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|
#!/bin/bash
# FORMAT DEFINITIONS:
# -- formats used to interface with this library --
# $TMP_PARTITIONS
# one line per partition, blockdevice + partioning string for sfdisk. See docs for function partition for more info.
# $TMP_BLOCKDEVICES
# one line per blockdevice, multiple fs'es in 1 'fs-string'
# $TMP_BLOCKDEVICES entry.
# <blockdevice> type label/no_label <FS-string>/no_fs
# FS-string:
# type;recreate(yes/no);mountpoint;mount?(target,runtime,no);opts;label;params[|FS-string|...] where opts/params have _'s instead of whitespace if needed
# NOTE: the 'mount?' for now just matters for the location (if 'target', the target path gets prepended and mounted in the runtime system)
# NOTE: filesystems that span multiple underlying filesystems/devices (eg lvm VG) should specify those in params, separated by colons. \
# the <blockdevice> in the beginning doesn't matter much, it can be pretty much any device, or not existent, i think. But it's probably best to make it one of the devices listed in params
# no '+' characters allowed for devices in $fs_params (eg use the real names)
# -- ADDITIONAL INTERNAL FORMATS --
# $TMP_FILESYSTEMS: each filesystem on a separate line, so block devices can appear multiple times be on multiple lines (eg LVM volumegroups with more lvm LV's)
# part part_type part_label fs_type fs_create fs_mountpoint fs_mount fs_opts fs_label fs_params
modprobe -q dm-crypt || show_warning modprobe 'Could not modprobe dm-crypt. no support for disk encryption'
modprobe -q aes-i586 || modprobe -q aes-x86-64 || show_warning modprobe 'Could not modprobe aes-i586 or aes-x86-64. no support for disk encryption'
TMP_DEV_MAP=$RUNTIME_DIR/aif-dev.map
TMP_FSTAB=$RUNTIME_DIR/aif-fstab
TMP_PARTITIONS=$RUNTIME_DIR/aif-partitions
TMP_FILESYSTEMS=$RUNTIME_DIR/aif-filesystems # Only used internally by this library. Do not even think about using this as interface to this library. it won't work
TMP_BLOCKDEVICES=$RUNTIME_DIR/aif-blockdata
# procedural code from quickinst functionized and fixed.
# there were functions like this in the setup script too, with some subtle differences. see below
# NOTE: why were the functions in the setup called CHROOT_mount/umount? this is not chrooting ? ASKDEV
target_special_fs ()
{
[ "$1" = on -o "$1" = off ] || die_error "special_fs needs on/off argument"
if [ "$1" = on ]
then
# mount proc/sysfs first, so mkinitrd can use auto-detection if it wants
! [ -d $var_TARGET_DIR/proc ] && mkdir $var_TARGET_DIR/proc
! [ -d $var_TARGET_DIR/sys ] && mkdir $var_TARGET_DIR/sys
! [ -d $var_TARGET_DIR/dev ] && mkdir $var_TARGET_DIR/dev
#mount, if not mounted yet
mount | grep -q "$var_TARGET_DIR/proc" || mount -t proc none $var_TARGET_DIR/proc || die_error "Could not mount $var_TARGET_DIR/proc" # NOTE: setup script uses mount -t proc proc ? what's best? ASKDEV
mount | grep -q "$var_TARGET_DIR/sys" || mount -t sysfs none $var_TARGET_DIR/sys || die_error "Could not mount $var_TARGET_DIR/sys" # NOTE: setup script uses mount -t sysfs sysfs ? what's best? ASKDEV
mount | grep -q "$var_TARGET_DIR/dev" || mount -o bind /dev $var_TARGET_DIR/dev || die_error "Could not mount $var_TARGET_DIR/dev"
elif [ "$1" = off ]
then
umount $var_TARGET_DIR/proc || die_error "Could not umount $var_TARGET_DIR/proc"
umount $var_TARGET_DIR/sys || die_error "Could not umount $var_TARGET_DIR/sys"
umount $var_TARGET_DIR/dev || die_error "Could not umount $var_TARGET_DIR/dev"
fi
}
# taken from setup #TODO: we should be able to not need this function. although it may still be useful. but maybe we shouldn't tie it to $var_TARGET_DIR, and let the user specify the base point as $1
# Disable swap and umount all mounted filesystems for the target system in the correct order. (eg first $var_TARGET_DIR/a/b/c, then $var_TARGET_DIR/a/b, then $var_TARGET_DIR/a until lastly $var_TARGET_DIR
target_umountall()
