/lib/bilibop/common.sh is in bilibop-common 0.5.4.
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#
# Copyright (C) 2011-2017, Yann Amar <quidame@poivron.org>
# License GPL-3.0+
#
# 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 3 of the License, or
# (at your option) any later version.
#
# This package 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, see <http://www.gnu.org/licenses/>.
# Or write to the Free Software Foundation, Inc., 59 Temple Place,
# Suite 330, Boston, MA 02111-1307 USA.
#
# On Debian systems, the complete text of the GNU General
# Public License version 3 can be found in "/usr/share/common-licenses/GPL-3".
# For tests and debug purposes, set it to 'true':
[ "${DEBUG}" = "true" ] || DEBUG="false"
# README {{{
#
#> We assume that the commands in /usr/bin are not available (awk, cut, tail,
# and others), and then are replaced by grep and sed heuristics.
#> We assume, even if it is not often, that /etc/udev/udev.conf can have been
# modified and that 'udev_root' can be something else than '/dev'.
#> dm-crypt/LUKS, LVM, loopback, and aufs root filesystems (and combinations
# of them) are now fully supported. Btrfs and overlay filesystems are also
# partially supported (not fully tested).
#> Functions that just output informations about devices/filesystems can be
# called by any unprivileged user.
# Shell compatibility ======================================================={{{
# The bilibop-common shell functions use a lot of variable subtitutions and
# builtin commands. Some of them can not work with some shells. The functions
# have been tested:
# 1. with a lot of multilayer settings (combinations of LVM, LUKS, loop and
# aufs)
# 2. by running the following script (where ${SHELL} is replaced by /bin/dash,
# /bin/bash, /bin/sash -f, /bin/posh, /bin/busybox sh, /bin/ksh, /bin/zsh,
# or /usr/lib/klibc/bin/sh.shared, etc.):
# ----------
# #!${SHELL}
# PATH=/bin ; . /lib/bilibop/common.sh ; get_udev_root ; physical_hard_disk
# ----------
# 3. by running the previous script with /bin/sh as ${SHELL} and linking
# /bin/sh successively to dash, bash, sash, posh, busybox, ksh, zsh, or
# /usr/lib/klibc/bin/sh.shared, etc.
#
# This has been tested and works with:
# - /bin/bash
# - /bin/dash
# - /bin/busybox sh
# - /usr/lib/klibc/bin/sh.shared
# which are the default available shells on a Debian system (bash, dash) and
# its initramdisk built with initramfs-tools (busybox sh, klibc sh.shared).
#
# And also works with:
# - /bin/mksh
# - /bin/mksh-static
# - /bin/bash-static
# - /bin/posh
# - /bin/zsh4
#
# This has been tested and works under certain conditions with:
# - /bin/sash Works when the script begins with #!/bin/sash -f, but not
# when it begins with #!/bin/sh and /bin/sh is linked to
# sash.
#
# This has been tested and don't work with:
# - /bin/pdksh (this shell has no 'printf' builtin)
# - /bin/ksh93 (this shell has no 'local' builtin)
# - /usr/bin/yash (this shell has no 'local' builtin, and '[' is not
# implemented when the shell is called as 'sh'; and in all
# cases, yash being in /usr/bin, it should be considered as
# unusable for bilibop purposes)
#
# Because the 'echo' builtin command is not samely implemented in all shells
# (especially the '-e' option is implicit in dash's echo), we never use this
# command with options, and never use escaped characters (\t, \n, \c...) in
# the string to echo.
# }}}
# Needed external commands: ================================================={{{
# Here is a table of external GNU commands used in the following functions.
# Some of them having different options and behaviors when they are provided
# by 'busybox' or 'klibc', we note here which are working or not in the context
# of these functions (this is a base to write an initramfs-tools hook). 'YES'
# means it works, 'NO' means it don't, and '-' means it is not provided.
#
# GNU tools busybox builtins klibc commands
# ------------------------------------------------------------------------------
# /bin/cat YES YES
# /bin/df YES -
# /bin/grep YES -
# /bin/readlink YES NO
# /bin/sed YES -
# /bin/udevadm - -
#
# Now we can say:
# - there is no need to add 'cat'.
# - 'udevadm' must be added (we assume udev provides a hook to do that).
# - if 'busybox' is not added into the initramdisk, we have to use the 'df',
# 'grep', 'readlink' and 'sed' GNU commands.
# So, if busybox is not available into the initramdisk:
# * add 'df', 'grep' and 'sed'
# * replace the klibc's 'readlink' by the GNU one
#
# }}}
# Needed files: ============================================================={{{
# To run correctly, the bilibop functions need to read informations into some
# virtual files or directory, especially:
#
# /dev/* (or ${udev_root}/*)
# /dev/block/*
# /proc/cmdline
# /proc/filesystems
# /proc/mounts
# /proc/partitions
# /sys/block/sd?/removable
# /sys/block/dm-?/slaves
# /sys/block/loop?*/loop/backing_file
# /sys/class/block/*/dev
# /sys/fs/aufs/si_*/br?
#
# So we assume that /dev, /proc and /sys are mounted. If you have to use this
# file from into a chrooted environment, you have to do something like that:
#
# # mount DEVICE /mnt
# # mount -t sysfs -o nodev,noexec,nosuid sysfs /mnt/sys
# # mount -t proc -o nodev,noexec,nosuid proc /mnt/proc
# # mount -t devtmpfs -o mode=0755 udev /mnt/dev
# and optionally:
# # mount -t tmpfs -o nosuid,nodev tmpfs /mnt/tmp
# # mount -t tmpfs -o nosuid,size=10%,mode=0755 tmpfs /mnt/run
# # mkdir -p /mnt/dev/pts /mnt/run/lock /mnt/run/shm
# # mount -t devpts -o noexec,nosuid,gid=5,mode=0620 devpts /mnt/dev/pts
# # mount -t tmpfs -o noexec,nodev,nosuid,size=10% tmpfs /mnt/run/lock
# # mount -t tmpfs -o nosuid,nodev tmpfs /mnt/run/shm
# and finally:
# # chroot /mnt
# }}}
# }}}
# bilibop_common_functions() ================================================{{{
# What we want is: output a list of useful bilibop functions, to use them
# manually.
bilibop_common_functions() {
get_udev_root
cat >&2 <<EOF
aufs_dirs <MOUNTPOINT>
aufs_mountpoints
aufs_readonly_branch <MOUNTPOINT>
aufs_writable_branch <MOUNTPOINT>
backing_file_from_loop <DEVICE>
device_nodes
device_node_from_major_minor <MAJ:MIN>
device_id_of_file <FILE|DIR>
find_mountpoint <FILE|DIR>
get_biliop_variables
is_aufs_mountpoint [-q] <MOUNTPOINT>
is_btrfs_mountpoint [-q] <MOUNTPOINT>
is_overlay_mountpoint [-q] <MOUNTPOINT>
is_removable <DEVICE>
mapper_name_from_dm_node <DEVICE>
major_minor_from_device_node <DEVICE>
physical_hard_disk [FILE|DIR|DEVICE]
