NetBSD/crypto/dist/openssl/config
2002-08-09 15:45:08 +00:00

722 lines
18 KiB
Bash
Executable File

#!/bin/sh
#
# OpenSSL config: determine the operating system and run ./Configure
#
# "config -h" for usage information.
#
# this is a merge of minarch and GuessOS from the Apache Group.
# Originally written by Tim Hudson <tjh@cryptsoft.com>.
# Original Apache Group comments on GuessOS
# Simple OS/Platform guesser. Similar to config.guess but
# much, much smaller. Since it was developed for use with
# Apache, it follows under Apache's regular licensing
# with one specific addition: Any changes or additions
# to this script should be Emailed to the Apache
# group (apache@apache.org) in general and to
# Jim Jagielski (jim@jaguNET.com) in specific.
#
# Be as similar to the output of config.guess/config.sub
# as possible.
# First get uname entries that we use below
MACHINE=`(uname -m) 2>/dev/null` || MACHINE="unknown"
RELEASE=`(uname -r) 2>/dev/null` || RELEASE="unknown"
SYSTEM=`(uname -s) 2>/dev/null` || SYSTEM="unknown"
VERSION=`(uname -v) 2>/dev/null` || VERSION="unknown"
# Now test for ISC and SCO, since it is has a braindamaged uname.
#
# We need to work around FreeBSD 1.1.5.1
(
XREL=`uname -X 2>/dev/null | grep "^Release" | awk '{print $3}'`
if [ "x$XREL" != "x" ]; then
if [ -f /etc/kconfig ]; then
case "$XREL" in
4.0|4.1)
echo "${MACHINE}-whatever-isc4"; exit 0
;;
esac
else
case "$XREL" in
3.2v4.2)
echo "whatever-whatever-sco3"; exit 0
;;
3.2v5.0*)
echo "whatever-whatever-sco5"; exit 0
;;
4.2MP)
if [ "x$VERSION" = "x2.01" ]; then
echo "${MACHINE}-whatever-unixware201"; exit 0
elif [ "x$VERSION" = "x2.02" ]; then
echo "${MACHINE}-whatever-unixware202"; exit 0
elif [ "x$VERSION" = "x2.03" ]; then
echo "${MACHINE}-whatever-unixware203"; exit 0
elif [ "x$VERSION" = "x2.1.1" ]; then
echo "${MACHINE}-whatever-unixware211"; exit 0
elif [ "x$VERSION" = "x2.1.2" ]; then
echo "${MACHINE}-whatever-unixware212"; exit 0
elif [ "x$VERSION" = "x2.1.3" ]; then
echo "${MACHINE}-whatever-unixware213"; exit 0
else
echo "${MACHINE}-whatever-unixware2"; exit 0
fi
;;
4.2)
echo "whatever-whatever-unixware1"; exit 0
;;
OpenUNIX)
if [ "`echo x$VERSION | sed -e 's/\..*//'`" = "x8" ]; then
echo "${MACHINE}-unknown-OpenUNIX${VERSION}"; exit 0
fi
;;
5)
if [ "`echo x$VERSION | sed -e 's/\..*//'`" = "x7" ]; then
echo "${MACHINE}-sco-unixware7"; exit 0
fi
;;
esac
fi
fi
# Now we simply scan though... In most cases, the SYSTEM info is enough
#
case "${SYSTEM}:${RELEASE}:${VERSION}:${MACHINE}" in
MPE/iX:*)
MACHINE=`echo "$MACHINE" | sed -e 's/-/_/g'`
echo "parisc-hp-MPE/iX"; exit 0
;;
A/UX:*)
echo "m68k-apple-aux3"; exit 0
;;
AIX:[3456789]:4:*)
echo "${MACHINE}-ibm-aix43"; exit 0
;;
AIX:*:[56789]:*)
echo "${MACHINE}-ibm-aix43"; exit 0
;;
AIX:*)
echo "${MACHINE}-ibm-aix"; exit 0
;;
dgux:*)
echo "${MACHINE}-dg-dgux"; exit 0
;;
HI-UX:*)
