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,
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10 * This program is distributed in the hope that it will be useful, but
11 * WITHOUT ANY WARRANTY; without even the implied warranty of
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13 * General Public License version 2 for more details (a copy is included
14 * in the LICENSE file that accompanied this code).
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18 * http://www.sun.com/software/products/lustre/docs/GPLv2.pdf
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21 * CA 95054 USA or visit www.sun.com if you need additional information or
27 * Copyright (c) 2008, 2010, Oracle and/or its affiliates. All rights reserved.
28 * Use is subject to license terms.
30 * Copyright (c) 2011, 2012, Intel Corporation.
33 * This file is part of Lustre, http://www.lustre.org/
34 * Lustre is a trademark of Sun Microsystems, Inc.
36 * Implementation of cl_object for LOV layer.
38 * Author: Nikita Danilov <nikita.danilov@sun.com>
39 * Author: Jinshan Xiong <jinshan.xiong@whamcloud.com>
42 #define DEBUG_SUBSYSTEM S_LOV
44 #include "lov_cl_internal.h"
45 #include <lustre_debug.h>
51 /*****************************************************************************
57 struct lov_layout_operations {
58 int (*llo_init)(const struct lu_env *env, struct lov_device *dev,
59 struct lov_object *lov,
60 const struct cl_object_conf *conf,
61 union lov_layout_state *state);
62 int (*llo_delete)(const struct lu_env *env, struct lov_object *lov,
63 union lov_layout_state *state);
64 void (*llo_fini)(const struct lu_env *env, struct lov_object *lov,
65 union lov_layout_state *state);
66 void (*llo_install)(const struct lu_env *env, struct lov_object *lov,
67 union lov_layout_state *state);
68 int (*llo_print)(const struct lu_env *env, void *cookie,
69 lu_printer_t p, const struct lu_object *o);
70 int (*llo_page_init)(const struct lu_env *env, struct cl_object *obj,
71 struct cl_page *page, cfs_page_t *vmpage);
72 int (*llo_lock_init)(const struct lu_env *env,
73 struct cl_object *obj, struct cl_lock *lock,
74 const struct cl_io *io);
75 int (*llo_io_init)(const struct lu_env *env,
76 struct cl_object *obj, struct cl_io *io);
77 int (*llo_getattr)(const struct lu_env *env, struct cl_object *obj,
78 struct cl_attr *attr);
81 /*****************************************************************************
83 * Lov object layout operations.
87 static void lov_install_empty(const struct lu_env *env,
88 struct lov_object *lov,
89 union lov_layout_state *state)
92 * File without objects.
96 static int lov_init_empty(const struct lu_env *env,
97 struct lov_device *dev, struct lov_object *lov,
98 const struct cl_object_conf *conf,
99 union lov_layout_state *state)
104 static void lov_install_raid0(const struct lu_env *env,
105 struct lov_object *lov,
106 union lov_layout_state *state)
110 static struct cl_object *lov_sub_find(const struct lu_env *env,
111 struct cl_device *dev,
112 const struct lu_fid *fid,
113 const struct cl_object_conf *conf)
118 o = lu_object_find_at(env, cl2lu_dev(dev), fid, &conf->coc_lu);
119 LASSERT(ergo(!IS_ERR(o), o->lo_dev->ld_type == &lovsub_device_type));
123 static int lov_init_sub(const struct lu_env *env, struct lov_object *lov,
124 struct cl_object *stripe,
125 struct lov_layout_raid0 *r0, int idx)
127 struct cl_object_header *hdr;
128 struct cl_object_header *subhdr;
129 struct cl_object_header *parent;
130 struct lov_oinfo *oinfo;
133 if (OBD_FAIL_CHECK(OBD_FAIL_LOV_INIT)) {
134 /* For sanity:test_206.
