blob: 735e8f3b5db9b0050c537f5746a8ed0713fb6f11 [file] [log] [blame]
#!/bin/bash
# Copyright (c) 2012 The Chromium OS Authors. All rights reserved.
# Use of this source code is governed by a BSD-style license that can be
# found in the LICENSE file.
. "$(dirname "$0")/common.sh" || exit 1
. "${SRC_ROOT}/platform/dev/toolchain_utils.sh"
# Script must run inside the chroot
restart_in_chroot_if_needed "$@"
assert_not_root_user
# Developer-visible flags.
DEFINE_string board "$DEFAULT_BOARD" \
"The name of the board to set up."
DEFINE_boolean default $FLAGS_FALSE \
"Set board to the default board in your chroot"
DEFINE_boolean force $FLAGS_FALSE \
"Force re-creating board root."
DEFINE_boolean usepkg $FLAGS_TRUE \
"Use binary packages to bootstrap."
FLAGS_HELP="usage: $(basename $0) [flags]
setup_board sets up the sysroot for a particular board. This script is called
automatically when you run build_packages, so there is typically no need to
call it directly, unless you want to blow away your board (using --force).
"
show_help_if_requested "$@"
# The following options are advanced options, only available to those willing
# to read the source code. They are not shown in help output, since they are
# not needed for the typical developer workflow.
DEFINE_string accept_licenses "" \
"Licenses to append to the accept list."
DEFINE_string board_overlay "" \
"Location of the board overlay."
DEFINE_boolean fast ${DEFAULT_FAST} "Call many emerges in parallel"
DEFINE_integer jobs -1 \
"How many packages to build in parallel at maximum."
DEFINE_boolean latest_toolchain $FLAGS_FALSE \
"Use the latest ebuild for all toolchain packages (gcc, binutils, libc, \
kernel). This overrides the other toolchain version options."
DEFINE_string profile "" \
"The portage configuration profile to use. Profile must be located in overlay-board/profiles"
DEFINE_boolean quiet $FLAGS_FALSE \
"Don't print warnings when board already exists."
DEFINE_boolean skip_toolchain_update $FLAGS_FALSE \
"Don't update toolchain automatically."
DEFINE_boolean skip_chroot_upgrade $FLAGS_FALSE \
"Don't run the chroot upgrade automatically; use with care."
DEFINE_string toolchain "" \
"Toolchain. For example: i686-pc-linux-gnu, armv7a-softfloat-linux-gnueabi"
DEFINE_string variant "" \
"Board variant."
DEFINE_boolean regen_configs ${FLAGS_FALSE} \
"Regenerate all config files (useful for modifying profiles w/out rebuild)."
DEFINE_boolean chrome_binhost_only $FLAGS_FALSE \
"Only fetch packages from the Chrome binhost."
DEFINE_boolean skip_board_pkg_init ${FLAGS_FALSE} \
"Don't emerge any packages during setup_board into the board root."
# The --reuse_pkgs_from_local_boards flag tells Portage to share binary
# packages between boards that are built locally, so that the total time
# required to build several boards is reduced. This flag is only useful
# when you are not able to use remote binary packages, since remote binary
# packages are usually more up to date than anything you have locally.
DEFINE_boolean reuse_pkgs_from_local_boards $FLAGS_FALSE \
"Bootstrap from local packages instead of remote packages."
# builds wrappers like equery-arm-generic.
# args:
# $1: command to wrap
# rest: extra arguments to pass to the command
_generate_wrapper() {
local command="${1}"
shift
local extra_args="$@"
local target="/usr/local/bin/${command}-${BOARD_VARIANT}"
sudo_clobber "${target}" <<EOF
#!/bin/sh
# If we try to use sudo when the sandbox is active, we get ugly warnings that
# just confuse developers. Disable the sandbox in this case by rexecing.
if [ "\${SANDBOX_ON}" = "1" ]; then
SANDBOX_ON=0 exec "\$0" "\$@"
else
unset LD_PRELOAD
fi
export CHROMEOS_ROOT="$GCLIENT_ROOT"
export CHOST="$FLAGS_toolchain"
export ENABLE_LICENSING="${ENABLE_LICENSING:-Y}"
export PORTAGE_CONFIGROOT="$BOARD_ROOT"
export SYSROOT="$BOARD_ROOT"
if [ -z "\$PORTAGE_USERNAME" ]; then
export PORTAGE_USERNAME=\$(basename "\${HOME}")
fi
export ROOT="$BOARD_ROOT"
exec sudo -E ${command} ${extra_args} "\$@"
