os/scpt/mkarchiso
2024-02-12 09:28:34 +09:00

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#!/usr/bin/env bash
#
# SPDX-License-Identifier: GPL-3.0-or-later
set -e -u
shopt -s extglob
# Control the environment
umask 0022
export LC_ALL="C.UTF-8"
if [[ -v LANGUAGE ]]; then
# LC_ALL=C.UTF-8, unlike LC_ALL=C, does not override LANGUAGE.
# See https://sourceware.org/bugzilla/show_bug.cgi?id=16621 and https://savannah.gnu.org/bugs/?62815
unset LANGUAGE
fi
[[ -v SOURCE_DATE_EPOCH ]] || printf -v SOURCE_DATE_EPOCH '%(%s)T' -1
export SOURCE_DATE_EPOCH
# Set application name from the script's file name
app_name="${0##*/}"
# Define global variables. All of them will be overwritten later
pkg_list=()
bootstrap_pkg_list=()
quiet=""
work_dir=""
out_dir=""
gpg_key=""
gpg_sender=""
iso_name=""
iso_label=""
iso_uuid=""
iso_publisher=""
iso_application=""
iso_version=""
install_dir=""
arch=""
pacman_conf=""
packages=""
bootstrap_packages=""
pacstrap_dir=""
declare -i rm_work_dir=0
buildmodes=()
bootmodes=()
airootfs_image_type=""
airootfs_image_tool_options=()
cert_list=()
declare -A file_permissions=()
efibootimg=""
efiboot_files=()
# adapted from GRUB_EARLY_INITRD_LINUX_STOCK in https://git.savannah.gnu.org/cgit/grub.git/tree/util/grub-mkconfig.in
readonly ucodes=('intel-uc.img' 'intel-ucode.img' 'amd-uc.img' 'amd-ucode.img' 'early_ucode.cpio' 'microcode.cpio')
# Show an INFO message
# $1: message string
_msg_info() {
local _msg="${1}"
[[ "${quiet}" == "y" ]] || printf '[%s] INFO: %s\n' "${app_name}" "${_msg}"
}
# Show a WARNING message
# $1: message string
_msg_warning() {
local _msg="${1}"
printf '[%s] WARNING: %s\n' "${app_name}" "${_msg}" >&2
}
# Show an ERROR message then exit with status
# $1: message string
# $2: exit code number (with 0 does not exit)
_msg_error() {
local _msg="${1}"
local _error=${2}
printf '[%s] ERROR: %s\n' "${app_name}" "${_msg}" >&2
if (( _error > 0 )); then
exit "${_error}"
fi
}
# Show help usage, with an exit status.
# $1: exit status number.
_usage() {
IFS='' read -r -d '' usagetext <<ENDUSAGETEXT || true
usage: ${app_name} [options] <profile_dir>
options:
-A <application> Set an application name for the ISO
Default: '${iso_application}'
-C <file> pacman configuration file.
Default: '${pacman_conf}'
-D <install_dir> Set an install_dir. All files will be located here.
Default: '${install_dir}'
NOTE: Max 8 characters, use only [a-z0-9]
-L <label> Set the ISO volume label
Default: '${iso_label}'
-P <publisher> Set the ISO publisher
Default: '${iso_publisher}'
-c [cert ..] Provide certificates for codesigning of netboot artifacts as
well as the rootfs artifact.
Multiple files are provided as quoted, space delimited list.
The first file is considered as the signing certificate,
the second as the key and the third as the optional certificate authority.
-g <gpg_key> Set the PGP key ID to be used for signing the rootfs image.
Passed to gpg as the value for --default-key
-G <mbox> Set the PGP signer (must include an email address)
Passed to gpg as the value for --sender
-h This message
-m [mode ..] Build mode(s) to use (valid modes are: 'bootstrap', 'iso' and 'netboot').
Multiple build modes are provided as quoted, space delimited list.
-o <out_dir> Set the output directory
Default: '${out_dir}'
-p [package ..] Package(s) to install.
Multiple packages are provided as quoted, space delimited list.
-r Delete the working directory at the end.
-v Enable verbose output
-w <work_dir> Set the working directory
Default: '${work_dir}'
profile_dir: Directory of the archiso profile to build
ENDUSAGETEXT
printf '%s' "${usagetext}"
exit "${1}"
}
# Shows configuration options.
_show_config() {
local build_date
printf -v build_date '%(%FT%R%z)T' "${SOURCE_DATE_EPOCH}"
_msg_info "${app_name} configuration settings"
_msg_info " Architecture: ${arch}"
_msg_info " Working directory: ${work_dir}"
_msg_info " Installation directory: ${install_dir}"
_msg_info " Build date: ${build_date}"
_msg_info " Output directory: ${out_dir}"
_msg_info " Current build mode: ${buildmode}"
_msg_info " Build modes: ${buildmodes[*]}"
_msg_info " GPG key: ${gpg_key:-None}"
_msg_info " GPG signer: ${gpg_sender:-None}"
_msg_info "Code signing certificates: ${cert_list[*]:-None}"
_msg_info " Profile: ${profile}"
_msg_info "Pacman configuration file: ${pacman_conf}"
_msg_info " Image file name: ${image_name:-None}"
_msg_info " ISO volume label: ${iso_label}"
_msg_info " ISO publisher: ${iso_publisher}"
_msg_info " ISO application: ${iso_application}"
_msg_info " Boot modes: ${bootmodes[*]:-None}"
_msg_info " Packages File: ${buildmode_packages}"
_msg_info " Packages: ${buildmode_pkg_list[*]}"
}
# Cleanup airootfs
_cleanup_pacstrap_dir() {
_msg_info "Cleaning up in pacstrap location..."
# Delete all files in /boot
[[ -d "${pacstrap_dir}/boot" ]] && find "${pacstrap_dir}/boot" -mindepth 1 -delete
# Delete pacman database sync cache files (*.tar.gz)
[[ -d "${pacstrap_dir}/var/lib/pacman" ]] && find "${pacstrap_dir}/var/lib/pacman" -maxdepth 1 -type f -delete
# Delete pacman database sync cache
[[ -d "${pacstrap_dir}/var/lib/pacman/sync" ]] && find "${pacstrap_dir}/var/lib/pacman/sync" -delete
# Delete pacman package cache
[[ -d "${pacstrap_dir}/var/cache/pacman/pkg" ]] && find "${pacstrap_dir}/var/cache/pacman/pkg" -type f -delete
# Delete all log files, keeps empty dirs.
[[ -d "${pacstrap_dir}/var/log" ]] && find "${pacstrap_dir}/var/log" -type f -delete
# Delete all temporary files and dirs
[[ -d "${pacstrap_dir}/var/tmp" ]] && find "${pacstrap_dir}/var/tmp" -mindepth 1 -delete
# Delete package pacman related files.
find "${work_dir}" \( -name '*.pacnew' -o -name '*.pacsave' -o -name '*.pacorig' \) -delete
# Create /etc/machine-id with special value 'uninitialized': the final id is
# generated on first boot, systemd's first-boot mechanism applies (see machine-id(5))
rm -f -- "${pacstrap_dir}/etc/machine-id"
printf 'uninitialized\n' >"${pacstrap_dir}/etc/machine-id"
_msg_info "Done!"
}
# Create a squashfs image and place it in the ISO 9660 file system.
# $@: options to pass to mksquashfs
_run_mksquashfs() {
local mksquashfs_options=() image_path="${isofs_dir}/${install_dir}/${arch}/airootfs.sfs"
rm -f -- "${image_path}"
[[ ! "${quiet}" == "y" ]] || mksquashfs_options+=('-no-progress' '-quiet')
mksquashfs "$@" "${image_path}" -noappend "${airootfs_image_tool_options[@]}" "${mksquashfs_options[@]}"
}
# Create an ext4 image containing the root file system and pack it inside a squashfs image.
# Save the squashfs image on the ISO 9660 file system.
_mkairootfs_ext4+squashfs() {
local ext4_hash_seed mkfs_ext4_options=()
[[ -e "${pacstrap_dir}" ]] || _msg_error "The path '${pacstrap_dir}' does not exist" 1
_msg_info "Creating ext4 image of 32 GiB and copying '${pacstrap_dir}/' to it..."
ext4_hash_seed="$(uuidgen --sha1 --namespace 93a870ff-8565-4cf3-a67b-f47299271a96 \
--name "${SOURCE_DATE_EPOCH} ext4 hash seed")"
mkfs_ext4_options=(
'-d' "${pacstrap_dir}"
'-O' '^has_journal,^resize_inode'
'-E' "lazy_itable_init=0,root_owner=0:0,hash_seed=${ext4_hash_seed}"
'-m' '0'
'-F'
'-U' 'clear'
)
[[ ! "${quiet}" == "y" ]] || mkfs_ext4_options+=('-q')
rm -f -- "${pacstrap_dir}.img"
E2FSPROGS_FAKE_TIME="${SOURCE_DATE_EPOCH}" mkfs.ext4 "${mkfs_ext4_options[@]}" -- "${pacstrap_dir}.img" 32G
tune2fs -c 0 -i 0 -- "${pacstrap_dir}.img" >/dev/null
_msg_info "Done!"
install -d -m 0755 -- "${isofs_dir}/${install_dir}/${arch}"
_msg_info "Creating SquashFS image, this may take some time..."
_run_mksquashfs "${pacstrap_dir}.img"
_msg_info "Done!"
rm -- "${pacstrap_dir}.img"
}
# Create a squashfs image containing the root file system and saves it on the ISO 9660 file system.
_mkairootfs_squashfs() {
[[ -e "${pacstrap_dir}" ]] || _msg_error "The path '${pacstrap_dir}' does not exist" 1
install -d -m 0755 -- "${isofs_dir}/${install_dir}/${arch}"
_msg_info "Creating SquashFS image, this may take some time..."
_run_mksquashfs "${pacstrap_dir}"
}
# Create an EROFS image containing the root file system and saves it on the ISO 9660 file system.
_mkairootfs_erofs() {
local fsuuid mkfs_erofs_options=()
[[ -e "${pacstrap_dir}" ]] || _msg_error "The path '${pacstrap_dir}' does not exist" 1
install -d -m 0755 -- "${isofs_dir}/${install_dir}/${arch}"
local image_path="${isofs_dir}/${install_dir}/${arch}/airootfs.erofs"
rm -f -- "${image_path}"
[[ ! "${quiet}" == "y" ]] || mkfs_erofs_options+=('--quiet')
# Generate reproducible file system UUID from SOURCE_DATE_EPOCH
fsuuid="$(uuidgen --sha1 --namespace 93a870ff-8565-4cf3-a67b-f47299271a96 --name "${SOURCE_DATE_EPOCH}")"
mkfs_erofs_options+=('-U' "${fsuuid}" "${airootfs_image_tool_options[@]}")
_msg_info "Creating EROFS image, this may take some time..."
mkfs.erofs "${mkfs_erofs_options[@]}" -- "${image_path}" "${pacstrap_dir}"
_msg_info "Done!"
}
# Create checksum file for the rootfs image.
_mkchecksum() {
_msg_info "Creating checksum file for self-test..."
cd -- "${isofs_dir}/${install_dir}/${arch}"
if [[ -e "${isofs_dir}/${install_dir}/${arch}/airootfs.sfs" ]]; then
sha512sum airootfs.sfs >airootfs.sha512
elif [[ -e "${isofs_dir}/${install_dir}/${arch}/airootfs.erofs" ]]; then
sha512sum airootfs.erofs >airootfs.sha512
fi
cd -- "${OLDPWD}"
_msg_info "Done!"
}
# GPG sign the root file system image.
_mk_pgp_signature() {
local gpg_options=()
local airootfs_image_filename="${1}"
_msg_info "Signing rootfs image using GPG..."
rm -f -- "${airootfs_image_filename}.sig"
# Add gpg sender option if the value is provided
[[ -z "${gpg_sender}" ]] || gpg_options+=('--sender' "${gpg_sender}")
# always use the .sig file extension, as that is what mkinitcpio-archiso's hooks expect
gpg --batch --no-armor --no-include-key-block --output "${airootfs_image_filename}.sig" --detach-sign \
--default-key "${gpg_key}" "${gpg_options[@]}" "${airootfs_image_filename}"
_msg_info "Done!"
