#!/bin/ksh # # 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 (c) 1996, 2010, Oracle and/or its affiliates. All rights reserved. # # Author: Jeff Bonwick # # Please report any bugs to bonwick@eng. # # How Install works: # # Install performs the following steps: # # 1. Get the list of modules, configuration files, and links # that are desired. # # 2. Create the requested subset of /kernel in Install's temp space # (/tmp/Install.username by default.) # # 3. Create a tar file (/tmp/Install.username/Install.tar) based on (3). # # 4. If -n was specified, exit. If a target was specified using -T, # rcp the tarfile to the target and exit. If a target was specified # using -t, rsh to the target machine and untar the tarfile in the # target directory. # # If any of these steps fail, Install will give you an error message and, # in most cases, suggest corrective measures. Then, you can recover the # install with "Install -R". (This is not required; it's just faster than # starting from scratch.) # # One final comment: Unfortunately, tar and I disagree on what # constitutes a fatal error. (tar -x will exit 0 even if it can't write # anything in the current directory.) Thus, I am reduced to grepping stderr # for (what I consider) fatal and nonfatal error messages. If you run into # a situation where this doesn't behave the way you think it should (either # an "Install failed" message after a successful install, or an "Install # complete" message after it bombs), please let me know. # # The CDPATH variable causes ksh's `cd' builtin to emit messages to stdout # under certain circumstances, which can really screw things up; unset it. # unset CDPATH INSTALL=`basename $0` DOT=`pwd` TRAILER="Install.$LOGNAME" INSTALL_STATE=${INSTALL_STATE-$HOME/.Install.state} export INSTALL_STATE INSTALL_DIR=${INSTALL_DIR-/tmp/$TRAILER} if [ "`basename $INSTALL_DIR`" != "$TRAILER" ]; then INSTALL_DIR="$INSTALL_DIR/$TRAILER" fi export INSTALL_DIR INSTALL_LIB=${INSTALL_LIB-$HOME/LibInstall} export INSTALL_LIB INSTALL_RC=${INSTALL_RC-$HOME/.Installrc} export INSTALL_RC INSTALL_CP=${INSTALL_CP-"cp -p"} export INSTALL_CP INSTALL_RCP=${INSTALL_RCP-"rcp -p"} export INSTALL_RCP STATE=0 DEFAULT_OPTIONS="-naq" GLOM=no GLOMNAME=kernel IMPL="default" WANT32="yes" WANT64="yes" modlist=/tmp/modlist$$ # dummy directory for make state files. modstatedir=/tmp/modstate$$ trap 'fail "User Interrupt" "You can resume by typing \"$INSTALL -R\""' 1 2 3 15 function usage { echo "" echo $1 echo ' Usage: Install [ -w workspace ] [ -s srcdir (default: usr/src/uts) ] [ -k karch (e.g. sun4u; required if not deducible from pwd) ] [ -t target (extract tar file on target, e.g. user@machine:/) ] [ -T target (copy tar file to target, e.g. user@machine:/tmp) ] [ -n (no target, just create tar file in /tmp (default)) ] [ -u (install unix only) ] [ -m (install modules only) ] [ -a (install everything, i.e. unix + modules (default)) ] [ -v (verbose output) ] [ -V (REALLY verbose output) ] [ -q (quiet (default)) ] [ -c (clean up (remove temp files) when done (default) ] [ -p (preserve temp files -- useful for