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llvm-mirror/utils/buildit/build_llvm
Bob Wilson 1944a74c98 Remove a reference to the C backend.
llvm-svn: 153971
2012-04-03 21:50:24 +00:00

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#!/bin/sh
# LLVM LOCAL file B&I
set -x
# Build LLVM the "Apple way".
# Parameters:
# The first parameter is a space-separated list of the architectures the
# compilers will run on. For instance, "ppc i386". If the current machine
# isn't in the list, it will (effectively) be added.
HOSTS="$1"
# The second parameter is a space-separated list of the architectures the
# compilers will generate code for. If the current machine isn't in the list, a
# compiler for it will get built anyway, but won't be installed.
# FIXME: The list of targets is currently hard-coded and TARGETS is not used.
TARGETS="$2"
# The third parameter is the path to the compiler sources. There should be a
# shell script named 'configure' in this directory. This script makes a copy...
ORIG_SRC_DIR="$3"
# The fourth parameter is the location where the LLVM will be installed. You can
# move it once it's built, so this mostly controls the layout of $DEST_DIR.
DEST_ROOT="$4"
# The fifth parameter is the place where the compiler will be copied once it's
# built.
DEST_DIR="$5"
# The sixth parameter is a directory in which to place information (like
# unstripped executables and generated source files) helpful in debugging the
# resulting compiler.
SYM_DIR="$6"
# The seventh parameter is a yes/no that indicates whether assertions should be
# enabled in the LLVM libs/tools.
LLVM_ASSERTIONS="$7"
# The eighth parameter is a yes/no that indicates whether this is an optimized
# build.
LLVM_OPTIMIZED="$8"
# The ninth parameter is a yes/no that indicates whether libLTO.dylib
# should be installed.
INSTALL_LIBLTO="$9"
# A yes/no parameter that controls whether to cross-build for an ARM host.
ARM_HOSTED_BUILD="${10}"
# A yes/no parameter that controls whether to cross-build for the iOS simulator
IOS_SIM_BUILD="${11}"
# The version number of the submission, e.g. 1007.
LLVM_SUBMIT_VERSION="${12}"
# The subversion number of the submission, e.g. 03.
LLVM_SUBMIT_SUBVERSION="${13}"
# The current working directory is where the build will happen. It may already
# contain a partial result of an interrupted build, in which case this script
# will continue where it left off.
DIR=`pwd`
DARWIN_VERS=`uname -r | sed 's/\..*//'`
echo DARWIN_VERS = $DARWIN_VERS
################################################################################
# Run the build.
# Create the source tree we'll actually use to build, deleting
# tcl since it doesn't actually build properly in a cross environment
# and we don't really need it.
SRC_DIR=$DIR/src
rm -rf $SRC_DIR || exit 1
mkdir $SRC_DIR || exit 1
ln -s $ORIG_SRC_DIR/* $SRC_DIR/ || exit 1
# We can't use the top-level Makefile as-is. Remove the soft link:
rm $SRC_DIR/Makefile || exit 1
# Now create our own by editing the top-level Makefile, deleting every line marked "Apple-style":
sed -e '/[Aa]pple-style/d' -e '/include.*GNUmakefile/d' $ORIG_SRC_DIR/Makefile > $SRC_DIR/Makefile || exit 1
# Build the LLVM tree universal.
mkdir -p $DIR/obj-llvm || exit 1
cd $DIR/obj-llvm || exit 1
if [ "$ARM_HOSTED_BUILD" = yes ]; then
# The cross-tools' build process expects to find an existing cross toolchain
# under names like 'arm-apple-darwin$DARWIN_VERS-as'; so make them.
rm -rf $DIR/bin || exit 1
mkdir $DIR/bin || exit 1
for prog in ar nm ranlib strip lipo ld as ; do
P=$DIR/bin/arm-apple-darwin$DARWIN_VERS-${prog}
T=`xcrun -sdk $SDKROOT -find ${prog}`
echo '#!/bin/sh' > $P || exit 1
echo 'exec '$T' "$@"' >> $P || exit 1
chmod a+x $P || exit 1
done
# Set up the links for clang.
for prog in clang clang++ ; do
P=$DIR/bin/arm-apple-darwin$DARWIN_VERS-${prog}
T=`xcrun -sdk $SDKROOT -find ${prog}`
echo '#!/bin/sh' > $P || exit 1
echo 'exec '$T' -arch armv7 -isysroot '${SDKROOT}' "$@"' >> $P || exit 1
chmod a+x $P || exit 1
done
PATH=$DIR/bin:$PATH
fi
if [ "$ARM_HOSTED_BUILD" = yes ]; then
configure_opts="--enable-targets=arm --host=arm-apple-darwin10 \
--target=arm-apple-darwin10 --build=i686-apple-darwin10"
