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da1527d65d
lvm2/tools/lvchange.c
Ondrej Kozina c26d81d6e6 toollib: do not spawn polling in lv_change_activate 
spawning a background polling from within the lv_change_activate
fn went to two problems:

1) vgchange should not spawn any background polling until after
   the whole activation process for a VG is finished. Otherwise
   it could lead to a duplicite request for spawning background
   polling. This statement was alredy true with one exception of
   mirror up-conversion polling (fixed by this commit).

2) due to current conditions in lv_change_activate lvchange cmd
   couldn't start background polling for pvmove LVs if such LV was
   about to get activated by the command in the same time.

This commit however doesn't alter the lvchange cmd so that it works same as
vgchange with regard to not to spawn duplicate background pollings per
unique LV.
2015-04-13 20:52:22 +02:00

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/*
* Copyright (C) 2001-2004 Sistina Software, Inc. All rights reserved.
* Copyright (C) 2004-2014 Red Hat, Inc. All rights reserved.
*
* This file is part of LVM2.
*
* This copyrighted material is made available to anyone wishing to use,
* modify, copy, or redistribute it subject to the terms and conditions
* of the GNU Lesser General Public License v.2.1.
*
* You should have received a copy of the GNU Lesser 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
*/
#include "tools.h"
#include "memlock.h"
static int _lvchange_permission(struct cmd_context *cmd,
struct logical_volume *lv)
{
uint32_t lv_access;
struct lvinfo info;
unsigned info_obtained = 0;
lv_access = arg_uint_value(cmd, permission_ARG, 0);
if (lv_is_external_origin(lv)) {
log_error("Cannot change permissions of external origin "
"\"%s\".", lv->name);
return 0;
}
if (!(lv_access & LVM_WRITE) && !(lv->status & LVM_WRITE)) {
/* Refresh if it's read-only in metadata but read-write in kernel */
if (lv_info(cmd, lv, 0, &info, 0, 0) &&
(info_obtained = 1, info.exists) && !info.read_only) {
log_print_unless_silent("Logical volume \"%s\" is already read-only. Refreshing kernel state.",
lv->name);
return lv_refresh(cmd, lv);
}
log_error("Logical volume \"%s\" is already read only",
lv->name);
return 0;
}
if ((lv_access & LVM_WRITE) && (lv->status & LVM_WRITE)) {
/* Refresh if it's read-write in metadata but read-only in kernel */
if (lv_info(cmd, lv, 0, &info, 0, 0) &&
(info_obtained = 1, info.exists) && info.read_only) {
log_print_unless_silent("Logical volume \"%s\" is already writable. Refreshing kernel state.",
lv->name);
return lv_refresh(cmd, lv);
}
log_error("Logical volume \"%s\" is already writable",
lv->name);
return 0;
}
if (lv_is_mirrored(lv) && vg_is_clustered(lv->vg) &&
(info_obtained || lv_info(cmd, lv, 0, &info, 0, 0)) && info.exists) {
log_error("Cannot change permissions of mirror \"%s\" "
"while active.", lv->name);
return 0;
}
/* Not allowed to change permissions on RAID sub-LVs directly */
if (lv_is_raid_metadata(lv) || lv_is_raid_image(lv)) {
log_error("Cannot change permissions of RAID %s \"%s\"",
lv_is_raid_image(lv) ? "image" :
"metadata area", lv->name);
return 0;
}
if (!(lv_access & LVM_WRITE) && lv_is_thin_pool(lv)) {
log_error("Change permissions of thin pool \"%s\" not "
"yet supported.", lv->name);
return 0;
}
if (lv_access & LVM_WRITE) {
lv->status |= LVM_WRITE;
log_verbose("Setting logical volume \"%s\" read/write",
lv->name);
} else {
lv->status &= ~LVM_WRITE;
log_verbose("Setting logical volume \"%s\" read-only",
lv->name);
}
if (!lv_update_and_reload(lv))
return_0;
return 1;
}
static int _lvchange_pool_update(struct cmd_context *cmd,
struct logical_volume *lv)
{
int update = 0;
unsigned val;
thin_discards_t discards;
if (!lv_is_thin_pool(lv)) {
log_error("Logical volume \"%s\" is not a thin pool.", lv->name);
return 0;
}
if (arg_count(cmd, discards_ARG)) {
discards = (thin_discards_t) arg_uint_value(cmd, discards_ARG, THIN_DISCARDS_IGNORE);
if (discards != first_seg(lv)->discards) {
if (((discards == THIN_DISCARDS_IGNORE) ||
(first_seg(lv)->discards == THIN_DISCARDS_IGNORE)) &&
pool_is_active(lv))
log_error("Cannot change support for discards while pool volume \"%s\" is active.", lv->name);
else {
first_seg(lv)->discards = discards;
