scrub/e2scrub.in - platform/external/e2fsprogs - Git at Google

 #!/bin/bash

 #  Copyright (C) 2018 Oracle.  All Rights Reserved.
 #
 #  Author: Darrick J. Wong <darrick.wong@oracle.com>
 #
 #  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 2
 #  of the License, or (at your option) any later version.
 #
 #  This program is distributed in the hope that it would 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, write the Free Software Foundation,
 #  Inc.,  51 Franklin St, Fifth Floor, Boston, MA  02110-1301, USA.

 # Automatically check an LVM-managed filesystem online.
 # We use lvm snapshots to do this, which means that we can only
 # check filesystems in VGs that have at least 256MB (or so) of
 # free space.

 PATH=/usr/local/sbin:/usr/local/bin:/sbin:/bin:/usr/sbin:/usr/bin

 if (( $EUID != 0 )); then
     echo "e2scrub must be run as root"
     exit 1
 fi

 snap_size_mb=256
 fstrim=0
 reap=0
 e2fsck_opts=""
 conffile="@root_sysconfdir@/e2scrub.conf"

 test -f "${conffile}" && . "${conffile}"

 print_help() {
 	echo "Usage: $0 [OPTIONS] mountpoint | device"
 	echo
 	echo "mountpoint must be on an LVM-managed block device"
 	echo "-n: Show what commands e2scrub would execute."
 	echo "-r: Remove e2scrub snapshot and exit, do not check anything."
 	echo "-t: Run fstrim if successful."
 	echo "-V: Print version information and exit."
 }

 print_version() {
 	echo "e2scrub @E2FSPROGS_VERSION@ (@E2FSPROGS_DATE@)"
 }

 exitcode() {
 	ret="$1"

 	# If we're being run as a service, the return code must fit the LSB
 	# init script action error guidelines, which is to say that we
 	# compress all errors to 1 ("generic or unspecified error", LSB 5.0
 	# section 22.2) and hope the admin will scan the log for what
 	# actually happened.

 	# We have to sleep 2 seconds here because journald uses the pid to
 	# connect our log messages to the systemd service.  This is critical
 	# for capturing all the log messages if the scrub fails, because the
 	# fail service uses the service name to gather log messages for the
 	# error report.
 	if [ -n "${SERVICE_MODE}" -a "${ret}" -ne 0 ]; then
 		test "${ret}" -ne 0 && ret=1
 		sleep 2
 	fi

 	exit "${ret}"
 }

 while getopts "nrtV" opt; do
     case "${opt}" in
 	"n") DBG="echo Would execute: " ;;
 	"r") reap=1;;
 	"t") fstrim=1;;
 	"V") print_version; exitcode 0;;
 	*) print_help; exitcode 2;;
 	esac
 done
 shift "$((OPTIND - 1))"

 arg="$1"
 if [ -z "${arg}" ]; then
 	print_help
 	exitcode 1
 fi

 if ! type lsblk >& /dev/null ; then
     echo "e2scrub: can't find lsblk --- is util-linux installed?"
     exitcode 1
 fi

 if ! type lvcreate >& /dev/null ; then
     echo "e2scrub: can't find lvcreate --- is lvm2 installed?"
     exitcode 1
 fi

 # close file descriptor 3 (from cron) since it causes lvm to kvetch
 exec 3<&-

 # Find the device for a given mountpoint
 dev_from_mount() {
 	local mountpt="$(realpath "$1")"

 	lsblk -o NAME,FSTYPE,MOUNTPOINT -p -P -n 2> /dev/null | while read vars; do
 		eval "${vars}"
 		if [ "${mountpt}" != "${MOUNTPOINT}" ]; then
 			continue
 		fi
 		case "${FSTYPE}" in
 		ext[234])
 			echo "${NAME}"
 			return 0
 			;;
 		esac
 	done
 	return 1
 }

 # Check a device argument
 dev_from_arg() {
 	local dev="$1"
 	local fstype="$(lsblk -o FSTYPE -n "${dev}" 2> /dev/null)"

 	case "${fstype}" in
 	ext[234])
 		echo "${dev}"
 		return 0
 		;;
 	esac
 	return 1
 }

 mnt_from_dev() {
 	local dev="$1"

 	if [ -n "${dev}" ]; then
 		lsblk -o MOUNTPOINT -n "${dev}"
 	fi
 }

 # Construct block device path and mountpoint from argument
 if [ -b "${arg}" ]; then
 	dev="$(dev_from_arg "${arg}")"
 	mnt="$(mnt_from_dev "${dev}")"
 else
 	dev="$(dev_from_mount "${arg}")"
 	mnt="${arg}"
 fi
 if [ ! -e "${dev}" ]; then
 	echo "${arg}: Not an ext[234] filesystem."
 	print_help
 	exitcode 16
 fi

