#!/bin/bash # -*- mode: shell-script; indent-tabs-mode: nil; sh-basic-offset: 4; -*- # ex: ts=8 sw=4 sts=4 et filetype=sh # # functions used by dracut and other tools. # # Copyright 2005-2009 Red Hat, Inc. All rights reserved. # # This program 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 2 of the License, or # (at your option) any later version. # # This program 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 this program. If not, see . # if ! [[ $dracutbasedir ]]; then dracutbasedir=${BASH_SOURCE[0]%/*} [[ $dracutbasedir = "dracut-functions" ]] && dracutbasedir="." [[ $dracutbasedir ]] || dracutbasedir="." dracutbasedir="$(readlink -f $dracutbasedir)" fi if ! type dinfo >/dev/null 2>&1; then . "$dracutbasedir/dracut-logger" dlog_init fi # export standard hookdirs [[ $hookdirs ]] || { hookdirs="cmdline pre-udev pre-trigger netroot initqueue pre-mount" hookdirs+=" pre-pivot mount emergency shutdown-emergency shutdown cleanup" export hookdirs } # Generic substring function. If $2 is in $1, return 0. strstr() { [[ $1 =~ $2 ]]; } # Create all subdirectories for given path without creating the last element. # $1 = path mksubdirs() { mkdir -m 0755 -p ${1%/*}; } # Version comparision function. Assumes Linux style version scheme. # $1 = version a # $2 = comparision op (gt, ge, eq, le, lt, ne) # $3 = version b vercmp() { local _n1=(${1//./ }) _op=$2 _n2=(${3//./ }) _i _res for ((_i=0; ; _i++)) do if [[ ! ${_n1[_i]}${_n2[_i]} ]]; then _res=0 elif ((${_n1[_i]:-0} > ${_n2[_i]:-0})); then _res=1 elif ((${_n1[_i]:-0} < ${_n2[_i]:-0})); then _res=2 else continue fi break done case $_op in gt) ((_res == 1));; ge) ((_res != 2));; eq) ((_res == 0));; le) ((_res != 1));; lt) ((_res == 2));; ne) ((_res != 0));; esac } # is_func # Check whether $1 is a function. is_func() { [[ $(type -t $1) = "function" ]] } # Function prints global variables in format name=value line by line. # $@ = list of global variables' name print_vars() { local _var _value for _var in $@ do _value=$(eval echo \$$_var) [[ ${_value} ]] && echo "${_var}=\"${_value}\"" done } # normalize_path # Prints the normalized path, where it removes any duplicated # and trailing slashes. # Example: # $ normalize_path ///test/test// # /test/test normalize_path() { shopt -q -s extglob set -- "${1//+(\/)//}" shopt -q -u extglob echo "${1%/}" } # convert_abs_rel # Prints the relative path, when creating a symlink to from . # Example: # $ convert_abs_rel /usr/bin/test /bin/test-2 # ../../bin/test-2 # $ ln -s $(convert_abs_rel /usr/bin/test /bin/test-2) /usr/bin/test convert_abs_rel() { local __current __absolute __abssize __cursize __newpath __oldifs local -i __i __level set -- "$(normalize_path "$1")" "$(normalize_path "$2")" # corner case #1 - self looping link [[ "$1" == "$2" ]] && { echo "${1##*/}"; return; } # corner case #2 - own dir link [[ "${1%/*}" == "$2" ]] && { echo "."; return; } __oldifs="$IFS" IFS="/" __current=($1) __absolute=($2) IFS="$__oldifs" __abssize=${#__absolute[@]} __cursize=${#__current[@]} while [[ ${__absolute[__level]} == ${__current[__level]} ]] do (( __level++ )) if (( __level > __abssize || __level > __cursize )) then break fi done for ((__i = __level; __i < __cursize-1; __i++)) do if ((__i > __level)) then __newpath=$__newpath"/" fi __newpath=$__newpath".." done for ((__i = __level; __i < __abssize; __i++)) do if [[ -n $__newpath ]] then __newpath=$__newpath"/" fi __newpath=$__newpath${__absolute[__i]} done echo "$__newpath" } # get_fs_env # Get and set the ID_FS_TYPE and ID_FS_UUID variable from udev for a device. # Example: # $ get_fs_env /dev/sda2; echo $ID_FS_TYPE; echo $ID_FS_UUID # ext4 # 551a39aa-4ae9-4e70-a262-ef665cadb574 get_fs_env() { [[ $1 ]] || return unset ID_FS_TYPE unset ID_FS_UUID eval $(udevadm info --query=env --name=$1|egrep 'ID_FS_(TYPE|UUID)=') [[ $ID_FS_TYPE ]] && return if [[ -x /lib/udev/vol_id ]]; then eval $(/lib/udev/vol_id --export $1) elif find_binary blkid >/dev/null; then eval $(blkid -o udev $1) else return 1 fi } # get_fs_uuid # Prints the filesystem UUID for a device. # Example: # $ get_fs_uuid /dev/sda2 # 551a39aa-4ae9-4e70-a262-ef665cadb574 get_fs_uuid() ( get_fs_env $1 || return echo $ID_FS_UUID ) # get_fs_type # Prints the filesystem type for a device. # Example: # $ get_fs_type /dev/sda1 # ext4 get_fs_type() ( [[ $1 ]] || return if [[ $1 != ${1#/dev/block/nfs:} ]] \ || [[ $1 != ${1#/dev/block/nfs3:} ]] \ || [[ $1 != ${1#/dev/block/nfs4:} ]]; then echo "nfs" return fi if get_fs_env $1; then echo $ID_FS_TYPE return fi find_dev_fstype $1 ) # get_maj_min # Prints the major and minor of a device node. # Example: # $ get_maj_min /dev/sda2 # 8:2 get_maj_min() { local _dev _dev=$(stat -L -c '$((0x%t)):$((0x%T))' "$1" 2>/dev/null) _dev=$(eval "echo $_dev") echo $_dev } # find_block_device # Prints the major and minor number of the block device # for a given mountpoint. # Unless $use_fstab is set to "yes" the functions # uses /proc/self/mountinfo as the primary source of the # information and only falls back to /etc/fstab, if the mountpoint # is not found there. # Example: # $ find_block_device /usr # 8:4 find_block_device() { local _x _mpt _majmin _dev _fs _maj _min if [[ $use_fstab != yes ]]; then while read _x _x _majmin _x _mpt _x _x _fs _dev _x; do [[ $_mpt = $1 ]] || continue [[ $_fs = nfs ]] && { echo $_dev; return 0;} [[ $_fs = nfs3 ]] && { echo $_dev; return 0;} [[ $_fs = nfs4 ]] && { echo $_dev; return 0;} [[ $_fs = btrfs ]] && { get_maj_min $_dev return 0; } if [[ ${_majmin#0:} = $_majmin ]]; then echo $_majmin return 0 # we have a winner! fi done < /proc/self/mountinfo fi # fall back to /etc/fstab while read _dev _mpt _fs _x; do if [[ $_mpt = $1 ]]; then [[ $_fs = nfs ]] && { echo $_dev; return 0;} [[ $_fs = nfs3 ]] && { echo $_dev; return 0;} [[ $_fs = nfs4 ]] && { echo $_dev; return 0;} [[ $_dev != ${_dev#UUID=} ]] && _dev=/dev/disk/by-uuid/${_dev#UUID=} [[ $_dev != ${_dev#LABEL=} ]] && _dev=/dev/disk/by-label/${_dev#LABEL=} [[ -b $_dev ]] || return 1 # oops, not a block device. get_maj_min "$_dev" && return 0 fi done < /etc/fstab return 1 } # find_dev_fstype # Echo the filesystem type for a given device. # /proc/self/mountinfo is taken as the primary source of information # and /etc/fstab is used as a fallback. # No newline is appended! # Example: # $ find_dev_fstype /dev/sda2;echo # ext4 find_dev_fstype() { local _x _mpt _majmin _dev _fs _maj _min while read _x _x _majmin _x _mpt _x _x _fs _dev _x; do [[ $_dev = $1 ]] || continue echo -n $_fs; return 0; done < /proc/self/mountinfo # fall back to /etc/fstab while read _dev _mpt _fs _x; do [[ $_dev = $1 ]] || continue echo -n $_fs; return 0; done < /etc/fstab return 1 } # finds the major:minor of the block device backing the root filesystem. find_root_block_device() { find_block_device /; } # for_each_host_dev_fs # Execute " " for every "|" pair found # in ${host_fs_types[@]} for_each_host_dev_fs() { local _func="$1" local _dev local _fs for f in ${host_fs_types[@]}; do OLDIFS="$IFS" IFS="|" set -- $f IFS="$OLDIFS" _dev="$1" [[ -b "$_dev" ]] || continue _fs="$2" $_func $_dev $_fs done } # Walk all the slave relationships for a given block device. # Stop when our helper function returns success # $1 = function to call on every found block device # $2 = block device in major:minor format check_block_and_slaves() { local _x [[ -b /dev/block/$2 ]] || return 1 # Not a block device? So sorry. "$1" $2 && return check_vol_slaves "$@" && return 0 if [[ -f /sys/dev/block/$2/../dev ]]; then check_block_and_slaves $1 $(cat "/sys/dev/block/$2/../dev") && return 0 fi [[ -d /sys/dev/block/$2/slaves ]] || return 1 for _x in /sys/dev/block/$2/slaves/*/dev; do [[ -f $_x ]] || continue