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flatcar-scripts/update_bootloaders.sh
Brandon Philips 4057d5590d feat(disk_layout): follow new CoreOS partition layout 
As outlined here we need a new partition layout, this patch makes the
necessary changes:
https://groups.google.com/forum/#!topic/coreos-dev/bA7gwGGoTng

The first big change is making all of the scripts obey partition numbers
based on labels in the disk_layout.json. This makes it much easier to
change later on.

The second big change is in the layout itself. The json file was updated
to reflect the document above.

And finally the grub boot configuration needed for pv-grub and pygrub
were added to the create_legacy_bootloader_templates.sh library utlity.

Everything seems to work and boot now.
2013-05-12 12:31:03 -07:00

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#!/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
# Need to be inside the chroot to load chromeos-common.sh
assert_inside_chroot
# Load functions and constants for chromeos-install
. /usr/lib/installer/chromeos-common.sh || exit 1
# Flags.
DEFINE_string arch "x86" \
"The boot architecture: arm or x86. (Default: x86)"
# TODO(wad) once extlinux is dead, we can remove this.
DEFINE_boolean install_syslinux ${FLAGS_TRUE} \
"Controls whether syslinux is run on 'to'. (Default: true)"
DEFINE_string from "/tmp/boot" \
"Path the legacy bootloader templates are copied from. (Default /tmp/boot)"
DEFINE_string to "/tmp/esp.img" \
"Path to esp image (Default: /tmp/esp.img)"
DEFINE_integer to_offset 0 \
"Offset in bytes into 'to' if it is a file (Default: 0)"
DEFINE_integer to_size -1 \
"Size in bytes of 'to' to use if it is a file. -1 is ignored. (Default: -1)"
DEFINE_string vmlinuz "/tmp/vmlinuz" \
"Path to the vmlinuz file to use (Default: /tmp/vmlinuz)"
# Parse flags
FLAGS "$@" || exit 1
eval set -- "${FLAGS_ARGV}"
switch_to_strict_mode
part_index_to_uuid() {
local image="$1"
local index="$2"
cgpt show -i "$index" -u "$image"
}
ESP_DEV=
if [[ ! -e "${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 "${FLAGS_to}")
if [ -z "${ESP_DEV}" ]; then
die "No free loop devices."
fi
else
if [[ -f "${FLAGS_to}" ]]; then
esp_offset="--offset ${FLAGS_to_offset}"
esp_size="--sizelimit ${FLAGS_to_size}"
if [ ${FLAGS_to_size} -lt 0 ]; then
esp_size=
fi
ESP_DEV=$(sudo losetup --show -f ${esp_offset} ${esp_size} "${FLAGS_to}")
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}"
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}" && -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 "${FLAGS_from}"/efi/boot/bootx64.efi \
"${ESP_FS_DIR}/efi/boot/bootx64.efi"
sudo cp "${FLAGS_from}/efi/boot/grub.cfg" \
"${ESP_FS_DIR}/efi/boot/grub.cfg"
# Copy over the grub configurations for cloud machines and the
# kernel into both the A and B slot
sudo mkdir -p "${ESP_FS_DIR}"/boot/grub
sudo cp -r "${FLAGS_from}"/boot/grub/. "${ESP_FS_DIR}"/boot/grub
sudo cp -r "${FLAGS_from}"/boot/grub/menu.lst.A "${ESP_FS_DIR}"/boot/grub/menu.lst
# Prepopulate the syslinux directories too and update for verified boot values
# after the rootfs work is done.
sudo mkdir -p "${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="cros_debug"
old_root="%U+1"
# 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" ]]; 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 "${FLAGS_from}"/vmlinuz "${ESP_FS_DIR}"/vmlinuz.uimg.A
sudo cp -f "${FLAGS_from}"/zImage "${ESP_FS_DIR}"/vmlinuz.A
fi
fi
set +e
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