4 * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
6 * This program is free software; you can redistribute it and/or modify
7 * it under the terms of the GNU General Public License version 2 only,
8 * as published by the Free Software Foundation.
10 * This program is distributed in the hope that it will be useful, but
11 * WITHOUT ANY WARRANTY; without even the implied warranty of
12 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
13 * General Public License version 2 for more details (a copy is included
14 * in the LICENSE file that accompanied this code).
16 * You should have received a copy of the GNU General Public License
17 * version 2 along with this program; If not, see
18 * http://www.gnu.org/licenses/gpl-2.0.html
23 * Copyright (c) 2002, 2010, Oracle and/or its affiliates. All rights reserved.
24 * Use is subject to license terms.
26 * Copyright (c) 2011, 2016, Intel Corporation.
29 * This file is part of Lustre, http://www.lustre.org/
30 * Lustre is a trademark of Sun Microsystems, Inc.
32 * lustre/obdclass/lprocfs_status.c
34 * Author: Hariharan Thantry <thantry@users.sourceforge.net>
37 #define DEBUG_SUBSYSTEM S_CLASS
39 #include <obd_class.h>
40 #include <lprocfs_status.h>
44 static int lprocfs_no_percpu_stats = 0;
45 module_param(lprocfs_no_percpu_stats, int, 0644);
46 MODULE_PARM_DESC(lprocfs_no_percpu_stats, "Do not alloc percpu data for lprocfs stats");
48 #define MAX_STRING_SIZE 128
50 int lprocfs_single_release(struct inode *inode, struct file *file)
52 return single_release(inode, file);
54 EXPORT_SYMBOL(lprocfs_single_release);
56 int lprocfs_seq_release(struct inode *inode, struct file *file)
58 return seq_release(inode, file);
60 EXPORT_SYMBOL(lprocfs_seq_release);
62 struct proc_dir_entry *
63 lprocfs_add_simple(struct proc_dir_entry *root, char *name,
64 void *data, const struct file_operations *fops)
66 struct proc_dir_entry *proc;
69 if (root == NULL || name == NULL || fops == NULL)
70 return ERR_PTR(-EINVAL);
76 proc = proc_create_data(name, mode, root, fops, data);
78 CERROR("LprocFS: No memory to create /proc entry %s\n",
80 return ERR_PTR(-ENOMEM);
84 EXPORT_SYMBOL(lprocfs_add_simple);
86 struct proc_dir_entry *lprocfs_add_symlink(const char *name,
87 struct proc_dir_entry *parent, const char *format, ...)
89 struct proc_dir_entry *entry;
93 if (parent == NULL || format == NULL)
96 OBD_ALLOC_WAIT(dest, MAX_STRING_SIZE + 1);
100 va_start(ap, format);
101 vsnprintf(dest, MAX_STRING_SIZE, format, ap);
104 entry = proc_symlink(name, parent, dest);
106 CERROR("LprocFS: Could not create symbolic link from "
107 "%s to %s\n", name, dest);
109 OBD_FREE(dest, MAX_STRING_SIZE + 1);
112 EXPORT_SYMBOL(lprocfs_add_symlink);
114 static const struct file_operations lprocfs_generic_fops = { };
116 int ldebugfs_add_vars(struct dentry *parent, struct lprocfs_vars *list,
119 if (IS_ERR_OR_NULL(parent) || IS_ERR_OR_NULL(list))
123 struct dentry *entry;
126 if (list->proc_mode != 0000) {
127 mode = list->proc_mode;
128 } else if (list->fops) {
129 if (list->fops->read)
131 if (list->fops->write)
134 entry = debugfs_create_file(list->name, mode, parent,
136 list->fops ? : &lprocfs_generic_fops);
137 if (IS_ERR_OR_NULL(entry))
138 return entry ? PTR_ERR(entry) : -ENOMEM;
143 EXPORT_SYMBOL_GPL(ldebugfs_add_vars);
148 * \param root [in] The parent proc entry on which new entry will be added.
149 * \param list [in] Array of proc entries to be added.
150 * \param data [in] The argument to be passed when entries read/write routines
151 * are called through /proc file.
153 * \retval 0 on success
157 lprocfs_add_vars(struct proc_dir_entry *root, struct lprocfs_vars *list,
160 if (root == NULL || list == NULL)
163 while (list->name != NULL) {
164 struct proc_dir_entry *proc;
167 if (list->proc_mode != 0000) {
168 mode = list->proc_mode;
169 } else if (list->fops) {
170 if (list->fops->read)
172 if (list->fops->write)
175 proc = proc_create_data(list->name, mode, root,
176 list->fops ?: &lprocfs_generic_fops,
184 EXPORT_SYMBOL(lprocfs_add_vars);
186 void ldebugfs_remove(struct dentry **entryp)
188 debugfs_remove(*entryp);
191 EXPORT_SYMBOL_GPL(ldebugfs_remove);
193 #ifndef HAVE_REMOVE_PROC_SUBTREE
194 /* for b=10866, global variable */
195 DECLARE_RWSEM(_lprocfs_lock);
196 EXPORT_SYMBOL(_lprocfs_lock);
198 static void lprocfs_remove_nolock(struct proc_dir_entry **proot)
200 struct proc_dir_entry *root = *proot;
201 struct proc_dir_entry *temp = root;
202 struct proc_dir_entry *rm_entry;
203 struct proc_dir_entry *parent;
206 if (root == NULL || IS_ERR(root))
209 parent = root->parent;
210 LASSERT(parent != NULL);
213 while (temp->subdir != NULL)
219 /* Memory corruption once caused this to fail, and
220 without this LASSERT we would loop here forever. */
221 LASSERTF(strlen(rm_entry->name) == rm_entry->namelen,
222 "0x%p %s/%s len %d\n", rm_entry, temp->name,
223 rm_entry->name, (int)strlen(rm_entry->name));
225 remove_proc_entry(rm_entry->name, temp);
231 int remove_proc_subtree(const char *name, struct proc_dir_entry *parent)
233 struct proc_dir_entry *t = NULL;
234 struct proc_dir_entry **p;
237 LASSERT(parent != NULL);
240 down_write(&_lprocfs_lock);
241 /* lookup target name */
242 for (p = &parent->subdir; *p; p = &(*p)->next) {
243 if ((*p)->namelen != len)
245 if (memcmp(name, (*p)->name, len))
252 /* verify it's empty: do not count "num_refs" */
253 for (p = &t->subdir; *p; p = &(*p)->next) {
254 if ((*p)->namelen != strlen("num_refs")) {
258 if (memcmp("num_refs", (*p)->name,
259 strlen("num_refs"))) {
267 lprocfs_remove_nolock(&t);
269 up_write(&_lprocfs_lock);
272 #endif /* !HAVE_REMOVE_PROC_SUBTREE */
274 #ifndef HAVE_PROC_REMOVE
275 void proc_remove(struct proc_dir_entry *de)
277 #ifndef HAVE_REMOVE_PROC_SUBTREE
278 down_write(&_lprocfs_lock); /* search vs remove race */
279 lprocfs_remove_nolock(&de);
280 up_write(&_lprocfs_lock);
283 remove_proc_subtree(de->name, de->parent);
288 void lprocfs_remove(struct proc_dir_entry **rooth)
293 EXPORT_SYMBOL(lprocfs_remove);
295 void lprocfs_remove_proc_entry(const char *name, struct proc_dir_entry *parent)
297 LASSERT(parent != NULL);
298 remove_proc_entry(name, parent);
300 EXPORT_SYMBOL(lprocfs_remove_proc_entry);
302 struct dentry *ldebugfs_register(const char *name, struct dentry *parent,
303 struct lprocfs_vars *list, void *data)
305 struct dentry *entry;
307 entry = debugfs_create_dir(name, parent);
308 if (IS_ERR_OR_NULL(entry)) {
309 entry = entry ?: ERR_PTR(-ENOMEM);
313 if (!IS_ERR_OR_NULL(list)) {
316 rc = ldebugfs_add_vars(entry, list, data);
318 debugfs_remove(entry);
325 EXPORT_SYMBOL_GPL(ldebugfs_register);
327 struct proc_dir_entry *
328 lprocfs_register(const char *name, struct proc_dir_entry *parent,
329 struct lprocfs_vars *list, void *data)
331 struct proc_dir_entry *newchild;
333 newchild = proc_mkdir(name, parent);
334 if (newchild == NULL)
335 return ERR_PTR(-ENOMEM);
338 int rc = lprocfs_add_vars(newchild, list, data);
340 lprocfs_remove(&newchild);
346 EXPORT_SYMBOL(lprocfs_register);
348 /* Generic callbacks */
349 int lprocfs_uint_seq_show(struct seq_file *m, void *data)
351 seq_printf(m, "%u\n", *(unsigned int *)data);
354 EXPORT_SYMBOL(lprocfs_uint_seq_show);
356 int lprocfs_wr_uint(struct file *file, const char __user *buffer,
357 unsigned long count, void *data)
360 char dummy[MAX_STRING_SIZE + 1];
364 if (count >= sizeof(dummy))
370 if (copy_from_user(dummy, buffer, count))
375 tmp = simple_strtoul(dummy, &end, 0);
379 *p = (unsigned int)tmp;