elif [ "$IOS_SIM_BUILD" = yes ]; then
# Use a non-standard "darwin_sim" host triple to trigger a cross-build.
configure_opts="--enable-targets=x86 --host=i686-apple-darwin_sim \
--build=i686-apple-darwin10"
else
configure_opts="--enable-targets=arm,x86"
fi
if [ \! -f Makefile.config ]; then
$SRC_DIR/configure --prefix=$DEST_DIR$DEST_ROOT $configure_opts \
--enable-assertions=$LLVM_ASSERTIONS \
--enable-optimized=$LLVM_OPTIMIZED \
--disable-bindings \
|| exit 1
fi
SUBVERSION=`echo $RC_ProjectSourceVersion | sed -e 's/[^.]*\.\([0-9]*\).*/\1/'`
if [ "x$SUBVERSION" != "x$RC_ProjectSourceVersion" ]; then
LLVM_SUBMIT_SUBVERSION=`printf "%02d" $SUBVERSION`
RC_ProjectSourceVersion=`echo $RC_ProjectSourceVersion | sed -e 's/\..*//'`
LLVM_SUBMIT_VERSION=$RC_ProjectSourceVersion
fi
if [ "x$LLVM_SUBMIT_SUBVERSION" = "x00" -o "x$LLVM_SUBMIT_SUBVERSION" = "x0" ]; then
LLVM_VERSION="$LLVM_SUBMIT_VERSION"
else
LLVM_VERSION="$LLVM_SUBMIT_VERSION-$LLVM_SUBMIT_SUBVERSION"
fi
# Figure out how many make processes to run.
SYSCTL=`sysctl -n hw.activecpu`
# sysctl -n hw.* does not work when invoked via B&I chroot /BuildRoot.
# Builders can default to 2, since even if they are single processor,
# nothing else is running on the machine.
if [ -z "$SYSCTL" ]; then
SYSCTL=2
fi
JOBS_FLAG="-j $SYSCTL"
make $JOBS_FLAG $OPTIMIZE_OPTS UNIVERSAL=1 UNIVERSAL_ARCH="$HOSTS" \
UNIVERSAL_SDK_PATH=$SDKROOT \
NO_RUNTIME_LIBS=1 \
DISABLE_EDIS=1 \
REQUIRES_RTTI=1 \
DEBUG_SYMBOLS=1 \
LLVM_SUBMIT_VERSION=$LLVM_SUBMIT_VERSION \
LLVM_SUBMIT_SUBVERSION=$LLVM_SUBMIT_SUBVERSION \
CXXFLAGS="-DLLVM_VERSION_INFO='\" Apple Build #$LLVM_VERSION\"'" \
VERBOSE=1
if [ $? != 0 ] ; then
echo "error: LLVM 'make' failed!"
exit 1
fi
################################################################################
# Construct the actual destination root, by copying stuff from $DIR/dst-* to
# $DEST_DIR, with occasional 'lipo' commands.
cd $DEST_DIR || exit 1
# Clean out DEST_DIR in case -noclean was passed to buildit.
rm -rf * || exit 1
cd $DIR/obj-llvm || exit 1
# Install the tree into the destination directory.
make $LOCAL_MAKEFLAGS $OPTIMIZE_OPTS UNIVERSAL=1 UNIVERSAL_ARCH="$HOSTS" \
NO_RUNTIME_LIBS=1 \
DISABLE_EDIS=1 \
DEBUG_SYMBOLS=1 \
LLVM_SUBMIT_VERSION=$LLVM_SUBMIT_VERSION \
LLVM_SUBMIT_SUBVERSION=$LLVM_SUBMIT_SUBVERSION \
OPTIMIZE_OPTION='-O3' VERBOSE=1 install
if ! test $? == 0 ; then
echo "error: LLVM 'make install' failed!"
exit 1
fi
# Install Version.h
LLVM_MINOR_VERSION=`echo $LLVM_SUBMIT_SUBVERSION | sed -e 's,0*\([1-9][0-9]*\),\1,'`
if [ "x$LLVM_MINOR_VERSION" = "x" ]; then
LLVM_MINOR_VERSION=0
fi
RC_ProjectSourceSubversion=`printf "%d" $LLVM_MINOR_VERSION`
echo "#define LLVM_VERSION ${RC_ProjectSourceVersion}" > $DEST_DIR$DEST_ROOT/include/llvm/Version.h
echo "#define LLVM_MINOR_VERSION ${RC_ProjectSourceSubversion}" >> $DEST_DIR$DEST_ROOT/include/llvm/Version.h