135 * Do not leave the object in cache to avoid accessing
136 * freed memory. This is because osc_object is referring to
137 * lov_oinfo of lsm_stripe_data which will be freed due to
139 cl_object_kill(env, stripe);
140 cl_object_put(env, stripe);
144 hdr = cl_object_header(lov2cl(lov));
145 subhdr = cl_object_header(stripe);
146 parent = subhdr->coh_parent;
148 oinfo = lov->lo_lsm->lsm_oinfo[idx];
149 CDEBUG(D_INODE, DFID"@%p[%d] -> "DFID"@%p: id: "LPU64" seq: "LPU64
150 " idx: %d gen: %d\n",
151 PFID(&subhdr->coh_lu.loh_fid), subhdr, idx,
152 PFID(&hdr->coh_lu.loh_fid), hdr,
153 oinfo->loi_id, oinfo->loi_seq,
154 oinfo->loi_ost_idx, oinfo->loi_ost_gen);
156 if (parent == NULL) {
157 subhdr->coh_parent = hdr;
158 subhdr->coh_nesting = hdr->coh_nesting + 1;
159 lu_object_ref_add(&stripe->co_lu, "lov-parent", lov);
160 r0->lo_sub[idx] = cl2lovsub(stripe);
161 r0->lo_sub[idx]->lso_super = lov;
162 r0->lo_sub[idx]->lso_index = idx;
165 CERROR("Stripe is already owned by other file (%d).\n", idx);
166 LU_OBJECT_DEBUG(D_ERROR, env, &stripe->co_lu, "\n");
167 LU_OBJECT_DEBUG(D_ERROR, env, lu_object_top(&parent->coh_lu),
169 LU_OBJECT_HEADER(D_ERROR, env, lov2lu(lov), "new\n");
170 cl_object_put(env, stripe);
176 static int lov_init_raid0(const struct lu_env *env,
177 struct lov_device *dev, struct lov_object *lov,
178 const struct cl_object_conf *conf,
179 union lov_layout_state *state)
184 struct cl_object *stripe;
185 struct lov_thread_info *lti = lov_env_info(env);
186 struct cl_object_conf *subconf = <i->lti_stripe_conf;
187 struct lov_stripe_md *lsm = conf->u.coc_md->lsm;
188 struct lu_fid *ofid = <i->lti_fid;
189 struct lov_layout_raid0 *r0 = &state->raid0;
193 if (lsm->lsm_magic != LOV_MAGIC_V1 && lsm->lsm_magic != LOV_MAGIC_V3) {
194 dump_lsm(D_ERROR, lsm);
195 LASSERTF(0, "magic mismatch, expected %d/%d, actual %d.\n",
196 LOV_MAGIC_V1, LOV_MAGIC_V3, lsm->lsm_magic);
199 LASSERT(lov->lo_lsm == NULL);
200 lov->lo_lsm = lsm_addref(lsm);
201 r0->lo_nr = lsm->lsm_stripe_count;
202 LASSERT(r0->lo_nr <= lov_targets_nr(dev));
204 OBD_ALLOC_LARGE(r0->lo_sub, r0->lo_nr * sizeof r0->lo_sub[0]);
205 if (r0->lo_sub != NULL) {
207 subconf->coc_inode = conf->coc_inode;
208 spin_lock_init(&r0->lo_sub_lock);
210 * Create stripe cl_objects.
212 for (i = 0; i < r0->lo_nr && result == 0; ++i) {
213 struct cl_device *subdev;
214 struct lov_oinfo *oinfo = lsm->lsm_oinfo[i];
215 int ost_idx = oinfo->loi_ost_idx;
217 fid_ostid_unpack(ofid, &oinfo->loi_oi,
219 subdev = lovsub2cl_dev(dev->ld_target[ost_idx]);
220 subconf->u.coc_oinfo = oinfo;
221 LASSERTF(subdev != NULL, "not init ost %d\n", ost_idx);
222 /* In the function below, .hs_keycmp resolves to
223 * lu_obj_hop_keycmp() */
224 /* coverity[overrun-buffer-val] */
225 stripe = lov_sub_find(env, subdev, ofid, subconf);
227 result = lov_init_sub(env, lov, stripe, r0, i);
229 result = PTR_ERR(stripe);
236 static int lov_delete_empty(const struct lu_env *env, struct lov_object *lov,
237 union lov_layout_state *state)
239 LASSERT(lov->lo_type == LLT_EMPTY);
240 if (cfs_atomic_read(&lov->lo_active_ios) > 0)
243 cl_object_prune(env, &lov->lo_cl);
247 static void lov_subobject_kill(const struct lu_env *env, struct lov_object *lov,
