openssl/config

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2023-05-09 22:08:48 +00:00
#!/bin/sh
# Copyright 1998-2022 The OpenSSL Project Authors. All Rights Reserved.
#
# Licensed under the OpenSSL license (the "License"). You may not use
# this file except in compliance with the License. You can obtain a copy
# in the file LICENSE in the source distribution or at
# https://www.openssl.org/source/license.html
# OpenSSL config: determine the operating system and run ./Configure
# Derived from minarch and GuessOS from Apache.
#
# Do "config -h" for usage information.
SUFFIX=""
DRYRUN="false"
VERBOSE="false"
EXE=""
THERE=`dirname $0`
# pick up any command line args to config
for i
do
case "$i" in
-d*) options=$options" --debug";;
-t*) DRYRUN="true" VERBOSE="true";;
-v*) VERBOSE="true";;
-h*) DRYRUN="true"; cat <<EOF
Usage: config [options]
-d Build with debugging when possible.
-t Test mode, do not run the Configure perl script.
-v Verbose mode, show the exact Configure call that is being made.
-h This help.
Any other text will be passed to the Configure perl script.
See INSTALL for instructions.
EOF
;;
*) i=`echo "$i" | sed -e "s|'|'\\\\\\''|g"`
options="$options '$i'" ;;
esac
done
# Environment that's being passed to Configure
__CNF_CPPDEFINES=
__CNF_CPPINCLUDES=
__CNF_CPPFLAGS=
__CNF_CFLAGS=
__CNF_CXXFLAGS=
__CNF_LDFLAGS=
__CNF_LDLIBS=
# First get uname entries that we use below
[ "$MACHINE" ] || MACHINE=`(uname -m) 2>/dev/null` || MACHINE="unknown"
[ "$RELEASE" ] || RELEASE=`(uname -r) 2>/dev/null` || RELEASE="unknown"
[ "$SYSTEM" ] || SYSTEM=`(uname -s) 2>/dev/null` || SYSTEM="unknown"
[ "$BUILD" ] || 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 "$XREL" in
3.2v4.2)
echo "whatever-whatever-sco3"; exit 0
;;
3.2v5.0*)
echo "whatever-whatever-sco5"; exit 0
;;
4.2MP)
case "x${VERSION}" in
x2.0*) echo "whatever-whatever-unixware20"; exit 0 ;;
x2.1*) echo "whatever-whatever-unixware21"; exit 0 ;;
x2*) echo "whatever-whatever-unixware2"; exit 0 ;;
esac
;;
4.2)
echo "whatever-whatever-unixware1"; exit 0
;;
5*)
