# # Function library for buildpkg framework # It adds support for creating Solaris packages in 'sysv' format # # Define tool programs # *only* platform specific tools should be listed here # generic tools go in buildpkg.functions PKGMK=/usr/bin/pkgmk PKGTRANS=/usr/bin/pkgtrans # Override generic location STRIP=/usr/ccs/bin/strip # /usr/ccs/bin/strip destroys the symbol table in static archives # So this is disabled by default dostrip_static=0 # Setup default args for strip. They match SGU 4.0 from Solaris 8 # Change these if you're using strip from GNU Binutils (recommended) strip_elf_args="" # GNU default is -g strip_shared_args="" # GNU default is --strip-unneeded strip_static_args="" # GNU default is -g META_CLEAN="prototype prototype.in pkginfo files.tmp" # Define defaults # pkginfo information. # The following 3 vars will be used when constructing the pkginfo file # Override as necessary. pkgcat="application" # A reasonable default pkgvendor="http://change/me/please" pkgdesc="mumble mubmle... hmm someone forgot to fill this out!" cpu=sparcv9 os=`$UNAME -r` # Courtesy of nba (see dm2conv/solaris/mkpkg.sh) case $os in 5.[0123456]|5.5.1) os=sol`echo $os | sed s/5./2./` ;; 5.*) os=sol`echo $os | sed s/5.//` ;; *) echo I do not know how; exit 1;; esac # Default pkginfo.in file pkginfo=$buildpkgbase/scripts/pkginfo.in # Variables that control functionality usedepend=1 # default to looking for a depend file in $metadir usescripts=1 # default to add pre/post scripts if available usespace=1 # default to looking for a space file in $metadir ignore_unpackaged_files=0 # default to check for unpackaged files in the stage area # Solaris doesn't know how to handle any kind of compressed manpages gzman=0 # Host specific configuration [ -r $buildpkgbase/scripts/config.`hostname`.solaris ] && . $buildpkgbase/scripts/config.`hostname`.solaris # Distfiles should be named like this # --.sb--- # ie: libmad-0.14.2b-1.sb-sol5.8-sparcv9-local # We hardquote it so that we can control when we want it # evaluated (using _upls) distfile='$secname-$version-$secver.sb-$os-$cpu-$pkgdirdesig' ##################################################### # "external" functions ##################################################### # make_pkg(): Create the final package # params: $1 = meta file suffix # make_pkg() { if [ $# -lt 1 ]; then error $E_MISSING_ARGS make_pkg fi local secname=$1 local prototype=prototype.$secname local secver=$(get_pkgrev $secname) local dfile=$(_upls $distfile) local pname=$(get_pkgname $secname) echo "Creating package and transferring it to datastream format" $PKGMK -r `pwd` -d $buildpkgbase/$pkgdir -o -f $metadir/$prototype $PKGTRANS -o -s $buildpkgbase/$pkgdir $distdir/$dfile $pname echo "Done. Package was created as $dfile" } # pack_info(): Create the pkginfo file # params: $1 = metafile suffix # Will create the pkginfo file with pkginfo.in as a template # Both the template and the result will be in $metadir # Substitutions will be done on pkgname,version,pkgver,name & topinstalldir # they will be replaced with the value of their variable counterparts pack_info() { if [ $# -lt 1 ]; then error $E_MISSING_ARGS pack_info fi local secname=$1 pstamp="$os-$($UNAME -n)`date '+%Y%m%d%H%M'`" $SED -e "s#%%pkgname%%#$pkgname#g" \ -e "s#%%version%%#$version#g" \ -e "s#%%pkgcat%%#$pkgcat#g" \ -e "s#%%pkgvendor%%#$pkgvendor#g" \ -e "s#%%pkgver%%#$pkgver#g" \ -e "s#%%name%%#$name#g" \ -e "s#%%topinstalldir%%#$topinstalldir#g" \ -e "s#%%pkgdesc%%#$pkgdesc#g" \ -e "s#%%pstamp%%#$pstamp#g" \ $pkginfo > $metadir/pkginfo.$secname } # list_pkgs(): Find all the section names of all defined pkgs # params: none list_pkgs() { local i local it # We can't rely on shell expansion here since we would be burned if * is empty! for i in $($LS -1 $metadir/prototype.* 2>/dev/null) do it=$($BASENAME $i) echo ${it##prototype.} done } # add_meta_file(): add a metafile entry to the prototype file # params: $1 = keyword $2 = filename $3 = metafile suffix # Additions will be done to the file $metadir/prototype add_meta_file() { if [ $# -lt 3 ]; then error $E_MISSING_ARGS add_meta_file fi local secname=$3 if [ -r "$2" ]; then echo "i $1=$2" >> $metadir/prototype.$secname else error $E_BAD_FILE add_meta_file fi } # add_scripts(): Add scripts to prototype # params: $1 = metafile suffix add_scripts() { if [ $# -lt 1 ]; then error $E_MISSING_ARGS add_scripts fi local secname=$1 # If a dependency file is available then use it [ -r $metadir/depend.$secname -a $usedepend -eq 1 ] && add_meta_file depend "$metadir/depend.$secname" $secname # If a space file is available then use it [ -r $metadir/space.$secname -a $usespace -eq 1 ] && add_meta_file space "$metadir/space.$secname" $secname if [ $usescripts -eq 1 ]; then [ -r $metadir/preinstall.$secname ] && add_meta_file preinstall "$metadir/preinstall.$secname" $secname [ -r $metadir/postinstall.$secname ] && add_meta_file postinstall "$metadir/postinstall.$secname" $secname [ -r $metadir/preremove.$secname ] && add_meta_file preremove "$metadir/preremove.$secname" $secname [ -r $metadir/postremove.$secname ] && add_meta_file postremove "$metadir/postremove.$secname" $secname fi } # add_file(): add a file entry to the prototype file # params: $1 = owner $2 = group $3 = permissions $4 = filename # Additions will be done to the file $metadir/prototype # $4 must be relative to $stagedir$prefix (or just $stagedir if using shortroot) # We will not check for the existence of $4 add_file() { local arg1=${1-'x'} if [ "$arg1" == "x" ]; then error $E_MISSING_ARGS add_meta fi local arg2=${2-'x'} if [ "$arg2" == "x" ]; then error $E_MISSING_ARGS add_meta fi local arg3=${3-'x'} if [ "$arg2" == "x" ]; then error $E_MISSING_ARGS add_meta fi if [ -r "$arg4" ]; then echo "f none $arg4 $3 $1 $2" >> $metadir/prototype else error $E_BAD_FILE add_meta_file fi } # add_proto(): Add entries to prototype file # params: $1 = permission $2 = owner $3 = group $4 = filespec $5 = metafile suffix # $5 is usually the section header from pkgdef # Additions will be done to the file $metadir/prototype.$pkgname add_proto() { if [ $# -lt 5 ]; then error $E_MISSING_ARGS add_proto fi local i local defperm=$1 local owner=$2 local group=$3 local fspec=$(_upls $4) local secname=$5 local FILES=$($FIND $fspec -type f -print|$TEE -a $metadir/files.tmp) OIFS=$IFS IFS=" " for i in $FILES do IFS=$OIFS if [ "$defperm" == "-" ]; then permlist=$($LS -l "$i" | $CUT -d " " -f 1) perm=$(compute_octal $permlist) else perm=$defperm fi echo "f none $i $perm $owner $group" >> $metadir/prototype.$secname done IFS=$OIFS # Handle symlinks local FILES=$($FIND $fspec -type l -print|$TEE -a $metadir/files.tmp) OIFS=$IFS IFS=" " for i in $FILES do IFS=$OIFS if [ "$defperm" == "-" ]; then permlist=$($LS -l "$i" | $CUT -d " " -f 1) perm=$(compute_octal $permlist) fi local temp=`$LS -l "$i"|$CUT -d '>' -f 2` local symval=${temp# } echo "s none $i=$symval $perm $owner $group" >> $metadir/prototype.$secname done IFS=$OIFS # Handle directories local FILES=$($FIND $fspec -type d -print|$TEE -a $metadir/files.tmp) OIFS=$IFS IFS=" " for i in $FILES do IFS=$OIFS if [ "$defperm" == "-" ]; then permlist=$($LS -ld "$i" | $CUT -d " " -f 1) perm=$(compute_octal $permlist) else perm=$defperm fi echo "d none $i $perm $owner $group" >> $metadir/prototype.$secname done IFS=$OIFS # Handle hardlinks - FIXME! } # add_dir(): Add a single dir to prototype file # params: $1 = perms $2 = owner $3 = group $4 = dir $5 = metafile suffix add_dir() { if [ $# -lt 5 ]; then error $E_MISSING_ARGS add_dir fi local defperm=$1 local owner=$2 local group=$3 local dir=$(_upls $4) local secname=$5 if [ "$defperm" == "-" ]; then permlist=$($LS -ld "$dir" | $CUT -d " " -f 1) perm=$(compute_octal $permlist) else perm=$defperm fi echo "d none $dir $perm $owner $group" >> $metadir/prototype.$secname echo "$dir" >> $metadir/files.tmp } # parse_pkgdef(): Read in $metadir/pkgdef # params: none # This will parse the package descriptions in # pkgdef that tells us how many packages there # should be and what they include. parse_def() { local section=0 local foundfiles=0 local secname="" local secpos=0 local legalend=0 local hasaddedpkginfo=0 while read line do case ${line:0:1} in '#') ;; '[') if [ $section -eq 1 ]; then error $E_BAD_SECTION_BEGIN parse_def else section=1 secname="${line:1:((${#line}-2))}" legalend=0 fi ;; '') if [ $section -eq 0 ]; then error $E_BAD_SECTION_END parse_def else section=0 # Finished this section foundfiles=0 # legalend=1 # We encountered a syntacticly correct section end hasaddedpkginfo=0 # Add scripts if requested add_scripts $secname fi ;; *) equalindex=$(expr index "$line" =) if [ ! $equalindex -eq 0 ]; then case "${line:0:(($equalindex-1))}" in 'pkgname') pkgname="$(_upls ${line:$equalindex:${#line}})" ;; 'name') name="$(_upls ${line:$equalindex:${#line}})" ;; 'pkgcat') pkgcat="$(_upls ${line:$equalindex:${#line}})" ;; 'pkgvendor') pkgvendor="$(_upls ${line:$equalindex:${#line}})" ;; 'pkgdesc') pkgdesc="$(_upls ${line:$equalindex:${#line}})" ;; 'pkgver') pkgver="$(_upls ${line:$equalindex:${#line}})" ;; esac else # Perhaps we hit 'files'? if [ "${line:0:5}" == "files" ]; then triplet="${line:6:((${#line}-5-2))}" defaultperms=$(echo $triplet | $AWK -F, '{ print $1 }') defaultuid=$(echo $triplet | $AWK -F, '{ print $2 }') defaultgid=$(echo $triplet | $AWK -F, '{ print $3 }') foundfiles=1 if [ $hasaddedpkginfo -eq 0 ]; then # start a new package pack_info $secname # Create pkginfo # Start the prototype file by adding the pkginfo file add_meta_file pkginfo "$metadir/pkginfo.$secname" $secname hasaddedpkginfo=1 fi else if [ $foundfiles -eq 1 ]; then # We already found the 'files' line so this must be the filelist if [ "${line:0:4}" == "dir " ]; then add_dir $defaultperms $defaultuid $defaultgid "${line:4}" $secname # Add dir entry else add_proto $defaultperms $defaultuid $defaultgid "$line" $secname # Build protype file from filespec fi fi fi fi ;; esac done < $metadir/pkgdef # If there is no blank line at the end of a pkgdef section (if there is only one section that is very # likely) then we end up here without having executed the 'section end' actions (case '' above) if [ $legalend -eq 0 ]; then if [ $section -eq 0 ]; then error $E_BAD_SECTION_END parse_def else section=0 # Finished this section foundfiles=0 # # Add scripts if requested add_scripts $secname fi fi } # check_unpackaged(): Check if there are unpackaged files in the stage area # params: none check_unpackaged() { local upf local i local indent4=" " $FIND . -type f -print|$SED -e 's/\.\///g' > $tmpdir/files.tmp $FIND . -type l -print|$SED -e 's/\.\///g' >> $tmpdir/files.tmp $FIND . -type d -print|$SED -e 's/\.\///g'|$GREP -v '^\.' >> $tmpdir/files.tmp $SORT $metadir/files.tmp|$UNIQ > $tmpdir/f1 $SORT $tmpdir/files.tmp > $tmpdir/f2 upf="$($CAT $tmpdir/f1 $tmpdir/f2 | $SORT | $UNIQ -u)" if [ ! -z "$upf" ]; then echo "There are unpackaged files in the stagedir:" for i in $upf do echo "${indent4}${i}" done $RM -f $tmpdir/f1 $tmpdir/f2 if [ "$ignore_unpackaged_files" -eq 0 ]; then error $E_UNPACKAGED_FILES check_unpackaged fi fi $RM -f $tmpdir/f1 $tmpdir/f2 } # get_pkgname(): Extract pkgname (PKG) from a pkginfo file # params: $1 = metafile suffix get_pkgname() { local secname=$1 if [ -r $metadir/pkginfo.$secname ]; then local pn=$($GREP PKG $metadir/pkginfo.$secname) local pname=$(_upls ${pn##PKG=}) echo $pname fi } # get_pkgrev(): Extract pkgrev (REV part of VERSION field) from pkginfo file # params: $1 = metafile suffix get_pkgrev() { local secname=$1 local verfield="$($GREP VERSION $metadir/pkginfo.$secname|$SED -e 's/"//g')" local secver=$(_upls ${verfield#*REV=}) echo $secver } # do_strip_bin(): Strip binaries # params: none do_strip_bin() { echo "Stripping ELF binaries..." for f in `$FIND . -type f \( -perm -0100 -o -perm -0010 -o -perm -0001 \) -exec $FILE {} \; | \ $GREP -v ' dynamic lib ' | \ $SED -n -e 's/^\(.*\):[ ]*ELF.*, not stripped/\1/p'`; do $STRIP $strip_elf_args $f || : done } # do_strip_shared(): Strip shared libraries # params: none do_strip_shared() { echo "Stripping ELF shared objects..." # Strip ELF shared objects (see brp-strip-shared from RPM) # Please note we don't restrict our search to executable files because # our libraries are not (should not be, at least) +x. for f in `$FIND . -type f -a -exec $FILE {} \; | \ grep ' dynamic lib ' | \ $SED -n -e 's/^\(.*\):[ ]*ELF.*, not stripped/\1/p'`; do $STRIP $strip_shared_args $f done } # do_strip_static(): Strip static archives # params: none do_strip_static() { echo "Stripping static archives..." # Strip static libraries. (see brp-strip-static-archive from RPM) for f in `$FIND . -type f -a -exec $FILE {} \; | \ $GREP 'current ar archive' | \ $SED -n -e 's/^\(.*\):[ ]*current ar archive,.*/\1/p'`; do $STRIP $strip_static_args $f done } ##################################################### # Define generic functions for different build stages ##################################################### # generic_pack(): Build package using files from 'install' stage # params: none # We expect generic_install to have made $stagedir the "root" dir # in that all paths below will be complete (ie. /usr/local/bin and not # just bin) *unless* shortroot=1. generic_pack() { if [ "$1" == "shortroot" ]; then error $E_ARG_OBSO generic_pack fi clean meta if [ -d "${stagedir}${topinstalldir}${dir_prefix}/${_mandir}" ]; then setdir ${stagedir}${topinstalldir}${dir_prefix}/${_mandir} [ "$catman" -eq 1 ] && fix_man [ "$gzman" -eq 1 ] && compress_man fi if [ -d "${stagedir}${topinstalldir}${dir_prefix}/${_infodir}" ]; then setdir ${stagedir}${topinstalldir}${dir_prefix}/${_infodir} [ "$gzinfo" -eq 1 ] && compress_info fi #setdir "${stagedir}${prefix}" # pkgdef should list files relative to topinstalldir setdir "${stagedir}${topinstalldir}" parse_def check_unpackaged # Create a list of all the packages that we are going to build for i in $(list_pkgs) do make_pkg $i done }