privcmd.c 40 KB

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  1. // SPDX-License-Identifier: GPL-2.0-only
  2. /******************************************************************************
  3. * privcmd.c
  4. *
  5. * Interface to privileged domain-0 commands.
  6. *
  7. * Copyright (c) 2002-2004, K A Fraser, B Dragovic
  8. */
  9. #define pr_fmt(fmt) "xen:" KBUILD_MODNAME ": " fmt
  10. #include <linux/eventfd.h>
  11. #include <linux/file.h>
  12. #include <linux/kernel.h>
  13. #include <linux/kstrtox.h>
  14. #include <linux/module.h>
  15. #include <linux/mutex.h>
  16. #include <linux/poll.h>
  17. #include <linux/sched.h>
  18. #include <linux/slab.h>
  19. #include <linux/srcu.h>
  20. #include <linux/string.h>
  21. #include <linux/workqueue.h>
  22. #include <linux/errno.h>
  23. #include <linux/mm.h>
  24. #include <linux/mman.h>
  25. #include <linux/uaccess.h>
  26. #include <linux/swap.h>
  27. #include <linux/highmem.h>
  28. #include <linux/pagemap.h>
  29. #include <linux/seq_file.h>
  30. #include <linux/miscdevice.h>
  31. #include <linux/moduleparam.h>
  32. #include <linux/notifier.h>
  33. #include <linux/security.h>
  34. #include <linux/virtio_mmio.h>
  35. #include <linux/wait.h>
  36. #include <asm/xen/hypervisor.h>
  37. #include <asm/xen/hypercall.h>
  38. #include <xen/xen.h>
  39. #include <xen/events.h>
  40. #include <xen/privcmd.h>
  41. #include <xen/interface/xen.h>
  42. #include <xen/interface/memory.h>
  43. #include <xen/interface/hvm/dm_op.h>
  44. #include <xen/interface/hvm/ioreq.h>
  45. #include <xen/features.h>
  46. #include <xen/page.h>
  47. #include <xen/xen-ops.h>
  48. #include <xen/balloon.h>
  49. #include <xen/xenbus.h>
  50. #ifdef CONFIG_XEN_ACPI
  51. #include <xen/acpi.h>
  52. #endif
  53. #include "privcmd.h"
  54. MODULE_DESCRIPTION("Xen hypercall passthrough driver");
  55. MODULE_LICENSE("GPL");
  56. #define PRIV_VMA_LOCKED ((void *)1)
  57. static unsigned int privcmd_dm_op_max_num = 16;
  58. module_param_named(dm_op_max_nr_bufs, privcmd_dm_op_max_num, uint, 0644);
  59. MODULE_PARM_DESC(dm_op_max_nr_bufs,
  60. "Maximum number of buffers per dm_op hypercall");
  61. static unsigned int privcmd_dm_op_buf_max_size = 4096;
  62. module_param_named(dm_op_buf_max_size, privcmd_dm_op_buf_max_size, uint,
  63. 0644);
  64. MODULE_PARM_DESC(dm_op_buf_max_size,
  65. "Maximum size of a dm_op hypercall buffer");
  66. static bool unrestricted;
  67. module_param(unrestricted, bool, 0);
  68. MODULE_PARM_DESC(unrestricted,
  69. "Don't restrict hypercalls to target domain if running in a domU");
  70. struct privcmd_data {
  71. domid_t domid;
  72. };
  73. /* DOMID_INVALID implies no restriction */
  74. static domid_t target_domain = DOMID_INVALID;
  75. static bool restrict_wait;
  76. static DECLARE_WAIT_QUEUE_HEAD(restrict_wait_wq);
  77. static int privcmd_vma_range_is_mapped(
  78. struct vm_area_struct *vma,
  79. unsigned long addr,
  80. unsigned long nr_pages);
  81. static long privcmd_ioctl_hypercall(struct file *file, void __user *udata)
  82. {
  83. struct privcmd_data *data = file->private_data;
  84. struct privcmd_hypercall hypercall;
  85. long ret;
  86. /* Disallow arbitrary hypercalls if restricted */
  87. if (data->domid != DOMID_INVALID)
  88. return -EPERM;
  89. if (copy_from_user(&hypercall, udata, sizeof(hypercall)))
  90. return -EFAULT;
  91. xen_preemptible_hcall_begin();
  92. ret = privcmd_call(hypercall.op,
  93. hypercall.arg[0], hypercall.arg[1],
  94. hypercall.arg[2], hypercall.arg[3],
  95. hypercall.arg[4]);
  96. xen_preemptible_hcall_end();
  97. return ret;
  98. }
  99. static void free_page_list(struct list_head *pages)
  100. {
  101. struct page *p, *n;
  102. list_for_each_entry_safe(p, n, pages, lru)
  103. __free_page(p);
  104. INIT_LIST_HEAD(pages);
  105. }
  106. /*
  107. * Given an array of items in userspace, return a list of pages
  108. * containing the data. If copying fails, either because of memory
  109. * allocation failure or a problem reading user memory, return an
  110. * error code; its up to the caller to dispose of any partial list.
  111. */
  112. static int gather_array(struct list_head *pagelist,
  113. unsigned nelem, size_t size,
  114. const void __user *data)
  115. {
  116. unsigned pageidx;
  117. void *pagedata;
  118. int ret;
  119. if (size > PAGE_SIZE)
  120. return 0;
  121. pageidx = PAGE_SIZE;
  122. pagedata = NULL; /* quiet, gcc */
  123. while (nelem--) {
  124. if (pageidx > PAGE_SIZE-size) {
  125. struct page *page = alloc_page(GFP_KERNEL);
  126. ret = -ENOMEM;
  127. if (page == NULL)
  128. goto fail;
  129. pagedata = page_address(page);
  130. list_add_tail(&page->lru, pagelist);
  131. pageidx = 0;
  132. }
  133. ret = -EFAULT;
  134. if (copy_from_user(pagedata + pageidx, data, size))
  135. goto fail;
  136. data += size;
  137. pageidx += size;
  138. }
  139. ret = 0;
  140. fail:
  141. return ret;
  142. }
  143. /*
  144. * Call function "fn" on each element of the array fragmented
  145. * over a list of pages.
  146. */
  147. static int traverse_pages(unsigned nelem, size_t size,
  148. struct list_head *pos,
  149. int (*fn)(void *data, void *state),
  150. void *state)
  151. {
  152. void *pagedata;
  153. unsigned pageidx;
  154. int ret = 0;
  155. BUG_ON(size > PAGE_SIZE);
  156. pageidx = PAGE_SIZE;
  157. pagedata = NULL; /* hush, gcc */
  158. while (nelem--) {
  159. if (pageidx > PAGE_SIZE-size) {
  160. struct page *page;
  161. pos = pos->next;
  162. page = list_entry(pos, struct page, lru);
  163. pagedata = page_address(page);
  164. pageidx = 0;
  165. }
  166. ret = (*fn)(pagedata + pageidx, state);
  167. if (ret)
  168. break;
  169. pageidx += size;
  170. }
  171. return ret;
  172. }
  173. /*
  174. * Similar to traverse_pages, but use each page as a "block" of
  175. * data to be processed as one unit.