update++;
}
} else
log_error("Logical volume \"%s\" already uses --discards %s.",
lv->name, get_pool_discards_name(discards));
}
if (arg_count(cmd, zero_ARG)) {
val = arg_uint_value(cmd, zero_ARG, 1);
if (val != first_seg(lv)->zero_new_blocks) {
first_seg(lv)->zero_new_blocks = val;
update++;
} else
log_error("Logical volume \"%s\" already %szero new blocks.",
lv->name, val ? "" : "does not ");
}
if (!update)
return 0;
if (!lv_update_and_reload_origin(lv))
return_0;
return 1;
}
static int _lvchange_monitoring(struct cmd_context *cmd,
struct logical_volume *lv)
{
struct lvinfo info;
if (!lv_info(cmd, lv, lv_is_thin_pool(lv) ? 1 : 0,
&info, 0, 0) || !info.exists) {
log_error("Logical volume, %s, is not active", lv->name);
return 0;
}
/* do not monitor pvmove lv's */
if (lv_is_pvmove(lv))
return 1;
if ((dmeventd_monitor_mode() != DMEVENTD_MONITOR_IGNORE) &&
!monitor_dev_for_events(cmd, lv, 0, dmeventd_monitor_mode()))
return_0;
return 1;
}
static int _lvchange_background_polling(struct cmd_context *cmd,
struct logical_volume *lv)
{
struct lvinfo info;
if (!lv_info(cmd, lv, 0, &info, 0, 0) || !info.exists) {
log_error("Logical volume, %s, is not active", lv->name);
return 0;
}
if (background_polling())
lv_spawn_background_polling(cmd, lv);
return 1;
}
static int _lvchange_activate(struct cmd_context *cmd, struct logical_volume *lv)
{
activation_change_t activate;
activate = (activation_change_t) arg_uint_value(cmd, activate_ARG, CHANGE_AY);
/*
* We can get here in the odd case where an LV is already active in
* a foreign VG, which allows the VG to be accessed by lvchange -a
* so the LV can be deactivated.
*/
if (lv->vg->system_id && lv->vg->system_id[0] &&
cmd->system_id && cmd->system_id[0] &&
strcmp(lv->vg->system_id, cmd->system_id) &&
is_change_activating(activate)) {
log_error("Cannot activate LVs in a foreign VG.");
return ECMD_FAILED;
}
if (lv_activation_skip(lv, activate, arg_count(cmd, ignoreactivationskip_ARG)))
return 1;
if (lv_is_cow(lv) && !lv_is_virtual_origin(origin_from_cow(lv)))
lv = origin_from_cow(lv);
if ((activate == CHANGE_AAY) &&
!lv_passes_auto_activation_filter(cmd, lv))
return 1;
if (!lv_change_activate(cmd, lv, activate))
return_0;
/*
* FIXME: lvchange should defer background polling in a similar
* way as vgchange does. First activate all relevant LVs
* initate background polling later (for all actually
* activated LVs). So we can avoid duplicate background
* polling for pvmove (2 or more locked LVs on single pvmove
* LV)
*/
if (background_polling() && is_change_activating(activate) &&
(lv_is_pvmove(lv) || lv_is_locked(lv) || lv_is_converting(lv) ||
lv_is_merging(lv)))
lv_spawn_background_polling(cmd, lv);
return 1;
}
static int detach_metadata_devices(struct lv_segment *seg, struct dm_list *list)
{
uint32_t s;
uint32_t num_meta_lvs;
struct lv_list *lvl;
num_meta_lvs = seg_is_raid(seg) ? seg->area_count : !!seg->log_lv;
if (!num_meta_lvs)
return_0;
if (!(lvl = dm_pool_alloc(seg->lv->vg->vgmem, sizeof(*lvl) * num_meta_lvs)))
return_0;
if (seg_is_raid(seg)) {
for (s = 0; s < seg->area_count; s++) {
if (!seg_metalv(seg, s))
return_0; /* Trap this future possibility */
lvl[s].lv = seg_metalv(seg, s);
lv_set_visible(lvl[s].lv);
dm_list_add(list, &lvl[s].list);
}
return 1;
}
lvl[0].lv = detach_mirror_log(seg);
dm_list_add(list, &lvl[0].list);
return 1;
}
static int attach_metadata_devices(struct lv_segment *seg, struct dm_list *list)
{
struct lv_list *lvl;
if (seg_is_raid(seg)) {
dm_list_iterate_items(lvl, list)
lv_set_hidden(lvl->lv);
return 1;
}
dm_list_iterate_items(lvl, list)
break; /* get first item */
if (!attach_mirror_log(seg, lvl->lv))
return_0;
return 1;
}
/*
* lvchange_refresh
* @cmd
* @lv
*
* Suspend and resume a logical volume.
*/
static int _lvchange_refresh(struct cmd_context *cmd, struct logical_volume *lv)
{
log_verbose("Refreshing logical volume \"%s\" (if active)", lv->name);
return lv_refresh(cmd, lv);
}
static int _reactivate_lv(struct logical_volume *lv,
int active, int exclusive)
{
struct cmd_context *cmd = lv->vg->cmd;
if (!active)
return 1;
if (exclusive)
return activate_lv_excl_local(cmd, lv);
return activate_lv(cmd, lv);
}
/*
* lvchange_resync
* @cmd
* @lv
*
* Force a mirror or RAID array to undergo a complete initializing resync.