check_block_and_slaves $1 $(cat "$_x") && return 0 done return 1 } # ugly workaround for the lvm design # There is no volume group device, # so, there are no slave devices for volume groups. # Logical volumes only have the slave devices they really live on, # but you cannot create the logical volume without the volume group. # And the volume group might be bigger than the devices the LV needs. check_vol_slaves() { local _lv _vg _pv for i in /dev/mapper/*; do _lv=$(get_maj_min $i) if [[ $_lv = $2 ]]; then _vg=$(lvm lvs --noheadings -o vg_name $i 2>/dev/null) # strip space _vg=$(echo $_vg) if [[ $_vg ]]; then for _pv in $(lvm vgs --noheadings -o pv_name "$_vg" 2>/dev/null) do check_block_and_slaves $1 $(get_maj_min $_pv) && return 0 done fi fi done return 1 } # Install a directory, keeping symlinks as on the original system. # Example: if /lib points to /lib64 on the host, "inst_dir /lib/file" # will create ${initdir}/lib64, ${initdir}/lib64/file, # and a symlink ${initdir}/lib -> lib64. inst_dir() { [[ -e ${initdir}/"$1" ]] && return 0 # already there local _dir="$1" _part="${1%/*}" _file while [[ "$_part" != "${_part%/*}" ]] && ! [[ -e "${initdir}/${_part}" ]]; do _dir="$_part $_dir" _part=${_part%/*} done # iterate over parent directories for _file in $_dir; do if [[ -L $_file ]]; then # create link as the original local target=$(readlink -f "$_file") # resolve relative path and recursively install destination [[ $target == ${target#/} ]] && target="$(dirname "$_file")/$target" inst_dir "$target" inst_symlink "$_file" else [[ -h ${initdir}/$_file ]] && _file=$(readlink "${initdir}/$_file") # create directory [[ -e "${initdir}/$_file" ]] || mkdir -m 0755 -p "${initdir}/$_file" || return 1 if [[ -d "$_file" ]]; then chmod --reference="$_file" "${initdir}/$_file" chmod u+w "${initdir}/$_file" fi fi done } # $1 = file to copy to ramdisk # $2 (optional) Name for the file on the ramdisk # Location of the image dir is assumed to be $initdir # We never overwrite the target if it exists. inst_simple() { [[ -f "$1" ]] || return 1 strstr "$1" "/" || return 1 local _src=$1 target="${2:-$1}" if ! [[ -d ${initdir}/$target ]]; then [[ -e ${initdir}/$target ]] && return 0 [[ -h ${initdir}/$target ]] && return 0 inst_dir "${target%/*}" fi # install checksum files also if [[ -e "${_src%/*}/.${_src##*/}.hmac" ]]; then inst "${_src%/*}/.${_src##*/}.hmac" "${target%/*}/.${target##*/}.hmac" fi ddebug "Installing $_src" cp --sparse=always -pfL "$_src" "${initdir}/$target" } # find symlinks linked to given library file # $1 = library file # Function searches for symlinks by stripping version numbers appended to # library filename, checks if it points to the same target and finally # prints the list of symlinks to stdout. # # Example: # rev_lib_symlinks libfoo.so.8.1 # output: libfoo.so.8 libfoo.so # (Only if libfoo.so.8 and libfoo.so exists on host system.) rev_lib_symlinks() { [[ ! $1 ]] && return 0 local fn="$1" orig="$(readlink -f "$1")" links='' [[ ${fn} =~ .*\.so\..* ]] || return 1 until [[ ${fn##*.} == so ]]; do fn="${fn%.*}" [[ -L ${fn} && $(readlink -f "${fn}") == ${orig} ]] && links+=" ${fn}" done echo "${links}" } # Same as above, but specialized to handle dynamic libraries. # It handles making symlinks according to how the original library # is referenced. inst_library() { local _src="$1" _dest=${2:-$1} _lib _reallib _symlink strstr "$1" "/" || return 1 [[ -e $initdir/$_dest ]] && return 0 if [[ -L $_src ]]; then # install checksum files also if [[ -e "${_src%/*}/.${_src##*/}.hmac" ]]; then inst "${_src%/*}/.${_src##*/}.hmac" "${_dest%/*}/.