http://www.hermann-uwe.de/blog/building-an-arm-cross-toolchain-with-binutils-gcc-newlib-and-gdb-from-source
toolchain
Your cross-toolchain script is pretty stale. Try this one.
#!/bin/sh
# Builds a arm-eabi cross compiler for use on linux
# host systems. This target has no file system or kernel.
#
TARGET="arm-none-eabi"
SRC="/build-dir/packages" # package directory
PREFIX="/build-dir/arm/toolchain" # final toolchain directory
PARALLEL="-j 2"
BINUTILS=binutils-2.20
GCC=gcc-4.5.1
GMP=gmp-5.0.1
MPFR=mpfr-3.0.0
MPC=mpc-0.8.2
NEWLIB=newlib-1.18.0
# Note: the 7.x series of GDB seem to have issues with psim...
GDB=gdb-6.8
export PATH="$PATH:$PREFIX/bin"
# Before we do anything we need all the source files.
# We keep them in one place and we never need to
# download them twice if this build fails.
mkdir $SRC
cd $SRC
echo "Dounloading source packages. This may take a while."
echo
wget -c http://ftp.gnu.org/gnu/binutils/$BINUTILS.tar.bz2
wget -c ftp://ftp.gnu.org/gnu/gcc/$GCC/$GCC.tar.bz2
wget -c ftp://ftp.gmplib.org/pub/$GMP/$GMP.tar.bz2
wget -c http://www.mpfr.org/mpfr-current/$MPFR.tar.bz2
wget -c http://www.multiprecision.org/mpc/download/$MPC.tar.gz
wget -c ftp://sources.redhat.com/pub/newlib/$NEWLIB.tar.gz
wget -c ftp://ftp.gnu.org/gnu/gdb/$GDB.tar.bz2
cd ..
echo "Starting Build..."
echo
mkdir build
echo "Building binutils"
echo
tar xfj $SRC/$BINUTILS.tar.bz2
cd build
../$BINUTILS/configure --target=$TARGET --prefix=$PREFIX \
--enable-interwork --disable-multilib --with-gnu-as \
--with-gnu-ld --disable-nls --disable-werror
make $PARALLEL
make install
cd ..
rm -rf build/* $BINUTILS
echo "Building GCC pass 1"
tar xfj $SRC/$GCC.tar.bz2
# the compiler math prereqs
tar -jxf $SRC/$GMP.tar.bz2
tar -jxf $SRC/$MPFR.tar.bz2
tar -zxf $SRC/$MPC.tar.gz
cd $GCC
mv ../$GMP gmp
mv ../$MPFR mpfr
mv ../$MPC mpc
cd ../build
../$GCC/configure --target=$TARGET --prefix=$PREFIX --enable-interwork \
--disable-multilib --enable-languages="c" --with-newlib \
--with-gmp-include=$(pwd)/gmp --with-gmp-lib=$(pwd)/gmp/.libs \
--without-headers --disable-shared --disable-nls --with-gnu-as --with-gnu-ld
make $PARALLEL all-gcc
make install-gcc
cd ..
rm -rf build/* # (We retain the GCC directory for pass 2)
echo "Building Newlib"
echo
tar xfz $SRC/$NEWLIB.tar.gz
cd build
../$NEWLIB/configure --target=$TARGET --prefix=$PREFIX --enable-interwork \
--disable-multilib --with-gnu-as --with-gnu-ld --disable-nls
make $PARALLEL
make install
cd ..
rm -rf build/* $NEWLIB
echo " Building GCC pass 2"
echo
cd build
../$GCC/configure --target=$TARGET --prefix=$PREFIX --enable-interwork \
--disable-multilib --enable-languages="c,c++" --with-newlib \
--with-gmp-include=$(pwd)/gmp --with-gmp-lib=$(pwd)/gmp/.libs \
--without-headers --disable-shared --disable-libssp --disable-nls \
--disable-hardfloat --enable-threads=single --with-gnu-as --with-gnu-ld
make $PARALLEL
make install
cd ..
rm -rf build/* $GCC
echo "Building GDB"
echo
tar xfj $SRC/$GDB.tar.bz2
cd build
../$GDB/configure --target=$TARGET --prefix=$PREFIX \
--enable-interwork --disable-multilib
make all
make install
cd ..
