_uobject *xrcd_uobj;
  1322. struct ib_device *ib_dev;
  1323. ret = uverbs_request(attrs, &cmd, sizeof(cmd));
  1324. if (ret)
  1325. return ret;
  1326. obj = (struct ib_uqp_object *)uobj_alloc(UVERBS_OBJECT_QP, attrs,
  1327. &ib_dev);
  1328. if (IS_ERR(obj))
  1329. return PTR_ERR(obj);
  1330. xrcd_uobj = uobj_get_read(UVERBS_OBJECT_XRCD, cmd.pd_handle, attrs);
  1331. if (IS_ERR(xrcd_uobj)) {
  1332. ret = -EINVAL;
  1333. goto err_put;
  1334. }
  1335. xrcd = (struct ib_xrcd *)xrcd_uobj->object;
  1336. if (!xrcd) {
  1337. ret = -EINVAL;
  1338. goto err_xrcd;
  1339. }
  1340. attr.event_handler = ib_uverbs_qp_event_handler;
  1341. attr.qp_num = cmd.qpn;
  1342. attr.qp_type = cmd.qp_type;
  1343. INIT_LIST_HEAD(&obj->uevent.event_list);
  1344. INIT_LIST_HEAD(&obj->mcast_list);
  1345. qp = ib_open_qp(xrcd, &attr);
  1346. if (IS_ERR(qp)) {
  1347. ret = PTR_ERR(qp);
  1348. goto err_xrcd;
  1349. }
  1350. obj->uevent.uobject.object = qp;
  1351. obj->uevent.uobject.user_handle = cmd.user_handle;
  1352. obj->uxrcd = container_of(xrcd_uobj, struct ib_uxrcd_object, uobject);
  1353. atomic_inc(&obj->uxrcd->refcnt);
  1354. qp->uobject = obj;
  1355. uobj_put_read(xrcd_uobj);
  1356. uobj_finalize_uobj_create(&obj->uevent.uobject, attrs);
  1357. resp.qpn = qp->qp_num;
  1358. resp.qp_handle = obj->uevent.uobject.id;
  1359. return uverbs_response(attrs, &resp, sizeof(resp));
  1360. err_xrcd:
  1361. uobj_put_read(xrcd_uobj);
  1362. err_put:
  1363. uobj_alloc_abort(&obj->uevent.uobject, attrs);
  1364. return ret;
  1365. }
  1366. static void copy_ah_attr_to_uverbs(struct ib_uverbs_qp_dest *uverb_attr,
  1367. struct rdma_ah_attr *rdma_attr)
  1368. {
  1369. const struct ib_global_route *grh;
  1370. uverb_attr->dlid = rdma_ah_get_dlid(rdma_attr);
  1371. uverb_attr->sl = rdma_ah_get_sl(rdma_attr);
  1372. uverb_attr->src_path_bits = rdma_ah_get_path_bits(rdma_attr);
  1373. uverb_attr->static_rate = rdma_ah_get_static_rate(rdma_attr);
  1374. uverb_attr->is_global = !!(rdma_ah_get_ah_flags(rdma_attr) &
  1375. IB_AH_GRH);
  1376. if (uverb_attr->is_global) {
  1377. grh = rdma_ah_read_grh(rdma_attr);
  1378. memcpy(uverb_attr->dgid, grh->dgid.raw, 16);
  1379. uverb_attr->flow_label = grh->flow_label;
  1380. uverb_attr->sgid_index = grh->sgid_index;
  1381. uverb_attr->hop_limit = grh->hop_limit;
  1382. uverb_attr->traffic_class = grh->traffic_class;
  1383. }
  1384. uverb_attr->port_num = rdma_ah_get_port_num(rdma_attr);
  1385. }
  1386. static int ib_uverbs_query_qp(struct uverbs_attr_bundle *attrs)
  1387. {
  1388. struct ib_uverbs_query_qp cmd;
  1389. struct ib_uverbs_query_qp_resp resp;
  1390. struct ib_qp *qp;
  1391. struct ib_qp_attr *attr;
  1392. struct ib_qp_init_attr *init_attr;
  1393. int ret;
  1394. ret = uverbs_request(attrs, &cmd, sizeof(cmd));
  1395. if (ret)
  1396. return ret;
  1397. attr = kmalloc_obj(*attr);
  1398. init_attr = kmalloc_obj(*init_attr);
  1399. if (!attr || !init_attr) {
  1400. ret = -ENOMEM;
  1401. goto out;
  1402. }
  1403. qp = uobj_get_obj_read(qp, UVERBS_OBJECT_QP, cmd.qp_handle, attrs);
  1404. if (IS_ERR(qp)) {
  1405. ret = PTR_ERR(qp);
  1406. goto out;
  1407. }
  1408. ret = ib_query_qp(qp, attr, cmd.attr_mask, init_attr);
  1409. rdma_lookup_put_uobject(&qp->uobject->uevent.uobject,
  1410. UVERBS_LOOKUP_READ);
  1411. if (ret)
  1412. goto out;
  1413. memset(&resp, 0, sizeof resp);
  1414. resp.qp_state = attr->qp_state;
  1415. resp.cur_qp_state = attr->cur_qp_state;
  1416. resp.path_mtu = attr->path_mtu;
  1417. resp.path_mig_state = attr->path_mig_state;
  1418. resp.qkey = attr->qkey;
  1419. resp.rq_psn = attr->rq_psn;
  1420. resp.sq_psn = attr->sq_psn;
  1421. resp.dest_qp_num = attr->dest_qp_num;
  1422. resp.qp_access_flags = attr->qp_access_flags;
  1423. resp.pkey_index = attr->pkey_index;
  1424. resp.alt_pkey_index = attr->alt_pkey_index;
  1425. resp.sq_draining = attr->sq_draining;
  1426. resp.max_rd_atomic = attr->max_rd_atomic;
  1427. resp.max_dest_rd_atomic = attr->max_dest_rd_atomic;
  1428. resp.min_rnr_timer = attr->min_rnr_timer;
  1429. resp.port_num = attr->port_num;
  1430. resp.timeout = attr->timeout;
  1431. resp.retry_cnt = attr->retry_cnt;
  1432. resp.rnr_retry = attr->rnr_retry;
  1433. resp.alt_port_num = attr->alt_port_num;
  1434. resp.alt_timeout = attr->alt_timeout;
  1435. copy_ah_attr_to_uverbs(&resp.dest, &attr->ah_attr);
  1436. copy_ah_attr_to_uverbs(&resp.alt_dest, &attr->alt_ah_attr);
  1437. resp.max_send_wr = init_attr->cap.max_send_wr;
  1438. resp.max_recv_wr = init_attr->cap.max_recv_wr;
  1439. resp.max_send_sge = init_attr->cap.max_send_sge;
  1440. resp.max_recv_sge = init_attr->cap.max_recv_sge;
  1441. resp.max_inline_data = init_attr->cap.max_inline_data;
  1442. resp.sq_sig_all = init_attr->sq_sig_type == IB_SIGNAL_ALL_WR;
  1443. ret = uverbs_response(attrs, &resp, sizeof(resp));
  1444. out:
  1445. kfree(attr);
  1446. kfree(init_attr);
  1447. return ret;
  1448. }
  1449. /* Remove ignored fields set in the attribute mask */
  1450. static int modify_qp_mask(enum ib_qp_type qp_type, int mask)
  1451. {
  1452. switch (qp_type) {
  1453. case IB_QPT_XRC_INI:
  1454. return mask & ~(IB_QP_MAX_DEST_RD_ATOMIC | IB_QP_MIN_RNR_TIMER);
  1455. case IB_QPT_XRC_TGT:
  1456. return mask & ~(IB_QP_MAX_QP_RD_ATOMIC | IB_QP_RETRY_CNT |
  1457. IB_QP_RNR_RETRY);
  1458. default:
  1459. return mask;
  1460. }
  1461. }
  1462. static void copy_ah_attr_from_uverbs(struct ib_device *dev,
  1463. struct rdma_ah_attr *rdma_attr,
  1464. struct ib_uverbs_qp_dest *uverb_attr)
  1465. {
  1466. rdma_attr->type = rdma_ah_find_type(dev, uverb_attr->port_num);
  1467. if (uverb_attr->is_global) {
  1468. rdma_ah_set_grh(rdma_attr, NULL,
  1469. uverb_attr->flow_label,
  1470. uverb_attr->sgid_index,
  1471. uverb_attr->hop_limit,
  1472. uverb_attr->traffic_class);
  1473. rdma_ah_set_dgid_raw(rdma_attr, uverb_attr->dgid);
  1474. } else {
  1475. rdma_ah_set_ah_flags(rdma_attr, 0);
  1476. }
  1477. rdma_ah_set_dlid(rdma_attr, uverb_attr->dlid);
  1478. rdma_ah_set_sl(rdma_attr, uverb_attr->sl);
  1479. rdma_ah_set_path_bits(rdma_attr, uverb_attr->src_path_bits);
  1480. rdma_ah_set_static_rate(rdma_attr, uverb_attr->static_rate);
  1481. rdma_ah_set_port_num(rdma_attr, uverb_attr->port_num);
  1482. rdma_ah_set_make_grd(rdma_attr, false);
  1483. }
  1484. static int modify_qp(struct uverbs_attr_bundle *attrs,
  1485. struct ib_uverbs_ex_modify_qp *cmd)
  1486. {
  1487. struct ib_qp_attr *attr;
  1488. struct ib_qp *qp;
  1489. int ret;
  1490. attr = kzalloc_obj(*attr);
  1491. if (!attr)
  1492. return -ENOMEM;
  1493. qp = uobj_get_obj_read(qp, UVERBS_OBJECT_QP, cmd->base.qp_handle,
  1494. attrs);
  1495. if (IS_ERR(qp)) {
  1496. ret = PTR_ERR(qp);
  1497. goto out;
  1498. }
  1499. if ((cmd->base.attr_mask & IB_QP_PORT) &&
  1500. !rdma_is_port_valid(qp->device, cmd->base.port_num)) {
  1501. ret = -EINVAL;
  1502. goto release_qp;
  1503. }
  1504. if ((cmd->base.attr_mask & IB_QP_AV)) {
  1505. if (!rdma_is_port_valid(qp->device, cmd->base.dest.port_num)) {
  1506. ret = -EINVAL;
  1507. goto release_qp;
  1508. }
  1509. if (cmd->base.attr_mask & IB_QP_STATE &&
  1510. cmd->base.qp_state == IB_QPS_RTR) {
  1511. /* We are in INIT->RTR TRANSITION (if we are not,
  1512. * this transition will be rejected in subsequent checks).
  1513. * In the INIT->RTR transition, we cannot have IB_QP_PORT set,
  1514. * but the IB_QP_STATE flag is required.
  1515. *
  1516. * Since kernel 3.14 (commit dbf727de7440), the uverbs driver,
  1517. * when IB_QP_AV is set, has required inclusion of a valid
  1518. * port number in the primary AV. (AVs are created and handled
  1519. * differently for infiniband and ethernet (RoCE) ports).
  1520. *
  1521. * Check the port number included in the primary AV against
  1522. * the port number in the qp struct, which was set (and saved)
  1523. * in the RST->INIT transition.
  1524. */
  1525. if (cmd->base.dest.port_num != qp->real_qp->port) {
  1526. ret = -EINVAL;
  1527. goto release_qp;
  1528. }
  1529. } else {
  1530. /* We are in SQD->SQD. (If we are not, this transition will
  1531. * be rejected later in the verbs layer checks).
  1532. * Check for both IB_QP_PORT and IB_QP_AV, these can be set
  1533. * together in the SQD->SQD transition.
  1534. *
  1535. * If only IP_QP_AV was set, add in IB_QP_PORT as well (the
  1536. * verbs layer driver does not track primary port changes
  1537. * resulting from path migration. Thus, in SQD, if the primary
  1538. * AV is modified, the primary port should also be modified).
  1539. *
  1540. * Note that in this transition, the IB_QP_STATE flag
  1541. * is not allowed.