EOF
# Note: parent will process these.
wrappers+=( "${target}" )
eval ${command^^}_WRAPPER="${target}" # ${foo^^} returns toupper($foo)
}
generate_all_wrappers() {
local cmds=() wrappers=()
local wrapper
info "Generating wrapper scripts"
wrapper="/usr/local/bin/pkg-config-${BOARD_VARIANT}"
sudo_clobber "${wrapper}" <<EOF
#!/bin/bash
PKG_CONFIG_LIBDIR=\$(printf '%s:' "${BOARD_ROOT}"/usr/*/pkgconfig)
export PKG_CONFIG_LIBDIR
export PKG_CONFIG_SYSROOT_DIR="${BOARD_ROOT}"
exec pkg-config "\$@"
EOF
wrappers+=( "${wrapper}" )
for wrapper in 'emerge --root-deps' ebuild eclean equery portageq \
qcheck qdepends qfile qlist qmerge qsize; do
_generate_wrapper ${wrapper}
done
if [ "${CHOST}" != "$FLAGS_toolchain" ] ; then
# TODO(cmasone): Do this more cleanly, if we figure out what "cleanly"
# means. Set up wrapper for pkg-config. Point a board-specific wrapper
# at the generic wrapper script created by crossdev-wrapper.
cmds+=(
"ln -sf '/usr/bin/cross-pkg-config' \
'/usr/bin/${FLAGS_toolchain}-pkg-config'"
)
fi
# Create a link so gdb can automatically locate debug files for the target.
cmds+=(
"mkdir -p '$(dirname "/usr/lib/debug/${BOARD_ROOT}")'"
"ln -sfT '${BOARD_ROOT}/usr/lib/debug' '/usr/lib/debug/${BOARD_ROOT}'"
)
wrapper="/usr/local/bin/cros_workon-${BOARD_VARIANT}"
sudo_clobber "${wrapper}" <<EOF
#!/bin/bash
exec cros_workon --board ${BOARD_VARIANT} "\$@"
EOF
wrappers+=( "${wrapper}" )
cmds+=(
"chmod a+rx ${wrappers[*]}"
"chown root:root ${wrappers[*]}"
)
sudo_multi "${cmds[@]}"
}
install_toolchain() {
"${GCLIENT_ROOT}/src/scripts/install_toolchain" --board="${BOARD_VARIANT}"
}
# Print contents of $BOARD_ETC/make.conf.board. This file sources make.conf
# from each overlay, and then calculates the prebuilt URLs based on the
# various binhost configuration files.
print_board_make_conf() {
echo "# AUTO-GENERATED FILE. DO NOT EDIT."
echo
echo "# Source make.conf from each overlay."
local boto_config=""
for overlay in $BOARD_OVERLAY_LIST; do
if [[ -f "$overlay/make.conf" ]]; then
echo source "$overlay/make.conf"
fi
if [[ -f "$overlay/googlestorage_account.boto" ]]; then
boto_config="$overlay/googlestorage_account.boto"
fi
done
local chromeos_overlay="$SRC_ROOT/private-overlays/chromeos-overlay"
if [[ -f "$chromeos_overlay/googlestorage_account.boto" ]]; then
boto_config="$chromeos_overlay/googlestorage_account.boto"
fi
local gs_fetch_binpkg='/mnt/host/source/chromite/bin/gs_fetch_binpkg'
local gsutil_cmd=${gs_fetch_binpkg}' \"${URI}\" \"${DISTDIR}/${FILE}\"'
echo
echo FETCHCOMMAND_GS="\"bash -c 'BOTO_CONFIG=$boto_config $gsutil_cmd'\""
echo RESUMECOMMAND_GS='"$FETCHCOMMAND_GS"'
echo
if [[ -n ${FLAGS_accept_licenses} ]]; then
echo "ACCEPT_LICENSE='${FLAGS_accept_licenses}'"
echo
fi
}
# Print the PORTAGE_BINHOST variable, suitable for inclusion in make.conf.board.
print_board_binhost_config() {
if [ "${FLAGS_reuse_pkgs_from_local_boards}" -eq "${FLAGS_TRUE}" ]; then
cros_generate_local_binhosts --board "${BOARD_VARIANT}"
echo 'PORTAGE_BINHOST="$LOCAL_BINHOST"'
return 0
fi
local binhost_dir="$CHROMIUMOS_OVERLAY/chromeos/binhost/target"
local chrome_binhost_suffix="LATEST_RELEASE_CHROME_BINHOST.conf"
local partner_overlay="$SRC_ROOT/private-overlays/chromeos-partner-overlay"
local internal_binhost_dir="$partner_overlay/chromeos/binhost/target"
