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1 /*
2 * mdadm - manage Linux "md" devices aka RAID arrays.
3 *
4 * Copyright (C) 2001-2009 Neil Brown <neilb@suse.de>
5 *
6 *
7 * This program is free software; you can redistribute it and/or modify
8 * it under the terms of the GNU General Public License as published by
9 * the Free Software Foundation; either version 2 of the License, or
10 * (at your option) any later version.
11 *
12 * This program is distributed in the hope that it will be useful,
13 * but WITHOUT ANY WARRANTY; without even the implied warranty of
14 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
15 * GNU General Public License for more details.
16 *
17 * You should have received a copy of the GNU General Public License
18 * along with this program; if not, write to the Free Software
19 * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
20 *
21 * Author: Neil Brown
22 * Email: <neilb@suse.de>
23 */
24 #include "mdadm.h"
25 #include "dlink.h"
26 #include <sys/mman.h>
27
28 #if ! defined(__BIG_ENDIAN) && ! defined(__LITTLE_ENDIAN)
29 #error no endian defined
30 #endif
31 #include "md_u.h"
32 #include "md_p.h"
33
34 #ifndef offsetof
35 #define offsetof(t,f) ((size_t)&(((t*)0)->f))
36 #endif
37
38 int Grow_Add_device(char *devname, int fd, char *newdev)
39 {
40 /* Add a device to an active array.
41 * Currently, just extend a linear array.
42 * This requires writing a new superblock on the
43 * new device, calling the kernel to add the device,
44 * and if that succeeds, update the superblock on
45 * all other devices.
46 * This means that we need to *find* all other devices.
47 */
48 struct mdinfo info;
49
50 struct stat stb;
51 int nfd, fd2;
52 int d, nd;
53 struct supertype *st = NULL;
54 char *subarray = NULL;
55
56 if (ioctl(fd, GET_ARRAY_INFO, &info.array) < 0) {
57 fprintf(stderr, Name ": cannot get array info for %s\n", devname);
58 return 1;
59 }
60
61 if (info.array.level != -1) {
62 fprintf(stderr, Name ": can only add devices to linear arrays\n");
63 return 1;
64 }
65
66 st = super_by_fd(fd, &subarray);
67 if (!st) {
68 fprintf(stderr, Name ": cannot handle arrays with superblock version %d\n", info.array.major_version);
69 return 1;
70 }
71
72 if (subarray) {
73 fprintf(stderr, Name ": Cannot grow linear sub-arrays yet\n");
74 free(subarray);
75 free(st);
76 }
77
78 nfd = open(newdev, O_RDWR|O_EXCL|O_DIRECT);
79 if (nfd < 0) {
80 fprintf(stderr, Name ": cannot open %s\n", newdev);
81 free(st);
82 return 1;
83 }
84 fstat(nfd, &stb);
85 if ((stb.st_mode & S_IFMT) != S_IFBLK) {
86 fprintf(stderr, Name ": %s is not a block device!\n", newdev);
87 close(nfd);
88 free(st);
89 return 1;
90 }
91 /* now check out all the devices and make sure we can read the superblock */
92 for (d=0 ; d < info.array.raid_disks ; d++) {
93 mdu_disk_info_t disk;
94 char *dv;
95
96 st->ss->free_super(st);
97
98 disk.number = d;
99 if (ioctl(fd, GET_DISK_INFO, &disk) < 0) {
100 fprintf(stderr, Name ": cannot get device detail for device %d\n",
101 d);
102 close(nfd);
103 free(st);
104 return 1;
105 }
106 dv = map_dev(disk.major, disk.minor, 1);
107 if (!dv) {
108 fprintf(stderr, Name ": cannot find device file for device %d\n",
109 d);
110 close(nfd);
111 free(st);
112 return 1;
113 }
114 fd2 = dev_open(dv, O_RDWR);
115 if (!fd2) {
116 fprintf(stderr, Name ": cannot open device file %s\n", dv);
117 close(nfd);
118 free(st);
119 return 1;
120 }
121
122 if (st->ss->load_super(st, fd2, NULL)) {
123 fprintf(stderr, Name ": cannot find super block on %s\n", dv);
124 close(nfd);
125 close(fd2);
126 free(st);
127 return 1;
128 }
129 close(fd2);
130 }
131 /* Ok, looks good. Lets update the superblock and write it out to
132 * newdev.
133 */
134
135 info.disk.number = d;
136 info.disk.major = major(stb.st_rdev);
137 info.disk.minor = minor(stb.st_rdev);
138 info.disk.raid_disk = d;
139 info.disk.state = (1 << MD_DISK_SYNC) | (1 << MD_DISK_ACTIVE);
140 st->ss->update_super(st, &info, "linear-grow-new", newdev,
141 0, 0, NULL);
142
143 if (st->ss->store_super(st, nfd)) {
144 fprintf(stderr, Name ": Cannot store new superblock on %s\n",
145 newdev);
146 close(nfd);
147 return 1;
148 }
149 close(nfd);
150
151 if (ioctl(fd, ADD_NEW_DISK, &info.disk) != 0) {
152 fprintf(stderr, Name ": Cannot add new disk to this array\n");
153 return 1;
154 }
155 /* Well, that seems to have worked.
156 * Now go through and update all superblocks
157 */
158
159 if (ioctl(fd, GET_ARRAY_INFO, &info.array) < 0) {
160 fprintf(stderr, Name ": cannot get array info for %s\n", devname);
161 return 1;
162 }
163
164 nd = d;
165 for (d=0 ; d < info.array.raid_disks ; d++) {
166 mdu_disk_info_t disk;
167 char *dv;
168
169 disk.number = d;
170 if (ioctl(fd, GET_DISK_INFO, &disk) < 0) {
171 fprintf(stderr, Name ": cannot get device detail for device %d\n",
172 d);
173 return 1;
174 }
175 dv = map_dev(disk.major, disk.minor, 1);
176 if (!dv) {
177 fprintf(stderr, Name ": cannot find device file for device %d\n",
178 d);
179 return 1;
180 }
181 fd2 = dev_open(dv, O_RDWR);
182 if (fd2 < 0) {
183 fprintf(stderr, Name ": cannot open device file %s\n", dv);
184 return 1;
185 }
186 if (st->ss->load_super(st, fd2, NULL)) {
187 fprintf(stderr, Name ": cannot find super block on %s\n", dv);
188 close(fd);
189 return 1;
190 }
191 info.array.raid_disks = nd+1;
192 info.array.nr_disks = nd+1;
193 info.array.active_disks = nd+1;
194 info.array.working_disks = nd+1;
195
196 st->ss->update_super(st, &info, "linear-grow-update", dv,
197 0, 0, NULL);
198
199 if (st->ss->store_super(st, fd2)) {
200 fprintf(stderr, Name ": Cannot store new superblock on %s\n", dv);
201 close(fd2);
202 return 1;
203 }
204 close(fd2);
205 }
206
207 return 0;
208 }
209
210 int Grow_addbitmap(char *devname, int fd, char *file, int chunk, int delay, int write_behind, int force)
211 {
212 /*
213 * First check that array doesn't have a bitmap
214 * Then create the bitmap
215 * Then add it
216 *
217 * For internal bitmaps, we need to check the version,
218 * find all the active devices, and write the bitmap block
219 * to all devices
220 */
221 mdu_bitmap_file_t bmf;
222 mdu_array_info_t array;
223 struct supertype *st;
224 char *subarray = NULL;
225 int major = BITMAP_MAJOR_HI;
226 int vers = md_get_version(fd);
227 unsigned long long bitmapsize, array_size;
228
229 if (vers < 9003) {
230 major = BITMAP_MAJOR_HOSTENDIAN;
231 fprintf(stderr, Name ": Warning - bitmaps created on this kernel"
232 " are not portable\n"
233 " between different architectures. Consider upgrading"
234 " the Linux kernel.\n");
235 }
236
237 if (ioctl(fd, GET_BITMAP_FILE, &bmf) != 0) {
238 if (errno == ENOMEM)
239 fprintf(stderr, Name ": Memory allocation failure.\n");
240 else
241 fprintf(stderr, Name ": bitmaps not supported by this kernel.\n");
242 return 1;
243 }
244 if (bmf.pathname[0]) {
245 if (strcmp(file,"none")==0) {
246 if (ioctl(fd, SET_BITMAP_FILE, -1)!= 0) {
247 fprintf(stderr, Name ": failed to remove bitmap %s\n",
248 bmf.pathname);
249 return 1;
250 }
251 return 0;
252 }
253 fprintf(stderr, Name ": %s already has a bitmap (%s)\n",
254 devname, bmf.pathname);
255 return 1;
256 }
257 if (ioctl(fd, GET_ARRAY_INFO, &array) != 0) {
258 fprintf(stderr, Name ": cannot get array status for %s\n", devname);
259 return 1;
260 }
261 if (array.state & (1<<MD_SB_BITMAP_PRESENT)) {
262 if (strcmp(file, "none")==0) {
263 array.state &= ~(1<<MD_SB_BITMAP_PRESENT);
264 if (ioctl(fd, SET_ARRAY_INFO, &array)!= 0) {
265 fprintf(stderr, Name ": failed to remove internal bitmap.\n");
266 return 1;
267 }
268 return 0;
269 }
270 fprintf(stderr, Name ": Internal bitmap already present on %s\n",
271 devname);
272 return 1;
273 }
274
275 if (strcmp(file, "none") == 0) {
276 fprintf(stderr, Name ": no bitmap found on %s\n", devname);
277 return 1;
278 }
279 if (array.level <= 0) {
280 fprintf(stderr, Name ": Bitmaps not meaningful with level %s\n",
281 map_num(pers, array.level)?:"of this array");
282 return 1;
283 }
284 bitmapsize = array.size;
285 bitmapsize <<= 1;
286 if (get_dev_size(fd, NULL, &array_size) &&
287 array_size > (0x7fffffffULL<<9)) {
288 /* Array is big enough that we cannot trust array.size
289 * try other approaches
290 */
291 bitmapsize = get_component_size(fd);
292 }
293 if (bitmapsize == 0) {
294 fprintf(stderr, Name ": Cannot reliably determine size of array to create bitmap - sorry.\n");
295 return 1;
296 }
297
298 if (array.level == 10) {
299 int ncopies = (array.layout&255)*((array.layout>>8)&255);
300 bitmapsize = bitmapsize * array.raid_disks / ncopies;
301 }
302
303 st = super_by_fd(fd, &subarray);
304 if (!st) {
305 fprintf(stderr, Name ": Cannot understand version %d.%d\n",
306 array.major_version, array.minor_version);
307 return 1;
308 }
309 if (subarray) {
310 fprintf(stderr, Name ": Cannot add bitmaps to sub-arrays yet\n");
311 free(subarray);
312 free(st);
313 return 1;
314 }
315 if (strcmp(file, "internal") == 0) {
316 int d;
317 if (st->ss->add_internal_bitmap == NULL) {
318 fprintf(stderr, Name ": Internal bitmaps not supported "
319 "with %s metadata\n", st->ss->name);
320 return 1;
321 }
322 for (d=0; d< st->max_devs; d++) {
323 mdu_disk_info_t disk;
324 char *dv;
325 disk.number = d;
326 if (ioctl(fd, GET_DISK_INFO, &disk) < 0)
327 continue;
328 if (disk.major == 0 &&
329 disk.minor == 0)
330 continue;
331 if ((disk.state & (1<<MD_DISK_SYNC))==0)
332 continue;
333 dv = map_dev(disk.major, disk.minor, 1);
334 if (dv) {
335 int fd2 = dev_open(dv, O_RDWR);
336 if (fd2 < 0)
337 continue;
338 if (st->ss->load_super(st, fd2, NULL)==0) {
339 if (st->ss->add_internal_bitmap(
340 st,
341 &chunk, delay, write_behind,
342 bitmapsize, 0, major)
343 )
344 st->ss->write_bitmap(st, fd2);
345 else {
346 fprintf(stderr, Name ": failed to create internal bitmap - chunksize problem.\n");
347 close(fd2);
348 return 1;
349 }
350 }
351 close(fd2);
352 }
353 }
354 array.state |= (1<<MD_SB_BITMAP_PRESENT);
355 if (ioctl(fd, SET_ARRAY_INFO, &array)!= 0) {
356 if (errno == EBUSY)
357 fprintf(stderr, Name
358 ": Cannot add bitmap while array is"
359 " resyncing or reshaping etc.\n");
360 fprintf(stderr, Name ": failed to set internal bitmap.\n");
361 return 1;
362 }
363 } else {
364 int uuid[4];
365 int bitmap_fd;
366 int d;
367 int max_devs = st->max_devs;
368
369 /* try to load a superblock */
370 for (d=0; d<max_devs; d++) {
371 mdu_disk_info_t disk;
372 char *dv;
373 int fd2;
374 disk.number = d;
375 if (ioctl(fd, GET_DISK_INFO, &disk) < 0)
376 continue;
377 if ((disk.major==0 && disk.minor==0) ||
378 (disk.state & (1<<MD_DISK_REMOVED)))
379 continue;
380 dv = map_dev(disk.major, disk.minor, 1);
381 if (!dv) continue;
382 fd2 = dev_open(dv, O_RDONLY);
383 if (fd2 >= 0 &&
384 st->ss->load_super(st, fd2, NULL) == 0) {
385 close(fd2);
386 st->ss->uuid_from_super(st, uuid);
387 break;
388 }
389 close(fd2);
390 }
391 if (d == max_devs) {
392 fprintf(stderr, Name ": cannot find UUID for array!\n");
393 return 1;
394 }
395 if (CreateBitmap(file, force, (char*)uuid, chunk,
396 delay, write_behind, bitmapsize, major)) {
397 return 1;
398 }
399 bitmap_fd = open(file, O_RDWR);
400 if (bitmap_fd < 0) {
401 fprintf(stderr, Name ": weird: %s cannot be opened\n",
402 file);
403 return 1;
404 }
405 if (ioctl(fd, SET_BITMAP_FILE, bitmap_fd) < 0) {
406 int err = errno;
407 if (errno == EBUSY)
408 fprintf(stderr, Name
409 ": Cannot add bitmap while array is"
410 " resyncing or reshaping etc.\n");
411 fprintf(stderr, Name ": Cannot set bitmap file for %s: %s\n",
412 devname, strerror(err));
413 return 1;
414 }
415 }
416
417 return 0;
418 }
419
420
421 /*
422 * When reshaping an array we might need to backup some data.
423 * This is written to all spares with a 'super_block' describing it.
424 * The superblock goes 4K from the end of the used space on the
425 * device.
426 * It if written after the backup is complete.
427 * It has the following structure.