  1542. */
  1543. if (((cmd->base.attr_mask & (IB_QP_AV | IB_QP_PORT))
  1544. == (IB_QP_AV | IB_QP_PORT)) &&
  1545. cmd->base.port_num != cmd->base.dest.port_num) {
  1546. ret = -EINVAL;
  1547. goto release_qp;
  1548. }
  1549. if ((cmd->base.attr_mask & (IB_QP_AV | IB_QP_PORT))
  1550. == IB_QP_AV) {
  1551. cmd->base.attr_mask |= IB_QP_PORT;
  1552. cmd->base.port_num = cmd->base.dest.port_num;
  1553. }
  1554. }
  1555. }
  1556. if ((cmd->base.attr_mask & IB_QP_ALT_PATH) &&
  1557. (!rdma_is_port_valid(qp->device, cmd->base.alt_port_num) ||
  1558. !rdma_is_port_valid(qp->device, cmd->base.alt_dest.port_num) ||
  1559. cmd->base.alt_port_num != cmd->base.alt_dest.port_num)) {
  1560. ret = -EINVAL;
  1561. goto release_qp;
  1562. }
  1563. if ((cmd->base.attr_mask & IB_QP_CUR_STATE &&
  1564. cmd->base.cur_qp_state > IB_QPS_ERR) ||
  1565. (cmd->base.attr_mask & IB_QP_STATE &&
  1566. cmd->base.qp_state > IB_QPS_ERR)) {
  1567. ret = -EINVAL;
  1568. goto release_qp;
  1569. }
  1570. if (cmd->base.attr_mask & IB_QP_STATE)
  1571. attr->qp_state = cmd->base.qp_state;
  1572. if (cmd->base.attr_mask & IB_QP_CUR_STATE)
  1573. attr->cur_qp_state = cmd->base.cur_qp_state;
  1574. if (cmd->base.attr_mask & IB_QP_PATH_MTU)
  1575. attr->path_mtu = cmd->base.path_mtu;
  1576. if (cmd->base.attr_mask & IB_QP_PATH_MIG_STATE)
  1577. attr->path_mig_state = cmd->base.path_mig_state;
  1578. if (cmd->base.attr_mask & IB_QP_QKEY) {
  1579. if (cmd->base.qkey & IB_QP_SET_QKEY &&
  1580. !(rdma_nl_get_privileged_qkey() ||
  1581. rdma_uattrs_has_raw_cap(attrs))) {
  1582. ret = -EPERM;
  1583. goto release_qp;
  1584. }
  1585. attr->qkey = cmd->base.qkey;
  1586. }
  1587. if (cmd->base.attr_mask & IB_QP_RQ_PSN)
  1588. attr->rq_psn = cmd->base.rq_psn;
  1589. if (cmd->base.attr_mask & IB_QP_SQ_PSN)
  1590. attr->sq_psn = cmd->base.sq_psn;
  1591. if (cmd->base.attr_mask & IB_QP_DEST_QPN)
  1592. attr->dest_qp_num = cmd->base.dest_qp_num;
  1593. if (cmd->base.attr_mask & IB_QP_ACCESS_FLAGS)
  1594. attr->qp_access_flags = cmd->base.qp_access_flags;
  1595. if (cmd->base.attr_mask & IB_QP_PKEY_INDEX)
  1596. attr->pkey_index = cmd->base.pkey_index;
  1597. if (cmd->base.attr_mask & IB_QP_EN_SQD_ASYNC_NOTIFY)
  1598. attr->en_sqd_async_notify = cmd->base.en_sqd_async_notify;
  1599. if (cmd->base.attr_mask & IB_QP_MAX_QP_RD_ATOMIC)
  1600. attr->max_rd_atomic = cmd->base.max_rd_atomic;
  1601. if (cmd->base.attr_mask & IB_QP_MAX_DEST_RD_ATOMIC)
  1602. attr->max_dest_rd_atomic = cmd->base.max_dest_rd_atomic;
  1603. if (cmd->base.attr_mask & IB_QP_MIN_RNR_TIMER)
  1604. attr->min_rnr_timer = cmd->base.min_rnr_timer;
  1605. if (cmd->base.attr_mask & IB_QP_PORT)
  1606. attr->port_num = cmd->base.port_num;
  1607. if (cmd->base.attr_mask & IB_QP_TIMEOUT)
  1608. attr->timeout = cmd->base.timeout;
  1609. if (cmd->base.attr_mask & IB_QP_RETRY_CNT)
  1610. attr->retry_cnt = cmd->base.retry_cnt;
  1611. if (cmd->base.attr_mask & IB_QP_RNR_RETRY)
  1612. attr->rnr_retry = cmd->base.rnr_retry;
  1613. if (cmd->base.attr_mask & IB_QP_ALT_PATH) {
  1614. attr->alt_port_num = cmd->base.alt_port_num;
  1615. attr->alt_timeout = cmd->base.alt_timeout;
  1616. attr->alt_pkey_index = cmd->base.alt_pkey_index;
  1617. }
  1618. if (cmd->base.attr_mask & IB_QP_RATE_LIMIT)
  1619. attr->rate_limit = cmd->rate_limit;
  1620. if (cmd->base.attr_mask & IB_QP_AV)
  1621. copy_ah_attr_from_uverbs(qp->device, &attr->ah_attr,
  1622. &cmd->base.dest);
  1623. if (cmd->base.attr_mask & IB_QP_ALT_PATH)
  1624. copy_ah_attr_from_uverbs(qp->device, &attr->alt_ah_attr,
  1625. &cmd->base.alt_dest);
  1626. ret = ib_modify_qp_with_udata(qp, attr,
  1627. modify_qp_mask(qp->qp_type,
  1628. cmd->base.attr_mask),
  1629. &attrs->driver_udata);
  1630. release_qp:
  1631. rdma_lookup_put_uobject(&qp->uobject->uevent.uobject,
  1632. UVERBS_LOOKUP_READ);
  1633. out:
  1634. kfree(attr);
  1635. return ret;
  1636. }
  1637. static int ib_uverbs_modify_qp(struct uverbs_attr_bundle *attrs)
  1638. {
  1639. struct ib_uverbs_ex_modify_qp cmd;
  1640. int ret;
  1641. ret = uverbs_request(attrs, &cmd.base, sizeof(cmd.base));
  1642. if (ret)
  1643. return ret;
  1644. if (cmd.base.attr_mask & ~IB_QP_ATTR_STANDARD_BITS)
  1645. return -EOPNOTSUPP;
  1646. return modify_qp(attrs, &cmd);
  1647. }
  1648. static int ib_uverbs_ex_modify_qp(struct uverbs_attr_bundle *attrs)
  1649. {
  1650. struct ib_uverbs_ex_modify_qp cmd;
  1651. struct ib_uverbs_ex_modify_qp_resp resp = {
  1652. .response_length = uverbs_response_length(attrs, sizeof(resp))
  1653. };
  1654. int ret;
  1655. ret = uverbs_request(attrs, &cmd, sizeof(cmd));
  1656. if (ret)
  1657. return ret;
  1658. /*
  1659. * Last bit is reserved for extending the attr_mask by
  1660. * using another field.
  1661. */
  1662. if (cmd.base.attr_mask & ~(IB_QP_ATTR_STANDARD_BITS | IB_QP_RATE_LIMIT))
  1663. return -EOPNOTSUPP;
  1664. ret = modify_qp(attrs, &cmd);
  1665. if (ret)
  1666. return ret;
  1667. return uverbs_response(attrs, &resp, sizeof(resp));
  1668. }
  1669. static int ib_uverbs_destroy_qp(struct uverbs_attr_bundle *attrs)
  1670. {
  1671. struct ib_uverbs_destroy_qp cmd;
  1672. struct ib_uverbs_destroy_qp_resp resp;
  1673. struct ib_uobject *uobj;
  1674. struct ib_uqp_object *obj;
  1675. int ret;
  1676. ret = uverbs_request(attrs, &cmd, sizeof(cmd));
  1677. if (ret)
  1678. return ret;
  1679. uobj = uobj_get_destroy(UVERBS_OBJECT_QP, cmd.qp_handle, attrs);
  1680. if (IS_ERR(uobj))
  1681. return PTR_ERR(uobj);
  1682. obj = container_of(uobj, struct ib_uqp_object, uevent.uobject);
  1683. memset(&resp, 0, sizeof(resp));
  1684. resp.events_reported = obj->uevent.events_reported;
  1685. uobj_put_destroy(uobj);
  1686. return uverbs_response(attrs, &resp, sizeof(resp));
  1687. }
  1688. static void *alloc_wr(size_t wr_size, __u32 num_sge)
  1689. {
  1690. if (num_sge >= (U32_MAX - ALIGN(wr_size, sizeof(struct ib_sge))) /
  1691. sizeof(struct ib_sge))
  1692. return NULL;
  1693. return kmalloc(ALIGN(wr_size, sizeof(struct ib_sge)) +
  1694. num_sge * sizeof(struct ib_sge),
  1695. GFP_KERNEL);
  1696. }
  1697. static int ib_uverbs_post_send(struct uverbs_attr_bundle *attrs)
  1698. {
  1699. struct ib_uverbs_post_send cmd;
  1700. struct ib_uverbs_post_send_resp resp;
  1701. struct ib_uverbs_send_wr *user_wr;
  1702. struct ib_send_wr *wr = NULL, *last, *next;
  1703. const struct ib_send_wr *bad_wr;
  1704. struct ib_qp *qp;
  1705. int i, sg_ind;
  1706. int is_ud;
  1707. int ret, ret2;
  1708. size_t next_size;
  1709. const struct ib_sge __user *sgls;
  1710. const void __user *wqes;
  1711. struct uverbs_req_iter iter;
  1712. ret = uverbs_request_start(attrs, &iter, &cmd, sizeof(cmd));
  1713. if (ret)
  1714. return ret;
  1715. wqes = uverbs_request_next_ptr(&iter, size_mul(cmd.wqe_size,
  1716. cmd.wr_count));
  1717. if (IS_ERR(wqes))
  1718. return PTR_ERR(wqes);
  1719. sgls = uverbs_request_next_ptr(&iter,
  1720. size_mul(cmd.sge_count,
  1721. sizeof(struct ib_uverbs_sge)));
  1722. if (IS_ERR(sgls))
  1723. return PTR_ERR(sgls);
  1724. ret = uverbs_request_finish(&iter);
  1725. if (ret)
  1726. return ret;
  1727. if (cmd.wqe_size < sizeof(struct ib_uverbs_send_wr))
  1728. return -EINVAL;
  1729. user_wr = kmalloc(cmd.wqe_size, GFP_KERNEL | __GFP_NOWARN);
  1730. if (!user_wr)
  1731. return -ENOMEM;
  1732. qp = uobj_get_obj_read(qp, UVERBS_OBJECT_QP, cmd.qp_handle, attrs);
  1733. if (IS_ERR(qp)) {
  1734. ret = PTR_ERR(qp);
  1735. goto out;
  1736. }
  1737. is_ud = qp->qp_type == IB_QPT_UD;
  1738. sg_ind = 0;
  1739. last = NULL;
  1740. for (i = 0; i < cmd.wr_count; ++i) {
  1741. if (copy_from_user(user_wr, wqes + i * cmd.wqe_size,
  1742. cmd.wqe_size)) {
  1743. ret = -EFAULT;
  1744. goto out_put;
  1745. }
  1746. if (user_wr->num_sge + sg_ind > cmd.sge_count) {
  1747. ret = -EINVAL;
  1748. goto out_put;
  1749. }
  1750. if (is_ud) {
  1751. struct ib_ud_wr *ud;
  1752. if (user_wr->opcode != IB_WR_SEND &&
  1753. user_wr->opcode != IB_WR_SEND_WITH_IMM) {
  1754. ret = -EINVAL;
  1755. goto out_put;
  1756. }
  1757. next_size = sizeof(*ud);
  1758. ud = alloc_wr(next_size, user_wr->num_sge);
  1759. if (!ud) {
  1760. ret = -ENOMEM;
  1761. goto out_put;
  1762. }
  1763. ud->ah = uobj_get_obj_read(ah, UVERBS_OBJECT_AH,
  1764. user_wr->wr.ud.ah, attrs);
  1765. if (IS_ERR(ud->ah)) {
  1766. ret = PTR_ERR(ud->ah);
  1767. kfree(ud);
  1768. goto out_put;
  1769. }
  1770. ud->remote_qpn = user_wr->wr.ud.remote_qpn;
  1771. ud->remote_qkey = user_wr->wr.ud.remote_qkey;
  1772. next = &ud->wr;
  1773. } else if (user_wr->opcode == IB_WR_RDMA_WRITE_WITH_IMM ||
  1774. user_wr->opcode == IB_WR_RDMA_WRITE ||
  1775. user_wr->opcode == IB_WR_RDMA_READ) {
  1776. struct ib_rdma_wr *rdma;
  1777. next_size = sizeof(*rdma);
  1778. rdma = alloc_wr(next_size, user_wr->num_sge);
  1779. if (!rdma) {
  1780. ret = -ENOMEM;
  1781. goto out_put;
  1782. }
  1783. rdma->remote_addr = user_wr->wr.rdma.remote_addr;
  1784. rdma->rkey = user_wr->wr.rdma.rkey;
  1785. next = &rdma->wr;
  1786. } else if (user_wr->opcode == IB_WR_ATOMIC_CMP_AND_SWP ||
  1787. user_wr->opcode == IB_WR_ATOMIC_FETCH_AND_ADD) {
  1788. struct ib_atomic_wr *atomic;
  1789. next_size = sizeof(*atomic);
  1790. atomic = alloc_wr(next_size, user_wr->num_sge);
  1791. if (!atomic) {
  1792. ret = -ENOMEM;
  1793. goto out_put;
  1794. }
  1795. atomic->remote_addr = user_wr->wr.atomic.remote_addr;
  1796. atomic->compare_add = user_wr->wr.atomic.compare_add;
  1797. atomic->swap = user_wr->wr.atomic.swap;
  1798. atomic->rkey = user_wr->wr.atomic.rkey;
  1799. next = &atomic->wr;
  1800. } else if (user_wr->opcode == IB_WR_SEND ||
  1801. user_wr->opcode == IB_WR_SEND_WITH_IMM ||
  1802. user_wr->opcode == IB_WR_SEND_WITH_INV) {
  1803. next_size = sizeof(*next);
  1804. next = alloc_wr(next_size, user_wr->num_sge);
  1805. if (!next) {
  1806. ret = -ENOMEM;
  1807. goto out_put;
  1808. }
  1809. } else {
  1810. ret = -EINVAL;
  1811. goto out_put;
  1812. }
  1813. if (user_wr->opcode == IB_WR_SEND_WITH_IMM ||
  1814. user_wr->opcode == IB_WR_RDMA_WRITE_WITH_IMM) {
