# -*-Shell-script-*- # # functions This file contains functions to be used by most or all # shell scripts in the /etc/init.d directory. # TEXTDOMAIN=initscripts TMP=/tmp TMPDIR=/tmp export TMP TMPDIR # Make sure umask is sane umask 022 # Set up a default search path. PATH="/sbin:/usr/sbin:/bin:/usr/bin" export PATH if [ $PPID -ne 1 -a -z "$SYSTEMCTL_SKIP_REDIRECT" ] && \ [ -d /run/systemd/system ] ; then case "$0" in /etc/init.d/*|/etc/rc.d/init.d/*) _use_systemctl=1 ;; esac fi systemctl_redirect () { local s local prog=${1##*/} local command=$2 local options="" case "$command" in start) s=$"Starting $prog (via systemctl): " ;; stop) s=$"Stopping $prog (via systemctl): " ;; reload|try-reload) s=$"Reloading $prog configuration (via systemctl): " ;; restart|try-restart|condrestart) s=$"Restarting $prog (via systemctl): " ;; esac if [ -n "$SYSTEMCTL_IGNORE_DEPENDENCIES" ] ; then options="--ignore-dependencies" fi if ! systemctl show "$prog.service" > /dev/null 2>&1 || \ systemctl show -p LoadState "$prog.service" | grep -q 'not-found' ; then action $"Reloading systemd: " /bin/systemctl daemon-reload fi action "$s" /bin/systemctl $options $command "$prog.service" } # Get a sane screen width, and default to 80 when exact info not available [ -z "${COLUMNS:-}" ] && COLUMNS=`stty -a 2>/dev/null | sed -n 's/.*columns \([0-9]*\);.*/\1/p'` [ -z "${COLUMNS:-}" ] && COLUMNS=80 if [ -z "${NOLOCALE:-}" ] && [ -z "${LANGSH_SOURCED:-}" ] && \ [ -f /etc/sysconfig/i18n -o -f /etc/locale.conf ] ; then . /etc/profile.d/lang.sh 2>/dev/null # avoid propagating LANGSH_SOURCED any further unset LANGSH_SOURCED fi # Read in our configuration if [ -z "${BOOTUP:-}" ]; then if [ -f /etc/sysconfig/init ]; then . /etc/sysconfig/init else # verbose ->> very (very!) old bootup look (prior to RHL-6.0?) # color ->> default bootup look # other ->> default bootup look without ANSI colors or positioning BOOTUP=color # Column to start "[ OK ]" label in: RES_COL=60 # terminal sequence to move to that column: MOVE_TO_COL="echo -en \\033[${RES_COL}G" # Terminal sequence to set color to a 'success' (bright green): SETCOLOR_SUCCESS="echo -en \\033[1;32m" # Terminal sequence to set color to a 'failure' (bright red): SETCOLOR_FAILURE="echo -en \\033[1;31m" # Terminal sequence to set color to a 'warning' (bright yellow): SETCOLOR_WARNING="echo -en \\033[1;33m" # Terminal sequence to reset to the default color: SETCOLOR_NORMAL="echo -en \\033[0;39m" # Verbosity of logging: LOGLEVEL=1 fi # NOTE: /dev/ttyS* is serial console. "not a tty" is such as # /dev/null associated when executed under systemd service units. if LANG=C tty | grep --quiet -e '\(/dev/ttyS\|not a tty\)'; then BOOTUP=serial MOVE_TO_COL= SETCOLOR_SUCCESS= SETCOLOR_FAILURE= SETCOLOR_WARNING= SETCOLOR_NORMAL= fi fi gprintf() { if [ -x /bin/gettext ] && [ -n "$1" ]; then if [ -n "$GP_LANG" ]; then local TEXT=$(LC_ALL=$GP_LANG LANGUAGE=$GP_LANGUAGE gettext -e --domain=$TEXTDOMAIN -- "$1") else local TEXT=$(gettext -e --domain=$TEXTDOMAIN -- "$1") fi else local TEXT=$1 fi [ "${1#*\\n}" ] || TEXT="$TEXT\n" shift printf -- "$TEXT" "$@" } # Frontend to gprintf (support up to 4 %s in format string) # returns the message transleted in GPRINTF_MSG and # the resting parms in