248 struct lovsub_object *los, int idx)
250 struct cl_object *sub;
251 struct lov_layout_raid0 *r0;
252 struct lu_site *site;
253 struct lu_site_bkt_data *bkt;
254 cfs_waitlink_t *waiter;
257 LASSERT(r0->lo_sub[idx] == los);
259 sub = lovsub2cl(los);
260 site = sub->co_lu.lo_dev->ld_site;
261 bkt = lu_site_bkt_from_fid(site, &sub->co_lu.lo_header->loh_fid);
263 cl_object_kill(env, sub);
264 /* release a reference to the sub-object and ... */
265 lu_object_ref_del(&sub->co_lu, "lov-parent", lov);
266 cl_object_put(env, sub);
268 /* ... wait until it is actually destroyed---sub-object clears its
269 * ->lo_sub[] slot in lovsub_object_fini() */
270 if (r0->lo_sub[idx] == los) {
271 waiter = &lov_env_info(env)->lti_waiter;
272 cfs_waitlink_init(waiter);
273 cfs_waitq_add(&bkt->lsb_marche_funebre, waiter);
274 cfs_set_current_state(CFS_TASK_UNINT);
276 /* this wait-queue is signaled at the end of
277 * lu_object_free(). */
278 cfs_set_current_state(CFS_TASK_UNINT);
279 spin_lock(&r0->lo_sub_lock);
280 if (r0->lo_sub[idx] == los) {
281 spin_unlock(&r0->lo_sub_lock);
282 cfs_waitq_wait(waiter, CFS_TASK_UNINT);
284 spin_unlock(&r0->lo_sub_lock);
285 cfs_set_current_state(CFS_TASK_RUNNING);
289 cfs_waitq_del(&bkt->lsb_marche_funebre, waiter);
291 LASSERT(r0->lo_sub[idx] == NULL);
294 static int lov_delete_raid0(const struct lu_env *env, struct lov_object *lov,
295 union lov_layout_state *state)
297 struct lov_layout_raid0 *r0 = &state->raid0;
298 struct lov_stripe_md *lsm = lov->lo_lsm;
303 dump_lsm(D_INODE, lsm);
304 if (cfs_atomic_read(&lov->lo_active_ios) > 0)
307 if (r0->lo_sub != NULL) {
308 for (i = 0; i < r0->lo_nr; ++i) {
309 struct lovsub_object *los = r0->lo_sub[i];
312 cl_locks_prune(env, &los->lso_cl, 1);
314 * If top-level object is to be evicted from
315 * the cache, so are its sub-objects.
317 lov_subobject_kill(env, lov, los, i);
321 cl_object_prune(env, &lov->lo_cl);
325 static void lov_fini_empty(const struct lu_env *env, struct lov_object *lov,
326 union lov_layout_state *state)
328 LASSERT(lov->lo_type == LLT_EMPTY);
331 static void lov_fini_raid0(const struct lu_env *env, struct lov_object *lov,
332 union lov_layout_state *state)
334 struct lov_layout_raid0 *r0 = &state->raid0;
337 if (r0->lo_sub != NULL) {
338 OBD_FREE_LARGE(r0->lo_sub, r0->lo_nr * sizeof r0->lo_sub[0]);
342 dump_lsm(D_INODE, lov->lo_lsm);
343 lov_free_memmd(&lov->lo_lsm);
348 static int lov_print_empty(const struct lu_env *env, void *cookie,
349 lu_printer_t p, const struct lu_object *o)
351 (*p)(env, cookie, "empty\n");
355 static int lov_print_raid0(const struct lu_env *env, void *cookie,
356 lu_printer_t p, const struct lu_object *o)
358 struct lov_object *lov = lu2lov(o);
359 struct lov_layout_raid0 *r0 = lov_r0(lov);
362 (*p)(env, cookie, "stripes: %d:\n", r0->lo_nr);
363 for (i = 0; i < r0->lo_nr; ++i) {
364 struct lu_object *sub;
366 if (r0->lo_sub[i] != NULL) {
367 sub = lovsub2lu(r0->lo_sub[i]);
368 lu_object_print(env, cookie, p, sub);
370 (*p)(env, cookie, "sub %d absent\n", i);
376 * Implements cl_object_operations::coo_attr_get() method for an object
377 * without stripes (LLT_EMPTY layout type).
379 * The only attributes this layer is authoritative in this case is
380 * cl_attr::cat_blocks---it's 0.
