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Constify instances of struct {lu,dt,md}_device_operations.
[fs/lustre-release.git] / lustre / mdt / mdt_handler.c
1 /* -*- mode: c; c-basic-offset: 8; indent-tabs-mode: nil; -*-
2  * vim:expandtab:shiftwidth=8:tabstop=8:
3  *
4  * GPL HEADER START
5  *
6  * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
7  *
8  * This program is free software; you can redistribute it and/or modify
9  * it under the terms of the GNU General Public License version 2 only,
10  * as published by the Free Software Foundation.
11  *
12  * This program is distributed in the hope that it will be useful, but
13  * WITHOUT ANY WARRANTY; without even the implied warranty of
14  * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
15  * General Public License version 2 for more details (a copy is included
16  * in the LICENSE file that accompanied this code).
17  *
18  * You should have received a copy of the GNU General Public License
19  * version 2 along with this program; If not, see
20  * http://www.sun.com/software/products/lustre/docs/GPLv2.pdf
21  *
22  * Please contact Sun Microsystems, Inc., 4150 Network Circle, Santa Clara,
23  * CA 95054 USA or visit www.sun.com if you need additional information or
24  * have any questions.
25  *
26  * GPL HEADER END
27  */
28 /*
29  * Copyright  2008 Sun Microsystems, Inc. All rights reserved
30  * Use is subject to license terms.
31  */
32 /*
33  * This file is part of Lustre, http://www.lustre.org/
34  * Lustre is a trademark of Sun Microsystems, Inc.
35  *
36  * lustre/mdt/mdt_handler.c
37  *
38  * Lustre Metadata Target (mdt) request handler
39  *
40  * Author: Peter Braam <braam@clusterfs.com>
41  * Author: Andreas Dilger <adilger@clusterfs.com>
42  * Author: Phil Schwan <phil@clusterfs.com>
43  * Author: Mike Shaver <shaver@clusterfs.com>
44  * Author: Nikita Danilov <nikita@clusterfs.com>
45  * Author: Huang Hua <huanghua@clusterfs.com>
46  * Author: Yury Umanets <umka@clusterfs.com>
47  */
48
49 #ifndef EXPORT_SYMTAB
50 # define EXPORT_SYMTAB
51 #endif
52 #define DEBUG_SUBSYSTEM S_MDS
53
54 #include <linux/module.h>
55 /*
56  * struct OBD_{ALLOC,FREE}*()
57  */
58 #include <obd_support.h>
59 /* struct ptlrpc_request */
60 #include <lustre_net.h>
61 /* struct obd_export */
62 #include <lustre_export.h>
63 /* struct obd_device */
64 #include <obd.h>
65 /* lu2dt_dev() */
66 #include <dt_object.h>
67 #include <lustre_mds.h>
68 #include <lustre_mdt.h>
69 #include "mdt_internal.h"
70 #include <lustre_acl.h>
71 #include <lustre_param.h>
72
73 mdl_mode_t mdt_mdl_lock_modes[] = {
74         [LCK_MINMODE] = MDL_MINMODE,
75         [LCK_EX]      = MDL_EX,
76         [LCK_PW]      = MDL_PW,
77         [LCK_PR]      = MDL_PR,
78         [LCK_CW]      = MDL_CW,
79         [LCK_CR]      = MDL_CR,
80         [LCK_NL]      = MDL_NL,
81         [LCK_GROUP]   = MDL_GROUP
82 };
83
84 ldlm_mode_t mdt_dlm_lock_modes[] = {
85         [MDL_MINMODE] = LCK_MINMODE,
86         [MDL_EX]      = LCK_EX,
87         [MDL_PW]      = LCK_PW,
88         [MDL_PR]      = LCK_PR,
89         [MDL_CW]      = LCK_CW,
90         [MDL_CR]      = LCK_CR,
91         [MDL_NL]      = LCK_NL,
92         [MDL_GROUP]   = LCK_GROUP
93 };
94
95 /*
96  * Initialized in mdt_mod_init().
97  */
98 unsigned long mdt_num_threads;
99
100 /* ptlrpc request handler for MDT. All handlers are
101  * grouped into several slices - struct mdt_opc_slice,
102  * and stored in an array - mdt_handlers[].
103  */
104 struct mdt_handler {
105         /* The name of this handler. */
106         const char *mh_name;
107         /* Fail id for this handler, checked at the beginning of this handler*/
108         int         mh_fail_id;
109         /* Operation code for this handler */
110         __u32       mh_opc;
111         /* flags are listed in enum mdt_handler_flags below. */
112         __u32       mh_flags;
113         /* The actual handler function to execute. */
114         int (*mh_act)(struct mdt_thread_info *info);
115         /* Request format for this request. */
116         const struct req_format *mh_fmt;
117 };
118
119 enum mdt_handler_flags {
120         /*
121          * struct mdt_body is passed in the incoming message, and object
122          * identified by this fid exists on disk.
123          *
124          * "habeo corpus" == "I have a body"
125          */
126         HABEO_CORPUS = (1 << 0),
127         /*
128          * struct ldlm_request is passed in the incoming message.
129          *
130          * "habeo clavis" == "I have a key"
131          */
132         HABEO_CLAVIS = (1 << 1),
133         /*
134          * this request has fixed reply format, so that reply message can be
135          * packed by generic code.
136          *
137          * "habeo refero" == "I have a reply"
138          */
139         HABEO_REFERO = (1 << 2),
140         /*
141          * this request will modify something, so check whether the filesystem
142          * is readonly or not, then return -EROFS to client asap if necessary.
143          *
144          * "mutabor" == "I shall modify"
145          */
146         MUTABOR      = (1 << 3)
147 };
148
149 struct mdt_opc_slice {
150         __u32               mos_opc_start;
151         int                 mos_opc_end;
152         struct mdt_handler *mos_hs;
153 };
154
155 static struct mdt_opc_slice mdt_regular_handlers[];
156 static struct mdt_opc_slice mdt_readpage_handlers[];
157 static struct mdt_opc_slice mdt_xmds_handlers[];
158 static struct mdt_opc_slice mdt_seq_handlers[];
159 static struct mdt_opc_slice mdt_fld_handlers[];
160
161 static struct mdt_device *mdt_dev(struct lu_device *d);
162 static int mdt_regular_handle(struct ptlrpc_request *req);
163 static int mdt_unpack_req_pack_rep(struct mdt_thread_info *info, __u32 flags);
164
165 static const struct lu_object_operations mdt_obj_ops;
166
167 int mdt_get_disposition(struct ldlm_reply *rep, int flag)
168 {
169         if (!rep)
170                 return 0;
171         return (rep->lock_policy_res1 & flag);
172 }
173
174 void mdt_clear_disposition(struct mdt_thread_info *info,
175                            struct ldlm_reply *rep, int flag)
176 {
177         if (info)
178                 info->mti_opdata &= ~flag;
179         if (rep)
180                 rep->lock_policy_res1 &= ~flag;
181 }
182
183 void mdt_set_disposition(struct mdt_thread_info *info,
184                          struct ldlm_reply *rep, int flag)
185 {
186         if (info)
187                 info->mti_opdata |= flag;
188         if (rep)
189                 rep->lock_policy_res1 |= flag;
190 }
191
192 void mdt_lock_reg_init(struct mdt_lock_handle *lh, ldlm_mode_t lm)
193 {
194         lh->mlh_pdo_hash = 0;
195         lh->mlh_reg_mode = lm;
196         lh->mlh_type = MDT_REG_LOCK;
197 }
198
199 void mdt_lock_pdo_init(struct mdt_lock_handle *lh, ldlm_mode_t lm,
200                        const char *name, int namelen)
201 {
202         lh->mlh_reg_mode = lm;
203         lh->mlh_type = MDT_PDO_LOCK;
204
205         if (name != NULL) {
206                 LASSERT(namelen > 0);
207                 lh->mlh_pdo_hash = full_name_hash(name, namelen);
208         } else {
209                 LASSERT(namelen == 0);
210                 lh->mlh_pdo_hash = 0ull;
211         }
212 }
213
214 static void mdt_lock_pdo_mode(struct mdt_thread_info *info, struct mdt_object *o,
215                               struct mdt_lock_handle *lh)
216 {
217         mdl_mode_t mode;
218         ENTRY;
219
220         /*
221          * Any dir access needs couple of locks:
222          *
223          * 1) on part of dir we gonna take lookup/modify;
224          *
225          * 2) on whole dir to protect it from concurrent splitting and/or to
226          * flush client's cache for readdir().
227          *
228          * so, for a given mode and object this routine decides what lock mode
229          * to use for lock #2:
230          *
231          * 1) if caller's gonna lookup in dir then we need to protect dir from
232          * being splitted only - LCK_CR
233          *
234          * 2) if caller's gonna modify dir then we need to protect dir from
235          * being splitted and to flush cache - LCK_CW
236          *
237          * 3) if caller's gonna modify dir and that dir seems ready for
238          * splitting then we need to protect it from any type of access
239          * (lookup/modify/split) - LCK_EX --bzzz
240          */
241
242         LASSERT(lh->mlh_reg_mode != LCK_MINMODE);
243         LASSERT(lh->mlh_pdo_mode == LCK_MINMODE);
244
245         /*
246          * Ask underlaying level its opinion about preferable PDO lock mode
247          * having access type passed as regular lock mode:
248          *
249          * - MDL_MINMODE means that lower layer does not want to specify lock
250          * mode;
251          *
252          * - MDL_NL means that no PDO lock should be taken. This is used in some
253          * cases. Say, for non-splittable directories no need to use PDO locks
254          * at all.
255          */
256         mode = mdo_lock_mode(info->mti_env, mdt_object_child(o),
257                              mdt_dlm_mode2mdl_mode(lh->mlh_reg_mode));
258
259         if (mode != MDL_MINMODE) {
260                 lh->mlh_pdo_mode = mdt_mdl_mode2dlm_mode(mode);
261         } else {
262                 /*
263                  * Lower layer does not want to specify locking mode. We do it
264                  * our selves. No special protection is needed, just flush
265                  * client's cache on modification and allow concurrent
266                  * mondification.
267                  */
268                 switch (lh->mlh_reg_mode) {
269                 case LCK_EX:
270                         lh->mlh_pdo_mode = LCK_EX;
271                         break;
272                 case LCK_PR:
273                         lh->mlh_pdo_mode = LCK_CR;
274                         break;
275                 case LCK_PW:
276                         lh->mlh_pdo_mode = LCK_CW;
277                         break;
278                 default:
279                         CERROR("Not expected lock type (0x%x)\n",
280                                (int)lh->mlh_reg_mode);
281                         LBUG();
282                 }
283         }
284
285         LASSERT(lh->mlh_pdo_mode != LCK_MINMODE);
286         EXIT;
287 }
288
289 static int mdt_getstatus(struct mdt_thread_info *info)
290 {
291         struct mdt_device *mdt  = info->mti_mdt;
292         struct md_device  *next = mdt->mdt_child;
293         struct mdt_body   *repbody;
294         int                rc;
295
296         ENTRY;
297
298         rc = mdt_check_ucred(info);
299         if (rc)
300                 RETURN(err_serious(rc));
301
302         if (OBD_FAIL_CHECK(OBD_FAIL_MDS_GETSTATUS_PACK))
303                 RETURN(err_serious(-ENOMEM));
304
305         repbody = req_capsule_server_get(info->mti_pill, &RMF_MDT_BODY);
306         rc = next->md_ops->mdo_root_get(info->mti_env, next, &repbody->fid1);
307         if (rc != 0)
308                 RETURN(rc);
309
310         repbody->valid |= OBD_MD_FLID;
311
312         if (mdt->mdt_opts.mo_mds_capa) {
313                 struct mdt_object  *root;
314                 struct lustre_capa *capa;
315
316                 root = mdt_object_find(info->mti_env, mdt, &repbody->fid1);
317                 if (IS_ERR(root))
318                         RETURN(PTR_ERR(root));
319
320                 capa = req_capsule_server_get(info->mti_pill, &RMF_CAPA1);
321                 LASSERT(capa);
322                 capa->lc_opc = CAPA_OPC_MDS_DEFAULT;
323
324                 rc = mo_capa_get(info->mti_env, mdt_object_child(root), capa,
325                                  0);
326                 mdt_object_put(info->mti_env, root);
327                 if (rc == 0)
328                         repbody->valid |= OBD_MD_FLMDSCAPA;
329         }
330
331         RETURN(rc);
332 }
333
334 static int mdt_statfs(struct mdt_thread_info *info)
335 {
336         struct md_device      *next  = info->mti_mdt->mdt_child;
337         struct ptlrpc_service *svc;
338         struct obd_statfs     *osfs;
339         int                    rc;
340
341         ENTRY;
342
343         svc = info->mti_pill->rc_req->rq_rqbd->rqbd_service;
344
345         /* This will trigger a watchdog timeout */
346         OBD_FAIL_TIMEOUT(OBD_FAIL_MDS_STATFS_LCW_SLEEP,
347                          (MDT_SERVICE_WATCHDOG_FACTOR *
348                           at_get(&svc->srv_at_estimate) / 1000) + 1);
349
350         rc = mdt_check_ucred(info);
351         if (rc)
352                 RETURN(err_serious(rc));
353
354         if (OBD_FAIL_CHECK(OBD_FAIL_MDS_STATFS_PACK)) {
355                 rc = err_serious(-ENOMEM);
356         } else {
357                 osfs = req_capsule_server_get(info->mti_pill, &RMF_OBD_STATFS);
358                 rc = next->md_ops->mdo_statfs(info->mti_env, next,
359                                               &info->mti_u.ksfs);
360                 statfs_pack(osfs, &info->mti_u.ksfs);
361         }
362         RETURN(rc);
363 }
364
365 void mdt_pack_size2body(struct mdt_thread_info *info, struct mdt_object *o)
366 {
367         struct mdt_body *b;
368         struct lu_attr *attr = &info->mti_attr.ma_attr;
369
370         b = req_capsule_server_get(info->mti_pill, &RMF_MDT_BODY);
371
372         /* Check if Size-on-MDS is enabled. */
373         if ((mdt_conn_flags(info) & OBD_CONNECT_SOM) &&
374             S_ISREG(attr->la_mode) && mdt_sizeonmds_enabled(o)) {
375                 b->valid |= (OBD_MD_FLSIZE | OBD_MD_FLBLOCKS);
376                 b->size = attr->la_size;
377                 b->blocks = attr->la_blocks;
378         }
379 }
380
381 void mdt_pack_attr2body(struct mdt_thread_info *info, struct mdt_body *b,
382                         const struct lu_attr *attr, const struct lu_fid *fid)
383 {
384         /*XXX should pack the reply body according to lu_valid*/
385         b->valid |= OBD_MD_FLCTIME | OBD_MD_FLUID   |
386                     OBD_MD_FLGID   | OBD_MD_FLTYPE  |
387                     OBD_MD_FLMODE  | OBD_MD_FLNLINK | OBD_MD_FLFLAGS |
388                     OBD_MD_FLATIME | OBD_MD_FLMTIME ;
389
390         if (!S_ISREG(attr->la_mode))
391                 b->valid |= OBD_MD_FLSIZE | OBD_MD_FLBLOCKS | OBD_MD_FLRDEV;
392
393         b->atime      = attr->la_atime;
394         b->mtime      = attr->la_mtime;
395         b->ctime      = attr->la_ctime;
396         b->mode       = attr->la_mode;
397         b->size       = attr->la_size;
398         b->blocks     = attr->la_blocks;
399         b->uid        = attr->la_uid;
400         b->gid        = attr->la_gid;
401         b->flags      = attr->la_flags;
402         b->nlink      = attr->la_nlink;
403         b->rdev       = attr->la_rdev;
404
405         if (fid) {
406                 b->fid1 = *fid;
407                 b->valid |= OBD_MD_FLID;
408
409                 /* FIXME: these should be fixed when new igif ready.*/
410                 b->ino  =  fid_oid(fid);       /* 1.6 compatibility */
411                 b->generation = fid_ver(fid);  /* 1.6 compatibility */
412                 b->valid |= OBD_MD_FLGENER;    /* 1.6 compatibility */
413
414                 CDEBUG(D_INODE, DFID": nlink=%d, mode=%o, size="LPU64"\n",
415                                 PFID(fid), b->nlink, b->mode, b->size);
416         }
417
418         if (info)
419                 mdt_body_reverse_idmap(info, b);
420 }
421
422 static inline int mdt_body_has_lov(const struct lu_attr *la,
423                                    const struct mdt_body *body)
424 {
425         return ((S_ISREG(la->la_mode) && (body->valid & OBD_MD_FLEASIZE)) ||
426                 (S_ISDIR(la->la_mode) && (body->valid & OBD_MD_FLDIREA )) );
427 }
428
429 static int mdt_getattr_internal(struct mdt_thread_info *info,
430                                 struct mdt_object *o)
431 {
432         struct md_object        *next = mdt_object_child(o);
433         const struct mdt_body   *reqbody = info->mti_body;
434         struct ptlrpc_request   *req = mdt_info_req(info);
435         struct mdt_export_data  *med = &req->rq_export->exp_mdt_data;
436         struct md_attr          *ma = &info->mti_attr;
437         struct lu_attr          *la = &ma->ma_attr;
438         struct req_capsule      *pill = info->mti_pill;
439         const struct lu_env     *env = info->mti_env;
440         struct mdt_body         *repbody;
441         struct lu_buf           *buffer = &info->mti_buf;
442         int                     rc;
443         ENTRY;
444
445         if (OBD_FAIL_CHECK(OBD_FAIL_MDS_GETATTR_PACK))
446                 RETURN(err_serious(-ENOMEM));
447
448         repbody = req_capsule_server_get(pill, &RMF_MDT_BODY);
449
450         ma->ma_valid = 0;
451
452         rc = mdt_object_exists(o);
453         if (rc < 0) {
454                 /* This object is located on remote node.*/
455                 repbody->fid1 = *mdt_object_fid(o);
456                 repbody->valid = OBD_MD_FLID | OBD_MD_MDS;
457                 RETURN(0);
458         }
459
460         buffer->lb_buf = req_capsule_server_get(pill, &RMF_MDT_MD);
461         buffer->lb_len = req_capsule_get_size(pill, &RMF_MDT_MD, RCL_SERVER);
462
463         /* If it is dir object and client require MEA, then we got MEA */
464         if (S_ISDIR(lu_object_attr(&next->mo_lu)) &&
465             reqbody->valid & OBD_MD_MEA) {
466                 /* Assumption: MDT_MD size is enough for lmv size. */
467                 ma->ma_lmv = buffer->lb_buf;
468                 ma->ma_lmv_size = buffer->lb_len;
469                 ma->ma_need = MA_LMV | MA_INODE;
470         } else {
471                 ma->ma_lmm = buffer->lb_buf;
472                 ma->ma_lmm_size = buffer->lb_len;
473                 ma->ma_need = MA_LOV | MA_INODE;
474         }
475
476         if (S_ISDIR(lu_object_attr(&next->mo_lu)) &&
477             reqbody->valid & OBD_MD_FLDIREA  &&
478             lustre_msg_get_opc(req->rq_reqmsg) == MDS_GETATTR) {
479                 /* get default stripe info for this dir. */
480                 ma->ma_need |= MA_LOV_DEF;
481         }
482         rc = mo_attr_get(env, next, ma);
483         if (unlikely(rc)) {
484                 CERROR("getattr error for "DFID": %d\n",
485                         PFID(mdt_object_fid(o)), rc);
486                 RETURN(rc);
487         }
488
489         if (likely(ma->ma_valid & MA_INODE))
490                 mdt_pack_attr2body(info, repbody, la, mdt_object_fid(o));
491         else
492                 RETURN(-EFAULT);
493
494         if (mdt_body_has_lov(la, reqbody)) {
495                 if (ma->ma_valid & MA_LOV) {
496                         LASSERT(ma->ma_lmm_size);
497                         mdt_dump_lmm(D_INFO, ma->ma_lmm);
498                         repbody->eadatasize = ma->ma_lmm_size;
499                         if (S_ISDIR(la->la_mode))
500                                 repbody->valid |= OBD_MD_FLDIREA;
501                         else
502                                 repbody->valid |= OBD_MD_FLEASIZE;
503                 }
504                 if (ma->ma_valid & MA_LMV) {
505                         LASSERT(S_ISDIR(la->la_mode));
506                         repbody->eadatasize = ma->ma_lmv_size;
507                         repbody->valid |= (OBD_MD_FLDIREA|OBD_MD_MEA);
508                 }
509                 if (!(ma->ma_valid & MA_LOV) && !(ma->ma_valid & MA_LMV)) {
510                         repbody->valid |= OBD_MD_FLSIZE | OBD_MD_FLBLOCKS;
511                 }
512         } else if (S_ISLNK(la->la_mode) &&
513                    reqbody->valid & OBD_MD_LINKNAME) {
514                 buffer->lb_buf = ma->ma_lmm;
515                 buffer->lb_len = reqbody->eadatasize;
516                 rc = mo_readlink(env, next, buffer);
517                 if (unlikely(rc <= 0)) {
518                         CERROR("readlink failed: %d\n", rc);
519                         rc = -EFAULT;
520                 } else {
521                         repbody->valid |= OBD_MD_LINKNAME;
522                         repbody->eadatasize = rc;
523                         /* NULL terminate */
524                         ((char*)ma->ma_lmm)[rc - 1] = 0;
525                         CDEBUG(D_INODE, "symlink dest %s, len = %d\n",
526                                (char*)ma->ma_lmm, rc);
527                         rc = 0;
528                 }
529         }
530
531         if (reqbody->valid & OBD_MD_FLMODEASIZE) {
532                 repbody->max_cookiesize = info->mti_mdt->mdt_max_cookiesize;
533                 repbody->max_mdsize = info->mti_mdt->mdt_max_mdsize;
534                 repbody->valid |= OBD_MD_FLMODEASIZE;
535                 CDEBUG(D_INODE, "I am going to change the MAX_MD_SIZE & "
536                        "MAX_COOKIE to : %d:%d\n", repbody->max_mdsize,
537                        repbody->max_cookiesize);
538         }
539
540         if (med->med_rmtclient && (reqbody->valid & OBD_MD_FLRMTPERM)) {
541                 void *buf = req_capsule_server_get(pill, &RMF_ACL);
542
543                 /* mdt_getattr_lock only */
544                 rc = mdt_pack_remote_perm(info, o, buf);
545                 if (rc) {
546                         repbody->valid &= ~OBD_MD_FLRMTPERM;
547                         repbody->aclsize = 0;
548                         RETURN(rc);
549                 } else {
550                         repbody->valid |= OBD_MD_FLRMTPERM;
551                         repbody->aclsize = sizeof(struct mdt_remote_perm);
552                 }
553         }
554 #ifdef CONFIG_FS_POSIX_ACL
555         else if ((req->rq_export->exp_connect_flags & OBD_CONNECT_ACL) &&
556                  (reqbody->valid & OBD_MD_FLACL)) {
557                 buffer->lb_buf = req_capsule_server_get(pill, &RMF_ACL);
558                 buffer->lb_len = req_capsule_get_size(pill,
559                                                       &RMF_ACL, RCL_SERVER);
560                 if (buffer->lb_len > 0) {
561                         rc = mo_xattr_get(env, next, buffer,
562                                           XATTR_NAME_ACL_ACCESS);
563                         if (rc < 0) {
564                                 if (rc == -ENODATA) {
565                                         repbody->aclsize = 0;
566                                         repbody->valid |= OBD_MD_FLACL;
567                                         rc = 0;
568                                 } else if (rc == -EOPNOTSUPP) {
569                                         rc = 0;
570                                 } else {
571                                         CERROR("got acl size: %d\n", rc);
572                                 }
573                         } else {
574                                 repbody->aclsize = rc;
575                                 repbody->valid |= OBD_MD_FLACL;
576                                 rc = 0;
577                         }
578                 }
579         }
580 #endif
581
582         if ((reqbody->valid & OBD_MD_FLMDSCAPA) &&
583             info->mti_mdt->mdt_opts.mo_mds_capa) {
584                 struct lustre_capa *capa;
585
586                 capa = req_capsule_server_get(pill, &RMF_CAPA1);
587                 LASSERT(capa);
588                 capa->lc_opc = CAPA_OPC_MDS_DEFAULT;
589                 rc = mo_capa_get(env, next, capa, 0);
590                 if (rc)
591                         RETURN(rc);
592                 repbody->valid |= OBD_MD_FLMDSCAPA;
593         }
594         RETURN(rc);
595 }
596
597 static int mdt_renew_capa(struct mdt_thread_info *info)
598 {
599         struct mdt_device  *mdt = info->mti_mdt;
600         struct mdt_object  *obj = info->mti_object;
601         struct mdt_body    *body;
602         struct lustre_capa *capa, *c;
603         int rc;
604         ENTRY;
605
606         /* if object doesn't exist, or server has disabled capability,
607          * return directly, client will find body->valid OBD_MD_FLOSSCAPA
608          * flag not set.