${_dest##*/}.hmac" fi _reallib=$(readlink -f "$_src") inst_simple "$_reallib" "$_reallib" inst_dir "${_dest%/*}" ln -sfn $(convert_abs_rel "${_dest}" "${_reallib}") "${initdir}/${_dest}" else inst_simple "$_src" "$_dest" fi # Create additional symlinks. See rev_symlinks description. for _symlink in $(rev_lib_symlinks $_src) $(rev_lib_symlinks $_reallib); do [[ ! -e $initdir/$_symlink ]] && { ddebug "Creating extra symlink: $_symlink" inst_symlink $_symlink } done } # find a binary. If we were not passed the full path directly, # search in the usual places to find the binary. find_binary() { if [[ -z ${1##/*} ]]; then if [[ -x $1 ]] || ldd $1 &>/dev/null; then echo $1 return 0 fi fi type -P $1 } # Same as above, but specialized to install binary executables. # Install binary executable, and all shared library dependencies, if any. inst_binary() { local _bin _target _f _self _so_regex _lib_regex _tlibdir _base _file _line _bin=$(find_binary "$1") || return 1 _target=${2:-$_bin} [[ -e $initdir/$_target ]] && return 0 inst_symlink $_bin $_target && return 0 # If the binary being installed is also a library, add it to the loop. _so_regex='([^ ]*/lib[^/]*/[^ ]*\.so[^ ]*)' [[ $_bin =~ $_so_regex ]] && _self="\t${_bin##*/} => ${_bin} (0x0)\n" _lib_regex='^(/lib[^/]*).*' # I love bash! { LC_ALL=C ldd $_bin 2>/dev/null; echo -en "$_self"; } | while read _line; do [[ $_line = 'not a dynamic executable' ]] && return 1 if [[ $_line =~ not\ found ]]; then dfatal "Missing a shared library required by $_bin." dfatal "Run \"ldd $_bin\" to find out what it is." dfatal "dracut cannot create an initrd." exit 1 fi [[ $_line =~ $_so_regex ]] || continue _file=${BASH_REMATCH[1]} [[ -e ${initdir}/$_file ]] && continue # See if we are loading an optimized version of a shared lib. if [[ $_file =~ $_lib_regex ]]; then _tlibdir=${BASH_REMATCH[1]} _base=${_file##*/} # Prefer nosegneg libs to unoptimized ones. for _f in "$_tlibdir/i686/nosegneg"; do [[ -e $_f/$_base ]] || continue inst_library $_f/$_base break done fi inst_library "$_file" done # Install the binary if it wasn't handled in the above loop. [[ -z $_self ]] && inst_simple "$_bin" "$_target" } # same as above, except for shell scripts. # If your shell script does not start with shebang, it is not a shell script. inst_script() { local _bin _bin=$(find_binary "$1") || return 1 shift local _line _shebang_regex read -r -n 80 _line <"$_bin" # If debug is set, clean unprintable chars to prevent messing up the term [[ $debug ]] && _line=$(echo -n "$_line" | tr -c -d '[:print:][:space:]') _shebang_regex='(#! *)(/[^ ]+).*' [[ $_line =~ $_shebang_regex ]] || return 1 inst "${BASH_REMATCH[2]}" && inst_simple "$_bin" "$@" } # same as above, but specialized for symlinks inst_symlink() { local _src=$1 _target=${2:-$1} _realsrc strstr "$1" "/" || return 1 [[ -L $1 ]] || return 1 [[ -L $initdir/$_target ]] && return 0 _realsrc=$(readlink -f "$_src") [[ -d ${_target%/*} ]] && _target=$(readlink -f ${_target%/*})/${_target##*/} if [[ -d $_realsrc ]]; then inst_dir "$_realsrc" else { local _t _t=${2:-$1} _t="${_t%/*}" [[ $_t ]] && inst_dir "$_t" inst "$_realsrc" } fi if [[ -e "${_src}" ]]; then ln -sfn $(convert_abs_rel "${_target}" "${_realsrc}") "$initdir/$_target" else ln -sfn "$_realsrc" "$initdir/$_target" fi } # attempt to install any programs specified in a udev rule inst_rule_programs() { local _prog _bin if grep -qE 'PROGRAM==?"[^ "]+' "$1"; then for _prog in $(grep -E 'PROGRAM==?"[^ "]+' "$1" | sed -r 's/.*PROGRAM==?"([^ "]+).*/\1/'); do if [ -x /lib/udev/$_prog ]; then _bin=/lib/udev/$_prog else _bin=$(find_binary "$_prog") || { dinfo "Skipping program $_prog using in udev rule $(basename $1) as it cannot be found" continue; } fi #dinfo "Installing $_bin due to it's use in the udev rule $(basename $1)" dracut_install "$_bin" done fi } # udev rules always get installed in the same place, so # create a function to install them to make life simpler. inst_rules() { local _target=/etc/udev/rules.d _rule _found inst_dir "/lib/udev/rules.d" inst_dir "$_target" for _rule in "$@"; do if [ "${rule#/}" = "$rule" ]; then