  176. */
  177. static int traverse_pages_block(unsigned nelem, size_t size,
  178. struct list_head *pos,
  179. int (*fn)(void *data, int nr, void *state),
  180. void *state)
  181. {
  182. void *pagedata;
  183. int ret = 0;
  184. BUG_ON(size > PAGE_SIZE);
  185. while (nelem) {
  186. int nr = (PAGE_SIZE/size);
  187. struct page *page;
  188. if (nr > nelem)
  189. nr = nelem;
  190. pos = pos->next;
  191. page = list_entry(pos, struct page, lru);
  192. pagedata = page_address(page);
  193. ret = (*fn)(pagedata, nr, state);
  194. if (ret)
  195. break;
  196. nelem -= nr;
  197. }
  198. return ret;
  199. }
  200. struct mmap_gfn_state {
  201. unsigned long va;
  202. struct vm_area_struct *vma;
  203. domid_t domain;
  204. };
  205. static int mmap_gfn_range(void *data, void *state)
  206. {
  207. struct privcmd_mmap_entry *msg = data;
  208. struct mmap_gfn_state *st = state;
  209. struct vm_area_struct *vma = st->vma;
  210. int rc;
  211. /* Do not allow range to wrap the address space. */
  212. if ((msg->npages > (LONG_MAX >> PAGE_SHIFT)) ||
  213. ((unsigned long)(msg->npages << PAGE_SHIFT) >= -st->va))
  214. return -EINVAL;
  215. /* Range chunks must be contiguous in va space. */
  216. if ((msg->va != st->va) ||
  217. ((msg->va+(msg->npages<<PAGE_SHIFT)) > vma->vm_end))
  218. return -EINVAL;
  219. rc = xen_remap_domain_gfn_range(vma,
  220. msg->va & PAGE_MASK,
  221. msg->mfn, msg->npages,
  222. vma->vm_page_prot,
  223. st->domain, NULL);
  224. if (rc < 0)
  225. return rc;
  226. st->va += msg->npages << PAGE_SHIFT;
  227. return 0;
  228. }
  229. static long privcmd_ioctl_mmap(struct file *file, void __user *udata)
  230. {
  231. struct privcmd_data *data = file->private_data;
  232. struct privcmd_mmap mmapcmd;
  233. struct mm_struct *mm = current->mm;
  234. struct vm_area_struct *vma;
  235. int rc;
  236. LIST_HEAD(pagelist);
  237. struct mmap_gfn_state state;
  238. /* We only support privcmd_ioctl_mmap_batch for non-auto-translated. */
  239. if (!xen_pv_domain())
  240. return -ENOSYS;
  241. if (copy_from_user(&mmapcmd, udata, sizeof(mmapcmd)))
  242. return -EFAULT;
  243. /* If restriction is in place, check the domid matches */
  244. if (data->domid != DOMID_INVALID && data->domid != mmapcmd.dom)
  245. return -EPERM;
  246. rc = gather_array(&pagelist,
  247. mmapcmd.num, sizeof(struct privcmd_mmap_entry),
  248. mmapcmd.entry);
  249. if (rc || list_empty(&pagelist))
  250. goto out;
  251. mmap_write_lock(mm);
  252. {
  253. struct page *page = list_first_entry(&pagelist,
  254. struct page, lru);
  255. struct privcmd_mmap_entry *msg = page_address(page);
  256. vma = vma_lookup(mm, msg->va);
  257. rc = -EINVAL;
  258. if (!vma || (msg->va != vma->vm_start) || vma->vm_private_data)
  259. goto out_up;
  260. vma->vm_private_data = PRIV_VMA_LOCKED;
  261. }
  262. state.va = vma->vm_start;
  263. state.vma = vma;
  264. state.domain = mmapcmd.dom;
  265. rc = traverse_pages(mmapcmd.num, sizeof(struct privcmd_mmap_entry),
  266. &pagelist,
  267. mmap_gfn_range, &state);
  268. out_up:
  269. mmap_write_unlock(mm);
  270. out:
  271. free_page_list(&pagelist);
  272. return rc;
  273. }
  274. struct mmap_batch_state {
  275. domid_t domain;
  276. unsigned long va;
  277. struct vm_area_struct *vma;
  278. int index;
  279. /* A tristate:
  280. * 0 for no errors
  281. * 1 if at least one error has happened (and no
  282. * -ENOENT errors have happened)
  283. * -ENOENT if at least 1 -ENOENT has happened.
  284. */
  285. int global_error;
  286. int version;
  287. /* User-space gfn array to store errors in the second pass for V1. */
  288. xen_pfn_t __user *user_gfn;
  289. /* User-space int array to store errors in the second pass for V2. */
  290. int __user *user_err;
  291. };
  292. /* auto translated dom0 note: if domU being created is PV, then gfn is
  293. * mfn(addr on bus). If it's auto xlated, then gfn is pfn (input to HAP).
  294. */
  295. static int mmap_batch_fn(void *data, int nr, void *state)
  296. {
  297. xen_pfn_t *gfnp = data;
  298. struct mmap_batch_state *st = state;
  299. struct vm_area_struct *vma = st->vma;
  300. struct page **pages = vma->vm_private_data;
  301. struct page **cur_pages = NULL;
  302. int ret;
  303. if (!xen_pv_domain())
  304. cur_pages = &pages[st->index];
  305. BUG_ON(nr < 0);
  306. ret = xen_remap_domain_gfn_array(st->vma, st->va & PAGE_MASK, gfnp, nr,
  307. (int *)gfnp, st->vma->vm_page_prot,
  308. st->domain, cur_pages);
  309. /* Adjust the global_error? */
  310. if (ret != nr) {
  311. if (ret == -ENOENT)
  312. st->global_error = -ENOENT;
  313. else {
  314. /* Record that at least one error has happened. */
  315. if (st->global_error == 0)
  316. st->global_error = 1;
  317. }
  318. }
  319. st->va += XEN_PAGE_SIZE * nr;
  320. st->index += nr / XEN_PFN_PER_PAGE;
  321. return 0;
  322. }
  323. static int mmap_return_error(int err, struct mmap_batch_state *st)
  324. {
  325. int ret;
  326. if (st->version == 1) {
  327. if (err) {
  328. xen_pfn_t gfn;
  329. ret = get_user(gfn, st->user_gfn);
  330. if (ret < 0)
  331. return ret;
  332. /*
  333. * V1 encodes the error codes in the 32bit top
  334. * nibble of the gfn (with its known
  335. * limitations vis-a-vis 64 bit callers).
  336. */
  337. gfn |= (err == -ENOENT) ?
  338. PRIVCMD_MMAPBATCH_PAGED_ERROR :
  339. PRIVCMD_MMAPBATCH_MFN_ERROR;
  340. return __put_user(gfn, st->user_gfn++);
  341. } else
  342. st->user_gfn++;
  343. } else { /* st->version == 2 */
  344. if (err)
  345. return __put_user(err, st->user_err++);
  346. else
  347. st->user_err++;
  348. }
  349. return 0;
  350. }
  351. static int mmap_return_errors(void *data, int nr, void *state)
  352. {
  353. struct mmap_batch_state *st = state;
  354. int *errs = data;
  355. int i;
  356. int ret;
  357. for (i = 0; i < nr; i++) {
  358. ret = mmap_return_error(errs[i], st);
  359. if (ret < 0)
  360. return ret;
  361. }
  362. return 0;
  363. }
  364. /* Allocate pfns that are then mapped with gfns from foreign domid. Update
  365. * the vma with the page info to use later.