query_sysfs_attrs <DEVICE>
query_udev_envvar <DEVICE>
underlying_device <FILE|DIR|DEVICE>
underlying_device_from_aufs <MOUNTPOINT>
underlying_device_from_btrfs <MOUNTPOINT>
underlying_device_from_overlayfs <MOUNTPOINT>
underlying_device_from_device <DEVICE>
underlying_device_from_dm <DEVICE>
underlying_device_from_file <FILE|DIR>
underlying_device_from_loop <DEVICE>
underlying_partition <FILE|DIR|DEVICE>
EOF
}
# ===========================================================================}}}
### INTERNAL FUNCTIONS ###
### The following functions can be called by others in this file, except the
### last one, 'physical_hard_disk'.
### Here is the main function's dependency tree {{{
#
# physical_hard_disk
# |__underlying_partition
# |__underlying_device
# | |__underlying_device_from_device
# | | |__underlying_device_from_dm
# | | |__underlying_device_from_loop
# | | |__backing_file_from_loop
# | | |__device_id_of_file
# | | |__underlying_device_from_file __ see below
# | | |__device_node_from_major_minor vvvvvvvvv
# | |
# | |__underlying_device_from_file _<<_<<_<<_ possible loop entry point
# | |__device_id_of_file |
# | |__find_mountpoint |
# | |__is_aufs_mountpoint |
# | | |__canonical |
# | | |
# | |__underlying_device_from_aufs |
# | | |__aufs_readonly_branch |
# | | | |__aufs_dirs_if_brs0 |
# | | | | |__is_aufs_mountpoint |
# | | | | |__canonical |
# | | | | |
# | | | |__aufs_si_directory |
# | | | |__is_aufs_mountpoint |
# | | | |__canonical |
# | | | |
# | | |__device_id_of_file |
# | | |__underlying_device_from_file _>>_| possible loop entry point
# | | |__device_node_from_major_minor |
# | | |
# | |__is_overlay_mountpoint |
# | | |__canonical |
# | | |
# | |__underlying_device_from_overlayfs |
# | | |__overlay_lowerdir |
# | | | |__is_overlay_mountpoint |
# | | | | |__canonical |
# | | | | |
# | | | |__canonpath |
# | | | |
# | | |__device_id_of_file |
# | | |__underlying_device_from_file _>>_| possible loop entry point
# | | |__device_node_from_major_minor
# | |
# | |__is_btrfs_mountpoint
# | | |__canonical
# | |
# | |__underlying_device_from_btrfs
# | |__device_node_from_major_minor
# |
# |__underlying_device_from_device
# |__underlying_device_from_dm
# |__underlying_device_from_loop
# |__backing_file_from_loop
# |__device_id_of_file ^^^^^^^^^
# |__underlying_device_from_file __ see above
# |__device_node_from_major_minor
#
# }}}
# canonical() ==============================================================={{{
# What we want is: remove trailing slash of a directory name (to match with the
# /proc/mounts mountpoints, between others). Another solution? Maybe:
# local arg="${1%/}"; echo "${arg:-/}"
# But this is a little bit different: if $1 is empty, the output is "/". Try
# again.
canonical() {
${DEBUG} && echo "> canonical $@" >&2
case "${1}" in
/) echo "/" ;;
*) echo "${1%/}" ;;
esac
}
# ===========================================================================}}}
# canonpath() ==============================================================={{{
# What we want is: canonicalize a pathname even if the file (and even its
# parent directories) does not exist. Just do not try to resolve any part of
# the path; instead, rely only on path separators and specific patterns that
# allow us to logically shorten the path.
canonpath() {
${DEBUG} && echo "> canonpath $@" >&2
local pathname
case "${1}" in
"") return 0;;
/*) pathname="${1}";;
*) pathname="${PWD}/${1}";;
esac
while true; do
case "${pathname}" in