382 EXPORT_SYMBOL(lprocfs_wr_uint);
384 ssize_t lprocfs_uint_seq_write(struct file *file, const char __user *buffer,
385 size_t count, loff_t *off)
387 int *data = ((struct seq_file *)file->private_data)->private;
391 rc = lprocfs_str_to_s64(buffer, count, &val);
395 return lprocfs_wr_uint(file, buffer, count, data);
397 EXPORT_SYMBOL(lprocfs_uint_seq_write);
399 int lprocfs_u64_seq_show(struct seq_file *m, void *data)
401 LASSERT(data != NULL);
402 seq_printf(m, "%llu\n", *(__u64 *)data);
405 EXPORT_SYMBOL(lprocfs_u64_seq_show);
407 int lprocfs_atomic_seq_show(struct seq_file *m, void *data)
409 atomic_t *atom = data;
410 LASSERT(atom != NULL);
411 seq_printf(m, "%d\n", atomic_read(atom));
414 EXPORT_SYMBOL(lprocfs_atomic_seq_show);
417 lprocfs_atomic_seq_write(struct file *file, const char __user *buffer,
418 size_t count, loff_t *off)
420 atomic_t *atm = ((struct seq_file *)file->private_data)->private;
424 rc = lprocfs_str_to_s64(buffer, count, &val);
428 if (val <= 0 || val > INT_MAX)
431 atomic_set(atm, val);
434 EXPORT_SYMBOL(lprocfs_atomic_seq_write);
436 int lprocfs_uuid_seq_show(struct seq_file *m, void *data)
438 struct obd_device *obd = data;
440 LASSERT(obd != NULL);
441 seq_printf(m, "%s\n", obd->obd_uuid.uuid);
444 EXPORT_SYMBOL(lprocfs_uuid_seq_show);
446 static ssize_t uuid_show(struct kobject *kobj, struct attribute *attr,
449 struct obd_device *obd = container_of(kobj, struct obd_device,
452 return sprintf(buf, "%s\n", obd->obd_uuid.uuid);
454 LUSTRE_RO_ATTR(uuid);
456 int lprocfs_name_seq_show(struct seq_file *m, void *data)
458 struct obd_device *dev = data;
460 LASSERT(dev != NULL);
461 seq_printf(m, "%s\n", dev->obd_name);
464 EXPORT_SYMBOL(lprocfs_name_seq_show);
466 static ssize_t blocksize_show(struct kobject *kobj, struct attribute *attr,
469 struct obd_device *obd = container_of(kobj, struct obd_device,
471 struct obd_statfs osfs;
472 int rc = obd_statfs(NULL, obd->obd_self_export, &osfs,
473 cfs_time_shift_64(-OBD_STATFS_CACHE_SECONDS),
476 return sprintf(buf, "%u\n", osfs.os_bsize);
480 LUSTRE_RO_ATTR(blocksize);
482 static ssize_t kbytestotal_show(struct kobject *kobj, struct attribute *attr,
485 struct obd_device *obd = container_of(kobj, struct obd_device,
487 struct obd_statfs osfs;
488 int rc = obd_statfs(NULL, obd->obd_self_export, &osfs,
489 cfs_time_shift_64(-OBD_STATFS_CACHE_SECONDS),
492 u32 blk_size = osfs.os_bsize >> 10;
493 u64 result = osfs.os_blocks;
495 while (blk_size >>= 1)
498 return sprintf(buf, "%llu\n", result);
503 LUSTRE_RO_ATTR(kbytestotal);
505 static ssize_t kbytesfree_show(struct kobject *kobj, struct attribute *attr,
508 struct obd_device *obd = container_of(kobj, struct obd_device,
510 struct obd_statfs osfs;
511 int rc = obd_statfs(NULL, obd->obd_self_export, &osfs,
512 cfs_time_shift_64(-OBD_STATFS_CACHE_SECONDS),
515 u32 blk_size = osfs.os_bsize >> 10;
516 u64 result = osfs.os_bfree;
518 while (blk_size >>= 1)
521 return sprintf(buf, "%llu\n", result);
526 LUSTRE_RO_ATTR(kbytesfree);
528 static ssize_t kbytesavail_show(struct kobject *kobj, struct attribute *attr,
531 struct obd_device *obd = container_of(kobj, struct obd_device,
533 struct obd_statfs osfs;
534 int rc = obd_statfs(NULL, obd->obd_self_export, &osfs,
535 cfs_time_shift_64(-OBD_STATFS_CACHE_SECONDS),
538 u32 blk_size = osfs.os_bsize >> 10;
539 u64 result = osfs.os_bavail;
541 while (blk_size >>= 1)
544 return sprintf(buf, "%llu\n", result);
549 LUSTRE_RO_ATTR(kbytesavail);
551 static ssize_t filestotal_show(struct kobject *kobj, struct attribute *attr,
554 struct obd_device *obd = container_of(kobj, struct obd_device,
556 struct obd_statfs osfs;
557 int rc = obd_statfs(NULL, obd->obd_self_export, &osfs,
558 cfs_time_shift_64(-OBD_STATFS_CACHE_SECONDS),
561 return sprintf(buf, "%llu\n", osfs.os_files);
565 LUSTRE_RO_ATTR(filestotal);
567 static ssize_t filesfree_show(struct kobject *kobj, struct attribute *attr,
570 struct obd_device *obd = container_of(kobj, struct obd_device,
572 struct obd_statfs osfs;
573 int rc = obd_statfs(NULL, obd->obd_self_export, &osfs,
574 cfs_time_shift_64(-OBD_STATFS_CACHE_SECONDS),
577 return sprintf(buf, "%llu\n", osfs.os_ffree);
581 LUSTRE_RO_ATTR(filesfree);
583 int lprocfs_server_uuid_seq_show(struct seq_file *m, void *data)
585 struct obd_device *obd = data;
586 struct obd_import *imp;
587 char *imp_state_name = NULL;
590 LASSERT(obd != NULL);
591 LPROCFS_CLIMP_CHECK(obd);
592 imp = obd->u.cli.cl_import;
593 imp_state_name = ptlrpc_import_state_name(imp->imp_state);
594 seq_printf(m, "%s\t%s%s\n", obd2cli_tgt(obd), imp_state_name,
595 imp->imp_deactive ? "\tDEACTIVATED" : "");
597 LPROCFS_CLIMP_EXIT(obd);
600 EXPORT_SYMBOL(lprocfs_server_uuid_seq_show);
602 int lprocfs_conn_uuid_seq_show(struct seq_file *m, void *data)
604 struct obd_device *obd = data;
605 struct ptlrpc_connection *conn;
608 LASSERT(obd != NULL);
610 LPROCFS_CLIMP_CHECK(obd);
611 conn = obd->u.cli.cl_import->imp_connection;
612 if (conn && obd->u.cli.cl_import)
613 seq_printf(m, "%s\n", conn->c_remote_uuid.uuid);
615 seq_printf(m, "%s\n", "<none>");
617 LPROCFS_CLIMP_EXIT(obd);
620 EXPORT_SYMBOL(lprocfs_conn_uuid_seq_show);
622 /** add up per-cpu counters */
625 * Lock statistics structure for access, possibly only on this CPU.
627 * The statistics struct may be allocated with per-CPU structures for
628 * efficient concurrent update (usually only on server-wide stats), or
629 * as a single global struct (e.g. for per-client or per-job statistics),
630 * so the required locking depends on the type of structure allocated.
632 * For per-CPU statistics, pin the thread to the current cpuid so that
633 * will only access the statistics for that CPU. If the stats structure
634 * for the current CPU has not been allocated (or previously freed),
635 * allocate it now. The per-CPU statistics do not need locking since
636 * the thread is pinned to the CPU during update.
638 * For global statistics, lock the stats structure to prevent concurrent update.
640 * \param[in] stats statistics structure to lock
641 * \param[in] opc type of operation:
642 * LPROCFS_GET_SMP_ID: "lock" and return current CPU index
643 * for incrementing statistics for that CPU
644 * LPROCFS_GET_NUM_CPU: "lock" and return number of used
645 * CPU indices to iterate over all indices
646 * \param[out] flags CPU interrupt saved state for IRQ-safe locking
648 * \retval cpuid of current thread or number of allocated structs
649 * \retval negative on error (only for opc LPROCFS_GET_SMP_ID + per-CPU stats)
651 int lprocfs_stats_lock(struct lprocfs_stats *stats,
652 enum lprocfs_stats_lock_ops opc,
653 unsigned long *flags)
655 if (stats->ls_flags & LPROCFS_STATS_FLAG_NOPERCPU) {
656 if (stats->ls_flags & LPROCFS_STATS_FLAG_IRQ_SAFE)
657 spin_lock_irqsave(&stats->ls_lock, *flags);
659 spin_lock(&stats->ls_lock);
660 return opc == LPROCFS_GET_NUM_CPU ? 1 : 0;
664 case LPROCFS_GET_SMP_ID: {
665 unsigned int cpuid = get_cpu();
667 if (unlikely(!stats->ls_percpu[cpuid])) {
668 int rc = lprocfs_stats_alloc_one(stats, cpuid);
677 case LPROCFS_GET_NUM_CPU:
678 return stats->ls_biggest_alloc_num;
685 * Unlock statistics structure after access.
687 * Unlock the lock acquired via lprocfs_stats_lock() for global statistics,
688 * or unpin this thread from the current cpuid for per-CPU statistics.
690 * This function must be called using the same arguments as used when calling
691 * lprocfs_stats_lock() so that the correct operation can be performed.
