#!/bin/bash
+# Set the profile
+eselect profile set ${clst_target_profile}
+
# Trap these signals and kill ourselves if recieved
# Force ourselves to die if any of these signals are recieved
# most likely our controlling terminal is gone
setup_myfeatures(){
setup_myemergeopts
+ export FEATURES="-news clean-logs"
if [ -n "${clst_CCACHE}" ]
then
export clst_myfeatures="${clst_myfeatures} ccache"
- clst_root_path=/ run_merge --oneshot --nodeps dev-util/ccache || exit 1
+ clst_root_path=/ run_merge --oneshot --noreplace dev-util/ccache || exit 1
fi
if [ -n "${clst_DISTCC}" ]
then
export clst_myfeatures="${clst_myfeatures} distcc"
export DISTCC_HOSTS="${clst_distcc_hosts}"
- [ -e /etc/make.conf ] && \
- echo 'USE="${USE} -avahi -gtk -gnome"' >> /etc/make.conf
- clst_root_path=/ run_merge --oneshot --nodeps sys-devel/distcc || exit 1
- sed -i '/USE="${USE} -avahi -gtk -gnome"/d' /etc/make.conf
+ [ -e /etc/portage/make.conf ] && \
+ echo 'USE="${USE} -avahi -gtk -gnome"' >> /etc/portage/make.conf
+ # We install distcc to / on stage1, then use --noreplace, so we need to
+ # have some way to check if we need to reinstall distcc without being
+ # able to rely on USE, so we check for the distcc user and force a
+ # reinstall if it isn't found.
+ if [ "$(getent passwd distcc | cut -d: -f1)" != "distcc" ]
+ then
+ clst_root_path=/ run_merge --oneshot sys-devel/distcc || exit 1
+ else
+ clst_root_path=/ run_merge --oneshot --noreplace sys-devel/distcc || exit 1
+ fi
+ sed -i '/USE="${USE} -avahi -gtk -gnome"/d' /etc/portage/make.conf
mkdir -p /etc/distcc
echo "${clst_distcc_hosts}" > /etc/distcc/hosts
# This sets up automatic cross-distcc-fu according to
# http://www.gentoo.org/doc/en/cross-compiling-distcc.xml
CHOST=$(portageq envvar CHOST)
- # TODO: change to use get_libdir
- cd /usr/lib/distcc/bin
+ LIBDIR=$(get_libdir)
+ cd /usr/${LIBDIR}/distcc/bin
rm cc gcc g++ c++ 2>/dev/null
- echo -e '#!/bin/bash\nexec /usr/lib/distcc/bin/'${CHOST}'-g${0:$[-2]} "$@"' > ${CHOST}-wrapper
- chmod a+x /usr/lib/distcc/bin/${CHOST}-wrapper
+ echo -e '#!/bin/bash\nexec /usr/'${LIBDIR}'/distcc/bin/'${CHOST}'-g${0:$[-2]} "$@"' > ${CHOST}-wrapper
+ chmod a+x /usr/${LIBDIR}/distcc/bin/${CHOST}-wrapper
for i in cc gcc g++ c++; do ln -s ${CHOST}-wrapper ${i}; done
fi
if [ -n "${clst_ICECREAM}" ]
then
- clst_root_path=/ run_merge --oneshot --nodeps sys-devel/icecream || exit 1
+ clst_root_path=/ run_merge --oneshot --noreplace sys-devel/icecream || exit 1
# This sets up automatic cross-icecc-fu according to
# http://gentoo-wiki.com/HOWTO_Setup_An_ICECREAM_Compile_Cluster#Icecream_and_cross-compiling
export PATH="/usr/lib/icecc/bin:${PATH}"
export PREROOTPATH="/usr/lib/icecc/bin"
fi
- export FEATURES="${clst_myfeatures}"
+ export FEATURES="${clst_myfeatures} -news"
}
setup_myemergeopts(){
clst_myemergeopts="--verbose"
else
clst_myemergeopts="--quiet"
+ bootstrap_opts="${bootstrap_opts} -q"
fi
if [ -n "${clst_FETCH}" ]
then
- export bootstrap_opts="-f"
+ export bootstrap_opts="${bootstrap_opts} -f"
export clst_myemergeopts="${clst_myemergeopts} -f"
- elif [ -n "${clst_PKGCACHE}" ]
+ elif [ -n "${clst_PKGCACHE}" -a -z "${clst_update_seed}" ]
then
export clst_myemergeopts="${clst_myemergeopts} --usepkg --buildpkg --newuse"
- export bootstrap_opts="-r"
+ export bootstrap_opts="${bootstrap_opts} -r"
fi
}
setup_pkgmgr(){
# We need to merge our package manager with USE="build" set in case it is
- # portage to avoid frying our /etc/make.conf file. Otherwise, we could
+ # portage to avoid frying our /etc/portage/make.conf file. Otherwise, we could
# just let emerge system could merge it.
- [ -e /etc/make.conf ] && echo 'USE="${USE} build"' >> /etc/make.conf
- run_merge --oneshot --nodeps virtual/portage
- sed -i '/USE="${USE} build"/d' /etc/make.conf
+ # Use --update or portage won't reinstall the same version.