*//*|*/./*|*/../*|*/|*/.|*/..)
pathname="$(echo "${pathname}" | sed -re 's,(/+\.?)+/+,/,g; s,^(/+\.\.)+(/+|$),/,; s,[^/]+/+\.\.(/+|$),/,; s,/+,/,g; s,(/+\.?)+$,,')"
;;
"")
echo "/"
break
;;
*)
echo "${pathname}"
break
;;
esac
done
}
# ===========================================================================}}}
# find_mountpoint() ========================================================={{{
# What we want is: output the mountpoint of the filesystem the file or directory
# given as argument depends is onto. Because it outputs the last field of the
# last line of the 'df' output, df don't need the '-P' (POSIX format) option,
# and so we are sure it works with all df commands or builtins (busybox).
# The use of directories is to work around overlayfs design (files and dirs are
# not treated the same way, see "stat inconsistency with overlayfs" thread in
# http://www.spinics.net/lists/linux-unionfs/index.html#00197). In my tests,
# the only one case where replacing a file path by its dirname may affect the
# result of df, stat... is for bind-mounted files (and when the two files are
# not on the same fs).
find_mountpoint() {
${DEBUG} && echo "> find_mountpoint $@" >&2
if [ -d "${1}" ]
then df "${1}"
else df "${1%/*}"
fi |
sed -ne '$s,.* \([^[:blank:]]\+\)$,\1,p'
}
# ===========================================================================}}}
# device_node_from_major_minor() ============================================{{{
# What we want is: translate the 'major:minor' given as argument to the
# corresponding device node. What is the best way?
device_node_from_major_minor() {
${DEBUG} && echo "> device_node_from_major_minor $@" >&2
local dev="$(readlink -f /sys/dev/block/${1})"
[ -b "${udev_root}/${dev##*/}" ] && echo "${udev_root}/${dev##*/}"
}
# ===========================================================================}}}
# device_id_of_file() ======================================================={{{
# What we want is: output the major:minor of the filesystem containing the
# file or directory given as argument. See the 'find_mountpoint()' function
# above, and its comments about "stat inconsistency with overlayfs".
device_id_of_file() {
${DEBUG} && echo "> device_id_of_file $@" >&2
if [ -d "${1}" ]
then udevadm info --device-id-of-file "${1}"
else udevadm info --device-id-of-file "${1%/*}"
fi
}
# ===========================================================================}}}
# is_btrfs_mountpoint() ====================================================={{{
# What we want is: check if a directory given as argument is a btrfs mountpoint
# and print the corresponding line from /proc/mounts. Accepts the '-q' (quiet)
# option: print nothing, but return a 0/1 exit value. This is due to the fact
# that btrfs mountpoints get 0 as their major device ID.
is_btrfs_mountpoint() {
${DEBUG} && echo "> is_btrfs_mountpoint $@" >&2
local opt=
case "${1}" in
-*)
opt="${1}"
shift ;;
esac
grep ${opt} "^[^ ]\+ $(canonical ${1}) btrfs " /proc/mounts
}
# ===========================================================================}}}
# is_aufs_mountpoint() ======================================================{{{
# What we want is: check if a directory given as argument is an aufs mountpoint
# and print the corresponding line from /proc/mounts. Accepts the '-q' (quiet)
# option: print nothing, but return a 0/1 exit value.
is_aufs_mountpoint() {
${DEBUG} && echo "> is_aufs_mountpoint $@" >&2
local opt=
case "${1}" in
-*)
opt="${1}"
shift ;;