echo "${MACHINE}-hi-hiux"; exit 0
;;
HP-UX:*)
HPUXVER=`echo ${RELEASE}|sed -e 's/[^.]*.[0B]*//'`
case "$HPUXVER" in
11.*)
echo "${MACHINE}-hp-hpux11"; exit 0
;;
10.*)
echo "${MACHINE}-hp-hpux10"; exit 0
;;
*)
echo "${MACHINE}-hp-hpux"; exit 0
;;
esac
;;
IRIX:5.*)
echo "mips2-sgi-irix"; exit 0
;;
IRIX:6.*)
echo "mips3-sgi-irix"; exit 0
;;
IRIX64:*)
echo "mips4-sgi-irix64"; exit 0
;;
Linux:[2-9].*)
echo "${MACHINE}-whatever-linux2"; exit 0
;;
Linux:1.*)
echo "${MACHINE}-whatever-linux1"; exit 0
;;
LynxOS:*)
echo "${MACHINE}-lynx-lynxos"; exit 0
;;
BSD/OS:4.*) # BSD/OS always says 386
echo "i486-whatever-bsdi4"; exit 0
;;
BSD/386:*:*:*486*|BSD/OS:*:*:*:*486*)
case `/sbin/sysctl -n hw.model` in
Pentium*)
echo "i586-whatever-bsdi"; exit 0
;;
*)
echo "i386-whatever-bsdi"; exit 0
;;
esac;
;;
BSD/386:*|BSD/OS:*)
echo "${MACHINE}-whatever-bsdi"; exit 0
;;
FreeBSD:*)
VERS=`echo ${RELEASE} | sed -e 's/[-(].*//'`
MACH=`sysctl -n hw.model`
ARCH='whatever'
case ${MACH} in
*386* ) MACH="i386" ;;
*486* ) MACH="i486" ;;
Pentium\ II*) MACH="i686" ;;
Pentium* ) MACH="i586" ;;
Alpha* ) MACH="alpha" ;;
* ) MACH="$MACHINE" ;;
esac
case ${MACH} in
i[0-9]86 ) ARCH="pc" ;;
esac
echo "${MACH}-${ARCH}-freebsd${VERS}"; exit 0
;;
NetBSD:*:*:*386*)
echo "`(/usr/sbin/sysctl -n hw.model || /sbin/sysctl -n hw.model) | sed 's,.*\(.\)86-class.*,i\186,'`-whatever-netbsd"; exit 0
;;
NetBSD:*)
echo "${MACHINE}-whatever-netbsd"; exit 0
;;
OpenBSD:*)
echo "${MACHINE}-whatever-openbsd"; exit 0
;;
OpenUNIX:*)
echo "${MACHINE}-unknown-OpenUNIX${VERSION}"; exit 0
;;
OSF1:*:*:*alpha*)
OSFMAJOR=`echo ${RELEASE}| sed -e 's/^V\([0-9]*\)\..*$/\1/'`
case "$OSFMAJOR" in
4|5)
echo "${MACHINE}-dec-tru64"; exit 0
;;
1|2|3)
echo "${MACHINE}-dec-osf"; exit 0
;;
*)
echo "${MACHINE}-dec-osf"; exit 0
;;
esac
;;
QNX:*)
case "$RELEASE" in
4*)
echo "${MACHINE}-whatever-qnx4"
;;
6*)
echo "${MACHINE}-whatever-qnx6"
;;
*)
echo "${MACHINE}-whatever-qnx"
;;
esac
exit 0
;;
Paragon*:*:*:*)
echo "i860-intel-osf1"; exit 0
;;
Rhapsody:*)
echo "ppc-apple-rhapsody"; exit 0
;;
Darwin:*)
echo "ppc-apple-darwin"; exit 0
;;
SunOS:5.*)
echo "${MACHINE}-whatever-solaris2"; exit 0
;;
SunOS:*)
echo "${MACHINE}-sun-sunos4"; exit 0
;;
UNIX_System_V:4.*:*)
echo "${MACHINE}-whatever-sysv4"; exit 0
;;
*:4*:R4*:m88k)
echo "${MACHINE}-whatever-sysv4"; exit 0
;;
DYNIX/ptx:4*:*)
echo "${MACHINE}-whatever-sysv4"; exit 0
;;
*:4.0:3.0:3[34]?? | *:4.0:3.0:3[34]??,*)
echo "i486-ncr-sysv4"; exit 0
;;
ULTRIX:*)
echo "${MACHINE}-unknown-ultrix"; exit 0
;;
SINIX*|ReliantUNIX*)
echo "${MACHINE}-siemens-sysv4"; exit 0
;;
POSIX-BC*)
echo "${MACHINE}-siemens-sysv4"; exit 0 # Here, $MACHINE == "BS2000"
;;
machten:*)
echo "${MACHINE}-tenon-${SYSTEM}"; exit 0;
;;
library:*)
echo "${MACHINE}-ncr-sysv4"; exit 0
;;
ConvexOS:*:11.0:*)
echo "${MACHINE}-v11-${SYSTEM}"; exit 0;
;;
NEWS-OS:4.*)
echo "mips-sony-newsos4"; exit 0;
;;