*/
static int _lvchange_resync(struct cmd_context *cmd, struct logical_volume *lv)
{
int active = 0;
int exclusive = 0;
int monitored;
struct lv_segment *seg = first_seg(lv);
struct dm_list device_list;
struct lv_list *lvl;
dm_list_init(&device_list);
if (!seg_is_mirror(seg) && !seg_is_raid(seg)) {
log_error("Unable to resync %s. It is not RAID or mirrored.",
lv->name);
return 0;
}
if (lv_is_pvmove(lv)) {
log_error("Unable to resync pvmove volume %s", lv->name);
return 0;
}
if (lv_is_locked(lv)) {
log_error("Unable to resync locked volume %s", lv->name);
return 0;
}
if (lv_is_active_locally(lv)) {
if (!lv_check_not_in_use(lv)) {
log_error("Can't resync open logical volume \"%s\"",
lv->name);
return 0;
}
if (!arg_count(cmd, yes_ARG) &&
yes_no_prompt("Do you really want to deactivate "
"logical volume %s to resync it? [y/n]: ",
lv->name) == 'n') {
log_error("Logical volume \"%s\" not resynced",
lv->name);
return 0;
}
active = 1;
if (lv_is_active_exclusive_locally(lv))
exclusive = 1;
}
if (seg_is_raid(seg) && active && !exclusive) {
log_error("RAID logical volume %s/%s cannot be active remotely.",
lv->vg->name, lv->name);
return 0;
}
/* Activate exclusively to ensure no nodes still have LV active */
monitored = dmeventd_monitor_mode();
if (monitored != DMEVENTD_MONITOR_IGNORE)
init_dmeventd_monitor(0);
if (!deactivate_lv(cmd, lv)) {
log_error("Unable to deactivate %s for resync", lv->name);
return 0;
}
if (vg_is_clustered(lv->vg) && lv_is_active(lv)) {
log_error("Can't get exclusive access to clustered volume %s",
lv->name);
return 0;
}
if (monitored != DMEVENTD_MONITOR_IGNORE)
init_dmeventd_monitor(monitored);
init_mirror_in_sync(0);
log_very_verbose("Starting resync of %s%s%s%s \"%s\"",
(active) ? "active " : "",
vg_is_clustered(lv->vg) ? "clustered " : "",
(seg->log_lv) ? "disk-logged " :
seg_is_raid(seg) ? "" : "core-logged ",
lvseg_name(seg), lv->name);
/*
* If this mirror has a core log (i.e. !seg->log_lv),
* then simply deactivating/activating will cause
* it to reset the sync status. We only need to
* worry about persistent logs.
*/
if (!seg_is_raid(seg) && !seg->log_lv) {
if (lv->status & LV_NOTSYNCED) {
lv->status &= ~LV_NOTSYNCED;
log_very_verbose("Updating logical volume \"%s\""
" on disk(s)", lv->name);
if (!vg_write(lv->vg) || !vg_commit(lv->vg)) {
log_error("Failed to update metadata on disk.");
return 0;
}
}
if (!_reactivate_lv(lv, active, exclusive)) {
log_error("Failed to reactivate %s to resynchronize "
"mirror", lv->name);
return 0;
}
return 1;
}
/*
* Now we handle mirrors with log devices
*/
lv->status &= ~LV_NOTSYNCED;
/* Separate mirror log or metadata devices so we can clear them */
if (!detach_metadata_devices(seg, &device_list)) {
log_error("Failed to clear %s %s for %s",
seg->segtype->name, seg_is_raid(seg) ?
"metadata area" : "mirror log", lv->name);
return 0;
}
if (!vg_write(lv->vg) || !vg_commit(lv->vg)) {
log_error("Failed to update intermediate VG metadata on disk.");
if (!_reactivate_lv(lv, active, exclusive))
stack;
return 0;
}
/* No backup for intermediate metadata, so just unlock memory */
memlock_unlock(lv->vg->cmd);
dm_list_iterate_items(lvl, &device_list) {
if (!activate_lv_excl_local(cmd, lvl->lv)) {
log_error("Unable to activate %s for %s clearing",
lvl->lv->name, (seg_is_raid(seg)) ?
