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lvm2/scripts/gdbinit

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# Copyright (C) 2011 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
#
# Author(s):
# Jonathan Brassow <jbrassow@redhat.com>
#
# Copy this file to ~/.gdbinit or <working_dir>/.gdbinit
printf "\n\n"
printf "Loading commands:\n"
printf " - dm_list_size <list ptr>\n"
printf " - pv_dev_name <PV ptr>\n"
printf " - first_seg <LV ptr>\n"
printf " - lv_status <LV ptr>\n"
printf " - lv_status_r <LV ptr>\n"
printf " - lv_is_mirrored <LV ptr>\n"
printf " - seg_item <seg ptr> <index>\n"
printf " - seg_status <seg ptr>\n"
printf " - segs_using_this_lv <seg ptr>\n"
printf " - seg_pvs <list ptr>\n"
printf " - \n"
printf "Use 'help <command>' for more info\n"
printf "\n\n"
printf "Popular breakpoints:\n"
printf "break _alloc_image_components\n"
printf "run --repair --use-policies vg/lv\n"
printf "\n\n"
set follow-fork-mode child
# Conventions:
# foo : function named 'foo' available to user
# __foo : an internal function
#
# External functions should have a corresponding 'document'
# section. Internal functions should have leading comments
define dm_list_size
set $_DLS_list_head = (struct dm_list *)$arg0
set $_DLS_list = $_DLS_list_head->n
set $_DLS_size = 0
while (($_DLS_list != $_DLS_list_head) && ($_DLS_size < 100))
set $_DLS_list = $_DLS_list->n
set $_DLS_size++
end
printf "%d list items\n", $_DLS_size
end
document dm_list_size
Returns the number of elements in the dm_list
Usage: dm_list_size <list ptr>
end
define pv_dev_name
set $_PDN_pv = (struct physical_volume *)$arg0
set $_PDN_dev = $_PDN_pv->dev
set $_PDN_strl = (struct str_list *)$_PDN_dev->aliases.n
printf "%s\n", $_PDN_strl->str
end
document pv_dev_name
Print the name of the PV for the given PV pointer
Usage: pv_dev_name <PV ptr>
end
define seg_pvs
set $_SP_list_head = (struct dm_list *)$arg0
set $_SP_list = $_SP_list_head->n
while (($_SP_list != $_SP_list_head) && ($_SP_size < 100))
set $_SP_spv = (struct seg_pvs *)$_SP_list
printf "* Can't print PV list\n"
set $_SP_list = $_SP_list->n
end
printf "%d list items\n", $_SP_size
end
document seg_pvs
Print the elements of a seg_pvs list
Usage: seg_pvs <list ptr>
end
#
# __first_seg <return> <LV>
define __first_seg
set $arg0 = 0x0
set $_FS_lv = (struct logical_volume *)$arg1
if ($_FS_lv->segments.n != &$_FS_lv->segments)
set $arg0 = (struct lv_segment *)$_FS_lv->segments.n
end
end
define first_seg
set $_seg = 0
set $_lv=(struct logical_volume *)$arg0
__first_seg $_seg $_lv
if ($_seg)
p $_seg
else
printf "No segments (list empty)\n"
end
end
document first_seg
Returns the pointer to the first segment of an LV
Usage: first_seg <LV ptr>
WARNING: If the list pointer in 'struct lv_segment' moves,
this function will be wrong.
