1 /******************************************************************************
2 *******************************************************************************
4 ** Copyright (C) 2005-2010 Red Hat, Inc. All rights reserved.
6 ** This copyrighted material is made available to anyone wishing to use,
7 ** modify, copy, or redistribute it subject to the terms and conditions
8 ** of the GNU General Public License v.2.
10 *******************************************************************************
11 ******************************************************************************/
13 /* Central locking logic has four stages:
33 Stage 1 (lock, unlock) is mainly about checking input args and
34 splitting into one of the four main operations:
36 dlm_lock = request_lock
37 dlm_lock+CONVERT = convert_lock
38 dlm_unlock = unlock_lock
39 dlm_unlock+CANCEL = cancel_lock
41 Stage 2, xxxx_lock(), just finds and locks the relevant rsb which is
42 provided to the next stage.
44 Stage 3, _xxxx_lock(), determines if the operation is local or remote.
45 When remote, it calls send_xxxx(), when local it calls do_xxxx().
47 Stage 4, do_xxxx(), is the guts of the operation. It manipulates the
48 given rsb and lkb and queues callbacks.
50 For remote operations, send_xxxx() results in the corresponding do_xxxx()
51 function being executed on the remote node. The connecting send/receive
52 calls on local (L) and remote (R) nodes:
54 L: send_xxxx() -> R: receive_xxxx()
56 L: receive_xxxx_reply() <- R: send_xxxx_reply()
58 #include <linux/types.h>
59 #include <linux/rbtree.h>
60 #include <linux/slab.h>
61 #include "dlm_internal.h"
62 #include <linux/dlm_device.h>
65 #include "requestqueue.h"
69 #include "lockspace.h"
74 #include "lvb_table.h"
78 static int send_request(struct dlm_rsb
*r
, struct dlm_lkb
*lkb
);
79 static int send_convert(struct dlm_rsb
*r
, struct dlm_lkb
*lkb
);
80 static int send_unlock(struct dlm_rsb
*r
, struct dlm_lkb
*lkb
);
81 static int send_cancel(struct dlm_rsb
*r
, struct dlm_lkb
*lkb
);
82 static int send_grant(struct dlm_rsb
*r
, struct dlm_lkb
*lkb
);
83 static int send_bast(struct dlm_rsb
*r
, struct dlm_lkb
*lkb
, int mode
);
84 static int send_lookup(struct dlm_rsb
*r
, struct dlm_lkb
*lkb
);
85 static int send_remove(struct dlm_rsb
*r
);
86 static int _request_lock(struct dlm_rsb
*r
, struct dlm_lkb
*lkb
);
87 static int _cancel_lock(struct dlm_rsb
*r
, struct dlm_lkb
*lkb
);
88 static void __receive_convert_reply(struct dlm_rsb
*r
, struct dlm_lkb
*lkb
,
89 struct dlm_message
*ms
);
90 static int receive_extralen(struct dlm_message
*ms
);
91 static void do_purge(struct dlm_ls
*ls
, int nodeid
, int pid
);
92 static void del_timeout(struct dlm_lkb
*lkb
);
93 static void toss_rsb(struct kref
*kref
);
96 * Lock compatibilty matrix - thanks Steve
97 * UN = Unlocked state. Not really a state, used as a flag
98 * PD = Padding. Used to make the matrix a nice power of two in size
99 * Other states are the same as the VMS DLM.
100 * Usage: matrix[grmode+1][rqmode+1] (although m[rq+1][gr+1] is the same)
103 static const int __dlm_compat_matrix
[8][8] = {
104 /* UN NL CR CW PR PW EX PD */
105 {1, 1, 1, 1, 1, 1, 1, 0}, /* UN */
106 {1, 1, 1, 1, 1, 1, 1, 0}, /* NL */
107 {1, 1, 1, 1, 1, 1, 0, 0}, /* CR */
108 {1, 1, 1, 1, 0, 0, 0, 0}, /* CW */
109 {1, 1, 1, 0, 1, 0, 0, 0}, /* PR */
110 {1, 1, 1, 0, 0, 0, 0, 0}, /* PW */
111 {1, 1, 0, 0, 0, 0, 0, 0}, /* EX */
112 {0, 0, 0, 0, 0, 0, 0, 0} /* PD */
116 * This defines the direction of transfer of LVB data.
117 * Granted mode is the row; requested mode is the column.
118 * Usage: matrix[grmode+1][rqmode+1]
119 * 1 = LVB is returned to the caller
120 * 0 = LVB is written to the resource
121 * -1 = nothing happens to the LVB
124 const int dlm_lvb_operations
[8][8] = {
125 /* UN NL CR CW PR PW EX PD*/
126 { -1, 1, 1, 1, 1, 1, 1, -1 }, /* UN */
127 { -1, 1, 1, 1, 1, 1, 1, 0 }, /* NL */
128 { -1, -1, 1, 1, 1, 1, 1, 0 }, /* CR */
129 { -1, -1, -1, 1, 1, 1, 1, 0 }, /* CW */
130 { -1, -1, -1, -1, 1, 1, 1, 0 }, /* PR */
131 { -1, 0, 0, 0, 0, 0, 1, 0 }, /* PW */
132 { -1, 0, 0, 0, 0, 0, 0, 0 }, /* EX */
133 { -1, 0, 0, 0, 0, 0, 0, 0 } /* PD */
136 #define modes_compat(gr, rq) \
137 __dlm_compat_matrix[(gr)->lkb_grmode + 1][(rq)->lkb_rqmode + 1]
139 int dlm_modes_compat(int mode1
, int mode2
)
141 return __dlm_compat_matrix
[mode1
+ 1][mode2
+ 1];
145 * Compatibility matrix for conversions with QUECVT set.
146 * Granted mode is the row; requested mode is the column.
147 * Usage: matrix[grmode+1][rqmode+1]
150 static const int __quecvt_compat_matrix
[8][8] = {
151 /* UN NL CR CW PR PW EX PD */
152 {0, 0, 0, 0, 0, 0, 0, 0}, /* UN */
153 {0, 0, 1, 1, 1, 1, 1, 0}, /* NL */
154 {0, 0, 0, 1, 1, 1, 1, 0}, /* CR */
155 {0, 0, 0, 0, 1, 1, 1, 0}, /* CW */
156 {0, 0, 0, 1, 0, 1, 1, 0}, /* PR */
157 {0, 0, 0, 0, 0, 0, 1, 0}, /* PW */
158 {0, 0, 0, 0, 0, 0, 0, 0}, /* EX */
159 {0, 0, 0, 0, 0, 0, 0, 0} /* PD */
162 void dlm_print_lkb(struct dlm_lkb
*lkb
)
164 printk(KERN_ERR
"lkb: nodeid %d id %x remid %x exflags %x flags %x "
165 "sts %d rq %d gr %d wait_type %d wait_nodeid %d seq %llu\n",
166 lkb
->lkb_nodeid
, lkb
->lkb_id
, lkb
->lkb_remid
, lkb
->lkb_exflags
,
167 lkb
->lkb_flags
, lkb
->lkb_status
, lkb
->lkb_rqmode
,
168 lkb
->lkb_grmode
, lkb
->lkb_wait_type
, lkb
->lkb_wait_nodeid
,
169 (unsigned long long)lkb
->lkb_recover_seq
);
172 static void dlm_print_rsb(struct dlm_rsb
*r
)
174 printk(KERN_ERR
"rsb: nodeid %d master %d dir %d flags %lx first %x "
176 r
->res_nodeid
, r
->res_master_nodeid
, r
->res_dir_nodeid
,
177 r
->res_flags
, r
->res_first_lkid
, r
->res_recover_locks_count
,
181 void dlm_dump_rsb(struct dlm_rsb
*r
)
187 printk(KERN_ERR
"rsb: root_list empty %d recover_list empty %d\n",
188 list_empty(&r
->res_root_list
), list_empty(&r
->res_recover_list
));
189 printk(KERN_ERR
"rsb lookup list\n");
190 list_for_each_entry(lkb
, &r
->res_lookup
, lkb_rsb_lookup
)
192 printk(KERN_ERR
"rsb grant queue:\n");
193 list_for_each_entry(lkb
, &r
->res_grantqueue
, lkb_statequeue
)
195 printk(KERN_ERR
"rsb convert queue:\n");
196 list_for_each_entry(lkb
, &r
->res_convertqueue
, lkb_statequeue
)
198 printk(KERN_ERR
"rsb wait queue:\n");
199 list_for_each_entry(lkb
, &r
->res_waitqueue
, lkb_statequeue
)
203 /* Threads cannot use the lockspace while it's being recovered */
205 static inline void dlm_lock_recovery(struct dlm_ls
*ls
)
207 down_read(&ls
->ls_in_recovery
);
210 void dlm_unlock_recovery(struct dlm_ls
*ls
)
212 up_read(&ls
->ls_in_recovery
);
215 int dlm_lock_recovery_try(struct dlm_ls
*ls
)
217 return down_read_trylock(&ls
->ls_in_recovery
);
220 static inline int can_be_queued(struct dlm_lkb
*lkb
)
222 return !(lkb
->lkb_exflags
& DLM_LKF_NOQUEUE
);
225 static inline int force_blocking_asts(struct dlm_lkb
*lkb
)
227 return (lkb
->lkb_exflags
& DLM_LKF_NOQUEUEBAST
);
230 static inline int is_demoted(struct dlm_lkb
*lkb
)
232 return (lkb
->lkb_sbflags
& DLM_SBF_DEMOTED
);
235 static inline int is_altmode(struct dlm_lkb
*lkb
)
237 return (lkb
->lkb_sbflags
& DLM_SBF_ALTMODE
);
240 static inline int is_granted(struct dlm_lkb
*lkb
)
242 return (lkb
->lkb_status
== DLM_LKSTS_GRANTED
);
245 static inline int is_remote(struct dlm_rsb
*r
)
247 DLM_ASSERT(r
->res_nodeid
>= 0, dlm_print_rsb(r
););
248 return !!r
->res_nodeid
;
251 static inline int is_process_copy(struct dlm_lkb
*lkb
)
253 return (lkb
->lkb_nodeid
&& !(lkb
->lkb_flags
& DLM_IFL_MSTCPY
));
256 static inline int is_master_copy(struct dlm_lkb
*lkb
)
258 return (lkb
->lkb_flags
& DLM_IFL_MSTCPY
) ? 1 : 0;
261 static inline int middle_conversion(struct dlm_lkb
*lkb
)
263 if ((lkb
->lkb_grmode
==DLM_LOCK_PR
&& lkb
->lkb_rqmode
==DLM_LOCK_CW
) ||
264 (lkb
->lkb_rqmode
==DLM_LOCK_PR
&& lkb
->lkb_grmode
==DLM_LOCK_CW
))
269 static inline int down_conversion(struct dlm_lkb
*lkb
)
271 return (!middle_conversion(lkb
) && lkb
->lkb_rqmode
< lkb
->lkb_grmode
);
274 static inline int is_overlap_unlock(struct dlm_lkb
*lkb
)
276 return lkb
->lkb_flags
& DLM_IFL_OVERLAP_UNLOCK
;
279 static inline int is_overlap_cancel(struct dlm_lkb
*lkb
)
281 return lkb
->lkb_flags
& DLM_IFL_OVERLAP_CANCEL
;
284 static inline int is_overlap(struct dlm_lkb
*lkb
)
286 return (lkb
->lkb_flags
& (DLM_IFL_OVERLAP_UNLOCK
|
287 DLM_IFL_OVERLAP_CANCEL
));
290 static void queue_cast(struct dlm_rsb
*r
, struct dlm_lkb
*lkb
, int rv
)
292 if (is_master_copy(lkb
))
297 DLM_ASSERT(lkb
->lkb_lksb
, dlm_print_lkb(lkb
););
299 /* if the operation was a cancel, then return -DLM_ECANCEL, if a
300 timeout caused the cancel then return -ETIMEDOUT */
301 if (rv
== -DLM_ECANCEL
&& (lkb
->lkb_flags
& DLM_IFL_TIMEOUT_CANCEL
)) {
302 lkb
->lkb_flags
&= ~DLM_IFL_TIMEOUT_CANCEL
;
306 if (rv
== -DLM_ECANCEL
&& (lkb
->lkb_flags
& DLM_IFL_DEADLOCK_CANCEL
)) {
307 lkb
->lkb_flags
&= ~DLM_IFL_DEADLOCK_CANCEL
;
311 dlm_add_cb(lkb
, DLM_CB_CAST
, lkb
->lkb_grmode
, rv
, lkb
->lkb_sbflags
);
314 static inline void queue_cast_overlap(struct dlm_rsb
*r
, struct dlm_lkb
*lkb
)
317 is_overlap_unlock(lkb
) ? -DLM_EUNLOCK
: -DLM_ECANCEL
);
320 static void queue_bast(struct dlm_rsb
*r
, struct dlm_lkb
*lkb
, int rqmode
)
322 if (is_master_copy(lkb
)) {
323 send_bast(r
, lkb
, rqmode
);
325 dlm_add_cb(lkb
, DLM_CB_BAST
, rqmode
, 0, 0);
330 * Basic operations on rsb's and lkb's
333 /* This is only called to add a reference when the code already holds
334 a valid reference to the rsb, so there's no need for locking. */
336 static inline void hold_rsb(struct dlm_rsb
*r
)
338 kref_get(&r
->res_ref
);
341 void dlm_hold_rsb(struct dlm_rsb
*r
)
346 /* When all references to the rsb are gone it's transferred to
347 the tossed list for later disposal. */
349 static void put_rsb(struct dlm_rsb
*r
)
351 struct dlm_ls
*ls
= r
->res_ls
;
352 uint32_t bucket
= r
->res_bucket
;
354 spin_lock(&ls
->ls_rsbtbl
[bucket
].lock
);
355 kref_put(&r
->res_ref
, toss_rsb
);
356 spin_unlock(&ls
->ls_rsbtbl
[bucket
].lock
);
359 void dlm_put_rsb(struct dlm_rsb
*r
)
364 static int pre_rsb_struct(struct dlm_ls
*ls
)
366 struct dlm_rsb
*r1
, *r2
;
369 spin_lock(&ls
->ls_new_rsb_spin
);
370 if (ls
->ls_new_rsb_count
> dlm_config
.ci_new_rsb_count
/ 2) {
371 spin_unlock(&ls
->ls_new_rsb_spin
);
374 spin_unlock(&ls
->ls_new_rsb_spin
);
376 r1
= dlm_allocate_rsb(ls
);
377 r2
= dlm_allocate_rsb(ls
);
379 spin_lock(&ls
->ls_new_rsb_spin
);
381 list_add(&r1
->res_hashchain
, &ls
->ls_new_rsb
);
382 ls
->ls_new_rsb_count
++;
385 list_add(&r2
->res_hashchain
, &ls
->ls_new_rsb
);
386 ls
->ls_new_rsb_count
++;
388 count
= ls
->ls_new_rsb_count
;
389 spin_unlock(&ls
->ls_new_rsb_spin
);
396 /* If ls->ls_new_rsb is empty, return -EAGAIN, so the caller can
397 unlock any spinlocks, go back and call pre_rsb_struct again.
398 Otherwise, take an rsb off the list and return it. */
400 static int get_rsb_struct(struct dlm_ls
*ls
, char *name
, int len
,
401 struct dlm_rsb
**r_ret
)
406 spin_lock(&ls
->ls_new_rsb_spin
);
407 if (list_empty(&ls
->ls_new_rsb
)) {
408 count
= ls
->ls_new_rsb_count
;
409 spin_unlock(&ls
->ls_new_rsb_spin
);
410 log_debug(ls
, "find_rsb retry %d %d %s",
411 count
, dlm_config
.ci_new_rsb_count
, name
);
415 r
= list_first_entry(&ls
->ls_new_rsb
, struct dlm_rsb
, res_hashchain
);
416 list_del(&r
->res_hashchain
);
417 /* Convert the empty list_head to a NULL rb_node for tree usage: */
418 memset(&r
->res_hashnode
, 0, sizeof(struct rb_node
));
419 ls
->ls_new_rsb_count
--;
420 spin_unlock(&ls
->ls_new_rsb_spin
);
424 memcpy(r
->res_name
, name
, len
);
425 mutex_init(&r
->res_mutex
);
427 INIT_LIST_HEAD(&r
->res_lookup
);
428 INIT_LIST_HEAD(&r
->res_grantqueue
);
429 INIT_LIST_HEAD(&r
->res_convertqueue
);
430 INIT_LIST_HEAD(&r
->res_waitqueue
);
431 INIT_LIST_HEAD(&r
->res_root_list
);
432 INIT_LIST_HEAD(&r
->res_recover_list
);
438 static int rsb_cmp(struct dlm_rsb
*r
, const char *name
, int nlen
)
440 char maxname
[DLM_RESNAME_MAXLEN
];
442 memset(maxname
, 0, DLM_RESNAME_MAXLEN
);
443 memcpy(maxname
, name
, nlen
);
444 return memcmp(r
->res_name
, maxname
, DLM_RESNAME_MAXLEN
);
447 int dlm_search_rsb_tree(struct rb_root
*tree
, char *name
, int len
,
448 struct dlm_rsb
**r_ret
)
450 struct rb_node
*node
= tree
->rb_node
;
455 r
= rb_entry(node
, struct dlm_rsb
, res_hashnode
);
456 rc
= rsb_cmp(r
, name
, len
);
458 node
= node
->rb_left
;
460 node
= node
->rb_right
;
472 static int rsb_insert(struct dlm_rsb
*rsb
, struct rb_root
*tree
)
474 struct rb_node
**newn
= &tree
->rb_node
;
475 struct rb_node
*parent
= NULL
;
479 struct dlm_rsb
*cur
= rb_entry(*newn
, struct dlm_rsb
,
483 rc
= rsb_cmp(cur
, rsb
->res_name
, rsb
->res_length
);
485 newn
= &parent
->rb_left
;
487 newn
= &parent
->rb_right
;
489 log_print("rsb_insert match");
496 rb_link_node(&rsb
->res_hashnode
, parent
, newn
);
497 rb_insert_color(&rsb
->res_hashnode
, tree
);
502 * Find rsb in rsbtbl and potentially create/add one
504 * Delaying the release of rsb's has a similar benefit to applications keeping
505 * NL locks on an rsb, but without the guarantee that the cached master value
506 * will still be valid when the rsb is reused. Apps aren't always smart enough
507 * to keep NL locks on an rsb that they may lock again shortly; this can lead
508 * to excessive master lookups and removals if we don't delay the release.
510 * Searching for an rsb means looking through both the normal list and toss
511 * list. When found on the toss list the rsb is moved to the normal list with
512 * ref count of 1; when found on normal list the ref count is incremented.
514 * rsb's on the keep list are being used locally and refcounted.
515 * rsb's on the toss list are not being used locally, and are not refcounted.
517 * The toss list rsb's were either
518 * - previously used locally but not any more (were on keep list, then
519 * moved to toss list when last refcount dropped)
520 * - created and put on toss list as a directory record for a lookup
521 * (we are the dir node for the res, but are not using the res right now,
522 * but some other node is)
524 * The purpose of find_rsb() is to return a refcounted rsb for local use.
525 * So, if the given rsb is on the toss list, it is moved to the keep list
526 * before being returned.
528 * toss_rsb() happens when all local usage of the rsb is done, i.e. no
529 * more refcounts exist, so the rsb is moved from the keep list to the
532 * rsb's on both keep and toss lists are used for doing a name to master
533 * lookups. rsb's that are in use locally (and being refcounted) are on
534 * the keep list, rsb's that are not in use locally (not refcounted) and
535 * only exist for name/master lookups are on the toss list.
537 * rsb's on the toss list who's dir_nodeid is not local can have stale
538 * name/master mappings. So, remote requests on such rsb's can potentially
539 * return with an error, which means the mapping is stale and needs to
540 * be updated with a new lookup. (The idea behind MASTER UNCERTAIN and
541 * first_lkid is to keep only a single outstanding request on an rsb
542 * while that rsb has a potentially stale master.)
545 static int find_rsb_dir(struct dlm_ls
*ls
, char *name
, int len
,
546 uint32_t hash
, uint32_t b
,
547 int dir_nodeid
, int from_nodeid
,
548 unsigned int flags
, struct dlm_rsb
**r_ret
)
550 struct dlm_rsb
*r
= NULL
;
551 int our_nodeid
= dlm_our_nodeid();
558 if (flags
& R_RECEIVE_REQUEST
) {
559 if (from_nodeid
== dir_nodeid
)
563 } else if (flags
& R_REQUEST
) {
568 * flags & R_RECEIVE_RECOVER is from dlm_recover_master_copy, so
569 * from_nodeid has sent us a lock in dlm_recover_locks, believing
570 * we're the new master. Our local recovery may not have set
571 * res_master_nodeid to our_nodeid yet, so allow either. Don't
572 * create the rsb; dlm_recover_process_copy() will handle EBADR
575 * If someone sends us a request, we are the dir node, and we do
576 * not find the rsb anywhere, then recreate it. This happens if
577 * someone sends us a request after we have removed/freed an rsb
578 * from our toss list. (They sent a request instead of lookup
579 * because they are using an rsb from their toss list.)
582 if (from_local
|| from_dir
||
583 (from_other
&& (dir_nodeid
== our_nodeid
))) {
589 error
= pre_rsb_struct(ls
);
594 spin_lock(&ls
->ls_rsbtbl
[b
].lock
);
596 error
= dlm_search_rsb_tree(&ls
->ls_rsbtbl
[b
].keep
, name
, len
, &r
);
601 * rsb is active, so we can't check master_nodeid without lock_rsb.
604 kref_get(&r
->res_ref
);
610 error
= dlm_search_rsb_tree(&ls
->ls_rsbtbl
[b
].toss
, name
, len
, &r
);
615 * rsb found inactive (master_nodeid may be out of date unless
616 * we are the dir_nodeid or were the master) No other thread
617 * is using this rsb because it's on the toss list, so we can
618 * look at or update res_master_nodeid without lock_rsb.
621 if ((r
->res_master_nodeid
!= our_nodeid
) && from_other
) {
622 /* our rsb was not master, and another node (not the dir node)
623 has sent us a request */
624 log_debug(ls
, "find_rsb toss from_other %d master %d dir %d %s",
625 from_nodeid
, r
->res_master_nodeid
, dir_nodeid
,
631 if ((r
->res_master_nodeid
!= our_nodeid
) && from_dir
) {
632 /* don't think this should ever happen */
633 log_error(ls
, "find_rsb toss from_dir %d master %d",
634 from_nodeid
, r
->res_master_nodeid
);
636 /* fix it and go on */
637 r
->res_master_nodeid
= our_nodeid
;
639 rsb_clear_flag(r
, RSB_MASTER_UNCERTAIN
);
640 r
->res_first_lkid
= 0;
643 if (from_local
&& (r
->res_master_nodeid
!= our_nodeid
)) {
644 /* Because we have held no locks on this rsb,
645 res_master_nodeid could have become stale. */
646 rsb_set_flag(r
, RSB_MASTER_UNCERTAIN
);
647 r
->res_first_lkid
= 0;
650 rb_erase(&r
->res_hashnode
, &ls
->ls_rsbtbl
[b
].toss
);
651 error
= rsb_insert(r
, &ls
->ls_rsbtbl
[b
].keep
);
660 if (error
== -EBADR
&& !create
)
663 error
= get_rsb_struct(ls
, name
, len
, &r
);
664 if (error
== -EAGAIN
) {
665 spin_unlock(&ls
->ls_rsbtbl
[b
].lock
);
673 r
->res_dir_nodeid
= dir_nodeid
;
674 kref_init(&r
->res_ref
);
677 /* want to see how often this happens */
678 log_debug(ls
, "find_rsb new from_dir %d recreate %s",
679 from_nodeid
, r
->res_name
);
680 r
->res_master_nodeid
= our_nodeid
;
685 if (from_other
&& (dir_nodeid
!= our_nodeid
)) {
686 /* should never happen */
687 log_error(ls
, "find_rsb new from_other %d dir %d our %d %s",
688 from_nodeid
, dir_nodeid
, our_nodeid
, r
->res_name
);
695 log_debug(ls
, "find_rsb new from_other %d dir %d %s",
696 from_nodeid
, dir_nodeid
, r
->res_name
);
699 if (dir_nodeid
== our_nodeid
) {
700 /* When we are the dir nodeid, we can set the master
702 r
->res_master_nodeid
= our_nodeid
;
705 /* set_master will send_lookup to dir_nodeid */
706 r
->res_master_nodeid
= 0;
711 error
= rsb_insert(r
, &ls
->ls_rsbtbl
[b
].keep
);
713 spin_unlock(&ls
->ls_rsbtbl
[b
].lock
);
719 /* During recovery, other nodes can send us new MSTCPY locks (from
720 dlm_recover_locks) before we've made ourself master (in
721 dlm_recover_masters). */
723 static int find_rsb_nodir(struct dlm_ls
*ls
, char *name
, int len
,
724 uint32_t hash
, uint32_t b
,
725 int dir_nodeid
, int from_nodeid
,
726 unsigned int flags
, struct dlm_rsb
**r_ret
)
728 struct dlm_rsb
*r
= NULL
;
729 int our_nodeid
= dlm_our_nodeid();
730 int recover
= (flags
& R_RECEIVE_RECOVER
);
734 error
= pre_rsb_struct(ls
);
738 spin_lock(&ls
->ls_rsbtbl
[b
].lock
);
740 error
= dlm_search_rsb_tree(&ls
->ls_rsbtbl
[b
].keep
, name
, len
, &r
);
745 * rsb is active, so we can't check master_nodeid without lock_rsb.