{
infofy "Disabling all swapspace..." disks
swapoff -a >/dev/null 2>&1
declare target=${var_TARGET_DIR//\//\\/} # escape all slashes otherwise awk complains
for mountpoint in $(mount | awk "/\/$target/ {print \$3}" | sort | tac )
do
infofy "Unmounting mountpoint $mountpoint" disks
umount $mountpoint >/dev/null 2>$LOG
done
}
# taken from setup script, modified for separator control
# $1 set to 1 to echo a newline after device instead of a space (optional)
# $2 extra things to echo for each device (optional)
# $3 something to append directly after the device (optional)
finddisks() {
workdir="$PWD"
cd /sys/block
# ide devices
for dev in $(ls | egrep '^hd'); do
if [ "$(cat $dev/device/media)" = "disk" ]; then
echo -n "/dev/$dev$3"
[ "$1" = 1 ] && echo || echo -n ' '
[ "$2" ] && echo $2
fi
done
#scsi/sata devices
for dev in $(ls | egrep '^sd'); do
# TODO: what is the significance of 5? ASKDEV
if ! [ "$(cat $dev/device/type)" = "5" ]; then
echo -n "/dev/$dev$3"
[ "$1" = 1 ] && echo || echo -n ' '
[ "$2" ] && echo $2
fi
done
# cciss controllers
if [ -d /dev/cciss ] ; then
cd /dev/cciss
for dev in $(ls | egrep -v 'p'); do
echo -n "/dev/cciss/$dev$3"
[ "$1" = 1 ] && echo || echo -n ' '
[ "$2" ] && echo $2
done
fi
# Smart 2 controllers
if [ -d /dev/ida ] ; then
cd /dev/ida
for dev in $(ls | egrep -v 'p'); do
echo -n"/dev/ida/$dev$3"
[ "$1" = 1 ] && echo || echo -n ' '
[ "$2" ] && echo $2
done
fi
cd "$workdir"
}
# getuuid(). taken and modified from setup. this can probably be more improved. return an exit code, rely on blkid's exit codes etc.
# converts /dev/[hs]d?[0-9] devices to UUIDs
#
# parameters: device file
# outputs: UUID on success
# nothing on failure
# returns: nothing
getuuid()
{
[ -z "$1" ] && die_error "getuuid needs an argument"
[ "${1%%/[hs]d?[0-9]}" != "${1}" ] && echo "$(blkid -s UUID -o value ${1})"
}
# taken from setup script, slightly optimized and modified for separator control
# $1 set to 1 to echo a newline after partition instead of a space (optional)
# $2 extra things to echo for each partition (optional)
# $3 something to append directly after the partition (optional) TODO: refactor code so there's a space in between, merge $2 and $3. use echo -e to print whatever user wants
findpartitions() {
workdir="$PWD"
for devpath in $(finddisks)
do
disk=$(echo $devpath | sed 's|.*/||')
cd /sys/block/$disk
for part in $disk*
do
# check if not already assembled to a raid device. TODO: what is the significance of the 5? ASKDEV
if ! [ "$(grep $part /proc/mdstat 2>/dev/null)" -o "$(fstype 2>/dev/null </dev/$part | grep lvm2)" -o "$(sfdisk -c /dev/$disk $(echo $part | sed -e "s#$disk##g") 2>/dev/null | grep "5")" ]
then
if [ -d $part ]
then
echo -n "/dev/$part$3"
[ "$1" = 1 ] && echo || echo -n ' '
[ "$2" ] && echo $2
fi
fi
done
done
# include any mapped devices
for devpath in $(ls /dev/mapper 2>/dev/null | grep -v control)
do
echo -n "/dev/mapper/$devpath$3"
[ "$1" = 1 ] && echo || echo -n ' '
[ "$2" ] && echo $2
done
# include any raid md devices
for devpath in $(ls -d /dev/md* | grep '[0-9]' 2>/dev/null)
do
if grep -qw $(echo $devpath /proc/mdstat | sed -e 's|/dev/||g')
then
echo -n "$devpath$3"
[ "$1" = 1 ] && echo || echo -n ' '
[ "$2" ] && echo $2
fi
done
# inlcude cciss controllers
if [ -d /dev/cciss ]
then
cd /dev/cciss
for dev in $(ls | egrep 'p')
do
echo -n "/dev/cciss/$dev$3"
[ "$1" = 1 ] && echo || echo -n ' '
[ "$2" ] && echo $2
done
fi
# inlcude Smart 2 controllers
if [ -d /dev/ida ]
then
cd /dev/ida
for dev in $(ls | egrep 'p')
do
echo -n "/dev/ida/$dev$3"
[ "$1" = 1 ] && echo || echo -n ' '
[ "$2" ] && echo $2
done
fi
cd "$workdir"
}
# taken from setup
get_grub_map() {
rm $TMP_DEV_MAP &>/dev/null #TODO: this doesn't exist? is this a problem? ASKDEV
infofy "Generating GRUB device map...\nThis could take a while.\n\n Please be patient."