for r in /lib/udev/rules.d /etc/udev/rules.d; do if [[ -f $r/$_rule ]]; then _found="$r/$_rule" inst_simple "$_found" inst_rule_programs "$_found" fi done fi for r in '' ./ $dracutbasedir/rules.d/; do if [[ -f ${r}$_rule ]]; then _found="${r}$_rule" inst_simple "$_found" "$_target/${_found##*/}" inst_rule_programs "$_found" fi done [[ $_found ]] || dinfo "Skipping udev rule: $_rule" done } # general purpose installation function # Same args as above. inst() { local _x case $# in 1) ;; 2) [[ ! $initdir && -d $2 ]] && export initdir=$2 [[ $initdir = $2 ]] && set $1;; 3) [[ -z $initdir ]] && export initdir=$2 set $1 $3;; *) dfatal "inst only takes 1 or 2 or 3 arguments" exit 1;; esac for _x in inst_symlink inst_script inst_binary inst_simple; do $_x "$@" && return 0 done return 1 } # install function specialized for hooks # $1 = type of hook, $2 = hook priority (lower runs first), $3 = hook # All hooks should be POSIX/SuS compliant, they will be sourced by init. inst_hook() { if ! [[ -f $3 ]]; then dfatal "Cannot install a hook ($3) that does not exist." dfatal "Aborting initrd creation." exit 1 elif ! strstr "$hookdirs" "$1"; then dfatal "No such hook type $1. Aborting initrd creation." exit 1 fi inst_simple "$3" "/lib/dracut/hooks/${1}/${2}${3##*/}" } # install any of listed files # # If first argument is '-d' and second some destination path, first accessible # source is installed into this path, otherwise it will installed in the same # path as source. If none of listed files was installed, function return 1. # On first successful installation it returns with 0 status. # # Example: # # inst_any -d /bin/foo /bin/bar /bin/baz # # Lets assume that /bin/baz exists, so it will be installed as /bin/foo in # initramfs. inst_any() { local to f [[ $1 = '-d' ]] && to="$2" && shift 2 for f in "$@"; do if [[ -e $f ]]; then [[ $to ]] && inst "$f" "$to" && return 0 inst "$f" && return 0 fi done return 1 } # dracut_install [-o ] [ ... ] # Install to the initramfs image # -o optionally install the and don't fail, if it is not there dracut_install() { local _optional=no if [[ $1 = '-o' ]]; then _optional=yes shift fi while (($# > 0)); do if ! inst "$1" ; then if [[ $_optional = yes ]]; then dinfo "Skipping program $1 as it cannot be found and is" \ "flagged to be optional" else dfatal "Failed to install $1" exit 1 fi fi shift done } # install function decompressing the target and handling symlinks # $@ = list of compressed (gz or bz2) files or symlinks pointing to such files # # Function install targets in the same paths inside overlay but decompressed # and without extensions (.gz, .bz2). inst_decompress() { local _src _dst _realsrc _realdst _cmd for _src in $@ do case ${_src} in *.gz) _cmd='gzip -d' ;; *.bz2) _cmd='bzip2 -d' ;; *) return 1 ;; esac if [[ -L ${_src} ]] then _realsrc="$(readlink -f ${_src})" # symlink target with extension _dst="${_src%.*}" # symlink without extension _realdst="${_realsrc%.*}" # symlink target without extension mksubdirs "${initdir}/${_src}" # Create symlink without extension to target without extension. ln -sfn "${_realdst}" "${initdir}/${_dst}" fi # If the source is symlink we operate on its target. [[ ${_realsrc} ]] && _src=${_realsrc} inst ${_src} # Decompress with chosen tool. We assume that tool changes name e.g. # from 'name.gz' to 'name'. ${_cmd} "${initdir}${_src}" done } # It's similar to above, but if file is not compressed, performs standard # install. # $@ = list of files inst_opt_decompress() { local _src for _src in $@ do inst_decompress "${_src}" || inst "${_src}" done } # module_check # execute the check() function of module-setup.sh of # or the "check" script, if module-setup.sh is not found # "check $hostonly" is called module_check() { local _moddir=$(echo ${dracutbasedir}/modules.d/??