end
#
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# __seg_type <return> <seg> <index>
define __seg_type
set $arg0 = 0x0
set $_ST_seg = (struct lv_segment *)$arg1
set $_ST_index= $arg2
set $_ST_area = $_ST_seg->areas[$_ST_index]
set $_ST_type = $_ST_area.type
set $arg0 = $_ST_type
end
#
# __seg_item <return> <seg> <index>
define __seg_item
set $arg0 = 0x0
set $_SI_seg = (struct lv_segment *)$arg1
set $_SI_index= $arg2
if ($_SI_index < $_SI_seg->area_count)
set $_SI_area = $_SI_seg->areas[$_SI_index]
set $_SI_type = $_SI_area.type
if ($_SI_type == AREA_PV)
set $arg0 = $_SI_area.u.pv.pvseg->pv
else
if ($_SI_type == AREA_LV)
set $arg0 = $_SI_area.u.lv.lv
end
end
end
end
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#
# __seg_metaitem <return> <seg> <index>
define __seg_metaitem
set $arg0 = 0x0
set $_SMI_seg = (struct lv_segment *)$arg1
set $_SMI_index= $arg2
if (($_SMI_index < $_SMI_seg->area_count) && $_SMI_seg->meta_areas)
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set $_SMI_area = $_SMI_seg->meta_areas[$_SMI_index]
set $_SMI_type = $_SMI_area.type
if ($_SMI_type == AREA_PV)
set $arg0 = $_SMI_area.u.pv.pvseg->pv
else
if ($_SMI_type == AREA_LV)
set $arg0 = $_SMI_area.u.lv.lv
end
end
end
end
define seg_item
set $_item = 0x0
__seg_item $_item $arg0 $arg1
if ($_item)
p $_item
else
printf "AREA_UNASSIGNED or invalid\n"
end
end
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define seg_metaitem
set $_metaitem = 0x0
__seg_metaitem $_metaitem $arg0 $arg1
if ($_metaitem)
p $_metaitem
else
printf "AREA_UNASSIGNED or invalid\n"
end
end
document seg_item
Returns the pointer to the LV or PV for the indexed area of a segment
Usage: seg_item <struct lv_segment *> <index>
Example - Getting to the sub-lv of a mirror:
(gdb) p lv->name
$1 = 0x712548 "lv"
(gdb) first_seg lv
$2 = (struct lv_segment *) 0x7128b8
(gdb) seg_item $2 0
$3 = (struct logical_volume *) 0x712688
(gdb) p $3->name
$4 = 0x712770 "lv_mimage_0"
end
define __status
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set $_s_status = $arg0->status
# Constants defined in metadata-exported.h
# if ($_s_status & RAID)
if ($_s_status & 0x0000000100000000LU)
set $_s_status = $_s_status & ~0x0000000100000000LU
printf " RAID"
end
# if ($_s_status & RAID_META)
if ($_s_status & 0x0000000200000000LU)
set $_s_status = $_s_status & ~0x0000000200000000LU
printf " RAID_META"
end
# if ($_s_status & RAID_IMAGE)
if ($_s_status & 0x0000000400000000LU)
set $_s_status = $_s_status & ~0x0000000400000000LU
printf " RAID_IMAGE"
end
# if ($_s_status & MIRRORED)
if ($_s_status & 0x00008000U)
set $_s_status = $_s_status & ~0x00008000U
printf " MIRRORED"
end
# if ($_s_status & MIRROR_LOG)
if ($_s_status & 0x00020000U)
set $_s_status = $_s_status & ~0x00020000U
printf " MIRROR_LOG"
end
# if ($_s_status & MIRROR_IMAGE)
if ($_s_status & 0x00040000U)
set $_s_status = $_s_status & ~0x00040000U
printf " MIRROR_IMAGE"
end
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# if ($_s_status & VISIBLE_LV)
if ($_s_status & 0x00000040U)
printf " VISIBLE_LV"
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set $_s_status = $_s_status & ~0x00000040U
else
printf " *HIDDEN_LV*"
end
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# if ($_s_status & FIXED_MINOR)
if ($_s_status & 0x00000080U)
set $_s_status = $_s_status & ~0x00000080U
printf " FIXED_MINOR"
end
# if ($_s_status & LVM_READ)
if ($_s_status & 0x00000100U)
set $_s_status = $_s_status & ~0x00000100U
printf " LVM_READ"
end
# if ($_s_status & LVM_WRITE)
if ($_s_status & 0x00000200U)
set $_s_status = $_s_status & ~0x00000200U
printf " LVM_WRITE"
end
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# if ($_s_status & SNAPSHOT)
if ($_s_status & 0x00001000U)
set $_s_status = $_s_status & ~0x00001000U
printf " SNAPSHOT"
end
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# if ($_s_status & PVMOVE)
if ($_s_status & 0x00002000U)
set $_s_status = $_s_status & ~0x00002000U
printf " PVMOVE"
end
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# if ($_s_status & LOCKED)
if ($_s_status & 0x00004000U)
set $_s_status = $_s_status & ~0x00004000U