609          */
610         if (!obj || !mdt->mdt_opts.mo_mds_capa)
611                 RETURN(0);
612
613         body = req_capsule_server_get(info->mti_pill, &RMF_MDT_BODY);
614         LASSERT(body != NULL);
615
616         c = req_capsule_client_get(info->mti_pill, &RMF_CAPA1);
617         LASSERT(c);
618
619         capa = req_capsule_server_get(info->mti_pill, &RMF_CAPA2);
620         LASSERT(capa);
621
622         *capa = *c;
623         rc = mo_capa_get(info->mti_env, mdt_object_child(obj), capa, 1);
624         if (rc == 0)
625                 body->valid |= OBD_MD_FLOSSCAPA;
626         RETURN(rc);
627 }
628
629 static int mdt_getattr(struct mdt_thread_info *info)
630 {
631         struct mdt_object       *obj = info->mti_object;
632         struct req_capsule      *pill = info->mti_pill;
633         struct mdt_body         *reqbody;
634         struct mdt_body         *repbody;
635         mode_t                   mode;
636         int                      md_size;
637         int rc;
638         ENTRY;
639
640         reqbody = req_capsule_client_get(pill, &RMF_MDT_BODY);
641         LASSERT(reqbody);
642
643         if (reqbody->valid & OBD_MD_FLOSSCAPA) {
644                 rc = req_capsule_server_pack(pill);
645                 if (unlikely(rc))
646                         RETURN(err_serious(rc));
647                 rc = mdt_renew_capa(info);
648                 GOTO(out_shrink, rc);
649         }
650
651         LASSERT(obj != NULL);
652         LASSERT(lu_object_assert_exists(&obj->mot_obj.mo_lu));
653
654         mode = lu_object_attr(&obj->mot_obj.mo_lu);
655         if (S_ISLNK(mode) && (reqbody->valid & OBD_MD_LINKNAME) &&
656             (reqbody->eadatasize > info->mti_mdt->mdt_max_mdsize))
657                 md_size = reqbody->eadatasize;
658         else
659                 md_size = info->mti_mdt->mdt_max_mdsize;
660
661         req_capsule_set_size(pill, &RMF_MDT_MD, RCL_SERVER, md_size);
662
663         rc = req_capsule_server_pack(pill);
664         if (unlikely(rc != 0))
665                 RETURN(err_serious(rc));
666
667         repbody = req_capsule_server_get(pill, &RMF_MDT_BODY);
668         LASSERT(repbody != NULL);
669         repbody->eadatasize = 0;
670         repbody->aclsize = 0;
671
672         if (reqbody->valid & OBD_MD_FLRMTPERM)
673                 rc = mdt_init_ucred(info, reqbody);
674         else
675                 rc = mdt_check_ucred(info);
676         if (unlikely(rc))
677                 GOTO(out_shrink, rc);
678
679         info->mti_spec.sp_ck_split = !!(reqbody->valid & OBD_MD_FLCKSPLIT);
680         info->mti_cross_ref = !!(reqbody->valid & OBD_MD_FLCROSSREF);
681
682         /*
683          * Don't check capability at all, because rename might getattr for
684          * remote obj, and at that time no capability is available.
685          */
686         mdt_set_capainfo(info, 1, &reqbody->fid1, BYPASS_CAPA);
687         rc = mdt_getattr_internal(info, obj);
688         if (reqbody->valid & OBD_MD_FLRMTPERM)
689                 mdt_exit_ucred(info);
690         EXIT;
691 out_shrink:
692         mdt_shrink_reply(info);
693         return rc;
694 }
695
696 static int mdt_is_subdir(struct mdt_thread_info *info)
697 {
698         struct mdt_object     *o = info->mti_object;
699         struct req_capsule    *pill = info->mti_pill;
700         const struct mdt_body *body = info->mti_body;
701         struct mdt_body       *repbody;
702         int                    rc;
703         ENTRY;
704
705         LASSERT(o != NULL);
706
707         repbody = req_capsule_server_get(pill, &RMF_MDT_BODY);
708
709         /*
710          * We save last checked parent fid to @repbody->fid1 for remote
711          * directory case.
712          */
713         LASSERT(fid_is_sane(&body->fid2));
714         LASSERT(mdt_object_exists(o) > 0);
715         rc = mdo_is_subdir(info->mti_env, mdt_object_child(o),
716                            &body->fid2, &repbody->fid1);
717         if (rc == 0 || rc == -EREMOTE)
718                 repbody->valid |= OBD_MD_FLID;
719
720         RETURN(rc);
721 }
722
723 static int mdt_raw_lookup(struct mdt_thread_info *info,
724                           struct mdt_object *parent,
725                           const struct lu_name *lname,
726                           struct ldlm_reply *ldlm_rep)
727 {
728         struct md_object *next = mdt_object_child(info->mti_object);
729         const struct mdt_body *reqbody = info->mti_body;
730         struct lu_fid *child_fid = &info->mti_tmp_fid1;
731         struct mdt_body *repbody;
732         int rc;
733         ENTRY;
734
735         if (reqbody->valid != OBD_MD_FLID)
736                 RETURN(0);
737
738         LASSERT(!info->mti_cross_ref);
739
740         /* Only got the fid of this obj by name */
741         rc = mdo_lookup(info->mti_env, next, lname, child_fid,
742                         &info->mti_spec);
743 #if 0
744         /* XXX is raw_lookup possible as intent operation? */
745         if (rc != 0) {
746                 if (rc == -ENOENT)
747                         mdt_set_disposition(info, ldlm_rep, DISP_LOOKUP_NEG);
748                 RETURN(rc);
749         } else
750                 mdt_set_disposition(info, ldlm_rep, DISP_LOOKUP_POS);
751
752         repbody = req_capsule_server_get(info->mti_pill, &RMF_MDT_BODY);
753 #endif
754         if (rc == 0) {
755                 repbody = req_capsule_server_get(info->mti_pill, &RMF_MDT_BODY);
756                 repbody->fid1 = *child_fid;
757                 repbody->valid = OBD_MD_FLID;
758         }
759         RETURN(1);
760 }
761
762 /*
763  * UPDATE lock should be taken against parent, and be release before exit;
764  * child_bits lock should be taken against child, and be returned back:
765  *            (1)normal request should release the child lock;
766  *            (2)intent request will grant the lock to client.
767  */
768 static int mdt_getattr_name_lock(struct mdt_thread_info *info,
769                                  struct mdt_lock_handle *lhc,
770                                  __u64 child_bits,
771                                  struct ldlm_reply *ldlm_rep)
772 {
773         struct ptlrpc_request  *req       = mdt_info_req(info);
774         struct mdt_body        *reqbody   = NULL;
775         struct mdt_object      *parent    = info->mti_object;
776         struct mdt_object      *child;
777         struct md_object       *next      = mdt_object_child(parent);
778         struct lu_fid          *child_fid = &info->mti_tmp_fid1;
779         struct lu_name         *lname     = NULL;
780         const char             *name      = NULL;
781         int                     namelen   = 0;
782         struct mdt_lock_handle *lhp;
783         struct ldlm_lock       *lock;
784         struct ldlm_res_id     *res_id;
785         int                     is_resent;
786         int                     rc;
787
788         ENTRY;
789
790         is_resent = lustre_handle_is_used(&lhc->mlh_reg_lh);
791         LASSERT(ergo(is_resent,
792                      lustre_msg_get_flags(req->rq_reqmsg) & MSG_RESENT));
793
794         LASSERT(parent != NULL);
795         name = req_capsule_client_get(info->mti_pill, &RMF_NAME);
796         if (name == NULL)
797                 RETURN(err_serious(-EFAULT));
798
799         namelen = req_capsule_get_size(info->mti_pill, &RMF_NAME,
800                                        RCL_CLIENT) - 1;
801         if (!info->mti_cross_ref) {
802                 /* 
803                  * XXX: Check for "namelen == 0" is for getattr by fid 
804                  * (OBD_CONNECT_ATTRFID), otherwise do not allow empty name,
805                  * that is the name must contain at least one character and
806                  * the terminating '\0'
807                  */
808                 if (namelen == 0) {
809                         reqbody = req_capsule_client_get(info->mti_pill, 
810                                                          &RMF_MDT_BODY);
811                         LASSERT(fid_is_sane(&reqbody->fid2));
812                         name = NULL;
813
814                         CDEBUG(D_INODE, "getattr with lock for "DFID"/"DFID", "
815                                "ldlm_rep = %p\n",
816                                PFID(mdt_object_fid(parent)), PFID(&reqbody->fid2),
817                                ldlm_rep);
818                 } else {
819                         lname = mdt_name(info->mti_env, (char *)name, namelen);
820                         CDEBUG(D_INODE, "getattr with lock for "DFID"/%s, "
821                                "ldlm_rep = %p\n", PFID(mdt_object_fid(parent)), 
822                                name, ldlm_rep);
823                 }
824         }
825         mdt_set_disposition(info, ldlm_rep, DISP_LOOKUP_EXECD);
826
827         rc = mdt_object_exists(parent);
828         if (unlikely(rc == 0)) {
829                 LU_OBJECT_DEBUG(D_WARNING, info->mti_env,
830                                 &parent->mot_obj.mo_lu,
831                                 "Parent doesn't exist!\n");
832                 RETURN(-ESTALE);
833         } else if (!info->mti_cross_ref) {
834                 LASSERTF(rc > 0, "Parent "DFID" is on remote server\n",
835                          PFID(mdt_object_fid(parent)));
836         }
837         if (lname) {
838                 rc = mdt_raw_lookup(info, parent, lname, ldlm_rep);
839                 if (rc != 0) {
840                         if (rc > 0)
841                                 rc = 0;
842                         RETURN(rc);
843                 }
844         }
845
846         if (info->mti_cross_ref) {
847                 /* Only getattr on the child. Parent is on another node. */
848                 mdt_set_disposition(info, ldlm_rep, DISP_LOOKUP_POS);
849                 child = parent;
850                 CDEBUG(D_INODE, "partial getattr_name child_fid = "DFID", "
851                        "ldlm_rep=%p\n", PFID(mdt_object_fid(child)), ldlm_rep);
852
853                 if (is_resent) {
854                         /* Do not take lock for resent case. */
855                         lock = ldlm_handle2lock(&lhc->mlh_reg_lh);
856                         LASSERTF(lock != NULL, "Invalid lock handle "LPX64"\n",
857                                  lhc->mlh_reg_lh.cookie);
858                         LASSERT(fid_res_name_eq(mdt_object_fid(child),
859                                                 &lock->l_resource->lr_name));
860                         LDLM_LOCK_PUT(lock);
861                         rc = 0;
862                 } else {
863                         mdt_lock_handle_init(lhc);
864                         mdt_lock_reg_init(lhc, LCK_PR);
865
866                         /*
867                          * Object's name is on another MDS, no lookup lock is
868                          * needed here but update is.
869                          */
870                         child_bits &= ~MDS_INODELOCK_LOOKUP;
871                         child_bits |= MDS_INODELOCK_UPDATE;
872
873                         rc = mdt_object_lock(info, child, lhc, child_bits,
874                                              MDT_LOCAL_LOCK);
875                 }
876                 if (rc == 0) {
877                         /* Finally, we can get attr for child. */
878                         mdt_set_capainfo(info, 0, mdt_object_fid(child),
879                                          BYPASS_CAPA);
880                         rc = mdt_getattr_internal(info, child);
881                         if (unlikely(rc != 0))
882                                 mdt_object_unlock(info, child, lhc, 1);
883                 }
884                 RETURN(rc);
885         }
886
887         /* step 1: lock parent */
888         lhp = &info->mti_lh[MDT_LH_PARENT];
889         mdt_lock_pdo_init(lhp, LCK_PR, name, namelen);
890         rc = mdt_object_lock(info, parent, lhp, MDS_INODELOCK_UPDATE,
891                              MDT_LOCAL_LOCK);
892
893         if (unlikely(rc != 0))
894                 RETURN(rc);
895
896         if (lname) {
897                 /* step 2: lookup child's fid by name */
898                 rc = mdo_lookup(info->mti_env, next, lname, child_fid,
899                                 &info->mti_spec);
900
901                 if (rc != 0) {
902                         if (rc == -ENOENT)
903                                 mdt_set_disposition(info, ldlm_rep, DISP_LOOKUP_NEG);
904                         GOTO(out_parent, rc);
905                 } else
906                         mdt_set_disposition(info, ldlm_rep, DISP_LOOKUP_POS);
907         } else {
908                 *child_fid = reqbody->fid2;
909                 mdt_set_disposition(info, ldlm_rep, DISP_LOOKUP_POS);
910         }
911
912         /*
913          *step 3: find the child object by fid & lock it.
914          *        regardless if it is local or remote.
915          */
916         child = mdt_object_find(info->mti_env, info->mti_mdt, child_fid);
917
918         if (unlikely(IS_ERR(child)))
919                 GOTO(out_parent, rc = PTR_ERR(child));
920         if (is_resent) {
921                 /* Do not take lock for resent case. */
922                 lock = ldlm_handle2lock(&lhc->mlh_reg_lh);
923                 LASSERTF(lock != NULL, "Invalid lock handle "LPX64"\n",
924                          lhc->mlh_reg_lh.cookie);
925
926                 res_id = &lock->l_resource->lr_name;
927                 if (!fid_res_name_eq(mdt_object_fid(child),
928                                     &lock->l_resource->lr_name)) {
929                          LASSERTF(fid_res_name_eq(mdt_object_fid(parent),
930                                                  &lock->l_resource->lr_name),
931                                  "Lock res_id: %lu/%lu/%lu, Fid: "DFID".\n",
932                                  (unsigned long)res_id->name[0],
933                                  (unsigned long)res_id->name[1],
934                                  (unsigned long)res_id->name[2],
935                                  PFID(mdt_object_fid(parent)));
936                           CWARN("Although resent, but still not get child lock"
937                                 "parent:"DFID" child:"DFID"\n",
938                                 PFID(mdt_object_fid(parent)),
939                                 PFID(mdt_object_fid(child)));
940                           lustre_msg_clear_flags(req->rq_reqmsg, MSG_RESENT);
941                           LDLM_LOCK_PUT(lock);
942                           GOTO(relock, 0);
943                 }
944                 LDLM_LOCK_PUT(lock);
945                 rc = 0;
946         } else {
947                 struct md_attr *ma;
948 relock:
949                 ma = &info->mti_attr;
950
951                 mdt_lock_handle_init(lhc);
952                 mdt_lock_reg_init(lhc, LCK_PR);
953
954                 if (mdt_object_exists(child) == 0) {
955                         LU_OBJECT_DEBUG(D_WARNING, info->mti_env,
956                                         &child->mot_obj.mo_lu,
957                                         "Object doesn't exist!\n");
958                         GOTO(out_child, rc = -ESTALE);
959                 }
960
961                 ma->ma_valid = 0;
962                 ma->ma_need = MA_INODE;
963                 rc = mo_attr_get(info->mti_env, next, ma);
964                 if (unlikely(rc != 0))
965                         GOTO(out_child, rc);
966
967                 /* If the file has not been changed for some time, we return
968                  * not only a LOOKUP lock, but also an UPDATE lock and this
969                  * might save us RPC on later STAT. For directories, it also
970                  * let negative dentry starts working for this dir. */
971                 if (ma->ma_valid & MA_INODE &&
972                     ma->ma_attr.la_valid & LA_CTIME &&
973                     info->mti_mdt->mdt_namespace->ns_ctime_age_limit +
974                     ma->ma_attr.la_ctime < cfs_time_current_sec())
975                         child_bits |= MDS_INODELOCK_UPDATE;
976
977                 rc = mdt_object_lock(info, child, lhc, child_bits,
978                                      MDT_CROSS_LOCK);
979
980                 if (unlikely(rc != 0))
981                         GOTO(out_child, rc);
982         }
983
984         /* finally, we can get attr for child. */
985         mdt_set_capainfo(info, 1, child_fid, BYPASS_CAPA);
986         rc = mdt_getattr_internal(info, child);
987         if (unlikely(rc != 0)) {
988                 mdt_object_unlock(info, child, lhc, 1);
989         } else {
990                 lock = ldlm_handle2lock(&lhc->mlh_reg_lh);
991                 if (lock) {
992                         struct mdt_body *repbody;
993
994                         /* Debugging code. */
995                         res_id = &lock->l_resource->lr_name;
996                         LDLM_DEBUG(lock, "Returning lock to client\n");
997                         LASSERTF(fid_res_name_eq(mdt_object_fid(child),
998                                                  &lock->l_resource->lr_name),
999                                  "Lock res_id: %lu/%lu/%lu, Fid: "DFID".\n",
1000                                  (unsigned long)res_id->name[0],
1001                                  (unsigned long)res_id->name[1],
1002                                  (unsigned long)res_id->name[2],
1003                                  PFID(mdt_object_fid(child)));
1004                         /*
1005                          * Pack Size-on-MDS inode attributes to the body if
1006                          * update lock is given.
1007                          */
1008                         repbody = req_capsule_server_get(info->mti_pill,
1009                                                          &RMF_MDT_BODY);
1010                         if (lock->l_policy_data.l_inodebits.bits &
1011                             MDS_INODELOCK_UPDATE)
1012                                 mdt_pack_size2body(info, child);
1013                         LDLM_LOCK_PUT(lock);
1014                 }
1015         }
1016         EXIT;
1017 out_child:
1018         mdt_object_put(info->mti_env, child);
1019 out_parent:
1020         mdt_object_unlock(info, parent, lhp, 1);
1021         return rc;
1022 }
1023
1024 /* normal handler: should release the child lock */
1025 static int mdt_getattr_name(struct mdt_thread_info *info)
1026 {
1027         struct mdt_lock_handle *lhc = &info->mti_lh[MDT_LH_CHILD];
1028         struct mdt_body        *reqbody;
1029         struct mdt_body        *repbody;
1030         int rc;
1031         ENTRY;
1032
1033         reqbody = req_capsule_client_get(info->mti_pill, &RMF_MDT_BODY);
1034         LASSERT(reqbody != NULL);
1035         repbody = req_capsule_server_get(info->mti_pill, &RMF_MDT_BODY);
1036         LASSERT(repbody != NULL);
1037
1038         info->mti_spec.sp_ck_split = !!(reqbody->valid & OBD_MD_FLCKSPLIT);
1039         info->mti_cross_ref = !!(reqbody->valid & OBD_MD_FLCROSSREF);
1040         repbody->eadatasize = 0;
1041         repbody->aclsize = 0;
1042
1043         rc = mdt_init_ucred(info, reqbody);
1044         if (unlikely(rc))
1045                 GOTO(out_shrink, rc);
1046
1047         rc = mdt_getattr_name_lock(info, lhc, MDS_INODELOCK_UPDATE, NULL);
1048         if (lustre_handle_is_used(&lhc->mlh_reg_lh)) {
1049                 ldlm_lock_decref(&lhc->mlh_reg_lh, lhc->mlh_reg_mode);
1050                 lhc->mlh_reg_lh.cookie = 0;
1051         }
1052         mdt_exit_ucred(info);
1053         EXIT;
1054 out_shrink:
1055         mdt_shrink_reply(info);
1056         return rc;
1057 }
1058
1059 static const struct lu_device_operations mdt_lu_ops;
1060
1061 static int lu_device_is_mdt(struct lu_device *d)
1062 {
1063         return ergo(d != NULL && d->ld_ops != NULL, d->ld_ops == &mdt_lu_ops);
1064 }
1065
1066 static int mdt_set_info(struct mdt_thread_info *info)
1067 {
1068         struct ptlrpc_request *req = mdt_info_req(info);
1069         char *key;
1070         __u32 *val;
1071         int keylen, rc = 0;
1072         ENTRY;
1073
1074         rc = req_capsule_server_pack(info->mti_pill);
1075         if (rc)
1076                 RETURN(rc);
1077
1078         key = req_capsule_client_get(info->mti_pill, &RMF_SETINFO_KEY);
1079         if (key == NULL) {
1080                 DEBUG_REQ(D_HA, req, "no set_info key");
1081                 RETURN(-EFAULT);
1082         }
1083
1084         keylen = req_capsule_get_size(info->mti_pill, &RMF_SETINFO_KEY,
1085                                       RCL_CLIENT);
1086
1087         val = req_capsule_client_get(info->mti_pill, &RMF_SETINFO_VAL);
1088         if (val == NULL) {
1089                 DEBUG_REQ(D_HA, req, "no set_info val");
1090                 RETURN(-EFAULT);
1091         }
1092
1093         if (!KEY_IS(KEY_READ_ONLY))
1094                 RETURN(-EINVAL);
1095
1096         req->rq_status = 0;
1097         lustre_msg_set_status(req->rq_repmsg, 0);
1098
1099         spin_lock(&req->rq_export->exp_lock);
1100         if (*val)
1101                 req->rq_export->exp_connect_flags |= OBD_CONNECT_RDONLY;
1102         else
1103                 req->rq_export->exp_connect_flags &= ~OBD_CONNECT_RDONLY;
1104         spin_unlock(&req->rq_export->exp_lock);
1105
1106         RETURN(0);
1107 }
1108
1109 static int mdt_connect(struct mdt_thread_info *info)
1110 {
1111         int rc;
1112         struct ptlrpc_request *req;
1113
1114         req = mdt_info_req(info);
1115         rc = target_handle_connect(req);
1116         if (rc == 0) {
1117                 LASSERT(req->rq_export != NULL);
1118                 info->mti_mdt = mdt_dev(req->rq_export->exp_obd->obd_lu_dev);
1119                 rc = mdt_init_idmap(info);
1120                 if (rc != 0)
1121                         /* if mdt_init_idmap failed, revocation for connect */
1122                         obd_disconnect(class_export_get(req->rq_export));
1123         } else
1124                 rc = err_serious(rc);
1125         return rc;
1126 }
1127
1128 static int mdt_disconnect(struct mdt_thread_info *info)
1129 {
1130         int rc;
1131         ENTRY;
1132
1133         rc = target_handle_disconnect(mdt_info_req(info));
1134         if (rc)
1135                 rc = err_serious(rc);
1136         RETURN(rc);
1137 }
1138
1139 static int mdt_sendpage(struct mdt_thread_info *info,
1140                         struct lu_rdpg *rdpg)
1141 {
1142         struct ptlrpc_request   *req = mdt_info_req(info);
1143         struct ptlrpc_bulk_desc *desc;
1144         struct l_wait_info      *lwi = &info->mti_u.rdpg.mti_wait_info;
1145         int                      tmpcount;
1146         int                      tmpsize;
1147         int                      timeout;
1148         int                      i;
1149         int                      rc;
1150         ENTRY;
1151
1152         desc = ptlrpc_prep_bulk_exp(req, rdpg->rp_npages, BULK_PUT_SOURCE,
1153                                     MDS_BULK_PORTAL);
1154         if (desc == NULL)
1155                 RETURN(-ENOMEM);
1156
1157         for (i = 0, tmpcount = rdpg->rp_count;
1158                 i < rdpg->rp_npages; i++, tmpcount -= tmpsize) {
1159                 tmpsize = min_t(int, tmpcount, CFS_PAGE_SIZE);
1160                 ptlrpc_prep_bulk_page(desc, rdpg->rp_pages[i], 0, tmpsize);
1161         }
1162
1163         LASSERT(desc->bd_nob == rdpg->rp_count);
1164         rc = ptlrpc_start_bulk_transfer(desc);
1165         if (rc)
1166                 GOTO(free_desc, rc);
1167
1168         if (OBD_FAIL_CHECK(OBD_FAIL_MDS_SENDPAGE))
1169                 GOTO(abort_bulk, rc = 0);
1170
1171         timeout = (int) req->rq_deadline - cfs_time_current_sec();
1172         if (timeout < 0)
1173                 CERROR("Req deadline already passed %lu (now: %lu)\n",
1174                        req->rq_deadline, cfs_time_current_sec());
1175         *lwi = LWI_TIMEOUT(max(timeout, 1) * HZ, NULL, NULL);
1176         rc = l_wait_event(desc->bd_waitq, !ptlrpc_bulk_active(desc), lwi);
1177         LASSERT (rc == 0 || rc == -ETIMEDOUT);
1178
1179         if (rc == 0) {
1180                 if (desc->bd_success &&
1181                     desc->bd_nob_transferred == rdpg->rp_count)
1182                         GOTO(free_desc, rc);
1183
1184                 rc = -ETIMEDOUT; /* XXX should this be a different errno? */
1185         }
1186
1187         DEBUG_REQ(D_ERROR, req, "bulk failed: %s %d(%d), evicting %s@%s",
1188                   (rc == -ETIMEDOUT) ? "timeout" : "network error",
1189                   desc->bd_nob_transferred, rdpg->rp_count,
1190                   req->rq_export->exp_client_uuid.uuid,
1191                   req->rq_export->exp_connection->c_remote_uuid.uuid);
1192
1193         class_fail_export(req->rq_export);
1194
1195         EXIT;
1196 abort_bulk:
1197         ptlrpc_abort_bulk(desc);
1198 free_desc:
1199         ptlrpc_free_bulk(desc);
1200         return rc;
1201 }
1202
1203 #ifdef HAVE_SPLIT_SUPPORT
1204 /*
1205  * Retrieve dir entry from the page and insert it to the slave object, actually,
1206  * this should be in osd layer, but since it will not in the final product, so
1207  * just do it here and do not define more moo api anymore for this.
1208  */
1209 static int mdt_write_dir_page(struct mdt_thread_info *info, struct page *page,
1210                               int size)
1211 {
1212         struct mdt_object *object = info->mti_object;
1213         struct lu_fid *lf = &info->mti_tmp_fid2;
1214         struct md_attr *ma = &info->mti_attr;
1215         struct lu_dirpage *dp;
1216         struct lu_dirent *ent;
1217         int rc = 0, offset = 0;
1218         ENTRY;
1219
1220         /* Make sure we have at least one entry. */
1221         if (size == 0)
1222                 RETURN(-EINVAL);
1223
1224         /*
1225          * Disable trans for this name insert, since it will include many trans
1226          * for this.
1227          */
1228         info->mti_no_need_trans = 1;
1229         /*
1230          * When write_dir_page, no need update parent's ctime,
1231          * and no permission check for name_insert.
