#! /bin/sh # Install GRUB on your drive. # Copyright (C) 1999,2000,2001,2002,2003,2004,2005,2006,2007,2008,2009 Free Software Foundation, Inc. # # GRUB is free software: you can redistribute it and/or modify # it under the terms of the GNU General Public License as published by # the Free Software Foundation, either version 3 of the License, or # (at your option) any later version. # # GRUB is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU General Public License for more details. # # You should have received a copy of the GNU General Public License # along with GRUB. If not, see . # Initialize some variables. transform="@program_transform_name@" prefix="@prefix@" exec_prefix="@exec_prefix@" sbindir="@sbindir@" bindir="@bindir@" libdir="@libdir@" sysconfdir="@sysconfdir@" PACKAGE_NAME=@PACKAGE_NAME@ PACKAGE_TARNAME=@PACKAGE_TARNAME@ PACKAGE_VERSION=@PACKAGE_VERSION@ target_cpu=@target_cpu@ platform=@platform@ host_os=@host_os@ pkglibdir="${libdir}/`echo ${PACKAGE_TARNAME}/${target_cpu}-${platform} | sed ${transform}`" localedir="@datadir@/locale" self="`basename $0`" grub_setup="${sbindir}/`echo grub-setup | sed ${transform}`" grub_mkimage="${bindir}/`echo grub-mkimage | sed ${transform}`" grub_mkdevicemap="${sbindir}/`echo grub-mkdevicemap | sed ${transform}`" grub_probe="${sbindir}/`echo grub-probe | sed ${transform}`" grub_editenv="${bindir}/`echo grub-editenv | sed ${transform}`" grub_mkrelpath="${bindir}/`echo grub-mkrelpath | sed ${transform}`" rootdir= bootdir= grubdir="`echo "/@bootdirname@/@grubdirname@" | sed 's,//*,/,g'`" modules= install_device= no_floppy= force_lba= recheck=no debug=no debug_image= update_nvram=yes removable=no efi_quiet= # Get GRUB_DISTRIBUTOR. if test -f "${sysconfdir}/default/grub" ; then . "${sysconfdir}/default/grub" fi bootloader_id="$(echo "$GRUB_DISTRIBUTOR" | tr 'A-Z' 'a-z' | cut -d' ' -f1)" if test -z "$bootloader_id"; then bootloader_id=grub fi if [ "${target_cpu}-${platform}" = "i386-pc" ] ; then disk_module=biosdisk elif [ "${platform}" = "ieee1275" ] || [ "${platform}" = "efi" ] ; then disk_module= else disk_module=native fi # Usage: usage # Print the usage. usage () { if [ "${target_cpu}-${platform}" = "i386-pc" ] \ || [ "${target_cpu}-${platform}" = "sparc64-ieee1275" ]; then cat <. EOF } argument () { opt="$1" shift if test $# -eq 0; then echo "$0: option requires an argument -- '$opt'" 1>&2 exit 1 fi echo "$1" } allow_floppy="" # Check the arguments. while test $# -gt 0 do option=$1 shift case "$option" in -h | --help) usage exit 0 ;; -v | --version) echo "$self (${PACKAGE_NAME}) ${PACKAGE_VERSION}" exit 0 ;; --modules) modules=`argument $option "$@"`; shift;; --modules=*) modules=`echo "$option" | sed 's/--modules=//'` ;; # Accept and ignore for compatibility --font) shift;; --font=*) ;; # Accept for compatibility --root-directory) rootdir="`argument $option "$@"`"; shift;; --root-directory=*) rootdir="`echo "$option" | sed 's/--root-directory=//'`" ;; --boot-directory) bootdir="`argument $option "$@"`"; shift;; --boot-directory=*) bootdir="`echo "$option" | sed 's/--boot-directory=//'`" ;; --grub-setup) grub_setup="`argument "$option" "$@"`"; shift;; --grub-setup=*) grub_setup="`echo "$option" | sed 's/--grub-setup=//'`" ;; --bootloader-id) bootloader_id="`argument $option "$@"`"; shift;; --bootloader-id=*) bootloader_id="`echo "$option" | sed 's/--bootloader-id=//'`" ;; --grub-mkimage) grub_mkimage="`argument $option "$@"`"; shift;; --grub-mkimage=*) grub_mkimage="`echo "$option" | sed 's/--grub-mkimage=//'`" ;; --grub-mkrelpath) grub_mkrelpath="`argument "$option" "$@"`"; shift;; --grub-mkrelpath=*) grub_mkrelpath="`echo "$option" | sed 's/--grub-mkrelpath=//'`" ;; --grub-mkdevicemap) grub_mkdevicemap="`argument "$option" "$@"`"; shift;; --grub-mkdevicemap=*) grub_mkdevicemap="`echo "$option" | sed 's/--grub-mkdevicemap=//'`" ;; --grub-probe) grub_probe="`argument "$option" "$@"`"; shift;; --grub-probe=*) grub_probe="`echo "$option" | sed 's/--grub-probe=//'`" ;; --no-floppy) no_floppy="--no-floppy" ;; --recheck) recheck=yes ;; --removable) removable=yes ;; --allow-floppy) allow_floppy="--allow-floppy" ;; --disk-module) if [ "${target_cpu}-${platform}" = "i386-pc" ] ; then disk_module="`argument "$option" "$@"`"; shift; fi ;; --disk-module=*) if [ "${target_cpu}-${platform}" = "i386-pc" ] ; then disk_module="`echo "$option" | sed 's/--disk-module=//'`" fi ;; --no-nvram) update_nvram=no ;; # This is an undocumented feature... --debug) debug=yes ;; --debug-image) debug_image="`argument "$option" "$@"`"; shift;; --debug-image=*) debug_image="`echo "$option" | sed 's/--debug-image=//'`" ;; -f | --force) setup_force="--force" ;; -*) echo "Unrecognized option \`$option'" 1>&2 usage exit 1 ;; *) if test "x$install_device" != x; then echo "More than one install_devices?" 1>&2 usage exit 1 fi install_device="${option}" ;; esac done . ${libdir}/@PACKAGE@/grub-mkconfig_lib if test "x$install_device" = x && ([ "${target_cpu}-${platform}" = "i386-pc" ] \ || [ "${target_cpu}-${platform}" = "sparc64-ieee1275" ]); then echo "install_device not specified." 1>&2 usage exit 1 fi if ! ([ "${target_cpu}-${platform}" = "i386-pc" ] \ || [ "${target_cpu}-${platform}" = "sparc64-ieee1275" ]); then install_device= fi # If the debugging feature is enabled, print commands. setup_verbose= if test x"$debug" = xyes; then set -x setup_verbose="--verbose" efi_quiet=-q fi if [ -z "$bootdir" ]; then # Default bootdir if bootdir not initialized. bootdir="/@bootdirname@" if [ -n "$rootdir" ] ; then # Initialize bootdir if rootdir was initialized. bootdir="${rootdir}/@bootdirname@" fi fi grubdir="`echo "${bootdir}/@grubdirname@" | sed 's,//*,/,g'`" device_map="${grubdir}/device.map" # Check if GRUB is installed. if [ "${target_cpu}-${platform}" = "i386-pc" ] || [ "${target_cpu}-${platform}" = "sparc64-ieee1275" ] ; then set $grub_setup dummy if test -f "$1"; then : else echo "$1: Not found." 1>&2 exit 1 fi fi set "$grub_mkimage" dummy if test -f "$1"; then : else echo "$1: Not found." 1>&2 exit 1 fi set "$grub_mkdevicemap" dummy if test -f "$1"; then : else echo "$1: Not found." 