crosstool-ng/scripts/build/libc/glibc.sh

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# This file adds functions to build glibc
# Copyright 2007 Yann E. MORIN
# Licensed under the GPL v2. See COPYING in the root of this package
do_libc_get() {
local date
local version
# Main source
if [ "${CT_LIBC_GLIBC_CUSTOM}" = "y" ]; then
CT_GetCustom "glibc" "${CT_LIBC_GLIBC_CUSTOM_VERSION}" \
"${CT_LIBC_GLIBC_CUSTOM_LOCATION}"
else
if echo ${CT_LIBC_VERSION} |${grep} -q linaro; then
# Linaro glibc releases come from regular downloads...
YYMM=`echo ${CT_LIBC_VERSION} |cut -d- -f3 |${sed} -e 's,^..,,'`
CT_GetFile "glibc-${CT_LIBC_VERSION}" \
https://releases.linaro.org/${YYMM}/components/toolchain/glibc-linaro \
http://cbuild.validation.linaro.org/snapshots
else
CT_GetFile "glibc-${CT_LIBC_VERSION}" \
{http,ftp,https}://ftp.gnu.org/gnu/glibc \
ftp://{sourceware.org,gcc.gnu.org}/pub/glibc/{releases,snapshots}
fi
fi
return 0
}
do_libc_extract() {
CT_Extract "${CT_LIBC}-${CT_LIBC_VERSION}"
CT_Pushd "${CT_SRC_DIR}/${CT_LIBC}-${CT_LIBC_VERSION}"
# Attempt CT_PATCH only if NOT custom
CT_Patch nochdir "${CT_LIBC}" "${CT_LIBC_VERSION}"
# The configure files may be older than the configure.in files
# if using a snapshot (or even some tarballs). Fake them being
# up to date.
find . -type f -name configure -exec touch {} \; 2>&1 |CT_DoLog ALL
CT_Popd
}
# Build and install headers and start files
do_libc_start_files() {
# Start files and Headers should be configured the same way as the
# final libc, but built and installed differently.
do_libc_backend libc_mode=startfiles
}
# This function builds and install the full C library
do_libc() {
do_libc_backend libc_mode=final
}
do_libc_post_cc() {
:
}
# This backend builds the C library once for each multilib
# variant the compiler gives us
# Usage: do_libc_backend param=value [...]
# Parameter : Definition : Type : Default
# libc_mode : 'startfiles' or 'final' : string : (none)
do_libc_backend() {
local libc_mode
local -a multilibs
local multilib
local multi_dir multi_os_dir multi_flags multi_last
local target
local arg
for arg in "$@"; do
eval "${arg// /\\ }"
done
case "${libc_mode}" in
startfiles)
CT_DoStep INFO "Installing C library headers & start files"
;;
final)
CT_DoStep INFO "Installing C library"
;;
*)
CT_Abort "Unsupported (or unset) libc_mode='${libc_mode}'"
;;
esac
# If gcc is not configured for multilib, it still prints
# a single line for the default settings
multilibs=( $("${CT_TARGET}-gcc" -print-multi-lib 2>/dev/null) )
last_multi=
for multilib in "${multilibs[@]}"; do
last_multi=$(( ${#multilibs[@]} - 1 ))