1232          */
1233         ma->ma_attr.la_ctime = 0;
1234         ma->ma_attr.la_valid = LA_MODE;
1235         ma->ma_valid = MA_INODE;
1236
1237         cfs_kmap(page);
1238         dp = page_address(page);
1239         offset = (int)((__u32)lu_dirent_start(dp) - (__u32)dp);
1240
1241         for (ent = lu_dirent_start(dp); ent != NULL;
1242              ent = lu_dirent_next(ent)) {
1243                 struct lu_name *lname;
1244                 char *name;
1245
1246                 if (le16_to_cpu(ent->lde_namelen) == 0)
1247                         continue;
1248
1249                 fid_le_to_cpu(lf, &ent->lde_fid);
1250                 if (le64_to_cpu(ent->lde_hash) & MAX_HASH_HIGHEST_BIT)
1251                         ma->ma_attr.la_mode = S_IFDIR;
1252                 else
1253                         ma->ma_attr.la_mode = 0;
1254                 OBD_ALLOC(name, le16_to_cpu(ent->lde_namelen) + 1);
1255                 if (name == NULL)
1256                         GOTO(out, rc = -ENOMEM);
1257
1258                 memcpy(name, ent->lde_name, le16_to_cpu(ent->lde_namelen));
1259                 lname = mdt_name(info->mti_env, name,
1260                                  le16_to_cpu(ent->lde_namelen));
1261                 ma->ma_attr_flags |= MDS_PERM_BYPASS;
1262                 rc = mdo_name_insert(info->mti_env,
1263                                      md_object_next(&object->mot_obj),
1264                                      lname, lf, ma);
1265                 OBD_FREE(name, le16_to_cpu(ent->lde_namelen) + 1);
1266                 if (rc) {
1267                         CERROR("Can't insert %*.*s, rc %d\n",
1268                                le16_to_cpu(ent->lde_namelen),
1269                                le16_to_cpu(ent->lde_namelen),
1270                                ent->lde_name, rc);
1271                         GOTO(out, rc);
1272                 }
1273
1274                 offset += lu_dirent_size(ent);
1275                 if (offset >= size)
1276                         break;
1277         }
1278         EXIT;
1279 out:
1280         cfs_kunmap(page);
1281         return rc;
1282 }
1283
1284 static int mdt_bulk_timeout(void *data)
1285 {
1286         ENTRY;
1287
1288         CERROR("mdt bulk transfer timeout \n");
1289
1290         RETURN(1);
1291 }
1292
1293 static int mdt_writepage(struct mdt_thread_info *info)
1294 {
1295         struct ptlrpc_request   *req = mdt_info_req(info);
1296         struct mdt_body         *reqbody;
1297         struct l_wait_info      *lwi;
1298         struct ptlrpc_bulk_desc *desc;
1299         struct page             *page;
1300         int                rc;
1301         ENTRY;
1302
1303
1304         reqbody = req_capsule_client_get(info->mti_pill, &RMF_MDT_BODY);
1305         if (reqbody == NULL)
1306                 RETURN(err_serious(-EFAULT));
1307
1308         desc = ptlrpc_prep_bulk_exp(req, 1, BULK_GET_SINK, MDS_BULK_PORTAL);
1309         if (desc == NULL)
1310                 RETURN(err_serious(-ENOMEM));
1311
1312         /* allocate the page for the desc */
1313         page = cfs_alloc_page(CFS_ALLOC_STD);
1314         if (page == NULL)
1315                 GOTO(desc_cleanup, rc = -ENOMEM);
1316
1317         CDEBUG(D_INFO, "Received page offset %d size %d \n",
1318                (int)reqbody->size, (int)reqbody->nlink);
1319
1320         ptlrpc_prep_bulk_page(desc, page, (int)reqbody->size,
1321                               (int)reqbody->nlink);
1322
1323         /*
1324          * Check if client was evicted while we were doing i/o before touching
1325          * network.
1326          */
1327         OBD_ALLOC_PTR(lwi);
1328         if (!lwi)
1329                 GOTO(cleanup_page, rc = -ENOMEM);
1330
1331         if (desc->bd_export->exp_failed)
1332                 rc = -ENOTCONN;
1333         else
1334                 rc = ptlrpc_start_bulk_transfer (desc);
1335         if (rc == 0) {
1336                 *lwi = LWI_TIMEOUT_INTERVAL(obd_timeout * HZ / 4, HZ,
1337                                             mdt_bulk_timeout, desc);
1338                 rc = l_wait_event(desc->bd_waitq, !ptlrpc_bulk_active(desc) ||
1339                                   desc->bd_export->exp_failed, lwi);
1340                 LASSERT(rc == 0 || rc == -ETIMEDOUT);
1341                 if (rc == -ETIMEDOUT) {
1342                         DEBUG_REQ(D_ERROR, req, "timeout on bulk GET");
1343                         ptlrpc_abort_bulk(desc);
1344                 } else if (desc->bd_export->exp_failed) {
1345                         DEBUG_REQ(D_ERROR, req, "Eviction on bulk GET");
1346                         rc = -ENOTCONN;
1347                         ptlrpc_abort_bulk(desc);
1348                 } else if (!desc->bd_success ||
1349                            desc->bd_nob_transferred != desc->bd_nob) {
1350                         DEBUG_REQ(D_ERROR, req, "%s bulk GET %d(%d)",
1351                                   desc->bd_success ?
1352                                   "truncated" : "network error on",
1353                                   desc->bd_nob_transferred, desc->bd_nob);
1354                         /* XXX should this be a different errno? */
1355                         rc = -ETIMEDOUT;
1356                 }
1357         } else {
1358                 DEBUG_REQ(D_ERROR, req, "ptlrpc_bulk_get failed: rc %d", rc);
1359         }
1360         if (rc)
1361                 GOTO(cleanup_lwi, rc);
1362         rc = mdt_write_dir_page(info, page, reqbody->nlink);
1363
1364 cleanup_lwi:
1365         OBD_FREE_PTR(lwi);
1366 cleanup_page:
1367         cfs_free_page(page);
1368 desc_cleanup:
1369         ptlrpc_free_bulk(desc);
1370         RETURN(rc);
1371 }
1372 #endif
1373
1374 static int mdt_readpage(struct mdt_thread_info *info)
1375 {
1376         struct mdt_object *object = info->mti_object;
1377         struct lu_rdpg    *rdpg = &info->mti_u.rdpg.mti_rdpg;
1378         struct mdt_body   *reqbody;
1379         struct mdt_body   *repbody;
1380         int                rc;
1381         int                i;
1382         ENTRY;
1383
1384         if (OBD_FAIL_CHECK(OBD_FAIL_MDS_READPAGE_PACK))
1385                 RETURN(err_serious(-ENOMEM));
1386
1387         reqbody = req_capsule_client_get(info->mti_pill, &RMF_MDT_BODY);
1388         repbody = req_capsule_server_get(info->mti_pill, &RMF_MDT_BODY);
1389         if (reqbody == NULL || repbody == NULL)
1390                 RETURN(err_serious(-EFAULT));
1391
1392         /*
1393          * prepare @rdpg before calling lower layers and transfer itself. Here
1394          * reqbody->size contains offset of where to start to read and
1395          * reqbody->nlink contains number bytes to read.
1396          */
1397         rdpg->rp_hash = reqbody->size;
1398         if (rdpg->rp_hash != reqbody->size) {
1399                 CERROR("Invalid hash: "LPX64" != "LPX64"\n",
1400                        rdpg->rp_hash, reqbody->size);
1401                 RETURN(-EFAULT);
1402         }
1403         rdpg->rp_count  = reqbody->nlink;
1404         rdpg->rp_npages = (rdpg->rp_count + CFS_PAGE_SIZE - 1)>>CFS_PAGE_SHIFT;
1405         OBD_ALLOC(rdpg->rp_pages, rdpg->rp_npages * sizeof rdpg->rp_pages[0]);
1406         if (rdpg->rp_pages == NULL)
1407                 RETURN(-ENOMEM);
1408
1409         for (i = 0; i < rdpg->rp_npages; ++i) {
1410                 rdpg->rp_pages[i] = cfs_alloc_page(CFS_ALLOC_STD);
1411                 if (rdpg->rp_pages[i] == NULL)
1412                         GOTO(free_rdpg, rc = -ENOMEM);
1413         }
1414
1415         /* call lower layers to fill allocated pages with directory data */
1416         rc = mo_readpage(info->mti_env, mdt_object_child(object), rdpg);
1417         if (rc)
1418                 GOTO(free_rdpg, rc);
1419
1420         /* send pages to client */
1421         rc = mdt_sendpage(info, rdpg);
1422
1423         EXIT;
1424 free_rdpg:
1425
1426         for (i = 0; i < rdpg->rp_npages; i++)
1427                 if (rdpg->rp_pages[i] != NULL)
1428                         cfs_free_page(rdpg->rp_pages[i]);
1429         OBD_FREE(rdpg->rp_pages, rdpg->rp_npages * sizeof rdpg->rp_pages[0]);
1430
1431         if (OBD_FAIL_CHECK(OBD_FAIL_MDS_SENDPAGE))
1432                 RETURN(0);
1433
1434         return rc;
1435 }
1436
1437 static int mdt_reint_internal(struct mdt_thread_info *info,
1438                               struct mdt_lock_handle *lhc,
1439                               __u32 op)
1440 {
1441         struct req_capsule      *pill = info->mti_pill;
1442         struct mdt_device       *mdt = info->mti_mdt;
1443         struct mdt_body         *repbody;
1444         int                      rc = 0;
1445         ENTRY;
1446
1447         /* pack reply */
1448         if (req_capsule_has_field(pill, &RMF_MDT_MD, RCL_SERVER))
1449                 req_capsule_set_size(pill, &RMF_MDT_MD, RCL_SERVER,
1450                                      mdt->mdt_max_mdsize);
1451         if (req_capsule_has_field(pill, &RMF_LOGCOOKIES, RCL_SERVER))
1452                 req_capsule_set_size(pill, &RMF_LOGCOOKIES, RCL_SERVER,
1453                                      mdt->mdt_max_cookiesize);
1454
1455         rc = req_capsule_server_pack(pill);
1456         if (rc != 0) {
1457                 CERROR("Can't pack response, rc %d\n", rc);
1458                 RETURN(err_serious(rc));
1459         }
1460
1461         if (req_capsule_has_field(pill, &RMF_MDT_BODY, RCL_SERVER)) {
1462                 repbody = req_capsule_server_get(pill, &RMF_MDT_BODY);
1463                 LASSERT(repbody);
1464                 repbody->eadatasize = 0;
1465                 repbody->aclsize = 0;
1466         }
1467
1468         if (OBD_FAIL_CHECK(OBD_FAIL_MDS_REINT_UNPACK))
1469                 GOTO(out_shrink, rc = err_serious(-EFAULT));
1470
1471         rc = mdt_reint_unpack(info, op);
1472         if (rc != 0) {
1473                 CERROR("Can't unpack reint, rc %d\n", rc);
1474                 GOTO(out_shrink, rc = err_serious(rc));
1475         }
1476
1477         rc = mdt_init_ucred_reint(info);
1478         if (rc)
1479                 GOTO(out_shrink, rc);
1480
1481         rc = mdt_fix_attr_ucred(info, op);
1482         if (rc != 0)
1483                 GOTO(out_ucred, rc = err_serious(rc));
1484
1485         if (mdt_check_resent(info, mdt_reconstruct, lhc)) {
1486                 rc = lustre_msg_get_status(mdt_info_req(info)->rq_repmsg);
1487                 GOTO(out_ucred, rc);
1488         }
1489         rc = mdt_reint_rec(info, lhc);
1490         EXIT;
1491 out_ucred:
1492         mdt_exit_ucred(info);
1493 out_shrink:
1494         mdt_shrink_reply(info);
1495         return rc;
1496 }
1497
1498 static long mdt_reint_opcode(struct mdt_thread_info *info,
1499                              const struct req_format **fmt)
1500 {
1501         struct mdt_rec_reint *rec;
1502         long opc;
1503
1504         opc = err_serious(-EFAULT);
1505         rec = req_capsule_client_get(info->mti_pill, &RMF_REC_REINT);
1506         if (rec != NULL) {
1507                 opc = rec->rr_opcode;
1508                 DEBUG_REQ(D_INODE, mdt_info_req(info), "reint opt = %ld", opc);
1509                 if (opc < REINT_MAX && fmt[opc] != NULL)
1510                         req_capsule_extend(info->mti_pill, fmt[opc]);
1511                 else {
1512                         CERROR("Unsupported opc: %ld\n", opc);
1513                         opc = err_serious(opc);
1514                 }
1515         }
1516         return opc;
1517 }
1518
1519 static int mdt_reint(struct mdt_thread_info *info)
1520 {
1521         long opc;
1522         int  rc;
1523
1524         static const struct req_format *reint_fmts[REINT_MAX] = {
1525                 [REINT_SETATTR]  = &RQF_MDS_REINT_SETATTR,
1526                 [REINT_CREATE]   = &RQF_MDS_REINT_CREATE,
1527                 [REINT_LINK]     = &RQF_MDS_REINT_LINK,
1528                 [REINT_UNLINK]   = &RQF_MDS_REINT_UNLINK,
1529                 [REINT_RENAME]   = &RQF_MDS_REINT_RENAME,
1530                 [REINT_OPEN]     = &RQF_MDS_REINT_OPEN,
1531                 [REINT_SETXATTR] = &RQF_MDS_REINT_SETXATTR
1532         };
1533
1534         ENTRY;
1535
1536         opc = mdt_reint_opcode(info, reint_fmts);
1537         if (opc >= 0) {
1538                 /*
1539                  * No lock possible here from client to pass it to reint code
1540                  * path.
1541                  */
1542                 rc = mdt_reint_internal(info, NULL, opc);
1543         } else {
1544                 rc = opc;
1545         }
1546
1547         info->mti_fail_id = OBD_FAIL_MDS_REINT_NET_REP;
1548         RETURN(rc);
1549 }
1550
1551 /* this should sync the whole device */
1552 static int mdt_device_sync(const struct lu_env *env, struct mdt_device *mdt)
1553 {
1554         struct dt_device *dt = mdt->mdt_bottom;
1555         int rc;
1556         ENTRY;
1557
1558         rc = dt->dd_ops->dt_sync(env, dt);
1559         RETURN(rc);
1560 }
1561
1562 /* this should sync this object */
1563 static int mdt_object_sync(struct mdt_thread_info *info)
1564 {
1565         struct md_object *next;
1566         int rc;
1567         ENTRY;
1568
1569         if (!mdt_object_exists(info->mti_object)) {
1570                 CWARN("Non existing object  "DFID"!\n",
1571                       PFID(mdt_object_fid(info->mti_object)));
1572                 RETURN(-ESTALE);
1573         }
1574         next = mdt_object_child(info->mti_object);
1575         rc = mo_object_sync(info->mti_env, next);
1576
1577         RETURN(rc);
1578 }
1579
1580 static int mdt_sync(struct mdt_thread_info *info)
1581 {
1582         struct req_capsule *pill = info->mti_pill;
1583         struct mdt_body *body;
1584         int rc;
1585         ENTRY;
1586
1587         /* The fid may be zero, so we req_capsule_set manually */
1588         req_capsule_set(pill, &RQF_MDS_SYNC);
1589
1590         body = req_capsule_client_get(pill, &RMF_MDT_BODY);
1591         if (body == NULL)
1592                 RETURN(err_serious(-EINVAL));
1593
1594         if (OBD_FAIL_CHECK(OBD_FAIL_MDS_SYNC_PACK))
1595                 RETURN(err_serious(-ENOMEM));
1596
1597         if (fid_seq(&body->fid1) == 0) {
1598                 /* sync the whole device */
1599                 rc = req_capsule_server_pack(pill);
1600                 if (rc == 0)
1601                         rc = mdt_device_sync(info->mti_env, info->mti_mdt);
1602                 else
1603                         rc = err_serious(rc);
1604         } else {
1605                 /* sync an object */
1606                 rc = mdt_unpack_req_pack_rep(info, HABEO_CORPUS|HABEO_REFERO);
1607                 if (rc == 0) {
1608                         rc = mdt_object_sync(info);
1609                         if (rc == 0) {
1610                                 struct md_object *next;
1611                                 const struct lu_fid *fid;
1612                                 struct lu_attr *la = &info->mti_attr.ma_attr;
1613
1614                                 next = mdt_object_child(info->mti_object);
1615                                 info->mti_attr.ma_need = MA_INODE;
1616                                 info->mti_attr.ma_valid = 0;
1617                                 rc = mo_attr_get(info->mti_env, next,
1618                                                  &info->mti_attr);
1619                                 if (rc == 0) {
1620                                         body = req_capsule_server_get(pill,
1621                                                                 &RMF_MDT_BODY);
1622                                         fid = mdt_object_fid(info->mti_object);
1623                                         mdt_pack_attr2body(info, body, la, fid);
1624                                 }
1625                         }
1626                 } else
1627                         rc = err_serious(rc);
1628         }
1629         RETURN(rc);
1630 }
1631
1632 static int mdt_quotacheck_handle(struct mdt_thread_info *info)
1633 {
1634         return err_serious(-EOPNOTSUPP);
1635 }
1636
1637 static int mdt_quotactl_handle(struct mdt_thread_info *info)
1638 {
1639         return err_serious(-EOPNOTSUPP);
1640 }
1641
1642 /*
1643  * OBD PING and other handlers.
1644  */
1645 static int mdt_obd_ping(struct mdt_thread_info *info)
1646 {
1647         int rc;
1648         ENTRY;
1649
1650         req_capsule_set(info->mti_pill, &RQF_OBD_PING);
1651
1652         rc = target_handle_ping(mdt_info_req(info));
1653         if (rc < 0)
1654                 rc = err_serious(rc);
1655         RETURN(rc);
1656 }
1657
1658 static int mdt_obd_log_cancel(struct mdt_thread_info *info)
1659 {
1660         return err_serious(-EOPNOTSUPP);
1661 }
1662
1663 static int mdt_obd_qc_callback(struct mdt_thread_info *info)
1664 {
1665         return err_serious(-EOPNOTSUPP);
1666 }
1667
1668
1669 /*
1670  * DLM handlers.
1671  */
1672 static struct ldlm_callback_suite cbs = {
1673         .lcs_completion = ldlm_server_completion_ast,
1674         .lcs_blocking   = ldlm_server_blocking_ast,
1675         .lcs_glimpse    = NULL
1676 };
1677
1678 static int mdt_enqueue(struct mdt_thread_info *info)
1679 {
1680         struct ptlrpc_request *req;
1681         __u64 req_bits;
1682         int rc;
1683
1684         /*
1685          * info->mti_dlm_req already contains swapped and (if necessary)
1686          * converted dlm request.
1687          */
1688         LASSERT(info->mti_dlm_req != NULL);
1689
1690         req = mdt_info_req(info);
1691
1692         /*
1693          * Lock without inodebits makes no sense and will oops later in
1694          * ldlm. Let's check it now to see if we have wrong lock from client or
1695          * bits get corrupted somewhere in mdt_intent_policy().
1696          */
1697         req_bits = info->mti_dlm_req->lock_desc.l_policy_data.l_inodebits.bits;
1698         /* This is disabled because we need to support liblustre flock.
1699          * LASSERT(req_bits != 0);
1700          */
1701
1702         rc = ldlm_handle_enqueue0(info->mti_mdt->mdt_namespace,
1703                                   req, info->mti_dlm_req, &cbs);
1704         info->mti_fail_id = OBD_FAIL_LDLM_REPLY;
1705         return rc ? err_serious(rc) : req->rq_status;
1706 }
1707
1708 static int mdt_convert(struct mdt_thread_info *info)
1709 {
1710         int rc;
1711         struct ptlrpc_request *req;
1712
1713         LASSERT(info->mti_dlm_req);
1714         req = mdt_info_req(info);
1715         rc = ldlm_handle_convert0(req, info->mti_dlm_req);
1716         return rc ? err_serious(rc) : req->rq_status;
1717 }
1718
1719 static int mdt_bl_callback(struct mdt_thread_info *info)
1720 {
1721         CERROR("bl callbacks should not happen on MDS\n");
1722         LBUG();
1723         return err_serious(-EOPNOTSUPP);
1724 }
1725
1726 static int mdt_cp_callback(struct mdt_thread_info *info)
1727 {
1728         CERROR("cp callbacks should not happen on MDS\n");
1729         LBUG();
1730         return err_serious(-EOPNOTSUPP);
1731 }
1732
1733 /*
1734  * sec context handlers
1735  */
1736 static int mdt_sec_ctx_handle(struct mdt_thread_info *info)
1737 {
1738         int rc;
1739
1740         rc = mdt_handle_idmap(info);
1741
1742         if (unlikely(rc)) {
1743                 struct ptlrpc_request *req = mdt_info_req(info);
1744                 __u32                  opc;
1745
1746                 opc = lustre_msg_get_opc(req->rq_reqmsg);
1747                 if (opc == SEC_CTX_INIT || opc == SEC_CTX_INIT_CONT)
1748                         sptlrpc_svc_ctx_invalidate(req);
1749         }
1750
1751         OBD_FAIL_TIMEOUT(OBD_FAIL_SEC_CTX_HDL_PAUSE, obd_fail_val);
1752
1753         return rc;
1754 }
1755
1756 static struct mdt_object *mdt_obj(struct lu_object *o)
1757 {
1758         LASSERT(lu_device_is_mdt(o->lo_dev));
1759         return container_of0(o, struct mdt_object, mot_obj.mo_lu);
1760 }
1761
1762 struct mdt_object *mdt_object_find(const struct lu_env *env,
1763                                    struct mdt_device *d,
1764                                    const struct lu_fid *f)
1765 {
1766         struct lu_object *o;
1767         struct mdt_object *m;
1768         ENTRY;
1769
1770         CDEBUG(D_INFO, "Find object for "DFID"\n", PFID(f));
1771         o = lu_object_find(env, &d->mdt_md_dev.md_lu_dev, f, NULL);
1772         if (unlikely(IS_ERR(o)))
1773                 m = (struct mdt_object *)o;
1774         else
1775                 m = mdt_obj(o);
1776         RETURN(m);
1777 }
1778
1779 int mdt_object_lock(struct mdt_thread_info *info, struct mdt_object *o,
1780                     struct mdt_lock_handle *lh, __u64 ibits, int locality)
1781 {
1782         struct ldlm_namespace *ns = info->mti_mdt->mdt_namespace;
1783         ldlm_policy_data_t *policy = &info->mti_policy;
1784         struct ldlm_res_id *res_id = &info->mti_res_id;
1785         int rc;
1786         ENTRY;
1787
1788         LASSERT(!lustre_handle_is_used(&lh->mlh_reg_lh));
1789         LASSERT(!lustre_handle_is_used(&lh->mlh_pdo_lh));
1790         LASSERT(lh->mlh_reg_mode != LCK_MINMODE);
1791         LASSERT(lh->mlh_type != MDT_NUL_LOCK);
1792
1793         if (mdt_object_exists(o) < 0) {
1794                 if (locality == MDT_CROSS_LOCK) {
1795                         /* cross-ref object fix */
1796                         ibits &= ~MDS_INODELOCK_UPDATE;
1797                         ibits |= MDS_INODELOCK_LOOKUP;
1798                 } else {
1799                         LASSERT(!(ibits & MDS_INODELOCK_UPDATE));
1800                         LASSERT(ibits & MDS_INODELOCK_LOOKUP);
1801                 }
1802                 /* No PDO lock on remote object */
1803                 LASSERT(lh->mlh_type != MDT_PDO_LOCK);
1804         }
1805
1806         if (lh->mlh_type == MDT_PDO_LOCK) {
1807                 /* check for exists after object is locked */
1808                 if (mdt_object_exists(o) == 0) {
1809                         /* Non-existent object shouldn't have PDO lock */
1810                         RETURN(-ESTALE);
1811                 } else {
1812                         /* Non-dir object shouldn't have PDO lock */
1813                         LASSERT(S_ISDIR(lu_object_attr(&o->mot_obj.mo_lu)));
1814                 }
1815         }
1816
1817         memset(policy, 0, sizeof(*policy));
1818         fid_build_reg_res_name(mdt_object_fid(o), res_id);
1819
1820         /*
1821          * Take PDO lock on whole directory and build correct @res_id for lock
1822          * on part of directory.
1823          */
1824         if (lh->mlh_pdo_hash != 0) {
1825                 LASSERT(lh->mlh_type == MDT_PDO_LOCK);
1826                 mdt_lock_pdo_mode(info, o, lh);
1827                 if (lh->mlh_pdo_mode != LCK_NL) {
1828                         /*
1829                          * Do not use LDLM_FL_LOCAL_ONLY for parallel lock, it
1830                          * is never going to be sent to client and we do not
1831                          * want it slowed down due to possible cancels.
1832                          */
1833                         policy->l_inodebits.bits = MDS_INODELOCK_UPDATE;
1834                         rc = mdt_fid_lock(ns, &lh->mlh_pdo_lh, lh->mlh_pdo_mode,
1835                                           policy, res_id, LDLM_FL_ATOMIC_CB);
1836                         if (unlikely(rc))
1837                                 RETURN(rc);
1838                 }
1839
1840                 /*
1841                  * Finish res_id initializing by name hash marking part of
1842                  * directory which is taking modification.
1843                  */
1844                 res_id->name[LUSTRE_RES_ID_HSH_OFF] = lh->mlh_pdo_hash;
1845         }
1846
1847         policy->l_inodebits.bits = ibits;
1848
1849         /*
1850          * Use LDLM_FL_LOCAL_ONLY for this lock. We do not know yet if it is
1851          * going to be sent to client. If it is - mdt_intent_policy() path will
1852          * fix it up and turn FL_LOCAL flag off.
1853          */
1854         rc = mdt_fid_lock(ns, &lh->mlh_reg_lh, lh->mlh_reg_mode, policy,
1855                           res_id, LDLM_FL_LOCAL_ONLY | LDLM_FL_ATOMIC_CB);
1856
1857         if (rc)
1858                 GOTO(out, rc);
1859
1860 out:
1861         if (rc)
1862                 mdt_object_unlock(info, o, lh, 1);
1863
1864
1865         RETURN(rc);
1866 }
1867
1868 static inline
1869 void mdt_save_lock(struct ptlrpc_request *req, struct lustre_handle *h,
1870                    ldlm_mode_t mode, int decref)
1871 {
1872         ENTRY;
1873
1874         if (lustre_handle_is_used(h)) {
1875                 if (decref)
1876                         mdt_fid_unlock(h, mode);
1877                 else
1878                         ptlrpc_save_lock(req, h, mode);
1879                 h->cookie = 0ull;
1880         }
1881
1882         EXIT;
1883 }
1884
1885 /*
1886  * Just call ldlm_lock_decref() if decref, else we only call ptlrpc_save_lock()
1887  * to save this lock in req.  when transaction committed, req will be released,
1888  * and lock will, too.