}
# Helper function to run functions only one time.
# $1: function name
_run_once() {
if [[ ! -e "${work_dir}/${run_once_mode}.${1}" ]]; then
"$1"
touch "${work_dir}/${run_once_mode}.${1}"
fi
}
# Set up custom pacman.conf with custom cache and pacman hook directories.
_make_pacman_conf() {
local _cache_dirs _system_cache_dirs _profile_cache_dirs
_system_cache_dirs="$(pacman-conf CacheDir | tr '\n' ' ')"
_profile_cache_dirs="$(pacman-conf --config "${pacman_conf}" CacheDir | tr '\n' ' ')"
# Only use the profile's CacheDir, if it is not the default and not the same as the system cache dir.
if [[ "${_profile_cache_dirs}" != "/var/cache/pacman/pkg" ]] \
&& [[ "${_system_cache_dirs}" != "${_profile_cache_dirs}" ]]; then
_cache_dirs="${_profile_cache_dirs}"
else
_cache_dirs="${_system_cache_dirs}"
fi
_msg_info "Copying custom pacman.conf to work directory..."
_msg_info "Using pacman CacheDir: ${_cache_dirs}"
# take the profile pacman.conf and strip all settings that would break in chroot when using pacman -r
# append CacheDir and HookDir to [options] section
# HookDir is *always* set to the airootfs' override directory
# see `man 8 pacman` for further info
pacman-conf --config "${pacman_conf}" \
| sed "/CacheDir/d;/DBPath/d;/HookDir/d;/LogFile/d;/RootDir/d;/\[options\]/a CacheDir = ${_cache_dirs}
/\[options\]/a HookDir = ${pacstrap_dir}/etc/pacman.d/hooks/" >"${work_dir}/${buildmode}.pacman.conf"
}
# Prepare working directory and copy custom root file system files.
_make_custom_airootfs() {
local passwd=()
local filename permissions
install -d -m 0755 -o 0 -g 0 -- "${pacstrap_dir}"
if [[ -d "${profile}/airootfs" ]]; then
_msg_info "Copying custom airootfs files..."
cp -af --no-preserve=ownership,mode -- "${profile}/airootfs/." "${pacstrap_dir}"
# Set ownership and mode for files and directories
for filename in "${!file_permissions[@]}"; do
IFS=':' read -ra permissions <<<"${file_permissions["${filename}"]}"
# Prevent file path traversal outside of $pacstrap_dir
if [[ "$(realpath -q -- "${pacstrap_dir}${filename}")" != "${pacstrap_dir}"* ]]; then
_msg_error "Failed to set permissions on '${pacstrap_dir}${filename}'. Outside of valid path." 1
# Warn if the file does not exist
elif [[ ! -e "${pacstrap_dir}${filename}" ]]; then
_msg_warning "Cannot change permissions of '${pacstrap_dir}${filename}'. The file or directory does not exist."
else
if [[ "${filename: -1}" == "/" ]]; then
chown -fhR -- "${permissions[0]}:${permissions[1]}" "${pacstrap_dir}${filename}"
chmod -fR -- "${permissions[2]}" "${pacstrap_dir}${filename}"
else
chown -fh -- "${permissions[0]}:${permissions[1]}" "${pacstrap_dir}${filename}"
chmod -f -- "${permissions[2]}" "${pacstrap_dir}${filename}"
fi
fi
done
_msg_info "Done!"
fi
}
# Install desired packages to the root file system
_make_packages() {
_msg_info "Installing packages to '${pacstrap_dir}/'..."
if [[ -v gpg_publickey ]]; then
exec {ARCHISO_GNUPG_FD}<"$gpg_publickey"
export ARCHISO_GNUPG_FD
fi
if [[ -v cert_list[0] ]]; then
exec {ARCHISO_TLS_FD}<"${cert_list[0]}"
export ARCHISO_TLS_FD
fi
if [[ -v cert_list[2] ]]; then
exec {ARCHISO_TLSCA_FD}<"${cert_list[2]}"
export ARCHISO_TLSCA_FD
fi
# Unset TMPDIR to work around https://bugs.archlinux.org/task/70580
if [[ "${quiet}" = "y" ]]; then
env -u TMPDIR pacstrap -C "${work_dir}/${buildmode}.pacman.conf" -c -G -M -- "${pacstrap_dir}" "${buildmode_pkg_list[@]}" &>/dev/null
else
env -u TMPDIR pacstrap -C "${work_dir}/${buildmode}.pacman.conf" -c -G -M -- "${pacstrap_dir}" "${buildmode_pkg_list[@]}"
fi
if [[ -v cert_list[0] ]]; then
exec {ARCHISO_TLS_FD}<&-
unset ARCHISO_TLS_FD
fi
if [[ -v cert_list[2] ]]; then
exec {ARCHISO_TLSCA_FD}<&-
unset ARCHISO_TLSCA_FD
fi
if [[ -v gpg_publickey ]]; then
exec {ARCHISO_GNUPG_FD}<&-
unset ARCHISO_GNUPG_FD
fi
_msg_info "Done! Packages installed successfully."
}
# Customize installation.
_make_customize_airootfs() {
local passwd=()
if [[ -e "${profile}/airootfs/etc/passwd" ]]; then
_msg_info "Copying /etc/skel/* to user homes..."
while IFS=':' read -a passwd -r; do
# Only operate on UIDs in range 100059999
(( passwd[2] >= 1000 && passwd[2] < 60000 )) || continue
# Skip invalid home directories
[[ "${passwd[5]}" == '/' ]] && continue
[[ -z "${passwd[5]}" ]] && continue
# Prevent path traversal outside of $pacstrap_dir
if [[ "$(realpath -q -- "${pacstrap_dir}${passwd[5]}")" == "${pacstrap_dir}"* ]]; then
if [[ ! -d "${pacstrap_dir}${passwd[5]}" ]]; then
install -d -m 0750 -o "${passwd[2]}" -g "${passwd[3]}" -- "${pacstrap_dir}${passwd[5]}"
fi
cp -dRT --update=none --preserve=mode,timestamps,links -- "${pacstrap_dir}/etc/skel/." "${pacstrap_dir}${passwd[5]}"
chmod -f 0750 -- "${pacstrap_dir}${passwd[5]}"
chown -hR -- "${passwd[2]}:${passwd[3]}" "${pacstrap_dir}${passwd[5]}"
else
_msg_error "Failed to set permissions on '${pacstrap_dir}${passwd[5]}'. Outside of valid path." 1
fi
done <"${profile}/airootfs/etc/passwd"
_msg_info "Done!"
fi
if [[ -e "${pacstrap_dir}/root/customize_airootfs.sh" ]]; then
_msg_info "Running customize_airootfs.sh in '${pacstrap_dir}' chroot..."
_msg_warning "customize_airootfs.sh is deprecated! Support for it will be removed in a future archiso version."
chmod -f -- +x "${pacstrap_dir}/root/customize_airootfs.sh"
# Unset TMPDIR to work around https://bugs.archlinux.org/task/70580
eval -- env -u TMPDIR arch-chroot "${pacstrap_dir}" "/root/customize_airootfs.sh"
rm -- "${pacstrap_dir}/root/customize_airootfs.sh"
_msg_info "Done! customize_airootfs.sh run successfully."
fi
}
# Set up boot loaders
_make_bootmodes() {
local bootmode
for bootmode in "${bootmodes[@]}"; do
_run_once "_make_bootmode_${bootmode}"
done
if [[ "${bootmodes[*]}" != *grub* ]]; then
_run_once _make_common_grubenv_and_loopbackcfg
fi
}
# Copy kernel and initramfs to ISO 9660
_make_boot_on_iso9660() {
local ucode_image
_msg_info "Preparing kernel and initramfs for the ISO 9660 file system..."
install -d -m 0755 -- "${isofs_dir}/${install_dir}/boot/${arch}"
install -m 0644 -- "${pacstrap_dir}/boot/initramfs-"*".img" "${isofs_dir}/${install_dir}/boot/${arch}/"
install -m 0644 -- "${pacstrap_dir}/boot/vmlinuz-"* "${isofs_dir}/${install_dir}/boot/${arch}/"
for ucode_image in "${ucodes[@]}"; do
if [[ -e "${pacstrap_dir}/boot/${ucode_image}" ]]; then
install -m 0644 -- "${pacstrap_dir}/boot/${ucode_image}" "${isofs_dir}/${install_dir}/boot/"
if [[ -e "${pacstrap_dir}/usr/share/licenses/${ucode_image%.*}/" ]]; then
install -d -m 0755 -- "${isofs_dir}/${install_dir}/boot/licenses/${ucode_image%.*}/"
install -m 0644 -- "${pacstrap_dir}/usr/share/licenses/${ucode_image%.*}/"* \
"${isofs_dir}/${install_dir}/boot/licenses/${ucode_image%.*}/"
fi
fi
done
_msg_info "Done!"
}
# Prepare syslinux for booting from MBR (isohybrid)
_make_bootmode_bios.syslinux.mbr() {
_msg_info "Setting up SYSLINUX for BIOS booting from a disk..."
install -d -m 0755 -- "${isofs_dir}/boot/syslinux"
for _cfg in "${profile}/syslinux/"*.cfg; do
sed "s|%ARCHISO_LABEL%|${iso_label}|g;
s|%ARCHISO_UUID%|${iso_uuid}|g;
s|%INSTALL_DIR%|${install_dir}|g;
s|%ARCH%|${arch}|g" \
"${_cfg}" >"${isofs_dir}/boot/syslinux/${_cfg##*/}"
done
if [[ -e "${profile}/syslinux/splash.png" ]]; then
install -m 0644 -- "${profile}/syslinux/splash.png" "${isofs_dir}/boot/syslinux/"
fi
install -m 0644 -- "${pacstrap_dir}/usr/lib/syslinux/bios/"*.c32 "${isofs_dir}/boot/syslinux/"
install -m 0644 -- "${pacstrap_dir}/usr/lib/syslinux/bios/lpxelinux.0" "${isofs_dir}/boot/syslinux/"
install -m 0644 -- "${pacstrap_dir}/usr/lib/syslinux/bios/memdisk" "${isofs_dir}/boot/syslinux/"
_run_once _make_boot_on_iso9660
if [[ -e "${isofs_dir}/boot/syslinux/hdt.c32" ]]; then
install -d -m 0755 -- "${isofs_dir}/boot/syslinux/hdt"
if [[ -e "${pacstrap_dir}/usr/share/hwdata/pci.ids" ]]; then
gzip -cn9 "${pacstrap_dir}/usr/share/hwdata/pci.ids" > \
"${isofs_dir}/boot/syslinux/hdt/pciids.gz"
fi
find "${pacstrap_dir}/usr/lib/modules" -name 'modules.alias' -print -exec gzip -cn9 '{}' ';' -quit > \
"${isofs_dir}/boot/syslinux/hdt/modalias.gz"
fi
# Add other aditional/extra files to ${install_dir}/boot/
if [[ -e "${pacstrap_dir}/boot/memtest86+/memtest.bin" ]]; then
install -d -m 0755 -- "${isofs_dir}/boot/memtest86+/"
# rename for PXE: https://wiki.archlinux.org/title/Syslinux#Using_memtest
install -m 0644 -- "${pacstrap_dir}/boot/memtest86+/memtest.bin" "${isofs_dir}/boot/memtest86+/memtest"
install -m 0644 -- "${pacstrap_dir}/usr/share/licenses/spdx/GPL-2.0-only.txt" "${isofs_dir}/boot/memtest86+/LICENSE"
fi
_msg_info "Done! SYSLINUX set up for BIOS booting from a disk successfully."
}
# Prepare syslinux for El-Torito booting
_make_bootmode_bios.syslinux.eltorito() {
_msg_info "Setting up SYSLINUX for BIOS booting from an optical disc..."
install -d -m 0755 -- "${isofs_dir}/boot/syslinux"
install -m 0644 -- "${pacstrap_dir}/usr/lib/syslinux/bios/isolinux.bin" "${isofs_dir}/boot/syslinux/"
install -m 0644 -- "${pacstrap_dir}/usr/lib/syslinux/bios/isohdpfx.bin" "${isofs_dir}/boot/syslinux/"
# ISOLINUX and SYSLINUX installation is shared
_run_once _make_bootmode_bios.syslinux.mbr
_msg_info "Done! SYSLINUX set up for BIOS booting from an optical disc successfully."