CYGWIN*)
case "$RELEASE" in
[bB]*|1.0|1.[12].*)
echo "${MACHINE}-whatever-cygwin_pre1.3"
;;
*)
echo "${MACHINE}-whatever-cygwin"
;;
esac
exit 0
;;
*"CRAY T3E")
echo "t3e-cray-unicosmk"; exit 0;
;;
*CRAY*)
echo "j90-cray-unicos"; exit 0;
;;
esac
#
# Ugg. These are all we can determine by what we know about
# the output of uname. Be more creative:
#
# Do the Apollo stuff first. Here, we just simply assume
# that the existance of the /usr/apollo directory is proof
# enough
if [ -d /usr/apollo ]; then
echo "whatever-apollo-whatever"
exit 0
fi
# Now NeXT
ISNEXT=`hostinfo 2>/dev/null`
case "$ISNEXT" in
*'NeXT Mach 3.3'*)
echo "whatever-next-nextstep3.3"; exit 0
;;
*NeXT*)
echo "whatever-next-nextstep"; exit 0
;;
esac
# At this point we gone through all the one's
# we know of: Punt
echo "${MACHINE}-whatever-${SYSTEM}"
exit 0
) 2>/dev/null | (
# ---------------------------------------------------------------------------
# this is where the translation occurs into SSLeay terms
# ---------------------------------------------------------------------------
PREFIX=""
SUFFIX=""
TEST="false"
# pick up any command line args to config
for i
do
case "$i" in
-d*) PREFIX="debug-";;
-t*) TEST="true";;
-h*) TEST="true"; cat <<EOF
Usage: config [options]
-d Add a debug- prefix to machine choice.
-t Test mode, do not run the Configure perl script.
-h This help.
Any other text will be passed to the Configure perl script.
See INSTALL for instructions.
EOF
;;
*) options=$options" $i" ;;
esac
done
# figure out if gcc is available and if so we use it otherwise
# we fallback to whatever cc does on the system
GCCVER=`(gcc -dumpversion) 2>/dev/null`
if [ "$GCCVER" != "" ]; then
CC=gcc
# then strip off whatever prefix egcs prepends the number with...
# Hopefully, this will work for any future prefixes as well.
GCCVER=`echo $GCCVER | sed 's/^[a-zA-Z]*\-//'`
# Since gcc 3.1 gcc --version behaviour has changed. gcc -dumpversion
# does give us what we want though, so we use that. We just just the
# major and minor version numbers.
# peak single digit before and after first dot, e.g. 2.95.1 gives 29
GCCVER=`echo $GCCVER | sed 's/\([0-9]\)\.\([0-9]\).*/\1\2/'`
else
CC=cc
fi
GCCVER=${GCCVER:-0}
if [ "$SYSTEM" = "HP-UX" ];then
# By default gcc is a ILP32 compiler (with long long == 64).
GCC_BITS="32"
if [ $GCCVER -ge 30 ]; then
# PA64 support only came in with gcc 3.0.x.
# We look for the preprocessor symbol __LP64__ indicating
# 64bit bit long and pointer. sizeof(int) == 32 on HPUX64.
if gcc -v -E -x c /dev/null 2>&1 | grep __LP64__ > /dev/null; then
GCC_BITS="64"
fi
fi
fi
if [ "$SYSTEM" = "SunOS" ]; then
# check for WorkShop C, expected output is "cc: blah-blah C x.x"
CCVER=`(cc -V 2>&1) 2>/dev/null | \
egrep -e '^cc: .* C [0-9]\.[0-9]' | \
sed 's/.* C \([0-9]\)\.\([0-9]\).*/\1\2/'`
CCVER=${CCVER:-0}
if [ $CCVER -gt 40 ]; then
CC=cc # overrides gcc!!!