  1815. next->ex.imm_data =
  1816. (__be32 __force) user_wr->ex.imm_data;
  1817. } else if (user_wr->opcode == IB_WR_SEND_WITH_INV) {
  1818. next->ex.invalidate_rkey = user_wr->ex.invalidate_rkey;
  1819. }
  1820. if (!last)
  1821. wr = next;
  1822. else
  1823. last->next = next;
  1824. last = next;
  1825. next->next = NULL;
  1826. next->wr_id = user_wr->wr_id;
  1827. next->num_sge = user_wr->num_sge;
  1828. next->opcode = user_wr->opcode;
  1829. next->send_flags = user_wr->send_flags;
  1830. if (next->num_sge) {
  1831. next->sg_list = (void *) next +
  1832. ALIGN(next_size, sizeof(struct ib_sge));
  1833. if (copy_from_user(next->sg_list, sgls + sg_ind,
  1834. next->num_sge *
  1835. sizeof(struct ib_sge))) {
  1836. ret = -EFAULT;
  1837. goto out_put;
  1838. }
  1839. sg_ind += next->num_sge;
  1840. } else
  1841. next->sg_list = NULL;
  1842. }
  1843. resp.bad_wr = 0;
  1844. ret = qp->device->ops.post_send(qp->real_qp, wr, &bad_wr);
  1845. if (ret)
  1846. for (next = wr; next; next = next->next) {
  1847. ++resp.bad_wr;
  1848. if (next == bad_wr)
  1849. break;
  1850. }
  1851. ret2 = uverbs_response(attrs, &resp, sizeof(resp));
  1852. if (ret2)
  1853. ret = ret2;
  1854. out_put:
  1855. rdma_lookup_put_uobject(&qp->uobject->uevent.uobject,
  1856. UVERBS_LOOKUP_READ);
  1857. while (wr) {
  1858. if (is_ud && ud_wr(wr)->ah)
  1859. uobj_put_obj_read(ud_wr(wr)->ah);
  1860. next = wr->next;
  1861. kfree(wr);
  1862. wr = next;
  1863. }
  1864. out:
  1865. kfree(user_wr);
  1866. return ret;
  1867. }
  1868. static struct ib_recv_wr *
  1869. ib_uverbs_unmarshall_recv(struct uverbs_req_iter *iter, u32 wr_count,
  1870. u32 wqe_size, u32 sge_count)
  1871. {
  1872. struct ib_uverbs_recv_wr *user_wr;
  1873. struct ib_recv_wr *wr = NULL, *last, *next;
  1874. int sg_ind;
  1875. int i;
  1876. int ret;
  1877. const struct ib_sge __user *sgls;
  1878. const void __user *wqes;
  1879. if (wqe_size < sizeof(struct ib_uverbs_recv_wr))
  1880. return ERR_PTR(-EINVAL);
  1881. wqes = uverbs_request_next_ptr(iter, size_mul(wqe_size, wr_count));
  1882. if (IS_ERR(wqes))
  1883. return ERR_CAST(wqes);
  1884. sgls = uverbs_request_next_ptr(iter, size_mul(sge_count,
  1885. sizeof(struct ib_uverbs_sge)));
  1886. if (IS_ERR(sgls))
  1887. return ERR_CAST(sgls);
  1888. ret = uverbs_request_finish(iter);
  1889. if (ret)
  1890. return ERR_PTR(ret);
  1891. user_wr = kmalloc(wqe_size, GFP_KERNEL | __GFP_NOWARN);
  1892. if (!user_wr)
  1893. return ERR_PTR(-ENOMEM);
  1894. sg_ind = 0;
  1895. last = NULL;
  1896. for (i = 0; i < wr_count; ++i) {
  1897. if (copy_from_user(user_wr, wqes + i * wqe_size,
  1898. wqe_size)) {
  1899. ret = -EFAULT;
  1900. goto err;
  1901. }
  1902. if (user_wr->num_sge + sg_ind > sge_count) {
  1903. ret = -EINVAL;
  1904. goto err;
  1905. }
  1906. if (user_wr->num_sge >=
  1907. (U32_MAX - ALIGN(sizeof(*next), sizeof(struct ib_sge))) /
  1908. sizeof(struct ib_sge)) {
  1909. ret = -EINVAL;
  1910. goto err;
  1911. }
  1912. next = kmalloc(ALIGN(sizeof(*next), sizeof(struct ib_sge)) +
  1913. user_wr->num_sge * sizeof(struct ib_sge),
  1914. GFP_KERNEL);
  1915. if (!next) {
  1916. ret = -ENOMEM;
  1917. goto err;
  1918. }
  1919. if (!last)
  1920. wr = next;
  1921. else
  1922. last->next = next;
  1923. last = next;
  1924. next->next = NULL;
  1925. next->wr_id = user_wr->wr_id;
  1926. next->num_sge = user_wr->num_sge;
  1927. if (next->num_sge) {
  1928. next->sg_list = (void *)next +
  1929. ALIGN(sizeof(*next), sizeof(struct ib_sge));
  1930. if (copy_from_user(next->sg_list, sgls + sg_ind,
  1931. next->num_sge *
  1932. sizeof(struct ib_sge))) {
  1933. ret = -EFAULT;
  1934. goto err;
  1935. }
  1936. sg_ind += next->num_sge;
  1937. } else
  1938. next->sg_list = NULL;
  1939. }
  1940. kfree(user_wr);
  1941. return wr;
  1942. err:
  1943. kfree(user_wr);
  1944. while (wr) {
  1945. next = wr->next;
  1946. kfree(wr);
  1947. wr = next;
  1948. }
  1949. return ERR_PTR(ret);
  1950. }
  1951. static int ib_uverbs_post_recv(struct uverbs_attr_bundle *attrs)
  1952. {
  1953. struct ib_uverbs_post_recv cmd;
  1954. struct ib_uverbs_post_recv_resp resp;
  1955. struct ib_recv_wr *wr, *next;
  1956. const struct ib_recv_wr *bad_wr;
  1957. struct ib_qp *qp;
  1958. int ret, ret2;
  1959. struct uverbs_req_iter iter;
  1960. ret = uverbs_request_start(attrs, &iter, &cmd, sizeof(cmd));
  1961. if (ret)
  1962. return ret;
  1963. wr = ib_uverbs_unmarshall_recv(&iter, cmd.wr_count, cmd.wqe_size,
  1964. cmd.sge_count);
  1965. if (IS_ERR(wr))
  1966. return PTR_ERR(wr);
  1967. qp = uobj_get_obj_read(qp, UVERBS_OBJECT_QP, cmd.qp_handle, attrs);
  1968. if (IS_ERR(qp)) {
  1969. ret = PTR_ERR(qp);
  1970. goto out;
  1971. }
  1972. resp.bad_wr = 0;
  1973. ret = qp->device->ops.post_recv(qp->real_qp, wr, &bad_wr);
  1974. rdma_lookup_put_uobject(&qp->uobject->uevent.uobject,
  1975. UVERBS_LOOKUP_READ);
  1976. if (ret) {
  1977. for (next = wr; next; next = next->next) {
  1978. ++resp.bad_wr;
  1979. if (next == bad_wr)
  1980. break;
  1981. }
  1982. }
  1983. ret2 = uverbs_response(attrs, &resp, sizeof(resp));
  1984. if (ret2)
  1985. ret = ret2;
  1986. out:
  1987. while (wr) {
  1988. next = wr->next;
  1989. kfree(wr);
  1990. wr = next;
  1991. }
  1992. return ret;
  1993. }
  1994. static int ib_uverbs_post_srq_recv(struct uverbs_attr_bundle *attrs)
  1995. {
  1996. struct ib_uverbs_post_srq_recv cmd;
  1997. struct ib_uverbs_post_srq_recv_resp resp;
  1998. struct ib_recv_wr *wr, *next;
  1999. const struct ib_recv_wr *bad_wr;
  2000. struct ib_srq *srq;
  2001. int ret, ret2;
  2002. struct uverbs_req_iter iter;
  2003. ret = uverbs_request_start(attrs, &iter, &cmd, sizeof(cmd));
  2004. if (ret)
  2005. return ret;
  2006. wr = ib_uverbs_unmarshall_recv(&iter, cmd.wr_count, cmd.wqe_size,
  2007. cmd.sge_count);
  2008. if (IS_ERR(wr))
  2009. return PTR_ERR(wr);
  2010. srq = uobj_get_obj_read(srq, UVERBS_OBJECT_SRQ, cmd.srq_handle, attrs);
  2011. if (IS_ERR(srq)) {
  2012. ret = PTR_ERR(srq);
  2013. goto out;
  2014. }
  2015. resp.bad_wr = 0;
  2016. ret = srq->device->ops.post_srq_recv(srq, wr, &bad_wr);
  2017. rdma_lookup_put_uobject(&srq->uobject->uevent.uobject,
  2018. UVERBS_LOOKUP_READ);
  2019. if (ret)
  2020. for (next = wr; next; next = next->next) {
  2021. ++resp.bad_wr;
  2022. if (next == bad_wr)
  2023. break;
  2024. }
  2025. ret2 = uverbs_response(attrs, &resp, sizeof(resp));
  2026. if (ret2)
  2027. ret = ret2;
  2028. out:
  2029. while (wr) {
  2030. next = wr->next;
  2031. kfree(wr);
  2032. wr = next;
  2033. }
  2034. return ret;
  2035. }
  2036. static int ib_uverbs_create_ah(struct uverbs_attr_bundle *attrs)
  2037. {
  2038. struct ib_uverbs_create_ah cmd;
  2039. struct ib_uverbs_create_ah_resp resp;
  2040. struct ib_uobject *uobj;
  2041. struct ib_pd *pd;
  2042. struct ib_ah *ah;
  2043. struct rdma_ah_attr attr = {};
  2044. int ret;
  2045. struct ib_device *ib_dev;
  2046. ret = uverbs_request(attrs, &cmd, sizeof(cmd));
  2047. if (ret)
  2048. return ret;
  2049. uobj = uobj_alloc(UVERBS_OBJECT_AH, attrs, &ib_dev);
  2050. if (IS_ERR(uobj))
  2051. return PTR_ERR(uobj);
  2052. if (!rdma_is_port_valid(ib_dev, cmd.attr.port_num)) {
  2053. ret = -EINVAL;
  2054. goto err;
  2055. }
  2056. pd = uobj_get_obj_read(pd, UVERBS_OBJECT_PD, cmd.pd_handle, attrs);
  2057. if (IS_ERR(pd)) {
  2058. ret = PTR_ERR(pd);
  2059. goto err;
  2060. }
  2061. attr.type = rdma_ah_find_type(ib_dev, cmd.attr.port_num);
  2062. rdma_ah_set_make_grd(&attr, false);
  2063. rdma_ah_set_dlid(&attr, cmd.attr.dlid);
  2064. rdma_ah_set_sl(&attr, cmd.attr.sl);
  2065. rdma_ah_set_path_bits(&attr, cmd.attr.src_path_bits);
  2066. rdma_ah_set_static_rate(&attr, cmd.attr.static_rate);
  2067. rdma_ah_set_port_num(&attr, cmd.attr.port_num);
  2068. if (cmd.attr.is_global) {
  2069. rdma_ah_set_grh(&attr, NULL, cmd.attr.grh.flow_label,
  2070. cmd.attr.grh.sgid_index,
  2071. cmd.attr.grh.hop_limit,
  2072. cmd.attr.grh.traffic_class);
  2073. rdma_ah_set_dgid_raw(&attr, cmd.attr.grh.dgid);
  2074. } else {
  2075. rdma_ah_set_ah_flags(&attr, 0);
  2076. }
  2077. ah = rdma_create_user_ah(pd, &attr, &attrs->driver_udata);
  2078. if (IS_ERR(ah)) {
  2079. ret = PTR_ERR(ah);
  2080. goto err_put;
  2081. }
  2082. ah->uobject = uobj;
  2083. uobj->user_handle = cmd.user_handle;
  2084. uobj->object = ah;
  2085. uobj_put_obj_read(pd);
  2086. uobj_finalize_uobj_create(uobj, attrs);
  2087. resp.ah_handle = uobj->id;
  2088. return uverbs_response(attrs, &resp, sizeof(resp));
  2089. err_put:
  2090. uobj_put_obj_read(pd);
  2091. err:
  2092. uobj_alloc_abort(uobj, attrs);
  2093. return ret;
  2094. }
  2095. static int ib_uverbs_destroy_ah(struct uverbs_attr_bundle *attrs)
  2096. {
  2097. struct ib_uverbs_destroy_ah cmd;
  2098. int ret;
  2099. ret = uverbs_request(attrs, &cmd, sizeof(cmd));
  2100. if (ret)
  2101. return ret;
  2102. return uobj_perform_destroy(UVERBS_OBJECT_AH, cmd.ah_handle, attrs);
  2103. }
  2104. static int ib_uverbs_attach_mcast(struct uverbs_attr_bundle *attrs)
  2105. {
  2106. struct ib_uverbs_attach_mcast cmd;
  2107. struct ib_qp *qp;
  2108. struct ib_uqp_object *obj;
  2109. struct ib_uverbs_mcast_entry *mcast;
  2110. int ret;
  2111. ret = uverbs_request(attrs, &cmd, sizeof(cmd));
  2112. if (ret)
  2113. return ret;
  2114. qp = uobj_get_obj_read(qp, UVERBS_OBJECT_QP, cmd.qp_handle, attrs);
  2115. if (IS_ERR(qp))
  2116. return PTR_ERR(qp);
  2117. obj = qp->uobject;
  2118. mutex_lock(&obj->mcast_lock);
  2119. list_for_each_entry(mcast, &obj->mcast_list, list)
  2120. if (cmd.mlid == mcast->lid &&
  2121. !memcmp(cmd.gid, mcast->gid.raw, sizeof mcast->gid.raw)) {
  2122. ret = 0;
  2123. goto out_put;
  2124. }
  2125. mcast = kmalloc_obj(*mcast);
  2126. if (!mcast) {
  2127. ret = -ENOMEM;
  2128. goto out_put;
  2129. }
  2130. mcast->lid = cmd.mlid;
  2131. memcpy(mcast->gid.raw, cmd.gid, sizeof mcast->gid.raw);
  2132. ret = ib_attach_mcast(qp, &mcast->gid, cmd.mlid);
  2133. if (!ret)
  2134. list_add_tail(&mcast->list, &obj->mcast_list);
