1 /* -*- mode: c; c-basic-offset: 8; indent-tabs-mode: nil; -*-
2 * vim:expandtab:shiftwidth=8:tabstop=8:
4 * linux/mds/mds_reint.c
5 * Lustre Metadata Server (mds) reintegration routines
7 * Copyright (C) 2002, 2003 Cluster File Systems, Inc.
8 * Author: Peter Braam <braam@clusterfs.com>
9 * Author: Andreas Dilger <adilger@clusterfs.com>
10 * Author: Phil Schwan <phil@clusterfs.com>
12 * This file is part of Lustre, http://www.lustre.org.
14 * Lustre is free software; you can redistribute it and/or
15 * modify it under the terms of version 2 of the GNU General Public
16 * License as published by the Free Software Foundation.
18 * Lustre is distributed in the hope that it will be useful,
19 * but WITHOUT ANY WARRANTY; without even the implied warranty of
20 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
21 * GNU General Public License for more details.
23 * You should have received a copy of the GNU General Public License
24 * along with Lustre; if not, write to the Free Software
25 * Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
29 # define EXPORT_SYMTAB
31 #define DEBUG_SUBSYSTEM S_MDS
34 #include <linux/obd_support.h>
35 #include <linux/obd_class.h>
36 #include <linux/obd.h>
37 #include <linux/lustre_lib.h>
38 #include <linux/lustre_idl.h>
39 #include <linux/lustre_mds.h>
40 #include <linux/lustre_dlm.h>
41 #include <linux/lustre_log.h>
42 #include <linux/lustre_fsfilt.h>
44 #include "mds_internal.h"
46 void mds_commit_cb(struct obd_device *obd, __u64 transno, void *data,
49 obd_transno_commit_cb(obd, transno, error);
52 struct mds_logcancel_data {
53 struct lov_mds_md *mlcd_lmm;
57 struct llog_cookie mlcd_cookies[0];
61 static void mds_cancel_cookies_cb(struct obd_device *obd, __u64 transno,
62 void *cb_data, int error)
64 struct mds_logcancel_data *mlcd = cb_data;
65 struct lov_stripe_md *lsm = NULL;
66 struct llog_ctxt *ctxt;
69 obd_transno_commit_cb(obd, transno, error);
71 CDEBUG(D_HA, "cancelling %d cookies\n",
72 (int)(mlcd->mlcd_cookielen / sizeof(*mlcd->mlcd_cookies)));
74 rc = obd_unpackmd(obd->u.mds.mds_osc_exp, &lsm, mlcd->mlcd_lmm,
75 mlcd->mlcd_eadatalen);
77 CERROR("bad LSM cancelling %d log cookies: rc %d\n",
78 (int)(mlcd->mlcd_cookielen/sizeof(*mlcd->mlcd_cookies)),
81 ///* XXX 0 normally, SENDNOW for debug */);
82 ctxt = llog_get_context(&obd->obd_llogs,
83 mlcd->mlcd_cookies[0].lgc_subsys + 1);
84 rc = llog_cancel(ctxt, mlcd->mlcd_cookielen /
85 sizeof(*mlcd->mlcd_cookies),
86 mlcd->mlcd_cookies, OBD_LLOG_FL_SENDNOW, lsm);
88 CERROR("error cancelling %d log cookies: rc %d\n",
89 (int)(mlcd->mlcd_cookielen /
90 sizeof(*mlcd->mlcd_cookies)), rc);
93 OBD_FREE(mlcd, mlcd->mlcd_size);
96 /* Assumes caller has already pushed us into the kernel context. */
97 int mds_finish_transno(struct mds_obd *mds, struct inode *inode, void *handle,
98 struct ptlrpc_request *req, int rc, __u32 op_data)
100 struct mds_export_data *med = &req->rq_export->exp_mds_data;
101 struct mds_client_data *mcd = med->med_mcd;
102 struct obd_device *obd = req->rq_export->exp_obd;
109 /* if the export has already been failed, we have no last_rcvd slot */
110 if (req->rq_export->exp_failed) {
111 CERROR("committing transaction for disconnected client\n");
120 if (handle == NULL) {
121 /* if we're starting our own xaction, use our own inode */
122 inode = mds->mds_rcvd_filp->f_dentry->d_inode;
123 handle = fsfilt_start(obd, inode, FSFILT_OP_SETATTR, NULL);
124 if (IS_ERR(handle)) {
125 CERROR("fsfilt_start: %ld\n", PTR_ERR(handle));
126 RETURN(PTR_ERR(handle));
132 transno = req->rq_reqmsg->transno;
134 LASSERT(transno == 0);
135 } else if (transno == 0) {
136 spin_lock(&mds->mds_transno_lock);
137 transno = ++mds->mds_last_transno;
138 spin_unlock(&mds->mds_transno_lock);
140 spin_lock(&mds->mds_transno_lock);
141 if (transno > mds->mds_last_transno)
142 mds->mds_last_transno = transno;
143 spin_unlock(&mds->mds_transno_lock);
145 req->rq_repmsg->transno = req->rq_transno = transno;
146 mcd->mcd_last_transno = cpu_to_le64(transno);
147 mcd->mcd_last_xid = cpu_to_le64(req->rq_xid);
148 mcd->mcd_last_result = cpu_to_le32(rc);
149 mcd->mcd_last_data = cpu_to_le32(op_data);
152 fsfilt_add_journal_cb(req->rq_export->exp_obd, mds->mds_sb,
153 transno, handle, mds_commit_cb, NULL);
155 err = fsfilt_write_record(obd, mds->mds_rcvd_filp, mcd, sizeof(*mcd),
164 DEBUG_REQ(log_pri, req,
165 "wrote trans #"LPU64" client %s at idx %u: err = %d",
166 transno, mcd->mcd_uuid, med->med_idx, err);
168 err = mds_lov_write_objids(obd);
174 CDEBUG(log_pri, "wrote objids: err = %d\n", err);
177 err = fsfilt_commit(obd, mds->mds_sb, inode, handle, 0);
179 CERROR("error committing transaction: %d\n", err);
187 /* this gives the same functionality as the code between
188 * sys_chmod and inode_setattr
189 * chown_common and inode_setattr
190 * utimes and inode_setattr
192 int mds_fix_attr(struct inode *inode, struct mds_update_record *rec)
194 time_t now = LTIME_S(CURRENT_TIME);
195 struct iattr *attr = &rec->ur_iattr;
196 unsigned int ia_valid = attr->ia_valid;
200 /* only fix up attrs if the client VFS didn't already */
201 if (!(ia_valid & ATTR_RAW))
204 if (!(ia_valid & ATTR_CTIME_SET))
205 LTIME_S(attr->ia_ctime) = now;
206 if (!(ia_valid & ATTR_ATIME_SET))
207 LTIME_S(attr->ia_atime) = now;
208 if (!(ia_valid & ATTR_MTIME_SET))
209 LTIME_S(attr->ia_mtime) = now;
211 if (IS_IMMUTABLE(inode) || IS_APPEND(inode))
215 if ((ia_valid & (ATTR_MTIME|ATTR_ATIME)) == (ATTR_MTIME|ATTR_ATIME)) {
216 if (rec->_ur_fsuid != inode->i_uid &&
217 (error = ll_permission(inode, MAY_WRITE, NULL)) != 0)
221 if (ia_valid & ATTR_SIZE) {
222 if ((error = ll_permission(inode, MAY_WRITE, NULL)) != 0)
226 if (ia_valid & ATTR_UID) {
229 if (IS_IMMUTABLE(inode) || IS_APPEND(inode))
231 if (attr->ia_uid == (uid_t) -1)
232 attr->ia_uid = inode->i_uid;
233 if (attr->ia_gid == (gid_t) -1)
234 attr->ia_gid = inode->i_gid;
235 attr->ia_mode = inode->i_mode;
237 * If the user or group of a non-directory has been
238 * changed by a non-root user, remove the setuid bit.
239 * 19981026 David C Niemi <niemi@tux.org>
241 * Changed this to apply to all users, including root,
242 * to avoid some races. This is the behavior we had in
243 * 2.0. The check for non-root was definitely wrong
244 * for 2.2 anyway, as it should have been using
245 * CAP_FSETID rather than fsuid -- 19990830 SD.
247 if ((inode->i_mode & S_ISUID) == S_ISUID &&
248 !S_ISDIR(inode->i_mode)) {
249 attr->ia_mode &= ~S_ISUID;
250 attr->ia_valid |= ATTR_MODE;
253 * Likewise, if the user or group of a non-directory
254 * has been changed by a non-root user, remove the
255 * setgid bit UNLESS there is no group execute bit
256 * (this would be a file marked for mandatory
257 * locking). 19981026 David C Niemi <niemi@tux.org>
259 * Removed the fsuid check (see the comment above) --
262 if (((inode->i_mode & (S_ISGID | S_IXGRP)) ==
263 (S_ISGID | S_IXGRP)) && !S_ISDIR(inode->i_mode)) {
264 attr->ia_mode &= ~S_ISGID;
265 attr->ia_valid |= ATTR_MODE;
267 } else if (ia_valid & ATTR_MODE) {
268 int mode = attr->ia_mode;
270 if (attr->ia_mode == (mode_t) -1)
271 attr->ia_mode = inode->i_mode;
273 (mode & S_IALLUGO) | (inode->i_mode & ~S_IALLUGO);
278 void mds_steal_ack_locks(struct ptlrpc_request *req)
280 struct obd_export *exp = req->rq_export;
281 struct list_head *tmp;
282 struct ptlrpc_reply_state *oldrep;
283 struct ptlrpc_service *svc;
285 char str[PTL_NALFMT_SIZE];
288 /* CAVEAT EMPTOR: spinlock order */
289 spin_lock_irqsave (&exp->exp_lock, flags);
290 list_for_each (tmp, &exp->exp_outstanding_replies) {
291 oldrep = list_entry(tmp, struct ptlrpc_reply_state,rs_exp_list);
293 if (oldrep->rs_xid != req->rq_xid)
296 if (oldrep->rs_msg.opc != req->rq_reqmsg->opc)
297 CERROR ("Resent req xid "LPX64" has mismatched opc: "
298 "new %d old %d\n", req->rq_xid,
299 req->rq_reqmsg->opc, oldrep->rs_msg.opc);
301 svc = oldrep->rs_srv_ni->sni_service;
302 spin_lock (&svc->srv_lock);
304 list_del_init (&oldrep->rs_exp_list);
306 CWARN("Stealing %d locks from rs %p x"LPD64".t"LPD64
308 oldrep->rs_nlocks, oldrep,
309 oldrep->rs_xid, oldrep->rs_transno, oldrep->rs_msg.opc,
310 ptlrpc_peernid2str(&exp->exp_connection->c_peer, str));
312 for (i = 0; i < oldrep->rs_nlocks; i++)
313 ptlrpc_save_lock(req,
314 &oldrep->rs_locks[i],
315 oldrep->rs_modes[i]);
316 oldrep->rs_nlocks = 0;
318 DEBUG_REQ(D_HA, req, "stole locks for");
319 ptlrpc_schedule_difficult_reply (oldrep);
321 spin_unlock (&svc->srv_lock);
322 spin_unlock_irqrestore (&exp->exp_lock, flags);
325 spin_unlock_irqrestore (&exp->exp_lock, flags);
328 void mds_req_from_mcd(struct ptlrpc_request *req, struct mds_client_data *mcd)
330 DEBUG_REQ(D_HA, req, "restoring transno "LPD64"/status %d",
331 mcd->mcd_last_transno, mcd->mcd_last_result);
332 req->rq_repmsg->transno = req->rq_transno = mcd->mcd_last_transno;
333 req->rq_repmsg->status = req->rq_status = mcd->mcd_last_result;
335 mds_steal_ack_locks(req);
338 static void reconstruct_reint_setattr(struct mds_update_record *rec,
339 int offset, struct ptlrpc_request *req)
341 struct mds_export_data *med = &req->rq_export->exp_mds_data;
342 struct mds_obd *obd = &req->rq_export->exp_obd->u.mds;
344 struct mds_body *body;
346 mds_req_from_mcd(req, med->med_mcd);
348 de = mds_fid2dentry(obd, rec->ur_fid1, NULL);
350 LASSERT(PTR_ERR(de) == req->rq_status);
354 body = lustre_msg_buf(req->rq_repmsg, 0, sizeof (*body));
355 mds_pack_inode2fid(req2obd(req), &body->fid1, de->d_inode);
356 mds_pack_inode2body(req2obd(req), body, de->d_inode);
358 /* Don't return OST-specific attributes if we didn't just set them */
359 if (rec->ur_iattr.ia_valid & ATTR_SIZE)
360 body->valid |= OBD_MD_FLSIZE | OBD_MD_FLBLOCKS;
361 if (rec->ur_iattr.ia_valid & (ATTR_MTIME | ATTR_MTIME_SET))
362 body->valid |= OBD_MD_FLMTIME;
363 if (rec->ur_iattr.ia_valid & (ATTR_ATIME | ATTR_ATIME_SET))
364 body->valid |= OBD_MD_FLATIME;
369 /* In the raw-setattr case, we lock the child inode.