}
# Copy kernel and initramfs to FAT image
_make_boot_on_fat() {
local ucode_image all_ucode_images=()
_msg_info "Preparing kernel and initramfs for the FAT file system..."
mmd -i "${efibootimg}" \
"::/${install_dir}" "::/${install_dir}/boot" "::/${install_dir}/boot/${arch}"
mcopy -i "${efibootimg}" "${pacstrap_dir}/boot/vmlinuz-"* \
"${pacstrap_dir}/boot/initramfs-"*".img" "::/${install_dir}/boot/${arch}/"
for ucode_image in "${ucodes[@]}"; do
if [[ -e "${pacstrap_dir}/boot/${ucode_image}" ]]; then
all_ucode_images+=("${pacstrap_dir}/boot/${ucode_image}")
fi
done
if (( ${#all_ucode_images[@]} )); then
mcopy -i "${efibootimg}" "${all_ucode_images[@]}" "::/${install_dir}/boot/"
fi
_msg_info "Done!"
}
# Create a FAT image (efiboot.img) which will serve as the EFI system partition
# $1: image size in bytes
_make_efibootimg() {
local imgsize_kib="0"
local imgsize_bytes=${1}
if (( imgsize_bytes < 2*1024*1024 )); then
_msg_info "Validating '${bootmode}': efiboot.img size is ${imgsize_bytes} bytes is less than 2 MiB! Bumping up to 2 MiB"
imgsize_bytes=$((2*1024*1024))
fi
# Convert from bytes to KiB and round up to the next full MiB with an additional MiB for reserved sectors.
imgsize_kib="$(
awk 'function ceil(x){return int(x)+(x>int(x))}
function byte_to_kib(x){return x/1024}
function mib_to_kib(x){return x*1024}
END {print mib_to_kib(ceil((byte_to_kib($1)+1024)/1024))}' <<<"${imgsize_bytes}"
)"
# The FAT image must be created with mkfs.fat not mformat, as some systems have issues with mformat made images:
# https://lists.gnu.org/archive/html/grub-devel/2019-04/msg00099.html
rm -f -- "${efibootimg}"
_msg_info "Creating FAT image of size: ${imgsize_kib} KiB..."
if [[ "${quiet}" == "y" ]]; then
# mkfs.fat does not have a -q/--quiet option, so redirect stdout to /dev/null instead
# https://github.com/dosfstools/dosfstools/issues/103
mkfs.fat -C -n ARCHISO_EFI "${efibootimg}" "${imgsize_kib}" >/dev/null
else
mkfs.fat -C -n ARCHISO_EFI "${efibootimg}" "${imgsize_kib}"
fi
# Create the default/fallback boot path in which a boot loaders will be placed later.
mmd -i "${efibootimg}" ::/EFI ::/EFI/BOOT
}
# Copy GRUB files to ISO 9660 which is used by both IA32 UEFI and x64 UEFI
_make_common_bootmode_grub_copy_to_isofs() {
local files_to_copy=()
files_to_copy+=("${work_dir}/grub/"*)
if compgen -G "${profile}/grub/!(*.cfg)" &>/dev/null; then
files_to_copy+=("${profile}/grub/"!(*.cfg))
fi
install -d -m 0755 -- "${isofs_dir}/boot/grub"
cp -r --remove-destination -- "${files_to_copy[@]}" "${isofs_dir}/boot/grub/"
}
# Prepare GRUB configuration files
_make_common_bootmode_grub_cfg() {
local _cfg search_filename
install -d -- "${work_dir}/grub"
# Create a /boot/grub/YYYY-mm-dd-HH-MM-SS-00.uuid file on ISO 9660. GRUB will search for it to find the ISO
# volume. This is similar to what grub-mkrescue does, except it places the file in /.disk/, but we opt to use a
# directory that does not start with a dot to avoid it being accidentally missed when copying the ISO's contents.
: >"${work_dir}/grub/${iso_uuid}.uuid"
search_filename="/boot/grub/${iso_uuid}.uuid"
# Fill GRUB configuration files
for _cfg in "${profile}/grub/"*'.cfg'; do
sed "s|%ARCHISO_LABEL%|${iso_label}|g;
s|%ARCHISO_UUID%|${iso_uuid}|g;
s|%INSTALL_DIR%|${install_dir}|g;
s|%ARCH%|${arch}|g;
s|%ARCHISO_SEARCH_FILENAME%|${search_filename}|g" \
"${_cfg}" >"${work_dir}/grub/${_cfg##*/}"
done
# Prepare grub.cfg that will be embedded inside the GRUB binaries
IFS='' read -r -d '' grubembedcfg <<'EOF' || true
if ! [ -d "$cmdpath" ]; then
# On some firmware, GRUB has a wrong cmdpath when booted from an optical disc. During El Torito boot, GRUB is
# launched from a case-insensitive FAT-formatted EFI system partition, but it seemingly cannot access that partition
# and sets cmdpath to the whole cd# device which has case-sensitive ISO 9660 + Rock Ridge + Joliet file systems.
# See https://gitlab.archlinux.org/archlinux/archiso/-/issues/183 and https://savannah.gnu.org/bugs/?62886
if regexp --set=1:archiso_bootdevice '^\(([^)]+)\)\/?[Ee][Ff][Ii]\/[Bb][Oo][Oo][Tt]\/?$' "${cmdpath}"; then
set cmdpath="(${archiso_bootdevice})/EFI/BOOT"
set ARCHISO_HINT="${archiso_bootdevice}"
fi
fi
# Prepare a hint for the search command using the device in cmdpath
if [ -z "${ARCHISO_HINT}" ]; then
regexp --set=1:ARCHISO_HINT '^\(([^)]+)\)' "${cmdpath}"
fi
# Search for the ISO volume
if search --no-floppy --set=archiso_device --file '%ARCHISO_SEARCH_FILENAME%' --hint "${ARCHISO_HINT}"; then
set ARCHISO_HINT="${archiso_device}"
if probe --set ARCHISO_UUID --fs-uuid "${ARCHISO_HINT}"; then
export ARCHISO_UUID
fi
else
echo "Could not find a volume with a '%ARCHISO_SEARCH_FILENAME%' file on it!"
fi
# Load grub.cfg
if [ "${ARCHISO_HINT}" == 'memdisk' -o -z "${ARCHISO_HINT}" ]; then
echo 'Could not find the ISO volume!'
elif [ -e "(${ARCHISO_HINT})/boot/grub/grub.cfg" ]; then
export ARCHISO_HINT
set root="${ARCHISO_HINT}"
configfile "(${ARCHISO_HINT})/boot/grub/grub.cfg"
else
echo "File '(${ARCHISO_HINT})/boot/grub/grub.cfg' not found!"
fi
EOF
grubembedcfg="${grubembedcfg//'%ARCHISO_SEARCH_FILENAME%'/"${search_filename}"}"
printf '%s\n' "$grubembedcfg" >"${work_dir}/grub-embed.cfg"
# Write grubenv
printf '%.1024s' \
"$(printf '# GRUB Environment Block\nNAME=%s\nVERSION=%s\nARCHISO_LABEL=%s\nINSTALL_DIR=%s\nARCH=%s\nARCHISO_SEARCH_FILENAME=%s\n%s' \
"${iso_name}" \
"${iso_version}" \
"${iso_label}" \
"${install_dir}" \
"${arch}" \
"${search_filename}" \
"$(printf '%0.1s' "#"{1..1024})")" \
>"${work_dir}/grub/grubenv"
}
# Create GRUB specific configuration files when GRUB is not used as a boot loader
_make_common_grubenv_and_loopbackcfg() {
local search_filename
install -d -m 0755 -- "${isofs_dir}/boot/grub"
# Create a /boot/grub/YYYY-mm-dd-HH-MM-SS-00.uuid file on ISO 9660. GRUB will search for it to find the ISO
# volume. This is similar to what grub-mkrescue does, except it places the file in /.disk/, but we opt to use a
# directory that does not start with a dot to avoid it being accidentally missed when copying the ISO's contents.
search_filename="/boot/grub/${iso_uuid}.uuid"
: >"${isofs_dir}/${search_filename}"
# Write grubenv
printf '%.1024s' \
"$(printf '# GRUB Environment Block\nNAME=%s\nVERSION=%s\nARCHISO_LABEL=%s\nINSTALL_DIR=%s\nARCH=%s\nARCHISO_SEARCH_FILENAME=%s\n%s' \
"${iso_name}" \
"${iso_version}" \
"${iso_label}" \
"${install_dir}" \
"${arch}" \
"${search_filename}" \
"$(printf '%0.1s' "#"{1..1024})")" \
>"${isofs_dir}/boot/grub/grubenv"
# Copy loopback.cfg to /boot/grub/ on ISO 9660
if [[ -e "${profile}/grub/loopback.cfg" ]]; then
sed "s|%ARCHISO_LABEL%|${iso_label}|g;
s|%ARCHISO_UUID%|${iso_uuid}|g;
s|%INSTALL_DIR%|${install_dir}|g;
s|%ARCH%|${arch}|g;
s|%ARCHISO_SEARCH_FILENAME%|${search_filename}|g" \
"${profile}/grub/loopback.cfg" >"${isofs_dir}/boot/grub/loopback.cfg"
fi
}
_make_bootmode_uefi-ia32.grub.esp() {
local grubmodules=()
# Prepare configuration files
_run_once _make_common_bootmode_grub_cfg
# Create EFI binary
# Module list from https://bugs.archlinux.org/task/71382#comment202911
grubmodules=(all_video at_keyboard boot btrfs cat chain configfile echo efifwsetup efinet exfat ext2 f2fs fat font \
gfxmenu gfxterm gzio halt hfsplus iso9660 jpeg keylayouts linux loadenv loopback lsefi lsefimmap \
minicmd normal ntfs ntfscomp part_apple part_gpt part_msdos png read reboot regexp search \
search_fs_file search_fs_uuid search_label serial sleep tpm udf usb usbserial_common usbserial_ftdi \
usbserial_pl2303 usbserial_usbdebug video xfs zstd)
grub-mkstandalone -O i386-efi \
--modules="${grubmodules[*]}" \
--locales="en@quot" \
--themes="" \
--sbat=/usr/share/grub/sbat.csv \
--disable-shim-lock \
-o "${work_dir}/BOOTIA32.EFI" "boot/grub/grub.cfg=${work_dir}/grub-embed.cfg"
# Add GRUB to the list of files used to calculate the required FAT image size.
efiboot_files+=("${work_dir}/BOOTIA32.EFI"
"${pacstrap_dir}/usr/share/edk2-shell/ia32/Shell_Full.efi")
if [[ " ${bootmodes[*]} " =~ uefi-x64.systemd-boot.esp ]]; then
# TODO: Remove this branch.
_run_once _make_bootmode_uefi-x64.systemd-boot.esp
elif [[ " ${bootmodes[*]} " =~ uefi-x64.grub.esp ]]; then
_run_once _make_bootmode_uefi-x64.grub.esp
else
efiboot_imgsize="$(du -bcs -- "${efiboot_files[@]}" 2>/dev/null | awk 'END { print $1 }')"
# Create a FAT image for the EFI system partition
_make_efibootimg "$efiboot_imgsize"
fi
# Copy GRUB EFI binary to the default/fallback boot path
mcopy -i "${efibootimg}" "${work_dir}/BOOTIA32.EFI" ::/EFI/BOOT/BOOTIA32.EFI
# Copy GRUB files
_run_once _make_common_bootmode_grub_copy_to_isofs
if [[ -e "${pacstrap_dir}/usr/share/edk2-shell/ia32/Shell_Full.efi" ]]; then
mcopy -i "${efibootimg}" "${pacstrap_dir}/usr/share/edk2-shell/ia32/Shell_Full.efi" ::/shellia32.efi
fi
_msg_info "Done! GRUB set up for UEFI booting successfully."
