zfs-builds-mm/zfs-0.8.1/contrib/initramfs/scripts/zfs
2019-07-06 23:40:11 +02:00

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# ZFS boot stub for initramfs-tools.
#
# In the initramfs environment, the /init script sources this stub to
# override the default functions in the /scripts/local script.
#
# Enable this by passing boot=zfs on the kernel command line.
#
# Source the common init script
. /etc/zfs/zfs-functions
# Paths to what we need - in the initrd, these paths are hardcoded,
# so override the defines in zfs-functions.
ZFS="/usr/local/sbin/zfs"
ZPOOL="/usr/local/sbin/zpool"
ZPOOL_CACHE="/usr/local/etc/zfs/zpool.cache"
export ZFS ZPOOL ZPOOL_CACHE
# Start interactive shell.
# Use debian's panic() if defined, because it allows to prevent shell access
# by setting panic in cmdline (e.g. panic=0 or panic=15).
# See "4.5 Disable root prompt on the initramfs" of Securing Debian Manual:
# https://www.debian.org/doc/manuals/securing-debian-howto/ch4.en.html
shell() {
if type panic > /dev/null 2>&1; then
panic $@
else
/bin/sh
fi
}
# This runs any scripts that should run before we start importing
# pools and mounting any filesystems.
pre_mountroot()
{
if type run_scripts > /dev/null 2>&1 && \
[ -f "/scripts/local-top" -o -d "/scripts/local-top" ]
then
[ "$quiet" != "y" ] && \
zfs_log_begin_msg "Running /scripts/local-top"
run_scripts /scripts/local-top
[ "$quiet" != "y" ] && zfs_log_end_msg
fi
if type run_scripts > /dev/null 2>&1 && \
[ -f "/scripts/local-premount" -o -d "/scripts/local-premount" ]
then
[ "$quiet" != "y" ] && \
zfs_log_begin_msg "Running /scripts/local-premount"
run_scripts /scripts/local-premount
[ "$quiet" != "y" ] && zfs_log_end_msg
fi
}
# If plymouth is available, hide the splash image.
disable_plymouth()
{
if [ -x /bin/plymouth ] && /bin/plymouth --ping
then
/bin/plymouth hide-splash >/dev/null 2>&1
fi
}
# Get a ZFS filesystem property value.
get_fs_value()
{
local fs="$1"
local value=$2
"${ZFS}" get -H -ovalue $value "$fs" 2> /dev/null
}
# Find the 'bootfs' property on pool $1.
# If the property does not contain '/', then ignore this
# pool by exporting it again.
find_rootfs()
{
local pool="$1"
# If 'POOL_IMPORTED' isn't set, no pool imported and therefor
# we won't be able to find a root fs.
[ -z "${POOL_IMPORTED}" ] && return 1
# If it's already specified, just keep it mounted and exit
# User (kernel command line) must be correct.
[ -n "${ZFS_BOOTFS}" ] && return 0
# Not set, try to find it in the 'bootfs' property of the pool.
# NOTE: zpool does not support 'get -H -ovalue bootfs'...
ZFS_BOOTFS=$("${ZPOOL}" list -H -obootfs "$pool")
# Make sure it's not '-' and that it starts with /.
if [ "${ZFS_BOOTFS}" != "-" ] && \
$(get_fs_value "${ZFS_BOOTFS}" mountpoint | grep -q '^/$')
then
# Keep it mounted
POOL_IMPORTED=1
return 0
fi
# Not boot fs here, export it and later try again..
"${ZPOOL}" export "$pool"
POOL_IMPORTED=""
return 1
}
# Support function to get a list of all pools, separated with ';'
find_pools()
{
local CMD="$*"
local pools pool
pools=$($CMD 2> /dev/null | \
grep -E "pool:|^[a-zA-Z0-9]" | \
sed 's@.*: @@' | \
while read pool; do \
echo -n "$pool;"
done)
echo "${pools%%;}" # Return without the last ';'.