1>&2 exit 1 fi if [ x"$platform" = xefi ]; then # Find the EFI System Partition. efidir= if test -d "${bootdir}/efi"; then install_device="`"$grub_mkdevicemap" --device-map=/dev/stdout | "$grub_probe" --target=device --device-map=/dev/stdin "${bootdir}/efi"`" # Is it a mount point? if test "x$install_device" != "x`"$grub_mkdevicemap" --device-map=/dev/stdout | "$grub_probe" --target=device --device-map=/dev/stdin "${bootdir}"`"; then efidir="${bootdir}/efi" fi elif test -d "${bootdir}/EFI"; then install_device="`"$grub_mkdevicemap" --device-map=/dev/stdout | "$grub_probe" --target=device --device-map=/dev/stdin "${bootdir}/EFI"`" # Is it a mount point? if test "x$install_device" != "x`"$grub_mkdevicemap" --device-map=/dev/stdout | "$grub_probe" --target=device --device-map=/dev/stdin "${bootdir}"`"; then efidir="${bootdir}/EFI" fi elif test -n "$rootdir" && test "x$rootdir" != "x/"; then # The EFI System Partition may have been given directly using # --root-directory. install_device="`"$grub_mkdevicemap" --device-map=/dev/stdout | "$grub_probe" --target=device --device-map=/dev/stdin "${rootdir}"`" # Is it a mount point? if test "x$install_device" != "x`"$grub_mkdevicemap" --device-map=/dev/stdout | "$grub_probe" --target=device --device-map=/dev/stdin "${rootdir}/.."`"; then efidir="${rootdir}" fi fi if test -n "$efidir"; then efi_fs=`"$grub_probe" --target=fs "--device-map=${device_map}" "${efidir}"` if test "x$efi_fs" = xfat; then :; else echo "${efidir} doesn't look like an EFI partition." 1>&2 efidir= fi fi if test -n "$efidir"; then # The EFI specification requires that an EFI System Partition must # contain an "EFI" subdirectory, and that OS loaders are stored in # subdirectories below EFI. Vendors are expected to pick names that do # not collide with other vendors. To minimise collisions, we use the # name of our distributor if possible. efi_distributor="$bootloader_id" if test $removable = yes; then # The specification makes stricter requirements of removable # devices, in order that only one image can be automatically loaded # from them. The image must always reside under /EFI/BOOT, and it # must have a specific file name depending on the architecture. efi_distributor=BOOT case "$target_cpu" in i386) efi_file=BOOTIA32.EFI ;; x86_64) efi_file=BOOTX64.EFI ;; # GRUB does not yet support these architectures, but they're defined # by the specification so we include them here to ease future # expansion. ia64) efi_file=BOOTIA64.EFI ;; esac else # It is convenient for each architecture to have a different # efi_file, so that different versions can be installed in parallel. case "$target_cpu" in i386) efi_file=grubia32.efi ;; x86_64) efi_file=grubx64.efi ;; # GRUB does not yet support these architectures, but they're defined # by the specification so we include them here to ease future # expansion. ia64) efi_file=grubia64.efi ;; *) efi_file=grub.efi ;; esac # TODO: We should also use efibootmgr, if available, to add a Boot # entry for ourselves. fi efidir="$efidir/EFI/$efi_distributor" mkdir -p "$efidir" || exit 1 else # We don't know what's going on. Fall back to traditional # (non-specification-compliant) behaviour. efidir="$grubdir" efi_distributor= efi_file=grub.efi fi fi # Create the GRUB directory if it is not present. mkdir -p "$grubdir" || exit 1 # If --recheck is specified, remove the device map, if present. if test $recheck = yes; then rm -f "$device_map" fi # Create the device map file if it is not present. if test -f "$device_map"; then : else # Create a safe temporary file. test -n "$mklog" && log_file=`$mklog` "$grub_mkdevicemap" "--device-map=$device_map" $no_floppy || exit 1 fi # Make sure that there is no duplicated entry. tmp=`sed -n '/^([fh]d[0-9]*)/s/\(^(.*)\).