  366. * Returns: 0 if success, otherwise -errno
  367. */
  368. static int alloc_empty_pages(struct vm_area_struct *vma, int numpgs)
  369. {
  370. int rc;
  371. struct page **pages;
  372. pages = kvzalloc_objs(pages[0], numpgs);
  373. if (pages == NULL)
  374. return -ENOMEM;
  375. rc = xen_alloc_unpopulated_pages(numpgs, pages);
  376. if (rc != 0) {
  377. pr_warn("%s Could not alloc %d pfns rc:%d\n", __func__,
  378. numpgs, rc);
  379. kvfree(pages);
  380. return -ENOMEM;
  381. }
  382. BUG_ON(vma->vm_private_data != NULL);
  383. vma->vm_private_data = pages;
  384. return 0;
  385. }
  386. static const struct vm_operations_struct privcmd_vm_ops;
  387. static long privcmd_ioctl_mmap_batch(
  388. struct file *file, void __user *udata, int version)
  389. {
  390. struct privcmd_data *data = file->private_data;
  391. int ret;
  392. struct privcmd_mmapbatch_v2 m;
  393. struct mm_struct *mm = current->mm;
  394. struct vm_area_struct *vma;
  395. unsigned long nr_pages;
  396. LIST_HEAD(pagelist);
  397. struct mmap_batch_state state;
  398. switch (version) {
  399. case 1:
  400. if (copy_from_user(&m, udata, sizeof(struct privcmd_mmapbatch)))
  401. return -EFAULT;
  402. /* Returns per-frame error in m.arr. */
  403. m.err = NULL;
  404. if (!access_ok(m.arr, m.num * sizeof(*m.arr)))
  405. return -EFAULT;
  406. break;
  407. case 2:
  408. if (copy_from_user(&m, udata, sizeof(struct privcmd_mmapbatch_v2)))
  409. return -EFAULT;
  410. /* Returns per-frame error code in m.err. */
  411. if (!access_ok(m.err, m.num * (sizeof(*m.err))))
  412. return -EFAULT;
  413. break;
  414. default:
  415. return -EINVAL;
  416. }
  417. /* If restriction is in place, check the domid matches */
  418. if (data->domid != DOMID_INVALID && data->domid != m.dom)
  419. return -EPERM;
  420. nr_pages = DIV_ROUND_UP(m.num, XEN_PFN_PER_PAGE);
  421. if ((m.num <= 0) || (nr_pages > (LONG_MAX >> PAGE_SHIFT)))
  422. return -EINVAL;
  423. ret = gather_array(&pagelist, m.num, sizeof(xen_pfn_t), m.arr);
  424. if (ret)
  425. goto out;
  426. if (list_empty(&pagelist)) {
  427. ret = -EINVAL;
  428. goto out;
  429. }
  430. if (version == 2) {
  431. /* Zero error array now to only copy back actual errors. */
  432. if (clear_user(m.err, sizeof(int) * m.num)) {
  433. ret = -EFAULT;
  434. goto out;
  435. }
  436. }
  437. mmap_write_lock(mm);
  438. vma = find_vma(mm, m.addr);
  439. if (!vma ||
  440. vma->vm_ops != &privcmd_vm_ops) {
  441. ret = -EINVAL;
  442. goto out_unlock;
  443. }
  444. /*
  445. * Caller must either:
  446. *
  447. * Map the whole VMA range, which will also allocate all the
  448. * pages required for the auto_translated_physmap case.
  449. *
  450. * Or
  451. *
  452. * Map unmapped holes left from a previous map attempt (e.g.,
  453. * because those foreign frames were previously paged out).
  454. */
  455. if (vma->vm_private_data == NULL) {
  456. if (m.addr != vma->vm_start ||
  457. m.addr + (nr_pages << PAGE_SHIFT) != vma->vm_end) {
  458. ret = -EINVAL;
  459. goto out_unlock;
  460. }
  461. if (!xen_pv_domain()) {
  462. ret = alloc_empty_pages(vma, nr_pages);
  463. if (ret < 0)
  464. goto out_unlock;
  465. } else
  466. vma->vm_private_data = PRIV_VMA_LOCKED;
  467. } else {
  468. if (m.addr < vma->vm_start ||
  469. m.addr + (nr_pages << PAGE_SHIFT) > vma->vm_end) {
  470. ret = -EINVAL;
  471. goto out_unlock;
  472. }
  473. if (privcmd_vma_range_is_mapped(vma, m.addr, nr_pages)) {
  474. ret = -EINVAL;
  475. goto out_unlock;
  476. }
  477. }
  478. state.domain = m.dom;
  479. state.vma = vma;
  480. state.va = m.addr;
  481. state.index = 0;
  482. state.global_error = 0;
  483. state.version = version;
  484. BUILD_BUG_ON(((PAGE_SIZE / sizeof(xen_pfn_t)) % XEN_PFN_PER_PAGE) != 0);
  485. /* mmap_batch_fn guarantees ret == 0 */
  486. BUG_ON(traverse_pages_block(m.num, sizeof(xen_pfn_t),
  487. &pagelist, mmap_batch_fn, &state));
  488. mmap_write_unlock(mm);
  489. if (state.global_error) {
  490. /* Write back errors in second pass. */
  491. state.user_gfn = (xen_pfn_t *)m.arr;
  492. state.user_err = m.err;
  493. ret = traverse_pages_block(m.num, sizeof(xen_pfn_t),
  494. &pagelist, mmap_return_errors, &state);
  495. } else
  496. ret = 0;
  497. /* If we have not had any EFAULT-like global errors then set the global
  498. * error to -ENOENT if necessary. */
  499. if ((ret == 0) && (state.global_error == -ENOENT))
  500. ret = -ENOENT;
  501. out:
  502. free_page_list(&pagelist);
  503. return ret;
  504. out_unlock:
  505. mmap_write_unlock(mm);
  506. goto out;
  507. }
  508. static int lock_pages(
  509. struct privcmd_dm_op_buf kbufs[], unsigned int num,
  510. struct page *pages[], unsigned int nr_pages, unsigned int *pinned)
  511. {
  512. unsigned int i, off = 0;
  513. for (i = 0; i < num; ) {
  514. unsigned int requested;
  515. int page_count;
  516. requested = DIV_ROUND_UP(
  517. offset_in_page(kbufs[i].uptr) + kbufs[i].size,
  518. PAGE_SIZE) - off;
  519. if (requested > nr_pages)
  520. return -ENOSPC;
  521. page_count = pin_user_pages_fast(
  522. (unsigned long)kbufs[i].uptr + off * PAGE_SIZE,
  523. requested, FOLL_WRITE, pages);
  524. if (page_count <= 0)
  525. return page_count ? : -EFAULT;
  526. *pinned += page_count;
  527. nr_pages -= page_count;
  528. pages += page_count;
  529. off = (requested == page_count) ? 0 : off + page_count;
  530. i += !off;
  531. }
  532. return 0;
  533. }
  534. static void unlock_pages(struct page *pages[], unsigned int nr_pages)
  535. {
  536. unpin_user_pages_dirty_lock(pages, nr_pages, true);
  537. }
  538. static long privcmd_ioctl_dm_op(struct file *file, void __user *udata)
  539. {
  540. struct privcmd_data *data = file->private_data;
  541. struct privcmd_dm_op kdata;
  542. struct privcmd_dm_op_buf *kbufs;
  543. unsigned int nr_pages = 0;
  544. struct page **pages = NULL;
  545. struct xen_dm_op_buf *xbufs = NULL;
  546. unsigned int i;
  547. long rc;
  548. unsigned int pinned = 0;
  549. if (copy_from_user(&kdata, udata, sizeof(kdata)))
  550. return -EFAULT;
  551. /* If restriction is in place, check the domid matches */
  552. if (data->domid != DOMID_INVALID && data->domid != kdata.dom)
  553. return -EPERM;
  554. if (kdata.num == 0)
  555. return 0;
  556. if (kdata.num > privcmd_dm_op_max_num)
  557. return -E2BIG;
  558. kbufs = kzalloc_objs(*kbufs, kdata.num);
  559. if (!kbufs)
  560. return -ENOMEM;
  561. if (copy_from_user(kbufs, kdata.ubufs,
  562. sizeof(*kbufs) * kdata.num)) {
  563. rc = -EFAULT;
  564. goto out;
  565. }
  566. for (i = 0; i < kdata.num; i++) {
  567. if (kbufs[i].size > privcmd_dm_op_buf_max_size) {
  568. rc = -E2BIG;
  569. goto out;