rm -rf build $GDB
echo "Lets see if it compiles without errors..."
echo 'main(){}' > dummy.c
$PREFIX/bin/$TARGET-gcc-4.5.1 dummy.c -o dummy
ls -l dummy
rm dummy dummy.c a.out
echo "cool! that's a start"
echo "Compiler Finished for "$TARGET
# All that should be left now is this script, the new toolchain and the packages.
# Save the packages for other tuned toolchains.*************************************************another toolchain from uwehttps://github.com/esden/summon-arm-toolchain/raw/master/summon-arm-toolchain
#!/bin/bash
# Written by Uwe Hermann <uwe@hermann-uwe.de>, released as public domain.
# Modified by Piotr Esden-Tempski <piotr@esden.net>, released as public domain.
#
# Requirements (example is for Debian, replace package names as needed):
#
# apt-get install flex bison libgmp3-dev libmpfr-dev libncurses5-dev \
# libmpc-dev autoconf texinfo build-essential
#
# Or on Ubuntu Maverick give `apt-get build-dep gcc-4.5` a try.
#
# Stop if any command fails
set -e
##############################################################################
# Settings section
# You probably want to customize those
##############################################################################
TARGET=arm-none-eabi # Or: TARGET=arm-elf
PREFIX=${HOME}/sat # Install location of your final toolchain
DARWIN_OPT_PATH=/opt/local # Path in which MacPorts or Fink is installed
# Set to 'sudo' if you need superuser privileges while installing
SUDO=
# Set to 1 to be quieter while running
QUIET=0
# Set to 1 to use linaro gcc instead of the FSF gcc
USE_LINARO=1
# Set to 1 to enable building of OpenOCD
OOCD_EN=1
# Set to 1 to build libstm32 provided by ST
LIBSTM32_EN=0
# Set to 1 to build libopenstm32 an open source library for stm32
LIBOPENSTM32_EN=1
# Make the gcc default to Cortex-M3
DEFAULT_TO_CORTEX_M3=0
##############################################################################
# Version and download url settings section
##############################################################################
if [ ${USE_LINARO} == 0 ] ; then
# For FSF GCC:
GCCVERSION=4.5.1
GCC=gcc-${GCCVERSION}
GCCURL=http://ftp.gnu.org/gnu/gcc/${GCC}/${GCC}.tar.gz
else
# For the Linaro GCC:
GCCRELEASE=4.5-2010.11-0
GCCVERSION=4.5-2010.11-1
GCC=gcc-linaro-${GCCVERSION}
GCCURL=http://launchpad.net/gcc-linaro/4.5/${GCCRELEASE}/+download/${GCC}.tar.bz2
fi
BINUTILS=binutils-2.20
NEWLIB=newlib-1.18.0
GDB=gdb-7.2
OOCD=master
LIBCMSIS=v1.10-2
LIBSTM32=v3.0.0-1
LIBSTM32USB=v3.0.1-1
LIBOPENSTM32=master
##############################################################################
# Flags section
##############################################################################
if which getconf > /dev/null; then
CPUS=$(getconf _NPROCESSORS_ONLN)
else
CPUS=1
fi
PARALLEL=-j$((CPUS + 1))
echo "${CPUS} cpu's detected running make with '${PARALLEL}' flag"
GDBFLAGS=
BINUTILFLAGS=
if [ ${DEFAULT_TO_CORTEX_M3} == 0 ] ; then
GCCFLAGS=
else
# To default to the Cortex-M3:
GCCFLAGS="--with-arch=armv7-m --with-mode=thumb --with-float=soft"
fi
# Pull in the local configuration, if any
if [ -f local.sh ]; then
. ./local.sh
fi
MAKEFLAGS=${PARALLEL}
TARFLAGS=v
if [ ${QUIET} != 0 ]; then
TARFLAGS=
MAKEFLAGS="${MAKEFLAGS} -s"
fi
export PATH="${PREFIX}/bin:${PATH}"
SUMMON_DIR=$(pwd)
SOURCES=${SUMMON_DIR}/sources
STAMPS=${SUMMON_DIR}/stamps
##############################################################################
# Tool section
##############################################################################
TAR=tar
##############################################################################
# OS and Tooldetection section
# Detects which tools and flags to use
##############################################################################
case "$(uname)" in
Linux)
echo "Found Linux OS."