382 static int lov_attr_get_empty(const struct lu_env *env, struct cl_object *obj,
383 struct cl_attr *attr)
385 attr->cat_blocks = 0;
389 static int lov_attr_get_raid0(const struct lu_env *env, struct cl_object *obj,
390 struct cl_attr *attr)
392 struct lov_object *lov = cl2lov(obj);
393 struct lov_layout_raid0 *r0 = lov_r0(lov);
394 struct cl_attr *lov_attr = &r0->lo_attr;
399 /* this is called w/o holding type guard mutex, so it must be inside
400 * an on going IO otherwise lsm may be replaced.
401 * LU-2117: it turns out there exists one exception. For mmaped files,
402 * the lock of those files may be requested in the other file's IO
403 * context, and this function is called in ccc_lock_state(), it will
404 * hit this assertion.
405 * Anyway, it's still okay to call attr_get w/o type guard as layout
406 * can't go if locks exist. */
407 /* LASSERT(cfs_atomic_read(&lsm->lsm_refc) > 1); */
409 if (!r0->lo_attr_valid) {
410 struct lov_stripe_md *lsm = lov->lo_lsm;
411 struct ost_lvb *lvb = &lov_env_info(env)->lti_lvb;
414 memset(lvb, 0, sizeof(*lvb));
415 /* XXX: timestamps can be negative by sanity:test_39m,
417 lvb->lvb_atime = LLONG_MIN;
418 lvb->lvb_ctime = LLONG_MIN;
419 lvb->lvb_mtime = LLONG_MIN;
422 * XXX that should be replaced with a loop over sub-objects,
423 * doing cl_object_attr_get() on them. But for now, let's
424 * reuse old lov code.
428 * XXX take lsm spin-lock to keep lov_merge_lvb_kms()
429 * happy. It's not needed, because new code uses
430 * ->coh_attr_guard spin-lock to protect consistency of
431 * sub-object attributes.
433 lov_stripe_lock(lsm);
434 result = lov_merge_lvb_kms(lsm, lvb, &kms);
435 lov_stripe_unlock(lsm);
437 cl_lvb2attr(lov_attr, lvb);
438 lov_attr->cat_kms = kms;
439 r0->lo_attr_valid = 1;
442 if (result == 0) { /* merge results */
443 attr->cat_blocks = lov_attr->cat_blocks;
444 attr->cat_size = lov_attr->cat_size;
445 attr->cat_kms = lov_attr->cat_kms;
446 if (attr->cat_atime < lov_attr->cat_atime)
447 attr->cat_atime = lov_attr->cat_atime;
448 if (attr->cat_ctime < lov_attr->cat_ctime)
449 attr->cat_ctime = lov_attr->cat_ctime;
450 if (attr->cat_mtime < lov_attr->cat_mtime)
451 attr->cat_mtime = lov_attr->cat_mtime;
456 const static struct lov_layout_operations lov_dispatch[] = {
458 .llo_init = lov_init_empty,
459 .llo_delete = lov_delete_empty,
460 .llo_fini = lov_fini_empty,
461 .llo_install = lov_install_empty,
462 .llo_print = lov_print_empty,
463 .llo_page_init = lov_page_init_empty,
464 .llo_lock_init = lov_lock_init_empty,
465 .llo_io_init = lov_io_init_empty,
466 .llo_getattr = lov_attr_get_empty
469 .llo_init = lov_init_raid0,
470 .llo_delete = lov_delete_raid0,
471 .llo_fini = lov_fini_raid0,
472 .llo_install = lov_install_raid0,
473 .llo_print = lov_print_raid0,
474 .llo_page_init = lov_page_init_raid0,
475 .llo_lock_init = lov_lock_init_raid0,
476 .llo_io_init = lov_io_init_raid0,
477 .llo_getattr = lov_attr_get_raid0
483 * Performs a double-dispatch based on the layout type of an object.
485 #define LOV_2DISPATCH_NOLOCK(obj, op, ...) \
487 struct lov_object *__obj = (obj); \
488 enum lov_layout_type __llt; \
490 __llt = __obj->lo_type; \
491 LASSERT(0 <= __llt && __llt < ARRAY_SIZE(lov_dispatch)); \
492 lov_dispatch[__llt].op(__VA_ARGS__); \
495 static inline void lov_conf_freeze(struct lov_object *lov)
497 if (lov->lo_owner != cfs_current())
498 down_read(&lov->lo_type_guard);
501 static inline void lov_conf_thaw(struct lov_object *lov)
503 if (lov->lo_owner != cfs_current())
504 up_read(&lov->lo_type_guard);
507 #define LOV_2DISPATCH_MAYLOCK(obj, op, lock, ...) \
509 struct lov_object *__obj = (obj); \
510 int __lock = !!(lock); \
511 typeof(lov_dispatch[0].op(__VA_ARGS__)) __result; \
514 lov_conf_freeze(__obj); \
515 __result = LOV_2DISPATCH_NOLOCK(obj, op, __VA_ARGS__); \
517 lov_conf_thaw(__obj); \
522 * Performs a locked double-dispatch based on the layout type of an object.
