coreboot-kgpe-d16/util/crossgcc/buildgcc

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#!/usr/bin/env sh
# shellcheck disable=SC2030,SC2031,SC2059
# The above line must be directly after the shebang line.
# Disables these warnings:
# 2030 - Modification of var is local (to subshell caused by pipeline).
# shell check 0.4.6 gets confused by the read -t 1 command and interprets
# the '1' as $1 getting modified.
# 2031 - var was modified in a subshell. That change might be lost.
# caused by shell check bug with SC2030? This causes any $1 from that
# point on to be flagged.
# 2059 - Don't use variables in the printf format string. Use printf "..%s.." "$foo".
# This is used for all of our color printing.
#
util/: Replace GPLv2 boiler plate with SPDX header Used commands: perl -i -p0e 's|\/\*[\s*]*.*is free software[:;][\s*]*you[\s*]*can[\s*]*redistribute[\s*]*it[\s*]*and\/or[\s*]*modify[\s*]*it[\s*]*under[\s*]*the[\s*]*terms[\s*]*of[\s*]*the[\s*]*GNU[\s*]*General[\s*]*Public[\s*]*License[\s*]*as[\s*]*published[\s*]*by[\s*]*the[\s*]*Free[\s*]*Software[\s*]*Foundation[;,][\s*]*version[\s*]*2[\s*]*of[\s*]*the[\s*]*License.[\s*]*This[\s*]*program[\s*]*is[\s*]*distributed[\s*]*in[\s*]*the[\s*]*hope[\s*]*that[\s*]*it[\s*]*will[\s*]*be[\s*]*useful,[\s*]*but[\s*]*WITHOUT[\s*]*ANY[\s*]*WARRANTY;[\s*]*without[\s*]*even[\s*]*the[\s*]*implied[\s*]*warranty[\s*]*of[\s*]*MERCHANTABILITY[\s*]*or[\s*]*FITNESS[\s*]*FOR[\s*]*A[\s*]*PARTICULAR[\s*]*PURPOSE.[\s*]*See[\s*]*the[\s*]*GNU[\s*]*General[\s*]*Public[\s*]*License[\s*]*for[\s*]*more[\s*]*details.[\s*]*\*\/|/* SPDX-License-Identifier: GPL-2.0-only */|' $(cat filelist) perl -i -p0e 's|This[\s*]*program[\s*]*is[\s*]*free[\s*]*software[:;][\s*]*you[\s*]*can[\s*]*redistribute[\s*]*it[\s*]*and/or[\s*]*modify[\s*]*it[\s*]*under[\s*]*the[\s*]*terms[\s*]*of[\s*]*the[\s*]*GNU[\s*]*General[\s*]*Public[\s*]*License[\s*]*as[\s*]*published[\s*]*by[\s*]*the[\s*]*Free[\s*]*Software[\s*]*Foundation[;,][\s*]*either[\s*]*version[\s*]*2[\s*]*of[\s*]*the[\s*]*License,[\s*]*or[\s*]*.at[\s*]*your[\s*]*option.*[\s*]*any[\s*]*later[\s*]*version.[\s*]*This[\s*]*program[\s*]*is[\s*]*distributed[\s*]*in[\s*]*the[\s*]*hope[\s*]*that[\s*]*it[\s*]*will[\s*]*be[\s*]*useful,[\s*]*but[\s*]*WITHOUT[\s*]*ANY[\s*]*WARRANTY;[\s*]*without[\s*]*even[\s*]*the[\s*]*implied[\s*]*warranty[\s*]*of[\s*]*MERCHANTABILITY[\s*]*or[\s*]*FITNESS[\s*]*FOR[\s*]*A[\s*]*PARTICULAR[\s*]*PURPOSE.[\s*]*See[\s*]*the[\s*]*GNU[\s*]*General[\s*]*Public[\s*]*License[\s*]*for[\s*]*more[\s*]*details.[\s*]*\*\/|/* SPDX-License-Identifier: GPL-2.0-or-later */|' $(cat filelist) perl -i -p0e 's|\/\*[\s*]*.*This[\s*#]*program[\s*#]*is[\s*#]*free[\s*#]*software[;:,][\s*#]*you[\s*#]*can[\s*#]*redistribute[\s*#]*it[\s*#]*and/or[\s*#]*modify[\s*#]*it[\s*#]*under[\s*#]*the[\s*#]*terms[\s*#]*of[\s*#]*the[\s*#]*GNU[\s*#]*General[\s*#]*Public[\s*#]*License[\s*#]*as[\s*#]*published[\s*#]*by[\s*#]*the[\s*#]*Free[\s*#]*Software[\s*#]*Foundation[;:,][\s*#]*either[\s*#]*version[\s*#]*3[\s*#]*of[\s*#]*the[\s*#]*License[;:,][\s*#]*or[\s*#]*.at[\s*#]*your[\s*#]*option.*[\s*#]*any[\s*#]*later[\s*#]*version.[\s*#]*This[\s*#]*program[\s*#]*is[\s*#]*distributed[\s*#]*in[\s*#]*the[\s*#]*hope[\s*#]*that[\s*#]*it[\s*#]*will[\s*#]*be[\s*#]*useful[;:,][\s*#]*but[\s*#]*WITHOUT[\s*#]*ANY[\s*#]*WARRANTY[;:,][\s*#]*without[\s*#]*even[\s*#]*the[\s*#]*implied[\s*#]*warranty[\s*#]*of[\s*#]*MERCHANTABILITY[\s*#]*or[\s*#]*FITNESS[\s*#]*FOR[\s*#]*A[\s*#]*PARTICULAR[\s*#]*PURPOSE.[\s*#]*See[\s*#]*the[\s*#]*GNU[\s*#]*General[\s*#]*Public[\s*#]*License[\s*#]*for[\s*#]*more[\s*#]*details.[\s*]*\*\/|/* SPDX-License-Identifier: GPL-3.0-or-later */|' $(cat filelist) perl -i -p0e 's|(\#\#*)[\w]*.*is free software[:;][\#\s]*you[\#\s]*can[\#\s]*redistribute[\#\s]*it[\#\s]*and\/or[\#\s]*modify[\#\s]*it[\s\#]*under[\s \#]*the[\s\#]*terms[\s\#]*of[\s\#]*the[\s\#]*GNU[\s\#]*General[\s\#]*Public[\s\#]*License[\s\#]*as[\s\#]*published[\s\#]*by[\s\#]*the[\s\#]*Free[\s\#]*Software[\s\#]*Foundation[;,][\s\#]*version[\s\#]*2[\s\#]*of[\s\#]*the[\s\#]*License.*[\s\#]*This[\s\#]*program[\s\#]*is[\s\#]*distributed[\s\#]*in[\s\#]*the[\s\#]*hope[\s\#]*that[\s\#]*it[\s\#]*will[\#\s]*be[\#\s]*useful,[\#\s]*but[\#\s]*WITHOUT[\#\s]*ANY[\#\s]*WARRANTY;[\#\s]*without[\#\s]*even[\#\s]*the[\#\s]*implied[\#\s]*warranty[\#\s]*of[\#\s]*MERCHANTABILITY[\#\s]*or[\#\s]*FITNESS[\#\s]*FOR[\#\s]*A[\#\s]*PARTICULAR[\#\s]*PURPOSE.[\#\s]*See[\#\s]*the[\#\s]*GNU[\#\s]*General[\#\s]*Public[\#\s]*License[\#\s]*for[\#\s]*more[\#\s]*details.\s(#* *\n)*|\1 SPDX-License-Identifier: GPL-2.0-only\n\n|' $(cat filelist) perl -i -p0e 's|(\#\#*)[\w*]*.*is free software[:;][\s*]*you[\s*]*can[\s*]*redistribute[\s*]*it[\s*]*and\/or[\s*]*modify[\s*]*it[\s*]*under[\s*]*the[\s*]*terms[\s*]*of[\s*]*the[\s*]*GNU[\s*]*General[\s*]*Public[\s*]*License[\s*]*as[\s*]*published[\s*]*by[\s*]*the[\s*]*Free[\s*]*Software[\s*]*Foundation[;,][\s*]*version[\s*]*2[\s*]*of[\s*]*the[\s*]*License.[\s*]*This[\s*]*program[\s*]*is[\s*]*distributed[\s*]*in[\s*]*the[\s*]*hope[\s*]*that[\s*]*it[\s*]*will[\s*]*be[\s*]*useful,[\s*]*but[\s*]*WITHOUT[\s*]*ANY[\s*]*WARRANTY;[\s*]*without[\s*]*even[\s*]*the[\s*]*implied[\s*]*warranty[\s*]*of[\s*]*MERCHANTABILITY[\s*]*or[\s*]*FITNESS[\s*]*FOR[\s*]*A[\s*]*PARTICULAR[\s*]*PURPOSE.[\s*]*See[\s*]*the[\s*]*GNU[\s*]*General[\s*]*Public[\s*]*License[\s*]*for[\s*]*more[\s*]*details.\s(#* *\n)*|\1 SPDX-License-Identifier: GPL-2.0-only\n\n|' $(cat filelist) Change-Id: I1008a63b804f355a916221ac994701d7584f60ff Signed-off-by: Patrick Georgi <pgeorgi@google.com> Signed-off-by: Elyes HAOUAS <ehaouas@noos.fr> Reviewed-on: https://review.coreboot.org/c/coreboot/+/41177 Tested-by: build bot (Jenkins) <no-reply@coreboot.org>
2020-05-08 20:48:04 +02:00
# SPDX-License-Identifier: GPL-2.0-only
cd "$(dirname "$0")" || exit 1
if [ -z "$CROSSGCC_VERSION" ]; then
CROSSGCC_VERSION="$(git log -n 1 --pretty=%cd --date=short .)_$(git log -n 1 --pretty=%h .)"
fi
# default settings
PACKAGE=GCC
TARGETDIR=$(pwd)/xgcc
TARGETARCH=i386-elf
DEFAULT_LANGUAGES=c
LANGUAGES=
DESTDIR=
SAVETEMPS=0
SKIPPYTHON=1
buildgcc: Add option to bootstrap a host gcc Bootstrapping gcc is the recommended way if your host gcc's version doesn't match the gcc version you're going to build. While a build with an outdated host gcc usually succeeds, an outdated gnat seems to be a bigger issue. v3: Some library controversy: gcc likes the libraries it ships with most but we don't want to install shared libraries. So we build them static --disable-shared) and install only the minimum (libgcc, libada, libstdc++). However, as the code of these libraries might be used to build a shared library we have to compile them with `-fPIC`. v4: o Updated getopt strings. o The workaround for clang (-fbracket-depth=1024) isn't needed for bootstrapping and also breaks the build, as clang is only used for the first stage in that case and gcc doesn't know that option. So far build tested with `make BUILDGCC_OPTIONS="-b -l c,ada"` on o Ubuntu 14.04 "Trusty Tahr" (i386) o Debian 8 "Jessie" (x86_64) (building python (-S) works too) o current Arch Linux (x86_64) o FreeBSD 10.3 (x86_64) (with gcc-aux package) and with clang host compiler, thus C only: `make BUILDGCC_OPTIONS="-b"` on o Debian 8 "Jessie" (x86_64) o FreeBSD 10.3 (x86_64) v5: Rebased after toolchain updates to GCC 5.3.0 etc. Build tested with `make BUILDGCC_OPTIONS="-b -l c,ada"` on o Debian 8 "Jessie" (x86_64) Change-Id: Icb47d3e9dbafc55737fbc3ce62a084fb9d5f359a Signed-off-by: Nico Huber <nico.huber@secunet.com> Reviewed-on: https://review.coreboot.org/13473 Tested-by: build bot (Jenkins) Reviewed-by: Patrick Georgi <pgeorgi@google.com>
