sys-boot/coreboot/coreboot-9999.ebuild - mirrors/cros/chromiumos/overlays/chromiumos-overlay - Git at Google

 # Copyright (c) 2014 The Chromium OS Authors. All rights reserved.
 # Distributed under the terms of the GNU General Public License v2

 # Change this version number when any change is made to configs/files under
 # coreboot and an auto-revbump is required.
 # VERSION=REVBUMP-0.0.64

 EAPI=7
 CROS_WORKON_PROJECT=(
 	"chromiumos/third_party/coreboot"
 	"chromiumos/third_party/arm-trusted-firmware"
 	"chromiumos/platform/vboot_reference"
 	"chromiumos/third_party/coreboot/amd_blobs"
 	"chromiumos/third_party/coreboot/blobs"
 	"chromiumos/third_party/coreboot/intel-microcode"
 	"chromiumos/third_party/cbootimage"
 )
 CROS_WORKON_LOCALNAME=(
 	"coreboot"
 	"arm-trusted-firmware"
 	"../platform/vboot_reference"
 	"coreboot/3rdparty/amd_blobs"
 	"coreboot/3rdparty/blobs"
 	"coreboot/3rdparty/intel-microcode"
 	"cbootimage"
 )
 CROS_WORKON_DESTDIR=(
 	"${S}"
 	"${S}/3rdparty/arm-trusted-firmware"
 	"${S}/3rdparty/vboot"
 	"${S}/3rdparty/amd_blobs"
 	"${S}/3rdparty/blobs"
 	"${S}/3rdparty/intel-microcode"
 	"${S}/util/nvidia/cbootimage"
 )

 CROS_WORKON_EGIT_BRANCH=(
 	"chromeos-2016.05"
 	"master"
 	"master"
 	"upstream/master"
 	"master"
 	"master"
 	"master"
 )

 inherit cros-board cros-workon toolchain-funcs cros-unibuild coreboot-sdk

 DESCRIPTION="coreboot firmware"
 HOMEPAGE="http://www.coreboot.org"
 LICENSE="GPL-2"
 KEYWORDS="~*"
 IUSE="em100-mode fsp memmaps mocktpm quiet-cb rmt vmx mtc mma"
 IUSE="${IUSE} +bmpblk +intel_mrc qca-framework quiet unibuild verbose"
 IUSE="${IUSE} amd_cpu coreboot-sdk chipset_stoneyridge chipset_picasso"
 IUSE="${IUSE} generated_cros_config"
 # coreboot's build system handles stripping the binaries and producing a
 # separate .debug file with the symbols. This flag prevents portage from
 # stripping the .debug symbols
 RESTRICT="strip"

 RDEPEND=""
 DEPEND="
 	!!sys-boot/coreboot-zork
 	mtc? ( sys-boot/mtc:= )
 	virtual/coreboot-private-files
 	bmpblk? ( sys-boot/chromeos-bmpblk:= )
 	intel_mrc? ( x86? ( sys-boot/chromeos-mrc:= )
 		amd64? ( sys-boot/chromeos-mrc:= ) )
 	chipset_stoneyridge? ( sys-boot/amd-firmware:= )
 	chipset_picasso? ( >=sys-boot/amd-picasso-fsp-0.0.2:= )
 	qca-framework? ( sys-boot/qca-framework:= )
 	unibuild? (
 		!generated_cros_config? ( chromeos-base/chromeos-config )
 		generated_cros_config? ( chromeos-base/chromeos-config-bsp:= )
 	)
 	"

 # Get the coreboot board config to build for.
 # Checks the current board with/without variant, and also whether an FSP
 # is in use. Echoes the board config file that should be used to build
 # coreboot.
 get_board() {
 	local board=$(get_current_board_with_variant)

 	if [[ ! -s "${FILESDIR}/configs/config.${board}" ]]; then
 		board=$(get_current_board_no_variant)
 	fi
 	echo "${board}"
 }

 set_build_env() {
 	BOARD="$1"
 	BUILD_TARGET_NAME="$2"

 	if use unibuild; then
 		CONFIG=".config-${BOARD}"
 		CONFIG_SERIAL=".config_serial-${BOARD}"
 		BUILD_DIR="build-${BUILD_TARGET_NAME}"
 		BUILD_DIR_SERIAL="build_serial-${BUILD_TARGET_NAME}"
 	else
 		CONFIG=".config"
 		CONFIG_SERIAL=".config_serial"
 		BUILD_DIR="build"
 		BUILD_DIR_SERIAL="build_serial"
 	fi
 }

 # Create the coreboot configuration files for a particular board. This
 # creates a standard config and a serial config.
 # Args:
 #   $1: Base board name, if any (used for unified builds)
 create_config() {
 	# TODO(teravest): Remove this arg and replace with family lookup.
 	local base_board="$1"

 	if [[ -s "${FILESDIR}/configs/config.${BOARD}" ]]; then

 		cp -v "${FILESDIR}/configs/config.${BOARD}" "${CONFIG}"
 		# handle the case when "${CONFIG}" does not have a newline in the end.
 		echo >> "${CONFIG}"