1889  */
1890 void mdt_object_unlock(struct mdt_thread_info *info, struct mdt_object *o,
1891                        struct mdt_lock_handle *lh, int decref)
1892 {
1893         struct ptlrpc_request *req = mdt_info_req(info);
1894         ENTRY;
1895
1896         mdt_save_lock(req, &lh->mlh_pdo_lh, lh->mlh_pdo_mode, decref);
1897         mdt_save_lock(req, &lh->mlh_reg_lh, lh->mlh_reg_mode, decref);
1898
1899         EXIT;
1900 }
1901
1902 struct mdt_object *mdt_object_find_lock(struct mdt_thread_info *info,
1903                                         const struct lu_fid *f,
1904                                         struct mdt_lock_handle *lh,
1905                                         __u64 ibits)
1906 {
1907         struct mdt_object *o;
1908
1909         o = mdt_object_find(info->mti_env, info->mti_mdt, f);
1910         if (!IS_ERR(o)) {
1911                 int rc;
1912
1913                 rc = mdt_object_lock(info, o, lh, ibits,
1914                                      MDT_LOCAL_LOCK);
1915                 if (rc != 0) {
1916                         mdt_object_put(info->mti_env, o);
1917                         o = ERR_PTR(rc);
1918                 }
1919         }
1920         return o;
1921 }
1922
1923 void mdt_object_unlock_put(struct mdt_thread_info * info,
1924                            struct mdt_object * o,
1925                            struct mdt_lock_handle *lh,
1926                            int decref)
1927 {
1928         mdt_object_unlock(info, o, lh, decref);
1929         mdt_object_put(info->mti_env, o);
1930 }
1931
1932 static struct mdt_handler *mdt_handler_find(__u32 opc,
1933                                             struct mdt_opc_slice *supported)
1934 {
1935         struct mdt_opc_slice *s;
1936         struct mdt_handler   *h;
1937
1938         h = NULL;
1939         for (s = supported; s->mos_hs != NULL; s++) {
1940                 if (s->mos_opc_start <= opc && opc < s->mos_opc_end) {
1941                         h = s->mos_hs + (opc - s->mos_opc_start);
1942                         if (likely(h->mh_opc != 0))
1943                                 LASSERT(h->mh_opc == opc);
1944                         else
1945                                 h = NULL; /* unsupported opc */
1946                         break;
1947                 }
1948         }
1949         return h;
1950 }
1951
1952 static int mdt_lock_resname_compat(struct mdt_device *m,
1953                                    struct ldlm_request *req)
1954 {
1955         /* XXX something... later. */
1956         return 0;
1957 }
1958
1959 static int mdt_lock_reply_compat(struct mdt_device *m, struct ldlm_reply *rep)
1960 {
1961         /* XXX something... later. */
1962         return 0;
1963 }
1964
1965 /*
1966  * Generic code handling requests that have struct mdt_body passed in:
1967  *
1968  *  - extract mdt_body from request and save it in @info, if present;
1969  *
1970  *  - create lu_object, corresponding to the fid in mdt_body, and save it in
1971  *  @info;
1972  *
1973  *  - if HABEO_CORPUS flag is set for this request type check whether object
1974  *  actually exists on storage (lu_object_exists()).
1975  *
1976  */
1977 static int mdt_body_unpack(struct mdt_thread_info *info, __u32 flags)
1978 {
1979         const struct mdt_body    *body;
1980         struct mdt_object        *obj;
1981         const struct lu_env      *env;
1982         struct req_capsule       *pill;
1983         int                       rc;
1984         ENTRY;
1985
1986         env = info->mti_env;
1987         pill = info->mti_pill;
1988
1989         body = info->mti_body = req_capsule_client_get(pill, &RMF_MDT_BODY);
1990         if (body == NULL)
1991                 RETURN(-EFAULT);
1992
1993         if (!(body->valid & OBD_MD_FLID))
1994                 RETURN(0);
1995
1996         if (!fid_is_sane(&body->fid1)) {
1997                 CERROR("Invalid fid: "DFID"\n", PFID(&body->fid1));
1998                 RETURN(-EINVAL);
1999         }
2000
2001         /*
2002          * Do not get size or any capa fields before we check that request
2003          * contains capa actually. There are some requests which do not, for
2004          * instance MDS_IS_SUBDIR.
2005          */
2006         if (req_capsule_has_field(pill, &RMF_CAPA1, RCL_CLIENT) &&
2007             req_capsule_get_size(pill, &RMF_CAPA1, RCL_CLIENT))
2008                 mdt_set_capainfo(info, 0, &body->fid1,
2009                                  req_capsule_client_get(pill, &RMF_CAPA1));
2010
2011         obj = mdt_object_find(env, info->mti_mdt, &body->fid1);
2012         if (!IS_ERR(obj)) {
2013                 if ((flags & HABEO_CORPUS) &&
2014                     !mdt_object_exists(obj)) {
2015                         mdt_object_put(env, obj);
2016                         /* for capability renew ENOENT will be handled in
2017                          * mdt_renew_capa */
2018                         if (body->valid & OBD_MD_FLOSSCAPA)
2019                                 rc = 0;
2020                         else
2021                                 rc = -ENOENT;
2022                 } else {
2023                         info->mti_object = obj;
2024                         rc = 0;
2025                 }
2026         } else
2027                 rc = PTR_ERR(obj);
2028
2029         RETURN(rc);
2030 }
2031
2032 static int mdt_unpack_req_pack_rep(struct mdt_thread_info *info, __u32 flags)
2033 {
2034         struct req_capsule *pill = info->mti_pill;
2035         int rc;
2036         ENTRY;
2037
2038         if (req_capsule_has_field(pill, &RMF_MDT_BODY, RCL_CLIENT))
2039                 rc = mdt_body_unpack(info, flags);
2040         else
2041                 rc = 0;
2042
2043         if (rc == 0 && (flags & HABEO_REFERO)) {
2044                 struct mdt_device *mdt = info->mti_mdt;
2045
2046                 /* Pack reply. */
2047                 if (req_capsule_has_field(pill, &RMF_MDT_MD, RCL_SERVER))
2048                         req_capsule_set_size(pill, &RMF_MDT_MD, RCL_SERVER,
2049                                              mdt->mdt_max_mdsize);
2050                 if (req_capsule_has_field(pill, &RMF_LOGCOOKIES, RCL_SERVER))
2051                         req_capsule_set_size(pill, &RMF_LOGCOOKIES, RCL_SERVER,
2052                                              mdt->mdt_max_cookiesize);
2053
2054                 rc = req_capsule_server_pack(pill);
2055         }
2056         RETURN(rc);
2057 }
2058
2059 static int mdt_init_capa_ctxt(const struct lu_env *env, struct mdt_device *m)
2060 {
2061         struct md_device *next = m->mdt_child;
2062
2063         return next->md_ops->mdo_init_capa_ctxt(env, next,
2064                                                 m->mdt_opts.mo_mds_capa,
2065                                                 m->mdt_capa_timeout,
2066                                                 m->mdt_capa_alg,
2067                                                 m->mdt_capa_keys);
2068 }
2069
2070 /*
2071  * Invoke handler for this request opc. Also do necessary preprocessing
2072  * (according to handler ->mh_flags), and post-processing (setting of
2073  * ->last_{xid,committed}).
2074  */
2075 static int mdt_req_handle(struct mdt_thread_info *info,
2076                           struct mdt_handler *h, struct ptlrpc_request *req)
2077 {
2078         int   rc, serious = 0;
2079         __u32 flags;
2080
2081         ENTRY;
2082
2083         LASSERT(h->mh_act != NULL);
2084         LASSERT(h->mh_opc == lustre_msg_get_opc(req->rq_reqmsg));
2085         LASSERT(current->journal_info == NULL);
2086
2087         /*
2088          * Checking for various OBD_FAIL_$PREF_$OPC_NET codes. _Do_ not try
2089          * to put same checks into handlers like mdt_close(), mdt_reint(),
2090          * etc., without talking to mdt authors first. Checking same thing
2091          * there again is useless and returning 0 error wihtout packing reply
2092          * is buggy! Handlers either pack reply or return error.
2093          *
2094          * We return 0 here and do not send any reply in order to emulate
2095          * network failure. Do not send any reply in case any of NET related
2096          * fail_id has occured.
2097          */
2098         if (OBD_FAIL_CHECK_ORSET(h->mh_fail_id, OBD_FAIL_ONCE))
2099                 RETURN(0);
2100
2101         rc = 0;
2102         flags = h->mh_flags;
2103         LASSERT(ergo(flags & (HABEO_CORPUS|HABEO_REFERO), h->mh_fmt != NULL));
2104
2105         if (h->mh_fmt != NULL) {
2106                 req_capsule_set(info->mti_pill, h->mh_fmt);
2107                 rc = mdt_unpack_req_pack_rep(info, flags);
2108         }
2109
2110         if (rc == 0 && flags & MUTABOR &&
2111             req->rq_export->exp_connect_flags & OBD_CONNECT_RDONLY)
2112                 /* should it be rq_status? */
2113                 rc = -EROFS;
2114
2115         if (rc == 0 && flags & HABEO_CLAVIS) {
2116                 struct ldlm_request *dlm_req;
2117
2118                 LASSERT(h->mh_fmt != NULL);
2119
2120                 dlm_req = req_capsule_client_get(info->mti_pill, &RMF_DLM_REQ);
2121                 if (dlm_req != NULL) {
2122                         if (info->mti_mdt->mdt_opts.mo_compat_resname)
2123                                 rc = mdt_lock_resname_compat(info->mti_mdt,
2124                                                              dlm_req);
2125                         info->mti_dlm_req = dlm_req;
2126                 } else {
2127                         rc = -EFAULT;
2128                 }
2129         }
2130
2131         /* capability setting changed via /proc, needs reinitialize ctxt */
2132         if (info->mti_mdt && info->mti_mdt->mdt_capa_conf) {
2133                 mdt_init_capa_ctxt(info->mti_env, info->mti_mdt);
2134                 info->mti_mdt->mdt_capa_conf = 0;
2135         }
2136
2137         if (likely(rc == 0)) {
2138                 /*
2139                  * Process request, there can be two types of rc:
2140                  * 1) errors with msg unpack/pack, other failures outside the
2141                  * operation itself. This is counted as serious errors;
2142                  * 2) errors during fs operation, should be placed in rq_status
2143                  * only
2144                  */
2145                 rc = h->mh_act(info);
2146                 if (rc == 0 &&
2147                     !req->rq_no_reply && req->rq_reply_state == NULL) {
2148                         DEBUG_REQ(D_ERROR, req, "MDT \"handler\" %s did not "
2149                                   "pack reply and returned 0 error\n",
2150                                   h->mh_name);
2151                         LBUG();
2152                 }
2153                 serious = is_serious(rc);
2154                 rc = clear_serious(rc);
2155         } else
2156                 serious = 1;
2157
2158         req->rq_status = rc;
2159
2160         /*
2161          * ELDLM_* codes which > 0 should be in rq_status only as well as
2162          * all non-serious errors.
2163          */
2164         if (rc > 0 || !serious)
2165                 rc = 0;
2166
2167         LASSERT(current->journal_info == NULL);
2168
2169         if (rc == 0 && (flags & HABEO_CLAVIS) &&
2170             info->mti_mdt->mdt_opts.mo_compat_resname) {
2171                 struct ldlm_reply *dlmrep;
2172
2173                 dlmrep = req_capsule_server_get(info->mti_pill, &RMF_DLM_REP);
2174                 if (dlmrep != NULL)
2175                         rc = mdt_lock_reply_compat(info->mti_mdt, dlmrep);
2176         }
2177
2178         /* If we're DISCONNECTing, the mdt_export_data is already freed */
2179         if (likely(rc == 0 && h->mh_opc != MDS_DISCONNECT))
2180                 target_committed_to_req(req);
2181
2182         if (unlikely((lustre_msg_get_flags(req->rq_reqmsg) & MSG_REPLAY) &&
2183                      lustre_msg_get_transno(req->rq_reqmsg) == 0)) {
2184                 DEBUG_REQ(D_ERROR, req, "transno is 0 during REPLAY");
2185                 LBUG();
2186         }
2187
2188         target_send_reply(req, rc, info->mti_fail_id);
2189         RETURN(0);
2190 }
2191
2192 void mdt_lock_handle_init(struct mdt_lock_handle *lh)
2193 {
2194         lh->mlh_type = MDT_NUL_LOCK;
2195         lh->mlh_reg_lh.cookie = 0ull;
2196         lh->mlh_reg_mode = LCK_MINMODE;
2197         lh->mlh_pdo_lh.cookie = 0ull;
2198         lh->mlh_pdo_mode = LCK_MINMODE;
2199 }
2200
2201 void mdt_lock_handle_fini(struct mdt_lock_handle *lh)
2202 {
2203         LASSERT(!lustre_handle_is_used(&lh->mlh_reg_lh));
2204         LASSERT(!lustre_handle_is_used(&lh->mlh_pdo_lh));
2205 }
2206
2207 /*
2208  * Initialize fields of struct mdt_thread_info. Other fields are left in
2209  * uninitialized state, because it's too expensive to zero out whole
2210  * mdt_thread_info (> 1K) on each request arrival.
2211  */
2212 static void mdt_thread_info_init(struct ptlrpc_request *req,
2213                                  struct mdt_thread_info *info)
2214 {
2215         int i;
2216         struct md_capainfo *ci;
2217
2218         req_capsule_init(&req->rq_pill, req, RCL_SERVER);
2219         info->mti_pill = &req->rq_pill;
2220
2221         /* lock handle */
2222         for (i = 0; i < ARRAY_SIZE(info->mti_lh); i++)
2223                 mdt_lock_handle_init(&info->mti_lh[i]);
2224
2225         /* mdt device: it can be NULL while CONNECT */
2226         if (req->rq_export) {
2227                 info->mti_mdt = mdt_dev(req->rq_export->exp_obd->obd_lu_dev);
2228                 info->mti_exp = req->rq_export;
2229         } else
2230                 info->mti_mdt = NULL;
2231         info->mti_env = req->rq_svc_thread->t_env;
2232         ci = md_capainfo(info->mti_env);
2233         memset(ci, 0, sizeof *ci);
2234
2235         info->mti_fail_id = OBD_FAIL_MDS_ALL_REPLY_NET;
2236         info->mti_transno = lustre_msg_get_transno(req->rq_reqmsg);
2237
2238         memset(&info->mti_attr, 0, sizeof(info->mti_attr));
2239         info->mti_body = NULL;
2240         info->mti_object = NULL;
2241         info->mti_dlm_req = NULL;
2242         info->mti_has_trans = 0;
2243         info->mti_no_need_trans = 0;
2244         info->mti_cross_ref = 0;
2245         info->mti_opdata = 0;
2246
2247         /* To not check for split by default. */
2248         info->mti_spec.sp_ck_split = 0;
2249 }
2250
2251 static void mdt_thread_info_fini(struct mdt_thread_info *info)
2252 {
2253         int i;
2254
2255         req_capsule_fini(info->mti_pill);
2256         if (info->mti_object != NULL) {
2257                 mdt_object_put(info->mti_env, info->mti_object);
2258                 info->mti_object = NULL;
2259         }
2260         for (i = 0; i < ARRAY_SIZE(info->mti_lh); i++)
2261                 mdt_lock_handle_fini(&info->mti_lh[i]);
2262         info->mti_env = NULL;
2263 }
2264
2265 static int mdt_filter_recovery_request(struct ptlrpc_request *req,
2266                                        struct obd_device *obd, int *process)
2267 {
2268         switch (lustre_msg_get_opc(req->rq_reqmsg)) {
2269         case MDS_CONNECT: /* This will never get here, but for completeness. */
2270         case OST_CONNECT: /* This will never get here, but for completeness. */
2271         case MDS_DISCONNECT:
2272         case OST_DISCONNECT:
2273                *process = 1;
2274                RETURN(0);
2275
2276         case MDS_CLOSE:
2277         case MDS_DONE_WRITING:
2278         case MDS_SYNC: /* used in unmounting */
2279         case OBD_PING:
2280         case MDS_REINT:
2281         case SEQ_QUERY:
2282         case FLD_QUERY:
2283         case LDLM_ENQUEUE:
2284                 *process = target_queue_recovery_request(req, obd);
2285                 RETURN(0);
2286
2287         default:
2288                 DEBUG_REQ(D_ERROR, req, "not permitted during recovery");
2289                 *process = -EAGAIN;
2290                 RETURN(0);
2291         }
2292 }
2293
2294 /*
2295  * Handle recovery. Return:
2296  *        +1: continue request processing;
2297  *       -ve: abort immediately with the given error code;
2298  *         0: send reply with error code in req->rq_status;
2299  */
2300 static int mdt_recovery(struct mdt_thread_info *info)
2301 {
2302         struct ptlrpc_request *req = mdt_info_req(info);
2303         int recovering;
2304         struct obd_device *obd;
2305
2306         ENTRY;
2307
2308         switch (lustre_msg_get_opc(req->rq_reqmsg)) {
2309         case MDS_CONNECT:
2310         case SEC_CTX_INIT:
2311         case SEC_CTX_INIT_CONT:
2312         case SEC_CTX_FINI:
2313                 {
2314 #if 0
2315                         int rc;
2316
2317                         rc = mdt_handle_idmap(info);
2318                         if (rc)
2319                                 RETURN(rc);
2320                         else
2321 #endif
2322                                 RETURN(+1);
2323                 }
2324         }
2325
2326         if (unlikely(req->rq_export == NULL)) {
2327                 CERROR("operation %d on unconnected MDS from %s\n",
2328                        lustre_msg_get_opc(req->rq_reqmsg),
2329                        libcfs_id2str(req->rq_peer));
2330                 /* FIXME: For CMD cleanup, when mds_B stop, the req from
2331                  * mds_A will get -ENOTCONN(especially for ping req),
2332                  * which will cause that mds_A deactive timeout, then when
2333                  * mds_A cleanup, the cleanup process will be suspended since
2334                  * deactive timeout is not zero.
2335                  */
2336                 req->rq_status = -ENOTCONN;
2337                 target_send_reply(req, -ENOTCONN, info->mti_fail_id);
2338                 RETURN(0);
2339         }
2340
2341         /* sanity check: if the xid matches, the request must be marked as a
2342          * resent or replayed */
2343         if (req_xid_is_last(req)) {
2344                 if (!(lustre_msg_get_flags(req->rq_reqmsg) &
2345                       (MSG_RESENT | MSG_REPLAY))) {
2346                         DEBUG_REQ(D_WARNING, req, "rq_xid "LPU64" matches last_xid, "
2347                                   "expected REPLAY or RESENT flag (%x)", req->rq_xid,
2348                                   lustre_msg_get_flags(req->rq_reqmsg));
2349                         LBUG();
2350                         req->rq_status = -ENOTCONN;
2351                         RETURN(-ENOTCONN);
2352                 }
2353         }
2354
2355         /* else: note the opposite is not always true; a RESENT req after a
2356          * failover will usually not match the last_xid, since it was likely
2357          * never committed. A REPLAYed request will almost never match the
2358          * last xid, however it could for a committed, but still retained,
2359          * open. */
2360
2361         obd = req->rq_export->exp_obd;
2362
2363         /* Check for aborted recovery... */
2364         spin_lock_bh(&obd->obd_processing_task_lock);
2365         recovering = obd->obd_recovering;
2366         spin_unlock_bh(&obd->obd_processing_task_lock);
2367         if (unlikely(recovering)) {
2368                 int rc;
2369                 int should_process;
2370                 DEBUG_REQ(D_INFO, req, "Got new replay");
2371                 rc = mdt_filter_recovery_request(req, obd, &should_process);
2372                 if (rc != 0 || !should_process)
2373                         RETURN(rc);
2374                 else if (should_process < 0) {
2375                         req->rq_status = should_process;
2376                         rc = ptlrpc_error(req);
2377                         RETURN(rc);
2378                 }
2379         }
2380         RETURN(+1);
2381 }
2382
2383 static int mdt_msg_check_version(struct lustre_msg *msg)
2384 {
2385         int rc;
2386
2387         switch (lustre_msg_get_opc(msg)) {
2388         case MDS_CONNECT:
2389         case MDS_DISCONNECT:
2390         case OBD_PING:
2391         case SEC_CTX_INIT:
2392         case SEC_CTX_INIT_CONT:
2393         case SEC_CTX_FINI:
2394                 rc = lustre_msg_check_version(msg, LUSTRE_OBD_VERSION);
2395                 if (rc)
2396                         CERROR("bad opc %u version %08x, expecting %08x\n",
2397                                lustre_msg_get_opc(msg),
2398                                lustre_msg_get_version(msg),
2399                                LUSTRE_OBD_VERSION);
2400                 break;
2401         case MDS_GETSTATUS:
2402         case MDS_GETATTR:
2403         case MDS_GETATTR_NAME:
2404         case MDS_STATFS:
2405         case MDS_READPAGE:
2406         case MDS_WRITEPAGE:
2407         case MDS_IS_SUBDIR:
2408         case MDS_REINT:
2409         case MDS_CLOSE:
2410         case MDS_DONE_WRITING:
2411         case MDS_PIN:
2412         case MDS_SYNC:
2413         case MDS_GETXATTR:
2414         case MDS_SETXATTR:
2415         case MDS_SET_INFO:
2416         case MDS_QUOTACHECK:
2417         case MDS_QUOTACTL:
2418         case QUOTA_DQACQ:
2419         case QUOTA_DQREL:
2420         case SEQ_QUERY:
2421         case FLD_QUERY:
2422                 rc = lustre_msg_check_version(msg, LUSTRE_MDS_VERSION);
2423                 if (rc)
2424                         CERROR("bad opc %u version %08x, expecting %08x\n",
2425                                lustre_msg_get_opc(msg),
2426                                lustre_msg_get_version(msg),
2427                                LUSTRE_MDS_VERSION);
2428                 break;
2429         case LDLM_ENQUEUE:
2430         case LDLM_CONVERT:
2431         case LDLM_BL_CALLBACK:
2432         case LDLM_CP_CALLBACK:
2433                 rc = lustre_msg_check_version(msg, LUSTRE_DLM_VERSION);
2434                 if (rc)
2435                         CERROR("bad opc %u version %08x, expecting %08x\n",
2436                                lustre_msg_get_opc(msg),
2437                                lustre_msg_get_version(msg),
2438                                LUSTRE_DLM_VERSION);
2439                 break;
2440         case OBD_LOG_CANCEL:
2441         case LLOG_ORIGIN_HANDLE_CREATE:
2442         case LLOG_ORIGIN_HANDLE_NEXT_BLOCK:
2443         case LLOG_ORIGIN_HANDLE_READ_HEADER:
2444         case LLOG_ORIGIN_HANDLE_CLOSE:
2445         case LLOG_ORIGIN_HANDLE_DESTROY:
2446         case LLOG_ORIGIN_HANDLE_PREV_BLOCK:
2447         case LLOG_CATINFO:
2448                 rc = lustre_msg_check_version(msg, LUSTRE_LOG_VERSION);
2449                 if (rc)
2450                         CERROR("bad opc %u version %08x, expecting %08x\n",
2451                                lustre_msg_get_opc(msg),
2452                                lustre_msg_get_version(msg),
2453                                LUSTRE_LOG_VERSION);
2454                 break;
2455         default:
2456                 CERROR("MDS unknown opcode %d\n", lustre_msg_get_opc(msg));
2457                 rc = -ENOTSUPP;
2458         }
2459         return rc;
2460 }
2461
2462 static int mdt_handle0(struct ptlrpc_request *req,
2463                        struct mdt_thread_info *info,
2464                        struct mdt_opc_slice *supported)
2465 {
2466         struct mdt_handler *h;
2467         struct lustre_msg  *msg;
2468         int                 rc;
2469
2470         ENTRY;
2471
2472         if (OBD_FAIL_CHECK_ORSET(OBD_FAIL_MDS_ALL_REQUEST_NET, OBD_FAIL_ONCE))
2473                 RETURN(0);
2474
2475         LASSERT(current->journal_info == NULL);
2476
2477         msg = req->rq_reqmsg;
2478         rc = mdt_msg_check_version(msg);
2479         if (likely(rc == 0)) {
2480                 rc = mdt_recovery(info);
2481                 if (likely(rc == +1)) {
2482                         h = mdt_handler_find(lustre_msg_get_opc(msg),
2483                                              supported);
2484                         if (likely(h != NULL)) {
2485                                 rc = mdt_req_handle(info, h, req);
2486                         } else {
2487                                 CERROR("The unsupported opc: 0x%x\n", lustre_msg_get_opc(msg) );
2488                                 req->rq_status = -ENOTSUPP;
2489                                 rc = ptlrpc_error(req);
2490                                 RETURN(rc);
2491                         }
2492                 }
2493         } else
2494                 CERROR(LUSTRE_MDT_NAME" drops mal-formed request\n");
2495         RETURN(rc);
2496 }
2497
2498 /*
2499  * MDT handler function called by ptlrpc service thread when request comes.
2500  *
2501  * XXX common "target" functionality should be factored into separate module
2502  * shared by mdt, ost and stand-alone services like fld.
2503  */
2504 static int mdt_handle_common(struct ptlrpc_request *req,
2505                              struct mdt_opc_slice *supported)
2506 {
2507         struct lu_env          *env;
2508         struct mdt_thread_info *info;
2509         int                     rc;
2510         ENTRY;
2511
2512         env = req->rq_svc_thread->t_env;
2513         LASSERT(env != NULL);
2514         LASSERT(env->le_ses != NULL);
2515         LASSERT(env->le_ctx.lc_thread == req->rq_svc_thread);
2516         info = lu_context_key_get(&env->le_ctx, &mdt_thread_key);
2517         LASSERT(info != NULL);
2518
2519         mdt_thread_info_init(req, info);
2520
2521         rc = mdt_handle0(req, info, supported);
2522
2523         mdt_thread_info_fini(info);
2524         RETURN(rc);
2525 }
2526
2527 /*
2528  * This is called from recovery code as handler of _all_ RPC types, FLD and SEQ
2529  * as well.
