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lvm2/lib/format_text/flags.c

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/*
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* Copyright (C) 2001-2004 Sistina Software, Inc. All rights reserved.
* Copyright (C) 2004-2013 Red Hat, Inc. All rights reserved.
*
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* 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.
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*
* You should have received a copy of the GNU Lesser General Public License
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* along with this program; if not, write to the Free Software Foundation,
* Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
*/
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#include "lib.h"
#include "metadata.h"
#include "import-export.h"
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#include "lvm-string.h"
/*
* Bitsets held in the 'status' flags get
* converted into arrays of strings.
*/
struct flag {
const uint64_t mask;
const char *description;
int kind;
};
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static const struct flag _vg_flags[] = {
{EXPORTED_VG, "EXPORTED", STATUS_FLAG},
{RESIZEABLE_VG, "RESIZEABLE", STATUS_FLAG},
{PVMOVE, "PVMOVE", STATUS_FLAG},
{LVM_READ, "READ", STATUS_FLAG},
{LVM_WRITE, "WRITE", STATUS_FLAG},
{LVM_WRITE_LOCKED, "WRITE_LOCKED", COMPATIBLE_FLAG},
{CLUSTERED, "CLUSTERED", STATUS_FLAG},
{SHARED, "SHARED", STATUS_FLAG},
{PARTIAL_VG, NULL, 0},
{PRECOMMITTED, NULL, 0},
{ARCHIVED_VG, NULL, 0},
{0, NULL, 0}
};
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static const struct flag _pv_flags[] = {
{ALLOCATABLE_PV, "ALLOCATABLE", STATUS_FLAG},
{EXPORTED_VG, "EXPORTED", STATUS_FLAG},
{MISSING_PV, "MISSING", COMPATIBLE_FLAG},
{UNLABELLED_PV, NULL, 0},
{0, NULL, 0}
};
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static const struct flag _lv_flags[] = {
{LVM_READ, "READ", STATUS_FLAG},
{LVM_WRITE, "WRITE", STATUS_FLAG},
{LVM_WRITE_LOCKED, "WRITE_LOCKED", COMPATIBLE_FLAG},
{FIXED_MINOR, "FIXED_MINOR", STATUS_FLAG},
{VISIBLE_LV, "VISIBLE", STATUS_FLAG},
{PVMOVE, "PVMOVE", STATUS_FLAG},
{LOCKED, "LOCKED", STATUS_FLAG},
{LV_NOTSYNCED, "NOTSYNCED", STATUS_FLAG},
{LV_REBUILD, "REBUILD", STATUS_FLAG},
RAID: Add writemostly/writebehind support for RAID1 'lvchange' is used to alter a RAID 1 logical volume's write-mostly and write-behind characteristics. The '--writemostly' parameter takes a PV as an argument with an optional trailing character to specify whether to set ('y'), unset ('n'), or toggle ('t') the value. If no trailing character is given, it will set the flag. Synopsis: lvchange [--writemostly <PV>:{t|y|n}] [--writebehind <count>] vg/lv Example: lvchange --writemostly /dev/sdb1:y --writebehind 512 vg/raid1_lv The last character in the 'lv_attr' field is used to show whether a device has the WriteMostly flag set. It is signified with a 'w'. If the device has failed, the 'p'artial flag has priority. Example ("nosync" raid1 with mismatch_cnt and writemostly): [~]# lvs -a --segment vg LV VG Attr #Str Type SSize raid1 vg Rwi---r-m 2 raid1 500.00m [raid1_rimage_0] vg Iwi---r-- 1 linear 500.00m [raid1_rimage_1] vg Iwi---r-w 1 linear 500.00m [raid1_rmeta_0] vg ewi---r-- 1 linear 4.00m [raid1_rmeta_1] vg ewi---r-- 1 linear 4.00m Example (raid1 with mismatch_cnt, writemostly - but failed drive): [~]# lvs -a --segment vg LV VG Attr #Str Type SSize raid1 vg rwi---r-p 2 raid1 500.00m [raid1_rimage_0] vg Iwi---r-- 1 linear 500.00m [raid1_rimage_1] vg Iwi---r-p 1 linear 500.00m [raid1_rmeta_0] vg ewi---r-- 1 linear 4.00m [raid1_rmeta_1] vg ewi---r-p 1 linear 4.00m A new reportable field has been added for writebehind as well. If write-behind has not been set or the LV is not RAID1, the field will be blank. Example (writebehind is set): [~]# lvs -a -o name,attr,writebehind vg LV Attr WBehind lv rwi-a-r-- 512 [lv_rimage_0] iwi-aor-w [lv_rimage_1] iwi-aor-- [lv_rmeta_0] ewi-aor-- [lv_rmeta_1] ewi-aor-- Example (writebehind is not set): [~]# lvs -a -o name,attr,writebehind vg LV Attr WBehind lv rwi-a-r-- [lv_rimage_0] iwi-aor-w [lv_rimage_1] iwi-aor-- [lv_rmeta_0] ewi-aor-- [lv_rmeta_1] ewi-aor--
