crosstool-ng/scripts/crosstool-NG.sh.in

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# 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,
. "${CT_LIB_DIR}/scripts/functions"
# Read the sample settings
CT_LoadConfig
# Yes! We can do full logging from now on! Clean any old log file content.
CT_LogEnable clean=yes
# Check running as root
if [ -z "${CT_ALLOW_BUILD_AS_ROOT_SURE}" ]; then
if [ $(id -u) -eq 0 ]; then
CT_DoLog ERROR "You must NOT be root to run crosstool-NG"
exit 1
fi
fi
# If we want an interactive debug-shell, we must ensure these FDs
# are indeed connected to a terminal (and not redirected in any way).
if [ "${CT_DEBUG_INTERACTIVE}" = "y" -a ! \( -t 0 -a -t 6 -a -t 2 \) ]; then
CT_DoLog ERROR "Can't spawn interactive debug-shell,"
CT_DoLog ERROR "because stdout/stderr has been redirected."
exit 1
fi
# Override the locale early, in case we ever translate crosstool-NG messages
if [ -z "${CT_NO_OVERRIDE_LC_MESSAGES}" ]; then
export LC_ALL=C
export LANG=C
fi
# remove . from PATH since it can cause gcc build failures
CT_SanitizePath
# Some sanity checks in the environment and needed tools
CT_DoLog INFO "Performing some trivial sanity checks"
CT_TestAndAbort "Don't set LD_LIBRARY_PATH. It screws up the build." -n "${LD_LIBRARY_PATH+set}"
CT_TestAndAbort "Don't set LIBRARY_PATH. It screws up the build." -n "${LIBRARY_PATH+set}"
CT_TestAndAbort "Don't set LPATH. It screws up the build." -n "${LPATH+set}"
CT_TestAndAbort "Don't set CPATH. It screws up the build." -n "${CPATH+set}"
CT_TestAndAbort "Don't set C_INCLUDE_PATH. It screws up the build." -n "${C_INCLUDE_PATH+set}"
CT_TestAndAbort "Don't set CPLUS_INCLUDE_PATH. It screws up the build." -n "${CPLUS_INCLUDE_PATH+set}"
CT_TestAndAbort "Don't set OBJC_INCLUDE_PATH. It screws up the build." -n "${OBJC_INCLUDE_PATH+set}"
CT_TestAndAbort "Don't set CFLAGS. It screws up the build." -n "${CFLAGS+set}"
CT_TestAndAbort "Don't set CXXFLAGS. It screws up the build." -n "${CXXFLAGS+set}"
CT_TestAndAbort "Don't set CC. It screws up the build." -n "${CC+set}"
CT_TestAndAbort "Don't set CXX. It screws up the build." -n "${CXX+set}"
CT_Test "GREP_OPTIONS screws up the build. Resetting." -n "${GREP_OPTIONS}"
export GREP_OPTIONS=
# Workaround against openSUSE 12.1 that breaks ./configure for cross-compilation:
export CONFIG_SITE=
# Some sanity checks on paths content
for d in \
LOCAL_TARBALLS \
WORK \
PREFIX \
INSTALL \
; do
eval dir="\${CT_${d}_DIR}"
case "${dir}" in
*" "*)
CT_Abort "'CT_${d}_DIR'='${dir}' contains a space in it.\nDon't use spaces in paths, it breaks things."
;;
*:*)
CT_Abort "'CT_${d}_DIR'='${dir}' contains a colon in it.\nDon't use colons in paths, it breaks things."
;;
*,*)
CT_Abort "'CT_${d}_DIR'='${dir}' contains a comma in it.\nDon't use commas in paths, it breaks things."
