# 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. # Common constants for build scripts # This must evaluate properly for both /bin/bash and /bin/sh # All scripts should die on error unless commands are specifically excepted # by prefixing with '!' or surrounded by 'set +e' / 'set -e'. # TODO: Re-enable this once shflags is less prone to dying. #set -e # The number of jobs to pass to tools that can run in parallel (such as make # and dpkg-buildpackage NUM_JOBS=$(grep -c "^processor" /proc/cpuinfo) # True if we have the 'pv' utility - also set up COMMON_PV_CAT for convenience COMMON_PV_OK=1 COMMON_PV_CAT=pv pv -V >/dev/null 2>&1 || COMMON_PV_OK=0 if [ $COMMON_PV_OK -eq 0 ]; then COMMON_PV_CAT=cat fi # Make sure we have the location and name of the calling script, using # the current value if it is already set. SCRIPT_LOCATION=${SCRIPT_LOCATION:-$(dirname "$(readlink -f "$0")")} SCRIPT_NAME=${SCRIPT_NAME:-$(basename "$0")} # Detect whether we're inside a chroot or not if [ -e /etc/debian_chroot ] then INSIDE_CHROOT=1 else INSIDE_CHROOT=0 fi # Determine and set up variables needed for fancy color output (if supported). V_BOLD_RED= V_BOLD_GREEN= V_BOLD_YELLOW= V_REVERSE= V_VIDOFF= if tput colors >/dev/null 2>&1; then # order matters: we want VIDOFF last so that when we trace with `set -x`, # our terminal doesn't bleed colors as bash dumps the values of vars. V_BOLD_RED="$(tput bold; tput setaf 1)" V_BOLD_GREEN="$(tput bold; tput setaf 2)" V_BOLD_YELLOW="$(tput bold; tput setaf 3)" V_REVERSE="$(tput rev)" V_VIDOFF="$(tput sgr0)" fi # Declare these asap so that code below can safely assume they exist. function info { echo -e >&2 "${V_BOLD_GREEN}INFO ${CROS_LOG_PREFIX:-""}: $@${V_VIDOFF}" } function warn { echo -e >&2 "${V_BOLD_YELLOW}WARNING ${CROS_LOG_PREFIX:-""}: $@${V_VIDOFF}" } function error { echo -e >&2 "${V_BOLD_RED}ERROR ${CROS_LOG_PREFIX:-""}: $@${V_VIDOFF}" } function die { error "$@" exit 1 } # Construct a list of possible locations for the source tree. This list is # based on various environment variables and globals that may have been set # by the calling script. function get_gclient_root_list() { if [ $INSIDE_CHROOT -eq 1 ]; then echo "/home/${USER}/trunk" if [ -n "${SUDO_USER}" ]; then echo "/home/${SUDO_USER}/trunk"; fi fi if [ -n "${COMMON_SH}" ]; then echo "$(dirname "$COMMON_SH")/../.."; fi if [ -n "${BASH_SOURCE}" ]; then echo "$(dirname "$BASH_SOURCE")/../.."; fi } # Based on the list of possible source locations we set GCLIENT_ROOT if it is # not already defined by looking for a src directory in each seach path # location. If we do not find a valid looking root we error out. function get_gclient_root() { if [ -n "${GCLIENT_ROOT}" ]; then return fi for path in $(get_gclient_root_list); do if [ -d "${path}/src" ]; then GCLIENT_ROOT=${path} break fi done if [ -z "${GCLIENT_ROOT}" ]; then # Using dash or sh, we don't know where we are. $0 refers to the calling # script, not ourselves, so that doesn't help us. echo "Unable to determine location for common.sh. If you are sourcing" echo "common.sh from a script run via dash or sh, you must do it in the" echo "following way:" echo ' COMMON_SH="$(dirname "$0")/../../scripts/common.sh"' echo ' . "$COMMON_SH"' echo "where the first line is the relative path from your script to" echo "common.sh." exit 1 fi } # Find root of source tree get_gclient_root # Canonicalize the directories for the root dir and the calling script. # readlink is part of coreutils and should be present even in a bare chroot. # This is better than just using # FOO = "$(cd $FOO ; pwd)" # since that leaves symbolic links intact. # Note that 'realpath' is equivalent to 'readlink -f'. SCRIPT_LOCATION=$(readlink -f "$SCRIPT_LOCATION") GCLIENT_ROOT=$(readlink -f "$GCLIENT_ROOT") # Other