  2135. else
  2136. kfree(mcast);
  2137. out_put:
  2138. mutex_unlock(&obj->mcast_lock);
  2139. rdma_lookup_put_uobject(&qp->uobject->uevent.uobject,
  2140. UVERBS_LOOKUP_READ);
  2141. return ret;
  2142. }
  2143. static int ib_uverbs_detach_mcast(struct uverbs_attr_bundle *attrs)
  2144. {
  2145. struct ib_uverbs_detach_mcast cmd;
  2146. struct ib_uqp_object *obj;
  2147. struct ib_qp *qp;
  2148. struct ib_uverbs_mcast_entry *mcast;
  2149. int ret;
  2150. bool found = false;
  2151. ret = uverbs_request(attrs, &cmd, sizeof(cmd));
  2152. if (ret)
  2153. return ret;
  2154. qp = uobj_get_obj_read(qp, UVERBS_OBJECT_QP, cmd.qp_handle, attrs);
  2155. if (IS_ERR(qp))
  2156. return PTR_ERR(qp);
  2157. obj = qp->uobject;
  2158. mutex_lock(&obj->mcast_lock);
  2159. list_for_each_entry(mcast, &obj->mcast_list, list)
  2160. if (cmd.mlid == mcast->lid &&
  2161. !memcmp(cmd.gid, mcast->gid.raw, sizeof mcast->gid.raw)) {
  2162. list_del(&mcast->list);
  2163. kfree(mcast);
  2164. found = true;
  2165. break;
  2166. }
  2167. if (!found) {
  2168. ret = -EINVAL;
  2169. goto out_put;
  2170. }
  2171. ret = ib_detach_mcast(qp, (union ib_gid *)cmd.gid, cmd.mlid);
  2172. out_put:
  2173. mutex_unlock(&obj->mcast_lock);
  2174. rdma_lookup_put_uobject(&qp->uobject->uevent.uobject,
  2175. UVERBS_LOOKUP_READ);
  2176. return ret;
  2177. }
  2178. struct ib_uflow_resources *flow_resources_alloc(size_t num_specs)
  2179. {
  2180. struct ib_uflow_resources *resources;
  2181. resources = kzalloc_obj(*resources);
  2182. if (!resources)
  2183. return NULL;
  2184. if (!num_specs)
  2185. goto out;
  2186. resources->counters =
  2187. kzalloc_objs(*resources->counters, num_specs);
  2188. resources->collection =
  2189. kzalloc_objs(*resources->collection, num_specs);
  2190. if (!resources->counters || !resources->collection)
  2191. goto err;
  2192. out:
  2193. resources->max = num_specs;
  2194. return resources;
  2195. err:
  2196. kfree(resources->counters);
  2197. kfree(resources);
  2198. return NULL;
  2199. }
  2200. EXPORT_SYMBOL(flow_resources_alloc);
  2201. void ib_uverbs_flow_resources_free(struct ib_uflow_resources *uflow_res)
  2202. {
  2203. unsigned int i;
  2204. if (!uflow_res)
  2205. return;
  2206. for (i = 0; i < uflow_res->collection_num; i++)
  2207. atomic_dec(&uflow_res->collection[i]->usecnt);
  2208. for (i = 0; i < uflow_res->counters_num; i++)
  2209. atomic_dec(&uflow_res->counters[i]->usecnt);
  2210. kfree(uflow_res->collection);
  2211. kfree(uflow_res->counters);
  2212. kfree(uflow_res);
  2213. }
  2214. EXPORT_SYMBOL(ib_uverbs_flow_resources_free);
  2215. void flow_resources_add(struct ib_uflow_resources *uflow_res,
  2216. enum ib_flow_spec_type type,
  2217. void *ibobj)
  2218. {
  2219. WARN_ON(uflow_res->num >= uflow_res->max);
  2220. switch (type) {
  2221. case IB_FLOW_SPEC_ACTION_HANDLE:
  2222. atomic_inc(&((struct ib_flow_action *)ibobj)->usecnt);
  2223. uflow_res->collection[uflow_res->collection_num++] =
  2224. (struct ib_flow_action *)ibobj;
  2225. break;
  2226. case IB_FLOW_SPEC_ACTION_COUNT:
  2227. atomic_inc(&((struct ib_counters *)ibobj)->usecnt);
  2228. uflow_res->counters[uflow_res->counters_num++] =
  2229. (struct ib_counters *)ibobj;
  2230. break;
  2231. default:
  2232. WARN_ON(1);
  2233. }
  2234. uflow_res->num++;
  2235. }
  2236. EXPORT_SYMBOL(flow_resources_add);
  2237. static int kern_spec_to_ib_spec_action(struct uverbs_attr_bundle *attrs,
  2238. struct ib_uverbs_flow_spec *kern_spec,
  2239. union ib_flow_spec *ib_spec,
  2240. struct ib_uflow_resources *uflow_res)
  2241. {
  2242. ib_spec->type = kern_spec->type;
  2243. switch (ib_spec->type) {
  2244. case IB_FLOW_SPEC_ACTION_TAG:
  2245. if (kern_spec->flow_tag.size !=
  2246. sizeof(struct ib_uverbs_flow_spec_action_tag))
  2247. return -EINVAL;
  2248. ib_spec->flow_tag.size = sizeof(struct ib_flow_spec_action_tag);
  2249. ib_spec->flow_tag.tag_id = kern_spec->flow_tag.tag_id;
  2250. break;
  2251. case IB_FLOW_SPEC_ACTION_DROP:
  2252. if (kern_spec->drop.size !=
  2253. sizeof(struct ib_uverbs_flow_spec_action_drop))
  2254. return -EINVAL;
  2255. ib_spec->drop.size = sizeof(struct ib_flow_spec_action_drop);
  2256. break;
  2257. case IB_FLOW_SPEC_ACTION_HANDLE:
  2258. if (kern_spec->action.size !=
  2259. sizeof(struct ib_uverbs_flow_spec_action_handle))
  2260. return -EOPNOTSUPP;
  2261. ib_spec->action.act = uobj_get_obj_read(flow_action,
  2262. UVERBS_OBJECT_FLOW_ACTION,
  2263. kern_spec->action.handle,
  2264. attrs);
  2265. if (IS_ERR(ib_spec->action.act))
  2266. return PTR_ERR(ib_spec->action.act);
  2267. ib_spec->action.size =
  2268. sizeof(struct ib_flow_spec_action_handle);
  2269. flow_resources_add(uflow_res,
  2270. IB_FLOW_SPEC_ACTION_HANDLE,
  2271. ib_spec->action.act);
  2272. uobj_put_obj_read(ib_spec->action.act);
  2273. break;
  2274. case IB_FLOW_SPEC_ACTION_COUNT:
  2275. if (kern_spec->flow_count.size !=
  2276. sizeof(struct ib_uverbs_flow_spec_action_count))
  2277. return -EINVAL;
  2278. ib_spec->flow_count.counters =
  2279. uobj_get_obj_read(counters,
  2280. UVERBS_OBJECT_COUNTERS,
  2281. kern_spec->flow_count.handle,
  2282. attrs);
  2283. if (IS_ERR(ib_spec->flow_count.counters))
  2284. return PTR_ERR(ib_spec->flow_count.counters);
  2285. ib_spec->flow_count.size =
  2286. sizeof(struct ib_flow_spec_action_count);
  2287. flow_resources_add(uflow_res,
  2288. IB_FLOW_SPEC_ACTION_COUNT,
  2289. ib_spec->flow_count.counters);
  2290. uobj_put_obj_read(ib_spec->flow_count.counters);
  2291. break;
  2292. default:
  2293. return -EINVAL;
  2294. }
  2295. return 0;
  2296. }
  2297. static ssize_t spec_filter_size(const void *kern_spec_filter, u16 kern_filter_size,
  2298. u16 ib_real_filter_sz)
  2299. {
  2300. /*
  2301. * User space filter structures must be 64 bit aligned, otherwise this
  2302. * may pass, but we won't handle additional new attributes.
  2303. */
  2304. if (kern_filter_size > ib_real_filter_sz) {
  2305. if (memchr_inv(kern_spec_filter +
  2306. ib_real_filter_sz, 0,
  2307. kern_filter_size - ib_real_filter_sz))
  2308. return -EINVAL;
  2309. return ib_real_filter_sz;
  2310. }
  2311. return kern_filter_size;
  2312. }
  2313. int ib_uverbs_kern_spec_to_ib_spec_filter(enum ib_flow_spec_type type,
  2314. const void *kern_spec_mask,
  2315. const void *kern_spec_val,
  2316. size_t kern_filter_sz,
  2317. union ib_flow_spec *ib_spec)
  2318. {
  2319. ssize_t actual_filter_sz;
  2320. ssize_t ib_filter_sz;
  2321. /* User flow spec size must be aligned to 4 bytes */
  2322. if (kern_filter_sz != ALIGN(kern_filter_sz, 4))
  2323. return -EINVAL;
  2324. ib_spec->type = type;
  2325. if (ib_spec->type == (IB_FLOW_SPEC_INNER | IB_FLOW_SPEC_VXLAN_TUNNEL))
  2326. return -EINVAL;
  2327. switch (ib_spec->type & ~IB_FLOW_SPEC_INNER) {
  2328. case IB_FLOW_SPEC_ETH:
  2329. ib_filter_sz = sizeof(struct ib_flow_eth_filter);
  2330. actual_filter_sz = spec_filter_size(kern_spec_mask,
  2331. kern_filter_sz,
  2332. ib_filter_sz);
  2333. if (actual_filter_sz <= 0)
  2334. return -EINVAL;
  2335. ib_spec->size = sizeof(struct ib_flow_spec_eth);
  2336. memcpy(&ib_spec->eth.val, kern_spec_val, actual_filter_sz);
  2337. memcpy(&ib_spec->eth.mask, kern_spec_mask, actual_filter_sz);
  2338. break;
  2339. case IB_FLOW_SPEC_IPV4:
  2340. ib_filter_sz = sizeof(struct ib_flow_ipv4_filter);
  2341. actual_filter_sz = spec_filter_size(kern_spec_mask,
  2342. kern_filter_sz,
  2343. ib_filter_sz);
  2344. if (actual_filter_sz <= 0)
  2345. return -EINVAL;
  2346. ib_spec->size = sizeof(struct ib_flow_spec_ipv4);
  2347. memcpy(&ib_spec->ipv4.val, kern_spec_val, actual_filter_sz);
  2348. memcpy(&ib_spec->ipv4.mask, kern_spec_mask, actual_filter_sz);
  2349. break;
  2350. case IB_FLOW_SPEC_IPV6:
  2351. ib_filter_sz = sizeof(struct ib_flow_ipv6_filter);
  2352. actual_filter_sz = spec_filter_size(kern_spec_mask,
  2353. kern_filter_sz,
  2354. ib_filter_sz);
  2355. if (actual_filter_sz <= 0)
  2356. return -EINVAL;
  2357. ib_spec->size = sizeof(struct ib_flow_spec_ipv6);
  2358. memcpy(&ib_spec->ipv6.val, kern_spec_val, actual_filter_sz);
  2359. memcpy(&ib_spec->ipv6.mask, kern_spec_mask, actual_filter_sz);
  2360. if ((ntohl(ib_spec->ipv6.mask.flow_label)) >= BIT(20) ||
  2361. (ntohl(ib_spec->ipv6.val.flow_label)) >= BIT(20))
  2362. return -EINVAL;
  2363. break;
  2364. case IB_FLOW_SPEC_TCP:
  2365. case IB_FLOW_SPEC_UDP:
  2366. ib_filter_sz = sizeof(struct ib_flow_tcp_udp_filter);
  2367. actual_filter_sz = spec_filter_size(kern_spec_mask,
  2368. kern_filter_sz,
  2369. ib_filter_sz);
  2370. if (actual_filter_sz <= 0)
  2371. return -EINVAL;
  2372. ib_spec->size = sizeof(struct ib_flow_spec_tcp_udp);
  2373. memcpy(&ib_spec->tcp_udp.val, kern_spec_val, actual_filter_sz);
  2374. memcpy(&ib_spec->tcp_udp.mask, kern_spec_mask, actual_filter_sz);
  2375. break;
  2376. case IB_FLOW_SPEC_VXLAN_TUNNEL:
  2377. ib_filter_sz = sizeof(struct ib_flow_tunnel_filter);
  2378. actual_filter_sz = spec_filter_size(kern_spec_mask,
  2379. kern_filter_sz,
  2380. ib_filter_sz);
  2381. if (actual_filter_sz <= 0)
  2382. return -EINVAL;
  2383. ib_spec->tunnel.size = sizeof(struct ib_flow_spec_tunnel);
  2384. memcpy(&ib_spec->tunnel.val, kern_spec_val, actual_filter_sz);
  2385. memcpy(&ib_spec->tunnel.mask, kern_spec_mask, actual_filter_sz);
  2386. if ((ntohl(ib_spec->tunnel.mask.tunnel_id)) >= BIT(24) ||
  2387. (ntohl(ib_spec->tunnel.val.tunnel_id)) >= BIT(24))
  2388. return -EINVAL;
  2389. break;
  2390. case IB_FLOW_SPEC_ESP:
  2391. ib_filter_sz = sizeof(struct ib_flow_esp_filter);
  2392. actual_filter_sz = spec_filter_size(kern_spec_mask,
  2393. kern_filter_sz,
  2394. ib_filter_sz);
  2395. if (actual_filter_sz <= 0)
  2396. return -EINVAL;
  2397. ib_spec->esp.size = sizeof(struct ib_flow_spec_esp);
  2398. memcpy(&ib_spec->esp.val, kern_spec_val, actual_filter_sz);
  2399. memcpy(&ib_spec->esp.mask, kern_spec_mask, actual_filter_sz);
  2400. break;
  2401. case IB_FLOW_SPEC_GRE:
  2402. ib_filter_sz = sizeof(struct ib_flow_gre_filter);
