#!@@CT_bash@@
# Copyright 2007 Yann E. MORIN
# Licensed under the GPL v2. See COPYING in the root of this package.
# This is the main entry point to crosstool
# This will:
# - download, extract and patch the toolchain components
# - build and install each components in turn
# - and eventually test the resulting toolchain
# What this file does is prepare the environment, based upon the user-choosen
# options. It also checks the existing environment for un-friendly variables,
# and builds the tools.
# Parse the common functions
# Note: some initialisation and sanitizing is done while parsing this file,
# most notably:
# - set trap handler on errors,
# - don't hash commands lookups,
# - initialise logging.
. "${CT_LIB_DIR}/scripts/functions"
# Parse the configuration file
# It has some info about the logging facility, so include it early
. .config
# Yes! We can do full logging from now on!
# Overide the locale early, in case we ever translate crosstool-NG messages
[ -z "${CT_NO_OVERIDE_LC_MESSAGES}" ] && export LC_ALL=C
# Some sanity checks in the environment and needed tools
CT_DoLog INFO "Performing some trivial sanity checks"
CT_TestAndAbort "Don't set LD_LIBRARY_PATH. It screws up the build." -n "${LD_LIBRARY_PATH}"
CT_TestAndAbort "Don't set CFLAGS. It screws up the build." -n "${CFLAGS}"
CT_TestAndAbort "Don't set CXXFLAGS. It screws up the build." -n "${CXXFLAGS}"
CT_Test "GREP_OPTIONS screws up the build. Resetting." -n "${GREP_OPTIONS}"
export GREP_OPTIONS=
# Some sanity checks on paths content
for d in \
LOCAL_TARBALLS \
WORK \
PREFIX \
INSTALL \
; do
eval dir="\${CT_${d}_DIR}"
case "${dir}" in
*" "*)
CT_Abort "'CT_${d}_DIR'='${dir}' contains a space in it.\nDon't use spaces in paths, it breaks things."
;;
esac
done
# Where will we work?
CT_WORK_DIR="${CT_WORK_DIR:-${CT_TOP_DIR}/targets}"
CT_DoExecLog ALL mkdir -p "${CT_WORK_DIR}"
# Check build file system case-sensitiveness
CT_DoExecLog DEBUG touch "${CT_WORK_DIR}/foo"
CT_TestAndAbort "Your file system in '${CT_WORK_DIR}' is *not* case-sensitive!" -f "${CT_WORK_DIR}/FOO"
CT_DoExecLog DEBUG rm -f "${CT_WORK_DIR}/foo"
# What's our shell?
# Will be plain /bin/sh on most systems, except if we have /bin/ash and we
# _explictly_ required using it
case "${CT_CONFIG_SHELL}" in
sh) CT_SHELL="/bin/sh";;
ash) CT_SHELL="/bin/ash";;
bash) CT_SHELL="${BASH}";;
custom) CT_SHELL="${CT_CONFIG_SHELL_CUSTOM_PATH}";;
esac
# Check the user is using an existing SHELL to be used by ./configure and Makefiles
CT_TestOrAbort "The CONFIG_SHELL '${CT_CONFIG_SHELL}' (${CT_SHELL}) is not valid" -f "${CT_SHELL}" -a -x "${CT_SHELL}"
# Create the bin-overide early
# Contains symlinks to the tools found by ./configure
# Note: CT_DoLog and CT_DoExecLog do not use any of those tool, so
# they can be safely used
CT_TOOLS_OVERIDE_DIR="${CT_WORK_DIR}/tools"
CT_DoLog DEBUG "Creating bin-overide for tools in '${CT_TOOLS_OVERIDE_DIR}'"
CT_DoExecLog DEBUG mkdir -p "${CT_TOOLS_OVERIDE_DIR}/bin"
cat "${CT_LIB_DIR}/paths.mk" |while read trash line; do
tool="${line%%=*}"
path="${line#*=}"
CT_DoLog DEBUG "Creating script-override for '${tool}' -> '${path}'"
printf "#${BANG}${CT_SHELL}\nexec '${path}' \"\${@}\"\n" >"${CT_TOOLS_OVERIDE_DIR}/bin/${tool}"
CT_DoExecLog ALL chmod 700 "${CT_TOOLS_OVERIDE_DIR}/bin/${tool}"
done
export PATH="${CT_TOOLS_OVERIDE_DIR}/bin:${PATH}"
# Start date. Can't be done until we know the locale
# Also requires the bin-override tools
CT_STAR_DATE=$(CT_DoDate +%s%N)
CT_STAR_DATE_HUMAN=$(CT_DoDate +%Y%m%d.%H%M%S)
# Log real begining of build, now
CT_DoLog INFO "Build started ${CT_STAR_DATE_HUMAN}"
# renice oursleves
CT_DoExecLog DEBUG renice ${CT_NICE} $$
CT_DoStep DEBUG "Dumping user-supplied crosstool-NG configuration"
CT_DoExecLog DEBUG grep -E '^(# |)CT_' .config
CT_EndStep
CT_DoLog DEBUG "Unsetting and unexporting MAKEFLAGS"
unset MAKEFLAGS
export MAKEFLAGS
CT_DoLog INFO "Building environment variables"