if [ "${multilib%%;*}" = "${multilibs[last_multi]%%;*}" ]; then
# This is the last multilib build or multilib is '.'
# (default target, not multilib)
multi_last=y
fi
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
# GCC makes the distinction between:
# multilib (-print-multi-lib or -print-multi-directory) and
# multilib-os (--print-multi-os-directory)
# as the gcc library and gcc sysroot library paths, respectively.
# For example, on x86_64:
# multilib: -m32=32 -m64=.
# multilib-os: -m32=../lib -m64=../lib64
# Moreover, while some multilibs can coexist in the same sysroot (e.g.
# on x86), some have a "sysroot suffix" to separate incompatible variants.
# Such sysroot suffixes combine with multilib-os directories, e.g.
# on sh4 with -m4a multilib, the search order in sysroot is (dropping some
# directories for brevity:
# <sysroot>/m4a/lib/m4a/
# <sysroot>/m4a/usr/lib/m4a/
# <sysroot>/m4a/lib/
# <sysroot>/m4a/usr/lib/
multi_flags=$( echo "${multilib#*;}" | ${sed} -r -e 's/@/ -/g;' )
multi_dir="${multilib%%;*}"
multi_os_dir=$( "${CT_TARGET}-gcc" -print-multi-os-directory ${multi_flags} )
multi_root=$( "${CT_TARGET}-gcc" -print-sysroot ${multi_flags} )
# Adjust target tuple according to CFLAGS + any GLIBC quirks
target="${CT_TARGET}"
CT_DoMultilibTarget target ${extra_flags}
CT_DoArchGlibcAdjustTuple target
CT_DoStep INFO "Building for multilib '${multi_flags}'"
# Ensure sysroot (with suffix, if applicable) exists
CT_DoExecLog ALL mkdir -p "${multi_root}"
CT_mkdir_pushd "${CT_BUILD_DIR}/build-libc-${libc_mode}${multi_dir//\//_}"
do_libc_backend_once multi_dir="${multi_dir}" \
multi_os_dir="${multi_os_dir}" \
multi_flags="${multi_flags}" \
multi_root="${multi_root}" \
multi_last="${multi_last}" \
libc_mode="${libc_mode}" \
libc_target="${target}"
CT_Popd
CT_EndStep
done
CT_EndStep
}
# This backend builds the C library once
# Usage: do_libc_backend_once param=value [...]
# Parameter : Definition : Type
# libc_mode : 'startfiles' or 'final' : string : (empty)
# libc_target : Build libc target triplet : string : (empty)
# multi_root : Installation root, chosen for multilib: string : (empty)
# multi_flags : Extra CFLAGS to use (for multilib) : string : (empty)
# multi_dir : Extra subdir for multilib (gcc) : string : (empty)
# multi_os_dir : Extra subdir for multilib (os) : string : (empty)
# multi_last : The last multilib target : bool : n
do_libc_backend_once() {
local multi_flags multi_dir multi_os_dir multi_root multi_last multi_root
local startfiles_dir
local src_dir="${CT_SRC_DIR}/${CT_LIBC}-${CT_LIBC_VERSION}"
local -a extra_config
local -a extra_make_args
local glibc_cflags
local libc_target="${CT_TARGET}"
local arg opt
for arg in "$@"; do
eval "${arg// /\\ }"
done
# Glibc seems to be smart enough to know about the cases that can coexist
# in the same root and installs them into proper multilib-os directory; all
# we need is to point to the right root. We do need to handle multilib-os
# here, though, for the first pass where we install crt*.o and a dummy
# libc.so; we therefore install it to the most specific location of
# <sysroot>/<suffix>/usr/lib/<multilib-os> where it is least likely to clash
# with other multilib variants. We then remove these temporary files at
# the beginning of the libc-final step and allow glibc to install them
# where it thinks is proper.
startfiles_dir="${multi_root}/usr/lib/${multi_os_dir}"
CT_SanitizeVarDir startfiles_dir
if [ "${libc_mode}" = "final" ]; then
CT_DoLog EXTRA "Cleaning up start files"
CT_DoExecLog ALL rm -f "${startfiles_dir}/crt1.o" \
"${startfiles_dir}/crti.o" \
"${startfiles_dir}/crtn.o" \
"${startfiles_dir}/libc.so"
fi
CT_DoLog EXTRA "Configuring C library"
# Also, if those two are missing, iconv build breaks
extra_config+=( --disable-debug --disable-sanity-checks )
# always include rpc, the user can still override it with TI-RPC
extra_config+=( --enable-obsolete-rpc )