;;
esac
done
# Where will we work?
CT_WORK_DIR="${CT_WORK_DIR:-${CT_TOP_DIR}/.build}"
CT_BUILD_DIR="${CT_BUILD_TOP_DIR}/build"
CT_DoExecLog ALL mkdir -p "${CT_WORK_DIR}"
CT_DoExecLog DEBUG rm -f "${CT_WORK_DIR}/backtrace"
# 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"
# Check the user is using an existing SHELL to be used by ./configure and Makefiles
CT_TestOrAbort "The CONFIG_SHELL '${CT_CONFIG_SHELL}' is not valid" -f "${CT_CONFIG_SHELL}" -a -x "${CT_CONFIG_SHELL}"
# Create the bin-override early
# Contains symlinks to the tools found by ./configure
# Note: CT_DoLog and CT_DoExecLog do not use any of those tool, so
# they can be safely used
CT_TOOLS_OVERRIDE_DIR="${CT_WORK_DIR}/tools"
CT_DoLog DEBUG "Creating bin-override for tools in '${CT_TOOLS_OVERRIDE_DIR}'"
CT_DoExecLog DEBUG mkdir -p "${CT_TOOLS_OVERRIDE_DIR}/bin"
cat "${CT_LIB_DIR}/paths.sh" |while read trash line; do
tool="${line%%=*}"
# Suppress extra quoting
eval path=${line#*=}
if [ -r "${CT_LIB_DIR}/scripts/override/$tool" ]; then
tmpl="${CT_LIB_DIR}/scripts/override/$tool"
else
tmpl="${CT_LIB_DIR}/scripts/override/__default"
fi
CT_DoLog DEBUG "Creating script-override for '${tool}' -> '${path}' using '${tmpl}' template"
CT_DoExecLog ALL cp "${tmpl}" "${CT_TOOLS_OVERRIDE_DIR}/bin/${tool}"
CT_DoExecLog ALL ${sed} -i -r \
-e "s#@CONFIG_SHELL@#${CT_CONFIG_SHELL}#g" \
-e "s#@TOOL_PATH@#${path}#g" \
-e "s#@TOOLS_OVERRIDE_DIR@#${CT_TOOLS_OVERRIDE_DIR}#g" \
"${CT_TOOLS_OVERRIDE_DIR}/bin/${tool}"
CT_DoExecLog ALL chmod 700 "${CT_TOOLS_OVERRIDE_DIR}/bin/${tool}"
done
export PATH="${CT_TOOLS_OVERRIDE_DIR}/bin:${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}"
CT_DoStep DEBUG "Dumping user-supplied crosstool-NG configuration"
CT_DoExecLog DEBUG ${grep} -E '^(# )?CT_' .config
CT_EndStep
CT_DoLog DEBUG "Unsetting and unexporting MAKEFLAGS"
unset MAKEFLAGS
export MAKEFLAGS
CT_DoLog INFO "Building environment variables"
# Sanity check some directories
CT_TestAndAbort "'CT_PREFIX_DIR' is not set: where should I install?" -z "${CT_PREFIX_DIR}"
# Avoid multiple '/' in the prefix dir, it breaks relocatability
CT_PREFIX_DIR="$( ${sed} -r -e 's:/+:/:g; s:/*$::;' <<<"${CT_PREFIX_DIR}" )"
# Second kludge: merge user-supplied target CFLAGS with architecture-provided
# target CFLAGS. Do the same for LDFLAGS in case it happens in the future.
# Put user-supplied flags at the end, so that they take precedence.
CT_TARGET_CFLAGS="${CT_ARCH_TARGET_CFLAGS} ${CT_TARGET_CFLAGS}"
CT_TARGET_LDFLAGS="${CT_ARCH_TARGET_LDFLAGS} ${CT_TARGET_LDFLAGS}"
CT_CC_GCC_CORE_EXTRA_CONFIG_ARRAY=( ${CT_ARCH_CC_CORE_EXTRA_CONFIG} "${CT_CC_GCC_CORE_EXTRA_CONFIG_ARRAY[@]}" )
CT_CC_GCC_EXTRA_CONFIG_ARRAY=( ${CT_ARCH_CC_EXTRA_CONFIG} "${CT_CC_GCC_EXTRA_CONFIG_ARRAY[@]}" )
# Compute the package version string
CT_PKGVERSION="crosstool-NG ${CT_VERSION}${CT_TOOLCHAIN_PKGVERSION:+ - ${CT_TOOLCHAIN_PKGVERSION}}"
# Compute the working directories names
CT_TARBALLS_DIR="${CT_WORK_DIR}/tarballs"
CT_COMMON_SRC_DIR="${CT_WORK_DIR}/src"
CT_SRC_DIR="${CT_BUILD_DIR}/src"
CT_BUILDTOOLS_PREFIX_DIR="${CT_BUILD_TOP_DIR}/buildtools"
CT_STATE_DIR="${CT_WORK_DIR}/${CT_TARGET}/state"