428 */
429
430 static struct mdp_backup_super {
431 char magic[16]; /* md_backup_data-1 or -2 */
432 __u8 set_uuid[16];
433 __u64 mtime;
434 /* start/sizes in 512byte sectors */
435 __u64 devstart; /* address on backup device/file of data */
436 __u64 arraystart;
437 __u64 length;
438 __u32 sb_csum; /* csum of preceeding bytes. */
439 __u32 pad1;
440 __u64 devstart2; /* offset in to data of second section */
441 __u64 arraystart2;
442 __u64 length2;
443 __u32 sb_csum2; /* csum of preceeding bytes. */
444 __u8 pad[512-68-32];
445 } __attribute__((aligned(512))) bsb, bsb2;
446
447 static __u32 bsb_csum(char *buf, int len)
448 {
449 int i;
450 int csum = 0;
451 for (i=0; i<len; i++)
452 csum = (csum<<3) + buf[0];
453 return __cpu_to_le32(csum);
454 }
455
456 static int check_idle(struct supertype *st)
457 {
458 /* Check that all member arrays for this container, or the
459 * container of this array, are idle
460 */
461 int container_dev = (st->container_dev != NoMdDev
462 ? st->container_dev : st->devnum);
463 char container[40];
464 struct mdstat_ent *ent, *e;
465 int is_idle = 1;
466
467 fmt_devname(container, container_dev);
468 ent = mdstat_read(0, 0);
469 for (e = ent ; e; e = e->next) {
470 if (!is_container_member(e, container))
471 continue;
472 if (e->percent >= 0) {
473 is_idle = 0;
474 break;
475 }
476 }
477 free_mdstat(ent);
478 return is_idle;
479 }
480
481 static int freeze_container(struct supertype *st)
482 {
483 int container_dev = (st->container_dev != NoMdDev
484 ? st->container_dev : st->devnum);
485 char container[40];
486
487 if (!check_idle(st))
488 return -1;
489
490 fmt_devname(container, container_dev);
491
492 if (block_monitor(container, 1)) {
493 fprintf(stderr, Name ": failed to freeze container\n");
494 return -2;
495 }
496
497 return 1;
498 }
499
500 static void unfreeze_container(struct supertype *st)
501 {
502 int container_dev = (st->container_dev != NoMdDev
503 ? st->container_dev : st->devnum);
504 char container[40];
505
506 fmt_devname(container, container_dev);
507
508 unblock_monitor(container, 1);
509 }
510
511 static int freeze(struct supertype *st)
512 {
513 /* Try to freeze resync/rebuild on this array/container.
514 * Return -1 if the array is busy,
515 * return -2 container cannot be frozen,
516 * return 0 if this kernel doesn't support 'frozen'
517 * return 1 if it worked.
518 */
519 if (st->ss->external)
520 return freeze_container(st);
521 else {
522 struct mdinfo *sra = sysfs_read(-1, st->devnum, GET_VERSION);
523 int err;
524
525 if (!sra)
526 return -1;
527 err = sysfs_freeze_array(sra);
528 sysfs_free(sra);
529 return err;
530 }
531 }
532
533 static void unfreeze(struct supertype *st)
534 {
535 if (st->ss->external)
536 return unfreeze_container(st);
537 else {
538 struct mdinfo *sra = sysfs_read(-1, st->devnum, GET_VERSION);
539
540 if (sra)
541 sysfs_set_str(sra, NULL, "sync_action", "idle");
542 else
543 fprintf(stderr, Name ": failed to unfreeze array\n");
544 sysfs_free(sra);
545 }
546 }
547
548 static void wait_reshape(struct mdinfo *sra)
549 {
550 int fd = sysfs_get_fd(sra, NULL, "sync_action");
551 char action[20];
552
553 if (fd < 0)
554 return;
555
556 while (sysfs_fd_get_str(fd, action, 20) > 0 &&
557 strncmp(action, "reshape", 7) == 0) {
558 fd_set rfds;
559 FD_ZERO(&rfds);
560 FD_SET(fd, &rfds);
561 select(fd+1, NULL, NULL, &rfds, NULL);
562 }
563 close(fd);
564 }
565
566 static int reshape_super(struct supertype *st, long long size, int level,
567 int layout, int chunksize, int raid_disks,
568 int delta_disks, char *backup_file, char *dev,
569 int verbose)
570 {
571 /* nothing extra to check in the native case */
572 if (!st->ss->external)
573 return 0;
574 if (!st->ss->reshape_super ||
575 !st->ss->manage_reshape) {
576 fprintf(stderr, Name ": %s metadata does not support reshape\n",
577 st->ss->name);
578 return 1;
579 }
580
581 return st->ss->reshape_super(st, size, level, layout, chunksize,
582 raid_disks, delta_disks, backup_file, dev,
583 verbose);
584 }
585
586 static void sync_metadata(struct supertype *st)
587 {
588 if (st->ss->external) {
589 if (st->update_tail) {
590 flush_metadata_updates(st);
591 st->update_tail = &st->updates;
592 } else
593 st->ss->sync_metadata(st);
594 }
595 }
596
597 static int subarray_set_num(char *container, struct mdinfo *sra, char *name, int n)
598 {
599 /* when dealing with external metadata subarrays we need to be
600 * prepared to handle EAGAIN. The kernel may need to wait for
601 * mdmon to mark the array active so the kernel can handle
602 * allocations/writeback when preparing the reshape action
603 * (md_allow_write()). We temporarily disable safe_mode_delay
604 * to close a race with the array_state going clean before the
605 * next write to raid_disks / stripe_cache_size
606 */
607 char safe[50];
608 int rc;
609
610 /* only 'raid_disks' and 'stripe_cache_size' trigger md_allow_write */
611 if (!container ||
612 (strcmp(name, "raid_disks") != 0 &&
613 strcmp(name, "stripe_cache_size") != 0))
614 return sysfs_set_num(sra, NULL, name, n);
615
616 rc = sysfs_get_str(sra, NULL, "safe_mode_delay", safe, sizeof(safe));
617 if (rc <= 0)
618 return -1;
619 sysfs_set_num(sra, NULL, "safe_mode_delay", 0);
620 rc = sysfs_set_num(sra, NULL, name, n);
621 if (rc < 0 && errno == EAGAIN) {
622 ping_monitor(container);
623 /* if we get EAGAIN here then the monitor is not active
624 * so stop trying
625 */
626 rc = sysfs_set_num(sra, NULL, name, n);
627 }
628 sysfs_set_str(sra, NULL, "safe_mode_delay", safe);
629 return rc;
630 }
631
632 int start_reshape(struct mdinfo *sra, int already_running)
633 {
634 int err;
635 sysfs_set_num(sra, NULL, "suspend_lo", 0x7FFFFFFFFFFFFFFFULL);
636 err = sysfs_set_num(sra, NULL, "suspend_hi", 0);
637 err = err ?: sysfs_set_num(sra, NULL, "suspend_lo", 0);
638 if (!already_running)
639 sysfs_set_num(sra, NULL, "sync_min", 0);
640 err = err ?: sysfs_set_num(sra, NULL, "sync_max", 0);
641 if (!already_running)
642 err = err ?: sysfs_set_str(sra, NULL, "sync_action", "reshape");
643
644 return err;
645 }
646
647 void abort_reshape(struct mdinfo *sra)
648 {
649 sysfs_set_str(sra, NULL, "sync_action", "idle");
650 sysfs_set_num(sra, NULL, "suspend_lo", 0x7FFFFFFFFFFFFFFFULL);
651 sysfs_set_num(sra, NULL, "suspend_hi", 0);
652 sysfs_set_num(sra, NULL, "suspend_lo", 0);
653 sysfs_set_num(sra, NULL, "sync_min", 0);
654 sysfs_set_str(sra, NULL, "sync_max", "max");
655 }
656
657 int remove_disks_for_takeover(struct supertype *st,
658 struct mdinfo *sra,
659 int layout)
660 {
661 int nr_of_copies;
662 struct mdinfo *remaining;
663 int slot;
664
665 if (sra->array.level == 10)
666 nr_of_copies = layout & 0xff;
667 else if (sra->array.level == 1)
668 nr_of_copies = sra->array.raid_disks;
669 else
670 return 1;
671
672 remaining = sra->devs;
673 sra->devs = NULL;
674 /* for each 'copy', select one device and remove from the list. */
675 for (slot = 0; slot < sra->array.raid_disks; slot += nr_of_copies) {
676 struct mdinfo **diskp;
677 int found = 0;
678
679 /* Find a working device to keep */
680 for (diskp = &remaining; *diskp ; diskp = &(*diskp)->next) {
681 struct mdinfo *disk = *diskp;
682
683 if (disk->disk.raid_disk < slot)
684 continue;
685 if (disk->disk.raid_disk >= slot + nr_of_copies)
686 continue;
687 if (disk->disk.state & (1<<MD_DISK_REMOVED))
688 continue;
689 if (disk->disk.state & (1<<MD_DISK_FAULTY))
690 continue;
691 if (!(disk->disk.state & (1<<MD_DISK_SYNC)))
692 continue;
693
694 /* We have found a good disk to use! */
695 *diskp = disk->next;
696 disk->next = sra->devs;
697 sra->devs = disk;
698 found = 1;
699 break;
700 }
701 if (!found)
702 break;
703 }
704
705 if (slot < sra->array.raid_disks) {
706 /* didn't find all slots */
707 struct mdinfo **e;
708 e = &remaining;
709 while (*e)
710 e = &(*e)->next;
711 *e = sra->devs;
712 sra->devs = remaining;
713 return 1;
714 }
715
716 /* Remove all 'remaining' devices from the array */
717 while (remaining) {
718 struct mdinfo *sd = remaining;
719 remaining = sd->next;
720
721 sysfs_set_str(sra, sd, "state", "faulty");
722 sysfs_set_str(sra, sd, "slot", "none");
723 /* for external metadata disks should be removed in mdmon */
724 if (!st->ss->external)
725 sysfs_set_str(sra, sd, "state", "remove");
726 sd->disk.state |= (1<<MD_DISK_REMOVED);
727 sd->disk.state &= ~(1<<MD_DISK_SYNC);
728 sd->next = sra->devs;
729 sra->devs = sd;
730 }
731 return 0;
732 }
733
734 void reshape_free_fdlist(int *fdlist,
735 unsigned long long *offsets,
736 int size)
737 {
738 int i;
739
740 for (i = 0; i < size; i++)
741 if (fdlist[i] >= 0)
742 close(fdlist[i]);
743
744 free(fdlist);
745 free(offsets);
746 }
747
748 int reshape_prepare_fdlist(char *devname,
749 struct mdinfo *sra,
750 int raid_disks,
751 int nrdisks,
752 unsigned long blocks,
753 char *backup_file,
754 int *fdlist,
755 unsigned long long *offsets)
756 {
757 int d = 0;
758 struct mdinfo *sd;
759
760 for (d = 0; d <= nrdisks; d++)
761 fdlist[d] = -1;
762 d = raid_disks;
763 for (sd = sra->devs; sd; sd = sd->next) {
764 if (sd->disk.state & (1<<MD_DISK_FAULTY))
765 continue;
766 if (sd->disk.state & (1<<MD_DISK_SYNC)) {
767 char *dn = map_dev(sd->disk.major,
768 sd->disk.minor, 1);
769 fdlist[sd->disk.raid_disk]
770 = dev_open(dn, O_RDONLY);
771 offsets[sd->disk.raid_disk] = sd->data_offset*512;
772 if (fdlist[sd->disk.raid_disk] < 0) {
773 fprintf(stderr,
774 Name ": %s: cannot open component %s\n",
775 devname, dn ? dn : "-unknown-");
776 d = -1;
777 goto release;
778 }
779 } else if (backup_file == NULL) {
780 /* spare */
781 char *dn = map_dev(sd->disk.major,
782 sd->disk.minor, 1);
783 fdlist[d] = dev_open(dn, O_RDWR);
784 offsets[d] = (sd->data_offset + sra->component_size - blocks - 8)*512;
785 if (fdlist[d] < 0) {
786 fprintf(stderr, Name ": %s: cannot open component %s\n",
787 devname, dn ? dn : "-unknown-");
788 d = -1;
789 goto release;
790 }
791 d++;
792 }
793 }
794 release:
795 return d;
796 }
797
798 int reshape_open_backup_file(char *backup_file,
799 int fd,
800 char *devname,
801 long blocks,
802 int *fdlist,
803 unsigned long long *offsets,
804 int restart)
805 {
806 /* Return 1 on success, 0 on any form of failure */
807 /* need to check backup file is large enough */
808 char buf[512];
809 struct stat stb;
810 unsigned int dev;
811 int i;
812
813 *fdlist = open(backup_file, O_RDWR|O_CREAT|(restart ? O_TRUNC : O_EXCL),
814 S_IRUSR | S_IWUSR);
815 *offsets = 8 * 512;
816 if (*fdlist < 0) {
817 fprintf(stderr, Name ": %s: cannot create backup file %s: %s\n",
818 devname, backup_file, strerror(errno));
819 return 0;
820 }
821 /* Guard against backup file being on array device.
822 * If array is partitioned or if LVM etc is in the
823 * way this will not notice, but it is better than
824 * nothing.
825 */
826 fstat(*fdlist, &stb);
827 dev = stb.st_dev;
828 fstat(fd, &stb);
829 if (stb.st_rdev == dev) {
830 fprintf(stderr, Name ": backup file must NOT be"
831 " on the array being reshaped.\n");
832 close(*fdlist);
833 return 0;
834 }
835
836 memset(buf, 0, 512);
837 for (i=0; i < blocks + 8 ; i++) {
838 if (write(*fdlist, buf, 512) != 512) {
839 fprintf(stderr, Name ": %s: cannot create"
840 " backup file %s: %s\n",
841 devname, backup_file, strerror(errno));
842 return 0;
843 }
844 }
845 if (fsync(*fdlist) != 0) {
846 fprintf(stderr, Name ": %s: cannot create backup file %s: %s\n",
847 devname, backup_file, strerror(errno));
848 return 0;
849 }
850
851 return 1;
852 }
853
854 unsigned long compute_backup_blocks(int nchunk, int ochunk,
855 unsigned int ndata, unsigned int odata)
856 {
857 unsigned long a, b, blocks;
858 /* So how much do we need to backup.
859 * We need an amount of data which is both a whole number of
860 * old stripes and a whole number of new stripes.
861 * So LCM for (chunksize*datadisks).
862 */
863 a = (ochunk/512) * odata;
864 b = (nchunk/512) * ndata;
865 /* Find GCD */
866 while (a != b) {
867 if (a < b)
868 b -= a;
869 if (b < a)
870 a -= b;
871 }
872 /* LCM == product / GCD */
873 blocks = (ochunk/512) * (nchunk/512) * odata * ndata / a;
874
875 return blocks;
876 }
877
878 char *analyse_change(struct mdinfo *info, struct reshape *re)
879 {
880 /* Based on the current array state in info->array and
881 * the changes in info->new_* etc, determine:
882 * - whether the change is possible
883 * - Intermediate level/raid_disks/layout
884 * - whether a restriping reshape is needed
885 * - number of sectors in minimum change unit. This
886 * will cover a whole number of stripes in 'before' and
887 * 'after'.
888 *
889 * Return message if the change should be rejected
890 * NULL if the change can be achieved
891 *
892 * This can be called as part of starting a reshape, or
893 * when assembling an array that is undergoing reshape.
894 */
895 int new_disks;
896 /* delta_parity records change in number of devices
897 * caused by level change
898 */
899 int delta_parity = 0;
900
901 /* If a new level not explicitly given, we assume no-change */
902 if (info->new_level == UnSet)
903 info->new_level = info->array.level;
904
905 if (info->new_chunk)
906 switch (info->new_level) {
907 case 0:
908 case 4:
909 case 5:
910 case 6:
911 case 10:
912 /* chunk size is meaningful, must divide component_size
913 * evenly
914 */
915 if (info->component_size % (info->new_chunk/512))
916 return "New chunk size does not"
917 " divide component size";
918 break;
919 default:
920 return "chunk size not meaningful for this level";
921 }
922 else
923 info->new_chunk = info->array.chunk_size;
924
925 switch (info->array.level) {
926 case 1:
927 /* RAID1 can convert to RAID1 with different disks, or
928 * raid5 with 2 disks, or
929 * raid0 with 1 disk
930 */
931 if (info->new_level == 0) {
932 if (info->delta_disks != UnSet &&
933 info->delta_disks != 0)
934 return "Cannot change number of disks "
935 "with RAID1->RAID0 conversion";
936 re->level = 0;
937 re->before.data_disks = 1;
938 re->after.data_disks = 1;
939 re->before.layout = 0;
940 re->backup_blocks = 0;
941 re->parity = 0;
942 return NULL;
943 }
944 if (info->new_level == 1) {
945 if (info->delta_disks == UnSet)
946 /* Don't know what to do */
947 return "no change requested for Growing RAID1";
948 re->level = 1;
949 re->backup_blocks = 0;
950 re->parity = 0;
951 return NULL;
952 }
953 if (info->array.raid_disks == 2 &&
954 info->new_level == 5) {
955
956 re->level = 5;
957 re->before.data_disks = 1;
958 if (info->delta_disks != UnSet &&
959 info->delta_disks != 0)
960 re->after.data_disks = 1 + info->delta_disks;
961 else
962 re->after.data_disks = 1;
963 if (re->after.data_disks < 1)
964 return "Number of disks too small for RAID5";
965
966 re->before.layout = ALGORITHM_LEFT_SYMMETRIC;
967 info->array.chunk_size = 65536;
968 break;
969 }
970 /* Could do some multi-stage conversions, but leave that to
971 * later.