}
# Get a list of all available pools
get_pools()
{
local available_pools npools
if [ -n "${ZFS_POOL_IMPORT}" ]; then
echo "$ZFS_POOL_IMPORT"
return 0
fi
# Get the base list of available pools.
available_pools=$(find_pools "$ZPOOL" import)
# Just in case - seen it happen (that a pool isn't visable/found
# with a simple "zpool import" but only when using the "-d"
# option or setting ZPOOL_IMPORT_PATH).
if [ -d "/dev/disk/by-id" ]
then
npools=$(find_pools "$ZPOOL" import -d /dev/disk/by-id)
if [ -n "$npools" ]
then
# Because we have found extra pool(s) here, which wasn't
# found 'normally', we need to force USE_DISK_BY_ID to
# make sure we're able to actually import it/them later.
USE_DISK_BY_ID='yes'
if [ -n "$available_pools" ]
then
# Filter out duplicates (pools found with the simple
# "zpool import" but which is also found with the
# "zpool import -d ...").
npools=$(echo "$npools" | sed "s,$available_pools,,")
# Add the list to the existing list of
# available pools
available_pools="$available_pools;$npools"
else
available_pools="$npools"
fi
fi
fi
# Filter out any exceptions...
if [ -n "$ZFS_POOL_EXCEPTIONS" ]
then
local found=""
local apools=""
local pool exception
OLD_IFS="$IFS" ; IFS=";"
for pool in $available_pools
do
for exception in $ZFS_POOL_EXCEPTIONS
do
[ "$pool" = "$exception" ] && continue 2
found="$pool"
done
if [ -n "$found" ]
then
if [ -n "$apools" ]
then
apools="$apools;$pool"
else
apools="$pool"
fi
fi
done
IFS="$OLD_IFS"
available_pools="$apools"
fi
# Return list of available pools.
echo "$available_pools"
}
# Import given pool $1
import_pool()
{
local pool="$1"
local dirs dir
# Verify that the pool isn't already imported
# Make as sure as we can to not require '-f' to import.
"${ZPOOL}" get name,guid -o value -H 2>/dev/null | grep -Fxq "$pool" && return 0
# For backwards compatibility, make sure that ZPOOL_IMPORT_PATH is set
# to something we can use later with the real import(s). We want to
# make sure we find all by* dirs, BUT by-vdev should be first (if it
# exists).
if [ -n "$USE_DISK_BY_ID" -a -z "$ZPOOL_IMPORT_PATH" ]
then
dirs="$(for dir in $(echo /dev/disk/by-*)
do
# Ignore by-vdev here - we want it first!
echo "$dir" | grep -q /by-vdev && continue
[ ! -d "$dir" ] && continue
echo -n "$dir:"
done | sed 's,:$,,g')"
if [ -d "/dev/disk/by-vdev" ]
then
# Add by-vdev at the beginning.
ZPOOL_IMPORT_PATH="/dev/disk/by-vdev:"
fi
# ... and /dev at the very end, just for good measure.
ZPOOL_IMPORT_PATH="$ZPOOL_IMPORT_PATH$dirs:/dev"
fi
# Needs to be exported for "zpool" to catch it.
[ -n "$ZPOOL_IMPORT_PATH" ] && export ZPOOL_IMPORT_PATH
[ "$quiet" != "y" ] && zfs_log_begin_msg \
"Importing pool '${pool}' using defaults"
ZFS_CMD="${ZPOOL} import -N ${ZPOOL_FORCE} ${ZPOOL_IMPORT_OPTS}"
ZFS_STDERR="$($ZFS_CMD "$pool" 2>&1)"
ZFS_ERROR="$?"
if [ "${ZFS_ERROR}" != 0 ]
then
[ "$quiet" != "y" ] && zfs_log_failure_msg "${ZFS_ERROR}"
if [ -f "${ZPOOL_CACHE}" ]
then
[ "$quiet" != "y" ] && zfs_log_begin_msg \
"Importing pool '${pool}' using cachefile."
