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Manage.c
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Manage.c
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/*
* mdadm - manage Linux "md" devices aka RAID arrays.
*
* Copyright (C) 2001-2013 Neil Brown <[email protected]>
*
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
*
* Author: Neil Brown
* Email: <[email protected]>
*/
#include "mdadm.h"
#include "md_u.h"
#include "md_p.h"
#include <ctype.h>
int Manage_ro(char *devname, int fd, int readonly)
{
/* switch to readonly or rw
*
* requires >= 0.90.0
* first check that array is runing
* use RESTART_ARRAY_RW or STOP_ARRAY_RO
*
*/
struct mdinfo *mdi;
int rv = 0;
/* If this is an externally-managed array, we need to modify the
* metadata_version so that mdmon doesn't undo our change.
*/
mdi = sysfs_read(fd, NULL, GET_LEVEL|GET_VERSION);
if (mdi &&
mdi->array.major_version == -1 &&
is_subarray(mdi->text_version)) {
char vers[64];
strcpy(vers, "external:");
strcat(vers, mdi->text_version);
if (readonly > 0) {
int rv;
/* We set readonly ourselves. */
vers[9] = '-';
sysfs_set_str(mdi, NULL, "metadata_version", vers);
close(fd);
rv = sysfs_set_str(mdi, NULL, "array_state", "readonly");
if (rv < 0) {
pr_err("failed to set readonly for %s: %s\n",
devname, strerror(errno));
vers[9] = mdi->text_version[0];
sysfs_set_str(mdi, NULL, "metadata_version", vers);
rv = 1;
goto out;
}
} else {
char *cp;
/* We cannot set read/write - must signal mdmon */
vers[9] = '/';
sysfs_set_str(mdi, NULL, "metadata_version", vers);
cp = strchr(vers+10, '/');
if (cp)
*cp = 0;
ping_monitor(vers+10);
if (mdi->array.level <= 0)
sysfs_set_str(mdi, NULL, "array_state", "active");
}
goto out;
}
if (!md_array_active(fd)) {
pr_err("%s does not appear to be active.\n", devname);
rv = 1;
goto out;
}
if (readonly > 0) {
if (ioctl(fd, STOP_ARRAY_RO, NULL)) {
pr_err("failed to set readonly for %s: %s\n",
devname, strerror(errno));
rv = 1;
goto out;
}
} else if (readonly < 0) {
if (ioctl(fd, RESTART_ARRAY_RW, NULL)) {
pr_err("failed to set writable for %s: %s\n",
devname, strerror(errno));
rv = 1;
goto out;
}
}
out:
sysfs_free(mdi);
return rv;
}
static void remove_devices(char *devnm, char *path)
{
/*
* Remove names at 'path' - possibly with
* partition suffixes - which link to the 'standard'
* name for devnm. These were probably created
* by mdadm when the array was assembled.
*/
char base[40];
char *path2;
char link[1024];
int n;
int part;
char *be;
char *pe;
if (!path)
return;
sprintf(base, "/dev/%s", devnm);
be = base + strlen(base);
path2 = xmalloc(strlen(path)+20);
strcpy(path2, path);
pe = path2 + strlen(path2);
for (part = 0; part < 16; part++) {
if (part) {
sprintf(be, "p%d", part);
if (isdigit(pe[-1]))
sprintf(pe, "p%d", part);
else
sprintf(pe, "%d", part);
}
n = readlink(path2, link, sizeof(link));
if (n > 0 && (int)strlen(base) == n &&
strncmp(link, base, n) == 0)
unlink(path2);
}
free(path2);
}
int Manage_run(char *devname, int fd, struct context *c)
{
/* Run the array. Array must already be configured
* Requires >= 0.90.0
*/
char nm[32], *nmp;
nmp = fd2devnm(fd);
if (!nmp) {
pr_err("Cannot find %s in sysfs!!\n", devname);
return 1;
}
strcpy(nm, nmp);
return IncrementalScan(c, nm);
}
int Manage_stop(char *devname, int fd, int verbose, int will_retry)
{
/* Stop the array. Array must already be configured
* 'will_retry' means that error messages are not wanted.