748 kref_get(&r
->res_ref
);
753 error
= dlm_search_rsb_tree(&ls
->ls_rsbtbl
[b
].toss
, name
, len
, &r
);
758 * rsb found inactive. No other thread is using this rsb because
759 * it's on the toss list, so we can look at or update
760 * res_master_nodeid without lock_rsb.
763 if (!recover
&& (r
->res_master_nodeid
!= our_nodeid
) && from_nodeid
) {
764 /* our rsb is not master, and another node has sent us a
765 request; this should never happen */
766 log_error(ls
, "find_rsb toss from_nodeid %d master %d dir %d",
767 from_nodeid
, r
->res_master_nodeid
, dir_nodeid
);
773 if (!recover
&& (r
->res_master_nodeid
!= our_nodeid
) &&
774 (dir_nodeid
== our_nodeid
)) {
775 /* our rsb is not master, and we are dir; may as well fix it;
776 this should never happen */
777 log_error(ls
, "find_rsb toss our %d master %d dir %d",
778 our_nodeid
, r
->res_master_nodeid
, dir_nodeid
);
780 r
->res_master_nodeid
= our_nodeid
;
784 rb_erase(&r
->res_hashnode
, &ls
->ls_rsbtbl
[b
].toss
);
785 error
= rsb_insert(r
, &ls
->ls_rsbtbl
[b
].keep
);
794 error
= get_rsb_struct(ls
, name
, len
, &r
);
795 if (error
== -EAGAIN
) {
796 spin_unlock(&ls
->ls_rsbtbl
[b
].lock
);
804 r
->res_dir_nodeid
= dir_nodeid
;
805 r
->res_master_nodeid
= dir_nodeid
;
806 r
->res_nodeid
= (dir_nodeid
== our_nodeid
) ? 0 : dir_nodeid
;
807 kref_init(&r
->res_ref
);
809 error
= rsb_insert(r
, &ls
->ls_rsbtbl
[b
].keep
);
811 spin_unlock(&ls
->ls_rsbtbl
[b
].lock
);
817 static int find_rsb(struct dlm_ls
*ls
, char *name
, int len
, int from_nodeid
,
818 unsigned int flags
, struct dlm_rsb
**r_ret
)
823 if (len
> DLM_RESNAME_MAXLEN
)
826 hash
= jhash(name
, len
, 0);
827 b
= hash
& (ls
->ls_rsbtbl_size
- 1);
829 dir_nodeid
= dlm_hash2nodeid(ls
, hash
);
831 if (dlm_no_directory(ls
))
832 return find_rsb_nodir(ls
, name
, len
, hash
, b
, dir_nodeid
,
833 from_nodeid
, flags
, r_ret
);
835 return find_rsb_dir(ls
, name
, len
, hash
, b
, dir_nodeid
,
836 from_nodeid
, flags
, r_ret
);
839 /* we have received a request and found that res_master_nodeid != our_nodeid,
840 so we need to return an error or make ourself the master */
842 static int validate_master_nodeid(struct dlm_ls
*ls
, struct dlm_rsb
*r
,
845 if (dlm_no_directory(ls
)) {
846 log_error(ls
, "find_rsb keep from_nodeid %d master %d dir %d",
847 from_nodeid
, r
->res_master_nodeid
,
853 if (from_nodeid
!= r
->res_dir_nodeid
) {
854 /* our rsb is not master, and another node (not the dir node)
855 has sent us a request. this is much more common when our
856 master_nodeid is zero, so limit debug to non-zero. */
858 if (r
->res_master_nodeid
) {
859 log_debug(ls
, "validate master from_other %d master %d "
860 "dir %d first %x %s", from_nodeid
,
861 r
->res_master_nodeid
, r
->res_dir_nodeid
,
862 r
->res_first_lkid
, r
->res_name
);
866 /* our rsb is not master, but the dir nodeid has sent us a
867 request; this could happen with master 0 / res_nodeid -1 */
869 if (r
->res_master_nodeid
) {
870 log_error(ls
, "validate master from_dir %d master %d "
872 from_nodeid
, r
->res_master_nodeid
,
873 r
->res_first_lkid
, r
->res_name
);
876 r
->res_master_nodeid
= dlm_our_nodeid();
883 * We're the dir node for this res and another node wants to know the
884 * master nodeid. During normal operation (non recovery) this is only
885 * called from receive_lookup(); master lookups when the local node is
886 * the dir node are done by find_rsb().
888 * normal operation, we are the dir node for a resource
893 * . dlm_master_lookup flags 0
895 * recover directory, we are rebuilding dir for all resources
896 * . dlm_recover_directory
898 * remote node sends back the rsb names it is master of and we are dir of
899 * . dlm_master_lookup RECOVER_DIR (fix_master 0, from_master 1)
900 * we either create new rsb setting remote node as master, or find existing
901 * rsb and set master to be the remote node.
903 * recover masters, we are finding the new master for resources
904 * . dlm_recover_masters
906 * . dlm_send_rcom_lookup
907 * . receive_rcom_lookup
908 * . dlm_master_lookup RECOVER_MASTER (fix_master 1, from_master 0)
911 int dlm_master_lookup(struct dlm_ls
*ls
, int from_nodeid
, char *name
, int len
,
912 unsigned int flags
, int *r_nodeid
, int *result
)
914 struct dlm_rsb
*r
= NULL
;
916 int from_master
= (flags
& DLM_LU_RECOVER_DIR
);
917 int fix_master
= (flags
& DLM_LU_RECOVER_MASTER
);
918 int our_nodeid
= dlm_our_nodeid();
919 int dir_nodeid
, error
, toss_list
= 0;
921 if (len
> DLM_RESNAME_MAXLEN
)
924 if (from_nodeid
== our_nodeid
) {
925 log_error(ls
, "dlm_master_lookup from our_nodeid %d flags %x",
930 hash
= jhash(name
, len
, 0);
931 b
= hash
& (ls
->ls_rsbtbl_size
- 1);
933 dir_nodeid
= dlm_hash2nodeid(ls
, hash
);
934 if (dir_nodeid
!= our_nodeid
) {
935 log_error(ls
, "dlm_master_lookup from %d dir %d our %d h %x %d",
936 from_nodeid
, dir_nodeid
, our_nodeid
, hash
,
943 error
= pre_rsb_struct(ls
);
947 spin_lock(&ls
->ls_rsbtbl
[b
].lock
);
948 error
= dlm_search_rsb_tree(&ls
->ls_rsbtbl
[b
].keep
, name
, len
, &r
);
950 /* because the rsb is active, we need to lock_rsb before
951 checking/changing re_master_nodeid */
954 spin_unlock(&ls
->ls_rsbtbl
[b
].lock
);
959 error
= dlm_search_rsb_tree(&ls
->ls_rsbtbl
[b
].toss
, name
, len
, &r
);
963 /* because the rsb is inactive (on toss list), it's not refcounted
964 and lock_rsb is not used, but is protected by the rsbtbl lock */
968 if (r
->res_dir_nodeid
!= our_nodeid
) {
969 /* should not happen, but may as well fix it and carry on */
970 log_error(ls
, "dlm_master_lookup res_dir %d our %d %s",
971 r
->res_dir_nodeid
, our_nodeid
, r
->res_name
);
972 r
->res_dir_nodeid
= our_nodeid
;
975 if (fix_master
&& dlm_is_removed(ls
, r
->res_master_nodeid
)) {
976 /* Recovery uses this function to set a new master when
977 the previous master failed. Setting NEW_MASTER will
978 force dlm_recover_masters to call recover_master on this
979 rsb even though the res_nodeid is no longer removed. */
981 r
->res_master_nodeid
= from_nodeid
;
982 r
->res_nodeid
= from_nodeid
;
983 rsb_set_flag(r
, RSB_NEW_MASTER
);
986 /* I don't think we should ever find it on toss list. */
987 log_error(ls
, "dlm_master_lookup fix_master on toss");
992 if (from_master
&& (r
->res_master_nodeid
!= from_nodeid
)) {
993 /* this will happen if from_nodeid became master during
994 a previous recovery cycle, and we aborted the previous
995 cycle before recovering this master value */
997 log_limit(ls
, "dlm_master_lookup from_master %d "
998 "master_nodeid %d res_nodeid %d first %x %s",
999 from_nodeid
, r
->res_master_nodeid
, r
->res_nodeid
,
1000 r
->res_first_lkid
, r
->res_name
);
1002 if (r
->res_master_nodeid
== our_nodeid
) {
1003 log_error(ls
, "from_master %d our_master", from_nodeid
);
1005 dlm_send_rcom_lookup_dump(r
, from_nodeid
);
1009 r
->res_master_nodeid
= from_nodeid
;
1010 r
->res_nodeid
= from_nodeid
;
1011 rsb_set_flag(r
, RSB_NEW_MASTER
);
1014 if (!r
->res_master_nodeid
) {
1015 /* this will happen if recovery happens while we're looking
1016 up the master for this rsb */
1018 log_debug(ls
, "dlm_master_lookup master 0 to %d first %x %s",
1019 from_nodeid
, r
->res_first_lkid
, r
->res_name
);
1020 r
->res_master_nodeid
= from_nodeid
;
1021 r
->res_nodeid
= from_nodeid
;
1024 if (!from_master
&& !fix_master
&&
1025 (r
->res_master_nodeid
== from_nodeid
)) {
1026 /* this can happen when the master sends remove, the dir node
1027 finds the rsb on the keep list and ignores the remove,
1028 and the former master sends a lookup */
1030 log_limit(ls
, "dlm_master_lookup from master %d flags %x "
1031 "first %x %s", from_nodeid
, flags
,
1032 r
->res_first_lkid
, r
->res_name
);
1036 *r_nodeid
= r
->res_master_nodeid
;
1038 *result
= DLM_LU_MATCH
;
1041 r
->res_toss_time
= jiffies
;
1042 /* the rsb was inactive (on toss list) */
1043 spin_unlock(&ls
->ls_rsbtbl
[b
].lock
);
1045 /* the rsb was active */
1052 error
= get_rsb_struct(ls
, name
, len
, &r
);
1053 if (error
== -EAGAIN
) {
1054 spin_unlock(&ls
->ls_rsbtbl
[b
].lock
);
1062 r
->res_dir_nodeid
= our_nodeid
;
1063 r
->res_master_nodeid
= from_nodeid
;
1064 r
->res_nodeid
= from_nodeid
;
1065 kref_init(&r
->res_ref
);
1066 r
->res_toss_time
= jiffies
;
1068 error
= rsb_insert(r
, &ls
->ls_rsbtbl
[b
].toss
);
1070 /* should never happen */
1072 spin_unlock(&ls
->ls_rsbtbl
[b
].lock
);
1077 *result
= DLM_LU_ADD
;
1078 *r_nodeid
= from_nodeid
;
1081 spin_unlock(&ls
->ls_rsbtbl
[b
].lock
);
1085 static void dlm_dump_rsb_hash(struct dlm_ls
*ls
, uint32_t hash
)
1091 for (i
= 0; i
< ls
->ls_rsbtbl_size
; i
++) {
1092 spin_lock(&ls
->ls_rsbtbl
[i
].lock
);
1093 for (n
= rb_first(&ls
->ls_rsbtbl
[i
].keep
); n
; n
= rb_next(n
)) {
1094 r
= rb_entry(n
, struct dlm_rsb
, res_hashnode
);
1095 if (r
->res_hash
== hash
)
1098 spin_unlock(&ls
->ls_rsbtbl
[i
].lock
);
1102 void dlm_dump_rsb_name(struct dlm_ls
*ls
, char *name
, int len
)
1104 struct dlm_rsb
*r
= NULL
;
1108 hash
= jhash(name
, len
, 0);
1109 b
= hash
& (ls
->ls_rsbtbl_size
- 1);
1111 spin_lock(&ls
->ls_rsbtbl
[b
].lock
);
1112 error
= dlm_search_rsb_tree(&ls
->ls_rsbtbl
[b
].keep
, name
, len
, &r
);
1116 error
= dlm_search_rsb_tree(&ls
->ls_rsbtbl
[b
].toss
, name
, len
, &r
);
1122 spin_unlock(&ls
->ls_rsbtbl
[b
].lock
);
1125 static void toss_rsb(struct kref
*kref
)
1127 struct dlm_rsb
*r
= container_of(kref
, struct dlm_rsb
, res_ref
);
1128 struct dlm_ls
*ls
= r
->res_ls
;
1130 DLM_ASSERT(list_empty(&r
->res_root_list
), dlm_print_rsb(r
););
1131 kref_init(&r
->res_ref
);
1132 rb_erase(&r
->res_hashnode
, &ls
->ls_rsbtbl
[r
->res_bucket
].keep
);
1133 rsb_insert(r
, &ls
->ls_rsbtbl
[r
->res_bucket
].toss
);
1134 r
->res_toss_time
= jiffies
;
1135 ls
->ls_rsbtbl
[r
->res_bucket
].flags
|= DLM_RTF_SHRINK
;
1136 if (r
->res_lvbptr
) {
1137 dlm_free_lvb(r
->res_lvbptr
);
1138 r
->res_lvbptr
= NULL
;
1142 /* See comment for unhold_lkb */
1144 static void unhold_rsb(struct dlm_rsb
*r
)
1147 rv
= kref_put(&r
->res_ref
, toss_rsb
);
1148 DLM_ASSERT(!rv
, dlm_dump_rsb(r
););
1151 static void kill_rsb(struct kref
*kref
)
1153 struct dlm_rsb
*r
= container_of(kref
, struct dlm_rsb
, res_ref
);
1155 /* All work is done after the return from kref_put() so we
1156 can release the write_lock before the remove and free. */
1158 DLM_ASSERT(list_empty(&r
->res_lookup
), dlm_dump_rsb(r
););
1159 DLM_ASSERT(list_empty(&r
->res_grantqueue
), dlm_dump_rsb(r
););
1160 DLM_ASSERT(list_empty(&r
->res_convertqueue
), dlm_dump_rsb(r
););
1161 DLM_ASSERT(list_empty(&r
->res_waitqueue
), dlm_dump_rsb(r
););
1162 DLM_ASSERT(list_empty(&r
->res_root_list
), dlm_dump_rsb(r
););
1163 DLM_ASSERT(list_empty(&r
->res_recover_list
), dlm_dump_rsb(r
););
1166 /* Attaching/detaching lkb's from rsb's is for rsb reference counting.
1167 The rsb must exist as long as any lkb's for it do. */
1169 static void attach_lkb(struct dlm_rsb
*r
, struct dlm_lkb
*lkb
)
1172 lkb
->lkb_resource
= r
;
1175 static void detach_lkb(struct dlm_lkb
*lkb
)
1177 if (lkb
->lkb_resource
) {
1178 put_rsb(lkb
->lkb_resource
);
1179 lkb
->lkb_resource
= NULL
;
1183 static int create_lkb(struct dlm_ls
*ls
, struct dlm_lkb
**lkb_ret
)
1185 struct dlm_lkb
*lkb
;
1188 lkb
= dlm_allocate_lkb(ls
);
1192 lkb
->lkb_nodeid
= -1;
1193 lkb
->lkb_grmode
= DLM_LOCK_IV
;
1194 kref_init(&lkb
->lkb_ref
);
1195 INIT_LIST_HEAD(&lkb
->lkb_ownqueue
);
1196 INIT_LIST_HEAD(&lkb
->lkb_rsb_lookup
);
1197 INIT_LIST_HEAD(&lkb
->lkb_time_list
);
1198 INIT_LIST_HEAD(&lkb
->lkb_cb_list
);
1199 mutex_init(&lkb
->lkb_cb_mutex
);
1200 INIT_WORK(&lkb
->lkb_cb_work
, dlm_callback_work
);
1202 idr_preload(GFP_NOFS
);
1203 spin_lock(&ls
->ls_lkbidr_spin
);
1204 rv
= idr_alloc(&ls
->ls_lkbidr
, lkb
, 1, 0, GFP_NOWAIT
);
1207 spin_unlock(&ls
->ls_lkbidr_spin
);
1211 log_error(ls
, "create_lkb idr error %d", rv
);
1219 static int find_lkb(struct dlm_ls
*ls
, uint32_t lkid
, struct dlm_lkb
**lkb_ret
)
1221 struct dlm_lkb
*lkb
;
1223 spin_lock(&ls
->ls_lkbidr_spin
);
1224 lkb
= idr_find(&ls
->ls_lkbidr
, lkid
);
1226 kref_get(&lkb
->lkb_ref
);
1227 spin_unlock(&ls
->ls_lkbidr_spin
);
1230 return lkb
? 0 : -ENOENT
;
1233 static void kill_lkb(struct kref
*kref
)
1235 struct dlm_lkb
*lkb
= container_of(kref
, struct dlm_lkb
, lkb_ref
);
1237 /* All work is done after the return from kref_put() so we
1238 can release the write_lock before the detach_lkb */
1240 DLM_ASSERT(!lkb
->lkb_status
, dlm_print_lkb(lkb
););
1243 /* __put_lkb() is used when an lkb may not have an rsb attached to
1244 it so we need to provide the lockspace explicitly */
1246 static int __put_lkb(struct dlm_ls
*ls
, struct dlm_lkb
*lkb
)
1248 uint32_t lkid
= lkb
->lkb_id
;
1250 spin_lock(&ls
->ls_lkbidr_spin
);
1251 if (kref_put(&lkb
->lkb_ref
, kill_lkb
)) {
1252 idr_remove(&ls
->ls_lkbidr
, lkid
);
1253 spin_unlock(&ls
->ls_lkbidr_spin
);
1257 /* for local/process lkbs, lvbptr points to caller's lksb */
1258 if (lkb
->lkb_lvbptr
&& is_master_copy(lkb
))
1259 dlm_free_lvb(lkb
->lkb_lvbptr
);
1263 spin_unlock(&ls
->ls_lkbidr_spin
);
1268 int dlm_put_lkb(struct dlm_lkb
*lkb
)
1272 DLM_ASSERT(lkb
->lkb_resource
, dlm_print_lkb(lkb
););
1273 DLM_ASSERT(lkb
->lkb_resource
->res_ls
, dlm_print_lkb(lkb
););
1275 ls
= lkb
->lkb_resource
->res_ls
;
1276 return __put_lkb(ls
, lkb
);
1279 /* This is only called to add a reference when the code already holds
1280 a valid reference to the lkb, so there's no need for locking. */
1282 static inline void hold_lkb(struct dlm_lkb
*lkb
)
1284 kref_get(&lkb
->lkb_ref
);
1287 /* This is called when we need to remove a reference and are certain
1288 it's not the last ref. e.g. del_lkb is always called between a
1289 find_lkb/put_lkb and is always the inverse of a previous add_lkb.
1290 put_lkb would work fine, but would involve unnecessary locking */
1292 static inline void unhold_lkb(struct dlm_lkb
*lkb
)
1295 rv
= kref_put(&lkb
->lkb_ref
, kill_lkb
);
1296 DLM_ASSERT(!rv
, dlm_print_lkb(lkb
););
1299 static void lkb_add_ordered(struct list_head
*new, struct list_head
*head
,
1302 struct dlm_lkb
*lkb
= NULL
;
1304 list_for_each_entry(lkb
, head
, lkb_statequeue
)
1305 if (lkb
->lkb_rqmode
< mode
)
1308 __list_add(new, lkb
->lkb_statequeue
.prev
, &lkb
->lkb_statequeue
);
1311 /* add/remove lkb to rsb's grant/convert/wait queue */
1313 static void add_lkb(struct dlm_rsb
*r
, struct dlm_lkb
*lkb
, int status
)
1315 kref_get(&lkb
->lkb_ref
);
1317 DLM_ASSERT(!lkb
->lkb_status
, dlm_print_lkb(lkb
););
1319 lkb
->lkb_timestamp
= ktime_get();
1321 lkb
->lkb_status
= status
;
1324 case DLM_LKSTS_WAITING
:
1325 if (lkb
->lkb_exflags
& DLM_LKF_HEADQUE
)
1326 list_add(&lkb
->lkb_statequeue
, &r
->res_waitqueue
);
1328 list_add_tail(&lkb
->lkb_statequeue
, &r
->res_waitqueue
);
1330 case DLM_LKSTS_GRANTED
:
1331 /* convention says granted locks kept in order of grmode */
1332 lkb_add_ordered(&lkb
->lkb_statequeue
, &r
->res_grantqueue
,
1335 case DLM_LKSTS_CONVERT
:
1336 if (lkb
->lkb_exflags
& DLM_LKF_HEADQUE
)
1337 list_add(&lkb
->lkb_statequeue
, &r
->res_convertqueue
);
1339 list_add_tail(&lkb
->lkb_statequeue
,
1340 &r
->res_convertqueue
);
1343 DLM_ASSERT(0, dlm_print_lkb(lkb
); printk("sts=%d\n", status
););
1347 static void del_lkb(struct dlm_rsb
*r
, struct dlm_lkb
*lkb
)
1349 lkb
->lkb_status
= 0;
1350 list_del(&lkb
->lkb_statequeue
);
1354 static void move_lkb(struct dlm_rsb
*r
, struct dlm_lkb
*lkb
, int sts
)
1358 add_lkb(r
, lkb
, sts
);
1362 static int msg_reply_type(int mstype
)
1365 case DLM_MSG_REQUEST
:
1366 return DLM_MSG_REQUEST_REPLY
;
1367 case DLM_MSG_CONVERT
:
1368 return DLM_MSG_CONVERT_REPLY
;
1369 case DLM_MSG_UNLOCK
:
1370 return DLM_MSG_UNLOCK_REPLY
;
1371 case DLM_MSG_CANCEL
:
1372 return DLM_MSG_CANCEL_REPLY
;
1373 case DLM_MSG_LOOKUP
:
1374 return DLM_MSG_LOOKUP_REPLY
;
1379 static int nodeid_warned(int nodeid
, int num_nodes
, int *warned
)
1383 for (i
= 0; i
< num_nodes
; i
++) {
1388 if (warned
[i
] == nodeid
)
1394 void dlm_scan_waiters(struct dlm_ls
*ls
)
1396 struct dlm_lkb
*lkb
;
1397 ktime_t zero
= ktime_set(0, 0);
1399 s64 debug_maxus
= 0;
1400 u32 debug_scanned
= 0;
1401 u32 debug_expired
= 0;
1405 if (!dlm_config
.ci_waitwarn_us
)
1408 mutex_lock(&ls
->ls_waiters_mutex
);
1410 list_for_each_entry(lkb
, &ls
->ls_waiters
, lkb_wait_reply
) {
1411 if (ktime_equal(lkb
->lkb_wait_time
, zero
))
1416 us
= ktime_to_us(ktime_sub(ktime_get(), lkb
->lkb_wait_time
));
1418 if (us
< dlm_config
.ci_waitwarn_us
)
1421 lkb
->lkb_wait_time
= zero
;
1424 if (us
> debug_maxus
)
1428 num_nodes
= ls
->ls_num_nodes
;
1429 warned
= kzalloc(num_nodes
* sizeof(int), GFP_KERNEL
);
1433 if (nodeid_warned(lkb
->lkb_wait_nodeid
, num_nodes
, warned
))
1436 log_error(ls
, "waitwarn %x %lld %d us check connection to "
1437 "node %d", lkb
->lkb_id
, (long long)us
,
1438 dlm_config
.ci_waitwarn_us
, lkb
->lkb_wait_nodeid
);
1440 mutex_unlock(&ls
->ls_waiters_mutex
);
1444 log_debug(ls
, "scan_waiters %u warn %u over %d us max %lld us",
1445 debug_scanned
, debug_expired
,
1446 dlm_config
.ci_waitwarn_us
, (long long)debug_maxus
);
1449 /* add/remove lkb from global waiters list of lkb's waiting for
1450 a reply from a remote node */
1452 static int add_to_waiters(struct dlm_lkb
*lkb
, int mstype
, int to_nodeid
)
1454 struct dlm_ls
*ls
= lkb
->lkb_resource
->res_ls
;
1457 mutex_lock(&ls
->ls_waiters_mutex
);
1459 if (is_overlap_unlock(lkb
) ||
1460 (is_overlap_cancel(lkb
) && (mstype
== DLM_MSG_CANCEL
))) {
1465 if (lkb
->lkb_wait_type
|| is_overlap_cancel(lkb
)) {
1467 case DLM_MSG_UNLOCK
:
1468 lkb
->lkb_flags
|= DLM_IFL_OVERLAP_UNLOCK
;
1470 case DLM_MSG_CANCEL
:
1471 lkb
->lkb_flags
|= DLM_IFL_OVERLAP_CANCEL
;
1477 lkb
->lkb_wait_count
++;
1480 log_debug(ls
, "addwait %x cur %d overlap %d count %d f %x",
1481 lkb
->lkb_id
, lkb
->lkb_wait_type
, mstype
,
1482 lkb
->lkb_wait_count
, lkb
->lkb_flags
);
1486 DLM_ASSERT(!lkb
->lkb_wait_count
,
1488 printk("wait_count %d\n", lkb
->lkb_wait_count
););
1490 lkb
->lkb_wait_count
++;
1491 lkb
->lkb_wait_type
= mstype
;
1492 lkb
->lkb_wait_time
= ktime_get();
1493 lkb
->lkb_wait_nodeid
= to_nodeid
; /* for debugging */
1495 list_add(&lkb
->lkb_wait_reply
, &ls
->ls_waiters
);
1498 log_error(ls
, "addwait error %x %d flags %x %d %d %s",
1499 lkb
->lkb_id
, error
, lkb
->lkb_flags
, mstype
,
1500 lkb
->lkb_wait_type
, lkb
->lkb_resource
->res_name
);
1501 mutex_unlock(&ls
->ls_waiters_mutex
);
1505 /* We clear the RESEND flag because we might be taking an lkb off the waiters
1506 list as part of process_requestqueue (e.g. a lookup that has an optimized
1507 request reply on the requestqueue) between dlm_recover_waiters_pre() which
1508 set RESEND and dlm_recover_waiters_post() */
1510 static int _remove_from_waiters(struct dlm_lkb
*lkb
, int mstype
,
1511 struct dlm_message
*ms
)
1513 struct dlm_ls
*ls
= lkb
->lkb_resource
->res_ls
;
1514 int overlap_done
= 0;
1516 if (is_overlap_unlock(lkb
) && (mstype
== DLM_MSG_UNLOCK_REPLY
)) {
1517 log_debug(ls
, "remwait %x unlock_reply overlap", lkb
->lkb_id
);
1518 lkb
->lkb_flags
&= ~DLM_IFL_OVERLAP_UNLOCK
;
1523 if (is_overlap_cancel(lkb
) && (mstype
== DLM_MSG_CANCEL_REPLY
)) {
1524 log_debug(ls
, "remwait %x cancel_reply overlap", lkb
->lkb_id
);
1525 lkb
->lkb_flags
&= ~DLM_IFL_OVERLAP_CANCEL
;
1530 /* Cancel state was preemptively cleared by a successful convert,
1531 see next comment, nothing to do. */
1533 if ((mstype
== DLM_MSG_CANCEL_REPLY
) &&
1534 (lkb
->lkb_wait_type
!= DLM_MSG_CANCEL
)) {
1535 log_debug(ls
, "remwait %x cancel_reply wait_type %d",
1536 lkb
->lkb_id
, lkb
->lkb_wait_type
);
1540 /* Remove for the convert reply, and premptively remove for the
1541 cancel reply. A convert has been granted while there's still
1542 an outstanding cancel on it (the cancel is moot and the result
1543 in the cancel reply should be 0). We preempt the cancel reply
1544 because the app gets the convert result and then can follow up
1545 with another op, like convert. This subsequent op would see the
1546 lingering state of the cancel and fail with -EBUSY. */
1548 if ((mstype
== DLM_MSG_CONVERT_REPLY
) &&
1549 (lkb
->lkb_wait_type
== DLM_MSG_CONVERT
) &&
1550 is_overlap_cancel(lkb
) && ms
&& !ms
->m_result
) {
1551 log_debug(ls
, "remwait %x convert_reply zap overlap_cancel",
1553 lkb
->lkb_wait_type
= 0;
1554 lkb
->lkb_flags
&= ~DLM_IFL_OVERLAP_CANCEL
;
1555 lkb
->lkb_wait_count
--;
1559 /* N.B. type of reply may not always correspond to type of original
1560 msg due to lookup->request optimization, verify others? */
1562 if (lkb
->lkb_wait_type
) {
1563 lkb
->lkb_wait_type
= 0;
1567 log_error(ls
, "remwait error %x remote %d %x msg %d flags %x no wait",
1568 lkb
->lkb_id
, ms
? ms
->m_header
.h_nodeid
: 0, lkb
->lkb_remid
,
1569 mstype
, lkb
->lkb_flags
);
1573 /* the force-unlock/cancel has completed and we haven't recvd a reply
1574 to the op that was in progress prior to the unlock/cancel; we
1575 give up on any reply to the earlier op. FIXME: not sure when/how
1576 this would happen */
1578 if (overlap_done
&& lkb
->lkb_wait_type
) {
1579 log_error(ls
, "remwait error %x reply %d wait_type %d overlap",
1580 lkb
->lkb_id
, mstype
, lkb
->lkb_wait_type
);
1581 lkb
->lkb_wait_count
--;
1582 lkb
->lkb_wait_type
= 0;
1585 DLM_ASSERT(lkb
->lkb_wait_count
, dlm_print_lkb(lkb
););
1587 lkb
->lkb_flags
&= ~DLM_IFL_RESEND
;
1588 lkb
->lkb_wait_count
--;
1589 if (!lkb
->lkb_wait_count
)
1590 list_del_init(&lkb
->lkb_wait_reply
);
1595 static int remove_from_waiters(struct dlm_lkb
*lkb
, int mstype
)
1597 struct dlm_ls
*ls
= lkb
->lkb_resource
->res_ls
;
1600 mutex_lock(&ls
->ls_waiters_mutex
);
1601 error
= _remove_from_waiters(lkb
, mstype
, NULL
);
1602 mutex_unlock(&ls
->ls_waiters_mutex
);
1606 /* Handles situations where we might be processing a "fake" or "stub" reply in
1607 which we can't try to take waiters_mutex again. */
1609 static int remove_from_waiters_ms(struct dlm_lkb
*lkb
, struct dlm_message
*ms
)
1611 struct dlm_ls
*ls
= lkb
->lkb_resource
->res_ls
;
1614 if (ms
->m_flags
!= DLM_IFL_STUB_MS
)
1615 mutex_lock(&ls
->ls_waiters_mutex
);
1616 error
= _remove_from_waiters(lkb
, ms
->m_type
, ms
);
1617 if (ms
->m_flags
!= DLM_IFL_STUB_MS
)
1618 mutex_unlock(&ls
->ls_waiters_mutex
);
1622 /* If there's an rsb for the same resource being removed, ensure
1623 that the remove message is sent before the new lookup message.