printf " LOCKED"
end
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# if ($_s_status & LV_NOTSYNCED)
if ($_s_status & 0x00080000U)
set $_s_status = $_s_status & ~0x00080000U
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printf " LV_NOTSYNCED"
end
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# if ($_s_status & CONVERTING)
if ($_s_status & 0x00400000U)
set $_s_status = $_s_status & ~0x00400000U
printf " CONVERTING"
end
# if ($_s_status & LV_REBUILD)
if ($_s_status & 0x100000U)
set $_s_status = $_s_status & ~0x100000U
printf " LV_REBUILD"
end
# if ($_s_status & PARTIAL_LV)
if ($_s_status & 0x1000000U)
set $_s_status = $_s_status & ~0x1000000U
printf " PARTIAL_LV"
end
# if ($_s_status & MERGING)
if ($_s_status & 0x10000000U)
set $_s_status = $_s_status & ~0x10000000U
printf " MERGING"
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end
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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# if ($_s_status & LV_WRITEMOSTLY)
if ($_s_status & 0x10000000000U)
set $_s_status = $_s_status & ~0x10000000000U
printf " LV_WRITEMOSTLY"
end
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if ($_s_status)
printf " 0x%x", $_s_status
end
end
#
# __print_indent <num indents> [No marks]
define __print_indent
set $_PI_indent = $arg0
set $_PI_lead_mark = 0
while ($_PI_indent)
if ($_PI_indent == 1)
if ($argc > 1)
if ($_PI_lead_mark)
printf " "
else
printf "| "
end
else
printf "|-----> "
end
else
printf "| "
set $_PI_lead_mark = 1
end
set $_PI_indent--
end
end
define lv_status
# Use __lv because we don't want to overwrite higher functions
set $__lv = (struct logical_volume *)$arg0
if ($argc == 2)
__print_indent $arg1
end
printf "%s->status:", $__lv->name
__status $__lv
printf "\n"
end
document lv_status
Display the flags that are set on an LV.
Usage: lv_status <LV ptr>
end
define seg_status
set $_seg=(struct lv_segment *)$arg0
if ($argc == 2)
__print_indent $arg1 1
end
printf "[ (%s) seg->status:", $_seg->lv->name
__status $_seg
printf " ]\n"
end
document seg_status
Display the flags that are set on an lv_segment.
Usage: seg_status <(struct lv_segment *)>
end
#
# get_only_segment_using_this_lv <return> <LV>
define __get_only_segment_using_this_lv
set $arg0 = 0x0
set $_lv=(struct logical_volume *)$arg1
set $_seg_list_head = &$_lv->segs_using_this_lv
set $_s = $_lv->segs_using_this_lv.n
set $_i = 0
while (($_s != $_seg_list_head) && ($_i < 100))
set $_seg_list = (struct seg_list *)$_s
set $_seg = (struct lv_segment *)$_seg_list->seg
set $_i++
set $_s = $_s->n
end
if ($_i > 1)
printf "More than %s using %s\n", ($_i > 99) ? "100 segments" : "one segment", $_lv->name
end
if ($_i == 1)
set $arg0 = $_seg
end
end
define segs_using_this_lv
set $_lv=(struct logical_volume *)$arg0
set $_seg_list_head = &$_lv->segs_using_this_lv
set $_s = $_lv->segs_using_this_lv.n
set $_i = 0
if ($_s != $_seg_list_head)
printf "Segments using %s\n", $_lv->name
else
printf "No segments using %s\n", $_lv->name
end
while ($_s != $_seg_list_head)
set $_seg_list = (struct seg_list *)$_s
set $_seg = (struct lv_segment *)$_seg_list->seg
printf " %d) seg: %p", $_i, $_seg
if ($_seg->lv < 0x200)
printf " [BAD LV POINTER FROM THIS SEG]\n"
else
printf " [seg found in %s]\n", $_seg->lv->name
end
set $_i++
set $_s = $_s->n
end
end
document segs_using_this_lv
Display the segments (and their associated LV) using an LV
Usage: segs_using_this_lv <LV ptr>
Example:
(gdb) lv_is_mirrored lv
lv is mirrored ('core' log)
(gdb) segs_using_this_lv lv
No segments using lv
(gdb) first_seg lv
$1 = (struct lv_segment *) 0x92d360
(gdb) seg_item $1 0
$2 = (struct logical_volume *) 0x928f58
(gdb) segs_using_this_lv $2
Segments using lv_mimage_0
0) seg: 0x92d360 [seg found in lv]
end
#
# __next_area_index <return> <seg> <seg_item>
define __next_area_index
set $arg0 = 0x0
set $_seg = (struct lv_segment *)$arg1
set $_item = 0x0
set $_i = 0
__seg_item $_item $_seg $_i
while ($_item && ($_item != $arg2))
set $_i++
__seg_item $_item $_seg $_i
end
# $_i points to current, now get next (if there)
set $_i++
__seg_item $_item $_seg $_i
if ($_item)
