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#!/bin/sh
set -e
# The make-config.sh script uses information about the target machine
# to set things up for compilation. It's vaguely like a stripped-down
# version of autoconf. It's intended to be run as part of make.sh. The
# only time you'd want to run it by itself is if you're trying to
# cross-compile the system or if you're doing some kind of
# troubleshooting.
# This software is part of the SBCL system. See the README file for
# more information.
#
# This software is derived from the CMU CL system, which was
# written at Carnegie Mellon University and released into the
# public domain. The software is in the public domain and is
# provided with absolutely no warranty. See the COPYING and CREDITS
# files for more information.
case `uname` in
Linux)
sbcl_os="linux"
;;
OSF1)
# it's changed name twice since it was called OSF/1: clearly
# the marketers forgot to tell the engineers about Digital Unix
# _or_ OSF/1 ...
sbcl_os="osf1"
;;
*BSD)
case `uname` in
FreeBSD)
sbcl_os="freebsd"
;;
OpenBSD)
sbcl_os="openbsd"
;;
NetBSD)
sbcl_os="netbsd"
;;
*)
echo unsupported BSD variant: `uname`
exit 1
;;
esac
;;
Darwin)
sbcl_os="darwin"
;;
SunOS)
sbcl_os="sunos"
;;
CYGWIN* | WindowsNT | MINGW*)
sbcl_os="win32"
;;
HP-UX)
sbcl_os="hpux"
;;
*)
echo unsupported OS type: `uname`
exit 1
;;
esac
link_or_copy() {
if [ "$sbcl_os" = "win32" ] ; then
cp -r "$1" "$2"
else
ln -s "$1" "$2"
fi
}
remove_dir_safely() {
if [ "$sbcl_os" = "win32" ] ; then
if [ -d "$1" ] ; then
rm -rf "$1"
elif [ -e "$1" ] ; then
echo "I'm afraid to remove non-directory $1."
exit 1
fi
else
if [ -h "$1" ] ; then
rm "$1"
elif [ -w "$1" ] ; then
echo "I'm afraid to replace non-symlink $1 with a symlink."
exit 1
fi
fi
}
echo //entering make-config.sh
echo //ensuring the existence of output/ directory
if [ ! -d output ] ; then mkdir output; fi
ltf=`pwd`/local-target-features.lisp-expr
echo //initializing $ltf
echo ';;;; This is a machine-generated file.' > $ltf
echo ';;;; Please do not edit it by hand.' >> $ltf
echo ';;;; See make-config.sh.' >> $ltf
printf '(' >> $ltf
echo //guessing default target CPU architecture from host architecture
case `uname -m` in
*86) guessed_sbcl_arch=x86 ;;
i86pc) guessed_sbcl_arch=x86 ;;
*x86_64) guessed_sbcl_arch=x86-64 ;;
amd64) guessed_sbcl_arch=x86-64 ;;
[Aa]lpha) guessed_sbcl_arch=alpha ;;
sparc*) guessed_sbcl_arch=sparc ;;
sun*) guessed_sbcl_arch=sparc ;;
*ppc) guessed_sbcl_arch=ppc ;;
ppc64) guessed_sbcl_arch=ppc ;;
Power*Macintosh) guessed_sbcl_arch=ppc ;;
parisc) guessed_sbcl_arch=hppa ;;
9000/800) guessed_sbcl_arch=hppa ;;
mips*) guessed_sbcl_arch=mips ;;
*)
# If we're not building on a supported target architecture, we
# we have no guess, but it's not an error yet, since maybe
# target architecture will be specified explicitly below.
guessed_sbcl_arch=''
;;
esac
# Under Solaris, uname -m returns "i86pc" even if CPU is amd64.
if [ "$sbcl_os" = "sunos" ] && [ `isainfo -k` = "amd64" ]; then
guessed_sbcl_arch=x86-64
fi
echo //setting up CPU-architecture-dependent information
sbcl_arch=${SBCL_ARCH:-$guessed_sbcl_arch}
echo sbcl_arch=\"$sbcl_arch\"
if [ "$sbcl_arch" = "" ] ; then
echo "can't guess target SBCL architecture, need SBCL_ARCH environment var"
exit 1
fi
printf ":%s" "$sbcl_arch" >> $ltf
echo //setting up OS-dependent information
original_dir=`pwd`
cd ./src/runtime/
rm -f Config target-arch-os.h target-arch.h target-os.h target-lispregs.h
# KLUDGE: these two logically belong in the previous section
# ("architecture-dependent"); it seems silly to enforce this in terms
# of the shell script, though. -- CSR, 2002-02-03
link_or_copy $sbcl_arch-arch.h target-arch.h
link_or_copy $sbcl_arch-lispregs.h target-lispregs.h
case "$sbcl_os" in
linux)