*/
int rv = 0;
struct map_ent *map = NULL;
struct mdinfo *mdi;
char devnm[32];
char container[32];
int err;
int count;
char buf[32];
unsigned long long rd1, rd2;
if (will_retry && verbose == 0)
verbose = -1;
strcpy(devnm, fd2devnm(fd));
/* Get EXCL access first. If this fails, then attempting
* to stop is probably a bad idea.
*/
mdi = sysfs_read(fd, NULL, GET_LEVEL|GET_COMPONENT|GET_VERSION);
if (mdi && is_subarray(mdi->text_version)) {
char *sl;
strncpy(container, mdi->text_version+1, sizeof(container));
container[sizeof(container)-1] = 0;
sl = strchr(container, '/');
if (sl)
*sl = 0;
} else
container[0] = 0;
close(fd);
count = 5;
while (((fd = ((devname[0] == '/')
?open(devname, O_RDONLY|O_EXCL)
:open_dev_flags(devnm, O_RDONLY|O_EXCL))) < 0 ||
strcmp(fd2devnm(fd), devnm) != 0) && container[0] &&
mdmon_running(container) && count) {
/* Can't open, so something might be wrong. However it
* is a container, so we might be racing with mdmon, so
* retry for a bit.
*/
if (fd >= 0)
close(fd);
flush_mdmon(container);
count--;
}
if (fd < 0 || strcmp(fd2devnm(fd), devnm) != 0) {
if (fd >= 0)
close(fd);
if (verbose >= 0)
pr_err("Cannot get exclusive access to %s:Perhaps a running process, mounted filesystem or active volume group?\n",
devname);
return 1;
}
/* If this is an mdmon managed array, just write 'inactive'
* to the array state and let mdmon clear up.
*/
if (mdi &&
mdi->array.level > 0 &&
is_subarray(mdi->text_version)) {
int err;
/* This is mdmon managed. */
close(fd);
/* As we had an O_EXCL open, any use of the device
* which blocks STOP_ARRAY is probably a transient use,
* so it is reasonable to retry for a while - 5 seconds.
*/
count = 25;
while (count &&
(err = sysfs_set_str(mdi, NULL,
"array_state",
"inactive")) < 0 &&
errno == EBUSY) {
usleep(200000);
count--;
}
if (err) {
if (verbose >= 0)
pr_err("failed to stop array %s: %s\n",
devname, strerror(errno));
rv = 1;
goto out;
}
/* Give monitor a chance to act */
ping_monitor(mdi->text_version);
fd = open_dev_excl(devnm);
if (fd < 0) {
if (verbose >= 0)
pr_err("failed to completely stop %s: Device is busy\n",
devname);
rv = 1;
goto out;
}
} else if (mdi &&
mdi->array.major_version == -1 &&
mdi->array.minor_version == -2 &&
!is_subarray(mdi->text_version)) {
struct mdstat_ent *mds, *m;
/* container, possibly mdmon-managed.
* Make sure mdmon isn't opening it, which
* would interfere with the 'stop'
*/
ping_monitor(mdi->sys_name);
/* now check that there are no existing arrays
* which are members of this array
*/
mds = mdstat_read(0, 0);
for (m = mds; m; m = m->next)
if (m->metadata_version &&
strncmp(m->metadata_version, "external:", 9)==0 &&
metadata_container_matches(m->metadata_version+9,
devnm)) {
if (verbose >= 0)
pr_err("Cannot stop container %s: member %s still active\n",
devname, m->devnm);
free_mdstat(mds);
rv = 1;
goto out;
}
}
/* If the array is undergoing a reshape which changes the number
* of devices, then it would be nice to stop it at a point where
* it has completed a full number of stripes in both old and
* new layouts as this will allow the reshape to be reverted.
* So if 'sync_action' is "reshape" and 'raid_disks' shows two
* different numbers, then
* - freeze reshape
* - set sync_max to next multiple of both data_disks and
* chunk sizes (or next but one)
* - unfreeze reshape
* - wait on 'sync_completed' for that point to be reached.