# Include sub-scripts instead of calling them: that way, we do not have to
# export any variable, nor re-parse the configuration and functions files.
. "${CT_LIB_DIR}/scripts/build/internals.sh"
. "${CT_LIB_DIR}/scripts/build/arch/${CT_ARCH}.sh"
. "${CT_LIB_DIR}/scripts/build/companion_tools.sh"
. "${CT_LIB_DIR}/scripts/build/kernel/${CT_KERNEL}.sh"
. "${CT_LIB_DIR}/scripts/build/companion_libs/gmp.sh"
. "${CT_LIB_DIR}/scripts/build/companion_libs/mpfr.sh"
. "${CT_LIB_DIR}/scripts/build/companion_libs/ppl.sh"
. "${CT_LIB_DIR}/scripts/build/companion_libs/cloog.sh"
. "${CT_LIB_DIR}/scripts/build/companion_libs/mpc.sh"
. "${CT_LIB_DIR}/scripts/build/binutils/binutils.sh"
. "${CT_LIB_DIR}/scripts/build/binutils/elf2flt.sh"
. "${CT_LIB_DIR}/scripts/build/libc/${CT_LIBC}.sh"
. "${CT_LIB_DIR}/scripts/build/cc/${CT_CC}.sh"
. "${CT_LIB_DIR}/scripts/build/tools.sh"
. "${CT_LIB_DIR}/scripts/build/debug.sh"
# Target tuple: CT_TARGET needs a little love:
CT_DoBuildTargetTuple
# Kludge: If any of the configured options needs CT_TARGET,
# then rescan the options file now:
. .config
# Sanity check some directories
CT_TestAndAbort "'CT_PREFIX_DIR' is not set: where should I install?" -z "${CT_PREFIX_DIR}"
# Second kludge: merge user-supplied target CFLAGS with architecture-provided
# target CFLAGS. Do the same for LDFLAGS in case it happens in the future.
# Put user-supplied flags at the end, so that they take precedence.
CT_TARGET_CFLAGS="${CT_ARCH_TARGET_CFLAGS} ${CT_TARGET_CFLAGS}"
CT_TARGET_LDFLAGS="${CT_ARCH_TARGET_LDFLAGS} ${CT_TARGET_LDFLAGS}"
CT_CC_CORE_EXTRA_CONFIG="${CT_ARCH_CC_CORE_EXTRA_CONFIG} ${CT_CC_CORE_EXTRA_CONFIG}"
CT_CC_EXTRA_CONFIG="${CT_ARCH_CC_EXTRA_CONFIG} ${CT_CC_EXTRA_CONFIG}"
# Compute the working directories names
CT_TARBALLS_DIR="${CT_WORK_DIR}/tarballs"
CT_SRC_DIR="${CT_WORK_DIR}/src"
CT_BUILD_DIR="${CT_WORK_DIR}/${CT_TARGET}/build"
CT_STATE_DIR="${CT_WORK_DIR}/${CT_TARGET}/state"
CT_CONFIG_DIR="${CT_BUILD_DIR}/configs"
# Note: we'll always install the core compiler in its own directory, so as to
# not mix the two builds: core and final.
CT_CC_CORE_STATIC_PREFIX_DIR="${CT_BUILD_DIR}/${CT_CC}-core-static"
CT_CC_CORE_SHARED_PREFIX_DIR="${CT_BUILD_DIR}/${CT_CC}-core-shared"
# Set LD_LIBRARY_PATH to point to prefix/lib so we can find our own
# libraries; add as first path, so we get hit first by the dynamic linker
CT_SetLibPath "${CT_PREFIX_DIR}/lib" first
# We must ensure that we can restart if asked for!
if [ -n "${CT_RESTART}" -a ! -d "${CT_STATE_DIR}" ]; then
CT_DoLog ERROR "You asked to restart a non-restartable build"
CT_DoLog ERROR "This happened because you didn't set CT_DEBUG_CT_SAVE_STEPS"
CT_DoLog ERROR "in the config options for the previous build, or the state"
CT_DoLog ERROR "directory for the previous build was deleted."