2016-01-26 16:10:17 +01:00
BOOTSTRAP=0
THREADS=1
# GCC toolchain version numbers
GMP_VERSION=6.2.1
MPFR_VERSION=4.1.0
MPC_VERSION=1.2.1
GCC_VERSION=11.2.0
GCC_AUTOCONF_VERSION=2.69
BINUTILS_VERSION=2.37
GDB_VERSION=9.2
IASL_VERSION=20210331
PYTHON_VERSION=3.8.5
EXPAT_VERSION=2.4.1
# CLANG version number
CLANG_VERSION=12.0.0
CMAKE_VERSION=3.20.3
NASM_VERSION=2.15.05
# GCC toolchain archive locations
# These are sanitized by the jenkins toolchain test builder, so if
# a completely new URL is added here, it probably needs to be added
# to the jenkins build as well, or the builder won't download it.
GMP_ARCHIVE="https://ftpmirror.gnu.org/gmp/gmp-${GMP_VERSION}.tar.xz"
MPFR_ARCHIVE="https://ftpmirror.gnu.org/mpfr/mpfr-${MPFR_VERSION}.tar.xz"
MPC_ARCHIVE="https://ftpmirror.gnu.org/mpc/mpc-${MPC_VERSION}.tar.gz"
GCC_ARCHIVE="https://ftpmirror.gnu.org/gcc/gcc-${GCC_VERSION}/gcc-${GCC_VERSION}.tar.xz"
BINUTILS_ARCHIVE="https://ftpmirror.gnu.org/binutils/binutils-${BINUTILS_VERSION}.tar.xz"
GDB_ARCHIVE="https://ftpmirror.gnu.org/gdb/gdb-${GDB_VERSION}.tar.xz"
IASL_ARCHIVE="https://acpica.org/sites/acpica/files/acpica-unix2-${IASL_VERSION}.tar.gz"
PYTHON_ARCHIVE="https://www.python.org/ftp/python/${PYTHON_VERSION}/Python-${PYTHON_VERSION}.tar.xz"
EXPAT_ARCHIVE="https://downloads.sourceforge.net/sourceforge/expat/expat-${EXPAT_VERSION}.tar.bz2"
# CLANG toolchain archive locations
LLVM_ARCHIVE="https://github.com/llvm/llvm-project/releases/download/llvmorg-${CLANG_VERSION}/llvm-${CLANG_VERSION}.src.tar.xz"
CLANG_ARCHIVE="https://github.com/llvm/llvm-project/releases/download/llvmorg-${CLANG_VERSION}/clang-${CLANG_VERSION}.src.tar.xz"
CRT_ARCHIVE="https://github.com/llvm/llvm-project/releases/download/llvmorg-${CLANG_VERSION}/compiler-rt-${CLANG_VERSION}.src.tar.xz"
CTE_ARCHIVE="https://github.com/llvm/llvm-project/releases/download/llvmorg-${CLANG_VERSION}/clang-tools-extra-${CLANG_VERSION}.src.tar.xz"
CMAKE_ARCHIVE="https://cmake.org/files/v${CMAKE_VERSION%.*}/cmake-${CMAKE_VERSION}.tar.gz"
NASM_ARCHIVE="https://www.nasm.us/pub/nasm/releasebuilds/${NASM_VERSION}/nasm-${NASM_VERSION}.tar.bz2"
ALL_ARCHIVES="$GMP_ARCHIVE $MPFR_ARCHIVE $MPC_ARCHIVE \
$GCC_ARCHIVE $BINUTILS_ARCHIVE $GDB_ARCHIVE $IASL_ARCHIVE \
$PYTHON_ARCHIVE $EXPAT_ARCHIVE $LLVM_ARCHIVE $CLANG_ARCHIVE \
$CRT_ARCHIVE $CTE_ARCHIVE $CMAKE_ARCHIVE $NASM_ARCHIVE"
# GCC toolchain directories
GMP_DIR="gmp-${GMP_VERSION}"
MPFR_DIR="mpfr-${MPFR_VERSION}"
MPC_DIR="mpc-${MPC_VERSION}"
# shellcheck disable=SC2034
GCC_DIR="gcc-${GCC_VERSION}"
# shellcheck disable=SC2034
BINUTILS_DIR="binutils-${BINUTILS_VERSION}"
GDB_DIR="gdb-${GDB_VERSION}"
IASL_DIR="acpica-unix2-${IASL_VERSION}"
PYTHON_DIR="Python-${PYTHON_VERSION}"
EXPAT_DIR="expat-${EXPAT_VERSION}"
# CLANG toolchain directories
LLVM_DIR="llvm-${CLANG_VERSION}.src"
CLANG_DIR="clang-${CLANG_VERSION}.src"
CRT_DIR="compiler-rt-${CLANG_VERSION}.src"
CTE_DIR="clang-tools-extra-${CLANG_VERSION}.src"
CMAKE_DIR="cmake-${CMAKE_VERSION}"
NASM_DIR="nasm-${NASM_VERSION}"
unset MAKELEVEL MAKEFLAGS
red='\033[0;31m'
RED='\033[1;31m'
green='\033[0;32m'
GREEN='\033[1;32m'
blue='\033[0;34m'
CYAN='\033[1;36m'
NC='\033[0m' # No Color
UNAME=$(if uname | grep -iq cygwin; then echo Cygwin; else uname; fi)
HALT_FOR_TOOLS=0
hostcc()
{
# $1 "host" or "target"
if [ "$BOOTSTRAP" = 1 ] && [ "$1" = target ]; then
echo "$DESTDIR$TARGETDIR/bin/gcc"
else
echo "$CC"
fi
}
hostcxx()
{
# $1 "host" or "target"
if [ "$BOOTSTRAP" = 1 ] && [ "$1" = target ]; then
echo "$DESTDIR$TARGETDIR/bin/g++"
else
echo "$CXX"
fi
}
normalize_dirs()
{
mkdir -p "$DESTDIR$TARGETDIR/lib"
test -d "$DESTDIR$TARGETDIR/lib32" && mv "$DESTDIR$TARGETDIR"/lib32/* "$DESTDIR$TARGETDIR/lib"
test -d "$DESTDIR$TARGETDIR/lib64" && mv "$DESTDIR$TARGETDIR"/lib64/* "$DESTDIR$TARGETDIR/lib"
rmdir -p "$DESTDIR$TARGETDIR/lib32" "$DESTDIR$TARGETDIR/lib64"
perl -pi -e "s,/lib32,/lib," "$DESTDIR$TARGETDIR"/lib/*.la
perl -pi -e "s,/lib64,/lib," "$DESTDIR$TARGETDIR"/lib/*.la
}
countdown()
{
tout=${1:-10}
printf "\nPress Ctrl-C to abort, Enter to continue... %2ds" "$tout"
while [ "$tout" -gt 0 ]; do
sleep 1
tout=$((tout - 1))
printf "\b\b\b%2ds" $tout
done
printf "\n"
}
timeout()
{
tout=${1:-10}
# Ignore SIGUSR1, should interrupt `read` though.
trap false USR1
# Clean up in case the user aborts.
trap 'kill $counter > /dev/null 2>&1' EXIT
(countdown "$tout"; kill -USR1 $$)&
counter=$!
# Some shells with sh compatibility mode (e.g. zsh, mksh) only
# let us interrupt `read` if a non-standard -t parameter is given.
# shellcheck disable=SC2034,SC2039,SC2162
if echo | read -t 1 foo 2>/dev/null; then
read -t $((tout + 1)) foo
else
read foo
fi
kill $counter > /dev/null 2>&1
trap - USR1 EXIT
}
please_install()
{
HALT_FOR_TOOLS=1
# shellcheck disable=SC1091
test -r /etc/os-release && . /etc/os-release
# vanilla debian doesn't define `ID_LIKE`, just `ID`
if [ -z "${ID_LIKE}" ] && [ -n "${ID}" ]; then
ID_LIKE=${ID}
fi
case "$ID_LIKE" in
debian) solution="sudo apt-get install $1" ;;
suse) solution="sudo zypper install $1" ;;
*) solution="using your OS packaging system" ;;
esac
printf "${RED}ERROR:${red} Missing tool: Please install '$1'. (eg $solution)${NC}\n" >&2
if [ -n "$2" ]; then
printf "${RED}ERROR:${red} or install '$2'.${NC}\n" >&2
fi
}
searchtool()
{
# $1 short name
# $2 search string
# $3 soft fail if set
# $4 alternative package to install on failure
# result: file name of that tool on stdout
# or no output if nothing suitable was found
search=GNU
if [ -n "$2" ]; then
search="$2"
fi
for i in "$1" "g$1" "gnu$1"; do
if [ -x "$(command -v "$i" 2>/dev/null)" ]; then
if [ "$(cat /dev/null | $i --version 2>&1 | grep -c "$search")" \
-gt 0 ]; then
echo "$i"
return
fi
fi
done
# A workaround for OSX 10.9 and some BSDs, whose nongnu
# patch and tar also work.
if [ "$UNAME" = "Darwin" ] || [ "$UNAME" = "FreeBSD" ] || [ "$UNAME" = "NetBSD" ] || [ "$UNAME" = "OpenBSD" ]; then
if [ "$1" = "patch" ] || [ "$1" = "tar" ]; then
if [ -x "$(command -v "$1" 2>/dev/null)" ]; then
echo "$1"
return
fi
fi
fi
if echo "$1" | grep -q "sum" ; then
algor=$(echo "$1" | sed -e 's,sum,,')
if [ -x "$(command -v "$1" 2>/dev/null)" ]; then
#xxxsum [file]
echo "$1"
return
elif [ -x "$(command -v "$algor" 2>/dev/null)" ]; then
#xxx [file]
echo "$algor"
return
elif [ -x "$(command -v openssl 2>/dev/null)" ]; then
#openssl xxx [file]
echo openssl "$algor"
return
elif [ -x "$(command -v cksum 2>/dev/null)" ]; then
#cksum -a xxx [file]
#cksum has special options in NetBSD. Actually, NetBSD will use the second case above.
echo "buildgcc" | cksum -a "$algor" > /dev/null 2>/dev/null && \
echo cksum -a "$algor"
return
fi
fi
[ -z "$3" ] && please_install "$1" "$4"
false
}
# Run a compile check of the specified library option to see if it's installed
check_for_library() {
LIBRARY_FLAGS="$1"
LIBRARY_PACKAGES="$2"
LIBTEST_FILE=.libtest
echo "int main(int argc, char **argv) { (void) argc; (void) argv; return 0; }" > "${LIBTEST_FILE}.c"
# shellcheck disable=SC2086
"$CC" $CFLAGS $LIBRARY_FLAGS "${LIBTEST_FILE}.c" -o "${LIBTEST_FILE}" >/dev/null 2>&1 || \
please_install "$LIBRARY_PACKAGES"
rm -rf "${LIBTEST_FILE}.c" "${LIBTEST_FILE}"
}
buildcc_major() {
echo "${GCC_VERSION}" | cut -d. -f1
}
buildcc_minor() {
echo "${GCC_VERSION}" | cut -d. -f2
}
buildcc_version() {
echo "${GCC_VERSION}" | cut -d. -f1-2
}
hostcc_major() {
(echo __GNUC__ | ${CC} -E - 2>/dev/null || echo 0) | tail -1
}
hostcc_minor() {
(echo __GNUC_MINOR__ | ${CC} -E - 2>/dev/null || echo 0) | tail -1
}
hostcc_version() {
printf "%d.%d" "$(hostcc_major)" "$(hostcc_minor)"
}
hostcc_has_gnat1() {
[ -x "$(${CC} -print-prog-name=gnat1)" ]
}
have_gnat() {
hostcc_has_gnat1 && \
searchtool gnatbind "Free Software Foundation" nofail > /dev/null
}
ada_requested() {
echo "${LANGUAGES}" | grep -q '\<ada\>'
}
download() {
package=$1
# shellcheck disable=SC2086
archive="$(eval echo \$$package"_ARCHIVE")"
FILE=$(basename "$archive")
printf " * $FILE "
if test -f "tarballs/$FILE"; then
buildgcc: Implement simple tarball hash verification This patch implements a relatively simple hash-based verification scheme for downloaded files (tarballs): After buildgcc downloads a file or notices that it has already been downloaded, it hashes the file, and compares the hash against the known hash stored in util/crossgcc/sum/$filename.cksum. Two errors can occur: 1. The hash file is missing. In this case, crossgcc asks the user to verify the authenticity of the downloaded file. It also calculates its hash and stores it in util/crossgcc/sum/$filename.cksum.calc. If the file is authentic, the user may rename the calculated hash file to $filename.cksum, so that it can be found the next time buildgcc is started. 2. The known hash and the calculated hash differ. This is the case that this patch seeks to protect against, because it may imply that the downloaded file was unexpectedly changed, either in transit (Man-in-the-Middle attack) or on the file server that it was downloaded from. If buildgcc detects such a hash mismatch, it asks the user to delete the downloaded file and retry, because it can also be caused by a benign network error. If, however, the error persists, buildgcc can't continue without risking that the user runs malicious code, and it stops. Note: The hash algorithm may be changed in the future, but for now I left it at SHA-1, to avoid bloating this patch. Change-Id: I0d5d67b34684d02011a845d00f6f5b6769f43b4f Signed-off-by: Jonathan Neuschäfer <j.neuschaefer@gmx.net> Reviewed-on: https://review.coreboot.org/21592 Tested-by: build bot (Jenkins) <no-reply@coreboot.org> Reviewed-by: Paul Menzel <paulepanter@users.sourceforge.net> Reviewed-by: Patrick Georgi <pgeorgi@google.com>
2017-09-26 22:33:53 +02:00
printf "(cached)... "
else
printf "(downloading from $archive)"
rm -f "tarballs/$FILE"
cd tarballs || exit 1
download_showing_percentage "$archive"
cd ..