GPRINTF_REST # This simplifies a lot the call of functions like action, # now with i18n support gprintf_msg_rest() { GPRINTF_REST="" return fi case "$1" in *%s*%s*%s*%s*) GPRINTF_MSG=$(gprintf "$1" "$2" "$3" "$4" "$5") shift 5;; *%s*%s*%s*) GPRINTF_MSG=$(gprintf "$1" "$2" "$3" "$4") shift 4;; *%s*%s*) GPRINTF_MSG=$(gprintf "$1" "$2" "$3") shift 3;; *%s*) GPRINTF_MSG=$(gprintf "$1" "$2") shift 2;; *) GPRINTF_MSG=$(gprintf "$1") # function may be called without any arguments, e.g. for 'success' [ $# -ne 0 ] && shift ;; esac GPRINTF_REST="$@" } # Check if $pid (could be plural) are running with # the same root as this script inmyroot() { local i r for i in $* ; do [ "/proc/$i/root" -ef "/proc/$$/root" ] && r="$r $i" done echo "$r" } # Check if any of $pid (could be plural) are running checkpid() { local i for i in $* ; do [ -d "/proc/$i" ] && return 0 done return 1 } __kill_pids_term_kill_checkpids() { local base_stime=$1 shift 1 local pid= local pids=$* local remaining= local stat= local stime= for pid in $pids ; do [ ! -e "/proc/$pid" ] && continue read -r line < "/proc/$pid/stat" 2> /dev/null stat=($line) stime=${stat[21]} [ -n "$stime" ] && [ "$base_stime" -lt "$stime" ] && continue remaining+="$pid " done echo "$remaining" [ -n "$remaining" ] && return 1 return 0 } __kill_pids_term_kill() { local try=0 local delay=3; local pid= local stat= local base_stime= # We can't initialize stat & base_stime on the same line where 'local' # keyword is, otherwise the sourcing of this file will fail for ksh... stat=($(< /proc/self/stat)) base_stime=${stat[21]} if [ "$1" = "-d" ]; then delay=$2 shift 2 fi local kill_list=$* kill_list=$(__kill_pids_term_kill_checkpids $base_stime $kill_list) [ -z "$kill_list" ] && return 0 kill -TERM $kill_list >/dev/null 2>&1 sleep 0.1 kill_list=$(__kill_pids_term_kill_checkpids $base_stime $kill_list) if [ -n "$kill_list" ] ; then while [ $try -lt $delay ] ; do sleep 1 kill_list=$(__kill_pids_term_kill_checkpids $base_stime $kill_list) [ -z "$kill_list" ] && break let try+=1 done if [ -n "$kill_list" ] ; then kill -KILL $kill_list >/dev/null 2>&1 sleep 0.1 kill_list=$(__kill_pids_term_kill_checkpids $base_stime $kill_list) fi fi [ -n "$kill_list" ] && return 1 return 0 } # __proc_pids {program} [pidfile] # Set $pid to pids from /run* for {program}. $pid should be declared # local in the caller. # Returns LSB exit code for the 'status' action. __pids_var_run() { local base=${1##*/} local pid_file=${2:-/run/$base.pid} local pid_dir=$(/usr/bin/dirname $pid_file > /dev/null) local binary=$3 [ -d "$pid_dir" ] && [ ! -r "$pid_dir" ] && return 4 pid= if [ -f "$pid_file" ] ; then local line p [ ! -r "$pid_file" ] && return 4 # "user had insufficient privilege" while : ; do read line [ -z "$line" ] && break for p in $line ; do if [ -z "${p//[0-9]/}" ] && [ -d "/proc/$p" ] ; then if [ -n "$binary" ] ; then local b=$(readlink /proc/$p/exe | sed -e 's/\s*(deleted)$//') [ "$b" != "$binary" ] && continue fi pid="$pid $p" fi done done < "$pid_file" if [ -n "$pid" ]; then return 0 fi return 1 # "Program is dead and /run pid file exists" fi return 3 # "Program is not running" } # Output PIDs of matching processes, found using pidof __pids_pidof() { pidof -c -o $$ -o $PPID -o %PPID -x "$1" || \ pidof -c -o $$ -o $PPID -o %PPID -x "${1##*/}" } # A function to start a program. daemon() { # Test syntax. local gotbase= force= nicelevel corelimit local pid base= user= nice= bg= pid_file= local cgroup= nicelevel=0 while [ "$1" != "${1##[-+]}" ]; do case $1 in '') echo $"$0: Usage: daemon [+/-nicelevel] {program}" "[arg1]..." return 1 ;; --check) base=$2 gotbase="yes" shift 2 ;; --check=?