524 #define LOV_2DISPATCH(obj, op, ...) \
525 LOV_2DISPATCH_MAYLOCK(obj, op, 1, __VA_ARGS__)
527 #define LOV_2DISPATCH_VOID(obj, op, ...) \
529 struct lov_object *__obj = (obj); \
530 enum lov_layout_type __llt; \
532 lov_conf_freeze(__obj); \
533 __llt = __obj->lo_type; \
534 LASSERT(0 <= __llt && __llt < ARRAY_SIZE(lov_dispatch)); \
535 lov_dispatch[__llt].op(__VA_ARGS__); \
536 lov_conf_thaw(__obj); \
539 static void lov_conf_lock(struct lov_object *lov)
541 LASSERT(lov->lo_owner != cfs_current());
542 down_write(&lov->lo_type_guard);
543 LASSERT(lov->lo_owner == NULL);
544 lov->lo_owner = cfs_current();
547 static void lov_conf_unlock(struct lov_object *lov)
549 lov->lo_owner = NULL;
550 up_write(&lov->lo_type_guard);
553 static int lov_layout_wait(const struct lu_env *env, struct lov_object *lov)
555 struct l_wait_info lwi = { 0 };
558 if (!lov->lo_layout_invalid)
561 while (cfs_atomic_read(&lov->lo_active_ios) > 0) {
562 lov_conf_unlock(lov);
564 CDEBUG(D_INODE, "file:"DFID" wait for active IO, now: %d.\n",
565 PFID(lu_object_fid(lov2lu(lov))),
566 cfs_atomic_read(&lov->lo_active_ios));
568 l_wait_event(lov->lo_waitq,
569 cfs_atomic_read(&lov->lo_active_ios) == 0, &lwi);
575 static int lov_layout_change(const struct lu_env *unused,
576 struct lov_object *lov, enum lov_layout_type llt,
577 const struct cl_object_conf *conf)
580 union lov_layout_state *state = &lov->u;
581 const struct lov_layout_operations *old_ops;
582 const struct lov_layout_operations *new_ops;
584 struct cl_object_header *hdr = cl_object_header(&lov->lo_cl);
589 LASSERT(0 <= lov->lo_type && lov->lo_type < ARRAY_SIZE(lov_dispatch));
590 LASSERT(0 <= llt && llt < ARRAY_SIZE(lov_dispatch));
593 cookie = cl_env_reenter();
594 env = cl_env_get(&refcheck);
596 cl_env_reexit(cookie);
597 RETURN(PTR_ERR(env));
600 old_ops = &lov_dispatch[lov->lo_type];
601 new_ops = &lov_dispatch[llt];
603 result = old_ops->llo_delete(env, lov, &lov->u);
605 old_ops->llo_fini(env, lov, &lov->u);
607 LASSERT(cfs_atomic_read(&lov->lo_active_ios) == 0);
608 LASSERT(cfs_list_empty(&hdr->coh_locks));
609 LASSERT(hdr->coh_tree.rnode == NULL);
610 LASSERT(hdr->coh_pages == 0);
612 lov->lo_type = LLT_EMPTY;
613 result = new_ops->llo_init(env,
614 lu2lov_dev(lov->lo_cl.co_lu.lo_dev),
617 new_ops->llo_install(env, lov, state);
620 new_ops->llo_delete(env, lov, state);
621 new_ops->llo_fini(env, lov, state);
622 /* this file becomes an EMPTY file. */
626 cl_env_put(env, &refcheck);
627 cl_env_reexit(cookie);
631 /*****************************************************************************
633 * Lov object operations.