fi
if [ ! -f "tarballs/$FILE" ]; then
printf "${RED}Failed to download $FILE.${NC}\n"
exit 1
fi
}
buildgcc: Implement simple tarball hash verification This patch implements a relatively simple hash-based verification scheme for downloaded files (tarballs): After buildgcc downloads a file or notices that it has already been downloaded, it hashes the file, and compares the hash against the known hash stored in util/crossgcc/sum/$filename.cksum. Two errors can occur: 1. The hash file is missing. In this case, crossgcc asks the user to verify the authenticity of the downloaded file. It also calculates its hash and stores it in util/crossgcc/sum/$filename.cksum.calc. If the file is authentic, the user may rename the calculated hash file to $filename.cksum, so that it can be found the next time buildgcc is started. 2. The known hash and the calculated hash differ. This is the case that this patch seeks to protect against, because it may imply that the downloaded file was unexpectedly changed, either in transit (Man-in-the-Middle attack) or on the file server that it was downloaded from. If buildgcc detects such a hash mismatch, it asks the user to delete the downloaded file and retry, because it can also be caused by a benign network error. If, however, the error persists, buildgcc can't continue without risking that the user runs malicious code, and it stops. Note: The hash algorithm may be changed in the future, but for now I left it at SHA-1, to avoid bloating this patch. Change-Id: I0d5d67b34684d02011a845d00f6f5b6769f43b4f Signed-off-by: Jonathan Neuschäfer <j.neuschaefer@gmx.net> Reviewed-on: https://review.coreboot.org/21592 Tested-by: build bot (Jenkins) <no-reply@coreboot.org> Reviewed-by: Paul Menzel <paulepanter@users.sourceforge.net> Reviewed-by: Patrick Georgi <pgeorgi@google.com>
2017-09-26 22:33:53 +02:00
# Compute the hash of the package given in $1, and print it raw (just the
# hexadecimal hash).
compute_hash() {
package=$1
# shellcheck disable=SC2086
buildgcc: Implement simple tarball hash verification This patch implements a relatively simple hash-based verification scheme for downloaded files (tarballs): After buildgcc downloads a file or notices that it has already been downloaded, it hashes the file, and compares the hash against the known hash stored in util/crossgcc/sum/$filename.cksum. Two errors can occur: 1. The hash file is missing. In this case, crossgcc asks the user to verify the authenticity of the downloaded file. It also calculates its hash and stores it in util/crossgcc/sum/$filename.cksum.calc. If the file is authentic, the user may rename the calculated hash file to $filename.cksum, so that it can be found the next time buildgcc is started. 2. The known hash and the calculated hash differ. This is the case that this patch seeks to protect against, because it may imply that the downloaded file was unexpectedly changed, either in transit (Man-in-the-Middle attack) or on the file server that it was downloaded from. If buildgcc detects such a hash mismatch, it asks the user to delete the downloaded file and retry, because it can also be caused by a benign network error. If, however, the error persists, buildgcc can't continue without risking that the user runs malicious code, and it stops. Note: The hash algorithm may be changed in the future, but for now I left it at SHA-1, to avoid bloating this patch. Change-Id: I0d5d67b34684d02011a845d00f6f5b6769f43b4f Signed-off-by: Jonathan Neuschäfer <j.neuschaefer@gmx.net> Reviewed-on: https://review.coreboot.org/21592 Tested-by: build bot (Jenkins) <no-reply@coreboot.org> Reviewed-by: Paul Menzel <paulepanter@users.sourceforge.net> Reviewed-by: Patrick Georgi <pgeorgi@google.com>
2017-09-26 22:33:53 +02:00
archive="$(eval echo \$$package"_ARCHIVE")"
file="$(basename "$archive")"
if test -z "$CHECKSUM"; then
echo "${RED}\$CHECKSUM program missing. This is bad.${NC}" 1>&2
exit 1
fi
$CHECKSUM "tarballs/$file" 2>/dev/null | sed -e 's@.*\([0-9a-f]\{40,\}\).*@\1@'
}
error_hash_missing() {
package="$1"
# shellcheck disable=SC2086
buildgcc: Implement simple tarball hash verification This patch implements a relatively simple hash-based verification scheme for downloaded files (tarballs): After buildgcc downloads a file or notices that it has already been downloaded, it hashes the file, and compares the hash against the known hash stored in util/crossgcc/sum/$filename.cksum. Two errors can occur: 1. The hash file is missing. In this case, crossgcc asks the user to verify the authenticity of the downloaded file. It also calculates its hash and stores it in util/crossgcc/sum/$filename.cksum.calc. If the file is authentic, the user may rename the calculated hash file to $filename.cksum, so that it can be found the next time buildgcc is started. 2. The known hash and the calculated hash differ. This is the case that this patch seeks to protect against, because it may imply that the downloaded file was unexpectedly changed, either in transit (Man-in-the-Middle attack) or on the file server that it was downloaded from. If buildgcc detects such a hash mismatch, it asks the user to delete the downloaded file and retry, because it can also be caused by a benign network error. If, however, the error persists, buildgcc can't continue without risking that the user runs malicious code, and it stops. Note: The hash algorithm may be changed in the future, but for now I left it at SHA-1, to avoid bloating this patch. Change-Id: I0d5d67b34684d02011a845d00f6f5b6769f43b4f Signed-off-by: Jonathan Neuschäfer <j.neuschaefer@gmx.net> Reviewed-on: https://review.coreboot.org/21592 Tested-by: build bot (Jenkins) <no-reply@coreboot.org> Reviewed-by: Paul Menzel <paulepanter@users.sourceforge.net> Reviewed-by: Patrick Georgi <pgeorgi@google.com>
2017-09-26 22:33:53 +02:00
archive="$(eval echo \$$package"_ARCHIVE")"
file="$(basename "$archive")"
fullhashfile="util/crossgcc/sum/$file.cksum"
printf "${RED}hash file missing:${NC}\n\n" 1>&2
printf "Please verify util/crossgcc/tarball/$file carefully\n" 1>&2
printf "(using PGP if possible), and then rename\n" 1>&2
printf " ${CYAN}${fullhashfile}.calc${NC}\n" 1>&2
printf " to ${CYAN}${fullhashfile}${NC}\n\n" 1>&2
exit 1
}
# Read the known hash file of the package given in $1, and print it raw.
get_known_hash() {
package=$1
# shellcheck disable=SC2086
buildgcc: Implement simple tarball hash verification This patch implements a relatively simple hash-based verification scheme for downloaded files (tarballs): After buildgcc downloads a file or notices that it has already been downloaded, it hashes the file, and compares the hash against the known hash stored in util/crossgcc/sum/$filename.cksum. Two errors can occur: 1. The hash file is missing. In this case, crossgcc asks the user to verify the authenticity of the downloaded file. It also calculates its hash and stores it in util/crossgcc/sum/$filename.cksum.calc. If the file is authentic, the user may rename the calculated hash file to $filename.cksum, so that it can be found the next time buildgcc is started. 2. The known hash and the calculated hash differ. This is the case that this patch seeks to protect against, because it may imply that the downloaded file was unexpectedly changed, either in transit (Man-in-the-Middle attack) or on the file server that it was downloaded from. If buildgcc detects such a hash mismatch, it asks the user to delete the downloaded file and retry, because it can also be caused by a benign network error. If, however, the error persists, buildgcc can't continue without risking that the user runs malicious code, and it stops. Note: The hash algorithm may be changed in the future, but for now I left it at SHA-1, to avoid bloating this patch. Change-Id: I0d5d67b34684d02011a845d00f6f5b6769f43b4f Signed-off-by: Jonathan Neuschäfer <j.neuschaefer@gmx.net> Reviewed-on: https://review.coreboot.org/21592 Tested-by: build bot (Jenkins) <no-reply@coreboot.org> Reviewed-by: Paul Menzel <paulepanter@users.sourceforge.net> Reviewed-by: Patrick Georgi <pgeorgi@google.com>
2017-09-26 22:33:53 +02:00
archive="$(eval echo \$$package"_ARCHIVE")"
file="$(basename "$archive")"
hashfile="sum/$file.cksum"
if [ ! -f "$hashfile" ]; then
calc_hash="$(compute_hash "$package")" || exit 1
echo "$calc_hash tarballs/$file" > "${hashfile}.calc"
error_hash_missing "$package"
exit 1
fi
sed -e 's@.*\([0-9a-f]\{40,\}\).*@\1@' < "$hashfile"
buildgcc: Implement simple tarball hash verification This patch implements a relatively simple hash-based verification scheme for downloaded files (tarballs): After buildgcc downloads a file or notices that it has already been downloaded, it hashes the file, and compares the hash against the known hash stored in util/crossgcc/sum/$filename.cksum. Two errors can occur: 1. The hash file is missing. In this case, crossgcc asks the user to verify the authenticity of the downloaded file. It also calculates its hash and stores it in util/crossgcc/sum/$filename.cksum.calc. If the file is authentic, the user may rename the calculated hash file to $filename.cksum, so that it can be found the next time buildgcc is started. 2. The known hash and the calculated hash differ. This is the case that this patch seeks to protect against, because it may imply that the downloaded file was unexpectedly changed, either in transit (Man-in-the-Middle attack) or on the file server that it was downloaded from. If buildgcc detects such a hash mismatch, it asks the user to delete the downloaded file and retry, because it can also be caused by a benign network error. If, however, the error persists, buildgcc can't continue without risking that the user runs malicious code, and it stops. Note: The hash algorithm may be changed in the future, but for now I left it at SHA-1, to avoid bloating this patch. Change-Id: I0d5d67b34684d02011a845d00f6f5b6769f43b4f Signed-off-by: Jonathan Neuschäfer <j.neuschaefer@gmx.net> Reviewed-on: https://review.coreboot.org/21592 Tested-by: build bot (Jenkins) <no-reply@coreboot.org> Reviewed-by: Paul Menzel <paulepanter@users.sourceforge.net> Reviewed-by: Patrick Georgi <pgeorgi@google.com>
2017-09-26 22:33:53 +02:00
}
error_hash_mismatch() {
package=$1
known_hash="$2"
computed_hash="$3"
# shellcheck disable=SC2086
buildgcc: Implement simple tarball hash verification This patch implements a relatively simple hash-based verification scheme for downloaded files (tarballs): After buildgcc downloads a file or notices that it has already been downloaded, it hashes the file, and compares the hash against the known hash stored in util/crossgcc/sum/$filename.cksum. Two errors can occur: 1. The hash file is missing. In this case, crossgcc asks the user to verify the authenticity of the downloaded file. It also calculates its hash and stores it in util/crossgcc/sum/$filename.cksum.calc. If the file is authentic, the user may rename the calculated hash file to $filename.cksum, so that it can be found the next time buildgcc is started. 2. The known hash and the calculated hash differ. This is the case that this patch seeks to protect against, because it may imply that the downloaded file was unexpectedly changed, either in transit (Man-in-the-Middle attack) or on the file server that it was downloaded from. If buildgcc detects such a hash mismatch, it asks the user to delete the downloaded file and retry, because it can also be caused by a benign network error. If, however, the error persists, buildgcc can't continue without risking that the user runs malicious code, and it stops. Note: The hash algorithm may be changed in the future, but for now I left it at SHA-1, to avoid bloating this patch. Change-Id: I0d5d67b34684d02011a845d00f6f5b6769f43b4f Signed-off-by: Jonathan Neuschäfer <j.neuschaefer@gmx.net> Reviewed-on: https://review.coreboot.org/21592 Tested-by: build bot (Jenkins) <no-reply@coreboot.org> Reviewed-by: Paul Menzel <paulepanter@users.sourceforge.net> Reviewed-by: Patrick Georgi <pgeorgi@google.com>
2017-09-26 22:33:53 +02:00
archive="$(eval echo \$$package"_ARCHIVE")"
file="$(basename "$archive")"
printf "${RED}hash mismatch:${NC}\n\n"
printf " expected (known) hash: $known_hash\n"
printf "calculated hash of downloaded file: $computed_hash\n\n"
printf "If you think this is due to a network error, please delete\n"
printf " ${CYAN}util/crossgcc/tarballs/$file${NC}\n"
printf "and try again. If the problem persists, it may be due to an\n"
printf "administration error on the file server, or you might be\n"
printf "subject to a Man-in-the-Middle attack\n\n"
