4 * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
6 * This program is free software; you can redistribute it and/or modify
7 * it under the terms of the GNU General Public License version 2 only,
8 * as published by the Free Software Foundation.
10 * This program is distributed in the hope that it will be useful, but
11 * WITHOUT ANY WARRANTY; without even the implied warranty of
12 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
13 * General Public License version 2 for more details (a copy is included
14 * in the LICENSE file that accompanied this code).
16 * You should have received a copy of the GNU General Public License
17 * version 2 along with this program; If not, see
18 * http://www.gnu.org/licenses/gpl-2.0.html
23 * Copyright (c) 2003, 2010, Oracle and/or its affiliates. All rights reserved.
24 * Use is subject to license terms.
26 * Copyright (c) 2012, 2017, Intel Corporation.
29 * This file is part of Lustre, http://www.lustre.org/
33 * Memory Descriptor management routines
36 #define DEBUG_SUBSYSTEM S_LNET
38 #include <lnet/lib-lnet.h>
40 /* must be called with lnet_res_lock held */
42 lnet_md_unlink(struct lnet_libmd *md)
44 if ((md->md_flags & LNET_MD_FLAG_ZOMBIE) == 0) {
45 /* first unlink attempt... */
46 struct lnet_me *me = md->md_me;
48 md->md_flags |= LNET_MD_FLAG_ZOMBIE;
50 /* Disassociate from ME (if any), and unlink it if it was created
53 /* detach MD from portal */
54 lnet_ptl_detach_md(me, md);
55 if (me->me_unlink == LNET_UNLINK)
59 /* ensure all future handle lookups fail */
60 lnet_res_lh_invalidate(&md->md_lh);
63 if (md->md_refcount != 0) {
64 CDEBUG(D_NET, "Queueing unlink of md %p\n", md);
68 CDEBUG(D_NET, "Unlinking md %p\n", md);
70 LASSERT(!list_empty(&md->md_list));
71 list_del_init(&md->md_list);
72 LASSERT(!(md->md_flags & LNET_MD_FLAG_HANDLING));
77 lnet_kvaddr_to_page(unsigned long vaddr)
79 if (is_vmalloc_addr((void *)vaddr))
80 return vmalloc_to_page((void *)vaddr);
84 #ifdef HAVE_KMAP_TO_PAGE
86 * This ifdef is added to handle the kernel versions
87 * which have kmap_to_page() function exported. If so,
88 * we should use it. Otherwise, remain with the legacy check.
90 return kmap_to_page((void *)vaddr);
93 if (vaddr >= PKMAP_ADDR(0) && vaddr < PKMAP_ADDR(LAST_PKMAP)) {
94 /* No highmem pages only used for bulk (kiov) I/O */
95 CERROR("find page for address in highmem\n");
98 return virt_to_page(vaddr);
99 #endif /* HAVE_KMAP_TO_PAGE */
102 return virt_to_page(vaddr);
103 #endif /* CONFIG_HIGHMEM */
105 EXPORT_SYMBOL(lnet_kvaddr_to_page);
108 lnet_get_first_page(struct lnet_libmd *md, unsigned int offset)
111 struct bio_vec *kiov;
114 * if the md_options has a bulk handle then we want to look at the
115 * bulk md because that's the data which we will be DMAing
117 if (md && (md->md_options & LNET_MD_BULK_HANDLE) != 0 &&
118 !LNetMDHandleIsInvalid(md->md_bulk_handle))
119 md = lnet_handle2md(&md->md_bulk_handle);
121 if (!md || md->md_niov == 0)
127 while (offset >= kiov->bv_len) {
128 offset -= kiov->bv_len;
132 CERROR("offset %d goes beyond kiov\n", offset);
137 return kiov->bv_page;