# Add some default glibc config options if not given by user.
# We don't need to be conditional on whether the user did set different
# values, as they CT_LIBC_GLIBC_EXTRA_CONFIG_ARRAY is passed after
# extra_config
extra_config+=("$(do_libc_min_kernel_config)")
case "${CT_THREADS}" in
nptl) extra_config+=("--with-__thread" "--with-tls");;
linuxthreads) extra_config+=("--with-__thread" "--without-tls" "--without-nptl");;
none) extra_config+=("--without-__thread" "--without-nptl")
case "${CT_LIBC_GLIBC_EXTRA_CONFIG_ARRAY[*]}" in
*-tls*) ;;
*) extra_config+=("--without-tls");;
esac
;;
esac
case "${CT_SHARED_LIBS}" in
y) extra_config+=("--enable-shared");;
*) extra_config+=("--disable-shared");;
esac
if [ "${CT_LIBC_DISABLE_VERSIONING}" = "y" ]; then
extra_config+=("--disable-versioning")
fi
if [ "${CT_LIBC_OLDEST_ABI}" != "" ]; then
extra_config+=("--enable-oldest-abi=${CT_LIBC_OLDEST_ABI}")
fi
case "$(do_libc_add_ons_list ,)" in
"") extra_config+=("--enable-add-ons=no");;
*) extra_config+=("--enable-add-ons=$(do_libc_add_ons_list ,)");;
esac
extra_config+=("--with-pkgversion=${CT_PKGVERSION}")
[ -n "${CT_TOOLCHAIN_BUGURL}" ] && extra_config+=("--with-bugurl=${CT_TOOLCHAIN_BUGURL}")
touch config.cache
if [ "${CT_LIBC_GLIBC_FORCE_UNWIND}" = "y" ]; then
echo "libc_cv_forced_unwind=yes" >>config.cache
echo "libc_cv_c_cleanup=yes" >>config.cache
fi
# Pre-seed the configparms file with values from the config option
printf "%s\n" "${CT_LIBC_GLIBC_CONFIGPARMS}" > configparms
# glibc can't be built without -O2 (reference needed!)
glibc_cflags+=" -O2"
case "${CT_LIBC_ENABLE_FORTIFIED_BUILD}" in
y) ;;
*) glibc_cflags+=" -U_FORTIFY_SOURCE";;
esac
# In the order of increasing precedence. Flags common to compiler and linker.
glibc_cflags+=" ${CT_TARGET_CFLAGS}"
glibc_cflags+=" ${CT_LIBC_GLIBC_EXTRA_CFLAGS}"
glibc_cflags+=" ${multi_flags}"
# Analyze the resulting options for any extra configure switches to throw in.
for opt in ${glibc_cflags}; do
case ${opt} in
-mhard-float|-mfloat-abi=hard|-mfloat-abi=softfp|-mno-soft-float|-mfpu)
extra_config+=("--with-fp")
;;
-msoft-float|-mfloat-abi=soft|-mno-float|-mno-fpu)
extra_config+=("--without-fp")
;;
esac
done
# ./configure is mislead by our tools override wrapper for bash
# so just tell it where the real bash is _on_the_target_!
# Notes:
# - ${ac_cv_path_BASH_SHELL} is only used to set BASH_SHELL
# - ${BASH_SHELL} is only used to set BASH
# - ${BASH} is only used to set the shebang
# in two scripts to run on the target
# So we can safely bypass bash detection at compile time.
# Should this change in a future glibc release, we'd better
# directly mangle the generated scripts _after_ they get built,
# or even after they get installed...
echo "ac_cv_path_BASH_SHELL=/bin/bash" >>config.cache
# Configure with --prefix the way we want it on the target...
# There are a whole lot of settings here. You'll probably want
# to read up on what they all mean, and customize a bit, possibly
# by setting GLIBC_EXTRA_CONFIG_ARRAY.
# Compare these options with the ones used when installing
# the glibc headers above - they're different.
# Adding "--without-gd" option to avoid error "memusagestat.c:36:16:
# gd.h: No such file or directory"
# See also http://sources.redhat.com/ml/libc-alpha/2000-07/msg00024.html.
# Set BUILD_CC, or we won't be able to build datafiles
# Run explicitly through CONFIG_SHELL, or the build breaks badly (loop-of-death)
# when the shell is not bash... Sigh... :-(
CT_DoLog DEBUG "Configuring with addons : '$(do_libc_add_ons_list ,)'"
CT_DoLog DEBUG "Extra config args passed : '${extra_config[*]}'"
CT_DoLog DEBUG "Extra CFLAGS passed : '${glibc_cflags}'"
CT_DoLog DEBUG "Placing startfiles into : '${startfiles_dir}'"
CT_DoLog DEBUG "Configuring with --host : '${libc_target}'"
# CFLAGS are only applied when compiling .c files. .S files are compiled with ASFLAGS,
# but they are not passed by configure. Thus, pass everything in CC instead.
CT_DoExecLog CFG \
BUILD_CC=${CT_BUILD}-gcc \
CC="${CT_TARGET}-gcc ${glibc_cflags}" \
AR=${CT_TARGET}-ar \
RANLIB=${CT_TARGET}-ranlib \
"${CONFIG_SHELL}" \
"${src_dir}/configure" \
--prefix=/usr \
--build=${CT_BUILD} \
--host=${libc_target} \
--cache-file="$(pwd)/config.cache" \
--without-cvs \
--disable-profile \
--without-gd \
--with-headers="${CT_HEADERS_DIR}" \
"${extra_config[@]}" \
"${CT_LIBC_GLIBC_EXTRA_CONFIG_ARRAY[@]}"
# build hacks
case "${CT_ARCH},${CT_ARCH_CPU}" in
powerpc,8??)