esac
grep ${opt} "^[^ ]\+ $(canonical ${1}) aufs " /proc/mounts
}
# ===========================================================================}}}
# aufs_si_directory() ======================================================={{{
# What we want is: output the sysfs directory where informations can be found
# about an aufs mount point given as argument.
aufs_si_directory() {
${DEBUG} && echo "> aufs_si_directory $@" >&2
is_aufs_mountpoint "${1}" | sed -e 's|.*si=\([^ ,]\+\).*|/sys/fs/aufs/si_\1|'
}
# ===========================================================================}}}
# aufs_dirs_if_brs0() ======================================================={{{
# What we want is: output all the underlying mountpoints (called branches) an
# aufs filesystem given as argument is made of, by parsing /proc/mounts. This
# needs aufs module loaded with brs=0 parameter (not the default).
aufs_dirs_if_brs0() {
${DEBUG} && echo "> aufs_dirs_if_brs0 $@" >&2
is_aufs_mountpoint "${1}" | sed -e 's@.*[ ,]br:\([^ ,]\+\).*@\1@ ; s@:@ @g'
}
# ===========================================================================}}}
# aufs_readonly_branch() ===================================================={{{
# What we want is: output the lower (readonly) branch of an aufs mount point
# given as argument.
aufs_readonly_branch() {
${DEBUG} && echo "> aufs_readonly_branch $@" >&2
local br
case "$(cat /sys/module/aufs/parameters/brs)" in
0)
for br in $(aufs_dirs_if_brs0 "${1}")
do
echo ${br} | grep -q '=r[or]\(+wh\)\?$' &&
echo ${br%\=r*}
done
;;
*)
for br in $(aufs_si_directory "${1}")/br?
do
grep '=r[or]\(+wh\)\?$' ${br} | sed -e 's,=r[or].*,,'
done
;;
esac
}
# ===========================================================================}}}
# is_overlay_mountpoint() ==================================================={{{
# What we want is: check if a directory given as argument is an overlayfs
# mountpoint and print the corresponding line from /proc/mounts. Accepts the
# '-q' (quiet) option: print nothing, but return a 0/1 exit value.
is_overlay_mountpoint() {
${DEBUG} && echo "> is_overlay_mountpoint $@" >&2
local opt=
case "${1}" in
-*)
opt="${1}"
shift ;;
esac
grep ${opt} "^[^ ]\+ $(canonical ${1}) overlay " /proc/mounts
}
# ===========================================================================}}}
# overlay_lowerdir() ========================================================{{{
# What we want is: output the lowerdir (readonly branch) of an overlayfs mount
# point given as argument.
overlay_lowerdir() {
${DEBUG} && echo "> overlay_lowerdir $@" >&2
canonpath $(is_overlay_mountpoint "${1}" | sed -e 's@.*[ ,]lowerdir=\([^ ,]\+\).*@\1@ ; s@/\+@/@g')
}
# ===========================================================================}}}
# backing_file_from_loop() =================================================={{{
# What we want is: output the backing file of a loopback device given as
# argument. This requires kernel >= 2.6.37. Great thing! Before that, it was
# necessary to call losetup (as root) and parse its output, with possible
# failures: the filename is truncated (currently 64 characters) and even,
# depending on the version of the command or its implementation, it can be
# relative to the directory from where the command was called to setup the
# device... an other solution is to parse the output of losetup and use
# the major:minor of the device and the inode number of the file to find it.
# Pfff! See now:
backing_file_from_loop() {
${DEBUG} && echo "> backing_file_from_loop $@" >&2
[ -f /sys/block/${1##*/}/loop/backing_file ] &&
cat /sys/block/${1##*/}/loop/backing_file
}
# ===========================================================================}}}
# underlying_device_from_loop() ============================================={{{
# What we want is: output the underlying device of a loop device given as
# argument. If the loop device is associated to a block device, then output it;
# otherwise, find the device from its major:minor numbers. This function has
# been entirely rewritten to not depend on losetup, but requires kernel version
# >= 2.6.37.
underlying_device_from_loop() {
${DEBUG} && echo "> underlying_device_from_loop $@" >&2
local lofile="$(backing_file_from_loop ${1})" || return 1
if [ -b "${lofile}" ]
then readlink -f "${lofile}"
else
local id
if [ -e "${lofile}" ]
then id=$(device_id_of_file "${lofile}")
elif [ -r "${1}" ]
then # For some cases, when the loop device is set from inside
# the initramfs (Live Systems) and /sys/*/loop/backing_file
# is out of sync
local dev="$(/sbin/losetup ${1} | sed "s;^${1}: \[\([0-9a-f]\{4\}\)\].*;\1;")"
id="$((0x${dev}/256)):$((0x${dev}%256))"
else return 1
fi
case "${id}" in
"")
return 1
;;
0:*)
underlying_device_from_file "${lofile}"
;;
*)
device_node_from_major_minor "${id}"
;;