370 * In the write-back case or if being called from open, the client holds a lock
373 * We use the ATTR_FROM_OPEN flag to tell these cases apart. */
374 static int mds_reint_setattr(struct mds_update_record *rec, int offset,
375 struct ptlrpc_request *req,
376 struct lustre_handle *lh)
378 struct mds_obd *mds = mds_req2mds(req);
379 struct obd_device *obd = req->rq_export->exp_obd;
380 struct mds_body *body;
382 struct inode *inode = NULL;
383 struct lustre_handle lockh[2] = {{0}, {0}};
386 struct mds_logcancel_data *mlcd = NULL;
387 int rc = 0, cleanup_phase = 0, err, locked = 0;
390 LASSERT(offset == 0);
392 DEBUG_REQ(D_INODE, req, "setattr "LPU64"/%u %x", rec->ur_fid1->id,
393 rec->ur_fid1->generation, rec->ur_iattr.ia_valid);
395 MDS_CHECK_RESENT(req, reconstruct_reint_setattr(rec, offset, req));
397 if (rec->ur_iattr.ia_valid & ATTR_FROM_OPEN) {
398 de = mds_fid2dentry(mds, rec->ur_fid1, NULL);
400 GOTO(cleanup, rc = PTR_ERR(de));
402 __u64 lockpart = MDS_INODELOCK_UPDATE;
403 if (rec->ur_iattr.ia_valid & (ATTR_MODE|ATTR_UID|ATTR_GID) )
404 lockpart |= MDS_INODELOCK_LOOKUP;
405 de = mds_fid2locked_dentry(obd, rec->ur_fid1, NULL, LCK_PW,
406 lockh, &parent_mode, NULL, 0, lockpart);
408 GOTO(cleanup, rc = PTR_ERR(de));
416 if ((S_ISREG(inode->i_mode) || S_ISDIR(inode->i_mode)) &&
417 rec->ur_eadata != NULL)
420 OBD_FAIL_WRITE(OBD_FAIL_MDS_REINT_SETATTR_WRITE, inode->i_sb);
422 handle = fsfilt_start(obd, inode, FSFILT_OP_SETATTR, NULL);
424 GOTO(cleanup, rc = PTR_ERR(handle));
426 if (rec->ur_iattr.ia_valid & (ATTR_MTIME | ATTR_CTIME))
427 CDEBUG(D_INODE, "setting mtime %lu, ctime %lu\n",
428 LTIME_S(rec->ur_iattr.ia_mtime),
429 LTIME_S(rec->ur_iattr.ia_ctime));
430 rc = mds_fix_attr(inode, rec);
434 if (rec->ur_iattr.ia_valid & ATTR_ATTR_FLAG) /* ioctl */
435 rc = fsfilt_iocontrol(obd, inode, NULL, EXT3_IOC_SETFLAGS,
436 (long)&rec->ur_iattr.ia_attr_flags);
438 rc = fsfilt_setattr(obd, de, handle, &rec->ur_iattr, 0);
440 if (rc == 0 && (S_ISREG(inode->i_mode) || S_ISDIR(inode->i_mode)) &&
441 rec->ur_eadata != NULL) {
442 struct lov_stripe_md *lsm = NULL;
444 rc = ll_permission(inode, MAY_WRITE, NULL);
448 rc = obd_iocontrol(OBD_IOC_LOV_SETSTRIPE,
449 mds->mds_osc_exp, 0, &lsm, rec->ur_eadata);
453 obd_free_memmd(mds->mds_osc_exp, &lsm);
455 rc = fsfilt_set_md(obd, inode, handle, rec->ur_eadata,
461 body = lustre_msg_buf(req->rq_repmsg, 0, sizeof (*body));
462 mds_pack_inode2fid(obd, &body->fid1, inode);
463 mds_pack_inode2body(obd, body, inode);
465 /* Don't return OST-specific attributes if we didn't just set them */
466 if (rec->ur_iattr.ia_valid & ATTR_SIZE)
467 body->valid |= OBD_MD_FLSIZE | OBD_MD_FLBLOCKS;
468 if (rec->ur_iattr.ia_valid & (ATTR_MTIME | ATTR_MTIME_SET))
469 body->valid |= OBD_MD_FLMTIME;
470 if (rec->ur_iattr.ia_valid & (ATTR_ATIME | ATTR_ATIME_SET))
471 body->valid |= OBD_MD_FLATIME;
473 if (rc == 0 && rec->ur_cookielen && !IS_ERR(mds->mds_osc_obd)) {
474 OBD_ALLOC(mlcd, sizeof(*mlcd) + rec->ur_cookielen +
477 mlcd->mlcd_size = sizeof(*mlcd) + rec->ur_cookielen +
479 mlcd->mlcd_eadatalen = rec->ur_eadatalen;
480 mlcd->mlcd_cookielen = rec->ur_cookielen;
481 mlcd->mlcd_lmm = (void *)&mlcd->mlcd_cookies +
482 mlcd->mlcd_cookielen;
483 memcpy(&mlcd->mlcd_cookies, rec->ur_logcookies,
484 mlcd->mlcd_cookielen);
485 memcpy(mlcd->mlcd_lmm, rec->ur_eadata,
486 mlcd->mlcd_eadatalen);
488 CERROR("unable to allocate log cancel data\n");
494 fsfilt_add_journal_cb(req->rq_export->exp_obd, mds->mds_sb, 0,
495 handle, mds_cancel_cookies_cb, mlcd);
496 err = mds_finish_transno(mds, inode, handle, req, rc, 0);
497 switch (cleanup_phase) {
499 if ((S_ISREG(inode->i_mode) || S_ISDIR(inode->i_mode)) &&
500 rec->ur_eadata != NULL)
505 if (lockh[1].cookie != 0)
506 ldlm_lock_decref(lockh + 1, parent_mode);
509 ldlm_lock_decref(lockh, LCK_PW);
511 ptlrpc_save_lock (req, lockh, LCK_PW);
526 static void reconstruct_reint_create(struct mds_update_record *rec, int offset,
527 struct ptlrpc_request *req)
529 struct mds_export_data *med = &req->rq_export->exp_mds_data;
530 struct mds_obd *obd = &req->rq_export->exp_obd->u.mds;
531 struct dentry *parent, *child;
532 struct mds_body *body;
535 mds_req_from_mcd(req, med->med_mcd);
537 if (req->rq_status) {
542 parent = mds_fid2dentry(obd, rec->ur_fid1, NULL);
543 LASSERT(!IS_ERR(parent));
544 child = ll_lookup_one_len(rec->ur_name, parent, rec->ur_namelen - 1);
545 LASSERT(!IS_ERR(child));
546 if ((child->d_flags & DCACHE_CROSS_REF)) {
547 LASSERTF(child->d_inode == NULL, "BUG 3869");
548 body = lustre_msg_buf(req->rq_repmsg, offset, sizeof (*body));
549 mds_pack_dentry2fid(&body->fid1, child);
550 mds_pack_dentry2body(body, child);
551 body->valid |= OBD_MD_MDS;
552 } else if (child->d_inode == NULL) {
553 DEBUG_REQ(D_ERROR, req, "parent "LPU64"/%u name %s mode %o",
554 rec->ur_fid1->id, rec->ur_fid1->generation,
555 rec->ur_name, rec->ur_mode);
556 LASSERTF(child->d_inode != NULL, "BUG 3869");
558 body = lustre_msg_buf(req->rq_repmsg, offset, sizeof (*body));
559 mds_pack_inode2fid(req2obd(req), &body->fid1, child->d_inode);
560 mds_pack_inode2body(req2obd(req), body, child->d_inode);
567 static int mds_reint_create(struct mds_update_record *rec, int offset,
568 struct ptlrpc_request *req,
569 struct lustre_handle *lh)
571 struct dentry *dparent = NULL;
572 struct mds_obd *mds = mds_req2mds(req);
573 struct obd_device *obd = req->rq_export->exp_obd;
574 struct dentry *dchild = NULL;
575 struct inode *dir = NULL;
577 struct lustre_handle lockh[2] = {{0}, {0}};
579 int rc = 0, err, type = rec->ur_mode & S_IFMT, cleanup_phase = 0;
581 struct dentry_params dp;
582 struct mea *mea = NULL;
586 LASSERT(offset == 0);
587 LASSERT(!strcmp(req->rq_export->exp_obd->obd_type->typ_name, LUSTRE_MDS_NAME));
589 DEBUG_REQ(D_INODE, req, "parent "LPU64"/%u name %s mode %o",
590 rec->ur_fid1->id, rec->ur_fid1->generation,
591 rec->ur_name, rec->ur_mode);
593 MDS_CHECK_RESENT(req, reconstruct_reint_create(rec, offset, req));
595 if (OBD_FAIL_CHECK(OBD_FAIL_MDS_REINT_CREATE))
596 GOTO(cleanup, rc = -ESTALE);
598 dparent = mds_fid2locked_dentry(obd, rec->ur_fid1, NULL, LCK_PW, lockh,
599 &parent_mode, rec->ur_name,
600 rec->ur_namelen - 1, MDS_INODELOCK_UPDATE);
601 if (IS_ERR(dparent)) {
602 rc = PTR_ERR(dparent);
603 CERROR("parent lookup error %d\n", rc);
606 cleanup_phase = 1; /* locked parent dentry */
607 dir = dparent->d_inode;
610 ldlm_lock_dump_handle(D_OTHER, lockh);
612 /* try to retrieve MEA data for this dir */
613 rc = mds_get_lmv_attr(obd, dparent->d_inode, &mea, &mea_size);
618 /* dir is already splitted, check is requested filename
619 * should live at this MDS or at another one */
621 i = mea_name2idx(mea, rec->ur_name, rec->ur_namelen - 1);
622 if (mea->mea_master != mea->mea_fids[i].mds) {
623 CDEBUG(D_OTHER, "inapropriate MDS(%d) for %lu/%u:%s."
624 " should be %d(%d)\n",
625 mea->mea_master, dparent->d_inode->i_ino,
626 dparent->d_inode->i_generation, rec->ur_name,
627 mea->mea_fids[i].mds, i);
628 GOTO(cleanup, rc = -ERESTART);
632 dchild = ll_lookup_one_len(rec->ur_name, dparent, rec->ur_namelen - 1);
633 if (IS_ERR(dchild)) {
634 rc = PTR_ERR(dchild);
635 CERROR("child lookup error %d\n", rc);
639 cleanup_phase = 2; /* child dentry */
641 OBD_FAIL_WRITE(OBD_FAIL_MDS_REINT_CREATE_WRITE, dir->i_sb);
643 if (type == S_IFREG || type == S_IFDIR) {
644 rc = mds_try_to_split_dir(obd, dparent, &mea, 0, parent_mode);
645 CDEBUG(D_OTHER, "%s: splitted %lu/%u - %d/%d\n",
646 obd->obd_name, dparent->d_inode->i_ino,
647 dparent->d_inode->i_generation, rc, parent_mode);
649 /* dir got splitted */
650 GOTO(cleanup, rc = -ERESTART);
652 /* error happened during spitting. */
657 if (dir->i_mode & S_ISGID) {
658 if (S_ISDIR(rec->ur_mode))
659 rec->ur_mode |= S_ISGID;
662 dchild->d_fsdata = (void *)&dp;
663 dp.p_inum = (unsigned long)rec->ur_fid2->id;
668 handle = fsfilt_start(obd, dir, FSFILT_OP_CREATE, NULL);
670 GOTO(cleanup, rc = PTR_ERR(handle));
671 rc = ll_vfs_create(dir, dchild, rec->ur_mode, NULL);
679 /* as Peter asked, mkdir() should distribute new directories
680 * over the whole cluster in order to distribute namespace
681 * processing load. first, we calculate which MDS to use to put
682 * new directory's inode in. */
683 i = mds_choose_mdsnum(obd, rec->ur_name, rec->ur_namelen - 1,
685 if (i == mds->mds_num) {
686 /* inode will be created locally */
687 handle = fsfilt_start(obd, dir, FSFILT_OP_MKDIR, NULL);
689 GOTO(cleanup, rc = PTR_ERR(handle));
691 rc = vfs_mkdir(dir, dchild, rec->ur_mode);
694 nstripes = *(u16 *)rec->ur_eadata;
696 if (rc == 0 && nstripes) {
697 /* we pass LCK_EX to split routine to
698 * signalthat we have exclusive access
699 * to the directory. simple because
700 * nobody knows it already exists -bzzz */
701 rc = mds_try_to_split_dir(obd, dchild,
705 /* dir got splitted */
708 /* an error occured during
713 } else if (!DENTRY_VALID(dchild)) {
714 /* inode will be created on another MDS */
715 struct obdo *oa = NULL;
716 struct mds_body *body;
718 /* first, create that inode */
723 if (rec->ur_eadata) {
724 /* user asks for creating splitted dir */
725 oa->o_easize = *((u16 *) rec->ur_eadata);
728 obdo_from_inode(oa, dir, OBD_MD_FLTYPE | OBD_MD_FLATIME |
729 OBD_MD_FLMTIME | OBD_MD_FLCTIME |
730 OBD_MD_FLUID | OBD_MD_FLGID);
731 oa->o_mode = dir->i_mode;
732 CDEBUG(D_OTHER, "%s: create dir on MDS %u\n",
734 if (lustre_msg_get_flags(req->rq_reqmsg) & MSG_REPLAY) {
735 CWARN("%s: replay dir creation %*s -> %u/%u\n",
736 obd->obd_name, rec->ur_namelen - 1,
737 rec->ur_name, (unsigned) rec->ur_fid2->id,
738 (unsigned) rec->ur_fid2->generation);
739 oa->o_id = rec->ur_fid2->id;
740 oa->o_generation = rec->ur_fid2->generation;
741 oa->o_flags |= OBD_FL_RECREATE_OBJS;
744 rc = obd_create(mds->mds_lmv_exp, oa, NULL, NULL);
750 /* now, add new dir entry for it */
751 handle = fsfilt_start(obd, dir, FSFILT_OP_MKDIR, NULL);
752 if (IS_ERR(handle)) {
754 GOTO(cleanup, rc = PTR_ERR(handle));
756 rc = fsfilt_add_dir_entry(obd, dparent, rec->ur_name,
758 oa->o_id, oa->o_generation,
763 body = lustre_msg_buf(req->rq_repmsg,
764 offset, sizeof (*body));
765 body->valid |= OBD_MD_FLID | OBD_MD_MDS;
766 body->fid1.id = oa->o_id;
768 body->fid1.generation = oa->o_generation;
771 /* requested name exists in the directory */
778 handle = fsfilt_start(obd, dir, FSFILT_OP_SYMLINK, NULL);
780 GOTO(cleanup, rc = PTR_ERR(handle));
781 if (rec->ur_tgt == NULL) /* no target supplied */
782 rc = -EINVAL; /* -EPROTO? */
784 rc = vfs_symlink(dir, dchild, rec->ur_tgt);
792 int rdev = rec->ur_rdev;
793 handle = fsfilt_start(obd, dir, FSFILT_OP_MKNOD, NULL);
795 GOTO(cleanup, (handle = NULL, rc = PTR_ERR(handle)));
796 rc = vfs_mknod(dir, dchild, rec->ur_mode, rdev);
801 CERROR("bad file type %o creating %s\n", type, rec->ur_name);
802 dchild->d_fsdata = NULL;
803 GOTO(cleanup, rc = -EINVAL);
806 /* In case we stored the desired inum in here, we want to clean up. */
807 if (dchild->d_fsdata == (void *)(unsigned long)rec->ur_fid2->id)
808 dchild->d_fsdata = NULL;
811 CDEBUG(D_INODE, "error during create: %d\n", rc);
813 } else if (dchild->d_inode) {
815 struct inode *inode = dchild->d_inode;
816 struct mds_body *body;
819 LTIME_S(iattr.ia_atime) = LTIME_S(rec->ur_time);
820 LTIME_S(iattr.ia_ctime) = LTIME_S(rec->ur_time);
821 LTIME_S(iattr.ia_mtime) = LTIME_S(rec->ur_time);
822 iattr.ia_uid = rec->_ur_fsuid;
823 if (dir->i_mode & S_ISGID)
824 iattr.ia_gid = dir->i_gid;
826 iattr.ia_gid = rec->_ur_fsgid;
827 iattr.ia_valid = ATTR_UID | ATTR_GID | ATTR_ATIME |
828 ATTR_MTIME | ATTR_CTIME;
830 if (rec->ur_fid2->id) {
831 LASSERT(rec->ur_fid2->id == inode->i_ino);
832 inode->i_generation = rec->ur_fid2->generation;
833 /* Dirtied and committed by the upcoming setattr. */
834 CDEBUG(D_INODE, "recreated ino %lu with gen %u\n",
835 inode->i_ino, inode->i_generation);
837 struct lustre_handle child_ino_lockh;
839 CDEBUG(D_INODE, "created ino %lu with gen %x\n",
840 inode->i_ino, inode->i_generation);
842 /* The inode we were allocated may have just been freed
843 * by an unlink operation. We take this lock to
844 * synchronize against the matching reply-ack-lock taken
845 * in unlink, to avoid replay problems if this reply
846 * makes it out to the client but the unlink's does not.
