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# # Functions used by several mount* scripts in initscripts package # # Sourcer must source /lib/lsb/init-functions.sh # List available fstab files, including any files in /etc/fstab.d. # This looks ugly, but we can't use find and it's safer than globbing. fstab_files() { echo /etc/fstab if [ -d /etc/fstab.d ]; then ls -1 /etc/fstab.d | grep '\.fstab$' | sed -e 's;^;/etc/fstab.d/;' fi } # $1: directory is_empty_dir() { for FILE in $1/* $1/.* do case "$FILE" in "$1/.*") return 0 ;; "$1/*"|"$1/."|"$1/..") continue ;; *) return 1 ;; esac done return 0 } selinux_enabled () { which selinuxenabled >/dev/null 2>&1 && selinuxenabled } # Read /etc/fstab, looking for: # 1) The root filesystem, resolving LABEL=*|UUID=*|PARTUUID=*|PARTLABEL=* entries # to the device node, # 2) Swap that is on a md device or a file that may be on a md # device, _read_fstab () { echo "fstabroot=/dev/root" echo "rootdev=none" echo "roottype=none" echo "rootopts=defaults" echo "rootmode=rw" echo "rootcheck=no" echo "swap_on_lv=no" echo "swap_on_file=no" fstab_files | while read file; do if [ -f "$file" ]; then while read DEV MTPT FSTYPE OPTS DUMP PASS JUNK; do case "$DEV" in ""|\#*) continue ;; /dev/mapper/*) [ "$FSTYPE" = "swap" ] && echo swap_on_lv=yes ;; /dev/*) ;; LABEL=*|UUID=*|PARTUUID=*|PARTLABEL=*) if [ "$MTPT" = "/" ] && [ -x /sbin/findfs ] then DEV="$(findfs "$DEV")" fi ;; /*) [ "$FSTYPE" = "swap" ] && echo swap_on_file=yes ;; *) ;; esac [ "$MTPT" != "/" ] && continue echo rootdev=\"$DEV\" echo fstabroot=\"$DEV\" echo rootopts=\"$OPTS\" echo roottype=\"$FSTYPE\" ( [ "$PASS" != 0 ] && [ "$PASS" != "" ] ) && echo rootcheck=yes ( [ "$FSTYPE" = "nfs" ] || [ "$FSTYPE" = "nfs4" ] ) && echo rootcheck=no case "$OPTS" in ro|ro,*|*,ro|*,ro,*) echo rootmode=ro ;; esac done < "$file" fi done } # Parse /etc/fstab and set variables relating to: # 1) The root filesystem: # - rootdev # - fstabroot # - rootopts # - roottype # - rootcheck # - rootmode # 2) Swap: # - swap_on_file # - swap_on_lv read_fstab () { eval "$(_read_fstab)" } # Find a specific fstab entry # $1=mountpoint # $2=fstype (optional) _read_fstab_entry () { # Not found by default. echo "MNT_FSNAME=" echo "MNT_DIR=" echo "MNT_TYPE=" echo "MNT_OPTS=" echo "MNT_FREQ=" echo "MNT_PASS=" fstab_files | while read file; do if [ -f "$file" ]; then while read MNT_FSNAME MNT_DIR MNT_TYPE MNT_OPTS MNT_FREQ MNT_PASS MNT_JUNK; do case "$MNT_FSNAME" in ""|\#*) continue; ;; esac if [ "$MNT_DIR" = "$1" ]; then if [ -n "$2" ]; then [ "$MNT_TYPE" = "$2" ] || continue; fi echo "MNT_FSNAME=$MNT_FSNAME" echo "MNT_DIR=$MNT_DIR" echo "MNT_TYPE=$MNT_TYPE" echo "MNT_OPTS=$MNT_OPTS" echo "MNT_FREQ=$MNT_FREQ" echo "MNT_PASS=$MNT_PASS" break 2 fi MNT_DIR="" done < "$file" fi done } # Find a specific fstab entry # $1=mountpoint # $2=fstype (optional) # returns 0 on success, 1 on failure (not found or no fstab) read_fstab_entry () { eval "$(_read_fstab_entry "$1" "$2")" # Not found by default. found=1 if [ "$1" = "$MNT_DIR" ]; then found=0 fi return $found } # Mount kernel and device file systems. # $1: mount mode (mount, remount) # $2: file system type # $3: alternative file system type (or empty string if none) # $4: mount point # $5: mount device name # $6... : extra mount program options domount () { MOUNTMODE="$1" PRIFSTYPE="$2" ALTFSTYPE="$3" MTPT="$4" DEVNAME="$5" CALLER_OPTS="$6" KERNEL="$(uname -s)" # Figure out filesystem type from primary and alternative type FSTYPE= # Filesystem-specific mount options FS_OPTS= # Mount options from fstab FSTAB_OPTS= if [ "$MOUNTMODE" = remount ] ; then case "$KERNEL" in *FreeBSD) case "$PRIFSTYPE" in proc|tmpfs|sysfs) # can't be remounted return 0 ;; esac ;; esac fi if [ "$PRIFSTYPE" = proc ]; then case "$KERNEL" in Linux) FSTYPE=proc ;; GNU) FSTYPE=proc; FS_OPTS="-ocompatible" ;; *FreeBSD) FSTYPE=linprocfs ;; *) FSTYPE=procfs ;; esac elif [ "$PRIFSTYPE" = bind ]; then case "$KERNEL" in Linux) FSTYPE="$DEVNAME"; FS_OPTS="-obind" ;; *FreeBSD) FSTYPE=nullfs ;; GNU) FSTYPE=firmlink ;; *) FSTYPE=none ;; esac elif [ "$PRIFSTYPE" = tmpfs ]; then # always accept tmpfs, to mount /run before /proc case "$KERNEL" in *) FSTYPE=$PRIFSTYPE ;; esac elif [ "$PRIFSTYPE" = efivarfs ]; then # accept efivarfs if its mountpoint exists; kernel will auto-load the module if test -d /sys/firmware/efi/efivars; then FSTYPE=$PRIFSTYPE fi elif grep -E -qs "$PRIFSTYPE\$" /proc/filesystems; then FSTYPE=$PRIFSTYPE elif grep -E -qs "$ALTFSTYPE\$" /proc/filesystems; then FSTYPE=$ALTFSTYPE fi # Filesystem not supported by kernel if [ ! "$FSTYPE" ]; then if [ "$ALTFSTYPE" ]; then log_warning_msg "Filesystem types '$PRIFSTYPE' and '$ALTFSTYPE' are not supported. Skipping mount." else log_warning_msg "Filesystem type '$PRIFSTYPE' is not supported. Skipping mount." fi return fi # We give file system type as device name if not specified as # an argument if [ -z "$DEVNAME" ] ; then DEVNAME=$FSTYPE fi # Get the mount options from /etc/fstab if read_fstab_entry "$MTPT" "$FSTYPE"; then case "$MNT_OPTS" in noauto|*,noauto|noauto,*|*,noauto,*) return ;; ?*) FSTAB_OPTS="-o$MNT_OPTS" ;; esac fi if [ ! -d "$MTPT" ] then log_warning_msg "Mount point '$MTPT' does not exist. Skipping mount." return fi if [ "$MOUNTMODE" = "mount_noupdate" ]; then MOUNTFLAGS="-n" MOUNTMODE=mount fi if [ "$MOUNTMODE" = "remount_noupdate" ]; then MOUNTFLAGS="-n" MOUNTMODE=remount fi case "$MOUNTMODE" in mount) if mountpoint -q "$MTPT"; then # Already mounted, probably moved from the # initramfs, so remount with the # user-specified mount options later on. : else if [ "$VERBOSE" != "no" ]; then is_empty_dir "$MTPT" >/dev/null 2>&1 || log_warning_msg "Files under mount point '$MTPT' will be hidden." fi mount $MOUNTFLAGS -t $FSTYPE $CALLER_OPTS $FSTAB_OPTS $FS_OPTS $DEVNAME $MTPT if [ "$FSTYPE" = "tmpfs" -a -x /sbin/restorecon ]; then /sbin/restorecon $MTPT fi fi ;; remount) if mountpoint -q "$MTPT"; then # Remount with user-specified mount options mount $MOUNTFLAGS -oremount $CALLER_OPTS $FSTAB_OPTS $MTPT fi ;; esac } # # Preserve /var/run and /var/lock mountpoints # pre_mountall () { : } # If the device/inode are the same, a bind mount already exists or the # transition is complete, so set up is not required. Otherwise bind # mount $SRC on $DEST. bind_mount () { SRC=$1 DEST=$2 FSTYPE="" OPTS="" ssrc="$(/usr/bin/stat -L --format="%d %i" "$SRC" 2>/dev/null || :)" sdest="$(/usr/bin/stat -L --format="%d %i" "$DEST" 2>/dev/null || :)" case "$(uname -s)" in Linux) FSTYPE=$SRC; OPTS="-orw -obind" ;; *FreeBSD) FSTYPE=nullfs; OPTS="-orw" ;; GNU) FSTYPE=firmlink ;; *) FSTYPE=none ;; esac # Bind mount $SRC on $DEST if [ -n "$ssrc" ] && [ "$ssrc" != "$sdest" ]; then [ -d "$DEST" ] || mkdir "$DEST" [ -x /sbin/restorecon ] && /sbin/restorecon "$DEST" if mount -t $FSTYPE "$SRC" "$DEST" $OPTS ; then echo "Please reboot to complete migration to tmpfs-based /run" > "${DEST}/.run-transition" return 0 fi return 1 fi return 0 } # # Migrate a directory to /run and create compatibility symlink or bind # mount. # run_migrate () { OLD=$1 RUN=$2 KERNEL="$(uname -s)" OPTS="" case "$KERNEL" in Linux) FSTYPE=none OPTS="-orw -obind";; *FreeBSD) FSTYPE=nullfs OPTS="-orw" ;; GNU) FSTYPE=firmlink ;; *) FSTYPE=none ;; esac # Create absolute symlink if not already present. This is to # upgrade from older versions which created relative links, # which are not permitted in policy between top-level # directories. if [ -L "$OLD" ] && [ "$(readlink "$OLD")" != "$RUN" ]; then rm -f "$OLD" ln -fs "$RUN" "$OLD" [ -x /sbin/restorecon ] && /sbin/restorecon "$OLD" fi # If both directories are the same, we don't need to do # anything further. sold="$(/usr/bin/stat -L --format="%d %i" "$OLD" 2>/dev/null || :)" srun="$(/usr/bin/stat -L --format="%d %i" "$RUN" 2>/dev/null || :)" if [ -n "$sold" ] && [ "$sold" = "$srun" ]; then return 0 fi # Try to remove if a directory. Note this is safe because the # system is not yet fully up, and nothing is allowed to use # them yet. If the user explicitly mounted a filesystem here, # it will be cleaned out, but this would happen later on when # bootclean runs in any case. if [ ! -L "$OLD" ] && [ -d "$OLD" ] ; then rm -fr "$OLD" 2>/dev/null || true fi # If removal failed (directory still exists), set up bind mount. if [ ! -L "$OLD" ] && [ -d "$OLD" ] ; then if [ "$OLD" != "/tmp" ]; then log_warning_msg "Filesystem mounted on $OLD; setting up compatibility bind mount." log_warning_msg "Please remove this mount from /etc/fstab; it is no longer needed, and it is preventing completion of the transition to $RUN." fi mount -t $FSTYPE "$RUN" "$OLD" $OPTS else # Create symlink if not already present. if [ -L "$OLD" ] && [ "$(readlink "$OLD")" = "$RUN" ]; then : else rm -f "$OLD" ln -fs "$RUN" "$OLD" [ -x /sbin/restorecon ] && /sbin/restorecon "$OLD" fi fi return 0 } # # Migrate /etc/mtab to a compatibility symlink # mtab_migrate () { # Don't symlink if /proc/mounts does not exist. if [ ! -r "/proc/mounts" ]; then return 1 fi # Create symlink if not already present. if [ -L "/etc/mtab" ] && [ "$(readlink "/etc/mtab")" = "/proc/mounts" ]; then : else log_warning_msg "Creating compatibility symlink from /etc/mtab to /proc/mounts." rm -f "/etc/mtab" || return 1 ln -fs "/proc/mounts" "/etc/mtab" || return 1 [ -x /sbin/restorecon ] && /sbin/restorecon "/etc/mtab" fi return 0 } # # For compatibility, create /var/run and /var/lock symlinks to /run # and /run/lock, respectively. # post_mountall () { # /var/run and /var/lock are now /run and /run/lock, # respectively. Cope with filesystems being deliberately # mounted on /var/run and /var/lock. We will create bind # mounts from /run and /run/lock to /var/run and /var/lock if # we can't remove the /var/run and /var/lock directories, or # else simply create symlinks. For example, in the case that # the user has explicitly mounted filesystems on /var/run or # /var/lock, we bind mount over