CT_Abort "I will stop here to avoid any carnage"
fi
# If the local tarball directory does not exist, say so, and don't try to save there!
if [ "${CT_SAVE_TARBALLS}" = "y" \
-a ! -d "${CT_LOCAL_TARBALLS_DIR}" ]; then
CT_DoLog WARN "Directory '${CT_LOCAL_TARBALLS_DIR}' does not exist."
CT_DoLog WARN "Will not save downloaded tarballs to local storage."
CT_SAVE_TARBALLS=
fi
# Check now if we can write to the destination directory:
if [ -d "${CT_INSTALL_DIR}" ]; then
CT_TestAndAbort "Destination directory '${CT_INSTALL_DIR}' is not removable" ! -w $(dirname "${CT_INSTALL_DIR}")
fi
# Good, now grab a bit of informations on the system we're being run on,
# just in case something goes awok, and it's not our fault:
CT_SYS_USER=$(id -un)
CT_SYS_HOSTNAME=$(hostname -f 2>/dev/null || true)
# Hmmm. Some non-DHCP-enabled machines do not have an FQDN... Fall back to node name.
CT_SYS_HOSTNAME="${CT_SYS_HOSTNAME:-$(uname -n)}"
CT_SYS_KERNEL=$(uname -s)
CT_SYS_REVISION=$(uname -r)
# MacOS X lacks '-o' :
CT_SYS_OS=$(uname -o || echo "Unknown (maybe MacOS-X)")
CT_SYS_MACHINE=$(uname -m)
CT_SYS_PROCESSOR=$(uname -p)
CT_SYS_GCC=$(gcc -dumpversion)
CT_SYS_TARGET=$(CT_DoConfigGuess)
CT_TOOLCHAIN_ID="crosstool-${CT_VERSION} build ${CT_STAR_DATE_HUMAN} by ${CT_SYS_USER}@${CT_SYS_HOSTNAME}"
CT_DoLog EXTRA "Preparing working directories"
# Ah! The build directory shall be eradicated, even if we restart!
if [ -d "${CT_BUILD_DIR}" ]; then
CT_DoForceRmdir "${CT_BUILD_DIR}"
fi
# Don't eradicate directories if we need to restart
if [ -z "${CT_RESTART}" ]; then
# Get rid of pre-existing installed toolchain and previous build directories.
# We need to do that _before_ we can safely log, because the log file will
# most probably be in the toolchain directory.
if [ "${CT_FORCE_DOWNLOAD}" = "y" -a -d "${CT_TARBALLS_DIR}" ]; then
CT_DoForceRmdir "${CT_TARBALLS_DIR}"
fi
if [ "${CT_FORCE_EXTRACT}" = "y" -a -d "${CT_SRC_DIR}" ]; then
CT_DoForceRmdir "${CT_SRC_DIR}"
fi
if [ -d "${CT_INSTALL_DIR}" ]; then
CT_DoForceRmdir "${CT_INSTALL_DIR}"
fi
# In case we start anew, get rid of the previously saved state directory
if [ -d "${CT_STATE_DIR}" ]; then
CT_DoForceRmdir "${CT_STATE_DIR}"
fi
fi
# Create the directories we'll use, even if restarting: it does no harm to
# create already existent directories, and CT_BUILD_DIR needs to be created
# anyway
CT_DoExecLog ALL mkdir -p "${CT_TARBALLS_DIR}"
CT_DoExecLog ALL mkdir -p "${CT_SRC_DIR}"
CT_DoExecLog ALL mkdir -p "${CT_BUILD_DIR}"
CT_DoExecLog ALL mkdir -p "${CT_CONFIG_DIR}"
CT_DoExecLog ALL mkdir -p "${CT_INSTALL_DIR}"
CT_DoExecLog ALL mkdir -p "${CT_PREFIX_DIR}"
if [ -z "${CT_CANADIAN}" ]; then
CT_DoExecLog ALL mkdir -p "${CT_CC_CORE_STATIC_PREFIX_DIR}"
CT_DoExecLog ALL mkdir -p "${CT_CC_CORE_SHARED_PREFIX_DIR}"
fi
# Only create the state dir if asked for a restartable build
[ -n "${CT_DEBUG_CT_SAVE_STEPS}" ] && CT_DoExecLog ALL mkdir -p "${CT_STATE_DIR}"
# Check install file system case-sensitiveness
CT_DoExecLog DEBUG touch "${CT_PREFIX_DIR}/foo"