esac
fi
}
# ===========================================================================}}}
# underlying_device_from_aufs() ============================================={{{
# What we want is: output the underlying device of the (generally) readonly
# branch of an aufs mountpoint given as argument. We assume that there is only
# and at least one physical device used to build the aufs (but the directory
# is not necessarly the mountpoint of this device), other branch(s) being
# virtual fs. Note that if there are more than one readonly branch, the first
# block device found wins.
underlying_device_from_aufs() {
${DEBUG} && echo "> underlying_device_from_aufs $@" >&2
local dev dir
for dir in $(aufs_readonly_branch "${1}"); do
dev="$(device_id_of_file "${dir}")"
case "${dev}" in
"")
continue
;;
0:*)
# aufs mounts can't be nested; but this may be btrfs
dev="$(underlying_device_from_file "${dir}")"
;;
*)
dev="$(device_node_from_major_minor "${dev}")"
;;
esac
if [ -b "${dev}" ]; then
readlink -f "${dev}"
return 0
fi
done
return 1
}
# ===========================================================================}}}
# underlying_device_from_overlayfs() ========================================{{{
# What we want is: output the underlying device of the (generally) readonly
# branch of an overlayfs mountpoint given as argument. We assume that there is
# only and at least one physical device used to build the overlayfs (but the
# directory is not necessarly the mountpoint of this device), other branch(es)
# being virtual fs.
underlying_device_from_overlayfs() {
${DEBUG} && echo "> underlying_device_from_overlayfs $@" >&2
local dev dir="$(overlay_lowerdir "${1}")"
# First case: overlayfs mountpoint is set at runtime, so the lowerdir
# value is up-to-date. Think that when setting up overlayfs mountpoint
# from the initramdisk environment, using same pathnames than what they
# will be at runtime may ease the task.
if [ -d "${dir}" ] && grep -q "^/[^ ]\+ ${dir} " /proc/mounts; then
dev="$(device_id_of_file ${dir})"
else
# overlayfs mountpoint has been set at boottime (within the initrd env)
# and the value of 'lowerdir' found in /proc/mounts is obsolete. There
# is no safe way to know the current and actual lowerdir mountpoint. We
# have to assume some arbitrary conditions to take a chance to find the
# underlying device. This depends on arbtrary paths used in initrd
# scripts (tested with live-boot 5.0~a1-1 - experimental)
# First fallback: rely on the lowerdir's basename
dir="$(grep '^/' /proc/mounts | sed -e 's|^[^ ]\+ \([^ ]\+\) .*|\1|' | grep "/${dir##*/}$")"
if [ -d "${dir}" ]; then
dev="$(device_id_of_file ${dir})"
fi
fi
case "${dev}" in
"")
;;
0:*)
dev="$(underlying_device_from_file "${dir}")"
;;
*)
dev="$(device_node_from_major_minor "${dev}")"
;;
esac
[ -b "${dev}" ] && readlink -f "${dev}"
}
# ===========================================================================}}}
# underlying_device_from_btrfs() ============================================{{{
# What we want is: output the underlying device of a btrfs mountpoint given as
# argument. Such filesystems are not directly mapped to the block device they
# are written on: the device ID (major:minor) of a file on btrfs is not the
# same than the block device itself (say 8:1 for /dev/sda1), but a virtual one
# (with 0 as the major number).
underlying_device_from_btrfs() {
${DEBUG} && echo "> underlying_device_from_btrfs $@" >&2
local dev="$(grep "^/[^[:blank:]]\+\s${1}\sbtrfs\s" /proc/mounts | sed -e 's|^\([^ ]\+\)\s.*|\1|')"
[ -b "${dev}" ] && readlink -f "${dev}"
}
# ===========================================================================}}}
# underlying_device_from_dm() ==============================================={{{
# What we want is: output the underlying device of a dm device given as
# argument. This function has been rewritten to not depend on dmsetup, grep and
# sed. A loop is now used to output the final underlying device, not just the
# parent device (for example for LUKS/LVM combinations). The output will be of
# the form /dev/sdXN or /dev/loopN. As for the aufs, we assume that the scheme
# is very simple, and there is only and at least one slave device per dm device
# (this is the case for bilibop: because it runs from an external media, RAID
# is not used as the root filesystem, and if LVM is used, this is to create
# several LV in a VG, not several PV in a VG).
underlying_device_from_dm() {
${DEBUG} && echo "> underlying_device_from_dm $@" >&2
local slave dev="$(readlink -f "${1}")"
dev="${dev##*/}"
while true
do
case "${dev}" in
dm-*)
#slave="$(parent_device_from_dm ${udev_root}/${dev})"
slave="$(echo /sys/block/${dev}/slaves/*)"
[ "${slave}" = "/sys/block/${dev}/slaves/*" ] && return 3
dev="${slave##*/}"
;;
*)
echo "${udev_root}/${dev}"
return 0
;;
