return 1
}
+grml_match_bootid()
+{
+ path="$1"
+
+ if [ -n "$IGNORE_BOOTID" ] ; then
+ echo " * Ignoring verification of bootid.txt as requested via ignore_bootid.">>/boot.log
+ return 0
+ fi
+
+ if [ -n "$BOOTID" ] && ! [ -r "${path}/conf/bootid.txt" ] ; then
+ echo " * Warning: bootid=... specified but no bootid.txt found on currently requested device.">>/boot.log
+ return 1
+ fi
+
+ [ -r "${path}/conf/bootid.txt" ] || return 0
+
+ bootid_conf=$(cat "${path}/conf/bootid.txt")
+
+ if [ -z "$BOOTID" -a -z "$IGNORE_BOOTID" ]
+ then
+ echo " * Warning: bootid.txt found but ignore_bootid / bootid=.. bootoption missing...">>/boot.log
+ return 1
+ fi
+
+ if [ "$BOOTID" = "$bootid_conf" ]
+ then
+ echo " * Successfully verified /conf/bootid.txt from ISO, continuing... ">>/boot.log
+ else
+ echo " * Warning: BOOTID of ISO does not match. Retrying and continuing search...">>/boot.log
+ return 1
+ fi
+
+ return 0
+}
+
+
matches_uuid ()
{
if [ "${IGNORE_UUID}" ] || [ ! -e /conf/uuid.conf ]
{
sysfs_path="${1#/sys}"
- if udevadm test-builtin path_id "${sysfs_path}" | egrep -q "ID_PATH=(usb|pci-[^-]*-(ide|sas|scsi|usb|virtio)|platform-sata_mv|platform-orion-ehci|platform-mmc|platform-mxsdhci)"
+ if udevadm info --query=all --path="${sysfs_path}" | egrep -q "DEVTYPE=disk"
then
return 0
elif echo "${sysfs_path}" | grep -q '^/block/vd[a-z]$'
check_dev ()
{
+ local force fix
sysdev="${1}"
devname="${2}"
skip_uuid_check="${3}"
# support for fromiso=.../isofrom=....
+ local iso_device=''
if [ -n "$FROMISO" ]
then
- ISO_DEVICE=$(dirname $FROMISO)
- if ! [ -b $ISO_DEVICE ]
+ fs_type="${FROMISO%%:*}"
+ fs_type_auto='1'
+ iso_device="${FROMISO}"
+ if echo "${fs_type}" | grep -q '[^[:alnum:]_-]'; then
+ # Not a valid file system name. Treat as part of the
+ # path, and, especially, use autodetection.
+ fs_type=''
+ else
+ # Looks like a file system specification, treat it
+ # like that.
+ fs_type_auto='0'
+ iso_device="${iso_device#*:}"
+ fi
+ iso_device=$(dirname "${iso_device}")
+ if ! [ -b "${iso_device}" ]
then
# to support unusual device names like /dev/cciss/c0d0p1
# as well we have to identify the block device name, let's
# do that for up to 15 levels
- i=15
- while [ -n "$ISO_DEVICE" ] && [ "$i" -gt 0 ]
+ i='15'
+ while [ -n "${iso_device}" ] && [ "${i}" -gt '0' ]
do
- ISO_DEVICE=$(dirname ${ISO_DEVICE})
- [ -b "$ISO_DEVICE" ] && break
- i=$(($i -1))
- done
+ iso_device=$(dirname "${iso_device}")
+ if [ -b "${iso_device}" ]; then
+ # Proper device, we're done.
+ break
+ else
+ # Otherwise, it *could* be a proper device
+ # that just hasn't been started yet - think
+ # lvm or RAID.
+ case "${iso_device}" in
+ '/dev/mapper/'*|'/dev/md/'*)
+ # We're looking for paths like
+ # /dev/{mapper,md}/foo here.
+ if printf '%s\n' "${iso_device}" | \
+ grep -Eqs '^/dev/(mapper|md)/[^/]+$'; then
+ # Okay, looks like a device we'll
+ # have to start later on, done here.
+ break
+ fi
+ ;;
+ '/dev/md'*)
+ # This is different from the path above.
+ # Here, we're looking for something like
+ # /dev/md0, /dev/md126 and the like.