 		# Override mainboard vendor if needed.
 		if [[ -n "${SYSTEM_OEM}" ]]; then
 			echo "CONFIG_MAINBOARD_VENDOR=\"${SYSTEM_OEM}\"" >> "${CONFIG}"
 		fi
 		if [[ -n "${SYSTEM_OEM_VENDOR_ID}" ]]; then
 			echo "CONFIG_SUBSYSTEM_VENDOR_ID=${SYSTEM_OEM_VENDOR_ID}" >> "${CONFIG}"
 		fi
 		if [[ -n "${SYSTEM_OEM_DEVICE_ID}" ]]; then
 			echo "CONFIG_SUBSYSTEM_DEVICE_ID=${SYSTEM_OEM_DEVICE_ID}" >> "${CONFIG}"
 		fi
 		if [[ -n "${SYSTEM_OEM_ACPI_ID}" ]]; then
 			echo "CONFIG_ACPI_SUBSYSTEM_ID=\"${SYSTEM_OEM_ACPI_ID}\"" >> "${CONFIG}"
 		fi

 		# In case config comes from a symlink we are likely building
 		# for an overlay not matching this config name. Enable adding
 		# a CBFS based board ID for coreboot.
 		if [[ -L "${FILESDIR}/configs/config.${BOARD}" ]]; then
 			echo "CONFIG_BOARD_ID_MANUAL=y" >> "${CONFIG}"
 			echo "CONFIG_BOARD_ID_STRING=\"${BOARD_USE}\"" >> "${CONFIG}"
 		fi
 	else
 		ewarn "Could not find existing config for ${BOARD}."
 	fi

 	if use rmt; then
 		echo "CONFIG_MRC_RMT=y" >> "${CONFIG}"
 	fi
 	if use vmx; then
 		elog "   - enabling VMX"
 		echo "CONFIG_ENABLE_VMX=y" >> "${CONFIG}"
 	fi
 	if use quiet-cb; then
 		# Suppress console spew if requested.
 		cat >> "${CONFIG}" <<EOF
 CONFIG_DEFAULT_CONSOLE_LOGLEVEL=3
 # CONFIG_DEFAULT_CONSOLE_LOGLEVEL_8 is not set
 CONFIG_DEFAULT_CONSOLE_LOGLEVEL_3=y
 EOF
 	fi
 	if use mocktpm; then
 		echo "CONFIG_VBOOT_MOCK_SECDATA=y" >> "${CONFIG}"
 	fi
 	if use mma; then
 		echo "CONFIG_MMA=y" >> "${CONFIG}"
 	fi

 	# allow using non-coreboot toolchains unless we use it anyway
 	if ! use coreboot-sdk; then
 		echo "CONFIG_ANY_TOOLCHAIN=y" >> "${CONFIG}"
 	fi
 	# disable coreboot's own EC firmware building mechanism
 	echo "CONFIG_EC_GOOGLE_CHROMEEC_FIRMWARE_NONE=y" >> "${CONFIG}"
 	echo "CONFIG_EC_GOOGLE_CHROMEEC_PD_FIRMWARE_NONE=y" >> "${CONFIG}"
 	# enable common GBB flags for development
 	echo "CONFIG_GBB_FLAG_DEV_SCREEN_SHORT_DELAY=y" >> "${CONFIG}"
 	echo "CONFIG_GBB_FLAG_DISABLE_FW_ROLLBACK_CHECK=y" >> "${CONFIG}"
 	echo "CONFIG_GBB_FLAG_FORCE_DEV_BOOT_USB=y" >> "${CONFIG}"
 	echo "CONFIG_GBB_FLAG_FORCE_DEV_SWITCH_ON=y" >> "${CONFIG}"
 	local version=$(${CHROOT_SOURCE_ROOT}/src/third_party/chromiumos-overlay/chromeos/config/chromeos_version.sh |grep "^[[:space:]]*CHROMEOS_VERSION_STRING=" |cut -d= -f2)
 	echo "CONFIG_VBOOT_FWID_VERSION=\".${version}\"" >> "${CONFIG}"
 	if use em100-mode; then
 		einfo "Enabling em100 mode via CONFIG_EM100 (slower SPI flash)"
 		echo "CONFIG_EM100=y" >> "${CONFIG}"
 	fi
 	# Use FSP's GOP in favor of coreboot's Ada based Intel graphics init
 	# which we don't include at this time. A no-op on non-FSP/GOP devices.
 	echo "CONFIG_RUN_FSP_GOP=y" >> "${CONFIG}"

 	cp "${CONFIG}" "${CONFIG_SERIAL}"
 	file="${FILESDIR}/configs/fwserial.${BOARD}"
 	if [ ! -f "${file}" ] && [ -n "${base_board}" ]; then
 		file="${FILESDIR}/configs/fwserial.${base_board}"
 	fi
 	if [ ! -f "${file}" ]; then
 		file="${FILESDIR}/configs/fwserial.default"
 	fi
 	cat "${file}" >> "${CONFIG_SERIAL}" || die
 	# handle the case when "${CONFIG_SERIAL}" does not have a newline in the end.
 	echo >> "${CONFIG_SERIAL}"