  570. }
  571. if (!access_ok(kbufs[i].uptr,
  572. kbufs[i].size)) {
  573. rc = -EFAULT;
  574. goto out;
  575. }
  576. nr_pages += DIV_ROUND_UP(
  577. offset_in_page(kbufs[i].uptr) + kbufs[i].size,
  578. PAGE_SIZE);
  579. }
  580. pages = kzalloc_objs(*pages, nr_pages);
  581. if (!pages) {
  582. rc = -ENOMEM;
  583. goto out;
  584. }
  585. xbufs = kzalloc_objs(*xbufs, kdata.num);
  586. if (!xbufs) {
  587. rc = -ENOMEM;
  588. goto out;
  589. }
  590. rc = lock_pages(kbufs, kdata.num, pages, nr_pages, &pinned);
  591. if (rc < 0)
  592. goto out;
  593. for (i = 0; i < kdata.num; i++) {
  594. set_xen_guest_handle(xbufs[i].h, kbufs[i].uptr);
  595. xbufs[i].size = kbufs[i].size;
  596. }
  597. xen_preemptible_hcall_begin();
  598. rc = HYPERVISOR_dm_op(kdata.dom, kdata.num, xbufs);
  599. xen_preemptible_hcall_end();
  600. out:
  601. unlock_pages(pages, pinned);
  602. kfree(xbufs);
  603. kfree(pages);
  604. kfree(kbufs);
  605. return rc;
  606. }
  607. static long privcmd_ioctl_restrict(struct file *file, void __user *udata)
  608. {
  609. struct privcmd_data *data = file->private_data;
  610. domid_t dom;
  611. if (copy_from_user(&dom, udata, sizeof(dom)))
  612. return -EFAULT;
  613. /* Set restriction to the specified domain, or check it matches */
  614. if (data->domid == DOMID_INVALID)
  615. data->domid = dom;
  616. else if (data->domid != dom)
  617. return -EINVAL;
  618. return 0;
  619. }
  620. static long privcmd_ioctl_mmap_resource(struct file *file,
  621. struct privcmd_mmap_resource __user *udata)
  622. {
  623. struct privcmd_data *data = file->private_data;
  624. struct mm_struct *mm = current->mm;
  625. struct vm_area_struct *vma;
  626. struct privcmd_mmap_resource kdata;
  627. xen_pfn_t *pfns = NULL;
  628. struct xen_mem_acquire_resource xdata = { };
  629. int rc;
  630. if (copy_from_user(&kdata, udata, sizeof(kdata)))
  631. return -EFAULT;
  632. /* If restriction is in place, check the domid matches */
  633. if (data->domid != DOMID_INVALID && data->domid != kdata.dom)
  634. return -EPERM;
  635. /* Both fields must be set or unset */
  636. if (!!kdata.addr != !!kdata.num)
  637. return -EINVAL;
  638. xdata.domid = kdata.dom;
  639. xdata.type = kdata.type;
  640. xdata.id = kdata.id;
  641. if (!kdata.addr && !kdata.num) {
  642. /* Query the size of the resource. */
  643. rc = HYPERVISOR_memory_op(XENMEM_acquire_resource, &xdata);
  644. if (rc)
  645. return rc;
  646. return __put_user(xdata.nr_frames, &udata->num);
  647. }
  648. mmap_write_lock(mm);
  649. vma = find_vma(mm, kdata.addr);
  650. if (!vma || vma->vm_ops != &privcmd_vm_ops) {
  651. rc = -EINVAL;
  652. goto out;
  653. }
  654. pfns = kzalloc_objs(*pfns, kdata.num, GFP_KERNEL | __GFP_NOWARN);
  655. if (!pfns) {
  656. rc = -ENOMEM;
  657. goto out;
  658. }
  659. if (IS_ENABLED(CONFIG_XEN_AUTO_XLATE) && !xen_pv_domain()) {
  660. unsigned int nr = DIV_ROUND_UP(kdata.num, XEN_PFN_PER_PAGE);
  661. struct page **pages;
  662. unsigned int i;
  663. rc = alloc_empty_pages(vma, nr);
  664. if (rc < 0)
  665. goto out;
  666. pages = vma->vm_private_data;
  667. for (i = 0; i < kdata.num; i++) {
  668. xen_pfn_t pfn =
  669. page_to_xen_pfn(pages[i / XEN_PFN_PER_PAGE]);
  670. pfns[i] = pfn + (i % XEN_PFN_PER_PAGE);
  671. }
  672. } else
  673. vma->vm_private_data = PRIV_VMA_LOCKED;
  674. xdata.frame = kdata.idx;
  675. xdata.nr_frames = kdata.num;
  676. set_xen_guest_handle(xdata.frame_list, pfns);
  677. xen_preemptible_hcall_begin();
  678. rc = HYPERVISOR_memory_op(XENMEM_acquire_resource, &xdata);
  679. xen_preemptible_hcall_end();
  680. if (rc)
  681. goto out;
  682. if (IS_ENABLED(CONFIG_XEN_AUTO_XLATE) && !xen_pv_domain()) {
  683. rc = xen_remap_vma_range(vma, kdata.addr, kdata.num << PAGE_SHIFT);
  684. } else {
  685. unsigned int domid =
  686. (xdata.flags & XENMEM_rsrc_acq_caller_owned) ?
  687. DOMID_SELF : kdata.dom;
  688. int num, *errs = (int *)pfns;
  689. BUILD_BUG_ON(sizeof(*errs) > sizeof(*pfns));
  690. num = xen_remap_domain_mfn_array(vma,
  691. kdata.addr & PAGE_MASK,
  692. pfns, kdata.num, errs,
  693. vma->vm_page_prot,
  694. domid);
  695. if (num < 0)
  696. rc = num;
  697. else if (num != kdata.num) {
  698. unsigned int i;
  699. for (i = 0; i < num; i++) {
  700. rc = errs[i];
  701. if (rc < 0)
  702. break;
  703. }
  704. } else
  705. rc = 0;
  706. }
  707. out:
  708. mmap_write_unlock(mm);
  709. kfree(pfns);
  710. return rc;
  711. }
  712. static long privcmd_ioctl_pcidev_get_gsi(struct file *file, void __user *udata)
  713. {
  714. #if defined(CONFIG_XEN_ACPI)
  715. int rc;
  716. struct privcmd_pcidev_get_gsi kdata;
  717. if (copy_from_user(&kdata, udata, sizeof(kdata)))
  718. return -EFAULT;
  719. rc = xen_acpi_get_gsi_from_sbdf(kdata.sbdf);
  720. if (rc < 0)
  721. return rc;
  722. kdata.gsi = rc;
  723. if (copy_to_user(udata, &kdata, sizeof(kdata)))
  724. return -EFAULT;
  725. return 0;
  726. #else
  727. return -EINVAL;
  728. #endif
  729. }
  730. #ifdef CONFIG_XEN_PRIVCMD_EVENTFD
  731. /* Irqfd support */
  732. static struct workqueue_struct *irqfd_cleanup_wq;
  733. static DEFINE_SPINLOCK(irqfds_lock);
  734. DEFINE_STATIC_SRCU(irqfds_srcu);
  735. static LIST_HEAD(irqfds_list);
  736. struct privcmd_kernel_irqfd {
  737. struct xen_dm_op_buf xbufs;
  738. domid_t dom;
  739. bool error;
  740. struct eventfd_ctx *eventfd;
  741. struct work_struct shutdown;
  742. wait_queue_entry_t wait;
  743. struct list_head list;
  744. poll_table pt;
  745. };
  746. static void irqfd_deactivate(struct privcmd_kernel_irqfd *kirqfd)
  747. {
  748. lockdep_assert_held(&irqfds_lock);
  749. list_del_init(&kirqfd->list);
  750. queue_work(irqfd_cleanup_wq, &kirqfd->shutdown);
  751. }
  752. static void irqfd_shutdown(struct work_struct *work)
  753. {
  754. struct privcmd_kernel_irqfd *kirqfd =
  755. container_of(work, struct privcmd_kernel_irqfd, shutdown);
  756. u64 cnt;
  757. /* Make sure irqfd has been initialized in assign path */
  758. synchronize_srcu(&irqfds_srcu);
  759. eventfd_ctx_remove_wait_queue(kirqfd->eventfd, &kirqfd->wait, &cnt);
  760. eventfd_ctx_put(kirqfd->eventfd);
  761. kfree(kirqfd);
  762. }
  763. static void irqfd_inject(struct privcmd_kernel_irqfd *kirqfd)
  764. {
  765. u64 cnt;
  766. long rc;
  767. eventfd_ctx_do_read(kirqfd->eventfd, &cnt);
  768. xen_preemptible_hcall_begin();
  769. rc = HYPERVISOR_dm_op(kirqfd->dom, 1, &kirqfd->xbufs);
  770. xen_preemptible_hcall_end();
  771. /* Don't repeat the error message for consecutive failures */
  772. if (rc && !kirqfd->error) {
  773. pr_err("Failed to configure irq for guest domain: %d\n",
  774. kirqfd->dom);
  775. }
