#!/bin/bash ############################################################################### # # # IPFire.org - A linux based firewall # # Copyright (C) 2007-2016 IPFire Team # # # # 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, either version 3 of the License, or # # (at your option) any later version. # # # # 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. # # # # You should have received a copy of the GNU General Public License # # along with this program. If not, see . # # # ############################################################################### ############################################################################### # # Beautifying variables & presentation & input output interface # ############################################################################### ## Screen Dimentions # Find current screen size if [ -z "${COLUMNS}" ]; then COLUMNS=$(stty size) COLUMNS=${COLUMNS##* } fi # When using remote connections, such as a serial port, stty size returns 0 if [ "${COLUMNS}" = "0" ]; then COLUMNS=80 fi ## Measurements for positioning result messages RESULT_WIDTH=4 TIME_WIDTH=8 OPT_WIDTH=6 VER_WIDTH=10 RESULT_COL=$((${COLUMNS} - $RESULT_WIDTH - 4)) TIME_COL=$((${RESULT_COL} - $TIME_WIDTH - 5)) OPT_COL=$((${TIME_COL} - $OPT_WIDTH - 5)) VER_COL=$((${OPT_COL} - $VER_WIDTH - 5)) ## Set Cursur Position Commands, used via echo -e SET_RESULT_COL="\\033[${RESULT_COL}G" SET_TIME_COL="\\033[${TIME_COL}G" SET_OPT_COL="\\033[${OPT_COL}G" SET_VER_COL="\\033[${VER_COL}G" # Define color for messages BOLD="\\033[1;39m" DONE="\\033[1;32m" SKIP="\\033[1;34m" WARN="\\033[1;35m" FAIL="\\033[1;31m" NORMAL="\\033[0;39m" configure_target() { local target_arch="${1}" if [ "${target_arch}" = "default" ]; then target_arch="$(configure_target_guess)" fi case "${target_arch}" in x86_64) BUILDTARGET="${target_arch}-unknown-linux-gnu" CROSSTARGET="${target_arch}-cross-linux-gnu" CFLAGS_ARCH="-m64 -mtune=generic" ;; i586) BUILDTARGET="${target_arch}-pc-linux-gnu" CROSSTARGET="${target_arch}-cross-linux-gnu" CFLAGS_ARCH="-march=i586 -mtune=generic -fomit-frame-pointer" ;; aarch64) BUILDTARGET="${target_arch}-unknown-linux-gnu" CROSSTARGET="${target_arch}-cross-linux-gnu" CFLAGS_ARCH="" ;; armv5tel) BUILDTARGET="${target_arch}-unknown-linux-gnueabi" CROSSTARGET="${target_arch}-cross-linux-gnueabi" CFLAGS_ARCH="-march=armv5te -mfloat-abi=soft -fomit-frame-pointer" MACHINE_TYPE="arm" ;; *) exiterror "Cannot build for architure ${target_arch}" ;; esac # Check if the QEMU helper is available if needed. if qemu_is_required "${target_arch}"; then local qemu_target_helper="$(qemu_find_target_helper_name "${target_arch}")" if [ -n "${qemu_target_helper}" ]; then QEMU_TARGET_HELPER="${qemu_target_helper}" else exiterror "Could not find a binfmt_misc helper entry for ${target_arch}" fi fi TARGET_ARCH="${target_arch}" # Old variable names MACHINE="${TARGET_ARCH}" # Enables hardening