637 int lov_object_init(const struct lu_env *env, struct lu_object *obj,
638 const struct lu_object_conf *conf)
640 struct lov_device *dev = lu2lov_dev(obj->lo_dev);
641 struct lov_object *lov = lu2lov(obj);
642 const struct cl_object_conf *cconf = lu2cl_conf(conf);
643 union lov_layout_state *set = &lov->u;
644 const struct lov_layout_operations *ops;
648 init_rwsem(&lov->lo_type_guard);
649 cfs_atomic_set(&lov->lo_active_ios, 0);
650 cfs_waitq_init(&lov->lo_waitq);
652 cl_object_page_init(lu2cl(obj), sizeof(struct lov_page));
654 /* no locking is necessary, as object is being created */
655 lov->lo_type = cconf->u.coc_md->lsm != NULL ? LLT_RAID0 : LLT_EMPTY;
656 ops = &lov_dispatch[lov->lo_type];
657 result = ops->llo_init(env, dev, lov, cconf, set);
659 ops->llo_install(env, lov, set);
663 static int lov_conf_set(const struct lu_env *env, struct cl_object *obj,
664 const struct cl_object_conf *conf)
666 struct lov_stripe_md *lsm = NULL;
667 struct lov_object *lov = cl2lov(obj);
672 if (conf->coc_opc == OBJECT_CONF_INVALIDATE) {
673 lov->lo_layout_invalid = true;
674 GOTO(out, result = 0);
677 if (conf->coc_opc == OBJECT_CONF_WAIT) {
678 result = lov_layout_wait(env, lov);
682 LASSERT(conf->coc_opc == OBJECT_CONF_SET);
684 if (conf->u.coc_md != NULL)
685 lsm = conf->u.coc_md->lsm;
686 if ((lsm == NULL && lov->lo_lsm == NULL) ||
687 (lsm != NULL && lov->lo_lsm != NULL &&
688 lov->lo_lsm->lsm_layout_gen == lsm->lsm_layout_gen)) {
689 /* same version of layout */
690 lov->lo_layout_invalid = false;
691 GOTO(out, result = 0);
694 /* will change layout - check if there still exists active IO. */
695 if (cfs_atomic_read(&lov->lo_active_ios) > 1) {
696 lov->lo_layout_invalid = true;
697 GOTO(out, result = -EBUSY);
701 * Only LLT_EMPTY <-> LLT_RAID0 transitions are supported.
703 switch (lov->lo_type) {
706 result = lov_layout_change(env, lov, LLT_RAID0, conf);
710 result = lov_layout_change(env, lov, LLT_EMPTY, conf);
711 else if (lov_stripe_md_cmp(lov->lo_lsm, lsm))
712 result = -EOPNOTSUPP;
717 lov->lo_layout_invalid = result != 0;
721 lov_conf_unlock(lov);
725 static void lov_object_delete(const struct lu_env *env, struct lu_object *obj)
727 struct lov_object *lov = lu2lov(obj);
730 LOV_2DISPATCH_VOID(lov, llo_delete, env, lov, &lov->u);
734 static void lov_object_free(const struct lu_env *env, struct lu_object *obj)
736 struct lov_object *lov = lu2lov(obj);
739 LOV_2DISPATCH_VOID(lov, llo_fini, env, lov, &lov->u);
741 OBD_SLAB_FREE_PTR(lov, lov_object_kmem);
745 static int lov_object_print(const struct lu_env *env, void *cookie,
746 lu_printer_t p, const struct lu_object *o)
748 return LOV_2DISPATCH(lu2lov(o), llo_print, env, cookie, p, o);
751 int lov_page_init(const struct lu_env *env, struct cl_object *obj,
752 struct cl_page *page, cfs_page_t *vmpage)
754 return LOV_2DISPATCH_NOLOCK(cl2lov(obj),
755 llo_page_init, env, obj, page, vmpage);
759 * Implements cl_object_operations::clo_io_init() method for lov
760 * layer. Dispatches to the appropriate layout io initialization method.
762 int lov_io_init(const struct lu_env *env, struct cl_object *obj,
765 CL_IO_SLICE_CLEAN(lov_env_io(env), lis_cl);
766 return LOV_2DISPATCH_MAYLOCK(cl2lov(obj), llo_io_init,
767 !io->ci_ignore_layout, env, obj, io);
771 * An implementation of cl_object_operations::clo_attr_get() method for lov
772 * layer. For raid0 layout this collects and merges attributes of all
775 static int lov_attr_get(const struct lu_env *env, struct cl_object *obj,
776 struct cl_attr *attr)
778 /* do not take lock, as this function is called under a
779 * spin-lock. Layout is protected from changing by ongoing IO. */
780 return LOV_2DISPATCH_NOLOCK(cl2lov(obj), llo_getattr, env, obj, attr);
783 static int lov_attr_set(const struct lu_env *env, struct cl_object *obj,
784 const struct cl_attr *attr, unsigned valid)
787 * No dispatch is required here, as no layout implements this.