  776. kirqfd->error = rc;
  777. }
  778. static int
  779. irqfd_wakeup(wait_queue_entry_t *wait, unsigned int mode, int sync, void *key)
  780. {
  781. struct privcmd_kernel_irqfd *kirqfd =
  782. container_of(wait, struct privcmd_kernel_irqfd, wait);
  783. __poll_t flags = key_to_poll(key);
  784. if (flags & EPOLLIN)
  785. irqfd_inject(kirqfd);
  786. if (flags & EPOLLHUP) {
  787. unsigned long flags;
  788. spin_lock_irqsave(&irqfds_lock, flags);
  789. irqfd_deactivate(kirqfd);
  790. spin_unlock_irqrestore(&irqfds_lock, flags);
  791. }
  792. return 0;
  793. }
  794. static void
  795. irqfd_poll_func(struct file *file, wait_queue_head_t *wqh, poll_table *pt)
  796. {
  797. struct privcmd_kernel_irqfd *kirqfd =
  798. container_of(pt, struct privcmd_kernel_irqfd, pt);
  799. add_wait_queue_priority(wqh, &kirqfd->wait);
  800. }
  801. static int privcmd_irqfd_assign(struct privcmd_irqfd *irqfd)
  802. {
  803. struct privcmd_kernel_irqfd *kirqfd, *tmp;
  804. unsigned long flags;
  805. __poll_t events;
  806. void *dm_op;
  807. int ret, idx;
  808. CLASS(fd, f)(irqfd->fd);
  809. kirqfd = kzalloc(sizeof(*kirqfd) + irqfd->size, GFP_KERNEL);
  810. if (!kirqfd)
  811. return -ENOMEM;
  812. dm_op = kirqfd + 1;
  813. if (copy_from_user(dm_op, u64_to_user_ptr(irqfd->dm_op), irqfd->size)) {
  814. ret = -EFAULT;
  815. goto error_kfree;
  816. }
  817. kirqfd->xbufs.size = irqfd->size;
  818. set_xen_guest_handle(kirqfd->xbufs.h, dm_op);
  819. kirqfd->dom = irqfd->dom;
  820. INIT_WORK(&kirqfd->shutdown, irqfd_shutdown);
  821. if (fd_empty(f)) {
  822. ret = -EBADF;
  823. goto error_kfree;
  824. }
  825. kirqfd->eventfd = eventfd_ctx_fileget(fd_file(f));
  826. if (IS_ERR(kirqfd->eventfd)) {
  827. ret = PTR_ERR(kirqfd->eventfd);
  828. goto error_kfree;
  829. }
  830. /*
  831. * Install our own custom wake-up handling so we are notified via a
  832. * callback whenever someone signals the underlying eventfd.
  833. */
  834. init_waitqueue_func_entry(&kirqfd->wait, irqfd_wakeup);
  835. init_poll_funcptr(&kirqfd->pt, irqfd_poll_func);
  836. spin_lock_irqsave(&irqfds_lock, flags);
  837. list_for_each_entry(tmp, &irqfds_list, list) {
  838. if (kirqfd->eventfd == tmp->eventfd) {
  839. ret = -EBUSY;
  840. spin_unlock_irqrestore(&irqfds_lock, flags);
  841. goto error_eventfd;
  842. }
  843. }
  844. idx = srcu_read_lock(&irqfds_srcu);
  845. list_add_tail(&kirqfd->list, &irqfds_list);
  846. spin_unlock_irqrestore(&irqfds_lock, flags);
  847. /*
  848. * Check if there was an event already pending on the eventfd before we
  849. * registered, and trigger it as if we didn't miss it.
  850. */
  851. events = vfs_poll(fd_file(f), &kirqfd->pt);
  852. if (events & EPOLLIN)
  853. irqfd_inject(kirqfd);
  854. srcu_read_unlock(&irqfds_srcu, idx);
  855. return 0;
  856. error_eventfd:
  857. eventfd_ctx_put(kirqfd->eventfd);
  858. error_kfree:
  859. kfree(kirqfd);
  860. return ret;
  861. }
  862. static int privcmd_irqfd_deassign(struct privcmd_irqfd *irqfd)
  863. {
  864. struct privcmd_kernel_irqfd *kirqfd;
  865. struct eventfd_ctx *eventfd;
  866. unsigned long flags;
  867. eventfd = eventfd_ctx_fdget(irqfd->fd);
  868. if (IS_ERR(eventfd))
  869. return PTR_ERR(eventfd);
  870. spin_lock_irqsave(&irqfds_lock, flags);
  871. list_for_each_entry(kirqfd, &irqfds_list, list) {
  872. if (kirqfd->eventfd == eventfd) {
  873. irqfd_deactivate(kirqfd);
  874. break;
  875. }
  876. }
  877. spin_unlock_irqrestore(&irqfds_lock, flags);
  878. eventfd_ctx_put(eventfd);
  879. /*
  880. * Block until we know all outstanding shutdown jobs have completed so
  881. * that we guarantee there will not be any more interrupts once this
  882. * deassign function returns.
  883. */
  884. flush_workqueue(irqfd_cleanup_wq);
  885. return 0;
  886. }
  887. static long privcmd_ioctl_irqfd(struct file *file, void __user *udata)
  888. {
  889. struct privcmd_data *data = file->private_data;
  890. struct privcmd_irqfd irqfd;
  891. if (copy_from_user(&irqfd, udata, sizeof(irqfd)))
  892. return -EFAULT;
  893. /* No other flags should be set */
  894. if (irqfd.flags & ~PRIVCMD_IRQFD_FLAG_DEASSIGN)
  895. return -EINVAL;
  896. /* If restriction is in place, check the domid matches */
  897. if (data->domid != DOMID_INVALID && data->domid != irqfd.dom)
  898. return -EPERM;
  899. if (irqfd.flags & PRIVCMD_IRQFD_FLAG_DEASSIGN)
  900. return privcmd_irqfd_deassign(&irqfd);
  901. return privcmd_irqfd_assign(&irqfd);
  902. }
  903. static int privcmd_irqfd_init(void)
  904. {
  905. irqfd_cleanup_wq = alloc_workqueue("privcmd-irqfd-cleanup", WQ_PERCPU,
  906. 0);
  907. if (!irqfd_cleanup_wq)
  908. return -ENOMEM;
  909. return 0;
  910. }
  911. static void privcmd_irqfd_exit(void)
  912. {
  913. struct privcmd_kernel_irqfd *kirqfd, *tmp;
  914. unsigned long flags;
  915. spin_lock_irqsave(&irqfds_lock, flags);
  916. list_for_each_entry_safe(kirqfd, tmp, &irqfds_list, list)
  917. irqfd_deactivate(kirqfd);
  918. spin_unlock_irqrestore(&irqfds_lock, flags);
  919. destroy_workqueue(irqfd_cleanup_wq);
  920. }
  921. /* Ioeventfd Support */
  922. #define QUEUE_NOTIFY_VQ_MASK 0xFFFF
  923. static DEFINE_MUTEX(ioreq_lock);
  924. static LIST_HEAD(ioreq_list);
  925. /* per-eventfd structure */
  926. struct privcmd_kernel_ioeventfd {
  927. struct eventfd_ctx *eventfd;
  928. struct list_head list;
  929. u64 addr;
  930. unsigned int addr_len;
  931. unsigned int vq;
  932. };
  933. /* per-guest CPU / port structure */
  934. struct ioreq_port {
  935. int vcpu;
  936. unsigned int port;
  937. struct privcmd_kernel_ioreq *kioreq;
  938. };
  939. /* per-guest structure */
  940. struct privcmd_kernel_ioreq {
  941. domid_t dom;
  942. unsigned int vcpus;
  943. u64 uioreq;
  944. struct ioreq *ioreq;
  945. spinlock_t lock; /* Protects ioeventfds list */
  946. struct list_head ioeventfds;
  947. struct list_head list;
  948. struct ioreq_port ports[] __counted_by(vcpus);
  949. };
  950. static irqreturn_t ioeventfd_interrupt(int irq, void *dev_id)
  951. {
  952. struct ioreq_port *port = dev_id;
  953. struct privcmd_kernel_ioreq *kioreq = port->kioreq;
  954. struct ioreq *ioreq = &kioreq->ioreq[port->vcpu];
  955. struct privcmd_kernel_ioeventfd *kioeventfd;
  956. unsigned int state = STATE_IOREQ_READY;
  957. if (ioreq->state != STATE_IOREQ_READY ||
  958. ioreq->type != IOREQ_TYPE_COPY || ioreq->dir != IOREQ_WRITE)
  959. return IRQ_NONE;
  960. /*
  961. * We need a barrier, smp_mb(), here to ensure reads are finished before
  962. * `state` is updated. Since the lock implementation ensures that
  963. * appropriate barrier will be added anyway, we can avoid adding
  964. * explicit barrier here.