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{LV_WRITEMOSTLY, "WRITEMOSTLY", STATUS_FLAG},
activation: add support for skipping activation of selected LVs Also add -k/--setactivationskip y/n and -K/--ignoreactivationskip options to lvcreate. The --setactivationskip y sets the flag in metadata for an LV to skip the LV during activation. Also, the newly created LV is not activated. Thin snapsots have this flag set automatically if not specified directly by the --setactivationskip y/n option. The --ignoreactivationskip overrides the activation skip flag set in metadata for an LV (just for the run of the command - the flag is not changed in metadata!) A few examples for the lvcreate with the new options: (non-thin snap LV => skip flag not set in MDA + LV activated) raw/~ $ lvcreate -l1 vg Logical volume "lvol0" created raw/~ $ lvs -o lv_name,attr vg/lvol0 LV Attr lvol0 -wi-a---- (non-thin snap LV + -ky => skip flag set in MDA + LV not activated) raw/~ $ lvcreate -l1 -ky vg Logical volume "lvol1" created raw/~ $ lvs -o lv_name,attr vg/lvol1 LV Attr lvol1 -wi------ (non-thin snap LV + -ky + -K => skip flag set in MDA + LV activated) raw/~ $ lvcreate -l1 -ky -K vg Logical volume "lvol2" created raw/~ $ lvs -o lv_name,attr vg/lvol2 LV Attr lvol2 -wi-a---- (thin snap LV => skip flag set in MDA (default behaviour) + LV not activated) raw/~ $ lvcreate -L100M -T vg/pool -V 1T -n thin_lv Logical volume "thin_lv" created raw/~ $ lvcreate -s vg/thin_lv -n thin_snap Logical volume "thin_snap" created raw/~ $ lvs -o name,attr vg LV Attr pool twi-a-tz- thin_lv Vwi-a-tz- thin_snap Vwi---tz- (thin snap LV + -K => skip flag set in MDA (default behaviour) + LV activated) raw/~ $ lvcreate -s vg/thin_lv -n thin_snap -K Logical volume "thin_snap" created raw/~ $ lvs -o name,attr vg/thin_lv LV Attr thin_lv Vwi-a-tz- (thins snap LV + -kn => no skip flag in MDA (default behaviour overridden) + LV activated) [0] raw/~ # lvcreate -s vg/thin_lv -n thin_snap -kn Logical volume "thin_snap" created [0] raw/~ # lvs -o name,attr vg/thin_snap LV Attr thin_snap Vwi-a-tz-
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{LV_ACTIVATION_SKIP, "ACTIVATION_SKIP", COMPATIBLE_FLAG},
{LV_ERROR_WHEN_FULL, "ERROR_WHEN_FULL", COMPATIBLE_FLAG},
{LV_NOSCAN, NULL, 0},
activation: flag temporary LVs internally Add LV_TEMPORARY flag for LVs with limited existence during command execution. Such LVs are temporary in way that they need to be activated, some action done and then removed immediately. Such LVs are just like any normal LV - the only difference is that they are removed during LVM command execution. This is also the case for LVs representing future pool metadata spare LVs which we need to initialize by using the usual LV before they are declared as pool metadata spare. We can optimize some other parts like udev to do a better job if it knows that the LV is temporary and any processing on it is just useless. This flag is orthogonal to LV_NOSCAN flag introduced recently as LV_NOSCAN flag is primarily used to mark an LV for the scanning to be avoided before the zeroing of the device happens. The LV_TEMPORARY flag makes a difference between a full-fledged LV visible in the system and the LV