# i_arch_map / e_arch_map: maps architectures to internal / external boards.
# i_kernel_map / e_kernel_map: maps kernels to internal / external boards.
declare -A i_arch_map e_arch_map e_kernel_map i_kernel_map
local chrome_binhost_base kernel
kernel=$(portageq-${BOARD_VARIANT} envvar CHROMEOS_KERNEL_SPLITCONFIG)
e_kernel_map=(['chromeos-exynos5']='daisy'
['chromiumos-tegra124']='daisy')
i_kernel_map=(['chromeos-exynos5']='daisy_spring'
['chromiumos-tegra124']='daisy_spring')
e_arch_map=(
['amd64']='amd64-generic'
['x86']='x86-generic'
['arm']='daisy'
)
i_arch_map=(
['amd64']='lumpy'
['x86']='x86-alex'
['arm']='daisy_spring'
)
if has chrome_internal $(portageq-${BOARD_VARIANT} envvar USE); then
chrome_binhost_base=${internal_binhost_dir}
else
chrome_binhost_base=${binhost_dir}
fi
# External generic boards have no firmware or drivers, so their binhosts can
# be shared everywhere. The same isn't true for internal "generic" boards.
# For that reason, the internal "generic" boards can only be used for the
# Chrome binhost.
local e_generic="${e_kernel_map[${kernel:-none}]:-${e_arch_map[${ARCH}]:-}}"
local i_generic="${i_kernel_map[${kernel:-none}]:-${i_arch_map[${ARCH}]:-}}"
local board chrome_binhost internal_binhost preflight_binhost
for board in ${BOARD_VARIANT} ${BOARD} ${i_generic} ${e_generic}; do
if [[ -z ${chrome_binhost} || ! -f ${chrome_binhost} ]]; then
chrome_binhost="${chrome_binhost_base}/${board}-${chrome_binhost_suffix}"
fi
done
for board in ${BOARD_VARIANT} ${BOARD} ${e_generic}; do
if [[ -z ${preflight_binhost} || ! -f ${preflight_binhost} ]]; then
preflight_binhost="${binhost_dir}/${board}-PREFLIGHT_BINHOST.conf"
fi
if [[ -z ${internal_binhost} || ! -f ${internal_binhost} ]]; then
internal_binhost="${internal_binhost_dir}/${board}-PREFLIGHT_BINHOST.conf"
fi
done
if [ "${FLAGS_chrome_binhost_only}" -eq "${FLAGS_TRUE}" ]; then
echo source "$chrome_binhost"
echo 'PORTAGE_BINHOST="$LATEST_RELEASE_CHROME_BINHOST"'
else
cat <<'EOF'
# FULL_BINHOST is populated by the full builders. It is listed first because it
# is the lowest priority binhost. It is better to download packages from the
# preflight binhost because they are fresher packages.
PORTAGE_BINHOST="$FULL_BINHOST"
EOF
if [[ -f "$preflight_binhost" && -z "$IGNORE_PREFLIGHT_BINHOST" ]]; then
cat <<'EOF'
# PREFLIGHT_BINHOST is populated by the preflight builders. If the same
# package is provided by both the preflight and full binhosts, the package is
# downloaded from the preflight binhost.
EOF
echo source "$preflight_binhost"
echo 'PORTAGE_BINHOST="$PORTAGE_BINHOST $PREFLIGHT_BINHOST"'
echo
fi
if [[ -f "$internal_binhost" && -z "$IGNORE_PREFLIGHT_BINHOST" ]]; then
cat <<'EOF'
# The internal PREFLIGHT_BINHOST is populated by the internal preflight
# builders. It takes priority over the public preflight binhost.
EOF
echo source "$internal_binhost"
echo 'PORTAGE_BINHOST="$PORTAGE_BINHOST $PREFLIGHT_BINHOST"'
echo
fi
if [[ -f "$chrome_binhost" ]]; then
cat <<'EOF'
# LATEST_RELEASE_CHROME_BINHOST provides prebuilts for chromeos-chrome only.
EOF
echo source "$chrome_binhost"
echo 'PORTAGE_BINHOST="$PORTAGE_BINHOST $LATEST_RELEASE_CHROME_BINHOST"'
fi
fi
}
# Parse command line flags
FLAGS "$@" || exit 1
eval set -- "${FLAGS_ARGV}"
# Only now can we die on error. shflags functions leak non-zero error codes,
# so will die prematurely if 'switch_to_strict_mode' is specified before now.
switch_to_strict_mode
if [ -z "$FLAGS_board" ] ; then
error "--board required."
