diff --git a/heartbeat/dhcpd b/heartbeat/dhcpd index 8587cc131..92fe3c8e0 100755 --- a/heartbeat/dhcpd +++ b/heartbeat/dhcpd @@ -1,548 +1,545 @@ #!/bin/sh # # Resource Agent for managing dhcpd resources. # # License: GNU General Public License (GPL) # (c) 2011-2012 Chris Bowlby, # # A fair amount of this script has been pulled from the official 0dhcpd # init script. Those portions have been integrated into this script to # ensure consistent behavior between the resource agent and the # original script. The copyrights and original authors are credited # as follows: # # Copyright (c) 1996, 1997, 1998 S.u.S.E. GmbH # Copyright (c) 1998, 1999, 2000, 2001 SuSE GmbH # Copyright (c) 2002, 2003 SuSE Linux AG # Copyright (c) 2004-2008 SUSE LINUX Products GmbH, Nuernberg, Germany. # # Author(s) : Rolf Haberrecker , 1997-1999 # Peter Poeml , 2000-2006 # Marius Tomaschewski , 2006-2010 # # and Linux-HA contributors # Initialization: : ${OCF_FUNCTIONS_DIR=${OCF_ROOT}/lib/heartbeat} . ${OCF_FUNCTIONS_DIR}/ocf-shellfuncs # Defaults OCF_RESKEY_binary_default="dhcpd" OCF_RESKEY_pid_default="/var/run/dhcpd.pid" OCF_RESKEY_user_default=dhcpd OCF_RESKEY_group_default=nogroup OCF_RESKEY_config_default="" OCF_RESKEY_chrooted_default="true" OCF_RESKEY_chrooted_path_default="/var/lib/dhcp" OCF_RESKEY_leases_default="/db/dhcpd.leases" OCF_RESKEY_interface_default="" OCF_RESKEY_includes_default="" : ${OCF_RESKEY_binary=${OCF_RESKEY_binary_default}} : ${OCF_RESKEY_pid=${OCF_RESKEY_pid_default}} : ${OCF_RESKEY_user=${OCF_RESKEY_user_default}} : ${OCF_RESKEY_group=${OCF_RESKEY_group_default}} : ${OCF_RESKEY_chrooted=${OCF_RESKEY_chrooted_default}} : ${OCF_RESKEY_chrooted_path=${OCF_RESKEY_chrooted_path_default}} : ${OCF_RESKEY_config=${OCF_RESKEY_config_default}} : ${OCF_RESKEY_leases=${OCF_RESKEY_leases_default}} : ${OCF_RESKEY_interface=${OCF_RESKEY_interface_default}} : ${OCF_RESKEY_includes=${OCF_RESKEY_includes_default}} # To enable support for different versions of dhcp, we need # to know what version we are being run against. DHCP_VERSION_MAJOR=`$OCF_RESKEY_binary --version 2>&1 | awk -F- '{print $3}' | awk -F. '{print $1}' | sed s/^[a-zA-Z]//g` # These files are always copied by default to ensure the chroot environment works. DEFAULT_FILE_LIST="/etc/gai.conf /etc/nsswitch.conf /etc/resolv.conf /etc/host.conf /etc/hosts /etc/localtime /dev/urandom" usage() { cat < 0.1 Manage an ISC DHCP server service in a chroot environment. Chrooted ISC DHCP Server resource agent. The absolute path to the DHCP server configuration file. Configuration file Configure the dhcpd service to run in a chrooted or non-chrooted mode. Enable chroot mode The absolute path of the chrooted DHCP environment. The chrooted path The binary for the DHCP server process. An absolute path definition is not required, but can be used to override environment path. dhcpd binary The system user the DHCP server process will run as when it is chrooted. dhcpd owner The system group the DHCP server process will run as when it is chrooted. dhcpd group owner The network interface(s) the DHCP server process will