${1}) local _ret local _forced=0 local _hostonly=$hostonly [ $# -eq 2 ] && _forced=$2 [[ -d $_moddir ]] || return 1 if [[ ! -f $_moddir/module-setup.sh ]]; then # if we do not have a check script, we are unconditionally included [[ -x $_moddir/check ]] || return 0 [ $_forced -ne 0 ] && unset hostonly $_moddir/check $hostonly _ret=$? else unset check depends install installkernel . $_moddir/module-setup.sh is_func check || return 0 [ $_forced -ne 0 ] && unset hostonly check $hostonly _ret=$? unset check depends install installkernel fi hostonly=$_hostonly return $_ret } # module_check_mount # execute the check() function of module-setup.sh of # or the "check" script, if module-setup.sh is not found # "mount_needs=1 check 0" is called module_check_mount() { local _moddir=$(echo ${dracutbasedir}/modules.d/??${1}) local _ret mount_needs=1 [[ -d $_moddir ]] || return 1 if [[ ! -f $_moddir/module-setup.sh ]]; then # if we do not have a check script, we are unconditionally included [[ -x $_moddir/check ]] || return 0 mount_needs=1 $_moddir/check 0 _ret=$? else unset check depends install installkernel . $_moddir/module-setup.sh is_func check || return 1 check 0 _ret=$? unset check depends install installkernel fi unset mount_needs return $_ret } # module_depends # execute the depends() function of module-setup.sh of # or the "depends" script, if module-setup.sh is not found module_depends() { local _moddir=$(echo ${dracutbasedir}/modules.d/??${1}) local _ret [[ -d $_moddir ]] || return 1 if [[ ! -f $_moddir/module-setup.sh ]]; then # if we do not have a check script, we have no deps [[ -x $_moddir/check ]] || return 0 $_moddir/check -d return $? else unset check depends install installkernel . $_moddir/module-setup.sh is_func depends || return 0 depends _ret=$? unset check depends install installkernel return $_ret fi } # module_install # execute the install() function of module-setup.sh of # or the "install" script, if module-setup.sh is not found module_install() { local _moddir=$(echo ${dracutbasedir}/modules.d/??${1}) local _ret [[ -d $_moddir ]] || return 1 if [[ ! -f $_moddir/module-setup.sh ]]; then [[ -x $_moddir/install ]] && . "$_moddir/install" return $? else unset check depends install installkernel . $_moddir/module-setup.sh is_func install || return 0 install _ret=$? unset check depends install installkernel return $_ret fi } # module_installkernel # execute the installkernel() function of module-setup.sh of # or the "installkernel" script, if module-setup.sh is not found module_installkernel() { local _moddir=$(echo ${dracutbasedir}/modules.d/??${1}) local _ret [[ -d $_moddir ]] || return 1 if [[ ! -f $_moddir/module-setup.sh ]]; then [[ -x $_moddir/installkernel ]] && . "$_moddir/installkernel" return $? else unset check depends install installkernel . $_moddir/module-setup.sh is_func installkernel || return 0 installkernel _ret=$? unset check depends install installkernel return $_ret fi } # check_mount # check_mount checks, if a dracut module is needed for the given # device and filesystem types in "${host_fs_types[@]}" check_mount() { local _mod=$1 local _moddir=$(echo ${dracutbasedir}/modules.d/??${1}) local _ret local _moddep # If we are already scheduled to be loaded, no need to check again. strstr " $mods_to_load " " $_mod " && return 0 strstr " $mods_checked_as_dep " " $_mod " && return 1 # This should never happen, but... [[ -d $_moddir ]] || return 1 [[ $2 ]] || mods_checked_as_dep+=" $_mod " strstr " $omit_dracutmodules " " $_mod " && return 1 if [ "${#host_fs_types[*]}" -gt 0 ]; then module_check_mount $_mod || return 1 else # skip this module return 1 fi for _moddep in $(module_depends $_mod); do # handle deps as if they were manually added strstr " $add_dracutmodules " " $_moddep " || \ add_dracutmodules+=" $_moddep " strstr " $force_add_dracutmodules " " $_moddep " || \ force_add_dracutmodules+=" $_moddep " # if a module we depend on fail, fail also check_module $_moddep || return 1 done strstr " $mods_to_load " " $_mod " || \ mods_to_load+=" $_mod " return 0 } # check_module [] # check if a dracut module is to be used in the initramfs process # if is set, then the process also keeps track # that the modules were checked for the dependency tracking process check_module() { local _mod=$1 local _moddir=$(echo ${dracutbasedir}/modules.d/??