"metadata area" : "mirror log");
return 0;
}
if (!wipe_lv(lvl->lv, (struct wipe_params)
{ .do_zero = 1, .zero_sectors = lvl->lv->size })) {
log_error("Unable to reset sync status for %s",
lv->name);
if (!deactivate_lv(cmd, lvl->lv))
log_error("Failed to deactivate log LV after "
"wiping failed");
return 0;
}
if (!deactivate_lv(cmd, lvl->lv)) {
log_error("Unable to deactivate %s LV %s "
"after wiping for resync",
(seg_is_raid(seg)) ? "metadata" : "log",
lvl->lv->name);
return 0;
}
}
sync_local_dev_names(lv->vg->cmd); /* Wait until devices are away */
/* Put metadata sub-LVs back in place */
if (!attach_metadata_devices(seg, &device_list)) {
log_error("Failed to reattach %s device after clearing",
(seg_is_raid(seg)) ? "metadata" : "log");
return 0;
}
if (!vg_write(lv->vg) || !vg_commit(lv->vg)) {
log_error("Failed to update metadata on disk.");
return 0;
}
if (!_reactivate_lv(lv, active, exclusive)) {
backup(lv->vg);
log_error("Failed to reactivate %s after resync",
lv->name);
return 0;
}
backup(lv->vg);
return 1;
}
static int _lvchange_alloc(struct cmd_context *cmd, struct logical_volume *lv)
{
int want_contiguous = arg_int_value(cmd, contiguous_ARG, 0);
alloc_policy_t alloc = (alloc_policy_t)
arg_uint_value(cmd, alloc_ARG, (want_contiguous)
? ALLOC_CONTIGUOUS : ALLOC_INHERIT);
if (alloc == lv->alloc) {
log_error("Allocation policy of logical volume \"%s\" is "
"already %s", lv->name, get_alloc_string(alloc));
return 0;
}
lv->alloc = alloc;
/* FIXME If contiguous, check existing extents already are */
log_verbose("Setting contiguous allocation policy for \"%s\" to %s",
lv->name, get_alloc_string(alloc));
log_very_verbose("Updating logical volume \"%s\" on disk(s)", lv->name);
/* No need to suspend LV for this change */
if (!vg_write(lv->vg) || !vg_commit(lv->vg))
return_0;
backup(lv->vg);
return 1;
}
static int _lvchange_errorwhenfull(struct cmd_context *cmd,
struct logical_volume *lv)
{
unsigned ewf = arg_int_value(cmd, errorwhenfull_ARG, 0);
if (ewf == lv_is_error_when_full(lv)) {
log_error("Error when full is already %sset for %s.",
(ewf) ? "" : "un", display_lvname(lv));
return 0;
}
if (ewf)
lv->status |= LV_ERROR_WHEN_FULL;
else
lv->status &= ~LV_ERROR_WHEN_FULL;
if (!lv_update_and_reload(lv))
return_0;
return 1;
}
static int _lvchange_readahead(struct cmd_context *cmd,
struct logical_volume *lv)
{
unsigned read_ahead = 0;
unsigned pagesize = (unsigned) lvm_getpagesize() >> SECTOR_SHIFT;
read_ahead = arg_uint_value(cmd, readahead_ARG, 0);
if (read_ahead != DM_READ_AHEAD_AUTO &&
(lv->vg->fid->fmt->features & FMT_RESTRICTED_READAHEAD) &&
(read_ahead < 2 || read_ahead > 120)) {
log_error("Metadata only supports readahead values between 2 and 120.");
return 0;
}
if (read_ahead != DM_READ_AHEAD_AUTO &&
read_ahead != DM_READ_AHEAD_NONE && read_ahead % pagesize) {
if (read_ahead < pagesize)
read_ahead = pagesize;
else
read_ahead = (read_ahead / pagesize) * pagesize;
log_warn("WARNING: Overriding readahead to %u sectors, a multiple "
"of %uK page size.", read_ahead, pagesize >> 1);
}
if (lv->read_ahead == read_ahead) {
if (read_ahead == DM_READ_AHEAD_AUTO)
log_error("Read ahead is already auto for \"%s\"", lv->name);
else
log_error("Read ahead is already %u for \"%s\"",
read_ahead, lv->name);
return 0;
}
lv->read_ahead = read_ahead;
log_verbose("Setting read ahead to %u for \"%s\"", read_ahead,
lv->name);
if (!lv_update_and_reload(lv))
return_0;
return 1;
}
static int _lvchange_persistent(struct cmd_context *cmd,
struct logical_volume *lv)
{
enum activation_change activate = CHANGE_AN;
if (!get_and_validate_major_minor(cmd, lv->vg->fid->fmt,
&lv->major, &lv->minor))
return_0;
if (lv->minor == -1) {
if (!(lv->status & FIXED_MINOR)) {
log_error("Minor number is already not persistent for %s.",
display_lvname(lv));
return 0;
}
lv->status &= ~FIXED_MINOR;
log_verbose("Disabling persistent device number for %s.",
display_lvname(lv));
} else {
if (lv_is_active(lv)) {
if (!arg_count(cmd, force_ARG) &&
!arg_count(cmd, yes_ARG) &&