  2403. actual_filter_sz = spec_filter_size(kern_spec_mask,
  2404. kern_filter_sz,
  2405. ib_filter_sz);
  2406. if (actual_filter_sz <= 0)
  2407. return -EINVAL;
  2408. ib_spec->gre.size = sizeof(struct ib_flow_spec_gre);
  2409. memcpy(&ib_spec->gre.val, kern_spec_val, actual_filter_sz);
  2410. memcpy(&ib_spec->gre.mask, kern_spec_mask, actual_filter_sz);
  2411. break;
  2412. case IB_FLOW_SPEC_MPLS:
  2413. ib_filter_sz = sizeof(struct ib_flow_mpls_filter);
  2414. actual_filter_sz = spec_filter_size(kern_spec_mask,
  2415. kern_filter_sz,
  2416. ib_filter_sz);
  2417. if (actual_filter_sz <= 0)
  2418. return -EINVAL;
  2419. ib_spec->mpls.size = sizeof(struct ib_flow_spec_mpls);
  2420. memcpy(&ib_spec->mpls.val, kern_spec_val, actual_filter_sz);
  2421. memcpy(&ib_spec->mpls.mask, kern_spec_mask, actual_filter_sz);
  2422. break;
  2423. default:
  2424. return -EINVAL;
  2425. }
  2426. return 0;
  2427. }
  2428. static int kern_spec_to_ib_spec_filter(struct ib_uverbs_flow_spec *kern_spec,
  2429. union ib_flow_spec *ib_spec)
  2430. {
  2431. size_t kern_filter_sz;
  2432. void *kern_spec_mask;
  2433. void *kern_spec_val;
  2434. if (check_sub_overflow((size_t)kern_spec->hdr.size,
  2435. sizeof(struct ib_uverbs_flow_spec_hdr),
  2436. &kern_filter_sz))
  2437. return -EINVAL;
  2438. kern_filter_sz /= 2;
  2439. kern_spec_val = (void *)kern_spec +
  2440. sizeof(struct ib_uverbs_flow_spec_hdr);
  2441. kern_spec_mask = kern_spec_val + kern_filter_sz;
  2442. return ib_uverbs_kern_spec_to_ib_spec_filter(kern_spec->type,
  2443. kern_spec_mask,
  2444. kern_spec_val,
  2445. kern_filter_sz, ib_spec);
  2446. }
  2447. static int kern_spec_to_ib_spec(struct uverbs_attr_bundle *attrs,
  2448. struct ib_uverbs_flow_spec *kern_spec,
  2449. union ib_flow_spec *ib_spec,
  2450. struct ib_uflow_resources *uflow_res)
  2451. {
  2452. if (kern_spec->reserved)
  2453. return -EINVAL;
  2454. if (kern_spec->type >= IB_FLOW_SPEC_ACTION_TAG)
  2455. return kern_spec_to_ib_spec_action(attrs, kern_spec, ib_spec,
  2456. uflow_res);
  2457. else
  2458. return kern_spec_to_ib_spec_filter(kern_spec, ib_spec);
  2459. }
  2460. static int ib_uverbs_ex_create_wq(struct uverbs_attr_bundle *attrs)
  2461. {
  2462. struct ib_uverbs_ex_create_wq cmd;
  2463. struct ib_uverbs_ex_create_wq_resp resp = {};
  2464. struct ib_uwq_object *obj;
  2465. int err = 0;
  2466. struct ib_cq *cq;
  2467. struct ib_pd *pd;
  2468. struct ib_wq *wq;
  2469. struct ib_wq_init_attr wq_init_attr = {};
  2470. struct ib_device *ib_dev;
  2471. err = uverbs_request(attrs, &cmd, sizeof(cmd));
  2472. if (err)
  2473. return err;
  2474. if (cmd.comp_mask)
  2475. return -EOPNOTSUPP;
  2476. obj = (struct ib_uwq_object *)uobj_alloc(UVERBS_OBJECT_WQ, attrs,
  2477. &ib_dev);
  2478. if (IS_ERR(obj))
  2479. return PTR_ERR(obj);
  2480. pd = uobj_get_obj_read(pd, UVERBS_OBJECT_PD, cmd.pd_handle, attrs);
  2481. if (IS_ERR(pd)) {
  2482. err = PTR_ERR(pd);
  2483. goto err_uobj;
  2484. }
  2485. cq = uobj_get_obj_read(cq, UVERBS_OBJECT_CQ, cmd.cq_handle, attrs);
  2486. if (IS_ERR(cq)) {
  2487. err = PTR_ERR(cq);
  2488. goto err_put_pd;
  2489. }
  2490. wq_init_attr.cq = cq;
  2491. wq_init_attr.max_sge = cmd.max_sge;
  2492. wq_init_attr.max_wr = cmd.max_wr;
  2493. wq_init_attr.wq_type = cmd.wq_type;
  2494. wq_init_attr.event_handler = ib_uverbs_wq_event_handler;
  2495. wq_init_attr.create_flags = cmd.create_flags;
  2496. INIT_LIST_HEAD(&obj->uevent.event_list);
  2497. obj->uevent.uobject.user_handle = cmd.user_handle;
  2498. wq = pd->device->ops.create_wq(pd, &wq_init_attr, &attrs->driver_udata);
  2499. if (IS_ERR(wq)) {
  2500. err = PTR_ERR(wq);
  2501. goto err_put_cq;
  2502. }
  2503. wq->uobject = obj;
  2504. obj->uevent.uobject.object = wq;
  2505. wq->wq_type = wq_init_attr.wq_type;
  2506. wq->cq = cq;
  2507. wq->pd = pd;
  2508. wq->device = pd->device;
  2509. atomic_set(&wq->usecnt, 0);
  2510. atomic_inc(&pd->usecnt);
  2511. atomic_inc(&cq->usecnt);
  2512. obj->uevent.event_file = READ_ONCE(attrs->ufile->default_async_file);
  2513. if (obj->uevent.event_file)
  2514. uverbs_uobject_get(&obj->uevent.event_file->uobj);
  2515. uobj_put_obj_read(pd);
  2516. rdma_lookup_put_uobject(&cq->uobject->uevent.uobject,
  2517. UVERBS_LOOKUP_READ);
  2518. uobj_finalize_uobj_create(&obj->uevent.uobject, attrs);
  2519. resp.wq_handle = obj->uevent.uobject.id;
  2520. resp.max_sge = wq_init_attr.max_sge;
  2521. resp.max_wr = wq_init_attr.max_wr;
  2522. resp.wqn = wq->wq_num;
  2523. resp.response_length = uverbs_response_length(attrs, sizeof(resp));
  2524. return uverbs_response(attrs, &resp, sizeof(resp));
  2525. err_put_cq:
  2526. rdma_lookup_put_uobject(&cq->uobject->uevent.uobject,
  2527. UVERBS_LOOKUP_READ);
  2528. err_put_pd:
  2529. uobj_put_obj_read(pd);
  2530. err_uobj:
  2531. uobj_alloc_abort(&obj->uevent.uobject, attrs);
  2532. return err;
  2533. }
  2534. static int ib_uverbs_ex_destroy_wq(struct uverbs_attr_bundle *attrs)
  2535. {
  2536. struct ib_uverbs_ex_destroy_wq cmd;
  2537. struct ib_uverbs_ex_destroy_wq_resp resp = {};
  2538. struct ib_uobject *uobj;
  2539. struct ib_uwq_object *obj;
  2540. int ret;
  2541. ret = uverbs_request(attrs, &cmd, sizeof(cmd));
  2542. if (ret)
  2543. return ret;
  2544. if (cmd.comp_mask)
  2545. return -EOPNOTSUPP;
  2546. resp.response_length = uverbs_response_length(attrs, sizeof(resp));
  2547. uobj = uobj_get_destroy(UVERBS_OBJECT_WQ, cmd.wq_handle, attrs);
  2548. if (IS_ERR(uobj))
  2549. return PTR_ERR(uobj);
  2550. obj = container_of(uobj, struct ib_uwq_object, uevent.uobject);
  2551. resp.events_reported = obj->uevent.events_reported;
  2552. uobj_put_destroy(uobj);
  2553. return uverbs_response(attrs, &resp, sizeof(resp));
  2554. }
  2555. static int ib_uverbs_ex_modify_wq(struct uverbs_attr_bundle *attrs)
  2556. {
  2557. struct ib_uverbs_ex_modify_wq cmd;
  2558. struct ib_wq *wq;
  2559. struct ib_wq_attr wq_attr = {};
  2560. int ret;
  2561. ret = uverbs_request(attrs, &cmd, sizeof(cmd));
  2562. if (ret)
  2563. return ret;
  2564. if (!cmd.attr_mask)
  2565. return -EINVAL;
  2566. if (cmd.attr_mask > (IB_WQ_STATE | IB_WQ_CUR_STATE | IB_WQ_FLAGS))
  2567. return -EINVAL;
  2568. wq = uobj_get_obj_read(wq, UVERBS_OBJECT_WQ, cmd.wq_handle, attrs);
  2569. if (IS_ERR(wq))
  2570. return PTR_ERR(wq);
  2571. if (cmd.attr_mask & IB_WQ_FLAGS) {
  2572. wq_attr.flags = cmd.flags;
  2573. wq_attr.flags_mask = cmd.flags_mask;
  2574. }
  2575. if (cmd.attr_mask & IB_WQ_CUR_STATE) {
  2576. if (cmd.curr_wq_state > IB_WQS_ERR)
  2577. return -EINVAL;
  2578. wq_attr.curr_wq_state = cmd.curr_wq_state;
  2579. } else {
  2580. wq_attr.curr_wq_state = wq->state;
  2581. }
  2582. if (cmd.attr_mask & IB_WQ_STATE) {
  2583. if (cmd.wq_state > IB_WQS_ERR)
  2584. return -EINVAL;
  2585. wq_attr.wq_state = cmd.wq_state;
  2586. } else {
  2587. wq_attr.wq_state = wq_attr.curr_wq_state;
  2588. }
  2589. ret = wq->device->ops.modify_wq(wq, &wq_attr, cmd.attr_mask,
  2590. &attrs->driver_udata);
  2591. rdma_lookup_put_uobject(&wq->uobject->uevent.uobject,
  2592. UVERBS_LOOKUP_READ);
  2593. return ret;
  2594. }
  2595. static int ib_uverbs_ex_create_rwq_ind_table(struct uverbs_attr_bundle *attrs)
  2596. {
  2597. struct ib_uverbs_ex_create_rwq_ind_table cmd;
  2598. struct ib_uverbs_ex_create_rwq_ind_table_resp resp = {};
  2599. struct ib_uobject *uobj;
  2600. int err;
  2601. struct ib_rwq_ind_table_init_attr init_attr = {};
  2602. struct ib_rwq_ind_table *rwq_ind_tbl;
  2603. struct ib_wq **wqs = NULL;
  2604. u32 *wqs_handles = NULL;
  2605. struct ib_wq *wq = NULL;
  2606. int i, num_read_wqs;
  2607. u32 num_wq_handles;
  2608. struct uverbs_req_iter iter;
  2609. struct ib_device *ib_dev;
  2610. err = uverbs_request_start(attrs, &iter, &cmd, sizeof(cmd));
  2611. if (err)
  2612. return err;
  2613. if (cmd.comp_mask)
  2614. return -EOPNOTSUPP;
  2615. if (cmd.log_ind_tbl_size > IB_USER_VERBS_MAX_LOG_IND_TBL_SIZE)
  2616. return -EINVAL;
  2617. num_wq_handles = 1 << cmd.log_ind_tbl_size;
  2618. wqs_handles = kcalloc(num_wq_handles, sizeof(*wqs_handles),
  2619. GFP_KERNEL);
  2620. if (!wqs_handles)
  2621. return -ENOMEM;
  2622. err = uverbs_request_next(&iter, wqs_handles,
  2623. num_wq_handles * sizeof(__u32));
  2624. if (err)
  2625. goto err_free;
  2626. err = uverbs_request_finish(&iter);
  2627. if (err)
  2628. goto err_free;
  2629. wqs = kzalloc_objs(*wqs, num_wq_handles);
  2630. if (!wqs) {
  2631. err = -ENOMEM;
  2632. goto err_free;
  2633. }
  2634. for (num_read_wqs = 0; num_read_wqs < num_wq_handles;
  2635. num_read_wqs++) {
  2636. wq = uobj_get_obj_read(wq, UVERBS_OBJECT_WQ,
  2637. wqs_handles[num_read_wqs], attrs);
  2638. if (IS_ERR(wq)) {
  2639. err = PTR_ERR(wq);
  2640. goto put_wqs;
  2641. }
  2642. wqs[num_read_wqs] = wq;
  2643. atomic_inc(&wqs[num_read_wqs]->usecnt);
  2644. }
  2645. uobj = uobj_alloc(UVERBS_OBJECT_RWQ_IND_TBL, attrs, &ib_dev);
  2646. if (IS_ERR(uobj)) {
  2647. err = PTR_ERR(uobj);
  2648. goto put_wqs;
  2649. }
  2650. rwq_ind_tbl = rdma_zalloc_drv_obj(ib_dev, ib_rwq_ind_table);
  2651. if (!rwq_ind_tbl) {
  2652. err = -ENOMEM;
  2653. goto err_uobj;
  2654. }
  2655. init_attr.log_ind_tbl_size = cmd.log_ind_tbl_size;
  2656. init_attr.ind_tbl = wqs;
  2657. rwq_ind_tbl->ind_tbl = wqs;
  2658. rwq_ind_tbl->log_ind_tbl_size = init_attr.log_ind_tbl_size;
  2659. rwq_ind_tbl->uobject = uobj;
  2660. uobj->object = rwq_ind_tbl;
  2661. rwq_ind_tbl->device = ib_dev;
  2662. atomic_set(&rwq_ind_tbl->usecnt, 0);
  2663. err = ib_dev->ops.create_rwq_ind_table(rwq_ind_tbl, &init_attr,
  2664. &attrs->driver_udata);
  2665. if (err)
  2666. goto err_create;
  2667. for (i = 0; i < num_wq_handles; i++)
  2668. rdma_lookup_put_uobject(&wqs[i]->uobject->uevent.uobject,
  2669. UVERBS_LOOKUP_READ);
  2670. kfree(wqs_handles);
  2671. uobj_finalize_uobj_create(uobj, attrs);
  2672. resp.ind_tbl_handle = uobj->id;
  2673. resp.ind_tbl_num = rwq_ind_tbl->ind_tbl_num;
  2674. resp.response_length = uverbs_response_length(attrs, sizeof(resp));
  2675. return uverbs_response(attrs, &resp, sizeof(resp));