ZFS_CMD="${ZPOOL} import -c ${ZPOOL_CACHE} -N ${ZPOOL_FORCE} ${ZPOOL_IMPORT_OPTS}"
ZFS_STDERR="$($ZFS_CMD "$pool" 2>&1)"
ZFS_ERROR="$?"
fi
if [ "${ZFS_ERROR}" != 0 ]
then
[ "$quiet" != "y" ] && zfs_log_failure_msg "${ZFS_ERROR}"
disable_plymouth
echo ""
echo "Command: ${ZFS_CMD} '$pool'"
echo "Message: $ZFS_STDERR"
echo "Error: $ZFS_ERROR"
echo ""
echo "Failed to import pool '$pool'."
echo "Manually import the pool and exit."
shell
fi
fi
[ "$quiet" != "y" ] && zfs_log_end_msg
POOL_IMPORTED=1
return 0
}
# Load ZFS modules
# Loading a module in a initrd require a slightly different approach,
# with more logging etc.
load_module_initrd()
{
if [ "$ZFS_INITRD_PRE_MOUNTROOT_SLEEP" > 0 ]
then
if [ "$quiet" != "y" ]; then
zfs_log_begin_msg "Sleeping for" \
"$ZFS_INITRD_PRE_MOUNTROOT_SLEEP seconds..."
fi
sleep "$ZFS_INITRD_PRE_MOUNTROOT_SLEEP"
[ "$quiet" != "y" ] && zfs_log_end_msg
fi
# Wait for all of the /dev/{hd,sd}[a-z] device nodes to appear.
if type wait_for_udev > /dev/null 2>&1 ; then
wait_for_udev 10
elif type wait_for_dev > /dev/null 2>&1 ; then
wait_for_dev
fi
# zpool import refuse to import without a valid /proc/self/mounts
[ ! -f /proc/self/mounts ] && mount proc /proc
# Load the module
load_module "zfs" || return 1
if [ "$ZFS_INITRD_POST_MODPROBE_SLEEP" > 0 ]
then
if [ "$quiet" != "y" ]; then
zfs_log_begin_msg "Sleeping for" \
"$ZFS_INITRD_POST_MODPROBE_SLEEP seconds..."
fi
sleep "$ZFS_INITRD_POST_MODPROBE_SLEEP"
[ "$quiet" != "y" ] && zfs_log_end_msg
fi
return 0
}
# Mount a given filesystem
mount_fs()
{
local fs="$1"
local mountpoint
# Check that the filesystem exists
"${ZFS}" list -oname -tfilesystem -H "${fs}" > /dev/null 2>&1
[ "$?" -ne 0 ] && return 1
# Skip filesystems with canmount=off. The root fs should not have
# canmount=off, but ignore it for backwards compatibility just in case.
if [ "$fs" != "${ZFS_BOOTFS}" ]
then
canmount=$(get_fs_value "$fs" canmount)
[ "$canmount" = "off" ] && return 0
fi
# Need the _original_ datasets mountpoint!
mountpoint=$(get_fs_value "$fs" mountpoint)
if [ "$mountpoint" = "legacy" -o "$mountpoint" = "none" ]; then
# Can't use the mountpoint property. Might be one of our
# clones. Check the 'org.zol:mountpoint' property set in
# clone_snap() if that's usable.
mountpoint=$(get_fs_value "$fs" org.zol:mountpoint)
if [ "$mountpoint" = "legacy" -o \
"$mountpoint" = "none" -o \
"$mountpoint" = "-" ]
then
if [ "$fs" != "${ZFS_BOOTFS}" ]; then
# We don't have a proper mountpoint and this
# isn't the root fs.
return 0
else
# Last hail-mary: Hope 'rootmnt' is set!
mountpoint=""
fi
fi
if [ "$mountpoint" = "legacy" ]; then
ZFS_CMD="mount -t zfs"
else
# If it's not a legacy filesystem, it can only be a
# native one...
ZFS_CMD="mount -o zfsutil -t zfs"
fi
else
ZFS_CMD="mount -o zfsutil -t zfs"
fi
# Possibly decrypt a filesystem using native encryption.
decrypt_fs "$fs"
[ "$quiet" != "y" ] && \
zfs_log_begin_msg "Mounting '${fs}' on '${rootmnt}/${mountpoint}'"
[ -n "${ZFS_DEBUG}" ] && \
zfs_log_begin_msg "CMD: '$ZFS_CMD ${fs} ${rootmnt}/${mountpoint}'"
ZFS_STDERR=$(${ZFS_CMD} "${fs}" "${rootmnt}/${mountpoint}" 2>&1)
ZFS_ERROR=$?
