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101efbff39
flatcar-scripts/build_library/grub_install.sh
James Le Cuirot 101efbff39
Temporarily undo AKV signing while we complete the shim review 
We don't want to be blocked from doing releases in the meantime. Revert
this commit when ready.

Signed-off-by: James Le Cuirot <jlecuirot@microsoft.com>
2024-11-13 12:19:24 +00:00

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#!/bin/bash
# Copyright (c) 2014 The CoreOS Authors. All rights reserved.
# Use of this source code is governed by a BSD-style license that can be
# found in the LICENSE file.
# Replacement script for 'grub-install' which does not detect drives
# properly when partitions are mounted via individual loopback devices.
SCRIPT_ROOT=$(readlink -f $(dirname "$0")/..)
. "${SCRIPT_ROOT}/common.sh" || exit 1
# We're invoked only by build_image, which runs in the chroot
assert_inside_chroot
# Flags.
DEFINE_string board "${DEFAULT_BOARD}" \
"The name of the board"
DEFINE_string target "" \
"The GRUB target to install such as i386-pc or x86_64-efi"
DEFINE_string disk_image "" \
"The disk image containing the EFI System partition."
DEFINE_boolean verity ${FLAGS_FALSE} \
"Indicates that boot commands should enable dm-verity."
DEFINE_string copy_efi_grub "" \
"Copy the EFI GRUB image to the specified path."
DEFINE_string copy_shim "" \
"Copy the shim image to the specified path."
# Parse flags
FLAGS "$@" || exit 1
eval set -- "${FLAGS_ARGV}"
switch_to_strict_mode
# must be sourced after flags are parsed.
. "${BUILD_LIBRARY_DIR}/toolchain_util.sh" || exit 1
. "${BUILD_LIBRARY_DIR}/board_options.sh" || exit 1
. "${BUILD_LIBRARY_DIR}/sbsign_util.sh" || exit 1
# Our GRUB lives under flatcar/grub so new pygrub versions cannot find grub.cfg
GRUB_DIR="flatcar/grub/${FLAGS_target}"
# Modules required to boot a standard CoreOS configuration
CORE_MODULES=( normal search test fat part_gpt search_fs_uuid gzio search_part_label terminal gptprio configfile memdisk tar echo read btrfs )
SBAT_ARG=()
case "${FLAGS_target}" in
x86_64-efi)
EFI_ARCH="x64"
;;
arm64-efi)
EFI_ARCH="aa64"
;;
esac
case "${FLAGS_target}" in
x86_64-efi|arm64-efi)
GRUB_IMAGE="EFI/boot/grub${EFI_ARCH}.efi"
CORE_MODULES+=( serial linux efi_gop efinet pgp http tftp tpm )
SBAT_ARG=( --sbat "${BOARD_ROOT}/usr/share/grub/sbat.csv" )
;;
i386-pc)
GRUB_IMAGE="${GRUB_DIR}/core.img"
CORE_MODULES+=( biosdisk serial )
;;
x86_64-xen)
GRUB_IMAGE="xen/pvboot-x86_64.elf"
;;
*)
die_notrace "Unknown GRUB target ${FLAGS_target}"
;;
esac
info "Updating GRUB in ${BOARD_ROOT}"
emerge-${BOARD} \
--nodeps --select --verbose --update --getbinpkg --usepkgonly --newuse \
sys-boot/grub
GRUB_SRC="${BOARD_ROOT}/usr/lib/grub/${FLAGS_target}"
[[ -d "${GRUB_SRC}" ]] || die "GRUB not installed at ${GRUB_SRC}"
# In order for grub-setup-bios to properly detect the layout of the disk
# image it expects a normal partitioned block device. For most of the build
# disk_util maps individual loop devices to each partition in the image so
# the kernel can automatically detach the loop devices on unmount. When
# using a single loop device with partitions there is no such cleanup.
# That's the story of why this script has all this goo for loop and mount.
ESP_DIR=
LOOP_DEV=
cleanup() {
cleanup_sbsign_certs
if [[ -d "${ESP_DIR}" ]]; then
if mountpoint -q "${ESP_DIR}"; then
sudo umount "${ESP_DIR}"
fi
rm -rf "${ESP_DIR}"
fi
if [[ -b "${LOOP_DEV}" ]]; then
sudo losetup --detach "${LOOP_DEV}"
fi
if [[ -n "${GRUB_TEMP_DIR}" && -e "${GRUB_TEMP_DIR}" ]]; then
rm -r "${GRUB_TEMP_DIR}"
fi
}
trap cleanup EXIT
info "Installing GRUB ${FLAGS_target} in ${FLAGS_disk_image##*/}"
LOOP_DEV=$(sudo losetup --find --show --partscan "${FLAGS_disk_image}")
ESP_DIR=$(mktemp --directory)
MOUNTED=
for (( i=0; i<5; ++i )); do
if sudo mount -t vfat "${LOOP_DEV}p1" "${ESP_DIR}"; then
MOUNTED=x
break
fi
warn "loopback device node ${LOOP_DEV}p1 still missing, reprobing..."
sudo blockdev --rereadpt "${LOOP_DEV}"
# sleep for 0.5, then 1, then 2, then 4, then 8 seconds.
sleep "$(bc <<<"scale=1; (2.0 ^ ${i}) / 2.0")"
done
if [[ -z ${MOUNTED} ]]; then
failboat "${LOOP_DEV}p1 where art thou? udev has forsaken us!"