just used as a temporary overlay for some action that needs to be done on underlying PVs. For example: lvcreate --thinpool POOL --zero n -L 1G vg - first, the usual LV is created to do a clean up for pool metadata spare. The LV is activated, zeroed, deactivated. - between "activated" and "zeroed" stage, the LV_NOSCAN flag is used to avoid any scanning in udev - betwen "zeroed" and "deactivated" stage, we need to avoid the WATCH udev rule, but since the LV is just a usual LV, we can't make a difference. The LV_TEMPORARY internal LV flag helps here. If we create the LV with this flag, the DM_UDEV_DISABLE_DISK_RULES and DM_UDEV_DISABLE_OTHER_RULES flag are set (just like as it is with "invisible" and non-top-level LVs) - udev is directed to skip WATCH rule use. - if the LV_TEMPORARY flag was not used, there would normally be a WATCH event generated once the LV is closed after "zeroed" stage. This will make problems with immediated deactivation that follows.
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{LV_TEMPORARY, NULL, 0},
{POOL_METADATA_SPARE, NULL, 0},
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{LOCKD_SANLOCK_LV, NULL, 0},
{RAID, NULL, 0},
{RAID_META, NULL, 0},
{RAID_IMAGE, NULL, 0},
{MIRROR, NULL, 0},
{MIRROR_IMAGE, NULL, 0},
{MIRROR_LOG, NULL, 0},
{MIRRORED, NULL, 0},
{VIRTUAL, NULL, 0},
{SNAPSHOT, NULL, 0},
{MERGING, NULL, 0},
{CONVERTING, NULL, 0},
{PARTIAL_LV, NULL, 0},
{POSTORDER_FLAG, NULL, 0},
{VIRTUAL_ORIGIN, NULL, 0},
{REPLICATOR, NULL, 0},
{REPLICATOR_LOG, NULL, 0},
{THIN_VOLUME, NULL, 0},
{THIN_POOL, NULL, 0},
{THIN_POOL_DATA, NULL, 0},
{THIN_POOL_METADATA, NULL, 0},
{CACHE, NULL, 0},
{CACHE_POOL, NULL, 0},
{CACHE_POOL_DATA, NULL, 0},
{CACHE_POOL_METADATA, NULL, 0},
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{LV_PENDING_DELETE, NULL, 0}, /* FIXME Display like COMPATIBLE_FLAG */
metadata: process_each_lv_in_vg: get the list of LVs to process first, then do the processing This avoids a problem in which we're using selection on LV list - we need to do the selection on initial state and not on any intermediary state as we process LVs one by one - some of the relations among LVs can be gone during this processing. For example, processing one LV can cause the other LVs to lose the relation to this LV and hence they're not selectable anymore with the original selection criteria as it would be if we did selection on inital state. A perfect example is with thin snapshots: $ lvs -o lv_name,origin,layout,role vg LV Origin Layout Role lvol1 thin,sparse public,origin,thinorigin,multithinorigin lvol2 lvol1 thin,sparse public,snapshot,thinsnapshot lvol3 lvol1 thin,sparse public,snapshot,thinsnapshot pool thin,pool private $ lvremove -ff -S 'lv_name=lvol1 || origin=lvol1' Logical volume "lvol1" successfully removed The lvremove command above was supposed to remove lvol1 as well as all its snapshots which have origin=lvol1. It failed to do so, because once we removed the origin lvol1, the lvol2 and lvol3 which were snapshots before are not snapshots anymore - the relations change as we're processing these LVs one by one. If we do the selection first and then execute any concrete actions on these LVs (which is what this patch does), the behaviour is correct then - the selection is done on the *initial state*: $ lvremove -ff -S 'lv_name=lvol1 || origin=lvol1' Logical volume "lvol1" successfully removed Logical volume "lvol2" successfully removed Logical volume "lvol3" successfully removed Similarly for all the other situations in which relations among LVs are being changed by processing the LVs one by one. This patch also introduces LV_REMOVED internal LV status flag to mark removed LVs so they're not processed further when we iterate over collected list of LVs to be processed. Previously, when we iterated directly over vg->lvs list to process the LVs, we relied on the fact that once the LV is removed, it is also removed from the vg->lvs list we're iterating over. But that was incorrect as we shouldn't remove LVs from the list during one iteration while we're iterating over that exact list (dm_list_iterate_items safe can handle only one removal at one iteration anyway, so it can't be used here).