yes_no_prompt("Logical volume %s will be "
"deactivated temporarily. "
"Continue? [y/n]: ", lv->name) == 'n') {
log_error("%s device number not changed.",
display_lvname(lv));
return 0;
}
activate = CHANGE_AEY;
if (vg_is_clustered(lv->vg) &&
locking_is_clustered() &&
locking_supports_remote_queries() &&
!lv_is_active_exclusive_locally(lv)) {
/* Reliable reactivate only locally */
log_print_unless_silent("Remotely active LV %s needs "
"individual reactivation.",
display_lvname(lv));
activate = CHANGE_ALY;
}
}
/* Ensuring LV is not active */
if (!deactivate_lv(cmd, lv)) {
log_error("Cannot deactivate %s.", display_lvname(lv));
return 0;
}
lv->status |= FIXED_MINOR;
log_verbose("Setting persistent device number to (%d, %d) for %s.",
lv->major, lv->minor, display_lvname(lv));
}
log_very_verbose("Updating logical volume %s on disk(s).",
display_lvname(lv));
if (!vg_write(lv->vg) || !vg_commit(lv->vg))
return_0;
if (activate != CHANGE_AN) {
log_verbose("Re-activating logical volume %s", display_lvname(lv));
if (!lv_active_change(cmd, lv, activate, 0)) {
log_error("%s: reactivation failed", display_lvname(lv));
backup(lv->vg);
return 0;
}
}
backup(lv->vg);
return 1;
}
static int _lvchange_cachepolicy(struct cmd_context *cmd, struct logical_volume *lv)
{
struct dm_config_tree *policy = NULL;
int r = 0;
if (!lv_is_cache(lv) && !lv_is_cache_pool(lv)) {
log_error("LV %s is not a cache LV.", lv->name);
log_error("Only cache or cache pool devices can have --cachepolicy set.");
goto_out;
}
if (!(policy = get_cachepolicy_params(cmd)))
goto_out;
if (!lv_cache_setpolicy(lv, policy))
goto_out;
if (!lv_update_and_reload(lv))
goto_out;
r = 1;
out:
if (policy)
dm_config_destroy(policy);
return r;
}
static int _lvchange_tag(struct cmd_context *cmd, struct logical_volume *lv, int arg)
{
if (!change_tag(cmd, NULL, lv, NULL, arg))
return_0;
log_very_verbose("Updating logical volume \"%s\" on disk(s)", lv->name);
/* No need to suspend LV for this change */
if (!vg_write(lv->vg) || !vg_commit(lv->vg))
return_0;
backup(lv->vg);
return 1;
}
static int _lvchange_writemostly(struct logical_volume *lv)
{
int s, pv_count, i = 0;
char **pv_names;
const char *tmp_str;
size_t tmp_str_len;
struct pv_list *pvl;
struct arg_value_group_list *group;
struct cmd_context *cmd = lv->vg->cmd;
struct lv_segment *raid_seg = first_seg(lv);
if (strcmp(raid_seg->segtype->name, SEG_TYPE_NAME_RAID1)) {
log_error("--write%s can only be used with 'raid1' segment type",
arg_count(cmd, writemostly_ARG) ? "mostly" : "behind");
return 0;
}
if (arg_count(cmd, writebehind_ARG))
raid_seg->writebehind = arg_uint_value(cmd, writebehind_ARG, 0);
if ((pv_count = arg_count(cmd, writemostly_ARG))) {
/* writemostly can be specified more than once */
pv_names = dm_pool_alloc(lv->vg->vgmem, sizeof(char *) * pv_count);
if (!pv_names)
return_0;
dm_list_iterate_items(group, &cmd->arg_value_groups) {
if (!grouped_arg_is_set(group->arg_values,
writemostly_ARG))
continue;
if (!(tmp_str = grouped_arg_str_value(group->arg_values,
writemostly_ARG,
NULL)))
return_0;
/*
* Writemostly PV specifications can be:
* <PV> - Turn on writemostly
* <PV>:t - Toggle writemostly
* <PV>:n - Turn off writemostly
* <PV>:y - Turn on writemostly
*
* We allocate strlen + 3 to add our own ':{t|n|y}' if
* not present plus the trailing '\0'.
*/
tmp_str_len = strlen(tmp_str);
if (!(pv_names[i] = dm_pool_zalloc(lv->vg->vgmem, tmp_str_len + 3)))
return_0;
if ((tmp_str_len < 3) ||
(tmp_str[tmp_str_len - 2] != ':'))
/* Default to 'y' if no mode specified */
sprintf(pv_names[i], "%s:y", tmp_str);
else
sprintf(pv_names[i], "%s", tmp_str);
i++;
}
for (i = 0; i < pv_count; i++)
pv_names[i][strlen(pv_names[i]) - 2] = '\0';
for (i = 0; i < pv_count; i++) {
if (!(pvl = find_pv_in_vg(lv->vg, pv_names[i]))) {
log_error("%s not found in volume group, %s",
pv_names[i], lv->vg->name);
return 0;
}
for (s = 0; s < raid_seg->area_count; s++) {
/*
* We don't bother checking the metadata area,
* since writemostly only affects the data areas.