+ if printf '%s\n' "${iso_device}" | \
+ grep -Eqs '^/dev/md[[:digit:]]+$'; then
+ # Syntax matches, keep as device
+ # name for later when RAIDs were
+ # started.
+ break
+ fi
+ ;;
+ esac
+ fi
+ i="$(($i - 1))"
+ done
fi
- if [ "$ISO_DEVICE" = "/" ]
+ if [ "${iso_device}" = '/' ]
then
- echo "Warning: device for bootoption fromiso= ($FROMISO) not found.">>/boot.log
- else
- fs_type=$(get_fstype "${ISO_DEVICE}")
- if is_supported_fs ${fs_type}
+ # not a block device, check if it's an iso file, for
+ # example an ISO when booting on an ONIE system
+ if echo "${FROMISO}" | grep -q "\.iso$"
then
- mkdir /live/fromiso
- mount -t $fs_type "$ISO_DEVICE" /live/fromiso
- ISO_NAME="$(echo $FROMISO | sed "s|$ISO_DEVICE||")"
- loopdevname=$(setup_loop "/live/fromiso/${ISO_NAME}" "loop" "/sys/block/loop*" "" '')
- devname="${loopdevname}"
+ if [ '0' -ne "${fs_type_auto}" ]; then
+ # Autodetect fs type if not overridden.
+ fs_type=$(get_fstype "${FROMISO}")
+ fi
+ if is_supported_fs ${fs_type}
+ then
+ mkdir /run/live/fromiso
+ mount -t "${fs_type}" -o 'ro' "${FROMISO}" '/run/live/fromiso'
+ if [ "$?" != 0 ]
+ then
+ echo "Warning: unable to mount ${FROMISO} (type ${fs_type})." >>/boot.log
+ fi
+ devname="/run/live/fromiso"
+ fi
else
- echo "Warning: unable to mount $ISO_DEVICE." >>/boot.log
+ echo "Warning: device for bootoption fromiso= ($FROMISO) not found.">>/boot.log
fi
+ else
+ # Otherwise, it must be a block device, so record that as the devname.
+ devname="${iso_device}"
+ fi
+ else
+ # Usual handling in the non-fromiso case.
+ if [ -z "${devname}" ]
+ then
+ devname=$(sys2dev "${sysdev}")
fi
fi
- if [ -z "${devname}" ]
- then
- devname=$(sys2dev "${sysdev}")
- fi
-
+ # Common code path again: if devname is a directory, we can just go ahead
+ # and bind-mount it to our target mount point.
if [ -d "${devname}" ]
then
mount -o bind "${devname}" $mountpoint || continue
fi
fi
+ # Check if we have to start logical volumes or RAID arrays.
+ # Do this in the common code path so it's only executed once.
IFS=","
+ local device=''
for device in ${devname}
do
case "$device" in
# Adding lvm support
if [ -x /scripts/local-top/lvm2 ]
then
- ROOT="$device" resume="" /scripts/local-top/lvm2
+ ROOT="$device" resume="" /scripts/local-top/lvm2 >>/boot.log
fi
;;
/dev/md*)
# Adding raid support
- if [ -x /scripts/local-top/mdadm ]
+ if [ -x /scripts/local-block/mdadm ]
then
- cp /conf/conf.d/md /conf/conf.d/md.orig
- echo "MD_DEVS=$device " >> /conf/conf.d/md
- /scripts/local-top/mdadm
- mv /conf/conf.d/md.orig /conf/conf.d/md
+ # Before actually doing anything, make sure that no auto-generated
+ # mdadm.conf is around in the initramfs.
+ # Short explanation of why this is needed:
+ # /usr/share/initramfs-tools/hooks/mdadm is executed as part of
+ # mkinitramfs, which generates an /etc/mdadm/mdadm.conf file if one
+ # doesn't exist yet (which should always be the case in our new
+ # chroot) based on the host system configuration. Eventually, this
+ # is copied into the generated initramfs and then causes issues on
+ # other systems.
+ # It's safe to delete the file within the initramfs. The actual
+ # squashfs root will not be affected by that (and, additionally,
+ # a FAI script makes sure that the mdadm.conf in there gets wiped
+ # of any auto-generated arrays).