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{LV_REMOVED, NULL, 0},
{0, NULL, 0}
};
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static const struct flag *_get_flags(int type)
{
switch (type & ~STATUS_FLAG) {
case VG_FLAGS:
return _vg_flags;
case PV_FLAGS:
return _pv_flags;
case LV_FLAGS:
return _lv_flags;
}
log_error("Unknown flag set requested.");
return NULL;
}
/*
* Converts a bitset to an array of string values,
* using one of the tables defined at the top of
* the file.
*/
int print_flags(uint64_t status, int type, char *buffer, size_t size)
{
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int f, first = 1;
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const struct flag *flags;
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if (!(flags = _get_flags(type)))
return_0;
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if (!emit_to_buffer(&buffer, &size, "["))
return 0;
for (f = 0; flags[f].mask; f++) {
if (status & flags[f].mask) {
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status &= ~flags[f].mask;
if ((type & STATUS_FLAG) != flags[f].kind)
continue;
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/* Internal-only flag? */
if (!flags[f].description)
continue;
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if (!first) {
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if (!emit_to_buffer(&buffer, &size, ", "))
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return 0;
} else
first = 0;
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if (!emit_to_buffer(&buffer, &size, "\"%s\"",
flags[f].description))
return 0;
}
}
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if (!emit_to_buffer(&buffer, &size, "]"))
return 0;
if (status)
log_warn(INTERNAL_ERROR "Metadata inconsistency: "
"Not all flags successfully exported.");
return 1;
}
int read_flags(uint64_t *status, int type, const struct dm_config_value *cv)
{
int f;
uint64_t s = UINT64_C(0);
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const struct flag *flags;
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if (!(flags = _get_flags(type)))
return_0;
if (cv->type == DM_CFG_EMPTY_ARRAY)
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goto out;
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while (cv) {
if (cv->type != DM_CFG_STRING) {
log_error("Status value is not a string.");
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return 0;
}
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for (f = 0; flags[f].description; f++)
if (!strcmp(flags[f].description, cv->v.str)) {
s |= flags[f].mask;
break;
}
if (type == VG_FLAGS && !strcmp(cv->v.str, "PARTIAL")) {
/*
* Exception: We no longer write this flag out, but it
* might be encountered in old backup files, so restore
* it in that case. It is never part of live metadata
* though, so only vgcfgrestore needs to be concerned
* by this case.
*/
s |= PARTIAL_VG;
} else if (!flags[f].description && (type & STATUS_FLAG)) {
log_error("Unknown status flag '%s'.", cv->v.str);
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return 0;
}
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cv = cv->next;
}
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out:
*status |= s;
return 1;
}