1624 It should be rare to need a delay here, but if not, then it may
1625 be worthwhile to add a proper wait mechanism rather than a delay. */
1627 static void wait_pending_remove(struct dlm_rsb
*r
)
1629 struct dlm_ls
*ls
= r
->res_ls
;
1631 spin_lock(&ls
->ls_remove_spin
);
1632 if (ls
->ls_remove_len
&&
1633 !rsb_cmp(r
, ls
->ls_remove_name
, ls
->ls_remove_len
)) {
1634 log_debug(ls
, "delay lookup for remove dir %d %s",
1635 r
->res_dir_nodeid
, r
->res_name
);
1636 spin_unlock(&ls
->ls_remove_spin
);
1640 spin_unlock(&ls
->ls_remove_spin
);
1644 * ls_remove_spin protects ls_remove_name and ls_remove_len which are
1645 * read by other threads in wait_pending_remove. ls_remove_names
1646 * and ls_remove_lens are only used by the scan thread, so they do
1647 * not need protection.
1650 static void shrink_bucket(struct dlm_ls
*ls
, int b
)
1652 struct rb_node
*n
, *next
;
1655 int our_nodeid
= dlm_our_nodeid();
1656 int remote_count
= 0;
1657 int need_shrink
= 0;
1660 memset(&ls
->ls_remove_lens
, 0, sizeof(int) * DLM_REMOVE_NAMES_MAX
);
1662 spin_lock(&ls
->ls_rsbtbl
[b
].lock
);
1664 if (!(ls
->ls_rsbtbl
[b
].flags
& DLM_RTF_SHRINK
)) {
1665 spin_unlock(&ls
->ls_rsbtbl
[b
].lock
);
1669 for (n
= rb_first(&ls
->ls_rsbtbl
[b
].toss
); n
; n
= next
) {
1671 r
= rb_entry(n
, struct dlm_rsb
, res_hashnode
);
1673 /* If we're the directory record for this rsb, and
1674 we're not the master of it, then we need to wait
1675 for the master node to send us a dir remove for
1676 before removing the dir record. */
1678 if (!dlm_no_directory(ls
) &&
1679 (r
->res_master_nodeid
!= our_nodeid
) &&
1680 (dlm_dir_nodeid(r
) == our_nodeid
)) {
1686 if (!time_after_eq(jiffies
, r
->res_toss_time
+
1687 dlm_config
.ci_toss_secs
* HZ
)) {
1691 if (!dlm_no_directory(ls
) &&
1692 (r
->res_master_nodeid
== our_nodeid
) &&
1693 (dlm_dir_nodeid(r
) != our_nodeid
)) {
1695 /* We're the master of this rsb but we're not
1696 the directory record, so we need to tell the
1697 dir node to remove the dir record. */
1699 ls
->ls_remove_lens
[remote_count
] = r
->res_length
;
1700 memcpy(ls
->ls_remove_names
[remote_count
], r
->res_name
,
1701 DLM_RESNAME_MAXLEN
);
1704 if (remote_count
>= DLM_REMOVE_NAMES_MAX
)
1709 if (!kref_put(&r
->res_ref
, kill_rsb
)) {
1710 log_error(ls
, "tossed rsb in use %s", r
->res_name
);
1714 rb_erase(&r
->res_hashnode
, &ls
->ls_rsbtbl
[b
].toss
);
1719 ls
->ls_rsbtbl
[b
].flags
|= DLM_RTF_SHRINK
;
1721 ls
->ls_rsbtbl
[b
].flags
&= ~DLM_RTF_SHRINK
;
1722 spin_unlock(&ls
->ls_rsbtbl
[b
].lock
);
1725 * While searching for rsb's to free, we found some that require
1726 * remote removal. We leave them in place and find them again here
1727 * so there is a very small gap between removing them from the toss
1728 * list and sending the removal. Keeping this gap small is
1729 * important to keep us (the master node) from being out of sync
1730 * with the remote dir node for very long.
1732 * From the time the rsb is removed from toss until just after
1733 * send_remove, the rsb name is saved in ls_remove_name. A new
1734 * lookup checks this to ensure that a new lookup message for the
1735 * same resource name is not sent just before the remove message.
1738 for (i
= 0; i
< remote_count
; i
++) {
1739 name
= ls
->ls_remove_names
[i
];
1740 len
= ls
->ls_remove_lens
[i
];
1742 spin_lock(&ls
->ls_rsbtbl
[b
].lock
);
1743 rv
= dlm_search_rsb_tree(&ls
->ls_rsbtbl
[b
].toss
, name
, len
, &r
);
1745 spin_unlock(&ls
->ls_rsbtbl
[b
].lock
);
1746 log_debug(ls
, "remove_name not toss %s", name
);
1750 if (r
->res_master_nodeid
!= our_nodeid
) {
1751 spin_unlock(&ls
->ls_rsbtbl
[b
].lock
);
1752 log_debug(ls
, "remove_name master %d dir %d our %d %s",
1753 r
->res_master_nodeid
, r
->res_dir_nodeid
,
1758 if (r
->res_dir_nodeid
== our_nodeid
) {
1759 /* should never happen */
1760 spin_unlock(&ls
->ls_rsbtbl
[b
].lock
);
1761 log_error(ls
, "remove_name dir %d master %d our %d %s",
1762 r
->res_dir_nodeid
, r
->res_master_nodeid
,
1767 if (!time_after_eq(jiffies
, r
->res_toss_time
+
1768 dlm_config
.ci_toss_secs
* HZ
)) {
1769 spin_unlock(&ls
->ls_rsbtbl
[b
].lock
);
1770 log_debug(ls
, "remove_name toss_time %lu now %lu %s",
1771 r
->res_toss_time
, jiffies
, name
);
1775 if (!kref_put(&r
->res_ref
, kill_rsb
)) {
1776 spin_unlock(&ls
->ls_rsbtbl
[b
].lock
);
1777 log_error(ls
, "remove_name in use %s", name
);
1781 rb_erase(&r
->res_hashnode
, &ls
->ls_rsbtbl
[b
].toss
);
1783 /* block lookup of same name until we've sent remove */
1784 spin_lock(&ls
->ls_remove_spin
);
1785 ls
->ls_remove_len
= len
;
1786 memcpy(ls
->ls_remove_name
, name
, DLM_RESNAME_MAXLEN
);
1787 spin_unlock(&ls
->ls_remove_spin
);
1788 spin_unlock(&ls
->ls_rsbtbl
[b
].lock
);
1792 /* allow lookup of name again */
1793 spin_lock(&ls
->ls_remove_spin
);
1794 ls
->ls_remove_len
= 0;
1795 memset(ls
->ls_remove_name
, 0, DLM_RESNAME_MAXLEN
);
1796 spin_unlock(&ls
->ls_remove_spin
);
1802 void dlm_scan_rsbs(struct dlm_ls
*ls
)
1806 for (i
= 0; i
< ls
->ls_rsbtbl_size
; i
++) {
1807 shrink_bucket(ls
, i
);
1808 if (dlm_locking_stopped(ls
))
1814 static void add_timeout(struct dlm_lkb
*lkb
)
1816 struct dlm_ls
*ls
= lkb
->lkb_resource
->res_ls
;
1818 if (is_master_copy(lkb
))
1821 if (test_bit(LSFL_TIMEWARN
, &ls
->ls_flags
) &&
1822 !(lkb
->lkb_exflags
& DLM_LKF_NODLCKWT
)) {
1823 lkb
->lkb_flags
|= DLM_IFL_WATCH_TIMEWARN
;
1826 if (lkb
->lkb_exflags
& DLM_LKF_TIMEOUT
)
1831 DLM_ASSERT(list_empty(&lkb
->lkb_time_list
), dlm_print_lkb(lkb
););
1832 mutex_lock(&ls
->ls_timeout_mutex
);
1834 list_add_tail(&lkb
->lkb_time_list
, &ls
->ls_timeout
);
1835 mutex_unlock(&ls
->ls_timeout_mutex
);
1838 static void del_timeout(struct dlm_lkb
*lkb
)
1840 struct dlm_ls
*ls
= lkb
->lkb_resource
->res_ls
;
1842 mutex_lock(&ls
->ls_timeout_mutex
);
1843 if (!list_empty(&lkb
->lkb_time_list
)) {
1844 list_del_init(&lkb
->lkb_time_list
);
1847 mutex_unlock(&ls
->ls_timeout_mutex
);
1850 /* FIXME: is it safe to look at lkb_exflags, lkb_flags, lkb_timestamp, and
1851 lkb_lksb_timeout without lock_rsb? Note: we can't lock timeout_mutex
1852 and then lock rsb because of lock ordering in add_timeout. We may need
1853 to specify some special timeout-related bits in the lkb that are just to
1854 be accessed under the timeout_mutex. */
1856 void dlm_scan_timeout(struct dlm_ls
*ls
)
1859 struct dlm_lkb
*lkb
;
1860 int do_cancel
, do_warn
;
1864 if (dlm_locking_stopped(ls
))
1869 mutex_lock(&ls
->ls_timeout_mutex
);
1870 list_for_each_entry(lkb
, &ls
->ls_timeout
, lkb_time_list
) {
1872 wait_us
= ktime_to_us(ktime_sub(ktime_get(),
1873 lkb
->lkb_timestamp
));
1875 if ((lkb
->lkb_exflags
& DLM_LKF_TIMEOUT
) &&
1876 wait_us
>= (lkb
->lkb_timeout_cs
* 10000))
1879 if ((lkb
->lkb_flags
& DLM_IFL_WATCH_TIMEWARN
) &&
1880 wait_us
>= dlm_config
.ci_timewarn_cs
* 10000)
1883 if (!do_cancel
&& !do_warn
)
1888 mutex_unlock(&ls
->ls_timeout_mutex
);
1890 if (!do_cancel
&& !do_warn
)
1893 r
= lkb
->lkb_resource
;
1898 /* clear flag so we only warn once */
1899 lkb
->lkb_flags
&= ~DLM_IFL_WATCH_TIMEWARN
;
1900 if (!(lkb
->lkb_exflags
& DLM_LKF_TIMEOUT
))
1902 dlm_timeout_warn(lkb
);
1906 log_debug(ls
, "timeout cancel %x node %d %s",
1907 lkb
->lkb_id
, lkb
->lkb_nodeid
, r
->res_name
);
1908 lkb
->lkb_flags
&= ~DLM_IFL_WATCH_TIMEWARN
;
1909 lkb
->lkb_flags
|= DLM_IFL_TIMEOUT_CANCEL
;
1911 _cancel_lock(r
, lkb
);
1920 /* This is only called by dlm_recoverd, and we rely on dlm_ls_stop() stopping
1921 dlm_recoverd before checking/setting ls_recover_begin. */
1923 void dlm_adjust_timeouts(struct dlm_ls
*ls
)
1925 struct dlm_lkb
*lkb
;
1926 u64 adj_us
= jiffies_to_usecs(jiffies
- ls
->ls_recover_begin
);
1928 ls
->ls_recover_begin
= 0;
1929 mutex_lock(&ls
->ls_timeout_mutex
);
1930 list_for_each_entry(lkb
, &ls
->ls_timeout
, lkb_time_list
)
1931 lkb
->lkb_timestamp
= ktime_add_us(lkb
->lkb_timestamp
, adj_us
);
1932 mutex_unlock(&ls
->ls_timeout_mutex
);
1934 if (!dlm_config
.ci_waitwarn_us
)
1937 mutex_lock(&ls
->ls_waiters_mutex
);
1938 list_for_each_entry(lkb
, &ls
->ls_waiters
, lkb_wait_reply
) {
1939 if (ktime_to_us(lkb
->lkb_wait_time
))
1940 lkb
->lkb_wait_time
= ktime_get();
1942 mutex_unlock(&ls
->ls_waiters_mutex
);
1945 /* lkb is master or local copy */
1947 static void set_lvb_lock(struct dlm_rsb
*r
, struct dlm_lkb
*lkb
)
1949 int b
, len
= r
->res_ls
->ls_lvblen
;
1951 /* b=1 lvb returned to caller
1952 b=0 lvb written to rsb or invalidated
1955 b
= dlm_lvb_operations
[lkb
->lkb_grmode
+ 1][lkb
->lkb_rqmode
+ 1];
1958 if (!lkb
->lkb_lvbptr
)
1961 if (!(lkb
->lkb_exflags
& DLM_LKF_VALBLK
))
1967 memcpy(lkb
->lkb_lvbptr
, r
->res_lvbptr
, len
);
1968 lkb
->lkb_lvbseq
= r
->res_lvbseq
;
1970 } else if (b
== 0) {
1971 if (lkb
->lkb_exflags
& DLM_LKF_IVVALBLK
) {
1972 rsb_set_flag(r
, RSB_VALNOTVALID
);
1976 if (!lkb
->lkb_lvbptr
)
1979 if (!(lkb
->lkb_exflags
& DLM_LKF_VALBLK
))
1983 r
->res_lvbptr
= dlm_allocate_lvb(r
->res_ls
);
1988 memcpy(r
->res_lvbptr
, lkb
->lkb_lvbptr
, len
);
1990 lkb
->lkb_lvbseq
= r
->res_lvbseq
;
1991 rsb_clear_flag(r
, RSB_VALNOTVALID
);
1994 if (rsb_flag(r
, RSB_VALNOTVALID
))
1995 lkb
->lkb_sbflags
|= DLM_SBF_VALNOTVALID
;
1998 static void set_lvb_unlock(struct dlm_rsb
*r
, struct dlm_lkb
*lkb
)
2000 if (lkb
->lkb_grmode
< DLM_LOCK_PW
)
2003 if (lkb
->lkb_exflags
& DLM_LKF_IVVALBLK
) {
2004 rsb_set_flag(r
, RSB_VALNOTVALID
);
2008 if (!lkb
->lkb_lvbptr
)
2011 if (!(lkb
->lkb_exflags
& DLM_LKF_VALBLK
))
2015 r
->res_lvbptr
= dlm_allocate_lvb(r
->res_ls
);
2020 memcpy(r
->res_lvbptr
, lkb
->lkb_lvbptr
, r
->res_ls
->ls_lvblen
);
2022 rsb_clear_flag(r
, RSB_VALNOTVALID
);
2025 /* lkb is process copy (pc) */
2027 static void set_lvb_lock_pc(struct dlm_rsb
*r
, struct dlm_lkb
*lkb
,
2028 struct dlm_message
*ms
)
2032 if (!lkb
->lkb_lvbptr
)
2035 if (!(lkb
->lkb_exflags
& DLM_LKF_VALBLK
))
2038 b
= dlm_lvb_operations
[lkb
->lkb_grmode
+ 1][lkb
->lkb_rqmode
+ 1];
2040 int len
= receive_extralen(ms
);
2041 if (len
> r
->res_ls
->ls_lvblen
)
2042 len
= r
->res_ls
->ls_lvblen
;
2043 memcpy(lkb
->lkb_lvbptr
, ms
->m_extra
, len
);
2044 lkb
->lkb_lvbseq
= ms
->m_lvbseq
;
2048 /* Manipulate lkb's on rsb's convert/granted/waiting queues
2049 remove_lock -- used for unlock, removes lkb from granted
2050 revert_lock -- used for cancel, moves lkb from convert to granted
2051 grant_lock -- used for request and convert, adds lkb to granted or
2052 moves lkb from convert or waiting to granted
2054 Each of these is used for master or local copy lkb's. There is
2055 also a _pc() variation used to make the corresponding change on
2056 a process copy (pc) lkb. */
2058 static void _remove_lock(struct dlm_rsb
*r
, struct dlm_lkb
*lkb
)
2061 lkb
->lkb_grmode
= DLM_LOCK_IV
;
2062 /* this unhold undoes the original ref from create_lkb()
2063 so this leads to the lkb being freed */
2067 static void remove_lock(struct dlm_rsb
*r
, struct dlm_lkb
*lkb
)
2069 set_lvb_unlock(r
, lkb
);
2070 _remove_lock(r
, lkb
);
2073 static void remove_lock_pc(struct dlm_rsb
*r
, struct dlm_lkb
*lkb
)
2075 _remove_lock(r
, lkb
);
2078 /* returns: 0 did nothing
2079 1 moved lock to granted
2082 static int revert_lock(struct dlm_rsb
*r
, struct dlm_lkb
*lkb
)
2086 lkb
->lkb_rqmode
= DLM_LOCK_IV
;
2088 switch (lkb
->lkb_status
) {
2089 case DLM_LKSTS_GRANTED
:
2091 case DLM_LKSTS_CONVERT
:
2092 move_lkb(r
, lkb
, DLM_LKSTS_GRANTED
);
2095 case DLM_LKSTS_WAITING
:
2097 lkb
->lkb_grmode
= DLM_LOCK_IV
;
2098 /* this unhold undoes the original ref from create_lkb()
2099 so this leads to the lkb being freed */
2104 log_print("invalid status for revert %d", lkb
->lkb_status
);
2109 static int revert_lock_pc(struct dlm_rsb
*r
, struct dlm_lkb
*lkb
)
2111 return revert_lock(r
, lkb
);
2114 static void _grant_lock(struct dlm_rsb
*r
, struct dlm_lkb
*lkb
)
2116 if (lkb
->lkb_grmode
!= lkb
->lkb_rqmode
) {
2117 lkb
->lkb_grmode
= lkb
->lkb_rqmode
;
2118 if (lkb
->lkb_status
)
2119 move_lkb(r
, lkb
, DLM_LKSTS_GRANTED
);
2121 add_lkb(r
, lkb
, DLM_LKSTS_GRANTED
);
2124 lkb
->lkb_rqmode
= DLM_LOCK_IV
;
2125 lkb
->lkb_highbast
= 0;
2128 static void grant_lock(struct dlm_rsb
*r
, struct dlm_lkb
*lkb
)
2130 set_lvb_lock(r
, lkb
);
2131 _grant_lock(r
, lkb
);
2134 static void grant_lock_pc(struct dlm_rsb
*r
, struct dlm_lkb
*lkb
,
2135 struct dlm_message
*ms
)
2137 set_lvb_lock_pc(r
, lkb
, ms
);
2138 _grant_lock(r
, lkb
);
2141 /* called by grant_pending_locks() which means an async grant message must
2142 be sent to the requesting node in addition to granting the lock if the
2143 lkb belongs to a remote node. */
2145 static void grant_lock_pending(struct dlm_rsb
*r
, struct dlm_lkb
*lkb
)
2148 if (is_master_copy(lkb
))
2151 queue_cast(r
, lkb
, 0);
2154 /* The special CONVDEADLK, ALTPR and ALTCW flags allow the master to
2155 change the granted/requested modes. We're munging things accordingly in
2157 CONVDEADLK: our grmode may have been forced down to NL to resolve a
2159 ALTPR/ALTCW: our rqmode may have been changed to PR or CW to become
2160 compatible with other granted locks */
2162 static void munge_demoted(struct dlm_lkb
*lkb
)
2164 if (lkb
->lkb_rqmode
== DLM_LOCK_IV
|| lkb
->lkb_grmode
== DLM_LOCK_IV
) {
2165 log_print("munge_demoted %x invalid modes gr %d rq %d",
2166 lkb
->lkb_id
, lkb
->lkb_grmode
, lkb
->lkb_rqmode
);
2170 lkb
->lkb_grmode
= DLM_LOCK_NL
;
2173 static void munge_altmode(struct dlm_lkb
*lkb
, struct dlm_message
*ms
)
2175 if (ms
->m_type
!= DLM_MSG_REQUEST_REPLY
&&
2176 ms
->m_type
!= DLM_MSG_GRANT
) {
2177 log_print("munge_altmode %x invalid reply type %d",
2178 lkb
->lkb_id
, ms
->m_type
);
2182 if (lkb
->lkb_exflags
& DLM_LKF_ALTPR
)
2183 lkb
->lkb_rqmode
= DLM_LOCK_PR
;
2184 else if (lkb
->lkb_exflags
& DLM_LKF_ALTCW
)
2185 lkb
->lkb_rqmode
= DLM_LOCK_CW
;
2187 log_print("munge_altmode invalid exflags %x", lkb
->lkb_exflags
);
2192 static inline int first_in_list(struct dlm_lkb
*lkb
, struct list_head
*head
)
2194 struct dlm_lkb
*first
= list_entry(head
->next
, struct dlm_lkb
,
2196 if (lkb
->lkb_id
== first
->lkb_id
)
2202 /* Check if the given lkb conflicts with another lkb on the queue. */
2204 static int queue_conflict(struct list_head
*head
, struct dlm_lkb
*lkb
)
2206 struct dlm_lkb
*this;
2208 list_for_each_entry(this, head
, lkb_statequeue
) {
2211 if (!modes_compat(this, lkb
))
2218 * "A conversion deadlock arises with a pair of lock requests in the converting
2219 * queue for one resource. The granted mode of each lock blocks the requested
2220 * mode of the other lock."