;;
Darwin)
echo "Found Darwin OS."
GCCFLAGS="${GCCFLAGS} \
--with-gmp=${DARWIN_OPT_PATH} \
--with-mpfr=${DARWIN_OPT_PATH} \
--with-mpc=${DARWIN_OPT_PATH} \
--with-libiconv-prefix=${DARWIN_OPT_PATH}"
OOCD_CFLAGS="-m32 -I/opt/mine/include -I/opt/local/include"
OOCD_LDFLAGS="-L/opt/mine/lib -L/opt/local/lib"
;;
CYGWIN*)
echo "Found CygWin that means Windows most likely."
;;
*)
echo "Found unknown OS. Aborting!"
exit 1
;;
esac
##############################################################################
# Building section
# You probably don't have to touch anything after this
##############################################################################
# Fetch a versioned file from a URL
function fetch {
if [ ! -e ${STAMPS}/$1.fetch ]; then
log "Downloading $1 sources..."
wget -c --no-passive-ftp $2
touch ${STAMPS}/$1.fetch
fi
}
# Log a message out to the console
function log {
echo "******************************************************************"
echo "* $*"
echo "******************************************************************"
}
# Unpack an archive
function unpack {
log Unpacking $*
# Use 'auto' mode decompression. Replace with a switch if tar doesn't support -a
ARCHIVE=$(ls ${SOURCES}/$1.tar.*)
case ${ARCHIVE} in
*.bz2)
echo "archive type bz2"
TYPE=j
;;
*.gz)
echo "archive type gz"
TYPE=z
;;
*)
echo "Unknown archive type of $1"
echo ${ARCHIVE}
exit 1
;;
esac
${TAR} xf${TYPE}${TARFLAGS} ${SOURCES}/$1.tar.*
}
# Install a build
function install {
log $1
${SUDO} make ${MAKEFLAGS} $2 $3 $4 $5 $6 $7 $8
}
mkdir -p ${STAMPS} ${SOURCES}
cd ${SOURCES}
fetch ${BINUTILS} http://ftp.gnu.org/gnu/binutils/${BINUTILS}.tar.bz2
fetch ${GCC} ${GCCURL}
fetch ${NEWLIB} ftp://sources.redhat.com/pub/newlib/${NEWLIB}.tar.gz
fetch ${GDB} http://ftp.gnu.org/gnu/gdb/${GDB}.tar.bz2
if [ ${OOCD_EN} != 0 ]; then
if [ ! -e openocd-${OOCD}.tar.bz2 ]; then
log "Cloning OpenOCD sources..."
git clone git://openocd.git.sourceforge.net/gitroot/openocd/openocd openocd-${OOCD}
cd openocd-${OOCD}
./bootstrap
cd ..
tar cfvj openocd-${OOCD}.tar.bz2 openocd-${OOCD}
#git archive --format=tar --prefix=openocd-${OOCD}/ ${OOCD} | \
# bzip2 --stdout > ../openocd-${OOCD}.tar.bz2
rm -rf openocd-${OOCD}
fi
fi
if [ ${LIBSTM32_EN} != 0 ]; then
if [ ! -e libcmsis-${LIBCMSIS}.tar.bz2 ]; then
log "Cloning libcmsis sources..."
git clone git://git.open-bldc.org/libcmsis.git
cd libcmsis
git archive --format=tar --prefix=libcmsis-${LIBCMSIS}/ ${LIBCMSIS} | \
bzip2 --stdout > ../libcmsis-${LIBCMSIS}.tar.bz2
cd ..
rm -rf libcmsis
fi
if [ ! -e libstm32-${LIBSTM32}.tar.bz2 ]; then
log "Cloning libstm32 sources..."
git clone git://git.open-bldc.org/libstm32.git
cd libstm32
git archive --format=tar --prefix=libstm32-${LIBSTM32}/ ${LIBSTM32} | \
bzip2 --stdout > ../libstm32-${LIBSTM32}.tar.bz2
cd ..
rm -rf libstm32
fi
if [ ! -e libstm32usb-${LIBSTM32USB}.tar.bz2 ]; then
log "Cloning libstm32usb sources..."
git clone git://git.open-bldc.org/libstm32usb.git
cd libstm32usb
git archive --format=tar --prefix=libstm32usb-${LIBSTM32USB}/ ${LIBSTM32USB} | \
bzip2 --stdout > ../libstm32usb-${LIBSTM32USB}.tar.bz2
cd ..