if [ "${ZFS_ERROR}" != 0 ]
then
[ "$quiet" != "y" ] && zfs_log_failure_msg "${ZFS_ERROR}"
disable_plymouth
echo ""
echo "Command: ${ZFS_CMD} ${fs} ${rootmnt}/${mountpoint}"
echo "Message: $ZFS_STDERR"
echo "Error: $ZFS_ERROR"
echo ""
echo "Failed to mount ${fs} on ${rootmnt}/${mountpoint}."
echo "Manually mount the filesystem and exit."
shell
else
[ "$quiet" != "y" ] && zfs_log_end_msg
fi
return 0
}
# Unlock a ZFS native crypted filesystem.
decrypt_fs()
{
local fs="$1"
# If pool encryption is active and the zfs command understands '-o encryption'
if [ "$(zpool list -H -o feature@encryption $(echo "${fs}" | awk -F\/ '{print $1}'))" = 'active' ]; then
# Determine dataset that holds key for root dataset
ENCRYPTIONROOT=$(${ZFS} get -H -o value encryptionroot "${fs}")
DECRYPT_CMD="${ZFS} load-key '${ENCRYPTIONROOT}'"
# If root dataset is encrypted...
if ! [ "${ENCRYPTIONROOT}" = "-" ]; then
# Prompt with plymouth, if active
if [ -e /bin/plymouth ] && /bin/plymouth --ping 2>/dev/null; then
plymouth ask-for-password --prompt "Encrypted ZFS password for ${ENCRYPTIONROOT}" \
--number-of-tries="3" \
--command="${DECRYPT_CMD}"
# Prompt with systemd, if active
elif [ -e /run/systemd/system ]; then
TRY_COUNT=3
while [ $TRY_COUNT -gt 0 ]; do
systemd-ask-password "Encrypted ZFS password for ${ENCRYPTIONROOT}" --no-tty | \
${DECRYPT_CMD} && break
TRY_COUNT=$((TRY_COUNT - 1))
done
# Prompt with ZFS tty, otherwise
else
eval "${DECRYPT_CMD}"
fi
fi
fi
return 0
}
# Destroy a given filesystem.
destroy_fs()
{
local fs="$1"
[ "$quiet" != "y" ] && \
zfs_log_begin_msg "Destroying '$fs'"
ZFS_CMD="${ZFS} destroy $fs"
ZFS_STDERR="$(${ZFS_CMD} 2>&1)"
ZFS_ERROR="$?"
if [ "${ZFS_ERROR}" != 0 ]
then
[ "$quiet" != "y" ] && zfs_log_failure_msg "${ZFS_ERROR}"
disable_plymouth
echo ""
echo "Command: $ZFS_CMD"
echo "Message: $ZFS_STDERR"
echo "Error: $ZFS_ERROR"
echo ""
echo "Failed to destroy '$fs'. Please make sure that '$fs' is not available."
echo "Hint: Try: zfs destroy -Rfn $fs"
echo "If this dryrun looks good, then remove the 'n' from '-Rfn' and try again."
shell
else
[ "$quiet" != "y" ] && zfs_log_end_msg
fi
return 0
}
# Clone snapshot $1 to destination filesystem $2
# Set 'canmount=noauto' and 'mountpoint=none' so that we get to keep
# manual control over it's mounting (i.e., make sure it's not automatically
# mounted with a 'zfs mount -a' in the init/systemd scripts).
clone_snap()
{
local snap="$1"
local destfs="$2"
local mountpoint="$3"
[ "$quiet" != "y" ] && zfs_log_begin_msg "Cloning '$snap' to '$destfs'"
# Clone the snapshot into a dataset we can boot from
# + We don't want this filesystem to be automatically mounted, we
# want control over this here and nowhere else.
# + We don't need any mountpoint set for the same reason.
# We use the 'org.zol:mountpoint' property to remember the mountpoint.
ZFS_CMD="${ZFS} clone -o canmount=noauto -o mountpoint=none"
ZFS_CMD="${ZFS_CMD} -o org.zol:mountpoint=${mountpoint}"
ZFS_CMD="${ZFS_CMD} $snap $destfs"
ZFS_STDERR="$(${ZFS_CMD} 2>&1)"
ZFS_ERROR="$?"