 # Make sure this is an LVM device we can snapshot
 lvm_vars="$(lvs --nameprefixes -o name,vgname,lv_role --noheadings "${dev}" 2> /dev/null)"
 eval "${lvm_vars}"
 if [ -z "${LVM2_VG_NAME}" ] || [ -z "${LVM2_LV_NAME}" ] ||
    echo "${LVM2_LV_ROLE}" | grep -q "snapshot"; then
 	echo "${arg}: Not connected to an LVM logical volume."
 	print_help
 	exitcode 16
 fi
 start_time="$(date +'%Y%m%d%H%M%S')"
 snap="${LVM2_LV_NAME}.e2scrub"
 snap_dev="/dev/${LVM2_VG_NAME}/${snap}"

 teardown() {
 	# Remove and wait for removal to succeed.
 	${DBG} lvremove -f "${LVM2_VG_NAME}/${snap}"
 	while [ -e "${snap_dev}" ] && [ "$?" -eq "5" ]; do
 		sleep 0.5
 		${DBG} lvremove -f "${LVM2_VG_NAME}/${snap}"
 	done
 }

 check() {
 	# First we recover the journal, then we see if e2fsck tries any
 	# non-optimization repairs.  If either of these two returns a
 	# non-zero status (errors fixed or remaining) then this fs is bad.
 	E2FSCK_FIXES_ONLY=1
 	export E2FSCK_FIXES_ONLY
 	${DBG} "@root_sbindir@/e2fsck" -E journal_only -p ${e2fsck_opts} "${snap_dev}" || return $?
 	${DBG} "@root_sbindir@/e2fsck" -f -y ${e2fsck_opts} "${snap_dev}"
 }

 mark_clean() {
 	${DBG} "@root_sbindir@/tune2fs" -C 0 -T "${start_time}" "${dev}"
 }

 mark_corrupt() {
 	${DBG} "@root_sbindir@/tune2fs" -E force_fsck "${dev}"
 }

 setup() {
 	# Try to remove snapshot for 30s, bail out if we can't remove it.
 	lvremove_deadline="$(( $(date "+%s") + 30))"
 	${DBG} lvremove -f "${LVM2_VG_NAME}/${snap}" 2>/dev/null
 	while [ -e "${snap_dev}" ] && [ "$?" -eq "5" ] &&
 	      [ "$(date "+%s")" -lt "${lvremove_deadline}" ]; do
 		sleep 0.5
 		${DBG} lvremove -f "${LVM2_VG_NAME}/${snap}"
 	done
 	if [ -e "${snap_dev}" ]; then
 		echo "${arg}: e2scrub snapshot is in use, cannot check!"
 		return 1
 	fi
 	# Create the snapshot, wait for device to appear.
 	${DBG} lvcreate -s -L "${snap_size_mb}m" -n "${snap}" "${LVM2_VG_NAME}/${LVM2_LV_NAME}"
 	if [ $? -ne 0 ]; then
 		echo "${arg}: e2scrub snapshot FAILED, will not check!"
 		return 1
 	fi
 	${DBG} udevadm settle 2> /dev/null
 	return 0
 }

 if [ "${reap}" -gt 0 ]; then
 	if [ -e "${snap_dev}" ]; then
 		teardown 2> /dev/null
 	fi
 	exit 0
 fi
 if ! setup; then
 	exitcode 8
 fi
 trap "teardown; exit 1" EXIT INT QUIT TERM

 # Check and react
 check
 case "$?" in
 "0")
 	# Clean check!
 	echo "${arg}: Scrub succeeded."
 	mark_clean
 	teardown
 	trap '' EXIT

 	# Trim the free space, which requires the snapshot be deleted.
 	if [ "${fstrim}" -eq 1 ] && [ -d "${mnt}" ] && type fstrim > /dev/null 2>&1; then
 		echo "${arg}: Trimming free space."
 		fstrim -v "${mnt}"
 	fi

 	ret=0
 	;;
 "8")
 	# Operational error, what now?
 	echo "${arg}: e2fsck operational error."
 	teardown
 	trap '' EXIT
 	ret=8
 	;;
 *)
 	# fsck failed.  Check if the snapshot is invalid; if so, make a
 	# note of that at the end of the log.  This isn't necessarily a
 	# failure because the mounted fs could have overflowed the
 	# snapshot with regular disk writes /or/ our repair process
 	# could have done it by repairing too much.
 	#
 	# If it's really corrupt we ought to fsck at next boot.
 	is_invalid="$(lvs -o lv_snapshot_invalid --noheadings "${snap_dev}" | awk '{print $1}')"
 	if [ -n "${is_invalid}" ]; then
 		echo "${arg}: Scrub FAILED due to invalid snapshot."
 		ret=8
 	else
 		echo "${arg}: Scrub FAILED due to corruption!  Unmount and run e2fsck -y."
 		mark_corrupt
 		ret=6
 	fi
 	teardown
 	trap '' EXIT
 	;;
 esac

 exitcode "${ret}"
	#!/bin/bash

	# Copyright (C) 2018 Oracle. All Rights Reserved.
	#
	# Author: Darrick J. Wong <darrick.wong@oracle.com>
	#
	# 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 2
	# of the License, or (at your option) any later version.
	#
	# This program is distributed in the hope that it would 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, write the Free Software Foundation,
	# Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301, USA.