HARDENING_CFLAGS="-Wp,-D_FORTIFY_SOURCE=2 -fstack-protector-strong --param=ssp-buffer-size=4" CFLAGS="-O2 -pipe -Wall -fexceptions -fPIC ${CFLAGS_ARCH}" CXXFLAGS="${CFLAGS}" } configure_target_guess() { case "${BUILD_ARCH}" in x86_64|i686|i586) echo "i586" ;; aarch64) echo "aarch64" ;; armv7*|armv6*|armv5*) echo "armv5tel" ;; *) exiterror "Cannot guess target architecture" ;; esac } evaluate() { if [ "$?" -eq "0" ]; then beautify message DONE else EXITCODE=$1 shift 1 beautify message FAIL $* if [ $EXITCODE -ne "0" ]; then exit $EXITCODE fi fi } position_cursor() { # ARG1=starting position on screen # ARG2=string to be printed # ARG3=offset, negative for left movement, positive for right movement, relative to ARG1 # For example if your starting position is column 50 and you want to print Hello three columns to the right # of your starting position, your call will look like this: # position_cursor 50 "Hello" 3 (you'll get the string Hello at position 53 (= 50 + 3) # If on the other hand you want your string "Hello" to end three columns to the left of position 50, # your call will look like this: # position_cursor 50 "Hello" -3 (you'll get the string Hello at position 42 (= 50 - 5 -3) # If you want to start printing at the exact starting location, use offset 0 START=$1 STRING=$2 OFFSET=$3 STRING_LENGTH=${#STRING} if [ ${OFFSET} -lt 0 ]; then COL=$((${START} + ${OFFSET} - ${STRING_LENGTH})) else COL=$((${START} + ${OFFSET})) fi SET_COL="\\033[${COL}G" echo $SET_COL } # End of position_cursor() beautify() { # Commands: build_stage, make_pkg, message, result case "$1" in message) case "$2" in DONE) echo -ne "${SET_RESULT_COL}[${DONE} DONE ${NORMAL}]\n" ;; WARN) echo -ne "${WARN}${3}${NORMAL}${SET_RESULT_COL}[${WARN} WARN ${NORMAL}]\n" ;; FAIL) echo -ne "${SET_RESULT_COL}[${FAIL} FAIL ${NORMAL}]\n" ;; SKIP) echo -ne "${SET_RESULT_COL}[${SKIP} SKIP ${NORMAL}]\n" ;; esac ;; build_stage) MESSAGE=$2 if [ "$STAGE_TIME_START" ]; then LAST_STAGE_TIME=$[ `date +%s` - $STAGE_TIME_START ] fi STAGE_TIME_START=`date +%s` echo -ne "${BOLD}*** ${MESSAGE}${NORMAL}" if [ "$LAST_STAGE_TIME" ]; then echo -ne "${DONE} (Last stage took $LAST_STAGE_TIME secs)${NORMAL}" fi echo -ne "${BOLD}${SET_VER_COL} version${SET_OPT_COL} options${SET_TIME_COL} time (sec)${SET_RESULT_COL} status${NORMAL}\n" ;; build_start) BUILD_TIME_START=`date +%s` ;; build_end) BUILD_TIME_END=`date +%s` seconds=$[ $BUILD_TIME_END - $BUILD_TIME_START ] hours=$((seconds / 3600)) seconds=$((seconds % 3600)) minutes=$((seconds / 60)) seconds=$((seconds % 60)) echo -ne "${DONE}***Build is finished now and took $hours hour(s) $minutes minute(s) $seconds second(s)!