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# Simple test harness infrastructure
#
# Copyright 2005 by Rob Landley
# This file defines two main functions, "testcmd" and "optional". The
# first performs a test, the second enables/disables tests based on
# configuration options.
# The following environment variables enable optional behavior in "testing":
# DEBUG - Show every command run by test script.
# VERBOSE - "all" continue after failed test
# "quiet" like all but just print FAIL (no diff -u).
# "nopass" don't show successful tests
#
# The "testcmd" function takes five arguments:
# $1) Description to display when running command
# $2) Command line arguments to command
# $3) Expected result (on stdout)
# $4) Data written to file "input"
# $5) Data written to stdin
#
# The "testing" function is like testcmd but takes a complete command line
# (I.E. you have to include the command name.) The variable $C is an absolute
# path to the command being tested, which can bypass shell builtins.
#
# The exit value of testcmd is the exit value of the command it ran.
#
# The environment variable "FAILCOUNT" contains a cumulative total of the
# number of failed tests.
#
# The "optional" function is used to skip certain tests (by setting the
# environment variable SKIP), ala:
# optional CFG_THINGY
#
# The "optional" function checks the environment variable "OPTIONFLAGS",
# which is either empty (in which case it always clears SKIP) or
# else contains a colon-separated list of features (in which case the function
# clears SKIP if the flag was found, or sets it to 1 if the flag was not found).
export FAILCOUNT=0
export SKIP=
# Helper functions
# Check config to see if option is enabled, set SKIP if not.
SHOWPASS=PASS
SHOWFAIL=FAIL
SHOWSKIP=SKIP
if tty -s <&1
then
SHOWPASS="$(echo -e "\033[1;32m${SHOWPASS}\033[0m")"
SHOWFAIL="$(echo -e "\033[1;31m${SHOWFAIL}\033[0m")"
SHOWSKIP="$(echo -e "\033[1;33m${SHOWSKIP}\033[0m")"
fi
optional()
{
option=`printf %s "$OPTIONFLAGS" | egrep "(^|:)$1(:|\$)"`
# Not set?
if [ -z "$1" ] || [ -z "$OPTIONFLAGS" ] || [ ${#option} -ne 0 ]
then
SKIP=""
return
fi
SKIP=1
}
skipnot()
{
if [ "$VERBOSE" == quiet ]
then
eval "$@" 2>/dev/null
else
eval "$@"
fi
[ $? -eq 0 ] || SKIPNEXT=1
}
toyonly()
{
IS_TOYBOX="$("$C" --version 2>/dev/null)"
# Ideally we'd just check for "toybox", but toybox sed lies to make autoconf
# happy, so we have at least two things to check for.
case "$IS_TOYBOX" in
toybox*) ;;
This\ is\ not\ GNU*) ;;
*) SKIPNEXT=1 ;;
esac
"$@"
}
wrong_args()
{
if [ $# -ne 5 ]
then
printf "%s\n" "Test $NAME has the wrong number of arguments ($# $*)" >&2
exit
fi
}
# Announce success
do_pass()
{
[ "$VERBOSE" != "nopass" ] && printf "%s\n" "$SHOWPASS: $NAME"
}
# The testing function
testing()
{
NAME="$CMDNAME $1"
wrong_args "$@"
[ -z "$1" ] && NAME=$2
[ -n "$DEBUG" ] && set -x
if [ -n "$SKIP" -o -n "$SKIP_HOST" -a -n "$TEST_HOST" -o -n "$SKIPNEXT" ]
then
[ "$VERBOSE" != quiet ] && printf "%s\n" "$SHOWSKIP: $NAME"
unset SKIPNEXT
return 0
fi
echo -ne "$3" > expected
[ ! -z "$4" ] && echo -ne "$4" > input || rm -f input
echo -ne "$5" | ${EVAL:-eval --} "$2" > actual
RETVAL=$?
# Catch segfaults
[ $RETVAL -gt 128 ] && [ $RETVAL -lt 255 ] &&
echo "exited with signal (or returned $RETVAL)" >> actual
DIFF="$(diff -au${NOSPACE:+w} expected actual)"
if [ ! -z "$DIFF" ]
then
FAILCOUNT=$(($FAILCOUNT+1))
printf "%s\n" "$SHOWFAIL: $NAME"
if [ "$VERBOSE" != quiet ]
then
[ ! -z "$4" ] && printf "%s\n" "echo -ne \"$4\" > input"
printf "%s\n" "echo -ne '$5' |$EVAL $2"
printf "%s\n" "$DIFF"
[ "$VERBOSE" != all ] && exit 1
fi
else
[ "$VERBOSE" != "nopass" ] && printf "%s\n" "$SHOWPASS: $NAME"
fi
rm -f input expected actual
[ -n "$DEBUG" ] && set +x
return 0
}
testcmd()
{
wrong_args "$@"
X="$1"
[ -z "$X" ] && X="$CMDNAME $2"
testing "$X" "\"$C\" $2" "$3" "$4" "$5"
}
# Announce failure and handle fallout for txpect
do_fail()
{
FAILCOUNT=$(($FAILCOUNT+1))
printf "%s\n" "$SHOWFAIL: $NAME"
if [ ! -z "$CASE" ]
then
echo "Expected '$CASE'"
echo "Got '$A'"