if [ "${ZFS_ERROR}" != 0 ]
then
[ "$quiet" != "y" ] && zfs_log_failure_msg "${ZFS_ERROR}"
disable_plymouth
echo ""
echo "Command: $ZFS_CMD"
echo "Message: $ZFS_STDERR"
echo "Error: $ZFS_ERROR"
echo ""
echo "Failed to clone snapshot."
echo "Make sure that the any problems are corrected and then make sure"
echo "that the dataset '$destfs' exists and is bootable."
shell
else
[ "$quiet" != "y" ] && zfs_log_end_msg
fi
return 0
}
# Rollback a given snapshot.
rollback_snap()
{
local snap="$1"
[ "$quiet" != "y" ] && zfs_log_begin_msg "Rollback $snap"
ZFS_CMD="${ZFS} rollback -Rf $snap"
ZFS_STDERR="$(${ZFS_CMD} 2>&1)"
ZFS_ERROR="$?"
if [ "${ZFS_ERROR}" != 0 ]
then
[ "$quiet" != "y" ] && zfs_log_failure_msg "${ZFS_ERROR}"
disable_plymouth
echo ""
echo "Command: $ZFS_CMD"
echo "Message: $ZFS_STDERR"
echo "Error: $ZFS_ERROR"
echo ""
echo "Failed to rollback snapshot."
shell
else
[ "$quiet" != "y" ] && zfs_log_end_msg
fi
return 0
}
# Get a list of snapshots, give them as a numbered list
# to the user to choose from.
ask_user_snap()
{
local fs="$1"
local i=1
local SNAP snapnr snap debug
# We need to temporarily disable debugging. Set 'debug' so we
# remember to enabled it again.
if [ -n "${ZFS_DEBUG}" ]; then
unset ZFS_DEBUG
set +x
debug=1
fi
# Because we need the resulting snapshot, which is sent on
# stdout to the caller, we use stderr for our questions.
echo "What snapshot do you want to boot from?" > /dev/stderr
while read snap; do
echo " $i: ${snap}" > /dev/stderr
eval `echo SNAP_$i=$snap`
i=$((i + 1))
done <<EOT
$("${ZFS}" list -H -oname -tsnapshot -r "${fs}")
EOT
echo -n " Snap nr [1-$((i-1))]? " > /dev/stderr
read snapnr
# Re-enable debugging.
if [ -n "${debug}" ]; then
ZFS_DEBUG=1
set -x
fi
echo "$(eval echo "$"SNAP_$snapnr)"
}
setup_snapshot_booting()
{
local snap="$1"
local s destfs subfs mountpoint retval=0 filesystems fs
# Make sure that the snapshot specified actually exist.
if [ ! $(get_fs_value "${snap}" type) ]
then
# Snapshot does not exist (...@<null> ?)
# ask the user for a snapshot to use.
snap="$(ask_user_snap "${snap%%@*}")"
fi
# Separate the full snapshot ('$snap') into it's filesystem and
# snapshot names. Would have been nice with a split() function..
rootfs="${snap%%@*}"
snapname="${snap##*@}"
ZFS_BOOTFS="${rootfs}_${snapname}"
if ! grep -qiE '(^|[^\\](\\\\)* )(rollback)=(on|yes|1)( |$)' /proc/cmdline
then
# If the destination dataset for the clone
# already exists, destroy it. Recursivly
if [ $(get_fs_value "${rootfs}_${snapname}" type) ]; then
filesystems=$("${ZFS}" list -oname -tfilesystem -H \
-r -Sname "${ZFS_BOOTFS}")
for fs in $filesystems; do
destroy_fs "${fs}"
done
fi
fi
# Get all snapshots, recursivly (might need to clone /usr, /var etc
# as well).
for s in $("${ZFS}" list -H -oname -tsnapshot -r "${rootfs}" | \
grep "${snapname}")
do
if grep -qiE '(^|[^\\](\\\\)* )(rollback)=(on|yes|1)( |$)' /proc/cmdline
then
# Rollback snapshot
rollback_snap "$s" || retval=$((retval + 1))
else
# Setup a destination filesystem name.
# Ex: Called with 'rpool/ROOT/debian@snap2'
# rpool/ROOT/debian@snap2 => rpool/ROOT/debian_snap2
# rpool/ROOT/debian/boot@snap2 => rpool/ROOT/debian_snap2/boot
# rpool/ROOT/debian/usr@snap2 => rpool/ROOT/debian_snap2/usr
# rpool/ROOT/debian/var@snap2 => rpool/ROOT/debian_snap2/var
subfs="${s##$rootfs}"
subfs="${subfs%%@$snapname}"
destfs="${rootfs}_${snapname}" # base fs.