${NORMAL}\n" ;; make_pkg) echo "$2" | while read PKG_VER PROGRAM OPTIONS do SET_VER_COL_REAL=`position_cursor $OPT_COL $PKG_VER -3` if [ "$OPTIONS" == "" ]; then echo -ne "${PROGRAM}${SET_VER_COL}[ ${BOLD}${SET_VER_COL_REAL}${PKG_VER}" echo -ne "${NORMAL} ]${SET_RESULT_COL}" else echo -ne "${PROGRAM}${SET_VER_COL}[ ${BOLD}${SET_VER_COL_REAL}${PKG_VER}" echo -ne "${NORMAL} ]${SET_OPT_COL}[ ${BOLD}${OPTIONS}" echo -ne "${NORMAL} ]${SET_RESULT_COL}" fi done ;; result) RESULT=$2 if [ ! $3 ]; then PKG_TIME=0 else PKG_TIME=$3 fi SET_TIME_COL_REAL=`position_cursor $RESULT_COL $PKG_TIME -3` case "$RESULT" in DONE) echo -ne "${SET_TIME_COL}[ ${BOLD}${SET_TIME_COL_REAL}$PKG_TIME${NORMAL} ]" echo -ne "${SET_RESULT_COL}[${DONE} DONE ${NORMAL}]\n" ;; FAIL) echo -ne "${SET_TIME_COL}[ ${BOLD}${SET_TIME_COL_REAL}$PKG_TIME${NORMAL} ]" echo -ne "${SET_RESULT_COL}[${FAIL} FAIL ${NORMAL}]\n" ;; SKIP) echo -ne "${SET_RESULT_COL}[${SKIP} SKIP ${NORMAL}]\n" ;; esac ;; esac } # End of beautify() get_pkg_ver() { PKG_VER=`grep -E "^VER |^VER=|^VER " $1 | awk '{print $3}'` if [ -z $PKG_VER ]; then PKG_VER=`grep "Exp " $1 | awk '{print $4}'` fi if [ -z $PKG_VER ]; then PKG_VER="?" fi if [ ${#PKG_VER} -gt $VER_WIDTH ]; then # If a package version number is greater than $VER_WIDTH, we keep the first 4 characters # and replace enough characters to fit the resulting string on the screen. We'll replace # the extra character with .. (two dots). That's why the "+ 2" in the formula below. # Example: if we have a 21-long version number that we want to fit into a 10-long space, # we have to remove 11 characters. But if we replace 11 characters with 2 characters, we'll # end up with a 12-character long string. That's why we replace 12 characters with .. REMOVE=`expr substr "$PKG_VER" 4 $[ ${#PKG_VER} - $VER_WIDTH + 2 ]` PKG_VER=`echo ${PKG_VER/$REMOVE/..}` fi echo "$PKG_VER" } # End of get_pkg_ver() # Define immediately stdumount() { umount $BASEDIR/build/sys 2>/dev/null; umount $BASEDIR/build/dev/shm 2>/dev/null; umount $BASEDIR/build/dev/pts 2>/dev/null; umount $BASEDIR/build/dev 2>/dev/null; umount $BASEDIR/build/proc 2>/dev/null; umount $BASEDIR/build/install/mnt 2>/dev/null; umount $BASEDIR/build/usr/src/cache 2>/dev/null; umount $BASEDIR/build/usr/src/ccache 2>/dev/null; umount $BASEDIR/build/usr/src/config 2>/dev/null; umount $BASEDIR/build/usr/src/doc 2>/dev/null; umount $BASEDIR/build/usr/src/html 2>/dev/null; umount $BASEDIR/build/usr/src/langs 2>/dev/null; umount $BASEDIR/build/usr/src/lfs 2>/dev/null; umount $BASEDIR/build/usr/src/log 2>/dev/null; umount $BASEDIR/build/usr/src/src 2>/dev/null; } exiterror() { stdumount for i in `seq 0 7`; do if ( losetup /dev/loop${i} 2>/dev/null | grep -q "/install/images" ); then losetup -d /dev/loop${i} 2>/dev/null fi; done if [ -n "${LOGFILE}" ]; then echo # empty line local line while read -r line; do echo " ${line}" done <<< "$(tail -n30 ${LOGFILE})" fi echo -e "\nERROR: $*" echo " Check $LOGFILE for errors if applicable" exit 1 } fake_environ() { [ -e "${BASEDIR}/build/tools/lib/libpakfire_preload.so" ] || return local env="LD_PRELOAD=/tools/lib/libpakfire_preload.so" # Fake kernel version, because some of the packages do not compile # with