*/\1/p' "$device_map" \ | sort | uniq -d | sed -n 1p` if test -n "$tmp"; then echo "The drive $tmp is defined multiple times in the device map $device_map" 1>&2 exit 1 fi # Copy the GRUB images to the GRUB directory. for file in "${grubdir}"/*.mod "${grubdir}"/*.lst "${grubdir}"/*.img "${grubdir}"/efiemu??.o; do if test -f "$file" && [ "`basename $file`" != menu.lst ]; then rm -f "$file" || exit 1 fi done for file in "${pkglibdir}"/*.mod "${pkglibdir}"/*.lst; do cp -f "$file" "${grubdir}" || exit 1 done if [ "${target_cpu}-${platform}" = "i386-pc" ] || [ "${target_cpu}-${platform}" = "sparc64-ieee1275" ] ; then for file in "${pkglibdir}"/*.img "${pkglibdir}"/efiemu??.o; do if test -f "$file"; then cp -f "$file" "${grubdir}" || exit 1 fi done fi # Copy gettext files mkdir -p "${grubdir}"/locale/ for dir in "${localedir}"/*; do if test -f "$dir/LC_MESSAGES/grub.mo"; then cp -f "$dir/LC_MESSAGES/grub.mo" "${grubdir}/locale/${dir##*/}.mo" fi done is_path_readable_by_grub "${grubdir}" || (echo "${grubdir}" not readable 1>&2 ; exit 1) # Write device to a variable so we don't have to traverse /dev every time. grub_device="`"$grub_probe" --device-map="${device_map}" --target=device "${grubdir}"`" || exit 1 if ! test -f "${grubdir}"/grubenv; then "$grub_editenv" "${grubdir}"/grubenv create fi # Create the core image. First, auto-detect the filesystem module. fs_module="`"$grub_probe" --device-map="${device_map}" --target=fs --device "${grub_device}"`" if test "x$fs_module" = x ; then echo "Auto-detection of a filesystem of ${grub_device} failed." 1>&2 echo "Try with --recheck." 1>&2 echo "If the problem persists please report this together with the output of \"$grub_probe --device-map=\"${device_map}\" --target=fs -v ${grubdir}\" to " 1>&2 exit 1 fi # Then the partition map module. In order to support partition-less media, # this command is allowed to fail (--target=fs already grants us that the # filesystem will be accessible). partmap_module= for x in `"$grub_probe" --device-map="${device_map}" --target=partmap --device "${grub_device}" 2> /dev/null`; do case "$x" in netbsd | openbsd) partmap_module="$partmap_module part_bsd";; "") ;; *) partmap_module="$partmap_module part_$x";; esac done # Device abstraction module, if any (lvm, raid). devabstraction_module="`"$grub_probe" --device-map="${device_map}" --target=abstraction --device "${grub_device}"`" if [ "x$disk_module" = xata ]; then disk_module=pata fi if [ "x$disk_module" = xnative ]; then disk_module="pata ahci ohci" if [ "x$target_cpu" = "xi386" ] || [ "x$target_cpu" = "xx86_64" ]; then disk_module="$disk_module uhci" fi disk_module="$disk_module usbms" fi # The order in this list is critical. Be careful when modifying it. modules="$modules $disk_module" modules="$modules $fs_module $partmap_module $devabstraction_module" relative_grubdir="`"$grub_mkrelpath" "${grubdir}"`" || exit 1 if [ "x${relative_grubdir}" = "x" ] ; then relative_grubdir=/ fi prefix_drive= config_opt= rm -f "${grubdir}/load.cfg" if [ "x${debug_image}" != x ]; then echo "set debug='${debug_image}'" >> "${grubdir}/load.cfg" config_opt="-c ${grubdir}/load.cfg " fi if [ "x${devabstraction_module}" = "x" ] ; then if [ x"${install_device}" != x ]; then if echo "${install_device}" | grep -qx "(.