if [ $CCVER -eq 50 ]; then
echo "WARNING! Detected WorkShop C 5.0. Do make sure you have"
echo " patch #107357-01 or later applied."
sleep 5
fi
elif [ "$CC" = "cc" -a $CCVER -gt 0 ]; then
CC=sc3
fi
fi
if [ "${SYSTEM}-${MACHINE}" = "Linux-alpha" ]; then
# check for Compaq C, expected output is "blah-blah C Vx.x"
CCCVER=`(ccc -V 2>&1) 2>/dev/null | \
egrep -e '.* C V[0-9]\.[0-9]' | \
sed 's/.* C V\([0-9]\)\.\([0-9]\).*/\1\2/'`
CCCVER=${CCCVER:-0}
if [ $CCCVER -gt 60 ]; then
CC=ccc # overrides gcc!!! well, ccc outperforms inoticeably
# only on hash routines and des, otherwise gcc (2.95)
# keeps along rather tight...
fi
fi
GCCVER=${GCCVER:-0}
CCVER=${CCVER:-0}
# read the output of the embedded GuessOS
read GUESSOS
echo Operating system: $GUESSOS
# now map the output into SSLeay terms ... really should hack into the
# script above so we end up with values in vars but that would take
# more time that I want to waste at the moment
case "$GUESSOS" in
mips2-sgi-irix)
CPU=`(hinv -t cpu) 2>/dev/null | sed 's/^CPU:[^R]*R\([0-9]*\).*/\1/'`
CPU=${CPU:-0}
if [ $CPU -ge 4000 ]; then
options="$options -mips2"
fi
OUT="irix-$CC"
;;
mips3-sgi-irix)
CPU=`(hinv -t cpu) 2>/dev/null | sed 's/^CPU:[^R]*R\([0-9]*\).*/\1/'`
CPU=${CPU:-0}
if [ $CPU -ge 5000 ]; then
options="$options -mips4"
else
options="$options -mips3"
fi
OUT="irix-mips3-$CC"
;;
mips4-sgi-irix64)
echo "WARNING! If you wish to build 64-bit library, then you have to"
echo " invoke './Configure irix64-mips4-$CC' *manually*."
echo " Type return if you want to continue, Ctrl-C to abort."
read waste < /dev/tty
CPU=`(hinv -t cpu) 2>/dev/null | sed 's/^CPU:[^R]*R\([0-9]*\).*/\1/'`
CPU=${CPU:-0}
if [ $CPU -ge 5000 ]; then
options="$options -mips4"
else
options="$options -mips3"
fi
OUT="irix-mips3-$CC"
;;
alpha-*-linux2)
ISA=`awk '/cpu model/{print$4}' /proc/cpuinfo`
case ${ISA:-generic} in
*[67]) OUT="linux-alpha+bwx-$CC" ;;
*) OUT="linux-alpha-$CC" ;;
esac
if [ "$CC" = "gcc" ]; then
case ${ISA:-generic} in
EV5|EV45) options="$options -mcpu=ev5";;
EV56|PCA56) options="$options -mcpu=ev56";;
EV6|EV67|PCA57) options="$options -mcpu=ev6";;
esac
fi
;;
mips-*-linux?)
cat >dummy.c <<EOF
#include <stdio.h> /* for printf() prototype */
int main (argc, argv) int argc; char *argv[]; {
#ifdef __MIPSEB__
printf ("linux-%s\n", argv[1]);
#endif
#ifdef __MIPSEL__
printf ("linux-%sel\n", argv[1]);
#endif
return 0;
}
EOF
${CC} -o dummy dummy.c && OUT=`./dummy ${MACHINE}`
rm dummy dummy.c
;;
ppc64-*-linux2)
#Use the standard target for PPC architecture until we create a
#special one for the 64bit architecture.