2530  */
2531 int mdt_recovery_handle(struct ptlrpc_request *req)
2532 {
2533         int rc;
2534         ENTRY;
2535
2536         switch (lustre_msg_get_opc(req->rq_reqmsg)) {
2537         case FLD_QUERY:
2538                 rc = mdt_handle_common(req, mdt_fld_handlers);
2539                 break;
2540         case SEQ_QUERY:
2541                 rc = mdt_handle_common(req, mdt_seq_handlers);
2542                 break;
2543         default:
2544                 rc = mdt_handle_common(req, mdt_regular_handlers);
2545                 break;
2546         }
2547
2548         RETURN(rc);
2549 }
2550
2551 static int mdt_regular_handle(struct ptlrpc_request *req)
2552 {
2553         return mdt_handle_common(req, mdt_regular_handlers);
2554 }
2555
2556 static int mdt_readpage_handle(struct ptlrpc_request *req)
2557 {
2558         return mdt_handle_common(req, mdt_readpage_handlers);
2559 }
2560
2561 static int mdt_xmds_handle(struct ptlrpc_request *req)
2562 {
2563         return mdt_handle_common(req, mdt_xmds_handlers);
2564 }
2565
2566 static int mdt_mdsc_handle(struct ptlrpc_request *req)
2567 {
2568         return mdt_handle_common(req, mdt_seq_handlers);
2569 }
2570
2571 static int mdt_mdss_handle(struct ptlrpc_request *req)
2572 {
2573         return mdt_handle_common(req, mdt_seq_handlers);
2574 }
2575
2576 static int mdt_dtss_handle(struct ptlrpc_request *req)
2577 {
2578         return mdt_handle_common(req, mdt_seq_handlers);
2579 }
2580
2581 static int mdt_fld_handle(struct ptlrpc_request *req)
2582 {
2583         return mdt_handle_common(req, mdt_fld_handlers);
2584 }
2585
2586 enum mdt_it_code {
2587         MDT_IT_OPEN,
2588         MDT_IT_OCREAT,
2589         MDT_IT_CREATE,
2590         MDT_IT_GETATTR,
2591         MDT_IT_READDIR,
2592         MDT_IT_LOOKUP,
2593         MDT_IT_UNLINK,
2594         MDT_IT_TRUNC,
2595         MDT_IT_GETXATTR,
2596         MDT_IT_NR
2597 };
2598
2599 static int mdt_intent_getattr(enum mdt_it_code opcode,
2600                               struct mdt_thread_info *info,
2601                               struct ldlm_lock **,
2602                               int);
2603 static int mdt_intent_reint(enum mdt_it_code opcode,
2604                             struct mdt_thread_info *info,
2605                             struct ldlm_lock **,
2606                             int);
2607
2608 static struct mdt_it_flavor {
2609         const struct req_format *it_fmt;
2610         __u32                    it_flags;
2611         int                    (*it_act)(enum mdt_it_code ,
2612                                          struct mdt_thread_info *,
2613                                          struct ldlm_lock **,
2614                                          int);
2615         long                     it_reint;
2616 } mdt_it_flavor[] = {
2617         [MDT_IT_OPEN]     = {
2618                 .it_fmt   = &RQF_LDLM_INTENT,
2619                 /*.it_flags = HABEO_REFERO,*/
2620                 .it_flags = 0,
2621                 .it_act   = mdt_intent_reint,
2622                 .it_reint = REINT_OPEN
2623         },
2624         [MDT_IT_OCREAT]   = {
2625                 .it_fmt   = &RQF_LDLM_INTENT,
2626                 .it_flags = MUTABOR,
2627                 .it_act   = mdt_intent_reint,
2628                 .it_reint = REINT_OPEN
2629         },
2630         [MDT_IT_CREATE]   = {
2631                 .it_fmt   = &RQF_LDLM_INTENT,
2632                 .it_flags = MUTABOR,
2633                 .it_act   = mdt_intent_reint,
2634                 .it_reint = REINT_CREATE
2635         },
2636         [MDT_IT_GETATTR]  = {
2637                 .it_fmt   = &RQF_LDLM_INTENT_GETATTR,
2638                 .it_flags = HABEO_REFERO,
2639                 .it_act   = mdt_intent_getattr
2640         },
2641         [MDT_IT_READDIR]  = {
2642                 .it_fmt   = NULL,
2643                 .it_flags = 0,
2644                 .it_act   = NULL
2645         },
2646         [MDT_IT_LOOKUP]   = {
2647                 .it_fmt   = &RQF_LDLM_INTENT_GETATTR,
2648                 .it_flags = HABEO_REFERO,
2649                 .it_act   = mdt_intent_getattr
2650         },
2651         [MDT_IT_UNLINK]   = {
2652                 .it_fmt   = &RQF_LDLM_INTENT_UNLINK,
2653                 .it_flags = MUTABOR,
2654                 .it_act   = NULL,
2655                 .it_reint = REINT_UNLINK
2656         },
2657         [MDT_IT_TRUNC]    = {
2658                 .it_fmt   = NULL,
2659                 .it_flags = MUTABOR,
2660                 .it_act   = NULL
2661         },
2662         [MDT_IT_GETXATTR] = {
2663                 .it_fmt   = NULL,
2664                 .it_flags = 0,
2665                 .it_act   = NULL
2666         }
2667 };
2668
2669 int mdt_intent_lock_replace(struct mdt_thread_info *info,
2670                             struct ldlm_lock **lockp,
2671                             struct ldlm_lock *new_lock,
2672                             struct mdt_lock_handle *lh,
2673                             int flags)
2674 {
2675         struct ptlrpc_request  *req = mdt_info_req(info);
2676         struct ldlm_lock       *lock = *lockp;
2677
2678         /*
2679          * Get new lock only for cases when possible resent did not find any
2680          * lock.
2681          */
2682         if (new_lock == NULL)
2683                 new_lock = ldlm_handle2lock_long(&lh->mlh_reg_lh, 0);
2684
2685         if (new_lock == NULL && (flags & LDLM_FL_INTENT_ONLY)) {
2686                 lh->mlh_reg_lh.cookie = 0;
2687                 RETURN(0);
2688         }
2689
2690         LASSERTF(new_lock != NULL,
2691                  "lockh "LPX64"\n", lh->mlh_reg_lh.cookie);
2692
2693         /*
2694          * If we've already given this lock to a client once, then we should
2695          * have no readers or writers.  Otherwise, we should have one reader
2696          * _or_ writer ref (which will be zeroed below) before returning the
2697          * lock to a client.
2698          */
2699         if (new_lock->l_export == req->rq_export) {
2700                 LASSERT(new_lock->l_readers + new_lock->l_writers == 0);
2701         } else {
2702                 LASSERT(new_lock->l_export == NULL);
2703                 LASSERT(new_lock->l_readers + new_lock->l_writers == 1);
2704         }
2705
2706         *lockp = new_lock;
2707
2708         if (new_lock->l_export == req->rq_export) {
2709                 /*
2710                  * Already gave this to the client, which means that we
2711                  * reconstructed a reply.
2712                  */
2713                 LASSERT(lustre_msg_get_flags(req->rq_reqmsg) &
2714                         MSG_RESENT);
2715                 lh->mlh_reg_lh.cookie = 0;
2716                 RETURN(ELDLM_LOCK_REPLACED);
2717         }
2718
2719         /*
2720          * Fixup the lock to be given to the client.
2721          */
2722         lock_res_and_lock(new_lock);
2723         /* Zero new_lock->l_readers and new_lock->l_writers without triggering
2724          * possible blocking AST. */
2725         while (new_lock->l_readers > 0) {
2726                 lu_ref_del(&new_lock->l_reference, "reader", new_lock);
2727                 lu_ref_del(&new_lock->l_reference, "user", new_lock);
2728                 new_lock->l_readers--;
2729         }
2730         while (new_lock->l_writers > 0) {
2731                 lu_ref_del(&new_lock->l_reference, "writer", new_lock);
2732                 lu_ref_del(&new_lock->l_reference, "user", new_lock);
2733                 new_lock->l_writers--;
2734         }
2735
2736         new_lock->l_export = class_export_get(req->rq_export);
2737         new_lock->l_blocking_ast = lock->l_blocking_ast;
2738         new_lock->l_completion_ast = lock->l_completion_ast;
2739         new_lock->l_remote_handle = lock->l_remote_handle;
2740         new_lock->l_flags &= ~LDLM_FL_LOCAL;
2741
2742         lustre_hash_add(new_lock->l_export->exp_lock_hash,
2743                         &new_lock->l_remote_handle,
2744                         &new_lock->l_exp_hash);
2745
2746         unlock_res_and_lock(new_lock);
2747         LDLM_LOCK_RELEASE(new_lock);
2748         lh->mlh_reg_lh.cookie = 0;
2749
2750         RETURN(ELDLM_LOCK_REPLACED);
2751 }
2752
2753 static void mdt_intent_fixup_resent(struct mdt_thread_info *info,
2754                                     struct ldlm_lock *new_lock,
2755                                     struct ldlm_lock **old_lock,
2756                                     struct mdt_lock_handle *lh)
2757 {
2758         struct ptlrpc_request  *req = mdt_info_req(info);
2759         struct obd_export      *exp = req->rq_export;
2760         struct lustre_handle    remote_hdl;
2761         struct ldlm_request    *dlmreq;
2762         struct ldlm_lock       *lock;
2763
2764         if (!(lustre_msg_get_flags(req->rq_reqmsg) & MSG_RESENT))
2765                 return;
2766
2767         dlmreq = req_capsule_client_get(info->mti_pill, &RMF_DLM_REQ);
2768         remote_hdl = dlmreq->lock_handle[0];
2769
2770         lock = lustre_hash_lookup(exp->exp_lock_hash, &remote_hdl);
2771         if (lock) {
2772                 if (lock != new_lock) {
2773                         lh->mlh_reg_lh.cookie = lock->l_handle.h_cookie;
2774                         lh->mlh_reg_mode = lock->l_granted_mode;
2775
2776                         LDLM_DEBUG(lock, "Restoring lock cookie");
2777                         DEBUG_REQ(D_DLMTRACE, req,
2778                                   "restoring lock cookie "LPX64,
2779                                   lh->mlh_reg_lh.cookie);
2780                         if (old_lock)
2781                                 *old_lock = LDLM_LOCK_GET(lock);
2782                         lh_put(exp->exp_lock_hash, &lock->l_exp_hash);
2783                         return;
2784                 }
2785
2786                 lh_put(exp->exp_lock_hash, &lock->l_exp_hash);
2787         }
2788
2789         /*
2790          * If the xid matches, then we know this is a resent request, and allow
2791          * it. (It's probably an OPEN, for which we don't send a lock.
2792          */
2793         if (req_xid_is_last(req))
2794                 return;
2795
2796         /*
2797          * This remote handle isn't enqueued, so we never received or processed
2798          * this request.  Clear MSG_RESENT, because it can be handled like any
2799          * normal request now.
2800          */
2801         lustre_msg_clear_flags(req->rq_reqmsg, MSG_RESENT);
2802
2803         DEBUG_REQ(D_DLMTRACE, req, "no existing lock with rhandle "LPX64,
2804                   remote_hdl.cookie);
2805 }
2806
2807 static int mdt_intent_getattr(enum mdt_it_code opcode,
2808                               struct mdt_thread_info *info,
2809                               struct ldlm_lock **lockp,
2810                               int flags)
2811 {
2812         struct mdt_lock_handle *lhc = &info->mti_lh[MDT_LH_RMT];
2813         struct ldlm_lock       *new_lock = NULL;
2814         __u64                   child_bits;
2815         struct ldlm_reply      *ldlm_rep;
2816         struct ptlrpc_request  *req;
2817         struct mdt_body        *reqbody;
2818         struct mdt_body        *repbody;
2819         int                     rc;
2820         ENTRY;
2821
2822         reqbody = req_capsule_client_get(info->mti_pill, &RMF_MDT_BODY);
2823         LASSERT(reqbody);
2824
2825         repbody = req_capsule_server_get(info->mti_pill, &RMF_MDT_BODY);
2826         LASSERT(repbody);
2827
2828         info->mti_spec.sp_ck_split = !!(reqbody->valid & OBD_MD_FLCKSPLIT);
2829         info->mti_cross_ref = !!(reqbody->valid & OBD_MD_FLCROSSREF);
2830         repbody->eadatasize = 0;
2831         repbody->aclsize = 0;
2832
2833         switch (opcode) {
2834         case MDT_IT_LOOKUP:
2835                 child_bits = MDS_INODELOCK_LOOKUP;
2836                 break;
2837         case MDT_IT_GETATTR:
2838                 child_bits = MDS_INODELOCK_LOOKUP | MDS_INODELOCK_UPDATE;
2839                 break;
2840         default:
2841                 CERROR("Unhandled till now");
2842                 GOTO(out_shrink, rc = -EINVAL);
2843         }
2844
2845         rc = mdt_init_ucred(info, reqbody);
2846         if (rc)
2847                 GOTO(out_shrink, rc);
2848
2849         req = info->mti_pill->rc_req;
2850         ldlm_rep = req_capsule_server_get(info->mti_pill, &RMF_DLM_REP);
2851         mdt_set_disposition(info, ldlm_rep, DISP_IT_EXECD);
2852
2853         /* Get lock from request for possible resent case. */
2854         mdt_intent_fixup_resent(info, *lockp, &new_lock, lhc);
2855
2856         ldlm_rep->lock_policy_res2 =
2857                 mdt_getattr_name_lock(info, lhc, child_bits, ldlm_rep);
2858
2859         if (mdt_get_disposition(ldlm_rep, DISP_LOOKUP_NEG))
2860                 ldlm_rep->lock_policy_res2 = 0;
2861         if (!mdt_get_disposition(ldlm_rep, DISP_LOOKUP_POS) ||
2862             ldlm_rep->lock_policy_res2) {
2863                 lhc->mlh_reg_lh.cookie = 0ull;
2864                 GOTO(out_ucred, rc = ELDLM_LOCK_ABORTED);
2865         }
2866
2867         rc = mdt_intent_lock_replace(info, lockp, new_lock, lhc, flags);
2868         EXIT;
2869 out_ucred:
2870         mdt_exit_ucred(info);
2871 out_shrink:
2872         mdt_shrink_reply(info);
2873         return rc;
2874 }
2875
2876 static int mdt_intent_reint(enum mdt_it_code opcode,
2877                             struct mdt_thread_info *info,
2878                             struct ldlm_lock **lockp,
2879                             int flags)
2880 {
2881         struct mdt_lock_handle *lhc = &info->mti_lh[MDT_LH_RMT];
2882         struct ldlm_reply      *rep = NULL;
2883         long                    opc;
2884         int                     rc;
2885
2886         static const struct req_format *intent_fmts[REINT_MAX] = {
2887                 [REINT_CREATE]  = &RQF_LDLM_INTENT_CREATE,
2888                 [REINT_OPEN]    = &RQF_LDLM_INTENT_OPEN
2889         };
2890
2891         ENTRY;
2892
2893         opc = mdt_reint_opcode(info, intent_fmts);
2894         if (opc < 0)
2895                 RETURN(opc);
2896
2897         if (mdt_it_flavor[opcode].it_reint != opc) {
2898                 CERROR("Reint code %ld doesn't match intent: %d\n",
2899                        opc, opcode);
2900                 RETURN(err_serious(-EPROTO));
2901         }
2902
2903         /* Get lock from request for possible resent case. */
2904         mdt_intent_fixup_resent(info, *lockp, NULL, lhc);
2905
2906         rc = mdt_reint_internal(info, lhc, opc);
2907
2908         /* Check whether the reply has been packed successfully. */
2909         if (mdt_info_req(info)->rq_repmsg != NULL)
2910                 rep = req_capsule_server_get(info->mti_pill, &RMF_DLM_REP);
2911         if (rep == NULL)
2912                 RETURN(err_serious(-EFAULT));
2913
2914         /* MDC expects this in any case */
2915         if (rc != 0)
2916                 mdt_set_disposition(info, rep, DISP_LOOKUP_EXECD);
2917
2918         /* Cross-ref case, the lock should be returned to the client */
2919         if (rc == -EREMOTE) {
2920                 LASSERT(lustre_handle_is_used(&lhc->mlh_reg_lh));
2921                 rep->lock_policy_res2 = 0;
2922                 rc = mdt_intent_lock_replace(info, lockp, NULL, lhc, flags);
2923                 RETURN(rc);
2924         }
2925         rep->lock_policy_res2 = clear_serious(rc);
2926
2927         lhc->mlh_reg_lh.cookie = 0ull;
2928         if (rc == -ENOTCONN || rc == -ENODEV) {
2929                 /*
2930                  * If it is the disconnect error (ENODEV & ENOCONN), the error
2931                  * will be returned by rq_status, and client at ptlrpc layer
2932                  * will detect this, then disconnect, reconnect the import
2933                  * immediately, instead of impacting the following the rpc.
2934                  */
2935                 RETURN(rc);
2936         } else {
2937                 /*
2938                  * For other cases, the error will be returned by intent.
2939                  * and client will retrieve the result from intent.
2940                  */
2941                  /*
2942                   * FIXME: when open lock is finished, that should be
2943                   * checked here.
2944                   */
2945                 RETURN(ELDLM_LOCK_ABORTED);
2946         }
2947 }
2948
2949 static int mdt_intent_code(long itcode)
2950 {
2951         int rc;
2952
2953         switch(itcode) {
2954         case IT_OPEN:
2955                 rc = MDT_IT_OPEN;
2956                 break;
2957         case IT_OPEN|IT_CREAT:
2958                 rc = MDT_IT_OCREAT;
2959                 break;
2960         case IT_CREAT:
2961                 rc = MDT_IT_CREATE;
2962                 break;
2963         case IT_READDIR:
2964                 rc = MDT_IT_READDIR;
2965                 break;
2966         case IT_GETATTR:
2967                 rc = MDT_IT_GETATTR;
2968                 break;
2969         case IT_LOOKUP:
2970                 rc = MDT_IT_LOOKUP;
2971                 break;
2972         case IT_UNLINK:
2973                 rc = MDT_IT_UNLINK;
2974                 break;
2975         case IT_TRUNC:
2976                 rc = MDT_IT_TRUNC;
2977                 break;
2978         case IT_GETXATTR:
2979                 rc = MDT_IT_GETXATTR;
2980                 break;
2981         default:
2982                 CERROR("Unknown intent opcode: %ld\n", itcode);
2983                 rc = -EINVAL;
2984                 break;
2985         }
2986         return rc;
2987 }
2988
2989 static int mdt_intent_opc(long itopc, struct mdt_thread_info *info,
2990                           struct ldlm_lock **lockp, int flags)
2991 {
2992         struct req_capsule   *pill;
2993         struct mdt_it_flavor *flv;
2994         int opc;
2995         int rc;
2996         ENTRY;
2997
2998         opc = mdt_intent_code(itopc);
2999         if (opc < 0)
3000                 RETURN(-EINVAL);
3001
3002         pill = info->mti_pill;
3003         flv  = &mdt_it_flavor[opc];
3004
3005         if (flv->it_fmt != NULL)
3006                 req_capsule_extend(pill, flv->it_fmt);
3007
3008         rc = mdt_unpack_req_pack_rep(info, flv->it_flags);
3009         if (rc == 0) {
3010                 struct ptlrpc_request *req = mdt_info_req(info);
3011                 if (flv->it_flags & MUTABOR &&
3012                     req->rq_export->exp_connect_flags & OBD_CONNECT_RDONLY)
3013                         RETURN(-EROFS);
3014         }
3015         if (rc == 0 && flv->it_act != NULL) {
3016                 /* execute policy */
3017                 rc = flv->it_act(opc, info, lockp, flags);
3018         } else {
3019                 rc = -EOPNOTSUPP;
3020         }
3021         RETURN(rc);
3022 }
3023
3024 static int mdt_intent_policy(struct ldlm_namespace *ns,
3025                              struct ldlm_lock **lockp, void *req_cookie,
3026                              ldlm_mode_t mode, int flags, void *data)
3027 {
3028         struct mdt_thread_info *info;
3029         struct ptlrpc_request  *req  =  req_cookie;
3030         struct ldlm_intent     *it;
3031         struct req_capsule     *pill;
3032         int rc;
3033
3034         ENTRY;
3035
3036         LASSERT(req != NULL);
3037
3038         info = lu_context_key_get(&req->rq_svc_thread->t_env->le_ctx,
3039                                   &mdt_thread_key);
3040         LASSERT(info != NULL);
3041         pill = info->mti_pill;
3042         LASSERT(pill->rc_req == req);
3043
3044         if (req->rq_reqmsg->lm_bufcount > DLM_INTENT_IT_OFF) {
3045                 req_capsule_extend(pill, &RQF_LDLM_INTENT);
3046                 it = req_capsule_client_get(pill, &RMF_LDLM_INTENT);
3047                 if (it != NULL) {
3048                         const struct ldlm_request *dlmreq;
3049                         __u64 req_bits;
3050
3051                         rc = mdt_intent_opc(it->opc, info, lockp, flags);
3052                         if (rc == 0)
3053                                 rc = ELDLM_OK;
3054
3055                         /*
3056                          * Lock without inodebits makes no sense and will oops
3057                          * later in ldlm. Let's check it now to see if we have
3058                          * wrong lock from client or bits get corrupted
3059                          * somewhere in mdt_intent_opc().
3060                          */
3061                         dlmreq = info->mti_dlm_req;
3062                         req_bits = dlmreq->lock_desc.l_policy_data.l_inodebits.bits;
3063                         LASSERT(req_bits != 0);
3064
3065                 } else
3066                         rc = err_serious(-EFAULT);
3067         } else {
3068                 /* No intent was provided */
3069                 LASSERT(pill->rc_fmt == &RQF_LDLM_ENQUEUE);
3070                 rc = req_capsule_server_pack(pill);
3071                 if (rc)
3072                         rc = err_serious(rc);
3073         }
3074         RETURN(rc);
3075 }
3076
3077 /*
3078  * Seq wrappers
3079  */
3080 static void mdt_seq_adjust(const struct lu_env *env,
3081                           struct mdt_device *m, int lost)
3082 {
3083         struct lu_site *ls = m->mdt_md_dev.md_lu_dev.ld_site;
3084         struct lu_range out;
3085         ENTRY;
3086
3087         LASSERT(ls && ls->ls_server_seq);
3088         LASSERT(lost >= 0);
3089         /* get extra seq from seq_server, moving it's range up */
3090         while (lost-- > 0) {
3091                 seq_server_alloc_meta(ls->ls_server_seq, NULL, &out, env);
3092         }
3093         EXIT;
3094 }
3095
3096 static int mdt_seq_fini(const struct lu_env *env,
3097                         struct mdt_device *m)
3098 {
3099         struct lu_site *ls = m->mdt_md_dev.md_lu_dev.ld_site;
3100         ENTRY;
3101
3102         if (ls && ls->ls_server_seq) {
3103                 seq_server_fini(ls->ls_server_seq, env);
3104                 OBD_FREE_PTR(ls->ls_server_seq);
3105                 ls->ls_server_seq = NULL;
3106         }
3107
3108         if (ls && ls->ls_control_seq) {
3109                 seq_server_fini(ls->ls_control_seq, env);
3110                 OBD_FREE_PTR(ls->ls_control_seq);
3111                 ls->ls_control_seq = NULL;
3112         }
3113
3114         if (ls && ls->ls_client_seq) {
3115                 seq_client_fini(ls->ls_client_seq);
3116                 OBD_FREE_PTR(ls->ls_client_seq);
3117                 ls->ls_client_seq = NULL;
3118         }
3119
3120         RETURN(0);
3121 }
3122
3123 static int mdt_seq_init(const struct lu_env *env,
3124                         const char *uuid,
3125                         struct mdt_device *m)
3126 {
3127         struct lu_site *ls;
3128         char *prefix;
3129         int rc;
3130         ENTRY;
3131
3132         ls = m->mdt_md_dev.md_lu_dev.ld_site;
3133
3134         /*
3135          * This is sequence-controller node. Init seq-controller server on local
3136          * MDT.
3137          */
3138         if (ls->ls_node_id == 0) {
3139                 LASSERT(ls->ls_control_seq == NULL);
3140
3141                 OBD_ALLOC_PTR(ls->ls_control_seq);
3142                 if (ls->ls_control_seq == NULL)
3143                         RETURN(-ENOMEM);
3144
3145                 rc = seq_server_init(ls->ls_control_seq,
3146                                      m->mdt_bottom, uuid,
3147                                      LUSTRE_SEQ_CONTROLLER,
3148                                      env);
3149
3150                 if (rc)
3151                         GOTO(out_seq_fini, rc);
3152
3153                 OBD_ALLOC_PTR(ls->ls_client_seq);
3154                 if (ls->ls_client_seq == NULL)
3155                         GOTO(out_seq_fini, rc = -ENOMEM);
3156
3157                 OBD_ALLOC(prefix, MAX_OBD_NAME + 5);
3158                 if (prefix == NULL) {
3159                         OBD_FREE_PTR(ls->ls_client_seq);
3160                         GOTO(out_seq_fini, rc = -ENOMEM);
3161                 }
3162
3163                 snprintf(prefix, MAX_OBD_NAME + 5, "ctl-%s",
3164                          uuid);
3165
3166                 /*
3167                  * Init seq-controller client after seq-controller server is
3168                  * ready. Pass ls->ls_control_seq to it for direct talking.
3169                  */
3170                 rc = seq_client_init(ls->ls_client_seq, NULL,
3171                                      LUSTRE_SEQ_METADATA, prefix,
3172                                      ls->ls_control_seq);
3173                 OBD_FREE(prefix, MAX_OBD_NAME + 5);
3174
3175                 if (rc)
3176                         GOTO(out_seq_fini, rc);
3177         }
3178
3179         /* Init seq-server on local MDT */
3180         LASSERT(ls->ls_server_seq == NULL);
3181
3182         OBD_ALLOC_PTR(ls->ls_server_seq);
3183         if (ls->ls_server_seq == NULL)
3184                 GOTO(out_seq_fini, rc = -ENOMEM);
3185
3186         rc = seq_server_init(ls->ls_server_seq,
3187                              m->mdt_bottom, uuid,
3188                              LUSTRE_SEQ_SERVER,
3189                              env);
3190         if (rc)
3191                 GOTO(out_seq_fini, rc = -ENOMEM);
3192
3193         /* Assign seq-controller client to local seq-server. */
3194         if (ls->ls_node_id == 0) {
3195                 LASSERT(ls->ls_client_seq != NULL);
3196
3197                 rc = seq_server_set_cli(ls->ls_server_seq,
3198                                         ls->ls_client_seq,
3199                                         env);
3200         }
3201
3202         EXIT;
3203 out_seq_fini:
3204         if (rc)
3205                 mdt_seq_fini(env, m);
3206
3207         return rc;
3208 }
3209 /*
3210  * Init client sequence manager which is used by local MDS to talk to sequence
3211  * controller on remote node.