case "x${VERSION}" in
# We hardcode i586 in place of ${MACHINE} for the
# following reason. The catch is that even though Pentium
# is minimum requirement for platforms in question,
# ${MACHINE} gets always assigned to i386. Now, problem
# with i386 is that it makes ./config pass 386 to
# ./Configure, which in turn makes make generate
# inefficient SHA-1 (for this moment) code.
x[678]*) echo "i586-sco-unixware7"; exit 0 ;;
esac
;;
esac
fi
fi
# Now we simply scan though... In most cases, the SYSTEM info is enough
#
case "${SYSTEM}:${RELEASE}:${VERSION}:${MACHINE}" in
A/UX:*)
echo "m68k-apple-aux3"; exit 0
;;
AIX:[3-9]:4:*)
echo "${MACHINE}-ibm-aix"; exit 0
;;
AIX:*:[5-9]:*)
echo "${MACHINE}-ibm-aix"; exit 0
;;
AIX:*)
echo "${MACHINE}-ibm-aix3"; exit 0
;;
HI-UX:*)
echo "${MACHINE}-hi-hiux"; exit 0
;;
HP-UX:*)
HPUXVER=`echo ${RELEASE}|sed -e 's/[^.]*.[0B]*//'`
case "$HPUXVER" in
1[0-9].*) # HPUX 10 and 11 targets are unified
echo "${MACHINE}-hp-hpux1x"; exit 0
;;
*)
echo "${MACHINE}-hp-hpux"; exit 0
;;
esac
;;
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
;;
GNU*)
echo "hurd-x86"; 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:*:*:*386*)
VERS=`echo ${RELEASE} | sed -e 's/[-(].*//'`
MACH=`sysctl -n hw.model`
ARCH='whatever'
case ${MACH} in
*386* ) MACH="i386" ;;
*486* ) MACH="i486" ;;
Pentium\ II*) MACH="i686" ;;
Pentium* ) MACH="i586" ;;
* ) MACH="$MACHINE" ;;
esac
case ${MACH} in
i[0-9]86 ) ARCH="pc" ;;
esac
echo "${MACH}-${ARCH}-freebsd${VERS}"; exit 0
;;
DragonFly:*)
echo "${MACHINE}-whatever-dragonfly"; exit 0
;;
FreeBSD:*)
echo "${MACHINE}-whatever-freebsd"; exit 0
;;
Haiku:*)
echo "${MACHINE}-whatever-haiku"; 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 "${MACHINE}-dec-osf"; exit 0
;;
esac
;;
Paragon*:*:*:*)
echo "i860-intel-osf1"; exit 0
;;
Rhapsody:*)
echo "ppc-apple-rhapsody"; exit 0
;;
Darwin:*)
case "$MACHINE" in
Power*)
echo "ppc-apple-darwin${VERSION}"
;;
*)
echo "${MACHINE}-apple-darwin${VERSION}"
;;
esac
exit 0
;;
SunOS:5.*)
echo "${MACHINE}-whatever-solaris2"; exit 0
;;
SunOS:*)
echo "${MACHINE}-sun-sunos4"; exit 0
;;
UNIX_System_V:4.*:*)
echo "${MACHINE}-whatever-sysv4"; exit 0
;;
VOS:*:*:i786)
echo "i386-stratus-vos"; exit 0
;;
VOS:*:*:*)
echo "hppa1.1-stratus-vos"; 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 "${MACHINE}-unknown-ultrix"; exit 0
;;
POSIX-BC*)
echo "${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;
;;
# The following combinations are supported
# MINGW64* on x86_64 => mingw64
# MINGW32* on x86_64 => mingw
# MINGW32* on i?86 => mingw
#
# MINGW64* on i?86 isn't expected to work...
MINGW64*:*:*:x86_64)
echo "${MACHINE}-whatever-mingw64"; exit 0;
;;
MINGW*)
echo "${MACHINE}-whatever-mingw"; exit 0;
;;
CYGWIN*)
echo "${MACHINE}-pc-cygwin"; exit 0
;;
vxworks*)
echo "${MACHINE}-whatever-vxworks"; 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 existence 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-${SYSTEM}"
exit 0
) 2>/dev/null | (
# ---------------------------------------------------------------------------
# this is where the translation occurs into SSLeay terms
# ---------------------------------------------------------------------------
# Only set CC if not supplied already
if [ -z "$CROSS_COMPILE$CC" ]; then
GCCVER=`sh -c "gcc -dumpversion" 2>/dev/null`
if [ "$GCCVER" != "" ]; then
# then strip off whatever prefix egcs prepends the number with...
# Hopefully, this will work for any future prefixes as well.
GCCVER=`echo $GCCVER | LC_ALL=C 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/'`
CC=gcc
else
CC=cc
fi
fi
GCCVER=${GCCVER:-0}
if [ "$SYSTEM" = "HP-UX" ];then
# By default gcc is a ILP32 compiler (with long long == 64).
GCC_BITS="32"
if [ $GCCVER -ge 30 ]; then
# PA64 support only came in with gcc 3.0.x.
# We check if the preprocessor symbol __LP64__ is defined...
if echo "__LP64__" | gcc -v -E -x c - 2>/dev/null | grep "^__LP64__" 2>&1 > /dev/null; then
: # __LP64__ has slipped through, it therefore is not defined
else
GCC_BITS="64"
fi
fi
fi
if [ "$SYSTEM" = "SunOS" ]; then
if [ $GCCVER -ge 30 ]; then
# 64-bit ABI isn't officially supported in gcc 3.0, but it appears
# to be working, at the very least 'make test' passes...
if gcc -v -E -x c /dev/null 2>&1 | grep __arch64__ > /dev/null; then
GCC_ARCH="-m64"
else
GCC_ARCH="-m32"
fi
fi
# 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 [ $MACHINE != i86pc -a $CCVER -gt 40 ]; then
CC=cc # overrides gcc!!!