$var_TARGET_DIR/sbin/grub --no-floppy --device-map $TMP_DEV_MAP >/tmp/grub.log 2>&1 <<EOF
quit
EOF
}
# TODO: $1 is what?? ASKDEV
# taken from setup. slightly edited.
mapdev() {
partition_flag=0
device_found=0
devs=$( grep -v fd $TMP_DEV_MAP | sed 's/ *\t/ /' | sed ':a;$!N;$!ba;s/\n/ /g')
linuxdevice=$(echo $1 | cut -b1-8)
if [ "$(echo $1 | egrep '[0-9]$')" ]; then
# /dev/hdXY
pnum=$(echo $1 | cut -b9-)
pnum=$(($pnum-1))
partition_flag=1
fi
for dev in $devs
do
if [ "(" = $(echo $dev | cut -b1) ]; then
grubdevice="$dev"
else
if [ "$dev" = "$linuxdevice" ]; then
device_found=1
break
fi
fi
done
if [ "$device_found" = "1" ]; then
if [ "$partition_flag" = "0" ]; then
echo "$grubdevice"
else
grubdevice_stringlen=${#grubdevice}
grubdevice_stringlen=$(($grubdevice_stringlen - 1))
grubdevice=$(echo $grubdevice | cut -b1-$grubdevice_stringlen)
echo "$grubdevice,$pnum)"
fi
else
echo "DEVICE NOT FOUND" >&2
return 2
fi
}
# auto_fstab(). taken from setup
# preprocess fstab file
# comments out old fields and inserts new ones
# according to partitioning/formatting stage
#
target_configure_fstab()
{
if [ -f $TMP_FSTAB ]
then
# comment out stray /dev entries
sed -i 's/^\/dev/#\/dev/g' $var_TARGET_DIR/etc/fstab
# append entries from new configuration
sort $TMP_FSTAB >>$var_TARGET_DIR/etc/fstab
fi
}
# partitions a disk. heavily altered
# $1 device to partition
# $2 a string of the form: <partsize in MiB>:<fstype>[:+] (the + is bootable flag)
partition()
{
debug 'FS' "Partition called like: partition '$1' '$2'"
[ -z "$1" ] && die_error "partition() requires a device file and a partition string"
[ -z "$2" ] && die_error "partition() requires a partition string"
DEVICE=$1
STRING=$2
# validate DEVICE
if [ ! -b "$DEVICE" ]; then
notify "Device '$DEVICE' is not valid"
return 1
fi
target_umountall
# setup input var for sfdisk
# format: each line=1 part. <start> <size> <id> <bootable>[ <c,h,s> <c,h,s>]
read -r -a fsspecs <<< "$STRING" # split up like this otherwise '*' will be globbed. which usually means an entry containing * is lost
for fsspec in "${fsspecs[@]}"; do
fssize=$(echo $fsspec | tr -d ' ' | cut -f1 -d:)
fssize_spec=",$fssize"
[ "$fssize" = "*" ] && fssize_spec=';'
fstype=$(echo $fsspec | tr -d ' ' | cut -f2 -d:)
fstype_spec=","
[ "$fstype" = "swap" ] && fstype_spec=",S"
bootflag=$(echo $fsspec | tr -d ' ' | cut -f3 -d:)
bootflag_spec=""
[ "$bootflag" = "+" ] && bootflag_spec=",*"
sfdisk_input="${sfdisk_input}${fssize_spec}${fstype_spec}${bootflag_spec}\n"
done
sfdisk_input=$(printf "$sfdisk_input") # convert \n to newlines
# invoke sfdisk
debug 'FS' "Partition calls: sfdisk $DEVICE -uM >$LOG 2>&1 <<< $sfdisk_input"
printk off
sfdisk $DEVICE -uM >$LOG 2>&1 <<EOF
$sfdisk_input
EOF
if [ $? -gt 0 ]; then
notify "Error partitioning $DEVICE (see $LOG for details)"
printk on
return 1
fi
printk on
return 0
}
# go over each disk in $TMP_PARTITIONS and partition it
process_disks ()
{
while read disk scheme
do
process_disk $disk "$scheme" || return $?