directories should always be pathed down from GCLIENT_ROOT. SRC_ROOT="$GCLIENT_ROOT/src" SRC_INTERNAL="$GCLIENT_ROOT/src-internal" SCRIPTS_DIR="$SRC_ROOT/scripts" # Load developer's custom settings. Default location is in scripts dir, # since that's available both inside and outside the chroot. By convention, # settings from this file are variables starting with 'CHROMEOS_' CHROMEOS_DEV_SETTINGS="${CHROMEOS_DEV_SETTINGS:-$SCRIPTS_DIR/.chromeos_dev}" if [ -f "$CHROMEOS_DEV_SETTINGS" ]; then # Turn on exit-on-error during custom settings processing SAVE_OPTS=$(set +o) set -e # Read settings . "$CHROMEOS_DEV_SETTINGS" # Restore previous state of exit-on-error eval "$SAVE_OPTS" fi # Load shflags # NOTE: This code snippet is in particular used by the au-generator (which # stores shflags in ./lib/shflags/) and should not be touched. if [ -f "${SCRIPTS_DIR}/lib/shflags/shflags" ]; then . "${SCRIPTS_DIR}/lib/shflags/shflags" || die "Couldn't find shflags" else . ./lib/shflags/shflags || die "Couldn't find shflags" fi # Our local mirror DEFAULT_CHROMEOS_SERVER=${CHROMEOS_SERVER:-"http://build.chromium.org/mirror"} # Upstream mirrors and build suites come in 2 flavors # DEV - development chroot, used to build the chromeos image # IMG - bootable image, to run on actual hardware DEFAULT_DEV_MIRROR=${CHROMEOS_DEV_MIRROR:-"${DEFAULT_CHROMEOS_SERVER}/ubuntu"} DEFAULT_DEV_SUITE=${CHROMEOS_DEV_SUITE:-"karmic"} DEFAULT_IMG_MIRROR=${CHROMEOS_IMG_MIRROR:-"${DEFAULT_CHROMEOS_SERVER}/ubuntu"} DEFAULT_IMG_SUITE=${CHROMEOS_IMG_SUITE:-"karmic"} # Default location for chroot DEFAULT_CHROOT_DIR=${CHROMEOS_CHROOT_DIR:-"$GCLIENT_ROOT/chroot"} # All output files from build should go under $DEFAULT_BUILD_ROOT, so that # they don't pollute the source directory. DEFAULT_BUILD_ROOT=${CHROMEOS_BUILD_ROOT:-"$SRC_ROOT/build"} # Set up a global ALL_BOARDS value if [ -d "$SRC_ROOT/overlays" ]; then ALL_BOARDS=$(cd "$SRC_ROOT/overlays"; \ ls -1d overlay-* 2>&- | sed 's,overlay-,,g') fi # Strip CR ALL_BOARDS=$(echo $ALL_BOARDS) # Set a default BOARD #DEFAULT_BOARD=x86-generic # or... DEFAULT_BOARD=$(echo $ALL_BOARDS | awk '{print $NF}') # Enable --fast by default. DEFAULT_FAST=${FLAGS_TRUE} # Directory to store built images. Should be set by sourcing script when used. BUILD_DIR= # Standard filenames CHROMEOS_BASE_IMAGE_NAME="chromiumos_base_image.bin" CHROMEOS_IMAGE_NAME="chromiumos_image.bin" CHROMEOS_DEVELOPER_IMAGE_NAME="chromiumos_image.bin" CHROMEOS_RECOVERY_IMAGE_NAME="recovery_image.bin" CHROMEOS_TEST_IMAGE_NAME="chromiumos_test_image.bin" CHROMEOS_FACTORY_TEST_IMAGE_NAME="chromiumos_factory_image.bin" CHROMEOS_FACTORY_INSTALL_SHIM_NAME="factory_install_shim.bin" # Directory locations inside the dev chroot CHROOT_TRUNK_DIR="/home/$USER/trunk" # Install make for portage ebuilds. Used by build_image and gmergefs. # TODO: Is /usr/local/autotest-chrome still used by anyone? COMMON_INSTALL_MASK=" *.a *.la /etc/init.d /etc/runlevels /lib/rc /usr/bin/Xnest /usr/bin/Xvfb /usr/include /usr/lib/debug /usr/lib/gcc /usr/lib/gtk-2.0/include /usr/lib/pkgconfig /usr/local/autotest-chrome /usr/man /usr/share/aclocal /usr/share/doc /usr/share/gettext /usr/share/gtk-2.0 /usr/share/gtk-doc /usr/share/info /usr/share/man /usr/share/openrc /usr/share/pkgconfig /usr/share/readline /usr/src " # Mask for base, dev, and test images (build_image, build_image --test) DEFAULT_INSTALL_MASK=" $COMMON_INSTALL_MASK /usr/local/autotest /lib/modules/*/kernel/drivers/input/misc/uinput.ko " # Mask for factory test image (build_image --factory) FACTORY_TEST_INSTALL_MASK=" $COMMON_INSTALL_MASK */.svn */CVS /usr/local/autotest/[^c]* /usr/local/autotest/conmux /usr/local/autotest/client/deps/chrome_test /usr/local/autotest/client/deps/piglit /usr/local/autotest/client/deps/pyauto_dep /usr/local/autotest/client/deps/realtimecomm_* /usr/local/autotest/client/site_tests/desktopui_PageCyclerTests /usr/local/autotest/client/site_tests/graphics_WebGLConformance /usr/local/autotest/client/site_tests/platform_ToolchainOptions /usr/local/autotest/client/site_tests/realtimecomm_GTalk* " # Mask for factory install shim (build_image factory_install) FACTORY_SHIM_INSTALL_MASK=" $DEFAULT_INSTALL_MASK /opt/[^g]* /opt/google/chrome /opt/google/o3d /opt/google/talkplugin /usr/lib/dri /usr/lib/python2.6/test /usr/local/autotest-pkgs /usr/share/X11 /usr/share/chewing /usr/share/fonts /usr/share/ibus-pinyin /usr/share/libhangul /usr/share/locale /usr/share/m17n /usr/share/mime /usr/share/sounds /usr/share/tts /usr/share/zoneinfo " # ----------------------------------------------------------------------------- # Functions function setup_board_warning { echo echo "$V_REVERSE================= WARNING ======================$V_VIDOFF" echo echo "*** No default board detected in " \ "$GCLIENT_ROOT/src/scripts/.default_board" echo "*** Either run setup_board with default flag set" echo "*** or echo |board_name| > $GCLIENT_ROOT/src/scripts/.default_board" echo } # Sets the default board variable for calling script function get_default_board { DEFAULT_BOARD= if [ -f "$GCLIENT_ROOT/src/scripts/.default_board" ] ; then DEFAULT_BOARD=$(cat "$GCLIENT_ROOT/src/scripts/.default_board") # Check for user typos like whitespace. if [[ -n ${DEFAULT_BOARD//[a-zA-Z0-9-_]} ]] ; then die ".default_board: invalid name detected; please fix:" \ "'${DEFAULT_BOARD}'" fi fi } # Enter a chroot and restart the current script if needed function restart_in_chroot_if_needed { # NB: Pass in ARGV: restart_in_chroot_if_needed "$@" if [ $INSIDE_CHROOT -ne 1 ]; then # Get inside_chroot path for script. local chroot_path="$(reinterpret_path_for_chroot "$0")" exec $GCLIENT_ROOT/chromite/bin/cros_sdk -- "$chroot_path" "$@" fi } # Fail unless we're inside the chroot. This guards against messing up your # workstation. function assert_inside_chroot { if [ $INSIDE_CHROOT -ne 1 ]; then echo "This script must be run inside the chroot. Run this first:" echo " cros_sdk" exit 1 fi } # Fail if we're inside the chroot. This guards against creating or entering # nested chroots, among other potential problems. function assert_outside_chroot { if [ $INSIDE_CHROOT -ne 0 ]; then echo "This script must be run outside the chroot." exit 1 fi } function assert_not_root_user { if [ $(id -u) = 0 ]; then echo "This script must be run as a non-root user." exit 1 fi } # Check that all arguments are flags; that is, there are no remaining arguments # after parsing from shflags. Allow (with a warning) a single empty-string # argument. # # TODO: fix buildbot so that it doesn't pass the empty-string parameter, # then change this function. # # Usage: check_flags_only_and_allow_null_arg "$@" && set -- function check_flags_only_and_allow_null_arg { do_shift=1 if [[ $# == 1 && -z "$@" ]]; then echo "$0: warning: ignoring null argument" >&2 shift do_shift=0 fi if [[ $# -gt 0 ]]; then echo "error: invalid arguments: \"$@\"" >&2 flags_help exit 1 fi return $do_shift } # Removes single quotes around parameter # Arguments: # $1 - string which optionally has surrounding quotes # Returns: # None, but prints the string without quotes. function remove_quotes() { echo "$1" | sed -e "s/^'//; s/'$//" } # Writes stdin to the given file name as root using sudo in overwrite mode. # # $1 - The output file name. function sudo_clobber() { sudo tee "$1" > /dev/null } # Writes stdin to the given file name as root using sudo in append mode. # # $1 - The output file name. function sudo_append() { sudo tee -a "$1" > /dev/null } # Execute multiple commands in a single sudo. Generally will speed things # up by avoiding