*/
if (mdi && (mdi->array.level >= 4 && mdi->array.level <= 6) &&
sysfs_attribute_available(mdi, NULL, "sync_action") &&
sysfs_attribute_available(mdi, NULL, "reshape_direction") &&
sysfs_get_str(mdi, NULL, "sync_action", buf, 20) > 0 &&
strcmp(buf, "reshape\n") == 0 &&
sysfs_get_two(mdi, NULL, "raid_disks", &rd1, &rd2) == 2) {
unsigned long long position, curr;
unsigned long long chunk1, chunk2;
unsigned long long rddiv, chunkdiv;
unsigned long long sectors;
unsigned long long sync_max, old_sync_max;
unsigned long long completed;
int backwards = 0;
int delay;
int scfd;
delay = 40;
while (rd1 > rd2 && delay > 0 &&
sysfs_get_ll(mdi, NULL, "sync_max", &old_sync_max) == 0) {
/* must be in the critical section - wait a bit */
delay -= 1;
usleep(100000);
}
if (sysfs_set_str(mdi, NULL, "sync_action", "frozen") != 0)
goto done;
/* Array is frozen */
rd1 -= mdi->array.level == 6 ? 2 : 1;
rd2 -= mdi->array.level == 6 ? 2 : 1;
sysfs_get_str(mdi, NULL, "reshape_direction", buf, sizeof(buf));
if (strncmp(buf, "back", 4) == 0)
backwards = 1;
if (sysfs_get_ll(mdi, NULL, "reshape_position", &position) != 0) {
/* reshape must have finished now */
sysfs_set_str(mdi, NULL, "sync_action", "idle");
goto done;
}
sysfs_get_two(mdi, NULL, "chunk_size", &chunk1, &chunk2);
chunk1 /= 512;
chunk2 /= 512;
rddiv = GCD(rd1, rd2);
chunkdiv = GCD(chunk1, chunk2);
sectors = (chunk1/chunkdiv) * chunk2 * (rd1/rddiv) * rd2;
if (backwards) {
/* Need to subtract 'reshape_position' from
* array size to get equivalent of sync_max.
* Size calculation based on raid5_size in kernel.
*/
unsigned long long size = mdi->component_size;
size &= ~(chunk1-1);
size &= ~(chunk2-1);
/* rd1 must be smaller */
/* Reshape may have progressed further backwards than
* recorded, so target even further back (hence "-1")
*/
position = (position / sectors - 1) * sectors;
/* rd1 is always the conversion factor between 'sync'
* position and 'reshape' position.
* We read 1 "new" stripe worth of data from where-ever,
* and when write out that full stripe.
*/
sync_max = size - position/rd1;
} else {
/* Reshape will very likely be beyond position, and it may
* be too late to stop at '+1', so aim for '+2'
*/
position = (position / sectors + 2) * sectors;
sync_max = position/rd1;
}
if (sysfs_get_ll(mdi, NULL, "sync_max", &old_sync_max) < 0)
old_sync_max = mdi->component_size;
/* Must not advance sync_max as that could confuse
* the reshape monitor */
if (sync_max < old_sync_max)
sysfs_set_num(mdi, NULL, "sync_max", sync_max);
sysfs_set_str(mdi, NULL, "sync_action", "idle");
/* That should have set things going again. Now we
* wait a little while (3 second max) for sync_completed
* to reach the target.
* The reshape process can block for 500msec if
* the sync speed limit is hit, so we need to wait
* a lot longer than that. 1 second is usually
* enough. 3 is safe.
*/
delay = 3000;
scfd = sysfs_open(mdi->sys_name, NULL, "sync_completed");
while (scfd >= 0 && delay > 0 && old_sync_max > 0) {
unsigned long long max_completed;
sysfs_get_ll(mdi, NULL, "reshape_position", &curr);
sysfs_fd_get_str(scfd, buf, sizeof(buf));
if (strncmp(buf, "none", 4) == 0) {
/* Either reshape has aborted, or hasn't
* quite started yet. Wait a bit and
* check 'sync_action' to see.
*/
usleep(10000);
sysfs_get_str(mdi, NULL, "sync_action", buf, sizeof(buf));
if (strncmp(buf, "reshape", 7) != 0)
break;
}
if (sysfs_fd_get_two(scfd, &completed,
&max_completed) == 2 &&
/* 'completed' sometimes reads as max-uulong */
completed < max_completed &&
(completed > sync_max ||
(completed == sync_max && curr != position))) {
while (completed > sync_max) {
sync_max += sectors / rd1;
if (backwards)
position -= sectors;
else
position += sectors;
}
if (sync_max < old_sync_max)
sysfs_set_num(mdi, NULL, "sync_max", sync_max);
}
if (!backwards && curr >= position)
break;
if (backwards && curr <= position)
break;
sysfs_wait(scfd, &delay);
}
if (scfd >= 0)
close(scfd);
}
done:
/* As we have an O_EXCL open, any use of the device
* which blocks STOP_ARRAY is probably a transient use,
* so it is reasonable to retry for a while - 5 seconds.