done < $TMP_PARTITIONS
}
process_disk ()
{
infofy "Partitioning $1" disks
partition $1 "$2"
}
# $1 fs_string
parse_filesystem_string ()
{
fs="$1"
fs_type=` cut -d ';' -f 1 <<< $fs`
fs_create=` cut -d ';' -f 2 <<< $fs`
fs_mountpoint=` cut -d ';' -f 3 <<< $fs`
fs_mount=` cut -d ';' -f 4 <<< $fs`
fs_opts=` cut -d ';' -f 5 <<< $fs`
fs_label=` cut -d ';' -f 6 <<< $fs`
fs_params=` cut -d ';' -f 7 <<< $fs`
}
generate_filesystem_list ()
{
echo -n > $TMP_FILESYSTEMS
while read part part_type part_label fs_string
do
if [ "$fs_string" != no_fs ]
then
for fs in `sed 's/|/ /g' <<< $fs_string` # this splits multiple fs'es up, or just takes the one if there is only one (lvm vg's can have more then one lv)
do
parse_filesystem_string "$fs"
echo "$part $part_type $part_label $fs_type $fs_create $fs_mountpoint $fs_mount $fs_opts $fs_label $fs_params" >> $TMP_FILESYSTEMS
done
fi
done < $TMP_BLOCKDEVICES
}
# process all entries in $TMP_BLOCKDEVICES, create all blockdevices and filesystems and mount them correctly
process_filesystems ()
{
debug 'FS' "process_filesystems Called. checking all entries in $TMP_BLOCKDEVICES"
rm -f $TMP_FSTAB
generate_filesystem_list
returncode=0
# phase 1: create all blockdevices and filesystems in the correct order (for each fs, the underlying block/lvm/devicemapper device must be available so dependencies must be resolved. for lvm:first pv's, then vg's, then lv's etc)
# don't let them mount yet. we take care of all that ourselves in the next phase
infofy "Phase 1: Creating filesystems & blockdevices" disks
done_filesystems=
for i in `seq 1 10`
do
open_items=0
while read part part_type part_label fs_type fs_create fs_mountpoint fs_mount fs_opts fs_label fs_params
do
fs_id="$part $fs_type $fs_mountpoint $fs_opts $fs_label $fs_params"
if [ "$fs_create" = yes ]
then
if check_is_in "$fs_id" "${done_filesystems[@]}"
then
debug 'FS' "$fs_id ->Already done"
else
# We can't always do -b on the lvm VG. because the devicefile sometimes doesn't exist for a VG. vgdisplay to the rescue!
if [ "$part_type" = lvm-vg ] && vgdisplay $part | grep -q 'VG Name' # $part is a lvm VG and it exists. note that vgdisplay exists 0 when the requested vg doesn't exist.
then
debug 'FS' "$fs_id ->Still need to do it: Making the filesystem on a vg volume"
infofy "Making $fs_type filesystem on $part" disks
process_filesystem $part $fs_type $fs_create $fs_mountpoint no_mount $fs_opts $fs_label $fs_params && done_filesystems+=("$fs_id") || returncode=1
elif [ "$part_type" != lvm-pv -a -b "$part" ] # $part is not a lvm PV and it exists
then
debug 'FS' "$fs_id ->Still need to do it: Making the filesystem on a non-pv volume"
infofy "Making $fs_type filesystem on $part" disks
process_filesystem $part $fs_type $fs_create $fs_mountpoint no_mount $fs_opts $fs_label $fs_params && done_filesystems+=("$fs_id") || returncode=1
elif [ "$part_type" = lvm-pv ] && pvdisplay ${fs_params//:/ } >/dev/null # $part is a lvm PV. all needed lvm pv's exist. note that pvdisplay exits 5 as long as one of the args doesn't exist
then
debug 'FS' "$fs_id ->Still need to do it: Making the filesystem on a pv volume"
infofy "Making $fs_type filesystem on $part" disks
process_filesystem ${part/+/} $fs_type $fs_create $fs_mountpoint no_mount $fs_opts $fs_label $fs_params && done_filesystems+=("$fs_id") || returncode=1
else
debug 'FS' "$fs_id ->Cannot do right now..."