847 * See bug 2029 for more detail.*/
848 rc = mds_lock_new_child(obd, inode, &child_ino_lockh);
849 if (rc != ELDLM_OK) {
850 CERROR("error locking for unlink/create sync: "
853 ldlm_lock_decref(&child_ino_lockh, LCK_EX);
857 rc = fsfilt_setattr(obd, dchild, handle, &iattr, 0);
859 CERROR("error on child setattr: rc = %d\n", rc);
861 iattr.ia_valid = ATTR_MTIME | ATTR_CTIME;
862 rc = fsfilt_setattr(obd, dparent, handle, &iattr, 0);
864 CERROR("error on parent setattr: rc = %d\n", rc);
866 body = lustre_msg_buf(req->rq_repmsg, offset, sizeof (*body));
867 mds_pack_inode2fid(obd, &body->fid1, inode);
868 mds_pack_inode2body(obd, body, inode);
873 err = mds_finish_transno(mds, dir, handle, req, rc, 0);
876 /* Destroy the file we just created. This should not need extra
877 * journal credits, as we have already modified all of the
878 * blocks needed in order to create the file in the first
882 err = vfs_rmdir(dir, dchild);
884 CERROR("rmdir in error path: %d\n", err);
887 err = vfs_unlink(dir, dchild);
889 CERROR("unlink in error path: %d\n", err);
895 switch (cleanup_phase) {
896 case 2: /* child dentry */
898 case 1: /* locked parent dentry */
900 if (lockh[1].cookie != 0)
901 ldlm_lock_decref(lockh + 1, parent_mode);
904 ldlm_lock_decref(lockh, LCK_PW);
906 ptlrpc_save_lock(req, lockh, LCK_PW);
912 CERROR("invalid cleanup_phase %d\n", cleanup_phase);
916 OBD_FREE(mea, mea_size);
921 static int res_gt(struct ldlm_res_id *res1, struct ldlm_res_id *res2,
922 ldlm_policy_data_t *p1, ldlm_policy_data_t *p2)
926 for (i = 0; i < RES_NAME_SIZE; i++) {
927 /* return 1 here, because enqueue_ordered will skip resources
928 * of all zeroes if they're sorted to the end of the list. */
929 if (res1->name[i] == 0 && res2->name[i] != 0)
931 if (res2->name[i] == 0 && res1->name[i] != 0)
934 if (res1->name[i] > res2->name[i])
936 if (res1->name[i] < res2->name[i])
943 if (memcmp(p1, p2, sizeof(*p1)) < 0)
949 /* This function doesn't use ldlm_match_or_enqueue because we're always called
950 * with EX or PW locks, and the MDS is no longer allowed to match write locks,
951 * because they take the place of local semaphores.
953 * One or two locks are taken in numerical order. A res_id->name[0] of 0 means
954 * no lock is taken for that res_id. Must be at least one non-zero res_id. */
955 int enqueue_ordered_locks(struct obd_device *obd, struct ldlm_res_id *p1_res_id,
956 struct lustre_handle *p1_lockh, int p1_lock_mode,
957 ldlm_policy_data_t *p1_policy,
958 struct ldlm_res_id *p2_res_id,
959 struct lustre_handle *p2_lockh, int p2_lock_mode,
960 ldlm_policy_data_t *p2_policy)
962 struct ldlm_res_id *res_id[2] = { p1_res_id, p2_res_id };
963 struct lustre_handle *handles[2] = { p1_lockh, p2_lockh };
964 int lock_modes[2] = { p1_lock_mode, p2_lock_mode };
965 ldlm_policy_data_t *policies[2] = { p1_policy, p2_policy };
969 LASSERT(p1_res_id != NULL && p2_res_id != NULL);
971 CDEBUG(D_INFO, "locks before: "LPU64"/"LPU64"\n", res_id[0]->name[0],
974 if (res_gt(p1_res_id, p2_res_id, p1_policy, p2_policy)) {
975 handles[1] = p1_lockh;
976 handles[0] = p2_lockh;
977 res_id[1] = p1_res_id;
978 res_id[0] = p2_res_id;
979 lock_modes[1] = p1_lock_mode;
980 lock_modes[0] = p2_lock_mode;
981 policies[1] = p1_policy;
982 policies[0] = p2_policy;
985 CDEBUG(D_DLMTRACE, "lock order: "LPU64"/"LPU64"\n",
986 res_id[0]->name[0], res_id[1]->name[0]);
988 flags = LDLM_FL_LOCAL_ONLY;
989 rc = ldlm_cli_enqueue(NULL, NULL, obd->obd_namespace, *res_id[0],
990 LDLM_IBITS, policies[0], lock_modes[0], &flags,
991 mds_blocking_ast, ldlm_completion_ast, NULL, NULL,
992 NULL, 0, NULL, handles[0]);
995 ldlm_lock_dump_handle(D_OTHER, handles[0]);
997 if (!memcmp(res_id[0], res_id[1], sizeof(*res_id[0])) &&
998 (policies[0]->l_inodebits.bits & policies[1]->l_inodebits.bits)) {
999 memcpy(handles[1], handles[0], sizeof(*(handles[1])));
1000 ldlm_lock_addref(handles[1], lock_modes[1]);
1001 } else if (res_id[1]->name[0] != 0) {
1002 flags = LDLM_FL_LOCAL_ONLY;
1003 rc = ldlm_cli_enqueue(NULL, NULL, obd->obd_namespace,
1004 *res_id[1], LDLM_IBITS, policies[1],
1005 lock_modes[1], &flags, mds_blocking_ast,
1006 ldlm_completion_ast, NULL, NULL, NULL, 0,
1008 if (rc != ELDLM_OK) {
1009 ldlm_lock_decref(handles[0], lock_modes[0]);
1012 ldlm_lock_dump_handle(D_OTHER, handles[1]);
1018 int enqueue_4ordered_locks(struct obd_device *obd,struct ldlm_res_id *p1_res_id,
1019 struct lustre_handle *p1_lockh, int p1_lock_mode,
1020 ldlm_policy_data_t *p1_policy,
1021 struct ldlm_res_id *p2_res_id,
1022 struct lustre_handle *p2_lockh, int p2_lock_mode,
1023 ldlm_policy_data_t *p2_policy,
1024 struct ldlm_res_id *c1_res_id,
1025 struct lustre_handle *c1_lockh, int c1_lock_mode,
1026 ldlm_policy_data_t *c1_policy,
1027 struct ldlm_res_id *c2_res_id,
1028 struct lustre_handle *c2_lockh, int c2_lock_mode,
1029 ldlm_policy_data_t *c2_policy)
1031 struct ldlm_res_id *res_id[5] = { p1_res_id, p2_res_id,
1032 c1_res_id, c2_res_id };
1033 struct lustre_handle *dlm_handles[5] = { p1_lockh, p2_lockh,
1034 c1_lockh, c2_lockh };
1035 int lock_modes[5] = { p1_lock_mode, p2_lock_mode,
1036 c1_lock_mode, c2_lock_mode };
1037 ldlm_policy_data_t *policies[5] = { p1_policy, p2_policy,
1038 c1_policy, c2_policy};
1039 int rc, i, j, sorted, flags;
1043 "locks before: "LPU64"/"LPU64"/"LPU64"/"LPU64"\n",
1044 res_id[0]->name[0], res_id[1]->name[0], res_id[2]->name[0],
1045 res_id[3]->name[0]);
1047 /* simple insertion sort - we have at most 4 elements */
1048 for (i = 1; i < 4; i++) {
1050 dlm_handles[4] = dlm_handles[i];
1051 res_id[4] = res_id[i];
1052 lock_modes[4] = lock_modes[i];
1053 policies[4] = policies[i];
1057 if (res_gt(res_id[j], res_id[4], policies[j],
1059 dlm_handles[j + 1] = dlm_handles[j];
1060 res_id[j + 1] = res_id[j];
1061 lock_modes[j + 1] = lock_modes[j];
1062 policies[j + 1] = policies[j];
1067 } while (j >= 0 && !sorted);
1069 dlm_handles[j + 1] = dlm_handles[4];
1070 res_id[j + 1] = res_id[4];
1071 lock_modes[j + 1] = lock_modes[4];
1072 policies[j + 1] = policies[4];
1076 "lock order: "LPU64"/"LPU64"/"LPU64"/"LPU64"\n",
1077 res_id[0]->name[0], res_id[1]->name[0], res_id[2]->name[0],
1078 res_id[3]->name[0]);
1080 /* XXX we could send ASTs on all these locks first before blocking? */
1081 for (i = 0; i < 4; i++) {
1083 if (res_id[i]->name[0] == 0)
1086 !memcmp(res_id[i], res_id[i-1], sizeof(*res_id[i])) &&
1087 (policies[i]->l_inodebits.bits &
1088 policies[i-1]->l_inodebits.bits) ) {
1089 memcpy(dlm_handles[i], dlm_handles[i-1],
1090 sizeof(*(dlm_handles[i])));
1091 ldlm_lock_addref(dlm_handles[i], lock_modes[i]);
1093 rc = ldlm_cli_enqueue(NULL, NULL, obd->obd_namespace,
1094 *res_id[i], LDLM_IBITS,
1096 lock_modes[i], &flags,
1098 ldlm_completion_ast, NULL, NULL,
1099 NULL, 0, NULL, dlm_handles[i]);
1101 GOTO(out_err, rc = -EIO);
1102 ldlm_lock_dump_handle(D_OTHER, dlm_handles[i]);
1109 ldlm_lock_decref(dlm_handles[i], lock_modes[i]);
1114 /* In the unlikely case that the child changed while we were waiting
1115 * on the lock, we need to drop the lock on the old child and either:
1116 * - if the child has a lower resource name, then we have to also
1117 * drop the parent lock and regain the locks in the right order
1118 * - in the rename case, if the child has a lower resource name than one of
1119 * the other parent/child resources (maxres) we also need to reget the locks
1120 * - if the child has a higher resource name (this is the common case)
1121 * we can just get the lock on the new child (still in lock order)
1123 * Returns 0 if the child did not change or if it changed but could be locked.