esac
done
}
# ===========================================================================}}}
# underlying_device_from_device() ==========================================={{{
# What we want is: find the underlying device of a device (dm-crypt, loop or
# LVM) given as argument. This function can be included into a loop to finally
# output a device name that has no parent/underlying device, i.e a partition.
underlying_device_from_device() {
${DEBUG} && echo "> underlying_device_from_device $@" >&2
local dev="${1}"
case "${dev}" in
${udev_root}/dm-[0-9]*)
underlying_device_from_dm "${dev}"
;;
${udev_root}/loop[0-9]*)
underlying_device_from_loop "${dev}"
;;
${udev_root}/*)
readlink -f "${dev}"
;;
*)
return 1
esac
}
# ===========================================================================}}}
# underlying_device_from_file() ============================================={{{
# What we want is: output the filesystem containing a file given as argument,
# even if the filesystem is mounted as the lower branch of an aufs mountpoint.
underlying_device_from_file() {
${DEBUG} && echo "> underlying_device_from_file $@" >&2
local id="$(device_id_of_file "${1}")" dev mntpnt
if [ "${id%:*}" = "0" ]
then
# 0 is the major number of all ramfs (tmpfs, devtmpfs, sysfs, proc
# and others). If the file is hosted on a such virtual filesystem,
# we encounter an alternative: the file is on aufs/overlay/btrfs
# and we continue after a jump on the real block device under the
# aufs/overlay/btrfs, or we stop there.
mntpnt="$(find_mountpoint "${1}")"
if is_aufs_mountpoint -q "${mntpnt}"
then dev="$(underlying_device_from_aufs "${mntpnt}")"
elif is_overlay_mountpoint -q "${mntpnt}"
then dev="$(underlying_device_from_overlayfs "${mntpnt}")"
elif is_btrfs_mountpoint -q "${mntpnt}"
then dev="$(underlying_device_from_btrfs "${mntpnt}")"
fi
else
dev="$(device_node_from_major_minor "${id}")"
fi
[ -b "${dev}" ] && readlink -f "${dev}"
}
# ===========================================================================}}}
# underlying_device() ======================================================={{{
# What we want is: output the underlying device node of a file/directory or
# block device given as argument. All is explained in the previous functions.
# The question here is to know what to do with the symlinks: follow them, or
# not? For a lot of them, there is no importance, but for something as /etc/mtab
# linked to /proc/mounts, this makes a big difference. For the moment, we have
# choosen to not follow them... Maybe we have to clean some other function in
# the same sense.
# NEWS: the 'find_mountpoint' function uses df which operates on the pointed
# file, not on the symlink.
underlying_device() {
${DEBUG} && echo "> underlying_device $@" >&2
local dev target="${1}"
if [ -b "${target}" ]
then
dev="$(underlying_device_from_device "${target}")"
elif [ -f "${target}" -o -d "${target}" ]
then
dev="$(underlying_device_from_file "${target}")"
fi
if [ -b "${dev}" ]
then echo "${dev}"
else return 3
fi
}
# ===========================================================================}}}
# underlying_partition() ===================================================={{{
# What we want is: output the partition which the device, or directory, or
# file given as argument is on. With this simple loop, supports combinations
# of mapped devices (LVM, dm-crypt), loopback devices and aufs filesystems.
underlying_partition() {
${DEBUG} && echo "> underlying_partition $@" >&2
local old new="$(underlying_device "${1}")"
while true
do
case "${new}" in
"")
return 1
;;
"${udev_root}"/sd[a-z]*)
echo "${new}"
return 0
;;
"${old}")
echo "${new}"
return 0
;;
esac
old="${new}"
new="$(underlying_device_from_device "${old}")"
done
}
# ===========================================================================}}}
# physical_hard_disk() ======================================================{{{
# What we want is: output the physical hard disk node of a device, file or
# directory given as argument. The main usage is: 'physical_hard_disk /', or
# just 'physical_hard_disk'. The thing to do here is to find the whole disk
# name after 'underlying_partition' has given the partition name.
physical_hard_disk() {
${DEBUG} && echo "> physical_hard_disk $@" >&2
[ -z "${1}" ] && eval set -- /
local blk dev disk=
if [ -b "${1}" -a -e "/sys/class/block/${1##*/}" -a ! -e "/sys/devices/virtual/block/${1##*/}" ]
then dev="${1}"
else dev="$(underlying_partition "${1}")"
fi
for blk in /sys/block/*
do
blk="${blk##*/}"
case "${blk}" in
dm-*|loop*|ram*)
continue ;;
esac
case "${dev}" in
${udev_root}/${blk}*)
disk="${udev_root}/${blk}"
break
;;
esac
done
if [ -b "${disk}" ]
then echo "${disk}"
elif [ "${1}" = "/" ]
then # Maybe you have forgotten to get/set the udev_root variable before
# to run this function ? Run 'get_udev_root' and retry
return 127
else # If the argument is a file/directory in a virtual fs, there is no
# way to find its hosting block device name. It don't exist. This
# seems simple, but how to manage other cases?
return 3
fi
}
# ===========================================================================}}}
### OTHER FUNCTIONS ###
### only called from other scripts (from bilibop-lockfs and bilibop-rules, and
### maybe others).
# unknown_argument() ========================================================{{{
# A general error message for helper scripts.
unknown_argument() {
${DEBUG} && echo "> unknown_argument $@" >&2
cat <<EOF
${0##*/}: unrecognized argument (${1}).
