Create the /etc/init.d/functions script by running the following command:
cat > /etc/init.d/functions << "EOF" #!/bin/sh # Begin /etc/init.d/functions # # Set a few variables that influence the text that's printed on the # screen. The SET_COL variable starts the text in the column number # decided by the COL and WCOL section (as defined by the COL # variable). NORMAL prints text in normal mode. # SUCCESS prints text in a green colour and FAILURE prints text in a red # colour # # If COLUMNS hasn't been set yet (bash sets it but not when called as # sh), do it ourself if [ -z "$COLUMNS" ] then # Get the console device if we don't have it already # This is ok by the FHS as there is a fallback if # /usr/bin/tty isn't available, for example at bootup. test -x /usr/bin/tty && CONSOLE=`/usr/bin/tty` test -z "$CONSOLE" && CONSOLE=/dev/console # Get the console size (rows columns) SIZE=$(stty size < $CONSOLE) # Strip off the rows leaving the columns COLUMNS=${SIZE#*\ } fi COL=$[$COLUMNS - 10] WCOL=$[$COLUMNS - 30] SET_COL="echo -en \\033[${COL}G" SET_WCOL="echo -en \\033[${WCOL}G" NORMAL="echo -en \\033[0;39m" SUCCESS="echo -en \\033[1;32m" WARNING="echo -en \\033[1;33m" FAILURE="echo -en \\033[1;31m" # # The evaluate_retval function evaluates the return value of the process # that was run just before this function was called. If the return value # was 0, indicating success, the print_status function is called with # the 'success' parameter. Otherwise the print_status function is called # with the failure parameter. # evaluate_retval() { if [ $? = 0 ] then print_status success else print_status failure fi } # # The print_status prints [ OK ] or [FAILED] to the screen. OK appears # in the colour defined by the SUCCESS variable and FAILED appears in # the colour defined by the FAILURE variable. Both are printed starting # in the column defined by the COL variable. # print_status() { # # If no parameters are given to the print_status function, print usage # information. # if [ $# = 0 ] then echo "Usage: print_status {success|failure}" return 1 fi case "$1" in success) $SET_COL echo -n "[ " $SUCCESS echo -n "OK" $NORMAL echo " ]" ;; warning) $SET_COL echo -n "[ " $WARNING echo -n "ATTN" $NORMAL echo " ]" ;; failure) $SET_COL echo -n "[" $FAILURE echo -n "FAILED" $NORMAL echo "]" ;; esac } # # The loadproc function starts a process (often a daemon) with # proper error checking # loadproc() { # # If no parameters are given to the print_status function, print usage # information. # if [ $# = 0 ] then echo "Usage: loadproc {program}" exit 1 fi # # Find the basename of the first parameter (the daemon's name without # the path # that was provided so /usr/sbin/syslogd becomes plain 'syslogd' after # basename ran) # base=$(/usr/bin/basename $1) # # the pidlist variable will contains the output of the pidof command. # pidof will try to find the PID's that belong to a certain string; # $base in this case # pidlist=$(/bin/pidof -o $$ -o $PPID -o %PPID -x $base) pid="" for apid in $pidlist do if [ -d /proc/$apid ] then pid="$pid $apid" fi done # # If the $pid variable contains anything (from the previous for loop) it # means the daemon is already running # if [ ! -n "$pid" ] then # # Empty $pid variable means it's not running, so we run "$@" (all # parameters giving to this function from the script) and then check the # return value # "$@" evaluate_retval else # # The variable $pid was not empty, meaning it was already running. We'll # print [ ATTN ] now # $SET_WCOL echo -n "Already running" print_status warning fi } # # The killproc function kills a process with proper error checking # killproc() { # # If no parameters are given to the print_status function, print usage # information. # if [ $# = 0 ] then echo "Usage: killproc {program} [signal]" exit 1 fi # # Find the basename of the first parameter (the daemon's name without # the path # that was provided so /usr/sbin/syslogd becomes plain 'syslogd' after # basename ran) # base=$(/usr/bin/basename $1) # # Check if we gave a signal to kill the process with (like -HUP, -TERM, # -KILL, etc) to this function (the second parameter). If no second # parameter was provided set the nolevel variable. Else set the # killlevel variable to the value of $2 (the second parameter) # if [ "$2" != "" ] then killlevel=-$2 else nolevel=1 fi # # the pidlist variable will contains the output of the pidof command. # pidof will try to find the PID's that belong to a certain string; # $base in this case # pidlist=$(/bin/pidof -o $$ -o $PPID -o %PPID -x $base) pid="" for apid in $pidlist do if [ -d /proc/$apid ] then pid="$pid $apid" fi done # # If $pid contains something from the previous for loop it means one or # more PID's were found that belongs to the processes to be killed # if [ -n "$pid" ] then # # If no kill level was specified we'll try -TERM first and then sleep # for 2 seconds to allow the kill to be completed # if [ "$nolevel" = 1 ] then /bin/kill -TERM $pid # # If after -TERM the PID still exists we'll wait 2 seconds before # trying to kill it with -KILL. If the PID still exist after that, wait # two more seconds. If the PIDs still exist by then it's safe to assume # that we cannot kill these PIDs. # if /bin/ps h $pid >/dev/null 2>&1 then /usr/bin/sleep 2 if /bin/ps h $pid > /dev/null 2>&1 then /bin/kill -KILL $pid if /bin/ps h $pid > /dev/null 2>&1 then /usr/bin/sleep 2 fi fi fi /bin/ps h $pid >/dev/null 2>&1 if [ $? = 0 ] then # # If after the -KILL it still exists it can't be killed for some reason # and we'll print [FAILED] # print_status failure else # # It was killed, remove possible stale PID file in /var/run and # print [ OK ] # /bin/rm /var/run/$base.pid print_status success fi else # # A kill level was provided. Kill with the provided kill level and wait # for 2 seconds to allow the kill to be completed # /bin/kill $killlevel $pid if /bin/ps h $pid > /dev/null 2>&1 then /usr/bin/sleep 2 fi /bin/ps h $pid >/dev/null 2>&1 if [ $? = 0 ] then # # If ps' return value is 0 it means it ran ok which indicates that the # PID still exists. This means the process wasn't killed properly with # the signal provided. Print [FAILED] # print_status failure else # # If the return value was 1 or higher it means the PID didn't exist # anymore which means it was killed successfully. Remove possible stale # PID file and print [ OK ] # /bin/rm /var/run/$base.pid print_status success fi fi else # # The PID didn't exist so we can't attempt to kill it. Print [ ATTN ] # $SET_WCOL echo -n "Not running" print_status warning fi } # # The reloadproc functions sends a signal to a daemon telling it to # reload it's configuration file. This is almost identical to the # killproc function with the exception that it won't try to kill it with # a -KILL signal (aka -9) # reloadproc() { # # If no parameters are given to the print_status function, print usage # information. # if [ $# = 0 ] then echo "Usage: reloadproc {program} [signal]" exit 1 fi # # Find the basename of the first parameter (the daemon's name without # the path that was provided so /usr/sbin/syslogd becomes plain 'syslogd' # after basename ran) # base=$(/usr/bin/basename $1) # # Check if we gave a signal to send to the process (like -HUP) # to this function (the second parameter). If no second # parameter was provided set the nolevel variable. Else set the # killlevel variable to the value of $2 (the second parameter) # if [ -n "$2" ] then killlevel=-$2 else nolevel=1 fi # # the pidlist variable will contains the output of the pidof command. # pidof will try to find the PID's that belong to a certain string; # $base in this case # pidlist=$(/bin/pidof -o $$ -o $PPID -o %PPID -x $base) pid="" for apid in $pidlist do if [ -d /proc/$apid ] then pid="$pid $apid" fi done # # If $pid contains something from the previous for loop it means one or # more PID's were found that belongs to the processes to be reloaded # if [ -n "$pid" ] then # # If nolevel was set we will use the default reload signal SIGHUP. # if [ "$nolevel" = 1 ] then /bin/kill -SIGHUP $pid evaluate_retval else # # Else we will use the provided signal # /bin/kill $killlevel $pid evaluate_retval fi else # # If $pid is empty no PID's have been found that belong to the process. # Print [ ATTN ] # $SET_WCOL echo -n "Not running" print_status warning fi } # # The statusproc function will try to find out if a process is running # or not # statusproc() { # # If no parameters are given to the print_status function, print usage # information. # if [ $# = 0 ] then echo "Usage: status {program}" return 1 fi # # $pid will contain a list of PID's that belong to a process # pid=$(/bin/pidof -o $$ -o $PPID -o %PPID -x $1) if [ -n "$pid" ] then # # If $pid contains something, the process is running, print the contents # of the $pid variable # echo "$1 running with Process ID $pid" return 0 fi # # If $pid doesn't contain it check if a PID file exists and inform the # user about this stale file. # if [ -f /var/run/$1.pid ] then pid=$(/usr/bin/head -1 /var/run/$1.pid) if [ -n "$pid" ] then echo "$1 not running but /var/run/$1.pid exists" return 1 fi else echo "$1 is not running" fi } # End /etc/init.d/functions EOF