  965. *
  966. * Ideally we don't need to update `state` within the locks, but we do
  967. * that here to avoid adding explicit barrier.
  968. */
  969. spin_lock(&kioreq->lock);
  970. ioreq->state = STATE_IOREQ_INPROCESS;
  971. list_for_each_entry(kioeventfd, &kioreq->ioeventfds, list) {
  972. if (ioreq->addr == kioeventfd->addr + VIRTIO_MMIO_QUEUE_NOTIFY &&
  973. ioreq->size == kioeventfd->addr_len &&
  974. (ioreq->data & QUEUE_NOTIFY_VQ_MASK) == kioeventfd->vq) {
  975. eventfd_signal(kioeventfd->eventfd);
  976. state = STATE_IORESP_READY;
  977. break;
  978. }
  979. }
  980. spin_unlock(&kioreq->lock);
  981. /*
  982. * We need a barrier, smp_mb(), here to ensure writes are finished
  983. * before `state` is updated. Since the lock implementation ensures that
  984. * appropriate barrier will be added anyway, we can avoid adding
  985. * explicit barrier here.
  986. */
  987. ioreq->state = state;
  988. if (state == STATE_IORESP_READY) {
  989. notify_remote_via_evtchn(port->port);
  990. return IRQ_HANDLED;
  991. }
  992. return IRQ_NONE;
  993. }
  994. static void ioreq_free(struct privcmd_kernel_ioreq *kioreq)
  995. {
  996. struct ioreq_port *ports = kioreq->ports;
  997. int i;
  998. lockdep_assert_held(&ioreq_lock);
  999. list_del(&kioreq->list);
  1000. for (i = kioreq->vcpus - 1; i >= 0; i--)
  1001. unbind_from_irqhandler(irq_from_evtchn(ports[i].port), &ports[i]);
  1002. kfree(kioreq);
  1003. }
  1004. static
  1005. struct privcmd_kernel_ioreq *alloc_ioreq(struct privcmd_ioeventfd *ioeventfd)
  1006. {
  1007. struct privcmd_kernel_ioreq *kioreq;
  1008. struct mm_struct *mm = current->mm;
  1009. struct vm_area_struct *vma;
  1010. struct page **pages;
  1011. unsigned int *ports;
  1012. int ret, size, i;
  1013. lockdep_assert_held(&ioreq_lock);
  1014. size = struct_size(kioreq, ports, ioeventfd->vcpus);
  1015. kioreq = kzalloc(size, GFP_KERNEL);
  1016. if (!kioreq)
  1017. return ERR_PTR(-ENOMEM);
  1018. kioreq->dom = ioeventfd->dom;
  1019. kioreq->vcpus = ioeventfd->vcpus;
  1020. kioreq->uioreq = ioeventfd->ioreq;
  1021. spin_lock_init(&kioreq->lock);
  1022. INIT_LIST_HEAD(&kioreq->ioeventfds);
  1023. /* The memory for ioreq server must have been mapped earlier */
  1024. mmap_write_lock(mm);
  1025. vma = find_vma(mm, (unsigned long)ioeventfd->ioreq);
  1026. if (!vma) {
  1027. pr_err("Failed to find vma for ioreq page!\n");
  1028. mmap_write_unlock(mm);
  1029. ret = -EFAULT;
  1030. goto error_kfree;
  1031. }
  1032. pages = vma->vm_private_data;
  1033. kioreq->ioreq = (struct ioreq *)(page_to_virt(pages[0]));
  1034. mmap_write_unlock(mm);
  1035. ports = memdup_array_user(u64_to_user_ptr(ioeventfd->ports),
  1036. kioreq->vcpus, sizeof(*ports));
  1037. if (IS_ERR(ports)) {
  1038. ret = PTR_ERR(ports);
  1039. goto error_kfree;
  1040. }
  1041. for (i = 0; i < kioreq->vcpus; i++) {
  1042. kioreq->ports[i].vcpu = i;
  1043. kioreq->ports[i].port = ports[i];
  1044. kioreq->ports[i].kioreq = kioreq;
  1045. ret = bind_evtchn_to_irqhandler_lateeoi(ports[i],
  1046. ioeventfd_interrupt, IRQF_SHARED, "ioeventfd",
  1047. &kioreq->ports[i]);
  1048. if (ret < 0)
  1049. goto error_unbind;
  1050. }
  1051. kfree(ports);
  1052. list_add_tail(&kioreq->list, &ioreq_list);
  1053. return kioreq;
  1054. error_unbind:
  1055. while (--i >= 0)
  1056. unbind_from_irqhandler(irq_from_evtchn(ports[i]), &kioreq->ports[i]);
  1057. kfree(ports);
  1058. error_kfree:
  1059. kfree(kioreq);
  1060. return ERR_PTR(ret);
  1061. }
  1062. static struct privcmd_kernel_ioreq *
  1063. get_ioreq(struct privcmd_ioeventfd *ioeventfd, struct eventfd_ctx *eventfd)
  1064. {
  1065. struct privcmd_kernel_ioreq *kioreq;
  1066. unsigned long flags;
  1067. list_for_each_entry(kioreq, &ioreq_list, list) {
  1068. struct privcmd_kernel_ioeventfd *kioeventfd;
  1069. /*
  1070. * kioreq fields can be accessed here without a lock as they are
  1071. * never updated after being added to the ioreq_list.