141 lnet_cpt_of_md(struct lnet_libmd *md, unsigned int offset)
144 int cpt = CFS_CPT_ANY;
146 page = lnet_get_first_page(md, offset);
148 CDEBUG(D_NET, "Couldn't resolve first page of md %p with offset %u\n",
153 cpt = cfs_cpt_of_node(lnet_cpt_table(), page_to_nid(page));
159 static int lnet_md_validate(const struct lnet_md *umd);
161 static struct lnet_libmd *
162 lnet_md_build(const struct lnet_md *umd, int unlink)
166 int total_length = 0;
167 struct lnet_libmd *lmd;
170 if (lnet_md_validate(umd) != 0)
171 return ERR_PTR(-EINVAL);
173 if (umd->options & LNET_MD_KIOV)
176 niov = DIV_ROUND_UP(offset_in_page(umd->start) + umd->length,
178 size = offsetof(struct lnet_libmd, md_kiov[niov]);
180 if (size <= LNET_SMALL_MD_SIZE) {
181 lmd = kmem_cache_zalloc(lnet_small_mds_cachep, GFP_NOFS);
184 "slab-alloced 'md' of size %u at %p.\n",
187 CDEBUG(D_MALLOC, "failed to allocate 'md' of size %u\n",
191 LIBCFS_ALLOC(lmd, size);
195 return ERR_PTR(-ENOMEM);
198 INIT_LIST_HEAD(&lmd->md_list);
200 lmd->md_start = umd->start;
202 lmd->md_max_size = umd->max_size;
203 lmd->md_options = umd->options;
204 lmd->md_user_ptr = umd->user_ptr;
205 lmd->md_handler = NULL;
206 lmd->md_threshold = umd->threshold;
207 lmd->md_refcount = 0;
208 lmd->md_flags = (unlink == LNET_UNLINK) ? LNET_MD_FLAG_AUTO_UNLINK : 0;
209 lmd->md_bulk_handle = umd->bulk_handle;
211 if (umd->options & LNET_MD_KIOV) {
212 memcpy(lmd->md_kiov, umd->start,
213 niov * sizeof(lmd->md_kiov[0]));
215 for (i = 0; i < (int)niov; i++) {
216 /* We take the page pointer on trust */
217 if (lmd->md_kiov[i].bv_offset +
218 lmd->md_kiov[i].bv_len > PAGE_SIZE) {
220 return ERR_PTR(-EINVAL); /* invalid length */
223 total_length += lmd->md_kiov[i].bv_len;
226 lmd->md_length = total_length;
228 if ((umd->options & LNET_MD_MAX_SIZE) && /* max size used */
229 (umd->max_size < 0 ||
230 umd->max_size > total_length)) { /* illegal max_size */
232 return ERR_PTR(-EINVAL);
234 } else { /* contiguous - split into pages */
235 void *pa = umd->start;
236 int len = umd->length;
238 lmd->md_length = len;
243 plen = min_t(int, len, PAGE_SIZE - offset_in_page(pa));
245 lmd->md_kiov[i].bv_page =
246 lnet_kvaddr_to_page((unsigned long) pa);
247 lmd->md_kiov[i].bv_offset = offset_in_page(pa);
248 lmd->md_kiov[i].bv_len = plen;
254 if ((umd->options & LNET_MD_MAX_SIZE) && /* max size used */
255 (umd->max_size < 0 ||
256 umd->max_size > (int)umd->length)) { /* illegal max_size */
258 return ERR_PTR(-EINVAL);
260 lmd->md_options |= LNET_MD_KIOV;
266 /* must be called with resource lock held */
268 lnet_md_link(struct lnet_libmd *md, lnet_handler_t handler, int cpt)
270 struct lnet_res_container *container = the_lnet.ln_md_containers[cpt];
272 /* NB we are passed an allocated, but inactive md.
273 * Caller may lnet_md_unlink() it, or may lnet_md_free() it.
275 /* This implementation doesn't know how to create START events or
276 * disable END events. Best to LASSERT our caller is compliant so
277 * we find out quickly... */
278 /* TODO - reevaluate what should be here in light of
279 * the removal of the start and end events
280 * maybe there we shouldn't even allow LNET_EQ_NONE!)