693 * \param[in] stats statistics structure to unlock
694 * \param[in] opc type of operation (current cpuid or number of structs)
695 * \param[in] flags CPU interrupt saved state for IRQ-safe locking
697 void lprocfs_stats_unlock(struct lprocfs_stats *stats,
698 enum lprocfs_stats_lock_ops opc,
699 unsigned long *flags)
701 if (stats->ls_flags & LPROCFS_STATS_FLAG_NOPERCPU) {
702 if (stats->ls_flags & LPROCFS_STATS_FLAG_IRQ_SAFE)
703 spin_unlock_irqrestore(&stats->ls_lock, *flags);
705 spin_unlock(&stats->ls_lock);
706 } else if (opc == LPROCFS_GET_SMP_ID) {
711 /** add up per-cpu counters */
712 void lprocfs_stats_collect(struct lprocfs_stats *stats, int idx,
713 struct lprocfs_counter *cnt)
715 unsigned int num_entry;
716 struct lprocfs_counter *percpu_cntr;
718 unsigned long flags = 0;
720 memset(cnt, 0, sizeof(*cnt));
723 /* set count to 1 to avoid divide-by-zero errs in callers */
728 cnt->lc_min = LC_MIN_INIT;
730 num_entry = lprocfs_stats_lock(stats, LPROCFS_GET_NUM_CPU, &flags);
732 for (i = 0; i < num_entry; i++) {
733 if (stats->ls_percpu[i] == NULL)
735 percpu_cntr = lprocfs_stats_counter_get(stats, i, idx);
737 cnt->lc_count += percpu_cntr->lc_count;
738 cnt->lc_sum += percpu_cntr->lc_sum;
739 if (percpu_cntr->lc_min < cnt->lc_min)
740 cnt->lc_min = percpu_cntr->lc_min;
741 if (percpu_cntr->lc_max > cnt->lc_max)
742 cnt->lc_max = percpu_cntr->lc_max;
743 cnt->lc_sumsquare += percpu_cntr->lc_sumsquare;
746 lprocfs_stats_unlock(stats, LPROCFS_GET_NUM_CPU, &flags);
750 * Append a space separated list of current set flags to str.
752 #define flag2str(flag) \
754 if (imp->imp_##flag) { \
755 seq_printf(m, "%s" #flag, first ? "" : ", "); \
759 static void obd_import_flags2str(struct obd_import *imp, struct seq_file *m)
763 if (imp->imp_obd->obd_no_recov) {
764 seq_printf(m, "no_recov");
770 flag2str(replayable);
771 flag2str(delayed_recovery);
772 flag2str(no_lock_replay);
773 flag2str(vbr_failed);
775 flag2str(resend_replay);
776 flag2str(no_pinger_recover);
777 flag2str(need_mne_swab);
778 flag2str(connect_tried);
782 static const char *obd_connect_names[] = {
801 "remote_client_by_force",
810 "mds_mds_connection",
813 "alt_checksum_algorithm",
853 static void obd_connect_seq_flags2str(struct seq_file *m, __u64 flags,
854 __u64 flags2, const char *sep)
860 for (i = 0, mask = 1; i < 64; i++, mask <<= 1) {
862 seq_printf(m, "%s%s",
863 first ? "" : sep, obd_connect_names[i]);
868 if (flags & ~(mask - 1)) {
869 seq_printf(m, "%sunknown_%#llx",
870 first ? "" : sep, flags & ~(mask - 1));
874 if (!(flags & OBD_CONNECT_FLAGS2) || flags2 == 0)
877 for (i = 64, mask = 1; obd_connect_names[i] != NULL; i++, mask <<= 1) {
879 seq_printf(m, "%s%s",
880 first ? "" : sep, obd_connect_names[i]);
885 if (flags2 & ~(mask - 1)) {
886 seq_printf(m, "%sunknown2_%#llx",
887 first ? "" : sep, flags2 & ~(mask - 1));
892 int obd_connect_flags2str(char *page, int count, __u64 flags, __u64 flags2,
898 for (i = 0, mask = 1; i < 64; i++, mask <<= 1) {
900 ret += snprintf(page + ret, count - ret, "%s%s",
901 ret ? sep : "", obd_connect_names[i]);
904 if (flags & ~(mask - 1))
905 ret += snprintf(page + ret, count - ret,
907 ret ? sep : "", flags & ~(mask - 1));
909 if (!(flags & OBD_CONNECT_FLAGS2) || flags2 == 0)
912 for (i = 64, mask = 1; obd_connect_names[i] != NULL; i++, mask <<= 1) {
914 ret += snprintf(page + ret, count - ret, "%s%s",
915 ret ? sep : "", obd_connect_names[i]);
918 if (flags2 & ~(mask - 1))
919 ret += snprintf(page + ret, count - ret,
921 ret ? sep : "", flags2 & ~(mask - 1));
925 EXPORT_SYMBOL(obd_connect_flags2str);
927 static void obd_connect_data_seqprint(struct seq_file *m,
928 struct obd_connect_data *ocd)
932 LASSERT(ocd != NULL);
933 flags = ocd->ocd_connect_flags;
935 seq_printf(m, " connect_data:\n"
938 ocd->ocd_connect_flags,
940 if (flags & OBD_CONNECT_VERSION)
941 seq_printf(m, " target_version: %u.%u.%u.%u\n",
942 OBD_OCD_VERSION_MAJOR(ocd->ocd_version),
943 OBD_OCD_VERSION_MINOR(ocd->ocd_version),
944 OBD_OCD_VERSION_PATCH(ocd->ocd_version),
945 OBD_OCD_VERSION_FIX(ocd->ocd_version));
946 if (flags & OBD_CONNECT_MDS)
947 seq_printf(m, " mdt_index: %d\n", ocd->ocd_group);
948 if (flags & OBD_CONNECT_GRANT)
949 seq_printf(m, " initial_grant: %d\n", ocd->ocd_grant);
950 if (flags & OBD_CONNECT_INDEX)
951 seq_printf(m, " target_index: %u\n", ocd->ocd_index);
952 if (flags & OBD_CONNECT_BRW_SIZE)
953 seq_printf(m, " max_brw_size: %d\n", ocd->ocd_brw_size);
954 if (flags & OBD_CONNECT_IBITS)
955 seq_printf(m, " ibits_known: %#llx\n",
956 ocd->ocd_ibits_known);
957 if (flags & OBD_CONNECT_GRANT_PARAM)
958 seq_printf(m, " grant_block_size: %d\n"
959 " grant_inode_size: %d\n"
960 " grant_max_extent_size: %d\n"
961 " grant_extent_tax: %d\n",
962 1 << ocd->ocd_grant_blkbits,
963 1 << ocd->ocd_grant_inobits,
964 ocd->ocd_grant_max_blks << ocd->ocd_grant_blkbits,
965 ocd->ocd_grant_tax_kb << 10);
966 if (flags & OBD_CONNECT_TRANSNO)
967 seq_printf(m, " first_transno: %#llx\n",
969 if (flags & OBD_CONNECT_CKSUM)
970 seq_printf(m, " cksum_types: %#x\n",
971 ocd->ocd_cksum_types);
972 if (flags & OBD_CONNECT_MAX_EASIZE)
973 seq_printf(m, " max_easize: %d\n", ocd->ocd_max_easize);
974 if (flags & OBD_CONNECT_MAXBYTES)
975 seq_printf(m, " max_object_bytes: %llu\n",
977 if (flags & OBD_CONNECT_MULTIMODRPCS)
978 seq_printf(m, " max_mod_rpcs: %hu\n",
979 ocd->ocd_maxmodrpcs);
982 int lprocfs_import_seq_show(struct seq_file *m, void *data)
984 char nidstr[LNET_NIDSTR_SIZE];
985 struct lprocfs_counter ret;
986 struct lprocfs_counter_header *header;
987 struct obd_device *obd = (struct obd_device *)data;
988 struct obd_import *imp;
989 struct obd_import_conn *conn;
990 struct obd_connect_data *ocd;
995 LASSERT(obd != NULL);
996 LPROCFS_CLIMP_CHECK(obd);
997 imp = obd->u.cli.cl_import;
998 ocd = &imp->imp_connect_data;
1000 seq_printf(m, "import:\n"
1004 " connect_flags: [ ",
1007 ptlrpc_import_state_name(imp->imp_state));
1008 obd_connect_seq_flags2str(m, imp->imp_connect_data.ocd_connect_flags,
1009 imp->imp_connect_data.ocd_connect_flags2,
1011 seq_printf(m, " ]\n");
1012 obd_connect_data_seqprint(m, ocd);
1013 seq_printf(m, " import_flags: [ ");
1014 obd_import_flags2str(imp, m);
1016 seq_printf(m, " ]\n"
1018 " failover_nids: [ ");
1019 spin_lock(&imp->imp_lock);
1021 list_for_each_entry(conn, &imp->imp_conn_list, oic_item) {
1022 libcfs_nid2str_r(conn->oic_conn->c_peer.nid,
1023 nidstr, sizeof(nidstr));
1024 seq_printf(m, "%s%s", j ? ", " : "", nidstr);
1027 if (imp->imp_connection != NULL)
1028 libcfs_nid2str_r(imp->imp_connection->c_peer.nid,
1029 nidstr, sizeof(nidstr));
1031 strncpy(nidstr, "<none>", sizeof(nidstr));
1032 seq_printf(m, " ]\n"
1033 " current_connection: %s\n"
1034 " connection_attempts: %u\n"
1036 " in-progress_invalidations: %u\n",
1039 imp->imp_generation,
1040 atomic_read(&imp->imp_inval_count));
1041 spin_unlock(&imp->imp_lock);
1043 if (obd->obd_svc_stats == NULL)
1046 header = &obd->obd_svc_stats->ls_cnt_header[PTLRPC_REQWAIT_CNTR];
1047 lprocfs_stats_collect(obd->obd_svc_stats, PTLRPC_REQWAIT_CNTR, &ret);
1048 if (ret.lc_count != 0) {
1049 /* first argument to do_div MUST be __u64 */
1050 __u64 sum = ret.lc_sum;
1051 do_div(sum, ret.lc_count);
1055 seq_printf(m, " rpcs:\n"
1057 " unregistering: %u\n"