# Note about HOST_COMPLIBS_DIR: it's always gonna be in the buildtools dir, or a
# sub-dir. So we won't have to save/restore it, not even create it.
# In case of cross or native, host-complibs are used for build-complibs;
# in case of canadian or cross-native, host-complibs are specific
# Note about BUILD_COMPTOOLS_DIR: if installing companion tools for "host" in
# a native or simple cross, we can can use the same binaries we built for
# "build". However, we need companion tools for "build" early - as other
# components may depend on them - so we may skip building for "host" rather
# than for "build" in that case.
case "${CT_TOOLCHAIN_TYPE}" in
native|cross)
CT_HOST_COMPLIBS_DIR="${CT_BUILDTOOLS_PREFIX_DIR}"
if [ -n "${CT_COMP_TOOLS_FOR_HOST}" ]; then
CT_BUILD_COMPTOOLS_DIR="${CT_PREFIX_DIR}"
else
CT_BUILD_COMPTOOLS_DIR="${CT_BUILDTOOLS_PREFIX_DIR}"
fi
;;
canadian|cross-native)
CT_HOST_COMPLIBS_DIR="${CT_BUILDTOOLS_PREFIX_DIR}/complibs-host"
CT_BUILD_COMPTOOLS_DIR="${CT_BUILDTOOLS_PREFIX_DIR}"
;;
esac
# Compute test suite install directory
CT_TEST_SUITE_DIR=${CT_PREFIX_DIR}/test-suite
# We must ensure that we can restart if asked for!
if [ -n "${CT_RESTART}" -a ! -d "${CT_STATE_DIR}" ]; then
CT_DoLog ERROR "You asked to restart a non-restartable build"
CT_DoLog ERROR "This happened because you didn't set CT_DEBUG_CT_SAVE_STEPS"
CT_DoLog ERROR "in the config options for the previous build, or the state"
2008-02-14 22:44:34 +00:00
CT_DoLog ERROR "directory for the previous build was deleted."
CT_Abort "I will stop here to avoid any carnage"
fi
# If the local tarball directory does not exist, say so, and don't try to save there!
if [ "${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 "${CT_PREFIX_DIR}" ]; then
CT_TestAndAbort "Destination directory '${CT_PREFIX_DIR}' is not removable" ! -w $(dirname "${CT_PREFIX_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)
CT_SYS_OS=$(uname -s)
CT_SYS_MACHINE=$(uname -m)
CT_SYS_PROCESSOR=$(uname -p)
CT_SYS_GCC=$(${CT_BUILD_PREFIX}gcc${CT_BUILD_SUFFIX} -dumpversion)
CT_SYS_TARGET=$(CT_DoConfigGuess)
CT_TOOLCHAIN_ID="crosstool-${CT_VERSION} build ${CT_STAR_DATE_HUMAN} by ${CT_SYS_USER}@${CT_SYS_HOSTNAME}"
# Adjust the list of multilibs, if needed
CT_DoArchMultilibList
CT_DoLog EXTRA "Preparing working directories"
