htcondor 8.4.2~dfsg.1-1build1 / etc / init.d / condor

#! /bin/sh

#
# chkconfig: - 98 10
# description: Condor HTC computing platform
#
# condor script for SysV-style init boot scripts.  
#
# Usually this would be installed as /etc/init.d/condor with soft
# links put in from /etc/rc*.d to point back to /etc/init.d/condor to
# determine when Condor should be started and stopped.  Exact
# directories or details of the links you should use will vary from
# platform to platform. 
#

# This script strives for portability, and thus may be inelegant
# on any given system.  Users on Fedora or Red Hat systems should
# also consider "condor.init", which is more native and should
# integrate better with the rest of the system.

# LSB init part (Used by Debian package)
### BEGIN INIT INFO
# Provides:          condor
# Required-Start:    $network $local_fs $remote_fs
# Required-Stop:     $remote_fs $local_fs $network
# Default-Start:     2 3 4 5
# Default-Stop:      0 1 6
# Short-Description: Manage condor daemons
# Description: Condor HTC computing platform
### END INIT INFO

######################################################################
## Ensure that the settings below are correct for your Condor
## installation.  Except for SYSCONFIG, these may also be specified
## in the "$SYSCONFIG/condor" file.

# Directory with system configuration files
#SYSCONFIG="/etc/default"

# Condor's sysconfig file
#CONDOR_SYSCONFIG="/etc/default/condor"

# Condor users to look for while shutting down.
#CONDOR_USERS="condor,root"

# Path to your primary condor configuration file.
#CONDOR_CONFIG="/etc/condor/condor_config"

# Path to condor_config_val
#CONDOR_CONFIG_VAL="/usr/bin/condor_config_val"

# How long to give Condor to shut down cleanly?
#MAX_STOP_WAIT=300

# Disable the use of a 'PID file?
#DISABLE_PIDFILE="no"

# Only kill Condor PIDs from the PID file
#FORCE_PIDFILE="no"

## There are no settings beyond this point.
######################################################################

# Source LSB init function. This will allow for, e.g., systemd to smoothly
# redirect init script calls to systemctl
. /lib/lsb/init-functions

# help & usage
myusage() {
    echo "usage: $1 [options] command"
}
myhelp() {
    myusage   
    echo " --no-execute, -n   : No execute mode"
    echo " --execute          : Execute mode (default)"
    echo " --verbose, -v      : Verbose mode"
    echo " --sysconfig <dir>  : Specify the sysconfig directory"
    echo "Environment variables:"
    echo "  SYSCONFIG         : Specify the sysconfig directory"
    echo "  CONDOR_SYSCONFIG  : Specify Condor's sysconfig file"
    echo "  CONDOR_CONFIG     : Specify path to Condor's configuration file"
    echo "  CONDOR_CONFIG_VAL : Specify path to condor_config_val"
    echo "Commands: start stop restart try-restart reload force-reload status"
}

# Process command line arguments
# Looks through argv, pick out ones that start with a dash,
# and handle them
EXECUTE=yes
VERBOSE=no
while [ $# -gt 0 ] ; do
  c=`expr $1 : '\(.\).*'`
  if [ "$c" != "-" ] ; then
    break
  fi
  case "$1" in
  "-n" | "--no-execute" ) 
    EXECUTE=no
    shift
    ;;
  "--execute" ) 
    EXECUTE=yes
    shift
    ;;
  "-v" | "--verbose" ) 
    VERBOSE=yes
    shift
    ;;
  "--sysconfig" ) 
    SYSCONFIG=$2
    shift; shift
    ;;
  "-h" | "--help" )
    myhelp
    exit 0
    ;;
  * )
    myusage
    echo "Unkown option: $1: use --help for help"
    exit 1
    ;;
  esac
done
INIT_COMMAND=$1


################################################################################

# Read in the sysconfig file
if [ "$SYSCONFIG" = "" ] ; then
  SYSCONFIG=/etc/default
fi
if [ "$CONDOR_SYSCONFIG" = "" ] ; then
  CONDOR_SYSCONFIG=$SYSCONFIG/condor
fi
[ -f "$CONDOR_SYSCONFIG" ] && . "$CONDOR_SYSCONFIG"