1059 " avg_waittime: %llu %s\n",
1060 atomic_read(&imp->imp_inflight),
1061 atomic_read(&imp->imp_unregistering),
1062 atomic_read(&imp->imp_timeouts),
1063 ret.lc_sum, header->lc_units);
1066 for(j = 0; j < IMP_AT_MAX_PORTALS; j++) {
1067 if (imp->imp_at.iat_portal[j] == 0)
1069 k = max_t(unsigned int, k,
1070 at_get(&imp->imp_at.iat_service_estimate[j]));
1072 seq_printf(m, " service_estimates:\n"
1073 " services: %u sec\n"
1074 " network: %u sec\n",
1076 at_get(&imp->imp_at.iat_net_latency));
1078 seq_printf(m, " transactions:\n"
1079 " last_replay: %llu\n"
1080 " peer_committed: %llu\n"
1081 " last_checked: %llu\n",
1082 imp->imp_last_replay_transno,
1083 imp->imp_peer_committed_transno,
1084 imp->imp_last_transno_checked);
1086 /* avg data rates */
1087 for (rw = 0; rw <= 1; rw++) {
1088 lprocfs_stats_collect(obd->obd_svc_stats,
1089 PTLRPC_LAST_CNTR + BRW_READ_BYTES + rw,
1091 if (ret.lc_sum > 0 && ret.lc_count > 0) {
1092 /* first argument to do_div MUST be __u64 */
1093 __u64 sum = ret.lc_sum;
1094 do_div(sum, ret.lc_count);
1096 seq_printf(m, " %s_data_averages:\n"
1097 " bytes_per_rpc: %llu\n",
1098 rw ? "write" : "read",
1101 k = (int)ret.lc_sum;
1102 j = opcode_offset(OST_READ + rw) + EXTRA_MAX_OPCODES;
1103 header = &obd->obd_svc_stats->ls_cnt_header[j];
1104 lprocfs_stats_collect(obd->obd_svc_stats, j, &ret);
1105 if (ret.lc_sum > 0 && ret.lc_count != 0) {
1106 /* first argument to do_div MUST be __u64 */
1107 __u64 sum = ret.lc_sum;
1108 do_div(sum, ret.lc_count);
1110 seq_printf(m, " %s_per_rpc: %llu\n",
1111 header->lc_units, ret.lc_sum);
1112 j = (int)ret.lc_sum;
1114 seq_printf(m, " MB_per_sec: %u.%.02u\n",
1115 k / j, (100 * k / j) % 100);
1120 LPROCFS_CLIMP_EXIT(obd);
1123 EXPORT_SYMBOL(lprocfs_import_seq_show);
1125 int lprocfs_state_seq_show(struct seq_file *m, void *data)
1127 struct obd_device *obd = (struct obd_device *)data;
1128 struct obd_import *imp;
1131 LASSERT(obd != NULL);
1132 LPROCFS_CLIMP_CHECK(obd);
1133 imp = obd->u.cli.cl_import;
1135 seq_printf(m, "current_state: %s\n",
1136 ptlrpc_import_state_name(imp->imp_state));
1137 seq_printf(m, "state_history:\n");
1138 k = imp->imp_state_hist_idx;
1139 for (j = 0; j < IMP_STATE_HIST_LEN; j++) {
1140 struct import_state_hist *ish =
1141 &imp->imp_state_hist[(k + j) % IMP_STATE_HIST_LEN];
1142 if (ish->ish_state == 0)
1144 seq_printf(m, " - [ %lld, %s ]\n", (s64)ish->ish_time,
1145 ptlrpc_import_state_name(ish->ish_state));
1148 LPROCFS_CLIMP_EXIT(obd);
1151 EXPORT_SYMBOL(lprocfs_state_seq_show);
1153 int lprocfs_at_hist_helper(struct seq_file *m, struct adaptive_timeout *at)
1156 for (i = 0; i < AT_BINS; i++)
1157 seq_printf(m, "%3u ", at->at_hist[i]);
1158 seq_printf(m, "\n");
1161 EXPORT_SYMBOL(lprocfs_at_hist_helper);
1163 /* See also ptlrpc_lprocfs_timeouts_show_seq */
1164 int lprocfs_timeouts_seq_show(struct seq_file *m, void *data)
1166 struct obd_device *obd = (struct obd_device *)data;
1167 struct obd_import *imp;
1168 unsigned int cur, worst;
1169 time64_t now, worstt;
1172 LASSERT(obd != NULL);
1173 LPROCFS_CLIMP_CHECK(obd);
1174 imp = obd->u.cli.cl_import;
1176 now = ktime_get_real_seconds();
1178 /* Some network health info for kicks */
1179 seq_printf(m, "%-10s : %lld, %llds ago\n",
1180 "last reply", (s64)imp->imp_last_reply_time,
1181 (s64)(now - imp->imp_last_reply_time));
1183 cur = at_get(&imp->imp_at.iat_net_latency);
1184 worst = imp->imp_at.iat_net_latency.at_worst_ever;
1185 worstt = imp->imp_at.iat_net_latency.at_worst_time;
1186 seq_printf(m, "%-10s : cur %3u worst %3u (at %lld, %llds ago) ",
1187 "network", cur, worst, (s64)worstt, (s64)(now - worstt));
1188 lprocfs_at_hist_helper(m, &imp->imp_at.iat_net_latency);
1190 for(i = 0; i < IMP_AT_MAX_PORTALS; i++) {
1191 if (imp->imp_at.iat_portal[i] == 0)
1193 cur = at_get(&imp->imp_at.iat_service_estimate[i]);
1194 worst = imp->imp_at.iat_service_estimate[i].at_worst_ever;
1195 worstt = imp->imp_at.iat_service_estimate[i].at_worst_time;
1196 seq_printf(m, "portal %-2d : cur %3u worst %3u (at %lld, %llds ago) ",
1197 imp->imp_at.iat_portal[i], cur, worst, (s64)worstt,
1198 (s64)(now - worstt));
1199 lprocfs_at_hist_helper(m, &imp->imp_at.iat_service_estimate[i]);
1202 LPROCFS_CLIMP_EXIT(obd);
1205 EXPORT_SYMBOL(lprocfs_timeouts_seq_show);
1207 int lprocfs_connect_flags_seq_show(struct seq_file *m, void *data)
1209 struct obd_device *obd = data;
1213 LPROCFS_CLIMP_CHECK(obd);
1214 flags = obd->u.cli.cl_import->imp_connect_data.ocd_connect_flags;
1215 flags2 = obd->u.cli.cl_import->imp_connect_data.ocd_connect_flags2;
1216 seq_printf(m, "flags=%#llx\n", flags);
1217 seq_printf(m, "flags2=%#llx\n", flags2);
1218 obd_connect_seq_flags2str(m, flags, flags2, "\n");
1219 seq_printf(m, "\n");
1220 LPROCFS_CLIMP_EXIT(obd);
1223 EXPORT_SYMBOL(lprocfs_connect_flags_seq_show);
1225 static struct attribute *obd_def_uuid_attrs[] = {
1226 &lustre_attr_uuid.attr,
1230 static struct attribute *obd_def_attrs[] = {
1231 &lustre_attr_blocksize.attr,
1232 &lustre_attr_kbytestotal.attr,
1233 &lustre_attr_kbytesfree.attr,
1234 &lustre_attr_kbytesavail.attr,
1235 &lustre_attr_filestotal.attr,
1236 &lustre_attr_filesfree.attr,
1237 &lustre_attr_uuid.attr,
1241 static void obd_sysfs_release(struct kobject *kobj)
1243 struct obd_device *obd = container_of(kobj, struct obd_device,
1246 complete(&obd->obd_kobj_unregister);
1249 static struct kobj_type obd_ktype = {
1250 .sysfs_ops = &lustre_sysfs_ops,
1251 .release = obd_sysfs_release,
1255 lprocfs_obd_setup(struct obd_device *obd, bool uuid_only)
1259 LASSERT(obd != NULL);
1260 LASSERT(obd->obd_magic == OBD_DEVICE_MAGIC);
1261 LASSERT(obd->obd_type->typ_procroot != NULL);
1264 obd_ktype.default_attrs = obd_def_uuid_attrs;
1266 obd_ktype.default_attrs = obd_def_attrs;
1268 init_completion(&obd->obd_kobj_unregister);
1269 rc = kobject_init_and_add(&obd->obd_kobj, &obd_ktype,
1270 obd->obd_type->typ_kobj,
1271 "%s", obd->obd_name);
1275 if (obd->obd_attrs) {
1276 rc = sysfs_create_group(&obd->obd_kobj, obd->obd_attrs);
1278 kobject_put(&obd->obd_kobj);
1283 obd->obd_proc_entry = lprocfs_register(obd->obd_name,
1284 obd->obd_type->typ_procroot,
1285 obd->obd_vars, obd);
1286 if (IS_ERR(obd->obd_proc_entry)) {
1287 kobject_put(&obd->obd_kobj);
1288 rc = PTR_ERR(obd->obd_proc_entry);
1289 CERROR("error %d setting up lprocfs for %s\n",rc,obd->obd_name);
1290 obd->obd_proc_entry = NULL;
1295 EXPORT_SYMBOL(lprocfs_obd_setup);
1297 int lprocfs_obd_cleanup(struct obd_device *obd)
1302 if (obd->obd_proc_exports_entry) {
1303 /* Should be no exports left */
1304 lprocfs_remove(&obd->obd_proc_exports_entry);
1305 obd->obd_proc_exports_entry = NULL;
1308 if (obd->obd_proc_entry) {
1309 lprocfs_remove(&obd->obd_proc_entry);
1310 obd->obd_proc_entry = NULL;
1313 kobject_put(&obd->obd_kobj);
1314 wait_for_completion(&obd->obd_kobj_unregister);
1317 EXPORT_SYMBOL(lprocfs_obd_cleanup);
1319 int lprocfs_stats_alloc_one(struct lprocfs_stats *stats, unsigned int cpuid)
1321 struct lprocfs_counter *cntr;
1322 unsigned int percpusize;
1324 unsigned long flags = 0;
1327 LASSERT(stats->ls_percpu[cpuid] == NULL);
1328 LASSERT((stats->ls_flags & LPROCFS_STATS_FLAG_NOPERCPU) == 0);
1330 percpusize = lprocfs_stats_counter_size(stats);