792 int lov_lock_init(const struct lu_env *env, struct cl_object *obj,
793 struct cl_lock *lock, const struct cl_io *io)
795 /* No need to lock because we've taken one refcount of layout. */
796 return LOV_2DISPATCH_NOLOCK(cl2lov(obj), llo_lock_init, env, obj, lock,
800 static const struct cl_object_operations lov_ops = {
801 .coo_page_init = lov_page_init,
802 .coo_lock_init = lov_lock_init,
803 .coo_io_init = lov_io_init,
804 .coo_attr_get = lov_attr_get,
805 .coo_attr_set = lov_attr_set,
806 .coo_conf_set = lov_conf_set
809 static const struct lu_object_operations lov_lu_obj_ops = {
810 .loo_object_init = lov_object_init,
811 .loo_object_delete = lov_object_delete,
812 .loo_object_release = NULL,
813 .loo_object_free = lov_object_free,
814 .loo_object_print = lov_object_print,
815 .loo_object_invariant = NULL
818 struct lu_object *lov_object_alloc(const struct lu_env *env,
819 const struct lu_object_header *unused,
820 struct lu_device *dev)
822 struct lov_object *lov;
823 struct lu_object *obj;
826 OBD_SLAB_ALLOC_PTR_GFP(lov, lov_object_kmem, CFS_ALLOC_IO);
829 lu_object_init(obj, NULL, dev);
830 lov->lo_cl.co_ops = &lov_ops;
831 lov->lo_type = -1; /* invalid, to catch uninitialized type */
833 * object io operation vector (cl_object::co_iop) is installed
834 * later in lov_object_init(), as different vectors are used
835 * for object with different layouts.
837 obj->lo_ops = &lov_lu_obj_ops;
843 struct lov_stripe_md *lov_lsm_addref(struct lov_object *lov)
845 struct lov_stripe_md *lsm = NULL;
847 lov_conf_freeze(lov);
848 if (lov->lo_lsm != NULL) {
849 lsm = lsm_addref(lov->lo_lsm);
850 CDEBUG(D_INODE, "lsm %p addref %d/%d by %p.\n",
851 lsm, cfs_atomic_read(&lsm->lsm_refc),
852 lov->lo_layout_invalid, cfs_current());
858 void lov_lsm_decref(struct lov_object *lov, struct lov_stripe_md *lsm)
863 CDEBUG(D_INODE, "lsm %p decref %d by %p.\n",
864 lsm, cfs_atomic_read(&lsm->lsm_refc), cfs_current());
866 lov_free_memmd(&lsm);
869 struct lov_stripe_md *lov_lsm_get(struct cl_object *clobj)
871 struct lu_object *luobj;
872 struct lov_stripe_md *lsm = NULL;
877 luobj = lu_object_locate(&cl_object_header(clobj)->coh_lu,
880 lsm = lov_lsm_addref(lu2lov(luobj));
883 EXPORT_SYMBOL(lov_lsm_get);
885 void lov_lsm_put(struct cl_object *unused, struct lov_stripe_md *lsm)
888 lov_free_memmd(&lsm);
890 EXPORT_SYMBOL(lov_lsm_put);
892 int lov_read_and_clear_async_rc(struct cl_object *clob)
894 struct lu_object *luobj;
898 luobj = lu_object_locate(&cl_object_header(clob)->coh_lu,
901 struct lov_object *lov = lu2lov(luobj);
903 lov_conf_freeze(lov);
904 switch (lov->lo_type) {
906 struct lov_stripe_md *lsm;
910 LASSERT(lsm != NULL);
911 for (i = 0; i < lsm->lsm_stripe_count; i++) {
912 struct lov_oinfo *loi = lsm->lsm_oinfo[i];
913 if (loi->loi_ar.ar_rc && !rc)
914 rc = loi->loi_ar.ar_rc;
915 loi->loi_ar.ar_rc = 0;
927 EXPORT_SYMBOL(lov_read_and_clear_async_rc);