+ rm -rf '/etc/mdadm/mdadm.conf'
+
+ # Back in the day, when there was still a local-top mdadm script, we
+ # used to select specific devices to be auto-assembled.
+ # This functionality was dropped in the local-block script, so just
+ # scan and assemble all RAID devices.
+ /scripts/local-block/mdadm >>/boot.log
fi
;;
esac
done
unset IFS
+ # Back to fromiso handling, if necessary.
+ # We should now have the necessary lv/RAID devices available, so try to use them.
+ if [ -n "$FROMISO" ]
+ then
+ if [ "${iso_device}" != '/' ]
+ then
+ # Need to extract actual ISO file path later on,
+ # initialize first.
+ iso_name="${FROMISO}"
+
+ if [ '0' -ne "${fs_type_auto}" ]; then
+ # Try to auto-detect file system if not
+ # explicitly provided.
+ fs_type=$(get_fstype "${iso_device}")
+ else
+ # Delete file system type override.
+ iso_name="${iso_name#*:}"
+ fi
+ # At this point, the backing device should always be
+ # at the very front, so remove that - leaving only the
+ # ISO file path.
+ iso_name="$(echo "${iso_name}" | sed "s|^${iso_device}||")"
+ if is_supported_fs ${fs_type}
+ then
+ mkdir /run/live/fromiso
+ mount -t "${fs_type}" -o 'ro' "${iso_device}" '/run/live/fromiso'
+ loopdevname=$(setup_loop "/run/live/fromiso/${iso_name}" "loop" "/sys/block/loop*" "" '')
+ devname="${loopdevname}"
+
+ # Reset device variable, we won't need it.
+ device=''
+ else
+ echo "Warning: unable to mount ${iso_device} (type ${fs_type})." >>/boot.log
+ fi
+ fi
+ fi
+
[ -n "$device" ] && devname="$device"
[ -e "$devname" ] || continue
then
devuid=$(blkid -o value -s UUID "$devname")
[ -n "$devuid" ] && grep -qs "\<$devuid\>" /var/lib/live/boot/devices-already-tried-to-mount && continue
+
+ for _PARAMETER in ${LIVE_BOOT_CMDLINE}
+ do
+ case "${_PARAMETER}" in
+ forcefsck)
+ FORCEFSCK="true"
+ ;;
+ esac
+ done
+
+ if [ "${PERSISTENCE_FSCK}" = "true" ] || [ "${PERSISTENCE_FSCK}" = "yes" ] || [ "${FORCEFSCK}" = "true" ]
+ then
+ force=""
+ if [ "$FORCEFSCK" = "true" ]
+ then
+ force="-f"
+ fi
+
+ fix="-a"
+ if [ "$FSCKFIX" = "true" ] || [ "$FSCKFIX" = "yes" ]
+ then
+ fix="-y"
+ fi
+
+ fsck $fix $force ${devname} >> fsck.log 2>&1
+ fi
+
mount -t ${fstype} -o ro,noatime "${devname}" ${mountpoint} || continue
[ -n "$devuid" ] && echo "$devuid" >> /var/lib/live/boot/devices-already-tried-to-mount
if [ -f ${mountpoint}/${FINDISO} ]
then
umount ${mountpoint}
- mkdir -p /live/findiso
- mount -t ${fstype} -o ro,noatime "${devname}" /live/findiso
- loopdevname=$(setup_loop "/live/findiso/${FINDISO}" "loop" "/sys/block/loop*" 0 "")
+ mkdir -p /run/live/findiso
+ mount -t ${fstype} -o ro,noatime "${devname}" /run/live/findiso
+ loopdevname=$(setup_loop "/run/live/findiso/${FINDISO}" "loop" "/sys/block/loop*" 0 "")
devname="${loopdevname}"
mount -t iso9660 -o ro,noatime "${devname}" ${mountpoint}
else
fi
if is_live_path ${mountpoint} && \
- ([ "${skip_uuid_check}" ] || matches_uuid ${mountpoint})
+ ([ "${skip_uuid_check}" ] || grml_match_bootid ${mountpoint})
then
echo ${mountpoint}
return 0
return 0
fi
done
- elif [ "${fstype}" = "squashfs" -o \
- "${fstype}" = "btrfs" -o \
- "${fstype}" = "ext2" -o \
- "${fstype}" = "ext3" -o \
- "${fstype}" = "ext4" -o \
- "${fstype}" = "jffs2" ]
- then
- # This is an ugly hack situation, the block device has
- # an image directly on it. It's hopefully
- # live-boot, so take it and run with it.