open_items=1
fi
fi
fi
done < $TMP_FILESYSTEMS
[ $open_items -eq 0 ] && break
done
[ $open_items -eq 1 ] && show_warning "Filesystem/blockdevice processor problem" "Warning: Could not create all needed filesystems. Either the underlying blockdevices didn't became available in 10 iterations, or process_filesystem failed" && returncode=1
# phase 2: mount all filesystems in the vfs in the correct order. (also swapon where appropriate)
infofy "Phase 2: Mounting filesystems" disks
while read part part_type part_label fs_type fs_create fs_mountpoint fs_mount fs_opts fs_label fs_params
do
if [ "$fs_mountpoint" != no_mountpoint ]
then
infofy "Mounting $part ($fs_type) on $fs_mountpoint" disks
process_filesystem $part $fs_type no $fs_mountpoint $fs_mount $fs_opts $fs_label $fs_params || returncode=1
elif [ "$fs_type" = swap ]
then
infofy "Swaponning $part" disks
process_filesystem $part $fs_type no $fs_mountpoint $fs_mount $fs_opts $fs_label $fs_params || returncode=1
fi
done < <(sort -t \ -k 6 $TMP_FILESYSTEMS)
BLOCK_ROLLBACK_USELESS=0
[ $returncode -eq 0 ] && infofy "Done processing filesystems/blockdevices" disks 1 && return 0
return $returncode
}
# Roll back all "filesystems" (normal ones and dm-mapper based stuff) specified in $BLOCK_DATA. Not partitions. Doesn't restore data after you erased it, of course.
rollback_filesystems ()
{
infofy "Rolling back filesystems..." disks
generate_filesystem_list
local warnings=
rm -f $TMP_FSTAB
# phase 1: destruct all mounts in the vfs and swapoff swap volumes who are listed in $BLOCK_DATA
# re-order list so that we umount in the correct order. eg first umount /a/b/c, then /a/b. we sort alphabetically, which has the side-effect of sorting by stringlength, hence by vfs dependencies.
infofy "Phase 1: Umounting all specified mountpoints" disks
done_umounts= # We translate some devices back to their original (eg /dev/sda3+ -> /dev/sda3 for lvm PV's). No need to bother user twice for such devices.
while read part part_type part_label fs_type fs_create fs_mountpoint fs_mount fs_opts fs_label fs_params
do
if [ "$fs_type" = swap ]
then
infofy "(Maybe) Swapoffing $part" disks
swapoff $part &>/dev/null # could be that it was not swappedon yet. that's not a problem at all.
elif [ "$fs_mountpoint" != no_mountpoint ]
then
part_real=${part/+/}
if ! check_is_in "$part_real" "${done_umounts[@]}"
then
infofy "(Maybe) Umounting $part_real" disks
if mount | grep -q "^$part_real " # could be that this was not mounted yet. no problem, we can just skip it then.
then
if umount $part_real >$LOG
then
done_umounts+=("$part_real")
else
warnings="$warnings\nCould not umount umount $part_real . Probably device is still busy. See $LOG"
show_warning "Umount failure" "Could not umount umount $part_real . Probably device is still busy. See $LOG" #TODO: fix device busy things
fi
fi
fi
fi
done < <(sort -t \ -k 6 $TMP_FILESYSTEMS | tac)
# phase 2: destruct blockdevices listed in $BLOCK_DATA if they would exist already, in the correct order (first lvm LV, then VG, then PV etc)
# targets are device-mapper devices such as any lvm things, dm_crypt devices, etc and lvm PV's.
# Possible approach 1 (not implemented): for each target in $TMP_BLOCKDEVICES, check that it has no_fs or has a non-lvm/dm_crypt fs. (egrep -v ' lvm-pv;| lvm-vg;| lvm-lv;| dm_crypt;' ) and clean it
# -> requires updating of underlying block device string when you clean something, on a copy of .block_data etc. too complicated
# Approach 2 : iterate over all targets in $TMP_BLOCKDEVICES as much as needed, until a certain limit, and in each loop check what can be cleared by looking at the real, live usage of / dependencies on the partition.
# -> easier (implemented)
infofy "Phase 2: destructing specified blockdevices" disks
for i in `seq 1 10`
do
open_items=0
while read part part_type part_label fs_string # $fs_string can be ignored
do
real_part=${part/+/}
if [ "$part_type" = dm_crypt ] # Can be in use for: lvm-pv or raw. we don't need to care about raw (it will be unmounted so it can be destroyed)
then
if [ -b $real_part ] && cryptsetup status $real_part &>/dev/null # don't use 'isLuks' it only works for the "underlying" device (eg in /dev/sda1 -> luksOpen -> /dev/mapper/foo, isLuks works only on the former. status works on the latter too)
then
if pvdisplay $real_part &>/dev/null
then
debug 'FS' "$part ->Cannot do right now..."
open_items=1
else
infofy "Attempting destruction of device $part (type $part_type)" disks
if ! cryptsetup luksClose $real_part &>$LOG
then
warnings="$warnings\nCould not cryptsetup luksClose $real_part"
show_warning "process_filesystems blockdevice destruction" "Could not cryptsetup luksClose $real_part"
fi
fi
else
debug 'FS' "Skipping destruction of device $part (type $part_type) because it doesn't exist"
fi
elif [ "$part_type" = lvm-pv ] # Can be in use for: lvm-vg
then
if [ -b $real_part ] && pvdisplay $real_part &>/dev/null
then
if vgdisplay -v 2>/dev/null | grep -q $real_part # check if it's in use
then
debug 'FS' "$part ->Cannot do right now..."
open_items=1
else
infofy "Attempting destruction of device $part (type $part_type)" disks
if ! pvremove $real_part &>$LOG
then
warnings="$warnings\nCould not pvremove $part"
show_warning "process_filesystems blockdevice destruction" "Could not pvremove $part"
fi
fi
else
debug 'FS' "Skipping destruction of device $part (type $part_type) because it doesn't exist"
fi
elif [ "$part_type" = lvm-vg ] #Can be in use for: lvm-lv
then
if vgdisplay $part 2>/dev/null | grep -q 'VG Name' # workaround for non-existing lvm VG device files
then
open_lv=`vgdisplay -c $part 2>/dev/null | cut -d ':' -f6`
if [ $open_lv -gt 0 ]
then
debug 'FS' "$part ->Cannot do right now..."
open_items=1
else
infofy "Attempting destruction of device $part (type $part_type)" disks
if ! vgremove $part &>$LOG # we shouldn't need -f because we clean up the lv's first.
then
warnings="$warnings\nCould not vgremove $part"
show_warning "process_filesystems blockdevice destruction" "Could not vgremove $part"
fi
fi
else
debug 'FS' "Skipping destruction of device $part (type $part_type) because it doesn't exist"
fi
elif [ "$part_type" = lvm-lv ] #Can be in use for: dm_crypt or raw. we don't need to care about raw (it will be unmounted so it can be destroyed)
then
if lvdisplay $part &>/dev/null && ! vgdisplay $part 2>/dev/null | grep -q 'VG Name' # it exists: lvdisplay works, and it's not a volume group (you can do lvdisplay $volumegroup)
then
if cryptsetup isLuks $part &>/dev/null
then
debug 'FS' "$part ->Cannot do right now..."
open_items=1
else
infofy "Attempting destruction of device $part (type $part_type)" disks
if ! lvremove -f $part &>$LOG
then
warnings="$warnings\nCould not lvremove -f $part"
show_warning "process_filesystems blockdevice destruction" "Could not lvremove -f $part"
fi
fi
else
debug 'FS' "Skipping destruction of device $part (type $part_type) because it doesn't exist"
fi
else
die_error "Unrecognised partition type $part_type for partition $part. This should never happen. please report this"
fi
done < <(egrep '\+|mapper' $TMP_BLOCKDEVICES) #TODO: improve regex
[ $open_items -eq 0 ] && break
done
if [ $open_items -eq 1 ]
then
warnings="$warnings\nCould not destruct all filesystems/blockdevices. It appears some depending filesystems/blockdevices could not be cleared in 10 iterations"
show_warning "Filesystem/blockdevice processor problem" "Warning: Could not destruct all filesystems/blockdevices. It appears some depending filesystems/blockdevices could not be cleared in 10 iterations"
fi
[ -n "$warnings" ] && infofy "Rollback failed" disks 1 && show_warning "Rollback problems" "Some problems occurred while rolling back: $warnings.\n Thisk needs to be fixed before retrying disk/filesystem creation or restarting the installer" && return 1
infofy "Rollback succeeded" disks 1
done_filesystems=
BLOCK_ROLLBACK_USELESS=1
return 0
}
# make a filesystem on a blockdevice and mount if needed.
# $1 partition
# $2 fs_type
# $3 fs_create (optional. defaults to yes)
# $4 fs_mountpoint (optional. defaults to no_mountpoint)
# $5 fs_mount (optional. defaults to no_mount)
# $6 fs_opts (optional. defaults to no_opts)
# $7 fs_label (optional. defaults to no_label or for lvm volumes who need a label (VG's and LV's) vg1,vg2,lv1 etc). Note that if there's no label for a VG you probably did something wrong, because you probably want LV's on it so you need a label for the VG.
# $8 fs_params (optional. defaults to no_params)
process_filesystem ()
{
[ "$2" != lvm-lv ] && [ -z "$1" -o ! -b "$1" ] && die_error "process_filesystem needs a partition as \$1" # Don't do this for lv's. It's a hack to workaround non-existence of VG device files.
[ -z "$2" ] && die_error "process_filesystem needs a filesystem type as \$2"
debug 'FS' "process_filesystem $@"
part=$1
fs_type=$2
fs_create=${3:-yes}
fs_mountpoint=${4:-no_mountpoint}
fs_mount=${5:-no_mount}
fs_opts=${6:-no_opts}
fs_label=${7:-no_label}
fs_params=${8:-no_params}
[ "$fs_mountpoint" = no_mountpoint ] && fs_mountpoint=
[ "$fs_mount" = no_mount ] && fs_mount=
[ "$fs_opts" = no_opts ] && fs_opts=
[ "$fs_label" = no_label ] && fs_label=
[ "$fs_params" = no_params ] && fs_params=
# Create the FS
if [ "$fs_create" = yes ]
then
if ! program=`get_filesystem_program $fs_type`
then
show_warning "process_filesystem error" "Cannot determine filesystem program for $fs_type on $part. Not creating this FS"
return 1
fi
[ -z "$fs_label" ] && [ "$fs_type" = lvm-vg -o "$fs_type" = lvm-pv ] && fs_label=default #TODO. implement the incrementing numbers label for lvm vg's and lv's
ret=0
#TODO: health checks on $fs_params etc
case ${fs_type} in #TODO: implement label, opts etc decently
xfs) mkfs.xfs -f $part $opts >$LOG 2>&1; ret=$? ;;
jfs) yes | mkfs.jfs $part $opts >$LOG 2>&1; ret=$? ;;
reiserfs) yes | mkreiserfs $part $opts >$LOG 2>&1; ret=$? ;;
ext2) mke2fs "$part" $opts >$LOG 2>&1; ret=$? ;;
ext3) mke2fs -j $part $opts >$LOG 2>&1; ret=$? ;;
ext4) mkfs.ext4 $part $opts >$LOG 2>&1; ret=$? ;; #TODO: installer.git uses mke2fs -t ext4 -O dir_index,extent,uninit_bg , which is best?
vfat) mkfs.vfat $part $opts >$LOG 2>&1; ret=$? ;;
swap) mkswap $part $opts >$LOG 2>&1; ret=$? ;;
dm_crypt) [ -z "$fs_params" ] && fs_params='-c aes-xts-plain -y -s 512';
fs_params=${fs_params//_/ }
cryptsetup $fs_params $opts luksFormat -q $part >$LOG 2>&1 < /dev/tty ; ret=$? #hack to give cryptsetup the approriate stdin. keep in mind we're in a loop (see process_filesystems where something else is on stdin)
cryptsetup luksOpen $part $fs_label >$LOG 2>&1 < /dev/tty; ret=$? || ( show_warning 'cryptsetup' "Error luksOpening $part on /dev/mapper/$fs_label" ) ;;
lvm-pv) pvcreate $fs_opts $part >$LOG 2>&1; ret=$? ;;
lvm-vg) # $fs_params: ':'-separated list of PV's
vgcreate $fs_opts $fs_label ${fs_params//:/ } >$LOG 2>&1; ret=$? ;;
lvm-lv) # $fs_params = size string (eg '5G')
lvcreate -L $fs_params $fs_opts -n $fs_label `sed 's#/dev/mapper/##' <<< $part` >$LOG 2>&1; ret=$? ;; #$opts is usually something like -L 10G # Strip '/dev/mapper/' part because device file may not exist. TODO: do i need to activate them?
# don't handle anything else here, we will error later
esac
BLOCK_ROLLBACK_USELESS=0
[ "$ret" -gt 0 ] && ( show_warning "process_filesystem error" "Error creating filesystem $fs_type on $part." ; return 1 )
sleep 2
fi
# Mount it, if requested. Note that it's your responsability to figure out if you want this or not before calling me. This will only work for 'raw' filesystems (ext,reiser,xfs, swap etc. not lvm stuff,dm_crypt etc)
if [ "$fs_mount" = runtime -o "$fs_mount" = target ]
then
BLOCK_ROLLBACK_USELESS=0
if [ "$fs_type" = swap ]
then
debug 'FS' "swaponning $part"
swapon $part >$LOG 2>&1 || ( show_warning 'Swapon' "Error activating swap: swapon $part" ; return 1 )
else
[ "$fs_mount" = runtime ] && dst=$fs_mountpoint
[ "$fs_mount" = target ] && dst=$var_TARGET_DIR$fs_mountpoint
debug 'FS' "mounting $part on $dst"
mkdir -p $dst &>/dev/null # directories may or may not already exist
mount -t $fs_type $part $dst >$LOG 2>&1 || ( show_warning 'Mount' "Error mounting $part on $dst" ; return 1 )
if [ "$fs_mount" = target -a $fs_mountpoint = '/' ]
then
debug FS "setting \$PART_ROOT to $part"
PART_ROOT=$part
fi
fi
fi
# Add to temp fstab, if not already there.
if [ -n "$fs_mountpoint" -a "$fs_mount" = target ]
then
local _uuid="$(getuuid $part)"
if [ -n "${_uuid}" ]; then
_device="UUID=${_uuid}"
fi
if ! grep -q "$part $fs_mountpoint $fs_type defaults 0 " $TMP_FSTAB 2>/dev/null #$TMP_FSTAB may not exist yet
then
echo -n "$part $fs_mountpoint $fs_type defaults 0 " >> $TMP_FSTAB
if [ "$FSTYPE" = "swap" ]; then
echo "0" >>$TMP_FSTAB
else
echo "1" >>$TMP_FSTAB
fi
fi
fi
return 0
#TODO: if target has LVM volumes, copy /etc/lvm/backup to /etc on target (or maybe it can be regenerated with a command, i should look that up)
}
# $1 filesystem type
get_filesystem_program ()
{
[ -z "$1" ] && die_error "get_filesystem_program needs a filesystem id as \$1"
[ $1 = swap ] && echo mkswap && return 0
[ $1 = ext2 ] && echo mkfs.ext2 && return 0
[ $1 = ext3 ] && echo mkfs.ext3 && return 0
[ $1 = ext4 ] && echo mkfs.ext4 && return 0
[ $1 = reiserfs ] && echo mkreiserfs && return 0
[ $1 = xfs ] && echo mkfs.xfs && return 0
[ $1 = jfs ] && echo mkfs.jfs && return 0
[ $1 = vfat ] && echo mkfs.vfat && return 0
[ $1 = lvm-pv ] && echo pvcreate && return 0
[ $1 = lvm-vg ] && echo vgcreate && return 0
[ $1 = lvm-lv ] && echo lvcreate && return 0
[ $1 = dm_crypt ] && echo cryptsetup && return 0
return 1
}
# $1 blockdevice
# $2 unit: B, KiB, kB, MiB, MB, GiB or GB. defaults to B (we follow IEEE 1541-2002 )
# output will be in $BLOCKDEVICE_SIZE
get_blockdevice_size ()
{
[ -b "$1" ] || die_error "get_blockdevice_size needs a blockdevice as \$1 ($1 given)"
unit=${2:-B}
allowed_units=(B KiB kB MiB MB GiB GB)
if ! check_is_in $unit "${allowed_units[@]}"
then
die_error "Unrecognized unit $unit!"
fi
# NOTES about older, deprecated methods:
# - BLOCKDEVICE_SIZE=$(hdparm -I $1 | grep -F '1000*1000' | sed "s/^.*:[ \t]*\([0-9]*\) MBytes.*$/\1/") # if you do this on a partition, you get the size of the entire disk ! + hdparm only supports sata and ide. not scsi.
# - unreliable method: on some interwebs they say 1 block = 512B, on other internets they say 1 block = 1kiB. 1kiB seemed to work for me.
# blocks=`fdisk -s $1` || show_warning "Fdisk problem" "Something failed when trying to do fdisk -s $1"
# BLOCKDEVICE_SIZE=$(($blocks/1024))
bytes=$((`fdisk -l $1 2>/dev/null | sed -n '2p' | cut -d' ' -f5`))
[ $unit = B ] && BLOCKDEVICE_SIZE=$bytes
[ $unit = KiB ] && BLOCKDEVICE_SIZE=$((bytes/2**10)) # /1024
[ $unit = kB ] && BLOCKDEVICE_SIZE=$((bytes/10**3)) # /1000
[ $unit = MiB ] && BLOCKDEVICE_SIZE=$((bytes/2**20)) # ...
[ $unit = MB ] && BLOCKDEVICE_SIZE=$((bytes/10**6))
[ $unit = GiB ] && BLOCKDEVICE_SIZE=$((bytes/2**30))
[ $unit = GB ] && BLOCKDEVICE_SIZE=$((bytes/10**9))
}
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