the top of them. Where no # filesystems are mounted, we replace the directory with a # symlink where possible. # Cater for systems which have a symlink from /run to /var/run # for whatever reason. Remove the symlink and replace with a # directory. The migration logic will then take care of the # rest. Note that it will take a second boot to fully # migrate; it should only ever be needed on broken systems. RAMSHM_ON_DEV_SHM="yes" if read_fstab_entry "/dev/shm"; then RAMSHM_ON_DEV_SHM="yes" fi if read_fstab_entry "/run/shm"; then RAMSHM_ON_DEV_SHM="no" fi if [ -L /run ]; then if [ "$(readlink /run)" = "/var/run" ]; then rm -f /run mkdir /run fi if bind_mount /var/run /run; then bind_mount /var/lock /run/lock if [ yes = "$RAMSHM_ON_DEV_SHM" ]; then run_migrate /run/shm /dev/shm else run_migrate /dev/shm /run/shm fi fi else run_migrate /var/run /run run_migrate /var/lock /run/lock if [ yes = "$RAMSHM_ON_DEV_SHM" ]; then run_migrate /run/shm /dev/shm else run_migrate /dev/shm /run/shm fi fi } # Mount /run mount_run () { MNTMODE="$1" KERNEL="$(uname -s)" if [ "$MNTMODE" = remount ] ; then case "$KERNEL" in *FreeBSD) # tmpfs can't be remounted return 0 ;; esac fi # Needed to determine if root is being mounted read-only. read_fstab # # Get some writable area available before the root is checked # and remounted. Note that /run may be handed over from the # initramfs. # # If /run/shm is separately mounted, /run can be safely mounted noexec. RUNEXEC= if [ yes = "$RAMSHM" ] || read_fstab_entry /run/shm tmpfs; then RUNEXEC=',noexec' fi # TODO: Add -onodev once checkroot no longer creates a device node. domount "$MNTMODE" tmpfs shmfs /run tmpfs "-onosuid$RUNEXEC$RUN_OPT" [ -x /sbin/restorecon ] && /sbin/restorecon -r /run # Make pidfile omit directory for sendsigs [ -d /run/sendsigs.omit.d ] || mkdir --mode=755 /run/sendsigs.omit.d/ # Make sure we don't get cleaned touch /run/.tmpfs } # Mount /run/lock mount_lock () { MNTMODE="$1" KERNEL="$(uname -s)" if [ "$MNTMODE" = remount ] ; then case "$KERNEL" in *FreeBSD) # tmpfs can't be remounted return 0 ;; esac fi # Make lock directory as the replacement for /var/lock [ -d /run/lock ] || mkdir --mode=755 /run/lock [ -x /sbin/restorecon ] && /sbin/restorecon /run/lock # Now check if there's an entry in /etc/fstab. If there is, # it overrides the existing RAMLOCK setting. if read_fstab_entry /run/lock; then if [ "$MNT_TYPE" = "tmpfs" ] ; then RAMLOCK="yes" else RAMLOCK="no" fi fi NODEV="nodev," case "$KERNEL" in *FreeBSD|GNU) NODEV="" ;; esac # Mount /run/lock as tmpfs if enabled. This prevents user DoS # of /run by filling /run/lock at the expense of using an # additional tmpfs. if [ yes = "$RAMLOCK" ]; then domount "$MNTMODE" tmpfs shmfs /run/lock tmpfs "-o${NODEV}noexec,nosuid$LOCK_OPT" # Make sure we don't get cleaned touch /run/lock/.tmpfs else chmod "$LOCK_MODE" /run/lock fi } # Mount /run/shm mount_shm () { MNTMODE="$1" RAMSHM_ON_DEV_SHM="yes" SHMDIR="/dev/shm" if read_fstab_entry "/dev/shm"; then if [ "$MNTMODE" = "mount_noupdate" ]; then log_warning_msg "Warning: fstab entry for /dev/shm; should probably be for /run/shm unless working around a bug in the Oracle database" fi SHMDIR="/dev/shm" RAMSHM_ON_DEV_SHM="yes" fi if read_fstab_entry "/run/shm"; then if [ "$MNTMODE" = "mount_noupdate" ] && [ "$RAMSHM_ON_DEV_SHM" = "yes" ]; then log_warning_msg "Warning: fstab entries for both /dev/shm and /run/shm found; only /run/shm will be used" fi SHMDIR="/run/shm" RAMSHM_ON_DEV_SHM="no" fi if [ ! -d "$SHMDIR" ] then # Remove possible previous reverse symlink. if [ -h "$SHMDIR" ] ; then rm -f "$SHMDIR" fi mkdir --mode=755 "$SHMDIR" [ -x /sbin/restorecon ] && /sbin/restorecon "$SHMDIR" fi # Now check if there's an entry in /etc/fstab. If there is, # it overrides the existing RAMSHM setting. if read_fstab_entry "$SHMDIR"; then if [ "$MNT_TYPE" = "tmpfs" ] ; then RAMSHM="yes" else RAMSHM="no" fi fi KERNEL="$(uname -s)" NODEV="nodev," case "$KERNEL" in *FreeBSD|GNU) NODEV="" ;; esac if [ yes = "$RAMSHM" ]; then domount "$MNTMODE" tmpfs shmfs "$SHMDIR" tmpfs "-onosuid,${NODEV}noexec$SHM_OPT" # Make sure we don't get cleaned touch "$SHMDIR"/.tmpfs else chmod "$SHM_MODE" "$SHMDIR" fi # Migrate early, so /dev/shm is available from the start if [ "$MNTMODE" = mount_noupdate ] || [ "$MNTMODE" = mount ]; then if [ yes = "$RAMSHM_ON_DEV_SHM" ]; then run_migrate /run/shm /dev/shm else run_migrate /dev/shm /run/shm fi fi } # # Mount /tmp # mount_tmp () { MNTMODE="$1" # If /tmp is a symlink, make sure the linked-to directory exists. if [ -L /tmp ] && [ ! -d /tmp ]; then TMPPATH="$(readlink /tmp)" mkdir -p --mode="${TMP_MODE}" "$TMPPATH" [ -x /sbin/restorecon ] && /sbin/restorecon "$TMPPATH" fi # Disable RAMTMP if there's 64MiB RAM or less. May be # re-enabled by overflow or read only root, below. RAM_SIZE="$(ram_size)" if [ -n "$RAM_SIZE" ] && [ "$RAM_SIZE" -le 65536 ]; then RAMTMP=no fi # If root is read only, default to mounting a tmpfs on /tmp, # unless one is due to be mounted from fstab. if [ "$RAMTMP" != "yes" ] && [ rw != "$rootmode" ]; then # If there's an entry in fstab for /tmp (any # filesystem type, not just tmpfs), then we don't need # a tmpfs on /tmp by default. if read_fstab_entry /tmp ; then : else log_warning_msg "Root filesystem is read-only; mounting tmpfs on /tmp" RAMTMP="yes" fi fi if [ "$RAMTMP" != "yes" ] && need_overflow_tmp; then # If there's an entry in fstab for /tmp (any # filesystem type, not just tmpfs), then we don't need # a tmpfs on /tmp by default. if read_fstab_entry /tmp ; then : else log_warning_msg "Root filesystem has insufficient free space; mounting tmpfs on /tmp" RAMTMP="yes" fi fi # Now check if there's an entry in /etc/fstab. If there is, # it overrides all the above settings. if read_fstab_entry /tmp; then if [ "$MNT_TYPE" = "tmpfs" ] ; then RAMTMP="yes" else RAMTMP="no" fi fi KERNEL="$(uname -s)" NODEV="nodev," case "$KERNEL" in *FreeBSD|GNU) NODEV="" ;; esac # Mount /tmp as tmpfs if enabled. if [ yes = "$RAMTMP" ]; then domount "$MNTMODE" tmpfs shmfs /tmp tmpfs "-o${NODEV}nosuid$TMP_OPT" # Make sure we don't get cleaned touch /tmp/.tmpfs else # When root is still read only, this will fail. if [ mount_noupdate != "$MNTMODE" ] && [ rw = "$rootmode" ]; then chmod "$TMP_MODE" /tmp fi fi } is_fastboot_active() { if [ -f /fastboot ] ; then return 0 fi for cmd in $(cat /proc/cmdline) ; do case "$cmd" in fastboot) return 0 ;; esac done return 1 } # This function does not actually belong here; it is duct-tape solution # for #901289. logsave_best_effort () { if [ -x /sbin/logsave ] ; then logsave -s "${FSCK_LOGFILE}" "$@" else "$@" fi }