- ln -s "${devname}" "${devname}.${fstype}"
- echo "${devname}.${fstype}"
- return 0
fi
done
return 1
}
-really_export ()
-{
- STRING="${1}"
- VALUE="$(eval echo -n \${$STRING})"
-
- if [ -f /live.vars ] && grep -sq "export ${STRING}" /live.vars
- then
- sed -i -e 's/\('${STRING}'=\).*$/\1'${VALUE}'/' /live.vars
- else
- echo "export ${STRING}=\"${VALUE}\"" >> /live.vars
- fi
-
- eval export "${STRING}"="${VALUE}"
-}
-
is_in_list_separator_helper ()
{
local sep element list
return 1
fi
+ # get_fstype might report "unknown" or "swap", ignore it as no such kernel module exists
+ if [ "${fstype}" = "unknown" ] || [ "${fstype}" = "swap" ]
+ then
+ return 1
+ fi
+
# Try to look if it is already supported by the kernel
+ # For ntfs, since user space program ntfs-3g will be used. Check ntfs-3g instead of kernel module.
+ if [ "${fstype}" = "ntfs" ]; then
+ if type ntfs-3g >/dev/null 2>&1; then
+ return 0
+ else
+ return 1
+ fi
+ fi
if grep -q ${fstype} /proc/filesystems
then
return 0
else
# Then try to add support for it the gentle way using the initramfs capabilities
- modprobe ${fstype}
+ modprobe -q -b ${fstype}
if grep -q ${fstype} /proc/filesystems
then
return 0
get_fstype ()
{
- /sbin/blkid -s TYPE -o value $1 2>/dev/null
+ blkid -s TYPE -o value $1 2>/dev/null
}
where_is_mounted ()
{
testpath="${1}"
mounts="$(awk '{print $2}' /proc/mounts)"
- testpath="$(busybox realpath ${testpath})"
+ testpath="$(realpath ${testpath})"
while true
do
echo "${passphrase}" > /tmp/passphrase
unset passphrase
exec 9</tmp/passphrase
- /sbin/losetup ${options} -e "${encryption}" -p 9 "${dev}" "${fspath}"
+ losetup ${options} -e "${encryption}" -p 9 "${dev}" "${fspath}"
error=${?}
exec 9<&-
rm -f /tmp/passphrase
fstype=$(get_fstype "${dev}")
fi
mount -t "${fstype}" -o "${opts}" "${dev}" "${mountp}" || \
- ( echo "SKIPPING: Cannot mount ${dev} on ${mountp}, fstype=${fstype}, options=${opts}" > boot.log && return 0 )
+ ( echo "SKIPPING: Cannot mount ${dev} on ${mountp}, fstype=${fstype}, options=${opts}" >> boot.log && return 0 )
fi
}
# Try to mount $device to the place expected by live-boot. If $device
-# is already mounted somewhere, move it to the expected place. If
-# we're only probing $device (to check if it has custom persistence)
+# is already mounted somewhere, move it to the expected place. If $device
+# ends with a "/" this is a directory path.
+# If we're only probing $device (to check if it has custom persistence)