*)" ; then install_drive="${install_device}" else install_drive="`"$grub_probe" --device-map="${device_map}" --target=drive --device "${install_device}"`" || exit 1 fi install_drive="`echo "${install_drive}" | sed -e s/,[a-z0-9,]*//g`" fi grub_drive="`"$grub_probe" --device-map="${device_map}" --target=drive --device "${grub_device}"`" || exit 1 # Strip partition number grub_partition="`echo "${grub_drive}" | sed -e 's/^[^,]*[,)]//; s/)$//'`" grub_drive="`echo "${grub_drive}" | sed -e s/,[a-z0-9,]*//g`" if ([ "x$disk_module" != x ] && [ "x$disk_module" != xbiosdisk ]) || [ "x${grub_drive}" != "x${install_drive}" ] || ([ "x$platform" != xefi ] && [ "x$platform" != xpc ] && [ x"${platform}" != x"ieee1275" ]); then # generic method (used on coreboot and ata mod) uuid="`"$grub_probe" --device-map="${device_map}" --target=fs_uuid --device "${grub_device}"`" if [ "x${uuid}" = "x" ] ; then if [ "x$platform" != xefi ] && [ "x$platform" != xpc ] && [ x"${platform}" != x"ieee1275" ]; then echo "UUID needed with $platform, but the filesystem containing ${grubdir} does not support UUIDs." 1>&2 elif [ "$disk_module" = ata ]; then echo "UUID needed with ata mod, but the filesystem containing ${grubdir} does not support UUIDs." 1>&2 else echo "UUID needed with cross-disk installs, but the filesystem containing ${grubdir} does not support UUIDs." 1>&2 fi exit 1 fi echo "search.fs_uuid ${uuid} root " >> "${grubdir}/load.cfg" echo 'set prefix=($root)'"${relative_grubdir}" >> "${grubdir}/load.cfg" config_opt="-c ${grubdir}/load.cfg " modules="$modules search_fs_uuid" elif [ "x$platform" = xefi ] || [ "x$platform" = xpc ] || [ "x$platform" = xieee1275 ]; then # we need to hardcode the partition number in the core image's prefix. if [ x"$grub_partition" = x ]; then prefix_drive="()" else prefix_drive="(,$grub_partition)" fi fi else if [ x$GRUB_CRYPTODISK_ENABLE = xy ]; then for uuid in "`"${grub_probe}" --device "${grub_device}" --target=cryptodisk_uuid`"; do echo "cryptomount -u $uuid" >> "${grubdir}/load.cfg" done fi config_opt="-c ${grubdir}/load.cfg " prefix_drive=`"$grub_probe" --device-map="${device_map}" --target=drive --device "${grub_device}"` || exit 1 fi case "${target_cpu}-${platform}" in sparc64-ieee1275) mkimage_target=sparc64-ieee1275-raw ;; mipsel-loongson) mkimage_target=mipsel-loongson-elf ;; *) mkimage_target="${target_cpu}-${platform}" ;; esac case "${target_cpu}-${platform}" in i386-efi | x86_64-efi) imgext=efi ;; mipsel-loongson | i386-coreboot | i386-multiboot | i386-ieee1275 \ | powerpc-ieee1275) imgext=elf ;; *) imgext=img ;; esac "$grub_mkimage" ${config_opt} -d "${pkglibdir}" -O ${mkimage_target} --output="${grubdir}/core.${imgext}" --prefix="${prefix_drive}${relative_grubdir}" $modules || exit 1 # Backward-compatibility kludges if [ "${target_cpu}-${platform}" = "mipsel-loongson" ]; then cp "${grubdir}/core.${imgext}" "${bootdir}"/grub.elf elif [ "${target_cpu}-${platform}" = "i386-ieee1275" ] || [ "${target_cpu}-${platform}" = "powerpc-ieee1275" ]; then cp "${grubdir}/core.