if [ $CCVER -eq 50 ]; then
echo "WARNING! Detected WorkShop C 5.0. Do make sure you have"
echo " patch #107357-01 or later applied."
sleep 5
fi
fi
fi
if [ "${SYSTEM}" = "AIX" ]; then # favor vendor cc over gcc
(cc) 2>&1 | grep -iv "not found" > /dev/null && CC=cc
fi
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
uClinux*64*)
OUT=uClinux-dist64
;;
uClinux*)
OUT=uClinux-dist
;;
mips3-sgi-irix)
OUT="irix-mips3-$CC"
;;
mips4-sgi-irix64)
echo "WARNING! If you wish to build 64-bit library, then you have to"
echo " invoke '$THERE/Configure irix64-mips4-$CC' *manually*."
if [ "$DRYRUN" = "false" -a -t 1 ]; then
echo " You have about 5 seconds to press Ctrl-C to abort."
(trap "stty `stty -g`; exit 0" 2 0; stty -icanon min 0 time 50; read waste) <&1
fi
OUT="irix-mips3-$CC"
;;
ppc-apple-rhapsody) OUT="rhapsody-ppc-cc" ;;
ppc-apple-darwin*)
ISA64=`(sysctl -n hw.optional.64bitops) 2>/dev/null`
if [ "$ISA64" = "1" -a -z "$KERNEL_BITS" ]; then
echo "WARNING! If you wish to build 64-bit library, then you have to"
echo " invoke '$THERE/Configure darwin64-ppc-cc' *manually*."
if [ "$DRYRUN" = "false" -a -t 1 ]; then
echo " You have about 5 seconds to press Ctrl-C to abort."
(trap "stty `stty -g`; exit 0" 2 0; stty -icanon min 0 time 50; read waste) <&1
fi
fi
if [ "$ISA64" = "1" -a "$KERNEL_BITS" = "64" ]; then
OUT="darwin64-ppc-cc"
else
OUT="darwin-ppc-cc"
fi ;;
i?86-apple-darwin*)
ISA64=`(sysctl -n hw.optional.x86_64) 2>/dev/null`
if [ "$ISA64" = "1" -a -z "$KERNEL_BITS" ]; then
echo "WARNING! If you wish to build 64-bit library, then you have to"
echo " invoke 'KERNEL_BITS=64 $THERE/config $options'."
if [ "$DRYRUN" = "false" -a -t 1 ]; then
echo " You have about 5 seconds to press Ctrl-C to abort."
(trap "stty `stty -g`; exit 1" 2; stty -icanon min 0 time 50; read waste; exit 0) <&1 || exit
fi
fi
if [ "$ISA64" = "1" -a "$KERNEL_BITS" = "64" ]; then
OUT="darwin64-x86_64-cc"
else
OUT="darwin-i386-cc"
fi ;;
x86_64-apple-darwin*)
if [ "$KERNEL_BITS" = "32" ]; then
OUT="darwin-i386-cc"
else
OUT="darwin64-x86_64-cc"
fi ;;
$MACHINE-apple-darwin*)
OUT="darwin64-$MACHINE-cc"
;;
armv6+7-*-iphoneos)
__CNF_CFLAGS="$__CNF_CFLAGS -arch armv6 -arch armv7"
__CNF_CXXFLAGS="$__CNF_CXXFLAGS -arch armv6 -arch armv7"
OUT="iphoneos-cross" ;;
*-*-iphoneos)
__CNF_CFLAGS="$__CNF_CFLAGS -arch ${MACHINE}"
__CNF_CXXFLAGS="$__CNF_CXXFLAGS -arch ${MACHINE}"
OUT="iphoneos-cross" ;;
arm64-*-iphoneos|*-*-ios64)
OUT="ios64-cross" ;;
alpha-*-linux2)
ISA=`awk '/cpu model/{print$4;exit(0);}' /proc/cpuinfo`
OUT="linux-alpha-$CC"
if [ "$CC" = "gcc" ]; then
case ${ISA:-generic} in
EV5|EV45) __CNF_CFLAGS="$__CNF_CFLAGS -mcpu=ev5"
__CNF_CXXFLAGS="$__CNF_CFLAGS -mcpu=ev5";;
EV56|PCA56) __CNF_CFLAGS="$__CNF_CFLAGS -mcpu=ev56"
__CNF_CXXFLAGS="$__CNF_CXXFLAGS -mcpu=ev56";;
*) __CNF_CFLAGS="$__CNF_CFLAGS -mcpu=ev6"
__CNF_CXXFLAGS="$__CNF_CXXFLAGS -mcpu=ev6";;
esac
fi
;;
ppc64-*-linux2)
if [ -z "$KERNEL_BITS" ]; then
echo "WARNING! If you wish to build 64-bit library, then you have to"
echo " invoke '$THERE/Configure linux-ppc64' *manually*."