bind to. A blank value will bind the process to all interfaces. Network Interface This parameter provides a means to copy include files into the chrooted environment. If a dhcpd.conf file contains a line similar to this: include "/etc/named.keys"; Then an admin also has to tell the dhcpd RA that this file should be pulled into the chrooted environment. This is a space delimited list. Include Files The leases database file, relative to chrooted_path. Leases file The path and filename of the PID file. It is relative to chrooted_path. PID file EOF } # Validate most critical parameters dhcpd_validate_all() { check_binary $OCF_RESKEY_binary if ! ocf_is_probe; then # Test for the appropriate configuration files depending on if # chroot mode is enabled. if ocf_is_true $OCF_RESKEY_chrooted ; then if ! test -e "$OCF_RESKEY_chrooted_path"; then ocf_log err "Path $OCF_RESKEY_chrooted_path does not exist." return $OCF_ERR_INSTALLED fi if test -n "$OCF_RESKEY_chrooted_path/$OCF_RESKEY_config" -a ! -r "$OCF_RESKEY_chrooted_path/$OCF_RESKEY_config"; then ocf_log err "Configuration file $OCF_RESKEY_chrooted_path/$OCF_RESKEY_config doesn't exist" return $OCF_ERR_INSTALLED fi else if test -n "$OCF_RESKEY_config" -a ! -r "$OCF_RESKEY_config"; then ocf_log err "Configuration file $OCF_RESKEY_config doesn't exist" return $OCF_ERR_INSTALLED fi fi fi if ! getent passwd $OCF_RESKEY_user >/dev/null 2>&1; then ocf_log err "User $OCF_RESKEY_user doesn't exist" return $OCF_ERR_INSTALLED fi return $OCF_SUCCESS } # dhcpd_monitor. Send a request to dhcpd and check response. dhcpd_monitor() { - local PIDF - # Assume chrooted mode is being used, but if not update the PIDF # variable to point to the non-chrooted PID file. - PIDF=$OCF_RESKEY_chrooted_path/$OCF_RESKEY_pid + PIDF="$OCF_RESKEY_chrooted_path$OCF_RESKEY_pid" if ! ocf_is_true $OCF_RESKEY_chrooted ; then PIDF=`dirname $OCF_RESKEY_pid`/dhcpd/`basename $OCF_RESKEY_pid` fi ocf_pidfile_status $PIDF >/dev/null 2>&1 || return $OCF_NOT_RUNNING return $OCF_SUCCESS } # Initialize Chroot dhcpd_initialize_chroot() { # If we are running the initialization for the first time, we need to make # the new chrooted folder, in case we are not using the same default. if ! [ -d $OCF_RESKEY_chrooted_path ] ; then ocf_log info "Initializing $OCF_RESKEY_chrooted_path for use." fi # Make sure all sub-paths are created if something went wrong during # a partial run. for i in db dev etc lib64 var/run; do mkdir -p $OCF_RESKEY_chrooted_path/$i done # If we are running version 4 of the dhcp server, we need to mount a proc partition. if [ $DHCP_VERSION_MAJOR -ge 4 ] ; then mkdir -p $OCF_RESKEY_chrooted_path/proc if ! [ -e $OCF_RESKEY_chrooted_path/proc/net/dev ] ; then mount -t proc -o ro proc $OCF_RESKEY_chrooted_path/proc > /dev/null 2>&1 fi fi # If the folder to store the PID file does not exist, make it. - if ! [ -d $OCF_RESKEY_chrooted_path/`dirname $OCF_RESKEY_pid` ] ; then - mkdir -p $OCF_RESKEY_chrooted_path/`dirname $OCF_RESKEY_pid` + if ! [ -d "$OCF_RESKEY_chrooted_path`dirname $OCF_RESKEY_pid`" ] ; then + mkdir -p "$OCF_RESKEY_chrooted_path`dirname $OCF_RESKEY_pid`" fi # Ensure all permissions are in place if the folder was re-created. chown -R $OCF_RESKEY_user:$OCF_RESKEY_group $OCF_RESKEY_chrooted_path/`dirname $OCF_RESKEY_leases` - chown -R $OCF_RESKEY_user:$OCF_RESKEY_group $OCF_RESKEY_chrooted_path/`dirname $OCF_RESKEY_pid` + chown -R $OCF_RESKEY_user:$OCF_RESKEY_group "$OCF_RESKEY_chrooted_path/`dirname $OCF_RESKEY_pid`" ## If there is no conf file, we can't initialize the chrooted ## environment, return with "program not configured" if ! [ -f $OCF_RESKEY_config ] ; then ocf_log err "dhcpd has not been configured." return $OCF_ERR_CONFIGURED fi # If the leases file does not exist, create it, as this is a fresh install. if [ ! -e $OCF_RESKEY_chrooted_path/$OCF_RESKEY_leases ]; then touch $OCF_RESKEY_chrooted_path/$OCF_RESKEY_leases fi # Remove the random device. test -e "$OCF_RESKEY_chrooted_path/dev/urandom" && rm -f $OCF_RESKEY_chrooted_path/dev/urandom # Test for the existance of the defined include files, and append # them to the list of files to be copied. for i in $OCF_RESKEY_includes ; do if [ -e $i ] ; then DEFAULT_FILE_LIST="$DEFAULT_FILE_LIST $i" else ocf_log err "include file $i does not exist" return $OCF_ERR_INSTALLED fi done # Ensure all "modified" non-chrooted configuration files are copied into the chrooted environment. for i in $OCF_RESKEY_config $DEFAULT_FILE_LIST; do # First, lets make sure the directory exists within the chrooted environment. if test -d "$i" ; then mkdir -p $OCF_RESKEY_chrooted_path/$i elif test -e "$i" ; then mkdir -p "`dirname $OCF_RESKEY_chrooted_path/$i`" fi # Next, we copy the configuration file into place. cp -aL "$i" "$OCF_RESKEY_chrooted_path/${i%/*}/" > /dev/null 2>&1 || { ocf_log err "could not copy $i to chroot jail"; return $OCF_ERR_GENERIC; } done libdir=$(basename $(echo /var/lib/dhcp/lib*)) if test -x /usr/bin/ldd ; then get_ldd_deps() { ldd_wl="\/$libdir\/lib" ldd_bl="\/$libdir\/libc\." /usr/bin/ldd "$1" | while read a b c d ; do [ -n "$c" ] || continue [[ $c =~ $ldd_wl ]] || continue [[ $c =~ $ldd_bl ]] && continue echo $c done } else get_ldd_deps() { :; } fi cplibs=`for i in /$libdir/libresolv.so.* /$libdir/libnss_*.so.* /$libdir/libpthread.so.0 /$libdir/libdl.so.2 do if [ -s "$i" ] ; then echo "$i" get_ldd_deps "$i" fi done | sort -u` for i in $cplibs ; do if [ -s "$i" ]; then cp -pL "$i" "/var/lib/dhcp/$libdir/" || { ocf_log err "could not copy $i to chroot jail"; return $OCF_ERR_GENERIC; } fi done return $OCF_SUCCESS } # Initialize a non-chroot environment dhcpd_initialize() { ## If there is no conf file, we can't start a dhcp service. if ! [ -f $OCF_RESKEY_config ] ; then ocf_log err "dhcpd has not been configured." return $OCF_ERR_CONFIGURED fi # As with the standard DHCP init script, we can still use the # chrooted default path for storing the leases file. This behavior # is consistent with the existing /etc/init.d/dhcpd script. if ! [ -d $OCF_RESKEY_chrooted_path ] ; then ocf_log info "Initializing $OCF_RESKEY_chrooted_path for use." fi # If the leases file does not exist, create it, as this is a fresh