debugging) ] [ -L (library create: put tarfile in $INSTALL_LIB/env.karch) ] [ -l lib (library extract: use $INSTALL_LIB/lib as source) ] [ -D libdir (default: $HOME/LibInstall) ] [ -d tempdir (Install work area (default: /tmp)) ] [ -G glomname (put all files under platform/karch/glomname) ] [ -i impl (e.g. sunfire; recommended with -G) ] [ -x (update /etc/name_to_major et al) ] [ -X (do not update /etc/name_to_major et al (default)) ] [ -P (update /etc/path_to_inst -- generally not advisable) ] [ -h (help -- prints this message) ] [ -R (recover a previous Install) ] [ -o objdir (object directory - either obj or debug (the default)) ] [ -K (do not copy kmdb) ] [ -3 32-bit modules only ] [ -6 64-bit modules only ] [ list of modules to install ] For full details: man -M /ws/on297-gate/public/docs Install ' exit 1 } # # Save the current state of Install # function save_state { rm -f $INSTALL_STATE (echo "# State of previous Install TARGET=$TARGET ENV_PATH=$ENV_PATH ENV_NAME=$ENV_NAME KARCH=$KARCH UTS=$UTS INSTALL_DIR=$INSTALL_DIR INSTALL_LIB=$INSTALL_LIB IMODE=$IMODE LIBCREATE=$LIBCREATE LIBSRC=$LIBSRC VERBOSE=$VERBOSE CLEANUP=$CLEANUP GLOM=$GLOM GLOMNAME=$GLOMNAME KMDB=$KMDB files='$files' STATE=$STATE" >$INSTALL_STATE) || verbose "Warning: cannot save state" } # # Restore the previous state of Install # function restore_state { test -s $INSTALL_STATE || fail "Can't find $INSTALL_STATE" eval "`cat $INSTALL_STATE`" } # # Install failed -- print error messages and exit 2 # function fail { save_state # # We might have gotten here via a trap. So wait for any # children (especially "make modlist") to exit before giving # the error message or cleaning up. # wait while [ $# -gt 0 ] do echo $1 shift done rm -rf $modstatedir rm -f $modlist echo "Install failed" exit 2 } # # Echo a string in verbose mode only # function verbose { test "$VERBOSE" != "q" && echo $1 } # # hack for tmpfs bug -- remove files gradually # function remove_dir { test -d $1 || return local_dot=`pwd` cd $1 touch foo rm -f `find . -type f -print` cd $local_dot rm -rf $1 } # # Create a directory if it doesn't already exist. # mkdir will provide an error message, so don't provide an additional # message. # function tstmkdir { [ -d $1 ] || mkdir -p $1 || fail } # # Patch up target directories for glommed kernel. # usage: fixglom listfile glomname # function fixglom { nawk \ -v glomname=$2 \ -v karch=$KARCH ' $1 == "MOD" || $1 == "SYMLINK" { sub(/^platform.*kernel/, "platform/" karch "/" glomname, $4) sub(/^kernel/, "platform/" karch "/" glomname, $4) sub(/^usr.kernel/, "platform/" karch "/" glomname, $4) print } $1 == "LINK" { sub(/^platform.*kernel/, "platform/" karch "/" glomname, $3) sub(/^kernel/, "platform/" karch "/" glomname, $3) sub(/^usr.kernel/, "platform/" karch "/" glomname, $3) sub(/^platform.*kernel/, "platform/" karch "/" glomname, $5) sub(/^kernel/, "platform/" karch "/" glomname, $5) sub(/^usr.kernel/, "platform/" karch "/" glomname, $5) print } $1 == "CONF" { sub(/^platform.