}
# Prepare GRUB for El Torito booting
_make_bootmode_uefi-ia32.grub.eltorito() {
# El Torito UEFI boot requires an image containing the EFI system partition.
# uefi-ia32.grub.eltorito has the same requirements as uefi-ia32.grub.esp
_run_once _make_bootmode_uefi-ia32.grub.esp
# Prepare configuration files
_run_once _make_common_bootmode_grub_cfg
# Additionally set up systemd-boot in ISO 9660. This allows creating a medium for the live environment by using
# manual partitioning and simply copying the ISO 9660 file system contents.
# This is not related to El Torito booting and no firmware uses these files.
_msg_info "Preparing an /EFI directory for the ISO 9660 file system..."
install -d -m 0755 -- "${isofs_dir}/EFI/BOOT"
# Copy GRUB EFI binary to the default/fallback boot path
install -m 0644 -- "${work_dir}/BOOTIA32.EFI" "${isofs_dir}/EFI/BOOT/BOOTIA32.EFI"
# Copy GRUB configuration files
_run_once _make_common_bootmode_grub_copy_to_isofs
# edk2-shell based UEFI shell
if [[ -e "${pacstrap_dir}/usr/share/edk2-shell/ia32/Shell_Full.efi" ]]; then
install -m 0644 -- "${pacstrap_dir}/usr/share/edk2-shell/ia32/Shell_Full.efi" "${isofs_dir}/shellia32.efi"
fi
_msg_info "Done!"
}
_make_bootmode_uefi-x64.grub.esp() {
local grubmodules=()
# Prepare configuration files
_run_once _make_common_bootmode_grub_cfg
# Create EFI binary
# Module list from https://bugs.archlinux.org/task/71382#comment202911
grubmodules=(all_video at_keyboard boot btrfs cat chain configfile echo efifwsetup efinet exfat ext2 f2fs fat font \
gfxmenu gfxterm gzio halt hfsplus iso9660 jpeg keylayouts linux loadenv loopback lsefi lsefimmap \
minicmd normal ntfs ntfscomp part_apple part_gpt part_msdos png read reboot regexp search \
search_fs_file search_fs_uuid search_label serial sleep tpm udf usb usbserial_common usbserial_ftdi \
usbserial_pl2303 usbserial_usbdebug video xfs zstd)
grub-mkstandalone -O x86_64-efi \
--modules="${grubmodules[*]}" \
--locales="en@quot" \
--themes="" \
--sbat=/usr/share/grub/sbat.csv \
--disable-shim-lock \
-o "${work_dir}/BOOTx64.EFI" "boot/grub/grub.cfg=${work_dir}/grub-embed.cfg"
# Add GRUB to the list of files used to calculate the required FAT image size.
efiboot_files+=("${work_dir}/BOOTx64.EFI"
"${pacstrap_dir}/usr/share/edk2-shell/x64/Shell_Full.efi")
efiboot_imgsize="$(du -bcs -- "${efiboot_files[@]}" 2>/dev/null | awk 'END { print $1 }')"
# Create a FAT image for the EFI system partition
_make_efibootimg "$efiboot_imgsize"
# Copy GRUB EFI binary to the default/fallback boot path
mcopy -i "${efibootimg}" "${work_dir}/BOOTx64.EFI" ::/EFI/BOOT/BOOTx64.EFI
# Copy GRUB files
_run_once _make_common_bootmode_grub_copy_to_isofs
if [[ -e "${pacstrap_dir}/usr/share/edk2-shell/x64/Shell_Full.efi" ]]; then
mcopy -i "${efibootimg}" "${pacstrap_dir}/usr/share/edk2-shell/x64/Shell_Full.efi" ::/shellx64.efi
fi
# Add other aditional/extra files to ${install_dir}/boot/
if [[ -e "${pacstrap_dir}/boot/memtest86+/memtest.efi" ]]; then
install -d -m 0755 -- "${isofs_dir}/boot/memtest86+/"
install -m 0644 -- "${pacstrap_dir}/boot/memtest86+/memtest.efi" "${isofs_dir}/boot/memtest86+/memtest.efi"
install -m 0644 -- "${pacstrap_dir}/usr/share/licenses/spdx/GPL-2.0-only.txt" "${isofs_dir}/boot/memtest86+/LICENSE"
fi
_msg_info "Done! GRUB set up for UEFI booting successfully."
}
# Prepare GRUB for El Torito booting
_make_bootmode_uefi-x64.grub.eltorito() {
# El Torito UEFI boot requires an image containing the EFI system partition.
# uefi-x64.grub.eltorito has the same requirements as uefi-x64.grub.esp
_run_once _make_bootmode_uefi-x64.grub.esp
# Prepare configuration files
_run_once _make_common_bootmode_grub_cfg
# Additionally set up systemd-boot in ISO 9660. This allows creating a medium for the live environment by using
# manual partitioning and simply copying the ISO 9660 file system contents.
# This is not related to El Torito booting and no firmware uses these files.
_msg_info "Preparing an /EFI directory for the ISO 9660 file system..."
install -d -m 0755 -- "${isofs_dir}/EFI/BOOT"
# Copy GRUB EFI binary to the default/fallback boot path
install -m 0644 -- "${work_dir}/BOOTx64.EFI" "${isofs_dir}/EFI/BOOT/BOOTx64.EFI"
# Copy GRUB files
_run_once _make_common_bootmode_grub_copy_to_isofs
# edk2-shell based UEFI shell
if [[ -e "${pacstrap_dir}/usr/share/edk2-shell/x64/Shell_Full.efi" ]]; then
install -m 0644 -- "${pacstrap_dir}/usr/share/edk2-shell/x64/Shell_Full.efi" "${isofs_dir}/shellx64.efi"
fi
_msg_info "Done!"
}
_make_common_bootmode_systemd-boot() {
local _file efiboot_imgsize
local _available_ucodes=()
for _file in "${ucodes[@]}"; do
if [[ -e "${pacstrap_dir}/boot/${_file}" ]]; then
_available_ucodes+=("${pacstrap_dir}/boot/${_file}")
fi
done
# Calculate the required FAT image size in bytes
# shellcheck disable=SC2076
if [[ " ${bootmodes[*]} " =~ ' uefi-x64.systemd-boot.esp ' || " ${bootmodes[*]} " =~ ' uefi-x64.systemd-boot.eltorito ' ]]; then
efiboot_files+=("${pacstrap_dir}/usr/lib/systemd/boot/efi/systemd-bootx64.efi"
"${pacstrap_dir}/usr/share/edk2-shell/x64/Shell_Full.efi")
fi
# shellcheck disable=SC2076
if [[ " ${bootmodes[*]} " =~ ' uefi-ia32.systemd-boot.esp ' || " ${bootmodes[*]} " =~ ' uefi-ia32.systemd-boot.eltorito ' ]]; then
efiboot_files+=("${pacstrap_dir}/usr/lib/systemd/boot/efi/systemd-bootia32.efi"
"${pacstrap_dir}/usr/share/edk2-shell/ia32/Shell_Full.efi")
fi
efiboot_files+=("${work_dir}/loader/"
"${pacstrap_dir}/boot/vmlinuz-"*
"${pacstrap_dir}/boot/initramfs-"*".img"
"${_available_ucodes[@]}")
efiboot_imgsize="$(du -bcs -- "${efiboot_files[@]}" 2>/dev/null | awk 'END { print $1 }')"
# Create a FAT image for the EFI system partition
_make_efibootimg "$efiboot_imgsize"
}
_make_common_bootmode_systemd-boot_conf() {
local _conf
install -d -m 0755 -- "${work_dir}/loader" "${work_dir}/loader/entries"
install -m 0644 -- "${profile}/efiboot/loader/loader.conf" "${work_dir}/loader"
for _conf in "${profile}/efiboot/loader/entries/"*".conf"; do
sed "s|%ARCHISO_LABEL%|${iso_label}|g;
s|%ARCHISO_UUID%|${iso_uuid}|g;
s|%INSTALL_DIR%|${install_dir}|g;
s|%ARCH%|${arch}|g" \
"${_conf}" >"${work_dir}/loader/entries/${_conf##*/}"
done
}
# Copy systemd-boot configuration files to ISO 9660
_make_common_bootmode_systemd-boot_conf.isofs() {
cp -r --remove-destination -- "${work_dir}/loader" "${isofs_dir}/"
}
# Copy systemd-boot configuration files to FAT image
_make_common_bootmode_systemd-boot_conf.esp() {
mcopy -i "${efibootimg}" -s "${work_dir}/loader" ::/
}
# Prepare systemd-boot for booting when written to a disk (isohybrid)
_make_bootmode_uefi-x64.systemd-boot.esp() {
_msg_info "Setting up systemd-boot for x64 UEFI booting..."
# Prepare configuration files
_run_once _make_common_bootmode_systemd-boot_conf
# Prepare a FAT image for the EFI system partition
_run_once _make_common_bootmode_systemd-boot
# Copy systemd-boot EFI binary to the default/fallback boot path
mcopy -i "${efibootimg}" \
"${pacstrap_dir}/usr/lib/systemd/boot/efi/systemd-bootx64.efi" ::/EFI/BOOT/BOOTx64.EFI
# Copy systemd-boot configuration files
_run_once _make_common_bootmode_systemd-boot_conf.esp
# shellx64.efi is picked up automatically when on /
if [[ -e "${pacstrap_dir}/usr/share/edk2-shell/x64/Shell_Full.efi" ]]; then
mcopy -i "${efibootimg}" \
"${pacstrap_dir}/usr/share/edk2-shell/x64/Shell_Full.efi" ::/shellx64.efi
fi
# Copy kernel and initramfs to FAT image.
# systemd-boot can only access files from the EFI system partition it was launched from.
_run_once _make_boot_on_fat
_msg_info "Done! systemd-boot set up for x64 UEFI booting successfully."
}
# Prepare systemd-boot for El Torito booting
_make_bootmode_uefi-x64.systemd-boot.eltorito() {
# Prepare configuration files
_run_once _make_common_bootmode_systemd-boot_conf
# El Torito UEFI boot requires an image containing the EFI system partition.
# uefi-x64.systemd-boot.eltorito has the same requirements as uefi-x64.systemd-boot.esp
_run_once _make_bootmode_uefi-x64.systemd-boot.esp
# Additionally set up systemd-boot in ISO 9660. This allows creating a medium for the live environment by using
# manual partitioning and simply copying the ISO 9660 file system contents.
# This is not related to El Torito booting and no firmware uses these files.
_msg_info "Preparing an /EFI directory for the ISO 9660 file system..."
install -d -m 0755 -- "${isofs_dir}/EFI/BOOT"
# Copy systemd-boot EFI binary to the default/fallback boot path
install -m 0644 -- "${pacstrap_dir}/usr/lib/systemd/boot/efi/systemd-bootx64.efi" \
"${isofs_dir}/EFI/BOOT/BOOTx64.EFI"
# Copy systemd-boot configuration files
_run_once _make_common_bootmode_systemd-boot_conf.isofs
# edk2-shell based UEFI shell
# shellx64.efi is picked up automatically when on /
if [[ -e "${pacstrap_dir}/usr/share/edk2-shell/x64/Shell_Full.efi" ]]; then
install -m 0644 -- "${pacstrap_dir}/usr/share/edk2-shell/x64/Shell_Full.efi" "${isofs_dir}/shellx64.efi"
fi
_msg_info "Done!"
}
_make_bootmode_uefi-ia32.systemd-boot.esp() {
_msg_info "Setting up systemd-boot for IA32 UEFI booting..."
# Prepare configuration files
_run_once _make_common_bootmode_systemd-boot_conf
# Prepare a FAT image for the EFI system partition
_run_once _make_common_bootmode_systemd-boot
# Copy systemd-boot EFI binary to the default/fallback boot path
mcopy -i "${efibootimg}" \
"${pacstrap_dir}/usr/lib/systemd/boot/efi/systemd-bootia32.efi" ::/EFI/BOOT/BOOTIA32.EFI
# Copy systemd-boot configuration files
_run_once _make_common_bootmode_systemd-boot_conf.esp
# shellia32.efi is picked up automatically when on /
if [[ -e "${pacstrap_dir}/usr/share/edk2-shell/ia32/Shell_Full.efi" ]]; then
mcopy -i "${efibootimg}" \
"${pacstrap_dir}/usr/share/edk2-shell/ia32/Shell_Full.efi" ::/shellia32.efi
fi
# Copy kernel and initramfs to FAT image.
# systemd-boot can only access files from the EFI system partition it was launched from.
_run_once _make_boot_on_fat
_msg_info "Done! systemd-boot set up for IA32 UEFI booting successfully."