	# Automatically check an LVM-managed filesystem online.
	# We use lvm snapshots to do this, which means that we can only
	# check filesystems in VGs that have at least 256MB (or so) of
	# free space.

	PATH=/usr/local/sbin:/usr/local/bin:/sbin:/bin:/usr/sbin:/usr/bin

	if (( $EUID != 0 )); then
	echo "e2scrub must be run as root"
	exit 1
	fi

	snap_size_mb=256
	fstrim=0
	reap=0
	e2fsck_opts=""
	conffile="@root_sysconfdir@/e2scrub.conf"

	test -f "${conffile}" && . "${conffile}"

	print_help() {
	echo "Usage: $0 [OPTIONS] mountpoint \| device"
	echo
	echo "mountpoint must be on an LVM-managed block device"
	echo "-n: Show what commands e2scrub would execute."
	echo "-r: Remove e2scrub snapshot and exit, do not check anything."
	echo "-t: Run fstrim if successful."
	echo "-V: Print version information and exit."
	}

	print_version() {
	echo "e2scrub @E2FSPROGS_VERSION@ (@E2FSPROGS_DATE@)"
	}

	exitcode() {
	ret="$1"

	# If we're being run as a service, the return code must fit the LSB
	# init script action error guidelines, which is to say that we
	# compress all errors to 1 ("generic or unspecified error", LSB 5.0
	# section 22.2) and hope the admin will scan the log for what
	# actually happened.

	# We have to sleep 2 seconds here because journald uses the pid to
	# connect our log messages to the systemd service. This is critical
	# for capturing all the log messages if the scrub fails, because the
	# fail service uses the service name to gather log messages for the
	# error report.
	if [ -n "${SERVICE_MODE}" -a "${ret}" -ne 0 ]; then
	test "${ret}" -ne 0 && ret=1
	sleep 2
	fi

	exit "${ret}"
	}

	while getopts "nrtV" opt; do
	case "${opt}" in
	"n") DBG="echo Would execute: " ;;
	"r") reap=1;;
	"t") fstrim=1;;
	"V") print_version; exitcode 0;;
	*) print_help; exitcode 2;;
	esac
	done
	shift "$((OPTIND - 1))"

	arg="$1"
	if [ -z "${arg}" ]; then
	print_help
	exitcode 1
	fi

	if ! type lsblk >& /dev/null ; then
	echo "e2scrub: can't find lsblk --- is util-linux installed?"
	exitcode 1
	fi

	if ! type lvcreate >& /dev/null ; then
	echo "e2scrub: can't find lvcreate --- is lvm2 installed?"
	exitcode 1
	fi

	# close file descriptor 3 (from cron) since it causes lvm to kvetch
	exec 3<&-

	# Find the device for a given mountpoint
	dev_from_mount() {
	local mountpt="$(realpath "$1")"

	lsblk -o NAME,FSTYPE,MOUNTPOINT -p -P -n 2> /dev/null \| while read vars; do
	eval "${vars}"
	if [ "${mountpt}" != "${MOUNTPOINT}" ]; then
	continue
	fi
	case "${FSTYPE}" in
	ext[234])
	echo "${NAME}"
	return 0
	;;
	esac
	done
	return 1
	}

	# Check a device argument
	dev_from_arg() {
	local dev="$1"
	local fstype="$(lsblk -o FSTYPE -n "${dev}" 2> /dev/null)"

	case "${fstype}" in
	ext[234])
	echo "${dev}"
	return 0
	;;
	esac
	return 1
	}

	mnt_from_dev() {
	local dev="$1"

	if [ -n "${dev}" ]; then
	lsblk -o MOUNTPOINT -n "${dev}"
	fi
	}

	# Construct block device path and mountpoint from argument
	if [ -b "${arg}" ]; then
	dev="$(dev_from_arg "${arg}")"
	mnt="$(mnt_from_dev "${dev}")"
	else
	dev="$(dev_from_mount "${arg}")"
	mnt="${arg}"
	fi
	if [ ! -e "${dev}" ]; then
	echo "${arg}: Not an ext[234] filesystem."
	print_help
	exitcode 16
	fi