exit 1
}
# verify_hash - Check that the hash of the file given in $1 matches the known
# hash; Bail out on mismatch or missing hash file.
verify_hash() {
package=$1
# shellcheck disable=SC2086
buildgcc: Implement simple tarball hash verification This patch implements a relatively simple hash-based verification scheme for downloaded files (tarballs): After buildgcc downloads a file or notices that it has already been downloaded, it hashes the file, and compares the hash against the known hash stored in util/crossgcc/sum/$filename.cksum. Two errors can occur: 1. The hash file is missing. In this case, crossgcc asks the user to verify the authenticity of the downloaded file. It also calculates its hash and stores it in util/crossgcc/sum/$filename.cksum.calc. If the file is authentic, the user may rename the calculated hash file to $filename.cksum, so that it can be found the next time buildgcc is started. 2. The known hash and the calculated hash differ. This is the case that this patch seeks to protect against, because it may imply that the downloaded file was unexpectedly changed, either in transit (Man-in-the-Middle attack) or on the file server that it was downloaded from. If buildgcc detects such a hash mismatch, it asks the user to delete the downloaded file and retry, because it can also be caused by a benign network error. If, however, the error persists, buildgcc can't continue without risking that the user runs malicious code, and it stops. Note: The hash algorithm may be changed in the future, but for now I left it at SHA-1, to avoid bloating this patch. Change-Id: I0d5d67b34684d02011a845d00f6f5b6769f43b4f Signed-off-by: Jonathan Neuschäfer <j.neuschaefer@gmx.net> Reviewed-on: https://review.coreboot.org/21592 Tested-by: build bot (Jenkins) <no-reply@coreboot.org> Reviewed-by: Paul Menzel <paulepanter@users.sourceforge.net> Reviewed-by: Patrick Georgi <pgeorgi@google.com>
2017-09-26 22:33:53 +02:00
archive="$(eval echo \$$package"_ARCHIVE")"
known_hash="$(get_known_hash "$package")" || exit "$?"
computed_hash="$(compute_hash "$package")" || exit "$?"
if [ "$known_hash" != "$computed_hash" ]; then
error_hash_mismatch "$package" "$known_hash" "$computed_hash"
exit 1
fi
printf "${GREEN}hash verified (${known_hash})${NC}\n"
buildgcc: Implement simple tarball hash verification This patch implements a relatively simple hash-based verification scheme for downloaded files (tarballs): After buildgcc downloads a file or notices that it has already been downloaded, it hashes the file, and compares the hash against the known hash stored in util/crossgcc/sum/$filename.cksum. Two errors can occur: 1. The hash file is missing. In this case, crossgcc asks the user to verify the authenticity of the downloaded file. It also calculates its hash and stores it in util/crossgcc/sum/$filename.cksum.calc. If the file is authentic, the user may rename the calculated hash file to $filename.cksum, so that it can be found the next time buildgcc is started. 2. The known hash and the calculated hash differ. This is the case that this patch seeks to protect against, because it may imply that the downloaded file was unexpectedly changed, either in transit (Man-in-the-Middle attack) or on the file server that it was downloaded from. If buildgcc detects such a hash mismatch, it asks the user to delete the downloaded file and retry, because it can also be caused by a benign network error. If, however, the error persists, buildgcc can't continue without risking that the user runs malicious code, and it stops. Note: The hash algorithm may be changed in the future, but for now I left it at SHA-1, to avoid bloating this patch. Change-Id: I0d5d67b34684d02011a845d00f6f5b6769f43b4f Signed-off-by: Jonathan Neuschäfer <j.neuschaefer@gmx.net> Reviewed-on: https://review.coreboot.org/21592 Tested-by: build bot (Jenkins) <no-reply@coreboot.org> Reviewed-by: Paul Menzel <paulepanter@users.sourceforge.net> Reviewed-by: Patrick Georgi <pgeorgi@google.com>
2017-09-26 22:33:53 +02:00
}
unpack_and_patch() {
package="$1"
# shellcheck disable=SC2086
archive="$(eval echo \$$package"_ARCHIVE")"
# shellcheck disable=SC2086
dir="$(eval echo \$$package"_DIR")"
test -d "${dir}" && test -f "${dir}/.unpack_success" || (
printf " * $(basename "$archive")\n"
FLAGS=zxf
suffix=$(echo "$archive" | sed 's,.*\.,,')
if [ "$suffix" = "gz" ] && [ -n "$PIGZ" ]; then FLAGS="-I pigz -xf"
elif [ "$suffix" = "gz" ]; then FLAGS=zxf
elif [ "$suffix" = "bz2" ] && [ -n "$LBZIP2" ]; then FLAGS="-I lbzip2 -xf"
elif [ "$suffix" = "bz2" ]; then FLAGS=jxf
elif [ "$suffix" = "xz" ]; then FLAGS="--xz -xf"
elif [ "$suffix" = "lzma" ]; then FLAGS="--lzma -xf"
fi
# shellcheck disable=SC2086
$TAR $FLAGS "tarballs/$(basename "$archive")"
for patch in patches/${dir}_*.patch; do
test -r "$patch" || continue
printf " o $(basename "$patch")\n"
(cd "${dir}" || exit 1; $PATCH -s -N -p1 <"../${patch}") || {
printf "\n${RED}Failed $patch.${NC}\n"
exit 1
}
done
touch "${dir}/.unpack_success"
)
}
fn_exists()
{
# shellcheck disable=SC2039
type "$1" >/dev/null 2>&1
}
is_package_enabled()
{
echo "$PACKAGES" |grep -q "\<$1\>"
}
package_uses_targetarch()
{
if [ "$1" = "GCC" ] || [ "$1" = "GDB" ] || [ "$1" = "BINUTILS" ]; then
true
else
false
fi
}
generic_build()
{
package=$1
host_target=$2
builddir=$3
success=$4
version=$5
fn_exists "build_$package" || return
mkdir -p "$builddir"
if [ -f "$success" ]; then
printf "Skipping $package v$version for $host_target as it is already built\n"
else
printf "Building $package v$version for $host_target ... "
DIR="$PWD"
cd "$builddir" || exit 1
rm -f .failed
"build_${package}" "$host_target" > build.log 2>&1
cd "$DIR" || exit 1
if [ ! -f "$builddir/.failed" ]; then
touch "$success";
else
printf "${RED}failed${NC}. Check '$builddir/build.log'.\n"
exit 1
fi
printf "${green}ok${NC}\n"
fi
}
build_for_host()
{
package="$1"
# shellcheck disable=SC2086
version="$(eval echo \$$package"_VERSION")"
generic_build "$package" host "build-$package" "${DESTDIR}${TARGETDIR}/.${package}.${version}.success" "$version"
}
build_for_target()
{
package="$1"
# shellcheck disable=SC2086
version="$(eval echo \$$package"_VERSION")"
generic_build "$package" target "build-${TARGETARCH}-$package" "${DESTDIR}${TARGETDIR}/.${TARGETARCH}-${package}.${version}.success" "$version"
}
build()
{
if package_uses_targetarch "$1"; then
if [ $BOOTSTRAP -eq 1 ] && [ ! -f "${DESTDIR}${TARGETDIR}/.GCC.${GCC_VERSION}.success" ]; then
buildgcc: Add option to bootstrap a host gcc Bootstrapping gcc is the recommended way if your host gcc's version doesn't match the gcc version you're going to build. While a build with an outdated host gcc usually succeeds, an outdated gnat seems to be a bigger issue. v3: Some library controversy: gcc likes the libraries it ships with most but we don't want to install shared libraries. So we build them static --disable-shared) and install only the minimum (libgcc, libada, libstdc++). However, as the code of these libraries might be used to build a shared library we have to compile them with `-fPIC`. v4: o Updated getopt strings. o The workaround for clang (-fbracket-depth=1024) isn't needed for bootstrapping and also breaks the build, as clang is only used for the first stage in that case and gcc doesn't know that option. So far build tested with `make BUILDGCC_OPTIONS="-b -l c,ada"` on o Ubuntu 14.04 "Trusty Tahr" (i386) o Debian 8 "Jessie" (x86_64) (building python (-S) works too) o current Arch Linux (x86_64) o FreeBSD 10.3 (x86_64) (with gcc-aux package) and with clang host compiler, thus C only: `make BUILDGCC_OPTIONS="-b"` on o Debian 8 "Jessie" (x86_64) o FreeBSD 10.3 (x86_64) v5: Rebased after toolchain updates to GCC 5.3.0 etc. Build tested with `make BUILDGCC_OPTIONS="-b -l c,ada"` on o Debian 8 "Jessie" (x86_64) Change-Id: Icb47d3e9dbafc55737fbc3ce62a084fb9d5f359a Signed-off-by: Nico Huber <nico.huber@secunet.com> Reviewed-on: https://review.coreboot.org/13473 Tested-by: build bot (Jenkins) Reviewed-by: Patrick Georgi <pgeorgi@google.com>
2016-01-26 16:10:17 +01:00
build_for_host GCC
fi
build_for_target "$1"
else
build_for_host "$1"
fi
}
exit_handler()
{
printf "${NC}Stop\n"
exit 1
}
cleanup()
{
if [ $SAVETEMPS -ne 0 ]; then
printf "Leaving temporary files around... ${green}ok${NC}\n"
return
fi
printf "Cleaning up temporary files... "
for package in $PACKAGES; do
# shellcheck disable=SC2086
rm -rf "build-${TARGETARCH}-$package" "build-$package" "$(eval echo \$$package"_DIR")"
done
rm -f getopt
printf "${green}ok${NC}\n"
}
myhelp()
{
printf "Usage: $0 [-V] [-c] [-p <platform>] [-d <target directory>] [-D <dest dir>] [-C] [-G] [-S]\n"
printf " $0 [-V|--version]\n"
printf " $0 [-h|--help]\n\n"
printf "Options:\n"
printf " [-W|--print-version Print machine readable version\n"
printf " [-V|--version] print version number and exit\n"
printf " [-h|--help] print this help and exit\n"
printf " [-c|--clean] remove temporary files before build\n"
printf " [-t|--savetemps] don't remove temporary files after build\n"
printf " [-y|--ccache] Use ccache when building cross compiler\n"
printf " [-n|--nocolor] don't print color codes in output\n"
printf " [-u|--urls] print the urls for all packages\n"
printf " [-j|--jobs <num>] run <num> jobs in parallel in make\n"
printf " [-s]--supported <tool> print supported version of a tool\n"
printf " [-d|--directory <target dir>] target directory to install cross compiler to\n"
printf " (defaults to $TARGETDIR)\n\n"
printf " [-D|--destdir <dest dir>] destination directory to install cross compiler to\n"
printf " (for RPM builds, default unset)\n"
printf " [-P|--package <package>] Build a specific package: GCC, CLANG, IASL, GDB\n"
printf " (defaults to $PACKAGE)\n"
printf "GCC specific options:\n"
buildgcc: Add option to bootstrap a host gcc Bootstrapping gcc is the recommended way if your host gcc's version doesn't match the gcc version you're going to build. While a build with an outdated host gcc usually succeeds, an outdated gnat seems to be a bigger issue. v3: Some library controversy: gcc likes the libraries it ships with most but we don't want to install shared libraries. So we build them static --disable-shared) and install only the minimum (libgcc, libada, libstdc++). However, as the code of these libraries might be used to build a shared library we have to compile them with `-fPIC`. v4: o Updated getopt strings. o The workaround for clang (-fbracket-depth=1024) isn't needed for bootstrapping and also breaks the build, as clang is only used for the first stage in that case and gcc doesn't know that option. So far build tested with `make BUILDGCC_OPTIONS="-b -l c,ada"` on o Ubuntu 14.04 "Trusty Tahr" (i386) o Debian 8 "Jessie" (x86_64) (building python (-S) works too) o current Arch Linux (x86_64) o FreeBSD 10.3 (x86_64) (with gcc-aux package) and with clang host compiler, thus C only: `make BUILDGCC_OPTIONS="-b"` on o Debian 8 "Jessie" (x86_64) o FreeBSD 10.3 (x86_64) v5: Rebased after toolchain updates to GCC 5.3.0 etc. Build tested with `make BUILDGCC_OPTIONS="-b -l c,ada"` on o Debian 8 "Jessie" (x86_64) Change-Id: Icb47d3e9dbafc55737fbc3ce62a084fb9d5f359a Signed-off-by: Nico Huber <nico.huber@secunet.com> Reviewed-on: https://review.coreboot.org/13473 Tested-by: build bot (Jenkins) Reviewed-by: Patrick Georgi <pgeorgi@google.com>
2016-01-26 16:10:17 +01:00
printf " [-b|--bootstrap] bootstrap the host compiler before building\n"
printf " the cross compiler\n"
printf " [-p|--platform <platform>] target platform to build cross compiler for\n"
printf " (defaults to $TARGETARCH)\n"
printf " [-l|--languages <languages>] comma separated list of target languages\n"
printf " (defaults to $DEFAULT_LANGUAGES)\n"
printf "GDB specific options:\n"
printf " [-p|--platform <platform>] target platform to build cross compiler for\n"
printf " (defaults to $TARGETARCH)\n"
printf " [-S|--scripting] build scripting support for GDB\n\n"
printf "Platforms for GCC & GDB:\n"
printf " x86_64 i386-elf i386-mingw32 riscv-elf arm aarch64\n"
printf " powerpc64le-linux-gnu nds32le-elf\n\n"
}
printversion() {
printf "${blue}Welcome to the ${red}coreboot${blue} cross toolchain builder v$CROSSGCC_VERSION ${NC}\n\n"
}
myversion()
{
printversion
cat << EOF
Copyright (C) 2008-2010 by coresystems GmbH
Copyright (C) 2011 by Sage Electronic Engineering
This program is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; version 2 of the License.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