}
_make_bootmode_uefi-ia32.systemd-boot.eltorito() {
# Prepare configuration files
_run_once _make_common_bootmode_systemd-boot_conf
# El Torito UEFI boot requires an image containing the EFI system partition.
# uefi-ia32.systemd-boot.eltorito has the same requirements as uefi-ia32.systemd-boot.esp
_run_once _make_bootmode_uefi-ia32.systemd-boot.esp
# Additionally set up systemd-boot in ISO 9660. This allows creating a medium for the live environment by using
# manual partitioning and simply copying the ISO 9660 file system contents.
# This is not related to El Torito booting and no firmware uses these files.
_msg_info "Preparing an /EFI directory for the ISO 9660 file system..."
install -d -m 0755 -- "${isofs_dir}/EFI/BOOT"
# Copy systemd-boot EFI binary to the default/fallback boot path
install -m 0644 -- "${pacstrap_dir}/usr/lib/systemd/boot/efi/systemd-bootia32.efi" \
"${isofs_dir}/EFI/BOOT/BOOTIA32.EFI"
# Copy systemd-boot configuration files
_run_once _make_common_bootmode_systemd-boot_conf.isofs
# edk2-shell based UEFI shell
# shellia32.efi is picked up automatically when on /
if [[ -e "${pacstrap_dir}/usr/share/edk2-shell/ia32/Shell_Full.efi" ]]; then
install -m 0644 -- "${pacstrap_dir}/usr/share/edk2-shell/ia32/Shell_Full.efi" "${isofs_dir}/shellia32.efi"
fi
_msg_info "Done!"
}
_validate_requirements_bootmode_bios.syslinux.mbr() {
# bios.syslinux.mbr requires bios.syslinux.eltorito
# shellcheck disable=SC2076
if [[ ! " ${bootmodes[*]} " =~ ' bios.syslinux.eltorito ' ]]; then
(( validation_error=validation_error+1 ))
_msg_error "Using 'bios.syslinux.mbr' boot mode without 'bios.syslinux.eltorito' is not supported." 0
fi
# Check if the syslinux package is in the package list
# shellcheck disable=SC2076
if [[ ! " ${pkg_list[*]} " =~ ' syslinux ' ]]; then
(( validation_error=validation_error+1 ))
_msg_error "Validating '${bootmode}': The 'syslinux' package is missing from the package list!" 0
fi
# Check if syslinux configuration files exist
if [[ ! -d "${profile}/syslinux" ]]; then
(( validation_error=validation_error+1 ))
_msg_error "Validating '${bootmode}': The '${profile}/syslinux' directory is missing!" 0
else
local cfgfile
for cfgfile in "${profile}/syslinux/"*'.cfg'; do
if [[ -e "${cfgfile}" ]]; then
break
else
(( validation_error=validation_error+1 ))
_msg_error "Validating '${bootmode}': No configuration file found in '${profile}/syslinux/'!" 0
fi
done
fi
# Check for optional packages
# shellcheck disable=SC2076
if [[ ! " ${pkg_list[*]} " =~ ' memtest86+ ' ]]; then
_msg_info "Validating '${bootmode}': 'memtest86+' is not in the package list. Memmory testing will not be available from syslinux."
fi
}
_validate_requirements_bootmode_bios.syslinux.eltorito() {
# bios.syslinux.eltorito has the exact same requirements as bios.syslinux.mbr
_validate_requirements_bootmode_bios.syslinux.mbr
}
_validate_requirements_common_systemd-boot() {
# Check if mkfs.fat is available
if ! command -v mkfs.fat &>/dev/null; then
(( validation_error=validation_error+1 ))
_msg_error "Validating '${bootmode}': mkfs.fat is not available on this host. Install 'dosfstools'!" 0
fi
# Check if mmd and mcopy are available
if ! { command -v mmd &>/dev/null && command -v mcopy &>/dev/null; }; then
(( validation_error=validation_error+1 ))
_msg_error "Validating '${bootmode}': mmd and/or mcopy are not available on this host. Install 'mtools'!" 0
fi
# Check if systemd-boot configuration files exist
if [[ ! -d "${profile}/efiboot/loader/entries" ]]; then
(( validation_error=validation_error+1 ))
_msg_error "Validating '${bootmode}': The '${profile}/efiboot/loader/entries' directory is missing!" 0
else
if [[ ! -e "${profile}/efiboot/loader/loader.conf" ]]; then
(( validation_error=validation_error+1 ))
_msg_error "Validating '${bootmode}': File '${profile}/efiboot/loader/loader.conf' not found!" 0
fi
local conffile
for conffile in "${profile}/efiboot/loader/entries/"*'.conf'; do
if [[ -e "${conffile}" ]]; then
break
else
(( validation_error=validation_error+1 ))
_msg_error "Validating '${bootmode}': No configuration file found in '${profile}/efiboot/loader/entries/'!" 0
fi
done
fi
# Check for optional packages
# shellcheck disable=SC2076
if [[ ! " ${pkg_list[*]} " =~ ' edk2-shell ' ]]; then
_msg_info "'edk2-shell' is not in the package list. The ISO will not contain a bootable UEFI shell."
fi
}
_validate_requirements_bootmode_uefi-x64.systemd-boot.esp() {
# shellcheck disable=SC2076
if [[ " ${bootmodes[*]} " =~ ' uefi-x64.grub.esp ' ]]; then
_msg_error "Validating '${bootmode}': cannot be used with bootmode uefi-x64.grub.esp!" 0
fi
_validate_requirements_common_systemd-boot
}
_validate_requirements_bootmode_uefi-x64.systemd-boot.eltorito() {
# shellcheck disable=SC2076
if [[ " ${bootmodes[*]} " =~ ' uefi-x64.grub.eltorito ' ]]; then
_msg_error "Validating '${bootmode}': cannot be used with bootmode uefi-x64.grub.eltorito!" 0
fi
# uefi-x64.systemd-boot.eltorito has the exact same requirements as uefi-x64.systemd-boot.esp
_validate_requirements_bootmode_uefi-x64.systemd-boot.esp
}
_validate_requirements_bootmode_uefi-ia32.systemd-boot.esp() {
# shellcheck disable=SC2076
if [[ " ${bootmodes[*]} " =~ ' uefi-ia32.grub.esp ' ]]; then
_msg_error "Validating '${bootmode}': cannot be used with bootmode uefi-ia32.grub.esp!" 0
fi
_validate_requirements_common_systemd-boot
}
_validate_requirements_bootmode_uefi-ia32.systemd-boot.eltorito() {
# shellcheck disable=SC2076
if [[ " ${bootmodes[*]} " =~ ' uefi-ia32.grub.eltorito ' ]]; then
_msg_error "Validating '${bootmode}': cannot be used with bootmode uefi-ia32.grub.eltorito!" 0
fi
# uefi-ia32.systemd-boot.eltorito has the exact same requirements as uefi-ia32.systemd-boot.esp
_validate_requirements_bootmode_uefi-x64.systemd-boot.esp
}
_validate_requirements_bootmode_uefi-ia32.grub.esp() {
# Check if GRUB is available
if ! command -v grub-mkstandalone &>/dev/null; then
(( validation_error=validation_error+1 ))
_msg_error "Validating '${bootmode}': grub-install is not available on this host. Install 'grub'!" 0
fi
# shellcheck disable=SC2076
if [[ " ${bootmodes[*]} " =~ ' uefi-x64.systemd-boot.esp ' ]]; then
_validate_requirements_bootmode_uefi-x64.systemd-boot.esp
elif [[ " ${bootmodes[*]} " =~ ' uefi-x64.grub.esp ' ]]; then
_validate_requirements_bootmode_uefi-x64.grub.esp
else
_msg_error "Validating '${bootmode}': requires one of bootmode uefi-x64.systemd-boot.esp or uefi-x64.grub.esp" 0
fi
}
_validate_requirements_bootmode_uefi-ia32.grub.eltorito() {
# uefi-ia32.grub.eltorito has the exact same requirements as uefi-ia32.grub.esp
_validate_requirements_bootmode_uefi-ia32.grub.esp
}
_validate_requirements_bootmode_uefi-x64.grub.esp() {
# shellcheck disable=SC2076
if [[ " ${bootmodes[*]} " =~ ' uefi-x64.systemd-boot.esp ' ]]; then
_msg_error "Validating '${bootmode}': cannot be used with bootmode uefi-x64.systemd-boot.esp!" 0
fi
# Check if GRUB is available
if ! command -v grub-mkstandalone &>/dev/null; then
(( validation_error=validation_error+1 ))
_msg_error "Validating '${bootmode}': grub-install is not available on this host. Install 'grub'!" 0
fi
# Check if mkfs.fat is available
if ! command -v mkfs.fat &>/dev/null; then
(( validation_error=validation_error+1 ))
_msg_error "Validating '${bootmode}': mkfs.fat is not available on this host. Install 'dosfstools'!" 0
fi
# Check if mmd and mcopy are available
if ! { command -v mmd &>/dev/null && command -v mcopy &>/dev/null; }; then
_msg_error "Validating '${bootmode}': mmd and/or mcopy are not available on this host. Install 'mtools'!" 0
fi
# Check if GRUB configuration files exist
if [[ ! -d "${profile}/grub" ]]; then
(( validation_error=validation_error+1 ))
_msg_error "Validating '${bootmode}': The '${profile}/grub' directory is missing!" 0
else
if [[ ! -e "${profile}/grub/grub.cfg" ]]; then
(( validation_error=validation_error+1 ))
_msg_error "Validating '${bootmode}': File '${profile}/grub/grub.cfg' not found!" 0
fi
local conffile
for conffile in "${profile}/grub/"*'.cfg'; do
if [[ -e "${conffile}" ]]; then
break
else
(( validation_error=validation_error+1 ))
_msg_error "Validating '${bootmode}': No configuration file found in '${profile}/grub/'!" 0
fi
done
fi
# Check for optional packages
# shellcheck disable=SC2076
if [[ ! " ${pkg_list[*]} " =~ ' edk2-shell ' ]]; then
_msg_info "'edk2-shell' is not in the package list. The ISO will not contain a bootable UEFI shell."
fi
# shellcheck disable=SC2076
if [[ ! " ${pkg_list[*]} " =~ ' memtest86+-efi ' ]]; then
_msg_info "Validating '${bootmode}': 'memtest86+-efi' is not in the package list. Memory testing will not be available from GRUB."
fi
}
_validate_requirements_bootmode_uefi-x64.grub.eltorito() {
# shellcheck disable=SC2076
if [[ " ${bootmodes[*]} " =~ ' uefi-x64.systemd-boot.eltorito ' ]]; then
_msg_error "Validating '${bootmode}': cannot be used with bootmode uefi-x64.systemd-boot.eltorito!" 0
fi
# uefi-x64.grub.eltorito has the exact same requirements as uefi-x64.grub.esp
_validate_requirements_bootmode_uefi-x64.grub.esp
}
# Build airootfs filesystem image
_prepare_airootfs_image() {
_run_once "_mkairootfs_${airootfs_image_type}"
_mkchecksum
if [[ -e "${isofs_dir}/${install_dir}/${arch}/airootfs.sfs" ]]; then
airootfs_image_filename="${isofs_dir}/${install_dir}/${arch}/airootfs.sfs"
elif [[ -e "${isofs_dir}/${install_dir}/${arch}/airootfs.erofs" ]]; then
airootfs_image_filename="${isofs_dir}/${install_dir}/${arch}/airootfs.erofs"
fi
if [[ -n "${gpg_key}" ]]; then
_mk_pgp_signature "${airootfs_image_filename}"
fi
if [[ -v cert_list ]]; then
_cms_sign_artifact "${airootfs_image_filename}"
fi
}
# export build artifacts for netboot
_export_netboot_artifacts() {
_msg_info "Exporting netboot artifacts..."
install -d -m 0755 "${out_dir}"
cp -a -- "${isofs_dir}/${install_dir}/" "${out_dir}/"
# Remove grubenv since it serves no purpose in netboot artifacts
rm -f -- "${out_dir}/${install_dir}/grubenv"
_msg_info "Done!"
du -hs -- "${out_dir}/${install_dir}"
}
_cms_sign_artifact() {
local artifact="${1}"
local openssl_flags=(
"-sign"
"-binary"
"-nocerts"
"-noattr"
"-outform" "DER" "-out" "${artifact}.cms.sig"
"-in" "${artifact}"
"-signer" "${cert_list[0]}"
"-inkey" "${cert_list[1]}"
)
if (( ${#cert_list[@]} > 2 )); then
openssl_flags+=("-certfile" "${cert_list[2]}")
fi
_msg_info "Signing ${artifact} image using openssl cms..."
rm -f -- "${artifact}.cms.sig"
openssl cms "${openssl_flags[@]}"
_msg_info "Done!"