printf ' :unix' >> $ltf
printf ' :elf' >> $ltf
printf ' :linux' >> $ltf
# If you add other platforms here, don't forget to edit
# src/runtime/Config.foo-linux too.
case "$sbcl_arch" in
x86 | mips)
printf ' :largefile' >> $ltf
;;
esac
if [ $sbcl_arch = "x86-64" ]; then
link_or_copy Config.x86_64-linux Config
else
link_or_copy Config.$sbcl_arch-linux Config
fi
link_or_copy $sbcl_arch-linux-os.h target-arch-os.h
link_or_copy linux-os.h target-os.h
;;
osf1)
printf ' :unix' >> $ltf
printf ' :elf' >> $ltf
printf ' :osf1' >> $ltf
link_or_copy Config.$sbcl_arch-osf1 Config
link_or_copy $sbcl_arch-osf1-os.h target-arch-os.h
link_or_copy osf1-os.h target-os.h
;;
hpux)
printf ' :unix' >> $ltf
printf ' :elf' >> $ltf
printf ' :hpux' >> $ltf
link_or_copy Config.$sbcl_arch-hpux Config
link_or_copy $sbcl_arch-hpux-os.h target-arch-os.h
link_or_copy hpux-os.h target-os.h
;;
*bsd)
printf ' :unix' >> $ltf
printf ' :bsd' >> $ltf
link_or_copy $sbcl_arch-bsd-os.h target-arch-os.h
link_or_copy bsd-os.h target-os.h
case "$sbcl_os" in
freebsd)
printf ' :elf' >> $ltf
printf ' :freebsd' >> $ltf
printf ' :gcc-tls' >> $ltf
if [ $sbcl_arch = "x86" ]; then
printf ' :restore-tls-segment-register-from-context' >> $ltf
fi
link_or_copy Config.$sbcl_arch-freebsd Config
;;
openbsd)
printf ' :elf' >> $ltf
printf ' :openbsd' >> $ltf
link_or_copy Config.$sbcl_arch-openbsd Config
;;
netbsd)
printf ' :netbsd' >> $ltf
printf ' :elf' >> $ltf
link_or_copy Config.$sbcl_arch-netbsd Config
;;
*)
echo unsupported BSD variant: `uname`
exit 1
;;
esac
;;
darwin)
printf ' :unix' >> $ltf
printf ' :mach-o' >> $ltf
printf ' :bsd' >> $ltf
printf ' :darwin' >> $ltf
if [ $sbcl_arch = "x86" ]; then
printf ' :mach-exception-handler :sb-lutex :restore-fs-segment-register-from-tls' >> $ltf
fi
if [ $sbcl_arch = "x86-64" ]; then
printf ' :mach-exception-handler :sb-lutex' >> $ltf
fi
link_or_copy $sbcl_arch-darwin-os.h target-arch-os.h
link_or_copy bsd-os.h target-os.h
link_or_copy Config.$sbcl_arch-darwin Config
;;
sunos)
printf ' :unix' >> $ltf
printf ' :elf' >> $ltf
printf ' :sunos' >> $ltf
if [ $sbcl_arch = "x86" ] || [ $sbcl_arch = "amd64" ]; then
printf ' :sb-lutex' >> $ltf
fi
link_or_copy Config.$sbcl_arch-sunos Config
link_or_copy $sbcl_arch-sunos-os.h target-arch-os.h
link_or_copy sunos-os.h target-os.h
;;
win32)
printf ' :win32' >> $ltf
link_or_copy Config.$sbcl_arch-win32 Config
link_or_copy $sbcl_arch-win32-os.h target-arch-os.h
link_or_copy win32-os.h target-os.h
;;
*)
echo unsupported OS type: `uname`
exit 1
;;
esac
cd "$original_dir"
# FIXME: Things like :c-stack-grows-..., etc, should be
# *derived-target-features* or equivalent, so that there was a nicer
# way to specify them then sprinkling them in this file. They should
# still be tweakable by advanced users, though, but probably not
# appear in *features* of target. #!+/- should be adjusted to take
# them in account as well. At minimum the nicer specification stuff,
# though:
#
# (define-feature :dlopen (features)
# (union '(:bsd :linux :darwin :sunos) features))
#
# (define-feature :c-stack-grows-downwards-not-upwards (features)
# (member :x86 features))
# KLUDGE: currently the x86 only works with the generational garbage
# collector (indicated by the presence of :GENCGC in *FEATURES*) and
# alpha, sparc and ppc with the stop'n'copy collector (indicated by
# the absence of :GENCGC in *FEATURES*). This isn't a great
# separation, but for now, rather than have :GENCGC in
# base-target-features.lisp-expr, we add it into local-target-features
# if we're building for x86. -- CSR, 2002-02-21 Then we do something
# similar with :STACK-GROWS-FOOWARD, too. -- WHN 2002-03-03
if [ "$sbcl_arch" = "x86" ]; then
printf ' :gencgc :stack-grows-downward-not-upward :c-stack-is-control-stack' >> $ltf
printf ' :compare-and-swap-vops :unwind-to-frame-and-call-vop :raw-instance-init-vops' >> $ltf
printf ' :stack-allocatable-closures :stack-allocatable-vectors' >> $ltf
printf ' :stack-allocatable-lists :stack-allocatable-fixed-objects' >> $ltf
printf ' :alien-callbacks :cycle-counter :inline-constants ' >> $ltf
case "$sbcl_os" in
linux | freebsd | netbsd | openbsd | sunos | darwin | win32)