EOF
}
have_hostcflags_from_gmp() {
grep -q __GMP_CFLAGS "$DESTDIR$TARGETDIR/include/gmp.h" >/dev/null 2>&1
}
set_hostcflags_from_gmp() {
# Now set CFLAGS to match GMP CFLAGS but strip out -pedantic
# as GCC 4.6.x fails if it's there.
HOSTCFLAGS="$(grep __GMP_CFLAGS "$DESTDIR$TARGETDIR/include/gmp.h" |cut -d\" -f2 |\
sed s,-pedantic,,)"
export HOSTCFLAGS
}
build_GMP() {
# Check if GCC enables `-pie` by default (possible since GCC 6).
# We need PIC in all static libraries then.
if $CC -dumpspecs 2>/dev/null | grep -q '[{;][[:space:]]*:-pie\>'
then
OPTIONS="$OPTIONS --with-pic"
fi
# shellcheck disable=SC2086
CC="$(hostcc host)" CXX="$(hostcxx host)" \
../${GMP_DIR}/configure --disable-shared --enable-fat \
--prefix="$TARGETDIR" $OPTIONS \
|| touch .failed
# shellcheck disable=SC2086
$MAKE $JOBS || touch .failed
$MAKE install DESTDIR=$DESTDIR || touch .failed
normalize_dirs
set_hostcflags_from_gmp
}
build_MPFR() {
test "$UNAME" = "Darwin" && CFLAGS="$CFLAGS -force_cpusubtype_ALL"
CC="$(hostcc host)" CXX="$(hostcxx host)" \
../${MPFR_DIR}/configure --disable-shared --prefix="$TARGETDIR" \
--infodir="$TARGETDIR/info" \
--with-gmp="$DESTDIR$TARGETDIR" CFLAGS="$HOSTCFLAGS" || \
touch .failed
# shellcheck disable=SC2086
$MAKE $JOBS || touch .failed
$MAKE install DESTDIR=$DESTDIR || touch .failed
normalize_dirs
# work around build problem of libgmp.la
if [ "$DESTDIR" != "" ]; then
perl -pi -e "s,$DESTDIR,," "$DESTDIR$TARGETDIR/lib/libgmp.la"
fi
}
build_MPC() {
CC="$(hostcc host)" CXX="$(hostcxx host)" \
../${MPC_DIR}/configure --disable-shared --prefix="$TARGETDIR" \
--infodir="$TARGETDIR/info" --with-mpfr="$DESTDIR$TARGETDIR" \
--with-gmp="$DESTDIR$TARGETDIR" CFLAGS="$HOSTCFLAGS" || \
touch .failed
# work around build problem of libmpfr.la
if [ "$DESTDIR" != "" ]; then
perl -pi -e "s,$TARGETDIR/lib/libgmp.la,$DESTDIR\$&," "$DESTDIR$TARGETDIR/lib/libmpfr.la"
fi
# shellcheck disable=SC2086
$MAKE $JOBS || touch .failed
$MAKE install DESTDIR=$DESTDIR || touch .failed
# work around build problem of libmpfr.la
if [ "$DESTDIR" != "" ]; then
perl -pi -e "s,$DESTDIR,," "$DESTDIR$TARGETDIR/lib/libmpfr.la"
fi
normalize_dirs
}
build_BINUTILS() {
if [ $TARGETARCH = "x86_64-elf" ]; then
ADDITIONALTARGET=",i386-elf"
fi
CC="$(hostcc target)" CXX="$(hostcxx target)" \
../binutils-${BINUTILS_VERSION}/configure --prefix="$TARGETDIR" \
--target=${TARGETARCH} --enable-targets=${TARGETARCH}${ADDITIONALTARGET} \
--disable-werror --disable-nls --enable-lto --enable-gold \
--enable-interwork --enable-multilib \
--enable-plugins --enable-multilibs \
CFLAGS="$HOSTCFLAGS" \
CXXFLAGS="$HOSTCFLAGS" \
|| touch .failed
# shellcheck disable=SC2086
$MAKE $JOBS || touch .failed
$MAKE install DESTDIR=$DESTDIR || touch .failed
}
buildgcc: Add option to bootstrap a host gcc Bootstrapping gcc is the recommended way if your host gcc's version doesn't match the gcc version you're going to build. While a build with an outdated host gcc usually succeeds, an outdated gnat seems to be a bigger issue. v3: Some library controversy: gcc likes the libraries it ships with most but we don't want to install shared libraries. So we build them static --disable-shared) and install only the minimum (libgcc, libada, libstdc++). However, as the code of these libraries might be used to build a shared library we have to compile them with `-fPIC`. v4: o Updated getopt strings. o The workaround for clang (-fbracket-depth=1024) isn't needed for bootstrapping and also breaks the build, as clang is only used for the first stage in that case and gcc doesn't know that option. So far build tested with `make BUILDGCC_OPTIONS="-b -l c,ada"` on o Ubuntu 14.04 "Trusty Tahr" (i386) o Debian 8 "Jessie" (x86_64) (building python (-S) works too) o current Arch Linux (x86_64) o FreeBSD 10.3 (x86_64) (with gcc-aux package) and with clang host compiler, thus C only: `make BUILDGCC_OPTIONS="-b"` on o Debian 8 "Jessie" (x86_64) o FreeBSD 10.3 (x86_64) v5: Rebased after toolchain updates to GCC 5.3.0 etc. Build tested with `make BUILDGCC_OPTIONS="-b -l c,ada"` on o Debian 8 "Jessie" (x86_64) Change-Id: Icb47d3e9dbafc55737fbc3ce62a084fb9d5f359a Signed-off-by: Nico Huber <nico.huber@secunet.com> Reviewed-on: https://review.coreboot.org/13473 Tested-by: build bot (Jenkins) Reviewed-by: Patrick Georgi <pgeorgi@google.com>
2016-01-26 16:10:17 +01:00
bootstrap_GCC() {
# shellcheck disable=SC2086
CC="$(hostcc host)" CXX="$(hostcxx host)" \
buildgcc: Add option to bootstrap a host gcc Bootstrapping gcc is the recommended way if your host gcc's version doesn't match the gcc version you're going to build. While a build with an outdated host gcc usually succeeds, an outdated gnat seems to be a bigger issue. v3: Some library controversy: gcc likes the libraries it ships with most but we don't want to install shared libraries. So we build them static --disable-shared) and install only the minimum (libgcc, libada, libstdc++). However, as the code of these libraries might be used to build a shared library we have to compile them with `-fPIC`. v4: o Updated getopt strings. o The workaround for clang (-fbracket-depth=1024) isn't needed for bootstrapping and also breaks the build, as clang is only used for the first stage in that case and gcc doesn't know that option. So far build tested with `make BUILDGCC_OPTIONS="-b -l c,ada"` on o Ubuntu 14.04 "Trusty Tahr" (i386) o Debian 8 "Jessie" (x86_64) (building python (-S) works too) o current Arch Linux (x86_64) o FreeBSD 10.3 (x86_64) (with gcc-aux package) and with clang host compiler, thus C only: `make BUILDGCC_OPTIONS="-b"` on o Debian 8 "Jessie" (x86_64) o FreeBSD 10.3 (x86_64) v5: Rebased after toolchain updates to GCC 5.3.0 etc. Build tested with `make BUILDGCC_OPTIONS="-b -l c,ada"` on o Debian 8 "Jessie" (x86_64) Change-Id: Icb47d3e9dbafc55737fbc3ce62a084fb9d5f359a Signed-off-by: Nico Huber <nico.huber@secunet.com> Reviewed-on: https://review.coreboot.org/13473 Tested-by: build bot (Jenkins) Reviewed-by: Patrick Georgi <pgeorgi@google.com>
2016-01-26 16:10:17 +01:00
CFLAGS="$HOSTCFLAGS" \
CFLAGS_FOR_BUILD="$HOSTCFLAGS" \
CFLAGS_FOR_TARGET="$HOSTCFLAGS -fPIC" \
CXXFLAGS="$HOSTCFLAGS" \
CXXFLAGS_FOR_BUILD="$HOSTCFLAGS" \
CXXFLAGS_FOR_TARGET="$HOSTCFLAGS -fPIC" \
../gcc-${GCC_VERSION}/configure \
--prefix="$TARGETDIR" --libexecdir="$TARGETDIR/lib" \
buildgcc: Add option to bootstrap a host gcc Bootstrapping gcc is the recommended way if your host gcc's version doesn't match the gcc version you're going to build. While a build with an outdated host gcc usually succeeds, an outdated gnat seems to be a bigger issue. v3: Some library controversy: gcc likes the libraries it ships with most but we don't want to install shared libraries. So we build them static --disable-shared) and install only the minimum (libgcc, libada, libstdc++). However, as the code of these libraries might be used to build a shared library we have to compile them with `-fPIC`. v4: o Updated getopt strings. o The workaround for clang (-fbracket-depth=1024) isn't needed for bootstrapping and also breaks the build, as clang is only used for the first stage in that case and gcc doesn't know that option. So far build tested with `make BUILDGCC_OPTIONS="-b -l c,ada"` on o Ubuntu 14.04 "Trusty Tahr" (i386) o Debian 8 "Jessie" (x86_64) (building python (-S) works too) o current Arch Linux (x86_64) o FreeBSD 10.3 (x86_64) (with gcc-aux package) and with clang host compiler, thus C only: `make BUILDGCC_OPTIONS="-b"` on o Debian 8 "Jessie" (x86_64) o FreeBSD 10.3 (x86_64) v5: Rebased after toolchain updates to GCC 5.3.0 etc. Build tested with `make BUILDGCC_OPTIONS="-b -l c,ada"` on o Debian 8 "Jessie" (x86_64) Change-Id: Icb47d3e9dbafc55737fbc3ce62a084fb9d5f359a Signed-off-by: Nico Huber <nico.huber@secunet.com> Reviewed-on: https://review.coreboot.org/13473 Tested-by: build bot (Jenkins) Reviewed-by: Patrick Georgi <pgeorgi@google.com>
2016-01-26 16:10:17 +01:00
--enable-bootstrap \
--disable-werror --disable-nls \
--disable-shared --disable-multilib \
--disable-libssp --disable-libquadmath --disable-libcc1 \
--disable-libsanitizer \
buildgcc: Add option to bootstrap a host gcc Bootstrapping gcc is the recommended way if your host gcc's version doesn't match the gcc version you're going to build. While a build with an outdated host gcc usually succeeds, an outdated gnat seems to be a bigger issue. v3: Some library controversy: gcc likes the libraries it ships with most but we don't want to install shared libraries. So we build them static --disable-shared) and install only the minimum (libgcc, libada, libstdc++). However, as the code of these libraries might be used to build a shared library we have to compile them with `-fPIC`. v4: o Updated getopt strings. o The workaround for clang (-fbracket-depth=1024) isn't needed for bootstrapping and also breaks the build, as clang is only used for the first stage in that case and gcc doesn't know that option. So far build tested with `make BUILDGCC_OPTIONS="-b -l c,ada"` on o Ubuntu 14.04 "Trusty Tahr" (i386) o Debian 8 "Jessie" (x86_64) (building python (-S) works too) o current Arch Linux (x86_64) o FreeBSD 10.3 (x86_64) (with gcc-aux package) and with clang host compiler, thus C only: `make BUILDGCC_OPTIONS="-b"` on o Debian 8 "Jessie" (x86_64) o FreeBSD 10.3 (x86_64) v5: Rebased after toolchain updates to GCC 5.3.0 etc. Build tested with `make BUILDGCC_OPTIONS="-b -l c,ada"` on o Debian 8 "Jessie" (x86_64) Change-Id: Icb47d3e9dbafc55737fbc3ce62a084fb9d5f359a Signed-off-by: Nico Huber <nico.huber@secunet.com> Reviewed-on: https://review.coreboot.org/13473 Tested-by: build bot (Jenkins) Reviewed-by: Patrick Georgi <pgeorgi@google.com>