}
# sign build artifacts for netboot
_sign_netboot_artifacts() {
local _file _dir
local _files_to_sign=()
_msg_info "Signing netboot artifacts..."
_dir="${isofs_dir}/${install_dir}/boot/"
for _file in "${ucodes[@]}"; do
if [[ -e "${_dir}${_file}" ]]; then
_files_to_sign+=("${_dir}${_file}")
fi
done
for _file in "${_files_to_sign[@]}" "${_dir}${arch}/vmlinuz-"!(*.sig) "${_dir}${arch}/initramfs-"*.img; do
rm -f -- "${_file}".ipxe.sig
openssl cms \
-sign \
-binary \
-noattr \
-in "${_file}" \
-signer "${cert_list[0]}" \
-inkey "${cert_list[1]}" \
-outform DER \
-out "${_file}".ipxe.sig
done
_msg_info "Done!"
}
_validate_requirements_airootfs_image_type_squashfs() {
if ! command -v mksquashfs &>/dev/null; then
(( validation_error=validation_error+1 ))
_msg_error "Validating '${airootfs_image_type}': mksquashfs is not available on this host. Install 'squashfs-tools'!" 0
fi
}
_validate_requirements_airootfs_image_type_ext4+squashfs() {
if ! { command -v mkfs.ext4 &>/dev/null && command -v tune2fs &>/dev/null; }; then
(( validation_error=validation_error+1 ))
_msg_error "Validating '${airootfs_image_type}': mkfs.ext4 and/or tune2fs is not available on this host. Install 'e2fsprogs'!" 0
fi
_validate_requirements_airootfs_image_type_squashfs
}
_validate_requirements_airootfs_image_type_erofs() {
if ! command -v mkfs.erofs &>/dev/null; then
(( validation_error=validation_error+1 ))
_msg_error "Validating '${airootfs_image_type}': mkfs.erofs is not available on this host. Install 'erofs-utils'!" 0
fi
}
_validate_common_requirements_buildmode_all() {
if ! command -v pacman &>/dev/null; then
(( validation_error=validation_error+1 ))
_msg_error "Validating build mode '${_buildmode}': pacman is not available on this host. Install 'pacman'!" 0
fi
if ! command -v find &>/dev/null; then
(( validation_error=validation_error+1 ))
_msg_error "Validating build mode '${_buildmode}': find is not available on this host. Install 'findutils'!" 0
fi
if ! command -v gzip &>/dev/null; then
(( validation_error=validation_error+1 ))
_msg_error "Validating build mode '${_buildmode}': gzip is not available on this host. Install 'gzip'!" 0
fi
}
_validate_requirements_buildmode_bootstrap() {
local bootstrap_pkg_list_from_file=()
# Check if packages for the bootstrap image are specified
if [[ -e "${bootstrap_packages}" ]]; then
mapfile -t bootstrap_pkg_list_from_file < \
<(sed '/^[[:blank:]]*#.*/d;s/#.*//;/^[[:blank:]]*$/d' "${bootstrap_packages}")
bootstrap_pkg_list+=("${bootstrap_pkg_list_from_file[@]}")
if (( ${#bootstrap_pkg_list_from_file[@]} < 1 )); then
(( validation_error=validation_error+1 ))
_msg_error "No package specified in '${bootstrap_packages}'." 0
fi
else
(( validation_error=validation_error+1 ))
_msg_error "Bootstrap packages file '${bootstrap_packages}' does not exist." 0
fi
_validate_common_requirements_buildmode_all
if ! command -v bsdtar &>/dev/null; then
(( validation_error=validation_error+1 ))
_msg_error "Validating build mode '${_buildmode}': bsdtar is not available on this host. Install 'libarchive'!" 0
fi
}
_validate_common_requirements_buildmode_iso_netboot() {
local bootmode
local pkg_list_from_file=()
# Check if the package list file exists and read packages from it
if [[ -e "${packages}" ]]; then
mapfile -t pkg_list_from_file < <(sed '/^[[:blank:]]*#.*/d;s/#.*//;/^[[:blank:]]*$/d' "${packages}")
pkg_list+=("${pkg_list_from_file[@]}")
if (( ${#pkg_list_from_file[@]} < 1 )); then
(( validation_error=validation_error+1 ))
_msg_error "No package specified in '${packages}'." 0
fi
else
(( validation_error=validation_error+1 ))
_msg_error "Packages file '${packages}' does not exist." 0
fi
if [[ -v cert_list ]]; then
# Check if the certificate files exist
for _cert in "${cert_list[@]}"; do
if [[ ! -e "${_cert}" ]]; then
(( validation_error=validation_error+1 ))
_msg_error "File '${_cert}' does not exist." 0
fi
done
# Check if there are at least three certificate files to sign netboot and rootfs.
if (( ${#cert_list[@]} < 2 )); then
(( validation_error=validation_error+1 ))
_msg_error "Two certificates are required for codesigning netboot artifacts, but '${cert_list[*]}' is provided." 0
fi
if ! command -v openssl &>/dev/null; then
(( validation_error=validation_error+1 ))
_msg_error "Validating build mode '${_buildmode}': openssl is not available on this host. Install 'openssl'!" 0
fi
fi
# Check if the specified airootfs_image_type is supported
if typeset -f "_mkairootfs_${airootfs_image_type}" &>/dev/null; then
if typeset -f "_validate_requirements_airootfs_image_type_${airootfs_image_type}" &>/dev/null; then
"_validate_requirements_airootfs_image_type_${airootfs_image_type}"
else
_msg_warning "Function '_validate_requirements_airootfs_image_type_${airootfs_image_type}' does not exist. Validating the requirements of '${airootfs_image_type}' airootfs image type will not be possible."
fi
else
(( validation_error=validation_error+1 ))
_msg_error "Unsupported image type: '${airootfs_image_type}'" 0
fi
}
_validate_requirements_buildmode_iso() {
_validate_common_requirements_buildmode_iso_netboot
_validate_common_requirements_buildmode_all
# Check if the specified bootmodes are supported
if (( ${#bootmodes[@]} < 1 )); then
(( validation_error=validation_error+1 ))
_msg_error "No boot modes specified in '${profile}/profiledef.sh'." 0
fi
for bootmode in "${bootmodes[@]}"; do
if typeset -f "_make_bootmode_${bootmode}" &>/dev/null; then
if typeset -f "_validate_requirements_bootmode_${bootmode}" &>/dev/null; then
"_validate_requirements_bootmode_${bootmode}"
else
_msg_warning "Function '_validate_requirements_bootmode_${bootmode}' does not exist. Validating the requirements of '${bootmode}' boot mode will not be possible."
fi
else
(( validation_error=validation_error+1 ))
_msg_error "${bootmode} is not a valid boot mode!" 0
fi
done
if ! command -v awk &>/dev/null; then
(( validation_error=validation_error+1 ))
_msg_error "Validating build mode '${_buildmode}': awk is not available on this host. Install 'awk'!" 0
fi
}
_validate_requirements_buildmode_netboot() {
_validate_common_requirements_buildmode_iso_netboot
_validate_common_requirements_buildmode_all
}
# SYSLINUX El Torito
_add_xorrisofs_options_bios.syslinux.eltorito() {
xorrisofs_options+=(
# El Torito boot image for x86 BIOS
'-eltorito-boot' 'boot/syslinux/isolinux.bin'
# El Torito boot catalog file
'-eltorito-catalog' 'boot/syslinux/boot.cat'
# Required options to boot with ISOLINUX
'-no-emul-boot' '-boot-load-size' '4' '-boot-info-table'
)
}
# SYSLINUX MBR (isohybrid)
_add_xorrisofs_options_bios.syslinux.mbr() {
xorrisofs_options+=(
# SYSLINUX MBR bootstrap code; does not work without "-eltorito-boot syslinux/isolinux.bin"
'-isohybrid-mbr' "${isofs_dir}/boot/syslinux/isohdpfx.bin"
# When GPT is used, create an additional partition in the MBR (besides 0xEE) for sectors 01 (MBR
# bootstrap code area) and mark it as bootable
# May allow booting on some systems
# https://wiki.archlinux.org/title/Partitioning#Tricking_old_BIOS_into_booting_from_GPT
'--mbr-force-bootable'
# Move the first partition away from the start of the ISO to match the expectations of partition editors
# May allow booting on some systems
# https://dev.lovelyhq.com/libburnia/libisoburn/src/branch/master/doc/partition_offset.wiki
'-partition_offset' '16'
)
}
# GRUB in an attached EFI system partition
_add_xorrisofs_options_uefi-ia32.grub.esp() {
# TODO: how does the bootmodes systemd-boot vs x64.grub affect ${bootmodes[*]} tests in _add_xorrisofs_options_uefi-x64.systemd-boot.esp etc?
# shellcheck disable=SC2076
if [[ ! " ${bootmodes[*]} " =~ ' uefi-x64.systemd-boot.esp ' && ! " ${bootmodes[*]} " =~ ' uefi-x64.grub.esp ' ]]; then
# _add_xorrisofs_options_uefi-x64.systemd-boot.esp
_add_xorrisofs_options_uefi-x64.grub.esp
fi
}
# GRUB via El Torito
_add_xorrisofs_options_uefi-ia32.grub.eltorito() {
# shellcheck disable=SC2076
if [[ ! " ${bootmodes[*]} " =~ ' uefi-x64.systemd-boot.eltorito ' && ! " ${bootmodes[*]} " =~ ' uefi-x64.grub.eltorito ' ]]; then
# _add_xorrisofs_options_uefi-x64.systemd-boot.eltorito
_add_xorrisofs_options_uefi-x64.grub.eltorito
fi
}
# systemd-boot in an attached EFI system partition
_add_xorrisofs_options_uefi-x64.systemd-boot.esp() {
# Move the first partition away from the start of the ISO, otherwise the GPT will not be valid and ISO 9660
# partition will not be mountable
# shellcheck disable=SC2076
[[ " ${xorrisofs_options[*]} " =~ ' -partition_offset ' ]] || xorrisofs_options+=('-partition_offset' '16')
# Attach efiboot.img as a second partition and set its partition type to "EFI system partition"
xorrisofs_options+=('-append_partition' '2' 'C12A7328-F81F-11D2-BA4B-00A0C93EC93B' "${efibootimg}")