*kernel/, "platform/" karch "/" glomname, $3) sub(/^kernel/, "platform/" karch "/" glomname, $3) sub(/^usr.kernel/, "platform/" karch "/" glomname, $3) print } ' $1 > $1.new mv $1.new $1 } # # Filter out implementation-specific modules, unless that # implementation was requested by the user. # usage: filtimpl listfile implname # function filtimpl { nawk \ -v impl=$2 ' $1 == "MOD" || $1 == "SYMLINK" { if ($6 == "all" || $6 == impl) print } $1 == "CONF" { if ($5 == "all" || $5 == impl) print } $1 == "LINK" { if ($7 == "all" || $7 == impl) print } ' $1 > $1.new mv $1.new $1 } # # Filter the module list to match the user's request. # Usage: filtmod listfile modules # function filtmod { nawk -v reqstring="$2" ' function modmatch(modname) { if (reqstring == "All") { return (1) } else if (reqstring == "Modules") { if (modname != "unix" && modname != "genunix") return (1) } else { if (modname in reqmods) return (1) } return (0) } BEGIN { # # The split call creates indexes 1, 2, 3, ... We want # the module names as indexes. # split(reqstring, tmpmods) for (i in tmpmods) reqmods[tmpmods[i]] = 1 } $1 == "MOD" { if (modmatch($3)) print } $1 == "CONF" { if (modmatch($6)) print } $1 == "SYMLINK" { if (modmatch($7)) print } $1 == "LINK" { if (modmatch($4)) print } ' $1 > $1.new mv $1.new $1 } # # Unpack the crypto tarball into the given tree, then massage the # tree so that the binaries are all in objNN or debugNN directories. # function unpack_crypto { typeset tarfile=$1 typeset ctop=$2 [ -d "$ctop" ] || fail "Can't create tree for crypto modules." [ "$VERBOSE" = "V" ] && echo "unpacking crypto tarball into $ctop..." bzcat "$tarfile" | (cd "$ctop"; tar xf -) typeset root="$ctop/proto/root_$MACH" [ $OBJD = obj ] && root="$ctop/proto/root_$MACH-nd" [ -d "$root" ] || fail "Can't unpack crypto tarball." (cd "$root"; for d in platform kernel usr/kernel; do [ ! -d $d ] && continue find $d -type f -print done) | while read file; do typeset dir=$(dirname "$file") typeset base=$(basename "$file") typeset type=$(basename "$dir") if [ "$type" = amd64 ]; then newdir="$dir/${OBJD}64" elif [ "$type" = sparcv9 ]; then newdir="$dir/${OBJD}64" else newdir="$dir/${OBJD}32" fi mkdir -p "$root/$newdir" [ "$VERBOSE" = "V" ] && echo "mv $file $newdir" mv "$root/$file" "$root/$newdir" done } # # Copy a module, or create a link, as needed. # function copymod { case $1 in MOD) targdir=$INSTALL_FILES/$4 tstmkdir $targdir target=$targdir/$3 verbose "$INSTALL_CP $2/${OBJD}$5/$3 $target" $INSTALL_CP $2/${OBJD}$5/$3 $target || \ fail "can't create $target" ;; SYMLINK) targdir=$INSTALL_FILES/$4 tstmkdir $targdir target=$targdir/$5 rm -f $target verbose "ln -s $3 $target" ln -s $3 $target || fail "can't create $target" ;; LINK) targdir=$INSTALL_FILES/$5 tstmkdir $targdir target=$targdir/$6 rm -f $target verbose "ln $INSTALL_FILES/$3/$4 $target" ln $INSTALL_FILES/$3/$4 $target || fail "can't create $target" ;; CONF) target=$INSTALL_FILES/$3 tstmkdir `dirname $target` conffile=`basename $3` verbose "$INSTALL_CP $4/$conffile $target" $INSTALL_CP $4/$conffile $target ;; *) fail "unrecognized modlist entry: $*" ;; esac } # Sanity-check the given module list. function check_modlist { nawk ' BEGIN { nfields["MOD"] = 