# http://sourceware.org/ml/crossgcc/2008-10/msg00068.html
CT_DoLog DEBUG "Activating support for memset on broken ppc-8xx (CPU15 erratum)"
extra_make_args+=( ASFLAGS="-DBROKEN_PPC_8xx_CPU15" )
;;
esac
CT_CFLAGS_FOR_BUILD+=" ${CT_EXTRA_CFLAGS_FOR_BUILD}"
CT_LDFLAGS_FOR_BUILD+=" ${CT_EXTRA_LDFLAGS_FOR_BUILD}"
extra_make_args+=( "BUILD_CFLAGS=${CT_CFLAGS_FOR_BUILD}" "BUILD_LDFLAGS=${CT_LDFLAGS_FOR_BUILD}" )
case "$CT_BUILD" in
*mingw*|*cygwin*|*msys*)
# When installing headers on Cygwin, MSYS2 and MinGW-w64 sunrpc needs
# gettext for building cross-rpcgen.
extra_make_args+=( BUILD_CPPFLAGS="-I${CT_BUILDTOOLS_PREFIX_DIR}/include/" )
extra_make_args+=( BUILD_LDFLAGS="-L${CT_BUILDTOOLS_PREFIX_DIR}/lib -Wl,-Bstatic -lintl -liconv -Wl,-Bdynamic" )
;;
*darwin*)
# .. and the same goes for Darwin.
extra_make_args+=( BUILD_CPPFLAGS="-I${CT_BUILDTOOLS_PREFIX_DIR}/include/" )
extra_make_args+=( BUILD_LDFLAGS="-L${CT_BUILDTOOLS_PREFIX_DIR}/lib -lintl" )
;;
esac
if [ "${libc_mode}" = "startfiles" -a ! -r "${multi_root}/.libc_headers_installed" ]; then
CT_DoLog EXTRA "Installing C library headers"
CT_DoExecLog ALL touch "${multi_root}/.libc_headers_installed"