# Default condor configuration file if none specified
if [ "$CONDOR_CONFIG" = "" ] ; then
  CONDOR_CONFIG=/etc/condor/condor_config
fi

# Default path condor_config_val if none specified
if [ "$CONDOR_CONFIG_VAL" = "" ] ; then
  CONDOR_CONFIG_VAL=/usr/bin/condor_config_val
fi

# Default value to max shutdown wait
if [ "$MAX_STOP_WAIT" = "" ] ; then
  MAX_STOP_WAIT=300
fi

if [ "$USER" = "" ] ; then
  USER=`whoami`
fi

# A key goal of this script is portability.  As a result,
# there are is awkward syntax.  For example: the -e test
# for file existance isn't available in Solaris 9 /bin/sh
# so "\( -f "$1" -o -L "$1" \)" is used as a rough equivalent.
# stop is not an acceptable function name on AIX and HPUX,
# so the function is called xstop.

# Equivalent to "echo -n", but portable.
echon() {
  if [ "`echo -n`" = "-n" ]; then
    echo "$@""\c"
  else
    echo -n "$@"
  fi
}

# Emits error with a "FATAL: " prefix. Exits.  Never returns
fatal_error() {
  echo "FATAL: $1"
  exit 1
}

##
## Try to detect a binary from set of names and set of directories.
## Note: The names and directories cannot contain whitespace, because
##       whitespace is the the list delimiter.
##
detect_exe() {
  for name in `echo $2` ; do
    for dir in `echo $1` ; do
      if [ -x "$dir/$name" ] ; then
        echo "$dir/$name"
        return
      fi
    done
  done
}

##
## Based on the ps flavor ($1), return the ps options
##
ps_get_opts() {
  if [ "$1" = "GNU" -o "$1" = "BSD" ] ; then
    opts="aux"
  elif [ "$1" = "SYSV" ] ; then
    opts="-ef"
  else
    echo "FATAL: Unknown ps flavor \"$1\""
    exit 1
  fi
  echo $opts
}

##
## Try to run ps, see if it fails
##
ps_try_run() {
  cmd="$1 $2"
  $cmd > /dev/null 2>&1
  if [ $? -eq 0 ] ; then
    echo "yes"
  else
    echo "no"
  fi
}

##
## Detect the 'ps' (in $PS) executable's flavor
##
ps_detect_flavor() {
  if [ "$1" = "GNU" ] ; then
    OPTS="--version"
  else
    OPTS=`ps_get_opts "$1"`
  fi
  STATUS=`ps_try_run "$PS" "$OPTS"`
  echo $STATUS
}

##
## Detect ps support extra flags ('w' and 'n')
##
ps_detect_flags() {
  if [ "$PSFLAVOR" = "GNU" ] ; then
    PSFLAGSn="n"
    PSFLAGSw="www"
    return
  fi

  OPTS=`ps_get_opts "$PSFLAVOR"`
  OPTS="${OPTS}www"
  OK=`ps_try_run "$PS" "$OPTS"`
  if [ "$OK" = "yes" ] ; then
    PSFLAGSw="www"
  fi

  OPTS=`ps_get_opts "$PSFLAVOR"`
  OPTS="${OPTS}n"
  OK=`ps_try_run "$PS" "$OPTS"`
  if [ "$OK" = "yes" ] ; then
    PSFLAGSn="n"
  fi
}

##
## Detect the 'ps' exectuable and it's flavor
##
detect_ps() {
  DIRS="/usr/gnu/bin /usr/local/bin /opt/freeware/bin /usr/ucb /usr/bin /bin"
  NAMES="ps"
  PS=`detect_exe "${DIRS}" "${NAMES}"`
   if [ "$PS" = "" ] ; then
    echo "FATAL: no ps binary detected"
    exit 1
  fi

  for FLAVOR in GNU SYSV BSD ; do
    if [ "$PSFLAVOR" = "" ] ; then
      OK=`ps_detect_flavor $FLAVOR`
      if [ "$OK" = "yes" ] ; then
        PSFLAVOR="$FLAVOR"
      fi
    fi
  done
  if [ "$PSFLAVOR" = "" ] ; then
    echo "FATAL: Unable to detect the flavor of \"$PS\""
    exit 1
  fi
  if [ "$VERBOSE" = "yes" ] ; then
    echo "Detected ps executable \"$PS\" flavor \"$PSFLAVOR\", flags: $PSFLAGSw $PSFLAGSn"
  fi
}

##
## Detect awk flavor
## returns: GNU NAWK XPG4 AWK
##
detect_awk_flavor() {
  awk=$1
  # GNU
  out=`echo ""|$awk --version 2>/dev/null | grep GNU`
  if [ "$out" != "" ] ; then
    echo "GNU"; return 0
  fi
  out=`echo "abc"|$awk '{ sub(/abc/,"ABC"); print; }'` 2>/dev/null
  if [ "$?" != 0 ] ; then
    echo "AWK"; return 0
  fi
  out=`echo "x=4"|$awk '{ s=$1; sub(/x=([0-9]+).*/, "\1", s); print s; }'`
  if [ "$out" = "x=4" ] ; then
    echo "XPG4"; return 0
  fi
  echo "NAWK"; return 0
}

##
## Detect awk and it's flavor
##
detect_awk() {
  if [ "$AWK" != "" ] ; then
    return 0
  fi
  DIRS="/usr/gnu/bin /usr/local/bin /usr/xpg4/bin /opt/freeware/bin /usr/ucb /usr/bin /bin"
  NAMES="gawk nawk awk"
  AWK=`detect_exe "$DIRS" "$NAMES"`
  if [ "$AWK" = "" ] ; then
    echo "FATAL: no awk binary detected"
    exit 1
  fi

  AWKFLAVOR=`detect_awk_flavor $AWK`
  if [ "$AWKFLAVOR" = "" ] ; then
    echo "FATAL: Unable to detect the flavor of \"$AWK\""
    exit 1
  fi
  if [ "$VERBOSE" = "yes" ] ; then
    echo "Detected awk executable \"$AWK\" flavor \"$AWKFLAVOR\""
  fi
}

# Is the executable in $1 potentially runnable?
# Exit if no.
verify_executable() {
  if [ ! \( -f "$1" -o -L "$1" \) ]; then
    fatal_error "Required executable $1 does not exist."
  fi
  if [ -d "$1" ]; then
    fatal_error "Required executable $1 is a directory instead of a file."
  fi
  if [ ! -x "$1" ]; then
    fatal_error "Required executable $1 is not executable."
  fi
  return 0
}

# Is the path in $1 a potentially readable directory?
# Exit if no.
verify_readable_directory() {
  if [ ! -d "$1" ]; then
    fatal_error "Required directory $1 does not exist, or is not a directory."
  fi
  if [ ! -r "$1" ]; then
    fatal_error "Required executable $1 is not readable."
  fi
  return 0
}

# Returns a setting from the CONDOR_CONFIG configuration
# file.  Exits if the value cannot be found!
get_condor_config_val() {
  REQUIRED=$2
  if [ "$REQUIRED" = "" ] ; then
    REQUIRED=yes
  fi
  TMPVAL=`"$CONDOR_CONFIG_VAL" $1 2>/dev/null`
  if [ "$TMPVAL" = "" ] && [ "$REQUIRED" = "yes" ] ; then
    fatal_error "Unable to locate $1 in $CONDOR_CONFIG"
  fi
  echo "$TMPVAL"
}

# Ensure CONDOR_SBIN holds path to SBIN as defined in the 
# CONDOR_CONFIG file
set_condor_sbin() {
  if [ "$CONDOR_SBIN" != "" ]; then
    return 0;
  fi
  CONDOR_SBIN=`get_condor_config_val SBIN`
  verify_readable_directory "$CONDOR_SBIN"
  return 0;
}

# Ensure CONDOR_RUN holds path to a plausible run directory.
# Exit on failure.
set_condor_run() {
  if [ "$CONDOR_RUN" != "" ]; then
    return 0
  fi
  CONDOR_RUN=`get_condor_config_val RUN no`
  if [ "$CONDOR_RUN" = "" ]; then
    CONDOR_RUN=`get_condor_config_val LOG yes`
  fi
  if [ ! -d "$CONDOR_RUN" ] ; then
    mkdir "$CONDOR_RUN"
    if [ "$USER" = "root" -a "$CONDOR_USER" != "" ] ; then
      chown "$CONDOR_USER" "$CONDOR_RUN"
    fi
  fi
  verify_readable_directory "$CONDOR_RUN"
  return 0
}


