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|
#! /bin/sh
# $Cambridge: exim/src/scripts/Configure-Makefile,v 1.2 2005/09/19 14:42:31 ph10 Exp $
# Shell script to build Makefile in a build directory. It must be called
# from inside the directory. It does its own checking of when to rebuild; it
# just got too horrendous to get it right in "make", because of the optionally
# existing configuration files.
# First off, get the OS type, and check that there is a make file for it.
ostype=`../scripts/os-type -generic` || exit 1
if [ ! -r ../OS/Makefile-$ostype ] ; then
echo ""
echo "*** Sorry - operating system $ostype is not supported"
echo "*** See OS/Makefile-* for supported systems" 1>&2
echo ""
exit 1
fi
# We also need the architecture type, in order to test for any architecture-
# specific configuration files.
archtype=`../scripts/arch-type` || exit 1
# Now test for either the non-existence of Makefile, or for any of its
# components being newer. Note that the "newer" script gives the right
# answer (for our purposes) when the first file is non-existent.
editme=../Local/Makefile
rebuild=yes
if [ -f Makefile ] ; then
rebuild=no
if ../scripts/newer $editme Makefile || \
../scripts/newer $editme-$ostype Makefile || \
../scripts/newer $editme-$archtype Makefile || \
../scripts/newer $editme-$ostype-$archtype Makefile || \
../scripts/newer ../scripts/Configure-Makefile Makefile || \
../scripts/newer ../OS/Makefile-Base Makefile || \
../scripts/newer ../OS/Makefile-Default Makefile
then
rebuild=yes
fi
fi
# If the "build" variable is set it means that a build name was explicitly
# given. Arrange to pick up a build-specific configuration file.
if [ "X$build" != "X" ] ; then
mfb=Local/Makefile-$build
if ../scripts/newer $editme-$build Makefile ; then
rebuild=yes
fi
else
mfb=
fi
# If Makefile is up-to-date, no need to rebuild it.
if [ $rebuild = no ] ; then
echo "\`Makefile' is up to date."
echo " "
exit
fi
# Makefile needs to be rebuilt in the current directory by joining
# the generic default makefile, the OS base makefile, and then local
# generic, OS-specific, architecture-specific, and OS+architecture-specific
# makefiles, if they exist. These files all contain macro definitions, with
# later definitions overriding earlier ones. Make a temporary file first, in
# case things go wrong. A second temporary is needed for sorting out the
# default Perl stuff. Use short macro names to save typing.
mf=Makefile
mft=$mf-t
mftt=$mf-tt
# Ensure the temporary does not exist and start the new one by setting
# the OSTYPE and ARCHTYPE variables.
rm -f $mft $mftt
(echo "OSTYPE=$ostype"; echo "ARCHTYPE=$archtype"; echo "") > $mft || exit 1
# Now concatenate the files to the temporary file. Copy the files using sed to
# remove comments, blank lines, and trailing white space.
# BEWARE: a tab character is needed in the sed command below. It has had
# a nasty tendency to get lost in the past, causing a problem if a tab has
# actually been present in one of the files. Use a variable to hold a space
# and a tab to keep the tab in one place.
st=' '
for f in OS/Makefile-Default \
OS/Makefile-$ostype \
Local/Makefile \
Local/Makefile-$ostype \
Local/Makefile-$archtype \
Local/Makefile-$ostype-$archtype \
$mfb
do if test -r ../$f
then echo "# From $f"
sed "/^#/d;/^[$st]*\$/d;s/[$st]*\$//" ../$f || exit 1
echo "# End of $f"
echo ""
fi
done >> $mft || exit 1
# See if there is a definition of EXIM_PERL in what we have built so far.
# If so, run Perl to find the default values for PERL_CC, PERL_CCOPTS,
# and PERL_LIBS. These need to be put at the top of the Makefile, so we rename
# what we have so far and then copy it afterwards. Use the value of PERL_COMMAND
# if it has been defined.
EXIM_PERL=`grep EXIM_PERL $mft`
PERL_COMMAND=`grep PERL_COMMAND $mft | sed -e "\\$!d;s/^[$st]*PERL_COMMAND[$st]*=[$st]*//"`
if [ "${PERL_COMMAND}" = "" ] ; then
PERL_COMMAND='perl'
fi
if [ "${EXIM_PERL}" != "" ] ; then
testperl=`$PERL_COMMAND --version`
if [ "$testperl" = "" ] ; then
echo "*** EXIM_PERL is set, but '$PERL_COMMAND --version' failed"
exit 1
fi
mv $mft $mftt
echo "PERL_CC=`$PERL_COMMAND -MConfig -e 'print $Config{cc}'`" >>$mft
echo "PERL_CCOPTS=`$PERL_COMMAND -MExtUtils::Embed -e ccopts`" >>$mft
echo "PERL_LIBS=`$PERL_COMMAND -MExtUtils::Embed -e ldopts`" >>$mft
echo "" >>$mft
cat $mftt >> $mft
rm -f $mftt
fi
# Record the build variable in the Makefile.
echo "build=$build" >>$mft
echo "" >>$mft
# Finally, join on the generic base make file, which contains the actual
# rules and stuff.
echo "# From ../OS/Makefile-Base" >> $mft
cat ../OS/Makefile-Base >> $mft || exit 1
# If the new makefile is the same as the existing one, say so, and just
# update the timestamp. Otherwise remove the old and install the new.
if [ -s $mf ] && cmp -s $mft $mf
then echo ">>> rebuilt $mf unchanged"
echo " "
touch $mf || exit
rm -f $mft
elif rm -f $mf
mv $mft $mf
then echo ">>> New $mf installed"
echo '>>> Use "make makefile" if you need to force rebuilding of the makefile'
echo " "
else echo " "
echo "*** Failed to install $mf - see $mft"
echo " "
exit 1;
fi
# End of Configure-Makefile
|