*/
count = 25; err = 0;
while (count && fd >= 0 &&
(err = ioctl(fd, STOP_ARRAY, NULL)) < 0 && errno == EBUSY) {
usleep(200000);
count --;
}
if (fd >= 0 && err) {
if (verbose >= 0) {
pr_err("failed to stop array %s: %s\n",
devname, strerror(errno));
if (errno == EBUSY)
cont_err("Perhaps a running process, mounted filesystem or active volume group?\n");
}
rv = 1;
goto out;
}
if (get_linux_version() < 2006028) {
/* prior to 2.6.28, KOBJ_CHANGE was not sent when an md array
* was stopped, so We'll do it here just to be sure. Drop any
* partitions as well...
*/
if (fd >= 0)
ioctl(fd, BLKRRPART, 0);
if (mdi)
sysfs_uevent(mdi, "change");
}
if (devnm[0] && use_udev()) {
struct map_ent *mp = map_by_devnm(&map, devnm);
remove_devices(devnm, mp ? mp->path : NULL);
}
if (verbose >= 0)
pr_err("stopped %s\n", devname);
map_lock(&map);
map_remove(&map, devnm);
map_unlock(&map);
out:
sysfs_free(mdi);
return rv;
}
static struct mddev_dev *add_one(struct mddev_dev *dv, char *name, char disp)
{
struct mddev_dev *new;
new = xmalloc(sizeof(*new));
memset(new, 0, sizeof(*new));
new->devname = xstrdup(name);
new->disposition = disp;
new->next = dv->next;
dv->next = new;
return new;
}
static void add_faulty(struct mddev_dev *dv, int fd, char disp)
{
mdu_array_info_t array;
mdu_disk_info_t disk;
int remaining_disks;
int i;
if (md_get_array_info(fd, &array) != 0)
return;
remaining_disks = array.nr_disks;
for (i = 0; i < MAX_DISKS && remaining_disks > 0; i++) {
char buf[40];
disk.number = i;
if (md_get_disk_info(fd, &disk) != 0)
continue;
if (disk.major == 0 && disk.minor == 0)
continue;
remaining_disks--;
if ((disk.state & 1) == 0) /* not faulty */
continue;
sprintf(buf, "%d:%d", disk.major, disk.minor);
dv = add_one(dv, buf, disp);
}
}
static void add_detached(struct mddev_dev *dv, int fd, char disp)
{
mdu_array_info_t array;
mdu_disk_info_t disk;
int remaining_disks;
int i;
if (md_get_array_info(fd, &array) != 0)
return;
remaining_disks = array.nr_disks;
for (i = 0; i < MAX_DISKS && remaining_disks > 0; i++) {
char buf[40];
int sfd;
disk.number = i;
if (md_get_disk_info(fd, &disk) != 0)
continue;
if (disk.major == 0 && disk.minor == 0)
continue;
remaining_disks--;
if (disp == 'f' && (disk.state & 1) != 0) /* already faulty */
continue;
sprintf(buf, "%d:%d", disk.major, disk.minor);
sfd = dev_open(buf, O_RDONLY);
if (sfd >= 0) {
/* Not detached */
close(sfd);
continue;
}
if (errno != ENXIO)
/* Probably not detached */
continue;
dv = add_one(dv, buf, disp);
}
}
static void add_set(struct mddev_dev *dv, int fd, char set_char)
{
mdu_array_info_t array;
mdu_disk_info_t disk;
int remaining_disks;
int copies, set;
int i;
if (md_get_array_info(fd, &array) != 0)
return;
if (array.level != 10)
return;
copies = ((array.layout & 0xff) *
((array.layout >> 8) & 0xff));
if (array.raid_disks % copies)
return;
remaining_disks = array.nr_disks;
for (i = 0; i < MAX_DISKS && remaining_disks > 0; i++) {
char buf[40];
disk.number = i;
if (md_get_disk_info(fd, &disk) != 0)
continue;
if (disk.major == 0 && disk.minor == 0)
continue;
remaining_disks--;
set = disk.raid_disk % copies;
if (set_char != set + 'A')
continue;
sprintf(buf, "%d:%d", disk.major, disk.minor);
dv = add_one(dv, buf, dv->disposition);
}
}
int attempt_re_add(int fd, int tfd, struct mddev_dev *dv,
struct supertype *dev_st, struct supertype *tst,
unsigned long rdev,
char *update, char *devname, int verbose,
mdu_array_info_t *array)
{
struct mdinfo mdi;
int duuid[4];
int ouuid[4];
dev_st->ss->getinfo_super(dev_st, &mdi, NULL);
dev_st->ss->uuid_from_super(dev_st, ouuid);
if (tst->sb)
tst->ss->uuid_from_super(tst, duuid);
else
/* Assume uuid matches: kernel will check */
memcpy(duuid, ouuid, sizeof(ouuid));
if ((mdi.disk.state & (1<<MD_DISK_ACTIVE)) &&
!(mdi.disk.state & (1<<MD_DISK_FAULTY)) &&
memcmp(duuid, ouuid, sizeof(ouuid))==0) {
/* Looks like it is worth a
* try. Need to make sure
* kernel will accept it
* though.