 	einfo "Configured ${CONFIG} for board ${BOARD} in ${BUILD_DIR}"
 }

 src_prepare() {
 	local froot="${SYSROOT}/firmware"
 	local privdir="${SYSROOT}/firmware/coreboot-private"
 	local file

 	default

 	if [[ -d "${privdir}" ]]; then
 		while read -d $'\0' -r file; do
 			rsync --recursive --links --executability \
 				"${file}" ./ || die
 		done < <(find "${privdir}" -maxdepth 1 -mindepth 1 -print0)
 	fi

 	for blob in mrc.bin mrc.elf efi.elf; do
 		if [[ -r "${SYSROOT}/firmware/${blob}" ]]; then
 			cp "${SYSROOT}/firmware/${blob}" 3rdparty/blobs/
 		fi
 	done

 	cp -a "${FILESDIR}/3rdparty/"* 3rdparty

 	if use unibuild; then
 		local build_target

 		local fields="coreboot"
 		local cmd="get-firmware-build-combinations"
 		(cros_config_host "${cmd}" "${fields}" || die) |
 		while read -r name; do
 			read -r coreboot
 			set_build_env "${coreboot}" "${name}"
 			create_config "$(get_board)"
 		done
 	else
 		set_build_env "$(get_board)"
 		create_config
 	fi
 }

 add_fw_blob() {
 	local rom="$1"
 	local cbname="$2"
 	local blob="$3"
 	local cbhash="${cbname%.bin}.hash"
 	local hash="${blob%.bin}.hash"

 	cbfstool "${rom}" add -r FW_MAIN_A,FW_MAIN_B -t raw -c lzma \
 		-f "${blob}" -n "${cbname}" || die
 	cbfstool "${rom}" add -r FW_MAIN_A,FW_MAIN_B -t raw -c none \
 		-f "${hash}" -n "${cbhash}" || die
 }

 # Build coreboot with a supplied configuration and output directory.
 #   $1: Build directory to use (e.g. "build_serial")
 #   $2: Config file to use (e.g. ".config_serial")
 #   $3: Build target build (e.g. "pyro"), for USE=unibuild only.
 make_coreboot() {
 	local builddir="$1"
 	local config_fname="$2"
 	local build_target="$3"
 	local froot="${SYSROOT}/firmware"
 	local fblobroot="${SYSROOT}/firmware"

 	if use unibuild; then
 		froot+="/${build_target}"
 	fi
 	rm -rf "${builddir}" .xcompile

 	local CB_OPTS=( "DOTCONFIG=${config_fname}" )
 	use quiet && CB_OPTS+=( "V=0" )
 	use verbose && CB_OPTS+=( "V=1" )
 	use quiet && REDIR="/dev/null" || REDIR="/dev/stdout"

 	# Configure and build coreboot.
 	yes "" | emake oldconfig "${CB_OPTS[@]}" obj="${builddir}" >${REDIR}
 	if grep -q "CONFIG_VENDOR_EMULATION=y" "${config_fname}"; then
 		local config_file
 		config_file="${FILESDIR}/configs/config.$(get_board)"
 		die "Working with a default configuration. ${config_file} incorrect?"
 	fi
 	emake "${CB_OPTS[@]}" obj="${builddir}" HOSTCC="$(tc-getBUILD_CC)" \
 		HOSTPKGCONFIG="$(tc-getBUILD_PKG_CONFIG)"

 	# Expand FW_MAIN_* since we might add some files
 	cbfstool "${builddir}/coreboot.rom" expand -r FW_MAIN_A,FW_MAIN_B

 	# Record the config that we used.
 	cp "${config_fname}" "${builddir}/${config_fname}"

 	# Modify firmware descriptor if building for the EM100 emulator on
 	# Intel platforms.
 	# TODO(crbug.com/863396): Should we have an 'intel' USE flag? Do we
 	# still have any Intel platforms that don't use ifdtool?
 	if ! use amd_cpu && use em100-mode; then
 		einfo "Enabling em100 mode via ifdttool (slower SPI flash)"
 		ifdtool --em100 "${builddir}/coreboot.rom" || die
 		mv "${builddir}/coreboot.rom"{.new,} || die
 	fi

 	local blob
 	local cbname
 	for blob in ${FW_BLOBS}; do
 		local blobfile="${fblobroot}/${blob}"