2222 * Part 2: if the granted mode of lkb is preventing an earlier lkb in the
2223 * convert queue from being granted, then deadlk/demote lkb.
2226 * Granted Queue: empty
2227 * Convert Queue: NL->EX (first lock)
2228 * PR->EX (second lock)
2230 * The first lock can't be granted because of the granted mode of the second
2231 * lock and the second lock can't be granted because it's not first in the
2232 * list. We either cancel lkb's conversion (PR->EX) and return EDEADLK, or we
2233 * demote the granted mode of lkb (from PR to NL) if it has the CONVDEADLK
2234 * flag set and return DEMOTED in the lksb flags.
2236 * Originally, this function detected conv-deadlk in a more limited scope:
2237 * - if !modes_compat(lkb1, lkb2) && !modes_compat(lkb2, lkb1), or
2238 * - if lkb1 was the first entry in the queue (not just earlier), and was
2239 * blocked by the granted mode of lkb2, and there was nothing on the
2240 * granted queue preventing lkb1 from being granted immediately, i.e.
2241 * lkb2 was the only thing preventing lkb1 from being granted.
2243 * That second condition meant we'd only say there was conv-deadlk if
2244 * resolving it (by demotion) would lead to the first lock on the convert
2245 * queue being granted right away. It allowed conversion deadlocks to exist
2246 * between locks on the convert queue while they couldn't be granted anyway.
2248 * Now, we detect and take action on conversion deadlocks immediately when
2249 * they're created, even if they may not be immediately consequential. If
2250 * lkb1 exists anywhere in the convert queue and lkb2 comes in with a granted
2251 * mode that would prevent lkb1's conversion from being granted, we do a
2252 * deadlk/demote on lkb2 right away and don't let it onto the convert queue.
2253 * I think this means that the lkb_is_ahead condition below should always
2254 * be zero, i.e. there will never be conv-deadlk between two locks that are
2255 * both already on the convert queue.
2258 static int conversion_deadlock_detect(struct dlm_rsb
*r
, struct dlm_lkb
*lkb2
)
2260 struct dlm_lkb
*lkb1
;
2261 int lkb_is_ahead
= 0;
2263 list_for_each_entry(lkb1
, &r
->res_convertqueue
, lkb_statequeue
) {
2269 if (!lkb_is_ahead
) {
2270 if (!modes_compat(lkb2
, lkb1
))
2273 if (!modes_compat(lkb2
, lkb1
) &&
2274 !modes_compat(lkb1
, lkb2
))
2282 * Return 1 if the lock can be granted, 0 otherwise.
2283 * Also detect and resolve conversion deadlocks.
2285 * lkb is the lock to be granted
2287 * now is 1 if the function is being called in the context of the
2288 * immediate request, it is 0 if called later, after the lock has been
2291 * recover is 1 if dlm_recover_grant() is trying to grant conversions
2294 * References are from chapter 6 of "VAXcluster Principles" by Roy Davis
2297 static int _can_be_granted(struct dlm_rsb
*r
, struct dlm_lkb
*lkb
, int now
,
2300 int8_t conv
= (lkb
->lkb_grmode
!= DLM_LOCK_IV
);
2303 * 6-10: Version 5.4 introduced an option to address the phenomenon of
2304 * a new request for a NL mode lock being blocked.
2306 * 6-11: If the optional EXPEDITE flag is used with the new NL mode
2307 * request, then it would be granted. In essence, the use of this flag
2308 * tells the Lock Manager to expedite theis request by not considering
2309 * what may be in the CONVERTING or WAITING queues... As of this
2310 * writing, the EXPEDITE flag can be used only with new requests for NL
2311 * mode locks. This flag is not valid for conversion requests.
2313 * A shortcut. Earlier checks return an error if EXPEDITE is used in a
2314 * conversion or used with a non-NL requested mode. We also know an
2315 * EXPEDITE request is always granted immediately, so now must always
2316 * be 1. The full condition to grant an expedite request: (now &&
2317 * !conv && lkb->rqmode == DLM_LOCK_NL && (flags & EXPEDITE)) can
2318 * therefore be shortened to just checking the flag.
2321 if (lkb
->lkb_exflags
& DLM_LKF_EXPEDITE
)
2325 * A shortcut. Without this, !queue_conflict(grantqueue, lkb) would be
2326 * added to the remaining conditions.
2329 if (queue_conflict(&r
->res_grantqueue
, lkb
))
2333 * 6-3: By default, a conversion request is immediately granted if the
2334 * requested mode is compatible with the modes of all other granted
2338 if (queue_conflict(&r
->res_convertqueue
, lkb
))
2342 * The RECOVER_GRANT flag means dlm_recover_grant() is granting
2343 * locks for a recovered rsb, on which lkb's have been rebuilt.
2344 * The lkb's may have been rebuilt on the queues in a different
2345 * order than they were in on the previous master. So, granting
2346 * queued conversions in order after recovery doesn't make sense
2347 * since the order hasn't been preserved anyway. The new order
2348 * could also have created a new "in place" conversion deadlock.
2349 * (e.g. old, failed master held granted EX, with PR->EX, NL->EX.
2350 * After recovery, there would be no granted locks, and possibly
2351 * NL->EX, PR->EX, an in-place conversion deadlock.) So, after
2352 * recovery, grant conversions without considering order.
2355 if (conv
&& recover
)
2359 * 6-5: But the default algorithm for deciding whether to grant or
2360 * queue conversion requests does not by itself guarantee that such
2361 * requests are serviced on a "first come first serve" basis. This, in
2362 * turn, can lead to a phenomenon known as "indefinate postponement".
2364 * 6-7: This issue is dealt with by using the optional QUECVT flag with
2365 * the system service employed to request a lock conversion. This flag
2366 * forces certain conversion requests to be queued, even if they are
2367 * compatible with the granted modes of other locks on the same
2368 * resource. Thus, the use of this flag results in conversion requests
2369 * being ordered on a "first come first servce" basis.
2371 * DCT: This condition is all about new conversions being able to occur
2372 * "in place" while the lock remains on the granted queue (assuming
2373 * nothing else conflicts.) IOW if QUECVT isn't set, a conversion
2374 * doesn't _have_ to go onto the convert queue where it's processed in
2375 * order. The "now" variable is necessary to distinguish converts
2376 * being received and processed for the first time now, because once a
2377 * convert is moved to the conversion queue the condition below applies
2378 * requiring fifo granting.
2381 if (now
&& conv
&& !(lkb
->lkb_exflags
& DLM_LKF_QUECVT
))
2385 * Even if the convert is compat with all granted locks,
2386 * QUECVT forces it behind other locks on the convert queue.
2389 if (now
&& conv
&& (lkb
->lkb_exflags
& DLM_LKF_QUECVT
)) {
2390 if (list_empty(&r
->res_convertqueue
))
2397 * The NOORDER flag is set to avoid the standard vms rules on grant
2401 if (lkb
->lkb_exflags
& DLM_LKF_NOORDER
)
2405 * 6-3: Once in that queue [CONVERTING], a conversion request cannot be
2406 * granted until all other conversion requests ahead of it are granted
2410 if (!now
&& conv
&& first_in_list(lkb
, &r
->res_convertqueue
))
2414 * 6-4: By default, a new request is immediately granted only if all
2415 * three of the following conditions are satisfied when the request is
2417 * - The queue of ungranted conversion requests for the resource is
2419 * - The queue of ungranted new requests for the resource is empty.
2420 * - The mode of the new request is compatible with the most
2421 * restrictive mode of all granted locks on the resource.
2424 if (now
&& !conv
&& list_empty(&r
->res_convertqueue
) &&
2425 list_empty(&r
->res_waitqueue
))
2429 * 6-4: Once a lock request is in the queue of ungranted new requests,
2430 * it cannot be granted until the queue of ungranted conversion
2431 * requests is empty, all ungranted new requests ahead of it are
2432 * granted and/or canceled, and it is compatible with the granted mode
2433 * of the most restrictive lock granted on the resource.
2436 if (!now
&& !conv
&& list_empty(&r
->res_convertqueue
) &&
2437 first_in_list(lkb
, &r
->res_waitqueue
))
2443 static int can_be_granted(struct dlm_rsb
*r
, struct dlm_lkb
*lkb
, int now
,
2444 int recover
, int *err
)
2447 int8_t alt
= 0, rqmode
= lkb
->lkb_rqmode
;
2448 int8_t is_convert
= (lkb
->lkb_grmode
!= DLM_LOCK_IV
);
2453 rv
= _can_be_granted(r
, lkb
, now
, recover
);
2458 * The CONVDEADLK flag is non-standard and tells the dlm to resolve
2459 * conversion deadlocks by demoting grmode to NL, otherwise the dlm
2460 * cancels one of the locks.
2463 if (is_convert
&& can_be_queued(lkb
) &&
2464 conversion_deadlock_detect(r
, lkb
)) {
2465 if (lkb
->lkb_exflags
& DLM_LKF_CONVDEADLK
) {
2466 lkb
->lkb_grmode
= DLM_LOCK_NL
;
2467 lkb
->lkb_sbflags
|= DLM_SBF_DEMOTED
;
2468 } else if (!(lkb
->lkb_exflags
& DLM_LKF_NODLCKWT
)) {
2472 log_print("can_be_granted deadlock %x now %d",
2481 * The ALTPR and ALTCW flags are non-standard and tell the dlm to try
2482 * to grant a request in a mode other than the normal rqmode. It's a
2483 * simple way to provide a big optimization to applications that can
2487 if (rqmode
!= DLM_LOCK_PR
&& (lkb
->lkb_exflags
& DLM_LKF_ALTPR
))
2489 else if (rqmode
!= DLM_LOCK_CW
&& (lkb
->lkb_exflags
& DLM_LKF_ALTCW
))
2493 lkb
->lkb_rqmode
= alt
;
2494 rv
= _can_be_granted(r
, lkb
, now
, 0);
2496 lkb
->lkb_sbflags
|= DLM_SBF_ALTMODE
;
2498 lkb
->lkb_rqmode
= rqmode
;
2504 /* FIXME: I don't think that can_be_granted() can/will demote or find deadlock
2505 for locks pending on the convert list. Once verified (watch for these
2506 log_prints), we should be able to just call _can_be_granted() and not
2507 bother with the demote/deadlk cases here (and there's no easy way to deal
2508 with a deadlk here, we'd have to generate something like grant_lock with
2509 the deadlk error.) */
2511 /* Returns the highest requested mode of all blocked conversions; sets
2512 cw if there's a blocked conversion to DLM_LOCK_CW. */
2514 static int grant_pending_convert(struct dlm_rsb
*r
, int high
, int *cw
,
2515 unsigned int *count
)
2517 struct dlm_lkb
*lkb
, *s
;
2518 int recover
= rsb_flag(r
, RSB_RECOVER_GRANT
);
2519 int hi
, demoted
, quit
, grant_restart
, demote_restart
;
2528 list_for_each_entry_safe(lkb
, s
, &r
->res_convertqueue
, lkb_statequeue
) {
2529 demoted
= is_demoted(lkb
);
2532 if (can_be_granted(r
, lkb
, 0, recover
, &deadlk
)) {
2533 grant_lock_pending(r
, lkb
);
2540 if (!demoted
&& is_demoted(lkb
)) {
2541 log_print("WARN: pending demoted %x node %d %s",
2542 lkb
->lkb_id
, lkb
->lkb_nodeid
, r
->res_name
);
2548 log_print("WARN: pending deadlock %x node %d %s",
2549 lkb
->lkb_id
, lkb
->lkb_nodeid
, r
->res_name
);
2554 hi
= max_t(int, lkb
->lkb_rqmode
, hi
);
2556 if (cw
&& lkb
->lkb_rqmode
== DLM_LOCK_CW
)
2562 if (demote_restart
&& !quit
) {
2567 return max_t(int, high
, hi
);
2570 static int grant_pending_wait(struct dlm_rsb
*r
, int high
, int *cw
,
2571 unsigned int *count
)
2573 struct dlm_lkb
*lkb
, *s
;
2575 list_for_each_entry_safe(lkb
, s
, &r
->res_waitqueue
, lkb_statequeue
) {
2576 if (can_be_granted(r
, lkb
, 0, 0, NULL
)) {
2577 grant_lock_pending(r
, lkb
);
2581 high
= max_t(int, lkb
->lkb_rqmode
, high
);
2582 if (lkb
->lkb_rqmode
== DLM_LOCK_CW
)
2590 /* cw of 1 means there's a lock with a rqmode of DLM_LOCK_CW that's blocked
2591 on either the convert or waiting queue.
2592 high is the largest rqmode of all locks blocked on the convert or
2595 static int lock_requires_bast(struct dlm_lkb
*gr
, int high
, int cw
)
2597 if (gr
->lkb_grmode
== DLM_LOCK_PR
&& cw
) {
2598 if (gr
->lkb_highbast
< DLM_LOCK_EX
)
2603 if (gr
->lkb_highbast
< high
&&
2604 !__dlm_compat_matrix
[gr
->lkb_grmode
+1][high
+1])
2609 static void grant_pending_locks(struct dlm_rsb
*r
, unsigned int *count
)
2611 struct dlm_lkb
*lkb
, *s
;
2612 int high
= DLM_LOCK_IV
;
2615 if (!is_master(r
)) {
2616 log_print("grant_pending_locks r nodeid %d", r
->res_nodeid
);
2621 high
= grant_pending_convert(r
, high
, &cw
, count
);
2622 high
= grant_pending_wait(r
, high
, &cw
, count
);
2624 if (high
== DLM_LOCK_IV
)
2628 * If there are locks left on the wait/convert queue then send blocking
2629 * ASTs to granted locks based on the largest requested mode (high)
2633 list_for_each_entry_safe(lkb
, s
, &r
->res_grantqueue
, lkb_statequeue
) {
2634 if (lkb
->lkb_bastfn
&& lock_requires_bast(lkb
, high
, cw
)) {
2635 if (cw
&& high
== DLM_LOCK_PR
&&
2636 lkb
->lkb_grmode
== DLM_LOCK_PR
)
2637 queue_bast(r
, lkb
, DLM_LOCK_CW
);
2639 queue_bast(r
, lkb
, high
);
2640 lkb
->lkb_highbast
= high
;
2645 static int modes_require_bast(struct dlm_lkb
*gr
, struct dlm_lkb
*rq
)
2647 if ((gr
->lkb_grmode
== DLM_LOCK_PR
&& rq
->lkb_rqmode
== DLM_LOCK_CW
) ||
2648 (gr
->lkb_grmode
== DLM_LOCK_CW
&& rq
->lkb_rqmode
== DLM_LOCK_PR
)) {
2649 if (gr
->lkb_highbast
< DLM_LOCK_EX
)
2654 if (gr
->lkb_highbast
< rq
->lkb_rqmode
&& !modes_compat(gr
, rq
))
2659 static void send_bast_queue(struct dlm_rsb
*r
, struct list_head
*head
,
2660 struct dlm_lkb
*lkb
)
2664 list_for_each_entry(gr
, head
, lkb_statequeue
) {
2665 /* skip self when sending basts to convertqueue */
2668 if (gr
->lkb_bastfn
&& modes_require_bast(gr
, lkb
)) {
2669 queue_bast(r
, gr
, lkb
->lkb_rqmode
);
2670 gr
->lkb_highbast
= lkb
->lkb_rqmode
;
2675 static void send_blocking_asts(struct dlm_rsb
*r
, struct dlm_lkb
*lkb
)
2677 send_bast_queue(r
, &r
->res_grantqueue
, lkb
);
2680 static void send_blocking_asts_all(struct dlm_rsb
*r
, struct dlm_lkb
*lkb
)
2682 send_bast_queue(r
, &r
->res_grantqueue
, lkb
);
2683 send_bast_queue(r
, &r
->res_convertqueue
, lkb
);
2686 /* set_master(r, lkb) -- set the master nodeid of a resource
2688 The purpose of this function is to set the nodeid field in the given
2689 lkb using the nodeid field in the given rsb. If the rsb's nodeid is
2690 known, it can just be copied to the lkb and the function will return
2691 0. If the rsb's nodeid is _not_ known, it needs to be looked up
2692 before it can be copied to the lkb.
2694 When the rsb nodeid is being looked up remotely, the initial lkb
2695 causing the lookup is kept on the ls_waiters list waiting for the
2696 lookup reply. Other lkb's waiting for the same rsb lookup are kept
2697 on the rsb's res_lookup list until the master is verified.
2700 0: nodeid is set in rsb/lkb and the caller should go ahead and use it
2701 1: the rsb master is not available and the lkb has been placed on
2705 static int set_master(struct dlm_rsb
*r
, struct dlm_lkb
*lkb
)
2707 int our_nodeid
= dlm_our_nodeid();
2709 if (rsb_flag(r
, RSB_MASTER_UNCERTAIN
)) {
2710 rsb_clear_flag(r
, RSB_MASTER_UNCERTAIN
);
2711 r
->res_first_lkid
= lkb
->lkb_id
;
2712 lkb
->lkb_nodeid
= r
->res_nodeid
;
2716 if (r
->res_first_lkid
&& r
->res_first_lkid
!= lkb
->lkb_id
) {
2717 list_add_tail(&lkb
->lkb_rsb_lookup
, &r
->res_lookup
);
2721 if (r
->res_master_nodeid
== our_nodeid
) {
2722 lkb
->lkb_nodeid
= 0;
2726 if (r
->res_master_nodeid
) {
2727 lkb
->lkb_nodeid
= r
->res_master_nodeid
;
2731 if (dlm_dir_nodeid(r
) == our_nodeid
) {
2732 /* This is a somewhat unusual case; find_rsb will usually
2733 have set res_master_nodeid when dir nodeid is local, but
2734 there are cases where we become the dir node after we've
2735 past find_rsb and go through _request_lock again.
2736 confirm_master() or process_lookup_list() needs to be
2737 called after this. */
2738 log_debug(r
->res_ls
, "set_master %x self master %d dir %d %s",
2739 lkb
->lkb_id
, r
->res_master_nodeid
, r
->res_dir_nodeid
,
2741 r
->res_master_nodeid
= our_nodeid
;
2743 lkb
->lkb_nodeid
= 0;
2747 wait_pending_remove(r
);
2749 r
->res_first_lkid
= lkb
->lkb_id
;
2750 send_lookup(r
, lkb
);
2754 static void process_lookup_list(struct dlm_rsb
*r
)
2756 struct dlm_lkb
*lkb
, *safe
;
2758 list_for_each_entry_safe(lkb
, safe
, &r
->res_lookup
, lkb_rsb_lookup
) {
2759 list_del_init(&lkb
->lkb_rsb_lookup
);
2760 _request_lock(r
, lkb
);
2765 /* confirm_master -- confirm (or deny) an rsb's master nodeid */
2767 static void confirm_master(struct dlm_rsb
*r
, int error
)
2769 struct dlm_lkb
*lkb
;
2771 if (!r
->res_first_lkid
)
2777 r
->res_first_lkid
= 0;
2778 process_lookup_list(r
);
2784 /* the remote request failed and won't be retried (it was
2785 a NOQUEUE, or has been canceled/unlocked); make a waiting
2786 lkb the first_lkid */
2788 r
->res_first_lkid
= 0;
2790 if (!list_empty(&r
->res_lookup
)) {
2791 lkb
= list_entry(r
->res_lookup
.next
, struct dlm_lkb
,
2793 list_del_init(&lkb
->lkb_rsb_lookup
);
2794 r
->res_first_lkid
= lkb
->lkb_id
;
2795 _request_lock(r
, lkb
);
2800 log_error(r
->res_ls
, "confirm_master unknown error %d", error
);
2804 static int set_lock_args(int mode
, struct dlm_lksb
*lksb
, uint32_t flags
,
2805 int namelen
, unsigned long timeout_cs
,
2806 void (*ast
) (void *astparam
),
2808 void (*bast
) (void *astparam
, int mode
),
2809 struct dlm_args
*args
)
2813 /* check for invalid arg usage */
2815 if (mode
< 0 || mode
> DLM_LOCK_EX
)
2818 if (!(flags
& DLM_LKF_CONVERT
) && (namelen
> DLM_RESNAME_MAXLEN
))
2821 if (flags
& DLM_LKF_CANCEL
)
2824 if (flags
& DLM_LKF_QUECVT
&& !(flags
& DLM_LKF_CONVERT
))
2827 if (flags
& DLM_LKF_CONVDEADLK
&& !(flags
& DLM_LKF_CONVERT
))
2830 if (flags
& DLM_LKF_CONVDEADLK
&& flags
& DLM_LKF_NOQUEUE
)
2833 if (flags
& DLM_LKF_EXPEDITE
&& flags
& DLM_LKF_CONVERT
)
2836 if (flags
& DLM_LKF_EXPEDITE
&& flags
& DLM_LKF_QUECVT
)
2839 if (flags
& DLM_LKF_EXPEDITE
&& flags
& DLM_LKF_NOQUEUE
)
2842 if (flags
& DLM_LKF_EXPEDITE
&& mode
!= DLM_LOCK_NL
)
2848 if (flags
& DLM_LKF_VALBLK
&& !lksb
->sb_lvbptr
)
2851 if (flags
& DLM_LKF_CONVERT
&& !lksb
->sb_lkid
)
2854 /* these args will be copied to the lkb in validate_lock_args,
2855 it cannot be done now because when converting locks, fields in
2856 an active lkb cannot be modified before locking the rsb */
2858 args
->flags
= flags
;
2860 args
->astparam
= astparam
;
2861 args
->bastfn
= bast
;
2862 args
->timeout
= timeout_cs
;
2870 static int set_unlock_args(uint32_t flags
, void *astarg
, struct dlm_args
*args
)
2872 if (flags
& ~(DLM_LKF_CANCEL
| DLM_LKF_VALBLK
| DLM_LKF_IVVALBLK
|
2873 DLM_LKF_FORCEUNLOCK
))
2876 if (flags
& DLM_LKF_CANCEL
&& flags
& DLM_LKF_FORCEUNLOCK
)
2879 args
->flags
= flags
;
2880 args
->astparam
= astarg
;
2884 static int validate_lock_args(struct dlm_ls
*ls
, struct dlm_lkb
*lkb
,
2885 struct dlm_args
*args
)
2889 if (args
->flags
& DLM_LKF_CONVERT
) {
2890 if (lkb
->lkb_flags
& DLM_IFL_MSTCPY
)
2893 if (args
->flags
& DLM_LKF_QUECVT
&&
2894 !__quecvt_compat_matrix
[lkb
->lkb_grmode
+1][args
->mode
+1])
2898 if (lkb
->lkb_status
!= DLM_LKSTS_GRANTED
)
2901 if (lkb
->lkb_wait_type
)
2904 if (is_overlap(lkb
))
2908 lkb
->lkb_exflags
= args
->flags
;
2909 lkb
->lkb_sbflags
= 0;
2910 lkb
->lkb_astfn
= args
->astfn
;
2911 lkb
->lkb_astparam
= args
->astparam
;
2912 lkb
->lkb_bastfn
= args
->bastfn
;
2913 lkb
->lkb_rqmode
= args
->mode
;
2914 lkb
->lkb_lksb
= args
->lksb
;
2915 lkb
->lkb_lvbptr
= args
->lksb
->sb_lvbptr
;
2916 lkb
->lkb_ownpid
= (int) current
->pid
;
2917 lkb
->lkb_timeout_cs
= args
->timeout
;
2921 log_debug(ls
, "validate_lock_args %d %x %x %x %d %d %s",
2922 rv
, lkb
->lkb_id
, lkb
->lkb_flags
, args
->flags
,
2923 lkb
->lkb_status
, lkb
->lkb_wait_type
,
2924 lkb
->lkb_resource
->res_name
);
2928 /* when dlm_unlock() sees -EBUSY with CANCEL/FORCEUNLOCK it returns 0
2931 /* note: it's valid for lkb_nodeid/res_nodeid to be -1 when we get here
2932 because there may be a lookup in progress and it's valid to do
2933 cancel/unlockf on it */
2935 static int validate_unlock_args(struct dlm_lkb
*lkb
, struct dlm_args
*args
)
2937 struct dlm_ls
*ls
= lkb
->lkb_resource
->res_ls
;
2940 if (lkb
->lkb_flags
& DLM_IFL_MSTCPY
) {
2941 log_error(ls
, "unlock on MSTCPY %x", lkb
->lkb_id
);
2946 /* an lkb may still exist even though the lock is EOL'ed due to a
2947 cancel, unlock or failed noqueue request; an app can't use these
2948 locks; return same error as if the lkid had not been found at all */
2950 if (lkb
->lkb_flags
& DLM_IFL_ENDOFLIFE
) {
2951 log_debug(ls
, "unlock on ENDOFLIFE %x", lkb
->lkb_id
);
2956 /* an lkb may be waiting for an rsb lookup to complete where the
2957 lookup was initiated by another lock */
2959 if (!list_empty(&lkb
->lkb_rsb_lookup
)) {
2960 if (args
->flags
& (DLM_LKF_CANCEL
| DLM_LKF_FORCEUNLOCK
)) {
2961 log_debug(ls
, "unlock on rsb_lookup %x", lkb
->lkb_id
);
2962 list_del_init(&lkb
->lkb_rsb_lookup
);
2963 queue_cast(lkb
->lkb_resource
, lkb
,
2964 args
->flags
& DLM_LKF_CANCEL
?