  1072. */
  1073. if (kioreq->uioreq != ioeventfd->ioreq) {
  1074. continue;
  1075. } else if (kioreq->dom != ioeventfd->dom ||
  1076. kioreq->vcpus != ioeventfd->vcpus) {
  1077. pr_err("Invalid ioeventfd configuration mismatch, dom (%u vs %u), vcpus (%u vs %u)\n",
  1078. kioreq->dom, ioeventfd->dom, kioreq->vcpus,
  1079. ioeventfd->vcpus);
  1080. return ERR_PTR(-EINVAL);
  1081. }
  1082. /* Look for a duplicate eventfd for the same guest */
  1083. spin_lock_irqsave(&kioreq->lock, flags);
  1084. list_for_each_entry(kioeventfd, &kioreq->ioeventfds, list) {
  1085. if (eventfd == kioeventfd->eventfd) {
  1086. spin_unlock_irqrestore(&kioreq->lock, flags);
  1087. return ERR_PTR(-EBUSY);
  1088. }
  1089. }
  1090. spin_unlock_irqrestore(&kioreq->lock, flags);
  1091. return kioreq;
  1092. }
  1093. /* Matching kioreq isn't found, allocate a new one */
  1094. return alloc_ioreq(ioeventfd);
  1095. }
  1096. static void ioeventfd_free(struct privcmd_kernel_ioeventfd *kioeventfd)
  1097. {
  1098. list_del(&kioeventfd->list);
  1099. eventfd_ctx_put(kioeventfd->eventfd);
  1100. kfree(kioeventfd);
  1101. }
  1102. static int privcmd_ioeventfd_assign(struct privcmd_ioeventfd *ioeventfd)
  1103. {
  1104. struct privcmd_kernel_ioeventfd *kioeventfd;
  1105. struct privcmd_kernel_ioreq *kioreq;
  1106. unsigned long flags;
  1107. int ret;
  1108. /* Check for range overflow */
  1109. if (ioeventfd->addr + ioeventfd->addr_len < ioeventfd->addr)
  1110. return -EINVAL;
  1111. /* Vhost requires us to support length 1, 2, 4, and 8 */
  1112. if (!(ioeventfd->addr_len == 1 || ioeventfd->addr_len == 2 ||
  1113. ioeventfd->addr_len == 4 || ioeventfd->addr_len == 8))
  1114. return -EINVAL;
  1115. /* 4096 vcpus limit enough ? */
  1116. if (!ioeventfd->vcpus || ioeventfd->vcpus > 4096)
  1117. return -EINVAL;
  1118. kioeventfd = kzalloc_obj(*kioeventfd);
  1119. if (!kioeventfd)
  1120. return -ENOMEM;
  1121. kioeventfd->eventfd = eventfd_ctx_fdget(ioeventfd->event_fd);
  1122. if (IS_ERR(kioeventfd->eventfd)) {
  1123. ret = PTR_ERR(kioeventfd->eventfd);
  1124. goto error_kfree;
  1125. }
  1126. kioeventfd->addr = ioeventfd->addr;
  1127. kioeventfd->addr_len = ioeventfd->addr_len;
  1128. kioeventfd->vq = ioeventfd->vq;
  1129. mutex_lock(&ioreq_lock);
  1130. kioreq = get_ioreq(ioeventfd, kioeventfd->eventfd);
  1131. if (IS_ERR(kioreq)) {
  1132. mutex_unlock(&ioreq_lock);
  1133. ret = PTR_ERR(kioreq);
  1134. goto error_eventfd;
  1135. }
  1136. spin_lock_irqsave(&kioreq->lock, flags);
  1137. list_add_tail(&kioeventfd->list, &kioreq->ioeventfds);
  1138. spin_unlock_irqrestore(&kioreq->lock, flags);
  1139. mutex_unlock(&ioreq_lock);
  1140. return 0;
  1141. error_eventfd:
  1142. eventfd_ctx_put(kioeventfd->eventfd);
  1143. error_kfree:
  1144. kfree(kioeventfd);
  1145. return ret;
  1146. }
  1147. static int privcmd_ioeventfd_deassign(struct privcmd_ioeventfd *ioeventfd)
  1148. {
  1149. struct privcmd_kernel_ioreq *kioreq, *tkioreq;
  1150. struct eventfd_ctx *eventfd;
  1151. unsigned long flags;
  1152. int ret = 0;
  1153. eventfd = eventfd_ctx_fdget(ioeventfd->event_fd);
  1154. if (IS_ERR(eventfd))
  1155. return PTR_ERR(eventfd);
  1156. mutex_lock(&ioreq_lock);
  1157. list_for_each_entry_safe(kioreq, tkioreq, &ioreq_list, list) {
  1158. struct privcmd_kernel_ioeventfd *kioeventfd, *tmp;
  1159. /*
  1160. * kioreq fields can be accessed here without a lock as they are
  1161. * never updated after being added to the ioreq_list.
  1162. */
  1163. if (kioreq->dom != ioeventfd->dom ||
  1164. kioreq->uioreq != ioeventfd->ioreq ||
  1165. kioreq->vcpus != ioeventfd->vcpus)
  1166. continue;
  1167. spin_lock_irqsave(&kioreq->lock, flags);
  1168. list_for_each_entry_safe(kioeventfd, tmp, &kioreq->ioeventfds, list) {
  1169. if (eventfd == kioeventfd->eventfd) {
  1170. ioeventfd_free(kioeventfd);
  1171. spin_unlock_irqrestore(&kioreq->lock, flags);
  1172. if (list_empty(&kioreq->ioeventfds))
  1173. ioreq_free(kioreq);
  1174. goto unlock;
  1175. }
  1176. }
  1177. spin_unlock_irqrestore(&kioreq->lock, flags);
  1178. break;
  1179. }
  1180. pr_err("Ioeventfd isn't already assigned, dom: %u, addr: %llu\n",
  1181. ioeventfd->dom, ioeventfd->addr);
  1182. ret = -ENODEV;
  1183. unlock:
  1184. mutex_unlock(&ioreq_lock);
  1185. eventfd_ctx_put(eventfd);
  1186. return ret;
  1187. }
  1188. static long privcmd_ioctl_ioeventfd(struct file *file, void __user *udata)
  1189. {
  1190. struct privcmd_data *data = file->private_data;
  1191. struct privcmd_ioeventfd ioeventfd;
  1192. if (copy_from_user(&ioeventfd, udata, sizeof(ioeventfd)))
  1193. return -EFAULT;
  1194. /* No other flags should be set */
  1195. if (ioeventfd.flags & ~PRIVCMD_IOEVENTFD_FLAG_DEASSIGN)
  1196. return -EINVAL;
  1197. /* If restriction is in place, check the domid matches */
  1198. if (data->domid != DOMID_INVALID && data->domid != ioeventfd.dom)
  1199. return -EPERM;
  1200. if (ioeventfd.flags & PRIVCMD_IOEVENTFD_FLAG_DEASSIGN)
  1201. return privcmd_ioeventfd_deassign(&ioeventfd);
  1202. return privcmd_ioeventfd_assign(&ioeventfd);
  1203. }
  1204. static void privcmd_ioeventfd_exit(void)
  1205. {
  1206. struct privcmd_kernel_ioreq *kioreq, *tmp;
  1207. unsigned long flags;
  1208. mutex_lock(&ioreq_lock);
  1209. list_for_each_entry_safe(kioreq, tmp, &ioreq_list, list) {
  1210. struct privcmd_kernel_ioeventfd *kioeventfd, *tmp;
  1211. spin_lock_irqsave(&kioreq->lock, flags);
  1212. list_for_each_entry_safe(kioeventfd, tmp, &kioreq->ioeventfds, list)
  1213. ioeventfd_free(kioeventfd);
  1214. spin_unlock_irqrestore(&kioreq->lock, flags);
  1215. ioreq_free(kioreq);
  1216. }
  1217. mutex_unlock(&ioreq_lock);
  1218. }
  1219. #else
  1220. static inline long privcmd_ioctl_irqfd(struct file *file, void __user *udata)
  1221. {
  1222. return -EOPNOTSUPP;
  1223. }
  1224. static inline int privcmd_irqfd_init(void)
  1225. {
  1226. return 0;
  1227. }
  1228. static inline void privcmd_irqfd_exit(void)
  1229. {
  1230. }
  1231. static inline long privcmd_ioctl_ioeventfd(struct file *file, void __user *udata)
  1232. {
  1233. return -EOPNOTSUPP;
  1234. }
  1235. static inline void privcmd_ioeventfd_exit(void)
  1236. {
  1237. }
  1238. #endif /* CONFIG_XEN_PRIVCMD_EVENTFD */
  1239. static long privcmd_ioctl(struct file *file,
  1240. unsigned int cmd, unsigned long data)
  1241. {
  1242. int ret = -ENOTTY;
  1243. void __user *udata = (void __user *) data;
  1244. switch (cmd) {
  1245. case IOCTL_PRIVCMD_HYPERCALL:
