update_bootloaders.sh - third_party/platform/crosutils - Git at Google

 #!/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.

 # Helper script that generates the legacy/efi bootloader partitions.
 # It does not populate the templates, but can update a loop device.

 SCRIPT_ROOT=$(dirname $(readlink -f "$0"))
 . "${SCRIPT_ROOT}/common.sh" || exit 1
 . "${BUILD_LIBRARY_DIR}/disk_layout_util.sh" || exit 1

 # Need to be inside the chroot to load chromeos-common.sh
 assert_inside_chroot

 # Load functions and constants for chromeos-install
 . /usr/share/misc/chromeos-common.sh || exit 1

 # Flags.
 DEFINE_string arch "x86" \
   "The boot architecture: arm, mips, x86, or amd64 (Default: x86)"
 DEFINE_string board "${DEFAULT_BOARD}" \
   "Board we're building for."
 DEFINE_string image_type "usb" \
   "Type of image we're building for."
 # TODO(wad) once extlinux is dead, we can remove this.
 DEFINE_boolean install_syslinux ${FLAGS_FALSE} \
   "Controls whether syslinux is run on 'to'. (Default: false)"
 DEFINE_string from "/tmp/boot" \
   "Path the legacy bootloader templates are copied from. (Default /tmp/boot)"
 DEFINE_string to "/tmp/esp.img" \
   "Path to esp image (Default: /tmp/esp.img)"
 # offset= interacts with dirty pages in the file in a very poor manner.  See
 # crbug.com/954188. Use device partitions on the loop device instead.
 #DEFINE_integer to_offset 0 \
 #  "Offset in bytes into 'to' if it is a file (Default: 0)"
 #DEFINE_integer to_size -1 \
 #  "Size in bytes of 'to' to use if it is a file. -1 is ignored. (Default: -1)"
 DEFINE_integer to_partition -1 \
   "Partition number to use on block device. -1 is ignored. (Default: -1)"
 DEFINE_string vmlinuz "/tmp/vmlinuz" \
   "Path to the vmlinuz file to use (Default: /tmp/vmlinuz)"
 DEFINE_string zimage "/tmp/zImage" \
   "Path to the zimage file to use (Default: /tmp/zImage)"
 # The kernel_partition and the kernel_cmdline each are used to supply
 # verified boot configuration: dm="".
 DEFINE_string kernel_partition "/tmp/vmlinuz.image" \
   "Path to the signed kernel image. (Default: /tmp/vmlinuz.image)"
 DEFINE_string kernel_cmdline "" \
   "Kernel commandline if no kernel_partition given. (Default: '')"
 DEFINE_string kernel_partition_offset "0" \
   "Offset to the kernel partition [KERN-A] (Default: 0)"
 DEFINE_string kernel_partition_sectors "0" \
   "Kernel partition sectors (Default: 0)"

 # Parse flags
 FLAGS "$@" || exit 1
 eval set -- "${FLAGS_ARGV}"
 switch_to_strict_mode

 . "${BUILD_LIBRARY_DIR}/board_options.sh" || exit 1
 load_board_specific_script "board_specific_setup.sh"

 part_index_to_uuid() {
   local image="$1"
   local index="$2"
   cgpt show -i "$index" -u "$image"
 }

 # If not provided by chromeos-common.sh, this will update all of the
 # boot loader files (both A and B) with the data pulled
 # from the kernel_partition.  The default boot target should
 # be set when the rootfs is stuffed.
 if ! type -p update_x86_bootloaders; then
   update_x86_bootloaders() {
     local old_root="$1"  # e.g., /dev/sd%D%P or %U+1
     local kernel_cmdline="$2"
     local esp_fs_dir="$3"
     local template_dir="$4"
     local to="$5"

     # Pull out the dm="" values
     dm_table=
     if echo "$kernel_cmdline" | grep -q 'dm="'; then
       dm_table=$(echo "$kernel_cmdline" | sed -s 's/.*dm="\([^"]*\)".*/\1/')
     fi