fi
[ "$VERBOSE" != all ] && [ "$VERBOSE" != quiet ] && exit 1
}
# txpect NAME COMMAND [I/O/E/Xstring]...
# Run COMMAND and interact with it: send I strings to input, read O or E
# strings from stdout or stderr (empty string is "read line of input here"),
# X means close stdin/stdout/stderr and match return code (blank means nonzero)
txpect()
{
# Run command with redirection through fifos
NAME="$CMDNAME $1"
CASE=
VERBOSITY=
if [ $# -lt 2 ] || ! mkfifo in-$$ out-$$ err-$$
then
do_fail
return
fi
eval "$2" <in-$$ >out-$$ 2>err-$$ &
shift 2
: {IN}>in-$$ {OUT}<out-$$ {ERR}<err-$$ && rm in-$$ out-$$ err-$$
[ $? -ne 0 ] && { do_fail;return;}
# Loop through challenge/response pairs, with 2 second timeout
while [ $# -gt 0 ]
do
VERBOSITY="$VERBOSITY"$'\n'"$1"
LEN=$((${#1}-1))
CASE="$1"
A=
case ${1::1} in
# send input to child
I) printf %s "${1:1}" >&$IN || { do_fail;break;} ;;
# check output from child
[OE])
[ $LEN == 0 ] && LARG="" || LARG="-rN $LEN"
O=$OUT
[ ${1::1} == 'E' ] && O=$ERR
A=
read -t2 $LARG A <&$O
VERBOSITY="$VERBOSITY"$'\n'"$A"
if [ $LEN -eq 0 ]
then
[ -z "$A" ] && { do_fail;break;}
else
if [ "$A" != "${1:1}" ]
then
# Append the rest of the output if there is any.
read -t.1 B <&$O
A="$A$B"
read -t.1 -rN 9999 B<&$ERR
do_fail;break;
fi
fi
;;
# close I/O and wait for exit
X)
exec {IN}<&- {OUT}<&- {ERR}<&-
wait
A=$?
if [ -z "$LEN" ]
then
[ $A -eq 0 ] && { do_fail;break;} # any error
else
[ $A != "${1:1}" ] && { do_fail;break;} # specific value
fi
;;
*) do_fail; break ;;
esac
shift
done
# In case we already closed it
exec {IN}<&- {OUT}<&- {ERR}<&-
if [ $# -eq 0 ]
then
do_pass
else
[ "$VERBOSE" != quiet ] && echo "$VERBOSITY" >&2
fi
}
# Recursively grab an executable and all the libraries needed to run it.
# Source paths beginning with / will be copied into destpath, otherwise
# the file is assumed to already be there and only its library dependencies
# are copied.
mkchroot()
{
[ $# -lt 2 ] && return
echo -n .
dest=$1
shift
for i in "$@"
do
[ "${i:0:1}" == "/" ] || i=$(which $i)
[ -f "$dest/$i" ] && continue
if [ -e "$i" ]
then
d=`echo "$i" | grep -o '.*/'` &&
mkdir -p "$dest/$d" &&
cat "$i" > "$dest/$i" &&
chmod +x "$dest/$i"
else
echo "Not found: $i"
fi
mkchroot "$dest" $(ldd "$i" | egrep -o '/.* ')
done
}
# Set up a chroot environment and run commands within it.
# Needed commands listed on command line
# Script fed to stdin.
dochroot()
{
mkdir tmpdir4chroot
mount -t ramfs tmpdir4chroot tmpdir4chroot
mkdir -p tmpdir4chroot/{etc,sys,proc,tmp,dev}
cp -L testing.sh tmpdir4chroot
# Copy utilities from command line arguments
echo -n "Setup chroot"
mkchroot tmpdir4chroot $*
echo
mknod tmpdir4chroot/dev/tty c 5 0
mknod tmpdir4chroot/dev/null c 1 3
mknod tmpdir4chroot/dev/zero c 1 5
# Copy script from stdin
cat > tmpdir4chroot/test.sh
chmod +x tmpdir4chroot/test.sh
chroot tmpdir4chroot /test.sh
umount -l tmpdir4chroot
rmdir tmpdir4chroot
}
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