# Ensure GPT is used as some systems do not support UEFI booting without it
# shellcheck disable=SC2076
if [[ " ${bootmodes[*]} " =~ ' bios.syslinux.mbr ' ]]; then
# A valid GPT prevents BIOS booting on some systems, instead use an invalid GPT (without a protective MBR).
# The attached partition will have the EFI system partition type code in MBR, but in the invalid GPT it will
# have a Microsoft basic partition type code.
if [[ ! " ${bootmodes[*]} " =~ ' uefi-x64.systemd-boot.eltorito ' && ! " ${bootmodes[*]} " =~ ' uefi-ia32.grub.eltorito ' ]]; then
# If '-isohybrid-gpt-basdat' is specified before '-e', then the appended EFI system partition will have the
# EFI system partition type ID/GUID in both MBR and GPT. If '-isohybrid-gpt-basdat' is specified after '-e',
# the appended EFI system partition will have the Microsoft basic data type GUID in GPT.
if [[ ! " ${xorrisofs_options[*]} " =~ ' -isohybrid-gpt-basdat ' ]]; then
xorrisofs_options+=('-isohybrid-gpt-basdat')
fi
fi
else
# Use valid GPT if BIOS booting support will not be required
xorrisofs_options+=('-appended_part_as_gpt')
fi
}
# systemd-boot via El Torito
_add_xorrisofs_options_uefi-x64.systemd-boot.eltorito() {
# shellcheck disable=SC2076
if [[ " ${bootmodes[*]} " =~ ' uefi-x64.systemd-boot.esp ' || " ${bootmodes[*]} " =~ ' uefi-ia32.grub.esp ' ]]; then
# systemd-boot in an attached EFI system partition via El Torito
xorrisofs_options+=(
# Start a new El Torito boot entry for UEFI
'-eltorito-alt-boot'
# Set the second partition as the El Torito UEFI boot image
'-e' '--interval:appended_partition_2:all::'
# Boot image is not emulating floppy or hard disk; required for all known boot loaders
'-no-emul-boot'
)
# A valid GPT prevents BIOS booting on some systems, use an invalid GPT instead.
if [[ " ${bootmodes[*]} " =~ ' bios.syslinux.mbr ' ]]; then
# If '-isohybrid-gpt-basdat' is specified before '-e', then the appended EFI system partition will have the
# EFI system partition type ID/GUID in both MBR and GPT. If '-isohybrid-gpt-basdat' is specified after '-e',
# the appended EFI system partition will have the Microsoft basic data type GUID in GPT.
if [[ ! " ${xorrisofs_options[*]} " =~ ' -isohybrid-gpt-basdat ' ]]; then
xorrisofs_options+=('-isohybrid-gpt-basdat')
fi
fi
else
# The ISO will not contain a GPT partition table, so to be able to reference efiboot.img, place it as a
# file inside the ISO 9660 file system
install -d -m 0755 -- "${isofs_dir}/EFI/archiso"
cp -a -- "${efibootimg}" "${isofs_dir}/EFI/archiso/efiboot.img"
# systemd-boot in an embedded efiboot.img via El Torito
xorrisofs_options+=(
# Start a new El Torito boot entry for UEFI
'-eltorito-alt-boot'
# Set efiboot.img as the El Torito UEFI boot image
'-e' 'EFI/archiso/efiboot.img'
# Boot image is not emulating floppy or hard disk; required for all known boot loaders
'-no-emul-boot'
)
fi
# Specify where to save the El Torito boot catalog file in case it is not already set by bios.syslinux.eltorito
# shellcheck disable=SC2076
[[ " ${bootmodes[*]} " =~ ' bios.' ]] || xorrisofs_options+=('-eltorito-catalog' 'EFI/boot.cat')
}
# GRUB in an attached EFI system partition.
# Same as _add_xorrisofs_options_uefi-x64.systemd-boot.esp.
_add_xorrisofs_options_uefi-x64.grub.esp() {
# Move the first partition away from the start of the ISO, otherwise the GPT will not be valid and ISO 9660
# partition will not be mountable
# shellcheck disable=SC2076
[[ " ${xorrisofs_options[*]} " =~ ' -partition_offset ' ]] || xorrisofs_options+=('-partition_offset' '16')
# Attach efiboot.img as a second partition and set its partition type to "EFI system partition"
xorrisofs_options+=('-append_partition' '2' 'C12A7328-F81F-11D2-BA4B-00A0C93EC93B' "${efibootimg}")
# Ensure GPT is used as some systems do not support UEFI booting without it
# shellcheck disable=SC2076
if [[ " ${bootmodes[*]} " =~ ' bios.syslinux.mbr ' ]]; then
# A valid GPT prevents BIOS booting on some systems, instead use an invalid GPT (without a protective MBR).
# The attached partition will have the EFI system partition type code in MBR, but in the invalid GPT it will
# have a Microsoft basic partition type code.
if [[ ! " ${bootmodes[*]} " =~ ' uefi-x64.grub.eltorito ' && ! " ${bootmodes[*]} " =~ ' uefi-ia32.grub.eltorito ' ]]; then
# If '-isohybrid-gpt-basdat' is specified before '-e', then the appended EFI system partition will have the
# EFI system partition type ID/GUID in both MBR and GPT. If '-isohybrid-gpt-basdat' is specified after '-e',
# the appended EFI system partition will have the Microsoft basic data type GUID in GPT.
if [[ ! " ${xorrisofs_options[*]} " =~ ' -isohybrid-gpt-basdat ' ]]; then
xorrisofs_options+=('-isohybrid-gpt-basdat')
fi
fi
else
# Use valid GPT if BIOS booting support will not be required
xorrisofs_options+=('-appended_part_as_gpt')
fi
}
# GRUB via El Torito
# Same as _add_xorrisofs_options_uefi-x64.systemd-boot.eltorito.
_add_xorrisofs_options_uefi-x64.grub.eltorito() {
# shellcheck disable=SC2076
if [[ " ${bootmodes[*]} " =~ ' uefi-x64.grub.esp ' || " ${bootmodes[*]} " =~ ' uefi-ia32.grub.esp ' ]]; then
# grub in an attached EFI system partition via El Torito
xorrisofs_options+=(
# Start a new El Torito boot entry for UEFI
'-eltorito-alt-boot'
# Set the second partition as the El Torito UEFI boot image
'-e' '--interval:appended_partition_2:all::'
# Boot image is not emulating floppy or hard disk; required for all known boot loaders
'-no-emul-boot'
)
# A valid GPT prevents BIOS booting on some systems, use an invalid GPT instead.
if [[ " ${bootmodes[*]} " =~ ' bios.syslinux.mbr ' ]]; then
# If '-isohybrid-gpt-basdat' is specified before '-e', then the appended EFI system partition will have the
# EFI system partition type ID/GUID in both MBR and GPT. If '-isohybrid-gpt-basdat' is specified after '-e',
# the appended EFI system partition will have the Microsoft basic data type GUID in GPT.
if [[ ! " ${xorrisofs_options[*]} " =~ ' -isohybrid-gpt-basdat ' ]]; then
xorrisofs_options+=('-isohybrid-gpt-basdat')
fi
fi
else
# The ISO will not contain a GPT partition table, so to be able to reference efiboot.img, place it as a
# file inside the ISO 9660 file system
install -d -m 0755 -- "${isofs_dir}/EFI/archiso"
cp -a -- "${efibootimg}" "${isofs_dir}/EFI/archiso/efiboot.img"
# grub in an embedded efiboot.img via El Torito
xorrisofs_options+=(
# Start a new El Torito boot entry for UEFI
'-eltorito-alt-boot'
# Set efiboot.img as the El Torito UEFI boot image
'-e' 'EFI/archiso/efiboot.img'
# Boot image is not emulating floppy or hard disk; required for all known boot loaders
'-no-emul-boot'
)
fi
# Specify where to save the El Torito boot catalog file in case it is not already set by bios.syslinux.eltorito
# shellcheck disable=SC2076
[[ " ${bootmodes[*]} " =~ ' bios.' ]] || xorrisofs_options+=('-eltorito-catalog' 'EFI/boot.cat')
}
# Build bootstrap image
_build_bootstrap_image() {
local _bootstrap_parent
_bootstrap_parent="$(dirname -- "${pacstrap_dir}")"
[[ -d "${out_dir}" ]] || install -d -- "${out_dir}"
cd -- "${_bootstrap_parent}"
_msg_info "Creating bootstrap image..."
bsdtar -cf - "root.${arch}" | gzip -cn9 >"${out_dir}/${image_name}"
_msg_info "Done!"
du -h -- "${out_dir}/${image_name}"
cd -- "${OLDPWD}"
}
# Build ISO
_build_iso_image() {
local xorriso_options=() xorrisofs_options=()
local bootmode
[[ -d "${out_dir}" ]] || install -d -- "${out_dir}"
# Do not read xorriso startup files to prevent interference and unintended behavior.
# For it to work, -no_rc must be the first argument passed to xorriso.
xorriso_options=('-no_rc')
if [[ "${quiet}" == "y" ]]; then
# The when xorriso is run in mkisofs compatibility mode (xorrisofs), the mkisofs option -quiet is interpreted
# too late (e.g. messages about SOURCE_DATE_EPOCH still get shown).
# Instead use native xorriso option to silence the output.
xorriso_options+=('-report_about' 'SORRY')
fi
# Add required xorrisofs options for each boot mode
for bootmode in "${bootmodes[@]}"; do
typeset -f "_add_xorrisofs_options_${bootmode}" &>/dev/null && "_add_xorrisofs_options_${bootmode}"
done
rm -f -- "${out_dir}/${image_name}"
_msg_info "Creating ISO image..."
xorriso "${xorriso_options[@]}" -as mkisofs \
-iso-level 3 \
-full-iso9660-filenames \
-joliet \
-joliet-long \
-rational-rock \
-volid "${iso_label}" \
-appid "${iso_application}" \
-publisher "${iso_publisher}" \
-preparer "prepared by ${app_name}" \
"${xorrisofs_options[@]}" \
-output "${out_dir}/${image_name}" \
"${isofs_dir}/"
_msg_info "Done!"
du -h -- "${out_dir}/${image_name}"
}
# Read profile's values from profiledef.sh
_read_profile() {
if [[ -z "${profile}" ]]; then
_msg_error "No profile specified!" 1
fi
if [[ ! -d "${profile}" ]]; then
_msg_error "Profile '${profile}' does not exist!" 1
elif [[ ! -e "${profile}/profiledef.sh" ]]; then
_msg_error "Profile '${profile}' is missing 'profiledef.sh'!" 1
else
cd -- "${profile}"
# Source profile's variables
# shellcheck source=configs/releng/profiledef.sh
. "${profile}/profiledef.sh"
# Resolve paths of files that are expected to reside in the profile's directory
[[ -n "$arch" ]] || arch="$(uname -m)"
[[ -n "$packages" ]] || packages="${profile}/packages.${arch}"
packages="$(realpath -- "${packages}")"
pacman_conf="$(realpath -- "${pacman_conf}")"
# Resolve paths of files that may reside in the profile's directory
if [[ -z "$bootstrap_packages" ]] && [[ -e "${profile}/bootstrap_packages.${arch}" ]]; then
bootstrap_packages="${profile}/bootstrap_packages.${arch}"
bootstrap_packages="$(realpath -- "${bootstrap_packages}")"
pacman_conf="$(realpath -- "${pacman_conf}")"
fi
cd -- "${OLDPWD}"
fi
}
# Validate set options
_validate_options() {
local validation_error=0 _buildmode certfile
_msg_info "Validating options..."
# Check if pacman configuration file exists
if [[ ! -e "${pacman_conf}" ]]; then
(( validation_error=validation_error+1 ))
_msg_error "File '${pacman_conf}' does not exist." 0
fi
# Check if the code signing certificate files exist
for certfile in "${cert_list[@]}"; do
if [[ ! -e "$certfile" ]]; then
(( validation_error=validation_error+1 ))
_msg_error "Code signing certificate '${certfile}' does not exist." 0
fi
done
# Check if the specified buildmodes are supported
for _buildmode in "${buildmodes[@]}"; do
if typeset -f "_build_buildmode_${_buildmode}" &>/dev/null; then
if typeset -f "_validate_requirements_buildmode_${_buildmode}" &>/dev/null; then
"_validate_requirements_buildmode_${_buildmode}"
else
_msg_warning "Function '_validate_requirements_buildmode_${_buildmode}' does not exist. Validating the requirements of '${_buildmode}' build mode will not be possible."
fi
else
(( validation_error=validation_error+1 ))
_msg_error "${_buildmode} is not a valid build mode!" 0
fi
done
if (( validation_error )); then
_msg_error "${validation_error} errors were encountered while validating the profile. Aborting." 1
fi
_msg_info "Done!"