1331 LIBCFS_ALLOC_ATOMIC(stats->ls_percpu[cpuid], percpusize);
1332 if (stats->ls_percpu[cpuid] != NULL) {
1334 if (unlikely(stats->ls_biggest_alloc_num <= cpuid)) {
1335 if (stats->ls_flags & LPROCFS_STATS_FLAG_IRQ_SAFE)
1336 spin_lock_irqsave(&stats->ls_lock, flags);
1338 spin_lock(&stats->ls_lock);
1339 if (stats->ls_biggest_alloc_num <= cpuid)
1340 stats->ls_biggest_alloc_num = cpuid + 1;
1341 if (stats->ls_flags & LPROCFS_STATS_FLAG_IRQ_SAFE) {
1342 spin_unlock_irqrestore(&stats->ls_lock, flags);
1344 spin_unlock(&stats->ls_lock);
1347 /* initialize the ls_percpu[cpuid] non-zero counter */
1348 for (i = 0; i < stats->ls_num; ++i) {
1349 cntr = lprocfs_stats_counter_get(stats, cpuid, i);
1350 cntr->lc_min = LC_MIN_INIT;
1356 struct lprocfs_stats *lprocfs_alloc_stats(unsigned int num,
1357 enum lprocfs_stats_flags flags)
1359 struct lprocfs_stats *stats;
1360 unsigned int num_entry;
1361 unsigned int percpusize = 0;
1367 if (lprocfs_no_percpu_stats != 0)
1368 flags |= LPROCFS_STATS_FLAG_NOPERCPU;
1370 if (flags & LPROCFS_STATS_FLAG_NOPERCPU)
1373 num_entry = num_possible_cpus();
1375 /* alloc percpu pointers for all possible cpu slots */
1376 LIBCFS_ALLOC(stats, offsetof(typeof(*stats), ls_percpu[num_entry]));
1380 stats->ls_num = num;
1381 stats->ls_flags = flags;
1382 spin_lock_init(&stats->ls_lock);
1384 /* alloc num of counter headers */
1385 LIBCFS_ALLOC(stats->ls_cnt_header,
1386 stats->ls_num * sizeof(struct lprocfs_counter_header));
1387 if (stats->ls_cnt_header == NULL)
1390 if ((flags & LPROCFS_STATS_FLAG_NOPERCPU) != 0) {
1391 /* contains only one set counters */
1392 percpusize = lprocfs_stats_counter_size(stats);
1393 LIBCFS_ALLOC_ATOMIC(stats->ls_percpu[0], percpusize);
1394 if (stats->ls_percpu[0] == NULL)
1396 stats->ls_biggest_alloc_num = 1;
1397 } else if ((flags & LPROCFS_STATS_FLAG_IRQ_SAFE) != 0) {
1398 /* alloc all percpu data, currently only obd_memory use this */
1399 for (i = 0; i < num_entry; ++i)
1400 if (lprocfs_stats_alloc_one(stats, i) < 0)
1407 lprocfs_free_stats(&stats);
1410 EXPORT_SYMBOL(lprocfs_alloc_stats);
1412 void lprocfs_free_stats(struct lprocfs_stats **statsh)
1414 struct lprocfs_stats *stats = *statsh;
1415 unsigned int num_entry;
1416 unsigned int percpusize;
1419 if (stats == NULL || stats->ls_num == 0)
1423 if (stats->ls_flags & LPROCFS_STATS_FLAG_NOPERCPU)
1426 num_entry = num_possible_cpus();
1428 percpusize = lprocfs_stats_counter_size(stats);
1429 for (i = 0; i < num_entry; i++)
1430 if (stats->ls_percpu[i] != NULL)
1431 LIBCFS_FREE(stats->ls_percpu[i], percpusize);
1432 if (stats->ls_cnt_header != NULL)
1433 LIBCFS_FREE(stats->ls_cnt_header, stats->ls_num *
1434 sizeof(struct lprocfs_counter_header));
1435 LIBCFS_FREE(stats, offsetof(typeof(*stats), ls_percpu[num_entry]));
1437 EXPORT_SYMBOL(lprocfs_free_stats);
1439 u64 lprocfs_stats_collector(struct lprocfs_stats *stats, int idx,
1440 enum lprocfs_fields_flags field)
1442 unsigned long flags = 0;
1443 unsigned int num_cpu;
1449 num_cpu = lprocfs_stats_lock(stats, LPROCFS_GET_NUM_CPU, &flags);
1450 for (i = 0; i < num_cpu; i++) {
1451 struct lprocfs_counter *cntr;
1453 if (!stats->ls_percpu[i])
1456 cntr = lprocfs_stats_counter_get(stats, i, idx);
1457 ret += lprocfs_read_helper(cntr, &stats->ls_cnt_header[idx],
1458 stats->ls_flags, field);
1460 lprocfs_stats_unlock(stats, LPROCFS_GET_NUM_CPU, &flags);
1463 EXPORT_SYMBOL(lprocfs_stats_collector);
1465 void lprocfs_clear_stats(struct lprocfs_stats *stats)
1467 struct lprocfs_counter *percpu_cntr;
1470 unsigned int num_entry;
1471 unsigned long flags = 0;
1473 num_entry = lprocfs_stats_lock(stats, LPROCFS_GET_NUM_CPU, &flags);
1475 for (i = 0; i < num_entry; i++) {
1476 if (stats->ls_percpu[i] == NULL)
1478 for (j = 0; j < stats->ls_num; j++) {
1479 percpu_cntr = lprocfs_stats_counter_get(stats, i, j);
1480 percpu_cntr->lc_count = 0;
1481 percpu_cntr->lc_min = LC_MIN_INIT;
1482 percpu_cntr->lc_max = 0;
1483 percpu_cntr->lc_sumsquare = 0;
1484 percpu_cntr->lc_sum = 0;
1485 if (stats->ls_flags & LPROCFS_STATS_FLAG_IRQ_SAFE)
1486 percpu_cntr->lc_sum_irq = 0;
1490 lprocfs_stats_unlock(stats, LPROCFS_GET_NUM_CPU, &flags);
1492 EXPORT_SYMBOL(lprocfs_clear_stats);
1494 static ssize_t lprocfs_stats_seq_write(struct file *file,
1495 const char __user *buf,
1496 size_t len, loff_t *off)
1498 struct seq_file *seq = file->private_data;
1499 struct lprocfs_stats *stats = seq->private;
1501 lprocfs_clear_stats(stats);
1506 static void *lprocfs_stats_seq_start(struct seq_file *p, loff_t *pos)
1508 struct lprocfs_stats *stats = p->private;
1510 return (*pos < stats->ls_num) ? pos : NULL;
1513 static void lprocfs_stats_seq_stop(struct seq_file *p, void *v)
1517 static void *lprocfs_stats_seq_next(struct seq_file *p, void *v, loff_t *pos)
1521 return lprocfs_stats_seq_start(p, pos);
1524 /* seq file export of one lprocfs counter */
1525 static int lprocfs_stats_seq_show(struct seq_file *p, void *v)
1527 struct lprocfs_stats *stats = p->private;
1528 struct lprocfs_counter_header *hdr;
1529 struct lprocfs_counter ctr;
1530 int idx = *(loff_t *)v;
1533 struct timespec64 now;
1535 ktime_get_real_ts64(&now);
1536 seq_printf(p, "%-25s %llu.%09lu secs.nsecs\n",
1537 "snapshot_time", (s64)now.tv_sec, now.tv_nsec);
1540 hdr = &stats->ls_cnt_header[idx];
1541 lprocfs_stats_collect(stats, idx, &ctr);
1543 if (ctr.lc_count == 0)
1546 seq_printf(p, "%-25s %lld samples [%s]", hdr->lc_name,
1547 ctr.lc_count, hdr->lc_units);
1549 if ((hdr->lc_config & LPROCFS_CNTR_AVGMINMAX) && ctr.lc_count > 0) {
1550 seq_printf(p, " %lld %lld %lld",
1551 ctr.lc_min, ctr.lc_max, ctr.lc_sum);
1552 if (hdr->lc_config & LPROCFS_CNTR_STDDEV)
1553 seq_printf(p, " %llu", ctr.lc_sumsquare);
1559 static const struct seq_operations lprocfs_stats_seq_sops = {
1560 .start = lprocfs_stats_seq_start,
1561 .stop = lprocfs_stats_seq_stop,
1562 .next = lprocfs_stats_seq_next,
1563 .show = lprocfs_stats_seq_show,
1566 static int lprocfs_stats_seq_open(struct inode *inode, struct file *file)
1568 struct seq_file *seq;
1571 rc = LPROCFS_ENTRY_CHECK(inode);
1575 rc = seq_open(file, &lprocfs_stats_seq_sops);
1578 seq = file->private_data;
1579 seq->private = inode->i_private ? : PDE_DATA(inode);
1583 static const struct file_operations lprocfs_stats_seq_fops = {
1584 .owner = THIS_MODULE,
1585 .open = lprocfs_stats_seq_open,
1587 .write = lprocfs_stats_seq_write,
1588 .llseek = seq_lseek,
1589 .release = lprocfs_seq_release,
1592 int ldebugfs_register_stats(struct dentry *parent, const char *name,
1593 struct lprocfs_stats *stats)
1595 struct dentry *entry;
1597 LASSERT(!IS_ERR_OR_NULL(parent));
1599 entry = debugfs_create_file(name, 0644, parent, stats,
1600 &lprocfs_stats_seq_fops);
1601 if (IS_ERR_OR_NULL(entry))
1602 return entry ? PTR_ERR(entry) : -ENOMEM;
1606 EXPORT_SYMBOL_GPL(ldebugfs_register_stats);
1608 int lprocfs_register_stats(struct proc_dir_entry *root, const char *name,
1609 struct lprocfs_stats *stats)
1611 struct proc_dir_entry *entry;
1612 LASSERT(root != NULL);
1614 entry = proc_create_data(name, 0644, root,
1615 &lprocfs_stats_seq_fops, stats);
1620 EXPORT_SYMBOL(lprocfs_register_stats);
1622 void lprocfs_counter_init(struct lprocfs_stats *stats, int index,
1623 unsigned conf, const char *name, const char *units)