multiple calls to `sudo`. If any commands fail, we will # call die with the failing command. We can handle a max of ~100 commands, # but hopefully no one will ever try that many at once. # # $@ - The commands to execute, one per arg. function sudo_multi() { local i cmds # Construct the shell code to execute. It'll be of the form: # ... && ( ( command ) || exit ) && ... # This way we know which command exited. The exit status of # the underlying command is lost, but we never cared about it # in the first place (other than it is non zero), so oh well. for (( i = 1; i <= $#; ++i )); do cmds+=" && ( ( ${!i} ) || exit $(( i + 10 )) )" done # Execute our constructed shell code. sudo -- sh -c ":${cmds[*]}" && i=0 || i=$? # See if this failed, and if so, print out the failing command. if [[ $i -gt 10 ]]; then : $(( i -= 10 )) die "sudo_multi failed: ${!i}" elif [[ $i -ne 0 ]]; then die "sudo_multi failed for unknown reason $i" fi } # Locate all mounts below a specified directory. # # $1 - The root tree. function sub_mounts() { # Assume that `mount` outputs a list of mount points in the order # that things were mounted (since it always has and hopefully always # will). As such, we have to unmount in reverse order to cleanly # unmount submounts (think /dev/pts and /dev). mount | \ awk -v path="$1" -v len="${#1}" \ '(substr($3, 1, len) == path) { print $3 }' | \ tac } # Unmounts a directory, if the unmount fails, warn, and then lazily unmount. # # $1 - The path to unmount. function safe_umount_tree { local mounts=$(sub_mounts "$1") # Hmm, this shouldn't normally happen, but anything is possible. if [ -z "${mounts}" ] ; then return 0 fi # First try to unmount in one shot to speed things up. if sudo umount -d ${mounts}; then return 0 fi # Well that didn't work, so lazy unmount remaining ones. mounts=$(sub_mounts "$1") warn "Failed to unmount ${mounts}" warn "Doing a lazy unmount" if ! sudo umount -d -l ${mounts}; then mounts=$(sub_mounts "$1") die "Failed to lazily unmount ${mounts}" fi } # Fixes symlinks that are incorrectly prefixed with the build root ${1} # rather than the real running root '/'. # TODO(sosa) - Merge setup - cleanup below with this method. fix_broken_symlinks() { local build_root="${1}" local symlinks=$(find "${build_root}/usr/local" -lname "${build_root}/*") local symlink for symlink in ${symlinks}; do echo "Fixing ${symlink}" local target=$(ls -l "${symlink}" | cut -f 2 -d '>') # Trim spaces from target (bashism). target=${target/ /} # Make new target (removes rootfs prefix). new_target=$(echo ${target} | sed "s#${build_root}##") echo "Fixing symlink ${symlink}" sudo unlink "${symlink}" sudo ln -sf "${new_target}" "${symlink}" done } # Sets up symlinks for the developer root. It is necessary to symlink # usr and local since the developer root is mounted at /usr/local and # applications expect to be installed under /usr/local/bin, etc. # This avoids packages installing into /usr/local/usr/local/bin. # ${1} specifies the symlink target for the developer root. # ${2} specifies the symlink target for the var directory. # ${3} specifies the location of the stateful partition. setup_symlinks_on_root() { # Give args better names. local dev_image_target=${1} local var_target=${2} local dev_image_root="${3}/dev_image" # If our var target is actually the standard var, we are cleaning up the # symlinks (could also check for /usr/local for the dev_image_target). if [ ${var_target} = "/var" ]; then echo "Cleaning up /usr/local symlinks for ${dev_image_root}" else echo "Setting up symlinks for /usr/local for ${dev_image_root}" fi # Set up symlinks that should point to ${dev_image_target}. local path for path in usr local; do if [ -h "${dev_image_root}/${path}" ]; then sudo unlink "${dev_image_root}/${path}" elif [ -e "${dev_image_root}/${path}" ]; then die "${dev_image_root}/${path} should be a symlink if exists" fi sudo ln -s "${dev_image_target}" "${dev_image_root}/${path}" done # Setup var symlink. if [ -h "${dev_image_root}/var" ]; then sudo unlink "${dev_image_root}/var" elif [ -e "${dev_image_root}/var" ]; then die "${dev_image_root}/var should be a symlink if it exists" fi sudo ln -s "${var_target}" "${dev_image_root}/var" } # These two helpers clobber the ro compat value in our root filesystem. # # When the system is built with --enable_rootfs_verification, bit-precise # integrity checking is performed. That precision poses a usability issue on # systems that automount partitions with recognizable filesystems, such as # ext2/3/4. When the filesystem is mounted 'rw', ext2 metadata will be # automatically updated even if no other writes are performed to the # filesystem. In addition, ext2+ does not support a "read-only" flag for a # given filesystem. That said, forward and backward compatibility of # filesystem features are supported by tracking if a new feature breaks r/w or # just write compatibility. We abuse the read-only compatibility flag[1] in # the filesystem header by setting the high order byte (le) to FF. This tells # the kernel that features R24-R31 are all enabled. Since those features are # undefined on all ext-based filesystem, all standard kernels will refuse to # mount the filesystem as read-write -- only read-only[2]. # # [1] 32-bit flag we are modifying: # http://git.chromium.org/cgi-bin/gitweb.cgi?p=kernel.git;a=blob;f=include/linux/ext2_fs.h#l417 # [2] Mount behavior is enforced here: # http://git.chromium.org/cgi-bin/gitweb.cgi?p=kernel.git;a=blob;f=fs/ext2/super.c#l857 # # N.B., if the high order feature bits are used in the future, we will need to # revisit this technique. disable_rw_mount() { local rootfs="$1" local offset="${2-0}" # in bytes local ro_compat_offset=$((0x464 + 3)) # Set 'highest' byte printf '\377' | sudo dd of="$rootfs" seek=$((offset + ro_compat_offset)) \ conv=notrunc count=1 bs=1 } enable_rw_mount() { local rootfs="$1" local offset="${2-0}" local ro_compat_offset=$((0x464 + 3)) # Set 'highest' byte printf '\000' | sudo dd of="$rootfs" seek=$((offset + ro_compat_offset)) \ conv=notrunc count=1 bs=1 } # Get current timestamp. Assumes common.sh runs at startup. start_time=$(date +%s) # Print time elsapsed since start_time. print_time_elapsed() { local end_time=$(date +%s) local elapsed_seconds=$(($end_time - $start_time)) local minutes=$(($elapsed_seconds / 60)) local seconds=$(($elapsed_seconds % 60)) echo "Elapsed time: ${minutes}m${seconds}s" } # The board and variant command line options can be used in a number of ways # to specify the board and variant. The board can encode both pieces of # information separated by underscores. Or the variant can be passed using # the separate variant option. This function extracts the canonical board and # variant information and provides it in the BOARD, VARIANT and BOARD_VARIANT # variables. get_board_and_variant() { local flags_board="${1}" local flags_variant="${2}" BOARD=$(echo "$flags_board" | cut -d '_' -f 1) VARIANT=${flags_variant:-$(echo "$flags_board" | cut -s -d '_' -f 2)} if [ -n "$VARIANT" ]; then BOARD_VARIANT="${BOARD}_${VARIANT}" else BOARD_VARIANT="${BOARD}" fi } # This function converts a chromiumos image into a test image, either # in place or by copying to a new test image filename first. It honors # the following flags (see mod_image_for_test.sh) # # --factory # --factory_install # --force_copy # # On entry, pass the directory containing the image, and the image filename # On exit, it puts the pathname of the resulting test image into # CHROMEOS_RETURN_VAL # (yes this is ugly, but perhaps less ugly than the alternatives) # # Usage: # SRC_IMAGE=$(prepare_test_image "directory" "imagefile") prepare_test_image() { # If we're asked to modify the image for test, then let's make a copy and # modify that instead. # Check for manufacturing image. local args if [ ${FLAGS_factory} -eq ${FLAGS_TRUE} ]; then args="--factory" fi # Check for install shim. if [ ${FLAGS_factory_install} -eq ${FLAGS_TRUE} ]; then args="--factory_install" fi # Check for forcing copy of image if [ ${FLAGS_force_copy} -eq ${FLAGS_TRUE} ]; then args="${args} --force_copy" fi # Modify the image for test, creating a new test image "${SCRIPTS_DIR}/mod_image_for_test.sh" --board=${FLAGS_board} \ --image="$1/$2" --noinplace ${args} # From now on we use the just-created test image if [ ${FLAGS_factory} -eq ${FLAGS_TRUE} ]; then CHROMEOS_RETURN_VAL="$1/${CHROMEOS_FACTORY_TEST_IMAGE_NAME}" else CHROMEOS_RETURN_VAL="$1/${CHROMEOS_TEST_IMAGE_NAME}" fi } # Check that the specified file exists. If the file path is empty or the file # doesn't exist on the filesystem generate useful error messages. Otherwise # show the user the name and path of the file that will be used. The padding # parameter can be used to tabulate multiple name:path pairs. For example: # # check_for_file "really long name" "...:" "file.foo" # check_for_file "short name" ".........:" "another.bar" # # Results in the following output: # # Using really long name...: file.foo # Using short name.........: another.bar # # If tabulation is not required then passing "" for padding generates the # output "Using " check_for_file() { local name=$1 local padding=$2 local path=$3 if [ -z "${path}" ]; then die "No ${name} file specified." fi if [ ! -e "${path}" ]; then die "No ${name} file found at: ${path}" else info "Using ${name}${padding} ${path}" fi } # Check that the specified tool exists. If it does not exist in the PATH # generate a useful error message indicating how to install the ebuild # that contains the required tool. check_for_tool() { local tool=$1 local ebuild=$2 if ! which "${tool}" >/dev/null ; then error "The ${tool} utility was not found in your path. Run the following" error "command in your chroot to install it: sudo -E emerge ${ebuild}" exit 1 fi } # Reinterprets path from outside the chroot for use inside. # Returns "" if "" given. # $1 - The path to reinterpret. function reinterpret_path_for_chroot() { if [ $INSIDE_CHROOT -ne 1 ]; then if [ -z "${1}" ]; then echo "" else local path_abs_path=$(readlink -f "${1}") local gclient_root_abs_path=$(readlink -f "${GCLIENT_ROOT}") # Strip the repository root from the path. local relative_path=$(echo ${path_abs_path} \ | sed "s:${gclient_root_abs_path}/::") if [ "${relative_path}" = "${path_abs_path}" ]; then die "Error reinterpreting path. Path ${1} is not within source tree." fi # Prepend the chroot repository path. echo "/home/${USER}/trunk/${relative_path}" fi else # Path is already inside the chroot :). echo "${1}" fi } function emerge_custom_kernel() { local install_root="$1" local root=/build/${FLAGS_board} local tmp_pkgdir=${root}/custom-packages # Clean up any leftover state in custom directories. sudo rm -rf "${tmp_pkgdir}" # Update chromeos-initramfs to contain the latest binaries from the build # tree. This is basically just packaging up already-built binaries from # $root. We are careful not to muck with the existing prebuilts so that # prebuilts can be uploaded in parallel. # TODO(davidjames): Implement ABI deps so that chromeos-initramfs will be # rebuilt automatically when its dependencies change. sudo -E PKGDIR="${tmp_pkgdir}" $EMERGE_BOARD_CMD -1 \ chromeos-base/chromeos-initramfs || die "Cannot emerge chromeos-initramfs" # Verify all dependencies of the kernel are installed. This should be a # no-op, but it's good to check in case a developer