# Ah! The build directory shall be eradicated, even if we restart!
# Ditto for the build tools install dir
CT_DoForceRmdir "${CT_BUILD_DIR}" "${CT_BUILDTOOLS_PREFIX_DIR}"
# Don't eradicate directories if we need to restart
if [ -z "${CT_RESTART}" ]; then
# Per-target sources: eliminate
CT_DoForceRmdir "${CT_SRC_DIR}"
# Get rid of pre-existing installed toolchain and previous build directories.
if [ "${CT_FORCE_DOWNLOAD}" = "y" -a -d "${CT_TARBALLS_DIR}" ]; then
CT_DoForceRmdir "${CT_TARBALLS_DIR}"
fi
if [ "${CT_FORCE_EXTRACT}" = "y" -a -d "${CT_COMMON_SRC_DIR}" ]; then
CT_DoForceRmdir "${CT_COMMON_SRC_DIR}"
fi
if [ -d "${CT_PREFIX_DIR}" -a "${CT_RM_RF_PREFIX_DIR}" = "y" ]; then
CT_DoForceRmdir "${CT_PREFIX_DIR}"
fi
# In case we start anew, get rid of the previously saved state directory
if [ -d "${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 "${CT_COMMON_SRC_DIR}"
CT_DoExecLog ALL mkdir -p "${CT_SRC_DIR}"
CT_DoExecLog ALL mkdir -p "${CT_BUILD_DIR}"
CT_DoExecLog ALL mkdir -p "${CT_BUILDTOOLS_PREFIX_DIR}/bin"
CT_DoExecLog ALL mkdir -p "${CT_PREFIX_DIR}"
CT_DoExecLog ALL mkdir -p "${CT_HOST_COMPLIBS_DIR}"
# 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_PREFIX_DIR might have grown read-only if
# the previous build was successful.
CT_DoExecLog ALL chmod -R u+w "${CT_PREFIX_DIR}"
# Setting up the rest of the environment only if not restarting
if [ -z "${CT_RESTART}" ]; then
# Having .. inside CT_PREFIX breaks relocatability.
CT_SanitizeVarDir CT_PREFIX_DIR
case "${CT_SYSROOT_NAME}" in
"") CT_SYSROOT_NAME="sysroot";;
.) CT_Abort "Sysroot name is set to '.' which is forbidden";;
*' '*) CT_Abort "Sysroot name contains forbidden space(s): '${CT_SYSROOT_NAME}'";;
*/*) CT_Abort "Sysroot name contains forbidden slash(es): '${CT_SYSROOT_NAME}'";;
esac
multilib: Determine which options may pass through. On some arches (e.g. MIPS) the options like -mabi do not work if specified more than once (see the comment in 100-gcc.sh). Therefore, we need to determine which of the options produced by <arch>.sh can be passed to multilib builds and which must be removed (i.e., which options vary among the multilibs). This presents a chicken-and-egg problem. GCC developers, in their infinite wisdom, do not allow arbitrary multilib specification to be supplied to GCC's configure. Instead, the target (and sometimes some extra options) determine the set of multilibs - which may include different CPUs, different ABIs, different endianness, different FPUs, different floating-point ABIs, ... That is, we don't know which parts vary until we build GCC and ask it. So, the solution implemented here is: - For multilib builds, start with empty CT_ARCH_TARGET_CFLAGS/LDFLAGS. - For multilib builds, require core pass 1. Pass 1 does not build any target binaries, so at that point, our target options have not been used yet. - Provide an API to modify the environment variables for the steps that follow the current one. - As a part of multilib-related housekeeping, determine the variable part of multilibs and filter out these options; pass the rest into CT_TARGET_CFLAGS/LDFLAGS. This still does not handle extra dependencies between GCC options (like -ma implying -mcpu=X -mtune=Y, etc.) but I feel that would complicate matters too much. Let's leave this until there's a compelling case for it. Also, query GCC's sysroot suffix for targets that use it (SuperH, for example) - the default multilib may not work if the command line specifies the default option explicitly (%sysroot_suffix_spec is not aware of multilib defaults). Signed-off-by: Alexey Neyman <stilor@att.net>
2016-03-30 19:15:54 +00:00
# Arrange paths depending on whether we use sysroot or not.
if [ "${CT_USE_SYSROOT}" = "y" ]; then
CT_SYSROOT_DIR="${CT_PREFIX_DIR}/${CT_TARGET}/${CT_SYSROOT_DIR_PREFIX}/${CT_SYSROOT_NAME}"
CT_DEBUGROOT_DIR="${CT_PREFIX_DIR}/${CT_TARGET}/${CT_SYSROOT_DIR_PREFIX}/debug-root"
CT_HEADERS_DIR="${CT_SYSROOT_DIR}/usr/include"
CT_SanitizeVarDir CT_SYSROOT_DIR CT_DEBUGROOT_DIR CT_HEADERS_DIR
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}"