2016-01-26 16:10:17 +01:00
${GCC_OPTIONS} --enable-languages="${LANGUAGES}" \
--with-gmp="$DESTDIR$TARGETDIR" --with-mpfr="$DESTDIR$TARGETDIR" \
--with-mpc="$DESTDIR$TARGETDIR" \
--with-pkgversion="coreboot bootstrap v$CROSSGCC_VERSION" \
buildgcc: Add option to bootstrap a host gcc Bootstrapping gcc is the recommended way if your host gcc's version doesn't match the gcc version you're going to build. While a build with an outdated host gcc usually succeeds, an outdated gnat seems to be a bigger issue. v3: Some library controversy: gcc likes the libraries it ships with most but we don't want to install shared libraries. So we build them static --disable-shared) and install only the minimum (libgcc, libada, libstdc++). However, as the code of these libraries might be used to build a shared library we have to compile them with `-fPIC`. v4: o Updated getopt strings. o The workaround for clang (-fbracket-depth=1024) isn't needed for bootstrapping and also breaks the build, as clang is only used for the first stage in that case and gcc doesn't know that option. So far build tested with `make BUILDGCC_OPTIONS="-b -l c,ada"` on o Ubuntu 14.04 "Trusty Tahr" (i386) o Debian 8 "Jessie" (x86_64) (building python (-S) works too) o current Arch Linux (x86_64) o FreeBSD 10.3 (x86_64) (with gcc-aux package) and with clang host compiler, thus C only: `make BUILDGCC_OPTIONS="-b"` on o Debian 8 "Jessie" (x86_64) o FreeBSD 10.3 (x86_64) v5: Rebased after toolchain updates to GCC 5.3.0 etc. Build tested with `make BUILDGCC_OPTIONS="-b -l c,ada"` on o Debian 8 "Jessie" (x86_64) Change-Id: Icb47d3e9dbafc55737fbc3ce62a084fb9d5f359a Signed-off-by: Nico Huber <nico.huber@secunet.com> Reviewed-on: https://review.coreboot.org/13473 Tested-by: build bot (Jenkins) Reviewed-by: Patrick Georgi <pgeorgi@google.com>
2016-01-26 16:10:17 +01:00
&& \
# shellcheck disable=SC2086
buildgcc: Add option to bootstrap a host gcc Bootstrapping gcc is the recommended way if your host gcc's version doesn't match the gcc version you're going to build. While a build with an outdated host gcc usually succeeds, an outdated gnat seems to be a bigger issue. v3: Some library controversy: gcc likes the libraries it ships with most but we don't want to install shared libraries. So we build them static --disable-shared) and install only the minimum (libgcc, libada, libstdc++). However, as the code of these libraries might be used to build a shared library we have to compile them with `-fPIC`. v4: o Updated getopt strings. o The workaround for clang (-fbracket-depth=1024) isn't needed for bootstrapping and also breaks the build, as clang is only used for the first stage in that case and gcc doesn't know that option. So far build tested with `make BUILDGCC_OPTIONS="-b -l c,ada"` on o Ubuntu 14.04 "Trusty Tahr" (i386) o Debian 8 "Jessie" (x86_64) (building python (-S) works too) o current Arch Linux (x86_64) o FreeBSD 10.3 (x86_64) (with gcc-aux package) and with clang host compiler, thus C only: `make BUILDGCC_OPTIONS="-b"` on o Debian 8 "Jessie" (x86_64) o FreeBSD 10.3 (x86_64) v5: Rebased after toolchain updates to GCC 5.3.0 etc. Build tested with `make BUILDGCC_OPTIONS="-b -l c,ada"` on o Debian 8 "Jessie" (x86_64) Change-Id: Icb47d3e9dbafc55737fbc3ce62a084fb9d5f359a Signed-off-by: Nico Huber <nico.huber@secunet.com> Reviewed-on: https://review.coreboot.org/13473 Tested-by: build bot (Jenkins) Reviewed-by: Patrick Georgi <pgeorgi@google.com>
2016-01-26 16:10:17 +01:00
$MAKE $JOBS BOOT_CFLAGS="$HOSTCFLAGS" BUILD_CONFIG="" bootstrap && \
$MAKE install-gcc \
install-target-libgcc \
maybe-install-target-libada \
maybe-install-target-libstdc++-v3 \
DESTDIR=$DESTDIR || touch .failed
buildgcc: Add option to bootstrap a host gcc Bootstrapping gcc is the recommended way if your host gcc's version doesn't match the gcc version you're going to build. While a build with an outdated host gcc usually succeeds, an outdated gnat seems to be a bigger issue. v3: Some library controversy: gcc likes the libraries it ships with most but we don't want to install shared libraries. So we build them static --disable-shared) and install only the minimum (libgcc, libada, libstdc++). However, as the code of these libraries might be used to build a shared library we have to compile them with `-fPIC`. v4: o Updated getopt strings. o The workaround for clang (-fbracket-depth=1024) isn't needed for bootstrapping and also breaks the build, as clang is only used for the first stage in that case and gcc doesn't know that option. So far build tested with `make BUILDGCC_OPTIONS="-b -l c,ada"` on o Ubuntu 14.04 "Trusty Tahr" (i386) o Debian 8 "Jessie" (x86_64) (building python (-S) works too) o current Arch Linux (x86_64) o FreeBSD 10.3 (x86_64) (with gcc-aux package) and with clang host compiler, thus C only: `make BUILDGCC_OPTIONS="-b"` on o Debian 8 "Jessie" (x86_64) o FreeBSD 10.3 (x86_64) v5: Rebased after toolchain updates to GCC 5.3.0 etc. Build tested with `make BUILDGCC_OPTIONS="-b -l c,ada"` on o Debian 8 "Jessie" (x86_64) Change-Id: Icb47d3e9dbafc55737fbc3ce62a084fb9d5f359a Signed-off-by: Nico Huber <nico.huber@secunet.com> Reviewed-on: https://review.coreboot.org/13473 Tested-by: build bot (Jenkins) Reviewed-by: Patrick Georgi <pgeorgi@google.com>
2016-01-26 16:10:17 +01:00
}
build_cross_GCC() {
# Work around crazy code generator in GCC that confuses CLANG.
$CC --version | grep clang >/dev/null 2>&1 && \
CLANGFLAGS="-fbracket-depth=1024"
[ -n "$CXX" ] && $CXX --version | grep clang >/dev/null 2>&1 && \
CLANGCXXFLAGS="-fbracket-depth=1024"
# GCC does not honor HOSTCFLAGS at all. CFLAGS are used for
# both target and host object files.
# There's a work-around called CFLAGS_FOR_BUILD and CFLAGS_FOR_TARGET
# but it does not seem to work properly. At least the host library
# libiberty is not compiled with CFLAGS_FOR_BUILD.
# Also set the CXX version of the flags because GCC is now compiled
# using C++.
# shellcheck disable=SC2086
CC="$(hostcc target)" CXX="$(hostcxx target)" \
CFLAGS_FOR_TARGET="-O2 -Dinhibit_libc" \
CFLAGS="$HOSTCFLAGS $CLANGFLAGS" \
CFLAGS_FOR_BUILD="$HOSTCFLAGS $CLANGFLAGS" \
CXXFLAGS="$HOSTCFLAGS $CLANGCXXFLAGS" \
CXXFLAGS_FOR_BUILD="$HOSTCFLAGS $CLANGCXXFLAGS" \
../gcc-${GCC_VERSION}/configure \
--prefix="$TARGETDIR" --libexecdir="$TARGETDIR/lib" \
--target=${TARGETARCH} --disable-werror --disable-shared \
--enable-lto --enable-plugins --enable-gold --enable-ld=default \
--disable-libssp --disable-bootstrap --disable-nls \
--disable-libquadmath --without-headers \
--disable-threads \
--enable-interwork --enable-multilib --enable-targets=all \
--disable-libatomic --disable-libcc1 --disable-decimal-float \
${GCC_OPTIONS} --enable-languages="${LANGUAGES}" \
--with-system-zlib \
--with-gmp="$DESTDIR$TARGETDIR" --with-mpfr="$DESTDIR$TARGETDIR" \
--with-mpc="$DESTDIR$TARGETDIR" \
--with-gnu-as --with-gnu-ld \
--with-pkgversion="coreboot toolchain v$CROSSGCC_VERSION" \
&& \
mkdir -p gcc/$TARGETARCH && \
rm -f "gcc/$TARGETARCH/$GCC_VERSION" && \
ln -s "$DESTDIR$TARGETDIR/$TARGETARCH/bin" "gcc/$TARGETARCH/$GCC_VERSION" && \
$MAKE $JOBS CFLAGS_FOR_BUILD="$HOSTCFLAGS" all-gcc && \
$MAKE install-gcc DESTDIR="$DESTDIR" || touch .failed
if [ ! -f .failed ] && [ "$(echo $TARGETARCH | grep -c -- -mingw32)" -eq 0 ]; then
# shellcheck disable=SC2086
$MAKE $JOBS CFLAGS_FOR_BUILD="$HOSTCFLAGS" all-target-libgcc && \
$MAKE install-target-libgcc DESTDIR=$DESTDIR || touch .failed
fi
}
buildgcc: Add option to bootstrap a host gcc Bootstrapping gcc is the recommended way if your host gcc's version doesn't match the gcc version you're going to build. While a build with an outdated host gcc usually succeeds, an outdated gnat seems to be a bigger issue. v3: Some library controversy: gcc likes the libraries it ships with most but we don't want to install shared libraries. So we build them static --disable-shared) and install only the minimum (libgcc, libada, libstdc++). However, as the code of these libraries might be used to build a shared library we have to compile them with `-fPIC`. v4: o Updated getopt strings. o The workaround for clang (-fbracket-depth=1024) isn't needed for bootstrapping and also breaks the build, as clang is only used for the first stage in that case and gcc doesn't know that option. So far build tested with `make BUILDGCC_OPTIONS="-b -l c,ada"` on o Ubuntu 14.04 "Trusty Tahr" (i386) o Debian 8 "Jessie" (x86_64) (building python (-S) works too) o current Arch Linux (x86_64) o FreeBSD 10.3 (x86_64) (with gcc-aux package) and with clang host compiler, thus C only: `make BUILDGCC_OPTIONS="-b"` on o Debian 8 "Jessie" (x86_64) o FreeBSD 10.3 (x86_64) v5: Rebased after toolchain updates to GCC 5.3.0 etc. Build tested with `make BUILDGCC_OPTIONS="-b -l c,ada"` on o Debian 8 "Jessie" (x86_64) Change-Id: Icb47d3e9dbafc55737fbc3ce62a084fb9d5f359a Signed-off-by: Nico Huber <nico.huber@secunet.com> Reviewed-on: https://review.coreboot.org/13473 Tested-by: build bot (Jenkins) Reviewed-by: Patrick Georgi <pgeorgi@google.com>
2016-01-26 16:10:17 +01:00
build_GCC() {
if [ "$1" = host ]; then
bootstrap_GCC "$1"