972 */
973 return "Impossibly level change request for RAID1";
974
975 case 10:
976 /* RAID10 can only be converted from near mode to
977 * RAID0 by removing some devices
978 */
979 if ((info->array.layout & ~0xff) != 0x100)
980 return "Cannot Grow RAID10 with far/offset layout";
981 /* number of devices must be multiple of number of copies */
982 if (info->array.raid_disks % (info->array.layout & 0xff))
983 return "RAID10 layout too complex for Grow operation";
984
985 if (info->new_level != 0)
986 return "RAID10 can only be changed to RAID0";
987 new_disks = (info->array.raid_disks
988 / (info->array.layout & 0xff));
989 if (info->delta_disks == UnSet)
990 info->delta_disks = (new_disks
991 - info->array.raid_disks);
992
993 if (info->delta_disks != new_disks - info->array.raid_disks)
994 return "New number of raid-devices impossible for RAID10";
995 if (info->new_chunk &&
996 info->new_chunk != info->array.chunk_size)
997 return "Cannot change chunk-size with RAID10 Grow";
998
999 /* looks good */
1000 re->level = 0;
1001 re->parity = 0;
1002 re->before.data_disks = new_disks;
1003 re->after.data_disks = re->before.data_disks;
1004 re->before.layout = 0;
1005 re->backup_blocks = 0;
1006 return NULL;
1007
1008 case 0:
1009 /* RAID0 can be converted to RAID10, or to RAID456 */
1010 if (info->new_level == 10) {
1011 if (info->new_layout == UnSet && info->delta_disks == UnSet) {
1012 /* Assume near=2 layout */
1013 info->new_layout = 0x102;
1014 info->delta_disks = info->array.raid_disks;
1015 }
1016 if (info->new_layout == UnSet) {
1017 int copies = 1 + (info->delta_disks
1018 / info->array.raid_disks);
1019 if (info->array.raid_disks * (copies-1)
1020 != info->delta_disks)
1021 return "Impossible number of devices"
1022 " for RAID0->RAID10";
1023 info->new_layout = 0x100 + copies;
1024 }
1025 if (info->delta_disks == UnSet) {
1026 int copies = info->new_layout & 0xff;
1027 if (info->new_layout != 0x100 + copies)
1028 return "New layout impossible"
1029 " for RAID0->RAID10";;
1030 info->delta_disks = (copies - 1) *
1031 info->array.raid_disks;
1032 }
1033 if (info->new_chunk &&
1034 info->new_chunk != info->array.chunk_size)
1035 return "Cannot change chunk-size with RAID0->RAID10";
1036 /* looks good */
1037 re->level = 10;
1038 re->parity = 0;
1039 re->before.data_disks = (info->array.raid_disks +
1040 info->delta_disks);
1041 re->after.data_disks = re->before.data_disks;
1042 re->before.layout = info->new_layout;
1043 re->backup_blocks = 0;
1044 return NULL;
1045 }
1046
1047 /* RAID0 can also covert to RAID0/4/5/6 by first converting to
1048 * a raid4 style layout of the final level.
1049 */
1050 switch (info->new_level) {
1051 case 4:
1052 delta_parity = 1;
1053 case 0:
1054 re->level = 4;
1055 re->before.layout = 0;
1056 break;
1057 case 5:
1058 delta_parity = 1;
1059 re->level = 5;
1060 re->before.layout = ALGORITHM_PARITY_N;
1061 break;
1062 case 6:
1063 delta_parity = 2;
1064 re->level = 6;
1065 re->before.layout = ALGORITHM_PARITY_N;
1066 break;
1067 default:
1068 return "Impossible level change requested";
1069 }
1070 re->before.data_disks = info->array.raid_disks;
1071 /* determining 'after' layout happens outside this 'switch' */
1072 break;
1073
1074 case 4:
1075 info->array.layout = ALGORITHM_PARITY_N;
1076 case 5:
1077 switch (info->new_level) {
1078 case 0:
1079 delta_parity = -1;
1080 case 4:
1081 re->level = info->array.level;
1082 re->before.data_disks = info->array.raid_disks - 1;
1083 re->before.layout = info->array.layout;
1084 break;
1085 case 5:
1086 re->level = 5;
1087 re->before.data_disks = info->array.raid_disks - 1;
1088 re->before.layout = info->array.layout;
1089 break;
1090 case 6:
1091 delta_parity = 1;
1092 re->level = 6;
1093 re->before.data_disks = info->array.raid_disks - 1;
1094 switch (info->array.layout) {
1095 case ALGORITHM_LEFT_ASYMMETRIC:
1096 re->before.layout = ALGORITHM_LEFT_ASYMMETRIC_6;
1097 break;
1098 case ALGORITHM_RIGHT_ASYMMETRIC:
1099 re->before.layout = ALGORITHM_RIGHT_ASYMMETRIC_6;
1100 break;
1101 case ALGORITHM_LEFT_SYMMETRIC:
1102 re->before.layout = ALGORITHM_LEFT_SYMMETRIC_6;
1103 break;
1104 case ALGORITHM_RIGHT_SYMMETRIC:
1105 re->before.layout = ALGORITHM_RIGHT_SYMMETRIC_6;
1106 break;
1107 case ALGORITHM_PARITY_0:
1108 re->before.layout = ALGORITHM_PARITY_0_6;
1109 break;
1110 case ALGORITHM_PARITY_N:
1111 re->before.layout = ALGORITHM_PARITY_N_6;
1112 break;
1113 default:
1114 return "Cannot convert an array with this layout";
1115 }
1116 break;
1117 case 1:
1118 if (info->array.raid_disks != 2)
1119 return "Can only convert a 2-device array to RAID1";
1120 if (info->delta_disks != UnSet &&
1121 info->delta_disks != 0)
1122 return "Cannot set raid_disk when "
1123 "converting RAID5->RAID1";
1124 re->level = 1;
1125 break;
1126 default:
1127 return "Impossible level change requested";
1128 }
1129 break;
1130 case 6:
1131 switch (info->new_level) {
1132 case 4:
1133 case 5:
1134 delta_parity = -1;
1135 case 6:
1136 re->level = 6;
1137 re->before.data_disks = info->array.raid_disks - 2;
1138 re->before.layout = info->array.layout;
1139 break;
1140 default:
1141 return "Impossible level change requested";
1142 }
1143 break;
1144 }
1145
1146 /* If we reached here then it looks like a re-stripe is
1147 * happening. We have determined the intermediate level
1148 * and initial raid_disks/layout and stored these in 're'.
1149 *
1150 * We need to deduce the final layout that can be atomically
1151 * converted to the end state.
1152 */
1153 switch (info->new_level) {
1154 case 0:
1155 /* We can only get to RAID0 from RAID4 or RAID5
1156 * with appropriate layout and one extra device
1157 */
1158 if (re->level != 4 && re->level != 5)
1159 return "Cannot covert to RAID0 from this level";
1160
1161 switch (re->level) {
1162 case 4:
1163 re->after.layout = 0 ; break;
1164 case 5:
1165 re->after.layout = ALGORITHM_PARITY_N; break;
1166 }
1167 break;
1168
1169 case 4:
1170 /* We can only get to RAID4 from RAID5 */
1171 if (re->level != 4 && re->level != 5)
1172 return "Cannot convert to RAID4 from this level";
1173
1174 switch (re->level) {
1175 case 4:
1176 re->after.layout = 0 ; break;
1177 case 5:
1178 re->after.layout = ALGORITHM_PARITY_N; break;
1179 }
1180 break;
1181
1182 case 5:
1183 /* We get to RAID5 for RAID5 or RAID6 */
1184 if (re->level != 5 && re->level != 6)
1185 return "Cannot convert to RAID5 from this level";
1186
1187 switch (re->level) {
1188 case 5:
1189 if (info->new_layout == UnSet)
1190 re->after.layout = re->before.layout;
1191 else
1192 re->after.layout = info->new_layout;
1193 break;
1194 case 6:
1195 if (info->new_layout == UnSet)
1196 info->new_layout = re->before.layout;
1197
1198 /* after.layout needs to be raid6 version of new_layout */
1199 if (info->new_layout == ALGORITHM_PARITY_N)
1200 re->after.layout = ALGORITHM_PARITY_N;
1201 else {
1202 char layout[40];
1203 char *ls = map_num(r5layout, info->new_layout);
1204 int l;
1205 strcat(strcpy(layout, ls), "-6");
1206 l = map_name(r6layout, layout);
1207 if (l == UnSet)
1208 return "Cannot find RAID6 layout"
1209 " to convert to";
1210 re->after.layout = l;
1211 }
1212 }
1213 break;
1214
1215 case 6:
1216 /* We must already be at level 6 */
1217 if (re->level != 6)
1218 return "Impossible level change";
1219 if (info->new_layout == UnSet)
1220 re->after.layout = info->array.layout;
1221 else
1222 re->after.layout = info->new_layout;
1223 break;
1224 default:
1225 return "Impossible level change requested";
1226 }
1227 if (info->delta_disks == UnSet)
1228 info->delta_disks = delta_parity;
1229
1230 re->after.data_disks = (re->before.data_disks
1231 + info->delta_disks
1232 - delta_parity);
1233 switch (re->level) {
1234 case 6: re->parity = 2; break;
1235 case 4:
1236 case 5: re->parity = 1; break;
1237 default: re->parity = 0; break;
1238 }
1239 /* So we have a restripe operation, we need to calculate the number
1240 * of blocks per reshape operation.
1241 */
1242 if (info->new_chunk == 0)
1243 info->new_chunk = info->array.chunk_size;
1244 if (re->after.data_disks == re->before.data_disks &&
1245 re->after.layout == re->before.layout &&
1246 info->new_chunk == info->array.chunk_size) {
1247 /* Nothing to change */
1248 re->backup_blocks = 0;
1249 return NULL;
1250 }
1251 if (re->after.data_disks == 1 && re->before.data_disks == 1) {
1252 /* chunk and layout changes make no difference */
1253 re->backup_blocks = 0;
1254 return NULL;
1255 }
1256
1257 if (re->after.data_disks == re->before.data_disks &&
1258 get_linux_version() < 2006032)
1259 return "in-place reshape is not safe before 2.6.32 - sorry.";
1260
1261 if (re->after.data_disks < re->before.data_disks &&
1262 get_linux_version() < 2006030)
1263 return "reshape to fewer devices is not supported before 2.6.32 - sorry.";
1264
1265 re->backup_blocks = compute_backup_blocks(
1266 info->new_chunk, info->array.chunk_size,
1267 re->after.data_disks,
1268 re->before.data_disks);
1269
1270 re->new_size = info->component_size * re->after.data_disks;
1271 return NULL;
1272 }
1273
1274 static int reshape_array(char *container, int fd, char *devname,
1275 struct supertype *st, struct mdinfo *info,
1276 int force, struct mddev_dev *devlist,
1277 char *backup_file, int quiet, int forked,
1278 int restart);
1279 static int reshape_container(char *container, char *devname,
1280 struct supertype *st,
1281 struct mdinfo *info,
1282 int force,
1283 char *backup_file,
1284 int quiet, int restart);
1285
1286 int Grow_reshape(char *devname, int fd, int quiet, char *backup_file,
1287 long long size,
1288 int level, char *layout_str, int chunksize, int raid_disks,
1289 struct mddev_dev *devlist,
1290 int force)
1291 {
1292 /* Make some changes in the shape of an array.
1293 * The kernel must support the change.
1294 *
1295 * There are three different changes. Each can trigger
1296 * a resync or recovery so we freeze that until we have
1297 * requested everything (if kernel supports freezing - 2.6.30).
1298 * The steps are:
1299 * - change size (i.e. component_size)
1300 * - change level
1301 * - change layout/chunksize/ndisks
1302 *
1303 * The last can require a reshape. It is different on different
1304 * levels so we need to check the level before actioning it.
1305 * Some times the level change needs to be requested after the
1306 * reshape (e.g. raid6->raid5, raid5->raid0)
1307 *
1308 */
1309 struct mdu_array_info_s array;
1310 int rv = 0;
1311 struct supertype *st;
1312 char *subarray = NULL;
1313
1314 int frozen;
1315 int changed = 0;
1316 char *container = NULL;
1317 char container_buf[20];
1318 int cfd = -1;
1319
1320 struct mddev_dev *dv;
1321 int added_disks;
1322
1323 struct mdinfo info;
1324 struct mdinfo *sra;
1325
1326 if (ioctl(fd, GET_ARRAY_INFO, &array) < 0) {
1327 fprintf(stderr, Name ": %s is not an active md array - aborting\n",
1328 devname);
1329 return 1;
1330 }
1331
1332 if (size >= 0 &&
1333 (chunksize || level!= UnSet || layout_str || raid_disks)) {
1334 fprintf(stderr, Name ": cannot change component size at the same time "
1335 "as other changes.\n"
1336 " Change size first, then check data is intact before "
1337 "making other changes.\n");
1338 return 1;
1339 }
1340
1341 if (raid_disks && raid_disks < array.raid_disks && array.level > 1 &&
1342 get_linux_version() < 2006032 &&
1343 !check_env("MDADM_FORCE_FEWER")) {
1344 fprintf(stderr, Name ": reducing the number of devices is not safe before Linux 2.6.32\n"
1345 " Please use a newer kernel\n");
1346 return 1;
1347 }
1348
1349 st = super_by_fd(fd, &subarray);
1350 if (!st) {
1351 fprintf(stderr, Name ": Unable to determine metadata format for %s\n", devname);
1352 return 1;
1353 }
1354 if (raid_disks > st->max_devs) {
1355 fprintf(stderr, Name ": Cannot increase raid-disks on this array"
1356 " beyond %d\n", st->max_devs);
1357 return 1;
1358 }
1359
1360 /* in the external case we need to check that the requested reshape is
1361 * supported, and perform an initial check that the container holds the
1362 * pre-requisite spare devices (mdmon owns final validation)
1363 */
1364 if (st->ss->external) {
1365 int container_dev;
1366 int rv;
1367
1368 if (subarray) {
1369 container_dev = st->container_dev;
1370 cfd = open_dev_excl(st->container_dev);
1371 } else {
1372 container_dev = st->devnum;
1373 close(fd);
1374 cfd = open_dev_excl(st->devnum);
1375 fd = cfd;
1376 }
1377 if (cfd < 0) {
1378 fprintf(stderr, Name ": Unable to open container for %s\n",
1379 devname);
1380 free(subarray);
1381 return 1;
1382 }
1383
1384 fmt_devname(container_buf, container_dev);
1385 container = container_buf;
1386
1387 rv = st->ss->load_container(st, cfd, NULL);
1388
1389 if (rv) {
1390 fprintf(stderr, Name ": Cannot read superblock for %s\n",
1391 devname);
1392 free(subarray);
1393 return 1;
1394 }
1395
1396 if (mdmon_running(container_dev))
1397 st->update_tail = &st->updates;
1398 }
1399
1400 added_disks = 0;
1401 for (dv = devlist; dv; dv = dv->next)
1402 added_disks++;
1403 if (raid_disks > array.raid_disks &&
1404 array.spare_disks +added_disks < (raid_disks - array.raid_disks) &&
1405 !force) {
1406 fprintf(stderr,
1407 Name ": Need %d spare%s to avoid degraded array,"
1408 " and only have %d.\n"
1409 " Use --force to over-ride this check.\n",
1410 raid_disks - array.raid_disks,
1411 raid_disks - array.raid_disks == 1 ? "" : "s",
1412 array.spare_disks + added_disks);
1413 return 1;
1414 }
1415
1416 sra = sysfs_read(fd, 0, GET_LEVEL | GET_DISKS | GET_DEVS
1417 | GET_STATE | GET_VERSION);
1418 if (sra) {
1419 if (st->ss->external && subarray == NULL) {
1420 array.level = LEVEL_CONTAINER;
1421 sra->array.level = LEVEL_CONTAINER;
1422 }
1423 } else {
1424 fprintf(stderr, Name ": failed to read sysfs parameters for %s\n",
1425 devname);
1426 return 1;
1427 }
1428 frozen = freeze(st);
1429 if (frozen < -1) {
1430 /* freeze() already spewed the reason */
1431 return 1;
1432 } else if (frozen < 0) {
1433 fprintf(stderr, Name ": %s is performing resync/recovery and cannot"
1434 " be reshaped\n", devname);
1435 return 1;
1436 }
1437
1438 /* ========= set size =============== */
1439 if (size >= 0 && (size == 0 || size != array.size)) {
1440 long long orig_size = array.size;
1441 struct mdinfo *mdi;
1442
1443 if (reshape_super(st, size, UnSet, UnSet, 0, 0, UnSet, NULL,
1444 devname, !quiet)) {
1445 rv = 1;
1446 goto release;
1447 }
1448 sync_metadata(st);
1449
1450 /* Update the size of each member device in case
1451 * they have been resized. This will never reduce
1452 * below the current used-size. The "size" attribute
1453 * understand '0' to mean 'max'.