# 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="${CT_SYSROOT_DIR}/include"
CT_SanitizeVarDir CT_SYSROOT_DIR CT_DEBUGROOT_DIR CT_HEADERS_DIR
# hack! Always use --with-sysroot for binutils.
# binutils 2.14 and later obey it, older binutils ignore it.
# Lets you build a working 32->64 bit cross gcc
BINUTILS_SYSROOT_ARG="--with-sysroot=${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=${CT_HEADERS_DIR}"
fi
CT_DoExecLog ALL mkdir -p "${CT_SYSROOT_DIR}"
CT_DoExecLog ALL mkdir -p "${CT_DEBUGROOT_DIR}"
CT_DoExecLog ALL mkdir -p "${CT_HEADERS_DIR}"
# Need the non-multilib directories: GCC's multi-os-directory is based off them, so
# even if the /lib is not used for any of the multilibs, it must be present so that
# the paths like 'lib/../lib64' still work.
CT_DoExecLog ALL mkdir -p "${CT_PREFIX_DIR}/lib"
CT_DoExecLog ALL mkdir -p "${CT_SYSROOT_DIR}/lib"
CT_DoExecLog ALL mkdir -p "${CT_SYSROOT_DIR}/usr/lib"
# Determine build system if not set by the user
if [ -z "${CT_BUILD}" ]; then
CT_BUILD=$(CT_DoConfigGuess)
fi
# Prepare mangling patterns to later modify BUILD and HOST (see below)
case "${CT_TOOLCHAIN_TYPE}" in
cross)
# A cross-compiler runs on the same machine it is built on
CT_HOST="${CT_BUILD}"
build_mangle="build_"
host_mangle="build_"
target_mangle=""
install_build_tools_for="BUILD"
;;
canadian)
build_mangle="build_"
host_mangle="host_"
target_mangle=""
install_build_tools_for="BUILD HOST"
;;
*) CT_Abort "No code for '${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"
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 required.
if [ -n "${where}" ]; then
CT_DoLog DEBUG " '${!v}-${tool}' -> '${where}'"
printf "#${BANG}${CT_CONFIG_SHELL}\nexec '${where}' \"\${@}\"\n" >"${CT_BUILDTOOLS_PREFIX_DIR}/bin/${!v}-${tool}"
CT_DoExecLog ALL chmod 700 "${CT_BUILDTOOLS_PREFIX_DIR}/bin/${!v}-${tool}"
else
case "${tool}" in
# We'll at least need some of them...
ar|as|gcc|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
g++)
# g++ (needed for companion lib), only needed for HOST
CT_TestAndAbort "Missing: '${t}${tool}${!s}' or '${t}${tool}' or '${tool}' : either needed!" "${m}" = "HOST"
;;
gcj)
CT_TestAndAbort "Missing: '${t}${tool}${!s}' or '${t}${tool}' or '${tool}' : either needed!" "${CT_CC_LANG_JAVA}" = "y"
;;
strip)
CT_TestAndAbort "Missing: '${t}${tool}${!s}' or '${t}${tool}' or '${tool}' : either needed!" "${CT_STRIP_HOST_TOOLCHAIN_EXECUTABLES}" = "y"
;;
# If any other is missing, only warn at low level
*)
# It does not deserve a WARN level.
CT_DoLog DEBUG " Missing: '${t}${tool}${!s}' or '${t}${tool}' or '${tool}' : not required."