2965 -DLM_ECANCEL
: -DLM_EUNLOCK
);
2966 unhold_lkb(lkb
); /* undoes create_lkb() */
2968 /* caller changes -EBUSY to 0 for CANCEL and FORCEUNLOCK */
2973 /* cancel not allowed with another cancel/unlock in progress */
2975 if (args
->flags
& DLM_LKF_CANCEL
) {
2976 if (lkb
->lkb_exflags
& DLM_LKF_CANCEL
)
2979 if (is_overlap(lkb
))
2982 /* don't let scand try to do a cancel */
2985 if (lkb
->lkb_flags
& DLM_IFL_RESEND
) {
2986 lkb
->lkb_flags
|= DLM_IFL_OVERLAP_CANCEL
;
2991 /* there's nothing to cancel */
2992 if (lkb
->lkb_status
== DLM_LKSTS_GRANTED
&&
2993 !lkb
->lkb_wait_type
) {
2998 switch (lkb
->lkb_wait_type
) {
2999 case DLM_MSG_LOOKUP
:
3000 case DLM_MSG_REQUEST
:
3001 lkb
->lkb_flags
|= DLM_IFL_OVERLAP_CANCEL
;
3004 case DLM_MSG_UNLOCK
:
3005 case DLM_MSG_CANCEL
:
3008 /* add_to_waiters() will set OVERLAP_CANCEL */
3012 /* do we need to allow a force-unlock if there's a normal unlock
3013 already in progress? in what conditions could the normal unlock
3014 fail such that we'd want to send a force-unlock to be sure? */
3016 if (args
->flags
& DLM_LKF_FORCEUNLOCK
) {
3017 if (lkb
->lkb_exflags
& DLM_LKF_FORCEUNLOCK
)
3020 if (is_overlap_unlock(lkb
))
3023 /* don't let scand try to do a cancel */
3026 if (lkb
->lkb_flags
& DLM_IFL_RESEND
) {
3027 lkb
->lkb_flags
|= DLM_IFL_OVERLAP_UNLOCK
;
3032 switch (lkb
->lkb_wait_type
) {
3033 case DLM_MSG_LOOKUP
:
3034 case DLM_MSG_REQUEST
:
3035 lkb
->lkb_flags
|= DLM_IFL_OVERLAP_UNLOCK
;
3038 case DLM_MSG_UNLOCK
:
3041 /* add_to_waiters() will set OVERLAP_UNLOCK */
3045 /* normal unlock not allowed if there's any op in progress */
3047 if (lkb
->lkb_wait_type
|| lkb
->lkb_wait_count
)
3051 /* an overlapping op shouldn't blow away exflags from other op */
3052 lkb
->lkb_exflags
|= args
->flags
;
3053 lkb
->lkb_sbflags
= 0;
3054 lkb
->lkb_astparam
= args
->astparam
;
3058 log_debug(ls
, "validate_unlock_args %d %x %x %x %x %d %s", rv
,
3059 lkb
->lkb_id
, lkb
->lkb_flags
, lkb
->lkb_exflags
,
3060 args
->flags
, lkb
->lkb_wait_type
,
3061 lkb
->lkb_resource
->res_name
);
3066 * Four stage 4 varieties:
3067 * do_request(), do_convert(), do_unlock(), do_cancel()
3068 * These are called on the master node for the given lock and
3069 * from the central locking logic.
3072 static int do_request(struct dlm_rsb
*r
, struct dlm_lkb
*lkb
)
3076 if (can_be_granted(r
, lkb
, 1, 0, NULL
)) {
3078 queue_cast(r
, lkb
, 0);
3082 if (can_be_queued(lkb
)) {
3083 error
= -EINPROGRESS
;
3084 add_lkb(r
, lkb
, DLM_LKSTS_WAITING
);
3090 queue_cast(r
, lkb
, -EAGAIN
);
3095 static void do_request_effects(struct dlm_rsb
*r
, struct dlm_lkb
*lkb
,
3100 if (force_blocking_asts(lkb
))
3101 send_blocking_asts_all(r
, lkb
);
3104 send_blocking_asts(r
, lkb
);
3109 static int do_convert(struct dlm_rsb
*r
, struct dlm_lkb
*lkb
)
3114 /* changing an existing lock may allow others to be granted */
3116 if (can_be_granted(r
, lkb
, 1, 0, &deadlk
)) {
3118 queue_cast(r
, lkb
, 0);
3122 /* can_be_granted() detected that this lock would block in a conversion
3123 deadlock, so we leave it on the granted queue and return EDEADLK in
3124 the ast for the convert. */
3127 /* it's left on the granted queue */
3128 revert_lock(r
, lkb
);
3129 queue_cast(r
, lkb
, -EDEADLK
);
3134 /* is_demoted() means the can_be_granted() above set the grmode
3135 to NL, and left us on the granted queue. This auto-demotion
3136 (due to CONVDEADLK) might mean other locks, and/or this lock, are
3137 now grantable. We have to try to grant other converting locks
3138 before we try again to grant this one. */
3140 if (is_demoted(lkb
)) {
3141 grant_pending_convert(r
, DLM_LOCK_IV
, NULL
, NULL
);
3142 if (_can_be_granted(r
, lkb
, 1, 0)) {
3144 queue_cast(r
, lkb
, 0);
3147 /* else fall through and move to convert queue */
3150 if (can_be_queued(lkb
)) {
3151 error
= -EINPROGRESS
;
3153 add_lkb(r
, lkb
, DLM_LKSTS_CONVERT
);
3159 queue_cast(r
, lkb
, -EAGAIN
);
3164 static void do_convert_effects(struct dlm_rsb
*r
, struct dlm_lkb
*lkb
,
3169 grant_pending_locks(r
, NULL
);
3170 /* grant_pending_locks also sends basts */
3173 if (force_blocking_asts(lkb
))
3174 send_blocking_asts_all(r
, lkb
);
3177 send_blocking_asts(r
, lkb
);
3182 static int do_unlock(struct dlm_rsb
*r
, struct dlm_lkb
*lkb
)
3184 remove_lock(r
, lkb
);
3185 queue_cast(r
, lkb
, -DLM_EUNLOCK
);
3186 return -DLM_EUNLOCK
;
3189 static void do_unlock_effects(struct dlm_rsb
*r
, struct dlm_lkb
*lkb
,
3192 grant_pending_locks(r
, NULL
);
3195 /* returns: 0 did nothing, -DLM_ECANCEL canceled lock */
3197 static int do_cancel(struct dlm_rsb
*r
, struct dlm_lkb
*lkb
)
3201 error
= revert_lock(r
, lkb
);
3203 queue_cast(r
, lkb
, -DLM_ECANCEL
);
3204 return -DLM_ECANCEL
;
3209 static void do_cancel_effects(struct dlm_rsb
*r
, struct dlm_lkb
*lkb
,
3213 grant_pending_locks(r
, NULL
);
3217 * Four stage 3 varieties:
3218 * _request_lock(), _convert_lock(), _unlock_lock(), _cancel_lock()
3221 /* add a new lkb to a possibly new rsb, called by requesting process */
3223 static int _request_lock(struct dlm_rsb
*r
, struct dlm_lkb
*lkb
)
3227 /* set_master: sets lkb nodeid from r */
3229 error
= set_master(r
, lkb
);
3238 /* receive_request() calls do_request() on remote node */
3239 error
= send_request(r
, lkb
);
3241 error
= do_request(r
, lkb
);
3242 /* for remote locks the request_reply is sent
3243 between do_request and do_request_effects */
3244 do_request_effects(r
, lkb
, error
);
3250 /* change some property of an existing lkb, e.g. mode */
3252 static int _convert_lock(struct dlm_rsb
*r
, struct dlm_lkb
*lkb
)
3257 /* receive_convert() calls do_convert() on remote node */
3258 error
= send_convert(r
, lkb
);
3260 error
= do_convert(r
, lkb
);
3261 /* for remote locks the convert_reply is sent
3262 between do_convert and do_convert_effects */
3263 do_convert_effects(r
, lkb
, error
);
3269 /* remove an existing lkb from the granted queue */
3271 static int _unlock_lock(struct dlm_rsb
*r
, struct dlm_lkb
*lkb
)
3276 /* receive_unlock() calls do_unlock() on remote node */
3277 error
= send_unlock(r
, lkb
);
3279 error
= do_unlock(r
, lkb
);
3280 /* for remote locks the unlock_reply is sent
3281 between do_unlock and do_unlock_effects */
3282 do_unlock_effects(r
, lkb
, error
);
3288 /* remove an existing lkb from the convert or wait queue */
3290 static int _cancel_lock(struct dlm_rsb
*r
, struct dlm_lkb
*lkb
)
3295 /* receive_cancel() calls do_cancel() on remote node */
3296 error
= send_cancel(r
, lkb
);
3298 error
= do_cancel(r
, lkb
);
3299 /* for remote locks the cancel_reply is sent
3300 between do_cancel and do_cancel_effects */
3301 do_cancel_effects(r
, lkb
, error
);
3308 * Four stage 2 varieties:
3309 * request_lock(), convert_lock(), unlock_lock(), cancel_lock()
3312 static int request_lock(struct dlm_ls
*ls
, struct dlm_lkb
*lkb
, char *name
,
3313 int len
, struct dlm_args
*args
)
3318 error
= validate_lock_args(ls
, lkb
, args
);
3322 error
= find_rsb(ls
, name
, len
, 0, R_REQUEST
, &r
);
3329 lkb
->lkb_lksb
->sb_lkid
= lkb
->lkb_id
;
3331 error
= _request_lock(r
, lkb
);
3338 static int convert_lock(struct dlm_ls
*ls
, struct dlm_lkb
*lkb
,
3339 struct dlm_args
*args
)
3344 r
= lkb
->lkb_resource
;
3349 error
= validate_lock_args(ls
, lkb
, args
);
3353 error
= _convert_lock(r
, lkb
);
3360 static int unlock_lock(struct dlm_ls
*ls
, struct dlm_lkb
*lkb
,
3361 struct dlm_args
*args
)
3366 r
= lkb
->lkb_resource
;
3371 error
= validate_unlock_args(lkb
, args
);
3375 error
= _unlock_lock(r
, lkb
);
3382 static int cancel_lock(struct dlm_ls
*ls
, struct dlm_lkb
*lkb
,
3383 struct dlm_args
*args
)
3388 r
= lkb
->lkb_resource
;
3393 error
= validate_unlock_args(lkb
, args
);
3397 error
= _cancel_lock(r
, lkb
);
3405 * Two stage 1 varieties: dlm_lock() and dlm_unlock()
3408 int dlm_lock(dlm_lockspace_t
*lockspace
,
3410 struct dlm_lksb
*lksb
,
3413 unsigned int namelen
,
3414 uint32_t parent_lkid
,
3415 void (*ast
) (void *astarg
),
3417 void (*bast
) (void *astarg
, int mode
))
3420 struct dlm_lkb
*lkb
;
3421 struct dlm_args args
;
3422 int error
, convert
= flags
& DLM_LKF_CONVERT
;
3424 ls
= dlm_find_lockspace_local(lockspace
);
3428 dlm_lock_recovery(ls
);
3431 error
= find_lkb(ls
, lksb
->sb_lkid
, &lkb
);
3433 error
= create_lkb(ls
, &lkb
);
3438 error
= set_lock_args(mode
, lksb
, flags
, namelen
, 0, ast
,
3439 astarg
, bast
, &args
);
3444 error
= convert_lock(ls
, lkb
, &args
);
3446 error
= request_lock(ls
, lkb
, name
, namelen
, &args
);
3448 if (error
== -EINPROGRESS
)
3451 if (convert
|| error
)
3453 if (error
== -EAGAIN
|| error
== -EDEADLK
)
3456 dlm_unlock_recovery(ls
);
3457 dlm_put_lockspace(ls
);
3461 int dlm_unlock(dlm_lockspace_t
*lockspace
,
3464 struct dlm_lksb
*lksb
,
3468 struct dlm_lkb
*lkb
;
3469 struct dlm_args args
;
3472 ls
= dlm_find_lockspace_local(lockspace
);
3476 dlm_lock_recovery(ls
);
3478 error
= find_lkb(ls
, lkid
, &lkb
);
3482 error
= set_unlock_args(flags
, astarg
, &args
);
3486 if (flags
& DLM_LKF_CANCEL
)
3487 error
= cancel_lock(ls
, lkb
, &args
);
3489 error
= unlock_lock(ls
, lkb
, &args
);
3491 if (error
== -DLM_EUNLOCK
|| error
== -DLM_ECANCEL
)
3493 if (error
== -EBUSY
&& (flags
& (DLM_LKF_CANCEL
| DLM_LKF_FORCEUNLOCK
)))
3498 dlm_unlock_recovery(ls
);
3499 dlm_put_lockspace(ls
);
3504 * send/receive routines for remote operations and replies
3508 * send_request receive_request
3509 * send_convert receive_convert
3510 * send_unlock receive_unlock
3511 * send_cancel receive_cancel
3512 * send_grant receive_grant
3513 * send_bast receive_bast
3514 * send_lookup receive_lookup
3515 * send_remove receive_remove
3518 * receive_request_reply send_request_reply
3519 * receive_convert_reply send_convert_reply
3520 * receive_unlock_reply send_unlock_reply
3521 * receive_cancel_reply send_cancel_reply
3522 * receive_lookup_reply send_lookup_reply
3525 static int _create_message(struct dlm_ls
*ls
, int mb_len
,
3526 int to_nodeid
, int mstype
,
3527 struct dlm_message
**ms_ret
,
3528 struct dlm_mhandle
**mh_ret
)
3530 struct dlm_message
*ms
;
3531 struct dlm_mhandle
*mh
;
3534 /* get_buffer gives us a message handle (mh) that we need to
3535 pass into lowcomms_commit and a message buffer (mb) that we
3536 write our data into */
3538 mh
= dlm_lowcomms_get_buffer(to_nodeid
, mb_len
, GFP_NOFS
, &mb
);
3542 memset(mb
, 0, mb_len
);
3544 ms
= (struct dlm_message
*) mb
;
3546 ms
->m_header
.h_version
= (DLM_HEADER_MAJOR
| DLM_HEADER_MINOR
);
3547 ms
->m_header
.h_lockspace
= ls
->ls_global_id
;
3548 ms
->m_header
.h_nodeid
= dlm_our_nodeid();
3549 ms
->m_header
.h_length
= mb_len
;
3550 ms
->m_header
.h_cmd
= DLM_MSG
;
3552 ms
->m_type
= mstype
;
3559 static int create_message(struct dlm_rsb
*r
, struct dlm_lkb
*lkb
,
3560 int to_nodeid
, int mstype
,
3561 struct dlm_message
**ms_ret
,
3562 struct dlm_mhandle
**mh_ret
)
3564 int mb_len
= sizeof(struct dlm_message
);
3567 case DLM_MSG_REQUEST
:
3568 case DLM_MSG_LOOKUP
:
3569 case DLM_MSG_REMOVE
:
3570 mb_len
+= r
->res_length
;
3572 case DLM_MSG_CONVERT
:
3573 case DLM_MSG_UNLOCK
:
3574 case DLM_MSG_REQUEST_REPLY
:
3575 case DLM_MSG_CONVERT_REPLY
:
3577 if (lkb
&& lkb
->lkb_lvbptr
)
3578 mb_len
+= r
->res_ls
->ls_lvblen
;
3582 return _create_message(r
->res_ls
, mb_len
, to_nodeid
, mstype
,
3586 /* further lowcomms enhancements or alternate implementations may make
3587 the return value from this function useful at some point */
3589 static int send_message(struct dlm_mhandle
*mh
, struct dlm_message
*ms
)
3591 dlm_message_out(ms
);
3592 dlm_lowcomms_commit_buffer(mh
);
3596 static void send_args(struct dlm_rsb
*r
, struct dlm_lkb
*lkb
,
3597 struct dlm_message
*ms
)
3599 ms
->m_nodeid
= lkb
->lkb_nodeid
;
3600 ms
->m_pid
= lkb
->lkb_ownpid
;
3601 ms
->m_lkid
= lkb
->lkb_id
;
3602 ms
->m_remid
= lkb
->lkb_remid
;
3603 ms
->m_exflags
= lkb
->lkb_exflags
;
3604 ms
->m_sbflags
= lkb
->lkb_sbflags
;
3605 ms
->m_flags
= lkb
->lkb_flags
;
3606 ms
->m_lvbseq
= lkb
->lkb_lvbseq
;
3607 ms
->m_status
= lkb
->lkb_status
;
3608 ms
->m_grmode
= lkb
->lkb_grmode
;
3609 ms
->m_rqmode
= lkb
->lkb_rqmode
;
3610 ms
->m_hash
= r
->res_hash
;
3612 /* m_result and m_bastmode are set from function args,
3613 not from lkb fields */
3615 if (lkb
->lkb_bastfn
)
3616 ms
->m_asts
|= DLM_CB_BAST
;
3618 ms
->m_asts
|= DLM_CB_CAST
;
3620 /* compare with switch in create_message; send_remove() doesn't
3623 switch (ms
->m_type
) {
3624 case DLM_MSG_REQUEST
:
3625 case DLM_MSG_LOOKUP
:
3626 memcpy(ms
->m_extra
, r
->res_name
, r
->res_length
);
3628 case DLM_MSG_CONVERT
:
3629 case DLM_MSG_UNLOCK
:
3630 case DLM_MSG_REQUEST_REPLY
:
3631 case DLM_MSG_CONVERT_REPLY
:
3633 if (!lkb
->lkb_lvbptr
)
3635 memcpy(ms
->m_extra
, lkb
->lkb_lvbptr
, r
->res_ls
->ls_lvblen
);
3640 static int send_common(struct dlm_rsb
*r
, struct dlm_lkb
*lkb
, int mstype
)
3642 struct dlm_message
*ms
;
3643 struct dlm_mhandle
*mh
;
3644 int to_nodeid
, error
;
3646 to_nodeid
= r
->res_nodeid
;
3648 error
= add_to_waiters(lkb
, mstype
, to_nodeid
);
3652 error
= create_message(r
, lkb
, to_nodeid
, mstype
, &ms
, &mh
);
3656 send_args(r
, lkb
, ms
);
3658 error
= send_message(mh
, ms
);
3664 remove_from_waiters(lkb
, msg_reply_type(mstype
));
3668 static int send_request(struct dlm_rsb
*r
, struct dlm_lkb
*lkb
)
3670 return send_common(r
, lkb
, DLM_MSG_REQUEST
);
3673 static int send_convert(struct dlm_rsb
*r
, struct dlm_lkb
*lkb
)
3677 error
= send_common(r
, lkb
, DLM_MSG_CONVERT
);
3679 /* down conversions go without a reply from the master */
3680 if (!error
&& down_conversion(lkb
)) {
3681 remove_from_waiters(lkb
, DLM_MSG_CONVERT_REPLY
);
3682 r
->res_ls
->ls_stub_ms
.m_flags
= DLM_IFL_STUB_MS
;
3683 r
->res_ls
->ls_stub_ms
.m_type
= DLM_MSG_CONVERT_REPLY
;
3684 r
->res_ls
->ls_stub_ms
.m_result
= 0;
3685 __receive_convert_reply(r
, lkb
, &r
->res_ls
->ls_stub_ms
);
3691 /* FIXME: if this lkb is the only lock we hold on the rsb, then set
3692 MASTER_UNCERTAIN to force the next request on the rsb to confirm
3693 that the master is still correct. */
3695 static int send_unlock(struct dlm_rsb
*r
, struct dlm_lkb
*lkb
)
3697 return send_common(r
, lkb
, DLM_MSG_UNLOCK
);
3700 static int send_cancel(struct dlm_rsb
*r
, struct dlm_lkb
*lkb
)
3702 return send_common(r
, lkb
, DLM_MSG_CANCEL
);
3705 static int send_grant(struct dlm_rsb
*r
, struct dlm_lkb
*lkb
)
3707 struct dlm_message
*ms
;
3708 struct dlm_mhandle
*mh
;
3709 int to_nodeid
, error
;
3711 to_nodeid
= lkb
->lkb_nodeid
;
3713 error
= create_message(r
, lkb
, to_nodeid
, DLM_MSG_GRANT
, &ms
, &mh
);
3717 send_args(r
, lkb
, ms
);
3721 error
= send_message(mh
, ms
);
3726 static int send_bast(struct dlm_rsb
*r
, struct dlm_lkb
*lkb
, int mode
)
3728 struct dlm_message
*ms
;
3729 struct dlm_mhandle
*mh
;
3730 int to_nodeid
, error
;
3732 to_nodeid
= lkb
->lkb_nodeid
;
3734 error
= create_message(r
, NULL
, to_nodeid
, DLM_MSG_BAST
, &ms
, &mh
);
3738 send_args(r
, lkb
, ms
);
3740 ms
->m_bastmode
= mode
;
3742 error
= send_message(mh
, ms
);
3747 static int send_lookup(struct dlm_rsb
*r
, struct dlm_lkb
*lkb
)
3749 struct dlm_message
*ms
;
3750 struct dlm_mhandle
*mh
;
3751 int to_nodeid
, error
;
3753 to_nodeid
= dlm_dir_nodeid(r
);
3755 error
= add_to_waiters(lkb
, DLM_MSG_LOOKUP
, to_nodeid
);
3759 error
= create_message(r
, NULL
, to_nodeid
, DLM_MSG_LOOKUP
, &ms
, &mh
);
3763 send_args(r
, lkb
, ms
);
3765 error
= send_message(mh
, ms
);
3771 remove_from_waiters(lkb
, DLM_MSG_LOOKUP_REPLY
);
3775 static int send_remove(struct dlm_rsb
*r
)
3777 struct dlm_message
*ms
;
3778 struct dlm_mhandle
*mh
;
3779 int to_nodeid
, error
;
3781 to_nodeid
= dlm_dir_nodeid(r
);
3783 error
= create_message(r
, NULL
, to_nodeid
, DLM_MSG_REMOVE
, &ms
, &mh
);
3787 memcpy(ms
->m_extra
, r
->res_name
, r
->res_length
);
3788 ms
->m_hash
= r
->res_hash
;
3790 error
= send_message(mh
, ms
);
3795 static int send_common_reply(struct dlm_rsb
*r
, struct dlm_lkb
*lkb
,
3798 struct dlm_message
*ms
;
3799 struct dlm_mhandle
*mh
;
3800 int to_nodeid
, error
;
3802 to_nodeid
= lkb
->lkb_nodeid
;
3804 error
= create_message(r
, lkb
, to_nodeid
, mstype
, &ms
, &mh
);
3808 send_args(r
, lkb
, ms
);
3812 error
= send_message(mh
, ms
);
3817 static int send_request_reply(struct dlm_rsb
*r
, struct dlm_lkb
*lkb
, int rv
)
3819 return send_common_reply(r
, lkb
, DLM_MSG_REQUEST_REPLY
, rv
);
3822 static int send_convert_reply(struct dlm_rsb
*r
, struct dlm_lkb
*lkb
, int rv
)
3824 return send_common_reply(r
, lkb
, DLM_MSG_CONVERT_REPLY
, rv
);
3827 static int send_unlock_reply(struct dlm_rsb
*r
, struct dlm_lkb
*lkb
, int rv
)
3829 return send_common_reply(r
, lkb
, DLM_MSG_UNLOCK_REPLY
, rv
);
3832 static int send_cancel_reply(struct dlm_rsb
*r
, struct dlm_lkb
*lkb
, int rv
)
3834 return send_common_reply(r
, lkb
, DLM_MSG_CANCEL_REPLY
, rv
);
3837 static int send_lookup_reply(struct dlm_ls
*ls
, struct dlm_message
*ms_in
,
3838 int ret_nodeid
, int rv
)
3840 struct dlm_rsb
*r
= &ls
->ls_stub_rsb
;
3841 struct dlm_message
*ms
;
3842 struct dlm_mhandle
*mh
;
3843 int error
, nodeid
= ms_in
->m_header
.h_nodeid
;
3845 error
= create_message(r
, NULL
, nodeid
, DLM_MSG_LOOKUP_REPLY
, &ms
, &mh
);
3849 ms
->m_lkid
= ms_in
->m_lkid
;
3851 ms
->m_nodeid
= ret_nodeid
;
3853 error
= send_message(mh
, ms
);
3858 /* which args we save from a received message depends heavily on the type
3859 of message, unlike the send side where we can safely send everything about
3860 the lkb for any type of message */
3862 static void receive_flags(struct dlm_lkb
*lkb
, struct dlm_message
*ms
)
3864 lkb
->lkb_exflags
= ms
->m_exflags
;
3865 lkb
->lkb_sbflags
= ms
->m_sbflags
;
3866 lkb
->lkb_flags
= (lkb
->lkb_flags
& 0xFFFF0000) |
3867 (ms
->m_flags
& 0x0000FFFF);
3870 static void receive_flags_reply(struct dlm_lkb
*lkb
, struct dlm_message
*ms
)
3872 if (ms
->m_flags
== DLM_IFL_STUB_MS
)
3875 lkb
->lkb_sbflags
= ms
->m_sbflags
;
3876 lkb
->lkb_flags
= (lkb
->lkb_flags
& 0xFFFF0000) |
3877 (ms
->m_flags
& 0x0000FFFF);
3880 static int receive_extralen(struct dlm_message
*ms
)
3882 return (ms
->m_header
.h_length
- sizeof(struct dlm_message
));
3885 static int receive_lvb(struct dlm_ls
*ls
, struct dlm_lkb
*lkb
,
3886 struct dlm_message
*ms
)
3890 if (lkb
->lkb_exflags
& DLM_LKF_VALBLK
) {
3891 if (!lkb
->lkb_lvbptr
)
3892 lkb
->lkb_lvbptr
= dlm_allocate_lvb(ls
);
3893 if (!lkb
->lkb_lvbptr
)
3895 len
= receive_extralen(ms
);
3896 if (len
> ls
->ls_lvblen
)
3897 len
= ls
->ls_lvblen
;
3898 memcpy(lkb
->lkb_lvbptr
, ms
->m_extra
, len
);
3903 static void fake_bastfn(void *astparam
, int mode
)
3905 log_print("fake_bastfn should not be called");
3908 static void fake_astfn(void *astparam
