#!/bin/ksh -p # # CDDL HEADER START # # The contents of this file are subject to the terms of the # Common Development and Distribution License (the "License"). # You may not use this file except in compliance with the License. # # You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE # or http://www.opensolaris.org/os/licensing. # See the License for the specific language governing permissions # and limitations under the License. # # When distributing Covered Code, include this CDDL HEADER in each # file and include the License file at usr/src/OPENSOLARIS.LICENSE. # If applicable, add the following below this CDDL HEADER, with the # fields enclosed by brackets "[]" replaced with your own identifying # information: Portions Copyright [yyyy] [name of copyright owner] # # CDDL HEADER END # # Copyright 2008 Sun Microsystems, Inc. All rights reserved. # Use is subject to license terms. # ident "%Z%%M% %I% %E% SMI" format=ufs ALT_ROOT= EXTRACT_ARGS= compress=yes SPLIT=unknown ERROR=0 dirsize32=0 dirsize64=0 usage() { echo "This utility is a component of the bootadm(1M) implementation" echo "and it is not recommended for stand-alone use." echo "Please use bootadm(1M) instead." echo "" echo "Usage: ${0##*/}: [-R \] [-p \] [--nocompress]" echo "where \ is one of i86pc, sun4u or sun4v" exit } # default platform is what we're running on PLATFORM=`uname -m` # # set path, but inherit /tmp/bfubin if owned by # same uid executing this process, which must be root. # if [ "`echo $PATH | cut -f 1 -d :`" = /tmp/bfubin ] && \ [ -O /tmp/bfubin ] ; then export PATH=/tmp/bfubin export GZIP_CMD=/tmp/bfubin/gzip else export PATH=/usr/sbin:/usr/bin:/sbin export GZIP_CMD=/usr/bin/gzip fi EXTRACT_FILELIST="/boot/solaris/bin/extract_boot_filelist" # # Parse options # while [ "$1" != "" ] do case $1 in -R) shift ALT_ROOT="$1" if [ "$ALT_ROOT" != "/" ]; then echo "Creating boot_archive for $ALT_ROOT" EXTRACT_ARGS="${EXTRACT_ARGS} -R ${ALT_ROOT}" EXTRACT_FILELIST="${ALT_ROOT}${EXTRACT_FILELIST}" fi ;; -n|--nocompress) compress=no ;; -p) shift PLATFORM="$1" EXTRACT_ARGS="${EXTRACT_ARGS} -p ${PLATFORM}" ;; *) usage ;; esac shift done if [ -x /usr/bin/mkisofs -o -x /tmp/bfubin/mkisofs ] ; then format=isofs fi # # mkisofs on s8 doesn't support functionality used by GRUB boot. # Use ufs format for boot archive instead. # release=`uname -r` if [ "$release" = "5.8" ]; then format=ufs fi shift `expr $OPTIND - 1` if [ $# -eq 1 ]; then ALT_ROOT="$1" echo "Creating boot_archive for $ALT_ROOT" fi case $PLATFORM in i386) PLATFORM=i86pc ISA=i386 ARCH64=amd64 ;; i86pc) ISA=i386 ARCH64=amd64 ;; sun4u) ISA=sparc ARCH64=sparcv9 ;; sun4v) ISA=sparc ARCH64=sparcv9 ;; *) usage ;; esac BOOT_ARCHIVE=platform/$PLATFORM/boot_archive BOOT_ARCHIVE_64=platform/$PLATFORM/$ARCH64/boot_archive if [ $PLATFORM = i86pc ] ; then NM=/bin/nm SYMDEF=/boot/solaris/bin/symdef if [ -x $NM ]; then $NM "$ALT_ROOT"/platform/i86pc/kernel/unix | \ grep dboot_image >/dev/null 2>&1 if [ $? = 0 ]; then SPLIT=yes else SPLIT=no compress=no fi elif [ ! -x $SYMDEF ]; then # Shouldn't happen echo "Warning: both $NM and $SYMDEF not present." echo "Creating single archive at $ALT_ROOT/$BOOT_ARCHIVE" SPLIT=no compress=no elif $SYMDEF "$ALT_ROOT"/platform/i86pc/kernel/unix \ dboot_image 2>/dev/null; then SPLIT=yes else # no dboot SPLIT=no compress=no fi else # must be sparc SPLIT=no # there's only 64-bit (sparcv9), so don't split compress=no fi [ -x $GZIP_CMD ] || compress=no function cleanup { umount -f "$rdmnt32" 2>/dev/null umount -f "$rdmnt64" 2>/dev/null lofiadm -d "$rdfile32" 2>/dev/null lofiadm -d "$rdfile64" 2>/dev/null [ -n "$rddir" ] && rm -fr "$rddir" 2> /dev/null [ -n "$new_rddir" ] && rm -fr "$new_rddir" 2>/dev/null } function getsize { # Estimate image size and add 10% overhead for ufs stuff. # Note, we can't use du here in case we're on a filesystem, e.g. zfs, # in which the disk usage is less than the sum of the file sizes. # The nawk code # # {t += ($5 % 1024) ? (int($5 / 1024) + 1) * 1024 : $5} # # below rounds up the size of a file/directory, in bytes, to the # next multiple of 1024. This mimics the behavior of ufs especially # with directories. This results in a total size that's slightly # bigger than if du was called on a ufs directory. size32=$(cat "$list32" | xargs -I {} ls -lLd "{}" 2> /dev/null | nawk '{t += ($5 % 1024) ? (int($5 / 1024) + 1) * 1024 : $5} END {print int(t * 1.10 / 1024)}') (( size32 += dirsize32 )) size64=$(cat "$list64" | xargs -I {} ls -lLd "{}" 2> /dev/null | nawk '{t += ($5 % 1024) ? (int($5 / 1024) + 1) * 1024 : $5} END {print int(t * 1.10 / 1024)}') (( size64 += dirsize64 )) (( total_size = size32 + size64 )) if [ $compress = yes ] ; then total_size=`echo $total_size | nawk '{print int($1 / 2)}'` fi } # # Copies all desired files to a target directory. One argument should be # passed: the file containing the list of files to copy. This function also # depends on several variables that must be set before calling: # # $ALT_ROOT - the target directory # $compress - whether or not the files in the archives should be compressed # $rdmnt - the target directory # function copy_files { list="$1" # # If compress is set, the files are gzip'd and put in the correct # location in the loop. Nothing is printed, so the pipe and cpio # at the end is a nop. # # If compress is not set, the file names are printed, which causes # the cpio at the end to do the copy. # while read path do if [ $compress = yes ]; then dir="${path%/*}" [ -d "$rdmnt/$dir" ] || mkdir -p "$rdmnt/$dir" $GZIP_CMD -c "$path" > "$rdmnt/$path" else print "$path" fi done <"$list" | cpio -pdum "$rdmnt" 2>/dev/null if [ $ISA = sparc ] ; then # copy links find $filelist -type l -print 2>/dev/null |\ cpio -pdum "$rdmnt" 2>/dev/null if [ $compress = yes ] ; then # always copy unix uncompressed find $filelist -name unix -type f -print 2>/dev/null |\ cpio -pdum "$rdmnt" 2>/dev/null fi fi } # # The first argument can be: # # "both" - create an archive with both 32-bit and 64-bit binaries # "32-bit" - create an archive with only 32-bit binaries # "64-bit" - create an archive with only 64-bit binaries # function create_ufs { which=$1 archive=$2 lofidev=$3 # should we exclude amd64 binaries? if [ "$which" = "32-bit" ]; then rdfile="$rdfile32" rdmnt="$rdmnt32" list="$list32" elif [ "$which" = "64-bit" ]; then rdfile="$rdfile64" rdmnt="$rdmnt64" list="$list64" else rdfile="$rdfile32" rdmnt="$rdmnt32" list="$list32" fi newfs $lofidev < /dev/null 2> /dev/null mkdir "$rdmnt" mount -F mntfs mnttab /etc/mnttab > /dev/null 2>&1 mount -o nologging $lofidev "$rdmnt" files= # do the actual copy copy_files "$list" umount "$rdmnt" rmdir "$rdmnt" if [ $ISA = sparc ] ; then rlofidev=`echo "$lofidev" | sed -e "s/dev\/lofi/dev\/rlofi/"` bb="$ALT_ROOT/platform/$PLATFORM/lib/fs/ufs/bootblk" # installboot is not available on all platforms dd if=$bb of=$rlofidev bs=1b oseek=1 count=15 conv=sync 2>&1 fi # # Check if gzip exists in /usr/bin, so we only try to run gzip # on systems that have gzip. Then run gzip out of the patch to # pick it up from bfubin or something like that if needed. # # If compress is set, the individual files in the archive are # compressed, and the final compression will accomplish very # little. To save time, we skip the gzip in this case. # if [ $ISA = i386 ] && [ $compress = no ] && \ [ -x $GZIP_CMD ] ; then gzip -c "$rdfile" > "${archive}-new" else cat "$rdfile" > "${archive}-new" fi } # # The first argument can be: # # "both" - create an archive with both 32-bit and 64-bit binaries # "32-bit" - create an archive with only 32-bit binaries # "64-bit" - create an archive with only 64-bit binaries # function create_isofs { which=$1 archive=$2 # should we exclude amd64 binaries? if [ "$which" = "32-bit" ]; then rdmnt="$rdmnt32" errlog="$errlog32" list="$list32" elif [ "$which" = "64-bit" ]; then rdmnt="$rdmnt64" errlog="$errlog64" list="$list64" else rdmnt="$rdmnt32" errlog="$errlog32" list="$list32" fi # create image directory seed with graft points mkdir "$rdmnt" files= isocmd="mkisofs -quiet -graft-points -dlrDJN -relaxed-filenames" if [ $ISA = sparc ] ; then bb="$ALT_ROOT/platform/$PLATFORM/lib/fs/hsfs/bootblk" isocmd="$isocmd -G \"$bb\"" fi copy_files "$list" isocmd="$isocmd \"$rdmnt\"" rm -f "$errlog" # # Check if gzip exists in /usr/bin, so we only try to run gzip # on systems that have gzip. Then run gzip out of the patch to # pick it up from bfubin or something like that if needed. # # If compress is set, the individual files in the archive are # compressed, and the final compression will accomplish very # little. To save time, we skip the gzip in this case. # if [ $ISA = i386 ] &&[ $compress = no ] && [ -x $GZIP_CMD ] then ksh -c "$isocmd" 2> "$errlog" | \ gzip > "${archive}-new" else ksh -c "$isocmd" 2> "$errlog" > "${archive}-new" fi dd_ret=0 if [ $ISA = sparc ] ; then bb="$ALT_ROOT/platform/$PLATFORM/lib/fs/hsfs/bootblk" dd if="$bb" of="${archive}-new" bs=1b oseek=1 count=15 \ conv=notrunc conv=sync >> "$errlog" 2>&1 dd_ret=$? fi if [ -s "$errlog" ] || [ $dd_ret -ne 0 ] ; then grep Error: "$errlog" >/dev/null 2>&1 if [ $? -eq 0 ] || [ $dd_ret -ne 0 ] ; then cat "$errlog" rm -f "${archive}-new" fi fi rm -f "$errlog" } function create_archive { which=$1 archive=$2 lofidev=$3 echo "updating $archive" if [ "$format" = "ufs" ]; then create_ufs "$which" "$archive" "$lofidev" else create_isofs "$which" "$archive" fi # sanity check the archive before moving it into place # ARCHIVE_SIZE=`ls -l "${archive}-new" | nawk '{ print $5 }'` if [ $compress = yes ] || [ $ISA = sparc ] ; then # # 'file' will report "English text" for uncompressed # boot_archives. Checking for that doesn't seem stable, # so we just check that the file exists. # ls "${archive}-new" >/dev/null 2>&1 else # # the file type check also establishes that the # file exists at all # LC_MESSAGES=C file "${archive}-new" | grep gzip > /dev/null fi if [ $? = 1 ] && [ -x $GZIP_CMD ] || [ $ARCHIVE_SIZE -lt 5000 ] then # # Two of these functions may be run in parallel. We # need to allow the other to clean up, so we can't # exit immediately. Instead, we set a flag. # echo "update of $archive failed" ERROR=1 else lockfs -f "/$ALT_ROOT" 2>/dev/null mv "${archive}-new" "$archive" lockfs -f "/$ALT_ROOT" 2>/dev/null fi } function fatal_error { print -u2 $* exit 1 } # # get filelist # if [ ! -f "$ALT_ROOT/boot/solaris/filelist.ramdisk" ] && [ ! -f "$ALT_ROOT/etc/boot/solaris/filelist.ramdisk" ] then print -u2 "Can't find filelist.ramdisk" exit 1 fi filelist=$($EXTRACT_FILELIST $EXTRACT_ARGS \ /boot/solaris/filelist.ramdisk \ /etc/boot/solaris/filelist.ramdisk \ 2>/dev/null | sort -u) # # We use /tmp/ for scratch space now. This may be changed later if there # is insufficient space in /tmp/. # rddir="/tmp/create_ramdisk.