 		# Use per-board blob if available
 		if use unibuild && [[ -e "${froot}/${blob}" ]]; then
 			blobfile="${froot}/${blob}"
 		fi

 		cbname=$(basename "${blob}")
 		add_fw_blob "${builddir}/coreboot.rom" "${cbname}" \
 			"${blobfile}" || die
 	done

 	if [ -d ${froot}/cbfs ]; then
 		die "something is still using ${froot}/cbfs, which is deprecated."
 	fi
 }

 src_compile() {
 	# Set KERNELREVISION (really coreboot revision) to the ebuild revision
 	# number followed by a dot and the first seven characters of the git
 	# hash. The name is confusing but consistent with the coreboot
 	# Makefile.
 	local sha1v="${VCSID/*-/}"
 	export KERNELREVISION=".${PV}.${sha1v:0:7}"

 	if ! use coreboot-sdk; then
 		tc-export CC
 		# Export the known cross compilers so there isn't a reliance
 		# on what the default profile is for exporting a compiler. The
 		# reasoning is that the firmware may need more than one to build
 		# and boot.
 		export CROSS_COMPILE_x86="i686-pc-linux-gnu-"
 		export CROSS_COMPILE_mipsel="mipsel-cros-linux-gnu-"
 		export CROSS_COMPILE_arm64="aarch64-cros-linux-gnu-"
 		export CROSS_COMPILE_arm="armv7a-cros-linux-gnu- armv7a-cros-linux-gnueabihf-"
 	else
 		export CROSS_COMPILE_x86=${COREBOOT_SDK_PREFIX_x86_32}
 		export CROSS_COMPILE_mipsel=${COREBOOT_SDK_PREFIX_mips}
 		export CROSS_COMPILE_arm64=${COREBOOT_SDK_PREFIX_arm64}
 		export CROSS_COMPILE_arm=${COREBOOT_SDK_PREFIX_arm}

 		export PATH=/opt/coreboot-sdk/bin:$PATH
 	fi

 	use verbose && elog "Toolchain:\n$(sh util/xcompile/xcompile)\n"

 	if use unibuild; then
 		local fields="coreboot"
 		local cmd="get-firmware-build-combinations"
 		(cros_config_host "${cmd}" "${fields}" || die) |
 		while read -r name; do
 			read -r coreboot

 			set_build_env "${coreboot}" "${name}"
 			make_coreboot "${BUILD_DIR}" "${CONFIG}" "${name}"

 			# Build a second ROM with serial support for developers.
 			make_coreboot "${BUILD_DIR_SERIAL}" "${CONFIG_SERIAL}" "${name}"
 		done
 	else
 		set_build_env "$(get_board)"
 		make_coreboot "${BUILD_DIR}" "${CONFIG}"

 		# Build a second ROM with serial support for developers.
 		make_coreboot "${BUILD_DIR_SERIAL}" "${CONFIG_SERIAL}"
 	fi
 }

 do_install() {
 	local build_target="$1"
 	local dest_dir="/firmware"
 	local mapfile

 	if [[ -n "${build_target}" ]]; then
 		dest_dir+="/${build_target}"
 		einfo "Installing coreboot ${build_target} into ${dest_dir}"
 	fi
 	insinto "${dest_dir}"

 	newins "${BUILD_DIR}/coreboot.rom" coreboot.rom
 	newins "${BUILD_DIR_SERIAL}/coreboot.rom" coreboot.rom.serial

 	local config_file="${FILESDIR}/configs/config.$(get_board)"
 	OPROM=$( awk 'BEGIN{FS="\""} /CONFIG_VGA_BIOS_FILE=/ { print $2 }' \
 		"${config_file}" )
 	CBFSOPROM=pci$( awk 'BEGIN{FS="\""} /CONFIG_VGA_BIOS_ID=/ { print $2 }' \
 		"${config_file}" ).rom
 	FSP=$( awk 'BEGIN{FS="\""} /CONFIG_FSP_FILE=/ { print $2 }' \
 		"${config_file}" )
 	if [[ -n "${FSP}" ]]; then
 		newins ${FSP} fsp.bin
 	fi
 	if [[ -n "${OPROM}" ]]; then
 		newins ${OPROM} ${CBFSOPROM}
 	fi
 	if use memmaps; then
 		for mapfile in "${BUILD_DIR}"/cbfs/fallback/*.map
 		do
 			doins $mapfile
 		done
 	fi
 	newins "${BUILD_DIR}/${CONFIG}" coreboot.config
 	newins "${BUILD_DIR_SERIAL}/${CONFIG_SERIAL}" coreboot_serial.config

 	# Keep binaries with debug symbols around for crash dump analysis
 	if [[ -s "${BUILD_DIR}/bl31.elf" ]]; then
 		newins "${BUILD_DIR}/bl31.elf" bl31.elf
 		newins "${BUILD_DIR_SERIAL}/bl31.elf" bl31.serial.elf
 	fi
 	insinto "${dest_dir}"/coreboot
 	doins "${BUILD_DIR}"/cbfs/fallback/*.debug
 	nonfatal doins "${BUILD_DIR}"/cbfs/fallback/bootblock.bin
 	insinto "${dest_dir}"/coreboot_serial
 	doins "${BUILD_DIR_SERIAL}"/cbfs/fallback/*.debug
 	nonfatal doins "${BUILD_DIR_SERIAL}"/cbfs/fallback/bootblock.bin
 }

 src_install() {
 	local build_target

 	if use unibuild; then
 		local fields="coreboot"
 		local cmd="get-firmware-build-combinations"
 		(cros_config_host "${cmd}" "${fields}" || die) |
 		while read -r name; do
 			read -r coreboot

 			set_build_env "${coreboot}" "${name}"
 			do_install ${coreboot}
 		done
 	else
 		set_build_env
 		do_install
 	fi
 }
	# Copyright (c) 2014 The Chromium OS Authors. All rights reserved.
	# Distributed under the terms of the GNU General Public License v2