1454 */
1455 for (mdi = sra->devs; mdi; mdi = mdi->next)
1456 sysfs_set_num(sra, mdi, "size", size);
1457
1458 array.size = size;
1459 if (array.size != size) {
1460 /* got truncated to 32bit, write to
1461 * component_size instead
1462 */
1463 if (sra)
1464 rv = sysfs_set_num(sra, NULL,
1465 "component_size", size);
1466 else
1467 rv = -1;
1468 } else
1469 rv = ioctl(fd, SET_ARRAY_INFO, &array);
1470 if (rv != 0) {
1471 int err = errno;
1472
1473 /* restore metadata */
1474 if (reshape_super(st, orig_size, UnSet, UnSet, 0, 0,
1475 UnSet, NULL, devname, !quiet) == 0)
1476 sync_metadata(st);
1477 fprintf(stderr, Name ": Cannot set device size for %s: %s\n",
1478 devname, strerror(err));
1479 if (err == EBUSY &&
1480 (array.state & (1<<MD_SB_BITMAP_PRESENT)))
1481 fprintf(stderr, " Bitmap must be removed before size can be changed\n");
1482 rv = 1;
1483 goto release;
1484 }
1485 ioctl(fd, GET_ARRAY_INFO, &array);
1486 size = get_component_size(fd)/2;
1487 if (size == 0)
1488 size = array.size;
1489 if (!quiet)
1490 fprintf(stderr, Name ": component size of %s has been set to %lluK\n",
1491 devname, size);
1492 changed = 1;
1493 } else if (array.level != LEVEL_CONTAINER) {
1494 size = get_component_size(fd)/2;
1495 if (size == 0)
1496 size = array.size;
1497 }
1498
1499 /* See if there is anything else to do */
1500 if ((level == UnSet || level == array.level) &&
1501 (layout_str == NULL) &&
1502 (chunksize == 0 || chunksize == array.chunk_size) &&
1503 (raid_disks == 0 || raid_disks == array.raid_disks)) {
1504 /* Nothing more to do */
1505 if (!changed && !quiet)
1506 fprintf(stderr, Name ": %s: no change requested\n",
1507 devname);
1508 goto release;
1509 }
1510
1511 /* ========= check for Raid10/Raid1 -> Raid0 conversion ===============
1512 * current implementation assumes that following conditions must be met:
1513 * - RAID10:
1514 * - far_copies == 1
1515 * - near_copies == 2
1516 */
1517 if ((level == 0 && array.level == 10 && sra &&
1518 array.layout == ((1 << 8) + 2) && !(array.raid_disks & 1)) ||
1519 (level == 0 && array.level == 1 && sra)) {
1520 int err;
1521 err = remove_disks_for_takeover(st, sra, array.layout);
1522 if (err) {
1523 dprintf(Name": Array cannot be reshaped\n");
1524 if (cfd > -1)
1525 close(cfd);
1526 rv = 1;
1527 goto release;
1528 }
1529 /* FIXME this is added with no justification - why is it here */
1530 ping_monitor(container);
1531 }
1532
1533 memset(&info, 0, sizeof(info));
1534 info.array = array;
1535 sysfs_init(&info, fd, NoMdDev);
1536 strcpy(info.text_version, sra->text_version);
1537 info.component_size = size*2;
1538 info.new_level = level;
1539 info.new_chunk = chunksize * 1024;
1540 if (info.array.level == LEVEL_CONTAINER) {
1541 info.delta_disks = UnSet;
1542 info.array.raid_disks = raid_disks;
1543 } else if (raid_disks)
1544 info.delta_disks = raid_disks - info.array.raid_disks;
1545 else
1546 info.delta_disks = UnSet;
1547 if (layout_str == NULL) {
1548 info.new_layout = UnSet;
1549 if (info.array.level == 6 &&
1550 (info.new_level == 6 || info.new_level == UnSet) &&
1551 info.array.layout >= 16) {
1552 fprintf(stderr, Name
1553 ": %s has a non-standard layout. If you"
1554 " wish to preserve this\n"
1555 " during the reshape, please specify"
1556 " --layout=preserve\n"
1557 " If you want to change it, specify a"
1558 " layout or use --layout=normalise\n",
1559 devname);
1560 rv = 1;
1561 goto release;
1562 }
1563 } else if (strcmp(layout_str, "normalise") == 0 ||
1564 strcmp(layout_str, "normalize") == 0) {
1565 /* If we have a -6 RAID6 layout, remove the '-6'. */
1566 info.new_layout = UnSet;
1567 if (info.array.level == 6 && info.new_level == UnSet) {
1568 char l[40], *h;
1569 strcpy(l, map_num(r6layout, info.array.layout));
1570 h = strrchr(l, '-');
1571 if (h && strcmp(h, "-6") == 0) {
1572 *h = 0;
1573 info.new_layout = map_name(r6layout, l);
1574 }
1575 }
1576 } else if (strcmp(layout_str, "preserve") == 0) {
1577 info.new_layout = UnSet;
1578 } else {
1579 int l = info.new_level;
1580 if (l == UnSet)
1581 l = info.array.level;
1582 switch (l) {
1583 case 5:
1584 info.new_layout = map_name(r5layout, layout_str);
1585 break;
1586 case 6:
1587 info.new_layout = map_name(r6layout, layout_str);
1588 break;
1589 case 10:
1590 info.new_layout = parse_layout_10(layout_str);
1591 break;
1592 case LEVEL_FAULTY:
1593 info.new_layout = parse_layout_faulty(layout_str);
1594 break;
1595 default:
1596 fprintf(stderr, Name ": layout not meaningful"
1597 " with this level\n");
1598 rv = 1;
1599 goto release;
1600 }
1601 if (info.new_layout == UnSet) {
1602 fprintf(stderr, Name ": layout %s not understood"
1603 " for this level\n",
1604 layout_str);
1605 rv = 1;
1606 goto release;
1607 }
1608 }
1609
1610 if (array.level == LEVEL_CONTAINER) {
1611 /* This change is to be applied to every array in the
1612 * container. This is only needed when the metadata imposes
1613 * restraints of the various arrays in the container.
1614 * Currently we only know that IMSM requires all arrays
1615 * to have the same number of devices so changing the
1616 * number of devices (On-Line Capacity Expansion) must be
1617 * performed at the level of the container
1618 */
1619 rv = reshape_container(container, devname, st, &info,
1620 force, backup_file, quiet, 0);
1621 frozen = 0;
1622 } else {
1623 /* get spare devices from external metadata
1624 */
1625 if (st->ss->external) {
1626 struct mdinfo *info2;
1627
1628 info2 = st->ss->container_content(st, subarray);
1629 if (info2) {
1630 info.array.spare_disks =
1631 info2->array.spare_disks;
1632 sysfs_free(info2);
1633 }
1634 }
1635
1636 /* Impose these changes on a single array. First
1637 * check that the metadata is OK with the change. */
1638
1639 if (reshape_super(st, info.component_size, info.new_level,
1640 info.new_layout, info.new_chunk,
1641 info.array.raid_disks, info.delta_disks,
1642 backup_file, devname, quiet)) {
1643 rv = 1;
1644 goto release;
1645 }
1646 sync_metadata(st);
1647 rv = reshape_array(container, fd, devname, st, &info, force,
1648 devlist, backup_file, quiet, 0, 0);
1649 frozen = 0;
1650 }
1651 release:
1652 if (frozen > 0)
1653 unfreeze(st);
1654 return rv;
1655 }
1656
1657 static int reshape_array(char *container, int fd, char *devname,
1658 struct supertype *st, struct mdinfo *info,
1659 int force, struct mddev_dev *devlist,
1660 char *backup_file, int quiet, int forked,
1661 int restart)
1662 {
1663 struct reshape reshape;
1664 int spares_needed;
1665 char *msg;
1666 int orig_level = UnSet;
1667 int disks, odisks;
1668
1669 struct mdu_array_info_s array;
1670 char *c;
1671
1672 struct mddev_dev *dv;
1673 int added_disks;
1674
1675 int *fdlist;
1676 unsigned long long *offsets;
1677 int d;
1678 int nrdisks;
1679 int err;
1680 unsigned long blocks;
1681 unsigned long cache;
1682 unsigned long long array_size;
1683 int done;
1684 struct mdinfo *sra = NULL;
1685
1686 /* when reshaping a RAID0, the component_size might be zero.
1687 * So try to fix that up.
1688 */
1689 if (ioctl(fd, GET_ARRAY_INFO, &array) != 0) {
1690 dprintf("Cannot get array information.\n");
1691 goto release;
1692 }
1693 if (array.level == 0 && info->component_size == 0) {
1694 get_dev_size(fd, NULL, &array_size);
1695 info->component_size = array_size / array.raid_disks;
1696 }
1697
1698 if (info->reshape_active) {
1699 int new_level = info->new_level;
1700 info->new_level = UnSet;
1701 info->array.raid_disks -= info->delta_disks;
1702 msg = analyse_change(info, &reshape);
1703 info->new_level = new_level;
1704 info->array.raid_disks += info->delta_disks;
1705 if (!restart)
1706 /* Make sure the array isn't read-only */
1707 ioctl(fd, RESTART_ARRAY_RW, 0);
1708 } else
1709 msg = analyse_change(info, &reshape);
1710 if (msg) {
1711 fprintf(stderr, Name ": %s\n", msg);
1712 goto release;
1713 }
1714 if (restart &&
1715 (reshape.level != info->array.level ||
1716 reshape.before.layout != info->array.layout ||
1717 reshape.before.data_disks + reshape.parity
1718 != info->array.raid_disks - info->delta_disks)) {
1719 fprintf(stderr, Name ": reshape info is not in native format -"
1720 " cannot continue.\n");
1721 goto release;
1722 }
1723
1724 if (restart) {
1725 /* reshape already started. just skip to monitoring the reshape */
1726 if (reshape.backup_blocks == 0)
1727 return 0;
1728 goto started;
1729 }
1730 /* The container is frozen but the array may not be.
1731 * So freeze the array so spares don't get put to the wrong use
1732 * FIXME there should probably be a cleaner separation between
1733 * freeze_array and freeze_container.
1734 */
1735 sysfs_freeze_array(info);
1736 /* Check we have enough spares to not be degraded */
1737 added_disks = 0;
1738 for (dv = devlist; dv ; dv=dv->next)
1739 added_disks++;
1740 spares_needed = max(reshape.before.data_disks,
1741 reshape.after.data_disks)
1742 + reshape.parity - array.raid_disks;
1743
1744 if (!force &&
1745 info->new_level > 1 && info->array.level > 1 &&
1746 spares_needed > info->array.spare_disks + added_disks) {
1747 fprintf(stderr,
1748 Name ": Need %d spare%s to avoid degraded array,"
1749 " and only have %d.\n"
1750 " Use --force to over-ride this check.\n",
1751 spares_needed,
1752 spares_needed == 1 ? "" : "s",
1753 info->array.spare_disks + added_disks);
1754 goto release;
1755 }
1756 /* Check we have enough spares to not fail */
1757 spares_needed = max(reshape.before.data_disks,
1758 reshape.after.data_disks)
1759 - array.raid_disks;
1760 if ((info->new_level > 1 || info->new_level == 0) &&
1761 spares_needed > info->array.spare_disks +added_disks) {
1762 fprintf(stderr,
1763 Name ": Need %d spare%s to create working array,"
1764 " and only have %d.\n",
1765 spares_needed,
1766 spares_needed == 1 ? "" : "s",
1767 info->array.spare_disks + added_disks);
1768 goto release;
1769 }
1770
1771 if (reshape.level != array.level) {
1772 char *c = map_num(pers, reshape.level);
1773 int err;
1774 if (c == NULL)
1775 goto release;
1776
1777 err = sysfs_set_str(info, NULL, "level", c);
1778 if (err) {
1779 err = errno;
1780 fprintf(stderr, Name ": %s: could not set level to %s\n",
1781 devname, c);
1782 if (err == EBUSY &&
1783 (info->array.state & (1<<MD_SB_BITMAP_PRESENT)))
1784 fprintf(stderr, " Bitmap must be removed"
1785 " before level can be changed\n");
1786 goto release;
1787 }
1788 if (!quiet)
1789 fprintf(stderr, Name ": level of %s changed to %s\n",
1790 devname, c);
1791 orig_level = array.level;
1792 sysfs_freeze_array(info);
1793
1794 if (reshape.level > 0 && st->ss->external) {
1795 /* make sure mdmon is aware of the new level */
1796 if (!mdmon_running(st->container_dev))
1797 start_mdmon(st->container_dev);
1798 ping_monitor(container);
1799 }
1800 }
1801 /* ->reshape_super might have chosen some spares from the
1802 * container that it wants to be part of the new array.
1803 * We can collect them with ->container_content and give
1804 * them to the kernel.
1805 */
1806 if (st->ss->reshape_super && st->ss->container_content) {
1807 char *subarray = strchr(info->text_version+1, '/')+1;
1808 struct mdinfo *info2 =
1809 st->ss->container_content(st, subarray);
1810 struct mdinfo *d;
1811
1812 if (info2) {
1813 sysfs_init(info2, fd, st->devnum);
1814 /* When increasing number of devices, we need to set
1815 * new raid_disks before adding these, or they might
1816 * be rejected.
1817 */
1818 if (reshape.backup_blocks &&
1819 reshape.after.data_disks > reshape.before.data_disks)
1820 subarray_set_num(container, info2, "raid_disks",
1821 reshape.after.data_disks +
1822 reshape.parity);
1823 for (d = info2->devs; d; d = d->next) {
1824 if (d->disk.state == 0 &&
1825 d->disk.raid_disk >= 0) {
1826 /* This is a spare that wants to
1827 * be part of the array.
1828 */
1829 add_disk(fd, st, info2, d);
1830 }
1831 }
1832 sysfs_free(info2);
1833 }
1834 }
1835 /* We might have been given some devices to add to the
1836 * array. Now that the array has been changed to the right
1837 * level and frozen, we can safely add them.
1838 */
1839 if (devlist)
1840 Manage_subdevs(devname, fd, devlist, !quiet,
1841 0,NULL);
1842
1843 if (reshape.backup_blocks == 0) {
1844 /* No restriping needed, but we might need to impose
1845 * some more changes: layout, raid_disks, chunk_size
1846 */
1847 /* read current array info */
1848 if (ioctl(fd, GET_ARRAY_INFO, &array) != 0) {
1849 dprintf("Cannot get array information.\n");
1850 goto release;
1851 }
1852 /* compare current array info with new values and if
1853 * it is different update them to new */
1854 if (info->new_layout != UnSet &&
1855 info->new_layout != array.layout) {
1856 array.layout = info->new_layout;
1857 if (ioctl(fd, SET_ARRAY_INFO, &array) != 0) {
1858 fprintf(stderr, Name ": failed to set new layout\n");
1859 goto release;
1860 } else if (!quiet)
1861 printf("layout for %s set to %d\n",
1862 devname, array.layout);
1863 }
1864 if (info->delta_disks != UnSet &&
1865 info->delta_disks != 0 &&
1866 array.raid_disks != (info->array.raid_disks + info->delta_disks)) {
1867 array.raid_disks += info->delta_disks;
1868 if (ioctl(fd, SET_ARRAY_INFO, &array) != 0) {
1869 fprintf(stderr, Name ": failed to set raid disks\n");
1870 goto release;
1871 } else if (!quiet) {
1872 printf("raid_disks for %s set to %d\n",
1873 devname, array.raid_disks);
1874 }
1875 }
1876 if (info->new_chunk != 0 &&
1877 info->new_chunk != array.chunk_size) {
1878 if (sysfs_set_num(info, NULL,
1879 "chunk_size", info->new_chunk) != 0) {
1880 fprintf(stderr, Name ": failed to set chunk size\n");
1881 goto release;
1882 } else if (!quiet)
1883 printf("chunk size for %s set to %d\n",
1884 devname, array.chunk_size);
1885 }
1886 unfreeze(st);
1887 return 0;
1888 }
1889
1890 /*
1891 * There are three possibilities.
1892 * 1/ The array will shrink.
1893 * We need to ensure the reshape will pause before reaching
1894 * the 'critical section'. We also need to fork and wait for
1895 * that to happen. When it does we
1896 * suspend/backup/complete/unfreeze
1897 *
1898 * 2/ The array will not change size.
1899 * This requires that we keep a backup of a sliding window
1900 * so that we can restore data after a crash. So we need
1901 * to fork and monitor progress.
1902 * In future we will allow the data_offset to change, so
1903 * a sliding backup becomes unnecessary.
1904 *
1905 * 3/ The array will grow. This is relatively easy.
1906 * However the kernel's restripe routines will cheerfully
1907 * overwrite some early data before it is safe. So we
1908 * need to make a backup of the early parts of the array
1909 * and be ready to restore it if rebuild aborts very early.
1910 * For externally managed metadata, we still need a forked
1911 * child to monitor the reshape and suspend IO over the region
1912 * that is being reshaped.
1913 *
1914 * We backup data by writing it to one spare, or to a
1915 * file which was given on command line.
1916 *
1917 * In each case, we first make sure that storage is available
1918 * for the required backup.
1919 * Then we:
1920 * - request the shape change.
1921 * - fork to handle backup etc.
1922 */
1923 started:
1924 /* Check that we can hold all the data */
1925 get_dev_size(fd, NULL, &array_size);
1926 if (reshape.new_size < (array_size/512)) {
1927 fprintf(stderr,
1928 Name ": this change will reduce the size of the array.\n"
1929 " use --grow --array-size first to truncate array.\n"
1930 " e.g. mdadm --grow %s --array-size %llu\n",
1931 devname, reshape.new_size/2);
1932 goto release;
1933 }
1934
1935 sra = sysfs_read(fd, 0,
1936 GET_COMPONENT|GET_DEVS|GET_OFFSET|GET_STATE|GET_CHUNK|
1937 GET_CACHE);
1938 if (!sra) {
1939 fprintf(stderr, Name ": %s: Cannot get array details from sysfs\n",
1940 devname);
1941 goto release;
1942 }
1943
1944 /* Decide how many blocks (sectors) for a reshape
1945 * unit. The number we have so far is just a minimum
1946 */
1947 blocks = reshape.backup_blocks;
1948 if (reshape.before.data_disks ==
1949 reshape.after.data_disks) {
1950 /* Make 'blocks' bigger for better throughput, but
1951 * not so big that we reject it below.
1952 * Try for 16 megabytes
1953 */
1954 while (blocks * 32 < sra->component_size &&
1955 blocks < 16*1024*2)
1956 blocks *= 2;
1957 } else
1958 fprintf(stderr, Name ": Need to backup %luK of critical "
1959 "section..\n", blocks/2);
1960
1961 if (blocks >= sra->component_size/2) {
1962 fprintf(stderr, Name ": %s: Something wrong"
1963 " - reshape aborted\n",
1964 devname);
1965 goto release;
1966 }
1967
1968 /* Now we need to open all these devices so we can read/write.
1969 */
1970 nrdisks = max(reshape.before.data_disks,
1971 reshape.after.data_disks) + reshape.parity
1972 + sra->array.spare_disks;
1973 fdlist = malloc((1+nrdisks) * sizeof(int));
1974 offsets = malloc((1+nrdisks) * sizeof(offsets[0]));
1975 if (!fdlist || !offsets) {
1976 fprintf(stderr, Name ": malloc failed: grow aborted\n");
1977 goto release;
1978 }
1979
1980 odisks = reshape.before.data_disks + reshape.parity;
1981 d = reshape_prepare_fdlist(devname, sra, odisks,
1982 nrdisks, blocks, backup_file,
1983 fdlist, offsets);
1984 if (d < 0) {
1985 goto release;
1986 }
1987 if (backup_file == NULL) {
1988 if (reshape.after.data_disks <= reshape.before.data_disks) {
1989 fprintf(stderr,
1990 Name ": %s: Cannot grow - need backup-file\n",
1991 devname);
1992 goto release;
1993 } else if (sra->array.spare_disks == 0) {
1994 fprintf(stderr, Name ": %s: Cannot grow - need a spare or "
1995 "backup-file to backup critical section\n",
1996 devname);
1997 goto release;
1998 }
1999 } else {
2000 if (!reshape_open_backup_file(backup_file, fd, devname,
2001 (signed)blocks,
2002 fdlist+d, offsets+d, restart)) {
2003 goto release;
2004 }
2005 d++;
2006 }
2007
2008 /* lastly, check that the internal stripe cache is
2009 * large enough, or it won't work.
2010 * It must hold at least 4 stripes of the larger
2011 * chunk size
2012 */
2013 cache = max(info->array.chunk_size, info->new_chunk);
2014 cache *= 4; /* 4 stripes minimum */
2015 cache /= 512; /* convert to sectors */
2016 disks = min(reshape.before.data_disks, reshape.after.data_disks);
2017 /* make sure there is room for 'blocks' with a bit to spare */
2018 if (cache < 16 + blocks / disks)
2019 cache = 16 + blocks / disks;
2020 cache /= (4096/512); /* Covert from sectors to pages */
2021
2022 if (sra->cache_size < cache)
2023 subarray_set_num(container, sra, "stripe_cache_size",
2024 cache+1);
2025
2026 /* Right, everything seems fine. Let's kick things off.
2027 * If only changing raid_disks, use ioctl, else use
2028 * sysfs.
2029 */
2030 sync_metadata(st);
2031
2032 sra->new_chunk = info->new_chunk;
2033
2034 if (restart)
2035 sra->reshape_progress = info->reshape_progress;
2036 else {
2037 sra->reshape_progress = 0;
2038 if (reshape.after.data_disks < reshape.before.data_disks)
2039 /* start from the end of the new array */
2040 sra->reshape_progress = (sra->component_size
2041 * reshape.after.data_disks);
2042 }
2043
2044 if (info->array.chunk_size == info->new_chunk &&
2045 reshape.before.layout == reshape.after.layout &&
2046 st->ss->external == 0) {
2047 /* use SET_ARRAY_INFO but only if reshape hasn't started */
2048 ioctl(fd, GET_ARRAY_INFO, &array);
2049 array.raid_disks = reshape.after.data_disks + reshape.parity;
2050 if (!restart &&
2051 ioctl(fd, SET_ARRAY_INFO, &array) != 0) {
2052 int err = errno;
2053
2054 fprintf(stderr,
2055 Name ": Cannot set device shape for %s: %s\n",
2056 devname, strerror(errno));
2057
2058 if (err == EBUSY &&
2059 (array.state & (1<<MD_SB_BITMAP_PRESENT)))
2060 fprintf(stderr,
2061 " Bitmap must be removed before"
2062 " shape can be changed\n");
2063
2064 goto release;
2065 }
2066 } else if (!restart) {
2067 /* set them all just in case some old 'new_*' value
2068 * persists from some earlier problem.
2069 */
2070 int err = 0;
2071 if (sysfs_set_num(sra, NULL, "chunk_size", info->new_chunk) < 0)
2072 err = errno;
2073 if (!err && sysfs_set_num(sra, NULL, "layout",
2074 reshape.after.layout) < 0)
2075 err = errno;
2076 if (!err && subarray_set_num(container, sra, "raid_disks",
2077 reshape.after.data_disks +
2078 reshape.parity) < 0)
2079 err = errno;
2080 if (err) {
2081 fprintf(stderr, Name ": Cannot set device shape for %s\n",
2082 devname);
2083
2084 if (err == EBUSY &&
2085 (array.state & (1<<MD_SB_BITMAP_PRESENT)))
2086 fprintf(stderr,
2087 " Bitmap must be removed before"
2088 " shape can be changed\n");
2089 goto release;
2090 }
2091 }
2092
2093 err = start_reshape(sra, restart);
2094 if (err) {
2095 fprintf(stderr,
2096 Name ": Cannot %s reshape for %s\n",
2097 restart ? "continue" : "start",
2098 devname);
2099 goto release;
2100 }
2101 if (restart)
2102 sysfs_set_str(sra, NULL, "array_state", "active");
2103
2104 /* Now we just need to kick off the reshape and watch, while
2105 * handling backups of the data...
2106 * This is all done by a forked background process.
2107 */
2108 switch(forked ? 0 : fork()) {
2109 case -1:
2110 fprintf(stderr, Name ": Cannot run child to monitor reshape: %s\n",
2111 strerror(errno));
2112 abort_reshape(sra);
2113 goto release;
2114 default:
2115 return 0;
2116 case 0:
2117 break;
2118 }
2119
2120 close(fd);
2121 if (check_env("MDADM_GROW_VERIFY"))
2122 fd = open(devname, O_RDONLY | O_DIRECT);
2123 else
2124 fd = -1;
2125 mlockall(MCL_FUTURE);
2126
2127 if (st->ss->external) {
2128 /* metadata handler takes it from here */
2129 done = st->ss->manage_reshape(
2130 fd, sra, &reshape, st, blocks,
2131 fdlist, offsets,
2132 d - odisks, fdlist+odisks,
2133 offsets+odisks);
2134 } else
2135 done = child_monitor(
2136 fd, sra, &reshape, st, blocks,
2137 fdlist, offsets,
2138 d - odisks, fdlist+odisks,
2139 offsets+odisks);
2140
2141 if (backup_file && done)
2142 unlink(backup_file);
2143 if (!done) {
2144 abort_reshape(sra);
2145 goto out;
2146 }
2147
2148 if (!st->ss->external &&
2149 !(reshape.before.data_disks != reshape.after.data_disks
2150 && info->custom_array_size) &&
2151 info->new_level == reshape.level &&
2152 !forked) {
2153 /* no need to wait for the reshape to finish as
2154 * there is nothing more to do.
2155 */
2156 exit(0);
2157 }
2158 wait_reshape(sra);
2159
2160 if (st->ss->external) {
2161 /* Re-load the metadata as much could have changed */
2162 int cfd = open_dev(st->container_dev);
2163 if (cfd >= 0) {
2164 ping_monitor(container);
2165 st->ss->free_super(st);
2166 st->ss->load_container(st, cfd, container);
2167 close(cfd);
2168 }
2169 }
2170
2171 /* set new array size if required customer_array_size is used
2172 * by this metadata.
2173 */
2174 if (reshape.before.data_disks !=
2175 reshape.after.data_disks &&
2176 info->custom_array_size) {
2177 struct mdinfo *info2;
2178 char *subarray = strchr(info->text_version+1, '/')+1;
2179
2180 info2 = st->ss->container_content(st, subarray);
2181 if (info2) {
2182 unsigned long long current_size = 0;
2183 unsigned long long new_size =
2184 info2->custom_array_size/2;
2185
2186 if (sysfs_get_ll(sra,
2187 NULL,
2188 "array_size",
2189 &current_size) == 0 &&
2190 new_size > current_size) {
2191 if (sysfs_set_num(sra, NULL,
2192 "array_size", new_size)
2193 < 0)
2194 dprintf("Error: Cannot"
2195 " set array size");
2196 else
2197 dprintf("Array size "
2198 "changed");
2199 dprintf(" from %llu to %llu.\n",
2200 current_size, new_size);
2201 }
2202 sysfs_free(info2);
2203 }
2204 }
2205
2206 if (info->new_level != reshape.level) {
2207
2208 c = map_num(pers, info->new_level);
2209 if (c) {
2210 err = sysfs_set_str(sra, NULL, "level", c);
2211 if (err)
2212 fprintf(stderr, Name\
2213 ": %s: could not set level "
2214 "to %s\n", devname, c);
2215 }
2216 }
2217 out:
2218 if (forked)
2219 return 0;
2220 unfreeze(st);
2221 exit(0);
2222
2223 release:
2224 if (orig_level != UnSet && sra) {
2225 c = map_num(pers, orig_level);
2226 if (c && sysfs_set_str(sra, NULL, "level", c) == 0)
2227 fprintf(stderr, Name ": aborting level change\n");
2228 }
2229 if (!forked)
2230 unfreeze(st);
2231 return 1;
2232 }
2233
2234 int reshape_container(char *container, char *devname,
2235 struct supertype *st,
2236 struct mdinfo *info,
2237 int force,
2238 char *backup_file,
2239 int quiet, int restart)
2240 {
2241 struct mdinfo *cc = NULL;
2242 int rv = restart;
2243
2244 /* component_size is not meaningful for a container,
2245 * so pass '-1' meaning 'no change'
2246 */
2247 if (!restart &&
2248 reshape_super(st, -1, info->new_level,
2249 info->new_layout, info->new_chunk,
2250 info->array.raid_disks, info->delta_disks,
2251 backup_file, devname, quiet)) {
2252 unfreeze(st);
2253 return 1;
2254 }
2255
2256 sync_metadata(st);
2257
2258 /* ping monitor to be sure that update is on disk
2259 */
2260 ping_monitor(container);
2261
2262 switch (fork()) {
2263 case -1: /* error */
2264 perror("Cannot fork to complete reshape\n");
2265 unfreeze(st);
2266 return 1;
2267 default: /* parent */
2268 printf(Name ": multi-array reshape continues in background\n");
2269 return 0;
2270 case 0: /* child */
2271 break;
2272 }
2273
2274 while(1) {
2275 /* For each member array with reshape_active,
2276 * we need to perform the reshape.
2277 * We pick the first array that needs reshaping and
2278 * reshape it. reshape_array() will re-read the metadata
2279 * so the next time through a different array should be
2280 * ready for reshape.
2281 * It is possible that the 'different' array will not
2282 * be assembled yet. In that case we simple exit.
2283 * When it is assembled, the mdadm which assembles it
2284 * will take over the reshape.
2285 */
2286 struct mdinfo *content;
2287 int fd;
2288 struct mdstat_ent *mdstat;
2289 char *adev;
2290
2291 sysfs_free(cc);
2292
2293 cc = st->ss->container_content(st, NULL);
2294
2295 for (content = cc; content ; content = content->next) {
2296 char *subarray;
2297 if (!content->reshape_active)
2298 continue;
2299
2300 subarray = strchr(content->text_version+1, '/')+1;
2301 mdstat = mdstat_by_subdev(subarray,
2302 devname2devnum(container));
2303 if (!mdstat)
2304 continue;
2305 break;
2306 }
2307 if (!content)
2308 break;
2309
2310 fd = open_dev(mdstat->devnum);
2311 if (fd < 0)
2312 break;
2313 adev = map_dev(dev2major(mdstat->devnum),
2314 dev2minor(mdstat->devnum),
2315 0);
2316 if (!adev)
2317 adev = content->text_version;
2318
2319 sysfs_init(content, fd, mdstat->devnum);
2320
2321 rv = reshape_array(container, fd, adev, st,
2322 content, force, NULL,
2323 backup_file, quiet, 1, restart);
2324 close(fd);
2325 restart = 0;
2326 if (rv)
2327 break;
2328 }
2329 if (!rv)
2330 unfreeze(st);
2331 sysfs_free(cc);
2332 exit(0);
2333 }
2334
2335 /*
2336 * We run a child process in the background which performs the following
2337 * steps:
2338 * - wait for resync to reach a certain point
2339 * - suspend io to the following section
2340 * - backup that section
2341 * - allow resync to proceed further
2342 * - resume io
2343 * - discard the backup.
2344 *
2345 * When are combined in slightly different ways in the three cases.
2346 * Grow:
2347 * - suspend/backup/allow/wait/resume/discard
2348 * Shrink:
2349 * - allow/wait/suspend/backup/allow/wait/resume/discard
2350 * same-size:
2351 * - wait/resume/discard/suspend/backup/allow
2352 *
2353 * suspend/backup/allow always come together
2354 * wait/resume/discard do too.
2355 * For the same-size case we have two backups to improve flow.
2356 *
2357 */
2358
2359 int progress_reshape(struct mdinfo *info, struct reshape *reshape,
2360 unsigned long long backup_point,
2361 unsigned long long wait_point,
2362 unsigned long long *suspend_point,
2363 unsigned long long *reshape_completed)
2364 {
2365 /* This function is called repeatedly by the reshape manager.
2366 * It determines how much progress can safely be made and allows
2367 * that progress.
2368 * - 'info' identifies the array and particularly records in
2369 * ->reshape_progress the metadata's knowledge of progress
2370 * This is a sector offset from the start of the array
2371 * of the next array block to be relocated. This number
2372 * may increase from 0 or decrease from array_size, depending
2373 * on the type of reshape that is happening.
2374 * Note that in contrast, 'sync_completed' is a block count of the
2375 * reshape so far. It gives the distance between the start point
2376 * (head or tail of device) and the next place that data will be
2377 * written. It always increases.
2378 * - 'reshape' is the structure created by analyse_change
2379 * - 'backup_point' shows how much the metadata manager has backed-up
2380 * data. For reshapes with increasing progress, it is the next address
2381 * to be backed up, previous addresses have been backed-up. For
2382 * decreasing progress, it is the earliest address that has been
2383 * backed up - later address are also backed up.
2384 * So addresses between reshape_progress and backup_point are
2385 * backed up providing those are in the 'correct' order.
2386 * - 'wait_point' is an array address. When reshape_completed
2387 * passes this point, progress_reshape should return. It might
2388 * return earlier if it determines that ->reshape_progress needs
2389 * to be updated or further backup is needed.
2390 * - suspend_point is maintained by progress_reshape and the caller
2391 * should not touch it except to initialise to zero.
2392 * It is an array address and it only increases in 2.6.37 and earlier.
2393 * This makes it difficult to handle reducing reshapes with
2394 * external metadata.
2395 * However: it is similar to backup_point in that it records the
2396 * other end of a suspended region from reshape_progress.
2397 * it is moved to extend the region that is safe to backup and/or
2398 * reshape
2399 * - reshape_completed is read from sysfs and returned. The caller
2400 * should copy this into ->reshape_progress when it has reason to
2401 * believe that the metadata knows this, and any backup outside this
2402 * has been erased.
2403 *
2404 * Return value is:
2405 * 1 if more data from backup_point - but only as far as suspend_point,
2406 * should be backed up
2407 * 0 if things are progressing smoothly
2408 * -1 if the reshape is finished because it is all done,
2409 * -2 if the reshape is finished due to an error.
2410 */
2411
2412 int advancing = (reshape->after.data_disks
2413 >= reshape->before.data_disks);
2414 unsigned long long need_backup; /* All data between start of array and
2415 * here will at some point need to
2416 * be backed up.
2417 */
2418 unsigned long long read_offset, write_offset;
2419 unsigned long long write_range;
2420 unsigned long long max_progress, target, completed;
2421 unsigned long long array_size = (info->component_size
2422 * reshape->before.data_disks);
2423 int fd;
2424 char buf[20];
2425
2426 /* First, we unsuspend any region that is now known to be safe.
2427 * If suspend_point is on the 'wrong' side of reshape_progress, then
2428 * we don't have or need suspension at the moment. This is true for
2429 * native metadata when we don't need to back-up.
2430 */
2431 if (advancing) {
2432 if (info->reshape_progress <= *suspend_point)
2433 sysfs_set_num(info, NULL, "suspend_lo",
2434 info->reshape_progress);
2435 } else {
2436 /* Note: this won't work in 2.6.37 and before.
2437 * Something somewhere should make sure we don't need it!
2438 */
2439 if (info->reshape_progress >= *suspend_point)
2440 sysfs_set_num(info, NULL, "suspend_hi",
2441 info->reshape_progress);
2442 }
2443
2444 /* Now work out how far it is safe to progress.
2445 * If the read_offset for ->reshape_progress is less than
2446 * 'blocks' beyond the write_offset, we can only progress as far
2447 * as a backup.
2448 * Otherwise we can progress until the write_offset for the new location
2449 * reaches (within 'blocks' of) the read_offset at the current location.
2450 * However that region must be suspended unless we are using native
2451 * metadata.
2452 * If we need to suspend more, we limit it to 128M per device, which is
2453 * rather arbitrary and should be some time-based calculation.
2454 */
2455 read_offset = info->reshape_progress / reshape->before.data_disks;
2456 write_offset = info->reshape_progress / reshape->after.data_disks;
2457 write_range = info->new_chunk/512;
2458 if (reshape->before.data_disks == reshape->after.data_disks)
2459 need_backup = array_size;
2460 else
2461 need_backup = reshape->backup_blocks;
2462 if (advancing) {
2463 if (read_offset < write_offset + write_range)
2464 max_progress = backup_point;
2465 else
2466 max_progress =
2467 read_offset *
2468 reshape->after.data_disks;
2469 } else {
2470 if (read_offset > write_offset - write_range)
2471 /* Can only progress as far as has been backed up,
2472 * which must be suspended */
2473 max_progress = backup_point;
2474 else if (info->reshape_progress <= need_backup)
2475 max_progress = backup_point;
2476 else {
2477 if (info->array.major_version >= 0)
2478 /* Can progress until backup is needed */
2479 max_progress = need_backup;
2480 else {
2481 /* Can progress until metadata update is required */
2482 max_progress =
2483 read_offset *
2484 reshape->after.data_disks;
2485 /* but data must be suspended */
2486 if (max_progress < *suspend_point)
2487 max_progress = *suspend_point;
2488 }
2489 }
2490 }
2491
2492 /* We know it is safe to progress to 'max_progress' providing
2493 * it is suspended or we are using native metadata.
2494 * Consider extending suspend_point 128M per device if it
2495 * is less than 64M per device beyond reshape_progress.
2496 * But always do a multiple of 'blocks'
2497 * FIXME this is too big - it takes to long to complete
2498 * this much.
2499 */
2500 target = 64*1024*2 * min(reshape->before.data_disks,
2501 reshape->after.data_disks);
2502 target /= reshape->backup_blocks;
2503 if (target < 2)
2504 target = 2;
2505 target *= reshape->backup_blocks;
2506
2507 /* For externally managed metadata we always need to suspend IO to
2508 * the area being reshaped so we regularly push suspend_point forward.
2509 * For native metadata we only need the suspend if we are going to do
2510 * a backup.
2511 */
2512 if (advancing) {
2513 if ((need_backup > info->reshape_progress
2514 || info->array.major_version < 0) &&
2515 *suspend_point < info->reshape_progress + target) {
2516 if (need_backup < *suspend_point + 2 * target)
2517 *suspend_point = need_backup;
2518 else if (*suspend_point + 2 * target < array_size)
2519 *suspend_point += 2 * target;
2520 else
2521 *suspend_point = array_size;
2522 sysfs_set_num(info, NULL, "suspend_hi", *suspend_point);
2523 if (max_progress > *suspend_point)
2524 max_progress = *suspend_point;
2525 }
2526 } else {
2527 if (info->array.major_version >= 0) {
2528 /* Only need to suspend when about to backup */
2529 if (info->reshape_progress < need_backup * 2 &&
2530 *suspend_point > 0) {
2531 *suspend_point = 0;
2532 sysfs_set_num(info, NULL, "suspend_lo", 0);
2533 sysfs_set_num(info, NULL, "suspend_hi", need_backup);
2534 }
2535 } else {
2536 /* Need to suspend continually */
2537 if (info->reshape_progress < *suspend_point)
2538 *suspend_point = info->reshape_progress;
2539 if (*suspend_point + target < info->reshape_progress)
2540 /* No need to move suspend region yet */;
2541 else {
2542 if (*suspend_point >= 2 * target)
2543 *suspend_point -= 2 * target;
2544 else
2545 *suspend_point = 0;
2546 sysfs_set_num(info, NULL, "suspend_lo",
2547 *suspend_point);
2548 }
2549 if (max_progress < *suspend_point)
2550 max_progress = *suspend_point;
2551 }
2552 }
2553
2554 /* now set sync_max to allow that progress. sync_max, like
2555 * sync_completed is a count of sectors written per device, so
2556 * we find the difference between max_progress and the start point,
2557 * and divide that by after.data_disks to get a sync_max
2558 * number.
2559 * At the same time we convert wait_point to a similar number
2560 * for comparing against sync_completed.
2561 */
2562 /* scale down max_progress to per_disk */
2563 max_progress /= reshape->after.data_disks;
2564 /* Round to chunk size as some kernels give an erroneously high number */
2565 max_progress /= info->new_chunk/512;
2566 max_progress *= info->new_chunk/512;
2567 /* And round to old chunk size as the kernel wants that */
2568 max_progress /= info->array.chunk_size/512;
2569 max_progress *= info->array.chunk_size/512;
2570 /* Limit progress to the whole device */
2571 if (max_progress > info->component_size)
2572 max_progress = info->component_size;
2573 wait_point /= reshape->after.data_disks;
2574 if (!advancing) {
2575 /* switch from 'device offset' to 'processed block count' */
2576 max_progress = info->component_size - max_progress;
2577 wait_point = info->component_size - wait_point;
2578 }
2579
2580 sysfs_set_num(info, NULL, "sync_max", max_progress);
2581
2582 /* Now wait. If we have already reached the point that we were
2583 * asked to wait to, don't wait at all, else wait for any change.
2584 * We need to select on 'sync_completed' as that is the place that
2585 * notifications happen, but we are really interested in
2586 * 'reshape_position'
2587 */
2588 fd = sysfs_get_fd(info, NULL, "sync_completed");
2589 if (fd < 0)
2590 goto check_progress;
2591
2592 if (sysfs_fd_get_ll(fd, &completed) < 0) {
2593 close(fd);
2594 goto check_progress;
2595 }
2596 while (completed < max_progress && completed < wait_point) {
2597 /* Check that sync_action is still 'reshape' to avoid
2598 * waiting forever on a dead array
2599 */
2600 char action[20];
2601 fd_set rfds;
2602 if (sysfs_get_str(info, NULL, "sync_action",
2603 action, 20) <= 0 ||
2604 strncmp(action, "reshape", 7) != 0)
2605 break;
2606 /* Some kernels reset 'sync_completed' to zero
2607 * before setting 'sync_action' to 'idle'.
2608 * So we need these extra tests.
2609 */
2610 if (completed == 0 && advancing
2611 && info->reshape_progress > 0)
2612 break;
2613 if (completed == 0 && !advancing
2614 && info->reshape_progress < (info->component_size
2615 * reshape->after.data_disks))
2616 break;
2617 FD_ZERO(&rfds);
2618 FD_SET(fd, &rfds);
2619 select(fd+1, NULL, NULL, &rfds, NULL);
2620 if (sysfs_fd_get_ll(fd, &completed) < 0) {
2621 close(fd);
2622 goto check_progress;
2623 }
2624 }
2625 /* Some kernels reset 'sync_completed' to zero,
2626 * we need to have real point we are in md
2627 */
2628 if (completed == 0)
2629 completed = max_progress;
2630
2631 /* some kernels can give an incorrectly high 'completed' number */
2632 completed /= (info->new_chunk/512);
2633 completed *= (info->new_chunk/512);
2634 /* Convert 'completed' back in to a 'progress' number */
2635 completed *= reshape->after.data_disks;
2636 if (!advancing) {
2637 completed = info->component_size * reshape->after.data_disks
2638 - completed;
2639 }
2640 *reshape_completed = completed;
2641
2642 close(fd);
2643
2644 /* We return the need_backup flag. Caller will decide
2645 * how much - a multiple of ->backup_blocks up to *suspend_point
2646 */
2647 if (advancing)
2648 return need_backup > info->reshape_progress;
2649 else
2650 return need_backup >= info->reshape_progress;
2651
2652 check_progress:
2653 /* if we couldn't read a number from sync_completed, then
2654 * either the reshape did complete, or it aborted.
2655 * We can tell which by checking for 'none' in reshape_position.
2656 */
2657 strcpy(buf, "hi");
2658 if (sysfs_get_str(info, NULL, "reshape_position", buf, sizeof(buf)) < 0
2659 || strncmp(buf, "none", 4) != 0)
2660 return -2; /* abort */
2661 else {
2662 /* Maybe racing with array shutdown - check state */
2663 if (sysfs_get_str(info, NULL, "array_state", buf, sizeof(buf)) < 0
2664 || strncmp(buf, "inactive", 8) == 0
2665 || strncmp(buf, "clear",5) == 0)
2666 return -2; /* abort */
2667 return -1; /* complete */
2668 }
2669 }
2670
2671
2672 /* FIXME return status is never checked */
2673 static int grow_backup(struct mdinfo *sra,
2674 unsigned long long offset, /* per device */
2675 unsigned long stripes, /* per device, in old chunks */
2676 int *sources, unsigned long long *offsets,
2677 int disks, int chunk, int level, int layout,
2678 int dests, int *destfd, unsigned long long *destoffsets,
2679 int part, int *degraded,
2680 char *buf)
2681 {
2682 /* Backup 'blocks' sectors at 'offset' on each device of the array,
2683 * to storage 'destfd' (offset 'destoffsets'), after first
2684 * suspending IO. Then allow resync to continue
2685 * over the suspended section.
2686 * Use part 'part' of the backup-super-block.
2687 */
2688 int odata = disks;
2689 int rv = 0;
2690 int i;
2691 unsigned long long ll;
2692 int new_degraded;
2693 //printf("offset %llu\n", offset);
2694 if (level >= 4)
2695 odata--;
2696 if (level == 6)
2697 odata--;
2698
2699 /* Check that array hasn't become degraded, else we might backup the wrong data */
2700 if (sysfs_get_ll(sra, NULL, "degraded", &ll) < 0)
2701 return -1; /* FIXME this error is ignored */
2702 new_degraded = (int)ll;
2703 if (new_degraded != *degraded) {
2704 /* check each device to ensure it is still working */
2705 struct mdinfo *sd;
2706 for (sd = sra->devs ; sd ; sd = sd->next) {
2707 if (sd->disk.state & (1<<MD_DISK_FAULTY))
2708 continue;
2709 if (sd->disk.state & (1<<MD_DISK_SYNC)) {
2710 char sbuf[20];
2711 if (sysfs_get_str(sra, sd, "state", sbuf, 20) < 0 ||
2712 strstr(sbuf, "faulty") ||
2713 strstr(sbuf, "in_sync") == NULL) {
2714 /* this device is dead */
2715 sd->disk.state = (1<<MD_DISK_FAULTY);
2716 if (sd->disk.raid_disk >= 0 &&
2717 sources[sd->disk.raid_disk] >= 0) {
2718 close(sources[sd->disk.raid_disk]);
2719 sources[sd->disk.raid_disk] = -1;
2720 }
2721 }
2722 }
2723 }
2724 *degraded = new_degraded;
2725 }
2726 if (part) {
2727 bsb.arraystart2 = __cpu_to_le64(offset * odata);
2728 bsb.length2 = __cpu_to_le64(stripes * (chunk/512) * odata);
2729 } else {
2730 bsb.arraystart = __cpu_to_le64(offset * odata);
2731 bsb.length = __cpu_to_le64(stripes * (chunk/512) * odata);
2732 }
2733 if (part)
2734 bsb.magic[15] = '2';
2735 for (i = 0; i < dests; i++)
2736 if (part)
2737 lseek64(destfd[i], destoffsets[i] + __le64_to_cpu(bsb.devstart2)*512, 0);
2738 else
2739 lseek64(destfd[i], destoffsets[i], 0);
2740
2741 rv = save_stripes(sources, offsets,
2742 disks, chunk, level, layout,
2743 dests, destfd,
2744 offset*512*odata, stripes * chunk * odata,
2745 buf);
2746
2747 if (rv)
2748 return rv;
2749 bsb.mtime = __cpu_to_le64(time(0));
2750 for (i = 0; i < dests; i++) {
2751 bsb.devstart = __cpu_to_le64(destoffsets[i]/512);
2752
2753 bsb.sb_csum = bsb_csum((char*)&bsb, ((char*)&bsb.sb_csum)-((char*)&bsb));
2754 if (memcmp(bsb.magic, "md_backup_data-2", 16) == 0)
2755 bsb.sb_csum2 = bsb_csum((char*)&bsb,
2756 ((char*)&bsb.sb_csum2)-((char*)&bsb));
2757
2758 rv = -1;
2759 if ((unsigned long long)lseek64(destfd[i], destoffsets[i] - 4096, 0)
2760 != destoffsets[i] - 4096)
2761 break;
2762 if (write(destfd[i], &bsb, 512) != 512)
2763 break;
2764 if (destoffsets[i] > 4096) {
2765 if ((unsigned long long)lseek64(destfd[i], destoffsets[i]+stripes*chunk*odata, 0) !=
2766 destoffsets[i]+stripes*chunk*odata)
2767 break;
2768 if (write(destfd[i], &bsb, 512) != 512)
2769 break;
2770 }
2771 fsync(destfd[i]);
2772 rv = 0;
2773 }
2774
2775 return rv;
2776 }
2777
2778 /* in 2.6.30, the value reported by sync_completed can be
2779 * less that it should be by one stripe.
2780 * This only happens when reshape hits sync_max and pauses.
2781 * So allow wait_backup to either extent sync_max further
2782 * than strictly necessary, or return before the
2783 * sync has got quite as far as we would really like.
2784 * This is what 'blocks2' is for.
2785 * The various caller give appropriate values so that
2786 * every works.
2787 */
2788 /* FIXME return value is often ignored */
2789 static int forget_backup(
2790 int dests, int *destfd, unsigned long long *destoffsets,
2791 int part)
2792 {
2793 /*
2794 * Erase backup 'part' (which is 0 or 1)
2795 */
2796 int i;
2797 int rv;
2798
2799 if (part) {
2800 bsb.arraystart2 = __cpu_to_le64(0);
2801 bsb.length2 = __cpu_to_le64(0);
2802 } else {
2803 bsb.arraystart = __cpu_to_le64(0);
2804 bsb.length = __cpu_to_le64(0);
2805 }
2806 bsb.mtime = __cpu_to_le64(time(0));
2807 rv = 0;
2808 for (i = 0; i < dests; i++) {
2809 bsb.devstart = __cpu_to_le64(destoffsets[i]/512);
2810 bsb.sb_csum = bsb_csum((char*)&bsb, ((char*)&bsb.sb_csum)-((char*)&bsb));
2811 if (memcmp(bsb.magic, "md_backup_data-2", 16) == 0)
2812 bsb.sb_csum2 = bsb_csum((char*)&bsb,
2813 ((char*)&bsb.sb_csum2)-((char*)&bsb));
2814 if ((unsigned long long)lseek64(destfd[i], destoffsets[i]-4096, 0) !=
2815 destoffsets[i]-4096)
2816 rv = -1;
2817 if (rv == 0 &&
2818 write(destfd[i], &bsb, 512) != 512)
2819 rv = -1;
2820 fsync(destfd[i]);
2821 }
2822 return rv;
2823 }
2824
2825 static void fail(char *msg)
2826 {
2827 int rv;
2828 rv = (write(2, msg, strlen(msg)) != (int)strlen(msg));
2829 rv |= (write(2, "\n", 1) != 1);
2830 exit(rv ? 1 : 2);
2831 }
2832
2833 static char *abuf, *bbuf;
2834 static unsigned long long abuflen;
2835 static void validate(int afd, int bfd, unsigned long long offset)
2836 {
2837 /* check that the data in the backup against the array.
2838 * This is only used for regression testing and should not
2839 * be used while the array is active
2840 */
2841 if (afd < 0)
2842 return;
2843 lseek64(bfd, offset - 4096, 0);
2844 if (read(bfd, &bsb2, 512) != 512)
2845 fail("cannot read bsb");
2846 if (bsb2.sb_csum != bsb_csum((char*)&bsb2,
2847 ((char*)&bsb2.sb_csum)-((char*)&bsb2)))
2848 fail("first csum bad");
2849 if (memcmp(bsb2.magic, "md_backup_data", 14) != 0)
2850 fail("magic is bad");
2851 if (memcmp(bsb2.magic, "md_backup_data-2", 16) == 0 &&
2852 bsb2.sb_csum2 != bsb_csum((char*)&bsb2,
2853 ((char*)&bsb2.sb_csum2)-((char*)&bsb2)))
2854 fail("second csum bad");
2855
2856 if (__le64_to_cpu(bsb2.devstart)*512 != offset)
2857 fail("devstart is wrong");
2858
2859 if (bsb2.length) {
2860 unsigned long long len = __le64_to_cpu(bsb2.length)*512;
2861
2862 if (abuflen < len) {
2863 free(abuf);
2864 free(bbuf);
2865 abuflen = len;
2866 if (posix_memalign((void**)&abuf, 4096, abuflen) ||
2867 posix_memalign((void**)&bbuf, 4096, abuflen)) {
2868 abuflen = 0;
2869 /* just stop validating on mem-alloc failure */
2870 return;
2871 }
2872 }
2873
2874 lseek64(bfd, offset, 0);
2875 if ((unsigned long long)read(bfd, bbuf, len) != len) {
2876 //printf("len %llu\n", len);
2877 fail("read first backup failed");
2878 }
2879 lseek64(afd, __le64_to_cpu(bsb2.arraystart)*512, 0);
2880 if ((unsigned long long)read(afd, abuf, len) != len)
2881 fail("read first from array failed");
2882 if (memcmp(bbuf, abuf, len) != 0) {
2883 #if 0
2884 int i;
2885 printf("offset=%llu len=%llu\n",
2886 (unsigned long long)__le64_to_cpu(bsb2.arraystart)*512, len);
2887 for (i=0; i<len; i++)
2888 if (bbuf[i] != abuf[i]) {
2889 printf("first diff byte %d\n", i);
2890 break;
2891 }
2892 #endif
2893 fail("data1 compare failed");
2894 }
2895 }
2896 if (bsb2.length2) {
2897 unsigned long long len = __le64_to_cpu(bsb2.length2)*512;
2898
2899 if (abuflen < len) {
2900 free(abuf);
2901 free(bbuf);
2902 abuflen = len;
2903 abuf = malloc(abuflen);
2904 bbuf = malloc(abuflen);
2905 }
2906
2907 lseek64(bfd, offset+__le64_to_cpu(bsb2.devstart2)*512, 0);
2908 if ((unsigned long long)read(bfd, bbuf, len) != len)
2909 fail("read second backup failed");
2910 lseek64(afd, __le64_to_cpu(bsb2.arraystart2)*512, 0);
2911 if ((unsigned long long)read(afd, abuf, len) != len)
2912 fail("read second from array failed");
2913 if (memcmp(bbuf, abuf, len) != 0)
2914 fail("data2 compare failed");
2915 }
2916 }
2917
2918 int child_monitor(int afd, struct mdinfo *sra, struct reshape *reshape,
2919 struct supertype *st, unsigned long blocks,
2920 int *fds, unsigned long long *offsets,
2921 int dests, int *destfd, unsigned long long *destoffsets)
2922 {
2923 /* Monitor a reshape where backup is being performed using
2924 * 'native' mechanism - either to a backup file, or
2925 * to some space in a spare.
2926 */
2927 char *buf;
2928 int degraded = -1;
2929 unsigned long long speed;
2930 unsigned long long suspend_point, array_size;
2931 unsigned long long backup_point, wait_point;
2932 unsigned long long reshape_completed;
2933 int done = 0;
2934 int increasing = reshape->after.data_disks >= reshape->before.data_disks;
2935 int part = 0; /* The next part of the backup area to fill. It may already
2936 * be full, so we need to check */
2937 int level = reshape->level;
2938 int layout = reshape->before.layout;
2939 int data = reshape->before.data_disks;
2940 int disks = reshape->before.data_disks + reshape->parity;
2941 int chunk = sra->array.chunk_size;
2942 struct mdinfo *sd;
2943 unsigned long stripes;
2944
2945 /* set up the backup-super-block. This requires the
2946 * uuid from the array.
2947 */
2948 /* Find a superblock */
2949 for (sd = sra->devs; sd; sd = sd->next) {
2950 char *dn;
2951 int devfd;
2952 int ok;
2953 if (sd->disk.state & (1<<MD_DISK_FAULTY))
2954 continue;
2955 dn = map_dev(sd->disk.major, sd->disk.minor, 1);
2956 devfd = dev_open(dn, O_RDONLY);
2957 if (devfd < 0)
2958 continue;
2959 ok = st->ss->load_super(st, devfd, NULL);
2960 close(devfd);
2961 if (ok == 0)
2962 break;
2963 }
2964 if (!sd) {
2965 fprintf(stderr, Name ": Cannot find a superblock\n");
2966 return 0;
2967 }
2968
2969 memset(&bsb, 0, 512);
2970 memcpy(bsb.magic, "md_backup_data-1", 16);
2971 st->ss->uuid_from_super(st, (int*)&bsb.set_uuid);
2972 bsb.mtime = __cpu_to_le64(time(0));
2973 bsb.devstart2 = blocks;
2974
2975 stripes = blocks / (sra->array.chunk_size/512) /
2976 reshape->before.data_disks;
2977
2978 if (posix_memalign((void**)&buf, 4096, disks * chunk))
2979 /* Don't start the 'reshape' */
2980 return 0;
2981 if (reshape->before.data_disks == reshape->after.data_disks) {
2982 sysfs_get_ll(sra, NULL, "sync_speed_min", &speed);
2983 sysfs_set_num(sra, NULL, "sync_speed_min", 200000);
2984 }
2985
2986 if (increasing) {
2987 array_size = sra->component_size * reshape->after.data_disks;
2988 backup_point = sra->reshape_progress;
2989 suspend_point = 0;
2990 } else {
2991 array_size = sra->component_size * reshape->before.data_disks;
2992 backup_point = reshape->backup_blocks;
2993 suspend_point = array_size;
2994 }
2995
2996 while (!done) {
2997 int rv;
2998
2999 /* Want to return as soon the oldest backup slot can
3000 * be released as that allows us to start backing up
3001 * some more, providing suspend_point has been
3002 * advanced, which it should have.
3003 */
3004 if (increasing) {
3005 wait_point = array_size;
3006 if (part == 0 && __le64_to_cpu(bsb.length) > 0)
3007 wait_point = (__le64_to_cpu(bsb.arraystart) +
3008 __le64_to_cpu(bsb.length));
3009 if (part == 1 && __le64_to_cpu(bsb.length2) > 0)
3010 wait_point = (__le64_to_cpu(bsb.arraystart2) +
3011 __le64_to_cpu(bsb.length2));
3012 } else {
3013 wait_point = 0;
3014 if (part == 0 && __le64_to_cpu(bsb.length) > 0)
3015 wait_point = __le64_to_cpu(bsb.arraystart);
3016 if (part == 1 && __le64_to_cpu(bsb.length2) > 0)
3017 wait_point = __le64_to_cpu(bsb.arraystart2);
3018 }
3019
3020 rv = progress_reshape(sra, reshape,
3021 backup_point, wait_point,
3022 &suspend_point, &reshape_completed);
3023 /* external metadata would need to ping_monitor here */
3024 sra->reshape_progress = reshape_completed;
3025
3026 /* Clear any backup region that is before 'here' */
3027 if (increasing) {
3028 if (__le64_to_cpu(bsb.length) > 0 &&
3029 reshape_completed >= (__le64_to_cpu(bsb.arraystart) +
3030 __le64_to_cpu(bsb.length)))
3031 forget_backup(dests, destfd,
3032 destoffsets, 0);
3033 if (__le64_to_cpu(bsb.length2) > 0 &&
3034 reshape_completed >= (__le64_to_cpu(bsb.arraystart2) +
3035 __le64_to_cpu(bsb.length2)))
3036 forget_backup(dests, destfd,
3037 destoffsets, 1);
3038 } else {
3039 if (__le64_to_cpu(bsb.length) > 0 &&
3040 reshape_completed <= (__le64_to_cpu(bsb.arraystart)))
3041 forget_backup(dests, destfd,
3042 destoffsets, 0);
3043 if (__le64_to_cpu(bsb.length2) > 0 &&
3044 reshape_completed <= (__le64_to_cpu(bsb.arraystart2)))
3045 forget_backup(dests, destfd,
3046 destoffsets, 1);
3047 }
3048
3049 if (rv < 0) {
3050 if (rv == -1)
3051 done = 1;
3052 break;
3053 }
3054 if (rv == 0 && increasing && !st->ss->external) {
3055 /* No longer need to monitor this reshape */
3056 done = 1;
3057 break;
3058 }
3059
3060 while (rv) {
3061 unsigned long long offset;
3062 unsigned long actual_stripes;
3063 /* Need to backup some data.
3064 * If 'part' is not used and the desired
3065 * backup size is suspended, do a backup,
3066 * then consider the next part.
3067 */
3068 /* Check that 'part' is unused */
3069 if (part == 0 && __le64_to_cpu(bsb.length) != 0)
3070 break;
3071 if (part == 1 && __le64_to_cpu(bsb.length2) != 0)
3072 break;
3073
3074 offset = backup_point / data;
3075 actual_stripes = stripes;
3076 if (increasing) {
3077 if (offset + actual_stripes * (chunk/512) >
3078 sra->component_size)
3079 actual_stripes = ((sra->component_size - offset)
3080 / (chunk/512));
3081 if (offset + actual_stripes * (chunk/512) >
3082 suspend_point/data)
3083 break;
3084 } else {
3085 if (offset < actual_stripes * (chunk/512))
3086 actual_stripes = offset / (chunk/512);
3087 offset -= actual_stripes * (chunk/512);
3088 if (offset < suspend_point/data)
3089 break;
3090 }
3091 if (actual_stripes == 0)
3092 break;
3093 grow_backup(sra, offset, actual_stripes,
3094 fds, offsets,
3095 disks, chunk, level, layout,
3096 dests, destfd, destoffsets,
3097 part, &degraded, buf);
3098 validate(afd, destfd[0], destoffsets[0]);
3099 /* record where 'part' is up to */
3100 part = !part;
3101 if (increasing)
3102 backup_point += actual_stripes * (chunk/512) * data;
3103 else
3104 backup_point -= actual_stripes * (chunk/512) * data;
3105 }
3106 }
3107
3108 /* FIXME maybe call progress_reshape one more time instead */
3109 abort_reshape(sra); /* remove any remaining suspension */
3110 if (reshape->before.data_disks == reshape->after.data_disks)
3111 sysfs_set_num(sra, NULL, "sync_speed_min", speed);
3112 free(buf);
3113 return done;
3114 }
3115
3116 /*
3117 * If any spare contains md_back_data-1 which is recent wrt mtime,
3118 * write that data into the array and update the super blocks with
3119 * the new reshape_progress
3120 */
3121 int Grow_restart(struct supertype *st, struct mdinfo *info, int *fdlist, int cnt,
3122 char *backup_file, int verbose)
3123 {
3124 int i, j;
3125 int old_disks;
3126 unsigned long long *offsets;
3127 unsigned long long nstripe, ostripe;
3128 int ndata, odata;
3129
3130 odata = info->array.raid_disks - info->delta_disks - 1;
3131 if (info->array.level == 6) odata--; /* number of data disks */
3132 ndata = info->array.raid_disks - 1;
3133 if (info->new_level == 6) ndata--;
3134
3135 old_disks = info->array.raid_disks - info->delta_disks;
3136
3137 if (info->delta_disks <= 0)
3138 /* Didn't grow, so the backup file must have
3139 * been used
3140 */
3141 old_disks = cnt;
3142 for (i=old_disks-(backup_file?1:0); i<cnt; i++) {
3143 struct mdinfo dinfo;
3144 int fd;
3145 int bsbsize;
3146 char *devname, namebuf[20];
3147 unsigned long long lo, hi;
3148
3149 /* This was a spare and may have some saved data on it.
3150 * Load the superblock, find and load the
3151 * backup_super_block.
3152 * If either fail, go on to next device.
3153 * If the backup contains no new info, just return
3154 * else restore data and update all superblocks
3155 */
3156 if (i == old_disks-1) {
3157 fd = open(backup_file, O_RDONLY);
3158 if (fd<0) {
3159 fprintf(stderr, Name ": backup file %s inaccessible: %s\n",
3160 backup_file, strerror(errno));
3161 continue;
3162 }
3163 devname = backup_file;
3164 } else {
3165 fd = fdlist[i];
3166 if (fd < 0)
3167 continue;
3168 if (st->ss->load_super(st, fd, NULL))
3169 continue;
3170
3171 st->ss->getinfo_super(st, &dinfo, NULL);
3172 st->ss->free_super(st);
3173
3174 if (lseek64(fd,
3175 (dinfo.data_offset + dinfo.component_size - 8) <<9,
3176 0) < 0) {
3177 fprintf(stderr, Name ": Cannot seek on device %d\n", i);
3178 continue; /* Cannot seek */
3179 }
3180 sprintf(namebuf, "device-%d", i);
3181 devname = namebuf;
3182 }
3183 if (read(fd, &bsb, sizeof(bsb)) != sizeof(bsb)) {
3184 if (verbose)
3185 fprintf(stderr, Name ": Cannot read from %s\n", devname);
3186 continue; /* Cannot read */
3187 }
3188 if (memcmp(bsb.magic, "md_backup_data-1", 16) != 0 &&
3189 memcmp(bsb.magic, "md_backup_data-2", 16) != 0) {
3190 if (verbose)
3191 fprintf(stderr, Name ": No backup metadata on %s\n", devname);
3192 continue;
3193 }
3194 if (bsb.sb_csum != bsb_csum((char*)&bsb, ((char*)&bsb.sb_csum)-((char*)&bsb))) {
3195 if (verbose)
3196 fprintf(stderr, Name ": Bad backup-metadata checksum on %s\n", devname);
3197 continue; /* bad checksum */
3198 }
3199 if (memcmp(bsb.magic, "md_backup_data-2", 16) == 0 &&
3200 bsb.sb_csum2 != bsb_csum((char*)&bsb, ((char*)&bsb.sb_csum2)-((char*)&bsb))) {
3201 if (verbose)
3202 fprintf(stderr, Name ": Bad backup-metadata checksum2 on %s\n", devname);
3203 continue; /* Bad second checksum */
3204 }
3205 if (memcmp(bsb.set_uuid,info->uuid, 16) != 0) {
3206 if (verbose)
3207 fprintf(stderr, Name ": Wrong uuid on backup-metadata on %s\n", devname);
3208 continue; /* Wrong uuid */
3209 }
3210
3211 /* array utime and backup-mtime should be updated at much the same time, but it seems that
3212 * sometimes they aren't... So allow considerable flexability in matching, and allow
3213 * this test to be overridden by an environment variable.
3214 */
3215 if (info->array.utime > (int)__le64_to_cpu(bsb.mtime) + 2*60*60 ||
3216 info->array.utime < (int)__le64_to_cpu(bsb.mtime) - 10*60) {
3217 if (check_env("MDADM_GROW_ALLOW_OLD")) {
3218 fprintf(stderr, Name ": accepting backup with timestamp %lu "
3219 "for array with timestamp %lu\n",
3220 (unsigned long)__le64_to_cpu(bsb.mtime),
3221 (unsigned long)info->array.utime);
3222 } else {
3223 if (verbose)
3224 fprintf(stderr, Name ": too-old timestamp on "
3225 "backup-metadata on %s\n", devname);
3226 continue; /* time stamp is too bad */
3227 }
3228 }
3229
3230 if (bsb.magic[15] == '1') {
3231 if (bsb.length == 0)
3232 continue;
3233 if (info->delta_disks >= 0) {
3234 /* reshape_progress is increasing */
3235 if (__le64_to_cpu(bsb.arraystart)
3236 + __le64_to_cpu(bsb.length)
3237 < info->reshape_progress) {
3238 nonew:
3239 if (verbose)
3240 fprintf(stderr, Name
3241 ": backup-metadata found on %s but is not needed\n", devname);
3242 continue; /* No new data here */
3243 }
3244 } else {
3245 /* reshape_progress is decreasing */
3246 if (__le64_to_cpu(bsb.arraystart) >=
3247 info->reshape_progress)
3248 goto nonew; /* No new data here */
3249 }
3250 } else {
3251 if (bsb.length == 0 && bsb.length2 == 0)
3252 continue;
3253 if (info->delta_disks >= 0) {
3254 /* reshape_progress is increasing */
3255 if ((__le64_to_cpu(bsb.arraystart)
3256 + __le64_to_cpu(bsb.length)
3257 < info->reshape_progress)
3258 &&
3259 (__le64_to_cpu(bsb.arraystart2)
3260 + __le64_to_cpu(bsb.length2)
3261 < info->reshape_progress))
3262 goto nonew; /* No new data here */
3263 } else {
3264 /* reshape_progress is decreasing */
3265 if (__le64_to_cpu(bsb.arraystart) >=
3266 info->reshape_progress &&
3267 __le64_to_cpu(bsb.arraystart2) >=
3268 info->reshape_progress)
3269 goto nonew; /* No new data here */
3270 }
3271 }
3272 if (lseek64(fd, __le64_to_cpu(bsb.devstart)*512, 0)< 0) {
3273 second_fail:
3274 if (verbose)
3275 fprintf(stderr, Name
3276 ": Failed to verify secondary backup-metadata block on %s\n",
3277 devname);
3278 continue; /* Cannot seek */
3279 }
3280 /* There should be a duplicate backup superblock 4k before here */
3281 if (lseek64(fd, -4096, 1) < 0 ||
3282 read(fd, &bsb2, sizeof(bsb2)) != sizeof(bsb2))
3283 goto second_fail; /* Cannot find leading superblock */
3284 if (bsb.magic[15] == '1')
3285 bsbsize = offsetof(struct mdp_backup_super, pad1);
3286 else
3287 bsbsize = offsetof(struct mdp_backup_super, pad);
3288 if (memcmp(&bsb2, &bsb, bsbsize) != 0)
3289 goto second_fail; /* Cannot find leading superblock */
3290
3291 /* Now need the data offsets for all devices. */
3292 offsets = malloc(sizeof(*offsets)*info->array.raid_disks);
3293 for(j=0; j<info->array.raid_disks; j++) {
3294 if (fdlist[j] < 0)
3295 continue;
3296 if (st->ss->load_super(st, fdlist[j], NULL))
3297 /* FIXME should be this be an error */
3298 continue;
3299 st->ss->getinfo_super(st, &dinfo, NULL);
3300 st->ss->free_super(st);
3301 offsets[j] = dinfo.data_offset * 512;
3302 }
3303 printf(Name ": restoring critical section\n");
3304
3305 if (restore_stripes(fdlist, offsets,
3306 info->array.raid_disks,
3307 info->new_chunk,
3308 info->new_level,
3309 info->new_layout,
3310 fd, __le64_to_cpu(bsb.devstart)*512,
3311 __le64_to_cpu(bsb.arraystart)*512,
3312 __le64_to_cpu(bsb.length)*512)) {
3313 /* didn't succeed, so giveup */
3314 if (verbose)
3315 fprintf(stderr, Name ": Error restoring backup from %s\n",
3316 devname);
3317 return 1;
3318 }
3319
3320 if (bsb.magic[15] == '2' &&
3321 restore_stripes(fdlist, offsets,
3322 info->array.raid_disks,
3323 info->new_chunk,
3324 info->new_level,
3325 info->new_layout,
3326 fd, __le64_to_cpu(bsb.devstart)*512 +
3327 __le64_to_cpu(bsb.devstart2)*512,
3328 __le64_to_cpu(bsb.arraystart2)*512,
3329 __le64_to_cpu(bsb.length2)*512)) {
3330 /* didn't succeed, so giveup */
3331 if (verbose)
3332 fprintf(stderr, Name ": Error restoring second backup from %s\n",
3333 devname);
3334 return 1;
3335 }
3336
3337
3338 /* Ok, so the data is restored. Let's update those superblocks. */
3339
3340 lo = hi = 0;
3341 if (bsb.length) {
3342 lo = __le64_to_cpu(bsb.arraystart);
3343 hi = lo + __le64_to_cpu(bsb.length);
3344 }
3345 if (bsb.magic[15] == '2' && bsb.length2) {
3346 unsigned long long lo1, hi1;
3347 lo1 = __le64_to_cpu(bsb.arraystart2);
3348 hi1 = lo1 + __le64_to_cpu(bsb.length2);
3349 if (lo == hi) {
3350 lo = lo1;
3351 hi = hi1;
3352 } else if (lo < lo1)
3353 hi = hi1;
3354 else
3355 lo = lo1;
3356 }
3357 if (lo < hi &&
3358 (info->reshape_progress < lo ||
3359 info->reshape_progress > hi))
3360 /* backup does not affect reshape_progress*/ ;
3361 else if (info->delta_disks >= 0) {
3362 info->reshape_progress = __le64_to_cpu(bsb.arraystart) +
3363 __le64_to_cpu(bsb.length);
3364 if (bsb.magic[15] == '2') {
3365 unsigned long long p2 = __le64_to_cpu(bsb.arraystart2) +
3366 __le64_to_cpu(bsb.length2);
3367 if (p2 > info->reshape_progress)
3368 info->reshape_progress = p2;
3369 }
3370 } else {
3371 info->reshape_progress = __le64_to_cpu(bsb.arraystart);
3372 if (bsb.magic[15] == '2') {
3373 unsigned long long p2 = __le64_to_cpu(bsb.arraystart2);
3374 if (p2 < info->reshape_progress)
3375 info->reshape_progress = p2;
3376 }
3377 }
3378 for (j=0; j<info->array.raid_disks; j++) {
3379 if (fdlist[j] < 0) continue;
3380 if (st->ss->load_super(st, fdlist[j], NULL))
3381 continue;
3382 st->ss->getinfo_super(st, &dinfo, NULL);
3383 dinfo.reshape_progress = info->reshape_progress;
3384 st->ss->update_super(st, &dinfo,
3385 "_reshape_progress",
3386 NULL,0, 0, NULL);
3387 st->ss->store_super(st, fdlist[j]);
3388 st->ss->free_super(st);
3389 }
3390 return 0;
3391 }
3392 /* Didn't find any backup data, try to see if any
3393 * was needed.
3394 */
3395 if (info->delta_disks < 0) {
3396 /* When shrinking, the critical section is at the end.
3397 * So see if we are before the critical section.
3398 */
3399 unsigned long long first_block;
3400 nstripe = ostripe = 0;
3401 first_block = 0;
3402 while (ostripe >= nstripe) {
3403 ostripe += info->array.chunk_size / 512;
3404 first_block = ostripe * odata;
3405 nstripe = first_block / ndata / (info->new_chunk/512) *
3406 (info->new_chunk/512);
3407 }
3408
3409 if (info->reshape_progress >= first_block)
3410 return 0;
3411 }
3412 if (info->delta_disks > 0) {
3413 /* See if we are beyond the critical section. */
3414 unsigned long long last_block;
3415 nstripe = ostripe = 0;
3416 last_block = 0;
3417 while (nstripe >= ostripe) {
3418 nstripe += info->new_chunk / 512;
3419 last_block = nstripe * ndata;
3420 ostripe = last_block / odata / (info->array.chunk_size/512) *
3421 (info->array.chunk_size/512);
3422 }
3423
3424 if (info->reshape_progress >= last_block)
3425 return 0;
3426 }
3427 /* needed to recover critical section! */
3428 if (verbose)
3429 fprintf(stderr, Name ": Failed to find backup of critical section\n");
3430 return 1;
3431 }
3432
3433 int Grow_continue(int mdfd, struct supertype *st, struct mdinfo *info,
3434 char *backup_file)
3435 {
3436 char buf[40];
3437 char *container = NULL;
3438 int err;
3439
3440 err = sysfs_set_str(info, NULL, "array_state", "readonly");
3441 if (err)
3442 return err;
3443 if (st->ss->external) {
3444 fmt_devname(buf, st->container_dev);
3445 container = buf;
3446 freeze(st);
3447
3448 if (!mdmon_running(st->container_dev))
3449 start_mdmon(st->container_dev);
3450 ping_monitor_by_id(st->container_dev);
3451
3452
3453 if (info->reshape_active == 2) {
3454 int cfd = open_dev(st->container_dev);
3455 if (cfd < 0)
3456 return 1;
3457 st->ss->load_container(st, cfd, container);
3458 close(cfd);
3459 return reshape_container(container, NULL,
3460 st, info, 0, backup_file,
3461 0, 1);
3462 }
3463 }
3464 return reshape_array(container, mdfd, "array", st, info, 1,
3465 NULL, backup_file, 0, 0, 1);
3466 }
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