6 nfields["CONF"] = 6 nfields["LINK"] = 7 nfields["SYMLINK"] = 7 } { # This also catches unknown tags. if (nfields[$1] != NF) { print "error: invalid modlist record:" print $0 print "expected", nfields[$1], "fields, found", NF status=1 } } END { exit status } ' $1 || fail "Errors in kernel module list" } # # Copy kernel modules to $INSTALL_DIR # function copy_kernel { case $KARCH in sun4*) ISA=sparc; MACH=sparc ;; i86*) ISA=intel; MACH=i386 ;; *) fail "${KARCH}: invalid kernel architecture";; esac export MACH if [ "$GLOM" = "no" ]; then verbose "Source = $UTS, ISA = $ISA, kernel = $KARCH" else verbose "Source = $UTS, ISA = $ISA, kernel = $KARCH, impl = $IMPL" fi test -d $KARCH || fail "${KARCH}: invalid kernel architecture" test -d $ISA || fail "${ISA}: invalid instruction set architecture" tstmkdir $INSTALL_FILES rm -rf $modstatedir tstmkdir $modstatedir export MODSTATE=$modstatedir/state # # Figure out which "make" to use. dmake is faster than serial # make, but dmake 7.3 has a bug that causes it to lose log # output, which means the modlist might be incomplete. # make=dmake dmvers=`$make -version` if [ $? -ne 0 ]; then make=/usr/ccs/bin/make elif [[ $dmvers = *Distributed?Make?7.3* ]]; then unset make searchpath="/ws/onnv-tools/SUNWspro/SOS10/bin /opt/SUNWspro/SOS10/bin /opt/SUNWspro/bin" for dmpath in $searchpath; do verbose "Trying $dmpath/dmake" if [ -x $dmpath/dmake ]; then dmvers=`$dmpath/dmake -version` if [[ $dmvers != *Distributed?Make?7.3* ]]; then make="$dmpath/dmake" break; fi fi done if [ -z $make ]; then make=/usr/ccs/bin/make echo "Warning: dmake 7.3 doesn't work with Install;" \ "using $make" fi fi # # Get a list of all modules, configuration files, and links # that we might want to install. # verbose "Building module list..." (cd $KARCH; MAKEFLAGS=e $make -K $MODSTATE modlist.karch) | \ egrep "^MOD|^CONF|^LINK|^SYMLINK" > $modlist [ "$VERBOSE" = "V" ] && cat $modlist check_modlist $modlist if [ "$GLOM" = "yes" ]; then fixglom $modlist $GLOMNAME filtimpl $modlist $IMPL fi if [[ -n "$files" && "$files" != All ]]; then filtmod $modlist "$files" fi # # Copy modules and create links. For architectures with both # 32- and 64-bit modules, we'll likely have duplicate # configuration files, so do those after filtering out the # duplicates. # verbose "Copying files to ${INSTALL_FILES}..." # # The IFS is reset to the newline character so we can buffer the # output of grep without piping it directly to copymod, otherwise # if fail() is called, then it will deadlock in fail()'s wait call # OIFS="$IFS" IFS=" " set -- `grep -v "^CONF" $modlist`; IFS="$OIFS" for onemod in "$@"; do copymod $onemod done OIFS="$IFS" IFS=" " set -- `grep "^CONF" $modlist | sort | uniq`; IFS="$OIFS" for onemod in "$@"; do copymod $onemod done # # Add the glommed kernel name to the root archive # if [[ $GLOM == "yes" ]]; then filelist="$INSTALL_FILES/etc/boot/solaris/filelist.ramdisk" mkdir -p `dirname $filelist` echo "platform/$KARCH/$GLOMNAME" >$filelist fi STATE=1 # all kernel modules copied correctly save_state } function kmdb_copy { typeset src="$1" typeset