}
# Set defaults and, if present, overrides from mkarchiso command line option parameters
_set_overrides() {
# Set variables that have command line overrides
[[ ! -v override_buildmodes ]] || buildmodes=("${override_buildmodes[@]}")
if (( ${#buildmodes[@]} < 1 )); then
buildmodes+=('iso')
fi
if [[ -v override_work_dir ]]; then
work_dir="$override_work_dir"
elif [[ -z "$work_dir" ]]; then
work_dir='./work'
fi
work_dir="$(realpath -- "$work_dir")"
if [[ -v override_out_dir ]]; then
out_dir="$override_out_dir"
elif [[ -z "$out_dir" ]]; then
out_dir='./out'
fi
out_dir="$(realpath -- "$out_dir")"
if [[ -v override_pacman_conf ]]; then
pacman_conf="$override_pacman_conf"
elif [[ -z "$pacman_conf" ]]; then
pacman_conf="/etc/pacman.conf"
fi
pacman_conf="$(realpath -- "$pacman_conf")"
[[ ! -v override_pkg_list ]] || pkg_list+=("${override_pkg_list[@]}")
# TODO: allow overriding bootstrap_pkg_list
if [[ -v override_iso_label ]]; then
iso_label="$override_iso_label"
elif [[ -z "$iso_label" ]]; then
iso_label="${app_name^^}"
fi
if [[ -v override_iso_publisher ]]; then
iso_publisher="$override_iso_publisher"
elif [[ -z "$iso_publisher" ]]; then
iso_publisher="${app_name}"
fi
if [[ -v override_iso_application ]]; then
iso_application="$override_iso_application"
elif [[ -z "$iso_application" ]]; then
iso_application="${app_name} iso"
fi
if [[ -v override_install_dir ]]; then
install_dir="$override_install_dir"
elif [[ -z "$install_dir" ]]; then
install_dir="${app_name}"
fi
[[ ! -v override_gpg_key ]] || gpg_key="$override_gpg_key"
[[ ! -v override_gpg_sender ]] || gpg_sender="$override_gpg_sender"
[[ ! -v override_cert_list ]] || mapfile -t cert_list < <(realpath -- "${override_cert_list[@]}")
if [[ -v override_quiet ]]; then
quiet="$override_quiet"
elif [[ -z "$quiet" ]]; then
quiet="y"
fi
if [[ -v override_rm_work_dir ]]; then
rm_work_dir="$override_rm_work_dir"
fi
# Set variables that do not have overrides
[[ -n "$airootfs_image_type" ]] || airootfs_image_type="squashfs"
[[ -n "$iso_name" ]] || iso_name="${app_name}"
# Precalculate the ISO's modification date in UTC, i.e. its "UUID"
TZ=UTC printf -v iso_uuid '%(%F-%H-%M-%S-00)T' "$SOURCE_DATE_EPOCH"
}
_export_gpg_publickey() {
gpg_publickey="${work_dir}/pubkey.gpg"
rm -f -- "$gpg_publickey"
gpg --batch --no-armor --output "$gpg_publickey" --export "${gpg_key}"
[[ -s "$gpg_publickey" ]] || return
}
_make_version() {
local _os_release
_msg_info "Creating version files..."
# Write version file to system installation dir
rm -f -- "${pacstrap_dir}/version"
printf '%s\n' "${iso_version}" >"${pacstrap_dir}/version"
if [[ "${buildmode}" == @("iso"|"netboot") ]]; then
install -d -m 0755 -- "${isofs_dir}/${install_dir}"
# Write version file to ISO 9660
printf '%s\n' "${iso_version}" >"${isofs_dir}/${install_dir}/version"
fi
if [[ "${buildmode}" == "iso" ]]; then
# Write grubenv with version information to ISO 9660
# TODO: after sufficient time has passed, do not create this file anymore.
# _make_common_bootmode_grub_cfg and _make_common_grubenv_and_loopbackcfg already create a
# ${isofs_dir}/boot/grub/grubenv file
rm -f -- "${isofs_dir}/${install_dir}/grubenv"
printf '%.1024s' "$(printf '# GRUB Environment Block\nNAME=%s\nVERSION=%s\n%s' \
"${iso_name}" "${iso_version}" "$(printf '%0.1s' "#"{1..1024})")" \
>"${isofs_dir}/${install_dir}/grubenv"
fi
# Append IMAGE_ID & IMAGE_VERSION to os-release
_os_release="$(realpath -- "${pacstrap_dir}/etc/os-release")"
if [[ ! -e "${pacstrap_dir}/etc/os-release" && -e "${pacstrap_dir}/usr/lib/os-release" ]]; then
_os_release="$(realpath -- "${pacstrap_dir}/usr/lib/os-release")"
fi
if [[ "${_os_release}" != "${pacstrap_dir}"* ]]; then
_msg_warning "os-release file '${_os_release}' is outside of valid path."
else
#[[ ! -e "${_os_release}" ]] || sed -i '/^IMAGE_ID=/d;/^IMAGE_VERSION=/d' "${_os_release}"
#printf 'IMAGE_ID=%s\nIMAGE_VERSION=%s\n' "${iso_name}" "${iso_version}" >>"${_os_release}"
# https://github.com/archlinux/svntogit-packages/blob/packages/filesystem/trunk/os-release
# https://gist.github.com/natefoo/814c5bf936922dad97ff#file-arch-md
aios_name="ai os"
aios_logo="ai-logo"
aios_id=ai
aios_url=https://git.syui.ai/ai/os
[[ ! -e "${_os_release}" ]] || sed -i '/^IMAGE_ID=/d;/^IMAGE_VERSION=/d;/^NAME=/d;/^PRETTY_NAME=/d;/^ID=/d;/^HOME_URL=/d;/^DOCUMENTATION_URL=/d;/^SUPPORT_URL=/d;/^BUG_REPORT_URL=/d;/^PRIVACY_POLICY_URL=/d;/^LOGO=/d' "${_os_release}"
printf 'IMAGE_ID=%s\nIMAGE_VERSION=%s\nNAME=%s\nPRETTY_NAME=%s\nID=%s\nHOME_URL=%s\nDOCUMENTATION_URL=%s\nSUPPORT_URL=%s\nBUG_REPORT_URL=%s\nPRIVACY_POLICY_URL=%s\nLOGO=%s\n' "${iso_name}" "${iso_version}" "${aios_name}" "${aios_name}" "${aios_id}" "${aios_url}" "${aios_url}/wiki" "${aios_url}/issues" "${aios_url}/issues" "${aios_url}" "${aios_logo}" >>"${_os_release}"
fi
# Touch /usr/lib/clock-epoch to give another hint on date and time
# for systems with screwed or broken RTC.
touch -m -d"@${SOURCE_DATE_EPOCH}" -- "${pacstrap_dir}/usr/lib/clock-epoch"
_msg_info "Done!"
}
_make_pkglist() {
_msg_info "Creating a list of installed packages on live-enviroment..."
case "${buildmode}" in
"bootstrap")
pacman -Q --sysroot "${pacstrap_dir}" >"${pacstrap_dir}/pkglist.${arch}.txt"
;;
"iso"|"netboot")
install -d -m 0755 -- "${isofs_dir}/${install_dir}"
pacman -Q --sysroot "${pacstrap_dir}" >"${isofs_dir}/${install_dir}/pkglist.${arch}.txt"
;;
esac
_msg_info "Done!"
}
# Create working directory
_make_work_dir() {
if [[ ! -d "${work_dir}" ]]; then
install -d -- "${work_dir}"
elif (( rm_work_dir )); then
rm_work_dir=0
_msg_warning "Working directory removal requested, but '${work_dir}' already exists. It will not be removed!" 0
fi
}
# build the base for an ISO and/or a netboot target
_build_iso_base() {
local run_once_mode="base"
local buildmode_packages="${packages}"
# Set the package list to use
local buildmode_pkg_list=("${pkg_list[@]}")
# Set up essential directory paths
pacstrap_dir="${work_dir}/${arch}/airootfs"
isofs_dir="${work_dir}/iso"
# Create working directory
_run_once _make_work_dir
# Write build date to file if it does not exist already
[[ -e "${work_dir}/build_date" ]] || printf '%s\n' "$SOURCE_DATE_EPOCH" >"${work_dir}/build_date"
[[ "${quiet}" == "y" ]] || _show_config
_run_once _make_pacman_conf
[[ -z "${gpg_key}" ]] || _run_once _export_gpg_publickey
_run_once _make_custom_airootfs
_run_once _make_packages
_run_once _make_version
_run_once _make_customize_airootfs
_run_once _make_pkglist
if [[ "${buildmode}" == 'netboot' ]]; then
_run_once _make_boot_on_iso9660
else
_make_bootmodes
fi
_run_once _cleanup_pacstrap_dir
_run_once _prepare_airootfs_image
}
# Build the bootstrap buildmode
_build_buildmode_bootstrap() {
local image_name="${iso_name}-bootstrap-${iso_version}-${arch}.tar.gz"
local run_once_mode="${buildmode}"
local buildmode_packages="${bootstrap_packages}"
# Set the package list to use
local buildmode_pkg_list=("${bootstrap_pkg_list[@]}")
# Set up essential directory paths
pacstrap_dir="${work_dir}/${arch}/bootstrap/root.${arch}"
[[ -d "${work_dir}" ]] || install -d -- "${work_dir}"
install -d -m 0755 -o 0 -g 0 -- "${pacstrap_dir}"
[[ "${quiet}" == "y" ]] || _show_config
_run_once _make_pacman_conf
_run_once _make_packages
_run_once _make_version
_run_once _make_pkglist
_run_once _cleanup_pacstrap_dir
_run_once _build_bootstrap_image
}
# Build the netboot buildmode
_build_buildmode_netboot() {
local run_once_mode="${buildmode}"
_build_iso_base
if [[ -e "${isofs_dir}/${install_dir}/${arch}/airootfs.sfs" ]]; then
airootfs_image_filename="${isofs_dir}/${install_dir}/${arch}/airootfs.sfs"
elif [[ -e "${isofs_dir}/${install_dir}/${arch}/airootfs.erofs" ]]; then
airootfs_image_filename="${isofs_dir}/${install_dir}/${arch}/airootfs.erofs"
fi
if [[ -v cert_list ]]; then
_run_once _sign_netboot_artifacts
fi
_run_once _export_netboot_artifacts
}
# Build the ISO buildmode
_build_buildmode_iso() {
local image_name="${iso_name}-${iso_version}-${arch}.iso"
local run_once_mode="${buildmode}"
efibootimg="${work_dir}/efiboot.img"
_build_iso_base
_run_once _build_iso_image
}
# build all buildmodes
_build() {
local buildmode
local run_once_mode="build"
for buildmode in "${buildmodes[@]}"; do
_run_once "_build_buildmode_${buildmode}"
done
if (( rm_work_dir )); then
_msg_info 'Removing the working directory...'
rm -rf -- "${work_dir:?}/"
_msg_info 'Done!'
fi
}
while getopts 'c:p:C:L:P:A:D:w:m:o:g:G:vrh?' arg; do
case "${arg}" in
p) read -r -a override_pkg_list <<<"${OPTARG}" ;;
C) override_pacman_conf="${OPTARG}" ;;
L) override_iso_label="${OPTARG}" ;;
P) override_iso_publisher="${OPTARG}" ;;
A) override_iso_application="${OPTARG}" ;;
D) override_install_dir="${OPTARG}" ;;
c) read -r -a override_cert_list <<<"${OPTARG}" ;;
w) override_work_dir="${OPTARG}" ;;
m) read -r -a override_buildmodes <<<"${OPTARG}" ;;
o) override_out_dir="${OPTARG}" ;;
g) override_gpg_key="${OPTARG}" ;;
G) override_gpg_sender="${OPTARG}" ;;
v) override_quiet="n" ;;
r) declare -i override_rm_work_dir=1 ;;
h|?) _usage 0 ;;
*)
_msg_error "Invalid argument '${arg}'" 0
_usage 1
;;
esac
done
shift $((OPTIND - 1))
if (( $# < 1 )); then
_msg_error "No profile specified" 0
_usage 1
fi
if (( EUID != 0 )); then
_msg_error "${app_name} must be run as root." 1
fi
# get the absolute path representation of the first non-option argument
profile="$(realpath -- "${1}")"
# Read SOURCE_DATE_EPOCH from file early
build_date_file="$(realpath -q -- "${override_work_dir:-./work}/build_date")" || :
if [[ -f "$build_date_file" ]]; then
SOURCE_DATE_EPOCH="$(<"$build_date_file")"
fi
unset build_date_file
_read_profile
_set_overrides
_validate_options
_build
# vim:ts=4:sw=4:et: