RunSafely.sh - llvm-test-suite - Git at Google

 #!/bin/sh
 #
 # Program:  RunSafely.sh
 #
 # Synopsis: This script simply runs another program.  If the program works
 #           correctly, this script has no effect, otherwise it will do things
 #           like print a stack trace of a core dump.  It always returns
 #           "successful" so that tests will continue to be run.
 #
 #           This script funnels stdout and stderr from the program into the
 #           fourth argument specified, and outputs a <outfile>.time file which
 #           contains a timing of the program and the program's exit code.
 #
 #           If the <exitok> parameter is 0 then this script always returns 0,
 #           regardless of the actual exit of the <program>.
 #           If the <exitok> parameter is non-zero then this script returns
 #           the exit code of the <program>. If there is an error in getting
 #           the <program>'s exit code, this script returns 99.
 #
 #           If optional parameters -r <remote host> -l <remote user> are
 #           specified, it execute the program remotely using rsh.
 #
 # Syntax:
 #
 #   RunSafely.sh [-r <rhost>] [-l <ruser>]
 #                <timeout> <exitok> <infile> <outfile> <program> <args...>
 #
 #   where:
 #     <rhost>   is the remote host to execute the program
 #     <ruser>   is the username on the remote host
 #     <timeout> is the maximum number of seconds to let the <program> run
 #     <exitok>  is 1 if the program must exit with 0 return code
 #     <infile>  is a file from which standard input is directed
 #     <outfile> is a file to which standard output and error are directed
 #     <program> is the path to the program to run
 #     <args...> are the arguments to pass to the program.
 #
 if [ $# -lt 4 ]; then
   echo "./RunSafely.sh <timeout> <exitok> <infile> <outfile> <program> <args...>"
   exit 1
 fi

 DIR=${0%%`basename $0`}

 RHOST=
 RUSER=`id -un`
 FLAG=$1
 if [ $1 = "-r" ]; then
   RHOST=$2
   shift 2
 fi
 if [ $1 = "-l" ]; then
   RUSER=$2
   shift 2
 fi

 ULIMIT=$1
 EXITOK=$2
 INFILE=$3
 OUTFILE=$4
 PROGRAM=$5
 shift 5
 SYSTEM=`uname -s`

 ULIMITCMD=""
 case $SYSTEM in
   CYGWIN*)
     ;;
   Darwin*)
     # Disable core file emission, the script doesn't find it anyway because it is put
     # into /cores.
     ULIMITCMD="$ULIMITCMD ulimit -c 0;"
     ULIMITCMD="$ULIMITCMD ulimit -t $ULIMIT;"
     # To prevent infinite loops which fill up the disk, specify a limit on size of
     # files being output by the tests. 10 MB should be enough for anybody. ;)
     ULIMITCMD="$ULIMITCMD ulimit -f 10485760;"
     ;;
   *)
     ULIMITCMD="$ULIMITCMD ulimit -t $ULIMIT;"
     ULIMITCMD="$ULIMITCMD ulimit -c unlimited;"
     # To prevent infinite loops which fill up the disk, specify a limit on size of
     # files being output by the tests. 10 MB should be enough for anybody. ;)
     ULIMITCMD="$ULIMITCMD ulimit -f 10485760;"
 esac
 rm -f core core.*

 #
 # Run the command, timing its execution.
 # The standard output and standard error of $PROGRAM should go in $OUTFILE,
 # and the standard error of time should go in $OUTFILE.time. Note that the
 # return code of the program is appended to the $OUTFILE on an "Exit Val ="
 # line.
 #
 # To get the time program and the specified program different output filenames,
 # we tell time to launch a shell which in turn executes $PROGRAM with the
 # necessary I/O redirection.
 #
 PWD=`pwd`
 COMMAND="$PROGRAM $*"
 if [ "$SYSTEM" = "Darwin" ]; then
   COMMAND="${DIR}TimedExec.sh $ULIMIT $PWD $COMMAND"
 fi

 if [ "x$RHOST" = x ] ; then
   ( sh -c "$ULIMITCMD"; time -p sh -c "$COMMAND >$OUTFILE 2>&1 < $INFILE" ; echo exit $? ) 2>&1 \
     | awk -- '\
 BEGIN     { cpu = 0.0; }
 /^user/   { cpu += $2; print; }
 /^sys/    { cpu += $2; print; }
 !/^user/ && !/^sys/  { print; }
 END       { printf("program %f\n", cpu); }' > $OUTFILE.time
 else
   ( rsh -l $RUSER $RHOST "$ULIMITCMD cd $PWD; time -p $COMMAND >$OUTFILE.remote 2>&1 < $INFILE; echo exit \$?" ) 2>&1 \
     | awk -- '\
 BEGIN     { cpu = 0.0; }
 /^user/   { cpu += $2; print; }
 /^sys/    { cpu += $2; print; }
 !/^user/ && !/^sys/  { print; }
 END       { printf("program %f\n", cpu); }' > $OUTFILE.time
 cp $OUTFILE.remote $OUTFILE
 rm -f $OUTFILE.remote
 fi

 exitval=`grep '^exit ' $OUTFILE.time | sed -e 's/^exit //'`
 if [ -z "$exitval" ] ; then
   exitval=99
   echo "TEST $PROGRAM FAILED:  CAN'T GET EXIT CODE!"
 fi
 echo "exit $exitval" >> $OUTFILE

 if [ "$EXITOK" -ne 0 ] ; then
   if test "$exitval" -ne 0 ; then
     echo "TEST $PROGRAM FAILED:  EXIT != 0"
   fi
 else
   exitval=0
 fi

 if ls | egrep "^core" > /dev/null
 then
     # If we are on a sun4u machine (UltraSparc), then the code we're generating
     # is 64 bit code.  In that case, use gdb-64 instead of gdb.
     myarch=`uname -m`
     if [ "$myarch" = "sun4u" ]
     then
 	GDB="gdb-64"
     else
 	GDB=gdb
     fi

     corefile=`ls core* | head -n 1`
     echo "where 100" > StackTrace.$$
     $GDB -q -batch --command=StackTrace.$$ --core=$corefile $PROGRAM < /dev/null
     rm -f StackTrace.$$ $corefile
 fi
 exit "$exitval"
	#!/bin/sh
	#
	# Program: RunSafely.sh
	#
	# Synopsis: This script simply runs another program. If the program works
	# correctly, this script has no effect, otherwise it will do things
	# like print a stack trace of a core dump. It always returns
	# "successful" so that tests will continue to be run.
	#
	# This script funnels stdout and stderr from the program into the
	# fourth argument specified, and outputs a <outfile>.time file which
	# contains a timing of the program and the program's exit code.
	#
	# If the <exitok> parameter is 0 then this script always returns 0,
	# regardless of the actual exit of the <program>.
	# If the <exitok> parameter is non-zero then this script returns
	# the exit code of the <program>. If there is an error in getting
	# the <program>'s exit code, this script returns 99.
	#
	# If optional parameters -r <remote host> -l <remote user> are
	# specified, it execute the program remotely using rsh.
	#
	# Syntax:
	#
	# RunSafely.sh [-r <rhost>] [-l <ruser>]
	# <timeout> <exitok> <infile> <outfile> <program> <args...>
	#
	# where:
	# <rhost> is the remote host to execute the program
	# <ruser> is the username on the remote host
	# <timeout> is the maximum number of seconds to let the <program> run
	# <exitok> is 1 if the program must exit with 0 return code
	# <infile> is a file from which standard input is directed
	# <outfile> is a file to which standard output and error are directed
	# <program> is the path to the program to run
	# <args...> are the arguments to pass to the program.
	#
	if [ $# -lt 4 ]; then
	echo "./RunSafely.sh <timeout> <exitok> <infile> <outfile> <program> <args...>"
	exit 1
	fi

	DIR=${0%%`basename $0`}

	RHOST=
	RUSER=`id -un`
	FLAG=$1
	if [ $1 = "-r" ]; then
	RHOST=$2
	shift 2
	fi
	if [ $1 = "-l" ]; then
	RUSER=$2
	shift 2
	fi

	ULIMIT=$1
	EXITOK=$2
	INFILE=$3
	OUTFILE=$4
	PROGRAM=$5
	shift 5
	SYSTEM=`uname -s`

	ULIMITCMD=""
	case $SYSTEM in
	CYGWIN*)
	;;
	Darwin*)
	# Disable core file emission, the script doesn't find it anyway because it is put
	# into /cores.
	ULIMITCMD="$ULIMITCMD ulimit -c 0;"
	ULIMITCMD="$ULIMITCMD ulimit -t $ULIMIT;"
	# To prevent infinite loops which fill up the disk, specify a limit on size of
	# files being output by the tests. 10 MB should be enough for anybody. ;)
	ULIMITCMD="$ULIMITCMD ulimit -f 10485760;"
	;;
	*)
	ULIMITCMD="$ULIMITCMD ulimit -t $ULIMIT;"
	ULIMITCMD="$ULIMITCMD ulimit -c unlimited;"
	# To prevent infinite loops which fill up the disk, specify a limit on size of
	# files being output by the tests. 10 MB should be enough for anybody. ;)
	ULIMITCMD="$ULIMITCMD ulimit -f 10485760;"
	esac
	rm -f core core.*

	#
	# Run the command, timing its execution.
	# The standard output and standard error of $PROGRAM should go in $OUTFILE,
	# and the standard error of time should go in $OUTFILE.time. Note that the
	# return code of the program is appended to the $OUTFILE on an "Exit Val ="
	# line.
	#
	# To get the time program and the specified program different output filenames,
	# we tell time to launch a shell which in turn executes $PROGRAM with the
	# necessary I/O redirection.
	#
	PWD=`pwd`
	COMMAND="$PROGRAM $*"
	if [ "$SYSTEM" = "Darwin" ]; then
	COMMAND="${DIR}TimedExec.sh $ULIMIT $PWD $COMMAND"
	fi

	if [ "x$RHOST" = x ] ; then
	( sh -c "$ULIMITCMD"; time -p sh -c "$COMMAND >$OUTFILE 2>&1 < $INFILE" ; echo exit $? ) 2>&1 \
	\| awk -- '\
	BEGIN { cpu = 0.0; }
	/^user/ { cpu += $2; print; }
	/^sys/ { cpu += $2; print; }
	!/^user/ && !/^sys/ { print; }
	END { printf("program %f\n", cpu); }' > $OUTFILE.time
	else
	( rsh -l $RUSER $RHOST "$ULIMITCMD cd $PWD; time -p $COMMAND >$OUTFILE.remote 2>&1 < $INFILE; echo exit \$?" ) 2>&1 \
	\| awk -- '\
	BEGIN { cpu = 0.0; }
	/^user/ { cpu += $2; print; }
	/^sys/ { cpu += $2; print; }
	!/^user/ && !/^sys/ { print; }
	END { printf("program %f\n", cpu); }' > $OUTFILE.time
	cp $OUTFILE.remote $OUTFILE
	rm -f $OUTFILE.remote
	fi

	exitval=`grep '^exit ' $OUTFILE.time \| sed -e 's/^exit //'`
	if [ -z "$exitval" ] ; then
	exitval=99
	echo "TEST $PROGRAM FAILED: CAN'T GET EXIT CODE!"
	fi
	echo "exit $exitval" >> $OUTFILE

	if [ "$EXITOK" -ne 0 ] ; then
	if test "$exitval" -ne 0 ; then
	echo "TEST $PROGRAM FAILED: EXIT != 0"
	fi
	else
	exitval=0
	fi

	if ls \| egrep "^core" > /dev/null
	then
	# If we are on a sun4u machine (UltraSparc), then the code we're generating
	# is 64 bit code. In that case, use gdb-64 instead of gdb.
	myarch=`uname -m`
	if [ "$myarch" = "sun4u" ]
	then
	GDB="gdb-64"
	else
	GDB=gdb
	fi

	corefile=`ls core* \| head -n 1`
	echo "where 100" > StackTrace.$$
	$GDB -q -batch --command=StackTrace.$$ --core=$corefile $PROGRAM < /dev/null
	rm -f StackTrace.$$ $corefile
	fi
	exit "$exitval"