kernel 3.0 and later. env="${env} UTS_RELEASE=${KVER}" # Fake machine version. env="${env} UTS_MACHINE=${TARGET_ARCH}" echo "${env}" } qemu_environ() { local env # Don't add anything if qemu is not used. if ! qemu_is_required; then return fi # Set default qemu options case "${TARGET_ARCH}" in arm*) QEMU_CPU="${QEMU_CPU:-cortex-a9}" env="${env} QEMU_CPU=${QEMU_CPU}" ;; esac # Enable QEMU strace #env="${env} QEMU_STRACE=1" echo "${env}" } qemu_is_required() { local target_arch="${1}" if [ -z "${target_arch}" ]; then target_arch="${TARGET_ARCH}" fi case "${BUILD_ARCH},${target_arch}" in x86_64,arm*|i?86,arm*|i?86,x86_64) return 0 ;; *) return 1 ;; esac } qemu_install_helper() { # Do nothing, if qemu is not required if ! qemu_is_required; then return 0 fi if [ ! -e /proc/sys/fs/binfmt_misc/status ]; then exiterror "binfmt_misc not mounted. QEMU_TARGET_HELPER not useable." fi if [ ! $(cat /proc/sys/fs/binfmt_misc/status) = 'enabled' ]; then exiterror "binfmt_misc not enabled. QEMU_TARGET_HELPER not useable." fi if [ -z "${QEMU_TARGET_HELPER}" ]; then exiterror "QEMU_TARGET_HELPER not set" fi # Check if the helper is already installed. if [ -x "${LFS}${QEMU_TARGET_HELPER}" ]; then return 0 fi # Try to find a suitable binary that we can install # to the build environment. local file for file in "${QEMU_TARGET_HELPER}" "${QEMU_TARGET_HELPER}-static"; do # file must exist and be executable. [ -x "${file}" ] || continue # Must be static. file_is_static "${file}" || continue local dirname="${LFS}$(dirname "${file}")" mkdir -p "${dirname}" install -m 755 "${file}" "${LFS}${QEMU_TARGET_HELPER}" return 0 done exiterror "Could not find a statically-linked QEMU emulator: ${QEMU_TARGET_HELPER}" } qemu_find_target_helper_name() { local target_arch="${1}" local magic case "${target_arch}" in arm*) magic="7f454c4601010100000000000000000002002800" ;; x86_64) magic="7f454c4602010100000000000000000002003e00" ;; esac [ -z "${magic}" ] && return 1 local file for file in /proc/sys/fs/binfmt_misc/*; do # skip write only register entry [ $(basename "${file}") = "register" ] && continue # Search for the file with the correct magic value. grep -qE "^magic ${magic}$" "${file}" || continue local interpreter="$(grep "^interpreter" "${file}" | awk '{ print $2 }')" [ -n "${interpreter}" ] || continue [ "${interpreter:0:1}" = "/" ] || continue [ -x "${interpreter}" ] || continue echo "${interpreter}" return 0 done return 1 } file_is_static() { local file="${1}" file ${file} 2>/dev/null | grep -q "statically linked" } entershell() { if [ ! -e $BASEDIR/build/usr/src/lfs/ ]; then exiterror "No such file or directory: $BASEDIR/build/usr/src/lfs/" fi # Install QEMU helper, if needed qemu_install_helper echo "Entering to a shell inside LFS chroot, go out with exit" chroot $LFS /tools/bin/env -i HOME=/root TERM=$TERM PS1='ipfire build chroot ($(uname -m)) \u:\w\$ ' \ PATH=/tools/ccache/bin:/bin:/usr/bin:/sbin:/usr/sbin:/tools/bin \ VERSION=$VERSION CONFIG_ROOT=$CONFIG_ROOT \ NAME="$NAME" SNAME="$SNAME" SLOGAN="$SLOGAN" \ CFLAGS="${CFLAGS} ${HARDENING_CFLAGS}" \ CXXFLAGS="${CXXFLAGS} ${HARDENING_CFLAGS}" \ CCACHE_DIR=/usr/src/ccache \ CCACHE_COMPRESS="${CCACHE_COMPRESS}" \ CCACHE_COMPILERCHECK="${CCACHE_COMPILERCHECK}" \ KVER=$KVER \ BUILDTARGET="$BUILDTARGET" \ CROSSTARGET="${CROSSTARGET}" \ MACHINE="$MACHINE" \ MACHINE_TYPE="$MACHINE_TYPE" \ $(fake_environ) \ $(qemu_environ) \ /tools/bin/bash -i if [ $? -ne 0 ]; then beautify message FAIL exiterror "chroot error" else stdumount fi } ############################################################################ # # # Necessary shell functions # # # ############################################################################ # # Common checking before entering the chroot and compilling # # Return:0 caller can continue # :1 skip (nothing to do) # or fail if no script file found # lfsmakecommoncheck() { # Script present? if [ ! -f $BASEDIR/lfs/$1 ]; then exiterror "No such file or directory: $BASEDIR/$1" fi local PKG_VER=`get_pkg_ver $BASEDIR/lfs/$1` beautify make_pkg "$PKG_VER $*" # Check if this package is supported by our architecture. # If no SUP_ARCH is found, we assume the package can be built for all. if grep "^SUP_ARCH" ${BASEDIR}/lfs/${1} >/dev/null; then # Check if package supports ${MACHINE} or all architectures. if ! grep -E "^SUP_ARCH.*${MACHINE}|^SUP_ARCH.*all" ${BASEDIR}/lfs/${1} >/dev/null; then beautify result SKIP return 1 fi fi # Script slipped? local i for i in $SKIP_PACKAGE_LIST do if [ "$i" == "$1" ]; then beautify result SKIP return 1; fi done echo -ne "`date -u '+%b %e %T'`: Building $* " >> $LOGFILE cd $BASEDIR/lfs && make -s -f $* LFS_BASEDIR=$BASEDIR MACHINE=$MACHINE \ MACHINE_TYPE="$MACHINE_TYPE" \ MESSAGE="$1\t " download >> $LOGFILE 2>&1 if [ $? -ne 0 ]; then exiterror "Download error in $1" fi cd $BASEDIR/lfs && make -s -f $* LFS_BASEDIR=$BASEDIR MACHINE=$MACHINE \ MACHINE_TYPE="$MACHINE_TYPE" \ MESSAGE="$1\t md5sum" md5 >> $LOGFILE 2>&1 if [ $? -ne 0 ]; then exiterror "md5sum error in $1, check file in cache or signature" fi return 0 # pass all! } # End of lfsmakecommoncheck() lfsmake1() { lfsmakecommoncheck $* [ $? == 1 ] && return 0 local PKG_TIME_START=`date +%s` cd $BASEDIR/lfs && \ PATH="/tools/ccache/bin:/tools/bin:$PATH" \ make -f $* TOOLCHAIN=1 BUILDTARGET=$BUILDTARGET \ CROSSTARGET="${CROSSTARGET}" \ MACHINE=$MACHINE \ MACHINE_TYPE=$MACHINE_TYPE \ LFS_BASEDIR=$BASEDIR \ ROOT=$LFS \ KVER=$KVER \ MAKETUNING=$MAKETUNING \ install >> $LOGFILE 2>&1 local COMPILE_SUCCESS=$? local PKG_TIME_END=`date +%s` if [ $COMPILE_SUCCESS -ne 0 ]; then beautify result FAIL $[ $PKG_TIME_END - $PKG_TIME_START ] exiterror "Building $*"; else beautify result DONE $[ $PKG_TIME_END - $PKG_TIME_START ] fi return 0 } lfsmake2() { lfsmakecommoncheck $* [ $? == 1 ] && return 0 # Install QEMU helper, if needed qemu_install_helper