${imgext}" "${grubdir}/grub" elif [ "${target_cpu}-${platform}" = "i386-efi" ] || [ "${target_cpu}-${platform}" = "x86_64-efi" ]; then "$grub_mkimage" ${config_opt} -d "${pkglibdir}" -O ${mkimage_target} --output="${grubdir}/grub.efi" --prefix="" $modules || exit 1 fi # Perform the platform-dependent install if [ "${target_cpu}-${platform}" = "i386-pc" ] || [ "${target_cpu}-${platform}" = "sparc64-ieee1275" ] ; then # Now perform the installation. "$grub_setup" ${allow_floppy} ${setup_verbose} ${setup_force} --directory="${grubdir}" \ --device-map="${device_map}" "${install_device}" || exit 1 elif [ "${target_cpu}-${platform}" = "i386-ieee1275" ] || [ "${target_cpu}-${platform}" = "powerpc-ieee1275" ]; then if [ x"$update_nvram" = xyes ]; then ofpathname="`which ofpathname`" nvsetenv="`which nvsetenv`" set "$ofpathname" dummy if test -f "$1"; then : else echo "$1: Not found." 1>&2 exit 1 fi set "$nvsetenv" dummy if test -f "$1"; then : else echo "$1: Not found." 1>&2 exit 1 fi # Get the Open Firmware device tree path translation. dev="`echo $grub_device | sed -e 's/\/dev\///' -e 's/[0-9]\+//'`" partno="`echo $grub_device | sed -e 's/.*[^0-9]\([0-9]\+\)$/\1/'`" ofpath="`$ofpathname $dev`" || { echo "Couldn't find Open Firmware device tree path for $dev." echo "You will have to set boot-device manually." exit 1 } # Point boot-device at the new grub install boot_device="$ofpath:$partno,"`"$grub_mkrelpath" "${grubdir}/core.${imgext}" | sed 's,/,\\\\,g'` "$nvsetenv" boot-device "$boot_device" || { echo "$nvsetenv failed." echo "You will have to set boot-device manually. At the Open Firmware prompt, type:" echo " setenv boot-device $boot_device" exit 1 } fi elif [ x"${target_cpu}-${platform}" = xmips-arc ]; then dvhtool -d "${install_device}" --unix-to-vh "{grubdir}/core.${imgext}" grub echo "You will have to set SystemPartition and OSLoader manually." elif [ x"$platform" = xefi ]; then cp "${grubdir}/core.${imgext}" "${efidir}/${efi_file}" # For old macs. Suggested by Peter Jones. if [ x$target_cpu = xi386 ]; then cp "${grubdir}/core.${imgext}" "${efidir}/boot.efi" fi # Try to make this image bootable using the EFI Boot Manager, if available. efibootmgr="`which efibootmgr`" if test "$removable" = no && test -n "$efi_distributor" && \ test -n "$efibootmgr"; then # On Linux, we need the efivars kernel modules. case "$host_os" in linux*) modprobe -q efivars 2>/dev/null || true ;; esac # Delete old entries from the same distributor. for bootnum in `efibootmgr | grep '^Boot[0-9]' | \ fgrep -i " $efi_distributor" | cut -b5-8`; do efibootmgr $efi_quiet -b "$bootnum" -B done # Add a new entry for the image we just created. efibootmgr needs to be # given the disk device and partition number separately, so we have to # fiddle about with grub-probe to get hold of this reasonably reliably. # Use fresh device map text to avoid any problems with stale data, since # all we need here is a one-to-one mapping. clean_devmap="$($grub_mkdevicemap --device-map=/dev/stdout)" efidir_drive="$(echo "$clean_devmap" | "$grub_probe" --device-map="${device_map}" --target=drive --device-map=/dev/stdin "$efidir")" if test -z "$efidir_drive"; then echo "Can't find GRUB drive for $efidir; unable to create EFI Boot Manager entry." >&2 else efidir_disk="$(echo "$clean_devmap" | grep "^$(echo "$efidir_drive" | sed 's/,[^)]*//')" | cut -f2)" efidir_part="$(echo "$efidir_drive" | sed 's/^([^,]*,[^0-9]*//; s/[^0-9].*//')" efibootmgr $efi_quiet -c -d "$efidir_disk" -p "$efidir_part" -w \ -L "$bootloader_id" -l "\\EFI\\$efi_distributor\\$efi_file" fi fi fi echo "Installation finished. No error reported." # Bye. exit 0