if [ "$DRYRUN" = "false" -a -t 1 ]; then
echo " You have about 5 seconds to press Ctrl-C to abort."
(trap "stty `stty -g`; exit 0" 2 0; stty -icanon min 0 time 50; read waste) <&1
fi
fi
if [ "$KERNEL_BITS" = "64" ]; then
OUT="linux-ppc64"
else
OUT="linux-ppc"
if (echo "__LP64__" | gcc -E -x c - 2>/dev/null | grep "^__LP64__" 2>&1 > /dev/null); then
:;
else
__CNF_CFLAGS="$__CNF_CFLAGS -m32"
__CNF_CXXFLAGS="$__CNF_CXXFLAGS -m32"
fi
fi
;;
ppc64le-*-linux2) OUT="linux-ppc64le" ;;
ppc-*-linux2) OUT="linux-ppc" ;;
mips64*-*-linux2)
echo "WARNING! If you wish to build 64-bit library, then you have to"
echo " invoke '$THERE/Configure linux64-mips64' *manually*."
if [ "$DRYRUN" = "false" -a -t 1 ]; then
echo " You have about 5 seconds to press Ctrl-C to abort."
(trap "stty `stty -g`; exit 0" 2 0; stty -icanon min 0 time 50; read waste) <&1
fi
OUT="linux-mips64"
;;
mips*-*-linux2) OUT="linux-mips32" ;;
ppc60x-*-vxworks*) OUT="vxworks-ppc60x" ;;
ppcgen-*-vxworks*) OUT="vxworks-ppcgen" ;;
pentium-*-vxworks*) OUT="vxworks-pentium" ;;
simlinux-*-vxworks*) OUT="vxworks-simlinux" ;;
mips-*-vxworks*) OUT="vxworks-mips";;
ia64-*-linux?) OUT="linux-ia64" ;;
sparc64-*-linux2)
echo "WARNING! If you *know* that your GNU C supports 64-bit/V9 ABI"
echo " and wish to build 64-bit library, then you have to"
echo " invoke '$THERE/Configure linux64-sparcv9' *manually*."
if [ "$DRYRUN" = "false" -a -t 1 ]; then
echo " You have about 5 seconds to press Ctrl-C to abort."
(trap "stty `stty -g`; exit 0" 2 0; stty -icanon min 0 time 50; read waste) <&1
fi
OUT="linux-sparcv9" ;;
sparc-*-linux2)
KARCH=`awk '/^type/{print$3;exit(0);}' /proc/cpuinfo`
case ${KARCH:-sun4} in
sun4u*) OUT="linux-sparcv9" ;;
sun4m) OUT="linux-sparcv8" ;;
sun4d) OUT="linux-sparcv8" ;;
*) OUT="linux-generic32";
__CNF_CPPFLAGS="$__CNF_CPPFLAGS -DB_ENDIAN" ;;
esac ;;
parisc*-*-linux2)