local PKG_TIME_START=`date +%s` chroot $LFS /tools/bin/env -i HOME=/root \ TERM=$TERM PS1='\u:\w\$ ' \ PATH=/tools/ccache/bin:/bin:/usr/bin:/sbin:/usr/sbin:/tools/bin \ VERSION=$VERSION PAKFIRE_CORE="${PAKFIRE_CORE}" \ SYSTEM_RELEASE="${SYSTEM_RELEASE}" \ CONFIG_ROOT=$CONFIG_ROOT \ NAME="$NAME" SNAME="$SNAME" SLOGAN="$SLOGAN" \ CFLAGS="${CFLAGS} ${HARDENING_CFLAGS}" \ CXXFLAGS="${CXXFLAGS} ${HARDENING_CFLAGS}" \ CCACHE_DIR=/usr/src/ccache \ CCACHE_COMPRESS="${CCACHE_COMPRESS}" \ CCACHE_COMPILERCHECK="${CCACHE_COMPILERCHECK}" \ KVER=$KVER MAKETUNING=$MAKETUNING \ BUILDTARGET="$BUILDTARGET" \ CROSSTARGET="${CROSSTARGET}" \ MACHINE="$MACHINE" \ MACHINE_TYPE="$MACHINE_TYPE" \ $(qemu_environ) \ $(fake_environ) \ /tools/bin/bash -x -c "cd /usr/src/lfs && \ make -f $* LFS_BASEDIR=/usr/src install" >>$LOGFILE 2>&1 local COMPILE_SUCCESS=$? local PKG_TIME_END=`date +%s` if [ $COMPILE_SUCCESS -ne 0 ]; then beautify result FAIL $[ $PKG_TIME_END - $PKG_TIME_START ] exiterror "Building $*"; else beautify result DONE $[ $PKG_TIME_END - $PKG_TIME_START ] fi return 0 } ipfiremake() { lfsmakecommoncheck $* [ $? == 1 ] && return 0 # Install QEMU helper, if needed qemu_install_helper local PKG_TIME_START=`date +%s` chroot $LFS /tools/bin/env -i HOME=/root \ TERM=$TERM PS1='\u:\w\$ ' \ PATH=/tools/ccache/bin:/bin:/usr/bin:/sbin:/usr/sbin \ VERSION=$VERSION \ CORE=$CORE \ CONFIG_ROOT=$CONFIG_ROOT \ NAME="$NAME" SNAME="$SNAME" SLOGAN="$SLOGAN" \ SYSTEM_RELEASE="$SYSTEM_RELEASE" \ CFLAGS="${CFLAGS} ${HARDENING_CFLAGS}" \ CXXFLAGS="${CXXFLAGS} ${HARDENING_CFLAGS}" \ CCACHE_DIR=/usr/src/ccache \ CCACHE_COMPRESS="${CCACHE_COMPRESS}" \ CCACHE_COMPILERCHECK="${CCACHE_COMPILERCHECK}" \ KVER=$KVER MAKETUNING=$MAKETUNING \ BUILDTARGET="$BUILDTARGET" \ CROSSTARGET="${CROSSTARGET}" \ MACHINE="$MACHINE" \ MACHINE_TYPE="$MACHINE_TYPE" \ $(qemu_environ) \ $(fake_environ) \ /bin/bash -x -c "cd /usr/src/lfs && \ make -f $* LFS_BASEDIR=/usr/src install" >>$LOGFILE 2>&1 local COMPILE_SUCCESS=$? local PKG_TIME_END=`date +%s` if [ $COMPILE_SUCCESS -ne 0 ]; then beautify result FAIL $[ $PKG_TIME_END - $PKG_TIME_START ] exiterror "Building $*"; else beautify result DONE $[ $PKG_TIME_END - $PKG_TIME_START ] fi return 0 } ipfiredist() { lfsmakecommoncheck $* [ $? == 1 ] && return 0 # Install QEMU helper, if needed qemu_install_helper local PKG_TIME_START=`date +%s` chroot $LFS /tools/bin/env -i HOME=/root \ TERM=$TERM PS1='\u:\w\$ ' \ PATH=/tools/ccache/bin:/bin:/usr/bin:/sbin:/usr/sbin \ VERSION=$VERSION \ CONFIG_ROOT=$CONFIG_ROOT \ NAME="$NAME" SNAME="$SNAME" SLOGAN="$SLOGAN" \ CFLAGS="${CFLAGS} ${HARDENING_CFLAGS}" \ CXXFLAGS="${CXXFLAGS} ${HARDENING_CFLAGS}" \ CCACHE_DIR=/usr/src/ccache \ CCACHE_COMPRESS="${CCACHE_COMPRESS}" \ CCACHE_COMPILERCHECK="${CCACHE_COMPILERCHECK}" \ KVER=$KVER \ BUILDTARGET="$BUILDTARGET" \ CROSSTARGET="${CROSSTARGET}" \ MACHINE="$MACHINE" \ MACHINE_TYPE="$MACHINE_TYPE" \ $(qemu_environ) \ $(fake_environ) \ /bin/bash -x -c "cd /usr/src/lfs && \ make -f $1 LFS_BASEDIR=/usr/src dist" >>$LOGFILE 2>&1 local COMPILE_SUCCESS=$? local PKG_TIME_END=`date +%s` if [ $COMPILE_SUCCESS -ne 0 ]; then beautify result FAIL $[ $PKG_TIME_END - $PKG_TIME_START ] exiterror "Packaging $*"; else beautify result DONE $[ $PKG_TIME_END - $PKG_TIME_START ] fi return 0 } installmake() { lfsmakecommoncheck $* [ $? == 1 ] && return 0 # Install QEMU helper, if needed qemu_install_helper local PKG_TIME_START=`date +%s` chroot $LFS /tools/bin/env -i HOME=/root \ TERM=$TERM PS1='\u:\w\$ ' \ PATH=/tools/ccache/bin:/bin:/usr/bin:/sbin:/usr/sbin \ VERSION=$VERSION \ SYSTEM_RELEASE="${SYSTEM_RELEASE}" \ CONFIG_ROOT=$CONFIG_ROOT \ NAME="$NAME" SNAME="$SNAME" SLOGAN="$SLOGAN" \ CFLAGS="${CFLAGS} ${HARDENING_CFLAGS}" \ CXXFLAGS="${CXXFLAGS} ${HARDENING_CFLAGS}" \ CCACHE_DIR=/usr/src/ccache CCACHE_COMPRESS=1 CCACHE_HASHDIR=1 \ KVER=$KVER \ BUILDTARGET="$BUILDTARGET" \ CROSSTARGET="${CROSSTARGET}" \ MACHINE="$MACHINE" \ MACHINE_TYPE="$MACHINE_TYPE" \ LD_LIBRARY_PATH=/tools/lib \ /tools/bin/bash -x -c "cd /usr/src/lfs && \ /tools/bin/make -f $* LFS_BASEDIR=/usr/src install" >>$LOGFILE 2>&1 local COMPILE_SUCCESS=$? local PKG_TIME_END=`date +%s` if [ $COMPILE_SUCCESS -ne 0 ]; then beautify result FAIL $[ $PKG_TIME_END - $PKG_TIME_START ] exiterror "Building $*"; else beautify result DONE $[ $PKG_TIME_END - $PKG_TIME_START ] fi return 0 } update_langs() { echo -ne "Checking the translations for missing or obsolete strings..." chmod 755 $BASEDIR/tools/{check_strings.pl,sort_strings.pl,check_langs.sh} $BASEDIR/tools/sort_strings.pl en $BASEDIR/tools/sort_strings.pl de $BASEDIR/tools/sort_strings.pl fr $BASEDIR/tools/sort_strings.pl es $BASEDIR/tools/sort_strings.pl pl $BASEDIR/tools/sort_strings.pl ru $BASEDIR/tools/sort_strings.pl nl $BASEDIR/tools/sort_strings.pl tr $BASEDIR/tools/sort_strings.pl it $BASEDIR/tools/check_strings.pl en > $BASEDIR/doc/language_issues.en $BASEDIR/tools/check_strings.pl de > $BASEDIR/doc/language_issues.de $BASEDIR/tools/check_strings.pl fr > $BASEDIR/doc/language_issues.fr $BASEDIR/tools/check_strings.pl es > $BASEDIR/doc/language_issues.es $BASEDIR/tools/check_strings.pl es > $BASEDIR/doc/language_issues.pl $BASEDIR/tools/check_strings.pl ru > $BASEDIR/doc/language_issues.ru $BASEDIR/tools/check_strings.pl nl > $BASEDIR/doc/language_issues.nl $BASEDIR/tools/check_strings.pl tr > $BASEDIR/doc/language_issues.tr $BASEDIR/tools/check_strings.pl it > $BASEDIR/doc/language_issues.it $BASEDIR/tools/check_langs.sh > $BASEDIR/doc/language_missings beautify message DONE echo -ne "Updating language lists..." update_language_list ${BASEDIR}/src/installer/po update_language_list ${BASEDIR}/src/setup/po beautify message DONE } update_language_list() { local path="${1}" local lang for lang in ${path}/*.po; do lang="$(basename "${lang}")" echo "${lang%*.po}" done | sort -u > "${path}/LINGUAS" }