*/
if (seg_type(raid_seg, s) == AREA_UNASSIGNED)
continue;
if (lv_is_on_pv(seg_lv(raid_seg, s), pvl->pv)) {
if (pv_names[i][strlen(pv_names[i]) + 1] == 'y')
seg_lv(raid_seg, s)->status |=
LV_WRITEMOSTLY;
else if (pv_names[i][strlen(pv_names[i]) + 1] == 'n')
seg_lv(raid_seg, s)->status &=
~LV_WRITEMOSTLY;
else if (pv_names[i][strlen(pv_names[i]) + 1] == 't')
seg_lv(raid_seg, s)->status ^=
LV_WRITEMOSTLY;
else
return_0;
}
}
}
}
if (!lv_update_and_reload(lv))
return_0;
return 1;
}
static int _lvchange_recovery_rate(struct logical_volume *lv)
{
struct cmd_context *cmd = lv->vg->cmd;
struct lv_segment *raid_seg = first_seg(lv);
if (!seg_is_raid(raid_seg)) {
log_error("Unable to change the recovery rate of non-RAID"
" logical volume.");
return 0;
}
if (arg_count(cmd, minrecoveryrate_ARG))
raid_seg->min_recovery_rate =
arg_uint_value(cmd, minrecoveryrate_ARG, 0) / 2;
if (arg_count(cmd, maxrecoveryrate_ARG))
raid_seg->max_recovery_rate =
arg_uint_value(cmd, maxrecoveryrate_ARG, 0) / 2;
if (raid_seg->max_recovery_rate &&
(raid_seg->max_recovery_rate < raid_seg->min_recovery_rate)) {
log_error("Minumum recovery rate cannot"
" be higher than maximum.");
return 0;
}
if (!lv_update_and_reload(lv))
return_0;
return 1;
}
static int _lvchange_profile(struct logical_volume *lv)
{
const char *old_profile_name, *new_profile_name;
struct profile *new_profile;
old_profile_name = lv->profile ? lv->profile->name : "(inherited)";
if (arg_count(lv->vg->cmd, detachprofile_ARG)) {
new_profile_name = "(inherited)";
lv->profile = NULL;
} else {
if (arg_count(lv->vg->cmd, metadataprofile_ARG))
new_profile_name = arg_str_value(lv->vg->cmd, metadataprofile_ARG, NULL);
else
new_profile_name = arg_str_value(lv->vg->cmd, profile_ARG, NULL);
if (!(new_profile = add_profile(lv->vg->cmd, new_profile_name, CONFIG_PROFILE_METADATA)))
return_0;
lv->profile = new_profile;
}
log_verbose("Changing configuration profile for LV %s: %s -> %s.",
lv->name, old_profile_name, new_profile_name);
if (!vg_write(lv->vg) || !vg_commit(lv->vg))
return_0;
backup(lv->vg);
return 1;
}
static int _lvchange_activation_skip(struct logical_volume *lv)
{
int skip = arg_int_value(lv->vg->cmd, setactivationskip_ARG, 0);
lv_set_activation_skip(lv, 1, skip);
log_verbose("Changing activation skip flag to %s for LV %s.",
lv->name, skip ? "enabled" : "disabled");
if (!vg_write(lv->vg) || !vg_commit(lv->vg))
return_0;
backup(lv->vg);
return 1;
}
static int _lvchange_single(struct cmd_context *cmd, struct logical_volume *lv,
struct processing_handle *handle __attribute__((unused)))
{
int doit = 0, docmds = 0;
struct logical_volume *origin;
char snaps_msg[128];
if (!(lv->vg->status & LVM_WRITE) &&
(arg_count(cmd, contiguous_ARG) || arg_count(cmd, permission_ARG) ||
arg_count(cmd, readahead_ARG) || arg_count(cmd, persistent_ARG) ||
arg_count(cmd, discards_ARG) || arg_count(cmd, zero_ARG) ||
arg_count(cmd, alloc_ARG) || arg_count(cmd, profile_ARG) ||
arg_count(cmd, metadataprofile_ARG))) {
log_error("Only -a permitted with read-only volume "
"group \"%s\"", lv->vg->name);
return EINVALID_CMD_LINE;
}
if (lv_is_origin(lv) && !lv_is_thin_volume(lv) &&
(arg_count(cmd, contiguous_ARG) || arg_count(cmd, permission_ARG) ||
arg_count(cmd, readahead_ARG) || arg_count(cmd, persistent_ARG) ||
arg_count(cmd, alloc_ARG) || arg_count(cmd, profile_ARG) ||
arg_count(cmd, metadataprofile_ARG))) {
log_error("Can't change logical volume \"%s\" under snapshot",
lv->name);
return ECMD_FAILED;
}
if (lv_is_pvmove(lv)) {
log_error("Unable to change pvmove LV %s", lv->name);
if (arg_count(cmd, activate_ARG))
log_error("Use 'pvmove --abort' to abandon a pvmove");
return ECMD_FAILED;
}
if (lv_is_mirror_log(lv)) {
log_error("Unable to change mirror log LV %s directly", lv->name);
return ECMD_FAILED;
}
if (lv_is_mirror_image(lv)) {
log_error("Unable to change mirror image LV %s directly",
lv->name);
return ECMD_FAILED;
}
/* If LV is sparse, activate origin instead */
if (arg_count(cmd, activate_ARG) && lv_is_cow(lv) &&
lv_is_virtual_origin(origin = origin_from_cow(lv)))
lv = origin;
if ((lv_is_thin_pool_data(lv) || lv_is_thin_pool_metadata(lv) ||
lv_is_cache_pool_data(lv) || lv_is_cache_pool_metadata(lv)) &&
!arg_count(cmd, activate_ARG) &&
!arg_count(cmd, permission_ARG) &&
!arg_count(cmd, setactivationskip_ARG))
/* Rest can be changed for stacked thin pool meta/data volumes */
;
else if (!lv_is_visible(lv) && !lv_is_virtual_origin(lv)) {
log_error("Unable to change internal LV %s directly",
lv->name);
return ECMD_FAILED;
}
if (lv_is_cow(lv) && arg_count(cmd, activate_ARG)) {
origin = origin_from_cow(lv);
if (origin->origin_count < 2)
snaps_msg[0] = '\0';
else if (dm_snprintf(snaps_msg, sizeof(snaps_msg),
" and %u other snapshot(s)",
origin->origin_count - 1) < 0) {
log_error("Failed to prepare message.");
return ECMD_FAILED;
}
if (!arg_count(cmd, yes_ARG) &&
(yes_no_prompt("Change of snapshot %s will also change its "
"origin %s%s. Proceed? [y/n]: ",
display_lvname(lv), display_lvname(origin),
snaps_msg) == 'n')) {
log_error("Logical volume %s not changed.", display_lvname(lv));
return ECMD_FAILED;
}
}
if (arg_is_set(cmd, errorwhenfull_ARG) && !lv_is_thin_pool(lv)) {
log_error("Option --errorwhenfull is only supported with thin pools.");
return ECMD_FAILED;
}
if (arg_count(cmd, persistent_ARG) && lv_is_pool(lv)) {
log_error("Persistent major and minor numbers are not supported with pools.");
return ECMD_FAILED;
}
/*
* FIXME: DEFAULT_BACKGROUND_POLLING should be "unspecified".