	# Change this version number when any change is made to configs/files under
	# coreboot and an auto-revbump is required.
	# VERSION=REVBUMP-0.0.64

	EAPI=7
	CROS_WORKON_PROJECT=(
	"chromiumos/third_party/coreboot"
	"chromiumos/third_party/arm-trusted-firmware"
	"chromiumos/platform/vboot_reference"
	"chromiumos/third_party/coreboot/amd_blobs"
	"chromiumos/third_party/coreboot/blobs"
	"chromiumos/third_party/coreboot/intel-microcode"
	"chromiumos/third_party/cbootimage"
	)
	CROS_WORKON_LOCALNAME=(
	"coreboot"
	"arm-trusted-firmware"
	"../platform/vboot_reference"
	"coreboot/3rdparty/amd_blobs"
	"coreboot/3rdparty/blobs"
	"coreboot/3rdparty/intel-microcode"
	"cbootimage"
	)
	CROS_WORKON_DESTDIR=(
	"${S}"
	"${S}/3rdparty/arm-trusted-firmware"
	"${S}/3rdparty/vboot"
	"${S}/3rdparty/amd_blobs"
	"${S}/3rdparty/blobs"
	"${S}/3rdparty/intel-microcode"
	"${S}/util/nvidia/cbootimage"
	)

	CROS_WORKON_EGIT_BRANCH=(
	"chromeos-2016.05"
	"master"
	"master"
	"upstream/master"
	"master"
	"master"
	"master"
	)

	inherit cros-board cros-workon toolchain-funcs cros-unibuild coreboot-sdk

	DESCRIPTION="coreboot firmware"
	HOMEPAGE="http://www.coreboot.org"
	LICENSE="GPL-2"
	KEYWORDS="~*"
	IUSE="em100-mode fsp memmaps mocktpm quiet-cb rmt vmx mtc mma"
	IUSE="${IUSE} +bmpblk +intel_mrc qca-framework quiet unibuild verbose"
	IUSE="${IUSE} amd_cpu coreboot-sdk chipset_stoneyridge chipset_picasso"
	IUSE="${IUSE} generated_cros_config"
	# coreboot's build system handles stripping the binaries and producing a
	# separate .debug file with the symbols. This flag prevents portage from
	# stripping the .debug symbols
	RESTRICT="strip"

	RDEPEND=""
	DEPEND="
	!!sys-boot/coreboot-zork
	mtc? ( sys-boot/mtc:= )
	virtual/coreboot-private-files
	bmpblk? ( sys-boot/chromeos-bmpblk:= )
	intel_mrc? ( x86? ( sys-boot/chromeos-mrc:= )
	amd64? ( sys-boot/chromeos-mrc:= ) )
	chipset_stoneyridge? ( sys-boot/amd-firmware:= )
	chipset_picasso? ( >=sys-boot/amd-picasso-fsp-0.0.2:= )
	qca-framework? ( sys-boot/qca-framework:= )
	unibuild? (
	!generated_cros_config? ( chromeos-base/chromeos-config )
	generated_cros_config? ( chromeos-base/chromeos-config-bsp:= )
	)
	"

	# Get the coreboot board config to build for.
	# Checks the current board with/without variant, and also whether an FSP
	# is in use. Echoes the board config file that should be used to build
	# coreboot.
	get_board() {
	local board=$(get_current_board_with_variant)

	if [[ ! -s "${FILESDIR}/configs/config.${board}" ]]; then
	board=$(get_current_board_no_variant)
	fi
	echo "${board}"
	}

	set_build_env() {
	BOARD="$1"
	BUILD_TARGET_NAME="$2"

	if use unibuild; then
	CONFIG=".config-${BOARD}"
	CONFIG_SERIAL=".config_serial-${BOARD}"
	BUILD_DIR="build-${BUILD_TARGET_NAME}"
	BUILD_DIR_SERIAL="build_serial-${BUILD_TARGET_NAME}"
	else
	CONFIG=".config"
	CONFIG_SERIAL=".config_serial"
	BUILD_DIR="build"
	BUILD_DIR_SERIAL="build_serial"
	fi
	}

	# Create the coreboot configuration files for a particular board. This
	# creates a standard config and a serial config.
	# Args:
	# $1: Base board name, if any (used for unified builds)
	create_config() {
	# TODO(teravest): Remove this arg and replace with family lookup.
	local base_board="$1"

	if [[ -s "${FILESDIR}/configs/config.${BOARD}" ]]; then

	cp -v "${FILESDIR}/configs/config.${BOARD}" "${CONFIG}"
	# handle the case when "${CONFIG}" does not have a newline in the end.
	echo >> "${CONFIG}"