# Ensure CONDOR_MASTER holds path to a plausible condor_master.
# Exit on failure.
set_condor_master() {
  if [ "$CONDOR_MASTER" = "" ]; then
    CONDOR_MASTER=`get_condor_config_val MASTER`
  fi
  verify_executable "$CONDOR_MASTER"
  return 0
}

# Ensure CONDOR_RECONFIG holds path to a plausible condor_reconfig.
# Exit on failure.
set_condor_reconfig() {
  if [ "$CONDOR_RECONFIG" = "" ]; then
    set_condor_sbin
    CONDOR_RECONFIG="$CONDOR_SBIN/condor_reconfig"
  fi
  verify_executable "$CONDOR_RECONFIG"
  return 0
}

# Set CONDOR_USERS
set_condor_users() {
  CONDOR_USERS=""
  CONDOR_USER="$1"
  while [ "$1" != "" ] ; do
    if [ "$CONDOR_USERS" != "" ] ; then
      CONDOR_USERS="$CONDOR_USERS,$1"
    else
      CONDOR_USERS="$1"
    fi
    shift
  done
}

# Get the condor user(s)
detect_condor_users() {
  if [ "$CONDOR_USERS" != "" ]; then
    return 0
  fi
  if [ "$USER" != "root" -a "$USER" != "condor" ] ; then
    MYUSER="$USER"
  fi
  IDS=`get_condor_config_val CONDOR_IDS no`
  if [ "$IDS" = "" ]; then
    set_condor_users "condor" "root" "$MYUSER"
    return 0
  fi

  TMP_USER=`echo $IDS|$AWK 'BEGIN{FS="[ ,.]"} /^[^0-9]/{print $1}'`
  if [ "$TMP_USER" != "" ] ; then
    set_condor_users "$TMP_USER" "root" "$MYUSER"
    return 0
  fi
  CONDOR_UID=`echo $IDS|$AWK 'BEGIN{FS="[ ,.]"} /^[0-9]/{print $1}'`

  for u in condor ; do
    TMP_UID=`id $u|$AWK '{ sub(/uid=/,"",$1); sub(/\(.*\)/,"",$1); print $1; }'`
    if [ "$TMP_UID" = "$CONDOR_UID" ] ; then
      set_condor_users "$u" "root" "$MYUSER"
      return 0
    fi
  done
  
  TMP_USER=`cat /etc/passwd|$AWK 'BEGIN{FS=":"; UID=ARGV[1]; ARGC=0; } { if($3==UID){print $1} }' $CONDOR_UID`
  if [ "$TMP_USER" != "" ] ; then
    echo "$TMP_USER had uid $CONDOR_UID"
    set_condor_users "$TMP_USER" "root" "$MYUSER"
    return 0
  fi

  CONDOR_USER="$CONDOR_UID"
  CONDOR_UIDS="$CONDOR_UID,0"
  return 0
}

# Ensure CONDOR_OFF holds path to a plausible condor_off.
# Exit on failure.
set_condor_off() {
  if [ "$CONDOR_OFF" = "" ]; then
    set_condor_sbin
    CONDOR_OFF="$CONDOR_SBIN/condor_off"
  fi
  verify_executable "$CONDOR_OFF"
  return 0
}


##
## Find the Condor master processes
##
find_masters() {

  if [ "$CONDOR_USERS" = "" ] ; then
    OPTS=`ps_get_opts "$PSFLAVOR" "W" "N"`
    TMP_USERS=$CONDOR_UIDS
  else
    OPTS=`ps_get_opts "$PSFLAVOR" "W"`
    TMP_USERS=$CONDOR_USERS
  fi
  pids=`$PS $OPTS|$AWK 'BEGIN{split(ARGV[1],users,","); ARGC=0; } { if( (index($0,"condor_master") != 0) && (index($0,"awk") == 0) ) { for(i in users){ if($1==users[i]){print $2; break;} } } }' $TMP_USERS`
  echo "$pids"
}