$$.tmp" new_rddir= rm -rf "$rddir" mkdir "$rddir" || fatal_error "Could not create temporary directory $rddir" # Clean up upon exit. trap 'cleanup' EXIT list32="$rddir/filelist.32" list64="$rddir/filelist.64" touch $list32 $list64 # # This loop creates the 32-bit and 64-bit lists of files. The 32-bit list # is written to stdout, which is redirected at the end of the loop. The # 64-bit list is appended with each write. # cd "/$ALT_ROOT" find $filelist -print 2>/dev/null | while read path do if [ $SPLIT = no ]; then print "$path" elif [ -d "$path" ]; then if [ $format = ufs ]; then size=`ls -lLd "$path" | nawk ' {print ($5 % 1024) ? (int($5 / 1024) + 1) * 1024 : $5}'` if [ `basename "$path"` != "amd64" ]; then (( dirsize32 += size )) fi (( dirsize64 += size )) fi else case `LC_MESSAGES=C /usr/bin/file -m /dev/null "$path" 2>/dev/null` in *ELF\ 64-bit*) print "$path" >> "$list64" ;; *ELF\ 32-bit*) print "$path" ;; *) # put in both lists print "$path" print "$path" >> "$list64" esac fi done >"$list32" if [ $format = ufs ] ; then # calculate image size getsize # check to see if there is sufficient space in tmpfs # tmp_free=`df -b /tmp | tail -1 | awk '{ printf ($2) }'` (( tmp_free = tmp_free / 2 )) if [ $total_size -gt $tmp_free ] ; then # assumes we have enough scratch space on $ALT_ROOT new_rddir="/$ALT_ROOT/create_ramdisk.$$.tmp" rm -rf "$new_rddir" mkdir "$new_rddir" || fatal_error \ "Could not create temporary directory $new_rddir" # Save the file lists mv "$list32" "$new_rddir"/ mv "$list64" "$new_rddir"/ list32="/$new_rddir/filelist.32" list64="/$new_rddir/filelist.64" # Remove the old $rddir and set the new value of rddir rm -rf "$rddir" rddir="$new_rddir" new_rddir= fi fi rdfile32="$rddir/rd.file.32" rdfile64="$rddir/rd.file.64" rdmnt32="$rddir/rd.mount.32" rdmnt64="$rddir/rd.mount.64" errlog32="$rddir/rd.errlog.32" errlog64="$rddir/rd.errlog.64" lofidev32="" lofidev64="" if [ $SPLIT = yes ]; then # # We can't run lofiadm commands in parallel, so we have to do # them here. # if [ "$format" = "ufs" ]; then mkfile ${size32}k "$rdfile32" lofidev32=`lofiadm -a "$rdfile32"` mkfile ${size64}k "$rdfile64" lofidev64=`lofiadm -a "$rdfile64"` fi create_archive "32-bit" "$ALT_ROOT/$BOOT_ARCHIVE" $lofidev32 & create_archive "64-bit" "$ALT_ROOT/$BOOT_ARCHIVE_64" $lofidev64 wait if [ "$format" = "ufs" ]; then lofiadm -d "$rdfile32" lofiadm -d "$rdfile64" fi else if [ "$format" = "ufs" ]; then mkfile ${total_size}k "$rdfile32" lofidev32=`lofiadm -a "$rdfile32"` fi create_archive "both" "$ALT_ROOT/$BOOT_ARCHIVE" $lofidev32 [ "$format" = "ufs" ] && lofiadm -d "$rdfile32" fi if [ $ERROR = 1 ]; then cleanup exit 1 fi # # For the diskless case, hardlink archive to /boot to make it # visible via tftp. /boot is lofs mounted under /tftpboot/. # NOTE: this script must work on both client and server. # grep "[ ]/[ ]*nfs[ ]" "$ALT_ROOT/etc/vfstab" > /dev/null if [ $? = 0 ]; then rm -f "$ALT_ROOT/boot/boot_archive" "$ALT_ROOT/boot/amd64/boot_archive" ln "$ALT_ROOT/$BOOT_ARCHIVE" "$ALT_ROOT/boot/boot_archive" if [ $SPLIT = yes ]; then ln "$ALT_ROOT/$BOOT_ARCHIVE_64" \ "$ALT_ROOT/boot/amd64/boot_archive" fi fi [ -n "$rddir" ] && rm -rf "$rddir"