	# Override mainboard vendor if needed.
	if [[ -n "${SYSTEM_OEM}" ]]; then
	echo "CONFIG_MAINBOARD_VENDOR=\"${SYSTEM_OEM}\"" >> "${CONFIG}"
	fi
	if [[ -n "${SYSTEM_OEM_VENDOR_ID}" ]]; then
	echo "CONFIG_SUBSYSTEM_VENDOR_ID=${SYSTEM_OEM_VENDOR_ID}" >> "${CONFIG}"
	fi
	if [[ -n "${SYSTEM_OEM_DEVICE_ID}" ]]; then
	echo "CONFIG_SUBSYSTEM_DEVICE_ID=${SYSTEM_OEM_DEVICE_ID}" >> "${CONFIG}"
	fi
	if [[ -n "${SYSTEM_OEM_ACPI_ID}" ]]; then
	echo "CONFIG_ACPI_SUBSYSTEM_ID=\"${SYSTEM_OEM_ACPI_ID}\"" >> "${CONFIG}"
	fi

	# In case config comes from a symlink we are likely building
	# for an overlay not matching this config name. Enable adding
	# a CBFS based board ID for coreboot.
	if [[ -L "${FILESDIR}/configs/config.${BOARD}" ]]; then
	echo "CONFIG_BOARD_ID_MANUAL=y" >> "${CONFIG}"
	echo "CONFIG_BOARD_ID_STRING=\"${BOARD_USE}\"" >> "${CONFIG}"
	fi
	else
	ewarn "Could not find existing config for ${BOARD}."
	fi

	if use rmt; then
	echo "CONFIG_MRC_RMT=y" >> "${CONFIG}"
	fi
	if use vmx; then
	elog " - enabling VMX"
	echo "CONFIG_ENABLE_VMX=y" >> "${CONFIG}"
	fi
	if use quiet-cb; then
	# Suppress console spew if requested.
	cat >> "${CONFIG}" <<EOF
	CONFIG_DEFAULT_CONSOLE_LOGLEVEL=3
	# CONFIG_DEFAULT_CONSOLE_LOGLEVEL_8 is not set
	CONFIG_DEFAULT_CONSOLE_LOGLEVEL_3=y
	EOF
	fi
	if use mocktpm; then
	echo "CONFIG_VBOOT_MOCK_SECDATA=y" >> "${CONFIG}"
	fi
	if use mma; then
	echo "CONFIG_MMA=y" >> "${CONFIG}"
	fi

	# allow using non-coreboot toolchains unless we use it anyway
	if ! use coreboot-sdk; then
	echo "CONFIG_ANY_TOOLCHAIN=y" >> "${CONFIG}"
	fi
	# disable coreboot's own EC firmware building mechanism
	echo "CONFIG_EC_GOOGLE_CHROMEEC_FIRMWARE_NONE=y" >> "${CONFIG}"
	echo "CONFIG_EC_GOOGLE_CHROMEEC_PD_FIRMWARE_NONE=y" >> "${CONFIG}"
	# enable common GBB flags for development
	echo "CONFIG_GBB_FLAG_DEV_SCREEN_SHORT_DELAY=y" >> "${CONFIG}"
	echo "CONFIG_GBB_FLAG_DISABLE_FW_ROLLBACK_CHECK=y" >> "${CONFIG}"
	echo "CONFIG_GBB_FLAG_FORCE_DEV_BOOT_USB=y" >> "${CONFIG}"
	echo "CONFIG_GBB_FLAG_FORCE_DEV_SWITCH_ON=y" >> "${CONFIG}"
	local version=$(${CHROOT_SOURCE_ROOT}/src/third_party/chromiumos-overlay/chromeos/config/chromeos_version.sh \|grep "^[[:space:]]*CHROMEOS_VERSION_STRING=" \|cut -d= -f2)
	echo "CONFIG_VBOOT_FWID_VERSION=\".${version}\"" >> "${CONFIG}"
	if use em100-mode; then
	einfo "Enabling em100 mode via CONFIG_EM100 (slower SPI flash)"
	echo "CONFIG_EM100=y" >> "${CONFIG}"
	fi
	# Use FSP's GOP in favor of coreboot's Ada based Intel graphics init
	# which we don't include at this time. A no-op on non-FSP/GOP devices.
	echo "CONFIG_RUN_FSP_GOP=y" >> "${CONFIG}"

	cp "${CONFIG}" "${CONFIG_SERIAL}"
	file="${FILESDIR}/configs/fwserial.${BOARD}"
	if [ ! -f "${file}" ] && [ -n "${base_board}" ]; then
	file="${FILESDIR}/configs/fwserial.${base_board}"
	fi
	if [ ! -f "${file}" ]; then
	file="${FILESDIR}/configs/fwserial.default"
	fi
	cat "${file}" >> "${CONFIG_SERIAL}" \|\| die
	# handle the case when "${CONFIG_SERIAL}" does not have a newline in the end.
	echo >> "${CONFIG_SERIAL}"