281 * LASSERT (handler != NULL);
283 md->md_handler = handler;
285 lnet_res_lh_initialize(container, &md->md_lh);
287 LASSERT(list_empty(&md->md_list));
288 list_add(&md->md_list, &container->rec_active);
291 void lnet_assert_handler_unused(lnet_handler_t handler)
293 struct lnet_res_container *container;
298 cfs_percpt_for_each(container, cpt, the_lnet.ln_md_containers) {
299 struct lnet_libmd *md;
302 list_for_each_entry(md, &container->rec_active, md_list)
303 LASSERT(md->md_handler != handler);
304 lnet_res_unlock(cpt);
307 EXPORT_SYMBOL(lnet_assert_handler_unused);
309 /* must be called with lnet_res_lock held */
311 lnet_md_deconstruct(struct lnet_libmd *lmd, struct lnet_event *ev)
313 ev->md_start = lmd->md_start;
314 ev->md_options = lmd->md_options;
315 ev->md_user_ptr = lmd->md_user_ptr;
319 lnet_md_validate(const struct lnet_md *umd)
321 if (umd->start == NULL && umd->length != 0) {
322 CERROR("MD start pointer can not be NULL with length %u\n",
327 if ((umd->options & LNET_MD_KIOV) &&
328 umd->length > LNET_MAX_IOV) {
329 CERROR("Invalid option: too many fragments %u, %d max\n",
330 umd->length, LNET_MAX_IOV);
338 * Create a memory descriptor and attach it to a ME
340 * \param me An ME to associate the new MD with.
341 * \param umd Provides initial values for the user-visible parts of a MD.
342 * Other than its use for initialization, there is no linkage between this
343 * structure and the MD maintained by the LNet.
344 * \param unlink A flag to indicate whether the MD is automatically unlinked
345 * when it becomes inactive, either because the operation threshold drops to
346 * zero or because the available memory becomes less than \a umd.max_size.
347 * (Note that the check for unlinking a MD only occurs after the completion
348 * of a successful operation on the MD.) The value LNET_UNLINK enables auto
349 * unlinking; the value LNET_RETAIN disables it.
350 * \param handle On successful returns, a handle to the newly created MD is
351 * saved here. This handle can be used later in LNetMDUnlink().
353 * The ME will either be linked to the new MD, or it will be freed.
355 * \retval 0 On success.
356 * \retval -EINVAL If \a umd is not valid.
357 * \retval -ENOMEM If new MD cannot be allocated.
360 LNetMDAttach(struct lnet_me *me, const struct lnet_md *umd,
361 enum lnet_unlink unlink, struct lnet_handle_md *handle)
365 struct lnet_libmd *md;
368 LASSERT(the_lnet.ln_refcount > 0);
371 if ((umd->options & (LNET_MD_OP_GET | LNET_MD_OP_PUT)) == 0) {
372 CERROR("Invalid option: no MD_OP set\n");
373 md = ERR_PTR(-EINVAL);
375 md = lnet_md_build(umd, unlink);
382 lnet_res_unlock(cpt);
386 lnet_md_link(md, umd->handler, cpt);
388 /* attach this MD to portal of ME and check if it matches any
389 * blocked msgs on this portal */
390 lnet_ptl_attach_md(me, md, &matches, &drops);
392 lnet_md2handle(handle, md);
394 lnet_res_unlock(cpt);
396 lnet_drop_delayed_msg_list(&drops, "Bad match");
397 lnet_recv_delayed_msg_list(&matches);
401 EXPORT_SYMBOL(LNetMDAttach);
404 * Create a "free floating" memory descriptor - a MD that is not associated
405 * with a ME. Such MDs are usually used in LNetPut() and LNetGet() operations.
407 * \param umd,unlink See the discussion for LNetMDAttach().
408 * \param handle On successful returns, a handle to the newly created MD is
409 * saved here. This handle can be used later in LNetMDUnlink(), LNetPut(),
410 * and LNetGet() operations.
412 * \retval 0 On success.
413 * \retval -EINVAL If \a umd is not valid.