# To the best of its ability, finds the active condor_master's PID.
# Store the result in global variable MASTER_PIDS.
# You can call this repeatedly to check for updates.
# If we use the pid file the first time through, always use it --
#  if it disappears, means that the Condor went bye-bye
condor_master_pids() {
  masterpid=
  if [ -f "$PIDFILE" -a -r "$PIDFILE" ] ; then
    masterpid=`cat "$PIDFILE"` 2>/dev/null

    # validate PID
    `kill -0 $masterpid` > /dev/null
    if [ $? -eq 0 ] ; then
      FORCE_PIDFILE="yes"
    else
      masterpid=""
      # Remove the stale pidfile
      rm -f $PIDFILE
    fi
  fi
  if [ "$FORCE_PIDFILE" = "yes" ] ; then
    MASTER_PIDS="$masterpid"
    return 0
  fi

  pids=`find_masters`
  if [ "$masterpid" = "" ] ; then
    MASTER_PIDS="$pids"
    if [ "$pids" = "" ] ; then return 1; else return 0; fi
  fi
  echo "$pids" | grep -w "$masterpid" > /dev/null
  if [ $? -eq 0 ] ; then
    MASTER_PIDS="$masterpid"
    return 0
  fi
  foundpid=`$PS | grep condor_master | grep -v grep | $AWK '{print $2}' | grep "^$masterpid$"`
  if [ "$foundpid" = "" ]; then
    MASTER_PIDS="$foundpid"
    if [ "$pids" = "" ] ; then return 1; else return 0; fi
  fi
  MASTER_PIDS="$masterpid"
  return 0
}

# Wait for condor_master to exit.
#
# Only reliably detects condor_masters started by this script
#
# Sleeps $1 seconds between checks
# After approximately $2 seconds, gives up
#
# $?=0 - condor_master is gone
# $?=1 - timed out
wait_for_exit() {
  if [ "$VERBOSE" = "yes" ] ; then
    echo "Waiting for Condor to stop (MAX: $2 seconds)"
  fi
  sleep_time=$1
  max_wait=$2
  stop_duration=0
  condor_master_pids
  while [ "$MASTER_PIDS" != "" -a $stop_duration -lt $max_wait ]; do
    if [ "$VERBOSE" = "yes" ] ; then
      echo "Still waiting on $MASTER_PIDS"
    fi
    sleep $sleep_time
    stop_duration=`expr $stop_duration + $sleep_time`
    condor_master_pids
  done
  
  if [ "$MASTER_PIDS" = "" ]; then
    return 0
  else
    return 1
  fi
}



# Start condor.
start() {
  set_condor_master
  if [ "$VERBOSE" = "yes" ] ; then
    echo "Starting up Condor..."
  else
    echon "Starting up Condor...    "
  fi
  if [ "$EXECUTE" != "yes" ] ; then
    echo "skipping."
    return 0
  fi
  if [ "$CONDOR_MASTER_WRAPPER" = "" ] ; then
    if [ "$PIDFILE" = "" ] ; then
      cmd="$CONDOR_MASTER"
      "$CONDOR_MASTER"
    else
      cmd="$CONDOR_MASTER -pidfile $PIDFILE"
      "$CONDOR_MASTER" -pidfile "$PIDFILE"
    fi
  else
    cmd="$CONDOR_MASTER_WRAPPER"
    "$CONDOR_MASTER_WRAPPER"
  fi
  if [ $? -ne 0 ]; then
    echo " failed to start Condor with \"$cmd\"."
    return 1;
  fi
  if [ "$VERBOSE" = "yes" ] ; then
    echo "Started: \"$cmd\""
    if [ "$PIDFILE" != "" ] ; then
      seconds=0
      while [ ! -f "$PIDFILE" -a $seconds -lt 10 ]; do
        sleep 1
        seconds=`expr $seconds + 1`
      done
      if [ -f "$PIDFILE" ] ; then
        echon "Master PID = ";
        cat "$PIDFILE"
      fi
    fi
  fi
  echo "done."
  return 0
}