CT_TestAndAbort "Your file system in '${CT_PREFIX_DIR}' is *not* case-sensitive!" -f "${CT_PREFIX_DIR}/FOO"
CT_DoExecLog DEBUG rm -f "${CT_PREFIX_DIR}/foo"
# Kludge: CT_INSTALL_DIR and CT_PREFIX_DIR might have grown read-only if
# the previous build was successful. To be able to move the logfile there,
# switch them back to read/write
CT_DoExecLog ALL chmod -R u+w "${CT_INSTALL_DIR}" "${CT_PREFIX_DIR}"
# Redirect log to the actual log file now we can
# It's quite understandable that the log file will be installed in the install
# directory, so we must first ensure it exists and is writeable (above) before
# we can log there
exec >/dev/null
case "${CT_LOG_TO_FILE}" in
y) CT_LOG_FILE="${CT_PREFIX_DIR}/build.log"
cat "${tmp_log_file}" >>"${CT_LOG_FILE}"
rm -f "${tmp_log_file}"
exec >>"${CT_LOG_FILE}"
;;
*) rm -f "${tmp_log_file}"
;;
esac
# Setting up the rest of the environment only if not restarting
if [ -z "${CT_RESTART}" ]; then
# Arrange paths depending on wether we use sys-root or not.
if [ "${CT_USE_SYSROOT}" = "y" ]; then
CT_SYSROOT_DIR="${CT_PREFIX_DIR}/${CT_TARGET}/${CT_SYSROOT_DIR_PREFIX}/sys-root"
CT_DEBUGROOT_DIR="${CT_PREFIX_DIR}/${CT_TARGET}/${CT_SYSROOT_DIR_PREFIX}/debug-root"
CT_HEADERS_DIR="${CT_SYSROOT_DIR}/usr/include"
BINUTILS_SYSROOT_ARG="--with-sysroot=${CT_SYSROOT_DIR}"
CC_CORE_SYSROOT_ARG="--with-sysroot=${CT_SYSROOT_DIR}"
CC_SYSROOT_ARG="--with-sysroot=${CT_SYSROOT_DIR}"
LIBC_SYSROOT_ARG=""
# glibc's prefix must be exactly /usr, else --with-sysroot'd gcc will get
# confused when $sysroot/usr/include is not present.
# Note: --prefix=/usr is magic!
# See http://www.gnu.org/software/libc/FAQ.html#s-2.2
else
# plain old way. All libraries in prefix/target/lib
CT_SYSROOT_DIR="${CT_PREFIX_DIR}/${CT_TARGET}"
CT_DEBUGROOT_DIR="${CT_SYSROOT_DIR}"
CT_HEADERS_DIR="${CT_SYSROOT_DIR}/include"
# hack! Always use --with-sysroot for binutils.
# binutils 2.14 and later obey it, older binutils ignore it.
# Lets you build a working 32->64 bit cross gcc
BINUTILS_SYSROOT_ARG="--with-sysroot=${CT_SYSROOT_DIR}"
# Use --with-headers, else final gcc will define disable_glibc while
# building libgcc, and you'll have no profiling
CC_CORE_SYSROOT_ARG="--without-headers"
CC_SYSROOT_ARG="--with-headers=${CT_HEADERS_DIR}"
LIBC_SYSROOT_ARG="prefix="
fi
CT_DoExecLog ALL mkdir -p "${CT_SYSROOT_DIR}"
CT_DoExecLog ALL mkdir -p "${CT_DEBUGROOT_DIR}"
# Prepare the 'lib' directories in sysroot, else the ../lib64 hack used by
# 32 -> 64 bit crosscompilers won't work, and build of final gcc will fail
# with: "ld: cannot open crti.o: No such file or directory"
# Also prepare the lib directory in the install dir, else some 64 bit archs
# won't build
CT_DoExecLog ALL mkdir -p "${CT_PREFIX_DIR}/lib"
CT_DoExecLog ALL mkdir -p "${CT_SYSROOT_DIR}/lib"
CT_DoExecLog ALL mkdir -p "${CT_SYSROOT_DIR}/usr/lib"
if [ "${CT_USE_SYSROOT}" = "y" ]; then
# Prevent gcc from installing its libraries outside of the sys-root
CT_DoExecLog ALL ln -sf "./${CT_SYSROOT_DIR_PREFIX}/sys-root/lib" "${CT_PREFIX_DIR}/${CT_TARGET}/lib"