OUT="linux-ppc" ;;
ppc-*-linux2) OUT="linux-ppc" ;;
m68k-*-linux*) OUT="linux-m68k" ;;
ia64-*-linux?) OUT="linux-ia64" ;;
ppc-apple-rhapsody) OUT="rhapsody-ppc-cc" ;;
ppc-apple-darwin) OUT="darwin-ppc-cc" ;;
sparc64-*-linux2)
#Before we can uncomment following lines we have to wait at least
#till 64-bit glibc for SPARC is operational:-(
#echo "WARNING! If you wish to build 64-bit library, then you have to"
#echo " invoke './Configure linux64-sparcv9' *manually*."
#echo " Type return if you want to continue, Ctrl-C to abort."
#read waste < /dev/tty
OUT="linux-sparcv9" ;;
sparc-*-linux2)
KARCH=`awk '/^type/{print$3}' /proc/cpuinfo`
case ${KARCH:-sun4} in
sun4u*) OUT="linux-sparcv9" ;;
sun4m) OUT="linux-sparcv8" ;;
sun4d) OUT="linux-sparcv8" ;;
*) OUT="linux-sparcv7" ;;
esac ;;
parisc-*-linux2)
CPUARCH=`awk '/cpu family/{print substr($5,1,3)}' /proc/cpuinfo`
CPUSCHEDULE=`awk '/^cpu.[ ]: PA/{print substr($3,3)}' /proc/cpuinfo`
# ??TODO ?? Model transformations
# 0. CPU Architecture for the 1.1 processor has letter suffixes. We strip that off
# assuming no further arch. identification will ever be used by GCC.
# 1. I'm most concerned about whether is a 7300LC is closer to a 7100 versus a 7100LC.
# 2. The variant 64-bit processors cause concern should GCC support explicit schedulers
# for these chips in the future.
# PA7300LC -> 7100LC (1.1)
# PA8200 -> 8000 (2.0)
# PA8500 -> 8000 (2.0)
# PA8600 -> 8000 (2.0)
CPUSCHEDULE=`echo $CPUSCHEDULE|sed -e 's/7300LC/7100LC/' -e 's/8?00/8000/'`
# Finish Model transformations
options="$options -mschedule=$CPUSCHEDULE -march=$CPUARCH"
OUT="linux-parisc" ;;
arm*-*-linux2) OUT="linux-elf-arm" ;;
s390-*-linux2) OUT="linux-s390" ;;
s390x-*-linux?) OUT="linux-s390x" ;;
*-*-linux2) OUT="linux-elf" ;;
*-*-linux1) OUT="linux-aout" ;;
sun4u*-*-solaris2)
ISA64=`(isalist) 2>/dev/null | grep sparcv9`
if [ "$ISA64" != "" -a "$CC" = "cc" -a $CCVER -ge 50 ]; then
echo "WARNING! If you wish to build 64-bit library, then you have to"
echo " invoke './Configure solaris64-sparcv9-cc' *manually*."
echo " Type return if you want to continue, Ctrl-C to abort."
read waste < /dev/tty
fi
OUT="solaris-sparcv9-$CC" ;;
sun4m-*-solaris2) OUT="solaris-sparcv8-$CC" ;;
sun4d-*-solaris2) OUT="solaris-sparcv8-$CC" ;;
sun4*-*-solaris2) OUT="solaris-sparcv7-$CC" ;;
*86*-*-solaris2) OUT="solaris-x86-$CC" ;;
*-*-sunos4) OUT="sunos-$CC" ;;
alpha*-*-freebsd*) OUT="FreeBSD-alpha" ;;
*-freebsd[3-9]*) OUT="FreeBSD-elf" ;;
*-freebsd[1-2]*) OUT="FreeBSD" ;;
*86*-*-netbsd) OUT="NetBSD-x86" ;;
sun3*-*-netbsd) OUT="NetBSD-m68" ;;
*-*-netbsd) OUT="NetBSD-sparc" ;;
*86*-*-openbsd) OUT="OpenBSD-x86" ;;
alpha*-*-openbsd) OUT="OpenBSD-alpha" ;;
pmax*-*-openbsd) OUT="OpenBSD-mips" ;;
*-*-openbsd) OUT="OpenBSD" ;;
*86*-*-bsdi4) OUT="bsdi-elf-gcc" ;;