set $arg0 = $_i
end
end
#
# __lv_status_r <LV>
# Decend tree, printing LV and seg status as we go. This
# performs a depth first approach (but can't come up)
#
# or
#
# __lv_status_r <sub_lv> <seg using sub_lv>
# Try continuing decent of tree by first shifting to the
# next 'area' in the seg ($arg1). If no more areas, then
# try going to the next segment.
define __lv_status_r
if ($argc == 1)
set $_lv=(struct logical_volume *)$arg0
set $_seg_list_head = &$_lv->segments
set $_s = $_lv->segments.n
set $_area_index = 0
# printf "\n"
lv_status $_lv $indent
else
set $_seg = (struct lv_segment *)$arg1
__next_area_index $_area_index $_seg $arg0
# Don't fuck this up. We need the next two lines here.
set $_lv=(struct logical_volume *)$_seg->lv
set $_seg_list_head = &$_lv->segments
set $_s = (struct dm_list *)$_seg
if (!$_area_index)
set $_s = $_s->n
end
end
if ($_s == $_seg_list_head)
if ($argc == 1)
__print_indent $indent 1
printf "[ No segments for %s ]\n", $_lv->name
end
__get_only_segment_using_this_lv $_seg $_lv
if ($_seg && $indent)
set $indent--
__lv_status_r $_lv $_seg
end
else
set $_seg = (struct lv_segment *)$_s
set $_type = 0x0
if (!$_area_index)
seg_status $_seg $indent
end
__seg_type $_type $_seg $_area_index
if ($_type == AREA_LV)
set $indent++
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__seg_metaitem $_lv $_seg $_area_index
if ($_lv)
set $rindent = $indent
set $rseg = $_seg
set $rarea_index = $_area_index
set $rlv = $_lv
__lv_status_r $_lv
set $indent = $rindent
set $_seg = $rseg
set $_area_index = $rarea_index
set $_lv = $rlv
end
__seg_item $_lv $_seg $_area_index
__lv_status_r $_lv
else
if ($_seg->log_lv)
set $indent++
set $_log_seg = 0x0
__first_seg $_log_seg $_seg->log_lv
lv_status $_seg->log_lv $indent
seg_status $_log_seg $indent
set $indent--
end
__get_only_segment_using_this_lv $_seg $_lv
if ($_seg)
set $indent--
__lv_status_r $_lv $_seg
end
end
end
end
define lv_status_r
set $indent = 0
__lv_status_r $arg0
end
document lv_status_r
Display the status flags of an LV and its sub_lvs.
Usage: lv_status_r <LV ptr>
This function is useful for checking that all the LVs that
compose a logical volume have the correct flags set (and also
their associated lv_segments)
end
define lv_is_mirrored
set $_lv=(struct logical_volume *)$arg0
set $_fs=(struct lv_segment *)$_lv->segments.n
set $_log_lv=(struct logical_volume *)$_fs->log_lv
# if ($_lv->status & MIRRORED)
if ($_lv->status & 0x00008000U)
printf "%s is mirrored (", $_lv->name
if ($_log_lv)
if ($_log_lv->status & 0x00008000U)
printf "'mirrored' log)\n"
else
printf "'disk' log)\n"
end
else
printf "'core' log)\n"
end
else
printf "%s is not mirrored\n", $_lv->name
end
end
document lv_is_mirrored
Report whether the given LV is mirrored (and its log type).
Usage: lv_is_mirrored <LV ptr>
end