  2676. err_create:
  2677. kfree(rwq_ind_tbl);
  2678. err_uobj:
  2679. uobj_alloc_abort(uobj, attrs);
  2680. put_wqs:
  2681. for (i = 0; i < num_read_wqs; i++) {
  2682. rdma_lookup_put_uobject(&wqs[i]->uobject->uevent.uobject,
  2683. UVERBS_LOOKUP_READ);
  2684. atomic_dec(&wqs[i]->usecnt);
  2685. }
  2686. err_free:
  2687. kfree(wqs_handles);
  2688. kfree(wqs);
  2689. return err;
  2690. }
  2691. static int ib_uverbs_ex_destroy_rwq_ind_table(struct uverbs_attr_bundle *attrs)
  2692. {
  2693. struct ib_uverbs_ex_destroy_rwq_ind_table cmd;
  2694. int ret;
  2695. ret = uverbs_request(attrs, &cmd, sizeof(cmd));
  2696. if (ret)
  2697. return ret;
  2698. if (cmd.comp_mask)
  2699. return -EOPNOTSUPP;
  2700. return uobj_perform_destroy(UVERBS_OBJECT_RWQ_IND_TBL,
  2701. cmd.ind_tbl_handle, attrs);
  2702. }
  2703. static int ib_uverbs_ex_create_flow(struct uverbs_attr_bundle *attrs)
  2704. {
  2705. struct ib_uverbs_create_flow cmd;
  2706. struct ib_uverbs_create_flow_resp resp = {};
  2707. struct ib_uobject *uobj;
  2708. struct ib_flow *flow_id;
  2709. struct ib_uverbs_flow_attr *kern_flow_attr;
  2710. struct ib_flow_attr *flow_attr;
  2711. struct ib_qp *qp;
  2712. struct ib_uflow_resources *uflow_res;
  2713. struct ib_uverbs_flow_spec_hdr *kern_spec;
  2714. struct uverbs_req_iter iter;
  2715. int err;
  2716. void *ib_spec;
  2717. int i;
  2718. struct ib_device *ib_dev;
  2719. err = uverbs_request_start(attrs, &iter, &cmd, sizeof(cmd));
  2720. if (err)
  2721. return err;
  2722. if (cmd.comp_mask)
  2723. return -EINVAL;
  2724. if (!rdma_uattrs_has_raw_cap(attrs))
  2725. return -EPERM;
  2726. if (cmd.flow_attr.flags >= IB_FLOW_ATTR_FLAGS_RESERVED)
  2727. return -EINVAL;
  2728. if ((cmd.flow_attr.flags & IB_FLOW_ATTR_FLAGS_DONT_TRAP) &&
  2729. ((cmd.flow_attr.type == IB_FLOW_ATTR_ALL_DEFAULT) ||
  2730. (cmd.flow_attr.type == IB_FLOW_ATTR_MC_DEFAULT)))
  2731. return -EINVAL;
  2732. if (cmd.flow_attr.num_of_specs > IB_FLOW_SPEC_SUPPORT_LAYERS)
  2733. return -EINVAL;
  2734. if (cmd.flow_attr.size >
  2735. (cmd.flow_attr.num_of_specs * sizeof(struct ib_uverbs_flow_spec)))
  2736. return -EINVAL;
  2737. if (cmd.flow_attr.reserved[0] ||
  2738. cmd.flow_attr.reserved[1])
  2739. return -EINVAL;
  2740. if (cmd.flow_attr.num_of_specs) {
  2741. kern_flow_attr = kmalloc(sizeof(*kern_flow_attr) + cmd.flow_attr.size,
  2742. GFP_KERNEL);
  2743. if (!kern_flow_attr)
  2744. return -ENOMEM;
  2745. *kern_flow_attr = cmd.flow_attr;
  2746. err = uverbs_request_next(&iter, &kern_flow_attr->flow_specs,
  2747. cmd.flow_attr.size);
  2748. if (err)
  2749. goto err_free_attr;
  2750. } else {
  2751. kern_flow_attr = &cmd.flow_attr;
  2752. }
  2753. err = uverbs_request_finish(&iter);
  2754. if (err)
  2755. goto err_free_attr;
  2756. uobj = uobj_alloc(UVERBS_OBJECT_FLOW, attrs, &ib_dev);
  2757. if (IS_ERR(uobj)) {
  2758. err = PTR_ERR(uobj);
  2759. goto err_free_attr;
  2760. }
  2761. if (!rdma_is_port_valid(uobj->context->device, cmd.flow_attr.port)) {
  2762. err = -EINVAL;
  2763. goto err_uobj;
  2764. }
  2765. qp = uobj_get_obj_read(qp, UVERBS_OBJECT_QP, cmd.qp_handle, attrs);
  2766. if (IS_ERR(qp)) {
  2767. err = PTR_ERR(qp);
  2768. goto err_uobj;
  2769. }
  2770. if (qp->qp_type != IB_QPT_UD && qp->qp_type != IB_QPT_RAW_PACKET) {
  2771. err = -EINVAL;
  2772. goto err_put;
  2773. }
  2774. flow_attr = kzalloc_flex(*flow_attr, flows, cmd.flow_attr.num_of_specs);
  2775. if (!flow_attr) {
  2776. err = -ENOMEM;
  2777. goto err_put;
  2778. }
  2779. uflow_res = flow_resources_alloc(cmd.flow_attr.num_of_specs);
  2780. if (!uflow_res) {
  2781. err = -ENOMEM;
  2782. goto err_free_flow_attr;
  2783. }
  2784. flow_attr->type = kern_flow_attr->type;
  2785. flow_attr->priority = kern_flow_attr->priority;
  2786. flow_attr->num_of_specs = kern_flow_attr->num_of_specs;
  2787. flow_attr->port = kern_flow_attr->port;
  2788. flow_attr->flags = kern_flow_attr->flags;
  2789. flow_attr->size = sizeof(*flow_attr);
  2790. kern_spec = kern_flow_attr->flow_specs;
  2791. ib_spec = flow_attr + 1;
  2792. for (i = 0; i < flow_attr->num_of_specs &&
  2793. cmd.flow_attr.size >= sizeof(*kern_spec) &&
  2794. cmd.flow_attr.size >= kern_spec->size;
  2795. i++) {
  2796. err = kern_spec_to_ib_spec(
  2797. attrs, (struct ib_uverbs_flow_spec *)kern_spec,
  2798. ib_spec, uflow_res);
  2799. if (err)
  2800. goto err_free;
  2801. flow_attr->size +=
  2802. ((union ib_flow_spec *) ib_spec)->size;
  2803. cmd.flow_attr.size -= kern_spec->size;
  2804. kern_spec = ((void *)kern_spec) + kern_spec->size;
  2805. ib_spec += ((union ib_flow_spec *) ib_spec)->size;
  2806. }
  2807. if (cmd.flow_attr.size || (i != flow_attr->num_of_specs)) {
  2808. pr_warn("create flow failed, flow %d: %u bytes left from uverb cmd\n",
  2809. i, cmd.flow_attr.size);
  2810. err = -EINVAL;
  2811. goto err_free;
  2812. }
  2813. flow_id = qp->device->ops.create_flow(qp, flow_attr,
  2814. &attrs->driver_udata);
  2815. if (IS_ERR(flow_id)) {
  2816. err = PTR_ERR(flow_id);
  2817. goto err_free;
  2818. }
  2819. ib_set_flow(uobj, flow_id, qp, qp->device, uflow_res);
  2820. rdma_lookup_put_uobject(&qp->uobject->uevent.uobject,
  2821. UVERBS_LOOKUP_READ);
  2822. kfree(flow_attr);
  2823. if (cmd.flow_attr.num_of_specs)
  2824. kfree(kern_flow_attr);
  2825. uobj_finalize_uobj_create(uobj, attrs);
  2826. resp.flow_handle = uobj->id;
  2827. return uverbs_response(attrs, &resp, sizeof(resp));
  2828. err_free:
  2829. ib_uverbs_flow_resources_free(uflow_res);
  2830. err_free_flow_attr:
  2831. kfree(flow_attr);
  2832. err_put:
  2833. rdma_lookup_put_uobject(&qp->uobject->uevent.uobject,
  2834. UVERBS_LOOKUP_READ);
  2835. err_uobj:
  2836. uobj_alloc_abort(uobj, attrs);
  2837. err_free_attr:
  2838. if (cmd.flow_attr.num_of_specs)
  2839. kfree(kern_flow_attr);
  2840. return err;
  2841. }
  2842. static int ib_uverbs_ex_destroy_flow(struct uverbs_attr_bundle *attrs)
  2843. {
  2844. struct ib_uverbs_destroy_flow cmd;
  2845. int ret;
  2846. ret = uverbs_request(attrs, &cmd, sizeof(cmd));
  2847. if (ret)
  2848. return ret;
  2849. if (cmd.comp_mask)
  2850. return -EINVAL;
  2851. return uobj_perform_destroy(UVERBS_OBJECT_FLOW, cmd.flow_handle, attrs);
  2852. }
  2853. static int __uverbs_create_xsrq(struct uverbs_attr_bundle *attrs,
  2854. struct ib_uverbs_create_xsrq *cmd,
  2855. struct ib_udata *udata)
  2856. {
  2857. struct ib_uverbs_create_srq_resp resp = {};
  2858. struct ib_usrq_object *obj;
  2859. struct ib_pd *pd;
  2860. struct ib_srq *srq;
  2861. struct ib_srq_init_attr attr;
  2862. int ret;
  2863. struct ib_uobject *xrcd_uobj;
  2864. struct ib_device *ib_dev;
  2865. obj = (struct ib_usrq_object *)uobj_alloc(UVERBS_OBJECT_SRQ, attrs,
  2866. &ib_dev);
  2867. if (IS_ERR(obj))
  2868. return PTR_ERR(obj);
  2869. if (cmd->srq_type == IB_SRQT_TM)
  2870. attr.ext.tag_matching.max_num_tags = cmd->max_num_tags;
  2871. if (cmd->srq_type == IB_SRQT_XRC) {
  2872. xrcd_uobj = uobj_get_read(UVERBS_OBJECT_XRCD, cmd->xrcd_handle,
  2873. attrs);
  2874. if (IS_ERR(xrcd_uobj)) {
  2875. ret = -EINVAL;
  2876. goto err;
  2877. }
  2878. attr.ext.xrc.xrcd = (struct ib_xrcd *)xrcd_uobj->object;
  2879. if (!attr.ext.xrc.xrcd) {
  2880. ret = -EINVAL;
  2881. goto err_put_xrcd;
  2882. }
  2883. obj->uxrcd = container_of(xrcd_uobj, struct ib_uxrcd_object, uobject);
  2884. atomic_inc(&obj->uxrcd->refcnt);
  2885. }
  2886. if (ib_srq_has_cq(cmd->srq_type)) {
  2887. attr.ext.cq = uobj_get_obj_read(cq, UVERBS_OBJECT_CQ,
  2888. cmd->cq_handle, attrs);
  2889. if (IS_ERR(attr.ext.cq)) {
  2890. ret = PTR_ERR(attr.ext.cq);
  2891. goto err_put_xrcd;
  2892. }
  2893. }
  2894. pd = uobj_get_obj_read(pd, UVERBS_OBJECT_PD, cmd->pd_handle, attrs);
  2895. if (IS_ERR(pd)) {
  2896. ret = PTR_ERR(pd);
  2897. goto err_put_cq;
  2898. }
  2899. attr.event_handler = ib_uverbs_srq_event_handler;
  2900. attr.srq_type = cmd->srq_type;
  2901. attr.attr.max_wr = cmd->max_wr;
  2902. attr.attr.max_sge = cmd->max_sge;
  2903. attr.attr.srq_limit = cmd->srq_limit;
  2904. INIT_LIST_HEAD(&obj->uevent.event_list);
  2905. obj->uevent.uobject.user_handle = cmd->user_handle;
  2906. srq = ib_create_srq_user(pd, &attr, obj, udata);
  2907. if (IS_ERR(srq)) {
  2908. ret = PTR_ERR(srq);
  2909. goto err_put_pd;
  2910. }
  2911. obj->uevent.uobject.object = srq;
  2912. obj->uevent.uobject.user_handle = cmd->user_handle;
  2913. obj->uevent.event_file = READ_ONCE(attrs->ufile->default_async_file);
  2914. if (obj->uevent.event_file)
  2915. uverbs_uobject_get(&obj->uevent.event_file->uobj);
  2916. if (cmd->srq_type == IB_SRQT_XRC)
  2917. resp.srqn = srq->ext.xrc.srq_num;
  2918. if (cmd->srq_type == IB_SRQT_XRC)
  2919. uobj_put_read(xrcd_uobj);
  2920. if (ib_srq_has_cq(cmd->srq_type))
  2921. rdma_lookup_put_uobject(&attr.ext.cq->uobject->uevent.uobject,
  2922. UVERBS_LOOKUP_READ);
  2923. uobj_put_obj_read(pd);
  2924. uobj_finalize_uobj_create(&obj->uevent.uobject, attrs);
  2925. resp.srq_handle = obj->uevent.uobject.id;
  2926. resp.max_wr = attr.attr.max_wr;
  2927. resp.max_sge = attr.attr.max_sge;
  2928. return uverbs_response(attrs, &resp, sizeof(resp));
  2929. err_put_pd:
  2930. uobj_put_obj_read(pd);
  2931. err_put_cq:
  2932. if (ib_srq_has_cq(cmd->srq_type))
  2933. rdma_lookup_put_uobject(&attr.ext.cq->uobject->uevent.uobject,
  2934. UVERBS_LOOKUP_READ);
  2935. err_put_xrcd:
  2936. if (cmd->srq_type == IB_SRQT_XRC) {
  2937. atomic_dec(&obj->uxrcd->refcnt);
  2938. uobj_put_read(xrcd_uobj);
  2939. }
  2940. err:
  2941. uobj_alloc_abort(&obj->uevent.uobject, attrs);
  2942. return ret;
  2943. }
  2944. static int ib_uverbs_create_srq(struct uverbs_attr_bundle *attrs)
  2945. {
  2946. struct ib_uverbs_create_srq cmd;
  2947. struct ib_uverbs_create_xsrq xcmd;
  2948. int ret;
  2949. ret = uverbs_request(attrs, &cmd, sizeof(cmd));
  2950. if (ret)
  2951. return ret;
  2952. memset(&xcmd, 0, sizeof(xcmd));
  2953. xcmd.response = cmd.response;
  2954. xcmd.user_handle = cmd.user_handle;
  2955. xcmd.srq_type = IB_SRQT_BASIC;
  2956. xcmd.pd_handle = cmd.pd_handle;