# use the 'install-headers' makefile target to install the
# headers
CT_DoExecLog ALL ${make} ${JOBSFLAGS} \
install_root=${multi_root} \
install-bootstrap-headers=yes \
"${extra_make_args[@]}" \
install-headers
# For glibc, a few headers need to be manually installed
if [ "${CT_LIBC}" = "glibc" ]; then
# Two headers -- stubs.h and features.h -- aren't installed by install-headers,
# so do them by hand. We can tolerate an empty stubs.h for the moment.
# See e.g. http://gcc.gnu.org/ml/gcc/2002-01/msg00900.html
mkdir -p "${CT_HEADERS_DIR}/gnu"
CT_DoExecLog ALL touch "${CT_HEADERS_DIR}/gnu/stubs.h"
CT_DoExecLog ALL cp -v "${CT_SRC_DIR}/glibc-${CT_LIBC_VERSION}/include/features.h" \
"${CT_HEADERS_DIR}/features.h"
# Building the bootstrap gcc requires either setting inhibit_libc, or
# having a copy of stdio_lim.h... see
# http://sources.redhat.com/ml/libc-alpha/2003-11/msg00045.html
CT_DoExecLog ALL cp -v bits/stdio_lim.h "${CT_HEADERS_DIR}/bits/stdio_lim.h"
# Following error building gcc-4.0.0's gcj:
# error: bits/syscall.h: No such file or directory
# solved by following copy; see http://sourceware.org/ml/crossgcc/2005-05/msg00168.html
# but it breaks arm, see http://sourceware.org/ml/crossgcc/2006-01/msg00091.html
# Of course, only copy it if it does not already exist
case "${CT_ARCH}" in
arm) ;;
*) if [ -f "${CT_HEADERS_DIR}/bits/syscall.h" ]; then
CT_DoLog ALL "Not over-writing existing bits/syscall.h"
elif [ -f "misc/bits/syscall.h" ]; then
CT_DoExecLog ALL cp -v "misc/bits/syscall.h" \
"${CT_HEADERS_DIR}/bits/syscall.h"
else
# "Old" glibces do not have the above file,
# but provide this one:
CT_DoExecLog ALL cp -v "misc/syscall-list.h" \
"${CT_HEADERS_DIR}/bits/syscall.h"
fi
;;
esac
fi
elif [ "${libc_mode}" = "final" -a -r "${multi_root}/.libc_headers_installed" ]; then
CT_DoExecLog ALL rm -f "${multi_root}/.libc_headers_installed"
fi # installing headers
if [ "${libc_mode}" = "startfiles" ]; then
if [ "${CT_THREADS}" = "nptl" ]; then
CT_DoLog EXTRA "Installing C library start files"
# there are a few object files needed to link shared libraries,
# which we build and install by hand
CT_DoExecLog ALL mkdir -p "${startfiles_dir}"
CT_DoExecLog ALL ${make} ${JOBSFLAGS} \
"${extra_make_args[@]}" \
csu/subdir_lib
CT_DoExecLog ALL cp csu/crt1.o csu/crti.o csu/crtn.o \
"${startfiles_dir}"
# Finally, 'libgcc_s.so' requires a 'libc.so' to link against.
# However, since we will never actually execute its code,
# it doesn't matter what it contains. So, treating '/dev/null'
# as a C source file, we produce a dummy 'libc.so' in one step
CT_DoExecLog ALL "${CT_TARGET}-gcc" ${multi_flags} \
-nostdlib \
-nostartfiles \
-shared \
-x c /dev/null \
-o "${startfiles_dir}/libc.so"
fi # threads == nptl
fi # libc_mode = startfiles
if [ "${libc_mode}" = "final" ]; then
CT_DoLog EXTRA "Building C library"
CT_DoExecLog ALL ${make} ${JOBSFLAGS} \
"${extra_make_args[@]}" \
all
CT_DoLog EXTRA "Installing C library"
CT_DoExecLog ALL ${make} ${JOBSFLAGS} \
"${extra_make_args[@]}" \
install_root="${multi_root}" \
install
if [ "${CT_BUILD_MANUALS}" = "y" -a "${multi_last}" = "y" ]; then
# We only need to build the manuals once. Only build them on the
# last multilib target. If it's not multilib, it will happen on the
# only target.
CT_DoLog EXTRA "Building and installing the C library manual"
# Omit JOBSFLAGS as GLIBC has problems building the
# manuals in parallel
CT_DoExecLog ALL ${make} pdf html
CT_DoExecLog ALL mkdir -p ${CT_PREFIX_DIR}/share/doc
CT_DoExecLog ALL cp -av ${src_dir}/manual/*.pdf \
${src_dir}/manual/libc \
${CT_PREFIX_DIR}/share/doc
fi
if [ "${CT_LIBC_LOCALES}" = "y" -a "${multi_last}" = "y" ]; then
do_libc_locales
fi
fi # libc_mode = final
}
# Build up the addons list, separated with $1
do_libc_add_ons_list() {
local sep="$1"
local addons_list="$( echo "${CT_LIBC_ADDONS_LIST}" \
|${sed} -r -e "s/[[:space:],]/${sep}/g;" \
)"
if [ "${CT_LIBC_GLIBC_2_20_or_later}" != "y" ]; then
case "${CT_THREADS}" in
none) ;;
*) addons_list="${addons_list}${sep}${CT_THREADS}";;
esac
fi
[ "${CT_LIBC_GLIBC_USE_PORTS}" = "y" ] && addons_list="${addons_list}${sep}ports"
# Remove duplicate, leading and trailing separators
echo "${addons_list}" |${sed} -r -e "s/${sep}+/${sep}/g; s/^${sep}//; s/${sep}\$//;"
}
# Compute up the minimum supported Linux kernel version
do_libc_min_kernel_config() {
local min_kernel_config
case "${CT_LIBC_GLIBC_EXTRA_CONFIG_ARRAY[*]}" in
*--enable-kernel*) ;;