# 64-bit builds under parisc64 linux are not supported and
# compiler is expected to generate 32-bit objects...
CPUARCH=`awk '/cpu family/{print substr($5,1,3); exit(0);}' /proc/cpuinfo`
CPUSCHEDULE=`awk '/^cpu.[ ]*: PA/{print substr($3,3); exit(0);}' /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 $CPUSCHEDULE|sed -e 's/7300LC/7100LC/' -e 's/8.00/8000/'`
# Finish Model transformations
__CNF_CPPFLAGS="$__CNF_CPPFLAGS -DB_ENDIAN"
__CNF_CFLAGS="$__CNF_CFLAGS -mschedule=$CPUSCHEDULE -march=$CPUARCH"
__CNF_CXXFLAGS="$__CNF_CXXFLAGS -mschedule=$CPUSCHEDULE -march=$CPUARCH"
OUT="linux-generic32" ;;
armv[1-3]*-*-linux2) OUT="linux-generic32" ;;
armv[7-9]*-*-linux2) OUT="linux-armv4"
__CNF_CFLAGS="$__CNF_CFLAGS -march=armv7-a"
__CNF_CXXFLAGS="$__CNF_CXXFLAGS -march=armv7-a"
;;
arm*-*-linux2) OUT="linux-armv4" ;;
aarch64-*-linux2) OUT="linux-aarch64" ;;
sh*b-*-linux2) OUT="linux-generic32";
__CNF_CPPFLAGS="$__CNF_CPPFLAGS -DB_ENDIAN" ;;
sh*-*-linux2) OUT="linux-generic32";
__CNF_CPPFLAGS="$__CNF_CPPFLAGS -DL_ENDIAN" ;;
m68k*-*-linux2) OUT="linux-generic32";
__CNF_CPPFLAGS="$__CNF_CPPFLAGS -DB_ENDIAN" ;;
s390-*-linux2) OUT="linux-generic32";
__CNF_CPPFLAGS="$__CNF_CPPFLAGS -DB_ENDIAN" ;;
s390x-*-linux2)
# To be uncommented when glibc bug is fixed, see Configure...
#if egrep -e '^features.* highgprs' /proc/cpuinfo >/dev/null ; then
# echo "WARNING! If you wish to build \"highgprs\" 32-bit library, then you"
# echo " have to invoke './Configure linux32-s390x' *manually*."
# if [ "$DRYRUN" = "false" -a -t -1 ]; then
# echo " You have about 5 seconds to press Ctrl-C to abort."
# (trap "stty `stty -g`; exit 0" 2 0; stty -icanon min 0 time 50; read waste) <&1
# fi
#fi
OUT="linux64-s390x"
;;
x86_64-*-linux?)
if $CC -dM -E -x c /dev/null 2>&1 | grep -q ILP32 > /dev/null; then
OUT="linux-x32"
else
OUT="linux-x86_64"
fi ;;
*86-*-linux2)
# On machines where the compiler understands -m32, prefer a
# config target that uses it
if $CC -m32 -E -x c /dev/null > /dev/null 2>&1; then
OUT="linux-x86"
else
OUT="linux-elf"
fi ;;
*86-*-linux1) OUT="linux-aout" ;;
*-*-linux?) OUT="linux-generic32" ;;
sun4[uv]*-*-solaris2)
OUT="solaris-sparcv9-$CC"
ISA64=`(isainfo) 2>/dev/null | grep sparcv9`
if [ "$ISA64" != "" -a "$KERNEL_BITS" = "" ]; then
if [ "$CC" = "cc" -a $CCVER -ge 50 ]; then
echo "WARNING! If you wish to build 64-bit library, then you have to"
echo " invoke '$THERE/Configure solaris64-sparcv9-cc' *manually*."
if [ "$DRYRUN" = "false" -a -t 1 ]; then
echo " You have about 5 seconds to press Ctrl-C to abort."
(trap "stty `stty -g`; exit 0" 2 0; stty -icanon min 0 time 50; read waste) <&1
fi
elif [ "$CC" = "gcc" -a "$GCC_ARCH" = "-m64" ]; then
# $GCC_ARCH denotes default ABI chosen by compiler driver
# (first one found on the $PATH). I assume that user
# expects certain consistency with the rest of his builds
# and therefore switch over to 64-bit. <appro>
OUT="solaris64-sparcv9-gcc"
echo "WARNING! If you wish to build 32-bit library, then you have to"
echo " invoke '$THERE/Configure solaris-sparcv9-gcc' *manually*."
if [ "$DRYRUN" = "false" -a -t 1 ]; then
echo " You have about 5 seconds to press Ctrl-C to abort."