* If --poll is explicitly provided use it; otherwise polling
* should only be started if the LV is not already active. So:
* 1) change the activation code to say if the LV was actually activated
* 2) make polling of an LV tightly coupled with LV activation
*
* Do not initiate any polling if --sysinit option is used.
*/
init_background_polling(arg_count(cmd, sysinit_ARG) ? 0 :
arg_int_value(cmd, poll_ARG,
DEFAULT_BACKGROUND_POLLING));
/* access permission change */
if (arg_count(cmd, permission_ARG)) {
if (!archive(lv->vg))
return_ECMD_FAILED;
doit += _lvchange_permission(cmd, lv);
docmds++;
}
/* allocation policy change */
if (arg_count(cmd, contiguous_ARG) || arg_count(cmd, alloc_ARG)) {
if (!archive(lv->vg))
return_ECMD_FAILED;
doit += _lvchange_alloc(cmd, lv);
docmds++;
}
/* error when full change */
if (arg_count(cmd, errorwhenfull_ARG)) {
if (!archive(lv->vg))
return_ECMD_FAILED;
doit += _lvchange_errorwhenfull(cmd, lv);
docmds++;
}
/* read ahead sector change */
if (arg_count(cmd, readahead_ARG)) {
if (!archive(lv->vg))
return_ECMD_FAILED;
doit += _lvchange_readahead(cmd, lv);
docmds++;
}
/* persistent device number change */
if (arg_count(cmd, persistent_ARG)) {
if (!archive(lv->vg))
return_ECMD_FAILED;
doit += _lvchange_persistent(cmd, lv);
docmds++;
if (sigint_caught())
return_ECMD_FAILED;
}
if (arg_count(cmd, discards_ARG) ||
arg_count(cmd, zero_ARG)) {
if (!archive(lv->vg))
return_ECMD_FAILED;
doit += _lvchange_pool_update(cmd, lv);
docmds++;
}
/* add tag */
if (arg_count(cmd, addtag_ARG)) {
if (!archive(lv->vg))
return_ECMD_FAILED;
doit += _lvchange_tag(cmd, lv, addtag_ARG);
docmds++;
}
/* del tag */
if (arg_count(cmd, deltag_ARG)) {
if (!archive(lv->vg))
return_ECMD_FAILED;
doit += _lvchange_tag(cmd, lv, deltag_ARG);
docmds++;
}
/* change writemostly/writebehind */
if (arg_count(cmd, writemostly_ARG) || arg_count(cmd, writebehind_ARG)) {
if (!archive(lv->vg))
return_ECMD_FAILED;
doit += _lvchange_writemostly(lv);
docmds++;
}
/* change [min|max]_recovery_rate */
if (arg_count(cmd, minrecoveryrate_ARG) ||
arg_count(cmd, maxrecoveryrate_ARG)) {
if (!archive(lv->vg))
return_ECMD_FAILED;
doit += _lvchange_recovery_rate(lv);
docmds++;
}
/* change configuration profile */
if (arg_count(cmd, profile_ARG) || arg_count(cmd, metadataprofile_ARG) ||
arg_count(cmd, detachprofile_ARG)) {
if (!archive(lv->vg))
return_ECMD_FAILED;
doit += _lvchange_profile(lv);
docmds++;
}
if (arg_count(cmd, setactivationskip_ARG)) {
if (!archive(lv->vg))
return_ECMD_FAILED;
doit += _lvchange_activation_skip(lv);
docmds++;
}
if (arg_count(cmd, cachepolicy_ARG) || arg_count(cmd, cachesettings_ARG)) {
if (!archive(lv->vg))
return_ECMD_FAILED;
doit += _lvchange_cachepolicy(cmd, lv);
docmds++;
}
if (doit)
log_print_unless_silent("Logical volume \"%s\" changed.", lv->name);
if (arg_count(cmd, resync_ARG) &&
!_lvchange_resync(cmd, lv))
return_ECMD_FAILED;
if (arg_count(cmd, syncaction_ARG) &&
!lv_raid_message(lv, arg_str_value(cmd, syncaction_ARG, NULL)))
return_ECMD_FAILED;
/* activation change */
if (arg_count(cmd, activate_ARG)) {
if (!_lvchange_activate(cmd, lv))
return_ECMD_FAILED;
} else if (arg_count(cmd, refresh_ARG)) {
if (!_lvchange_refresh(cmd, lv))
return_ECMD_FAILED;
} else {
if (arg_count(cmd, monitor_ARG) &&
!_lvchange_monitoring(cmd, lv))
return_ECMD_FAILED;
if (arg_count(cmd, poll_ARG) &&
!_lvchange_background_polling(cmd, lv))
return_ECMD_FAILED;
}
if (doit != docmds)
return_ECMD_FAILED;
return ECMD_PROCESSED;
}
int lvchange(struct cmd_context *cmd, int argc, char **argv)
{
/*
* Options that update metadata should be listed in one of
* the two lists below (i.e. options other than -a, --refresh,
* --monitor or --poll).