*-*-osf) OUT="alphaold-cc" ;;
*-*-tru64) OUT="alpha-cc" ;;
*-*-OpenUNIX*)
if [ "$CC" = "gcc" ]; then
OUT="OpenUNIX-8-gcc"
else
OUT="OpenUNIX-8"
fi
;;
*-*-unixware7) OUT="unixware-7" ;;
*-*-UnixWare7) OUT="unixware-7" ;;
*-*-Unixware7) OUT="unixware-7" ;;
*-*-unixware20*) OUT="unixware-2.0" ;;
*-*-unixware21*) OUT="unixware-2.1" ;;
*-*-UnixWare20*) OUT="unixware-2.0" ;;
*-*-UnixWare21*) OUT="unixware-2.1" ;;
*-*-Unixware20*) OUT="unixware-2.0" ;;
*-*-Unixware21*) OUT="unixware-2.1" ;;
BS2000-siemens-sysv4) OUT="BS2000-OSD" ;;
RM*-siemens-sysv4) OUT="ReliantUNIX" ;;
*-siemens-sysv4) OUT="SINIX" ;;
*-hpux1*)
if [ $CC = "gcc" ];
then
if [ $GCC_BITS = "64" ]; then
OUT="hpux64-parisc-gcc"
else
OUT="hpux-parisc-gcc"
fi
else
OUT="hpux-parisc-$CC"
fi
options="$options -D_REENTRANT" ;;
*-hpux) OUT="hpux-parisc-$CC" ;;
# these are all covered by the catchall below
# *-aix) OUT="aix-$CC" ;;
# *-dgux) OUT="dgux" ;;
mips-sony-newsos4) OUT="newsos4-gcc" ;;
*-*-cygwin_pre1.3) OUT="Cygwin-pre1.3" ;;
*-*-cygwin) OUT="Cygwin" ;;
t3e-cray-unicosmk) OUT="cray-t3e" ;;
j90-cray-unicos) OUT="cray-j90" ;;
*) OUT=`echo $GUESSOS | awk -F- '{print $3}'`;;
esac
# See whether we can compile Atalla support
if [ -f /usr/include/atasi.h ]
then
options="$options -DATALLA"
fi
# gcc < 2.8 does not support -mcpu=ultrasparc
if [ "$OUT" = solaris-sparcv9-gcc -a $GCCVER -lt 28 ]
then
echo "WARNING! Do consider upgrading to gcc-2.8 or later."
sleep 5
OUT=solaris-sparcv9-gcc27
fi
if [ "$OUT" = "linux-sparcv9" -a $GCCVER -lt 28 ]
then
echo "WARNING! Falling down to 'linux-sparcv8'."
echo " Upgrade to gcc-2.8 or later."
sleep 5
OUT=linux-sparcv8
fi
case "$GUESSOS" in
i386-*) options="$options 386" ;;
esac
for i in bf cast des dh dsa hmac idea md2 md5 mdc2 rc2 rc4 rc5 ripemd rsa sha
do
if [ ! -d crypto/$i ]
then
options="$options no-$i"
fi
done
if [ -z "$OUT" ]; then
OUT="$CC"
fi
if [ ".$PERL" = . ] ; then
for i in . `echo $PATH | sed 's/:/ /g'`; do
if [ -f "$i/perl5" ] ; then
PERL="$i/perl5"
break;
fi;
done
fi
if [ ".$PERL" = . ] ; then
for i in . `echo $PATH | sed 's/:/ /g'`; do
if [ -f "$i/perl" ] ; then
if "$i/perl" -e 'exit($]<5.0)'; then
PERL="$i/perl"
break;
fi;
fi;
done
fi
if [ ".$PERL" = . ] ; then
echo "You need Perl 5."
exit 1
fi
# run Configure to check to see if we need to specify the
# compiler for the platform ... in which case we add it on
# the end ... otherwise we leave it off
$PERL ./Configure LIST | grep "$OUT-$CC" > /dev/null
if [ $? = "0" ]; then
OUT="$OUT-$CC"
fi
OUT="$PREFIX$OUT"
$PERL ./Configure LIST | grep "$OUT" > /dev/null
if [ $? = "0" ]; then
echo Configuring for $OUT
if [ "$TEST" = "true" ]; then
echo $PERL ./Configure $OUT $options
else
$PERL ./Configure $OUT $options
fi
else
echo "This system ($OUT) is not supported. See file INSTALL for details."
fi
)