[ -n "$subfs" ] && destfs="${destfs}$subfs" # + sub fs.
# Get the mountpoint of the filesystem, to be used
# with clone_snap(). If legacy or none, then use
# the sub fs value.
mountpoint=$(get_fs_value "${s%%@*}" mountpoint)
if [ "$mountpoint" = "legacy" -o \
"$mountpoint" = "none" ]
then
if [ -n "${subfs}" ]; then
mountpoint="${subfs}"
else
mountpoint="/"
fi
fi
# Clone the snapshot into its own
# filesystem
clone_snap "$s" "${destfs}" "${mountpoint}" || \
retval=$((retval + 1))
fi
done
# If we haven't return yet, we have a problem...
return "${retval}"
}
# ================================================================
# This is the main function.
mountroot()
{
local snaporig snapsub destfs pool POOLS
# ----------------------------------------------------------------
# I N I T I A L S E T U P
# ------------
# Run the pre-mount scripts from /scripts/local-top.
pre_mountroot
# ------------
# Source the default setup variables.
[ -r '/etc/default/zfs' ] && . /etc/default/zfs
# ------------
# Support debug option
if grep -qiE '(^|[^\\](\\\\)* )(zfs_debug|zfs\.debug|zfsdebug)=(on|yes|1)( |$)' /proc/cmdline
then
ZFS_DEBUG=1
mkdir /var/log
#exec 2> /var/log/boot.debug
set -x
fi
# ------------
# Load ZFS module etc.
if ! load_module_initrd; then
disable_plymouth
echo ""
echo "Failed to load ZFS modules."
echo "Manually load the modules and exit."
shell
fi
# ------------
# Look for the cache file (if any).
[ ! -f ${ZPOOL_CACHE} ] && unset ZPOOL_CACHE
# ------------
# Compatibility: 'ROOT' is for Debian GNU/Linux (etc),
# 'root' is for Redhat/Fedora (etc),
# 'REAL_ROOT' is for Gentoo
if [ -z "$ROOT" ]
then
[ -n "$root" ] && ROOT=${root}
[ -n "$REAL_ROOT" ] && ROOT=${REAL_ROOT}
fi
# ------------
# Where to mount the root fs in the initrd - set outside this script
# Compatibility: 'rootmnt' is for Debian GNU/Linux (etc),
# 'NEWROOT' is for RedHat/Fedora (etc),
# 'NEW_ROOT' is for Gentoo
if [ -z "$rootmnt" ]