*) base=${1#--check=} gotbase="yes" shift ;; --user) user=$2 shift 2 ;; --user=?*) user=${1#--user=} shift ;; --pidfile) pid_file=$2 shift 2 ;; --pidfile=?*) pid_file=${1#--pidfile=} shift ;; --force) force="force" shift ;; [-+][0-9]*) nice="nice -n $1" shift ;; *) echo $"$0: Usage: daemon [+/-nicelevel] {program}" "[arg1]..." return 1 ;; esac done # Save basename. [ -z "$gotbase" ] && base=${1##*/} # See if it's already running. Look *only* at the pid file. __pids_var_run "$base" "$pid_file" [ -n "$pid" -a -z "$force" ] && return # make sure it doesn't core dump anywhere unless requested corelimit="ulimit -S -c ${DAEMON_COREFILE_LIMIT:-0}" # if they set NICELEVEL in /etc/sysconfig/foo, honor it [ -n "${NICELEVEL:-}" ] && nice="nice -n $NICELEVEL" # Echo daemon [ "${BOOTUP:-}" = "verbose" -a -z "${LSB:-}" ] && echo -n " $base" # And start it up. if [ -z "$user" ]; then $nice /bin/bash -c "$corelimit >/dev/null 2>&1 ; $*" else $nice runuser -s /bin/bash $user -c "$corelimit >/dev/null 2>&1 ; $*" fi [ "$?" -eq 0 ] && success $"$base startup" || failure $"$base startup" } # A function to stop a program. killproc() { local RC killlevel= base pid pid_file= delay try binary= RC=0; delay=3; try=0 # Test syntax. if [ "$#" -eq 0 ]; then echo $"Usage: killproc [-p pidfile] [ -d delay] {program} [-signal]" return 1 fi if [ "$1" = "-p" ]; then pid_file=$2 shift 2 fi if [ "$1" = "-b" ]; then if [ -z $pid_file ]; then echo $"-b option can be used only with -p" echo $"Usage: killproc -p pidfile -b binary program" return 1 fi binary=$2 shift 2 fi if [ "$1" = "-d" ]; then delay=$(echo $2 | awk -v RS=' ' -v IGNORECASE=1 '{if($1!~/^[0-9.]+[smhd]?$/) exit 1;d=$1~/s$|^[0-9.]*$/?1:$1~/m$/?60:$1~/h$/?60*60:$1~/d$/?24*60*60:-1;if(d==-1) exit 1;delay+=d*$1} END {printf("%d",delay+0.5)}') if [ "$?" -eq 1 ]; then echo $"Usage: killproc [-p pidfile] [ -d delay] {program} [-signal]" return 1 fi shift 2 fi # check for second arg to be kill level [ -n "${2:-}" ] && killlevel=$2 # Save basename. base=${1##*/} # Find pid. __pids_var_run "$1" "$pid_file" "$binary" RC=$? if [ -z "$pid" ]; then if [ -z "$pid_file" ]; then pid="$(__pids_pidof "$1")" else [ "$RC" = "4" ] && { failure $"$base shutdown" ; return $RC ;} fi fi # Kill it. if [ -n "$pid" ] ; then [ "$BOOTUP" = "verbose" -a -z "${LSB:-}" ] && echo -n "$base " if [ -z "$killlevel" ] ; then __kill_pids_term_kill -d $delay $pid RC=$? [ "$RC" -eq 0 ] && success $"$base shutdown" || failure $"$base shutdown" # use specified level only else if checkpid $pid; then kill $killlevel $pid >/dev/null 2>&1 RC=$? [ "$RC" -eq 0 ] && success $"$base $killlevel" || failure $"$base $killlevel" elif [ -n "${LSB:-}" ]; then RC=7 # Program is not running fi fi else if [ -n "${LSB:-}" -a -n "$killlevel" ]; then RC=7 # Program is not running else failure $"$base shutdown" RC=0 