3212  */
3213 static int mdt_seq_init_cli(const struct lu_env *env,
3214                             struct mdt_device *m,
3215                             struct lustre_cfg *cfg)
3216 {
3217         struct lu_site    *ls = m->mdt_md_dev.md_lu_dev.ld_site;
3218         struct obd_device *mdc;
3219         struct obd_uuid   *uuidp, *mdcuuidp;
3220         char              *uuid_str, *mdc_uuid_str;
3221         int                rc;
3222         int                index;
3223         struct mdt_thread_info *info;
3224         char *p, *index_string = lustre_cfg_string(cfg, 2);
3225         ENTRY;
3226
3227         info = lu_context_key_get(&env->le_ctx, &mdt_thread_key);
3228         uuidp = &info->mti_u.uuid[0];
3229         mdcuuidp = &info->mti_u.uuid[1];
3230
3231         LASSERT(index_string);
3232
3233         index = simple_strtol(index_string, &p, 10);
3234         if (*p) {
3235                 CERROR("Invalid index in lustre_cgf, offset 2\n");
3236                 RETURN(-EINVAL);
3237         }
3238
3239         /* check if this is adding the first MDC and controller is not yet
3240          * initialized. */
3241         if (index != 0 || ls->ls_client_seq)
3242                 RETURN(0);
3243
3244         uuid_str = lustre_cfg_string(cfg, 1);
3245         mdc_uuid_str = lustre_cfg_string(cfg, 4);
3246         obd_str2uuid(uuidp, uuid_str);
3247         obd_str2uuid(mdcuuidp, mdc_uuid_str);
3248
3249         mdc = class_find_client_obd(uuidp, LUSTRE_MDC_NAME, mdcuuidp);
3250         if (!mdc) {
3251                 CERROR("can't find controller MDC by uuid %s\n",
3252                        uuid_str);
3253                 rc = -ENOENT;
3254         } else if (!mdc->obd_set_up) {
3255                 CERROR("target %s not set up\n", mdc->obd_name);
3256                 rc = -EINVAL;
3257         } else {
3258                 LASSERT(ls->ls_control_exp);
3259                 OBD_ALLOC_PTR(ls->ls_client_seq);
3260                 if (ls->ls_client_seq != NULL) {
3261                         char *prefix;
3262
3263                         OBD_ALLOC(prefix, MAX_OBD_NAME + 5);
3264                         if (!prefix)
3265                                 RETURN(-ENOMEM);
3266
3267                         snprintf(prefix, MAX_OBD_NAME + 5, "ctl-%s",
3268                                  mdc->obd_name);
3269
3270                         rc = seq_client_init(ls->ls_client_seq,
3271                                              ls->ls_control_exp,
3272                                              LUSTRE_SEQ_METADATA,
3273                                              prefix, NULL);
3274                         OBD_FREE(prefix, MAX_OBD_NAME + 5);
3275                 } else
3276                         rc = -ENOMEM;
3277
3278                 if (rc)
3279                         RETURN(rc);
3280
3281                 LASSERT(ls->ls_server_seq != NULL);
3282                 rc = seq_server_set_cli(ls->ls_server_seq, ls->ls_client_seq,
3283                                         env);
3284         }
3285
3286         RETURN(rc);
3287 }
3288
3289 static void mdt_seq_fini_cli(struct mdt_device *m)
3290 {
3291         struct lu_site *ls;
3292
3293         ENTRY;
3294
3295         ls = m->mdt_md_dev.md_lu_dev.ld_site;
3296
3297         if (ls && ls->ls_server_seq)
3298                 seq_server_set_cli(ls->ls_server_seq,
3299                                    NULL, NULL);
3300
3301         if (ls && ls->ls_control_exp) {
3302                 class_export_put(ls->ls_control_exp);
3303                 ls->ls_control_exp = NULL;
3304         }
3305         EXIT;
3306 }
3307
3308 /*
3309  * FLD wrappers
3310  */
3311 static int mdt_fld_fini(const struct lu_env *env,
3312                         struct mdt_device *m)
3313 {
3314         struct lu_site *ls = m->mdt_md_dev.md_lu_dev.ld_site;
3315         ENTRY;
3316
3317         if (ls && ls->ls_server_fld) {
3318                 fld_server_fini(ls->ls_server_fld, env);
3319                 OBD_FREE_PTR(ls->ls_server_fld);
3320                 ls->ls_server_fld = NULL;
3321         }
3322
3323         RETURN(0);
3324 }
3325
3326 static int mdt_fld_init(const struct lu_env *env,
3327                         const char *uuid,
3328                         struct mdt_device *m)
3329 {
3330         struct lu_site *ls;
3331         int rc;
3332         ENTRY;
3333
3334         ls = m->mdt_md_dev.md_lu_dev.ld_site;
3335
3336         OBD_ALLOC_PTR(ls->ls_server_fld);
3337         if (ls->ls_server_fld == NULL)
3338                 RETURN(rc = -ENOMEM);
3339
3340         rc = fld_server_init(ls->ls_server_fld,
3341                              m->mdt_bottom, uuid, env);
3342         if (rc) {
3343                 OBD_FREE_PTR(ls->ls_server_fld);
3344                 ls->ls_server_fld = NULL;
3345                 RETURN(rc);
3346         }
3347
3348         RETURN(0);
3349 }
3350
3351 /* device init/fini methods */
3352 static void mdt_stop_ptlrpc_service(struct mdt_device *m)
3353 {
3354         ENTRY;
3355         if (m->mdt_regular_service != NULL) {
3356                 ptlrpc_unregister_service(m->mdt_regular_service);
3357                 m->mdt_regular_service = NULL;
3358         }
3359         if (m->mdt_readpage_service != NULL) {
3360                 ptlrpc_unregister_service(m->mdt_readpage_service);
3361                 m->mdt_readpage_service = NULL;
3362         }
3363         if (m->mdt_xmds_service != NULL) {
3364                 ptlrpc_unregister_service(m->mdt_xmds_service);
3365                 m->mdt_xmds_service = NULL;
3366         }
3367         if (m->mdt_setattr_service != NULL) {
3368                 ptlrpc_unregister_service(m->mdt_setattr_service);
3369                 m->mdt_setattr_service = NULL;
3370         }
3371         if (m->mdt_mdsc_service != NULL) {
3372                 ptlrpc_unregister_service(m->mdt_mdsc_service);
3373                 m->mdt_mdsc_service = NULL;
3374         }
3375         if (m->mdt_mdss_service != NULL) {
3376                 ptlrpc_unregister_service(m->mdt_mdss_service);
3377                 m->mdt_mdss_service = NULL;
3378         }
3379         if (m->mdt_dtss_service != NULL) {
3380                 ptlrpc_unregister_service(m->mdt_dtss_service);
3381                 m->mdt_dtss_service = NULL;
3382         }
3383         if (m->mdt_fld_service != NULL) {
3384                 ptlrpc_unregister_service(m->mdt_fld_service);
3385                 m->mdt_fld_service = NULL;
3386         }
3387         ENTRY;
3388 }
3389
3390 static int mdt_start_ptlrpc_service(struct mdt_device *m)
3391 {
3392         int rc;
3393         static struct ptlrpc_service_conf conf;
3394         cfs_proc_dir_entry_t *procfs_entry;
3395         ENTRY;
3396
3397         procfs_entry = m->mdt_md_dev.md_lu_dev.ld_obd->obd_proc_entry;
3398
3399         conf = (typeof(conf)) {
3400                 .psc_nbufs           = MDS_NBUFS,
3401                 .psc_bufsize         = MDS_BUFSIZE,
3402                 .psc_max_req_size    = MDS_MAXREQSIZE,
3403                 .psc_max_reply_size  = MDS_MAXREPSIZE,
3404                 .psc_req_portal      = MDS_REQUEST_PORTAL,
3405                 .psc_rep_portal      = MDC_REPLY_PORTAL,
3406                 .psc_watchdog_factor = MDT_SERVICE_WATCHDOG_FACTOR,
3407                 /*
3408                  * We'd like to have a mechanism to set this on a per-device
3409                  * basis, but alas...
3410                  */
3411                 .psc_min_threads    = min(max(mdt_num_threads, MDT_MIN_THREADS),
3412                                           MDT_MAX_THREADS),
3413                 .psc_max_threads     = MDT_MAX_THREADS,
3414                 .psc_ctx_tags        = LCT_MD_THREAD
3415         };
3416
3417         m->mdt_ldlm_client = &m->mdt_md_dev.md_lu_dev.ld_obd->obd_ldlm_client;
3418         ptlrpc_init_client(LDLM_CB_REQUEST_PORTAL, LDLM_CB_REPLY_PORTAL,
3419                            "mdt_ldlm_client", m->mdt_ldlm_client);
3420
3421         m->mdt_regular_service =
3422                 ptlrpc_init_svc_conf(&conf, mdt_regular_handle, LUSTRE_MDT_NAME,
3423                                      procfs_entry, target_print_req,
3424                                      LUSTRE_MDT_NAME);
3425         if (m->mdt_regular_service == NULL)
3426                 RETURN(-ENOMEM);
3427
3428         rc = ptlrpc_start_threads(NULL, m->mdt_regular_service);
3429         if (rc)
3430                 GOTO(err_mdt_svc, rc);
3431
3432         /*
3433          * readpage service configuration. Parameters have to be adjusted,
3434          * ideally.
3435          */
3436         conf = (typeof(conf)) {
3437                 .psc_nbufs           = MDS_NBUFS,
3438                 .psc_bufsize         = MDS_BUFSIZE,
3439                 .psc_max_req_size    = MDS_MAXREQSIZE,
3440                 .psc_max_reply_size  = MDS_MAXREPSIZE,
3441                 .psc_req_portal      = MDS_READPAGE_PORTAL,
3442                 .psc_rep_portal      = MDC_REPLY_PORTAL,
3443                 .psc_watchdog_factor = MDT_SERVICE_WATCHDOG_FACTOR,
3444                 .psc_min_threads    = min(max(mdt_num_threads, MDT_MIN_THREADS),
3445                                           MDT_MAX_THREADS),
3446                 .psc_max_threads     = MDT_MAX_THREADS,
3447                 .psc_ctx_tags        = LCT_MD_THREAD
3448         };
3449         m->mdt_readpage_service =
3450                 ptlrpc_init_svc_conf(&conf, mdt_readpage_handle,
3451                                      LUSTRE_MDT_NAME "_readpage",
3452                                      procfs_entry, target_print_req,"mdt_rdpg");
3453
3454         if (m->mdt_readpage_service == NULL) {
3455                 CERROR("failed to start readpage service\n");
3456                 GOTO(err_mdt_svc, rc = -ENOMEM);
3457         }
3458
3459         rc = ptlrpc_start_threads(NULL, m->mdt_readpage_service);
3460
3461         /*
3462          * setattr service configuration.
3463          */
3464         conf = (typeof(conf)) {
3465                 .psc_nbufs           = MDS_NBUFS,
3466                 .psc_bufsize         = MDS_BUFSIZE,
3467                 .psc_max_req_size    = MDS_MAXREQSIZE,
3468                 .psc_max_reply_size  = MDS_MAXREPSIZE,
3469                 .psc_req_portal      = MDS_SETATTR_PORTAL,
3470                 .psc_rep_portal      = MDC_REPLY_PORTAL,
3471                 .psc_watchdog_factor = MDT_SERVICE_WATCHDOG_FACTOR,
3472                 .psc_min_threads   = min(max(mdt_num_threads, MDT_MIN_THREADS),
3473                                          MDT_MAX_THREADS),
3474                 .psc_max_threads     = MDT_MAX_THREADS,
3475                 .psc_ctx_tags        = LCT_MD_THREAD
3476         };
3477
3478         m->mdt_setattr_service =
3479                 ptlrpc_init_svc_conf(&conf, mdt_regular_handle,
3480                                      LUSTRE_MDT_NAME "_setattr",
3481                                      procfs_entry, target_print_req,"mdt_attr");
3482
3483         if (!m->mdt_setattr_service) {
3484                 CERROR("failed to start setattr service\n");
3485                 GOTO(err_mdt_svc, rc = -ENOMEM);
3486         }
3487
3488         rc = ptlrpc_start_threads(NULL, m->mdt_setattr_service);
3489         if (rc)
3490                 GOTO(err_mdt_svc, rc);
3491
3492         /*
3493          * sequence controller service configuration
3494          */
3495         conf = (typeof(conf)) {
3496                 .psc_nbufs           = MDS_NBUFS,
3497                 .psc_bufsize         = MDS_BUFSIZE,
3498                 .psc_max_req_size    = SEQ_MAXREQSIZE,
3499                 .psc_max_reply_size  = SEQ_MAXREPSIZE,
3500                 .psc_req_portal      = SEQ_CONTROLLER_PORTAL,
3501                 .psc_rep_portal      = MDC_REPLY_PORTAL,
3502                 .psc_watchdog_factor = MDT_SERVICE_WATCHDOG_FACTOR,
3503                 .psc_min_threads     = SEQ_NUM_THREADS,
3504                 .psc_max_threads     = SEQ_NUM_THREADS,
3505                 .psc_ctx_tags        = LCT_MD_THREAD|LCT_DT_THREAD
3506         };
3507
3508         m->mdt_mdsc_service =
3509                 ptlrpc_init_svc_conf(&conf, mdt_mdsc_handle,
3510                                      LUSTRE_MDT_NAME"_mdsc",
3511                                      procfs_entry, target_print_req,"mdt_mdsc");
3512         if (!m->mdt_mdsc_service) {
3513                 CERROR("failed to start seq controller service\n");
3514                 GOTO(err_mdt_svc, rc = -ENOMEM);
3515         }
3516
3517         rc = ptlrpc_start_threads(NULL, m->mdt_mdsc_service);
3518         if (rc)
3519                 GOTO(err_mdt_svc, rc);
3520
3521         /*
3522          * metadata sequence server service configuration
3523          */
3524         conf = (typeof(conf)) {
3525                 .psc_nbufs           = MDS_NBUFS,
3526                 .psc_bufsize         = MDS_BUFSIZE,
3527                 .psc_max_req_size    = SEQ_MAXREQSIZE,
3528                 .psc_max_reply_size  = SEQ_MAXREPSIZE,
3529                 .psc_req_portal      = SEQ_METADATA_PORTAL,
3530                 .psc_rep_portal      = MDC_REPLY_PORTAL,
3531                 .psc_watchdog_factor = MDT_SERVICE_WATCHDOG_FACTOR,
3532                 .psc_min_threads     = SEQ_NUM_THREADS,
3533                 .psc_max_threads     = SEQ_NUM_THREADS,
3534                 .psc_ctx_tags        = LCT_MD_THREAD|LCT_DT_THREAD
3535         };
3536
3537         m->mdt_mdss_service =
3538                 ptlrpc_init_svc_conf(&conf, mdt_mdss_handle,
3539                                      LUSTRE_MDT_NAME"_mdss",
3540                                      procfs_entry, target_print_req,"mdt_mdss");
3541         if (!m->mdt_mdss_service) {
3542                 CERROR("failed to start metadata seq server service\n");
3543                 GOTO(err_mdt_svc, rc = -ENOMEM);
3544         }
3545
3546         rc = ptlrpc_start_threads(NULL, m->mdt_mdss_service);
3547         if (rc)
3548                 GOTO(err_mdt_svc, rc);
3549
3550
3551         /*
3552          * Data sequence server service configuration. We want to have really
3553          * cluster-wide sequences space. This is why we start only one sequence
3554          * controller which manages space.
3555          */
3556         conf = (typeof(conf)) {
3557                 .psc_nbufs           = MDS_NBUFS,
3558                 .psc_bufsize         = MDS_BUFSIZE,
3559                 .psc_max_req_size    = SEQ_MAXREQSIZE,
3560                 .psc_max_reply_size  = SEQ_MAXREPSIZE,
3561                 .psc_req_portal      = SEQ_DATA_PORTAL,
3562                 .psc_rep_portal      = OSC_REPLY_PORTAL,
3563                 .psc_watchdog_factor = MDT_SERVICE_WATCHDOG_FACTOR,
3564                 .psc_min_threads     = SEQ_NUM_THREADS,
3565                 .psc_max_threads     = SEQ_NUM_THREADS,
3566                 .psc_ctx_tags        = LCT_MD_THREAD|LCT_DT_THREAD
3567         };
3568
3569         m->mdt_dtss_service =
3570                 ptlrpc_init_svc_conf(&conf, mdt_dtss_handle,
3571                                      LUSTRE_MDT_NAME"_dtss",
3572                                      procfs_entry, target_print_req,"mdt_dtss");
3573         if (!m->mdt_dtss_service) {
3574                 CERROR("failed to start data seq server service\n");
3575                 GOTO(err_mdt_svc, rc = -ENOMEM);
3576         }
3577
3578         rc = ptlrpc_start_threads(NULL, m->mdt_dtss_service);
3579         if (rc)
3580                 GOTO(err_mdt_svc, rc);
3581
3582         /* FLD service start */
3583         conf = (typeof(conf)) {
3584                 .psc_nbufs           = MDS_NBUFS,
3585                 .psc_bufsize         = MDS_BUFSIZE,
3586                 .psc_max_req_size    = FLD_MAXREQSIZE,
3587                 .psc_max_reply_size  = FLD_MAXREPSIZE,
3588                 .psc_req_portal      = FLD_REQUEST_PORTAL,
3589                 .psc_rep_portal      = MDC_REPLY_PORTAL,
3590                 .psc_watchdog_factor = MDT_SERVICE_WATCHDOG_FACTOR,
3591                 .psc_min_threads     = FLD_NUM_THREADS,
3592                 .psc_max_threads     = FLD_NUM_THREADS,
3593                 .psc_ctx_tags        = LCT_DT_THREAD|LCT_MD_THREAD
3594         };
3595
3596         m->mdt_fld_service =
3597                 ptlrpc_init_svc_conf(&conf, mdt_fld_handle,
3598                                      LUSTRE_MDT_NAME"_fld",
3599                                      procfs_entry, target_print_req, "mdt_fld");
3600         if (!m->mdt_fld_service) {
3601                 CERROR("failed to start fld service\n");
3602                 GOTO(err_mdt_svc, rc = -ENOMEM);
3603         }
3604
3605         rc = ptlrpc_start_threads(NULL, m->mdt_fld_service);
3606         if (rc)
3607                 GOTO(err_mdt_svc, rc);
3608
3609         /*
3610          * mds-mds service configuration. Separate portal is used to allow
3611          * mds-mds requests be not blocked during recovery.
3612          */
3613         conf = (typeof(conf)) {
3614                 .psc_nbufs           = MDS_NBUFS,
3615                 .psc_bufsize         = MDS_BUFSIZE,
3616                 .psc_max_req_size    = MDS_MAXREQSIZE,
3617                 .psc_max_reply_size  = MDS_MAXREPSIZE,
3618                 .psc_req_portal      = MDS_MDS_PORTAL,
3619                 .psc_rep_portal      = MDC_REPLY_PORTAL,
3620                 .psc_watchdog_factor = MDT_SERVICE_WATCHDOG_FACTOR,
3621                 .psc_min_threads    = min(max(mdt_num_threads, MDT_MIN_THREADS),
3622                                           MDT_MAX_THREADS),
3623                 .psc_max_threads     = MDT_MAX_THREADS,
3624                 .psc_ctx_tags        = LCT_MD_THREAD
3625         };
3626         m->mdt_xmds_service =
3627                 ptlrpc_init_svc_conf(&conf, mdt_xmds_handle,
3628                                      LUSTRE_MDT_NAME "_mds",
3629                                      procfs_entry, target_print_req,"mdt_xmds");
3630
3631         if (m->mdt_xmds_service == NULL) {
3632                 CERROR("failed to start readpage service\n");
3633                 GOTO(err_mdt_svc, rc = -ENOMEM);
3634         }
3635
3636         rc = ptlrpc_start_threads(NULL, m->mdt_xmds_service);
3637         if (rc)
3638                 GOTO(err_mdt_svc, rc);
3639
3640         EXIT;
3641 err_mdt_svc:
3642         if (rc)
3643                 mdt_stop_ptlrpc_service(m);
3644
3645         return rc;
3646 }
3647
3648 static void mdt_stack_fini(const struct lu_env *env,
3649                            struct mdt_device *m, struct lu_device *top)
3650 {
3651         struct obd_device       *obd = m->mdt_md_dev.md_lu_dev.ld_obd;
3652         struct lustre_cfg_bufs  *bufs;
3653         struct lustre_cfg       *lcfg;
3654         struct mdt_thread_info  *info;
3655         char flags[3]="";
3656         ENTRY;
3657
3658         info = lu_context_key_get(&env->le_ctx, &mdt_thread_key);
3659         LASSERT(info != NULL);
3660
3661         bufs = &info->mti_u.bufs;
3662         /* process cleanup, pass mdt obd name to get obd umount flags */
3663         lustre_cfg_bufs_reset(bufs, obd->obd_name);
3664         if (obd->obd_force)
3665                 strcat(flags, "F");
3666         if (obd->obd_fail)
3667                 strcat(flags, "A");
3668         lustre_cfg_bufs_set_string(bufs, 1, flags);
3669         lcfg = lustre_cfg_new(LCFG_CLEANUP, bufs);
3670         if (!lcfg) {
3671                 CERROR("Cannot alloc lcfg!\n");
3672                 return;
3673         }
3674
3675         LASSERT(top);
3676         top->ld_ops->ldo_process_config(env, top, lcfg);
3677         lustre_cfg_free(lcfg);
3678
3679         lu_stack_fini(env, top);
3680         m->mdt_child = NULL;
3681         m->mdt_bottom = NULL;
3682 }
3683
3684 static struct lu_device *mdt_layer_setup(struct lu_env *env,
3685                                          const char *typename,
3686                                          struct lu_device *child,
3687                                          struct lustre_cfg *cfg)
3688 {
3689         const char            *dev = lustre_cfg_string(cfg, 0);
3690         struct obd_type       *type;
3691         struct lu_device_type *ldt;
3692         struct lu_device      *d;
3693         int rc;
3694         ENTRY;
3695
3696         /* find the type */
3697         type = class_get_type(typename);
3698         if (!type) {
3699                 CERROR("Unknown type: '%s'\n", typename);
3700                 GOTO(out, rc = -ENODEV);
3701         }
3702
3703         rc = lu_context_refill(&env->le_ctx);
3704         if (rc != 0) {
3705                 CERROR("Failure to refill context: '%d'\n", rc);
3706                 GOTO(out_type, rc);
3707         }
3708
3709         if (env->le_ses != NULL) {
3710                 rc = lu_context_refill(env->le_ses);
3711                 if (rc != 0) {
3712                         CERROR("Failure to refill session: '%d'\n", rc);
3713                         GOTO(out_type, rc);
3714                 }
3715         }
3716
3717         ldt = type->typ_lu;
3718         if (ldt == NULL) {
3719                 CERROR("type: '%s'\n", typename);
3720                 GOTO(out_type, rc = -EINVAL);
3721         }
3722
3723         ldt->ldt_obd_type = type;
3724         d = ldt->ldt_ops->ldto_device_alloc(env, ldt, cfg);
3725         if (IS_ERR(d)) {
3726                 CERROR("Cannot allocate device: '%s'\n", typename);
3727                 GOTO(out_type, rc = -ENODEV);
3728         }
3729
3730         LASSERT(child->ld_site);
3731         d->ld_site = child->ld_site;
3732
3733         type->typ_refcnt++;
3734         rc = ldt->ldt_ops->ldto_device_init(env, d, dev, child);
3735         if (rc) {
3736                 CERROR("can't init device '%s', rc %d\n", typename, rc);
3737                 GOTO(out_alloc, rc);
3738         }
3739         lu_device_get(d);
3740
3741         RETURN(d);
3742
3743 out_alloc:
3744         ldt->ldt_ops->ldto_device_free(env, d);
3745         type->typ_refcnt--;
3746 out_type:
3747         class_put_type(type);
3748 out:
3749         return ERR_PTR(rc);
3750 }
3751
3752 static int mdt_stack_init(struct lu_env *env,
3753                           struct mdt_device *m, struct lustre_cfg *cfg)
3754 {
3755         struct lu_device  *d = &m->mdt_md_dev.md_lu_dev;
3756         struct lu_device  *tmp;
3757         struct md_device  *md;
3758         int rc;
3759         ENTRY;
3760
3761         /* init the stack */
3762         tmp = mdt_layer_setup(env, LUSTRE_OSD_NAME, d, cfg);
3763         if (IS_ERR(tmp)) {
3764                 RETURN(PTR_ERR(tmp));
3765         }
3766         m->mdt_bottom = lu2dt_dev(tmp);
3767         d = tmp;
3768         tmp = mdt_layer_setup(env, LUSTRE_MDD_NAME, d, cfg);
3769         if (IS_ERR(tmp)) {
3770                 GOTO(out, rc = PTR_ERR(tmp));
3771         }
3772         d = tmp;
3773         md = lu2md_dev(d);
3774
3775         tmp = mdt_layer_setup(env, LUSTRE_CMM_NAME, d, cfg);
3776         if (IS_ERR(tmp)) {
3777                 GOTO(out, rc = PTR_ERR(tmp));
3778         }
3779         d = tmp;
3780         /*set mdd upcall device*/
3781         md_upcall_dev_set(md, lu2md_dev(d));
3782
3783         md = lu2md_dev(d);
3784         /*set cmm upcall device*/
3785         md_upcall_dev_set(md, &m->mdt_md_dev);
3786
3787         m->mdt_child = lu2md_dev(d);
3788
3789         /* process setup config */
3790         tmp = &m->mdt_md_dev.md_lu_dev;
3791         rc = tmp->ld_ops->ldo_process_config(env, tmp, cfg);
3792         GOTO(out, rc);
3793 out:
3794         /* fini from last known good lu_device */
3795         if (rc)
3796                 mdt_stack_fini(env, m, d);
3797
3798         return rc;
3799 }
3800
3801 static void mdt_fini(const struct lu_env *env, struct mdt_device *m)
3802 {
3803         struct md_device *next = m->mdt_child;
3804         struct lu_device *d    = &m->mdt_md_dev.md_lu_dev;
3805         struct lu_site   *ls   = d->ld_site;
3806         struct obd_device *obd = m->mdt_md_dev.md_lu_dev.ld_obd;
3807         ENTRY;
3808
3809         ping_evictor_stop();
3810
3811         target_recovery_fini(obd);
3812         mdt_stop_ptlrpc_service(m);
3813
3814         mdt_fs_cleanup(env, m);
3815
3816         upcall_cache_cleanup(m->mdt_identity_cache);
3817         m->mdt_identity_cache = NULL;
3818
3819         if (m->mdt_namespace != NULL) {
3820                 ldlm_namespace_free(m->mdt_namespace, NULL, d->ld_obd->obd_force);
3821                 d->ld_obd->obd_namespace = m->mdt_namespace = NULL;
3822         }
3823
3824         mdt_seq_fini(env, m);
3825         mdt_seq_fini_cli(m);
3826         mdt_fld_fini(env, m);
3827         mdt_procfs_fini(m);
3828         ptlrpc_lprocfs_unregister_obd(d->ld_obd);
3829         lprocfs_obd_cleanup(d->ld_obd);
3830
3831         sptlrpc_rule_set_free(&m->mdt_sptlrpc_rset);
3832
3833         next->md_ops->mdo_init_capa_ctxt(env, next, 0, 0, 0, NULL);
3834         cfs_timer_disarm(&m->mdt_ck_timer);
3835         mdt_ck_thread_stop(m);
3836
3837         /* finish the stack */
3838         mdt_stack_fini(env, m, md2lu_dev(m->mdt_child));
3839
3840         if (ls) {
3841                 lu_site_fini(ls);
3842                 OBD_FREE_PTR(ls);
3843                 d->ld_site = NULL;
3844         }
3845         LASSERT(atomic_read(&d->ld_ref) == 0);
3846         md_device_fini(&m->mdt_md_dev);
3847
3848         EXIT;
3849 }
3850
3851 static void fsoptions_to_mdt_flags(struct mdt_device *m, char *options)
3852 {
3853         char *p = options;
3854
3855 #ifdef CONFIG_FS_POSIX_ACL
3856         /* ACLs should be enabled by default (b=13829) */
3857         m->mdt_opts.mo_acl = 1;
3858         LCONSOLE_INFO("Enabling ACL\n");
3859 #else
3860         m->mdt_opts.mo_acl = 0;
3861         LCONSOLE_INFO("Disabling ACL\n");
3862 #endif
3863
3864         if (!options)
3865                 return;
3866
3867         while (*options) {
3868                 int len;
3869
3870                 while (*p && *p != ',')
3871                         p++;
3872
3873                 len = p - options;
3874                 if ((len == sizeof("user_xattr") - 1) &&
3875                     (memcmp(options, "user_xattr", len) == 0)) {
3876                         m->mdt_opts.mo_user_xattr = 1;
3877                         LCONSOLE_INFO("Enabling user_xattr\n");
3878                 } else if ((len == sizeof("nouser_xattr") - 1) &&
3879                            (memcmp(options, "nouser_xattr", len) == 0)) {
3880                         m->mdt_opts.mo_user_xattr = 0;
3881                         LCONSOLE_INFO("Disabling user_xattr\n");
3882                 } else if ((len == sizeof("noacl") - 1) &&
3883                            (memcmp(options, "noacl", len) == 0)) {
3884                         m->mdt_opts.mo_acl = 0;
3885                         LCONSOLE_INFO("Disabling ACL\n");
3886                 }
3887
3888                 options = ++p;
3889         }
3890 }
3891
3892 int mdt_postrecov(const struct lu_env *, struct mdt_device *);
3893
3894 static int mdt_init0(const struct lu_env *env, struct mdt_device *m,
3895                      struct lu_device_type *ldt, struct lustre_cfg *cfg)
3896 {
3897         struct lprocfs_static_vars lvars;
3898         struct mdt_thread_info    *info;
3899         struct obd_device         *obd;
3900         const char                *dev = lustre_cfg_string(cfg, 0);
3901         const char                *num = lustre_cfg_string(cfg, 2);
3902         struct lustre_mount_info  *lmi;
3903         struct lustre_sb_info     *lsi;
3904         struct lu_site            *s;
3905         const char                *identity_upcall = "NONE";
3906         int                        rc;
3907         ENTRY;
3908
3909         info = lu_context_key_get(&env->le_ctx, &mdt_thread_key);
3910         LASSERT(info != NULL);
3911
3912         obd = class_name2obd(dev);
3913         LASSERT(obd != NULL);
3914
3915         spin_lock_init(&m->mdt_transno_lock);
3916
3917         m->mdt_max_mdsize = MAX_MD_SIZE;
3918         m->mdt_max_cookiesize = sizeof(struct llog_cookie);
3919
3920         m->mdt_opts.mo_user_xattr = 0;
3921         m->mdt_opts.mo_acl = 0;
3922         lmi = server_get_mount_2(dev);
3923         if (lmi == NULL) {
3924                 CERROR("Cannot get mount info for %s!\n", dev);
3925                 RETURN(-EFAULT);
3926         } else {
3927                 lsi = s2lsi(lmi->lmi_sb);
3928                 fsoptions_to_mdt_flags(m, lsi->lsi_lmd->lmd_opts);
3929                 server_put_mount_2(dev, lmi->lmi_mnt);
3930         }
3931
3932         m->mdt_sptlrpc_lock = RW_LOCK_UNLOCKED;
3933         sptlrpc_rule_set_init(&m->mdt_sptlrpc_rset);
3934
3935         spin_lock_init(&m->mdt_ioepoch_lock);
3936         m->mdt_opts.mo_compat_resname = 0;
3937         m->mdt_capa_timeout = CAPA_TIMEOUT;
3938         m->mdt_capa_alg = CAPA_HMAC_ALG_SHA1;
3939         m->mdt_ck_timeout = CAPA_KEY_TIMEOUT;
3940
3941         spin_lock_init(&m->mdt_client_bitmap_lock);
3942
3943         OBD_ALLOC_PTR(s);
3944         if (s == NULL)
3945                 RETURN(-ENOMEM);
3946
3947         md_device_init(&m->mdt_md_dev, ldt);
3948         m->mdt_md_dev.md_lu_dev.ld_ops = &mdt_lu_ops;
3949         m->mdt_md_dev.md_lu_dev.ld_obd = obd;
3950         /* set this lu_device to obd, because error handling need it */
3951         obd->obd_lu_dev = &m->mdt_md_dev.md_lu_dev;
3952
3953         rc = lu_site_init(s, &m->mdt_md_dev.md_lu_dev);
3954         if (rc) {
3955                 CERROR("Can't init lu_site, rc %d\n", rc);
3956                 GOTO(err_free_site, rc);
3957         }
3958
3959         lprocfs_mdt_init_vars(&lvars);
3960         rc = lprocfs_obd_setup(obd, lvars.obd_vars);
3961         if (rc) {
3962                 CERROR("Can't init lprocfs, rc %d\n", rc);
3963                 GOTO(err_fini_site, rc);
3964         }
3965         ptlrpc_lprocfs_register_obd(obd);
3966
3967         rc = mdt_procfs_init(m, dev);
3968         if (rc) {
3969                 CERROR("Can't init MDT lprocfs, rc %d\n", rc);
3970                 GOTO(err_fini_proc, rc);
3971         }
3972
3973         /* set server index */
3974         LASSERT(num);
3975         s->ls_node_id = simple_strtol(num, NULL, 10);
3976
3977         /* failover is the default
3978          * FIXME: we do not failout mds0/mgs, which may cause some problems.