*/
mdu_disk_info_t disc;
/* re-add doesn't work for version-1 superblocks
* before 2.6.18 :-(
*/
if (array->major_version == 1 &&
get_linux_version() <= 2006018)
goto skip_re_add;
disc.number = mdi.disk.number;
if (md_get_disk_info(fd, &disc) != 0 ||
disc.major != 0 || disc.minor != 0)
goto skip_re_add;
disc.major = major(rdev);
disc.minor = minor(rdev);
disc.number = mdi.disk.number;
disc.raid_disk = mdi.disk.raid_disk;
disc.state = mdi.disk.state;
if (array->state & (1 << MD_SB_CLUSTERED)) {
/* extra flags are needed when adding to a cluster as
* there are two cases to distinguish
*/
if (dv->disposition == 'c')
disc.state |= (1 << MD_DISK_CANDIDATE);
else
disc.state |= (1 << MD_DISK_CLUSTER_ADD);
}
if (dv->writemostly == FlagSet)
disc.state |= 1 << MD_DISK_WRITEMOSTLY;
if (dv->writemostly == FlagClear)
disc.state &= ~(1 << MD_DISK_WRITEMOSTLY);
if (dv->failfast == FlagSet)
disc.state |= 1 << MD_DISK_FAILFAST;
if (dv->failfast == FlagClear)
disc.state &= ~(1 << MD_DISK_FAILFAST);
remove_partitions(tfd);
if (update || dv->writemostly != FlagDefault ||
dv->failfast != FlagDefault) {
int rv = -1;
tfd = dev_open(dv->devname, O_RDWR);
if (tfd < 0) {
pr_err("failed to open %s for superblock update during re-add\n", dv->devname);
return -1;
}
if (dv->writemostly == FlagSet)
rv = dev_st->ss->update_super(
dev_st, NULL, "writemostly",
devname, verbose, 0, NULL);
if (dv->writemostly == FlagClear)
rv = dev_st->ss->update_super(
dev_st, NULL, "readwrite",
devname, verbose, 0, NULL);
if (dv->failfast == FlagSet)
rv = dev_st->ss->update_super(
dev_st, NULL, "failfast",
devname, verbose, 0, NULL);
if (dv->failfast == FlagClear)
rv = dev_st->ss->update_super(
dev_st, NULL, "nofailfast",
devname, verbose, 0, NULL);
if (update)
rv = dev_st->ss->update_super(
dev_st, NULL, update,
devname, verbose, 0, NULL);
if (rv == 0)
rv = dev_st->ss->store_super(dev_st, tfd);
close(tfd);
if (rv != 0) {
pr_err("failed to update superblock during re-add\n");
return -1;
}
}
/* don't even try if disk is marked as faulty */
errno = 0;
if (ioctl(fd, ADD_NEW_DISK, &disc) == 0) {
if (verbose >= 0)
pr_err("re-added %s\n", dv->devname);
return 1;
}
if (errno == ENOMEM || errno == EROFS) {
pr_err("add new device failed for %s: %s\n",
dv->devname, strerror(errno));
if (dv->disposition == 'M')
return 0;
return -1;
}
}
skip_re_add:
return 0;
}
int Manage_add(int fd, int tfd, struct mddev_dev *dv,
struct supertype *tst, mdu_array_info_t *array,
int force, int verbose, char *devname,
char *update, unsigned long rdev, unsigned long long array_size,
int raid_slot)
{
unsigned long long ldsize;
struct supertype *dev_st;
int j;
mdu_disk_info_t disc;
if (!get_dev_size(tfd, dv->devname, &ldsize)) {
if (dv->disposition == 'M')
return 0;
else
return -1;
}
if (tst->ss == &super0 && ldsize > 4ULL*1024*1024*1024*1024) {
/* More than 4TB is wasted on v0.90 */
if (!force) {
pr_err("%s is larger than %s can effectively use.\n"
" Add --force is you really want to add this device.\n",
dv->devname, devname);
return -1;
}
pr_err("%s is larger than %s can effectively use.\n"
" Adding anyway as --force was given.\n",
dv->devname, devname);
}
if (array->not_persistent == 0 || tst->ss->external) {
/* need to find a sample superblock to copy, and
* a spare slot to use.