# Tries to stop the condor_master
#
# If we have a valid PIDFILE, uses "kill -QUIT".
# Failing that, uses "condor_off -fast -master"
#
# We prefer the "kill -QUIT", as the master might refuse
# the condor_off request because of security configuration.
# We still try condor_off in case the PIDFILE is missing,
# say because someone started condor_master by hand.
#
# The two options are nearly identical from the condor_master's
# point of view; it will end up executing the same shutdown
# code either way.
#
# named xstop because stop causes problems on AIX and HPUX.
xstop() {
  if [ "$VERBOSE" = "yes" ] ; then
    echo "Shutting down Condor (fast-shutdown mode)..."
  else
    echon "Shutting down Condor (fast-shutdown mode)...  "
  fi
  condor_master_pids
  if [ "$MASTER_PIDS" != "" ]; then
    if [ "$EXECUTE" != "yes" ] ; then
      echo "Skipping."
      return 0
    fi
    for pid in `echo "$MASTER_PIDS"` ; do
      if [ "$VERBOSE" = "yes" ] ; then
        echo "Sending QUIT to $pid"
      fi
      kill -QUIT "$pid"
    done
  
    # We assume that user will use init script to startup/shutdown
    # condor only, so we will rely on the pid file. condor_off cannot
    # differentiate between fail to stop condor or condor is not
    # running, so we don't use it for now.

  fi

  wait_for_exit 1 $MAX_STOP_WAIT
  if [ $? -gt 0 ]; then
    echo "Failed to stop Condor (timed out)."
    return 1
  fi

  if [ -f "$PIDFILE" ]; then
    rm "$PIDFILE"
  fi

  echo "done."

  return 0
}


# Ask Condor to re-read its configuration files
#
# This can fail for any number of reasons, and we wouldn't
# detect it.
#
# As a possible improvement, we might send SIGHUP if condor_master_pids
# finds nothing, only falling back on condor_reconfig if it is.
#
# Also, detect the return code from CONDOR_RECONFIG; non-zero
# indicates aproblem. (At the moment that never happens, but
# may in the future.)
reload() {
  set_condor_reconfig
  echon "Reloading Condor configuration..."
  "$CONDOR_RECONFIG" | grep -v 'Sent "Reconfig" command to local master'
  echo "done."
  return 0
}


# Report Condor's status
#
# If condor was started by directly running condor_master,
# this will erroneously report that it is not running.
#
# Return codes (from Linux Standards Base)
# (Not all of these are currently implemented)
# 0 running 
# 1 dead and /var/run pid file exists
# 2 dead and /var/lock lock file exists
# 3 not running
# 4 unknown
status() {
  condor_master_pids
  master_pid="$MASTER_PIDS"
  if [ "$master_pid" != "" ]; then
    echo "Condor is running (pid $master_pid)"
    return 0
  else
    echo "Condor is not running"
    return 3; 
  fi
}

verify_executable "$CONDOR_CONFIG_VAL"

# We don't use CONDOR_CONFIG directly, it's used by the
# Condor tools.
if [ "$CONDOR_CONFIG" != "" ]; then
  export CONDOR_CONFIG
fi

detect_ps
detect_awk
detect_condor_users

if [ "$CONDOR_USERS" = "" ] ; then
  if [ "$PSFLAGSn" = "" ] ; then
    fatal_error "CONDOR_IDS is \"$IDS\", and I can't detect what user that maps to.\n  Specify CONDOR_USERS in your Condor sysconfig file ($CODNOR_SYSCONFIG, if it exists)\n  or at the top of this script."
  fi
fi

# PID file overides / fallbacks
if [ "$DISABLE_PIDFILE" = "yes" ] ; then
  PIDFILE=""
elif [ "$PIDFILE" = "" ] ; then
  set_condor_run
  PIDFILE="$CONDOR_RUN/condor.pid"
fi

if [ "$INIT_COMMAND" = "" ] ; then
  myhelp
  exit 1
fi

case "$INIT_COMMAND" in
  'start')
    start
    ;;

  'stop')
    xstop
    ;;

  'restart')
    xstop
    start
    ;;

  'try-restart')
    condor_master_pids
    if [ "$MASTER_PIDS" = "" ]; then exit 0; fi # Not running
    xstop
    start
    ;;

  'reload')
    reload
    ;;

  'force-reload')
    reload
    ;;

  'status')
    status
    ;;

  *)
    echo "Unknown command $INIT_COMMAND: use --help for help"
    exit 1
    ;;

esac