;;
esac
fi
done
done
# Some makeinfo versions are a pain in [put your most sensible body part here].
# Go ahead with those, by creating a wrapper that keeps partial files, and that
# never fails:
CT_DoLog DEBUG " 'makeinfo' -> '$(CT_Which makeinfo)'"
printf "#${BANG}${CT_CONFIG_SHELL}\n$(CT_Which makeinfo) --force \"\${@}\"\ntrue\n" >"${CT_BUILDTOOLS_PREFIX_DIR}/bin/makeinfo"
CT_DoExecLog ALL chmod 700 "${CT_BUILDTOOLS_PREFIX_DIR}/bin/makeinfo"
# Carefully add paths in the order we want them:
# - first try in ${CT_PREFIX_DIR}/bin
# - then try the buildtools dir
# - fall back to searching user's PATH
# Of course, neither cross-native nor canadian can run on BUILD,
# so don't add those PATHs in this case...
# For native and simple cross, build==host, combine the extra CFLAGS/LDFLAGS
# supplied for both (so that it doesn't matter where the user supplied them).
case "${CT_TOOLCHAIN_TYPE}" in
cross|native)
export PATH="${CT_PREFIX_DIR}/bin:${CT_BUILDTOOLS_PREFIX_DIR}/bin:${PATH}"
bh_cflags="${CT_EXTRA_CFLAGS_FOR_BUILD} ${CT_EXTRA_CFLAGS_FOR_HOST}"
bh_ldflags="${CT_EXTRA_LDFLAGS_FOR_BUILD} ${CT_EXTRA_LDFLAGS_FOR_HOST}"
CT_EXTRA_CFLAGS_FOR_BUILD="${bh_cflags}"
CT_EXTRA_CFLAGS_FOR_HOST="${bh_cflags}"
CT_EXTRA_LDFLAGS_FOR_BUILD="${bh_ldflags}"
CT_EXTRA_LDFLAGS_FOR_HOST="${bh_ldflags}"
;;
canadian|cross-native)
export PATH="${CT_BUILDTOOLS_PREFIX_DIR}/bin:${PATH}"
# build!=host in this case
;;
*)
;;
esac
# Help build gcc
# Explicitly optimise, else the lines below will overide the
# package's default optimisation flags
CT_CFLAGS_FOR_BUILD="-O2 -g -I${CT_BUILDTOOLS_PREFIX_DIR}/include"
CT_CFLAGS_FOR_BUILD+=" ${CT_EXTRA_CFLAGS_FOR_BUILD}"
CT_LDFLAGS_FOR_BUILD="-L${CT_BUILDTOOLS_PREFIX_DIR}/lib"
CT_LDFLAGS_FOR_BUILD+=" ${CT_EXTRA_LDFLAGS_FOR_BUILD}"
case "${CT_BUILD}" in
*darwin*)
# Two issues while building on MacOS. Really, we should be checking for
# clang instead.
# - gettext static library fails to link unless CoreFoundation framework
# is included
# - ranlib on MacOS does not include common symbols into the symbol index
# for a static library, and hence linker fails to pull in the right
# archive members; hence, avoid common symbols. Alternative is to
# have ranlib wrapper in buildtools/bin supply -c option.
CT_CFLAGS_FOR_BUILD+=" -fno-common"
CT_LDFLAGS_FOR_BUILD+=" -framework CoreFoundation"
;;
esac
CT_DoLog DEBUG "CFLAGS for build compiler: '${CT_CFLAGS_FOR_BUILD}'"
CT_DoLog DEBUG "LDFLAGS for build compiler: '${CT_LDFLAGS_FOR_BUILD}'"
# Help host gcc
# Explicitly optimise, else the lines below will overide the
# package's default optimisation flags
CT_CFLAGS_FOR_HOST="-O2 -g"
[ "${CT_USE_PIPES}" = "y" ] && CT_CFLAGS_FOR_HOST+=" -pipe"
CT_CFLAGS_FOR_HOST+=" -I${CT_HOST_COMPLIBS_DIR}/include"
CT_CFLAGS_FOR_HOST+=" ${CT_EXTRA_CFLAGS_FOR_HOST}"
CT_LDFLAGS_FOR_HOST="-L${CT_HOST_COMPLIBS_DIR}/lib"
CT_LDFLAGS_FOR_HOST+=" ${CT_EXTRA_LDFLAGS_FOR_HOST}"
case "${CT_HOST}" in
*darwin*)
# Same as above, for host
CT_CFLAGS_FOR_HOST+=" -fno-common"
CT_LDFLAGS_FOR_HOST+=" -framework CoreFoundation"
;;
esac
CT_DoLog DEBUG "CFLAGS for host compiler: '${CT_CFLAGS_FOR_HOST}'"
CT_DoLog DEBUG "LDFLAGS for host compiler: '${CT_LDFLAGS_FOR_HOST}'"
