#!/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. # FIXME: HOSTS is not used in this script. Use it or Remove it. 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. 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 nineth parameter is the version number of the submission, e.g. 1007. LLVM_SUBMIT_VERSION="$9" # The tenth parameter is the subversion number of the submission, e.g. 03. LLVM_SUBMIT_SUBVERSION="${10}" # 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 = $DARWIN_VERS if [ "x$RC_ProjectName" = "xllvmCore_Embedded" ]; then DEST_DIR="$DEST_DIR/Developer/Platforms/iPhoneOS.platform" mkdir -p "$DEST_DIR" fi DEVELOPER_DIR="${DEVELOPER_DIR-Developer}" if [ "x$RC_ProjectName" = "xllvmCore_EmbeddedHosted" ]; then DT_HOME="$DEST_DIR/usr" HOST_SDKROOT=$SDKROOT else DT_HOME="$DEST_DIR/$DEVELOPER_DIR/usr" fi DEST_ROOT="/$DEVELOPER_DIR$DEST_ROOT" ################################################################################ # 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 $DIR/obj-llvm || exit 1 if [ "x$RC_ProjectName" = "xllvmCore_EmbeddedHosted" ]; 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 $P || exit 1 done # Try to use the platform llvm-gcc. Fall back to gcc if it's not available. for prog in gcc g++ ; do P=$DIR/bin/arm-apple-darwin$DARWIN_VERS-${prog} T=`xcrun -find llvm-${prog}` if [ "x$T" = "x" ] ; then T=`xcrun -sdk $SDKROOT -find ${prog}` fi echo '#!/bin/sh' > $P || exit 1 echo 'exec '$T' -arch armv6 -isysroot '${SDKROOT}' "$@"' >> $P || exit 1 chmod a+x $P || exit 1 done PATH=$DIR/bin:$PATH # otherwise, try to use llvm-gcc if it's available elif [ $DARWIN_VERS -gt 9 ]; then # If the user has set CC or CXX, respect their wishes. If not, # compile with LLVM-GCC/LLVM-G++ if available; if LLVM is not # available, fall back to usual GCC/G++ default. savedPATH=$PATH ; PATH="/Developer/usr/bin:$PATH" XTMPCC=$(which llvm-gcc) if [ x$CC = x -a x$XTMPCC != x ] ; then export CC=$XTMPCC ; fi XTMPCC=$(which llvm-g++) if [ x$CXX = x -a x$XTMPCC != x ] ; then export CXX=$XTMPCC ; fi PATH=$savedPATH unset XTMPCC savedPATH fi if [ "x$RC_ProjectName" = "xllvmCore_EmbeddedHosted" ]; then if [ \! -f Makefile.config ]; then $SRC_DIR/configure --prefix=$DT_HOME \ --enable-targets=arm \ --host=arm-apple-darwin10 \ --target=arm-apple-darwin10 \ --build=i686-apple-darwin10 \ --enable-assertions=$LLVM_ASSERTIONS \ --enable-optimized=$LLVM_OPTIMIZED \ --disable-bindings \ || exit 1 fi else if [ \! -f Makefile.config ]; then $SRC_DIR/configure --prefix=$DT_HOME/local \ --enable-targets=arm,x86,powerpc,cbe \ --enable-assertions=$LLVM_ASSERTIONS \ --enable-optimized=$LLVM_OPTIMIZED \ --disable-bindings \ || exit 1 fi 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-$LLVM_SUBMIT_SUBVERSION" fi GCC_VER=`cc --version 2>/dev/null | sed 1q` if echo "$GCC_VER" | grep GCC > /dev/null; then GCC_VER=`echo $GCC_VER | sed -e 's/.*(GCC) \([0-9.][0-9.]*\).*/\1/'` MAJ_VER=`echo $GCC_VER | sed 's/\..*//'` MIN_VER=`echo $GCC_VER | sed 's/[^.]*\.\([0-9]*\).*/\1/'` fi JOBS_FLAG="" # Note: If compiling with GCC 4.0, don't pass the -jN flag. Building universal # already has parallelism and we don't want to make the builders hit swap by # firing off too many gccs at the same time. if [ "x$MAJ_VER" != "x4" -o "x$MIN_VER" != "x0" ]; then # 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 JOBS_FLAG="-j $SYSCTL" fi make $JOBS_FLAG $OPTIMIZE_OPTS UNIVERSAL=1 UNIVERSAL_ARCH="$TARGETS" \ UNIVERSAL_SDK_PATH=$HOST_SDKROOT \ NO_RUNTIME_LIBS=1 \ DISABLE_EDIS=1 \ LLVM_SUBMIT_VERSION=$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 $OPTIMIZE_OPTS UNIVERSAL=1 UNIVERSAL_ARCH="$TARGETS" \ NO_RUNTIME_LIBS=1 \ DISABLE_EDIS=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 if [ "x$LLVM_DEBUG" != "x1" ]; then # Strip local symbols from llvm libraries. strip -S $DEST_DIR$DEST_ROOT/lib/*.[oa] for f in `ls $DEST_DIR$DEST_ROOT/lib/*.so`; do strip -Sx $f done fi # Copy over the tblgen utility. cp `find $DIR -name tblgen` $DT_HOME/local/bin # 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 ppc7400 -extract i386 -extract x86_64 {} -output {} \; fi cd $DEST_DIR$DEST_ROOT mkdir -p $DT_HOME/lib mv lib/libLTO.dylib $DT_HOME/lib/libLTO.dylib strip -S $DT_HOME/lib/libLTO.dylib rm -f lib/libLTO.a lib/libLTO.la # The Hello dylib is an example of how to build a pass. No need to install it. rm lib/libLLVMHello.dylib # Compress manpages MDIR=$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 ################################################################################ # Remove debugging information from DEST_DIR. find $DEST_DIR -name \*.a -print | xargs ranlib || exit 1 find $DEST_DIR -name \*.dSYM -print | xargs rm -r || exit 1 chgrp -h -R wheel $DEST_DIR chgrp -R wheel $DEST_DIR ################################################################################ # Remove tar ball from docs directory find $DEST_DIR -name html.tar.gz -exec rm {} \; ################################################################################ # symlinks so that B&I can find things cd $DEST_DIR mkdir -p ./usr/lib/ cd usr/lib ln -s ../../$DEVELOPER_DIR/usr/lib/libLTO.dylib ./libLTO.dylib ################################################################################ # w00t! Done! exit 0