rm -rf libstm32usb
fi
fi
if [ ${LIBOPENSTM32_EN} != 0 ]; then
if [ ! -e libopenstm32-${LIBOPENSTM32}.tar.bz2 ]; then
log "Cloning libopenstm32 sources..."
git clone git://libopenstm32.git.sourceforge.net/gitroot/libopenstm32/libopenstm32
cd libopenstm32
git archive --format=tar --prefix=libopenstm32-${LIBOPENSTM32}/ ${LIBOPENSTM32} | \
bzip2 --stdout > ../libopenstm32-${LIBOPENSTM32}.tar.bz2
cd ..
rm -rf libopenstm32
fi
fi
cd ${SUMMON_DIR}
if [ ! -e build ]; then
mkdir build
fi
if [ ! -e ${STAMPS}/${BINUTILS}.build ]; then
unpack ${BINUTILS}
cd build
log "Configuring ${BINUTILS}"
../${BINUTILS}/configure --target=${TARGET} \
--prefix=${PREFIX} \
--enable-interwork \
--enable-multilib \
--with-gnu-as \
--with-gnu-ld \
--disable-nls \
--disable-werror \
${BINUTILFLAGS}
log "Building ${BINUTILS}"
make ${MAKEFLAGS}
install ${BINUTILS} install
cd ..
log "Cleaning up ${BINUTILS}"
touch ${STAMPS}/${BINUTILS}.build
rm -rf build/* ${BINUTILS}
fi
if [ ! -e ${STAMPS}/${GCC}-boot.build ]; then
unpack ${GCC} boot
cd build
log "Configuring ${GCC}-boot"
../${GCC}/configure --target=${TARGET} \
--prefix=${PREFIX} \
--enable-interwork \
--enable-multilib \
--enable-languages="c" \
--with-newlib \
--without-headers \
--disable-shared \
--with-gnu-as \
--with-gnu-ld \
--disable-nls \
--disable-werror \
--with-system-zlib \
${GCCFLAGS}
log "Building ${GCC}-boot"
make ${MAKEFLAGS} all-gcc
install ${GCC}-boot install-gcc
cd ..
log "Cleaning up ${GCC}-boot"
touch ${STAMPS}/${GCC}-boot.build
rm -rf build/* ${GCC}
fi
if [ ! -e ${STAMPS}/${NEWLIB}.build ]; then
unpack ${NEWLIB}
cd build
log "Configuring ${NEWLIB}"
../${NEWLIB}/configure --target=${TARGET} \
--prefix=${PREFIX} \
--enable-interwork \
--enable-multilib \
--with-gnu-as \
--with-gnu-ld \
--disable-nls \
--disable-werror \
--disable-newlib-supplied-syscalls \
--with-float=soft
log "Building ${NEWLIB}"
make ${MAKEFLAGS} CFLAGS_FOR_TARGET="-msoft-float" CCASFLAGS="-msoft-float"
install ${NEWLIB} install
cd ..
log "Cleaning up ${NEWLIB}"
touch ${STAMPS}/${NEWLIB}.build
rm -rf build/* ${NEWLIB}
fi
# Yes, you need to build gcc again!
if [ ! -e ${STAMPS}/${GCC}.build ]; then
unpack ${GCC}
cd build
log "Configuring ${GCC}"
../${GCC}/configure --target=${TARGET} \
--prefix=${PREFIX} \
--enable-interwork \
--enable-multilib \
--enable-languages="c,c++" \
--with-newlib \
--disable-shared \
--with-gnu-as \
--with-gnu-ld \
--disable-nls \
--disable-werror \
--with-system-zlib \
${GCCFLAGS}
log "Building ${GCC}"
make ${MAKEFLAGS}
install ${GCC} install
cd ..
log "Cleaning up ${GCC}"
touch ${STAMPS}/${GCC}.build
rm -rf build/* ${GCC}
fi
if [ ! -e ${STAMPS}/${GDB}.build ]; then
unpack ${GDB}
cd build
log "Configuring ${GDB}"
../${GDB}/configure --target=${TARGET} \
--prefix=${PREFIX} \
--enable-interwork \
--enable-multilib \
--disable-werror \
${GDBFLAGS}
log "Building ${GDB}"
make ${MAKEFLAGS}
install ${GDB} install
cd ..