*/
int update_partial_safe = /* options safe to update if partial */
arg_count(cmd, contiguous_ARG) ||
arg_count(cmd, permission_ARG) ||
arg_count(cmd, readahead_ARG) ||
arg_count(cmd, persistent_ARG) ||
arg_count(cmd, addtag_ARG) ||
arg_count(cmd, deltag_ARG) ||
arg_count(cmd, metadataprofile_ARG) ||
arg_count(cmd, profile_ARG) ||
arg_count(cmd, detachprofile_ARG) ||
arg_count(cmd, setactivationskip_ARG);
int update_partial_unsafe =
arg_count(cmd, alloc_ARG) ||
arg_count(cmd, discards_ARG) ||
arg_count(cmd, errorwhenfull_ARG) ||
arg_count(cmd, minrecoveryrate_ARG) ||
arg_count(cmd, maxrecoveryrate_ARG) ||
arg_count(cmd, resync_ARG) ||
arg_count(cmd, syncaction_ARG) ||
arg_count(cmd, cachepolicy_ARG) ||
arg_count(cmd, cachesettings_ARG) ||
arg_count(cmd, writebehind_ARG) ||
arg_count(cmd, writemostly_ARG) ||
arg_count(cmd, zero_ARG);
int update = update_partial_safe || update_partial_unsafe;
if (!update &&
!arg_count(cmd, activate_ARG) && !arg_count(cmd, refresh_ARG) &&
!arg_count(cmd, monitor_ARG) && !arg_count(cmd, poll_ARG)) {
log_error("Need 1 or more of -a, -C, -M, -p, -r, -Z, "
"--resync, --refresh, --alloc, --addtag, --deltag, "
"--monitor, --poll or --discards");
return EINVALID_CMD_LINE;
}
if ((arg_count(cmd, profile_ARG) || arg_count(cmd, metadataprofile_ARG)) &&
arg_count(cmd, detachprofile_ARG)) {
log_error("Only one of --metadataprofile and --detachprofile permitted.");
return EINVALID_CMD_LINE;
}
if (arg_count(cmd, activate_ARG) && arg_count(cmd, refresh_ARG)) {
log_error("Only one of -a and --refresh permitted.");
return EINVALID_CMD_LINE;
}
if ((arg_count(cmd, ignorelockingfailure_ARG) ||
arg_count(cmd, sysinit_ARG)) && update) {
log_error("Only -a permitted with --ignorelockingfailure and --sysinit");
return EINVALID_CMD_LINE;
}
if (!update || !update_partial_unsafe)
cmd->handles_missing_pvs = 1;
if (!argc && !arg_is_set(cmd, select_ARG)) {
log_error("Please give logical volume path(s) or use --select for selection.");
return EINVALID_CMD_LINE;
}
if ((arg_count(cmd, minor_ARG) || arg_count(cmd, major_ARG)) &&
!arg_count(cmd, persistent_ARG)) {
log_error("--major and --minor require -My");
return EINVALID_CMD_LINE;
}
if (arg_count(cmd, minor_ARG) && argc != 1) {
log_error("Only give one logical volume when specifying minor");
return EINVALID_CMD_LINE;
}
if (arg_count(cmd, contiguous_ARG) && arg_count(cmd, alloc_ARG)) {
log_error("Only one of --alloc and --contiguous permitted");
return EINVALID_CMD_LINE;
}
if (arg_count(cmd, poll_ARG) && arg_count(cmd, sysinit_ARG)) {
log_error("Only one of --poll and --sysinit permitted");
return EINVALID_CMD_LINE;
}
/*
* If --sysinit -aay is used and at the same time lvmetad is used,
* we want to rely on autoactivation to take place. Also, we
* need to take special care here as lvmetad service does
* not neet to be running at this moment yet - it could be
* just too early during system initialization time.
*/
if (arg_count(cmd, sysinit_ARG) && lvmetad_used() &&
arg_uint_value(cmd, activate_ARG, 0) == CHANGE_AAY) {
if (!lvmetad_socket_present()) {
/*
* If lvmetad socket is not present yet,
* the service is just not started. It'll
* be started a bit later so we need to do
* the activation without lvmetad which means
* direct activation instead of autoactivation.
*/
log_warn("lvmetad is not active yet, using direct activation during sysinit");
lvmetad_set_active(cmd, 0);
} else if (lvmetad_active()) {
/*
* If lvmetad is active already, we want
* to make use of the autoactivation.
*/
log_warn("lvmetad is active, skipping direct activation during sysinit");
return ECMD_PROCESSED;
}
}
if (arg_is_set(cmd, activate_ARG))
cmd->include_active_foreign_vgs = 1;
return process_each_lv(cmd, argc, argv,
update ? READ_FOR_UPDATE : 0, NULL,
&_lvchange_single);
}
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