* For 'external' array (well, container based),
* We can just load the metadata for the array->
*/
int array_failed;
if (tst->sb)
/* already loaded */;
else if (tst->ss->external) {
tst->ss->load_container(tst, fd, NULL);
} else for (j = 0; j < tst->max_devs; j++) {
char *dev;
int dfd;
disc.number = j;
if (md_get_disk_info(fd, &disc))
continue;
if (disc.major==0 && disc.minor==0)
continue;
if ((disc.state & 4)==0) /* sync */
continue;
/* Looks like a good device to try */
dev = map_dev(disc.major, disc.minor, 1);
if (!dev)
continue;
dfd = dev_open(dev, O_RDONLY);
if (dfd < 0)
continue;
if (tst->ss->load_super(tst, dfd,
NULL)) {
close(dfd);
continue;
}
close(dfd);
break;
}
/* FIXME this is a bad test to be using */
if (!tst->sb && (dv->disposition != 'a' &&
dv->disposition != 'S')) {
/* we are re-adding a device to a
* completely dead array - have to depend
* on kernel to check
*/
} else if (!tst->sb) {
pr_err("cannot load array metadata from %s\n", devname);
return -1;
}
/* Make sure device is large enough */
if (dv->disposition != 'j' && /* skip size check for Journal */
tst->sb &&
tst->ss->avail_size(tst, ldsize/512, INVALID_SECTORS) <
array_size) {
if (dv->disposition == 'M')
return 0;
pr_err("%s not large enough to join array\n",
dv->devname);
return -1;
}
/* Possibly this device was recently part of
* the array and was temporarily removed, and
* is now being re-added. If so, we can
* simply re-add it.
*/
if (array->not_persistent == 0) {
dev_st = dup_super(tst);
dev_st->ss->load_super(dev_st, tfd, NULL);
if (dev_st->sb && dv->disposition != 'S') {
int rv;
rv = attempt_re_add(fd, tfd, dv, dev_st, tst,
rdev, update, devname,
verbose, array);
dev_st->ss->free_super(dev_st);
if (rv)
return rv;
}
}
if (dv->disposition == 'M') {
if (verbose > 0)
pr_err("--re-add for %s to %s is not possible\n",
dv->devname, devname);
return 0;
}
if (dv->disposition == 'A') {
pr_err("--re-add for %s to %s is not possible\n",
dv->devname, devname);
return -1;
}
if (array->active_disks < array->raid_disks) {
char *avail = xcalloc(array->raid_disks, 1);
int d;
int found = 0;
for (d = 0; d < MAX_DISKS && found < array->nr_disks; d++) {
disc.number = d;
if (md_get_disk_info(fd, &disc))
continue;
if (disc.major == 0 && disc.minor == 0)
continue;
if (!(disc.state & (1<<MD_DISK_SYNC)))
continue;
avail[disc.raid_disk] = 1;
found++;
}
array_failed = !enough(array->level, array->raid_disks,
array->layout, 1, avail);
free(avail);
} else
array_failed = 0;
if (array_failed) {
pr_err("%s has failed so using --add cannot work and might destroy\n",
devname);
pr_err("data on %s. You should stop the array and re-assemble it.\n",
dv->devname);
return -1;
}
} else {
/* non-persistent. Must ensure that new drive
* is at least array->size big.