log "Cleaning up ${GDB}"
touch ${STAMPS}/${GDB}.build
rm -rf build/* ${GDB}
fi
if [ ${OOCD_EN} != 0 ]; then
if [ ! -e ${STAMPS}/openocd-${OOCD}.build ]; then
unpack openocd-${OOCD}
cd build
log "Configuring openocd-${OOCD}"
CFLAGS="${CFLAGS} ${OOCD_CFLAGS}" \
LDFLAGS="${LDFLAGS} ${OOCD_LDFLAGS}" \
../openocd-${OOCD}/configure --enable-maintainer-mode \
--prefix=${PREFIX} \
--enable-dummy \
--enable-parport \
--enable-ft2232_libftdi \
--enable-usb_blaster_libftdi \
--enable-amtjtagaccel \
--enable-zy1000 \
--enable-ep93xx \
--enable-at91rm9200 \
--enable-gw16012 \
--enable-presto_libftdi \
--enable-usbprog \
--enable-jlink \
--enable-vsllink \
--enable-rlink \
--enable-arm-jtag-ew \
--enable-buspirate
log "Building openocd-${OOCD}"
make ${MAKEFLAGS}
install openocd-${OOCD} install
cd ..
log "Cleaning up openocd-${OOCD}"
touch ${STAMPS}/openocd-${OOCD}.build
rm -rf build/* ${OOCD}
fi
fi
if [ ${LIBSTM32_EN} != 0 ]; then
if [ ! -e ${STAMPS}/libcmsis-${LIBCMSIS}.build ]; then
unpack libcmsis-${LIBCMSIS}
cd libcmsis-${LIBCMSIS}
log "Building libcmsis-${LIBCMSIS}"
make arch_prefix=${TARGET} prefix=${PREFIX}
install libcmsis-${LIBCMSIS} arch_prefix=${TARGET} prefix=${PREFIX} install
cd ..
log "Cleaning up libcmsis-${LIBCMSIS}"
touch ${STAMPS}/libcmsis-${LIBCMSIS}.build
rm -rf libcmsis-${LIBCMSIS}
fi
if [ ! -e ${STAMPS}/libstm32-${LIBSTM32}.build ]; then
unpack libstm32-${LIBSTM32}
cd libstm32-${LIBSTM32}
log "Building libstm32-${LIBSTM32}"
make arch_prefix=${TARGET} prefix=${PREFIX}
install libstm32-${LIBSTM32} arch_prefix=${TARGET} prefix=${PREFIX} install
cd ..
log "Cleaning up libstm32-${LIBSTM32}"
touch ${STAMPS}/libstm32-${LIBSTM32}.build
rm -rf libstm32-${LIBSTM32}
fi
if [ ! -e ${STAMPS}/libstm32usb-${LIBSTM32USB}.build ]; then
unpack libstm32usb-${LIBSTM32USB}
cd libstm32usb-${LIBSTM32USB}
log "Building libstm32usb-${LIBSTM32USB}"
make arch_prefix=${TARGET} prefix=${PREFIX}
install libstm32usb-${LIBSTM32USB} arch_prefix=${TARGET} prefix=${PREFIX} install
cd ..
log "Cleaning up libstm32usb-${LIBSTM32USB}"
touch ${STAMPS}/libstm32usb-${LIBSTM32USB}.build
rm -rf libstm32usb-${LIBSTM32USB}
fi
fi
if [ $LIBOPENSTM32_EN != 0 ]; then
if [ ! -e ${STAMPS}/libopenstm32-${LIBOPENSTM32}.build ]; then
unpack libopenstm32-${LIBOPENSTM32}
cd libopenstm32-${LIBOPENSTM32}
log "Building libopenstm32-${LIBOPENSTM32}"
make PREFIX=${TARGET} DESTDIR=${PREFIX}
install libopenstm32-${LIBOPENSTM32} PREFIX=${TARGET} DESTDIR=${PREFIX} install
cd ..
log "Cleaning up libopenstm32-${LIBOPENSTM32}"
touch ${STAMPS}/libopenstm32-${LIBOPENSTM32}.build
rm -rf libopenstm32-${LIBOPENSTM32}
fi
fi
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