fi
# Now, in case we're 64 bits, just have lib64/ be a symlink to lib/
# so as to have all libraries in the same directory (we can do that
# because we are *not* multilib).
if [ "${CT_ARCH_64}" = "y" ]; then
CT_DoExecLog ALL ln -sf "lib" "${CT_PREFIX_DIR}/lib64"
CT_DoExecLog ALL ln -sf "lib" "${CT_SYSROOT_DIR}/lib64"
CT_DoExecLog ALL ln -sf "lib" "${CT_SYSROOT_DIR}/usr/lib64"
CT_DoExecLog ALL ln -sf "lib" "${CT_PREFIX_DIR}/${CT_TARGET}/lib64"
fi
# Determine build system if not set by the user
CT_Test "You did not specify the build system. That's OK, I can guess..." -z "${CT_BUILD}"
case "${CT_BUILD}" in
"") CT_BUILD=$("${CT_BUILD_PREFIX}gcc${CT_BUILD_SUFFIX}" -dumpmachine);;
esac
# Prepare mangling patterns to later modify BUILD and HOST (see below)
case "${CT_TOOLCHAIN_TYPE}" in
cross)
# A cross-compiler runs on the same machine it is built on
CT_HOST="${CT_BUILD}"
build_mangle="build_"
host_mangle="build_"
target_mangle=""
install_build_tools_for="BUILD HOST"
;;
canadian)
build_mangle="build_"
host_mangle="host_"
target_mangle=""
install_build_tools_for="BUILD HOST TARGET"
;;
*) CT_Abort "No code for '${CT_TOOLCHAIN_TYPE}' toolchain type!"
;;
esac
# Save the real tuples to generate shell-wrappers to the real tools
CT_REAL_BUILD="${CT_BUILD}"
CT_REAL_HOST="${CT_HOST}"
CT_REAL_TARGET="${CT_TARGET}"
# Canonicalise CT_BUILD and CT_HOST
# Not only will it give us full-qualified tuples, but it will also ensure
# that they are valid tuples (in case of typo with user-provided tuples)
# That's way better than trying to rewrite config.sub ourselves...
# CT_TARGET is already made canonical in CT_DoBuildTargetTuple
CT_BUILD=$(CT_DoConfigSub "${CT_BUILD}")
CT_HOST=$(CT_DoConfigSub "${CT_HOST}")
# Modify BUILD and HOST so that gcc always generate a cross-compiler
# even if any of the build, host or target machines are the same.
# NOTE: we'll have to mangle the (BUILD|HOST)->TARGET x-compiler to
# support canadain build, later...
CT_BUILD="${CT_BUILD/-/-${build_mangle}}"
CT_HOST="${CT_HOST/-/-${host_mangle}}"
CT_TARGET="${CT_TARGET/-/-${target_mangle}}"