     # Discover last known partition numbers.
     local partition_num_root_a="$(get_layout_partition_number \
       "${FLAGS_image_type}" ROOT-A)"
     local partition_num_root_b="$(get_layout_partition_number \
       "${FLAGS_image_type}" ROOT-B)"
     root_a_uuid="PARTUUID=$(part_index_to_uuid "$to" ${partition_num_root_a})"
     root_b_uuid="PARTUUID=$(part_index_to_uuid "$to" ${partition_num_root_b})"

     # Rewrite grub table
     grub_dm_table_a=${dm_table//${old_root}/${root_a_uuid}}
     grub_dm_table_b=${dm_table//${old_root}/${root_b_uuid}}
     sed -e "s|DMTABLEA|${grub_dm_table_a}|g" \
         -e "s|DMTABLEB|${grub_dm_table_b}|g" \
         -e "s|/dev/\\\$linuxpartA|${root_a_uuid}|g" \
         -e "s|/dev/\\\$linuxpartB|${root_b_uuid}|g" \
         -e "s|HDROOTUSB|${root_a_uuid}|g" \
         "${template_dir}"/efi/boot/grub.cfg |
         sudo dd of="${esp_fs_dir}"/efi/boot/grub.cfg status=none

     # Rewrite syslinux DM_TABLE and HDROOTUSB for USB booting.
     syslinux_dm_table_usb=${dm_table//${old_root}/${root_a_uuid}}
     sed -e "s|DMTABLEA|${syslinux_dm_table_usb}|g" \
         -e "s|HDROOTUSB|${root_a_uuid}|g" \
         "${template_dir}"/syslinux/usb.A.cfg |
         sudo dd of="${esp_fs_dir}"/syslinux/usb.A.cfg status=none

     # Note DMTABLE for root.A and root.B does not need to be updated because
     # postinst will discard all changes in EFI partition and copy from
     # rootfs:boot/syslinux/root.?.cfg again after installation or AU, because
     # new rootfs will be apparently different.

     # Copy the vmlinuz's into place for syslinux
     sudo cp -f "${FLAGS_vmlinuz}" "${esp_fs_dir}"/syslinux/vmlinuz.A
     sudo cp -f "${FLAGS_vmlinuz}" "${esp_fs_dir}"/syslinux/vmlinuz.B

     # The only work left for the installer is to pick the correct defaults
     # and replace HDROOTA and HDROOTB with the correct /dev/sd%D%P/%U+1
   }
 fi

 ESP_DEV_OURS=
 ESP_DEV=
 if [[ ! -e "${FLAGS_to}" ]]; then
   error "The ESP doesn't exist"
   # This shouldn't happen.
   info "Creating a new esp image at ${FLAGS_to}" anyway.
   # Create EFI System Partition to boot stock EFI BIOS (but not ChromeOS EFI
   # BIOS).  ARM uses this space to determine which partition is bootable.
   # NOTE: The size argument for mkfs.vfat is in 1024-byte blocks.
   # We'll hard-code it to 16M for now.
   ESP_BLOCKS=16384
   /usr/sbin/mkfs.vfat -C "${FLAGS_to}" ${ESP_BLOCKS}
   ESP_DEV=$(sudo losetup --show -f "${FLAGS_to}")
   ESP_DEV_OURS=y
   if [ -z "${ESP_DEV}" ]; then
     die "No free loop devices."
   fi
 else
   if [[ -f "${FLAGS_to}" ]]; then
     ESP_DEV=$(sudo losetup --show -f "${FLAGS_to}")
     ESP_DEV_OURS=y
     if [ -z "${ESP_DEV}" ]; then
       die "No free loop devices."
     fi
   else
     # If it is a block device or something else, try to mount it anyway.
     ESP_DEV="${FLAGS_to}"
     if [ ${FLAGS_to_partition} -ge 0 ]; then
       ESP_DEV="${ESP_DEV}"p"${FLAGS_to_partition}"
     fi
   fi
 fi