  2957. xcmd.max_wr = cmd.max_wr;
  2958. xcmd.max_sge = cmd.max_sge;
  2959. xcmd.srq_limit = cmd.srq_limit;
  2960. return __uverbs_create_xsrq(attrs, &xcmd, &attrs->driver_udata);
  2961. }
  2962. static int ib_uverbs_create_xsrq(struct uverbs_attr_bundle *attrs)
  2963. {
  2964. struct ib_uverbs_create_xsrq cmd;
  2965. int ret;
  2966. ret = uverbs_request(attrs, &cmd, sizeof(cmd));
  2967. if (ret)
  2968. return ret;
  2969. return __uverbs_create_xsrq(attrs, &cmd, &attrs->driver_udata);
  2970. }
  2971. static int ib_uverbs_modify_srq(struct uverbs_attr_bundle *attrs)
  2972. {
  2973. struct ib_uverbs_modify_srq cmd;
  2974. struct ib_srq *srq;
  2975. struct ib_srq_attr attr;
  2976. int ret;
  2977. ret = uverbs_request(attrs, &cmd, sizeof(cmd));
  2978. if (ret)
  2979. return ret;
  2980. srq = uobj_get_obj_read(srq, UVERBS_OBJECT_SRQ, cmd.srq_handle, attrs);
  2981. if (IS_ERR(srq))
  2982. return PTR_ERR(srq);
  2983. attr.max_wr = cmd.max_wr;
  2984. attr.srq_limit = cmd.srq_limit;
  2985. ret = srq->device->ops.modify_srq(srq, &attr, cmd.attr_mask,
  2986. &attrs->driver_udata);
  2987. rdma_lookup_put_uobject(&srq->uobject->uevent.uobject,
  2988. UVERBS_LOOKUP_READ);
  2989. return ret;
  2990. }
  2991. static int ib_uverbs_query_srq(struct uverbs_attr_bundle *attrs)
  2992. {
  2993. struct ib_uverbs_query_srq cmd;
  2994. struct ib_uverbs_query_srq_resp resp;
  2995. struct ib_srq_attr attr;
  2996. struct ib_srq *srq;
  2997. int ret;
  2998. ret = uverbs_request(attrs, &cmd, sizeof(cmd));
  2999. if (ret)
  3000. return ret;
  3001. srq = uobj_get_obj_read(srq, UVERBS_OBJECT_SRQ, cmd.srq_handle, attrs);
  3002. if (IS_ERR(srq))
  3003. return PTR_ERR(srq);
  3004. ret = ib_query_srq(srq, &attr);
  3005. rdma_lookup_put_uobject(&srq->uobject->uevent.uobject,
  3006. UVERBS_LOOKUP_READ);
  3007. if (ret)
  3008. return ret;
  3009. memset(&resp, 0, sizeof resp);
  3010. resp.max_wr = attr.max_wr;
  3011. resp.max_sge = attr.max_sge;
  3012. resp.srq_limit = attr.srq_limit;
  3013. return uverbs_response(attrs, &resp, sizeof(resp));
  3014. }
  3015. static int ib_uverbs_destroy_srq(struct uverbs_attr_bundle *attrs)
  3016. {
  3017. struct ib_uverbs_destroy_srq cmd;
  3018. struct ib_uverbs_destroy_srq_resp resp;
  3019. struct ib_uobject *uobj;
  3020. struct ib_uevent_object *obj;
  3021. int ret;
  3022. ret = uverbs_request(attrs, &cmd, sizeof(cmd));
  3023. if (ret)
  3024. return ret;
  3025. uobj = uobj_get_destroy(UVERBS_OBJECT_SRQ, cmd.srq_handle, attrs);
  3026. if (IS_ERR(uobj))
  3027. return PTR_ERR(uobj);
  3028. obj = container_of(uobj, struct ib_uevent_object, uobject);
  3029. memset(&resp, 0, sizeof(resp));
  3030. resp.events_reported = obj->events_reported;
  3031. uobj_put_destroy(uobj);
  3032. return uverbs_response(attrs, &resp, sizeof(resp));
  3033. }
  3034. static int ib_uverbs_ex_query_device(struct uverbs_attr_bundle *attrs)
  3035. {
  3036. struct ib_uverbs_ex_query_device_resp resp = {};
  3037. struct ib_uverbs_ex_query_device cmd;
  3038. struct ib_device_attr attr = {0};
  3039. struct ib_ucontext *ucontext;
  3040. struct ib_device *ib_dev;
  3041. int err;
  3042. ucontext = ib_uverbs_get_ucontext(attrs);
  3043. if (IS_ERR(ucontext))
  3044. return PTR_ERR(ucontext);
  3045. ib_dev = ucontext->device;
  3046. err = uverbs_request(attrs, &cmd, sizeof(cmd));
  3047. if (err)
  3048. return err;
  3049. if (cmd.comp_mask)
  3050. return -EINVAL;
  3051. if (cmd.reserved)
  3052. return -EINVAL;
  3053. err = ib_dev->ops.query_device(ib_dev, &attr, &attrs->driver_udata);
  3054. if (err)
  3055. return err;
  3056. copy_query_dev_fields(ucontext, &resp.base, &attr);
  3057. resp.odp_caps.general_caps = attr.odp_caps.general_caps;
  3058. resp.odp_caps.per_transport_caps.rc_odp_caps =
  3059. attr.odp_caps.per_transport_caps.rc_odp_caps;
  3060. resp.odp_caps.per_transport_caps.uc_odp_caps =
  3061. attr.odp_caps.per_transport_caps.uc_odp_caps;
  3062. resp.odp_caps.per_transport_caps.ud_odp_caps =
  3063. attr.odp_caps.per_transport_caps.ud_odp_caps;
  3064. resp.xrc_odp_caps = attr.odp_caps.per_transport_caps.xrc_odp_caps;
  3065. resp.timestamp_mask = attr.timestamp_mask;
  3066. resp.hca_core_clock = attr.hca_core_clock;
  3067. resp.device_cap_flags_ex = attr.device_cap_flags;
  3068. resp.rss_caps.supported_qpts = attr.rss_caps.supported_qpts;
  3069. resp.rss_caps.max_rwq_indirection_tables =
  3070. attr.rss_caps.max_rwq_indirection_tables;
  3071. resp.rss_caps.max_rwq_indirection_table_size =
  3072. attr.rss_caps.max_rwq_indirection_table_size;
  3073. resp.max_wq_type_rq = attr.max_wq_type_rq;
  3074. resp.raw_packet_caps = attr.raw_packet_caps;
  3075. resp.tm_caps.max_rndv_hdr_size = attr.tm_caps.max_rndv_hdr_size;
  3076. resp.tm_caps.max_num_tags = attr.tm_caps.max_num_tags;
  3077. resp.tm_caps.max_ops = attr.tm_caps.max_ops;
  3078. resp.tm_caps.max_sge = attr.tm_caps.max_sge;
  3079. resp.tm_caps.flags = attr.tm_caps.flags;
  3080. resp.cq_moderation_caps.max_cq_moderation_count =
  3081. attr.cq_caps.max_cq_moderation_count;
  3082. resp.cq_moderation_caps.max_cq_moderation_period =
  3083. attr.cq_caps.max_cq_moderation_period;
  3084. resp.max_dm_size = attr.max_dm_size;
  3085. resp.response_length = uverbs_response_length(attrs, sizeof(resp));
  3086. return uverbs_response(attrs, &resp, sizeof(resp));
  3087. }
  3088. static int ib_uverbs_ex_modify_cq(struct uverbs_attr_bundle *attrs)
  3089. {
  3090. struct ib_uverbs_ex_modify_cq cmd;
  3091. struct ib_cq *cq;
  3092. int ret;
  3093. ret = uverbs_request(attrs, &cmd, sizeof(cmd));
  3094. if (ret)
  3095. return ret;
  3096. if (!cmd.attr_mask || cmd.reserved)
  3097. return -EINVAL;
  3098. if (cmd.attr_mask > IB_CQ_MODERATE)
  3099. return -EOPNOTSUPP;
  3100. cq = uobj_get_obj_read(cq, UVERBS_OBJECT_CQ, cmd.cq_handle, attrs);
  3101. if (IS_ERR(cq))
  3102. return PTR_ERR(cq);
  3103. ret = rdma_set_cq_moderation(cq, cmd.attr.cq_count, cmd.attr.cq_period);
  3104. rdma_lookup_put_uobject(&cq->uobject->uevent.uobject,
  3105. UVERBS_LOOKUP_READ);
  3106. return ret;
  3107. }
  3108. /*
  3109. * Describe the input structs for write(). Some write methods have an input
  3110. * only struct, most have an input and output. If the struct has an output then
  3111. * the 'response' u64 must be the first field in the request structure.
  3112. *
  3113. * If udata is present then both the request and response structs have a
  3114. * trailing driver_data flex array. In this case the size of the base struct
  3115. * cannot be changed.
  3116. */
  3117. #define UAPI_DEF_WRITE_IO(req, resp) \
  3118. .write.has_resp = 1 + \
  3119. BUILD_BUG_ON_ZERO(offsetof(req, response) != 0) + \
  3120. BUILD_BUG_ON_ZERO(sizeof_field(req, response) != \
  3121. sizeof(u64)), \
  3122. .write.req_size = sizeof(req), .write.resp_size = sizeof(resp)
  3123. #define UAPI_DEF_WRITE_I(req) .write.req_size = sizeof(req)
  3124. #define UAPI_DEF_WRITE_UDATA_IO(req, resp) \
  3125. UAPI_DEF_WRITE_IO(req, resp), \
  3126. .write.has_udata = \
  3127. 1 + \
  3128. BUILD_BUG_ON_ZERO(offsetof(req, driver_data) != \
  3129. sizeof(req)) + \
  3130. BUILD_BUG_ON_ZERO(offsetof(resp, driver_data) != \
  3131. sizeof(resp))
  3132. #define UAPI_DEF_WRITE_UDATA_I(req) \
  3133. UAPI_DEF_WRITE_I(req), \
  3134. .write.has_udata = \
  3135. 1 + BUILD_BUG_ON_ZERO(offsetof(req, driver_data) != \
  3136. sizeof(req))
  3137. /*
  3138. * The _EX versions are for use with WRITE_EX and allow the last struct member
  3139. * to be specified. Buffers that do not include that member will be rejected.
  3140. */
  3141. #define UAPI_DEF_WRITE_IO_EX(req, req_last_member, resp, resp_last_member) \
  3142. .write.has_resp = 1, \
  3143. .write.req_size = offsetofend(req, req_last_member), \
  3144. .write.resp_size = offsetofend(resp, resp_last_member)
  3145. #define UAPI_DEF_WRITE_I_EX(req, req_last_member) \
  3146. .write.req_size = offsetofend(req, req_last_member)
  3147. const struct uapi_definition uverbs_def_write_intf[] = {
  3148. DECLARE_UVERBS_OBJECT(
  3149. UVERBS_OBJECT_AH,
  3150. DECLARE_UVERBS_WRITE(IB_USER_VERBS_CMD_CREATE_AH,
  3151. ib_uverbs_create_ah,
  3152. UAPI_DEF_WRITE_UDATA_IO(
  3153. struct ib_uverbs_create_ah,
  3154. struct ib_uverbs_create_ah_resp)),
  3155. DECLARE_UVERBS_WRITE(
  3156. IB_USER_VERBS_CMD_DESTROY_AH,
  3157. ib_uverbs_destroy_ah,
  3158. UAPI_DEF_WRITE_I(struct ib_uverbs_destroy_ah)),
  3159. UAPI_DEF_OBJ_NEEDS_FN(create_user_ah),
  3160. UAPI_DEF_OBJ_NEEDS_FN(destroy_ah)),
  3161. DECLARE_UVERBS_OBJECT(
  3162. UVERBS_OBJECT_COMP_CHANNEL,
  3163. DECLARE_UVERBS_WRITE(
  3164. IB_USER_VERBS_CMD_CREATE_COMP_CHANNEL,
  3165. ib_uverbs_create_comp_channel,
  3166. UAPI_DEF_WRITE_IO(
  3167. struct ib_uverbs_create_comp_channel,
  3168. struct ib_uverbs_create_comp_channel_resp))),
  3169. DECLARE_UVERBS_OBJECT(
  3170. UVERBS_OBJECT_CQ,
  3171. DECLARE_UVERBS_WRITE(IB_USER_VERBS_CMD_CREATE_CQ,
  3172. ib_uverbs_create_cq,
  3173. UAPI_DEF_WRITE_UDATA_IO(
  3174. struct ib_uverbs_create_cq,
  3175. struct ib_uverbs_create_cq_resp),
  3176. UAPI_DEF_METHOD_NEEDS_FN(create_cq)),
  3177. DECLARE_UVERBS_WRITE(
  3178. IB_USER_VERBS_CMD_DESTROY_CQ,
  3179. ib_uverbs_destroy_cq,
  3180. UAPI_DEF_WRITE_IO(struct ib_uverbs_destroy_cq,
  3181. struct ib_uverbs_destroy_cq_resp),
  3182. UAPI_DEF_METHOD_NEEDS_FN(destroy_cq)),
  3183. DECLARE_UVERBS_WRITE(
  3184. IB_USER_VERBS_CMD_POLL_CQ,
  3185. ib_uverbs_poll_cq,
  3186. UAPI_DEF_WRITE_IO(struct ib_uverbs_poll_cq,
  3187. struct ib_uverbs_poll_cq_resp),
  3188. UAPI_DEF_METHOD_NEEDS_FN(poll_cq)),
  3189. DECLARE_UVERBS_WRITE(
  3190. IB_USER_VERBS_CMD_REQ_NOTIFY_CQ,
  3191. ib_uverbs_req_notify_cq,
  3192. UAPI_DEF_WRITE_I(struct ib_uverbs_req_notify_cq),
  3193. UAPI_DEF_METHOD_NEEDS_FN(req_notify_cq)),
  3194. DECLARE_UVERBS_WRITE(IB_USER_VERBS_CMD_RESIZE_CQ,
  3195. ib_uverbs_resize_cq,
  3196. UAPI_DEF_WRITE_UDATA_IO(
  3197. struct ib_uverbs_resize_cq,
  3198. struct ib_uverbs_resize_cq_resp),
  3199. UAPI_DEF_METHOD_NEEDS_FN(resize_cq)),
  3200. DECLARE_UVERBS_WRITE_EX(
  3201. IB_USER_VERBS_EX_CMD_CREATE_CQ,