)
3910 log_print("fake_astfn should not be called");
3913 static int receive_request_args(struct dlm_ls
*ls
, struct dlm_lkb
*lkb
,
3914 struct dlm_message
*ms
)
3916 lkb
->lkb_nodeid
= ms
->m_header
.h_nodeid
;
3917 lkb
->lkb_ownpid
= ms
->m_pid
;
3918 lkb
->lkb_remid
= ms
->m_lkid
;
3919 lkb
->lkb_grmode
= DLM_LOCK_IV
;
3920 lkb
->lkb_rqmode
= ms
->m_rqmode
;
3922 lkb
->lkb_bastfn
= (ms
->m_asts
& DLM_CB_BAST
) ? &fake_bastfn
: NULL
;
3923 lkb
->lkb_astfn
= (ms
->m_asts
& DLM_CB_CAST
) ? &fake_astfn
: NULL
;
3925 if (lkb
->lkb_exflags
& DLM_LKF_VALBLK
) {
3926 /* lkb was just created so there won't be an lvb yet */
3927 lkb
->lkb_lvbptr
= dlm_allocate_lvb(ls
);
3928 if (!lkb
->lkb_lvbptr
)
3935 static int receive_convert_args(struct dlm_ls
*ls
, struct dlm_lkb
*lkb
,
3936 struct dlm_message
*ms
)
3938 if (lkb
->lkb_status
!= DLM_LKSTS_GRANTED
)
3941 if (receive_lvb(ls
, lkb
, ms
))
3944 lkb
->lkb_rqmode
= ms
->m_rqmode
;
3945 lkb
->lkb_lvbseq
= ms
->m_lvbseq
;
3950 static int receive_unlock_args(struct dlm_ls
*ls
, struct dlm_lkb
*lkb
,
3951 struct dlm_message
*ms
)
3953 if (receive_lvb(ls
, lkb
, ms
))
3958 /* We fill in the stub-lkb fields with the info that send_xxxx_reply()
3959 uses to send a reply and that the remote end uses to process the reply. */
3961 static void setup_stub_lkb(struct dlm_ls
*ls
, struct dlm_message
*ms
)
3963 struct dlm_lkb
*lkb
= &ls
->ls_stub_lkb
;
3964 lkb
->lkb_nodeid
= ms
->m_header
.h_nodeid
;
3965 lkb
->lkb_remid
= ms
->m_lkid
;
3968 /* This is called after the rsb is locked so that we can safely inspect
3969 fields in the lkb. */
3971 static int validate_message(struct dlm_lkb
*lkb
, struct dlm_message
*ms
)
3973 int from
= ms
->m_header
.h_nodeid
;
3976 switch (ms
->m_type
) {
3977 case DLM_MSG_CONVERT
:
3978 case DLM_MSG_UNLOCK
:
3979 case DLM_MSG_CANCEL
:
3980 if (!is_master_copy(lkb
) || lkb
->lkb_nodeid
!= from
)
3984 case DLM_MSG_CONVERT_REPLY
:
3985 case DLM_MSG_UNLOCK_REPLY
:
3986 case DLM_MSG_CANCEL_REPLY
:
3989 if (!is_process_copy(lkb
) || lkb
->lkb_nodeid
!= from
)
3993 case DLM_MSG_REQUEST_REPLY
:
3994 if (!is_process_copy(lkb
))
3996 else if (lkb
->lkb_nodeid
!= -1 && lkb
->lkb_nodeid
!= from
)
4005 log_error(lkb
->lkb_resource
->res_ls
,
4006 "ignore invalid message %d from %d %x %x %x %d",
4007 ms
->m_type
, from
, lkb
->lkb_id
, lkb
->lkb_remid
,
4008 lkb
->lkb_flags
, lkb
->lkb_nodeid
);
4012 static void send_repeat_remove(struct dlm_ls
*ls
, char *ms_name
, int len
)
4014 char name
[DLM_RESNAME_MAXLEN
+ 1];
4015 struct dlm_message
*ms
;
4016 struct dlm_mhandle
*mh
;
4021 memset(name
, 0, sizeof(name
));
4022 memcpy(name
, ms_name
, len
);
4024 hash
= jhash(name
, len
, 0);
4025 b
= hash
& (ls
->ls_rsbtbl_size
- 1);
4027 dir_nodeid
= dlm_hash2nodeid(ls
, hash
);
4029 log_error(ls
, "send_repeat_remove dir %d %s", dir_nodeid
, name
);
4031 spin_lock(&ls
->ls_rsbtbl
[b
].lock
);
4032 rv
= dlm_search_rsb_tree(&ls
->ls_rsbtbl
[b
].keep
, name
, len
, &r
);
4034 spin_unlock(&ls
->ls_rsbtbl
[b
].lock
);
4035 log_error(ls
, "repeat_remove on keep %s", name
);
4039 rv
= dlm_search_rsb_tree(&ls
->ls_rsbtbl
[b
].toss
, name
, len
, &r
);
4041 spin_unlock(&ls
->ls_rsbtbl
[b
].lock
);
4042 log_error(ls
, "repeat_remove on toss %s", name
);
4046 /* use ls->remove_name2 to avoid conflict with shrink? */
4048 spin_lock(&ls
->ls_remove_spin
);
4049 ls
->ls_remove_len
= len
;
4050 memcpy(ls
->ls_remove_name
, name
, DLM_RESNAME_MAXLEN
);
4051 spin_unlock(&ls
->ls_remove_spin
);
4052 spin_unlock(&ls
->ls_rsbtbl
[b
].lock
);
4054 rv
= _create_message(ls
, sizeof(struct dlm_message
) + len
,
4055 dir_nodeid
, DLM_MSG_REMOVE
, &ms
, &mh
);
4059 memcpy(ms
->m_extra
, name
, len
);
4062 send_message(mh
, ms
);
4064 spin_lock(&ls
->ls_remove_spin
);
4065 ls
->ls_remove_len
= 0;
4066 memset(ls
->ls_remove_name
, 0, DLM_RESNAME_MAXLEN
);
4067 spin_unlock(&ls
->ls_remove_spin
);
4070 static int receive_request(struct dlm_ls
*ls
, struct dlm_message
*ms
)
4072 struct dlm_lkb
*lkb
;
4075 int error
, namelen
= 0;
4077 from_nodeid
= ms
->m_header
.h_nodeid
;
4079 error
= create_lkb(ls
, &lkb
);
4083 receive_flags(lkb
, ms
);
4084 lkb
->lkb_flags
|= DLM_IFL_MSTCPY
;
4085 error
= receive_request_args(ls
, lkb
, ms
);
4091 /* The dir node is the authority on whether we are the master
4092 for this rsb or not, so if the master sends us a request, we should
4093 recreate the rsb if we've destroyed it. This race happens when we
4094 send a remove message to the dir node at the same time that the dir
4095 node sends us a request for the rsb. */
4097 namelen
= receive_extralen(ms
);
4099 error
= find_rsb(ls
, ms
->m_extra
, namelen
, from_nodeid
,
4100 R_RECEIVE_REQUEST
, &r
);
4108 if (r
->res_master_nodeid
!= dlm_our_nodeid()) {
4109 error
= validate_master_nodeid(ls
, r
, from_nodeid
);
4119 error
= do_request(r
, lkb
);
4120 send_request_reply(r
, lkb
, error
);
4121 do_request_effects(r
, lkb
, error
);
4126 if (error
== -EINPROGRESS
)
4133 /* TODO: instead of returning ENOTBLK, add the lkb to res_lookup
4134 and do this receive_request again from process_lookup_list once
4135 we get the lookup reply. This would avoid a many repeated
4136 ENOTBLK request failures when the lookup reply designating us
4137 as master is delayed. */
4139 /* We could repeatedly return -EBADR here if our send_remove() is
4140 delayed in being sent/arriving/being processed on the dir node.
4141 Another node would repeatedly lookup up the master, and the dir
4142 node would continue returning our nodeid until our send_remove
4145 We send another remove message in case our previous send_remove
4146 was lost/ignored/missed somehow. */
4148 if (error
!= -ENOTBLK
) {
4149 log_limit(ls
, "receive_request %x from %d %d",
4150 ms
->m_lkid
, from_nodeid
, error
);
4153 if (namelen
&& error
== -EBADR
) {
4154 send_repeat_remove(ls
, ms
->m_extra
, namelen
);
4158 setup_stub_lkb(ls
, ms
);
4159 send_request_reply(&ls
->ls_stub_rsb
, &ls
->ls_stub_lkb
, error
);
4163 static int receive_convert(struct dlm_ls
*ls
, struct dlm_message
*ms
)
4165 struct dlm_lkb
*lkb
;
4167 int error
, reply
= 1;
4169 error
= find_lkb(ls
, ms
->m_remid
, &lkb
);
4173 if (lkb
->lkb_remid
!= ms
->m_lkid
) {
4174 log_error(ls
, "receive_convert %x remid %x recover_seq %llu "
4175 "remote %d %x", lkb
->lkb_id
, lkb
->lkb_remid
,
4176 (unsigned long long)lkb
->lkb_recover_seq
,
4177 ms
->m_header
.h_nodeid
, ms
->m_lkid
);
4182 r
= lkb
->lkb_resource
;
4187 error
= validate_message(lkb
, ms
);
4191 receive_flags(lkb
, ms
);
4193 error
= receive_convert_args(ls
, lkb
, ms
);
4195 send_convert_reply(r
, lkb
, error
);
4199 reply
= !down_conversion(lkb
);
4201 error
= do_convert(r
, lkb
);
4203 send_convert_reply(r
, lkb
, error
);
4204 do_convert_effects(r
, lkb
, error
);
4212 setup_stub_lkb(ls
, ms
);
4213 send_convert_reply(&ls
->ls_stub_rsb
, &ls
->ls_stub_lkb
, error
);
4217 static int receive_unlock(struct dlm_ls
*ls
, struct dlm_message
*ms
)
4219 struct dlm_lkb
*lkb
;
4223 error
= find_lkb(ls
, ms
->m_remid
, &lkb
);
4227 if (lkb
->lkb_remid
!= ms
->m_lkid
) {
4228 log_error(ls
, "receive_unlock %x remid %x remote %d %x",
4229 lkb
->lkb_id
, lkb
->lkb_remid
,
4230 ms
->m_header
.h_nodeid
, ms
->m_lkid
);
4235 r
= lkb
->lkb_resource
;
4240 error
= validate_message(lkb
, ms
);
4244 receive_flags(lkb
, ms
);
4246 error
= receive_unlock_args(ls
, lkb
, ms
);
4248 send_unlock_reply(r
, lkb
, error
);
4252 error
= do_unlock(r
, lkb
);
4253 send_unlock_reply(r
, lkb
, error
);
4254 do_unlock_effects(r
, lkb
, error
);
4262 setup_stub_lkb(ls
, ms
);
4263 send_unlock_reply(&ls
->ls_stub_rsb
, &ls
->ls_stub_lkb
, error
);
4267 static int receive_cancel(struct dlm_ls
*ls
, struct dlm_message
*ms
)
4269 struct dlm_lkb
*lkb
;
4273 error
= find_lkb(ls
, ms
->m_remid
, &lkb
);
4277 receive_flags(lkb
, ms
);
4279 r
= lkb
->lkb_resource
;
4284 error
= validate_message(lkb
, ms
);
4288 error
= do_cancel(r
, lkb
);
4289 send_cancel_reply(r
, lkb
, error
);
4290 do_cancel_effects(r
, lkb
, error
);
4298 setup_stub_lkb(ls
, ms
);
4299 send_cancel_reply(&ls
->ls_stub_rsb
, &ls
->ls_stub_lkb
, error
);
4303 static int receive_grant(struct dlm_ls
*ls
, struct dlm_message
*ms
)
4305 struct dlm_lkb
*lkb
;
4309 error
= find_lkb(ls
, ms
->m_remid
, &lkb
);
4313 r
= lkb
->lkb_resource
;
4318 error
= validate_message(lkb
, ms
);
4322 receive_flags_reply(lkb
, ms
);
4323 if (is_altmode(lkb
))
4324 munge_altmode(lkb
, ms
);
4325 grant_lock_pc(r
, lkb
, ms
);
4326 queue_cast(r
, lkb
, 0);
4334 static int receive_bast(struct dlm_ls
*ls
, struct dlm_message
*ms
)
4336 struct dlm_lkb
*lkb
;
4340 error
= find_lkb(ls
, ms
->m_remid
, &lkb
);
4344 r
= lkb
->lkb_resource
;
4349 error
= validate_message(lkb
, ms
);
4353 queue_bast(r
, lkb
, ms
->m_bastmode
);
4354 lkb
->lkb_highbast
= ms
->m_bastmode
;
4362 static void receive_lookup(struct dlm_ls
*ls
, struct dlm_message
*ms
)
4364 int len
, error
, ret_nodeid
, from_nodeid
, our_nodeid
;
4366 from_nodeid
= ms
->m_header
.h_nodeid
;
4367 our_nodeid
= dlm_our_nodeid();
4369 len
= receive_extralen(ms
);
4371 error
= dlm_master_lookup(ls
, from_nodeid
, ms
->m_extra
, len
, 0,
4374 /* Optimization: we're master so treat lookup as a request */
4375 if (!error
&& ret_nodeid
== our_nodeid
) {
4376 receive_request(ls
, ms
);
4379 send_lookup_reply(ls
, ms
, ret_nodeid
, error
);
4382 static void receive_remove(struct dlm_ls
*ls
, struct dlm_message
*ms
)
4384 char name
[DLM_RESNAME_MAXLEN
+1];
4387 int rv
, len
, dir_nodeid
, from_nodeid
;
4389 from_nodeid
= ms
->m_header
.h_nodeid
;
4391 len
= receive_extralen(ms
);
4393 if (len
> DLM_RESNAME_MAXLEN
) {
4394 log_error(ls
, "receive_remove from %d bad len %d",
4399 dir_nodeid
= dlm_hash2nodeid(ls
, ms
->m_hash
);
4400 if (dir_nodeid
!= dlm_our_nodeid()) {
4401 log_error(ls
, "receive_remove from %d bad nodeid %d",
4402 from_nodeid
, dir_nodeid
);
4406 /* Look for name on rsbtbl.toss, if it's there, kill it.
4407 If it's on rsbtbl.keep, it's being used, and we should ignore this
4408 message. This is an expected race between the dir node sending a
4409 request to the master node at the same time as the master node sends
4410 a remove to the dir node. The resolution to that race is for the
4411 dir node to ignore the remove message, and the master node to
4412 recreate the master rsb when it gets a request from the dir node for
4413 an rsb it doesn't have. */
4415 memset(name
, 0, sizeof(name
));
4416 memcpy(name
, ms
->m_extra
, len
);
4418 hash
= jhash(name
, len
, 0);
4419 b
= hash
& (ls
->ls_rsbtbl_size
- 1);
4421 spin_lock(&ls
->ls_rsbtbl
[b
].lock
);
4423 rv
= dlm_search_rsb_tree(&ls
->ls_rsbtbl
[b
].toss
, name
, len
, &r
);
4425 /* verify the rsb is on keep list per comment above */
4426 rv
= dlm_search_rsb_tree(&ls
->ls_rsbtbl
[b
].keep
, name
, len
, &r
);
4428 /* should not happen */
4429 log_error(ls
, "receive_remove from %d not found %s",
4431 spin_unlock(&ls
->ls_rsbtbl
[b
].lock
);
4434 if (r
->res_master_nodeid
!= from_nodeid
) {
4435 /* should not happen */
4436 log_error(ls
, "receive_remove keep from %d master %d",
4437 from_nodeid
, r
->res_master_nodeid
);
4439 spin_unlock(&ls
->ls_rsbtbl
[b
].lock
);
4443 log_debug(ls
, "receive_remove from %d master %d first %x %s",
4444 from_nodeid
, r
->res_master_nodeid
, r
->res_first_lkid
,
4446 spin_unlock(&ls
->ls_rsbtbl
[b
].lock
);
4450 if (r
->res_master_nodeid
!= from_nodeid
) {
4451 log_error(ls
, "receive_remove toss from %d master %d",
4452 from_nodeid
, r
->res_master_nodeid
);
4454 spin_unlock(&ls
->ls_rsbtbl
[b
].lock
);
4458 if (kref_put(&r
->res_ref
, kill_rsb
)) {
4459 rb_erase(&r
->res_hashnode
, &ls
->ls_rsbtbl
[b
].toss
);
4460 spin_unlock(&ls
->ls_rsbtbl
[b
].lock
);
4463 log_error(ls
, "receive_remove from %d rsb ref error",
4466 spin_unlock(&ls
->ls_rsbtbl
[b
].lock
);
4470 static void receive_purge(struct dlm_ls
*ls
, struct dlm_message
*ms
)
4472 do_purge(ls
, ms
->m_nodeid
, ms
->m_pid
);
4475 static int receive_request_reply(struct dlm_ls
*ls
, struct dlm_message
*ms
)
4477 struct dlm_lkb
*lkb
;
4479 int error
, mstype
, result
;
4480 int from_nodeid
= ms
->m_header
.h_nodeid
;
4482 error
= find_lkb(ls
, ms
->m_remid
, &lkb
);
4486 r
= lkb
->lkb_resource
;
4490 error
= validate_message(lkb
, ms
);
4494 mstype
= lkb
->lkb_wait_type
;
4495 error
= remove_from_waiters(lkb
, DLM_MSG_REQUEST_REPLY
);
4497 log_error(ls
, "receive_request_reply %x remote %d %x result %d",
4498 lkb
->lkb_id
, from_nodeid
, ms
->m_lkid
, ms
->m_result
);
4503 /* Optimization: the dir node was also the master, so it took our
4504 lookup as a request and sent request reply instead of lookup reply */
4505 if (mstype
== DLM_MSG_LOOKUP
) {
4506 r
->res_master_nodeid
= from_nodeid
;
4507 r
->res_nodeid
= from_nodeid
;
4508 lkb
->lkb_nodeid
= from_nodeid
;
4511 /* this is the value returned from do_request() on the master */
4512 result
= ms
->m_result
;
4516 /* request would block (be queued) on remote master */
4517 queue_cast(r
, lkb
, -EAGAIN
);
4518 confirm_master(r
, -EAGAIN
);
4519 unhold_lkb(lkb
); /* undoes create_lkb() */
4524 /* request was queued or granted on remote master */
4525 receive_flags_reply(lkb
, ms
);
4526 lkb
->lkb_remid
= ms
->m_lkid
;
4527 if (is_altmode(lkb
))
4528 munge_altmode(lkb
, ms
);
4530 add_lkb(r
, lkb
, DLM_LKSTS_WAITING
);
4533 grant_lock_pc(r
, lkb
, ms
);
4534 queue_cast(r
, lkb
, 0);
4536 confirm_master(r
, result
);
4541 /* find_rsb failed to find rsb or rsb wasn't master */
4542 log_limit(ls
, "receive_request_reply %x from %d %d "
4543 "master %d dir %d first %x %s", lkb
->lkb_id
,
4544 from_nodeid
, result
, r
->res_master_nodeid
,
4545 r
->res_dir_nodeid
, r
->res_first_lkid
, r
->res_name
);
4547 if (r
->res_dir_nodeid
!= dlm_our_nodeid() &&
4548 r
->res_master_nodeid
!= dlm_our_nodeid()) {
4549 /* cause _request_lock->set_master->send_lookup */
4550 r
->res_master_nodeid
= 0;
4552 lkb
->lkb_nodeid
= -1;
4555 if (is_overlap(lkb
)) {
4556 /* we'll ignore error in cancel/unlock reply */
4557 queue_cast_overlap(r
, lkb
);
4558 confirm_master(r
, result
);
4559 unhold_lkb(lkb
); /* undoes create_lkb() */
4561 _request_lock(r
, lkb
);
4563 if (r
->res_master_nodeid
== dlm_our_nodeid())
4564 confirm_master(r
, 0);
4569 log_error(ls
, "receive_request_reply %x error %d",
4570 lkb
->lkb_id
, result
);
4573 if (is_overlap_unlock(lkb
) && (result
== 0 || result
== -EINPROGRESS
)) {
4574 log_debug(ls
, "receive_request_reply %x result %d unlock",
4575 lkb
->lkb_id
, result
);
4576 lkb
->lkb_flags
&= ~DLM_IFL_OVERLAP_UNLOCK
;
4577 lkb
->lkb_flags
&= ~DLM_IFL_OVERLAP_CANCEL
;
4578 send_unlock(r
, lkb
);
4579 } else if (is_overlap_cancel(lkb
) && (result
== -EINPROGRESS
)) {
4580 log_debug(ls
, "receive_request_reply %x cancel", lkb
->lkb_id
);
4581 lkb
->lkb_flags
&= ~DLM_IFL_OVERLAP_UNLOCK
;
4582 lkb
->lkb_flags
&= ~DLM_IFL_OVERLAP_CANCEL
;
4583 send_cancel(r
, lkb
);
4585 lkb
->lkb_flags
&= ~DLM_IFL_OVERLAP_CANCEL
;
4586 lkb
->lkb_flags
&= ~DLM_IFL_OVERLAP_UNLOCK
;
4595 static void __receive_convert_reply(struct dlm_rsb
*r
, struct dlm_lkb
*lkb
,
4596 struct dlm_message
*ms
)
4598 /* this is the value returned from do_convert() on the master */
4599 switch (ms
->m_result
) {
4601 /* convert would block (be queued) on remote master */
4602 queue_cast(r
, lkb
, -EAGAIN
);
4606 receive_flags_reply(lkb
, ms
);
4607 revert_lock_pc(r
, lkb
);
4608 queue_cast(r
, lkb
, -EDEADLK
);
4612 /* convert was queued on remote master */
4613 receive_flags_reply(lkb
, ms
);
4614 if (is_demoted(lkb
))
4617 add_lkb(r
, lkb
, DLM_LKSTS_CONVERT
);
4622 /* convert was granted on remote master */
4623 receive_flags_reply(lkb
, ms
);
4624 if (is_demoted(lkb
))
4626 grant_lock_pc(r
, lkb
, ms
);
4627 queue_cast(r
, lkb
, 0);
4631 log_error(r
->res_ls
, "receive_convert_reply %x remote %d %x %d",
4632 lkb
->lkb_id
, ms
->m_header
.h_nodeid
, ms
->m_lkid
,
4639 static void _receive_convert_reply(struct dlm_lkb
*lkb
, struct dlm_message
*ms
)
4641 struct dlm_rsb
*r
= lkb
->lkb_resource
;
4647 error
= validate_message(lkb
, ms
);
4651 /* stub reply can happen with waiters_mutex held */
4652 error
= remove_from_waiters_ms(lkb
, ms
);
4656 __receive_convert_reply(r
, lkb
, ms
);
4662 static int receive_convert_reply(struct dlm_ls
*ls
, struct dlm_message
*ms
)
4664 struct dlm_lkb
*lkb
;
4667 error
= find_lkb(ls
, ms
->m_remid
, &lkb
);
4671 _receive_convert_reply(lkb
, ms
);
4676 static void _receive_unlock_reply(struct dlm_lkb
*lkb
, struct dlm_message
*ms
)
4678 struct dlm_rsb
*r
= lkb
->lkb_resource
;
4684 error
= validate_message(lkb
, ms
);
4688 /* stub reply can happen with waiters_mutex held */
4689 error
= remove_from_waiters_ms(lkb
, ms
);
4693 /* this is the value returned from do_unlock() on the master */
4695 switch (ms
->m_result
) {
4697 receive_flags_reply(lkb
, ms
);
4698 remove_lock_pc(r
, lkb
);
4699 queue_cast(r
, lkb
, -DLM_EUNLOCK
);
4704 log_error(r
->res_ls
, "receive_unlock_reply %x error %d",
4705 lkb
->lkb_id
, ms
->m_result
);
4712 static int receive_unlock_reply(struct dlm_ls
*ls
, struct dlm_message
*ms
)
4714 struct dlm_lkb
*lkb
;
4717 error
= find_lkb(ls
, ms
->m_remid
, &lkb
);
4721 _receive_unlock_reply(lkb
, ms
);
4726 static void _receive_cancel_reply(struct dlm_lkb
*lkb
, struct dlm_message
*ms
)
4728 struct dlm_rsb
*r
= lkb
->lkb_resource
;
4734 error
= validate_message(lkb
, ms
);
4738 /* stub reply can happen with waiters_mutex held */
4739 error
= remove_from_waiters_ms(lkb
, ms
);
4743 /* this is the value returned from do_cancel() on the master */
4745 switch (ms
->m_result
) {
4747 receive_flags_reply(lkb
, ms
);
4748 revert_lock_pc(r
, lkb
);
4749 queue_cast(r
, lkb
, -DLM_ECANCEL
);
4754 log_error(r
->res_ls
, "receive_cancel_reply %x error %d",
4755 lkb
->lkb_id
, ms
->m_result
);
4762 static int receive_cancel_reply(struct dlm_ls
*ls
, struct dlm_message
*ms
)
4764 struct dlm_lkb
*lkb
;
4767 error
= find_lkb(ls
, ms
->m_remid
, &lkb
);
4771 _receive_cancel_reply(lkb
, ms
);
4776 static void receive_lookup_reply(struct dlm_ls
*ls
, struct dlm_message
*ms
)
4778 struct dlm_lkb
*lkb
;
4780 int error
, ret_nodeid
;
4781 int do_lookup_list
= 0;
4783 error
= find_lkb(ls
, ms
->m_lkid
, &lkb
);
4785 log_error(ls
, "receive_lookup_reply no lkid %x", ms
->m_lkid
);
4789 /* ms->m_result is the value returned by dlm_master_lookup on dir node
4790 FIXME: will a non-zero error ever be returned? */
4792 r
= lkb
->lkb_resource
;
4796 error
= remove_from_waiters(lkb
, DLM_MSG_LOOKUP_REPLY
);
4800 ret_nodeid
= ms
->m_nodeid
;
4802 /* We sometimes receive a request from the dir node for this
4803 rsb before we've received the dir node's loookup_reply for it.