printf ' :linkage-table' >> $ltf
esac
if [ "$sbcl_os" = "win32" ]; then
# of course it doesn't provide dlopen, but there is
# roughly-equivalent magic nevertheless.
printf ' :os-provides-dlopen' >> $ltf
fi
elif [ "$sbcl_arch" = "x86-64" ]; then
printf ' :gencgc :stack-grows-downward-not-upward :c-stack-is-control-stack :linkage-table' >> $ltf
printf ' :compare-and-swap-vops :unwind-to-frame-and-call-vop :raw-instance-init-vops' >> $ltf
printf ' :stack-allocatable-closures :stack-allocatable-vectors' >> $ltf
printf ' :stack-allocatable-lists :stack-allocatable-fixed-objects' >> $ltf
printf ' :alien-callbacks :cycle-counter :complex-float-vops' >> $ltf
printf ' :float-eql-vops :inline-constants ' >> $ltf
elif [ "$sbcl_arch" = "mips" ]; then
printf ' :linkage-table' >> $ltf
printf ' :stack-allocatable-closures :stack-allocatable-vectors' >> $ltf
printf ' :stack-allocatable-lists :stack-allocatable-fixed-objects' >> $ltf
printf ' :alien-callbacks' >> $ltf
# Use a little C program to try to guess the endianness. Ware
# cross-compilers!
#
# FIXME: integrate to grovel-features, mayhaps
$GNUMAKE -C tools-for-build determine-endianness -I ../src/runtime
tools-for-build/determine-endianness >> $ltf
elif [ "$sbcl_arch" = "ppc" ]; then
printf ' :gencgc :stack-allocatable-closures :stacka-allocatable-lists' >> $ltf
printf ' :linkage-table' >> $ltf
if [ "$sbcl_os" = "linux" ]; then
# Use a C program to detect which kind of glibc we're building on,
# to bandage across the break in source compatibility between
# versions 2.3.1 and 2.3.2
#
# FIXME: integrate to grovel-features, mayhaps
$GNUMAKE -C tools-for-build where-is-mcontext -I ../src/runtime
tools-for-build/where-is-mcontext > src/runtime/ppc-linux-mcontext.h || (echo "error running where-is-mcontext"; exit 1)
elif [ "$sbcl_os" = "darwin" ]; then
# We provide a dlopen shim, so a little lie won't hurt
printf " :os-provides-dlopen :alien-callbacks" >> $ltf
# The default stack ulimit under darwin is too small to run PURIFY.
# Best we can do is complain and exit at this stage
if [ "`ulimit -s`" = "512" ]; then
echo "Your stack size limit is too small to build SBCL."
echo "See the limit(1) or ulimit(1) commands and the README file."
exit 1
fi
fi
elif [ "$sbcl_arch" = "sparc" ]; then
# Test the compiler in order to see if we are building on Sun
# toolchain as opposed to GNU binutils, and write the appropriate
# FUNCDEF macro for assembler. No harm in running this on sparc-linux
# as well.
sh tools-for-build/sparc-funcdef.sh > src/runtime/sparc-funcdef.h
if [ "$sbcl_os" = "sunos" ] || [ "$sbcl_os" = "linux" ]; then
printf ' :linkage-table' >> $ltf
fi
printf ' :stack-allocatable-closures :stack-allocatable-lists' >> $ltf
elif [ "$sbcl_arch" = "alpha" ]; then
printf ' :stack-allocatable-closures :stack-allocatable-lists' >> $ltf
elif [ "$sbcl_arch" = "hppa" ]; then
printf ' :stack-allocatable-vectors :stack-allocatable-fixed-objects' >> $ltf
printf ' :stack-allocatable-lists' >> $ltf
else
# Nothing need be done in this case, but sh syntax wants a placeholder.
echo > /dev/null
fi
export sbcl_os sbcl_arch
sh tools-for-build/grovel-features.sh >> $ltf
echo //finishing $ltf
echo ')' >> $ltf
# FIXME: The version system should probably be redone along these lines:
#
# echo //setting up version information.
# versionfile=version.txt
# cp base-version.txt $versionfile
# echo " (built `date -u` by `whoami`@`hostname`)" >> $versionfile
# echo 'This is a machine-generated file and should not be edited by hand.' >> $versionfile
# Make a unique ID for this build (to discourage people from
# mismatching sbcl and *.core files).
if [ `uname` = "SunOS" ] ; then
# use /usr/xpg4/bin/id instead of /usr/bin/id
PATH=/usr/xpg4/bin:$PATH
fi
echo '"'`hostname`-`id -un`-`date +%Y-%m-%d-%H-%M-%S`'"' > output/build-id.tmp
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