didn't run # build_packages. local kernel=$(portageq-${FLAGS_board} expand_virtual ${root} virtual/kernel) sudo -E PKGDIR="${tmp_pkgdir}" $EMERGE_BOARD_CMD --onlydeps \ ${kernel} || die "Cannot emerge kernel dependencies" # Build the kernel. This uses the standard root so that we can pick up the # initramfs from there. But we don't actually install the kernel to the # standard root, because that'll muck up the kernel debug symbols there, # which we want to upload in parallel. sudo -E PKGDIR="${tmp_pkgdir}" $EMERGE_BOARD_CMD --buildpkgonly \ ${kernel} || die "Cannot emerge kernel" # Install the custom kernel to the provided install root. sudo -E PKGDIR="${tmp_pkgdir}" $EMERGE_BOARD_CMD --usepkgonly \ --root=${install_root} ${kernel} || die "Cannot emerge kernel to root" } function enable_strict_sudo { if [ -z "$CROS_SUDO_KEEP_ALIVE" ]; then echo "$0 was somehow invoked in a way that the sudo keep alive could" echo "not be found. Failing due to this. See crosbug.com/18393." exit 126 fi function sudo { `type -P sudo` -n "$@" } } # Checks that stdin and stderr are both terminals. # If so, we assume that there is a live user we can interact with. # This check can be overridden by setting the CROS_NO_PROMPT environment # variable to a non-empty value. function is_interactive() { [ -z "${CROS_NO_PROMPT}" -a -t 0 -a -t 2 ] } function assert_interactive() { if ! is_interactive; then die "Script ${0##*/} tried to get user input on a non-interactive terminal." fi } # Selection menu with a default option: this is similar to bash's select # built-in, only that in case of an empty selection it'll return the default # choice. Like select, it uses PS3 as the prompt. # # $1: name of variable to be assigned the selected value; it better not be of # the form choose_foo to avoid conflict with local variables. # $2: default value to return in case of an empty user entry. # $3: value to return in case of an invalid choice. # $...: options for selection. # # Usage example: # # PS3="Select one [1]: " # choose reply "foo" "ERROR" "foo" "bar" "foobar" # # This will present the following menu and prompt: # # 1) foo # 2) bar # 3) foobar # Select one [1]: # # The return value will be stored in a variable named 'reply'. If the input is # 1, 2 or 3, the return value will be "foo", "bar" or "foobar", respectively. # If it is empty (i.e. the user clicked Enter) it will be "foo". Anything else # will return "ERROR". function choose() { typeset -i choose_i=1 # Retrieve output variable name and default return value. local choose_reply=$1 local choose_default="$2" local choose_invalid="$3" shift 3 # Select a return value unset REPLY if [ $# -gt 0 ]; then assert_interactive # Actual options provided, present a menu and prompt for a choice. local choose_opt for choose_opt in "$@"; do echo "$choose_i) $choose_opt" >&2 choose_i=choose_i+1 done read -p "$PS3" fi # Filter out strings containing non-digits. if [ "${REPLY}" != "${REPLY%%[!0-9]*}" ]; then REPLY=0 fi choose_i="${REPLY}" if [ $choose_i -ge 1 -a $choose_i -le $# ]; then # Valid choice, return the corresponding value. eval ${choose_reply}="${!choose_i}" elif [ -z "${REPLY}" ]; then # Empty choice, return default value. eval ${choose_reply}="${choose_default}" else # Invalid choice, return corresponding value. eval ${choose_reply}="${choose_invalid}" fi } # Display --help if requested. This is used to hide options from help # that are not intended for developer use. # # How to use: # 1) Declare the options that you want to appear in help. # 2) Call this function. # 3) Declare the options that you don't want to appear in help. # # See build_packages for example usage. function show_help_if_requested() { for opt in "$@"; do if [ "$opt" = "-h" ] || [ "$opt" = "--help" ]; then flags_help exit 0 fi done }