	einfo "Configured ${CONFIG} for board ${BOARD} in ${BUILD_DIR}"
	}

	src_prepare() {
	local froot="${SYSROOT}/firmware"
	local privdir="${SYSROOT}/firmware/coreboot-private"
	local file

	default

	if [[ -d "${privdir}" ]]; then
	while read -d $'\0' -r file; do
	rsync --recursive --links --executability \
	"${file}" ./ \|\| die
	done < <(find "${privdir}" -maxdepth 1 -mindepth 1 -print0)
	fi

	for blob in mrc.bin mrc.elf efi.elf; do
	if [[ -r "${SYSROOT}/firmware/${blob}" ]]; then
	cp "${SYSROOT}/firmware/${blob}" 3rdparty/blobs/
	fi
	done

	cp -a "${FILESDIR}/3rdparty/"* 3rdparty

	if use unibuild; then
	local build_target

	local fields="coreboot"
	local cmd="get-firmware-build-combinations"
	(cros_config_host "${cmd}" "${fields}" \|\| die) \|
	while read -r name; do
	read -r coreboot
	set_build_env "${coreboot}" "${name}"
	create_config "$(get_board)"
	done
	else
	set_build_env "$(get_board)"
	create_config
	fi
	}

	add_fw_blob() {
	local rom="$1"
	local cbname="$2"
	local blob="$3"
	local cbhash="${cbname%.bin}.hash"
	local hash="${blob%.bin}.hash"

	cbfstool "${rom}" add -r FW_MAIN_A,FW_MAIN_B -t raw -c lzma \
	-f "${blob}" -n "${cbname}" \|\| die
	cbfstool "${rom}" add -r FW_MAIN_A,FW_MAIN_B -t raw -c none \
	-f "${hash}" -n "${cbhash}" \|\| die
	}

	# Build coreboot with a supplied configuration and output directory.
	# $1: Build directory to use (e.g. "build_serial")
	# $2: Config file to use (e.g. ".config_serial")
	# $3: Build target build (e.g. "pyro"), for USE=unibuild only.
	make_coreboot() {
	local builddir="$1"
	local config_fname="$2"
	local build_target="$3"
	local froot="${SYSROOT}/firmware"
	local fblobroot="${SYSROOT}/firmware"

	if use unibuild; then
	froot+="/${build_target}"
	fi
	rm -rf "${builddir}" .xcompile

	local CB_OPTS=( "DOTCONFIG=${config_fname}" )
	use quiet && CB_OPTS+=( "V=0" )
	use verbose && CB_OPTS+=( "V=1" )
	use quiet && REDIR="/dev/null" \|\| REDIR="/dev/stdout"

	# Configure and build coreboot.
	yes "" \| emake oldconfig "${CB_OPTS[@]}" obj="${builddir}" >${REDIR}
	if grep -q "CONFIG_VENDOR_EMULATION=y" "${config_fname}"; then
	local config_file
	config_file="${FILESDIR}/configs/config.$(get_board)"
	die "Working with a default configuration. ${config_file} incorrect?"
	fi
	emake "${CB_OPTS[@]}" obj="${builddir}" HOSTCC="$(tc-getBUILD_CC)" \
	HOSTPKGCONFIG="$(tc-getBUILD_PKG_CONFIG)"

	# Expand FW_MAIN_* since we might add some files
	cbfstool "${builddir}/coreboot.rom" expand -r FW_MAIN_A,FW_MAIN_B

	# Record the config that we used.
	cp "${config_fname}" "${builddir}/${config_fname}"

	# Modify firmware descriptor if building for the EM100 emulator on
	# Intel platforms.
	# TODO(crbug.com/863396): Should we have an 'intel' USE flag? Do we
	# still have any Intel platforms that don't use ifdtool?
	if ! use amd_cpu && use em100-mode; then
	einfo "Enabling em100 mode via ifdttool (slower SPI flash)"
	ifdtool --em100 "${builddir}/coreboot.rom" \|\| die
	mv "${builddir}/coreboot.rom"{.new,} \|\| die
	fi

	local blob
	local cbname
	for blob in ${FW_BLOBS}; do
	local blobfile="${fblobroot}/${blob}"