 ESP_FS_DIR=$(mktemp -d /tmp/esp.XXXXXX)
 cleanup() {
   set +e
   if ! safe_umount "${ESP_FS_DIR}"; then
       # There is a race condition possible on some ubuntu setups
       # with mounting and unmounting a device very quickly
       # Doing a quick sleep/retry as a temporary workaround
       warn "Initial unmount failed. Possibly crosbug.com/23443. Retrying"
       sleep 5
       safe_umount "${ESP_FS_DIR}"
   fi
   if [[ -n "${ESP_DEV_OURS}" && -z "${ESP_DEV//\/dev\/loop*}" ]]; then
     sudo losetup -d  "${ESP_DEV}"
   fi
   rm -rf "${ESP_FS_DIR}"
 }
 trap cleanup EXIT
 sudo mount "${ESP_DEV}" "${ESP_FS_DIR}"

 if [[ "${FLAGS_arch}" = "x86" || "${FLAGS_arch}" = "amd64" ]]; then
   # Populate the EFI bootloader configuration
   sudo mkdir -p "${ESP_FS_DIR}/efi/boot"
   sudo cp -r "${FLAGS_from}"/efi/boot/. "${ESP_FS_DIR}"/efi/boot

   # Prepopulate the syslinux directories too and update for verified boot values
   # after the rootfs work is done.
   sudo mkdir -p "${ESP_FS_DIR}"/syslinux
   sudo cp -r "${FLAGS_from}"/syslinux/. "${ESP_FS_DIR}"/syslinux

   # Stage both kernels with the only one we built.
   sudo cp -f "${FLAGS_vmlinuz}" "${ESP_FS_DIR}"/syslinux/vmlinuz.A
   sudo cp -f "${FLAGS_vmlinuz}" "${ESP_FS_DIR}"/syslinux/vmlinuz.B

   # Extract kernel flags
   kernel_cfg=
   old_root='PARTUUID=%U/PARTNROFF=1'
   if [[ -n "${FLAGS_kernel_cmdline}" ]]; then
     info "Using supplied kernel_cmdline to update templates."
     kernel_cfg="${FLAGS_kernel_cmdline}"
   elif [[ -n "${FLAGS_kernel_partition}" ]]; then
     info "Extracting the kernel command line from ${FLAGS_kernel_partition}"
     kernel_cfg=$(dump_kernel_config "${FLAGS_kernel_partition}")
   fi
   update_x86_bootloaders "${old_root}" \
                          "${kernel_cfg}" \
                          "${ESP_FS_DIR}" \
                          "${FLAGS_from}" \
                          "${FLAGS_to}"

   # Install the syslinux loader on the ESP image (part 12) so it is ready when
   # we cut over from rootfs booting (extlinux).
   if [[ ${FLAGS_install_syslinux} -eq ${FLAGS_TRUE} ]]; then
     safe_umount "${ESP_FS_DIR}"
     sudo syslinux -d /syslinux "${ESP_DEV}"
     # mount again for cleanup to free resource gracefully
     sudo mount -o ro "${ESP_DEV}" "${ESP_FS_DIR}"
   fi
 elif [[ "${FLAGS_arch}" = "arm" || "${FLAGS_arch}" = "mips" ]]; then
   # Copy u-boot script to ESP partition
   if [ -r "${FLAGS_from}/boot-A.scr.uimg" ]; then
     sudo mkdir -p "${ESP_FS_DIR}/u-boot"
     sudo cp "${FLAGS_from}/boot-A.scr.uimg" \
       "${ESP_FS_DIR}/u-boot/boot.scr.uimg"
     sudo cp -f "${FLAGS_vmlinuz}" "${ESP_FS_DIR}"/vmlinuz.A
     if [ -r "${FLAGS_zimage}" ]; then
       sudo cp -f "${FLAGS_zimage}" "${ESP_FS_DIR}"/vmlinuz.A
     fi
   fi
 fi

 if type board_update_bootloaders >&/dev/null; then
   board_update_bootloaders "${BOARD_ROOT}" "${ESP_FS_DIR}"
 fi

 set +e
	#!/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.