4804 The request from the dir node implies we're the master, so we set
4805 ourself as master in receive_request_reply, and verify here that
4806 we are indeed the master. */
4808 if (r
->res_master_nodeid
&& (r
->res_master_nodeid
!= ret_nodeid
)) {
4809 /* This should never happen */
4810 log_error(ls
, "receive_lookup_reply %x from %d ret %d "
4811 "master %d dir %d our %d first %x %s",
4812 lkb
->lkb_id
, ms
->m_header
.h_nodeid
, ret_nodeid
,
4813 r
->res_master_nodeid
, r
->res_dir_nodeid
,
4814 dlm_our_nodeid(), r
->res_first_lkid
, r
->res_name
);
4817 if (ret_nodeid
== dlm_our_nodeid()) {
4818 r
->res_master_nodeid
= ret_nodeid
;
4821 r
->res_first_lkid
= 0;
4822 } else if (ret_nodeid
== -1) {
4823 /* the remote node doesn't believe it's the dir node */
4824 log_error(ls
, "receive_lookup_reply %x from %d bad ret_nodeid",
4825 lkb
->lkb_id
, ms
->m_header
.h_nodeid
);
4826 r
->res_master_nodeid
= 0;
4828 lkb
->lkb_nodeid
= -1;
4830 /* set_master() will set lkb_nodeid from r */
4831 r
->res_master_nodeid
= ret_nodeid
;
4832 r
->res_nodeid
= ret_nodeid
;
4835 if (is_overlap(lkb
)) {
4836 log_debug(ls
, "receive_lookup_reply %x unlock %x",
4837 lkb
->lkb_id
, lkb
->lkb_flags
);
4838 queue_cast_overlap(r
, lkb
);
4839 unhold_lkb(lkb
); /* undoes create_lkb() */
4843 _request_lock(r
, lkb
);
4847 process_lookup_list(r
);
4854 static void _receive_message(struct dlm_ls
*ls
, struct dlm_message
*ms
,
4857 int error
= 0, noent
= 0;
4859 if (!dlm_is_member(ls
, ms
->m_header
.h_nodeid
)) {
4860 log_limit(ls
, "receive %d from non-member %d %x %x %d",
4861 ms
->m_type
, ms
->m_header
.h_nodeid
, ms
->m_lkid
,
4862 ms
->m_remid
, ms
->m_result
);
4866 switch (ms
->m_type
) {
4868 /* messages sent to a master node */
4870 case DLM_MSG_REQUEST
:
4871 error
= receive_request(ls
, ms
);
4874 case DLM_MSG_CONVERT
:
4875 error
= receive_convert(ls
, ms
);
4878 case DLM_MSG_UNLOCK
:
4879 error
= receive_unlock(ls
, ms
);
4882 case DLM_MSG_CANCEL
:
4884 error
= receive_cancel(ls
, ms
);
4887 /* messages sent from a master node (replies to above) */
4889 case DLM_MSG_REQUEST_REPLY
:
4890 error
= receive_request_reply(ls
, ms
);
4893 case DLM_MSG_CONVERT_REPLY
:
4894 error
= receive_convert_reply(ls
, ms
);
4897 case DLM_MSG_UNLOCK_REPLY
:
4898 error
= receive_unlock_reply(ls
, ms
);
4901 case DLM_MSG_CANCEL_REPLY
:
4902 error
= receive_cancel_reply(ls
, ms
);
4905 /* messages sent from a master node (only two types of async msg) */
4909 error
= receive_grant(ls
, ms
);
4914 error
= receive_bast(ls
, ms
);
4917 /* messages sent to a dir node */
4919 case DLM_MSG_LOOKUP
:
4920 receive_lookup(ls
, ms
);
4923 case DLM_MSG_REMOVE
:
4924 receive_remove(ls
, ms
);
4927 /* messages sent from a dir node (remove has no reply) */
4929 case DLM_MSG_LOOKUP_REPLY
:
4930 receive_lookup_reply(ls
, ms
);
4933 /* other messages */
4936 receive_purge(ls
, ms
);
4940 log_error(ls
, "unknown message type %d", ms
->m_type
);
4944 * When checking for ENOENT, we're checking the result of
4945 * find_lkb(m_remid):
4947 * The lock id referenced in the message wasn't found. This may
4948 * happen in normal usage for the async messages and cancel, so
4949 * only use log_debug for them.
4951 * Some errors are expected and normal.
4954 if (error
== -ENOENT
&& noent
) {
4955 log_debug(ls
, "receive %d no %x remote %d %x saved_seq %u",
4956 ms
->m_type
, ms
->m_remid
, ms
->m_header
.h_nodeid
,
4957 ms
->m_lkid
, saved_seq
);
4958 } else if (error
== -ENOENT
) {
4959 log_error(ls
, "receive %d no %x remote %d %x saved_seq %u",
4960 ms
->m_type
, ms
->m_remid
, ms
->m_header
.h_nodeid
,
4961 ms
->m_lkid
, saved_seq
);
4963 if (ms
->m_type
== DLM_MSG_CONVERT
)
4964 dlm_dump_rsb_hash(ls
, ms
->m_hash
);
4967 if (error
== -EINVAL
) {
4968 log_error(ls
, "receive %d inval from %d lkid %x remid %x "
4970 ms
->m_type
, ms
->m_header
.h_nodeid
,
4971 ms
->m_lkid
, ms
->m_remid
, saved_seq
);
4975 /* If the lockspace is in recovery mode (locking stopped), then normal
4976 messages are saved on the requestqueue for processing after recovery is
4977 done. When not in recovery mode, we wait for dlm_recoverd to drain saved
4978 messages off the requestqueue before we process new ones. This occurs right
4979 after recovery completes when we transition from saving all messages on
4980 requestqueue, to processing all the saved messages, to processing new
4981 messages as they arrive. */
4983 static void dlm_receive_message(struct dlm_ls
*ls
, struct dlm_message
*ms
,
4986 if (dlm_locking_stopped(ls
)) {
4987 /* If we were a member of this lockspace, left, and rejoined,
4988 other nodes may still be sending us messages from the
4989 lockspace generation before we left. */
4990 if (!ls
->ls_generation
) {
4991 log_limit(ls
, "receive %d from %d ignore old gen",
4992 ms
->m_type
, nodeid
);
4996 dlm_add_requestqueue(ls
, nodeid
, ms
);
4998 dlm_wait_requestqueue(ls
);
4999 _receive_message(ls
, ms
, 0);
5003 /* This is called by dlm_recoverd to process messages that were saved on
5004 the requestqueue. */
5006 void dlm_receive_message_saved(struct dlm_ls
*ls
, struct dlm_message
*ms
,
5009 _receive_message(ls
, ms
, saved_seq
);
5012 /* This is called by the midcomms layer when something is received for
5013 the lockspace. It could be either a MSG (normal message sent as part of
5014 standard locking activity) or an RCOM (recovery message sent as part of
5015 lockspace recovery). */
5017 void dlm_receive_buffer(union dlm_packet
*p
, int nodeid
)
5019 struct dlm_header
*hd
= &p
->header
;
5023 switch (hd
->h_cmd
) {
5025 dlm_message_in(&p
->message
);
5026 type
= p
->message
.m_type
;
5029 dlm_rcom_in(&p
->rcom
);
5030 type
= p
->rcom
.rc_type
;
5033 log_print("invalid h_cmd %d from %u", hd
->h_cmd
, nodeid
);
5037 if (hd
->h_nodeid
!= nodeid
) {
5038 log_print("invalid h_nodeid %d from %d lockspace %x",
5039 hd
->h_nodeid
, nodeid
, hd
->h_lockspace
);
5043 ls
= dlm_find_lockspace_global(hd
->h_lockspace
);
5045 if (dlm_config
.ci_log_debug
) {
5046 printk_ratelimited(KERN_DEBUG
"dlm: invalid lockspace "
5047 "%u from %d cmd %d type %d\n",
5048 hd
->h_lockspace
, nodeid
, hd
->h_cmd
, type
);
5051 if (hd
->h_cmd
== DLM_RCOM
&& type
== DLM_RCOM_STATUS
)
5052 dlm_send_ls_not_ready(nodeid
, &p
->rcom
);
5056 /* this rwsem allows dlm_ls_stop() to wait for all dlm_recv threads to
5057 be inactive (in this ls) before transitioning to recovery mode */
5059 down_read(&ls
->ls_recv_active
);
5060 if (hd
->h_cmd
== DLM_MSG
)
5061 dlm_receive_message(ls
, &p
->message
, nodeid
);
5063 dlm_receive_rcom(ls
, &p
->rcom
, nodeid
);
5064 up_read(&ls
->ls_recv_active
);
5066 dlm_put_lockspace(ls
);
5069 static void recover_convert_waiter(struct dlm_ls
*ls
, struct dlm_lkb
*lkb
,
5070 struct dlm_message
*ms_stub
)
5072 if (middle_conversion(lkb
)) {
5074 memset(ms_stub
, 0, sizeof(struct dlm_message
));
5075 ms_stub
->m_flags
= DLM_IFL_STUB_MS
;
5076 ms_stub
->m_type
= DLM_MSG_CONVERT_REPLY
;
5077 ms_stub
->m_result
= -EINPROGRESS
;
5078 ms_stub
->m_header
.h_nodeid
= lkb
->lkb_nodeid
;
5079 _receive_convert_reply(lkb
, ms_stub
);
5081 /* Same special case as in receive_rcom_lock_args() */
5082 lkb
->lkb_grmode
= DLM_LOCK_IV
;
5083 rsb_set_flag(lkb
->lkb_resource
, RSB_RECOVER_CONVERT
);
5086 } else if (lkb
->lkb_rqmode
>= lkb
->lkb_grmode
) {
5087 lkb
->lkb_flags
|= DLM_IFL_RESEND
;
5090 /* lkb->lkb_rqmode < lkb->lkb_grmode shouldn't happen since down
5091 conversions are async; there's no reply from the remote master */
5094 /* A waiting lkb needs recovery if the master node has failed, or
5095 the master node is changing (only when no directory is used) */
5097 static int waiter_needs_recovery(struct dlm_ls
*ls
, struct dlm_lkb
*lkb
,
5100 if (dlm_no_directory(ls
))
5103 if (dlm_is_removed(ls
, lkb
->lkb_wait_nodeid
))
5109 /* Recovery for locks that are waiting for replies from nodes that are now
5110 gone. We can just complete unlocks and cancels by faking a reply from the
5111 dead node. Requests and up-conversions we flag to be resent after
5112 recovery. Down-conversions can just be completed with a fake reply like
5113 unlocks. Conversions between PR and CW need special attention. */
5115 void dlm_recover_waiters_pre(struct dlm_ls
*ls
)
5117 struct dlm_lkb
*lkb
, *safe
;
5118 struct dlm_message
*ms_stub
;
5119 int wait_type
, stub_unlock_result
, stub_cancel_result
;
5122 ms_stub
= kmalloc(sizeof(struct dlm_message
), GFP_KERNEL
);
5124 log_error(ls
, "dlm_recover_waiters_pre no mem");
5128 mutex_lock(&ls
->ls_waiters_mutex
);
5130 list_for_each_entry_safe(lkb
, safe
, &ls
->ls_waiters
, lkb_wait_reply
) {
5132 dir_nodeid
= dlm_dir_nodeid(lkb
->lkb_resource
);
5134 /* exclude debug messages about unlocks because there can be so
5135 many and they aren't very interesting */
5137 if (lkb
->lkb_wait_type
!= DLM_MSG_UNLOCK
) {
5138 log_debug(ls
, "waiter %x remote %x msg %d r_nodeid %d "
5139 "lkb_nodeid %d wait_nodeid %d dir_nodeid %d",
5143 lkb
->lkb_resource
->res_nodeid
,
5145 lkb
->lkb_wait_nodeid
,
5149 /* all outstanding lookups, regardless of destination will be
5150 resent after recovery is done */
5152 if (lkb
->lkb_wait_type
== DLM_MSG_LOOKUP
) {
5153 lkb
->lkb_flags
|= DLM_IFL_RESEND
;
5157 if (!waiter_needs_recovery(ls
, lkb
, dir_nodeid
))
5160 wait_type
= lkb
->lkb_wait_type
;
5161 stub_unlock_result
= -DLM_EUNLOCK
;
5162 stub_cancel_result
= -DLM_ECANCEL
;
5164 /* Main reply may have been received leaving a zero wait_type,
5165 but a reply for the overlapping op may not have been
5166 received. In that case we need to fake the appropriate
5167 reply for the overlap op. */
5170 if (is_overlap_cancel(lkb
)) {
5171 wait_type
= DLM_MSG_CANCEL
;
5172 if (lkb
->lkb_grmode
== DLM_LOCK_IV
)
5173 stub_cancel_result
= 0;
5175 if (is_overlap_unlock(lkb
)) {
5176 wait_type
= DLM_MSG_UNLOCK
;
5177 if (lkb
->lkb_grmode
== DLM_LOCK_IV
)
5178 stub_unlock_result
= -ENOENT
;
5181 log_debug(ls
, "rwpre overlap %x %x %d %d %d",
5182 lkb
->lkb_id
, lkb
->lkb_flags
, wait_type
,
5183 stub_cancel_result
, stub_unlock_result
);
5186 switch (wait_type
) {
5188 case DLM_MSG_REQUEST
:
5189 lkb
->lkb_flags
|= DLM_IFL_RESEND
;
5192 case DLM_MSG_CONVERT
:
5193 recover_convert_waiter(ls
, lkb
, ms_stub
);
5196 case DLM_MSG_UNLOCK
:
5198 memset(ms_stub
, 0, sizeof(struct dlm_message
));
5199 ms_stub
->m_flags
= DLM_IFL_STUB_MS
;
5200 ms_stub
->m_type
= DLM_MSG_UNLOCK_REPLY
;
5201 ms_stub
->m_result
= stub_unlock_result
;
5202 ms_stub
->m_header
.h_nodeid
= lkb
->lkb_nodeid
;
5203 _receive_unlock_reply(lkb
, ms_stub
);
5207 case DLM_MSG_CANCEL
:
5209 memset(ms_stub
, 0, sizeof(struct dlm_message
));
5210 ms_stub
->m_flags
= DLM_IFL_STUB_MS
;
5211 ms_stub
->m_type
= DLM_MSG_CANCEL_REPLY
;
5212 ms_stub
->m_result
= stub_cancel_result
;
5213 ms_stub
->m_header
.h_nodeid
= lkb
->lkb_nodeid
;
5214 _receive_cancel_reply(lkb
, ms_stub
);
5219 log_error(ls
, "invalid lkb wait_type %d %d",
5220 lkb
->lkb_wait_type
, wait_type
);
5224 mutex_unlock(&ls
->ls_waiters_mutex
);
5228 static struct dlm_lkb
*find_resend_waiter(struct dlm_ls
*ls
)
5230 struct dlm_lkb
*lkb
;
5233 mutex_lock(&ls
->ls_waiters_mutex
);
5234 list_for_each_entry(lkb
, &ls
->ls_waiters
, lkb_wait_reply
) {
5235 if (lkb
->lkb_flags
& DLM_IFL_RESEND
) {
5241 mutex_unlock(&ls
->ls_waiters_mutex
);
5248 /* Deal with lookups and lkb's marked RESEND from _pre. We may now be the
5249 master or dir-node for r. Processing the lkb may result in it being placed
5252 /* We do this after normal locking has been enabled and any saved messages
5253 (in requestqueue) have been processed. We should be confident that at
5254 this point we won't get or process a reply to any of these waiting
5255 operations. But, new ops may be coming in on the rsbs/locks here from
5256 userspace or remotely. */
5258 /* there may have been an overlap unlock/cancel prior to recovery or after
5259 recovery. if before, the lkb may still have a pos wait_count; if after, the
5260 overlap flag would just have been set and nothing new sent. we can be
5261 confident here than any replies to either the initial op or overlap ops
5262 prior to recovery have been received. */
5264 int dlm_recover_waiters_post(struct dlm_ls
*ls
)
5266 struct dlm_lkb
*lkb
;
5268 int error
= 0, mstype
, err
, oc
, ou
;
5271 if (dlm_locking_stopped(ls
)) {
5272 log_debug(ls
, "recover_waiters_post aborted");
5277 lkb
= find_resend_waiter(ls
);
5281 r
= lkb
->lkb_resource
;
5285 mstype
= lkb
->lkb_wait_type
;
5286 oc
= is_overlap_cancel(lkb
);
5287 ou
= is_overlap_unlock(lkb
);
5290 log_debug(ls
, "waiter %x remote %x msg %d r_nodeid %d "
5291 "lkb_nodeid %d wait_nodeid %d dir_nodeid %d "
5292 "overlap %d %d", lkb
->lkb_id
, lkb
->lkb_remid
, mstype
,
5293 r
->res_nodeid
, lkb
->lkb_nodeid
, lkb
->lkb_wait_nodeid
,
5294 dlm_dir_nodeid(r
), oc
, ou
);
5296 /* At this point we assume that we won't get a reply to any
5297 previous op or overlap op on this lock. First, do a big
5298 remove_from_waiters() for all previous ops. */
5300 lkb
->lkb_flags
&= ~DLM_IFL_RESEND
;
5301 lkb
->lkb_flags
&= ~DLM_IFL_OVERLAP_UNLOCK
;
5302 lkb
->lkb_flags
&= ~DLM_IFL_OVERLAP_CANCEL
;
5303 lkb
->lkb_wait_type
= 0;
5304 lkb
->lkb_wait_count
= 0;
5305 mutex_lock(&ls
->ls_waiters_mutex
);
5306 list_del_init(&lkb
->lkb_wait_reply
);
5307 mutex_unlock(&ls
->ls_waiters_mutex
);
5308 unhold_lkb(lkb
); /* for waiters list */
5311 /* do an unlock or cancel instead of resending */
5313 case DLM_MSG_LOOKUP
:
5314 case DLM_MSG_REQUEST
:
5315 queue_cast(r
, lkb
, ou
? -DLM_EUNLOCK
:
5317 unhold_lkb(lkb
); /* undoes create_lkb() */
5319 case DLM_MSG_CONVERT
:
5321 queue_cast(r
, lkb
, -DLM_ECANCEL
);
5323 lkb
->lkb_exflags
|= DLM_LKF_FORCEUNLOCK
;
5324 _unlock_lock(r
, lkb
);
5332 case DLM_MSG_LOOKUP
:
5333 case DLM_MSG_REQUEST
:
5334 _request_lock(r
, lkb
);
5336 confirm_master(r
, 0);
5338 case DLM_MSG_CONVERT
:
5339 _convert_lock(r
, lkb
);
5347 log_error(ls
, "waiter %x msg %d r_nodeid %d "
5348 "dir_nodeid %d overlap %d %d",
5349 lkb
->lkb_id
, mstype
, r
->res_nodeid
,
5350 dlm_dir_nodeid(r
), oc
, ou
);
5360 static void purge_mstcpy_list(struct dlm_ls
*ls
, struct dlm_rsb
*r
,
5361 struct list_head
*list
)
5363 struct dlm_lkb
*lkb
, *safe
;
5365 list_for_each_entry_safe(lkb
, safe
, list
, lkb_statequeue
) {
5366 if (!is_master_copy(lkb
))
5369 /* don't purge lkbs we've added in recover_master_copy for
5370 the current recovery seq */
5372 if (lkb
->lkb_recover_seq
== ls
->ls_recover_seq
)
5377 /* this put should free the lkb */
5378 if (!dlm_put_lkb(lkb
))
5379 log_error(ls
, "purged mstcpy lkb not released");
5383 void dlm_purge_mstcpy_locks(struct dlm_rsb
*r
)
5385 struct dlm_ls
*ls
= r
->res_ls
;
5387 purge_mstcpy_list(ls
, r
, &r
->res_grantqueue
);
5388 purge_mstcpy_list(ls
, r
, &r
->res_convertqueue
);
5389 purge_mstcpy_list(ls
, r
, &r
->res_waitqueue
);
5392 static void purge_dead_list(struct dlm_ls
*ls
, struct dlm_rsb
*r
,
5393 struct list_head
*list
,
5394 int nodeid_gone
, unsigned int *count
)
5396 struct dlm_lkb
*lkb
, *safe
;
5398 list_for_each_entry_safe(lkb
, safe
, list
, lkb_statequeue
) {
5399 if (!is_master_copy(lkb
))
5402 if ((lkb
->lkb_nodeid
== nodeid_gone
) ||
5403 dlm_is_removed(ls
, lkb
->lkb_nodeid
)) {
5405 /* tell recover_lvb to invalidate the lvb
5406 because a node holding EX/PW failed */
5407 if ((lkb
->lkb_exflags
& DLM_LKF_VALBLK
) &&
5408 (lkb
->lkb_grmode
>= DLM_LOCK_PW
)) {
5409 rsb_set_flag(r
, RSB_RECOVER_LVB_INVAL
);
5414 /* this put should free the lkb */
5415 if (!dlm_put_lkb(lkb
))
5416 log_error(ls
, "purged dead lkb not released");
5418 rsb_set_flag(r
, RSB_RECOVER_GRANT
);
5425 /* Get rid of locks held by nodes that are gone. */
5427 void dlm_recover_purge(struct dlm_ls
*ls
)
5430 struct dlm_member
*memb
;
5431 int nodes_count
= 0;
5432 int nodeid_gone
= 0;
5433 unsigned int lkb_count
= 0;
5435 /* cache one removed nodeid to optimize the common
5436 case of a single node removed */
5438 list_for_each_entry(memb
, &ls
->ls_nodes_gone
, list
) {
5440 nodeid_gone
= memb
->nodeid
;
5446 down_write(&ls
->ls_root_sem
);
5447 list_for_each_entry(r
, &ls
->ls_root_list
, res_root_list
) {
5451 purge_dead_list(ls
, r
, &r
->res_grantqueue
,
5452 nodeid_gone
, &lkb_count
);
5453 purge_dead_list(ls
, r
, &r
->res_convertqueue
,
5454 nodeid_gone
, &lkb_count
);
5455 purge_dead_list(ls
, r
, &r
->res_waitqueue
,
5456 nodeid_gone
, &lkb_count
);
5462 up_write(&ls
->ls_root_sem
);
5465 log_debug(ls
, "dlm_recover_purge %u locks for %u nodes",
5466 lkb_count
, nodes_count
);
5469 static struct dlm_rsb
*find_grant_rsb(struct dlm_ls
*ls
, int bucket
)
5474 spin_lock(&ls
->ls_rsbtbl
[bucket
].lock
);
5475 for (n
= rb_first(&ls
->ls_rsbtbl
[bucket
].keep
); n
; n
= rb_next(n
)) {
5476 r
= rb_entry(n
, struct dlm_rsb
, res_hashnode
);
5478 if (!rsb_flag(r
, RSB_RECOVER_GRANT
))
5480 if (!is_master(r
)) {
5481 rsb_clear_flag(r
, RSB_RECOVER_GRANT
);
5485 spin_unlock(&ls
->ls_rsbtbl
[bucket
].lock
);
5488 spin_unlock(&ls
->ls_rsbtbl
[bucket
].lock
);
5493 * Attempt to grant locks on resources that we are the master of.