*/
if (ldsize/512 < array_size) {
pr_err("%s not large enough to join array\n",
dv->devname);
return -1;
}
}
/* committed to really trying this device now*/
remove_partitions(tfd);
/* in 2.6.17 and earlier, version-1 superblocks won't
* use the number we write, but will choose a free number.
* we must choose the same free number, which requires
* starting at 'raid_disks' and counting up
*/
for (j = array->raid_disks; j < tst->max_devs; j++) {
disc.number = j;
if (md_get_disk_info(fd, &disc))
break;
if (disc.major==0 && disc.minor==0)
break;
if (disc.state & 8) /* removed */
break;
}
disc.major = major(rdev);
disc.minor = minor(rdev);
if (raid_slot < 0)
disc.number = j;
else
disc.number = raid_slot;
disc.state = 0;
/* only add journal to array that supports journaling */
if (dv->disposition == 'j') {
struct mdinfo *mdp;
mdp = sysfs_read(fd, NULL, GET_ARRAY_STATE);
if (!mdp) {
pr_err("%s unable to read array state.\n", devname);
return -1;
}
if (mdp->array_state != ARRAY_READONLY) {
sysfs_free(mdp);
pr_err("%s is not readonly, cannot add journal.\n", devname);
return -1;
}
sysfs_free(mdp);
disc.raid_disk = 0;
}
if (array->not_persistent==0) {
int dfd;
if (dv->disposition == 'j')
disc.state |= (1 << MD_DISK_JOURNAL) | (1 << MD_DISK_SYNC);
if (dv->writemostly == FlagSet)
disc.state |= 1 << MD_DISK_WRITEMOSTLY;
if (dv->failfast == FlagSet)
disc.state |= 1 << MD_DISK_FAILFAST;
dfd = dev_open(dv->devname, O_RDWR | O_EXCL|O_DIRECT);
if (tst->ss->add_to_super(tst, &disc, dfd,
dv->devname, INVALID_SECTORS))
return -1;
if (tst->ss->write_init_super(tst))
return -1;
} else if (dv->disposition == 'A') {
/* this had better be raid1.
* As we are "--re-add"ing we must find a spare slot
* to fill.
*/
char *used = xcalloc(array->raid_disks, 1);
for (j = 0; j < tst->max_devs; j++) {
mdu_disk_info_t disc2;
disc2.number = j;
if (md_get_disk_info(fd, &disc2))
continue;
if (disc2.major==0 && disc2.minor==0)
continue;
if (disc2.state & 8) /* removed */
continue;
if (disc2.raid_disk < 0)
continue;
if (disc2.raid_disk > array->raid_disks)
continue;
used[disc2.raid_disk] = 1;
}
for (j = 0 ; j < array->raid_disks; j++)
if (!used[j]) {
disc.raid_disk = j;
disc.state |= (1<<MD_DISK_SYNC);
break;
}
free(used);
}
if (array->state & (1 << MD_SB_CLUSTERED)) {
if (dv->disposition == 'c')
disc.state |= (1 << MD_DISK_CANDIDATE);
else
disc.state |= (1 << MD_DISK_CLUSTER_ADD);
}
if (dv->writemostly == FlagSet)
disc.state |= (1 << MD_DISK_WRITEMOSTLY);
if (dv->failfast == FlagSet)
disc.state |= (1 << MD_DISK_FAILFAST);
if (tst->ss->external) {
/* add a disk
* to an external metadata container */
struct mdinfo new_mdi;
struct mdinfo *sra;
int container_fd;
char devnm[32];
int dfd;
strcpy(devnm, fd2devnm(fd));
container_fd = open_dev_excl(devnm);
if (container_fd < 0) {
pr_err("add failed for %s: could not get exclusive access to container\n",
dv->devname);
tst->ss->free_super(tst);
return -1;
}
Kill(dv->devname, NULL, 0, -1, 0);
dfd = dev_open(dv->devname, O_RDWR | O_EXCL|O_DIRECT);
if (tst->ss->add_to_super(tst, &disc, dfd,
dv->devname, INVALID_SECTORS)) {
close(dfd);
close(container_fd);