  1246. ret = privcmd_ioctl_hypercall(file, udata);
  1247. break;
  1248. case IOCTL_PRIVCMD_MMAP:
  1249. ret = privcmd_ioctl_mmap(file, udata);
  1250. break;
  1251. case IOCTL_PRIVCMD_MMAPBATCH:
  1252. ret = privcmd_ioctl_mmap_batch(file, udata, 1);
  1253. break;
  1254. case IOCTL_PRIVCMD_MMAPBATCH_V2:
  1255. ret = privcmd_ioctl_mmap_batch(file, udata, 2);
  1256. break;
  1257. case IOCTL_PRIVCMD_DM_OP:
  1258. ret = privcmd_ioctl_dm_op(file, udata);
  1259. break;
  1260. case IOCTL_PRIVCMD_RESTRICT:
  1261. ret = privcmd_ioctl_restrict(file, udata);
  1262. break;
  1263. case IOCTL_PRIVCMD_MMAP_RESOURCE:
  1264. ret = privcmd_ioctl_mmap_resource(file, udata);
  1265. break;
  1266. case IOCTL_PRIVCMD_IRQFD:
  1267. ret = privcmd_ioctl_irqfd(file, udata);
  1268. break;
  1269. case IOCTL_PRIVCMD_IOEVENTFD:
  1270. ret = privcmd_ioctl_ioeventfd(file, udata);
  1271. break;
  1272. case IOCTL_PRIVCMD_PCIDEV_GET_GSI:
  1273. ret = privcmd_ioctl_pcidev_get_gsi(file, udata);
  1274. break;
  1275. default:
  1276. break;
  1277. }
  1278. return ret;
  1279. }
  1280. static int privcmd_open(struct inode *ino, struct file *file)
  1281. {
  1282. struct privcmd_data *data;
  1283. if (wait_event_interruptible(restrict_wait_wq, !restrict_wait) < 0)
  1284. return -EINTR;
  1285. data = kzalloc_obj(*data);
  1286. if (!data)
  1287. return -ENOMEM;
  1288. data->domid = target_domain;
  1289. file->private_data = data;
  1290. return 0;
  1291. }
  1292. static int privcmd_release(struct inode *ino, struct file *file)
  1293. {
  1294. struct privcmd_data *data = file->private_data;
  1295. kfree(data);
  1296. return 0;
  1297. }
  1298. static void privcmd_close(struct vm_area_struct *vma)
  1299. {
  1300. struct page **pages = vma->vm_private_data;
  1301. int numpgs = vma_pages(vma);
  1302. int numgfns = (vma->vm_end - vma->vm_start) >> XEN_PAGE_SHIFT;
  1303. int rc;
  1304. if (xen_pv_domain() || !numpgs || !pages)
  1305. return;
  1306. rc = xen_unmap_domain_gfn_range(vma, numgfns, pages);
  1307. if (rc == 0)
  1308. xen_free_unpopulated_pages(numpgs, pages);
  1309. else
  1310. pr_crit("unable to unmap MFN range: leaking %d pages. rc=%d\n",
  1311. numpgs, rc);
  1312. kvfree(pages);
  1313. }
  1314. static vm_fault_t privcmd_fault(struct vm_fault *vmf)
  1315. {
  1316. printk(KERN_DEBUG "privcmd_fault: vma=%p %lx-%lx, pgoff=%lx, uv=%p\n",
  1317. vmf->vma, vmf->vma->vm_start, vmf->vma->vm_end,
  1318. vmf->pgoff, (void *)vmf->address);
  1319. return VM_FAULT_SIGBUS;
  1320. }
  1321. static const struct vm_operations_struct privcmd_vm_ops = {
  1322. .close = privcmd_close,
  1323. .fault = privcmd_fault
  1324. };
  1325. static int privcmd_mmap(struct file *file, struct vm_area_struct *vma)
  1326. {
  1327. /* DONTCOPY is essential for Xen because copy_page_range doesn't know
  1328. * how to recreate these mappings */
  1329. vm_flags_set(vma, VM_IO | VM_PFNMAP | VM_DONTCOPY |
  1330. VM_DONTEXPAND | VM_DONTDUMP);
  1331. vma->vm_ops = &privcmd_vm_ops;
  1332. vma->vm_private_data = NULL;
  1333. return 0;
  1334. }
  1335. /*
  1336. * For MMAPBATCH*. This allows asserting the singleshot mapping
  1337. * on a per pfn/pte basis. Mapping calls that fail with ENOENT
  1338. * can be then retried until success.
  1339. */
  1340. static int is_mapped_fn(pte_t *pte, unsigned long addr, void *data)
  1341. {
  1342. return pte_none(ptep_get(pte)) ? 0 : -EBUSY;
  1343. }
  1344. static int privcmd_vma_range_is_mapped(
  1345. struct vm_area_struct *vma,
  1346. unsigned long addr,
  1347. unsigned long nr_pages)
  1348. {
  1349. return apply_to_page_range(vma->vm_mm, addr, nr_pages << PAGE_SHIFT,
  1350. is_mapped_fn, NULL) != 0;
  1351. }
  1352. const struct file_operations xen_privcmd_fops = {
  1353. .owner = THIS_MODULE,
  1354. .unlocked_ioctl = privcmd_ioctl,
  1355. .open = privcmd_open,
  1356. .release = privcmd_release,
  1357. .mmap = privcmd_mmap,
  1358. };
  1359. EXPORT_SYMBOL_GPL(xen_privcmd_fops);
  1360. static struct miscdevice privcmd_dev = {
  1361. .minor = MISC_DYNAMIC_MINOR,
  1362. .name = "xen/privcmd",
  1363. .fops = &xen_privcmd_fops,
  1364. };
  1365. static int init_restrict(struct notifier_block *notifier,
  1366. unsigned long event,
  1367. void *data)
  1368. {
  1369. char *target;
  1370. unsigned int domid;
  1371. /* Default to an guaranteed unused domain-id. */
  1372. target_domain = DOMID_IDLE;
  1373. target = xenbus_read(XBT_NIL, "target", "", NULL);
  1374. if (IS_ERR(target) || kstrtouint(target, 10, &domid)) {
  1375. pr_err("No target domain found, blocking all hypercalls\n");
  1376. goto out;
  1377. }
  1378. target_domain = domid;
  1379. out:
  1380. if (!IS_ERR(target))
  1381. kfree(target);
  1382. restrict_wait = false;
  1383. wake_up_all(&restrict_wait_wq);
  1384. return NOTIFY_DONE;
  1385. }
  1386. static struct notifier_block xenstore_notifier = {
  1387. .notifier_call = init_restrict,
  1388. };
  1389. static void __init restrict_driver(void)
  1390. {
  1391. if (unrestricted) {
  1392. if (security_locked_down(LOCKDOWN_XEN_USER_ACTIONS))
  1393. pr_warn("Kernel is locked down, parameter \"unrestricted\" ignored\n");
  1394. else
  1395. return;
  1396. }
  1397. restrict_wait = true;
  1398. register_xenstore_notifier(&xenstore_notifier);
  1399. }
  1400. static int __init privcmd_init(void)
  1401. {
  1402. int err;
  1403. if (!xen_domain())
  1404. return -ENODEV;
  1405. if (!xen_initial_domain())
  1406. restrict_driver();
  1407. err = misc_register(&privcmd_dev);
  1408. if (err != 0) {
  1409. pr_err("Could not register Xen privcmd device\n");
  1410. return err;
  1411. }
  1412. err = misc_register(&xen_privcmdbuf_dev);
  1413. if (err != 0) {
  1414. pr_err("Could not register Xen hypercall-buf device\n");
  1415. goto err_privcmdbuf;
  1416. }
  1417. err = privcmd_irqfd_init();
  1418. if (err != 0) {
  1419. pr_err("irqfd init failed\n");
  1420. goto err_irqfd;
  1421. }
  1422. return 0;
  1423. err_irqfd:
  1424. misc_deregister(&xen_privcmdbuf_dev);
  1425. err_privcmdbuf:
  1426. misc_deregister(&privcmd_dev);
  1427. return err;
  1428. }
  1429. static void __exit privcmd_exit(void)
  1430. {
  1431. if (!xen_initial_domain())
  1432. unregister_xenstore_notifier(&xenstore_notifier);
  1433. privcmd_ioeventfd_exit();
  1434. privcmd_irqfd_exit();
  1435. misc_deregister(&privcmd_dev);
  1436. misc_deregister(&xen_privcmdbuf_dev);
  1437. }
  1438. module_init(privcmd_init);
  1439. module_exit(privcmd_exit);