then
[ -n "$NEWROOT" ] && rootmnt=${NEWROOT}
[ -n "$NEW_ROOT" ] && rootmnt=${NEW_ROOT}
fi
# ------------
# No longer set in the defaults file, but it could have been set in
# get_pools() in some circumstances. If it's something, but not 'yes',
# it's no good to us.
[ -n "$USE_DISK_BY_ID" -a "$USE_DISK_BY_ID" != 'yes' ] && \
unset USE_DISK_BY_ID
# ----------------------------------------------------------------
# P A R S E C O M M A N D L I N E O P T I O N S
# This part is the really ugly part - there's so many options and permutations
# 'out there', and if we should make this the 'primary' source for ZFS initrd
# scripting, we need/should support them all.
#
# Supports the following kernel command line argument combinations
# (in this order - first match win):
#
# rpool=<pool> (tries to finds bootfs automatically)
# bootfs=<pool>/<dataset> (uses this for rpool - first part)
# rpool=<pool> bootfs=<pool>/<dataset>
# -B zfs-bootfs=<pool>/<fs> (uses this for rpool - first part)
# rpool=rpool (default if none of the above is used)
# root=<pool>/<dataset> (uses this for rpool - first part)
# root=ZFS=<pool>/<dataset> (uses this for rpool - first part, without 'ZFS=')
# root=zfs:AUTO (tries to detect both pool and rootfs
# root=zfs:<pool>/<dataset> (uses this for rpool - first part, without 'zfs:')
#
# Option <dataset> could also be <snapshot>
# Option <pool> could also be <guid>
# ------------
# Support force option
# In addition, setting one of zfs_force, zfs.force or zfsforce to
# 'yes', 'on' or '1' will make sure we force import the pool.
# This should (almost) never be needed, but it's here for
# completeness.
ZPOOL_FORCE=""
if grep -qiE '(^|[^\\](\\\\)* )(zfs_force|zfs\.force|zfsforce)=(on|yes|1)( |$)' /proc/cmdline
then
ZPOOL_FORCE="-f"
fi
# ------------
# Look for 'rpool' and 'bootfs' parameter
[ -n "$rpool" ] && ZFS_RPOOL="${rpool#rpool=}"
[ -n "$bootfs" ] && ZFS_BOOTFS="${bootfs#bootfs=}"
# ------------
# If we have 'ROOT' (see above), but not 'ZFS_BOOTFS', then use
# 'ROOT'
[ -n "$ROOT" -a -z "${ZFS_BOOTFS}" ] && ZFS_BOOTFS="$ROOT"
# ------------
# Check for the `-B zfs-bootfs=%s/%u,...` kind of parameter.
# NOTE: Only use the pool name and dataset. The rest is not
# supported by ZoL (whatever it's for).
if [ -z "$ZFS_RPOOL" ]
then
# The ${zfs-bootfs} variable is set at the kernel command
# line, usually by GRUB, but it cannot be referenced here
# directly because bourne variable names cannot contain a
# hyphen.
#
# Reassign the variable by dumping the environment and
# stripping the zfs-bootfs= prefix. Let the shell handle
# quoting through the eval command.
eval ZFS_RPOOL=$(set | sed -n -e 's,^zfs-bootfs=,,p')
fi
# ------------
# No root fs or pool specified - do auto detect.
if [ -z "$ZFS_RPOOL" -a -z "${ZFS_BOOTFS}" ]
then
# Do auto detect. Do this by 'cheating' - set 'root=zfs:AUTO'
# which will be caught later
ROOT=zfs:AUTO
fi
# ----------------------------------------------------------------
# F I N D A N D I M P O R T C O R R E C T P O O L
# ------------
if [ "$ROOT" = "zfs:AUTO" ]
then
# Try to detect both pool and root fs.
[ "$quiet" != "y" ] && \
zfs_log_begin_msg "Attempting to import additional pools."
# Get a list of pools available for import
if [ -n "$ZFS_RPOOL" ]
then
# We've specified a pool - check only that
POOLS=$ZFS_RPOOL
else
POOLS=$(get_pools)
fi
OLD_IFS="$IFS" ; IFS=";"
for pool in $POOLS
do
[ -z "$pool" ] && continue
import_pool "$pool"
find_rootfs "$pool"
done
IFS="$OLD_IFS"
[ "$quiet" != "y" ] && zfs_log_end_msg $ZFS_ERROR
else
# No auto - use value from the command line option.
# Strip 'zfs:' and 'ZFS='.
ZFS_BOOTFS="${ROOT#*[:=]}"
# Stip everything after the first slash.
ZFS_RPOOL="${ZFS_BOOTFS%%/*}"
fi
# Import the pool (if not already done so in the AUTO check above).
if [ -n "$ZFS_RPOOL" -a -z "${POOL_IMPORTED}" ]
then
[ "$quiet" != "y" ] && \
zfs_log_begin_msg "Importing ZFS root pool '$ZFS_RPOOL'"
import_pool "${ZFS_RPOOL}"
find_rootfs "${ZFS_RPOOL}"
[ "$quiet" != "y" ] && zfs_log_end_msg
fi
if [ -z "${POOL_IMPORTED}" ]
then
# No pool imported, this is serious!
disable_plymouth
echo ""
echo "Command: $ZFS_CMD"
echo "Message: $ZFS_STDERR"
echo "Error: $ZFS_ERROR"
echo ""
echo "No pool imported. Manually import the root pool"
echo "at the command prompt and then exit."