	# Helper script that generates the legacy/efi bootloader partitions.
	# It does not populate the templates, but can update a loop device.

	SCRIPT_ROOT=$(dirname $(readlink -f "$0"))
	. "${SCRIPT_ROOT}/common.sh" \|\| exit 1
	. "${BUILD_LIBRARY_DIR}/disk_layout_util.sh" \|\| exit 1

	# Need to be inside the chroot to load chromeos-common.sh
	assert_inside_chroot

	# Load functions and constants for chromeos-install
	. /usr/share/misc/chromeos-common.sh \|\| exit 1

	# Flags.
	DEFINE_string arch "x86" \
	"The boot architecture: arm, mips, x86, or amd64 (Default: x86)"
	DEFINE_string board "${DEFAULT_BOARD}" \
	"Board we're building for."
	DEFINE_string image_type "usb" \
	"Type of image we're building for."
	# TODO(wad) once extlinux is dead, we can remove this.
	DEFINE_boolean install_syslinux ${FLAGS_FALSE} \
	"Controls whether syslinux is run on 'to'. (Default: false)"
	DEFINE_string from "/tmp/boot" \
	"Path the legacy bootloader templates are copied from. (Default /tmp/boot)"
	DEFINE_string to "/tmp/esp.img" \
	"Path to esp image (Default: /tmp/esp.img)"
	# offset= interacts with dirty pages in the file in a very poor manner. See
	# crbug.com/954188. Use device partitions on the loop device instead.
	#DEFINE_integer to_offset 0 \
	# "Offset in bytes into 'to' if it is a file (Default: 0)"
	#DEFINE_integer to_size -1 \
	# "Size in bytes of 'to' to use if it is a file. -1 is ignored. (Default: -1)"
	DEFINE_integer to_partition -1 \
	"Partition number to use on block device. -1 is ignored. (Default: -1)"
	DEFINE_string vmlinuz "/tmp/vmlinuz" \
	"Path to the vmlinuz file to use (Default: /tmp/vmlinuz)"
	DEFINE_string zimage "/tmp/zImage" \
	"Path to the zimage file to use (Default: /tmp/zImage)"
	# The kernel_partition and the kernel_cmdline each are used to supply
	# verified boot configuration: dm="".
	DEFINE_string kernel_partition "/tmp/vmlinuz.image" \
	"Path to the signed kernel image. (Default: /tmp/vmlinuz.image)"
	DEFINE_string kernel_cmdline "" \
	"Kernel commandline if no kernel_partition given. (Default: '')"
	DEFINE_string kernel_partition_offset "0" \
	"Offset to the kernel partition [KERN-A] (Default: 0)"
	DEFINE_string kernel_partition_sectors "0" \
	"Kernel partition sectors (Default: 0)"

	# Parse flags
	FLAGS "$@" \|\| exit 1
	eval set -- "${FLAGS_ARGV}"
	switch_to_strict_mode

	. "${BUILD_LIBRARY_DIR}/board_options.sh" \|\| exit 1
	load_board_specific_script "board_specific_setup.sh"

	part_index_to_uuid() {
	local image="$1"
	local index="$2"
	cgpt show -i "$index" -u "$image"
	}

	# If not provided by chromeos-common.sh, this will update all of the
	# boot loader files (both A and B) with the data pulled
	# from the kernel_partition. The default boot target should
	# be set when the rootfs is stuffed.
	if ! type -p update_x86_bootloaders; then
	update_x86_bootloaders() {
	local old_root="$1" # e.g., /dev/sd%D%P or %U+1
	local kernel_cmdline="$2"
	local esp_fs_dir="$3"
	local template_dir="$4"
	local to="$5"

	# Pull out the dm="" values
	dm_table=
	if echo "$kernel_cmdline" \| grep -q 'dm="'; then
	dm_table=$(echo "$kernel_cmdline" \| sed -s 's/.dm="\([^"]\)".*/\1/')
	fi