1124 * Returns 1 if the child changed and we need to re-lock (no locks held).
1125 * Returns -ve error with a valid dchild (no locks held). */
1126 static int mds_verify_child(struct obd_device *obd,
1127 struct ldlm_res_id *parent_res_id,
1128 struct lustre_handle *parent_lockh,
1129 struct dentry *dparent, int parent_mode,
1130 struct ldlm_res_id *child_res_id,
1131 struct lustre_handle *child_lockh,
1132 struct dentry **dchildp, int child_mode,
1133 ldlm_policy_data_t *child_policy,
1134 const char *name, int namelen,
1135 struct ldlm_res_id *maxres)
1137 struct dentry *vchild, *dchild = *dchildp;
1138 int rc = 0, cleanup_phase = 2; /* parent, child locks */
1141 vchild = ll_lookup_one_len(name, dparent, namelen - 1);
1143 GOTO(cleanup, rc = PTR_ERR(vchild));
1145 if ((vchild->d_flags & DCACHE_CROSS_REF)) {
1146 if (child_res_id->name[0] == vchild->d_inum &&
1147 child_res_id->name[1] == vchild->d_generation) {
1156 if (likely((vchild->d_inode == NULL && child_res_id->name[0] == 0) ||
1157 (vchild->d_inode != NULL &&
1158 child_res_id->name[0] == vchild->d_inode->i_ino &&
1159 child_res_id->name[1] == vchild->d_inode->i_generation))) {
1168 CDEBUG(D_DLMTRACE, "child inode changed: %p != %p (%lu != "LPU64")\n",
1169 vchild->d_inode, dchild ? dchild->d_inode : 0,
1170 vchild->d_inode ? vchild->d_inode->i_ino : 0,
1171 child_res_id->name[0]);
1172 if (child_res_id->name[0] != 0)
1173 ldlm_lock_decref(child_lockh, child_mode);
1177 cleanup_phase = 1; /* parent lock only */
1178 *dchildp = dchild = vchild;
1180 if (dchild->d_inode || (dchild->d_flags & DCACHE_CROSS_REF)) {
1182 if (dchild->d_inode) {
1183 child_res_id->name[0] = dchild->d_inode->i_ino;
1184 child_res_id->name[1] = dchild->d_inode->i_generation;
1186 child_res_id->name[0] = dchild->d_inum;
1187 child_res_id->name[1] = dchild->d_generation;
1190 if (res_gt(parent_res_id, child_res_id, NULL, NULL) ||
1191 res_gt(maxres, child_res_id, NULL, NULL)) {
1192 CDEBUG(D_DLMTRACE, "relock "LPU64"<("LPU64"|"LPU64")\n",
1193 child_res_id->name[0], parent_res_id->name[0],
1195 GOTO(cleanup, rc = 1);
1198 rc = ldlm_cli_enqueue(NULL, NULL, obd->obd_namespace,
1199 *child_res_id, LDLM_IBITS, child_policy,
1200 child_mode, &flags, mds_blocking_ast,
1201 ldlm_completion_ast, NULL, NULL, NULL, 0,
1204 GOTO(cleanup, rc = -EIO);
1207 memset(child_res_id, 0, sizeof(*child_res_id));
1213 switch(cleanup_phase) {
1215 if (child_res_id->name[0] != 0)
1216 ldlm_lock_decref(child_lockh, child_mode);
1218 ldlm_lock_decref(parent_lockh, parent_mode);
1224 int mds_get_parent_child_locked(struct obd_device *obd, struct mds_obd *mds,
1226 struct lustre_handle *parent_lockh,
1227 struct dentry **dparentp, int parent_mode,
1228 __u64 parent_lockpart, int *update_mode,
1229 char *name, int namelen,
1230 struct lustre_handle *child_lockh,
1231 struct dentry **dchildp, int child_mode,
1232 __u64 child_lockpart, void *clone_info)
1234 struct ldlm_res_id child_res_id = { .name = {0} };
1235 struct ldlm_res_id parent_res_id = { .name = {0} };
1236 ldlm_policy_data_t parent_policy = {.l_inodebits = { parent_lockpart }};
1237 ldlm_policy_data_t child_policy = {.l_inodebits = { child_lockpart }};
1238 struct inode *inode;
1239 int rc = 0, cleanup_phase = 0;
1242 /* Step 1: Lookup parent */
1243 *dparentp = mds_fid2dentry(mds, fid, NULL);
1244 if (IS_ERR(*dparentp)) {
1245 rc = PTR_ERR(*dparentp);
1250 CDEBUG(D_INODE, "parent ino %lu, name %s\n",
1251 (*dparentp)->d_inode->i_ino, name);
1253 parent_res_id.name[0] = (*dparentp)->d_inode->i_ino;
1254 parent_res_id.name[1] = (*dparentp)->d_inode->i_generation;
1256 parent_lockh[1].cookie = 0;
1257 if (name && IS_PDIROPS((*dparentp)->d_inode)) {
1258 struct ldlm_res_id res_id = { .name = {0} };
1259 ldlm_policy_data_t policy;
1261 *update_mode = mds_lock_mode_for_dir(obd, *dparentp, parent_mode);
1263 res_id.name[0] = (*dparentp)->d_inode->i_ino;
1264 res_id.name[1] = (*dparentp)->d_inode->i_generation;
1265 policy.l_inodebits.bits = MDS_INODELOCK_UPDATE;
1266 rc = ldlm_cli_enqueue(NULL, NULL, obd->obd_namespace,
1267 res_id, LDLM_IBITS, &policy,
1268 *update_mode, &flags,
1270 ldlm_completion_ast,
1271 NULL, NULL, NULL, 0, NULL,
1277 parent_res_id.name[2] = full_name_hash(name, namelen - 1);
1278 CDEBUG(D_INFO, "take lock on %lu:%u:"LPX64"\n",
1279 (*dparentp)->d_inode->i_ino,
1280 (*dparentp)->d_inode->i_generation,
1281 parent_res_id.name[2]);
1285 cleanup_phase = 1; /* parent dentry */
1286 #ifdef CONFIG_SNAPFS
1288 /*FIXME is there any other FUNC will use d_fsdata,
1289 *excepet creating inode according inum*/
1290 (*dparentp)->d_fsdata = clone_info;
1294 /* Step 2: Lookup child (without DLM lock, to get resource name) */
1295 *dchildp = ll_lookup_one_len(name, *dparentp, namelen - 1);
1296 if (IS_ERR(*dchildp)) {
1297 rc = PTR_ERR(*dchildp);
1298 CDEBUG(D_INODE, "child lookup error %d\n", rc);
1302 if ((*dchildp)->d_flags & DCACHE_CROSS_REF) {
1303 /* inode lives on another MDS: return * mds/ino/gen
1304 * and LOOKUP lock. drop possible UPDATE lock! */
1305 child_policy.l_inodebits.bits &= ~MDS_INODELOCK_UPDATE;
1306 child_policy.l_inodebits.bits |= MDS_INODELOCK_LOOKUP;
1307 child_res_id.name[0] = (*dchildp)->d_inum;
1308 child_res_id.name[1] = (*dchildp)->d_generation;
1312 inode = (*dchildp)->d_inode;
1314 inode = igrab(inode);
1318 child_res_id.name[0] = inode->i_ino;
1319 child_res_id.name[1] = inode->i_generation;
1324 cleanup_phase = 2; /* child dentry */
1326 /* Step 3: Lock parent and child in resource order. If child doesn't
1327 * exist, we still have to lock the parent and re-lookup. */
1328 rc = enqueue_ordered_locks(obd,&parent_res_id,parent_lockh,parent_mode,
1329 &parent_policy, &child_res_id, child_lockh,
1330 child_mode, &child_policy);
1334 if ((*dchildp)->d_inode || ((*dchildp)->d_flags & DCACHE_CROSS_REF))
1335 cleanup_phase = 4; /* child lock */
1337 cleanup_phase = 3; /* parent lock */
1339 /* Step 4: Re-lookup child to verify it hasn't changed since locking */
1340 rc = mds_verify_child(obd, &parent_res_id, parent_lockh, *dparentp,
1341 parent_mode, &child_res_id, child_lockh,
1342 dchildp, child_mode, &child_policy,
1343 name, namelen, &parent_res_id);
1353 switch (cleanup_phase) {
1355 ldlm_lock_decref(child_lockh, child_mode);
1357 ldlm_lock_decref(parent_lockh, parent_mode);
1362 if (parent_lockh[1].cookie)
1363 ldlm_lock_decref(parent_lockh + 1, *update_mode);
1372 void mds_reconstruct_generic(struct ptlrpc_request *req)
1374 struct mds_export_data *med = &req->rq_export->exp_mds_data;
1376 mds_req_from_mcd(req, med->med_mcd);
1379 int mds_create_local_dentry(struct mds_update_record *rec,
1380 struct obd_device *obd)
1382 struct mds_obd *mds = &obd->u.mds;
1383 struct inode *fids_dir = mds->mds_fids_dir->d_inode;
1384 int fidlen = 0, rc, cleanup_phase = 0;
1385 struct dentry *new_child = NULL;
1386 char *fidname = rec->ur_name;
1387 struct dentry *child = NULL;
1388 struct lustre_handle lockh[2] = {{0}, {0}};
1392 down(&fids_dir->i_sem);
1393 fidlen = ll_fid2str(fidname, rec->ur_fid1->id, rec->ur_fid1->generation);
1394 CDEBUG(D_OTHER, "look for local dentry '%s' for %u/%u\n",
1395 fidname, (unsigned) rec->ur_fid1->id,
1396 (unsigned) rec->ur_fid1->generation);
1398 new_child = lookup_one_len(fidname, mds->mds_fids_dir, fidlen);
1399 up(&fids_dir->i_sem);
1400 if (IS_ERR(new_child)) {
1401 CERROR("can't lookup %s: %d\n", fidname,
1402 (int) PTR_ERR(new_child));
1403 GOTO(cleanup, rc = PTR_ERR(new_child));
1407 if (new_child->d_inode != NULL) {
1408 /* nice. we've already have local dentry! */
1409 CDEBUG(D_OTHER, "found dentry in FIDS/: %u/%u\n",
1410 (unsigned) new_child->d_inode->i_ino,
1411 (unsigned) new_child->d_inode->i_generation);
1412 rec->ur_fid1->id = fids_dir->i_ino;
1413 rec->ur_fid1->generation = fids_dir->i_generation;
1414 rec->ur_namelen = fidlen + 1;
1415 GOTO(cleanup, rc = 0);
1418 /* new, local dentry will be added soon. we need no aliases here */
1421 if (rec->ur_mode & MDS_MODE_DONT_LOCK) {
1422 child = mds_fid2dentry(mds, rec->ur_fid1, NULL);
1424 child = mds_fid2locked_dentry(obd, rec->ur_fid1, NULL,
1425 LCK_EX, lockh, NULL, NULL, 0,
1426 MDS_INODELOCK_UPDATE);
1429 if (IS_ERR(child)) {
1430 CERROR("can't get victim: %d\n", (int) PTR_ERR(child));
1431 GOTO(cleanup, rc = PTR_ERR(child));
1435 handle = fsfilt_start(obd, fids_dir, FSFILT_OP_LINK, NULL);
1437 GOTO(cleanup, rc = PTR_ERR(handle));
1439 rc = fsfilt_add_dir_entry(obd, mds->mds_fids_dir, fidname, fidlen,
1440 rec->ur_fid1->id, rec->ur_fid1->generation,
1443 CERROR("error linking orphan %lu/%lu to FIDS: rc = %d\n",
1444 (unsigned long) child->d_inode->i_ino,
1445 (unsigned long) child->d_inode->i_generation, rc);
1447 if (S_ISDIR(child->d_inode->i_mode)) {
1448 fids_dir->i_nlink++;
1449 mark_inode_dirty(fids_dir);
1451 mark_inode_dirty(child->d_inode);
1453 fsfilt_commit(obd, mds->mds_sb, fids_dir, handle, 0);
1455 rec->ur_fid1->id = fids_dir->i_ino;
1456 rec->ur_fid1->generation = fids_dir->i_generation;
1457 rec->ur_namelen = fidlen + 1;
1460 switch(cleanup_phase) {
1462 if (!(rec->ur_mode & MDS_MODE_DONT_LOCK))
1463 ldlm_lock_decref(lockh, LCK_EX);
1473 static int mds_copy_unlink_reply(struct ptlrpc_request *master,
1474 struct ptlrpc_request *slave)
1476 void *cookie, *cookie2;
1477 struct mds_body *body2;
1478 struct mds_body *body;
1482 body = lustre_msg_buf(slave->rq_repmsg, 0, sizeof(*body));
1483 LASSERT(body != NULL);
1485 body2 = lustre_msg_buf(master->rq_repmsg, 0, sizeof (*body));
1486 LASSERT(body2 != NULL);
1488 if (!(body->valid & (OBD_MD_FLID | OBD_MD_FLGENER))) {
1492 memcpy(body2, body, sizeof(*body));
1493 body2->valid &= ~OBD_MD_FLCOOKIE;
1495 if (!(body->valid & OBD_MD_FLEASIZE) &&
1496 !(body->valid & OBD_MD_FLDIREA))
1499 if (body->eadatasize == 0) {
1500 CERROR("OBD_MD_FLEASIZE set but eadatasize zero\n");
1504 LASSERT(master->rq_repmsg->buflens[1] >= body->eadatasize);
1506 ea = lustre_msg_buf(slave->rq_repmsg, 1, body->eadatasize);
1507 LASSERT(ea != NULL);
1509 ea2 = lustre_msg_buf(master->rq_repmsg, 1, body->eadatasize);
1510 LASSERT(ea2 != NULL);
1512 memcpy(ea2, ea, body->eadatasize);
1514 if (body->valid & OBD_MD_FLCOOKIE) {
1515 LASSERT(master->rq_repmsg->buflens[2] >=
1516 slave->rq_repmsg->buflens[2]);
1517 cookie = lustre_msg_buf(slave->rq_repmsg, 2,
1518 slave->rq_repmsg->buflens[2]);
1519 LASSERT(cookie != NULL);
1521 cookie2 = lustre_msg_buf(master->rq_repmsg, 2,
1522 master->rq_repmsg->buflens[2]);
1523 LASSERT(cookie2 != NULL);
1524 memcpy(cookie2, cookie, slave->rq_repmsg->buflens[2]);
1525 body2->valid |= OBD_MD_FLCOOKIE;
1530 static int mds_reint_unlink_remote(struct mds_update_record *rec, int offset,
1531 struct ptlrpc_request *req,
1532 struct lustre_handle *parent_lockh,
1534 struct dentry *dparent,
1535 struct lustre_handle *child_lockh,
1536 struct dentry *dchild)
1538 struct obd_device *obd = req->rq_export->exp_obd;
1539 struct mds_obd *mds = mds_req2mds(req);
1540 struct mdc_op_data op_data;
1541 int rc = 0, cleanup_phase = 0;
1542 struct ptlrpc_request *request = NULL;
1546 LASSERT(offset == 0 || offset == 2);
1548 DEBUG_REQ(D_INODE, req, "unlink %*s (remote inode %u/%u/%u)",
1549 rec->ur_namelen - 1, rec->ur_name, (unsigned)dchild->d_mdsnum,
1550 (unsigned) dchild->d_inum, (unsigned) dchild->d_generation);
1551 if (lustre_msg_get_flags(req->rq_reqmsg) & MSG_REPLAY)
1552 DEBUG_REQ(D_HA, req, "unlink %*s (remote inode %u/%u/%u)",
1553 rec->ur_namelen - 1, rec->ur_name,
1554 (unsigned)dchild->d_mdsnum,
1555 (unsigned) dchild->d_inum,
1556 (unsigned) dchild->d_generation);
1558 /* time to drop i_nlink on remote MDS */
1559 memset(&op_data, 0, sizeof(op_data));
1560 op_data.fid1.mds = dchild->d_mdsnum;
1561 op_data.fid1.id = dchild->d_inum;
1562 op_data.fid1.generation = dchild->d_generation;
1563 op_data.create_mode = rec->ur_mode;
1564 if (lustre_msg_get_flags(req->rq_reqmsg) & MSG_REPLAY)
1565 op_data.create_mode |= MDS_MODE_REPLAY;
1566 rc = md_unlink(mds->mds_lmv_exp, &op_data, &request);
1570 mds_copy_unlink_reply(req, request);
1571 ptlrpc_req_finished(request);
1574 handle = fsfilt_start(obd, dparent->d_inode, FSFILT_OP_RMDIR,
1577 GOTO(cleanup, rc = PTR_ERR(handle));
1578 rc = fsfilt_del_dir_entry(req->rq_export->exp_obd, dchild);
1579 rc = mds_finish_transno(mds, dparent->d_inode, handle, req,
1583 req->rq_status = rc;
1586 if (parent_lockh[1].cookie != 0)
1587 ldlm_lock_decref(parent_lockh + 1, update_mode);
1589 ldlm_lock_decref(child_lockh, LCK_EX);
1591 ldlm_lock_decref(parent_lockh, LCK_PW);
1593 ptlrpc_save_lock(req, parent_lockh, LCK_PW);
1600 static int mds_reint_unlink(struct mds_update_record *rec, int offset,
1601 struct ptlrpc_request *req,
1602 struct lustre_handle *lh)
1604 struct dentry *dparent, *dchild;
1605 struct mds_obd *mds = mds_req2mds(req);
1606 struct obd_device *obd = req->rq_export->exp_obd;
1607 struct mds_body *body = NULL;
1608 struct inode *child_inode;
1609 struct lustre_handle parent_lockh[2] = {{0}, {0}};
1610 struct lustre_handle child_lockh = {0}, child_reuse_lockh = {0};
1611 struct lustre_handle * slave_lockh = NULL;
1612 char fidname[LL_FID_NAMELEN];
1613 void *handle = NULL;
1614 int rc = 0, log_unlink = 0, cleanup_phase = 0;
1615 int unlink_by_fid = 0;
1619 LASSERT(offset == 0 || offset == 2);
1621 DEBUG_REQ(D_INODE, req, "parent ino "LPU64"/%u, child %s",
1622 rec->ur_fid1->id, rec->ur_fid1->generation, rec->ur_name);
1624 MDS_CHECK_RESENT(req, mds_reconstruct_generic(req));
1626 if (OBD_FAIL_CHECK(OBD_FAIL_MDS_REINT_UNLINK))
1627 GOTO(cleanup, rc = -ENOENT);
1629 if (rec->ur_namelen == 1) {
1630 /* this is request to drop i_nlink on local inode */
1632 rec->ur_name = fidname;
1633 rc = mds_create_local_dentry(rec, obd);
1634 if (rc == -ENOENT || (rec->ur_mode & MDS_MODE_REPLAY)) {
1635 DEBUG_REQ(D_HA, req,
1636 "drop nlink on inode %u/%u/%u (replay)",
1637 (unsigned) rec->ur_fid1->mds,
1638 (unsigned) rec->ur_fid1->id,
1639 (unsigned) rec->ur_fid1->generation);
1645 if (rec->ur_mode & MDS_MODE_DONT_LOCK) {
1646 /* master mds for directory asks slave removing
1647 * inode is already locked */
1648 dparent = mds_fid2locked_dentry(obd, rec->ur_fid1, NULL,
1649 LCK_PW, parent_lockh,
1650 &update_mode, rec->ur_name,
1652 MDS_INODELOCK_UPDATE);
1653 if (IS_ERR(dparent))
1654 GOTO(cleanup, rc = PTR_ERR(dparent));
1655 dchild = ll_lookup_one_len(rec->ur_name, dparent,
1656 rec->ur_namelen - 1);
1658 GOTO(cleanup, rc = PTR_ERR(dchild));
1659 child_lockh.cookie = 0;
1660 LASSERT(!(dchild->d_flags & DCACHE_CROSS_REF));
1661 LASSERT(dchild->d_inode != NULL);
1662 LASSERT(S_ISDIR(dchild->d_inode->i_mode));
1664 rc = mds_get_parent_child_locked(obd, mds, rec->ur_fid1,
1665 parent_lockh, &dparent,
1666 LCK_PW, MDS_INODELOCK_UPDATE,
1667 &update_mode, rec->ur_name,
1668 rec->ur_namelen, &child_lockh,
1670 MDS_INODELOCK_LOOKUP |
1671 MDS_INODELOCK_UPDATE, NULL);
1676 if (dchild->d_flags & DCACHE_CROSS_REF) {
1677 /* we should have parent lock only here */
1678 LASSERT(unlink_by_fid == 0);
1679 LASSERT(dchild->d_mdsnum != mds->mds_num);
1680 mds_reint_unlink_remote(rec, offset, req, parent_lockh,
1681 update_mode, dparent, &child_lockh, dchild);
1685 cleanup_phase = 1; /* dchild, dparent, locks */
1688 child_inode = dchild->d_inode;
1689 if (child_inode == NULL) {
1690 CDEBUG(D_INODE, "child doesn't exist (dir %lu, name %s)\n",
1691 dparent ? dparent->d_inode->i_ino : 0, rec->ur_name);
1692 GOTO(cleanup, rc = -ENOENT);
1695 cleanup_phase = 2; /* dchild has a lock */
1697 /* We have to do these checks ourselves, in case we are making an
1698 * orphan. The client tells us whether rmdir() or unlink() was called,
1699 * so we need to return appropriate errors (bug 72).
1701 * We don't have to check permissions, because vfs_rename (called from
1702 * mds_open_unlink_rename) also calls may_delete. */
1703 if ((rec->ur_mode & S_IFMT) == S_IFDIR) {
1704 if (!S_ISDIR(child_inode->i_mode))
1705 GOTO(cleanup, rc = -ENOTDIR);
1707 if (S_ISDIR(child_inode->i_mode))
1708 GOTO(cleanup, rc = -EISDIR);
1711 /* handle splitted dir */
1712 rc = mds_lock_slave_objs(obd, dchild, &slave_lockh);
1716 /* Step 4: Get a lock on the ino to sync with creation WRT inode
1717 * reuse (see bug 2029). */
1718 rc = mds_lock_new_child(obd, child_inode, &child_reuse_lockh);
1722 cleanup_phase = 3; /* child inum lock */
1724 OBD_FAIL_WRITE(OBD_FAIL_MDS_REINT_UNLINK_WRITE, dparent->d_inode->i_sb);
1726 /* ldlm_reply in buf[0] if called via intent */
1730 body = lustre_msg_buf(req->rq_repmsg, offset, sizeof (*body));
1731 LASSERT(body != NULL);
1733 /* If this is the last reference to this inode, get the OBD EA
1734 * data first so the client can destroy OST objects.
1735 * we only do the object removal if no open files remain.
1736 * Nobody can get at this name anymore because of the locks so
1737 * we make decisions here as to whether to remove the inode */
1738 if (S_ISREG(child_inode->i_mode) && child_inode->i_nlink == 1 &&
1739 mds_open_orphan_count(child_inode) == 0) {
1740 mds_pack_inode2fid(obd, &body->fid1, child_inode);
1741 mds_pack_inode2body(obd, body, child_inode);
1742 mds_pack_md(obd, req->rq_repmsg, offset + 1, body,
1744 if (!(body->valid & OBD_MD_FLEASIZE)) {
1745 body->valid |= (OBD_MD_FLSIZE | OBD_MD_FLBLOCKS |
1746 OBD_MD_FLATIME | OBD_MD_FLMTIME);
1752 /* Step 4: Do the unlink: we already verified ur_mode above (bug 72) */
1753 switch (child_inode->i_mode & S_IFMT) {
1755 /* Drop any lingering child directories before we start our
1756 * transaction, to avoid doing multiple inode dirty/delete
1757 * in our compound transaction (bug 1321). */
1758 shrink_dcache_parent(dchild);
1759 handle = fsfilt_start(obd, dparent->d_inode, FSFILT_OP_RMDIR,
1762 GOTO(cleanup, rc = PTR_ERR(handle));
1763 cleanup_phase = 4; /* transaction */
1764 rc = vfs_rmdir(dparent->d_inode, dchild);
1767 #warning "optimization is possible here: we could drop nlink w/o removing local dentry in FIDS/"
1768 struct lov_mds_md *lmm = lustre_msg_buf(req->rq_repmsg,
1770 handle = fsfilt_start_log(obd, dparent->d_inode,
1771 FSFILT_OP_UNLINK, NULL,
1772 le32_to_cpu(lmm->lmm_stripe_count));
1774 GOTO(cleanup, rc = PTR_ERR(handle));
1776 cleanup_phase = 4; /* transaction */
1777 rc = vfs_unlink(dparent->d_inode, dchild);
1779 if (!rc && log_unlink)
1780 if (mds_log_op_unlink(obd, child_inode,
1781 lustre_msg_buf(req->rq_repmsg, offset + 1, 0),
1782 req->rq_repmsg->buflens[offset + 1],
1783 lustre_msg_buf(req->rq_repmsg, offset + 2, 0),
1784 req->rq_repmsg->buflens[offset + 2]) > 0)
1785 body->valid |= OBD_MD_FLCOOKIE;
1793 handle = fsfilt_start(obd, dparent->d_inode, FSFILT_OP_UNLINK,
1796 GOTO(cleanup, rc = PTR_ERR(handle));
1797 cleanup_phase = 4; /* transaction */
1798 rc = vfs_unlink(dparent->d_inode, dchild);
1801 CERROR("bad file type %o unlinking %s\n", rec->ur_mode,
1804 GOTO(cleanup, rc = -EINVAL);
1812 iattr.ia_valid = ATTR_MTIME | ATTR_CTIME;
1813 LTIME_S(iattr.ia_mtime) = LTIME_S(rec->ur_time);
1814 LTIME_S(iattr.ia_ctime) = LTIME_S(rec->ur_time);
1816 err = fsfilt_setattr(obd, dparent, handle, &iattr, 0);
1818 CERROR("error on parent setattr: rc = %d\n", err);
1821 switch(cleanup_phase) {
1823 LASSERT(dchild != NULL && dchild->d_inode != NULL);
1824 LASSERT(atomic_read(&dchild->d_inode->i_count) > 0);
1825 if (rc == 0 && dchild->d_inode->i_nlink == 0 &&
1826 mds_open_orphan_count(dchild->d_inode) > 0) {
1828 /* filesystem is really going to destroy an inode
1829 * we have to delay this till inode is opened -bzzz */
1830 mds_open_unlink_rename(rec, obd, dparent, dchild, NULL);
1832 /* handle splitted dir */
1833 mds_unlink_slave_objs(obd, dchild);
1834 rc = mds_finish_transno(mds, dparent->d_inode, handle, req,
1837 (void)obd_set_info(mds->mds_osc_exp, strlen("unlinked"),
1838 "unlinked", 0, NULL);
1839 case 3: /* child ino-reuse lock */
1840 if (rc && body != NULL) {
1841 // Don't unlink the OST objects if the MDS unlink failed
1845 ldlm_lock_decref(&child_reuse_lockh, LCK_EX);
1847 ptlrpc_save_lock(req, &child_reuse_lockh, LCK_EX);
1848 case 2: /* child lock */
1849 mds_unlock_slave_objs(obd, dchild, slave_lockh);
1850 if (child_lockh.cookie)
1851 ldlm_lock_decref(&child_lockh, LCK_EX);
1852 case 1: /* child and parent dentry, parent lock */
1854 if (parent_lockh[1].cookie != 0)
1855 ldlm_lock_decref(parent_lockh + 1, update_mode);
1858 ldlm_lock_decref(parent_lockh, LCK_PW);
1860 ptlrpc_save_lock(req, parent_lockh, LCK_PW);
1867 CERROR("invalid cleanup_phase %d\n", cleanup_phase);
1870 req->rq_status = rc;
1875 * to service requests from remote MDS to increment i_nlink
1877 static int mds_reint_link_acquire(struct mds_update_record *rec,
1878 int offset, struct ptlrpc_request *req,
1879 struct lustre_handle *lh)
1881 struct obd_device *obd = req->rq_export->exp_obd;
1882 struct ldlm_res_id src_res_id = { .name = {0} };
1883 struct lustre_handle *handle = NULL, src_lockh = {0};
1884 struct mds_obd *mds = mds_req2mds(req);
1885 int rc = 0, cleanup_phase = 0;
1886 struct dentry *de_src = NULL;
1887 ldlm_policy_data_t policy;
1891 DEBUG_REQ(D_INODE, req, "%s: request to acquire i_nlinks %u/%u/%u\n",
1892 obd->obd_name, (unsigned) rec->ur_fid1->mds,
1893 (unsigned) rec->ur_fid1->id,
1894 (unsigned) rec->ur_fid1->generation);
1896 /* Step 1: Lookup the source inode and target directory by FID */
1897 de_src = mds_fid2dentry(mds, rec->ur_fid1, NULL);
1899 GOTO(cleanup, rc = PTR_ERR(de_src));
1900 cleanup_phase = 1; /* source dentry */
1902 src_res_id.name[0] = de_src->d_inode->i_ino;
1903 src_res_id.name[1] = de_src->d_inode->i_generation;
1904 policy.l_inodebits.bits = MDS_INODELOCK_UPDATE;
1906 rc = ldlm_cli_enqueue(NULL, NULL, obd->obd_namespace,
1907 src_res_id, LDLM_IBITS, &policy,
1908 LCK_EX, &flags, mds_blocking_ast,
1909 ldlm_completion_ast, NULL, NULL,
1910 NULL, 0, NULL, &src_lockh);
1912 GOTO(cleanup, rc = -ENOLCK);
1913 cleanup_phase = 2; /* lock */
1915 OBD_FAIL_WRITE(OBD_FAIL_MDS_REINT_LINK_WRITE, de_src->d_inode->i_sb);
1917 handle = fsfilt_start(obd, de_src->d_inode, FSFILT_OP_LINK, NULL);
1918 if (IS_ERR(handle)) {
1919 rc = PTR_ERR(handle);
1922 de_src->d_inode->i_nlink++;
1923 mark_inode_dirty(de_src->d_inode);
1926 rc = mds_finish_transno(mds, de_src ? de_src->d_inode : NULL,
1927 handle, req, rc, 0);
1929 switch (cleanup_phase) {
1932 ldlm_lock_decref(&src_lockh, LCK_EX);
1934 ptlrpc_save_lock(req, &src_lockh, LCK_EX);
1940 CERROR("invalid cleanup_phase %d\n", cleanup_phase);
1943 req->rq_status = rc;
1948 * request to link to foreign inode:
1949 * - acquire i_nlinks on this inode
1952 static int mds_reint_link_to_remote(struct mds_update_record *rec,
1953 int offset, struct ptlrpc_request *req,
1954 struct lustre_handle *lh)
1956 struct lustre_handle *handle = NULL, tgt_dir_lockh[2] = {{0}, {0}};
1957 struct obd_device *obd = req->rq_export->exp_obd;
1958 struct dentry *de_tgt_dir = NULL;
1959 struct mds_obd *mds = mds_req2mds(req);
1960 int rc = 0, cleanup_phase = 0;
1961 struct mdc_op_data op_data;
1962 struct ptlrpc_request *request = NULL;
1966 #define fmt "%s: request to link %u/%u/%u:%*s to foreign inode %u/%u/%u\n"
1967 DEBUG_REQ(D_INODE, req, fmt, obd->obd_name,
1968 (unsigned) rec->ur_fid2->mds,
1969 (unsigned) rec->ur_fid2->id,
1970 (unsigned) rec->ur_fid2->generation,
1971 rec->ur_namelen - 1, rec->ur_name,
1972 (unsigned) rec->ur_fid1->mds,
1973 (unsigned) rec->ur_fid1->id,
1974 (unsigned)rec->ur_fid1->generation);
1976 de_tgt_dir = mds_fid2locked_dentry(obd, rec->ur_fid2, NULL, LCK_EX,
1977 tgt_dir_lockh, &update_mode,
1978 rec->ur_name, rec->ur_namelen - 1,
1979 MDS_INODELOCK_UPDATE);
1980 if (IS_ERR(de_tgt_dir))
1981 GOTO(cleanup, rc = PTR_ERR(de_tgt_dir));
1984 op_data.fid1 = *(rec->ur_fid1);
1985 op_data.namelen = 0;
1986 op_data.name = NULL;
1987 rc = md_link(mds->mds_lmv_exp, &op_data, &request);
1993 ptlrpc_req_finished(request);
1995 OBD_FAIL_WRITE(OBD_FAIL_MDS_REINT_LINK_WRITE, de_tgt_dir->d_inode->i_sb);
1997 handle = fsfilt_start(obd, de_tgt_dir->d_inode, FSFILT_OP_LINK, NULL);
1998 if (IS_ERR(handle)) {
1999 rc = PTR_ERR(handle);
2003 rc = fsfilt_add_dir_entry(obd, de_tgt_dir, rec->ur_name,
2004 rec->ur_namelen - 1, rec->ur_fid1->id,
2005 rec->ur_fid1->generation, rec->ur_fid1->mds);
2009 rc = mds_finish_transno(mds, de_tgt_dir ? de_tgt_dir->d_inode : NULL,
2010 handle, req, rc, 0);
2013 switch (cleanup_phase) {
2016 /* FIXME: drop i_nlink on remote inode here */
2017 CERROR("MUST drop drop i_nlink here\n");
2022 ldlm_lock_decref(tgt_dir_lockh, LCK_EX);
2024 ldlm_lock_decref(tgt_dir_lockh + 1, update_mode);
2027 ptlrpc_save_lock(req, tgt_dir_lockh, LCK_EX);
2029 ptlrpc_save_lock(req, tgt_dir_lockh+1, update_mode);
2035 CERROR("invalid cleanup_phase %d\n", cleanup_phase);
2038 req->rq_status = rc;
2042 static int mds_reint_link(struct mds_update_record *rec, int offset,
2043 struct ptlrpc_request *req,
2044 struct lustre_handle *lh)
2046 struct obd_device *obd = req->rq_export->exp_obd;
2047 struct dentry *de_src = NULL;
2048 struct dentry *de_tgt_dir = NULL;
2049 struct dentry *dchild = NULL;
2050 struct mds_obd *mds = mds_req2mds(req);
2051 struct lustre_handle *handle = NULL;
2052 struct lustre_handle tgt_dir_lockh[2] = {{0}, {0}}, src_lockh = {0};
2053 struct ldlm_res_id src_res_id = { .name = {0} };
2054 struct ldlm_res_id tgt_dir_res_id = { .name = {0} };
2055 ldlm_policy_data_t src_policy ={.l_inodebits = {MDS_INODELOCK_UPDATE}};
2056 ldlm_policy_data_t tgt_dir_policy =
2057 {.l_inodebits = {MDS_INODELOCK_UPDATE}};
2058 int rc = 0, cleanup_phase = 0;
2059 int update_mode = 0;
2062 LASSERT(offset == 0);
2064 DEBUG_REQ(D_INODE, req, "original "LPU64"/%u to "LPU64"/%u %s",
2065 rec->ur_fid1->id, rec->ur_fid1->generation,
2066 rec->ur_fid2->id, rec->ur_fid2->generation, rec->ur_name);
2068 MDS_CHECK_RESENT(req, mds_reconstruct_generic(req));
2070 // memset(tgt_dir_lockh, 0, 2*sizeof(tgt_dir_lockh[0]));
2071 if (OBD_FAIL_CHECK(OBD_FAIL_MDS_REINT_LINK))
2072 GOTO(cleanup, rc = -ENOENT);
2074 if (rec->ur_fid1->mds != mds->mds_num) {
2075 rc = mds_reint_link_to_remote(rec, offset, req, lh);
2079 if (rec->ur_namelen == 1) {
2080 rc = mds_reint_link_acquire(rec, offset, req, lh);
2084 /* Step 1: Lookup the source inode and target directory by FID */
2085 de_src = mds_fid2dentry(mds, rec->ur_fid1, NULL);
2087 GOTO(cleanup, rc = PTR_ERR(de_src));
2089 cleanup_phase = 1; /* source dentry */
2091 de_tgt_dir = mds_fid2dentry(mds, rec->ur_fid2, NULL);
2092 if (IS_ERR(de_tgt_dir)) {
2093 rc = PTR_ERR(de_tgt_dir);
2098 cleanup_phase = 2; /* target directory dentry */
2100 CDEBUG(D_INODE, "linking %*s/%s to inode %lu\n",
2101 de_tgt_dir->d_name.len, de_tgt_dir->d_name.name, rec->ur_name,
2102 de_src->d_inode->i_ino);
2104 /* Step 2: Take the two locks */
2105 src_res_id.name[0] = de_src->d_inode->i_ino;
2106 src_res_id.name[1] = de_src->d_inode->i_generation;
2107 tgt_dir_res_id.name[0] = de_tgt_dir->d_inode->i_ino;
2108 tgt_dir_res_id.name[1] = de_tgt_dir->d_inode->i_generation;
2110 if (IS_PDIROPS(de_tgt_dir->d_inode)) {
2112 update_mode = mds_lock_mode_for_dir(obd, de_tgt_dir, LCK_EX);
2114 rc = ldlm_cli_enqueue(NULL, NULL, obd->obd_namespace,
2115 tgt_dir_res_id, LDLM_IBITS,
2116 &src_policy, update_mode, &flags,
2118 ldlm_completion_ast, NULL, NULL,
2119 NULL, 0, NULL, tgt_dir_lockh + 1);
2121 GOTO(cleanup, rc = -ENOLCK);
2124 tgt_dir_res_id.name[2] = full_name_hash(rec->ur_name,
2125 rec->ur_namelen - 1);
2126 CDEBUG(D_INFO, "take lock on %lu:%u:"LPX64"\n",
2127 de_tgt_dir->d_inode->i_ino,
2128 de_tgt_dir->d_inode->i_generation,
2129 tgt_dir_res_id.name[2]);
2132 rc = enqueue_ordered_locks(obd, &src_res_id, &src_lockh, LCK_EX,
2134 &tgt_dir_res_id, tgt_dir_lockh, LCK_EX,
2139 cleanup_phase = 3; /* locks */
2141 /* Step 3: Lookup the child */
2142 dchild = ll_lookup_one_len(rec->ur_name, de_tgt_dir, rec->ur_namelen-1);
2143 if (IS_ERR(dchild)) {
2144 rc = PTR_ERR(dchild);
2145 if (rc != -EPERM && rc != -EACCES)
2146 CERROR("child lookup error %d\n", rc);
2150 cleanup_phase = 4; /* child dentry */
2152 if (dchild->d_inode) {
2153 CDEBUG(D_INODE, "child exists (dir %lu, name %s)\n",
2154 de_tgt_dir->d_inode->i_ino, rec->ur_name);
2159 /* Step 4: Do it. */
2160 OBD_FAIL_WRITE(OBD_FAIL_MDS_REINT_LINK_WRITE, de_src->d_inode->i_sb);
2162 handle = fsfilt_start(obd, de_tgt_dir->d_inode, FSFILT_OP_LINK, NULL);
2163 if (IS_ERR(handle)) {
2164 rc = PTR_ERR(handle);
2168 rc = vfs_link(de_src, de_tgt_dir->d_inode, dchild);
2169 if (rc && rc != -EPERM && rc != -EACCES)
2170 CERROR("vfs_link error %d\n", rc);
2172 rc = mds_finish_transno(mds, de_tgt_dir ? de_tgt_dir->d_inode : NULL,
2173 handle, req, rc, 0);
2176 switch (cleanup_phase) {
2177 case 4: /* child dentry */
2181 ldlm_lock_decref(&src_lockh, LCK_EX);
2182 ldlm_lock_decref(tgt_dir_lockh, LCK_EX);
2184 ptlrpc_save_lock(req, &src_lockh, LCK_EX);
2185 ptlrpc_save_lock(req, tgt_dir_lockh, LCK_EX);
2187 case 2: /* target dentry */
2189 if (tgt_dir_lockh[1].cookie && update_mode)
2190 ldlm_lock_decref(tgt_dir_lockh + 1, update_mode);
2194 case 1: /* source dentry */
2199 CERROR("invalid cleanup_phase %d\n", cleanup_phase);
2202 req->rq_status = rc;
2207 * add a hard link in the PENDING directory, only used by rename()
2209 static int mds_add_link_orphan(struct mds_update_record *rec,
2210 struct obd_device *obd,
2211 struct dentry *dentry)
2213 struct mds_obd *mds = &obd->u.mds;
2214 struct inode *pending_dir = mds->mds_pending_dir->d_inode;
2215 struct dentry *pending_child;
2216 char fidname[LL_FID_NAMELEN];
2220 LASSERT(dentry->d_inode);
2221 LASSERT(!mds_inode_is_orphan(dentry->d_inode));
2223 down(&pending_dir->i_sem);
2224 fidlen = ll_fid2str(fidname, dentry->d_inode->i_ino,
2225 dentry->d_inode->i_generation);
2227 CDEBUG(D_ERROR, "pending destroy of %dx open file %s = %s\n",
2228 mds_open_orphan_count(dentry->d_inode),
2229 rec->ur_name, fidname);
2231 pending_child = lookup_one_len(fidname, mds->mds_pending_dir, fidlen);
2232 if (IS_ERR(pending_child))
2233 GOTO(out_lock, rc = PTR_ERR(pending_child));
2235 if (pending_child->d_inode != NULL) {
2236 CERROR("re-destroying orphan file %s?\n", rec->ur_name);
2237 LASSERT(pending_child->d_inode == dentry->d_inode);
2238 GOTO(out_dput, rc = 0);
2242 rc = vfs_link(dentry, pending_dir, pending_child);
2245 CERROR("error addlink orphan %s to PENDING: rc = %d\n",
2248 mds_inode_set_orphan(dentry->d_inode);
2250 l_dput(pending_child);
2252 up(&pending_dir->i_sem);
2256 /* The idea here is that we need to get four locks in the end:
2257 * one on each parent directory, one on each child. We need to take
2258 * these locks in some kind of order (to avoid deadlocks), and the order
2259 * I selected is "increasing resource number" order. We need to look up
2260 * the children, however, before we know what the resource number(s) are.
2261 * Thus the following plan:
2263 * 1,2. Look up the parents
2264 * 3,4. Look up the children
2265 * 5. Take locks on the parents and children, in order
2266 * 6. Verify that the children haven't changed since they were looked up
2268 * If there was a race and the children changed since they were first looked
2269 * up, it is possible that mds_verify_child() will be able to just grab the
2270 * lock on the new child resource (if it has a higher resource than any other)
2271 * but we need to compare against not only its parent, but also against the
2272 * parent and child of the "other half" of the rename, hence maxres_{src,tgt}.
2274 * We need the fancy igrab() on the child inodes because we aren't holding a
2275 * lock on the parent after the lookup is done, so dentry->d_inode may change
2276 * at any time, and igrab() itself doesn't like getting passed a NULL argument.
2278 static int mds_get_parents_children_locked(struct obd_device *obd,
2279 struct mds_obd *mds,
2280 struct ll_fid *p1_fid,
2281 struct dentry **de_srcdirp,
2282 struct ll_fid *p2_fid,
2283 struct dentry **de_tgtdirp,
2285 const char *old_name, int old_len,
2286 struct dentry **de_oldp,
2287 const char *new_name, int new_len,
2288 struct dentry **de_newp,
2289 struct lustre_handle *dlm_handles,
2292 struct ldlm_res_id p1_res_id = { .name = {0} };
2293 struct ldlm_res_id p2_res_id = { .name = {0} };
2294 struct ldlm_res_id c1_res_id = { .name = {0} };
2295 struct ldlm_res_id c2_res_id = { .name = {0} };
2296 ldlm_policy_data_t p_policy = {.l_inodebits = {MDS_INODELOCK_UPDATE}};
2297 /* Only dentry should change, but the inode itself would be
2299 ldlm_policy_data_t c1_policy = {.l_inodebits = {MDS_INODELOCK_LOOKUP}};
2300 /* If something is going to be replaced, both dentry and inode locks are
2302 ldlm_policy_data_t c2_policy = {.l_inodebits = {MDS_INODELOCK_LOOKUP|
2303 MDS_INODELOCK_UPDATE}};
2304 struct ldlm_res_id *maxres_src, *maxres_tgt;
2305 struct inode *inode;
2306 int rc = 0, cleanup_phase = 0;
2309 /* Step 1: Lookup the source directory */
2310 *de_srcdirp = mds_fid2dentry(mds, p1_fid, NULL);
2311 if (IS_ERR(*de_srcdirp))
2312 GOTO(cleanup, rc = PTR_ERR(*de_srcdirp));
2314 cleanup_phase = 1; /* source directory dentry */
2316 p1_res_id.name[0] = (*de_srcdirp)->d_inode->i_ino;
2317 p1_res_id.name[1] = (*de_srcdirp)->d_inode->i_generation;
2319 /* Step 2: Lookup the target directory */
2320 if (memcmp(p1_fid, p2_fid, sizeof(*p1_fid)) == 0) {
2321 *de_tgtdirp = dget(*de_srcdirp);
2323 *de_tgtdirp = mds_fid2dentry(mds, p2_fid, NULL);
2324 if (IS_ERR(*de_tgtdirp)) {
2325 rc = PTR_ERR(*de_tgtdirp);
2331 cleanup_phase = 2; /* target directory dentry */
2333 p2_res_id.name[0] = (*de_tgtdirp)->d_inode->i_ino;
2334 p2_res_id.name[1] = (*de_tgtdirp)->d_inode->i_generation;
2337 dlm_handles[5].cookie = 0;
2338 dlm_handles[6].cookie = 0;
2339 if (IS_PDIROPS((*de_srcdirp)->d_inode)) {
2340 /* Get a temp lock on just ino, gen to flush client cache and
2341 * to protect dirs from concurrent splitting */
2342 rc = enqueue_ordered_locks(obd, &p1_res_id, &(dlm_handles[5]),
2343 LCK_PW, &p_policy, &p2_res_id,
2344 &(dlm_handles[6]),LCK_PW,&p_policy);
2347 p1_res_id.name[2] = full_name_hash(old_name, old_len - 1);
2348 p2_res_id.name[2] = full_name_hash(new_name, new_len - 1);
2349 CDEBUG(D_INFO, "take locks on %lu:%u:"LPX64", %lu:%u:"LPX64"\n",
2350 (*de_srcdirp)->d_inode->i_ino,
2351 (*de_srcdirp)->d_inode->i_generation, p1_res_id.name[2],
2352 (*de_tgtdirp)->d_inode->i_ino,
2353 (*de_tgtdirp)->d_inode->i_generation, p2_res_id.name[2]);
2358 /* Step 3: Lookup the source child entry */
2359 *de_oldp = ll_lookup_one_len(old_name, *de_srcdirp, old_len - 1);
2360 if (IS_ERR(*de_oldp)) {
2361 rc = PTR_ERR(*de_oldp);
2362 CERROR("old child lookup error (%*s): %d\n",
2363 old_len - 1, old_name, rc);
2367 cleanup_phase = 4; /* original name dentry */
2369 inode = (*de_oldp)->d_inode;
2370 if (inode != NULL) {
2371 inode = igrab(inode);
2373 GOTO(cleanup, rc = -ENOENT);
2375 c1_res_id.name[0] = inode->i_ino;
2376 c1_res_id.name[1] = inode->i_generation;
2378 } else if ((*de_oldp)->d_flags & DCACHE_CROSS_REF) {
2379 c1_res_id.name[0] = (*de_oldp)->d_inum;
2380 c1_res_id.name[1] = (*de_oldp)->d_generation;
2383 /* Step 4: Lookup the target child entry */
2384 *de_newp = ll_lookup_one_len(new_name, *de_tgtdirp, new_len - 1);
2385 if (IS_ERR(*de_newp)) {
2386 rc = PTR_ERR(*de_newp);
2387 CERROR("new child lookup error (%*s): %d\n",
2388 old_len - 1, old_name, rc);
2392 cleanup_phase = 5; /* target dentry */
2394 inode = (*de_newp)->d_inode;
2395 if (inode != NULL) {
2396 inode = igrab(inode);
2400 c2_res_id.name[0] = inode->i_ino;
2401 c2_res_id.name[1] = inode->i_generation;
2403 } else if ((*de_newp)->d_flags & DCACHE_CROSS_REF) {
2404 c2_res_id.name[0] = (*de_newp)->d_inum;
2405 c2_res_id.name[1] = (*de_newp)->d_generation;
2409 /* Step 5: Take locks on the parents and child(ren) */
2410 maxres_src = &p1_res_id;
2411 maxres_tgt = &p2_res_id;
2412 cleanup_phase = 5; /* target dentry */
2414 if (c1_res_id.name[0] != 0 && res_gt(&c1_res_id, &p1_res_id, NULL,NULL))
2415 maxres_src = &c1_res_id;
2416 if (c2_res_id.name[0] != 0 && res_gt(&c2_res_id, &p2_res_id, NULL,NULL))
2417 maxres_tgt = &c2_res_id;
2419 rc = enqueue_4ordered_locks(obd, &p1_res_id,&dlm_handles[0],parent_mode,
2421 &p2_res_id, &dlm_handles[1], parent_mode,
2423 &c1_res_id, &dlm_handles[2], child_mode,
2425 &c2_res_id, &dlm_handles[3], child_mode,
2430 cleanup_phase = 6; /* parent and child(ren) locks */
2432 /* Step 6a: Re-lookup source child to verify it hasn't changed */
2433 rc = mds_verify_child(obd, &p1_res_id, &dlm_handles[0], *de_srcdirp,
2434 parent_mode, &c1_res_id, &dlm_handles[2],
2435 de_oldp, child_mode, &c1_policy, old_name,old_len,
2438 if (c2_res_id.name[0] != 0)
2439 ldlm_lock_decref(&dlm_handles[3], child_mode);
2440 ldlm_lock_decref(&dlm_handles[1], parent_mode);
2447 if (!DENTRY_VALID(*de_oldp))
2448 GOTO(cleanup, rc = -ENOENT);
2450 /* Step 6b: Re-lookup target child to verify it hasn't changed */
2451 rc = mds_verify_child(obd, &p2_res_id, &dlm_handles[1], *de_tgtdirp,
2452 parent_mode, &c2_res_id, &dlm_handles[3],
2453 de_newp, child_mode, &c2_policy, new_name,
2454 new_len, maxres_src);
2456 ldlm_lock_decref(&dlm_handles[2], child_mode);
2457 ldlm_lock_decref(&dlm_handles[0], parent_mode);
2467 switch (cleanup_phase) {
2468 case 6: /* child lock(s) */
2469 if (c2_res_id.name[0] != 0)
2470 ldlm_lock_decref(&dlm_handles[3], child_mode);
2471 if (c1_res_id.name[0] != 0)
2472 ldlm_lock_decref(&dlm_handles[2], child_mode);
2473 ldlm_lock_decref(&dlm_handles[1], parent_mode);
2474 ldlm_lock_decref(&dlm_handles[0], parent_mode);
2475 case 5: /* target dentry */
2477 case 4: /* source dentry */
2481 if (dlm_handles[5].cookie != 0)
2482 ldlm_lock_decref(&(dlm_handles[5]), LCK_PW);
2483 if (dlm_handles[6].cookie != 0)
2484 ldlm_lock_decref(&(dlm_handles[6]), LCK_PW);
2486 case 2: /* target directory dentry */
2487 l_dput(*de_tgtdirp);
2488 case 1: /* source directry dentry */
2489 l_dput(*de_srcdirp);
2496 static int mds_reint_rename_create_name(struct mds_update_record *rec,
2497 int offset, struct ptlrpc_request *req)
2499 struct obd_device *obd = req->rq_export->exp_obd;
2500 struct dentry *de_srcdir = NULL;
2501 struct dentry *de_new = NULL;
2502 struct mds_obd *mds = mds_req2mds(req);
2503 struct lustre_handle parent_lockh[2] = {{0}, {0}};
2504 struct lustre_handle child_lockh = {0};
2505 int cleanup_phase = 0;
2506 void *handle = NULL;
2507 int update_mode, rc = 0;
2510 /* another MDS executing rename operation has asked us
2511 * to create target name. such a creation should destroy
2512 * existing target name */
2514 CDEBUG(D_OTHER, "%s: request to create name %s for %lu/%lu/%lu\n",
2515 obd->obd_name, rec->ur_tgt,
2516 (unsigned long) rec->ur_fid1->mds,
2517 (unsigned long) rec->ur_fid1->id,
2518 (unsigned long) rec->ur_fid1->generation);
2520 /* first, lookup the target */
2521 child_lockh.cookie = 0;
2522 rc = mds_get_parent_child_locked(obd, mds, rec->ur_fid2, parent_lockh,
2523 &de_srcdir,LCK_PW,MDS_INODELOCK_UPDATE,
2524 &update_mode, rec->ur_tgt, rec->ur_tgtlen,
2525 &child_lockh, &de_new, LCK_EX,
2526 MDS_INODELOCK_LOOKUP, NULL);
2533 LASSERT(de_srcdir->d_inode);
2536 if (de_new->d_inode) {
2537 /* name exists and points to local inode
2538 * try to unlink this name and create new one */
2539 CERROR("%s: %s points to local inode %lu/%lu\n",
2540 obd->obd_name, rec->ur_tgt,
2541 (unsigned long) de_new->d_inode->i_ino,
2542 (unsigned long) de_new->d_inode->i_generation);
2543 handle = fsfilt_start(obd, de_srcdir->d_inode,
2544 FSFILT_OP_RENAME, NULL);
2546 GOTO(cleanup, rc = PTR_ERR(handle));
2547 rc = fsfilt_del_dir_entry(req->rq_export->exp_obd, de_new);
2550 } else if (de_new->d_flags & DCACHE_CROSS_REF) {
2551 /* name exists adn points to remove inode */
2552 CERROR("%s: %s points to remote inode %lu/%lu/%lu\n",
2553 obd->obd_name, rec->ur_tgt,
2554 (unsigned long) de_new->d_mdsnum,
2555 (unsigned long) de_new->d_inum,
2556 (unsigned long) de_new->d_generation);
2558 /* name doesn't exist. the simplest case */
2559 handle = fsfilt_start(obd, de_srcdir->d_inode,
2560 FSFILT_OP_LINK, NULL);
2562 GOTO(cleanup, rc = PTR_ERR(handle));
2566 rc = fsfilt_add_dir_entry(obd, de_srcdir, rec->ur_tgt,
2567 rec->ur_tgtlen - 1, rec->ur_fid1->id,
2568 rec->ur_fid1->generation, rec->ur_fid1->mds);
2570 CERROR("add_dir_entry() returned error %d\n", rc);
2573 rc = mds_finish_transno(mds, de_srcdir ? de_srcdir->d_inode : NULL,
2574 handle, req, rc, 0);
2575 switch(cleanup_phase) {
2579 if (parent_lockh[1].cookie != 0)
2580 ldlm_lock_decref(&parent_lockh[1], update_mode);
2582 ldlm_lock_decref(&parent_lockh[0], LCK_PW);
2583 if (child_lockh.cookie != 0)
2584 ldlm_lock_decref(&child_lockh, LCK_EX);
2592 req->rq_status = rc;
2597 static int mds_reint_rename_to_remote(struct mds_update_record *rec, int offset,
2598 struct ptlrpc_request *req)
2600 struct obd_device *obd = req->rq_export->exp_obd;
2601 struct ptlrpc_request *req2 = NULL;
2602 struct dentry *de_srcdir = NULL;
2603 struct dentry *de_old = NULL;
2604 struct mds_obd *mds = mds_req2mds(req);
2605 struct lustre_handle parent_lockh[2] = {{0}, {0}};
2606 struct lustre_handle child_lockh = {0};
2607 struct mdc_op_data opdata;
2608 void *handle = NULL;
2609 int update_mode, rc = 0;
2612 CDEBUG(D_OTHER, "%s: move name %s onto another mds%u\n",
2613 obd->obd_name, rec->ur_name, rec->ur_fid2->mds + 1);
2614 memset(&opdata, 0, sizeof(opdata));
2616 child_lockh.cookie = 0;
2617 rc = mds_get_parent_child_locked(obd, mds, rec->ur_fid1, parent_lockh,
2618 &de_srcdir,LCK_PW,MDS_INODELOCK_UPDATE,
2619 &update_mode, rec->ur_name,
2620 rec->ur_namelen, &child_lockh, &de_old,
2621 LCK_EX, MDS_INODELOCK_LOOKUP, NULL);
2624 LASSERT(de_srcdir->d_inode);
2627 /* we already know the target should be created on another MDS
2628 * so, we have to request that MDS to do it */
2630 /* prepare source fid */
2631 if (de_old->d_flags & DCACHE_CROSS_REF) {
2632 LASSERT(de_old->d_inode == NULL);
2633 CDEBUG(D_OTHER, "request to move remote name\n");
2634 opdata.fid1.mds = de_old->d_mdsnum;
2635 opdata.fid1.id = de_old->d_inum;
2636 opdata.fid1.generation = de_old->d_generation;
2637 } else if (de_old->d_inode == NULL) {
2638 /* oh, source doesn't exist */
2639 GOTO(cleanup, rc = -ENOENT);
2641 LASSERT(de_old->d_inode != NULL);
2642 CDEBUG(D_OTHER, "request to move local name\n");
2643 opdata.fid1.mds = mds->mds_num;
2644 opdata.fid1.id = de_old->d_inode->i_ino;
2645 opdata.fid1.generation = de_old->d_inode->i_generation;
2648 opdata.fid2 = *(rec->ur_fid2);
2649 rc = md_rename(mds->mds_lmv_exp, &opdata, NULL, 0, rec->ur_tgt,
2650 rec->ur_tgtlen - 1, &req2);
2655 handle = fsfilt_start(obd, de_srcdir->d_inode, FSFILT_OP_UNLINK, NULL);
2657 GOTO(cleanup, rc = PTR_ERR(handle));
2658 rc = fsfilt_del_dir_entry(obd, de_old);
2663 rc = mds_finish_transno(mds, de_srcdir ? de_srcdir->d_inode : NULL,
2664 handle, req, rc, 0);
2666 ptlrpc_req_finished(req2);
2669 if (parent_lockh[1].cookie != 0)
2670 ldlm_lock_decref(&parent_lockh[1], update_mode);
2672 ldlm_lock_decref(&parent_lockh[0], LCK_PW);
2673 if (child_lockh.cookie != 0)
2674 ldlm_lock_decref(&child_lockh, LCK_EX);
2679 req->rq_status = rc;
2684 static int mds_reint_rename(struct mds_update_record *rec, int offset,
2685 struct ptlrpc_request *req, struct lustre_handle *lockh)
2687 struct obd_device *obd = req->rq_export->exp_obd;
2688 struct dentry *de_srcdir = NULL;
2689 struct dentry *de_tgtdir = NULL;
2690 struct dentry *de_old = NULL;
2691 struct dentry *de_new = NULL;
2692 struct mds_obd *mds = mds_req2mds(req);
2693 struct lustre_handle dlm_handles[7] = {{0},{0},{0},{0},{0},{0},{0}};
2694 struct mds_body *body = NULL;
2695 int rc = 0, lock_count = 3;
2696 int cleanup_phase = 0;
2697 void *handle = NULL;
2700 LASSERT(offset == 0);
2702 DEBUG_REQ(D_INODE, req, "parent "LPU64"/%u %s to "LPU64"/%u %s",
2703 rec->ur_fid1->id, rec->ur_fid1->generation, rec->ur_name,
2704 rec->ur_fid2->id, rec->ur_fid2->generation, rec->ur_tgt);
2706 MDS_CHECK_RESENT(req, mds_reconstruct_generic(req));
2708 if (rec->ur_namelen == 1) {
2709 rc = mds_reint_rename_create_name(rec, offset, req);
2713 if (rec->ur_fid2->mds != mds->mds_num) {
2714 rc = mds_reint_rename_to_remote(rec, offset, req);
2718 rc = mds_get_parents_children_locked(obd, mds, rec->ur_fid1, &de_srcdir,
2719 rec->ur_fid2, &de_tgtdir, LCK_PW,
2720 rec->ur_name, rec->ur_namelen,
2721 &de_old, rec->ur_tgt,
2722 rec->ur_tgtlen, &de_new,
2723 dlm_handles, LCK_EX);
2727 cleanup_phase = 1; /* parent(s), children, locks */
2729 if (de_new->d_inode)
2732 /* sanity check for src inode */
2733 if (de_old->d_inode->i_ino == de_srcdir->d_inode->i_ino ||
2734 de_old->d_inode->i_ino == de_tgtdir->d_inode->i_ino)
2735 GOTO(cleanup, rc = -EINVAL);
2737 /* sanity check for dest inode */
2738 if (de_new->d_inode &&
2739 (de_new->d_inode->i_ino == de_srcdir->d_inode->i_ino ||
2740 de_new->d_inode->i_ino == de_tgtdir->d_inode->i_ino))
2741 GOTO(cleanup, rc = -EINVAL);
2743 if (de_old->d_inode == de_new->d_inode)
2744 GOTO(cleanup, rc = 0);
2746 /* if we are about to remove the target at first, pass the EA of
2747 * that inode to client to perform and cleanup on OST */
2748 body = lustre_msg_buf(req->rq_repmsg, 0, sizeof (*body));
2749 LASSERT(body != NULL);
2751 if (de_new->d_inode &&
2752 S_ISREG(de_new->d_inode->i_mode) &&
2753 de_new->d_inode->i_nlink == 1 &&
2754 mds_open_orphan_count(de_new->d_inode) == 0) {
2755 mds_pack_inode2fid(obd, &body->fid1, de_new->d_inode);
2756 mds_pack_inode2body(obd, body, de_new->d_inode);
2757 mds_pack_md(obd, req->rq_repmsg, 1, body, de_new->d_inode, 1);
2758 if (!(body->valid & OBD_MD_FLEASIZE)) {
2759 body->valid |= (OBD_MD_FLSIZE | OBD_MD_FLBLOCKS |
2760 OBD_MD_FLATIME | OBD_MD_FLMTIME);
2762 /* XXX need log unlink? */
2766 OBD_FAIL_WRITE(OBD_FAIL_MDS_REINT_RENAME_WRITE,
2767 de_srcdir->d_inode->i_sb);
2769 handle = fsfilt_start(obd, de_tgtdir->d_inode, FSFILT_OP_RENAME, NULL);
2771 GOTO(cleanup, rc = PTR_ERR(handle));
2773 /* FIXME need adjust the journal block count? */
2774 /* if the target should be moved to PENDING, we at first increase the
2775 * link and later vfs_rename() will decrease the link count again */
2776 if (de_new->d_inode &&
2777 S_ISREG(de_new->d_inode->i_mode) &&
2778 de_new->d_inode->i_nlink == 1 &&
2779 mds_open_orphan_count(de_new->d_inode) > 0) {
2780 rc = mds_add_link_orphan(rec, obd, de_new);
2786 de_old->d_fsdata = req;
2787 de_new->d_fsdata = req;
2788 rc = vfs_rename(de_srcdir->d_inode, de_old, de_tgtdir->d_inode, de_new);
2793 rc = mds_finish_transno(mds, de_tgtdir ? de_tgtdir->d_inode : NULL,
2794 handle, req, rc, 0);
2795 switch (cleanup_phase) {
2798 if (dlm_handles[5].cookie != 0)
2799 ldlm_lock_decref(&(dlm_handles[5]), LCK_PW);
2800 if (dlm_handles[6].cookie != 0)
2801 ldlm_lock_decref(&(dlm_handles[6]), LCK_PW);
2804 if (lock_count == 4)
2805 ldlm_lock_decref(&(dlm_handles[3]), LCK_EX);
2806 ldlm_lock_decref(&(dlm_handles[2]), LCK_EX);
2807 ldlm_lock_decref(&(dlm_handles[1]), LCK_PW);
2808 ldlm_lock_decref(&(dlm_handles[0]), LCK_PW);
2810 if (lock_count == 4)
2811 ptlrpc_save_lock(req,&(dlm_handles[3]), LCK_EX);
2812 ptlrpc_save_lock(req, &(dlm_handles[2]), LCK_EX);
2813 ptlrpc_save_lock(req, &(dlm_handles[1]), LCK_PW);
2814 ptlrpc_save_lock(req, &(dlm_handles[0]), LCK_PW);
2823 CERROR("invalid cleanup_phase %d\n", cleanup_phase);
2826 req->rq_status = rc;
2830 typedef int (*mds_reinter)(struct mds_update_record *, int offset,
2831 struct ptlrpc_request *, struct lustre_handle *);
2833 static mds_reinter reinters[REINT_MAX + 1] = {
2834 [REINT_SETATTR] mds_reint_setattr,
2835 [REINT_CREATE] mds_reint_create,
2836 [REINT_LINK] mds_reint_link,
2837 [REINT_UNLINK] mds_reint_unlink,
2838 [REINT_RENAME] mds_reint_rename,
2839 [REINT_OPEN] mds_open
2842 int mds_reint_rec(struct mds_update_record *rec, int offset,
2843 struct ptlrpc_request *req, struct lustre_handle *lockh)
2845 struct obd_device *obd = req->rq_export->exp_obd;
2846 struct lvfs_run_ctxt saved;
2849 /* checked by unpacker */
2850 LASSERT(rec->ur_opcode <= REINT_MAX &&
2851 reinters[rec->ur_opcode] != NULL);
2853 push_ctxt(&saved, &obd->obd_lvfs_ctxt, &rec->ur_uc);
2854 rc = reinters[rec->ur_opcode] (rec, offset, req, lockh);
2855 pop_ctxt(&saved, &obd->obd_lvfs_ctxt, &rec->ur_uc);