  3202. ib_uverbs_ex_create_cq,
  3203. UAPI_DEF_WRITE_IO_EX(struct ib_uverbs_ex_create_cq,
  3204. reserved,
  3205. struct ib_uverbs_ex_create_cq_resp,
  3206. response_length),
  3207. UAPI_DEF_METHOD_NEEDS_FN(create_cq)),
  3208. DECLARE_UVERBS_WRITE_EX(
  3209. IB_USER_VERBS_EX_CMD_MODIFY_CQ,
  3210. ib_uverbs_ex_modify_cq,
  3211. UAPI_DEF_WRITE_I(struct ib_uverbs_ex_modify_cq),
  3212. UAPI_DEF_METHOD_NEEDS_FN(modify_cq))),
  3213. DECLARE_UVERBS_OBJECT(
  3214. UVERBS_OBJECT_DEVICE,
  3215. DECLARE_UVERBS_WRITE(IB_USER_VERBS_CMD_GET_CONTEXT,
  3216. ib_uverbs_get_context,
  3217. UAPI_DEF_WRITE_UDATA_IO(
  3218. struct ib_uverbs_get_context,
  3219. struct ib_uverbs_get_context_resp)),
  3220. DECLARE_UVERBS_WRITE(
  3221. IB_USER_VERBS_CMD_QUERY_DEVICE,
  3222. ib_uverbs_query_device,
  3223. UAPI_DEF_WRITE_IO(struct ib_uverbs_query_device,
  3224. struct ib_uverbs_query_device_resp)),
  3225. DECLARE_UVERBS_WRITE(
  3226. IB_USER_VERBS_CMD_QUERY_PORT,
  3227. ib_uverbs_query_port,
  3228. UAPI_DEF_WRITE_IO(struct ib_uverbs_query_port,
  3229. struct ib_uverbs_query_port_resp),
  3230. UAPI_DEF_METHOD_NEEDS_FN(query_port)),
  3231. DECLARE_UVERBS_WRITE_EX(
  3232. IB_USER_VERBS_EX_CMD_QUERY_DEVICE,
  3233. ib_uverbs_ex_query_device,
  3234. UAPI_DEF_WRITE_IO_EX(
  3235. struct ib_uverbs_ex_query_device,
  3236. reserved,
  3237. struct ib_uverbs_ex_query_device_resp,
  3238. response_length),
  3239. UAPI_DEF_METHOD_NEEDS_FN(query_device)),
  3240. UAPI_DEF_OBJ_NEEDS_FN(alloc_ucontext),
  3241. UAPI_DEF_OBJ_NEEDS_FN(dealloc_ucontext)),
  3242. DECLARE_UVERBS_OBJECT(
  3243. UVERBS_OBJECT_FLOW,
  3244. DECLARE_UVERBS_WRITE_EX(
  3245. IB_USER_VERBS_EX_CMD_CREATE_FLOW,
  3246. ib_uverbs_ex_create_flow,
  3247. UAPI_DEF_WRITE_IO_EX(struct ib_uverbs_create_flow,
  3248. flow_attr,
  3249. struct ib_uverbs_create_flow_resp,
  3250. flow_handle),
  3251. UAPI_DEF_METHOD_NEEDS_FN(create_flow)),
  3252. DECLARE_UVERBS_WRITE_EX(
  3253. IB_USER_VERBS_EX_CMD_DESTROY_FLOW,
  3254. ib_uverbs_ex_destroy_flow,
  3255. UAPI_DEF_WRITE_I(struct ib_uverbs_destroy_flow),
  3256. UAPI_DEF_METHOD_NEEDS_FN(destroy_flow))),
  3257. DECLARE_UVERBS_OBJECT(
  3258. UVERBS_OBJECT_MR,
  3259. DECLARE_UVERBS_WRITE(IB_USER_VERBS_CMD_DEREG_MR,
  3260. ib_uverbs_dereg_mr,
  3261. UAPI_DEF_WRITE_I(struct ib_uverbs_dereg_mr),
  3262. UAPI_DEF_METHOD_NEEDS_FN(dereg_mr)),
  3263. DECLARE_UVERBS_WRITE(
  3264. IB_USER_VERBS_CMD_REG_MR,
  3265. ib_uverbs_reg_mr,
  3266. UAPI_DEF_WRITE_UDATA_IO(struct ib_uverbs_reg_mr,
  3267. struct ib_uverbs_reg_mr_resp),
  3268. UAPI_DEF_METHOD_NEEDS_FN(reg_user_mr)),
  3269. DECLARE_UVERBS_WRITE(
  3270. IB_USER_VERBS_CMD_REREG_MR,
  3271. ib_uverbs_rereg_mr,
  3272. UAPI_DEF_WRITE_UDATA_IO(struct ib_uverbs_rereg_mr,
  3273. struct ib_uverbs_rereg_mr_resp),
  3274. UAPI_DEF_METHOD_NEEDS_FN(rereg_user_mr))),
  3275. DECLARE_UVERBS_OBJECT(
  3276. UVERBS_OBJECT_MW,
  3277. DECLARE_UVERBS_WRITE(
  3278. IB_USER_VERBS_CMD_ALLOC_MW,
  3279. ib_uverbs_alloc_mw,
  3280. UAPI_DEF_WRITE_UDATA_IO(struct ib_uverbs_alloc_mw,
  3281. struct ib_uverbs_alloc_mw_resp),
  3282. UAPI_DEF_METHOD_NEEDS_FN(alloc_mw)),
  3283. DECLARE_UVERBS_WRITE(
  3284. IB_USER_VERBS_CMD_DEALLOC_MW,
  3285. ib_uverbs_dealloc_mw,
  3286. UAPI_DEF_WRITE_I(struct ib_uverbs_dealloc_mw),
  3287. UAPI_DEF_METHOD_NEEDS_FN(dealloc_mw))),
  3288. DECLARE_UVERBS_OBJECT(
  3289. UVERBS_OBJECT_PD,
  3290. DECLARE_UVERBS_WRITE(
  3291. IB_USER_VERBS_CMD_ALLOC_PD,
  3292. ib_uverbs_alloc_pd,
  3293. UAPI_DEF_WRITE_UDATA_IO(struct ib_uverbs_alloc_pd,
  3294. struct ib_uverbs_alloc_pd_resp),
  3295. UAPI_DEF_METHOD_NEEDS_FN(alloc_pd)),
  3296. DECLARE_UVERBS_WRITE(
  3297. IB_USER_VERBS_CMD_DEALLOC_PD,
  3298. ib_uverbs_dealloc_pd,
  3299. UAPI_DEF_WRITE_I(struct ib_uverbs_dealloc_pd),
  3300. UAPI_DEF_METHOD_NEEDS_FN(dealloc_pd))),
  3301. DECLARE_UVERBS_OBJECT(
  3302. UVERBS_OBJECT_QP,
  3303. DECLARE_UVERBS_WRITE(
  3304. IB_USER_VERBS_CMD_ATTACH_MCAST,
  3305. ib_uverbs_attach_mcast,
  3306. UAPI_DEF_WRITE_I(struct ib_uverbs_attach_mcast),
  3307. UAPI_DEF_METHOD_NEEDS_FN(attach_mcast),
  3308. UAPI_DEF_METHOD_NEEDS_FN(detach_mcast)),
  3309. DECLARE_UVERBS_WRITE(IB_USER_VERBS_CMD_CREATE_QP,
  3310. ib_uverbs_create_qp,
  3311. UAPI_DEF_WRITE_UDATA_IO(
  3312. struct ib_uverbs_create_qp,
  3313. struct ib_uverbs_create_qp_resp),
  3314. UAPI_DEF_METHOD_NEEDS_FN(create_qp)),
  3315. DECLARE_UVERBS_WRITE(
  3316. IB_USER_VERBS_CMD_DESTROY_QP,
  3317. ib_uverbs_destroy_qp,
  3318. UAPI_DEF_WRITE_IO(struct ib_uverbs_destroy_qp,
  3319. struct ib_uverbs_destroy_qp_resp),
  3320. UAPI_DEF_METHOD_NEEDS_FN(destroy_qp)),
  3321. DECLARE_UVERBS_WRITE(
  3322. IB_USER_VERBS_CMD_DETACH_MCAST,
  3323. ib_uverbs_detach_mcast,
  3324. UAPI_DEF_WRITE_I(struct ib_uverbs_detach_mcast),
  3325. UAPI_DEF_METHOD_NEEDS_FN(detach_mcast)),
  3326. DECLARE_UVERBS_WRITE(
  3327. IB_USER_VERBS_CMD_MODIFY_QP,
  3328. ib_uverbs_modify_qp,
  3329. UAPI_DEF_WRITE_I(struct ib_uverbs_modify_qp),
  3330. UAPI_DEF_METHOD_NEEDS_FN(modify_qp)),
  3331. DECLARE_UVERBS_WRITE(
  3332. IB_USER_VERBS_CMD_POST_RECV,
  3333. ib_uverbs_post_recv,
  3334. UAPI_DEF_WRITE_IO(struct ib_uverbs_post_recv,
  3335. struct ib_uverbs_post_recv_resp),
  3336. UAPI_DEF_METHOD_NEEDS_FN(post_recv)),
  3337. DECLARE_UVERBS_WRITE(
  3338. IB_USER_VERBS_CMD_POST_SEND,
  3339. ib_uverbs_post_send,
  3340. UAPI_DEF_WRITE_IO(struct ib_uverbs_post_send,
  3341. struct ib_uverbs_post_send_resp),
  3342. UAPI_DEF_METHOD_NEEDS_FN(post_send)),
  3343. DECLARE_UVERBS_WRITE(
  3344. IB_USER_VERBS_CMD_QUERY_QP,
  3345. ib_uverbs_query_qp,
  3346. UAPI_DEF_WRITE_IO(struct ib_uverbs_query_qp,
  3347. struct ib_uverbs_query_qp_resp),
  3348. UAPI_DEF_METHOD_NEEDS_FN(query_qp)),
  3349. DECLARE_UVERBS_WRITE_EX(
  3350. IB_USER_VERBS_EX_CMD_CREATE_QP,
  3351. ib_uverbs_ex_create_qp,
  3352. UAPI_DEF_WRITE_IO_EX(struct ib_uverbs_ex_create_qp,
  3353. comp_mask,
  3354. struct ib_uverbs_ex_create_qp_resp,
  3355. response_length),
  3356. UAPI_DEF_METHOD_NEEDS_FN(create_qp)),
  3357. DECLARE_UVERBS_WRITE_EX(
  3358. IB_USER_VERBS_EX_CMD_MODIFY_QP,
  3359. ib_uverbs_ex_modify_qp,
  3360. UAPI_DEF_WRITE_IO_EX(struct ib_uverbs_ex_modify_qp,
  3361. base,
  3362. struct ib_uverbs_ex_modify_qp_resp,
  3363. response_length),
  3364. UAPI_DEF_METHOD_NEEDS_FN(modify_qp))),
  3365. DECLARE_UVERBS_OBJECT(
  3366. UVERBS_OBJECT_RWQ_IND_TBL,
  3367. DECLARE_UVERBS_WRITE_EX(
  3368. IB_USER_VERBS_EX_CMD_CREATE_RWQ_IND_TBL,
  3369. ib_uverbs_ex_create_rwq_ind_table,
  3370. UAPI_DEF_WRITE_IO_EX(
  3371. struct ib_uverbs_ex_create_rwq_ind_table,
  3372. log_ind_tbl_size,
  3373. struct ib_uverbs_ex_create_rwq_ind_table_resp,
  3374. ind_tbl_num),
  3375. UAPI_DEF_METHOD_NEEDS_FN(create_rwq_ind_table)),
  3376. DECLARE_UVERBS_WRITE_EX(
  3377. IB_USER_VERBS_EX_CMD_DESTROY_RWQ_IND_TBL,
  3378. ib_uverbs_ex_destroy_rwq_ind_table,
  3379. UAPI_DEF_WRITE_I(
  3380. struct ib_uverbs_ex_destroy_rwq_ind_table),
  3381. UAPI_DEF_METHOD_NEEDS_FN(destroy_rwq_ind_table))),
  3382. DECLARE_UVERBS_OBJECT(
  3383. UVERBS_OBJECT_WQ,
  3384. DECLARE_UVERBS_WRITE_EX(
  3385. IB_USER_VERBS_EX_CMD_CREATE_WQ,
  3386. ib_uverbs_ex_create_wq,
  3387. UAPI_DEF_WRITE_IO_EX(struct ib_uverbs_ex_create_wq,
  3388. max_sge,
  3389. struct ib_uverbs_ex_create_wq_resp,
  3390. wqn),
  3391. UAPI_DEF_METHOD_NEEDS_FN(create_wq)),
  3392. DECLARE_UVERBS_WRITE_EX(
  3393. IB_USER_VERBS_EX_CMD_DESTROY_WQ,
  3394. ib_uverbs_ex_destroy_wq,
  3395. UAPI_DEF_WRITE_IO_EX(struct ib_uverbs_ex_destroy_wq,
  3396. wq_handle,
  3397. struct ib_uverbs_ex_destroy_wq_resp,
  3398. reserved),
  3399. UAPI_DEF_METHOD_NEEDS_FN(destroy_wq)),
  3400. DECLARE_UVERBS_WRITE_EX(
  3401. IB_USER_VERBS_EX_CMD_MODIFY_WQ,
  3402. ib_uverbs_ex_modify_wq,
  3403. UAPI_DEF_WRITE_I_EX(struct ib_uverbs_ex_modify_wq,
  3404. curr_wq_state),
  3405. UAPI_DEF_METHOD_NEEDS_FN(modify_wq))),
  3406. DECLARE_UVERBS_OBJECT(
  3407. UVERBS_OBJECT_SRQ,
  3408. DECLARE_UVERBS_WRITE(IB_USER_VERBS_CMD_CREATE_SRQ,
  3409. ib_uverbs_create_srq,
  3410. UAPI_DEF_WRITE_UDATA_IO(
  3411. struct ib_uverbs_create_srq,
  3412. struct ib_uverbs_create_srq_resp),
  3413. UAPI_DEF_METHOD_NEEDS_FN(create_srq)),
  3414. DECLARE_UVERBS_WRITE(IB_USER_VERBS_CMD_CREATE_XSRQ,
  3415. ib_uverbs_create_xsrq,
  3416. UAPI_DEF_WRITE_UDATA_IO(
  3417. struct ib_uverbs_create_xsrq,
  3418. struct ib_uverbs_create_srq_resp),
  3419. UAPI_DEF_METHOD_NEEDS_FN(create_srq)),
  3420. DECLARE_UVERBS_WRITE(
  3421. IB_USER_VERBS_CMD_DESTROY_SRQ,
  3422. ib_uverbs_destroy_srq,
  3423. UAPI_DEF_WRITE_IO(struct ib_uverbs_destroy_srq,
  3424. struct ib_uverbs_destroy_srq_resp),
  3425. UAPI_DEF_METHOD_NEEDS_FN(destroy_srq)),
  3426. DECLARE_UVERBS_WRITE(
  3427. IB_USER_VERBS_CMD_MODIFY_SRQ,
  3428. ib_uverbs_modify_srq,
  3429. UAPI_DEF_WRITE_UDATA_I(struct ib_uverbs_modify_srq),
  3430. UAPI_DEF_METHOD_NEEDS_FN(modify_srq)),
  3431. DECLARE_UVERBS_WRITE(
  3432. IB_USER_VERBS_CMD_POST_SRQ_RECV,
  3433. ib_uverbs_post_srq_recv,
  3434. UAPI_DEF_WRITE_IO(struct ib_uverbs_post_srq_recv,
  3435. struct ib_uverbs_post_srq_recv_resp),
  3436. UAPI_DEF_METHOD_NEEDS_FN(post_srq_recv)),
  3437. DECLARE_UVERBS_WRITE(
  3438. IB_USER_VERBS_CMD_QUERY_SRQ,
  3439. ib_uverbs_query_srq,
  3440. UAPI_DEF_WRITE_IO(struct ib_uverbs_query_srq,
  3441. struct ib_uverbs_query_srq_resp),
  3442. UAPI_DEF_METHOD_NEEDS_FN(query_srq))),
  3443. DECLARE_UVERBS_OBJECT(
  3444. UVERBS_OBJECT_XRCD,
  3445. DECLARE_UVERBS_WRITE(
  3446. IB_USER_VERBS_CMD_CLOSE_XRCD,
  3447. ib_uverbs_close_xrcd,
  3448. UAPI_DEF_WRITE_I(struct ib_uverbs_close_xrcd)),
  3449. DECLARE_UVERBS_WRITE(IB_USER_VERBS_CMD_OPEN_QP,
  3450. ib_uverbs_open_qp,
  3451. UAPI_DEF_WRITE_UDATA_IO(
  3452. struct ib_uverbs_open_qp,
  3453. struct ib_uverbs_create_qp_resp)),
  3454. DECLARE_UVERBS_WRITE(IB_USER_VERBS_CMD_OPEN_XRCD,
  3455. ib_uverbs_open_xrcd,
  3456. UAPI_DEF_WRITE_UDATA_IO(
  3457. struct ib_uverbs_open_xrcd,
  3458. struct ib_uverbs_open_xrcd_resp)),
  3459. UAPI_DEF_OBJ_NEEDS_FN(alloc_xrcd),
  3460. UAPI_DEF_OBJ_NEEDS_FN(dealloc_xrcd)),
  3461. {},
  3462. };