1625 struct lprocfs_counter_header *header;
1626 struct lprocfs_counter *percpu_cntr;
1627 unsigned long flags = 0;
1629 unsigned int num_cpu;
1631 LASSERT(stats != NULL);
1633 header = &stats->ls_cnt_header[index];
1634 LASSERTF(header != NULL, "Failed to allocate stats header:[%d]%s/%s\n",
1635 index, name, units);
1637 header->lc_config = conf;
1638 header->lc_name = name;
1639 header->lc_units = units;
1641 num_cpu = lprocfs_stats_lock(stats, LPROCFS_GET_NUM_CPU, &flags);
1642 for (i = 0; i < num_cpu; ++i) {
1643 if (stats->ls_percpu[i] == NULL)
1645 percpu_cntr = lprocfs_stats_counter_get(stats, i, index);
1646 percpu_cntr->lc_count = 0;
1647 percpu_cntr->lc_min = LC_MIN_INIT;
1648 percpu_cntr->lc_max = 0;
1649 percpu_cntr->lc_sumsquare = 0;
1650 percpu_cntr->lc_sum = 0;
1651 if ((stats->ls_flags & LPROCFS_STATS_FLAG_IRQ_SAFE) != 0)
1652 percpu_cntr->lc_sum_irq = 0;
1654 lprocfs_stats_unlock(stats, LPROCFS_GET_NUM_CPU, &flags);
1656 EXPORT_SYMBOL(lprocfs_counter_init);
1658 /* Note that we only init md counters for ops whose offset is less
1659 * than NUM_MD_STATS. This is explained in a comment in the definition
1660 * of struct md_ops. */
1661 #define LPROCFS_MD_OP_INIT(base, stats, op) \
1663 unsigned int _idx = base + MD_COUNTER_OFFSET(op); \
1665 if (MD_COUNTER_OFFSET(op) < NUM_MD_STATS) { \
1666 LASSERT(_idx < stats->ls_num); \
1667 lprocfs_counter_init(stats, _idx, 0, #op, "reqs"); \
1671 void lprocfs_init_mps_stats(int num_private_stats, struct lprocfs_stats *stats)
1673 LPROCFS_MD_OP_INIT(num_private_stats, stats, get_root);
1674 LPROCFS_MD_OP_INIT(num_private_stats, stats, null_inode);
1675 LPROCFS_MD_OP_INIT(num_private_stats, stats, close);
1676 LPROCFS_MD_OP_INIT(num_private_stats, stats, create);
1677 LPROCFS_MD_OP_INIT(num_private_stats, stats, enqueue);
1678 LPROCFS_MD_OP_INIT(num_private_stats, stats, getattr);
1679 LPROCFS_MD_OP_INIT(num_private_stats, stats, getattr_name);
1680 LPROCFS_MD_OP_INIT(num_private_stats, stats, intent_lock);
1681 LPROCFS_MD_OP_INIT(num_private_stats, stats, link);
1682 LPROCFS_MD_OP_INIT(num_private_stats, stats, rename);
1683 LPROCFS_MD_OP_INIT(num_private_stats, stats, setattr);
1684 LPROCFS_MD_OP_INIT(num_private_stats, stats, fsync);
1685 LPROCFS_MD_OP_INIT(num_private_stats, stats, read_page);
1686 LPROCFS_MD_OP_INIT(num_private_stats, stats, unlink);
1687 LPROCFS_MD_OP_INIT(num_private_stats, stats, setxattr);
1688 LPROCFS_MD_OP_INIT(num_private_stats, stats, getxattr);
1689 LPROCFS_MD_OP_INIT(num_private_stats, stats, init_ea_size);
1690 LPROCFS_MD_OP_INIT(num_private_stats, stats, get_lustre_md);
1691 LPROCFS_MD_OP_INIT(num_private_stats, stats, free_lustre_md);
1692 LPROCFS_MD_OP_INIT(num_private_stats, stats, merge_attr);
1693 LPROCFS_MD_OP_INIT(num_private_stats, stats, set_open_replay_data);
1694 LPROCFS_MD_OP_INIT(num_private_stats, stats, clear_open_replay_data);
1695 LPROCFS_MD_OP_INIT(num_private_stats, stats, set_lock_data);
1696 LPROCFS_MD_OP_INIT(num_private_stats, stats, lock_match);
1697 LPROCFS_MD_OP_INIT(num_private_stats, stats, cancel_unused);
1698 LPROCFS_MD_OP_INIT(num_private_stats, stats, intent_getattr_async);
1699 LPROCFS_MD_OP_INIT(num_private_stats, stats, revalidate_lock);
1702 int lprocfs_alloc_md_stats(struct obd_device *obd,
1703 unsigned int num_private_stats)
1705 struct lprocfs_stats *stats;
1706 unsigned int num_stats;
1709 CLASSERT(offsetof(struct md_ops, MD_STATS_FIRST_OP) == 0);
1710 CLASSERT(_MD_COUNTER_OFFSET(MD_STATS_FIRST_OP) == 0);
1711 CLASSERT(_MD_COUNTER_OFFSET(MD_STATS_LAST_OP) > 0);
1713 /* TODO Ensure that this function is only used where
1714 * appropriate by adding an assertion to the effect that
1715 * obd->obd_type->typ_md_ops is not NULL. We can't do this now
1716 * because mdt_procfs_init() uses this function to allocate
1717 * the stats backing /proc/fs/lustre/mdt/.../md_stats but the
1718 * mdt layer does not use the md_ops interface. This is
1719 * confusing and a waste of memory. See LU-2484.
1721 LASSERT(obd->obd_proc_entry != NULL);
1722 LASSERT(obd->obd_md_stats == NULL);
1723 LASSERT(obd->obd_md_cntr_base == 0);
1725 num_stats = NUM_MD_STATS + num_private_stats;
1726 stats = lprocfs_alloc_stats(num_stats, 0);
1730 lprocfs_init_mps_stats(num_private_stats, stats);
1732 for (i = num_private_stats; i < num_stats; i++) {
1733 if (stats->ls_cnt_header[i].lc_name == NULL) {
1734 CERROR("Missing md_stat initializer md_op "
1735 "operation at offset %d. Aborting.\n",
1736 i - num_private_stats);
1741 rc = lprocfs_register_stats(obd->obd_proc_entry, "md_stats", stats);
1743 lprocfs_free_stats(&stats);
1745 obd->obd_md_stats = stats;
1746 obd->obd_md_cntr_base = num_private_stats;
1751 EXPORT_SYMBOL(lprocfs_alloc_md_stats);
1753 void lprocfs_free_md_stats(struct obd_device *obd)
1755 struct lprocfs_stats *stats = obd->obd_md_stats;
1757 if (stats != NULL) {
1758 obd->obd_md_stats = NULL;
1759 obd->obd_md_cntr_base = 0;
1760 lprocfs_free_stats(&stats);
1763 EXPORT_SYMBOL(lprocfs_free_md_stats);
1765 void lprocfs_init_ldlm_stats(struct lprocfs_stats *ldlm_stats)
1767 lprocfs_counter_init(ldlm_stats,
1768 LDLM_ENQUEUE - LDLM_FIRST_OPC,
1769 0, "ldlm_enqueue", "reqs");
1770 lprocfs_counter_init(ldlm_stats,
1771 LDLM_CONVERT - LDLM_FIRST_OPC,
1772 0, "ldlm_convert", "reqs");
1773 lprocfs_counter_init(ldlm_stats,
1774 LDLM_CANCEL - LDLM_FIRST_OPC,
1775 0, "ldlm_cancel", "reqs");
1776 lprocfs_counter_init(ldlm_stats,
1777 LDLM_BL_CALLBACK - LDLM_FIRST_OPC,
1778 0, "ldlm_bl_callback", "reqs");
1779 lprocfs_counter_init(ldlm_stats,
1780 LDLM_CP_CALLBACK - LDLM_FIRST_OPC,
1781 0, "ldlm_cp_callback", "reqs");
1782 lprocfs_counter_init(ldlm_stats,
1783 LDLM_GL_CALLBACK - LDLM_FIRST_OPC,
1784 0, "ldlm_gl_callback", "reqs");
1786 EXPORT_SYMBOL(lprocfs_init_ldlm_stats);
1788 __s64 lprocfs_read_helper(struct lprocfs_counter *lc,
1789 struct lprocfs_counter_header *header,
1790 enum lprocfs_stats_flags flags,
1791 enum lprocfs_fields_flags field)
1795 if (lc == NULL || header == NULL)
1799 case LPROCFS_FIELDS_FLAGS_CONFIG:
1800 ret = header->lc_config;
1802 case LPROCFS_FIELDS_FLAGS_SUM:
1804 if ((flags & LPROCFS_STATS_FLAG_IRQ_SAFE) != 0)
1805 ret += lc->lc_sum_irq;
1807 case LPROCFS_FIELDS_FLAGS_MIN:
1810 case LPROCFS_FIELDS_FLAGS_MAX:
1813 case LPROCFS_FIELDS_FLAGS_AVG:
1814 ret = (lc->lc_max - lc->lc_min) / 2;
1816 case LPROCFS_FIELDS_FLAGS_SUMSQUARE:
1817 ret = lc->lc_sumsquare;
1819 case LPROCFS_FIELDS_FLAGS_COUNT:
1827 EXPORT_SYMBOL(lprocfs_read_helper);
1829 int lprocfs_read_frac_helper(char *buffer, unsigned long count, long val,
1832 long decimal_val, frac_val;
1838 decimal_val = val / mult;
1839 prtn = snprintf(buffer, count, "%ld", decimal_val);
1840 frac_val = val % mult;
1842 if (prtn < (count - 4) && frac_val > 0) {
1844 int i, temp_mult = 1, frac_bits = 0;
1846 temp_frac = frac_val * 10;
1847 buffer[prtn++] = '.';
1848 while (frac_bits < 2 && (temp_frac / mult) < 1 ) {
1849 /* only reserved 2 bits fraction */
1850 buffer[prtn++] ='0';
1855 * Need to think these cases :
1856 * 1. #echo x.00 > /proc/xxx output result : x
1857 * 2. #echo x.0x > /proc/xxx output result : x.0x
1858 * 3. #echo x.x0 > /proc/xxx output result : x.x
1859 * 4. #echo x.xx > /proc/xxx output result : x.xx
1860 * Only reserved 2 bits fraction.