fi
sudo mkdir -p "${ESP_DIR}/${GRUB_DIR}" "${ESP_DIR}/${GRUB_IMAGE%/*}"
info "Compressing modules in ${GRUB_DIR}"
for file in "${GRUB_SRC}"/*{.lst,.mod}; do
out="${ESP_DIR}/${GRUB_DIR}/${file##*/}"
gzip --best --stdout "${file}" | sudo_clobber "${out}"
done
info "Generating ${GRUB_DIR}/load.cfg"
# Include a small initial config in the core image to search for the ESP
# by filesystem ID in case the platform doesn't provide the boot disk.
# $root points to memdisk here so instead use hd0,gpt1 as a hint so it is
# searched first.
ESP_FSID=$(sudo grub-probe -t fs_uuid -d "${LOOP_DEV}p1")
sudo_clobber "${ESP_DIR}/${GRUB_DIR}/load.cfg" <<EOF
search.fs_uuid ${ESP_FSID} root hd0,gpt1
set prefix=(memdisk)
set
EOF
# Generate a memdisk containing the appropriately generated grub.cfg. Doing
# this because we need conflicting default behaviors between verity and
# non-verity images.
GRUB_TEMP_DIR=$(mktemp -d)
if [[ ! -f "${ESP_DIR}/flatcar/grub/grub.cfg.tar" ]]; then
info "Generating grub.cfg memdisk"
if [[ ${FLAGS_verity} -eq ${FLAGS_TRUE} ]]; then
# use dm-verity for /usr
cat "${BUILD_LIBRARY_DIR}/grub.cfg" | \
sed 's/@@MOUNTUSR@@/mount.usr=\/dev\/mapper\/usr verity.usr/' > \
"${GRUB_TEMP_DIR}/grub.cfg"
else
# uses standard systemd /usr mount
cat "${BUILD_LIBRARY_DIR}/grub.cfg" | \
sed 's/@@MOUNTUSR@@/mount.usr/' > "${GRUB_TEMP_DIR}/grub.cfg"
fi
sudo tar cf "${ESP_DIR}/flatcar/grub/grub.cfg.tar" \
-C "${GRUB_TEMP_DIR}" "grub.cfg"
fi
info "Generating ${GRUB_IMAGE}"
sudo grub-mkimage \
--compression=auto \
--format "${FLAGS_target}" \
--directory "${GRUB_SRC}" \
--config "${ESP_DIR}/${GRUB_DIR}/load.cfg" \
--memdisk "${ESP_DIR}/flatcar/grub/grub.cfg.tar" \
"${SBAT_ARG[@]}" \
--output "${ESP_DIR}/${GRUB_IMAGE}" \
"${CORE_MODULES[@]}"
for mod in "${CORE_MODULES[@]}"; do
sudo rm "${ESP_DIR}/${GRUB_DIR}/${mod}.mod"
done
# Now target specific steps to make the system bootable
case "${FLAGS_target}" in
x86_64-efi|arm64-efi)
info "Installing default ${FLAGS_target} UEFI bootloader."
if [[ ${COREOS_OFFICIAL:-0} -ne 1 ]]; then
# Sign GRUB and mokmanager(mm) with the shim-embedded key.
do_sbsign --output "${ESP_DIR}/${GRUB_IMAGE}"{,}
do_sbsign --output "${ESP_DIR}/EFI/boot/mm${EFI_ARCH}.efi" \
"${BOARD_ROOT}/usr/lib/shim/mm${EFI_ARCH}.efi"
# Unofficial build: Sign shim with our development key.
sudo sbsign \
--key /usr/share/sb_keys/DB.key \
--cert /usr/share/sb_keys/DB.crt \
--output "${ESP_DIR}/EFI/boot/boot${EFI_ARCH}.efi" \
"${BOARD_ROOT}/usr/lib/shim/shim${EFI_ARCH}.efi"
else
# Official build: Copy the unsigned files.
sudo cp "${BOARD_ROOT}/usr/lib/shim/mm${EFI_ARCH}.efi" \
"${ESP_DIR}/EFI/boot/mm${EFI_ARCH}.efi"
sudo cp "${BOARD_ROOT}/usr/lib/shim/shim${EFI_ARCH}.efi" \
"${ESP_DIR}/EFI/boot/boot${EFI_ARCH}.efi"
fi
# copying from vfat so ignore permissions
if [[ -n ${FLAGS_copy_efi_grub} ]]; then
cp --no-preserve=mode "${ESP_DIR}/${GRUB_IMAGE}" \
"${FLAGS_copy_efi_grub}"
fi
if [[ -n ${FLAGS_copy_shim} ]]; then
cp --no-preserve=mode "${ESP_DIR}/EFI/boot/boot${EFI_ARCH}.efi" \
"${FLAGS_copy_shim}"
fi
;;
i386-pc)
info "Installing MBR and the BIOS Boot partition."
sudo cp "${GRUB_SRC}/boot.img" "${ESP_DIR}/${GRUB_DIR}"
sudo grub-bios-setup --device-map=/dev/null \
--directory="${ESP_DIR}/${GRUB_DIR}" "${LOOP_DEV}"
# boot.img gets manipulated by grub-bios-setup so it alone isn't
# sufficient to restore the MBR boot code if it gets corrupted.
sudo dd bs=448 count=1 status=none if="${LOOP_DEV}" \
of="${ESP_DIR}/${GRUB_DIR}/mbr.bin"
;;
x86_64-xen)
info "Installing default x86_64 Xen bootloader."
sudo mkdir -p "${ESP_DIR}/boot/grub"
sudo cp "${BUILD_LIBRARY_DIR}/menu.lst" \
"${ESP_DIR}/boot/grub/menu.lst"
;;
esac
cleanup
trap - EXIT
command_completed
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