destdir="$2" if [[ ! -d $dest ]] ; then [[ "$VERBOSE" != "q" ]] && echo "mkdir -p $destdir" mkdir -p $destdir || fail "failed to create $destdir" fi [[ "$VERBOSE" != "q" ]] && echo "cp $src $destdir" cp $src $destdir || fail "failed to copy $src to $destdir" } function kmdb_copy_machkmods { typeset modbase="$1" typeset destdir="$2" typeset dir= typeset kmod= [[ ! -d $modbase ]] && return for dir in $(find $modbase -name kmod) ; do set -- $(echo $dir |tr '/' ' ') [[ $# -lt 2 ]] && fail "invalid mach kmod dir $dir" shift $(($# - 2)) kmod=$1 [[ ! -f $dir/$kmod ]] && continue kmdb_copy $dir/$kmod $destdir done } function kmdb_copy_karchkmods { typeset modbase="$1" typeset destdir="$2" typeset bitdir="$3" typeset dir= typeset kmod= typeset karch= [[ ! -d $modbase ]] && return for dir in $(find $modbase -name kmod) ; do set -- $(echo $dir | tr '/' ' ') [[ $# -lt 3 ]] && fail "invalid karch kmod dir $dir" shift $(($# - 3)) kmod=$1 bdir=$2 [[ $bdir != $bitdir ]] && continue [[ ! -f $dir/$1 ]] && continue kmdb_copy $dir/$kmod $destdir done } function kmdb_copy_kmdbmod { typeset kmdbpath="$1" typeset destdir="$2" [[ ! -f $kmdbpath ]] && return 1 kmdb_copy $kmdbpath $destdir return 0 } function copy_kmdb { typeset kmdbtgtdir=$INSTALL_FILES/platform/$KARCH/$GLOMNAME/misc typeset bitdirs= typeset isadir= typeset b64srcdir= typeset b64tgtdir= typeset b32srcdir= typeset b32tgtdir= typeset machdir= typeset platdir= if [[ $KMDB = "no" || ! -d $SRC/cmd/mdb ]] ; then # The kmdb copy was suppressed or the workspace doesn't contain # the mdb subtree. Either way, there's nothing to do. STATE=2 save_state return fi if [[ $(mach) = "i386" ]] ; then isadir="intel" b64srcdir="amd64" b64tgtdir="amd64" b32srcdir="ia32" b32tgtdir="." else isadir="sparc" b64srcdir="v9" b64tgtdir="sparcv9" b32srcdir="v7" b32tgtdir="." fi typeset foundkmdb=no typeset kmdbpath= typeset destdir= platdir=$INSTALL_FILES/platform/$KARCH/$GLOMNAME if [[ $GLOM = "yes" ]] ; then machdir=$platdir else machdir=$INSTALL_FILES/kernel fi srctrees=$SRC if [[ $WANT64 = "yes" ]] ; then # kmdbmod for sparc and x86 are built and installed # in different places if [[ $(mach) = "i386" ]] ; then kmdbpath=$SRC/cmd/mdb/$isadir/$b64srcdir/kmdb/kmdbmod destdir=$machdir/misc/$b64tgtdir else kmdbpath=$SRC/cmd/mdb/$KARCH/$b64srcdir/kmdb/kmdbmod destdir=$platdir/misc/$b64tgtdir fi if kmdb_copy_kmdbmod $kmdbpath $destdir ; then foundkmdb="yes" for tree in $srctrees; do kmdb_copy_machkmods \ $tree/cmd/mdb/$isadir/$b64srcdir \ $machdir/kmdb/$b64tgtdir kmdb_copy_karchkmods $tree/cmd/mdb/$KARCH \ $platdir/kmdb/$b64tgtdir $b64srcdir done fi fi if [[ $WANT32 = "yes" ]] ; then kmdbpath=$SRC/cmd/mdb/$isadir/$b32srcdir/kmdb/kmdbmod destdir=$machdir/misc/$b32tgtdir if kmdb_copy_kmdbmod $kmdbpath $destdir ; then foundkmdb="yes" for tree in $srctrees; do kmdb_copy_machkmods \ $tree/cmd/mdb/$isadir/$b32srcdir \ $machdir/kmdb/$b32tgtdir kmdb_copy_karchkmods $tree/cmd/mdb/$KARCH \ $platdir/kmdb/$b32tgtdir $b32srcdir done fi fi # A kmdb-less workspace isn't fatal, but it is potentially problematic, # as the changes made to uts may have altered something upon which kmdb # depends. We will therefore remind the user that they haven't built it # yet. if [[ $foundkmdb != "yes" ]] ; then echo "WARNING: kmdb isn't built, and won't be included" fi STATE=2 save_state return } # # Make tarfile # function make_tarfile { echo "Creating tarfile $TARFILE" test -d $INSTALL_FILES || fail "Can't find $INSTALL_FILES" cd $INSTALL_FILES rm -f $TARFILE files # We don't want to change the permissions or ownership of pre-existing # directories on the target machine, so we're going to take care to # avoid including directories in the tarfile. On extraction, tar won't # modify pre-existing directories, and will create non-existent ones as # the user doing the extraction. find . ! -type d -print |fgrep -vx './files' >files tar cf $TARFILE -I files || fail "Couldn't create tarfile $TARFILE" STATE=3 } # # Routines to copy files to the target machine # function remote_fail { fail "" "$1" "" \ "Make sure that $TARGET_MACHINE is up." \ "Check .rhosts in the home directory of user $TARGET_USER on $TARGET_MACHINE." \ "Check /etc/hosts.equiv, /etc/passwd, and /etc/shadow." \ "Change permissions on $TARGET_MACHINE as necessary." \ "Then, use \"$INSTALL -R\" to resume the install." "" } function remote_install { if [ "$IMODE" = "n" ]; then STATE=4 return 0 fi test -s $TARFILE || fail "$TARFILE missing or empty" verbose "Installing system on $TARGET" test -d $INSTALL_DIR || fail "Can't find $INSTALL_DIR" cd $INSTALL_DIR rm -f errors fatal nonfatal if [ "$IMODE" = "T" ]; then EMESG="Can't rcp to $TARGET" touch errors sh -e${SHV}c "$INSTALL_RCP $TARFILE $TARGET/Install.tar" else EMESG="Can't rsh to $TARGET_MACHINE" rsh -l $TARGET_USER $TARGET_MACHINE \ "(cd $TARGET_DIR; /usr/bin/tar x${V}f -)" \ <$TARFILE 2>errors fi test $? -ne 0 && remote_fail "$EMESG" cd $INSTALL_DIR egrep "set time|warning|blocksize" errors >nonfatal egrep -v "set time|warning|blocksize" errors >fatal if [ -s fatal ]; then echo "Fatal errors from rsh:" cat fatal remote_fail "Can't install on $TARGET_MACHINE" fi if [ -s nonfatal -a "$VERBOSE" != "q" ]; then echo "Non-fatal errors from rsh:" cat nonfatal fi rm -f fatal nonfatal errors test "$IMODE" = "T" && echo "Files can be extracted on \ $TARGET_MACHINE using 'tar xvf $TARGET_DIR/Install.tar'" STATE=4 } function okexit { cd /tmp test "$CLEANUP" = c && remove_dir $INSTALL_DIR save_state rm -rf $modstatedir rm -f $modlist [ -n "$cryptotree" ] && rm -rf "$cryptotree" verbose "Install complete" exit 0 } # # Process options # RCOPTS="" LIBCREATE="no" LIBSRC="" ENV_PATH=$CODEMGR_WS OBJD="debug" KMDB="yes" test -s $INSTALL_RC && RCOPTS=`cat $INSTALL_RC` set $INSTALL $DEFAULT_OPTIONS $RCOPTS $* shift while getopts acd:D:G:hi:k:Kl:Lmno:pPqRs:t:T:uvVw:xX36 opt do case $opt in w) ENV_PATH="$OPTARG"; SRC="$ENV_PATH/usr/src";; s) UTS="$OPTARG";; k) KARCH="$OPTARG";; t|T) TARGET="$OPTARG"; IMODE=$opt; CLEANUP="c";; n) TARGET=""; IMODE="n"; CLEANUP="p";; u) files="unix genunix";; m) files="Modules";; a) files="All";; v|V|q) VERBOSE=$opt;; c|p) CLEANUP=$opt;; L) LIBCREATE="yes"; CLEANUP="c";; l) LIBSRC="$OPTARG";; D) INSTALL_LIB="$OPTARG";; d) INSTALL_DIR="$OPTARG/$TRAILER";; G) GLOM=yes; GLOMNAME="$OPTARG";; P|X|x) echo "-$opt is obsolete; ignored";; h) usage "${INSTALL}: installs unix and modules";; R) x=$OPTIND; restore_state; OPTIND=$x;; i) IMPL="$OPTARG";; o) OBJD="$OPTARG";; K) KMDB="no";; 3) WANT64="no";; 6) WANT32="no";; \?) usage "Illegal option";; esac done shift `expr $OPTIND - 1` ENV_NAME=`basename $ENV_PATH` # # The rest of the command line is a list of individual files to copy. # If non-null, this list overrides the -uma options. # if [[ $# -gt 0 ]] ; then files="$*" KMDB="no" fi case "$VERBOSE" in v) V="v"; SHV="x";; V) V="v"; SHV="x"; set -x;; q) V=""; SHV="";; esac # # Create temp directory for Install's files # tstmkdir $INSTALL_DIR TARFILE=$INSTALL_DIR/Install.${KARCH}.tar INSTALL_FILES=$INSTALL_DIR/$KARCH # # Extract the target machine and target directory from a target of the # form [user@]machine:/dir . # if [ "$IMODE" != "n" ]; then eval `echo $TARGET | nawk -F':' '{ if (NF != 2 || !length($1) || !length($2)) print "usage \"Invalid target\"" m = $1; d = $2 if ($1 ~ /@/) { k = split($1, f, "@"); if (k != 2 || !length(f[1]) || !length (f[2])) print "usage \"Invalid target\"" u = f[1]; m = f[2] } print "TARGET_USER=" u ";" print "TARGET_MACHINE=" m ";" print "TARGET_DIR=" d ";" }'` if [ -z "$TARGET_USER" ]; then TARGET_USER=$LOGNAME fi fi # # Allow the use of library source or target for the install # if [ -n "$LIBSRC" ]; then LIBSRC="`basename $LIBSRC .tar`.tar" TARFILE=$INSTALL_LIB/$LIBSRC test -s $TARFILE || fail "Can't find tarfile $TARFILE" verbose "Installing from library tarfile $TARFILE" STATE=3 elif [ "$LIBCREATE" = "yes" ]; then tstmkdir $INSTALL_LIB TARFILE="$INSTALL_LIB/${ENV_NAME}.${KARCH}.tar" fi # # The next few lines allow recovery and activation with -R, # and library installs with -l. # [[ $STATE -eq 1 ]] && copy_kmdb [[ $STATE -eq 2 ]] && make_tarfile [[ $STATE -eq 3 ]] && remote_install [[ $STATE -eq 4 ]] && okexit save_state cd $DOT DOTDOT=`cd ..; pwd` # # Try to be smart: if DOTDOT ends in uts, then infer UTS and KARCH from DOT # Otherwise, if SRC is set, infer UTS = $SRC/uts. # if [ "`basename $DOTDOT`" = "uts" ]; then UTS=$DOTDOT KARCH=`basename $DOT` if [ ! -n "$SRC" ]; then SRC=`dirname $DOTDOT` verbose "Setting SRC to $SRC" fi export SRC fi if [ -z "$UTS" -a -n "$SRC" ]; then UTS="${SRC}/uts" test -n "$KARCH" || fail "no karch specified (e.g. -k sun4u)" fi if [ "$LIBCREATE" = "yes" ]; then TARFILE=$INSTALL_LIB/${ENV_NAME}.${KARCH}.tar else TARFILE=$INSTALL_DIR/Install.${KARCH}.tar fi INSTALL_FILES=$INSTALL_DIR/$KARCH save_state cd $DOT test -z "$UTS" && fail 'Cannot find kernel sources -- $SRC not set' test -d "$UTS" || fail "${UTS}: no such directory" # # Convert UTS into an absolute path. # cd $UTS UTS=`pwd` test "`basename $UTS`" = "uts" || \ verbose "Warning: source path $UTS doesn't end in 'uts'" remove_dir $INSTALL_DIR/$KARCH rm -f $TARFILE copy_kernel # sets STATE=1 if successful copy_kmdb # sets STATE=2 if successful make_tarfile # sets STATE=3 if successful remote_install # sets STATE=4 if successful okexit