+ [ -e /etc/portage/make.conf ] && echo 'USE="${USE} build"' >> /etc/portage/make.conf
+ run_merge --oneshot --nodeps --update sys-apps/portage
+ sed -i '/USE="${USE} build"/d' /etc/portage/make.conf
}
cleanup_distcc() {
+ LIBDIR=$(get_libdir)
rm -rf /etc/distcc/hosts
for i in cc gcc c++ g++; do
- # TODO: change to use get_libdir
- rm -f /usr/lib/distcc/bin/${i}
- ln -s /usr/bin/distcc /usr/lib/distcc/bin/${i}
+ rm -f /usr/${LIBDIR}/distcc/bin/${i}
+ ln -s /usr/bin/distcc /usr/${LIBDIR}/distcc/bin/${i}
done
- rm -f /usr/lib/distcc/bin/*-wrapper
+ rm -f /usr/${LIBDIR}/distcc/bin/*-wrapper
}
cleanup_icecream() {
cleanup_icecream
fi
case ${clst_target} in
- stage1|stage2|stage3)
+ stage3|system)
+ run_merge --depclean --with-bdeps=y
+ ;;
+ *)
+ echo "Skipping depclean operation for ${clst_target}"
+ ;;
+ esac
+ case ${clst_target} in
+ stage1|stage2|stage3|system)
rm -f /var/lib/portage/world
touch /var/lib/portage/world
;;
esac
rm -f /var/log/emerge.log /var/log/portage/elog/*
- rm -rf /var/tmp/*
}
update_env_settings(){
make_destpath() {
# ROOT is / by default, so remove any ROOT= settings from make.conf
- sed -i '/ROOT=/d' /etc/make.conf
+ sed -i '/ROOT=/d' /etc/portage/make.conf
export ROOT=/
- if [ "${1}" != "/" -a -n "${1}" ]
+ if [ "${1}" != "/" -a -n "${1}" ]
then
- echo "ROOT=\"${1}\"" >> /etc/make.conf
+ echo "ROOT=\"${1}\"" >> /etc/portage/make.conf
export ROOT=${1}
fi
if [ ! -d ${ROOT} ]
# Sets up the ROOT= parameter
# with no options ROOT=/
make_destpath ${clst_root_path}
-
- export EMERGE_WARNING_DELAY=0
+
+ export EMERGE_WARNING_DELAY=0
export CLEAN_DELAY=0
export EBEEP_IGNORE=0
export EPAUSE_IGNORE=0
echo "Profile/target info:"
echo "Profile inheritance:"
python -c 'import portage; print portage.settings.profiles'
+ echo
+ # TODO: make this work on non-portage
+ emerge --info
# TODO: grab our entire env
# <zmedico> to get see the ebuild env you can do something like:
# `set > /tmp/env_dump.${EBUILD_PHASE}` inside /etc/portage/bashrc
# XXX: Also, portageq does *not* source profile.bashrc at any time.
echo
- echo "STAGE1_USE: $(portageq envvar STAGE1_USE)"
+ echo "BOOTSTRAP_USE: $(portageq envvar BOOTSTRAP_USE)"
echo
echo "USE (profile): $(portageq envvar USE)"
- echo "USE (stage1): ${USE}"
echo "FEATURES (profile): $(portageq envvar FEATURES)"
- echo "FEATURES (stage1): ${FEATURES}"
echo
echo "ARCH: $(portageq envvar ARCH)"
echo "CHOST: $(portageq envvar CHOST)"
echo "CFLAGS: $(portageq envvar CFLAGS)"
echo
- echo "PROFILE_ARCH: $(portageq envvar PROFILE_ARCH)"
- echo
+ echo "These should be blank on non-multilib profiles."
echo "ABI: $(portageq envvar ABI)"
echo "DEFAULT_ABI: $(portageq envvar DEFAULT_ABI)"
echo "KERNEL_ABI: $(portageq envvar KERNEL_ABI)"
+ echo "LIBDIR: $(get_libdir)"
echo "MULTILIB_ABIS: $(portageq envvar MULTILIB_ABIS)"
+ echo "PROFILE_ARCH: $(portageq envvar PROFILE_ARCH)"
echo
fi
}
STACK=${2}
[ "${STACK}" = "" ] && STACK=16 || STACK=$((${STACK} - 1 ))
- if [ ${STACK} -le 0 ]
+ if [ ${STACK} -le 0 ]
then
echo "WARNING : ${TARGET} : too many levels of symbolic links !"
return
mkdir -p ${clst_root_path}/`dirname ${1}`
[ ! -e ${clst_root_path}/${1} ] && \
cp -vfdp ${1} ${clst_root_path}/${1}
-
+
if [[ -n $(type -p realpath) ]]; then
TARGET=`realpath ${1}`
else
# We do this everywhere, so why not put it in this script
run_default_funcs
-