EOF
}
# ===========================================================================}}}
# required_argument() ======================================================={{{
# An other error message for helper scripts.
required_argument() {
${DEBUG} && echo "> required_argument $@" >&2
cat <<EOF
${0##*/}: argument is required.
EOF
}
# ===========================================================================}}}
# get_udev_root() ==========================================================={{{
# What we want is: get the 'udev_root' variable from the udev configuration
# file, or set it to its default value. This function must not be called from
# into the initramdisk, where '/dev' is always used.
get_udev_root() {
${DEBUG} && echo "> get_udev_root $@" >&2
if [ -f /etc/udev/udev.conf ]
then . /etc/udev/udev.conf
fi
udev_root="${udev_root%/}"
udev_root="${udev_root:-/dev}"
}
# ===========================================================================}}}
# get_bilibop_variables() ==================================================={{{
# What we want is: get bilibop variables from its configuration file if it
# exists, and set/overwrite the most important of them (BILIBOP_RUNDIR). If not
# existing, BILIBOP_COMMON_BASENAME is set to 'bilibop'.
# This function can be called from into the running system, or from into the
# initramdisk. In this case, the mountpoint of the future root filesystem
# (${rootmnt}) must be given as argument.
get_bilibop_variables() {
${DEBUG} && echo "> get_bilibop_variables $@" >&2
if [ -f ${1}/etc/bilibop/bilibop.conf ]
then . ${1}/etc/bilibop/bilibop.conf
fi
BILIBOP_RUNDIR="/run/${BILIBOP_COMMON_BASENAME:=bilibop}"
}
# ===========================================================================}}}
# get_aufs_variables() ======================================================{{{
# What we want is: set the default aufs variables (used by the aufs tools) and
# override them by the admin settings, just as do the aufs tools.
get_aufs_variables() {
${DEBUG} && echo "> get_aufs_variables $@" >&2
AUFS_SUPER_MAGIC="1635083891"
AUFS_SUPER_MAGIC_HEX="0x61756673"
AUFS_WH_PFX=".wh."
AUFS_WH_PFX2=".wh..wh."
AUFS_WH_BASE=".wh..wh.aufs"
AUFS_WH_DIROPQ=".wh..wh..opq"
AUFS_WH_PLINKDIR=".wh..wh.plnk"
AUFS_WH_ORPHDIR=".wh..wh.orph"
if [ -f /etc/default/aufs ]
then . /etc/default/aufs
fi
}
# ===========================================================================}}}
# aufs_dirs() ==============================================================={{{
# What we want is: output all the underlying mountpoints (called branches) an
# aufs filesystem given as argument is made of.
aufs_dirs() {
${DEBUG} && echo "> aufs_dirs $@" >&2
local br
case "$(cat /sys/module/aufs/parameters/brs)" in
0)
for br in $(aufs_dirs_if_brs0 "${1}")
do
echo ${br}
done
;;
*)
for br in $(aufs_si_directory "${1}")/br?
do
cat ${br}
done
;;
esac
}
# ===========================================================================}}}
# aufs_mountpoints() ========================================================{{{
# What we want is: output the mountpoints of all aufs filesystems.
aufs_mountpoints() {
${DEBUG} && echo "> aufs_mountpoints $@" >&2
grep '^[^ ]\+ /[^ ]* aufs .*[, ]si=[0-9a-f]\+[, ].*' /proc/mounts |
sed -e 's,^[^ ]\+ \(/[^ ]*\) aufs .*,\1,'
}
# ===========================================================================}}}
# aufs_writable_branch() ===================================================={{{
# What we want is: output the upper (read-write) branch of an aufs mount point
# given as argument.
aufs_writable_branch() {
${DEBUG} && echo "> aufs_writable_branch $@" >&2
local br
case "$(cat /sys/module/aufs/parameters/brs)" in
0)
for br in $(aufs_dirs_if_brs0 "${1}")
do
echo ${br} | grep -q '=rw\(+nolwh\)\?$' &&
echo ${br%\=rw*}
done
;;
*)
for br in $(aufs_si_directory "${1}")/br?