# Now we have mangled our BUILD and HOST tuples, we must fake the new
# cross-tools for those mangled tuples.
CT_DoLog DEBUG "Making build system tools available"
CT_DoExecLog ALL mkdir -p "${CT_PREFIX_DIR}/buildtools"
for m in ${install_build_tools_for}; do
r="CT_REAL_${m}"
v="CT_${m}"
p="CT_${m}_PREFIX"
s="CT_${m}_SUFFIX"
if [ -n "${!p}" ]; then
t="${!p}"
else
t="${!r}-"
fi
for tool in ar as dlltool gcc g++ gcj gnatbind gnatmake ld nm objcopy objdump ranlib strip windres; do
# First try with prefix + suffix
# Then try with prefix only
# Then try with suffix only, but only for BUILD, and HOST iff REAL_BUILD == REAL_HOST
# Finally try with neither prefix nor suffix, but only for BUILD, and HOST iff REAL_BUILD == REAL_HOST
# This is needed, because some tools have a prefix and
# a suffix (eg. gcc), while others may have only one,
# or even none (eg. binutils)
where=$(CT_Which "${t}${tool}${!s}")
[ -z "${where}" ] && where=$(CT_Which "${t}${tool}")
if [ -z "${where}" \
-a \( "${m}" = "BUILD" \
-o "${CT_REAL_BUILD}" = "${!r}" \) ]; then
where=$(CT_Which "${tool}${!s}")
fi
if [ -z "${where}" \
-a \( "${m}" = "BUILD" \
-o "${CT_REAL_BUILD}" = "${!r}" \) ]; then
where=$(CT_Which "${tool}")
fi
# Not all tools are available for all platforms, but some are really,
# bally needed
if [ -n "${where}" ]; then
CT_DoLog DEBUG " '${!v}-${tool}' -> '${where}'"
printf "#${BANG}${CT_SHELL}\nexec '${where}' \"\${@}\"\n" >"${CT_PREFIX_DIR}/buildtools/${!v}-${tool}"
CT_DoExecLog ALL chmod 700 "${CT_PREFIX_DIR}/buildtools/${!v}-${tool}"
else
case "${tool}" in
# We'll at least need some of them...
ar|as|gcc|g++|ld|nm|objcopy|objdump|ranlib)
CT_Abort "Missing: '${t}${tool}${!s}' or '${t}${tool}' or '${tool}' : either needed!"
;;
# Some are conditionnally required
# Add them in alphabetical (C locale) ordering
gcj)
CT_TestAndAbort "Missing: '${t}${tool}${!s}' or '${t}${tool}' or '${tool}' : either needed!" "${CT_CC_LANG_JAVA}" = "y"
;;
# If any other is missing, only warn at low level
*)
# It does not deserve a WARN level.
CT_DoLog DEBUG " Missing: '${t}${tool}${!s}' or '${t}${tool}' or '${tool}' : not required."
;;
esac
fi
done
done
# Carefully add paths in the order we want them:
# - first try in ${CT_PREFIX_DIR}/bin
# - then try in ${CT_CC_CORE_SHARED_PREFIX_DIR}/bin
# - then try in ${CT_CC_CORE_STATIC_PREFIX_DIR}/bin
# - fall back to searching user's PATH
# Of course, neither cross-native nor canadian can run on BUILD,
# so don't add those PATHs in this case...
case "${CT_TOOLCHAIN_TYPE}" in
cross) export PATH="${CT_PREFIX_DIR}/buildtools:${CT_PREFIX_DIR}/bin:${CT_CC_CORE_SHARED_PREFIX_DIR}/bin:${CT_CC_CORE_STATIC_PREFIX_DIR}/bin:${PATH}";;
canadian) export PATH="${CT_PREFIX_DIR}/buildtools:${PATH}";;
*) ;;
esac
# Some makeinfo versions are a pain in [put your most sensible body part here].
# Go ahead with those, by creating a wrapper that keeps partial files, and that
# never fails:
CT_DoLog DEBUG " 'makeinfo' -> '$(CT_Which makeinfo)'"
printf "#${BANG}${CT_SHELL}\n$(CT_Which makeinfo) --force \"\${@}\"\ntrue\n" >"${CT_PREFIX_DIR}/buildtools/makeinfo"
CT_DoExecLog ALL chmod 700 "${CT_PREFIX_DIR}/buildtools/makeinfo"
# Help gcc
CT_CFLAGS_FOR_HOST=
[ "${CT_USE_PIPES}" = "y" ] && CT_CFLAGS_FOR_HOST="${CT_CFLAGS_FOR_HOST} -pipe"
# Override the configured jobs with what's been given on the command line
[ -n "${CT_JOBS}" ] && CT_PARALLEL_JOBS="${CT_JOBS}"