# Set the shell to be used by ./configure scripts and by Makefiles (those
# that support it!).
export CONFIG_SHELL="${CT_CONFIG_SHELL}" # for ./configure
export SHELL="${CT_CONFIG_SHELL}" # for Makefiles
# And help make go faster
JOBSFLAGS=
# Override the configured jobs with what's been given on the command line
if [ -n "${CT_JOBS}" ]; then
if [ ! -z "`echo "${CT_JOBS}" | ${sed} 's/[0-9]//g'`" ]; then
CT_Abort "Number of parallel jobs must be integer."
fi
CT_PARALLEL_JOBS="${CT_JOBS}"
fi
# Use the number of processors+1 when automatically setting the number of
# parallel jobs. Fall back to 1 if the host doesn't use GLIBC.
AUTO_JOBS=$((`@@CT_cpucount@@ 2>/dev/null || echo 0` + 1))
[ ${CT_PARALLEL_JOBS} -eq 0 ] && JOBSFLAGS="${JOBSFLAGS} -j${AUTO_JOBS}"
[ ${CT_PARALLEL_JOBS} -gt 0 ] && JOBSFLAGS="${JOBSFLAGS} -j${CT_PARALLEL_JOBS}"
JOBSFLAGS="${JOBSFLAGS} -l${CT_LOAD}"
# Override 'download only' option
[ -n "${CT_SOURCE}" ] && CT_ONLY_DOWNLOAD=y
# Now that we've set up $PATH and $CT_CFLAGS_FOR_HOST, sanity test that gcc
# is runnable so that the user can troubleshoot problems if not.
CT_DoStep DEBUG "Checking that we can run gcc -v"
CT_DoExecLog DEBUG "${CT_HOST}-gcc" -v
CT_EndStep
# Create a simple C program for testing.
testc="${CT_BUILD_DIR}/test.c"
printf "int main() { return 0; }\n" >"${testc}"
gccout="${CT_BUILD_DIR}/.gccout"
CT_DoStep DEBUG "Checking that gcc can compile a trivial program"
CT_DoExecLog DEBUG "${CT_HOST}-gcc" ${CT_CFLAGS_FOR_HOST} ${CT_LDFLAGS_FOR_HOST} "${testc}" -o "${gccout}"
rm -f "${gccout}"
CT_EndStep
# These tests are only enabled if we need static linking on the *build*
if [ "${CT_WANTS_STATIC_LINK}" = "y" ]; then
CT_DoStep DEBUG "Checking that gcc can compile a trivial statically linked program (CT_WANTS_STATIC_LINK)"
CT_DoLog DEBUG "You may need to ensure that static libraries such as libc.a are installed on your system"
CT_DoExecLog DEBUG "${CT_HOST}-gcc" ${CT_CFLAGS_FOR_BUILD} ${CT_LDFLAGS_FOR_BUILD} "${testc}" -static -o "${gccout}"
rm -f "${gccout}"
CT_EndStep
fi
if [ "${CT_WANTS_STATIC_LINK_CXX}" = "y" ]; then
CT_DoStep DEBUG "Checking that gcc can statically link libstdc++ (CT_WANTS_STATIC_LINK_CXX)"
CT_DoLog DEBUG "You may need to ensure that libstdc++.a is installed on your system"
CT_DoExecLog DEBUG "${CT_HOST}-gcc" ${CT_CFLAGS_FOR_BUILD} ${CT_LDFLAGS_FOR_BUILD} "${testc}" -static -lstdc++ -o "${gccout}"
rm -f "${gccout}"
CT_EndStep
fi
rm -f "${testc}"
CT_DoLog EXTRA "Installing user-supplied crosstool-NG configuration"
CT_DoExecLog ALL mkdir -p "${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 ${sed} -i -e 's,@@grep@@,"'"${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_DoLog DEBUG "Other environment:"
printenv |${grep} -v -E '^CT_.+=' |CT_DoLog DEBUG
CT_EndStep
fi
if [ -z "${CT_RESTART}" ]; then
CT_DoStep INFO "Retrieving needed toolchain components' tarballs"
do_companion_tools_get
do_kernel_get
do_companion_libs_get
do_binutils_get
do_cc_get
do_libc_get
do_debug_get
do_test_suite_get
CT_EndStep
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
CT_DoStep INFO "Extracting and patching toolchain components"
do_companion_tools_extract
do_kernel_extract
do_companion_libs_extract
do_binutils_extract
do_cc_extract
do_libc_extract
do_debug_extract
do_test_suite_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 [ ${do_stop} -eq 1 ]; then
CT_DoLog INFO "Stopping just after step '${prev_step}', as requested."