do
grep '=rw\(+nolwh\)\?$' ${br} | sed -e 's,=rw.*,,'
done
;;
esac
}
# ===========================================================================}}}
# overlay_mountpoints() ====================================================={{{
# What we want is: output the mountpoints of all overlay filesystems.
overlay_mountpoints() {
${DEBUG} && echo "> overlay_mountpoints $@" >&2
grep '^[^ ]\+ /[^ ]* overlay .*[, ]lowerdir=/.\+[, ].*' /proc/mounts |
sed -e 's,^[^ ]\+ \(/[^ ]*\) overlay .*,\1,'
}
# ===========================================================================}}}
# overlay_upperdir() ========================================================{{{
# What we want is: output the upperdir (writable branch) of an overlayfs mount
# point given as argument.
overlay_upperdir() {
${DEBUG} && echo "> overlay_upperdir $@" >&2
canonpath $(is_overlay_mountpoint "${1}" | sed -e 's@.*[ ,]upperdir=\([^ ,]\+\).*@\1@ ; s@/\+@/@g')
}
# ===========================================================================}}}
# overlay_workdir() ========================================================={{{
# What we want is: output the upperdir (writable branch) of an overlayfs mount
# point given as argument.
overlay_workdir() {
${DEBUG} && echo "> overlay_workdir $@" >&2
canonpath $(is_overlay_mountpoint "${1}" | sed -e 's@.*[ ,]workdir=\([^ ,]\+\).*@\1@ ; s@/\+@/@g')
}
# ===========================================================================}}}
# is_removable() ============================================================{{{
# What we want is: check if a whole disk node given as argument is seen as
# removable from its sysfs attribute. If yes, this means the disk given as
# argument is an USB stick (or a CD/DVD).
is_removable() {
${DEBUG} && echo "> is_removable $@" >&2
[ "$(cat /sys/block/${1##*/}/removable)" = "1" ]
}
# ===========================================================================}}}
# is_readonly() ============================================================={{{
# What we want is: check if a block device given as argument is writable.
is_readonly() {
${DEBUG} && echo "> is_readonly $@" >&2
[ "$(cat /sys/class/block/${1##*/}/ro)" = "1" ]
}
# ===========================================================================}}}
# device_nodes() ============================================================{{{
# What we want is: output the list of device nodes from /proc/partitions.
device_nodes() {
${DEBUG} && echo "> device_nodes $@" >&2
grep '[[:digit:]]' /proc/partitions | sed 's,.* \([^ ]\+\)$,\1,'
}
# ===========================================================================}}}
# extended_partition() ======================================================{{{
# What we want is: output the primary extended partition device node of a drive
# given as argument.
extended_partition() {
${DEBUG} && echo "> extended_partition $@" >&2
local part
for part in ${1}?*
do
case "$(cat /sys/class/block/${part##*/}/partition)" in
[1-4])
ID_PART_ENTRY_TYPE=
eval "$(query_udev_envvar ${part})"
case "${ID_PART_ENTRY_TYPE}" in
0x5|0xf|0x85)
echo "${part}"
return 0
;;
*)
continue
;;
esac
;;
*)
return 1
;;
esac
done
return 1
}
# ===========================================================================}}}
# parent_device_from_dm() ==================================================={{{
# What we want is: output the direct parent device (slave) of a dm device given
# as argument.
parent_device_from_dm() {
${DEBUG} && echo "> parent_device_from_dm $@" >&2
local dev="$(readlink -f "${1}")"
local slave="$(echo /sys/block/${dev##*/}/slaves/*)"
[ "${slave}" = "/sys/block/${dev##*/}/slaves/*" ] && return 3
echo "${udev_root}/${slave##*/}"
}
# ===========================================================================}}}
# mapper_name_from_dm_node() ================================================{{{
# What we want is: output the basename (in /dev/mapper) of a dm device node
# (dm-*) given as argument.
mapper_name_from_dm_node() {
${DEBUG} && echo "> mapper_name_from_dm_node $@" >&2
cat /sys/block/${1##*/}/dm/name
}
# ===========================================================================}}}
# major_minor_from_device_node() ============================================{{{
# What we want is: translate the device node given as argument to the
# corresponding major:minor.
major_minor_from_device_node() {
${DEBUG} && echo "> major_minor_from_device_node $@" >&2
cat /sys/class/block/${1##*/}/dev
}
# ===========================================================================}}}
# query_sysfs_attrs() ======================================================={{{
# What we want is: query the sysfs attributes database for a device node given
# as argument.
query_sysfs_attrs() {
${DEBUG} && echo "> query_sysfs_attrs $@" >&2
udevadm info --attribute-walk --name "${1}"
}
# ===========================================================================}}}
# query_udev_envvar() ======================================================={{{
# What we want is: query the udev properties database for a device node given
# as argument. The --export option is mandatory to eval the output of this
# command.
query_udev_envvar() {
${DEBUG} && echo "> query_udev_envvar $@" >&2
udevadm info --query property --name "${1}" --export
}
# ===========================================================================}}}
# vim: et sw=4 sts=4 ts=4 fdm=marker fcl=all
|