buildgcc: Add option to bootstrap a host gcc Bootstrapping gcc is the recommended way if your host gcc's version doesn't match the gcc version you're going to build. While a build with an outdated host gcc usually succeeds, an outdated gnat seems to be a bigger issue. v3: Some library controversy: gcc likes the libraries it ships with most but we don't want to install shared libraries. So we build them static --disable-shared) and install only the minimum (libgcc, libada, libstdc++). However, as the code of these libraries might be used to build a shared library we have to compile them with `-fPIC`. v4: o Updated getopt strings. o The workaround for clang (-fbracket-depth=1024) isn't needed for bootstrapping and also breaks the build, as clang is only used for the first stage in that case and gcc doesn't know that option. So far build tested with `make BUILDGCC_OPTIONS="-b -l c,ada"` on o Ubuntu 14.04 "Trusty Tahr" (i386) o Debian 8 "Jessie" (x86_64) (building python (-S) works too) o current Arch Linux (x86_64) o FreeBSD 10.3 (x86_64) (with gcc-aux package) and with clang host compiler, thus C only: `make BUILDGCC_OPTIONS="-b"` on o Debian 8 "Jessie" (x86_64) o FreeBSD 10.3 (x86_64) v5: Rebased after toolchain updates to GCC 5.3.0 etc. Build tested with `make BUILDGCC_OPTIONS="-b -l c,ada"` on o Debian 8 "Jessie" (x86_64) Change-Id: Icb47d3e9dbafc55737fbc3ce62a084fb9d5f359a Signed-off-by: Nico Huber <nico.huber@secunet.com> Reviewed-on: https://review.coreboot.org/13473 Tested-by: build bot (Jenkins) Reviewed-by: Patrick Georgi <pgeorgi@google.com>
2016-01-26 16:10:17 +01:00
else
build_cross_GCC "$1"
buildgcc: Add option to bootstrap a host gcc Bootstrapping gcc is the recommended way if your host gcc's version doesn't match the gcc version you're going to build. While a build with an outdated host gcc usually succeeds, an outdated gnat seems to be a bigger issue. v3: Some library controversy: gcc likes the libraries it ships with most but we don't want to install shared libraries. So we build them static --disable-shared) and install only the minimum (libgcc, libada, libstdc++). However, as the code of these libraries might be used to build a shared library we have to compile them with `-fPIC`. v4: o Updated getopt strings. o The workaround for clang (-fbracket-depth=1024) isn't needed for bootstrapping and also breaks the build, as clang is only used for the first stage in that case and gcc doesn't know that option. So far build tested with `make BUILDGCC_OPTIONS="-b -l c,ada"` on o Ubuntu 14.04 "Trusty Tahr" (i386) o Debian 8 "Jessie" (x86_64) (building python (-S) works too) o current Arch Linux (x86_64) o FreeBSD 10.3 (x86_64) (with gcc-aux package) and with clang host compiler, thus C only: `make BUILDGCC_OPTIONS="-b"` on o Debian 8 "Jessie" (x86_64) o FreeBSD 10.3 (x86_64) v5: Rebased after toolchain updates to GCC 5.3.0 etc. Build tested with `make BUILDGCC_OPTIONS="-b -l c,ada"` on o Debian 8 "Jessie" (x86_64) Change-Id: Icb47d3e9dbafc55737fbc3ce62a084fb9d5f359a Signed-off-by: Nico Huber <nico.huber@secunet.com> Reviewed-on: https://review.coreboot.org/13473 Tested-by: build bot (Jenkins) Reviewed-by: Patrick Georgi <pgeorgi@google.com>
2016-01-26 16:10:17 +01:00
fi
}
build_EXPAT() {
CC="$(hostcc host)" CXX="$(hostcxx host)" CFLAGS="$HOSTCFLAGS"
../${EXPAT_DIR}/configure --disable-shared --prefix="$TARGETDIR" \
|| touch .failed
$MAKE || touch .failed
$MAKE install DESTDIR=$DESTDIR || touch .failed
normalize_dirs
}
build_PYTHON() {
CC="$(hostcc host)" CXX="$(hostcxx host)" CFLAGS="$HOSTCFLAGS"
../${PYTHON_DIR}/configure --prefix="$TARGETDIR" \
|| touch .failed
# shellcheck disable=SC2086
$MAKE $JOBS || touch .failed
$MAKE install DESTDIR=$DESTDIR || touch .failed
normalize_dirs
}
build_GDB() {
export PYTHONHOME=$DESTDIR$TARGETDIR
if [ "$UNAME" != "FreeBSD" ] && [ "$UNAME" != "NetBSD" ]; then
LIBDL="-ldl"
fi
LDFLAGS="-Wl,-rpath,\$\$ORIGIN/../lib/ -L$DESTDIR$TARGETDIR/lib \
-lpthread $LIBDL -lutil" \
CC="$(hostcc target)" CXX="$(hostcxx target)" \
CFLAGS="$HOSTCFLAGS -I$DESTDIR$TARGETDIR/include" \
../${GDB_DIR}/configure --prefix="$TARGETDIR" \
--target=${TARGETARCH} --disable-werror --disable-nls
# shellcheck disable=SC2086
$MAKE $JOBS || touch .failed
$MAKE install DESTDIR=$DESTDIR || touch .failed
}
build_IASL() {
RDIR=$PWD
cd ../$IASL_DIR/generate/unix || exit 1
CFLAGS="$HOSTCFLAGS"
HOST="_LINUX"
test "$UNAME" = "Darwin" && HOST="_APPLE"
test "$UNAME" = "FreeBSD" && HOST="_FreeBSD"
test "$UNAME" = "Cygwin" && HOST="_CYGWIN"
HOST="$HOST" CFLAGS="$CFLAGS" \
OPT_CFLAGS="-O -D_FORTIFY_SOURCE=2 -D COREBOOT_TOOLCHAIN_VERSION='\"coreboot toolchain v$CROSSGCC_VERSION\"' " \
$MAKE $JOBS CC="$(hostcc host)" iasl acpibin acpidump acpiexec acpihelp acpisrc acpixtract
mkdir -p "$DESTDIR$TARGETDIR/bin/"
(cd "$DESTDIR$TARGETDIR/bin" && rm -f iasl acpibin acpidump acpiexec acpihelp acpisrc acpixtract) || touch "$RDIR/.failed"
(cd bin && cp iasl acpibin acpidump acpiexec acpihelp acpisrc acpixtract "$DESTDIR$TARGETDIR/bin") || touch "$RDIR/.failed"
}
build_LLVM() {
ln -nsf "$LLVM_DIR" ../llvm
ln -nsf "$CLANG_DIR" ../clang
ln -nsf "$CTE_DIR" ../clang-tools-extra
ln -nsf "$CRT_DIR" ../compiler-rt
$CMAKE -G "Unix Makefiles" -DCMAKE_INSTALL_PREFIX="$DESTDIR$TARGETDIR" \
-DCLANG_VENDOR="coreboot toolchain v$CROSSGCC_VERSION - " \
-DLLVM_ENABLE_PROJECTS="clang;clang-tools-extra;compiler-rt" \
-DCMAKE_BUILD_TYPE=Release ../llvm || touch .failed
# shellcheck disable=SC2086
$MAKE $JOBS || touch .failed
$MAKE install || touch .failed
rm -f ../llvm ../clang ../clang-tools-extra ../compiler-rt
cp -a ../$CLANG_DIR/tools/scan-build/* "$DESTDIR$TARGETDIR/bin"
cp -a ../$CLANG_DIR/tools/scan-view/* "$DESTDIR$TARGETDIR/bin"
# create symlinks to work around broken --print-librt-file-name
# when used with -target.
cd "$DESTDIR$TARGETDIR/lib/clang/${CLANG_VERSION}/lib" || exit 1
for i in */libclang_rt.builtins*.a; do
ln -s "$i" .
done
}
build_CMAKE() {
CC="$(hostcc host)" CXX="$(hostcxx host)" CFLAGS="$HOSTCFLAGS" \
../${CMAKE_DIR}/configure --prefix="$TARGETDIR" \
|| touch .failed
# shellcheck disable=SC2086
$MAKE $JOBS || touch .failed
$MAKE install DESTDIR=$DESTDIR || touch .failed
normalize_dirs
}
build_NASM() {
CC="$(hostcc host)" CXX="$(hostcxx host)" CFLAGS="$HOSTCFLAGS"
../${NASM_DIR}/configure --prefix="$TARGETDIR" \
|| touch .failed
# shellcheck disable=SC2086
$MAKE $JOBS || touch .failed
$MAKE install DESTDIR=$DESTDIR || touch .failed
normalize_dirs
}
print_supported() {
case "$PRINTSUPPORTED" in
AUTOCONF|autoconf) printf "%s\n" "$GCC_AUTOCONF_VERSION";;
BINUTILS|binutils) printf "%s\n" "$BINUTILS_VERSION";;
CLANG|clang) printf "%s\n" "$CLANG_VERSION";;
EXPAT|expat) printf "%s\n" "$EXPAT_VERSION";;
GCC|gcc) printf "%s\n" "$GCC_VERSION";;
GDB|gdb) printf "%s\n" "$GDB_VERSION";;
GMP|gmp) printf "%s\n" "$GMP_VERSION";;
IASL|iasl) printf "%s\n" "$IASL_VERSION";;
MPC|mpc) printf "%s\n" "$MPC_VERSION";;
MPFR|mpfr) printf "%s\n" "$MPFR_VERSION";;
PYTHON|python) printf "%s\n" "$PYTHON_VERSION";;
NASM|nasm) printf "%s\n" "${NASM_VERSION}";;
*) printf "Unknown tool %s\n" "$PRINTSUPPORTED";;
esac
}
trap exit_handler 1 2 3 15
# Look if we have getopt. If not, build it.
export PATH=$PATH:.
getopt - > /dev/null 2>/dev/null || gcc -o getopt getopt.c
# parse parameters.. try to find out whether we're running GNU getopt
getoptbrand="$(getopt -V 2>/dev/null | sed -e '1!d' -e 's,^\(......\).*,\1,')"
if [ "${getoptbrand}" = "getopt" ]; then
# Detected GNU getopt that supports long options.
args=$(getopt -l print-version,version,help,clean,directory:,bootstrap,bootstrap-only,platform:,languages:,package:,jobs:,destdir:,savetemps,scripting,ccache,supported:,urls,nocolor -o WVhcd:bBp:l:P:j:D:tSys:un -- "$@")
getopt_ret=$?
eval set -- "$args"
else
# Detected non-GNU getopt
args=$(getopt WVhcd:bBp:l:P:j:D:tSys:un $*)
getopt_ret=$?
# shellcheck disable=SC2086
set -- $args
fi
if [ $getopt_ret != 0 ]; then
myhelp
exit 1
fi
while true ; do
case "$1" in
-W|--print-version) shift; echo $CROSSGCC_VERSION; exit 0;;
-V|--version) shift; myversion; exit 0;;
-h|--help) shift; myhelp; exit 0;;
-c|--clean) shift; clean=1;;
-t|--savetemps) shift; SAVETEMPS=1;;
-d|--directory) shift; TARGETDIR="$1"; shift;;
-b|--bootstrap) shift; BOOTSTRAP=1;;
-B|--bootstrap-only) shift; BOOTSTRAPONLY=1; BOOTSTRAP=1;;
-p|--platform) shift; TARGETARCH="$1"; shift;;
-l|--languages) shift; LANGUAGES="$1"; shift;;
-D|--destdir) shift; DESTDIR="$1"; shift;;
-j|--jobs) shift; THREADS="$1"; JOBS="-j $1"; shift;;
-P|--package) shift; PACKAGE="$1"; shift;;
-S|--scripting) shift; SKIPPYTHON=0;;
-y|--ccache) shift; USECCACHE=1;;
-s|--supported) shift; PRINTSUPPORTED="$1"; shift;;
-u|--urls) shift; printf "%s\n" "$ALL_ARCHIVES"; exit 0;;
-n|--nocolor) shift; \
unset red RED green GREEN blue BLUE cyan CYAN NC;;
--) shift; break;;
*) break;;
esac
done
if [ $# -gt 0 ]; then
printf "Excessive arguments: $*\n"
myhelp
exit 1
fi
if [ -n "$PRINTSUPPORTED" ]; then
print_supported
exit 0
fi
#print toolchain builder version string as the header
printversion
printf "Building toolchain using %d thread(s).\n\n" "$THREADS"
case "$TARGETARCH" in
x86_64-elf) ;;
x86_64*) TARGETARCH=x86_64-elf;;
i386-elf) ;;
i386-mingw32) ;;
riscv-elf) TARGETARCH=riscv64-elf;;
powerpc64*-linux*) ;;
i386*) TARGETARCH=i386-elf;;
arm*) TARGETARCH=arm-eabi;;
aarch64*) TARGETARCH=aarch64-elf;;
nds32le-elf) ;;
*) printf "${red}WARNING: Unsupported architecture $TARGETARCH.${NC}\n\n"; ;;
esac
# Figure out which packages to build
case "$PACKAGE" in
GCC|gcc)
echo "Target architecture is $TARGETARCH"
NAME="${TARGETARCH} cross GCC"
PACKAGES="GMP MPFR MPC BINUTILS GCC"
;;
GDB|gdb)
NAME="${TARGETARCH} cross GDB"
if [ $SKIPPYTHON -eq 0 ]; then
PACKAGES="EXPAT PYTHON GDB"
else
PACKAGES="EXPAT GDB"
fi
;;
CLANG|clang)
NAME="LLVM clang"
LLVM_VERSION=${CLANG_VERSION}
PACKAGES="CMAKE LLVM CLANG CRT CTE"
CMAKE=${DESTDIR}${TARGETDIR}/bin/cmake
;;
IASL|iasl)
NAME="IASL ACPI compiler"
PACKAGES=IASL
;;
CMAKE|cmake)
NAME="CMake"
PACKAGES=CMAKE
;;
NASM|nasm)
NAME="NASM"
PACKAGES=NASM
;;
*)
printf "${red}ERROR: Unsupported package $PACKAGE. (Supported packages are GCC, GDB, CLANG, IASL, and NASM)${NC}\n\n";
exit 1
;;
esac
# Find all the required tools:
TAR=$(searchtool tar) || exit $?