(trap "stty `stty -g`; exit 0" 2 0; stty -icanon min 0 time 50; read waste) <&1
fi
elif [ "$GCC_ARCH" = "-m32" ]; then
echo "NOTICE! If you *know* that your GNU C supports 64-bit/V9 ABI"
echo " and wish to build 64-bit library, then you have to"
echo " invoke '$THERE/Configure solaris64-sparcv9-gcc' *manually*."
if [ "$DRYRUN" = "false" -a -t 1 ]; then
echo " You have about 5 seconds to press Ctrl-C to abort."
(trap "stty `stty -g`; exit 0" 2 0; stty -icanon min 0 time 50; read waste) <&1
fi
fi
fi
if [ "$ISA64" != "" -a "$KERNEL_BITS" = "64" ]; then
OUT="solaris64-sparcv9-$CC"
fi
;;
sun4m-*-solaris2) OUT="solaris-sparcv8-$CC" ;;
sun4d-*-solaris2) OUT="solaris-sparcv8-$CC" ;;
sun4*-*-solaris2) OUT="solaris-sparcv7-$CC" ;;
*86*-*-solaris2)
ISA64=`(isainfo) 2>/dev/null | grep amd64`
if [ "$ISA64" != "" -a ${KERNEL_BITS:-64} -eq 64 ]; then
OUT="solaris64-x86_64-$CC"
else
OUT="solaris-x86-$CC"
if [ `uname -r | sed -e 's/5\.//'` -lt 10 ]; then
options="$options no-sse2"
fi
fi
;;
*-*-sunos4) OUT="sunos-$CC" ;;
*86*-*-bsdi4) OUT="BSD-x86-elf"; options="$options no-sse2";
__CNF_LDFLAGS="$__CNF_LDFLAGS -ldl" ;;
alpha*-*-*bsd*) OUT="BSD-generic64";
__CNF_CPPFLAGS="$__CNF_CPPFLAGS -DL_ENDIAN" ;;
powerpc64-*-*bsd*) OUT="BSD-generic64";
__CNF_CPPFLAGS="$__CNF_CPPFLAGS -DB_ENDIAN" ;;
riscv64-*-*bsd*) OUT="BSD-riscv64" ;;
sparc64-*-*bsd*) OUT="BSD-sparc64" ;;
ia64-*-*bsd*) OUT="BSD-ia64" ;;
x86_64-*-dragonfly*) OUT="BSD-x86_64" ;;
amd64-*-*bsd*) OUT="BSD-x86_64" ;;
arm64-*-*bsd*) OUT="BSD-aarch64" ;;
*86*-*-*bsd*) # mimic ld behaviour when it's looking for libc...
if [ -L /usr/lib/libc.so ]; then # [Free|Net]BSD
libc=/usr/lib/libc.so
else # OpenBSD
# ld searches for highest libc.so.* and so do we
libc=`(ls /usr/lib/libc.so.* /lib/libc.so.* | tail -1) 2>/dev/null`
fi
case "`(file -L $libc) 2>/dev/null`" in
*ELF*) OUT="BSD-x86-elf" ;;
*) OUT="BSD-x86"; options="$options no-sse2" ;;
esac ;;
*-*-*bsd*) OUT="BSD-generic32" ;;
x86_64-*-haiku) OUT="haiku-x86_64" ;;
*-*-haiku) OUT="haiku-x86" ;;
*-*-osf) OUT="osf1-alpha-cc" ;;
*-*-tru64) OUT="tru64-alpha-cc" ;;
*-*-[Uu]nix[Ww]are7)
if [ "$CC" = "gcc" ]; then
OUT="unixware-7-gcc" ; options="$options no-sse2"
else
OUT="unixware-7" ; options="$options no-sse2"
__CNF_CPPFLAGS="$__CNF_CPPFLAGS -D__i386__"
fi
;;
*-*-[Uu]nix[Ww]are20*) OUT="unixware-2.0"; options="$options no-sse2 no-sha512" ;;
*-*-[Uu]nix[Ww]are21*) OUT="unixware-2.1"; options="$options no-sse2 no-sha512" ;;
*-*-vos)
options="$options no-threads no-shared no-asm no-dso"
EXE=".pm"
OUT="vos-$CC" ;;
BS2000-siemens-sysv4) OUT="BS2000-OSD" ;;
*-hpux1*)
if [ $CC = "gcc" -a $GCC_BITS = "64" ]; then
OUT="hpux64-parisc2-gcc"