# Find the right version of strip to use.
STRIP=strip
if [ -n "$SDKROOT" ]; then
STRIP=`xcrun -sdk $SDKROOT -find strip`
fi
if [ "x$LLVM_DEBUG" != "x1" ]; then
# Strip local symbols from llvm libraries.
#
# Use '-l' to strip i386 modules. N.B. that flag doesn't work with kext or
# PPC objects!
$STRIP -Sl $DEST_DIR$DEST_ROOT/lib/*.[oa]
for f in `ls $DEST_DIR$DEST_ROOT/lib/*.so`; do
$STRIP -Sxl $f
done
fi
# Remove .dir files
cd $DEST_DIR$DEST_ROOT
rm -f bin/.dir etc/llvm/.dir lib/.dir
# Remove PPC64 fat slices.
cd $DEST_DIR$DEST_ROOT/bin
if [ $MACOSX_DEPLOYMENT_TARGET = "10.4" ]; then
find . -perm 755 -type f \! \( -name '*gccas' -o -name '*gccld' -o -name llvm-config \) \
-exec lipo -extract ppc -extract i386 {} -output {} \;
elif [ $MACOSX_DEPLOYMENT_TARGET = "10.5" ]; then
find . -perm 755 -type f \! \( -name '*gccas' -o -name '*gccld' -o -name llvm-config \) \
-exec lipo -extract ppc7400 -extract i386 {} -output {} \;
else
find . -perm 755 -type f \! \( -name '*gccas' -o -name '*gccld' -o -name llvm-config \) \
-exec lipo -extract i386 -extract x86_64 {} -output {} \;
fi
# The Hello dylib is an example of how to build a pass.
# The BugpointPasses module is only used to test bugpoint.
# These unversioned dylibs cause verification failures, so do not install them.
# (The wildcards are used to match a "lib" prefix if it is present.)
rm $DEST_DIR$DEST_ROOT/lib/*LLVMHello.dylib
rm $DEST_DIR$DEST_ROOT/lib/*BugpointPasses.dylib
# Compress manpages
MDIR=$DEST_DIR$DEST_ROOT/share/man/man1
gzip -f $MDIR/*
################################################################################
# Create SYM_DIR with information required for debugging.
# Figure out how many make processes to run.
SYSCTL=`sysctl -n hw.activecpu`
# hw.activecpu only available in 10.2.6 and later
if [ -z "$SYSCTL" ]; then
SYSCTL=`sysctl -n hw.ncpu`
fi
# sysctl -n hw.* does not work when invoked via B&I chroot /BuildRoot. Builders
# can default to 2, since even if they are single processor, nothing else is
# running on the machine.
if [ -z "$SYSCTL" ]; then
SYSCTL=2
fi
cd $SYM_DIR || exit 1
# Clean out SYM_DIR in case -noclean was passed to buildit.
rm -rf * || exit 1
# Generate .dSYM files
find $DEST_DIR -perm -0111 -type f \
! \( -name '*.la' -o -name gccas -o -name gccld -o -name llvm-config -o -name '*.a' \) \
-print | xargs -n 1 -P ${SYSCTL} dsymutil
# Save .dSYM files and .a archives
cd $DEST_DIR || exit 1
find . \( -path \*.dSYM/\* -or -name \*.a \) -print \
| cpio -pdml $SYM_DIR || exit 1
# Save source files.
mkdir $SYM_DIR/src || exit 1
cd $DIR || exit 1
find obj-* -name \*.\[chy\] -o -name \*.cpp -print \
| cpio -pdml $SYM_DIR/src || exit 1
################################################################################
# Install and strip libLTO.dylib
cd $DEST_DIR$DEST_ROOT
if [ "$INSTALL_LIBLTO" = "yes" ]; then
DT_HOME="$DEST_DIR/Developer/usr"
mkdir -p $DT_HOME/lib
mv lib/libLTO.dylib $DT_HOME/lib/libLTO.dylib
# Save a copy of the unstripped dylib
mkdir -p $SYM_DIR/Developer/usr/lib
cp $DT_HOME/lib/libLTO.dylib $SYM_DIR/Developer/usr/lib/libLTO.dylib
# Use '-l' to strip i386 modules. N.B. that flag doesn't work with kext or
# PPC objects!
$STRIP -arch all -Sl $DT_HOME/lib/libLTO.dylib
if [ "x$DISABLE_USR_LINKS" == "x" ]; then
# Add a symlink in /usr/lib for B&I.
mkdir -p $DEST_DIR/usr/lib/
(cd $DEST_DIR/usr/lib && \
ln -s ../../Developer/usr/lib/libLTO.dylib ./libLTO.dylib)
fi
else
rm -f lib/libLTO.dylib
fi
rm -f lib/libLTO.a lib/libLTO.la
# Omit lto.h from the result. Clang will supply.
find $DEST_DIR$DEST_ROOT -name lto.h -delete
################################################################################
# Remove debugging information from DEST_DIR.
cd $DIR || exit 1
find $DEST_DIR -name \*.a -print | xargs ranlib || exit 1
find $DEST_DIR -name \*.dSYM -print | xargs rm -r || exit 1
# Strip debugging information from files
#
# Use '-l' to strip i386 modules. N.B. that flag doesn't work with kext or
# PPC objects!
find $DEST_DIR -perm -0111 -type f \
! \( -name '*.la' -o -name gccas -o -name gccld -o -name llvm-config \) \
-print | xargs -n 1 -P ${SYSCTL} $STRIP -arch all -Sl
chgrp -h -R wheel $DEST_DIR
chgrp -R wheel $DEST_DIR
################################################################################
# Remove the docs directory
rm -rf $DEST_DIR$DEST_ROOT/docs
################################################################################
# w00t! Done!
exit 0