exit 0
fi
fi
if [ ${do_it} -eq 1 ]; then
( do_${step} )
# POSIX 1003.1-2008 does not say if "set -e" should catch a
# sub-shell ending with !0. bash-3 does not, while bash-4 does,
# so the following line is for bash-3; bash-4 would choke above.
[ $? -eq 0 ]
multilib: Determine which options may pass through. On some arches (e.g. MIPS) the options like -mabi do not work if specified more than once (see the comment in 100-gcc.sh). Therefore, we need to determine which of the options produced by <arch>.sh can be passed to multilib builds and which must be removed (i.e., which options vary among the multilibs). This presents a chicken-and-egg problem. GCC developers, in their infinite wisdom, do not allow arbitrary multilib specification to be supplied to GCC's configure. Instead, the target (and sometimes some extra options) determine the set of multilibs - which may include different CPUs, different ABIs, different endianness, different FPUs, different floating-point ABIs, ... That is, we don't know which parts vary until we build GCC and ask it. So, the solution implemented here is: - For multilib builds, start with empty CT_ARCH_TARGET_CFLAGS/LDFLAGS. - For multilib builds, require core pass 1. Pass 1 does not build any target binaries, so at that point, our target options have not been used yet. - Provide an API to modify the environment variables for the steps that follow the current one. - As a part of multilib-related housekeeping, determine the variable part of multilibs and filter out these options; pass the rest into CT_TARGET_CFLAGS/LDFLAGS. This still does not handle extra dependencies between GCC options (like -ma implying -mcpu=X -mtune=Y, etc.) but I feel that would complicate matters too much. Let's leave this until there's a compelling case for it. Also, query GCC's sysroot suffix for targets that use it (SuperH, for example) - the default multilib may not work if the command line specifies the default option explicitly (%sysroot_suffix_spec is not aware of multilib defaults). Signed-off-by: Alexey Neyman <stilor@att.net>
2016-03-30 19:15:54 +00:00
# Pick up environment changes.
if [ -r "${CT_BUILD_DIR}/env.modify.sh" ]; then
CT_DoLog DEBUG "Step '${step}' modified the environment:"
CT_DoExecLog DEBUG cat "${CT_BUILD_DIR}/env.modify.sh"
. "${CT_BUILD_DIR}/env.modify.sh"
CT_DoExecLog DEBUG rm -f "${CT_BUILD_DIR}/env.modify.sh"
fi
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...
CT_DoLog INFO "Finishing installation (may take a few seconds)..."
CT_LogDisable
rm -f ${CT_PREFIX_DIR}/build.log.bz2
if [ "${CT_LOG_TO_FILE}" = "y" ]; then
cp "${CT_BUILD_LOG}" "${CT_PREFIX_DIR}/build.log"
if [ "${CT_LOG_FILE_COMPRESS}" = y ]; then
bzip2 -9 "${CT_PREFIX_DIR}/build.log"
fi
fi
if [ "${CT_PREFIX_DIR_RO}" = "y" ]; then
chmod -R a-w "${CT_PREFIX_DIR}"
fi
# CT_TEST_SUITE_DIR may not exist if only downloading or extracting
if [ "${CT_TEST_SUITE}" = "y" -a -d "${CT_TEST_SUITE_DIR}" ]; then
chmod -R u+w "${CT_TEST_SUITE_DIR}"
fi
trap - EXIT