fi
[ "$KERNEL_BITS" ] || KERNEL_BITS=`(getconf KERNEL_BITS) 2>/dev/null`
KERNEL_BITS=${KERNEL_BITS:-32}
CPU_VERSION=`(getconf CPU_VERSION) 2>/dev/null`
CPU_VERSION=${CPU_VERSION:-0}
# See <sys/unistd.h> for further info on CPU_VERSION.
if [ $CPU_VERSION -ge 768 ]; then # IA-64 CPU
if [ $KERNEL_BITS -eq 64 -a "$CC" = "cc" ]; then
OUT="hpux64-ia64-cc"
else
OUT="hpux-ia64-cc"
fi
elif [ $CPU_VERSION -ge 532 ]; then # PA-RISC 2.x CPU
# PA-RISC 2.0 is no longer supported as separate 32-bit
# target. This is compensated for by run-time detection
# in most critical assembly modules and taking advantage
# of 2.0 architecture in PA-RISC 1.1 build.
OUT=${OUT:-"hpux-parisc1_1-${CC}"}
if [ $KERNEL_BITS -eq 64 -a "$CC" = "cc" ]; then
echo "WARNING! If you wish to build 64-bit library then you have to"
echo " invoke '$THERE/Configure hpux64-parisc2-cc' *manually*."
if [ "$DRYRUN" = "false" -a -t 1 ]; then
echo " You have about 5 seconds to press Ctrl-C to abort."
(trap "stty `stty -g`; exit 0" 2 0; stty -icanon min 0 time 50; read waste) <&1
fi
fi
elif [ $CPU_VERSION -ge 528 ]; then # PA-RISC 1.1+ CPU
OUT="hpux-parisc1_1-${CC}"
elif [ $CPU_VERSION -ge 523 ]; then # PA-RISC 1.0 CPU
OUT="hpux-parisc-${CC}"
else # Motorola(?) CPU
OUT="hpux-$CC"
fi
__CNF_CPPFLAGS="$__CNF_CPPFLAGS -D_REENTRANT" ;;
*-hpux) OUT="hpux-parisc-$CC" ;;
*-aix)
[ "$KERNEL_BITS" ] || KERNEL_BITS=`(getconf KERNEL_BITMODE) 2>/dev/null`
KERNEL_BITS=${KERNEL_BITS:-32}
OBJECT_MODE=${OBJECT_MODE:-32}
if [ "$CC" = "gcc" ]; then
OUT="aix-gcc"
if [ $OBJECT_MODE -eq 64 ]; then
echo 'Your $OBJECT_MODE was found to be set to 64'
OUT="aix64-gcc"
fi
elif [ $OBJECT_MODE -eq 64 ]; then
echo 'Your $OBJECT_MODE was found to be set to 64'
OUT="aix64-cc"
else
OUT="aix-cc"
if [ $KERNEL_BITS -eq 64 ]; then
echo "WARNING! If you wish to build 64-bit kit, then you have to"
echo " invoke '$THERE/Configure aix64-cc' *manually*."
if [ "$DRYRUN" = "false" -a -t 1 ]; then
echo " You have ~5 seconds to press Ctrl-C to abort."