exit 1
fi
get_board_and_variant $FLAGS_board $FLAGS_variant
# Before we can run any tools, we need to update chroot
UPDATE_ARGS="--toolchain_boards=${BOARD}"
if [ "${FLAGS_fast}" -eq "${FLAGS_TRUE}" ]; then
UPDATE_ARGS+=" --fast"
else
UPDATE_ARGS+=" --nofast"
fi
if [ "${FLAGS_usepkg}" -eq "${FLAGS_TRUE}" ]; then
UPDATE_ARGS+=" --usepkg"
else
UPDATE_ARGS+=" --nousepkg"
fi
if [[ "${FLAGS_jobs}" -ne -1 ]]; then
UPDATE_ARGS+=" --jobs=${FLAGS_jobs}"
fi
if [ "${FLAGS_skip_toolchain_update}" -eq "${FLAGS_TRUE}" ]; then
UPDATE_ARGS+=" --skip_toolchain_update"
fi
if [ "${FLAGS_skip_chroot_upgrade}" -eq "${FLAGS_FALSE}" ] ; then
"${SRC_ROOT}/scripts"/update_chroot ${UPDATE_ARGS}
fi
#
# Fetch the toolchain from the board overlay.
#
all_toolchains=( $(get_all_board_toolchains "${BOARD}") )
: ${FLAGS_toolchain:=${all_toolchains[0]}}
if [ -z "${FLAGS_toolchain}" ]; then
error "No toolchain specified in board overlay or on command line."
exit 1
fi
ARCH=$(get_board_arch "${BOARD}") || exit 1
case "$BOARD" in
*-host)
if [[ $FLAGS_usepkg -eq $FLAGS_TRUE ]]; then
die_notrace "host boards only support --nousepkg"
fi
HOST_BOARD=true
;;
*)
HOST_BOARD=false
esac
# Locations we will need
BOARD_ROOT="/build/${BOARD_VARIANT}"
CROSSDEV_OVERLAY="/usr/local/portage/crossdev"
CHROMIUMOS_OVERLAY="/usr/local/portage/chromiumos"
CHROMIUMOS_CONFIG="${CHROMIUMOS_OVERLAY}/chromeos/config"
CHROMIUMOS_PROFILES="${CHROMIUMOS_OVERLAY}/profiles"
BOARD_ETC="${BOARD_ROOT}/etc"
BOARD_SETUP="${BOARD_ETC}/make.conf.board_setup"
BOARD_PROFILE="${BOARD_ETC}/portage/profile"
#
# Construct board overlay list.
#
BOARD_OVERLAY_LIST=$(cros_list_overlays \
--board "$BOARD_VARIANT" \
--board_overlay "$FLAGS_board_overlay")
eval $(portageq envvar -v CHOST PKGDIR)
if [ -d "${BOARD_ROOT}" ]; then
if [[ ${FLAGS_force} -eq ${FLAGS_TRUE} ]]; then
echo "--force set. Re-creating ${BOARD_ROOT}..."
# Removal takes long. Make it asynchronous.
TEMP_DIR=`mktemp -d`
sudo mv "${BOARD_ROOT}" "${TEMP_DIR}"
sudo rm -rf --one-file-system "${TEMP_DIR}" &
elif [[ ${FLAGS_regen_configs} -eq ${FLAGS_FALSE} ]]; then
if ! ${HOST_BOARD}; then
{ print_board_make_conf; print_board_binhost_config; } | \
sudo_clobber $BOARD_ETC/make.conf.board
fi
if [[ ${FLAGS_quiet} -eq ${FLAGS_FALSE} ]]; then
warn "Board output directory '$BOARD_ROOT' already exists."
warn "Not setting up board root. "
warn "Use --force to clobber the board root and start again."