5494 * Locks may have become grantable during recovery because locks
5495 * from departed nodes have been purged (or not rebuilt), allowing
5496 * previously blocked locks to now be granted. The subset of rsb's
5497 * we are interested in are those with lkb's on either the convert or
5500 * Simplest would be to go through each master rsb and check for non-empty
5501 * convert or waiting queues, and attempt to grant on those rsbs.
5502 * Checking the queues requires lock_rsb, though, for which we'd need
5503 * to release the rsbtbl lock. This would make iterating through all
5504 * rsb's very inefficient. So, we rely on earlier recovery routines
5505 * to set RECOVER_GRANT on any rsb's that we should attempt to grant
5509 void dlm_recover_grant(struct dlm_ls
*ls
)
5513 unsigned int count
= 0;
5514 unsigned int rsb_count
= 0;
5515 unsigned int lkb_count
= 0;
5518 r
= find_grant_rsb(ls
, bucket
);
5520 if (bucket
== ls
->ls_rsbtbl_size
- 1)
5528 /* the RECOVER_GRANT flag is checked in the grant path */
5529 grant_pending_locks(r
, &count
);
5530 rsb_clear_flag(r
, RSB_RECOVER_GRANT
);
5532 confirm_master(r
, 0);
5539 log_debug(ls
, "dlm_recover_grant %u locks on %u resources",
5540 lkb_count
, rsb_count
);
5543 static struct dlm_lkb
*search_remid_list(struct list_head
*head
, int nodeid
,
5546 struct dlm_lkb
*lkb
;
5548 list_for_each_entry(lkb
, head
, lkb_statequeue
) {
5549 if (lkb
->lkb_nodeid
== nodeid
&& lkb
->lkb_remid
== remid
)
5555 static struct dlm_lkb
*search_remid(struct dlm_rsb
*r
, int nodeid
,
5558 struct dlm_lkb
*lkb
;
5560 lkb
= search_remid_list(&r
->res_grantqueue
, nodeid
, remid
);
5563 lkb
= search_remid_list(&r
->res_convertqueue
, nodeid
, remid
);
5566 lkb
= search_remid_list(&r
->res_waitqueue
, nodeid
, remid
);
5572 /* needs at least dlm_rcom + rcom_lock */
5573 static int receive_rcom_lock_args(struct dlm_ls
*ls
, struct dlm_lkb
*lkb
,
5574 struct dlm_rsb
*r
, struct dlm_rcom
*rc
)
5576 struct rcom_lock
*rl
= (struct rcom_lock
*) rc
->rc_buf
;
5578 lkb
->lkb_nodeid
= rc
->rc_header
.h_nodeid
;
5579 lkb
->lkb_ownpid
= le32_to_cpu(rl
->rl_ownpid
);
5580 lkb
->lkb_remid
= le32_to_cpu(rl
->rl_lkid
);
5581 lkb
->lkb_exflags
= le32_to_cpu(rl
->rl_exflags
);
5582 lkb
->lkb_flags
= le32_to_cpu(rl
->rl_flags
) & 0x0000FFFF;
5583 lkb
->lkb_flags
|= DLM_IFL_MSTCPY
;
5584 lkb
->lkb_lvbseq
= le32_to_cpu(rl
->rl_lvbseq
);
5585 lkb
->lkb_rqmode
= rl
->rl_rqmode
;
5586 lkb
->lkb_grmode
= rl
->rl_grmode
;
5587 /* don't set lkb_status because add_lkb wants to itself */
5589 lkb
->lkb_bastfn
= (rl
->rl_asts
& DLM_CB_BAST
) ? &fake_bastfn
: NULL
;
5590 lkb
->lkb_astfn
= (rl
->rl_asts
& DLM_CB_CAST
) ? &fake_astfn
: NULL
;
5592 if (lkb
->lkb_exflags
& DLM_LKF_VALBLK
) {
5593 int lvblen
= rc
->rc_header
.h_length
- sizeof(struct dlm_rcom
) -
5594 sizeof(struct rcom_lock
);
5595 if (lvblen
> ls
->ls_lvblen
)
5597 lkb
->lkb_lvbptr
= dlm_allocate_lvb(ls
);
5598 if (!lkb
->lkb_lvbptr
)
5600 memcpy(lkb
->lkb_lvbptr
, rl
->rl_lvb
, lvblen
);
5603 /* Conversions between PR and CW (middle modes) need special handling.
5604 The real granted mode of these converting locks cannot be determined
5605 until all locks have been rebuilt on the rsb (recover_conversion) */
5607 if (rl
->rl_wait_type
== cpu_to_le16(DLM_MSG_CONVERT
) &&
5608 middle_conversion(lkb
)) {
5609 rl
->rl_status
= DLM_LKSTS_CONVERT
;
5610 lkb
->lkb_grmode
= DLM_LOCK_IV
;
5611 rsb_set_flag(r
, RSB_RECOVER_CONVERT
);
5617 /* This lkb may have been recovered in a previous aborted recovery so we need
5618 to check if the rsb already has an lkb with the given remote nodeid/lkid.
5619 If so we just send back a standard reply. If not, we create a new lkb with
5620 the given values and send back our lkid. We send back our lkid by sending
5621 back the rcom_lock struct we got but with the remid field filled in. */
5623 /* needs at least dlm_rcom + rcom_lock */
5624 int dlm_recover_master_copy(struct dlm_ls
*ls
, struct dlm_rcom
*rc
)
5626 struct rcom_lock
*rl
= (struct rcom_lock
*) rc
->rc_buf
;
5628 struct dlm_lkb
*lkb
;
5630 int from_nodeid
= rc
->rc_header
.h_nodeid
;
5633 if (rl
->rl_parent_lkid
) {
5634 error
= -EOPNOTSUPP
;
5638 remid
= le32_to_cpu(rl
->rl_lkid
);
5640 /* In general we expect the rsb returned to be R_MASTER, but we don't
5641 have to require it. Recovery of masters on one node can overlap
5642 recovery of locks on another node, so one node can send us MSTCPY
5643 locks before we've made ourselves master of this rsb. We can still
5644 add new MSTCPY locks that we receive here without any harm; when
5645 we make ourselves master, dlm_recover_masters() won't touch the
5646 MSTCPY locks we've received early. */
5648 error
= find_rsb(ls
, rl
->rl_name
, le16_to_cpu(rl
->rl_namelen
),
5649 from_nodeid
, R_RECEIVE_RECOVER
, &r
);
5655 if (dlm_no_directory(ls
) && (dlm_dir_nodeid(r
) != dlm_our_nodeid())) {
5656 log_error(ls
, "dlm_recover_master_copy remote %d %x not dir",
5657 from_nodeid
, remid
);
5662 lkb
= search_remid(r
, from_nodeid
, remid
);
5668 error
= create_lkb(ls
, &lkb
);
5672 error
= receive_rcom_lock_args(ls
, lkb
, r
, rc
);
5679 add_lkb(r
, lkb
, rl
->rl_status
);
5681 ls
->ls_recover_locks_in
++;
5683 if (!list_empty(&r
->res_waitqueue
) || !list_empty(&r
->res_convertqueue
))
5684 rsb_set_flag(r
, RSB_RECOVER_GRANT
);
5687 /* this is the new value returned to the lock holder for
5688 saving in its process-copy lkb */
5689 rl
->rl_remid
= cpu_to_le32(lkb
->lkb_id
);
5691 lkb
->lkb_recover_seq
= ls
->ls_recover_seq
;
5697 if (error
&& error
!= -EEXIST
)
5698 log_debug(ls
, "dlm_recover_master_copy remote %d %x error %d",
5699 from_nodeid
, remid
, error
);
5700 rl
->rl_result
= cpu_to_le32(error
);
5704 /* needs at least dlm_rcom + rcom_lock */
5705 int dlm_recover_process_copy(struct dlm_ls
*ls
, struct dlm_rcom
*rc
)
5707 struct rcom_lock
*rl
= (struct rcom_lock
*) rc
->rc_buf
;
5709 struct dlm_lkb
*lkb
;
5710 uint32_t lkid
, remid
;
5713 lkid
= le32_to_cpu(rl
->rl_lkid
);
5714 remid
= le32_to_cpu(rl
->rl_remid
);
5715 result
= le32_to_cpu(rl
->rl_result
);
5717 error
= find_lkb(ls
, lkid
, &lkb
);
5719 log_error(ls
, "dlm_recover_process_copy no %x remote %d %x %d",
5720 lkid
, rc
->rc_header
.h_nodeid
, remid
, result
);
5724 r
= lkb
->lkb_resource
;
5728 if (!is_process_copy(lkb
)) {
5729 log_error(ls
, "dlm_recover_process_copy bad %x remote %d %x %d",
5730 lkid
, rc
->rc_header
.h_nodeid
, remid
, result
);
5740 /* There's a chance the new master received our lock before
5741 dlm_recover_master_reply(), this wouldn't happen if we did
5742 a barrier between recover_masters and recover_locks. */
5744 log_debug(ls
, "dlm_recover_process_copy %x remote %d %x %d",
5745 lkid
, rc
->rc_header
.h_nodeid
, remid
, result
);
5747 dlm_send_rcom_lock(r
, lkb
);
5751 lkb
->lkb_remid
= remid
;
5754 log_error(ls
, "dlm_recover_process_copy %x remote %d %x %d unk",
5755 lkid
, rc
->rc_header
.h_nodeid
, remid
, result
);
5758 /* an ack for dlm_recover_locks() which waits for replies from
5759 all the locks it sends to new masters */
5760 dlm_recovered_lock(r
);
5769 int dlm_user_request(struct dlm_ls
*ls
, struct dlm_user_args
*ua
,
5770 int mode
, uint32_t flags
, void *name
, unsigned int namelen
,
5771 unsigned long timeout_cs
)
5773 struct dlm_lkb
*lkb
;
5774 struct dlm_args args
;
5777 dlm_lock_recovery(ls
);
5779 error
= create_lkb(ls
, &lkb
);
5785 if (flags
& DLM_LKF_VALBLK
) {
5786 ua
->lksb
.sb_lvbptr
= kzalloc(DLM_USER_LVB_LEN
, GFP_NOFS
);
5787 if (!ua
->lksb
.sb_lvbptr
) {
5795 /* After ua is attached to lkb it will be freed by dlm_free_lkb().
5796 When DLM_IFL_USER is set, the dlm knows that this is a userspace
5797 lock and that lkb_astparam is the dlm_user_args structure. */
5799 error
= set_lock_args(mode
, &ua
->lksb
, flags
, namelen
, timeout_cs
,
5800 fake_astfn
, ua
, fake_bastfn
, &args
);
5801 lkb
->lkb_flags
|= DLM_IFL_USER
;
5808 error
= request_lock(ls
, lkb
, name
, namelen
, &args
);
5824 /* add this new lkb to the per-process list of locks */
5825 spin_lock(&ua
->proc
->locks_spin
);
5827 list_add_tail(&lkb
->lkb_ownqueue
, &ua
->proc
->locks
);
5828 spin_unlock(&ua
->proc
->locks_spin
);
5830 dlm_unlock_recovery(ls
);
5834 int dlm_user_convert(struct dlm_ls
*ls
, struct dlm_user_args
*ua_tmp
,
5835 int mode
, uint32_t flags
, uint32_t lkid
, char *lvb_in
,
5836 unsigned long timeout_cs
)
5838 struct dlm_lkb
*lkb
;
5839 struct dlm_args args
;
5840 struct dlm_user_args
*ua
;
5843 dlm_lock_recovery(ls
);
5845 error
= find_lkb(ls
, lkid
, &lkb
);
5849 /* user can change the params on its lock when it converts it, or
5850 add an lvb that didn't exist before */
5854 if (flags
& DLM_LKF_VALBLK
&& !ua
->lksb
.sb_lvbptr
) {
5855 ua
->lksb
.sb_lvbptr
= kzalloc(DLM_USER_LVB_LEN
, GFP_NOFS
);
5856 if (!ua
->lksb
.sb_lvbptr
) {
5861 if (lvb_in
&& ua
->lksb
.sb_lvbptr
)
5862 memcpy(ua
->lksb
.sb_lvbptr
, lvb_in
, DLM_USER_LVB_LEN
);
5864 ua
->xid
= ua_tmp
->xid
;
5865 ua
->castparam
= ua_tmp
->castparam
;
5866 ua
->castaddr
= ua_tmp
->castaddr
;
5867 ua
->bastparam
= ua_tmp
->bastparam
;
5868 ua
->bastaddr
= ua_tmp
->bastaddr
;
5869 ua
->user_lksb
= ua_tmp
->user_lksb
;
5871 error
= set_lock_args(mode
, &ua
->lksb
, flags
, 0, timeout_cs
,
5872 fake_astfn
, ua
, fake_bastfn
, &args
);
5876 error
= convert_lock(ls
, lkb
, &args
);
5878 if (error
== -EINPROGRESS
|| error
== -EAGAIN
|| error
== -EDEADLK
)
5883 dlm_unlock_recovery(ls
);
5888 int dlm_user_unlock(struct dlm_ls
*ls
, struct dlm_user_args
*ua_tmp
,
5889 uint32_t flags
, uint32_t lkid
, char *lvb_in
)
5891 struct dlm_lkb
*lkb
;
5892 struct dlm_args args
;
5893 struct dlm_user_args
*ua
;
5896 dlm_lock_recovery(ls
);
5898 error
= find_lkb(ls
, lkid
, &lkb
);
5904 if (lvb_in
&& ua
->lksb
.sb_lvbptr
)
5905 memcpy(ua
->lksb
.sb_lvbptr
, lvb_in
, DLM_USER_LVB_LEN
);
5906 if (ua_tmp
->castparam
)
5907 ua
->castparam
= ua_tmp
->castparam
;
5908 ua
->user_lksb
= ua_tmp
->user_lksb
;
5910 error
= set_unlock_args(flags
, ua
, &args
);
5914 error
= unlock_lock(ls
, lkb
, &args
);
5916 if (error
== -DLM_EUNLOCK
)
5918 /* from validate_unlock_args() */
5919 if (error
== -EBUSY
&& (flags
& DLM_LKF_FORCEUNLOCK
))
5924 spin_lock(&ua
->proc
->locks_spin
);
5925 /* dlm_user_add_cb() may have already taken lkb off the proc list */
5926 if (!list_empty(&lkb
->lkb_ownqueue
))
5927 list_move(&lkb
->lkb_ownqueue
, &ua
->proc
->unlocking
);
5928 spin_unlock(&ua
->proc
->locks_spin
);
5932 dlm_unlock_recovery(ls
);
5937 int dlm_user_cancel(struct dlm_ls
*ls
, struct dlm_user_args
*ua_tmp
,
5938 uint32_t flags
, uint32_t lkid
)
5940 struct dlm_lkb
*lkb
;
5941 struct dlm_args args
;
5942 struct dlm_user_args
*ua
;
5945 dlm_lock_recovery(ls
);
5947 error
= find_lkb(ls
, lkid
, &lkb
);
5952 if (ua_tmp
->castparam
)
5953 ua
->castparam
= ua_tmp
->castparam
;
5954 ua
->user_lksb
= ua_tmp
->user_lksb
;
5956 error
= set_unlock_args(flags
, ua
, &args
);
5960 error
= cancel_lock(ls
, lkb
, &args
);
5962 if (error
== -DLM_ECANCEL
)
5964 /* from validate_unlock_args() */
5965 if (error
== -EBUSY
)
5970 dlm_unlock_recovery(ls
);
5975 int dlm_user_deadlock(struct dlm_ls
*ls
, uint32_t flags
, uint32_t lkid
)
5977 struct dlm_lkb
*lkb
;
5978 struct dlm_args args
;
5979 struct dlm_user_args
*ua
;
5983 dlm_lock_recovery(ls
);
5985 error
= find_lkb(ls
, lkid
, &lkb
);
5991 error
= set_unlock_args(flags
, ua
, &args
);
5995 /* same as cancel_lock(), but set DEADLOCK_CANCEL after lock_rsb */
5997 r
= lkb
->lkb_resource
;
6001 error
= validate_unlock_args(lkb
, &args
);
6004 lkb
->lkb_flags
|= DLM_IFL_DEADLOCK_CANCEL
;
6006 error
= _cancel_lock(r
, lkb
);
6011 if (error
== -DLM_ECANCEL
)
6013 /* from validate_unlock_args() */
6014 if (error
== -EBUSY
)
6019 dlm_unlock_recovery(ls
);
6023 /* lkb's that are removed from the waiters list by revert are just left on the
6024 orphans list with the granted orphan locks, to be freed by purge */
6026 static int orphan_proc_lock(struct dlm_ls
*ls
, struct dlm_lkb
*lkb
)
6028 struct dlm_args args
;
6032 mutex_lock(&ls
->ls_orphans_mutex
);
6033 list_add_tail(&lkb
->lkb_ownqueue
, &ls
->ls_orphans
);
6034 mutex_unlock(&ls
->ls_orphans_mutex
);
6036 set_unlock_args(0, lkb
->lkb_ua
, &args
);
6038 error
= cancel_lock(ls
, lkb
, &args
);
6039 if (error
== -DLM_ECANCEL
)
6044 /* The FORCEUNLOCK flag allows the unlock to go ahead even if the lkb isn't
6045 granted. Regardless of what rsb queue the lock is on, it's removed and
6046 freed. The IVVALBLK flag causes the lvb on the resource to be invalidated
6047 if our lock is PW/EX (it's ignored if our granted mode is smaller.) */
6049 static int unlock_proc_lock(struct dlm_ls
*ls
, struct dlm_lkb
*lkb
)
6051 struct dlm_args args
;
6054 set_unlock_args(DLM_LKF_FORCEUNLOCK
| DLM_LKF_IVVALBLK
,
6055 lkb
->lkb_ua
, &args
);
6057 error
= unlock_lock(ls
, lkb
, &args
);
6058 if (error
== -DLM_EUNLOCK
)
6063 /* We have to release clear_proc_locks mutex before calling unlock_proc_lock()
6064 (which does lock_rsb) due to deadlock with receiving a message that does
6065 lock_rsb followed by dlm_user_add_cb() */
6067 static struct dlm_lkb
*del_proc_lock(struct dlm_ls
*ls
,
6068 struct dlm_user_proc
*proc
)
6070 struct dlm_lkb
*lkb
= NULL
;
6072 mutex_lock(&ls
->ls_clear_proc_locks
);
6073 if (list_empty(&proc
->locks
))
6076 lkb
= list_entry(proc
->locks
.next
, struct dlm_lkb
, lkb_ownqueue
);
6077 list_del_init(&lkb
->lkb_ownqueue
);
6079 if (lkb
->lkb_exflags
& DLM_LKF_PERSISTENT
)
6080 lkb
->lkb_flags
|= DLM_IFL_ORPHAN
;
6082 lkb
->lkb_flags
|= DLM_IFL_DEAD
;
6084 mutex_unlock(&ls
->ls_clear_proc_locks
);
6088 /* The ls_clear_proc_locks mutex protects against dlm_user_add_cb() which
6089 1) references lkb->ua which we free here and 2) adds lkbs to proc->asts,
6090 which we clear here. */
6092 /* proc CLOSING flag is set so no more device_reads should look at proc->asts
6093 list, and no more device_writes should add lkb's to proc->locks list; so we
6094 shouldn't need to take asts_spin or locks_spin here. this assumes that
6095 device reads/writes/closes are serialized -- FIXME: we may need to serialize
6098 void dlm_clear_proc_locks(struct dlm_ls
*ls
, struct dlm_user_proc
*proc
)
6100 struct dlm_lkb
*lkb
, *safe
;
6102 dlm_lock_recovery(ls
);
6105 lkb
= del_proc_lock(ls
, proc
);
6109 if (lkb
->lkb_exflags
& DLM_LKF_PERSISTENT
)
6110 orphan_proc_lock(ls
, lkb
);
6112 unlock_proc_lock(ls
, lkb
);
6114 /* this removes the reference for the proc->locks list
6115 added by dlm_user_request, it may result in the lkb
6121 mutex_lock(&ls
->ls_clear_proc_locks
);
6123 /* in-progress unlocks */
6124 list_for_each_entry_safe(lkb
, safe
, &proc
->unlocking
, lkb_ownqueue
) {
6125 list_del_init(&lkb
->lkb_ownqueue
);
6126 lkb
->lkb_flags
|= DLM_IFL_DEAD
;
6130 list_for_each_entry_safe(lkb
, safe
, &proc
->asts
, lkb_cb_list
) {
6131 memset(&lkb
->lkb_callbacks
, 0,
6132 sizeof(struct dlm_callback
) * DLM_CALLBACKS_SIZE
);
6133 list_del_init(&lkb
->lkb_cb_list
);
6137 mutex_unlock(&ls
->ls_clear_proc_locks
);
6138 dlm_unlock_recovery(ls
);
6141 static void purge_proc_locks(struct dlm_ls
*ls
, struct dlm_user_proc
*proc
)
6143 struct dlm_lkb
*lkb
, *safe
;
6147 spin_lock(&proc
->locks_spin
);
6148 if (!list_empty(&proc
->locks
)) {
6149 lkb
= list_entry(proc
->locks
.next
, struct dlm_lkb
,
6151 list_del_init(&lkb
->lkb_ownqueue
);
6153 spin_unlock(&proc
->locks_spin
);
6158 lkb
->lkb_flags
|= DLM_IFL_DEAD
;
6159 unlock_proc_lock(ls
, lkb
);
6160 dlm_put_lkb(lkb
); /* ref from proc->locks list */
6163 spin_lock(&proc
->locks_spin
);
6164 list_for_each_entry_safe(lkb
, safe
, &proc
->unlocking
, lkb_ownqueue
) {
6165 list_del_init(&lkb
->lkb_ownqueue
);
6166 lkb
->lkb_flags
|= DLM_IFL_DEAD
;
6169 spin_unlock(&proc
->locks_spin
);
6171 spin_lock(&proc
->asts_spin
);
6172 list_for_each_entry_safe(lkb
, safe
, &proc
->asts
, lkb_cb_list
) {
6173 memset(&lkb
->lkb_callbacks
, 0,
6174 sizeof(struct dlm_callback
) * DLM_CALLBACKS_SIZE
);
6175 list_del_init(&lkb
->lkb_cb_list
);
6178 spin_unlock(&proc
->asts_spin
);
6181 /* pid of 0 means purge all orphans */
6183 static void do_purge(struct dlm_ls
*ls
, int nodeid
, int pid
)
6185 struct dlm_lkb
*lkb
, *safe
;
6187 mutex_lock(&ls
->ls_orphans_mutex
);
6188 list_for_each_entry_safe(lkb
, safe
, &ls
->ls_orphans
, lkb_ownqueue
) {
6189 if (pid
&& lkb
->lkb_ownpid
!= pid
)
6191 unlock_proc_lock(ls
, lkb
);
6192 list_del_init(&lkb
->lkb_ownqueue
);
6195 mutex_unlock(&ls
->ls_orphans_mutex
);
6198 static int send_purge(struct dlm_ls
*ls
, int nodeid
, int pid
)
6200 struct dlm_message
*ms
;
6201 struct dlm_mhandle
*mh
;
6204 error
= _create_message(ls
, sizeof(struct dlm_message
), nodeid
,
6205 DLM_MSG_PURGE
, &ms
, &mh
);
6208 ms
->m_nodeid
= nodeid
;
6211 return send_message(mh
, ms
);
6214 int dlm_user_purge(struct dlm_ls
*ls
, struct dlm_user_proc
*proc
,
6215 int nodeid
, int pid
)
6219 if (nodeid
!= dlm_our_nodeid()) {
6220 error
= send_purge(ls
, nodeid
, pid
);
6222 dlm_lock_recovery(ls
);
6223 if (pid
== current
->pid
)
6224 purge_proc_locks(ls
, proc
);
6226 do_purge(ls
, nodeid
, pid
);
6227 dlm_unlock_recovery(ls
);