3979          * assumed whose ls_node_id == 0 XXX
3980          * */
3981         obd->obd_replayable = 1;
3982         /* No connection accepted until configurations will finish */
3983         obd->obd_no_conn = 1;
3984
3985         if (cfg->lcfg_bufcount > 4 && LUSTRE_CFG_BUFLEN(cfg, 4) > 0) {
3986                 char *str = lustre_cfg_string(cfg, 4);
3987                 if (strchr(str, 'n')) {
3988                         CWARN("%s: recovery disabled\n", obd->obd_name);
3989                         obd->obd_replayable = 0;
3990                 }
3991         }
3992
3993         /* init the stack */
3994         rc = mdt_stack_init((struct lu_env *)env, m, cfg);
3995         if (rc) {
3996                 CERROR("Can't init device stack, rc %d\n", rc);
3997                 GOTO(err_fini_proc, rc);
3998         }
3999
4000         rc = mdt_fld_init(env, obd->obd_name, m);
4001         if (rc)
4002                 GOTO(err_fini_stack, rc);
4003
4004         rc = mdt_seq_init(env, obd->obd_name, m);
4005         if (rc)
4006                 GOTO(err_fini_fld, rc);
4007
4008         snprintf(info->mti_u.ns_name, sizeof info->mti_u.ns_name,
4009                  LUSTRE_MDT_NAME"-%p", m);
4010         m->mdt_namespace = ldlm_namespace_new(obd, info->mti_u.ns_name,
4011                                               LDLM_NAMESPACE_SERVER,
4012                                               LDLM_NAMESPACE_GREEDY);
4013         if (m->mdt_namespace == NULL)
4014                 GOTO(err_fini_seq, rc = -ENOMEM);
4015
4016         ldlm_register_intent(m->mdt_namespace, mdt_intent_policy);
4017         /* set obd_namespace for compatibility with old code */
4018         obd->obd_namespace = m->mdt_namespace;
4019
4020         /* XXX: to support suppgid for ACL, we enable identity_upcall
4021          * by default, otherwise, maybe got unexpected -EACCESS. */
4022         if (m->mdt_opts.mo_acl)
4023                 identity_upcall = MDT_IDENTITY_UPCALL_PATH;
4024
4025         m->mdt_identity_cache = upcall_cache_init(obd->obd_name, identity_upcall,
4026                                                   &mdt_identity_upcall_cache_ops);
4027         if (IS_ERR(m->mdt_identity_cache)) {
4028                 rc = PTR_ERR(m->mdt_identity_cache);
4029                 m->mdt_identity_cache = NULL;
4030                 GOTO(err_free_ns, rc);
4031         }
4032
4033         cfs_timer_init(&m->mdt_ck_timer, mdt_ck_timer_callback, m);
4034
4035         rc = mdt_ck_thread_start(m);
4036         if (rc)
4037                 GOTO(err_free_ns, rc);
4038
4039         rc = mdt_fs_setup(env, m, obd);
4040         if (rc)
4041                 GOTO(err_capa, rc);
4042
4043         target_recovery_init(obd, mdt_recovery_handle);
4044
4045         rc = mdt_start_ptlrpc_service(m);
4046         if (rc)
4047                 GOTO(err_fs_cleanup, rc);
4048
4049         ping_evictor_start();
4050
4051         rc = lu_site_init_finish(s);
4052         if (rc)
4053                 GOTO(err_stop_service, rc);
4054
4055         if (obd->obd_recovering == 0)
4056                 mdt_postrecov(env, m);
4057
4058         mdt_init_capa_ctxt(env, m);
4059
4060         /* Reduce the initial timeout on an MDS because it doesn't need such
4061          * a long timeout as an OST does. Adaptive timeouts will adjust this
4062          * value appropriately. */
4063         if (ldlm_timeout == LDLM_TIMEOUT_DEFAULT)
4064                 ldlm_timeout = MDS_LDLM_TIMEOUT_DEFAULT;
4065
4066         RETURN(0);
4067
4068 err_stop_service:
4069         ping_evictor_stop();
4070         mdt_stop_ptlrpc_service(m);
4071 err_fs_cleanup:
4072         target_recovery_fini(obd);
4073         mdt_fs_cleanup(env, m);
4074 err_capa:
4075         cfs_timer_disarm(&m->mdt_ck_timer);
4076         mdt_ck_thread_stop(m);
4077 err_free_ns:
4078         upcall_cache_cleanup(m->mdt_identity_cache);
4079         m->mdt_identity_cache = NULL;
4080         ldlm_namespace_free(m->mdt_namespace, NULL, 0);
4081         obd->obd_namespace = m->mdt_namespace = NULL;
4082 err_fini_seq:
4083         mdt_seq_fini(env, m);
4084 err_fini_fld:
4085         mdt_fld_fini(env, m);
4086 err_fini_stack:
4087         mdt_stack_fini(env, m, md2lu_dev(m->mdt_child));
4088 err_fini_proc:
4089         mdt_procfs_fini(m);
4090         ptlrpc_lprocfs_unregister_obd(obd);
4091         lprocfs_obd_cleanup(obd);
4092 err_fini_site:
4093         lu_site_fini(s);
4094 err_free_site:
4095         OBD_FREE_PTR(s);
4096
4097         md_device_fini(&m->mdt_md_dev);
4098         return (rc);
4099 }
4100
4101 /* used by MGS to process specific configurations */
4102 static int mdt_process_config(const struct lu_env *env,
4103                               struct lu_device *d, struct lustre_cfg *cfg)
4104 {
4105         struct mdt_device *m = mdt_dev(d);
4106         struct md_device *md_next = m->mdt_child;
4107         struct lu_device *next = md2lu_dev(md_next);
4108         int rc = 0;
4109         ENTRY;
4110
4111         switch (cfg->lcfg_command) {
4112         case LCFG_SPTLRPC_CONF: {
4113                 struct sptlrpc_conf_log *log;
4114                 struct sptlrpc_rule_set  tmp_rset;
4115
4116                 log = sptlrpc_conf_log_extract(cfg);
4117                 if (IS_ERR(log)) {
4118                         rc = PTR_ERR(log);
4119                         break;
4120                 }
4121
4122                 sptlrpc_rule_set_init(&tmp_rset);
4123
4124                 rc = sptlrpc_rule_set_from_log(&tmp_rset, log);
4125                 if (rc) {
4126                         CERROR("mdt %p: failed get sptlrpc rules: %d\n", m, rc);
4127                         break;
4128                 }
4129
4130                 write_lock(&m->mdt_sptlrpc_lock);
4131                 sptlrpc_rule_set_free(&m->mdt_sptlrpc_rset);
4132                 m->mdt_sptlrpc_rset = tmp_rset;
4133                 write_unlock(&m->mdt_sptlrpc_lock);
4134
4135                 sptlrpc_target_update_exp_flavor(
4136                                 md2lu_dev(&m->mdt_md_dev)->ld_obd, &tmp_rset);
4137
4138                 break;
4139         }
4140         case LCFG_PARAM: {
4141                 struct lprocfs_static_vars lvars;
4142                 struct obd_device *obd = d->ld_obd;
4143
4144                 lprocfs_mdt_init_vars(&lvars);
4145                 rc = class_process_proc_param(PARAM_MDT, lvars.obd_vars,
4146                                               cfg, obd);
4147                 if (rc == -ENOSYS)
4148                         /* we don't understand; pass it on */
4149                         rc = next->ld_ops->ldo_process_config(env, next, cfg);
4150                 break;
4151         }
4152         case LCFG_ADD_MDC:
4153                 /*
4154                  * Add mdc hook to get first MDT uuid and connect it to
4155                  * ls->controller to use for seq manager.
4156                  */
4157                 rc = next->ld_ops->ldo_process_config(env, next, cfg);
4158                 if (rc)
4159                         CERROR("Can't add mdc, rc %d\n", rc);
4160                 else
4161                         rc = mdt_seq_init_cli(env, mdt_dev(d), cfg);
4162                 break;
4163         default:
4164                 /* others are passed further */
4165                 rc = next->ld_ops->ldo_process_config(env, next, cfg);
4166                 break;
4167         }
4168         RETURN(rc);
4169 }
4170
4171 static struct lu_object *mdt_object_alloc(const struct lu_env *env,
4172                                           const struct lu_object_header *hdr,
4173                                           struct lu_device *d)
4174 {
4175         struct mdt_object *mo;
4176
4177         ENTRY;
4178
4179         OBD_ALLOC_PTR(mo);
4180         if (mo != NULL) {
4181                 struct lu_object *o;
4182                 struct lu_object_header *h;
4183
4184                 o = &mo->mot_obj.mo_lu;
4185                 h = &mo->mot_header;
4186                 lu_object_header_init(h);
4187                 lu_object_init(o, h, d);
4188                 lu_object_add_top(h, o);
4189                 o->lo_ops = &mdt_obj_ops;
4190                 RETURN(o);
4191         } else
4192                 RETURN(NULL);
4193 }
4194
4195 static int mdt_object_init(const struct lu_env *env, struct lu_object *o,
4196                            const struct lu_object_conf *_)
4197 {
4198         struct mdt_device *d = mdt_dev(o->lo_dev);
4199         struct lu_device  *under;
4200         struct lu_object  *below;
4201         int                rc = 0;
4202         ENTRY;
4203
4204         CDEBUG(D_INFO, "object init, fid = "DFID"\n",
4205                PFID(lu_object_fid(o)));
4206
4207         under = &d->mdt_child->md_lu_dev;
4208         below = under->ld_ops->ldo_object_alloc(env, o->lo_header, under);
4209         if (below != NULL) {
4210                 lu_object_add(o, below);
4211         } else
4212                 rc = -ENOMEM;
4213
4214         RETURN(rc);
4215 }
4216
4217 static void mdt_object_free(const struct lu_env *env, struct lu_object *o)
4218 {
4219         struct mdt_object *mo = mdt_obj(o);
4220         struct lu_object_header *h;
4221         ENTRY;
4222
4223         h = o->lo_header;
4224         CDEBUG(D_INFO, "object free, fid = "DFID"\n",
4225                PFID(lu_object_fid(o)));
4226
4227         lu_object_fini(o);
4228         lu_object_header_fini(h);
4229         OBD_FREE_PTR(mo);
4230         EXIT;
4231 }
4232
4233 static const struct lu_device_operations mdt_lu_ops = {
4234         .ldo_object_alloc   = mdt_object_alloc,
4235         .ldo_process_config = mdt_process_config
4236 };
4237
4238 static const struct lu_object_operations mdt_obj_ops = {
4239         .loo_object_init    = mdt_object_init,
4240         .loo_object_free    = mdt_object_free
4241 };
4242
4243 /* mds_connect_internal */
4244 static int mdt_connect_internal(struct obd_export *exp,
4245                                 struct mdt_device *mdt,
4246                                 struct obd_connect_data *data)
4247 {
4248         __u64 flags;
4249
4250         if (data != NULL) {
4251                 data->ocd_connect_flags &= MDT_CONNECT_SUPPORTED;
4252                 data->ocd_ibits_known &= MDS_INODELOCK_FULL;
4253
4254                 /* If no known bits (which should not happen, probably,
4255                    as everybody should support LOOKUP and UPDATE bits at least)
4256                    revert to compat mode with plain locks. */
4257                 if (!data->ocd_ibits_known &&
4258                     data->ocd_connect_flags & OBD_CONNECT_IBITS)
4259                         data->ocd_connect_flags &= ~OBD_CONNECT_IBITS;
4260
4261                 if (!mdt->mdt_opts.mo_acl)
4262                         data->ocd_connect_flags &= ~OBD_CONNECT_ACL;
4263
4264                 if (!mdt->mdt_opts.mo_user_xattr)
4265                         data->ocd_connect_flags &= ~OBD_CONNECT_XATTR;
4266
4267                 if (!mdt->mdt_opts.mo_mds_capa)
4268                         data->ocd_connect_flags &= ~OBD_CONNECT_MDS_CAPA;
4269
4270                 if (!mdt->mdt_opts.mo_oss_capa)
4271                         data->ocd_connect_flags &= ~OBD_CONNECT_OSS_CAPA;
4272
4273                 spin_lock(&exp->exp_lock);
4274                 exp->exp_connect_flags = data->ocd_connect_flags;
4275                 spin_unlock(&exp->exp_lock);
4276                 data->ocd_version = LUSTRE_VERSION_CODE;
4277                 exp->exp_mdt_data.med_ibits_known = data->ocd_ibits_known;
4278         }
4279
4280 #if 0
4281         if (mdt->mdt_opts.mo_acl &&
4282             ((exp->exp_connect_flags & OBD_CONNECT_ACL) == 0)) {
4283                 CWARN("%s: MDS requires ACL support but client does not\n",
4284                       mdt->mdt_md_dev.md_lu_dev.ld_obd->obd_name);
4285                 return -EBADE;
4286         }
4287 #endif
4288
4289         flags = OBD_CONNECT_LCL_CLIENT | OBD_CONNECT_RMT_CLIENT;
4290         if ((exp->exp_connect_flags & flags) == flags) {
4291                 CWARN("%s: both local and remote client flags are set\n",
4292                       mdt->mdt_md_dev.md_lu_dev.ld_obd->obd_name);
4293                 return -EBADE;
4294         }
4295
4296         if (mdt->mdt_opts.mo_mds_capa &&
4297             ((exp->exp_connect_flags & OBD_CONNECT_MDS_CAPA) == 0)) {
4298                 CWARN("%s: MDS requires capability support, but client not\n",
4299                       mdt->mdt_md_dev.md_lu_dev.ld_obd->obd_name);
4300                 return -EBADE;
4301         }
4302
4303         if (mdt->mdt_opts.mo_oss_capa &&
4304             ((exp->exp_connect_flags & OBD_CONNECT_OSS_CAPA) == 0)) {
4305                 CWARN("%s: MDS requires OSS capability support, "
4306                       "but client not\n",
4307                       mdt->mdt_md_dev.md_lu_dev.ld_obd->obd_name);
4308                 return -EBADE;
4309         }
4310
4311         if ((exp->exp_connect_flags & OBD_CONNECT_FID) == 0) {
4312                 CWARN("%s: MDS requires FID support, but client not\n",
4313                       mdt->mdt_md_dev.md_lu_dev.ld_obd->obd_name);
4314                 return -EBADE;
4315         }
4316
4317         return 0;
4318 }
4319
4320 /* mds_connect copy */
4321 static int mdt_obd_connect(const struct lu_env *env,
4322                            struct lustre_handle *conn, struct obd_device *obd,
4323                            struct obd_uuid *cluuid,
4324                            struct obd_connect_data *data,
4325                            void *localdata)
4326 {
4327         struct mdt_thread_info *info;
4328         struct lsd_client_data *lcd;
4329         struct obd_export      *exp;
4330         struct mdt_device      *mdt;
4331         struct ptlrpc_request  *req;
4332         int                     rc;
4333         ENTRY;
4334
4335         LASSERT(env != NULL);
4336         if (!conn || !obd || !cluuid)
4337                 RETURN(-EINVAL);
4338
4339         info = lu_context_key_get(&env->le_ctx, &mdt_thread_key);
4340         req = info->mti_pill->rc_req;
4341         mdt = mdt_dev(obd->obd_lu_dev);
4342
4343         rc = class_connect(conn, obd, cluuid);
4344         if (rc)
4345                 RETURN(rc);
4346
4347         exp = class_conn2export(conn);
4348         LASSERT(exp != NULL);
4349
4350         CDEBUG(D_SEC, "from %s\n", sptlrpc_part2name(req->rq_sp_from));
4351
4352         spin_lock(&exp->exp_lock);
4353         exp->exp_sp_peer = req->rq_sp_from;
4354
4355         read_lock(&mdt->mdt_sptlrpc_lock);
4356         sptlrpc_rule_set_choose(&mdt->mdt_sptlrpc_rset, exp->exp_sp_peer,
4357                                 req->rq_peer.nid, &exp->exp_flvr);
4358         read_unlock(&mdt->mdt_sptlrpc_lock);
4359
4360         if (exp->exp_flvr.sf_rpc != req->rq_flvr.sf_rpc) {
4361                 CERROR("invalid rpc flavor %x, expect %x, from %s\n",
4362                        req->rq_flvr.sf_rpc, exp->exp_flvr.sf_rpc,
4363                        libcfs_nid2str(req->rq_peer.nid));
4364                 exp->exp_flvr.sf_rpc = SPTLRPC_FLVR_INVALID;
4365                 spin_unlock(&exp->exp_lock);
4366                 RETURN(-EACCES);
4367         }
4368         spin_unlock(&exp->exp_lock);
4369
4370         rc = mdt_connect_internal(exp, mdt, data);
4371         if (rc == 0) {
4372                 OBD_ALLOC_PTR(lcd);
4373                 if (lcd != NULL) {
4374                         struct mdt_thread_info *mti;
4375                         mti = lu_context_key_get(&env->le_ctx,
4376                                                  &mdt_thread_key);
4377                         LASSERT(mti != NULL);
4378                         mti->mti_exp = exp;
4379                         memcpy(lcd->lcd_uuid, cluuid, sizeof lcd->lcd_uuid);
4380                         exp->exp_mdt_data.med_lcd = lcd;
4381                         rc = mdt_client_new(env, mdt);
4382                         if (rc != 0) {
4383                                 OBD_FREE_PTR(lcd);
4384                                 exp->exp_mdt_data.med_lcd = NULL;
4385                         }
4386                 } else
4387                         rc = -ENOMEM;
4388         }
4389
4390         if (rc != 0)
4391                 class_disconnect(exp);
4392         else
4393                 class_export_put(exp);
4394
4395         RETURN(rc);
4396 }
4397
4398 static int mdt_obd_reconnect(const struct lu_env *env,
4399                              struct obd_export *exp, struct obd_device *obd,
4400                              struct obd_uuid *cluuid,
4401                              struct obd_connect_data *data)
4402 {
4403         struct mdt_thread_info *info;
4404         struct mdt_device      *mdt;
4405         struct ptlrpc_request  *req;
4406         int                     rc;
4407         ENTRY;
4408
4409         if (exp == NULL || obd == NULL || cluuid == NULL)
4410                 RETURN(-EINVAL);
4411
4412         info = lu_context_key_get(&env->le_ctx, &mdt_thread_key);
4413         req = info->mti_pill->rc_req;
4414         mdt = mdt_dev(obd->obd_lu_dev);
4415
4416         CDEBUG(D_SEC, "from %s\n", sptlrpc_part2name(req->rq_sp_from));
4417
4418         spin_lock(&exp->exp_lock);
4419         if (exp->exp_flvr.sf_rpc == SPTLRPC_FLVR_INVALID) {
4420                 exp->exp_sp_peer = req->rq_sp_from;
4421
4422                 read_lock(&mdt->mdt_sptlrpc_lock);
4423                 sptlrpc_rule_set_choose(&mdt->mdt_sptlrpc_rset,
4424                                         exp->exp_sp_peer,
4425                                         req->rq_peer.nid, &exp->exp_flvr);
4426                 read_unlock(&mdt->mdt_sptlrpc_lock);
4427
4428                 if (exp->exp_flvr.sf_rpc != req->rq_flvr.sf_rpc) {
4429                         CERROR("invalid rpc flavor %x, expect %x, from %s\n",
4430                                req->rq_flvr.sf_rpc, exp->exp_flvr.sf_rpc,
4431                                libcfs_nid2str(req->rq_peer.nid));
4432                         exp->exp_flvr.sf_rpc = SPTLRPC_FLVR_INVALID;
4433                         spin_unlock(&exp->exp_lock);
4434                         RETURN(-EACCES);
4435                 }
4436         }
4437         spin_unlock(&exp->exp_lock);
4438
4439         rc = mdt_connect_internal(exp, mdt_dev(obd->obd_lu_dev), data);
4440
4441         RETURN(rc);
4442 }
4443
4444 static int mdt_obd_disconnect(struct obd_export *exp)
4445 {
4446         struct mdt_device *mdt = mdt_dev(exp->exp_obd->obd_lu_dev);
4447         int rc;
4448         ENTRY;
4449
4450         LASSERT(exp);
4451         class_export_get(exp);
4452
4453         /* Disconnect early so that clients can't keep using export */
4454         rc = class_disconnect(exp);
4455         if (mdt->mdt_namespace != NULL || exp->exp_obd->obd_namespace != NULL)
4456                 ldlm_cancel_locks_for_export(exp);
4457
4458         /* release nid stat refererence */
4459         lprocfs_exp_cleanup(exp);
4460
4461         /* complete all outstanding replies */
4462         spin_lock(&exp->exp_lock);
4463         while (!list_empty(&exp->exp_outstanding_replies)) {
4464                 struct ptlrpc_reply_state *rs =
4465                         list_entry(exp->exp_outstanding_replies.next,
4466                                    struct ptlrpc_reply_state, rs_exp_list);
4467                 struct ptlrpc_service *svc = rs->rs_service;
4468
4469                 spin_lock(&svc->srv_lock);
4470                 list_del_init(&rs->rs_exp_list);
4471                 ptlrpc_schedule_difficult_reply(rs);
4472                 spin_unlock(&svc->srv_lock);
4473         }
4474         spin_unlock(&exp->exp_lock);
4475
4476         class_export_put(exp);
4477         RETURN(rc);
4478 }
4479
4480 /* FIXME: Can we avoid using these two interfaces? */
4481 static int mdt_init_export(struct obd_export *exp)
4482 {
4483         struct mdt_export_data *med = &exp->exp_mdt_data;
4484         int                     rc;
4485         ENTRY;
4486
4487         CFS_INIT_LIST_HEAD(&med->med_open_head);
4488         spin_lock_init(&med->med_open_lock);
4489         sema_init(&med->med_idmap_sem, 1);
4490         med->med_idmap = NULL;
4491         spin_lock(&exp->exp_lock);
4492         exp->exp_connecting = 1;
4493         spin_unlock(&exp->exp_lock);
4494         rc = ldlm_init_export(exp);
4495         if (rc)
4496                 CERROR("Error %d while initializing export\n", rc);
4497         RETURN(rc);
4498 }
4499
4500 static int mdt_destroy_export(struct obd_export *export)
4501 {
4502         struct mdt_export_data *med;
4503         struct obd_device      *obd = export->exp_obd;
4504         struct mdt_device      *mdt;
4505         struct mdt_thread_info *info;
4506         struct lu_env           env;
4507         struct md_attr         *ma;
4508         int lmm_size;
4509         int cookie_size;
4510         int rc = 0;
4511         ENTRY;
4512
4513         med = &export->exp_mdt_data;
4514         if (med->med_rmtclient)
4515                 mdt_cleanup_idmap(med);
4516
4517         target_destroy_export(export);
4518         ldlm_destroy_export(export);
4519
4520         if (obd_uuid_equals(&export->exp_client_uuid, &obd->obd_uuid))
4521                 RETURN(0);
4522
4523         mdt = mdt_dev(obd->obd_lu_dev);
4524         LASSERT(mdt != NULL);
4525
4526         rc = lu_env_init(&env, NULL, LCT_MD_THREAD);
4527         if (rc)
4528                 RETURN(rc);
4529
4530         info = lu_context_key_get(&env.le_ctx, &mdt_thread_key);
4531         LASSERT(info != NULL);
4532         memset(info, 0, sizeof *info);
4533         info->mti_env = &env;
4534         info->mti_mdt = mdt;
4535         info->mti_exp = export;
4536
4537         ma = &info->mti_attr;
4538         lmm_size = ma->ma_lmm_size = mdt->mdt_max_mdsize;
4539         cookie_size = ma->ma_cookie_size = mdt->mdt_max_cookiesize;
4540         OBD_ALLOC(ma->ma_lmm, lmm_size);
4541         OBD_ALLOC(ma->ma_cookie, cookie_size);
4542
4543         if (ma->ma_lmm == NULL || ma->ma_cookie == NULL)
4544                 GOTO(out, rc = -ENOMEM);
4545         ma->ma_need = MA_LOV | MA_COOKIE;
4546         ma->ma_valid = 0;
4547         /* Close any open files (which may also cause orphan unlinking). */
4548         spin_lock(&med->med_open_lock);
4549         while (!list_empty(&med->med_open_head)) {
4550                 struct list_head *tmp = med->med_open_head.next;
4551                 struct mdt_file_data *mfd =
4552                         list_entry(tmp, struct mdt_file_data, mfd_list);
4553
4554                 /* Remove mfd handle so it can't be found again.