(trap "stty `stty -g`; exit 0" 2 0; stty -icanon min 0 time 50; read waste) <&1
fi
fi
fi
if (lsattr -E -O -l `lsdev -c processor|awk '{print$1;exit}'` | grep -i powerpc) >/dev/null 2>&1; then
: # this applies even to Power3 and later, as they return PowerPC_POWER[345]
else
options="$options no-asm"
fi
;;
# these are all covered by the catchall below
i[3456]86-*-cygwin) OUT="Cygwin-x86" ;;
*-*-cygwin) OUT="Cygwin-${MACHINE}" ;;
x86-*-android|i?86-*-android) OUT="android-x86" ;;
armv[7-9]*-*-android)
OUT="android-armeabi"
__CNF_CFLAGS="$__CNF_CFLAGS -march=armv7-a"
__CNF_CXXFLAGS="$__CNF_CXXFLAGS -march=armv7-a";;
arm*-*-android) OUT="android-armeabi" ;;
*) OUT=`echo $GUESSOS | awk -F- '{print $3}'`;;
esac
# NB: This atalla support has been superseded by the ENGINE support
# That contains its own header and definitions anyway. Support can
# be enabled or disabled on any supported platform without external
# headers, eg. by adding the "hw-atalla" switch to ./config or
# perl Configure
#
# See whether we can compile Atalla support
#if [ -f /usr/include/atasi.h ]
#then
# __CNF_CPPFLAGS="$__CNF_CPPFLAGS -DATALLA"
#fi
if [ -n "$CONFIG_OPTIONS" ]; then
options="$options $CONFIG_OPTIONS"
fi
# gcc < 2.8 does not support -march=ultrasparc
if [ "$OUT" = solaris-sparcv9-gcc -a $GCCVER -lt 28 ]
then
echo "WARNING! Falling down to 'solaris-sparcv8-gcc'."
echo " Upgrade to gcc-2.8 or later."
sleep 5
OUT=solaris-sparcv8-gcc
fi
if [ "$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 aes aria bf camellia cast des dh dsa ec hmac idea md2 md5 mdc2 rc2 rc4 rc5 ripemd rsa seed sha sm2 sm3 sm4
do
if [ ! -d $THERE/crypto/$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$EXE" ] ; then
PERL="$i/perl5$EXE"
break;
fi;
done
fi
if [ ".$PERL" = . ] ; then
for i in . `echo $PATH | sed 's/:/ /g'`; do
if [ -f "$i/perl$EXE" ] ; then
if "$i/perl$EXE" -e 'exit($]<5.0)'; then
PERL="$i/perl$EXE"
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 $THERE/Configure LIST | grep "$OUT-$CC" > /dev/null
if [ $? = "0" ]; then
OUT="$OUT-$CC"
fi
OUT="$OUT"
if [ "$OUT" = "darwin64-x86_64-cc" ]; then
echo "WARNING! If you wish to build 32-bit libraries, then you have to"
echo " invoke 'KERNEL_BITS=32 $THERE/config $options'."
fi
if $PERL $THERE/Configure LIST | grep "$OUT" > /dev/null; then
if [ "$VERBOSE" = "true" ]; then
echo /usr/bin/env \
__CNF_CPPDEFINES="'$__CNF_CPPDEFINES'" \
__CNF_CPPINCLUDES="'$__CNF_CPPINCLUDES'" \
__CNF_CPPFLAGS="'$__CNF_CPPFLAGS'" \
__CNF_CFLAGS="'$__CNF_CFLAGS'" \
__CNF_CXXFLAGS="'$__CNF_CXXFLAGS'" \
__CNF_LDFLAGS="'$__CNF_LDFLAGS'" \
__CNF_LDLIBS="'$__CNF_LDLIBS'" \
$PERL $THERE/Configure $OUT $options
fi
if [ "$DRYRUN" = "false" ]; then
# eval to make sure quoted options, possibly with spaces inside,
# are treated right
eval /usr/bin/env \
__CNF_CPPDEFINES="'$__CNF_CPPDEFINES'" \
__CNF_CPPINCLUDES="'$__CNF_CPPINCLUDES'" \
__CNF_CPPFLAGS="'$__CNF_CPPFLAGS'" \
__CNF_CFLAGS="'$__CNF_CFLAGS'" \
__CNF_CXXFLAGS="'$__CNF_CXXFLAGS'" \
__CNF_LDFLAGS="'$__CNF_LDFLAGS'" \
__CNF_LDLIBS="'$__CNF_LDLIBS'" \
$PERL $THERE/Configure $OUT $options
fi
else
echo "This system ($OUT) is not supported. See file INSTALL for details."
exit 1
fi
# Do not add anothing from here on, so we don't lose the Configure exit code
)