fi
# Update the users libc in their board if needed.
install_toolchain
exit 0
fi
else
# Regenerating configs w/out a board root doesn't make sense.
FLAGS_regen_configs=${FLAGS_FALSE}
fi
cmds=(
"mkdir -p '${BOARD_ROOT}' '${BOARD_ETC}' '${BOARD_PROFILE}' /usr/local/bin"
)
# Setup the make.confs. We use the following:
# make.conf <- Overall target make.conf [arm, x86, etc. version]
# make.conf.board_setup <- Declares CHOST, ROOT, etc.
# make.conf.common <- Common settings across all targets
# make.conf.board <- Optional board-supplied make.conf
if ${HOST_BOARD}; then
cmds+=(
"ln -sf '${CHROMIUMOS_CONFIG}/make.conf.${BOARD}' \
'${BOARD_ETC}/make.conf'"
"cp -f '/etc/make.conf.host_setup' '${BOARD_ETC}/'"
# Setting up symlinks for bootstrapping multilib.
# See http://crosbug.com/14498
"mkdir -p '${BOARD_ROOT}'{/usr,}/lib64"
"ln -sfT lib64 '${BOARD_ROOT}/lib'"
"ln -sfT lib64 '${BOARD_ROOT}/usr/lib'"
# Copying some files for bootstrapping empty chroot.
# See http://crosbug.com/14499
"mkdir -p '${BOARD_ETC}'/{init.d,xml}"
"cp /etc/xml/catalog '${BOARD_ETC}'/xml/"
"cp /etc/init.d/functions.sh '${BOARD_ETC}'/init.d/"
)
fi
cmds+=(
"ln -sf '${CHROMIUMOS_CONFIG}/make.conf.common-target' \
'${BOARD_ETC}/make.conf.common'"
)
sudo_multi "${cmds[@]}"
SAVED_VERSION=
if [[ ${FLAGS_regen_configs} -eq ${FLAGS_TRUE} ]]; then
SAVED_VERSION=$(grep -s ^LIBC_VERSION= ${BOARD_SETUP} || true)
fi
sudo_clobber "${BOARD_SETUP}" <<EOF
# Created by setup_board
CHOST="${FLAGS_toolchain}"
ROOT="${BOARD_ROOT}/"
BOARD_OVERLAY="${BOARD_OVERLAY_LIST}"
MAKEOPTS="-j${NUM_JOBS}"
PKG_CONFIG="pkg-config-${BOARD_VARIANT}"
BOARD_USE="${BOARD_VARIANT}"
${SAVED_VERSION}
EOF
if ! ${HOST_BOARD}; then
for a in ${ARCH} generic; do
conf="${CHROMIUMOS_CONFIG}/make.conf.${a}-target"
if [[ -e ${conf} ]]; then
sudo ln -sf "${conf}" "${BOARD_ETC}/make.conf"
break
fi
done
print_board_make_conf | sudo_clobber $BOARD_ETC/make.conf.board
# We install the toolchain related bits after the BOARD_ROOT, BOARD_PROFILE
# and BOARD_ETC directories have been created.
if [[ ${FLAGS_regen_configs} -eq ${FLAGS_FALSE} ]]; then
install_toolchain
fi
fi
# Setup the profile.
if [[ ! -s /etc/make.conf.user ]]; then
sudo_clobber /etc/make.conf.user <<\EOF
# This file is useful for doing global (chroot and all board) changes.
# Tweak emerge settings, ebuild env, etc...
#
# Make sure to append variables unless you really want to clobber all
# existing settings. e.g. You most likely want:
# FEATURES="${FEATURES} ..."
# USE="${USE} foo"
# and *not*:
# USE="foo"
#
# This also is a good place to setup ACCEPT_LICENSE.
EOF
fi
cmds=(
"ln -sf /etc/make.conf.user '${BOARD_ROOT}/etc/make.conf.user'"
"mkdir -p '${BOARD_ROOT}/etc/portage/hooks'"
)
for d in "${SCRIPTS_DIR}"/hooks/*; do
cmds+=( "ln -sfT '${d}' '${BOARD_ROOT}/etc/portage/hooks/${d##*/}'" )
done
sudo_multi "${cmds[@]}"
# Select the profile to build based on the board and profile passed to
# setup_board. The developer can later change profiles by running
# cros_choose_profile manually.
if ! cros_choose_profile \
--board "${FLAGS_board}" \
--board_overlay "${FLAGS_board_overlay}" \
--variant "${FLAGS_variant}" \
--profile "${FLAGS_profile}"; then
error "Selecting profile failed, removing incomplete board directory!"