echo "Hint: Try: zpool import -R ${rootmnt} -N ${ZFS_RPOOL}"
shell
fi
# In case the pool was specified as guid, resolve guid to name
pool="$("${ZPOOL}" get name,guid -o name,value -H | \
awk -v pool="${ZFS_RPOOL}" '$2 == pool { print $1 }')"
if [ -n "$pool" ]; then
# If $ZFS_BOOTFS contains guid, replace the guid portion with $pool
ZFS_BOOTFS=$(echo "$ZFS_BOOTFS" | \
sed -e "s/$("${ZPOOL}" get guid -o value "$pool" -H)/$pool/g")
ZFS_RPOOL="${pool}"
fi
# Set elevator=noop on the root pool's vdevs' disks. ZFS already
# does this for wholedisk vdevs (for all pools), so this is only
# important for partitions.
"${ZPOOL}" status -L "${ZFS_RPOOL}" 2> /dev/null |
awk '/^\t / && !/(mirror|raidz)/ {
dev=$1;
sub(/[0-9]+$/, "", dev);
print dev
}' |
while read i
do
if grep -sq noop /sys/block/$i/queue/scheduler
then
echo noop > "/sys/block/$i/queue/scheduler"
fi
done
# ----------------------------------------------------------------
# P R E P A R E R O O T F I L E S Y S T E M
if [ -n "${ZFS_BOOTFS}" ]
then
# Booting from a snapshot?
# Will overwrite the ZFS_BOOTFS variable like so:
# rpool/ROOT/debian@snap2 => rpool/ROOT/debian_snap2
echo "${ZFS_BOOTFS}" | grep -q '@' && \
setup_snapshot_booting "${ZFS_BOOTFS}"
fi
if [ -z "${ZFS_BOOTFS}" ]
then
# Still nothing! Let the user sort this out.
disable_plymouth
echo ""
echo "Error: Unknown root filesystem - no 'bootfs' pool property and"
echo " not specified on the kernel command line."
echo ""
echo "Manually mount the root filesystem on $rootmnt and then exit."
echo "Hint: Try: mount -o zfsutil -t zfs ${ZFS_RPOOL-rpool}/ROOT/system $rootmnt"
shell
fi
# ----------------------------------------------------------------
# M O U N T F I L E S Y S T E M S
# * Ideally, the root filesystem would be mounted like this:
#
# zpool import -R "$rootmnt" -N "$ZFS_RPOOL"
# zfs mount -o mountpoint=/ "${ZFS_BOOTFS}"
#
# but the MOUNTPOINT prefix is preserved on descendent filesystem
# after the pivot into the regular root, which later breaks things
# like `zfs mount -a` and the /proc/self/mounts refresh.
#
# * Mount additional filesystems required
# Such as /usr, /var, /usr/local etc.
# NOTE: Mounted in the order specified in the
# ZFS_INITRD_ADDITIONAL_DATASETS variable so take care!
# Go through the complete list (recursively) of all filesystems below
# the real root dataset
filesystems=$("${ZFS}" list -oname -tfilesystem -H -r "${ZFS_BOOTFS}")
for fs in $filesystems $ZFS_INITRD_ADDITIONAL_DATASETS
do
mount_fs "$fs"
done
# ------------
# Debugging information
if [ -n "${ZFS_DEBUG}" ]
then
#exec 2>&1-
echo "DEBUG: imported pools:"
"${ZPOOL}" list -H
echo
echo "DEBUG: mounted ZFS filesystems:"
mount | grep zfs
echo
echo "=> waiting for ENTER before continuing because of 'zfsdebug=1'. "
echo -n " 'c' for shell, 'r' for reboot, 'ENTER' to continue. "
read b
[ "$b" = "c" ] && /bin/sh
[ "$b" = "r" ] && reboot -f
set +x
fi
# ------------
# Run local bottom script
if type run_scripts > /dev/null 2>&1 && \
[ -f "/scripts/local-bottom" -o -d "/scripts/local-bottom" ]
then
[ "$quiet" != "y" ] && \
zfs_log_begin_msg "Running /scripts/local-bottom"
run_scripts /scripts/local-bottom
[ "$quiet" != "y" ] && zfs_log_end_msg
fi
}