	# Discover last known partition numbers.
	local partition_num_root_a="$(get_layout_partition_number \
	"${FLAGS_image_type}" ROOT-A)"
	local partition_num_root_b="$(get_layout_partition_number \
	"${FLAGS_image_type}" ROOT-B)"
	root_a_uuid="PARTUUID=$(part_index_to_uuid "$to" ${partition_num_root_a})"
	root_b_uuid="PARTUUID=$(part_index_to_uuid "$to" ${partition_num_root_b})"

	# Rewrite grub table
	grub_dm_table_a=${dm_table//${old_root}/${root_a_uuid}}
	grub_dm_table_b=${dm_table//${old_root}/${root_b_uuid}}
	sed -e "s\|DMTABLEA\|${grub_dm_table_a}\|g" \
	-e "s\|DMTABLEB\|${grub_dm_table_b}\|g" \
	-e "s\|/dev/\\\$linuxpartA\|${root_a_uuid}\|g" \
	-e "s\|/dev/\\\$linuxpartB\|${root_b_uuid}\|g" \
	-e "s\|HDROOTUSB\|${root_a_uuid}\|g" \
	"${template_dir}"/efi/boot/grub.cfg \|
	sudo dd of="${esp_fs_dir}"/efi/boot/grub.cfg status=none

	# Rewrite syslinux DM_TABLE and HDROOTUSB for USB booting.
	syslinux_dm_table_usb=${dm_table//${old_root}/${root_a_uuid}}
	sed -e "s\|DMTABLEA\|${syslinux_dm_table_usb}\|g" \
	-e "s\|HDROOTUSB\|${root_a_uuid}\|g" \
	"${template_dir}"/syslinux/usb.A.cfg \|
	sudo dd of="${esp_fs_dir}"/syslinux/usb.A.cfg status=none

	# Note DMTABLE for root.A and root.B does not need to be updated because
	# postinst will discard all changes in EFI partition and copy from
	# rootfs:boot/syslinux/root.?.cfg again after installation or AU, because
	# new rootfs will be apparently different.

	# Copy the vmlinuz's into place for syslinux
	sudo cp -f "${FLAGS_vmlinuz}" "${esp_fs_dir}"/syslinux/vmlinuz.A
	sudo cp -f "${FLAGS_vmlinuz}" "${esp_fs_dir}"/syslinux/vmlinuz.B

	# The only work left for the installer is to pick the correct defaults
	# and replace HDROOTA and HDROOTB with the correct /dev/sd%D%P/%U+1
	}
	fi

	ESP_DEV_OURS=
	ESP_DEV=
	if [[ ! -e "${FLAGS_to}" ]]; then
	error "The ESP doesn't exist"
	# This shouldn't happen.
	info "Creating a new esp image at ${FLAGS_to}" anyway.
	# Create EFI System Partition to boot stock EFI BIOS (but not ChromeOS EFI
	# BIOS). ARM uses this space to determine which partition is bootable.
	# NOTE: The size argument for mkfs.vfat is in 1024-byte blocks.
	# We'll hard-code it to 16M for now.
	ESP_BLOCKS=16384
	/usr/sbin/mkfs.vfat -C "${FLAGS_to}" ${ESP_BLOCKS}
	ESP_DEV=$(sudo losetup --show -f "${FLAGS_to}")
	ESP_DEV_OURS=y
	if [ -z "${ESP_DEV}" ]; then
	die "No free loop devices."
	fi
	else
	if [[ -f "${FLAGS_to}" ]]; then
	ESP_DEV=$(sudo losetup --show -f "${FLAGS_to}")
	ESP_DEV_OURS=y
	if [ -z "${ESP_DEV}" ]; then
	die "No free loop devices."
	fi
	else
	# If it is a block device or something else, try to mount it anyway.
	ESP_DEV="${FLAGS_to}"
	if [ ${FLAGS_to_partition} -ge 0 ]; then
	ESP_DEV="${ESP_DEV}"p"${FLAGS_to_partition}"
	fi
	fi
	fi