PATCH=$(searchtool patch) || exit $?
MAKE=$(searchtool make) || exit $?
SHA1SUM=$(searchtool sha1sum)
#SHA512SUM=$(searchtool sha512sum)
#MD5SUM=$(searchtool md5sum)
CHECKSUM=$SHA1SUM
LBZIP2=$(searchtool lbzip2 "" nofail)
PIGZ=$(searchtool pigz "" nofail)
searchtool m4 > /dev/null
searchtool bison > /dev/null
searchtool flex flex > /dev/null
searchtool bzip2 "bzip2," > /dev/null
searchtool xz "XZ Utils" "" "xz-utils" > /dev/null
if searchtool wget "GNU" nofail > /dev/null; then
download_showing_percentage() {
url=$1
printf "... ${red} 0%%"
wget --tries=3 "$url" 2>&1 | while read -r line; do
echo "$line" | grep -o "[0-9]\+%" | awk '{printf("\b\b\b\b%4s", $1)}'
done
buildgcc: Implement simple tarball hash verification This patch implements a relatively simple hash-based verification scheme for downloaded files (tarballs): After buildgcc downloads a file or notices that it has already been downloaded, it hashes the file, and compares the hash against the known hash stored in util/crossgcc/sum/$filename.cksum. Two errors can occur: 1. The hash file is missing. In this case, crossgcc asks the user to verify the authenticity of the downloaded file. It also calculates its hash and stores it in util/crossgcc/sum/$filename.cksum.calc. If the file is authentic, the user may rename the calculated hash file to $filename.cksum, so that it can be found the next time buildgcc is started. 2. The known hash and the calculated hash differ. This is the case that this patch seeks to protect against, because it may imply that the downloaded file was unexpectedly changed, either in transit (Man-in-the-Middle attack) or on the file server that it was downloaded from. If buildgcc detects such a hash mismatch, it asks the user to delete the downloaded file and retry, because it can also be caused by a benign network error. If, however, the error persists, buildgcc can't continue without risking that the user runs malicious code, and it stops. Note: The hash algorithm may be changed in the future, but for now I left it at SHA-1, to avoid bloating this patch. Change-Id: I0d5d67b34684d02011a845d00f6f5b6769f43b4f Signed-off-by: Jonathan Neuschäfer <j.neuschaefer@gmx.net> Reviewed-on: https://review.coreboot.org/21592 Tested-by: build bot (Jenkins) <no-reply@coreboot.org> Reviewed-by: Paul Menzel <paulepanter@users.sourceforge.net> Reviewed-by: Patrick Georgi <pgeorgi@google.com>
2017-09-26 22:33:53 +02:00
printf "${NC}... "
}
elif searchtool curl "^curl " > /dev/null; then
download_showing_percentage() {
url=$1
echo
curl -O --progress-bar --location --retry 3 "$url"
}
fi
# Allow $CC override from the environment.
if [ -n "$CC" ]; then
if [ ! -x "$(command -v "$CC" 2>/dev/null)" ]; then
printf "${RED}ERROR:${red} CC is set to '%s' but wasn't found.${NC}\n" "$CC"
HALT_FOR_TOOLS=1
fi
else
if searchtool gnatgcc "Free Software Foundation" nofail > /dev/null; then
CC=gnatgcc
elif searchtool gcc "Free Software Foundation" nofail > /dev/null; then
CC=gcc
else
searchtool cc '^' nofail > /dev/null || please_install gcc
CC=cc
fi
fi
# We can leave $CXX empty if it's not set since *buildgcc* never
# calls it directly. This way configure scripts can search for
# themselves and we still override it when a bootstrapped g++ is
# to be used (cf. hostcxx()).
if [ -n "$CXX" ]; then
if [ ! -x "$(command -v "$CXX" 2>/dev/null)" ]; then
printf "${RED}ERROR:${red} CXX is set to '%s' but wasn't found.${NC}\n" "$CXX"
HALT_FOR_TOOLS=1
fi
else
searchtool g++ "Free Software Foundation" nofail > /dev/null || \
searchtool clang "clang version" nofail > /dev/null || \
searchtool clang "LLVM" "" "g++" > /dev/null
fi
check_for_library "-lz" "zlib (zlib1g-dev or zlib-devel)"
if [ "$HALT_FOR_TOOLS" -ne 0 ]; then
exit 1
fi
# This initial cleanup is useful when updating the toolchain script.
if [ "$clean" = "1" ]; then
cleanup
fi
# Set up host compiler and flags needed for various OSes
if is_package_enabled "GCC"; then
# sane preset: let the configure script figure out things by itself
# more importantly, avoid any values that might already linger in the variable
OPTIONS="ABI="
if [ "$UNAME" = "Darwin" ]; then
#GCC_OPTIONS="$GCC_OPTIONS --enable-threads=posix"
# generally the OS X compiler can create x64 binaries.
# Per default it generated i386 binaries in 10.5 and x64
# binaries in 10.6 (even if the kernel is 32bit)
# For some weird reason, 10.5 autodetects an ABI=64 though
# so we're setting the ABI explicitly here.
if [ "$(sysctl -n hw.optional.x86_64 2>/dev/null)" -eq 1 ] 2>/dev/null; then
OPTIONS="ABI=64"
else
OPTIONS="ABI=32"
fi
# In Xcode 4.5.2 the default compiler is clang.
# However, this compiler fails to compile gcc 4.7.x. As a
# workaround it's possible to compile gcc with llvm-gcc.
if $CC -v 2>&1 | grep -q LLVM; then
CC=llvm-gcc
fi
elif [ "$UNAME" = "Linux" ] || [ "$UNAME" = "Cygwin" ]; then
# gmp is overeager with detecting 64bit CPUs even if they run
# a 32bit kernel and userland.
if [ "$(uname -m 2>/dev/null)" = "i686" ]; then
OPTIONS="ABI=32"
fi
elif [ "$UNAME" = "NetBSD" ]; then
# same for NetBSD but this one reports an i386
if [ "$(uname -m 2>/dev/null)" = "i386" ]; then
OPTIONS="ABI=32"
fi
fi
if [ -z "${LANGUAGES}" ]; then
if have_gnat; then
printf "\nFound compatible Ada compiler, enabling Ada support by default.\n\n"
LANGUAGES="ada,${DEFAULT_LANGUAGES}"
else
printf "\n${red}WARNING${NC}\n"
printf "No compatible Ada compiler (GNAT) found. You can continue without\n"
printf "Ada support, but this will limit the features of ${blue}coreboot${NC} (e.g.\n"
printf "native graphics initialization won't be available on most Intel\n"
printf "boards).\n\n"
printf "Usually, you can install GNAT with your package management system\n"
printf "(the package is called \`gnat\` or \`gcc-ada\`). It has to match the\n"
printf "\`gcc\` package in version. If there are multiple versions of GCC in-\n"
printf "stalled, you can point this script to the matching version through\n"
printf "the \`CC\` and \`CXX\` environment variables.\n\n"
printf "e.g. on Ubuntu 14.04, if \`gcc\` is \`gcc-4.8\`:\n"
printf " apt-get install gnat-4.8 && make crossgcc\n\n"
printf "on Ubuntu 16.04, if \`gcc\` is \`gcc-5\`:\n"
printf " apt-get install gnat-5 && make crossgcc\n"
timeout 30
LANGUAGES="${DEFAULT_LANGUAGES}"
fi
fi
if [ "$BOOTSTRAP" != 1 ] && \
{ [ "$(hostcc_major)" -lt 4 ] || \
{ [ "$(hostcc_major)" -eq 4 ] && \
[ "$(hostcc_minor)" -lt 9 ] ; } ; }
then
printf "\n${red}WARNING${NC}\n"
printf "Building coreboot requires a host compiler newer than 4.9.x while\n"
printf "yours is $(hostcc_version).\n"
printf "Enabling bootstrapping to provide a sufficiently new compiler:\n"
printf "This will take significantly longer than a usual build.\n"
printf "Alternatively you can abort now and update your host compiler.\n"
timeout 15
BOOTSTRAP=1
fi
if ada_requested; then
if ! have_gnat; then
please_install gnat gcc-ada
exit 1
fi
fi
fi # GCC
export HOSTCFLAGS="-Os"
if have_hostcflags_from_gmp; then
set_hostcflags_from_gmp
fi
if [ "$USECCACHE" = 1 ]; then
CC="ccache $CC"
fi
# Prepare target directory for building GCC
# (dependencies must be in the PATH)
mkdir -p "$DESTDIR$TARGETDIR/bin"
mkdir -p "$DESTDIR$TARGETDIR/share"
export PATH=$DESTDIR$TARGETDIR/bin:$PATH
# Download, unpack, patch and build all packages
printf "Downloading and verifying tarballs ...\n"
mkdir -p tarballs
for P in $PACKAGES; do
buildgcc: Implement simple tarball hash verification This patch implements a relatively simple hash-based verification scheme for downloaded files (tarballs): After buildgcc downloads a file or notices that it has already been downloaded, it hashes the file, and compares the hash against the known hash stored in util/crossgcc/sum/$filename.cksum. Two errors can occur: 1. The hash file is missing. In this case, crossgcc asks the user to verify the authenticity of the downloaded file. It also calculates its hash and stores it in util/crossgcc/sum/$filename.cksum.calc. If the file is authentic, the user may rename the calculated hash file to $filename.cksum, so that it can be found the next time buildgcc is started. 2. The known hash and the calculated hash differ. This is the case that this patch seeks to protect against, because it may imply that the downloaded file was unexpectedly changed, either in transit (Man-in-the-Middle attack) or on the file server that it was downloaded from. If buildgcc detects such a hash mismatch, it asks the user to delete the downloaded file and retry, because it can also be caused by a benign network error. If, however, the error persists, buildgcc can't continue without risking that the user runs malicious code, and it stops. Note: The hash algorithm may be changed in the future, but for now I left it at SHA-1, to avoid bloating this patch. Change-Id: I0d5d67b34684d02011a845d00f6f5b6769f43b4f Signed-off-by: Jonathan Neuschäfer <j.neuschaefer@gmx.net> Reviewed-on: https://review.coreboot.org/21592 Tested-by: build bot (Jenkins) <no-reply@coreboot.org> Reviewed-by: Paul Menzel <paulepanter@users.sourceforge.net> Reviewed-by: Patrick Georgi <pgeorgi@google.com>
2017-09-26 22:33:53 +02:00
download "$P" || exit "$?"
verify_hash "$P" || exit "$?"
done
printf "Downloaded tarballs ... ${green}ok${NC}\n"
printf "Unpacking and patching ...\n"
for P in $PACKAGES; do
unpack_and_patch $P || exit 1
done
printf "Unpacked and patched ... ${green}ok${NC}\n"
if [ -n "$BOOTSTRAPONLY" ]; then
printf "Building bootstrap compiler only ...\n"
for pkg in GMP MPFR MPC GCC; do
build_for_host $pkg
done
exit 0
fi
printf "Building packages ...\n"
for package in $PACKAGES; do
build $package
done
printf "Packages built ... ${green}ok${NC}\n"
# Adding git information of current tree to target directory
# for reproducibility
PROGNAME=$(basename "$0")
rm -f "$DESTDIR$TARGETDIR/share/$PROGNAME-*"
cp "$PROGNAME" "$DESTDIR$TARGETDIR/share/$PROGNAME-$CROSSGCC_VERSION"
# Adding edk2 tools template
mkdir -p "$DESTDIR$TARGETDIR/share/edk2config"
sed -e "s,@@PREFIX@@,$TARGETDIR,g" edk2tools.txt > "$DESTDIR$TARGETDIR/share/edk2config/tools_def.txt"
printf "Copied EDK2 tools template ... ${green}ok${NC}\n"
cleanup
printf "\n${green}You can now run $NAME from $TARGETDIR.${NC}\n"