	# Use per-board blob if available
	if use unibuild && [[ -e "${froot}/${blob}" ]]; then
	blobfile="${froot}/${blob}"
	fi

	cbname=$(basename "${blob}")
	add_fw_blob "${builddir}/coreboot.rom" "${cbname}" \
	"${blobfile}" \|\| die
	done

	if [ -d ${froot}/cbfs ]; then
	die "something is still using ${froot}/cbfs, which is deprecated."
	fi
	}

	src_compile() {
	# Set KERNELREVISION (really coreboot revision) to the ebuild revision
	# number followed by a dot and the first seven characters of the git
	# hash. The name is confusing but consistent with the coreboot
	# Makefile.
	local sha1v="${VCSID/*-/}"
	export KERNELREVISION=".${PV}.${sha1v:0:7}"

	if ! use coreboot-sdk; then
	tc-export CC
	# Export the known cross compilers so there isn't a reliance
	# on what the default profile is for exporting a compiler. The
	# reasoning is that the firmware may need more than one to build
	# and boot.
	export CROSS_COMPILE_x86="i686-pc-linux-gnu-"
	export CROSS_COMPILE_mipsel="mipsel-cros-linux-gnu-"
	export CROSS_COMPILE_arm64="aarch64-cros-linux-gnu-"
	export CROSS_COMPILE_arm="armv7a-cros-linux-gnu- armv7a-cros-linux-gnueabihf-"
	else
	export CROSS_COMPILE_x86=${COREBOOT_SDK_PREFIX_x86_32}
	export CROSS_COMPILE_mipsel=${COREBOOT_SDK_PREFIX_mips}
	export CROSS_COMPILE_arm64=${COREBOOT_SDK_PREFIX_arm64}
	export CROSS_COMPILE_arm=${COREBOOT_SDK_PREFIX_arm}

	export PATH=/opt/coreboot-sdk/bin:$PATH
	fi

	use verbose && elog "Toolchain:\n$(sh util/xcompile/xcompile)\n"

	if use unibuild; then
	local fields="coreboot"
	local cmd="get-firmware-build-combinations"
	(cros_config_host "${cmd}" "${fields}" \|\| die) \|
	while read -r name; do
	read -r coreboot

	set_build_env "${coreboot}" "${name}"
	make_coreboot "${BUILD_DIR}" "${CONFIG}" "${name}"

	# Build a second ROM with serial support for developers.
	make_coreboot "${BUILD_DIR_SERIAL}" "${CONFIG_SERIAL}" "${name}"
	done
	else
	set_build_env "$(get_board)"
	make_coreboot "${BUILD_DIR}" "${CONFIG}"

	# Build a second ROM with serial support for developers.
	make_coreboot "${BUILD_DIR_SERIAL}" "${CONFIG_SERIAL}"
	fi
	}

	do_install() {
	local build_target="$1"
	local dest_dir="/firmware"
	local mapfile

	if [[ -n "${build_target}" ]]; then
	dest_dir+="/${build_target}"
	einfo "Installing coreboot ${build_target} into ${dest_dir}"
	fi
	insinto "${dest_dir}"

	newins "${BUILD_DIR}/coreboot.rom" coreboot.rom
	newins "${BUILD_DIR_SERIAL}/coreboot.rom" coreboot.rom.serial

	local config_file="${FILESDIR}/configs/config.$(get_board)"
	OPROM=$( awk 'BEGIN{FS="\""} /CONFIG_VGA_BIOS_FILE=/ { print $2 }' \
	"${config_file}" )
	CBFSOPROM=pci$( awk 'BEGIN{FS="\""} /CONFIG_VGA_BIOS_ID=/ { print $2 }' \
	"${config_file}" ).rom
	FSP=$( awk 'BEGIN{FS="\""} /CONFIG_FSP_FILE=/ { print $2 }' \
	"${config_file}" )
	if [[ -n "${FSP}" ]]; then
	newins ${FSP} fsp.bin
	fi
	if [[ -n "${OPROM}" ]]; then
	newins ${OPROM} ${CBFSOPROM}
	fi
	if use memmaps; then
	for mapfile in "${BUILD_DIR}"/cbfs/fallback/*.map
	do
	doins $mapfile
	done
	fi
	newins "${BUILD_DIR}/${CONFIG}" coreboot.config
	newins "${BUILD_DIR_SERIAL}/${CONFIG_SERIAL}" coreboot_serial.config

	# Keep binaries with debug symbols around for crash dump analysis
	if [[ -s "${BUILD_DIR}/bl31.elf" ]]; then
	newins "${BUILD_DIR}/bl31.elf" bl31.elf
	newins "${BUILD_DIR_SERIAL}/bl31.elf" bl31.serial.elf
	fi
	insinto "${dest_dir}"/coreboot
	doins "${BUILD_DIR}"/cbfs/fallback/*.debug
	nonfatal doins "${BUILD_DIR}"/cbfs/fallback/bootblock.bin
	insinto "${dest_dir}"/coreboot_serial
	doins "${BUILD_DIR_SERIAL}"/cbfs/fallback/*.debug
	nonfatal doins "${BUILD_DIR_SERIAL}"/cbfs/fallback/bootblock.bin
	}

	src_install() {
	local build_target

	if use unibuild; then
	local fields="coreboot"
	local cmd="get-firmware-build-combinations"
	(cros_config_host "${cmd}" "${fields}" \|\| die) \|
	while read -r name; do
	read -r coreboot

	set_build_env "${coreboot}" "${name}"
	do_install ${coreboot}
	done
	else
	set_build_env
	do_install
	fi
	}