# $probe should be set, which suppresses warnings upon failure. On
# success, print the mount point for $device.
mount_persistence_media ()
device=${1}
probe=${2}
- backing="/live/persistence/$(basename ${device})"
+ # get_custom_mounts() might call this with a directory path instead
+ # of a block device path. This means we have found sub-directory path
+ # underneath /run/live/persistence, so we're done
+ if [ -d "${device}" ]
+ then
+ echo "${device}"
+ return 0
+ fi
+
+ if [ ! -b "${device}" ]
+ then
+ return 1
+ fi
+
+ backing="/run/live/persistence/$(basename ${device})"
mkdir -p "${backing}"
old_backing="$(where_is_mounted ${device})"
then
mount_opts="ro,noatime"
fi
- if mount -t "${fstype}" -o "${mount_opts}" "${device}" "${backing}" >/dev/null
+ if mount -t "${fstype}" -o "${mount_opts}" "${device}" "${backing}" >/dev/null 2>&1
then
echo ${backing}
return 0
fi
elif [ "${backing}" != "${old_backing}" ]
then
- if mount --move ${old_backing} ${backing} >/dev/null
+ if ! mount -o move ${old_backing} ${backing} >/dev/null
then
- echo ${backing}
- return 0
- else
[ -z "${probe}" ] && log_warning_msg "Failed to move persistence media ${device}"
rmdir "${backing}"
return 1
fi
+ mount_opts="rw,noatime"
+ if [ -n "${PERSISTENCE_READONLY}" ]
+ then
+ mount_opts="ro,noatime"
+ fi
+ if ! mount -o "remount,${mount_opts}" "${backing}" >/dev/null
+ then
+ log_warning_msg "Failed to remount persistence media ${device} writable"
+ # Don't unmount or rmdir the new mountpoint in this case
+ fi
+ echo ${backing}
+ return 0
else
# This means that $device has already been mounted on
# the place expected by live-boot, so we're done.
if is_active_luks_mapping ${device}
then
- /sbin/cryptsetup luksClose ${device}
+ cryptsetup luksClose ${device}
fi
}
opts="${opts} --readonly"
fi
- if /sbin/cryptsetup status "${name}" >/dev/null 2>&1
+ if cryptsetup status "${name}" >/dev/null 2>&1
then
re="^[[:space:]]*device:[[:space:]]*\([^[:space:]]*\)$"
opened_dev=$(cryptsetup status ${name} 2>/dev/null | grep "${re}" | sed "s|${re}|\1|")
load_keymap
+ # check for plymouth
+ if [ -x /bin/plymouth ]
+ then
+ _PLYMOUTH="true"
+ fi
+
+ case "${_PLYMOUTH}" in
+ true)
+ plymouth --ping
+
+ cryptkeyscript="plymouth ask-for-password --prompt"
+ # Plymouth will add a : if it is a non-graphical prompt
+ cryptkeyprompt="Please unlock disk ${dev}"
+ ;;
+
+ *)
+ cryptkeyscript="/lib/cryptsetup/askpass"
+ cryptkeyprompt="Please unlock disk ${dev}: "
+ ;;
+ esac
+
while true
do
- /lib/cryptsetup/askpass "Enter passphrase for ${dev}: " | \
- /sbin/cryptsetup -T 1 luksOpen ${dev} ${name} ${opts}
+ $cryptkeyscript "$cryptkeyprompt" | \
+ cryptsetup -T 1 luksOpen ${dev} ${name} ${opts}
if [ 0 -eq ${?} ]
then
fi
echo >&6
- echo -n "There was an error decrypting ${dev} ... Retry? [Y/n] " >&6
- read answer
+ retryprompt="There was an error decrypting ${dev} ... Retry? [Y/n]"
+
+ case "${_PLYMOUTH}" in
+ true)
+ plymouth display-message --text "${retryprompt}"
+ answer=$(plymouth watch-keystroke --keys="YNyn")
+ ;;
+
+ *)
+ echo -n "${retryprompt} " >&6
+ read answer
+ ;;
+ esac
if [ "$(echo "${answer}" | cut -b1 | tr A-Z a-z)" = "n" ]
then
+ case "${_PLYMOUTH}" in
+ true)
+ plymouth display-message --text ""
+ ;;
+ esac
+
return 2
fi
done
{
local dev
dev="${1}"
- /sbin/blkid -s PART_ENTRY_NAME -p -o value ${dev} 2>/dev/null
+ blkid -s PART_ENTRY_NAME -p -o value ${dev} 2>/dev/null
}
is_gpt_device ()
{
local dev
dev="${1}"
- [ "$(/sbin/blkid -s PART_ENTRY_SCHEME -p -o value ${dev} 2>/dev/null)" = "gpt" ]
+ [ "$(blkid -s PART_ENTRY_SCHEME -p -o value ${dev} 2>/dev/null)" = "gpt" ]
}
probe_for_gpt_name ()
for label in ${overlays}
do
- if [ "$(/sbin/blkid -s LABEL -o value $dev 2>/dev/null)" = "${label}" ]
+ if [ "$(blkid -s LABEL -o value $dev 2>/dev/null)" = "${label}" ]
then
echo "${label}=${dev}"
fi
for label in ${overlays}
do
- path=${backing}/${PERSISTENCE_PATH}${label}
+ path=${backing}/${PERSISTENCE_PATH}/${label}
if [ -f "${path}" ]
then
local loopdev
fi
}
+probe_for_directory_name ()
+{
+ local overlays dev ret backing
+ overlays="${1}"
+ dev="${2}"
+
+ ret=""
+ backing="$(mount_persistence_media ${dev} probe)"
+ if [ -z "${backing}" ]
+ then
+ return
+ fi
+
+ for label in ${overlays}
+ do
+ path=${backing}/${PERSISTENCE_PATH}/${label}
+ if [ -d "${path}" ]
+ then
+ # in this case the "device" ends with a "/"
+ ret="${ret} ${label}=${backing}/${PERSISTENCE_PATH}/${label%%/}/"
+ fi
+ done
+
+ if [ -n "${ret}" ]
+ then
+ echo ${ret}
+ else
+ # unmount and remove mountpoint
+ umount ${backing} > /dev/null 2>&1 || true
+ rmdir ${backing} > /dev/null 2>&1 || true
+ fi
+}
+
find_persistence_media ()
{
# Scans devices for overlays, and returns a whitespace
white_listed_devices="${2}"
ret=""
- black_listed_devices="$(what_is_mounted_on /live/medium) $(what_is_mounted_on /live/findiso) $(what_is_mounted_on /live/fromiso)"
+ #
+ # The devices that are hosting the actual live rootfs should not be
+ # used for persistence storage since otherwise you might mount a
+ # parent directory on top of a sub-directory of the same filesystem
+ # in one union together.
+ #
+ black_listed_devices=""
+ for d in /run/live/rootfs/* /run/live/findiso /run/live/fromiso
+ do
+ black_listed_devices="${black_listed_devices} $(what_is_mounted_on d)"
+ done
for dev in $(storage_devices "${black_listed_devices}" "${white_listed_devices}")
do
result=$(probe_for_file_name "${overlays}" ${dev})
if [ -n "${result}" ]
then
- local loopdevice
+ local loopdevice
loopdevice=${result##*=}
- if is_in_comma_sep_list luks ${PERSISTENCE_ENCRYPTION} && is_luks_partition ${loopdevice}
+ if is_in_comma_sep_list luks ${PERSISTENCE_ENCRYPTION} && is_luks_partition ${loopdevice}
then
- local luksfile
+ local luksfile
luksfile=""
if luksfile=$(open_luks_device "${loopdevice}")
then
- result=${result%%=*}
+ result=${result%%=*}
result="${result}=${luksfile}"
else
- losetup -d $loopdevice
+ losetup -d $loopdevice
result=""
fi
fi
fi
fi
+ # Probe for directory with matching name on mounted partition
+ if is_in_comma_sep_list directory ${PERSISTENCE_STORAGE}
+ then
+ result=$(probe_for_directory_name "${overlays}" ${dev})
+ if [ -n "${result}" ]
+ then
+ ret="${ret} ${result}"
+ continue
+ fi
+ fi
+
# Close luks device if it isn't used
if [ -z "${result}" ] && [ -n "${luks_device}" ] && is_active_luks_mapping "${luks_device}"
then
- /sbin/cryptsetup luksClose "${luks_device}"
+ cryptsetup luksClose "${luks_device}"
fi
done
is_luks_partition ()
{
device="${1}"
- /sbin/cryptsetup isLuks "${device}" 1>/dev/null 2>&1
+ cryptsetup isLuks "${device}" 1>/dev/null 2>&1
}
is_active_luks_mapping ()
{
device="${1}"
- /sbin/cryptsetup status "${device}" 1>/dev/null 2>&1
+ cryptsetup status "${device}" 1>/dev/null 2>&1
}
get_luks_backing_device ()
for sysblock in $(echo /sys/block/* | tr ' ' '\n' | grep -vE "/(loop|ram|dm-|fd)")
do
+ if [ ! -d "${sysblock}" ]; then
+ continue
+ fi
+
dev_ok=
if [ "$(cat ${sysblock}/removable)" = "1" ]
then
for sysblock in $(echo /sys/block/* | tr ' ' '\n' | grep -vE "/(loop|ram|dm-|fd)")
do
+ if [ ! -d "${sysblock}" ]; then
+ continue
+ fi
+
if [ "$(cat ${sysblock}/removable)" = "0" ]
then
case "${output_format}" in
rw_opt="rw"
ro_opt="rr+wh"
noxino_opt="noxino"
- ;;
-
- unionfs-fuse)
- rw_opt="RW"
- ro_opt="RO"
- ;;
-
- *)
- rw_opt="rw"
- ro_opt="ro"
- ;;
- esac
- case "${UNIONTYPE}" in
- unionfs-fuse)
- unionmountopts="-o cow -o noinitgroups -o default_permissions -o allow_other -o use_ino -o suid"
- unionmountopts="${unionmountopts} ${unionrw}=${rw_opt}"
+ unionmountopts="-o noatime,${noxino_opt},dirs=${unionrw}=${rw_opt}"
if [ -n "${unionro}" ]
then
for rofs in ${unionro}
unionmountopts="${unionmountopts}:${rofs}=${ro_opt}"
done
fi
- ( sysctl -w fs.file-max=391524 ; ulimit -HSn 16384
- unionfs-fuse ${unionmountopts} "${unionmountpoint}" ) && \
- ( mkdir -p /run/sendsigs.omit.d
- pidof unionfs-fuse >> /run/sendsigs.omit.d/unionfs-fuse || true )
;;
- overlayfs)
- # XXX: can multiple unionro be used? (overlayfs only handles two dirs, but perhaps they can be chained?)
- # XXX: and can unionro be optional? i.e. can overlayfs skip lowerdir?
- if echo ${unionro} | grep -q " "
- then
- panic "Multiple lower filesystems are currently not supported with overlayfs (unionro = ${unionro})."
- elif [ -z "${unionro}" ]
+ overlay)
+ # XXX: can unionro be optional? i.e. can overlay skip lowerdir?
+ if [ -z "${unionro}" ]
then
- panic "Overlayfs needs at least one lower filesystem (read-only branch)."
+ panic "overlay needs at least one lower filesystem (read-only branch)."
fi
- unionmountopts="-o noatime,lowerdir=${unionro},upperdir=${unionrw}"
- mount -t ${UNIONTYPE} ${unionmountopts} ${UNIONTYPE} "${unionmountpoint}"
- ;;
-
- *)
- unionmountopts="-o noatime,${noxino_opt},dirs=${unionrw}=${rw_opt}"
- if [ -n "${unionro}" ]
- then
- for rofs in ${unionro}
- do
- unionmountopts="${unionmountopts}:${rofs}=${ro_opt}"
- done
- fi
- mount -t ${UNIONTYPE} ${unionmountopts} ${UNIONTYPE} "${unionmountpoint}"
+ # Multiple lower layers can now be given using the the colon (":") as a
+ # separator character between the directory names.
+ unionro="$(echo ${unionro} | sed -e 's| |:|g')"
+ # overlayfs requires:
+ # + a workdir to become mounted
+ # + workdir and upperdir to reside under the same mount
+ # + workdir and upperdir to be in separate directories
+ mkdir -p "${unionrw}/rw"
+ mkdir -p "${unionrw}/work"
+ unionmountopts="-o noatime,lowerdir=${unionro},upperdir=${unionrw}/rw,workdir=${unionrw}/work"
;;
esac
+
+ mount -t ${UNIONTYPE} ${unionmountopts} ${UNIONTYPE} "${unionmountpoint}"
}
get_custom_mounts ()
{
- # Side-effect: leaves $devices with persistence.conf mounted in /live/persistence
+ # Side-effect: leaves $devices with persistence.conf mounted in /run/live/persistence
# Side-effect: prints info to file $custom_mounts
local custom_mounts devices bindings links
for device in ${devices}
do
- if [ ! -b "${device}" ]
- then
- continue
- fi
-
local device_name backing include_list
device_name="$(basename ${device})"
backing=$(mount_persistence_media ${device})
if [ -n "${LIVE_BOOT_DEBUG}" ] && [ -e "${include_list}" ]
then
- cp ${include_list} /live/persistence/${persistence_list}.${device_name}
+ cp ${include_list} /run/live/persistence/${persistence_list}.${device_name}
fi
while read dir options # < ${include_list}
continue
fi
- if trim_path ${dir} | grep -q -e "^[^/]" -e "^/lib" -e "^/lib/live\(/.*\)\?$" -e "^/\(.*/\)\?\.\.\?\(/.*\)\?$"
+ if trim_path ${dir} | grep -q -e "^[^/]" -e "^/lib" -e "^/run/live\(/.*\)\?$" -e "^/\(.*/\)\?\.\.\?\(/.*\)\?$"
then
- log_warning_msg "Skipping unsafe custom mount ${dir}: must be an absolute path containing neither the \".\" nor \"..\" special dirs, and cannot be \"/lib\", or \"/lib/live\" or any of its sub-directories."
+ log_warning_msg "Skipping unsafe custom mount ${dir}: must be an absolute path containing neither the \".\" nor \"..\" special dirs, and cannot be \"/lib\", or \"/run/live\" or any of its sub-directories."
continue
fi
union|bind)
;;
*)
- log_warning_msg "Skipping custom mount with unkown option: ${opt}"
+ log_warning_msg "Skipping custom mount with unknown option: ${opt}"
continue 2
;;
esac
prev_dest=""
# This sort will ensure that a source /a comes right before a source
# /a/b so we only need to look at the previous source
- sort -k2 -b ${custom_mounts} |
+ [ -e ${custom_mounts} ] && sort -k2 -b ${custom_mounts} |
while read device source dest options
do
if echo ${source} | grep -qe "^${prev_source}\(/.*\)\?$"
rootfs_dest_backing=""
if [ -n "${opt_link}" ] || [ -n "${opt_union}" ]
then
- for d in /live/rootfs/*
+ for d in /run/live/rootfs/*
do
if [ -n "${rootmnt}" ]
then
local cow_dir links_source
if [ -n "${opt_link}" ] && [ -z "${PERSISTENCE_READONLY}" ]
then
- link_files ${source} ${dest} "s|^/live/|/lib/live/mount/|"
+ link_files ${source} ${dest} ""
elif [ -n "${opt_link}" ] && [ -n "${PERSISTENCE_READONLY}" ]
then
- mkdir -p ${rootmnt}/lib/live/mount/persistence
- links_source=$(mktemp -d ${rootmnt}/lib/live/mount/persistence/links-source-XXXXXX)
+ mkdir -p /run/live/persistence
+ links_source=$(mktemp -d /run/live/persistence/links-source-XXXXXX)
chown_ref ${source} ${links_source}
chmod_ref ${source} ${links_source}
# We put the cow dir in the below strange place to
# has its own directory and isn't nested with some
# other custom mount (if so that mount's files would
# be linked, causing breakage.
- cow_dir="/live/overlay/lib/live/mount/persistence/$(basename ${links_source})"
+ cow_dir="/run/live/overlay/run/live/persistence/$(basename ${links_source})"
mkdir -p ${cow_dir}
chown_ref "${source}" "${cow_dir}"
chmod_ref "${source}" "${cow_dir}"
do_union ${dest} ${source} ${rootfs_dest_backing}
elif [ -n "${opt_bind}" ] && [ -z "${PERSISTENCE_READONLY}" ]
then
- mount --bind "${source}" "${dest}"
+ mount -o bind "${source}" "${dest}"
elif [ -n "${opt_bind}" -o -n "${opt_union}" ] && [ -n "${PERSISTENCE_READONLY}" ]
then
# bind-mount and union mount are handled the same
# in read-only mode, but note that rootfs_dest_backing
# is non-empty (and necessary) only for unions
- cow_dir="/live/overlay/${dest}"
+ cow_dir="/run/live/overlay/${dest}"
if [ -e "${cow_dir}" ] && [ -z "${opt_link}" ]
then
# If an earlier custom mount has files here
mkdir -p ${cow_dir}
chown_ref "${source}" "${cow_dir}"
chmod_ref "${source}" "${cow_dir}"
+ if [ "${UNIONTYPE}" = "overlay" ]
+ then
+ # When we use overlay we add the "/rw" postfix to our source when using it
+ # as upper layer. Therefore we also have to add it here when using it as
+ # the lower layer.
+ source="${source}/rw"
+ fi
do_union ${dest} ${cow_dir} ${source} ${rootfs_dest_backing}
fi