	ESP_FS_DIR=$(mktemp -d /tmp/esp.XXXXXX)
	cleanup() {
	set +e
	if ! safe_umount "${ESP_FS_DIR}"; then
	# There is a race condition possible on some ubuntu setups
	# with mounting and unmounting a device very quickly
	# Doing a quick sleep/retry as a temporary workaround
	warn "Initial unmount failed. Possibly crosbug.com/23443. Retrying"
	sleep 5
	safe_umount "${ESP_FS_DIR}"
	fi
	if [[ -n "${ESP_DEV_OURS}" && -z "${ESP_DEV//\/dev\/loop*}" ]]; then
	sudo losetup -d "${ESP_DEV}"
	fi
	rm -rf "${ESP_FS_DIR}"
	}
	trap cleanup EXIT
	sudo mount "${ESP_DEV}" "${ESP_FS_DIR}"

	if [[ "${FLAGS_arch}" = "x86" \|\| "${FLAGS_arch}" = "amd64" ]]; then
	# Populate the EFI bootloader configuration
	sudo mkdir -p "${ESP_FS_DIR}/efi/boot"
	sudo cp -r "${FLAGS_from}"/efi/boot/. "${ESP_FS_DIR}"/efi/boot

	# Prepopulate the syslinux directories too and update for verified boot values
	# after the rootfs work is done.
	sudo mkdir -p "${ESP_FS_DIR}"/syslinux
	sudo cp -r "${FLAGS_from}"/syslinux/. "${ESP_FS_DIR}"/syslinux

	# Stage both kernels with the only one we built.
	sudo cp -f "${FLAGS_vmlinuz}" "${ESP_FS_DIR}"/syslinux/vmlinuz.A
	sudo cp -f "${FLAGS_vmlinuz}" "${ESP_FS_DIR}"/syslinux/vmlinuz.B

	# Extract kernel flags
	kernel_cfg=
	old_root='PARTUUID=%U/PARTNROFF=1'
	if [[ -n "${FLAGS_kernel_cmdline}" ]]; then
	info "Using supplied kernel_cmdline to update templates."
	kernel_cfg="${FLAGS_kernel_cmdline}"
	elif [[ -n "${FLAGS_kernel_partition}" ]]; then
	info "Extracting the kernel command line from ${FLAGS_kernel_partition}"
	kernel_cfg=$(dump_kernel_config "${FLAGS_kernel_partition}")
	fi
	update_x86_bootloaders "${old_root}" \
	"${kernel_cfg}" \
	"${ESP_FS_DIR}" \
	"${FLAGS_from}" \
	"${FLAGS_to}"

	# Install the syslinux loader on the ESP image (part 12) so it is ready when
	# we cut over from rootfs booting (extlinux).
	if [[ ${FLAGS_install_syslinux} -eq ${FLAGS_TRUE} ]]; then
	safe_umount "${ESP_FS_DIR}"
	sudo syslinux -d /syslinux "${ESP_DEV}"
	# mount again for cleanup to free resource gracefully
	sudo mount -o ro "${ESP_DEV}" "${ESP_FS_DIR}"
	fi
	elif [[ "${FLAGS_arch}" = "arm" \|\| "${FLAGS_arch}" = "mips" ]]; then
	# Copy u-boot script to ESP partition
	if [ -r "${FLAGS_from}/boot-A.scr.uimg" ]; then
	sudo mkdir -p "${ESP_FS_DIR}/u-boot"
	sudo cp "${FLAGS_from}/boot-A.scr.uimg" \
	"${ESP_FS_DIR}/u-boot/boot.scr.uimg"
	sudo cp -f "${FLAGS_vmlinuz}" "${ESP_FS_DIR}"/vmlinuz.A
	if [ -r "${FLAGS_zimage}" ]; then
	sudo cp -f "${FLAGS_zimage}" "${ESP_FS_DIR}"/vmlinuz.A
	fi
	fi
	fi

	if type board_update_bootloaders >&/dev/null; then
	board_update_bootloaders "${BOARD_ROOT}" "${ESP_FS_DIR}"
	fi

	set +e