# Set the shell to be used by ./configure scripts and by Makefiles (those
# that support it!).
export CONFIG_SHELL="${CT_SHELL}" # for ./configure
export SHELL="${CT_SHELL}" # for Makefiles
# And help make go faster
PARALLELMFLAGS=
[ ${CT_PARALLEL_JOBS} -ne 0 ] && PARALLELMFLAGS="${PARALLELMFLAGS} -j${CT_PARALLEL_JOBS}"
[ ${CT_LOAD} -ne 0 ] && PARALLELMFLAGS="${PARALLELMFLAGS} -l${CT_LOAD}"
export PARALLELMFLAGS
CT_DoLog EXTRA "Installing user-supplied crosstool-NG configuration"
CT_DoExecLog ALL mkdir -p "${CT_PREFIX_DIR}/bin"
CT_DoExecLog DEBUG install -m 0755 "${CT_LIB_DIR}/scripts/toolchain-config.in" "${CT_PREFIX_DIR}/bin/${CT_TARGET}-ct-ng.config"
CT_DoExecLog DEBUG sed -r -i -e 's,@@grep@@,"'"${grep}"'",;' "${CT_PREFIX_DIR}/bin/${CT_TARGET}-ct-ng.config"
bzip2 -c -9 .config >>"${CT_PREFIX_DIR}/bin/${CT_TARGET}-ct-ng.config"
CT_DoStep EXTRA "Dumping internal crosstool-NG configuration"
CT_DoLog EXTRA "Building a toolchain for:"
CT_DoLog EXTRA " build = ${CT_REAL_BUILD}"
CT_DoLog EXTRA " host = ${CT_REAL_HOST}"
CT_DoLog EXTRA " target = ${CT_TARGET}"
set |grep -E '^CT_.+=' |sort |CT_DoLog DEBUG
CT_EndStep
fi
if [ -z "${CT_RESTART}" ]; then
if [ "${CT_FORBID_DOWNLOAD}" = "y" ]; then
CT_DoLog INFO "Downloading forbidden by configuration, skipping downloads"
else
CT_DoStep INFO "Retrieving needed toolchain components' tarballs"
do_companion_tools_get
do_kernel_get
do_gmp_get
do_mpfr_get
do_ppl_get
do_cloog_get
do_mpc_get
do_binutils_get
do_cc_get
do_libc_get
do_tools_get
do_debug_get
CT_EndStep
fi
if [ "${CT_ONLY_DOWNLOAD}" != "y" ]; then
if [ "${CT_FORCE_EXTRACT}" = "y" ]; then
CT_DoForceRmdir "${CT_SRC_DIR}"
CT_DoExecLog ALL mkdir -p "${CT_SRC_DIR}"
fi
if [ "${CT_COMP_TOOLS}" = "y" ]; then
CT_DoStep INFO "Extracting, patching and installing companion tools"
do_companion_tools_extract
do_companion_tools
CT_EndStep
fi
CT_DoStep INFO "Extracting and patching toolchain components"
do_kernel_extract
do_gmp_extract
do_mpfr_extract
do_ppl_extract
do_cloog_extract
do_mpc_extract
do_binutils_extract
do_cc_extract
do_libc_extract
do_tools_extract
do_debug_extract
CT_EndStep
fi
fi
# Now for the job by itself. Go have a coffee!
if [ "${CT_ONLY_DOWNLOAD}" != "y" -a "${CT_ONLY_EXTRACT}" != "y" ]; then
# Because of CT_RESTART, this becomes quite complex
do_stop=0
prev_step=
[ -n "${CT_RESTART}" ] && do_it=0 || do_it=1
# Aha! CT_STEPS comes from steps.mk!
for step in ${CT_STEPS}; do
if [ ${do_it} -eq 0 ]; then
if [ "${CT_RESTART}" = "${step}" ]; then
CT_DoLoadState "${step}"
do_it=1
do_stop=0
fi
else
CT_DoSaveState ${step}
if [ ${do_stop} -eq 1 ]; then
CT_DoLog ERROR "Stopping just after step '${prev_step}', as requested."
exit 0
fi
fi
if [ ${do_it} -eq 1 ]; then
do_${step}
if [ "${CT_STOP}" = "${step}" ]; then
do_stop=1
fi
if [ "${CT_DEBUG_PAUSE_STEPS}" = "y" ]; then
CT_DoPause "Step '${step}' finished"
fi
fi
prev_step="${step}"
done
fi
CT_DoEnd INFO
# From now-on, it can become impossible to log any time, because
# either we're compressing the log file, or it can become RO any
# moment... Consign all ouptut to oblivion...
CT_DoLog INFO "Finishing installation (may take a few seconds)..."
exec >/dev/null 2>&1
[ "${CT_LOG_FILE_COMPRESS}" = y ] && bzip2 -9 "${CT_LOG_FILE}"
[ "${CT_INSTALL_DIR_RO}" = "y" ] && chmod -R a-w "${CT_INSTALL_DIR}"
trap - EXIT