	# Make sure this is an LVM device we can snapshot
	lvm_vars="$(lvs --nameprefixes -o name,vgname,lv_role --noheadings "${dev}" 2> /dev/null)"
	eval "${lvm_vars}"
	if [ -z "${LVM2_VG_NAME}" ] \|\| [ -z "${LVM2_LV_NAME}" ] \|\|
	echo "${LVM2_LV_ROLE}" \| grep -q "snapshot"; then
	echo "${arg}: Not connected to an LVM logical volume."
	print_help
	exitcode 16
	fi
	start_time="$(date +'%Y%m%d%H%M%S')"
	snap="${LVM2_LV_NAME}.e2scrub"
	snap_dev="/dev/${LVM2_VG_NAME}/${snap}"

	teardown() {
	# Remove and wait for removal to succeed.
	${DBG} lvremove -f "${LVM2_VG_NAME}/${snap}"
	while [ -e "${snap_dev}" ] && [ "$?" -eq "5" ]; do
	sleep 0.5
	${DBG} lvremove -f "${LVM2_VG_NAME}/${snap}"
	done
	}

	check() {
	# First we recover the journal, then we see if e2fsck tries any
	# non-optimization repairs. If either of these two returns a
	# non-zero status (errors fixed or remaining) then this fs is bad.
	E2FSCK_FIXES_ONLY=1
	export E2FSCK_FIXES_ONLY
	${DBG} "@root_sbindir@/e2fsck" -E journal_only -p ${e2fsck_opts} "${snap_dev}" \|\| return $?
	${DBG} "@root_sbindir@/e2fsck" -f -y ${e2fsck_opts} "${snap_dev}"
	}

	mark_clean() {
	${DBG} "@root_sbindir@/tune2fs" -C 0 -T "${start_time}" "${dev}"
	}

	mark_corrupt() {
	${DBG} "@root_sbindir@/tune2fs" -E force_fsck "${dev}"
	}

	setup() {
	# Try to remove snapshot for 30s, bail out if we can't remove it.
	lvremove_deadline="$(( $(date "+%s") + 30))"
	${DBG} lvremove -f "${LVM2_VG_NAME}/${snap}" 2>/dev/null
	while [ -e "${snap_dev}" ] && [ "$?" -eq "5" ] &&
	[ "$(date "+%s")" -lt "${lvremove_deadline}" ]; do
	sleep 0.5
	${DBG} lvremove -f "${LVM2_VG_NAME}/${snap}"
	done
	if [ -e "${snap_dev}" ]; then
	echo "${arg}: e2scrub snapshot is in use, cannot check!"
	return 1
	fi
	# Create the snapshot, wait for device to appear.
	${DBG} lvcreate -s -L "${snap_size_mb}m" -n "${snap}" "${LVM2_VG_NAME}/${LVM2_LV_NAME}"
	if [ $? -ne 0 ]; then
	echo "${arg}: e2scrub snapshot FAILED, will not check!"
	return 1
	fi
	${DBG} udevadm settle 2> /dev/null
	return 0
	}

	if [ "${reap}" -gt 0 ]; then
	if [ -e "${snap_dev}" ]; then
	teardown 2> /dev/null
	fi
	exit 0
	fi
	if ! setup; then
	exitcode 8
	fi
	trap "teardown; exit 1" EXIT INT QUIT TERM

	# Check and react
	check
	case "$?" in
	"0")
	# Clean check!
	echo "${arg}: Scrub succeeded."
	mark_clean
	teardown
	trap '' EXIT

	# Trim the free space, which requires the snapshot be deleted.
	if [ "${fstrim}" -eq 1 ] && [ -d "${mnt}" ] && type fstrim > /dev/null 2>&1; then
	echo "${arg}: Trimming free space."
	fstrim -v "${mnt}"
	fi

	ret=0
	;;
	"8")
	# Operational error, what now?
	echo "${arg}: e2fsck operational error."
	teardown
	trap '' EXIT
	ret=8
	;;
	*)
	# fsck failed. Check if the snapshot is invalid; if so, make a
	# note of that at the end of the log. This isn't necessarily a
	# failure because the mounted fs could have overflowed the
	# snapshot with regular disk writes /or/ our repair process
	# could have done it by repairing too much.
	#
	# If it's really corrupt we ought to fsck at next boot.
	is_invalid="$(lvs -o lv_snapshot_invalid --noheadings "${snap_dev}" \| awk '{print $1}')"
	if [ -n "${is_invalid}" ]; then
	echo "${arg}: Scrub FAILED due to invalid snapshot."
	ret=8
	else
	echo "${arg}: Scrub FAILED due to corruption! Unmount and run e2fsck -y."
	mark_corrupt
	ret=6
	fi
	teardown
	trap '' EXIT
	;;
	esac

	exitcode "${ret}"