${1}) local _ret local _moddep # If we are already scheduled to be loaded, no need to check again. strstr " $mods_to_load " " $_mod " && return 0 strstr " $mods_checked_as_dep " " $_mod " && return 1 # This should never happen, but... [[ -d $_moddir ]] || return 1 [[ $2 ]] || mods_checked_as_dep+=" $_mod " strstr " $omit_dracutmodules " " $_mod " && return 1 if strstr " $dracutmodules $add_dracutmodules $force_add_dracutmodules" " $_mod "; then if strstr " $force_add_dracutmodules" " $_mod"; then module_check $_mod 1; ret=$? else module_check $_mod 0; ret=$? fi # explicit module, so also accept ret=255 [[ $ret = 0 || $ret = 255 ]] || return 1 else # module not in our list if [[ $dracutmodules = all ]]; then # check, if we can and should install this module module_check $_mod || return 1 else # skip this module return 1 fi fi for _moddep in $(module_depends $_mod); do # handle deps as if they were manually added strstr " $add_dracutmodules " " $_moddep " || \ add_dracutmodules+=" $_moddep " strstr " $force_add_dracutmodules " " $_moddep " || \ force_add_dracutmodules+=" $_moddep " # if a module we depend on fail, fail also check_module $_moddep || return 1 done strstr " $mods_to_load " " $_mod " || \ mods_to_load+=" $_mod " return 0 } # for_each_module_dir # execute " 1" for_each_module_dir() { local _modcheck local _mod local _moddir local _func _func=$1 for _moddir in "$dracutbasedir/modules.d"/[0-9][0-9]*; do _mod=${_moddir##*/}; _mod=${_mod#[0-9][0-9]} $_func $_mod 1 done # Report any missing dracut modules, the user has specified _modcheck="$add_dracutmodules $force_add_dracutmodules" [[ $dracutmodules != all ]] && _modcheck="$m $dracutmodules" for _mod in $_modcheck; do strstr "$mods_to_load" "$_mod" && continue strstr "$omit_dracutmodules" "$_mod" && continue derror "Dracut module \"$_mod\" cannot be found." done } # Install a single kernel module along with any firmware it may require. # $1 = full path to kernel module to install install_kmod_with_fw() { # no need to go further if the module is already installed [[ -e "${initdir}/lib/modules/$kernel/${1##*/lib/modules/$kernel/}" ]] \ && return 0 if [[ $omit_drivers ]]; then local _kmod=${1##*/} _kmod=${_kmod%.ko} _kmod=${_kmod/-/_} if strstr " $omit_drivers " " $_kmod " ; then dinfo "Omitting driver $_kmod" return 1 fi fi inst_simple "$1" "/lib/modules/$kernel/${1##*/lib/modules/$kernel/}" \ || return $? local _modname=${1##*/} _fwdir _found _fw _modname=${_modname%.ko*} for _fw in $(modinfo -k $kernel -F firmware $1 2>/dev/null); do _found='' for _fwdir in $fw_dir; do if [[ -d $_fwdir && -f $_fwdir/$_fw ]]; then inst_simple "$_fwdir/$_fw" "/lib/firmware/$_fw" _found=yes fi done if [[ $_found != yes ]]; then if ! grep -qe "\<${_modname//-/_}\>" /proc/modules; then dinfo "Possible missing firmware \"${_fw}\" for kernel module" \ "\"${_modname}.ko\"" else dwarn "Possible missing firmware \"${_fw}\" for kernel module" \ "\"${_modname}.ko\"" fi fi done return 0 } # Do something with all the dependencies of a kernel module. # Note that kernel modules depend on themselves using the technique we use # $1 = function to call for each dependency we find # It will be passed the full path to the found kernel module # $2 = module to get dependencies for # rest of args = arguments to modprobe # _fderr specifies FD passed from surrounding scope for_each_kmod_dep() { local _func=$1 _kmod=$2 _cmd _modpath _options _found=0 shift 2 modprobe "$@" --ignore-install --show-depends $_kmod 2>&${_fderr} | ( while read _cmd _modpath _options; do [[ $_cmd = insmod ]] || continue $_func ${_modpath} || exit $? _found=1 done [[ $_found -eq 0 ]] && exit 1 exit 0 ) } # filter kernel modules to install certain modules that meet specific # requirements. # $1 = search only in subdirectory of /kernel/$1 # $2 = function to call with module name to filter. # This function will be passed the full path to the module to test. # The behaviour of this function can vary depending on whether $hostonly is set. # If it is, we will only look at modules that are already in memory. # If it is not, we will look at all kernel modules # This function returns the full filenames of modules that match $1 filter_kernel_modules_by_path () ( local _modname _filtercmd if ! [[ $hostonly ]]; then _filtercmd='find "$srcmods/kernel/$1" "$srcmods/extra"' _filtercmd+=' "$srcmods/weak-updates" -name "*.ko" -o -name "*.ko.gz"' _filtercmd+=' -o -name "*.ko.xz"' _filtercmd+=' 2>/dev/null' else _filtercmd='cut -d " " -f 1 $initdir/$$.ko $2 $initdir/$$.ko && echo "$_modname" rm -f $initdir/$$.ko ;; *.ko.xz) xz -dc "$_modname" > $initdir/$$.ko $2 $initdir/$$.ko && echo "$_modname" rm -f $initdir/$$.ko ;; esac done ) find_kernel_modules_by_path () ( if ! [[ $hostonly ]]; then find "$srcmods/kernel/$1" "$srcmods/extra" "$srcmods/weak-updates" \ -name "*.ko" -o -name "*.ko.gz" -o -name "*.ko.xz" 2>/dev/null else cut -d " " -f 1 /dev/null fi ) filter_kernel_modules () { filter_kernel_modules_by_path drivers "$1" } find_kernel_modules () { find_kernel_modules_by_path drivers } # instmods [ ... ] # instmods # install kernel modules along with all their dependencies. # can be e.g. "=block" or "=drivers/usb/storage" instmods() { [[ $no_kernel = yes ]] && return # called [sub]functions inherit _fderr local _fderr=9 function inst1mod() { local _mod="$1" case $_mod in =*) # This introduces 2 incompatible meanings for =* arguments # to instmods. We need to decide which one to keep. if [[ $_mod = =ata && -f $srcmods/modules.block ]]; then ( [[ "$_mpargs" ]] && echo $_mpargs egrep 'ata|ahci' "${srcmods}/modules.block" ) \ | instmods elif [ -f $srcmods/modules.${_mod#=} ]; then ( [[ "$_mpargs" ]] && echo $_mpargs cat "${srcmods}/modules.${_mod#=}" ) \ | instmods else ( [[ "$_mpargs" ]] && echo $_mpargs find "$srcmods" -path "*/${_mod#=}/*" ) \ | instmods fi ;; --*) _mpargs+=" $_mod" ;; i2o_scsi) return ;; # Do not load this diagnostic-only module *) _mod=${_mod##*/} # if we are already installed, skip this module and go on # to the next one. [[ -f $initdir/$1 ]] && return # If we are building a host-specific initramfs and this # module is not already loaded, move on to the next one. [[ $hostonly ]] && ! grep -qe "\<${_mod//-/_}\>" /proc/modules \ && ! echo $add_drivers | grep -qe "\<${_mod}\>" \ && return # We use '-d' option in modprobe only if modules prefix path # differs from default '/'. This allows us to use Dracut with # old version of modprobe which doesn't have '-d' option. local _moddirname=${srcmods%%/lib/modules/*} [[ -n ${_moddirname} ]] && _moddirname="-d ${_moddirname}/" # ok, load the module, all its dependencies, and any firmware # it may require for_each_kmod_dep install_kmod_with_fw $_mod \ --set-version $kernel ${_moddirname} $_mpargs ((_ret+=$?)) ;; esac } function instmods_1() { local _ret=0 _mod _mpargs if (($# == 0)); then # filenames from stdin while read _mod; do inst1mod "${_mod%.ko*}" done fi while (($# > 0)); do # filenames as arguments inst1mod ${1%.ko*} shift done return $_ret } # Capture all stderr from modprobe to _fderr. We could use {var}>... # redirections, but that would make dracut require bash4 at least. eval "( instmods_1 \"\$@\" ) ${_fderr}>&1" \ | egrep -v 'FATAL: Module .* not found.' | derror return $? }