414 * \retval -ENOMEM If new MD cannot be allocated.
417 LNetMDBind(const struct lnet_md *umd, enum lnet_unlink unlink,
418 struct lnet_handle_md *handle)
420 struct lnet_libmd *md;
424 LASSERT(the_lnet.ln_refcount > 0);
426 if ((umd->options & (LNET_MD_OP_GET | LNET_MD_OP_PUT)) != 0) {
427 CERROR("Invalid option: GET|PUT illegal on active MDs\n");
431 md = lnet_md_build(umd, unlink);
435 if (md->md_length > LNET_MTU) {
436 CERROR("Invalid length: too big transfer size %u, %d max\n",
437 md->md_length, LNET_MTU);
442 cpt = lnet_res_lock_current();
444 lnet_md_link(md, umd->handler, cpt);
446 lnet_md2handle(handle, md);
448 lnet_res_unlock(cpt);
455 EXPORT_SYMBOL(LNetMDBind);
458 * Unlink the memory descriptor from any ME it may be linked to and release
459 * the internal resources associated with it. As a result, active messages
460 * associated with the MD may get aborted.
462 * This function does not free the memory region associated with the MD;
463 * i.e., the memory the user allocated for this MD. If the ME associated with
464 * this MD is not NULL and was created with auto unlink enabled, the ME is
465 * unlinked as well (see LNetMEAttach()).
467 * Explicitly unlinking a MD via this function call has the same behavior as
468 * a MD that has been automatically unlinked, except that no LNET_EVENT_UNLINK
469 * is generated in the latter case.
471 * An unlinked event can be reported in two ways:
472 * - If there's no pending operations on the MD, it's unlinked immediately
473 * and an LNET_EVENT_UNLINK event is logged before this function returns.
474 * - Otherwise, the MD is only marked for deletion when this function
475 * returns, and the unlinked event will be piggybacked on the event of
476 * the completion of the last operation by setting the unlinked field of
477 * the event. No dedicated LNET_EVENT_UNLINK event is generated.
479 * Note that in both cases the unlinked field of the event is always set; no
480 * more event will happen on the MD after such an event is logged.
482 * \param mdh A handle for the MD to be unlinked.
484 * \retval 0 On success.
485 * \retval -ENOENT If \a mdh does not point to a valid MD object.
488 __LNetMDUnlink(struct lnet_handle_md mdh, bool discard)
490 struct lnet_event ev;
491 struct lnet_libmd *md = NULL;
492 lnet_handler_t handler = NULL;
495 LASSERT(the_lnet.ln_refcount > 0);
497 cpt = lnet_cpt_of_cookie(mdh.cookie);
500 md = lnet_handle2md(&mdh);
502 lnet_res_unlock(cpt);
505 if (md->md_refcount == 0 &&
506 md->md_flags & LNET_MD_FLAG_HANDLING) {
507 /* Race with unlocked call to ->md_handler. */
508 lnet_md_wait_handling(md, cpt);
513 md->md_flags |= LNET_MD_FLAG_ABORTED;
514 /* If the MD is busy, lnet_md_unlink just marks it for deletion, and
515 * when the LND is done, the completion event flags that the MD was
516 * unlinked. Otherwise, we enqueue an event now... */
517 if (md->md_handler && md->md_refcount == 0) {
518 lnet_build_unlink_event(md, &ev);
519 handler = md->md_handler;
523 md->md_flags |= LNET_MD_FLAG_DISCARD;
525 if (md->md_rspt_ptr != NULL)
526 lnet_detach_rsp_tracker(md, cpt);
530 lnet_res_unlock(cpt);
537 EXPORT_SYMBOL(__LNetMDUnlink);
540 lnet_md_discarded(struct lnet_libmd *md)
548 cpt = lnet_cpt_of_cookie(md->md_lh.lh_cookie);
550 rc = md->md_flags & LNET_MD_FLAG_DISCARD;
551 lnet_res_unlock(cpt);
555 EXPORT_SYMBOL(lnet_md_discarded);