fi fi # Remove pid file if any. if [ -z "$killlevel" ]; then rm -f "${pid_file:-/run/$base.pid}" fi return $RC } # A function to find the pid of a program. Looks *only* at the pidfile pidfileofproc() { local pid # Test syntax. if [ "$#" = 0 ] ; then echo $"Usage: pidfileofproc {program}" return 1 fi __pids_var_run "$1" [ -n "$pid" ] && echo $pid return 0 } # A function to find the pid of a program. pidofproc() { local RC pid pid_file= # Test syntax. if [ "$#" = 0 ]; then echo $"Usage: pidofproc [-p pidfile] {program}" return 1 fi if [ "$1" = "-p" ]; then pid_file=$2 shift 2 fi fail_code=3 # "Program is not running" # First try "/run/*.pid" files __pids_var_run "$1" "$pid_file" RC=$? if [ -n "$pid" ]; then echo $pid return 0 fi [ -n "$pid_file" ] && return $RC __pids_pidof "$1" || return $RC } status() { local base pid lock_file= pid_file= binary= # Test syntax. if [ "$#" = 0 ] ; then echo $"Usage: status [-p pidfile] {program}" return 1 fi if [ "$1" = "-p" ]; then pid_file=$2 shift 2 fi if [ "$1" = "-l" ]; then lock_file=$2 shift 2 fi if [ "$1" = "-b" ]; then if [ -z $pid_file ]; then echo $"-b option can be used only with -p" echo $"Usage: status -p pidfile -b binary program" return 1 fi binary=$2 shift 2 fi base=${1##*/} if [ "$_use_systemctl" = "1" ]; then systemctl status ${0##*/}.service ret=$? # LSB daemons that dies abnormally in systemd looks alive in systemd's eyes due to RemainAfterExit=yes # lets adjust the reality a little bit if systemctl show -p ActiveState ${0##*/}.service | grep -q '=active$' && \ systemctl show -p SubState ${0##*/}.service | grep -q '=exited$' ; then ret=3 fi return $ret fi # First try "pidof" __pids_var_run "$1" "$pid_file" "$binary" RC=$? if [ -z "$pid_file" -a -z "$pid" ]; then pid="$(__pids_pidof "$1")" fi if [ -n "$pid" ]; then echo $"${base} (pid $pid) is running..." return 0 fi case "$RC" in 0) echo $"${base} (pid $pid) is running..." return 0 ;; 1) echo $"${base} dead but pid file exists" return 1 ;; 4) echo $"${base} status unknown due to insufficient privileges." return 4 ;; esac if [ -z "${lock_file}" ]; then lock_file=${base} fi # See if /var/lock/subsys/${lock_file} exists if [ -f /var/lock/subsys/${lock_file} ]; then echo $"${base} dead but subsys locked" return 2 fi echo $"${base} is stopped" return 3 } echo_success() { [ "$BOOTUP" = "color" ] && $MOVE_TO_COL echo -n "[" [ "$BOOTUP" = "color" ] && $SETCOLOR_SUCCESS echo -n $" OK " [ "$BOOTUP" = "color" ] && $SETCOLOR_NORMAL echo -n "]" echo -ne "\r" return 0 } echo_failure() { [ "$BOOTUP" = "color" ] && $MOVE_TO_COL echo -n "[" [ "$BOOTUP" = "color" ] && $SETCOLOR_FAILURE echo -n $"FAILED" [ "$BOOTUP" = "color" ] && $SETCOLOR_NORMAL echo -n "]" echo -ne "\r" return 1 } echo_passed() { [ "$BOOTUP" = "color" ] && $MOVE_TO_COL echo -n "[" [ "$BOOTUP" = "color" ] && $SETCOLOR_WARNING echo -n $"PASSED" [ "$BOOTUP" = "color" ] && $SETCOLOR_NORMAL echo -n "]" echo -ne "\r" return 1 } echo_warning() { [ "$BOOTUP" = "color" ] && $MOVE_TO_COL echo -n "[" [ "$BOOTUP" = "color" ] && $SETCOLOR_WARNING echo -n $"WARNING" [ "$BOOTUP" = "color" ] && $SETCOLOR_NORMAL echo -n "]" echo -ne "\r" return 1 } # Inform the graphical boot of our current state update_boot_stage() { if [ -x /bin/plymouth ]; then /bin/plymouth --update="$1" fi return 0 } # Log that something succeeded success() { gprintf_msg_rest "$@" [ "$BOOTUP" != "verbose" -a -z "${LSB:-}" ] && echo_success return 0 } # Log that something failed failure() { local rc=$? gprintf_msg_rest "$@" [ "$BOOTUP" != "verbose" -a -z "${LSB:-}" ] && echo_failure [ -x /bin/plymouth ] && /bin/plymouth --details return $rc } # Log that something passed, but may have had errors. Useful for fsck passed() { local rc=$? gprintf_msg_rest "$@" [ "$BOOTUP" != "verbose" -a -z "${LSB:-}" ] && echo_passed return $rc } # Log a warning warning() { local rc=$? gprintf_msg_rest "$@" [ "$BOOTUP" != "verbose" -a -z "${LSB:-}" ] && echo_warning return $rc } # Run some action. Log its output. action() { local STRING rc gprintf_msg_rest "$@" echo -n "$GPRINTF_MSG " $GPRINTF_REST && success "$GPRINTF_MSG" || failure "$GPRINTF_MSG" rc=$? echo return $rc } # returns OK if $1 contains $2 strstr() { [ "${1#*$2*}" = "$1" ] && return 1 return 0 } # Check whether file $1 is a backup or rpm-generated file and should be ignored is_ignored_file() { case "$1" in *~ | *.bak | *.old | *.orig | *.rpmnew | *.rpmorig | *.rpmsave) return 0 ;; esac return 1 } # Convert the value ${1} of time unit ${2}-seconds into seconds: convert2sec() { local retval="" case "${2}" in deci) retval=$(awk "BEGIN {printf \"%.1f\", ${1} / 10}") ;; centi) retval=$(awk "BEGIN {printf \"%.2f\", ${1} / 100}") ;; mili) retval=$(awk "BEGIN {printf \"%.3f\", ${1} / 1000}") ;; micro) retval=$(awk "BEGIN {printf \"%.6f\", ${1} / 1000000}") ;; nano) retval=$(awk "BEGIN {printf \"%.9f\", ${1} / 1000000000}") ;; piko) retval=$(awk "BEGIN {printf \"%.12f\", ${1} / 1000000000000}") ;; esac echo "${retval}" } # Evaluate shvar-style booleans is_true() { case "$1" in [tT] | [yY] | [yY][eE][sS] | [oO][nN] | [tT][rR][uU][eE] | 1) return 0 ;; esac return 1 } # Evaluate shvar-style booleans is_false() { case "$1" in [fF] | [nN] | [nN][oO] | [oO][fF][fF] | [fF][aA][lL][sS][eE] | 0) return 0 ;; esac return 1 } # Apply sysctl settings, including files in /etc/sysctl.d apply_sysctl() { if [ -x /lib/systemd/systemd-sysctl ]; then /lib/systemd/systemd-sysctl else for file in /usr/lib/sysctl.d/*.conf ; do is_ignored_file "$file" && continue [ -f /run/sysctl.d/${file##*/} ] && continue [ -f /etc/sysctl.d/${file##*/} ] && continue test -f "$file" && sysctl -e -p "$file" >/dev/null 2>&1 done for file in /run/sysctl.d/*.conf ; do is_ignored_file "$file" && continue [ -f /etc/sysctl.d/${file##*/} ] && continue test -f "$file" && sysctl -e -p "$file" >/dev/null 2>&1 done for file in /etc/sysctl.d/*.conf ; do is_ignored_file "$file" && continue test -f "$file" && sysctl -e -p "$file" >/dev/null 2>&1 done sysctl -e -p /etc/sysctl.conf >/dev/null 2>&1 fi } # A sed expression to filter out the files that is_ignored_file recognizes __sed_discard_ignored_files='/\(~\|\.bak\|\.old\|\.orig\|\.rpmnew\|\.rpmorig\|\.rpmsave\)$/d' if [ "$_use_systemctl" = "1" ]; then if [ "x$1" = xstart -o \ "x$1" = xstop -o \ "x$1" = xrestart -o \ "x$1" = xreload -o \ "x$1" = xtry-restart -o \ "x$1" = xforce-reload -o \ "x$1" = xcondrestart ] ; then systemctl_redirect $0 $1 exit $? fi fi strstr "$(cat /proc/cmdline)" "rc.debug" && set -x return 0