1862 for (i = 0; i < (5 - prtn); i++)
1865 frac_bits = min((int)count - prtn, 3 - frac_bits);
1866 prtn += snprintf(buffer + prtn, frac_bits, "%ld",
1867 frac_val * temp_mult / mult);
1870 while(buffer[prtn] < '1' || buffer[prtn] > '9') {
1872 if (buffer[prtn] == '.') {
1879 buffer[prtn++] ='\n';
1882 EXPORT_SYMBOL(lprocfs_read_frac_helper);
1884 int lprocfs_seq_read_frac_helper(struct seq_file *m, long val, int mult)
1886 long decimal_val, frac_val;
1888 decimal_val = val / mult;
1889 seq_printf(m, "%ld", decimal_val);
1890 frac_val = val % mult;
1897 /* Three cases: x0, xx, 0x */
1898 if ((frac_val % 10) != 0)
1899 seq_printf(m, ".%ld", frac_val);
1901 seq_printf(m, ".%ld", frac_val / 10);
1904 seq_printf(m, "\n");
1907 EXPORT_SYMBOL(lprocfs_seq_read_frac_helper);
1909 /* Obtains the conversion factor for the unit specified */
1910 static int get_mult(char unit, __u64 *mult)
1915 /* peta, tera, giga, mega, and kilo */
1932 /* some tests expect % to be accepted */
1946 * Ensures the numeric string is valid. The function provides the final
1947 * multiplier in the case a unit exists at the end of the string. It also
1948 * locates the start of the whole and fractional parts (if any). This
1949 * function modifies the string so kstrtoull can be used to parse both
1950 * the whole and fraction portions. This function also figures out
1951 * the base of the number.
1953 static int preprocess_numeric_str(char *buffer, __u64 *mult, __u64 def_mult,
1954 bool allow_units, char **whole, char **frac,
1957 bool hit_decimal = false;
1958 bool hit_unit = false;
1966 /* a hex string if it starts with "0x" */
1967 if (buffer[0] == '0' && tolower(buffer[1]) == 'x') {
1975 /* allow for a single new line before the null terminator */
1976 if (*buffer == '\n') {
1986 /* any chars after our unit indicates a malformed string */
1990 /* ensure we only hit one decimal */
1991 if (*buffer == '.') {
1995 /* if past start, there's a whole part */
1996 if (start != buffer)
2002 } else if (!isdigit(*buffer) &&
2003 !(*base == 16 && isxdigit(*buffer))) {
2005 /* if we allow units, attempt to get mult */
2007 rc = get_mult(*buffer, mult);
2011 /* string stops here, but keep processing */
2023 /* hit a decimal, make sure there's a fractional part */
2029 /* didn't hit a decimal, but may have a whole part */
2030 if (start != buffer && *start)
2034 /* malformed string if we didn't get anything */
2035 if (!*frac && !*whole)
2042 * Parses a numeric string which can contain a whole and fraction portion
2043 * into a __u64. Accepts a multiplier to apply to the value parsed. Also
2044 * allows the string to have a unit at the end. The function handles
2045 * wrapping of the final unsigned value.
2047 static int str_to_u64_parse(char *buffer, unsigned long count,
2048 __u64 *val, __u64 def_mult, bool allow_units)
2052 unsigned int frac_d = 1;
2053 __u64 wrap_indicator = ULLONG_MAX;
2058 unsigned int base = 10;
2060 rc = preprocess_numeric_str(buffer, &mult, def_mult, allow_units,
2061 &strwhole, &strfrac, &base);
2071 /* the multiplier limits how large the value can be */
2072 wrap_indicator /= mult;
2075 rc = kstrtoull(strwhole, base, &whole);
2079 if (whole > wrap_indicator)
2086 if (strlen(strfrac) > 10)
2089 rc = kstrtoull(strfrac, base, &frac);
2093 /* determine power of fractional portion */
2099 /* fractional portion is too large to perform calculation */
2100 if (frac > wrap_indicator)
2104 do_div(frac, frac_d);
2107 /* check that the sum of whole and fraction fits in u64 */
2108 if (whole > (ULLONG_MAX - frac))
2111 *val = whole + frac;
2117 * This function parses numeric/hex strings into __s64. It accepts a multiplier
2118 * which will apply to the value parsed. It also can allow the string to
2119 * have a unit as the last character. The function handles overflow/underflow
2120 * of the signed integer.
2122 static int str_to_s64_internal(const char __user *buffer, unsigned long count,
2123 __s64 *val, __u64 def_mult, bool allow_units)
2127 unsigned int offset = 0;
2128 int signed sign = 1;
2129 __u64 max = LLONG_MAX;
2132 if (count > (sizeof(kernbuf) - 1))
2135 if (copy_from_user(kernbuf, buffer, count))
2138 kernbuf[count] = '\0';
2140 /* keep track of our sign */
2141 if (*kernbuf == '-') {
2144 /* equivalent to max = -LLONG_MIN, avoids overflow */
2148 rc = str_to_u64_parse(kernbuf + offset, count - offset,
2149 &tmp, def_mult, allow_units);
2153 /* check for overflow/underflow */
2157 *val = (__s64)tmp * sign;
2163 * Convert a user string into a signed 64 bit number. This function produces
2164 * an error when the value parsed from the string underflows or
2165 * overflows. This function accepts strings which contain digits and
2166 * optionally a decimal or hex strings which are prefixed with "0x".
2168 * \param[in] buffer string consisting of numbers and optionally a decimal
2169 * \param[in] count buffer length
2170 * \param[in] val if successful, the value represented by the string
2172 * \retval 0 on success
2173 * \retval negative number on error
2175 int lprocfs_str_to_s64(const char __user *buffer, unsigned long count,
2178 return str_to_s64_internal(buffer, count, val, 1, false);
2180 EXPORT_SYMBOL(lprocfs_str_to_s64);
2183 * Convert a user string into a signed 64 bit number. This function produces
2184 * an error when the value parsed from the string times multiplier underflows or
2185 * overflows. This function only accepts strings that contains digits, an
2186 * optional decimal, and a char representing a unit at the end. If a unit is
2187 * specified in the string, the multiplier provided by the caller is ignored.
2188 * This function can also accept hexadecimal strings which are prefixed with
2191 * \param[in] buffer string consisting of numbers, a decimal, and a unit
2192 * \param[in] count buffer length
2193 * \param[in] val if successful, the value represented by the string
2194 * \param[in] defunit default unit if string doesn't contain one
2196 * \retval 0 on success
2197 * \retval negative number on error
2199 int lprocfs_str_with_units_to_s64(const char __user *buffer,
2200 unsigned long count, __s64 *val, char defunit)
2205 if (defunit != '1') {
2206 rc = get_mult(defunit, &mult);
2211 return str_to_s64_internal(buffer, count, val, mult, true);
2213 EXPORT_SYMBOL(lprocfs_str_with_units_to_s64);
2215 static char *lprocfs_strnstr(const char *s1, const char *s2, size_t len)
2224 if (!memcmp(s1, s2, l2))
2232 * Find the string \a name in the input \a buffer, and return a pointer to the
2233 * value immediately following \a name, reducing \a count appropriately.
2234 * If \a name is not found the original \a buffer is returned.