install. if [ ! -e $OCF_RESKEY_chrooted_path/$OCF_RESKEY_leases ]; then touch $OCF_RESKEY_chrooted_path/$OCF_RESKEY_leases fi # if the PID storage path does not exist, make it, and setup the permissions. # NOTE: This part of the script has a potential security flaw, in that if someone # puts in /var/run as the path, it will change ownership to the dhcpd user # and group. However, all that would do is allow that user to view the contents # of the files, which they can do now anyway. If this becomes an issue, I can work # in some changes. # We need to append "dhcpd" to the path for the PID file storage folder, because # if /var/run is used, that folders permissions can not be changed, otherwise it affects # more then just one application. if ! [ -d `dirname $OCF_RESKEY_pid`/dhcpd ] ; then mkdir -p `dirname $OCF_RESKEY_pid`/dhcpd if [ -n "$OCF_RESKEY_user" -a "x$OCF_RESKEY_user" != "xroot" ] ; then chown $OCF_RESKEY_user `dirname $OCF_RESKEY_pid`/dhcpd fi if [ -n "$OCF_RESKEY_group" -a "x$OCF_RESKEY_group" != "xwheel" ] ; then chgrp $OCF_RESKEY_group `dirname $OCF_RESKEY_pid`/dhcpd fi fi return $OCF_SUCCESS } # Start dhcpd_start() { - local PIDF - # Lets make sure we are not already running. if dhcpd_monitor; then ocf_log info "dhcpd already running" return $OCF_SUCCESS fi # Only initialize the chrooted path(s) if chroot mode is enabled. if ocf_is_true $OCF_RESKEY_chrooted ; then dhcpd_initialize_chroot || { ocf_log err "Could not fully initialize the chroot environment." ; return $OCF_ERR_INSTALLED; } else dhcpd_initialize || { ocf_log err "Could not fully initialize the runtime environment." ; return $OCF_ERR_INSTALLED; } fi dhcpd_validate_all || exit - ## If there is a pid file containing a pid, the machine might have crashed. pid files in - ## /var/run are always cleaned up at boot time, but this is not the case for the pid file in - ## the chroot jail. Therefore, an old pid file may exist. This is only a problem if it - ## incidentally contains the pid of a running process. If this process is not a 'dhcpd', - ## we remove the pid. (dhcpd itself only checks whether the pid is alive or not.) - - PIDF=$OCF_RESKEY_chrooted_path/$OCF_RESKEY_pid - - if ocf_is_true $OCF_RESKEY_chrooted ; then - ocf_log info "Starting dhcpd [chroot] service." - else - ocf_log info "Starting dhcpd [non-chroot] service." - PIDF=`dirname $OCF_RESKEY_pid`/dhcpd/`basename $OCF_RESKEY_pid` - fi - - test -e "$PIDF" && rm -f $PIDF - # Define an empty string variable, to ensure it exists when needed. DHCPD_ARGS="" # To ensure consistent behavior with the standard DHCPD init script, # use the chrooted default path for storing a leases file, when not in # a chrooted enviroment. if ocf_is_true $OCF_RESKEY_chrooted ; then DHCPD_ARGS="$DHCPD_ARGS -chroot $OCF_RESKEY_chrooted_path -lf $OCF_RESKEY_leases" else DHCPD_ARGS="$DHCPD_ARGS -lf $OCF_RESKEY_chrooted_path/$OCF_RESKEY_leases" fi if [ -n "$OCF_RESKEY_user" ]; then DHCPD_ARGS="$DHCPD_ARGS -user $OCF_RESKEY_user" fi if [ -n "$OCF_RESKEY_group" ]; then DHCPD_ARGS="$DHCPD_ARGS -group $OCF_RESKEY_group" fi - ocf_run $OCF_RESKEY_binary -cf $OCF_RESKEY_config $DHCPD_ARGS -pf $PIDF $OCF_RESKEY_interface || + # If there is a pid file containing a pid, the machine might have crashed. pid files in + # /var/run are always cleaned up at boot time, but this is not the case for the pid file in + # the chroot jail. Therefore, an old pid file may exist. This is only a problem if it + # incidentally contains the pid of a running process. If this process is not a 'dhcpd', + # we remove the pid. (dhcpd itself only checks whether the pid is alive or not.) + + PIDF="$OCF_RESKEY_chrooted_path$OCF_RESKEY_pid" + + if ocf_is_true $OCF_RESKEY_chrooted ; then + ocf_log info "Starting dhcpd [chroot] service." + DHCPD_ARGS="$DHCPD_ARGS -pf $OCF_RESKEY_pid" + else + ocf_log info "Starting dhcpd [non-chroot] service." + PIDF=`dirname $OCF_RESKEY_pid`/dhcpd/`basename $OCF_RESKEY_pid` + DHCPD_ARGS="$DHCPD_ARGS -pf $PIDF" + fi + + test -e "$PIDF" && rm -f $PIDF + + ocf_run $OCF_RESKEY_binary -cf $OCF_RESKEY_config $DHCPD_ARGS $OCF_RESKEY_interface || return $OCF_ERR_INSTALLED while ! dhcpd_monitor; do sleep .1 ocf_log info "waiting for dhcpd to start" return $OCF_SUCCESS done if ocf_is_true $OCF_RESKEY_chrooted ; then ocf_log info "dhcpd [chrooted] has started." else ocf_log info "dhcpd [non-chrooted] has started." fi return $OCF_SUCCESS } # Stop dhcpd_stop () { local timeout local timewait local rc - local PIDF dhcpd_monitor rc=$? case "$rc" in "$OCF_SUCCESS") # Currently running, and is expected behaviour. ;; "$OCF_NOT_RUNNING") # Currently not running, therefore nothing to do. ocf_log info "dhcpd already stopped" return $OCF_SUCCESS ;; esac - PIDF=$OCF_RESKEY_chrooted_path/$OCF_RESKEY_pid + PIDF="$OCF_RESKEY_chrooted_path$OCF_RESKEY_pid" if ! ocf_is_true $OCF_RESKEY_chrooted ; then PIDF=`dirname $OCF_RESKEY_pid`/dhcpd/`basename $OCF_RESKEY_pid` fi kill `cat $PIDF` # Allow 2/3 of the action timeout for the orderly shutdown # (The origin unit is ms, hence the conversion) timewait=$((OCF_RESKEY_CRM_meta_timeout/1500)) sleep 0.1; timeout=0 # Sleep here for .1 sec to let dhcpd finish. while dhcpd_monitor ; do if [ $timeout -ge $timewait ]; then break else sleep 1 timeout=`expr $timeout + 1` fi done #If still up if dhcpd_monitor 2>&1; then ocf_log err "dhcpd is still up! Trying kill -s KILL" kill -s SIGKILL `cat $PIDF` fi # If we are running a dhcp server v4 or higher, unmount the proc partition. if [ $DHCP_VERSION_MAJOR -ge 4 ] ; then # We only want to unmount proc in a chrooted environment, else we could # cause other issues. if ocf_is_true $OCF_RESKEY_chrooted ; then umount $OCF_RESKEY_chrooted_path/proc > /dev/null 2>&1 fi fi rm -f $PIDF ocf_log info "dhcpd stopped" return $OCF_SUCCESS } # Make sure meta-data and usage always succeed case $__OCF_ACTION in meta-data) dhcpd_meta_data exit $OCF_SUCCESS ;; validate-all) dhcpd_validate_all exit $OCF_SUCCESS ;; usage|help) dhcpd_usage exit $OCF_SUCCESS ;; esac # Translate each action into the appropriate function call case $__OCF_ACTION in start) dhcpd_start;; stop) dhcpd_stop;; monitor) dhcpd_monitor;; *) dhcpd_usage exit $OCF_ERR_UNIMPLEMENTED ;; esac