4555                  * We are consuming the mfd_list reference here. */
4556                 class_handle_unhash(&mfd->mfd_handle);
4557                 list_del_init(&mfd->mfd_list);
4558                 spin_unlock(&med->med_open_lock);
4559                 mdt_mfd_close(info, mfd);
4560                 /* TODO: if we close the unlinked file,
4561                  * we need to remove it's objects from OST */
4562                 memset(&ma->ma_attr, 0, sizeof(ma->ma_attr));
4563                 spin_lock(&med->med_open_lock);
4564                 ma->ma_lmm_size = lmm_size;
4565                 ma->ma_cookie_size = cookie_size;
4566                 ma->ma_need = MA_LOV | MA_COOKIE;
4567                 ma->ma_valid = 0;
4568         }
4569         spin_unlock(&med->med_open_lock);
4570         info->mti_mdt = NULL;
4571         mdt_client_del(&env, mdt);
4572
4573         EXIT;
4574 out:
4575         if (lmm_size) {
4576                 OBD_FREE(ma->ma_lmm, lmm_size);
4577                 ma->ma_lmm = NULL;
4578         }
4579         if (cookie_size) {
4580                 OBD_FREE(ma->ma_cookie, cookie_size);
4581                 ma->ma_cookie = NULL;
4582         }
4583         lu_env_fini(&env);
4584
4585         return rc;
4586 }
4587
4588 static void mdt_allow_cli(struct mdt_device *m, unsigned int flag)
4589 {
4590         if (flag & CONFIG_LOG)
4591                 m->mdt_fl_cfglog = 1;
4592         if (flag & CONFIG_SYNC)
4593                 m->mdt_fl_synced = 1;
4594
4595         if (m->mdt_fl_cfglog /* bz11778: && m->mdt_fl_synced */)
4596                 /* Open for clients */
4597                 m->mdt_md_dev.md_lu_dev.ld_obd->obd_no_conn = 0;
4598 }
4599
4600 static int mdt_upcall(const struct lu_env *env, struct md_device *md,
4601                       enum md_upcall_event ev)
4602 {
4603         struct mdt_device *m = mdt_dev(&md->md_lu_dev);
4604         struct md_device  *next  = m->mdt_child;
4605         struct mdt_thread_info *mti;
4606         int rc = 0;
4607         ENTRY;
4608
4609         switch (ev) {
4610                 case MD_LOV_SYNC:
4611                         rc = next->md_ops->mdo_maxsize_get(env, next,
4612                                         &m->mdt_max_mdsize,
4613                                         &m->mdt_max_cookiesize);
4614                         CDEBUG(D_INFO, "get max mdsize %d max cookiesize %d\n",
4615                                      m->mdt_max_mdsize, m->mdt_max_cookiesize);
4616                         mdt_allow_cli(m, CONFIG_SYNC);
4617                         break;
4618                 case MD_NO_TRANS:
4619                         mti = lu_context_key_get(&env->le_ctx, &mdt_thread_key);
4620                         mti->mti_no_need_trans = 1;
4621                         CDEBUG(D_INFO, "disable mdt trans for this thread\n");
4622                         break;
4623                 case MD_LOV_CONFIG:
4624                         /* Check that MDT is not yet configured */
4625                         LASSERT(!m->mdt_fl_cfglog);
4626                         break;
4627                 default:
4628                         CERROR("invalid event\n");
4629                         rc = -EINVAL;
4630                         break;
4631         }
4632         RETURN(rc);
4633 }
4634
4635 static int mdt_obd_notify(struct obd_device *host,
4636                           struct obd_device *watched,
4637                           enum obd_notify_event ev, void *data)
4638 {
4639         ENTRY;
4640
4641         switch (ev) {
4642         case OBD_NOTIFY_CONFIG:
4643                 mdt_allow_cli(mdt_dev(host->obd_lu_dev), (unsigned long)data);
4644                 break;
4645         default:
4646                 CDEBUG(D_INFO, "Unhandled notification %#x\n", ev);
4647         }
4648         RETURN(0);
4649 }
4650
4651 static int mdt_iocontrol(unsigned int cmd, struct obd_export *exp, int len,
4652                          void *karg, void *uarg)
4653 {
4654         struct lu_env      env;
4655         struct obd_device *obd= exp->exp_obd;
4656         struct mdt_device *mdt = mdt_dev(obd->obd_lu_dev);
4657         struct dt_device  *dt = mdt->mdt_bottom;
4658         int rc;
4659
4660         ENTRY;
4661         CDEBUG(D_IOCTL, "handling ioctl cmd %#x\n", cmd);
4662         rc = lu_env_init(&env, NULL, LCT_MD_THREAD);
4663         if (rc)
4664                 RETURN(rc);
4665
4666         switch (cmd) {
4667         case OBD_IOC_SYNC:
4668                 rc = mdt_device_sync(&env, mdt);
4669                 break;
4670         case OBD_IOC_SET_READONLY:
4671                 rc = dt->dd_ops->dt_sync(&env, dt);
4672                 dt->dd_ops->dt_ro(&env, dt);
4673                 break;
4674         case OBD_IOC_ABORT_RECOVERY:
4675                 CERROR("Aborting recovery for device %s\n", obd->obd_name);
4676                 target_stop_recovery_thread(obd);
4677                 rc = 0;
4678                 break;
4679         default:
4680                 CERROR("Not supported cmd = %d for device %s\n",
4681                        cmd, obd->obd_name);
4682                 rc = -EOPNOTSUPP;
4683         }
4684
4685         lu_env_fini(&env);
4686         RETURN(rc);
4687 }
4688
4689 int mdt_postrecov(const struct lu_env *env, struct mdt_device *mdt)
4690 {
4691         struct lu_device *ld = md2lu_dev(mdt->mdt_child);
4692         struct obd_device *obd = mdt->mdt_md_dev.md_lu_dev.ld_obd;
4693         int rc, lost;
4694         ENTRY;
4695         /* if some clients didn't participate in recovery then we can possibly
4696          * lost sequence. Now we should increase sequence for safe value */
4697         lost = obd->obd_max_recoverable_clients - obd->obd_connected_clients;
4698         mdt_seq_adjust(env, mdt, lost);
4699
4700         rc = ld->ld_ops->ldo_recovery_complete(env, ld);
4701         RETURN(rc);
4702 }
4703
4704 int mdt_obd_postrecov(struct obd_device *obd)
4705 {
4706         struct lu_env env;
4707         int rc;
4708
4709         rc = lu_env_init(&env, NULL, LCT_MD_THREAD);
4710         if (rc)
4711                 RETURN(rc);
4712         rc = mdt_postrecov(&env, mdt_dev(obd->obd_lu_dev));
4713         lu_env_fini(&env);
4714         return rc;
4715 }
4716
4717 static struct obd_ops mdt_obd_device_ops = {
4718         .o_owner          = THIS_MODULE,
4719         .o_connect        = mdt_obd_connect,
4720         .o_reconnect      = mdt_obd_reconnect,
4721         .o_disconnect     = mdt_obd_disconnect,
4722         .o_init_export    = mdt_init_export,
4723         .o_destroy_export = mdt_destroy_export,
4724         .o_iocontrol      = mdt_iocontrol,
4725         .o_postrecov      = mdt_obd_postrecov,
4726         .o_notify         = mdt_obd_notify
4727 };
4728
4729 static struct lu_device* mdt_device_fini(const struct lu_env *env,
4730                                          struct lu_device *d)
4731 {
4732         struct mdt_device *m = mdt_dev(d);
4733         ENTRY;
4734
4735         mdt_fini(env, m);
4736         RETURN(NULL);
4737 }
4738
4739 static struct lu_device *mdt_device_free(const struct lu_env *env,
4740                                          struct lu_device *d)
4741 {
4742         struct mdt_device *m = mdt_dev(d);
4743         ENTRY;
4744
4745         OBD_FREE_PTR(m);
4746         RETURN(NULL);
4747 }
4748
4749 static struct lu_device *mdt_device_alloc(const struct lu_env *env,
4750                                           struct lu_device_type *t,
4751                                           struct lustre_cfg *cfg)
4752 {
4753         struct lu_device  *l;
4754         struct mdt_device *m;
4755
4756         OBD_ALLOC_PTR(m);
4757         if (m != NULL) {
4758                 int rc;
4759
4760                 l = &m->mdt_md_dev.md_lu_dev;
4761                 rc = mdt_init0(env, m, t, cfg);
4762                 if (rc != 0) {
4763                         OBD_FREE_PTR(m);
4764                         l = ERR_PTR(rc);
4765                         return l;
4766                 }
4767                 md_upcall_init(&m->mdt_md_dev, mdt_upcall);
4768         } else
4769                 l = ERR_PTR(-ENOMEM);
4770         return l;
4771 }
4772
4773 /* context key constructor/destructor: mdt_key_init, mdt_key_fini */
4774 LU_KEY_INIT_FINI(mdt, struct mdt_thread_info);
4775
4776 /* context key: mdt_thread_key */
4777 LU_CONTEXT_KEY_DEFINE(mdt, LCT_MD_THREAD);
4778
4779 /* context key constructor/destructor: mdt_txn_key_init, mdt_txn_key_fini */
4780 LU_KEY_INIT_FINI(mdt_txn, struct mdt_txn_info);
4781
4782 struct lu_context_key mdt_txn_key = {
4783         .lct_tags = LCT_TX_HANDLE,
4784         .lct_init = mdt_txn_key_init,
4785         .lct_fini = mdt_txn_key_fini
4786 };
4787
4788 struct md_ucred *mdt_ucred(const struct mdt_thread_info *info)
4789 {
4790         return md_ucred(info->mti_env);
4791 }
4792
4793 /* type constructor/destructor: mdt_type_init, mdt_type_fini */
4794 LU_TYPE_INIT_FINI(mdt, &mdt_thread_key, &mdt_txn_key);
4795
4796 static struct lu_device_type_operations mdt_device_type_ops = {
4797         .ldto_init = mdt_type_init,
4798         .ldto_fini = mdt_type_fini,
4799
4800         .ldto_start = mdt_type_start,
4801         .ldto_stop  = mdt_type_stop,
4802
4803         .ldto_device_alloc = mdt_device_alloc,
4804         .ldto_device_free  = mdt_device_free,
4805         .ldto_device_fini  = mdt_device_fini
4806 };
4807
4808 static struct lu_device_type mdt_device_type = {
4809         .ldt_tags     = LU_DEVICE_MD,
4810         .ldt_name     = LUSTRE_MDT_NAME,
4811         .ldt_ops      = &mdt_device_type_ops,
4812         .ldt_ctx_tags = LCT_MD_THREAD
4813 };
4814
4815 static int __init mdt_mod_init(void)
4816 {
4817         struct lprocfs_static_vars lvars;
4818         int rc;
4819
4820         mdt_num_threads = MDT_NUM_THREADS;
4821         lprocfs_mdt_init_vars(&lvars);
4822         rc = class_register_type(&mdt_obd_device_ops, NULL,
4823                                  lvars.module_vars, LUSTRE_MDT_NAME,
4824                                  &mdt_device_type);
4825
4826         return rc;
4827 }
4828
4829 static void __exit mdt_mod_exit(void)
4830 {
4831         class_unregister_type(LUSTRE_MDT_NAME);
4832 }
4833
4834
4835 #define DEF_HNDL(prefix, base, suffix, flags, opc, fn, fmt)             \
4836 [prefix ## _ ## opc - prefix ## _ ## base] = {                          \
4837         .mh_name    = #opc,                                             \
4838         .mh_fail_id = OBD_FAIL_ ## prefix ## _  ## opc ## suffix,       \
4839         .mh_opc     = prefix ## _  ## opc,                              \
4840         .mh_flags   = flags,                                            \
4841         .mh_act     = fn,                                               \
4842         .mh_fmt     = fmt                                               \
4843 }
4844
4845 #define DEF_MDT_HNDL(flags, name, fn, fmt)                                  \
4846         DEF_HNDL(MDS, GETATTR, _NET, flags, name, fn, fmt)
4847
4848 #define DEF_SEQ_HNDL(flags, name, fn, fmt)                      \
4849         DEF_HNDL(SEQ, QUERY, _NET, flags, name, fn, fmt)
4850
4851 #define DEF_FLD_HNDL(flags, name, fn, fmt)                      \
4852         DEF_HNDL(FLD, QUERY, _NET, flags, name, fn, fmt)
4853 /*
4854  * Request with a format known in advance
4855  */
4856 #define DEF_MDT_HNDL_F(flags, name, fn)                                 \
4857         DEF_HNDL(MDS, GETATTR, _NET, flags, name, fn, &RQF_MDS_ ## name)
4858
4859 #define DEF_SEQ_HNDL_F(flags, name, fn)                                 \
4860         DEF_HNDL(SEQ, QUERY, _NET, flags, name, fn, &RQF_SEQ_ ## name)
4861
4862 #define DEF_FLD_HNDL_F(flags, name, fn)                                 \
4863         DEF_HNDL(FLD, QUERY, _NET, flags, name, fn, &RQF_FLD_ ## name)
4864 /*
4865  * Request with a format we do not yet know
4866  */
4867 #define DEF_MDT_HNDL_0(flags, name, fn)                                 \
4868         DEF_HNDL(MDS, GETATTR, _NET, flags, name, fn, NULL)
4869
4870 static struct mdt_handler mdt_mds_ops[] = {
4871 DEF_MDT_HNDL_F(0,                         CONNECT,      mdt_connect),
4872 DEF_MDT_HNDL_F(0,                         DISCONNECT,   mdt_disconnect),
4873 DEF_MDT_HNDL_F(0,                         SET_INFO,     mdt_set_info),
4874 DEF_MDT_HNDL_F(0           |HABEO_REFERO, GETSTATUS,    mdt_getstatus),
4875 DEF_MDT_HNDL_F(HABEO_CORPUS,              GETATTR,      mdt_getattr),
4876 DEF_MDT_HNDL_F(HABEO_CORPUS|HABEO_REFERO, GETATTR_NAME, mdt_getattr_name),
4877 DEF_MDT_HNDL_F(HABEO_CORPUS,              GETXATTR,     mdt_getxattr),
4878 DEF_MDT_HNDL_F(0           |HABEO_REFERO, STATFS,       mdt_statfs),
4879 DEF_MDT_HNDL_F(0           |MUTABOR,      REINT,        mdt_reint),
4880 DEF_MDT_HNDL_F(HABEO_CORPUS,              CLOSE,        mdt_close),
4881 DEF_MDT_HNDL_F(HABEO_CORPUS,              DONE_WRITING, mdt_done_writing),
4882 DEF_MDT_HNDL_F(0           |HABEO_REFERO, PIN,          mdt_pin),
4883 DEF_MDT_HNDL_0(0,                         SYNC,         mdt_sync),
4884 DEF_MDT_HNDL_F(HABEO_CORPUS|HABEO_REFERO, IS_SUBDIR,    mdt_is_subdir),
4885 DEF_MDT_HNDL_F(0,                         QUOTACHECK,   mdt_quotacheck_handle),
4886 DEF_MDT_HNDL_F(0,                         QUOTACTL,     mdt_quotactl_handle)
4887 };
4888
4889 #define DEF_OBD_HNDL(flags, name, fn)                   \
4890         DEF_HNDL(OBD, PING, _NET, flags, name, fn, NULL)
4891
4892
4893 static struct mdt_handler mdt_obd_ops[] = {
4894         DEF_OBD_HNDL(0, PING,           mdt_obd_ping),
4895         DEF_OBD_HNDL(0, LOG_CANCEL,     mdt_obd_log_cancel),
4896         DEF_OBD_HNDL(0, QC_CALLBACK,    mdt_obd_qc_callback)
4897 };
4898
4899 #define DEF_DLM_HNDL_0(flags, name, fn)                   \
4900         DEF_HNDL(LDLM, ENQUEUE, , flags, name, fn, NULL)
4901 #define DEF_DLM_HNDL_F(flags, name, fn)                   \
4902         DEF_HNDL(LDLM, ENQUEUE, , flags, name, fn, &RQF_LDLM_ ## name)
4903
4904 static struct mdt_handler mdt_dlm_ops[] = {
4905         DEF_DLM_HNDL_F(HABEO_CLAVIS, ENQUEUE,        mdt_enqueue),
4906         DEF_DLM_HNDL_0(HABEO_CLAVIS, CONVERT,        mdt_convert),
4907         DEF_DLM_HNDL_0(0,            BL_CALLBACK,    mdt_bl_callback),
4908         DEF_DLM_HNDL_0(0,            CP_CALLBACK,    mdt_cp_callback)
4909 };
4910
4911 static struct mdt_handler mdt_llog_ops[] = {
4912 };
4913
4914 #define DEF_SEC_CTX_HNDL(name, fn)                      \
4915         DEF_HNDL(SEC_CTX, INIT, _NET, 0, name, fn, NULL)
4916
4917 static struct mdt_handler mdt_sec_ctx_ops[] = {
4918         DEF_SEC_CTX_HNDL(INIT,          mdt_sec_ctx_handle),
4919         DEF_SEC_CTX_HNDL(INIT_CONT,     mdt_sec_ctx_handle),
4920         DEF_SEC_CTX_HNDL(FINI,          mdt_sec_ctx_handle)
4921 };
4922
4923 static struct mdt_opc_slice mdt_regular_handlers[] = {
4924         {
4925                 .mos_opc_start = MDS_GETATTR,
4926                 .mos_opc_end   = MDS_LAST_OPC,
4927                 .mos_hs        = mdt_mds_ops
4928         },
4929         {
4930                 .mos_opc_start = OBD_PING,
4931                 .mos_opc_end   = OBD_LAST_OPC,
4932                 .mos_hs        = mdt_obd_ops
4933         },
4934         {
4935                 .mos_opc_start = LDLM_ENQUEUE,
4936                 .mos_opc_end   = LDLM_LAST_OPC,
4937                 .mos_hs        = mdt_dlm_ops
4938         },
4939         {
4940                 .mos_opc_start = LLOG_ORIGIN_HANDLE_CREATE,
4941                 .mos_opc_end   = LLOG_LAST_OPC,
4942                 .mos_hs        = mdt_llog_ops
4943         },
4944         {
4945                 .mos_opc_start = SEC_CTX_INIT,
4946                 .mos_opc_end   = SEC_LAST_OPC,
4947                 .mos_hs        = mdt_sec_ctx_ops
4948         },
4949         {
4950                 .mos_hs        = NULL
4951         }
4952 };
4953
4954 static struct mdt_handler mdt_readpage_ops[] = {
4955         DEF_MDT_HNDL_F(0,                         CONNECT,  mdt_connect),
4956         DEF_MDT_HNDL_F(HABEO_CORPUS|HABEO_REFERO, READPAGE, mdt_readpage),
4957 #ifdef HAVE_SPLIT_SUPPORT
4958         DEF_MDT_HNDL_F(HABEO_CORPUS|HABEO_REFERO, WRITEPAGE, mdt_writepage),
4959 #endif
4960
4961         /*
4962          * XXX: this is ugly and should be fixed one day, see mdc_close() for
4963          * detailed comments. --umka
4964          */
4965         DEF_MDT_HNDL_F(HABEO_CORPUS,              CLOSE,    mdt_close),
4966         DEF_MDT_HNDL_F(HABEO_CORPUS,              DONE_WRITING,    mdt_done_writing),
4967 };
4968
4969 static struct mdt_opc_slice mdt_readpage_handlers[] = {
4970         {
4971                 .mos_opc_start = MDS_GETATTR,
4972                 .mos_opc_end   = MDS_LAST_OPC,
4973                 .mos_hs        = mdt_readpage_ops
4974         },
4975         {
4976                 .mos_hs        = NULL
4977         }
4978 };
4979
4980 static struct mdt_handler mdt_xmds_ops[] = {
4981         DEF_MDT_HNDL_F(0,                         CONNECT,      mdt_connect),
4982         DEF_MDT_HNDL_F(HABEO_CORPUS             , GETATTR,      mdt_getattr),
4983         DEF_MDT_HNDL_F(0 | MUTABOR              , REINT,        mdt_reint),
4984         DEF_MDT_HNDL_F(HABEO_CORPUS|HABEO_REFERO, IS_SUBDIR,    mdt_is_subdir),
4985 };
4986
4987 static struct mdt_opc_slice mdt_xmds_handlers[] = {
4988         {
4989                 .mos_opc_start = MDS_GETATTR,
4990                 .mos_opc_end   = MDS_LAST_OPC,
4991                 .mos_hs        = mdt_xmds_ops
4992         },
4993         {
4994                 .mos_opc_start = OBD_PING,
4995                 .mos_opc_end   = OBD_LAST_OPC,
4996                 .mos_hs        = mdt_obd_ops
4997         },
4998         {
4999                 .mos_opc_start = SEC_CTX_INIT,
5000                 .mos_opc_end   = SEC_LAST_OPC,
5001                 .mos_hs        = mdt_sec_ctx_ops
5002         },
5003         {
5004                 .mos_hs        = NULL
5005         }
5006 };
5007
5008 static struct mdt_handler mdt_seq_ops[] = {
5009         DEF_SEQ_HNDL_F(0, QUERY, (int (*)(struct mdt_thread_info *))seq_query)
5010 };
5011
5012 static struct mdt_opc_slice mdt_seq_handlers[] = {
5013         {
5014                 .mos_opc_start = SEQ_QUERY,
5015                 .mos_opc_end   = SEQ_LAST_OPC,
5016                 .mos_hs        = mdt_seq_ops
5017         },
5018         {
5019                 .mos_hs        = NULL
5020         }
5021 };
5022
5023 static struct mdt_handler mdt_fld_ops[] = {
5024         DEF_FLD_HNDL_F(0, QUERY, (int (*)(struct mdt_thread_info *))fld_query)
5025 };
5026
5027 static struct mdt_opc_slice mdt_fld_handlers[] = {
5028         {
5029                 .mos_opc_start = FLD_QUERY,
5030                 .mos_opc_end   = FLD_LAST_OPC,
5031                 .mos_hs        = mdt_fld_ops
5032         },
5033         {
5034                 .mos_hs        = NULL
5035         }
5036 };
5037
5038 MODULE_AUTHOR("Sun Microsystems, Inc. <http://www.lustre.org/>");
5039 MODULE_DESCRIPTION("Lustre Meta-data Target ("LUSTRE_MDT_NAME")");
5040 MODULE_LICENSE("GPL");
5041
5042 CFS_MODULE_PARM(mdt_num_threads, "ul", ulong, 0444,
5043                 "number of mdt service threads to start");
5044
5045 cfs_module(mdt, "0.2.0", mdt_mod_init, mdt_mod_exit);
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