2236 char *lprocfs_find_named_value(const char *buffer, const char *name,
2240 size_t buflen = *count;
2242 /* there is no strnstr() in rhel5 and ubuntu kernels */
2243 val = lprocfs_strnstr(buffer, name, buflen);
2245 return (char *)buffer;
2247 val += strlen(name); /* skip prefix */
2248 while (val < buffer + buflen && isspace(*val)) /* skip separator */
2252 while (val < buffer + buflen && isalnum(*val)) {
2257 return val - *count;
2259 EXPORT_SYMBOL(lprocfs_find_named_value);
2261 int ldebugfs_seq_create(struct dentry *parent, const char *name, umode_t mode,
2262 const struct file_operations *seq_fops, void *data)
2264 struct dentry *entry;
2266 /* Disallow secretly (un)writable entries. */
2267 LASSERT((!seq_fops->write) == (!(mode & 0222)));
2269 entry = debugfs_create_file(name, mode, parent, data, seq_fops);
2270 if (IS_ERR_OR_NULL(entry))
2271 return entry ? PTR_ERR(entry) : -ENOMEM;
2275 EXPORT_SYMBOL_GPL(ldebugfs_seq_create);
2277 int lprocfs_seq_create(struct proc_dir_entry *parent,
2280 const struct file_operations *seq_fops,
2283 struct proc_dir_entry *entry;
2286 /* Disallow secretly (un)writable entries. */
2287 LASSERT((seq_fops->write == NULL) == ((mode & 0222) == 0));
2289 entry = proc_create_data(name, mode, parent, seq_fops, data);
2296 EXPORT_SYMBOL(lprocfs_seq_create);
2298 int lprocfs_obd_seq_create(struct obd_device *dev,
2301 const struct file_operations *seq_fops,
2304 return (lprocfs_seq_create(dev->obd_proc_entry, name,
2305 mode, seq_fops, data));
2307 EXPORT_SYMBOL(lprocfs_obd_seq_create);
2309 void lprocfs_oh_tally(struct obd_histogram *oh, unsigned int value)
2311 if (value >= OBD_HIST_MAX)
2312 value = OBD_HIST_MAX - 1;
2314 spin_lock(&oh->oh_lock);
2315 oh->oh_buckets[value]++;
2316 spin_unlock(&oh->oh_lock);
2318 EXPORT_SYMBOL(lprocfs_oh_tally);
2320 void lprocfs_oh_tally_log2(struct obd_histogram *oh, unsigned int value)
2322 unsigned int val = 0;
2324 if (likely(value != 0))
2325 val = min(fls(value - 1), OBD_HIST_MAX);
2327 lprocfs_oh_tally(oh, val);
2329 EXPORT_SYMBOL(lprocfs_oh_tally_log2);
2331 unsigned long lprocfs_oh_sum(struct obd_histogram *oh)
2333 unsigned long ret = 0;
2336 for (i = 0; i < OBD_HIST_MAX; i++)
2337 ret += oh->oh_buckets[i];
2340 EXPORT_SYMBOL(lprocfs_oh_sum);
2342 void lprocfs_oh_clear(struct obd_histogram *oh)
2344 spin_lock(&oh->oh_lock);
2345 memset(oh->oh_buckets, 0, sizeof(oh->oh_buckets));
2346 spin_unlock(&oh->oh_lock);
2348 EXPORT_SYMBOL(lprocfs_oh_clear);
2350 ssize_t lustre_attr_show(struct kobject *kobj,
2351 struct attribute *attr, char *buf)
2353 struct lustre_attr *a = container_of(attr, struct lustre_attr, attr);
2355 return a->show ? a->show(kobj, attr, buf) : 0;
2357 EXPORT_SYMBOL_GPL(lustre_attr_show);
2359 ssize_t lustre_attr_store(struct kobject *kobj, struct attribute *attr,
2360 const char *buf, size_t len)
2362 struct lustre_attr *a = container_of(attr, struct lustre_attr, attr);
2364 return a->store ? a->store(kobj, attr, buf, len) : len;
2366 EXPORT_SYMBOL_GPL(lustre_attr_store);
2368 const struct sysfs_ops lustre_sysfs_ops = {
2369 .show = lustre_attr_show,
2370 .store = lustre_attr_store,
2372 EXPORT_SYMBOL_GPL(lustre_sysfs_ops);
2374 int lprocfs_obd_max_pages_per_rpc_seq_show(struct seq_file *m, void *data)
2376 struct obd_device *dev = data;
2377 struct client_obd *cli = &dev->u.cli;
2379 spin_lock(&cli->cl_loi_list_lock);
2380 seq_printf(m, "%d\n", cli->cl_max_pages_per_rpc);
2381 spin_unlock(&cli->cl_loi_list_lock);
2384 EXPORT_SYMBOL(lprocfs_obd_max_pages_per_rpc_seq_show);
2386 ssize_t lprocfs_obd_max_pages_per_rpc_seq_write(struct file *file,
2387 const char __user *buffer,
2388 size_t count, loff_t *off)
2390 struct obd_device *dev =
2391 ((struct seq_file *)file->private_data)->private;
2392 struct client_obd *cli = &dev->u.cli;
2393 struct obd_connect_data *ocd = &cli->cl_import->imp_connect_data;
2397 rc = lprocfs_str_with_units_to_s64(buffer, count, &val, '1');
2403 /* if the max_pages is specified in bytes, convert to pages */
2404 if (val >= ONE_MB_BRW_SIZE)
2407 LPROCFS_CLIMP_CHECK(dev);
2409 chunk_mask = ~((1 << (cli->cl_chunkbits - PAGE_SHIFT)) - 1);
2410 /* max_pages_per_rpc must be chunk aligned */
2411 val = (val + ~chunk_mask) & chunk_mask;
2412 if (val == 0 || (ocd->ocd_brw_size != 0 &&
2413 val > ocd->ocd_brw_size >> PAGE_SHIFT)) {
2414 LPROCFS_CLIMP_EXIT(dev);
2417 spin_lock(&cli->cl_loi_list_lock);
2418 cli->cl_max_pages_per_rpc = val;
2419 client_adjust_max_dirty(cli);
2420 spin_unlock(&cli->cl_loi_list_lock);
2422 LPROCFS_CLIMP_EXIT(dev);
2425 EXPORT_SYMBOL(lprocfs_obd_max_pages_per_rpc_seq_write);
2427 int lprocfs_wr_root_squash(const char __user *buffer, unsigned long count,
2428 struct root_squash_info *squash, char *name)
2431 char kernbuf[64], *tmp, *errmsg;
2432 unsigned long uid, gid;
2435 if (count >= sizeof(kernbuf)) {
2436 errmsg = "string too long";
2437 GOTO(failed_noprint, rc = -EINVAL);
2439 if (copy_from_user(kernbuf, buffer, count)) {
2440 errmsg = "bad address";
2441 GOTO(failed_noprint, rc = -EFAULT);
2443 kernbuf[count] = '\0';
2445 /* look for uid gid separator */
2446 tmp = strchr(kernbuf, ':');
2448 errmsg = "needs uid:gid format";
2449 GOTO(failed, rc = -EINVAL);
2455 if (kstrtoul(kernbuf, 0, &uid) != 0) {
2457 GOTO(failed, rc = -EINVAL);
2461 if (kstrtoul(tmp, 0, &gid) != 0) {
2463 GOTO(failed, rc = -EINVAL);
2466 squash->rsi_uid = uid;
2467 squash->rsi_gid = gid;
2469 LCONSOLE_INFO("%s: root_squash is set to %u:%u\n",
2470 name, squash->rsi_uid, squash->rsi_gid);
2478 CWARN("%s: failed to set root_squash to \"%s\", %s, rc = %d\n",
2479 name, kernbuf, errmsg, rc);
2482 CWARN("%s: failed to set root_squash due to %s, rc = %d\n",
2486 EXPORT_SYMBOL(lprocfs_wr_root_squash);
2489 int lprocfs_wr_nosquash_nids(const char __user *buffer, unsigned long count,
2490 struct root_squash_info *squash, char *name)
2493 char *kernbuf = NULL;
2495 struct list_head tmp;
2500 errmsg = "string too long";
2501 GOTO(failed, rc = -EINVAL);
2504 OBD_ALLOC(kernbuf, count + 1);
2505 if (kernbuf == NULL) {
2506 errmsg = "no memory";
2507 GOTO(failed, rc = -ENOMEM);
2509 if (copy_from_user(kernbuf, buffer, count)) {
2510 errmsg = "bad address";
2511 GOTO(failed, rc = -EFAULT);
2513 kernbuf[count] = '\0';
2515 if (count > 0 && kernbuf[count - 1] == '\n')
2518 if ((len == 4 && strncmp(kernbuf, "NONE", len) == 0) ||
2519 (len == 5 && strncmp(kernbuf, "clear", len) == 0)) {
2520 /* empty string is special case */
2521 down_write(&squash->rsi_sem);
2522 if (!list_empty(&squash->rsi_nosquash_nids))
2523 cfs_free_nidlist(&squash->rsi_nosquash_nids);
2524 up_write(&squash->rsi_sem);
2525 LCONSOLE_INFO("%s: nosquash_nids is cleared\n", name);
2526 OBD_FREE(kernbuf, count + 1);
2530 INIT_LIST_HEAD(&tmp);
2531 if (cfs_parse_nidlist(kernbuf, count, &tmp) <= 0) {
2532 errmsg = "can't parse";
2533 GOTO(failed, rc = -EINVAL);
2535 LCONSOLE_INFO("%s: nosquash_nids set to %s\n",
2537 OBD_FREE(kernbuf, count + 1);
2540 down_write(&squash->rsi_sem);
2541 if (!list_empty(&squash->rsi_nosquash_nids))
2542 cfs_free_nidlist(&squash->rsi_nosquash_nids);
2543 list_splice(&tmp, &squash->rsi_nosquash_nids);
2544 up_write(&squash->rsi_sem);
2550 CWARN("%s: failed to set nosquash_nids to \"%s\", %s rc = %d\n",
2551 name, kernbuf, errmsg, rc);
2552 OBD_FREE(kernbuf, count + 1);
2554 CWARN("%s: failed to set nosquash_nids due to %s rc = %d\n",
2559 EXPORT_SYMBOL(lprocfs_wr_nosquash_nids);
2561 #endif /* CONFIG_PROC_FS*/