*) if [ "${CT_LIBC_GLIBC_KERNEL_VERSION_AS_HEADERS}" = "y" ]; then
# We can't rely on the kernel version from the configuration,
# because it might not be available if the user uses pre-installed
# headers. On the other hand, both method will have the kernel
# version installed in "usr/include/linux/version.h" in the sysroot.
# Parse that instead of having two code-paths.
version_code_file="${CT_SYSROOT_DIR}/usr/include/linux/version.h"
if [ ! -f "${version_code_file}" -o ! -r "${version_code_file}" ]; then
CT_Abort "Linux version is unavailable in installed headers files"
fi
version_code="$(${grep} -E LINUX_VERSION_CODE "${version_code_file}" \
|cut -d' ' -f 3 \
)"
version=$(((version_code>>16)&0xFF))
patchlevel=$(((version_code>>8)&0xFF))
sublevel=$((version_code&0xFF))
min_kernel_config="${version}.${patchlevel}.${sublevel}"
elif [ "${CT_LIBC_GLIBC_KERNEL_VERSION_CHOSEN}" = "y" ]; then
# Trim the fourth part of the linux version, keeping only the first three numbers
min_kernel_config="$( echo "${CT_LIBC_GLIBC_MIN_KERNEL_VERSION}" \
|${sed} -r -e 's/^([^.]+\.[^.]+\.[^.]+)(|\.[^.]+)$/\1/;' \
)"
fi
echo "--enable-kernel=${min_kernel_config}"
;;
esac
}
# Build and install the libc locales
do_libc_locales() {
local src_dir="${CT_SRC_DIR}/glibc-${CT_LIBC_VERSION}"
local -a extra_config
local glibc_cflags
mkdir -p "${CT_BUILD_DIR}/build-localedef"
cd "${CT_BUILD_DIR}/build-localedef"
CT_DoLog EXTRA "Configuring C library localedef"
# Versions that don't support --with-pkgversion or --with-bugurl will cause
# a harmless: `configure: WARNING: unrecognized options: --with-bugurl...`
# If it's set, use it, if is a recognized option.
if [ ! "${CT_TOOLCHAIN_PKGVERSION}" = "" ]; then
extra_config+=("--with-pkgversion=${CT_PKGVERSION}")
fi
if [ ! "${CT_TOOLCHAIN_BUGURL}" = "" ]; then
[ -n "${CT_TOOLCHAIN_BUGURL}" ] && extra_config+=("--with-bugurl=${CT_TOOLCHAIN_BUGURL}")
fi
CT_DoLog DEBUG "Extra config args passed: '${extra_config[*]}'"
glibc_cflags="-O2 -fno-stack-protector"
case "${CT_LIBC_ENABLE_FORTIFIED_BUILD}" in
y) ;;
*) glibc_cflags+=" -U_FORTIFY_SOURCE";;
esac
# ./configure is misled by our tools override wrapper for bash
# so just tell it where the real bash is _on_the_target_!
# Notes:
# - ${ac_cv_path_BASH_SHELL} is only used to set BASH_SHELL
# - ${BASH_SHELL} is only used to set BASH
# - ${BASH} is only used to set the shebang
# in two scripts to run on the target
# So we can safely bypass bash detection at compile time.
# Should this change in a future glibc release, we'd better
# directly mangle the generated scripts _after_ they get built,
# or even after they get installed...
echo "ac_cv_path_BASH_SHELL=/bin/bash" >>config.cache
# Configure with --prefix the way we want it on the target...
CT_DoExecLog CFG \
CFLAGS="${glibc_cflags}" \
"${src_dir}/configure" \
--prefix=/usr \
--cache-file="$(pwd)/config.cache" \
--without-cvs \
--disable-profile \
--without-gd \
--disable-debug \
--disable-sanity-checks \
"${extra_config[@]}"
CT_DoLog EXTRA "Building C library localedef"
CT_DoExecLog ALL ${make} ${JOBSFLAGS}
# The target's endianness and uint32_t alignment should be passed as options
# to localedef, but glibc's localedef does not support these options, which
# means that the locale files generated here will be suitable for the target
# only if it has the same endianness and uint32_t alignment as the host's.
CT_DoLog EXTRA "Installing C library locales"
CT_DoExecLog ALL ${make} ${JOBSFLAGS} \
install_root="${CT_SYSROOT_DIR}" \
localedata/install-locales
}