sudo rm -rf --one-file-system "${BOARD_ROOT}"
exit 1
fi
generate_all_wrappers
if ${HOST_BOARD}; then
EMERGE_CMD="emerge"
if [[ $FLAGS_fast -eq $FLAGS_TRUE ]]; then
EMERGE_CMD="${GCLIENT_ROOT}/chromite/bin/parallel_emerge"
fi
PACKAGES="system virtual/target-sdk world"
# First, rebuild all packages from scratch. This is needed to make sure
# we rebuild all chroot packages.
sudo -E $EMERGE_CMD --emptytree --with-bdeps=y $PACKAGES
sudo eclean -d packages
# Next, install our rebuilt packages into our separate root.
HOST_FLAGS="--root=$BOARD_ROOT --update --verbose --deep --root-deps"
HOST_FLAGS+=" --with-bdeps=y --newuse --jobs=$NUM_JOBS --usepkgonly"
sudo -E $EMERGE_CMD $HOST_FLAGS --select=y $PACKAGES
sudo cp -a "${PKGDIR}" $BOARD_ROOT/packages
# Install cross-compilers.
COMPILERS=$(equery l cross-*/* --format='=$cpv')
sudo -E $EMERGE_CMD $HOST_FLAGS --select=n $COMPILERS
# Setup needed symlinks for cross-compilers.
sudo mkdir -p $BOARD_ROOT/usr/local/portage
sudo cp -a ${CROSSDEV_OVERLAY} $BOARD_ROOT/usr/local/portage
# Setup crossdev configuration for categories.
sudo cp -a /etc/portage/* $BOARD_ROOT/etc/portage
# The new chroot should have gcc for each target. Make sure that
# the latest one is correctly selected. Ignore cat errors as not
# all overlays will have a toolchain.conf.
ALL_TARGETS=$(cros_setup_toolchains --show-board-cfg=sdk)
for target in ${ALL_TARGETS//,/ }; do
libc=$(eval $(crossdev --show-target-cfg "${target}"); echo ${libc_pn})
if [[ ${libc} == "glibc" ]] ; then
# Install needed glibc tarball.
cross_target_path=/var/lib/portage/pkgs/cross-${target}
if [[ -e "$cross_target_path" ]] ; then
sudo mkdir -p ${BOARD_ROOT}${cross_target_path}
sudo cp -a ${cross_target_path}/glibc-* \
${BOARD_ROOT}${cross_target_path}
fi
fi
CURRENT_GCC="$(gcc-config -c ${target})"
sudo ROOT=${BOARD_ROOT} gcc-config ${CURRENT_GCC}
CURRENT_BINUTILS="$(binutils-config -c ${target})"
sudo ROOT=${BOARD_ROOT} binutils-config ${CURRENT_BINUTILS}
done
# Now cleanup paths referencing the ROOT from the *.la files.
sudo find $BOARD_ROOT -type f -name '*.la' | xargs sudo \
sed -i -e "s|$BOARD_ROOT/|/|g"
else
# Now that the portageq-* wrappers have been created, we can add the binhost
# config to make.conf.board.
print_board_binhost_config | sudo_append $BOARD_ETC/make.conf.board
if [[ ${FLAGS_regen_configs} -eq ${FLAGS_FALSE} && \
${FLAGS_skip_board_pkg_init} -eq ${FLAGS_FALSE} ]]; then
# Emerge the kernel headers into the board build root. Use rdeps to
# avoid pulling any spurious DEPEND things in that we don't care about.
BASE_EMERGE_FLAGS="--select --quiet --root-deps=rdeps"
if [[ "${FLAGS_usepkg}" -eq "${FLAGS_TRUE}" ||
"${FLAGS_reuse_pkgs_from_local_boards}" -eq "${FLAGS_TRUE}" ]]; then
BASE_EMERGE_FLAGS+=" --getbinpkg --usepkg"
fi
sudo -E "${EMERGE_WRAPPER}" ${BASE_EMERGE_FLAGS} \
sys-kernel/linux-headers sys-libs/gcc-libs
unset BASE_EMERGE_FLAGS
fi
fi
if [ $FLAGS_default -eq $FLAGS_TRUE ] ; then
echo $BOARD_VARIANT > "$GCLIENT_ROOT/src/scripts/.default_board"
fi
command_completed
echo "Done!"
echo "The SYSROOT is: ${BOARD_ROOT}"
# NOTE: Printing the working-on ebuilds does not only serve the informative
# purpose. It also causes the ${BOARD_ROOT}/etc/portage/package.* files to be
# regenerated.
WORKING_ON=$(cros_workon --board=${FLAGS_board} list)
if [ -n "${WORKING_ON}" ]; then
echo
echo "Currently working on the following ebuilds for this board:"
echo "${WORKING_ON}"
fi