# Copyright 1999-2003 Gentoo Technologies, Inc. # Distributed under the terms of the GNU General Public License v2 # $Header: /var/cvsroot/gentoo-x86/eclass/eutils.eclass,v 1.74 2003/12/09 20:18:36 vapier Exp $ # # Author: Martin Schlemmer # # This eclass is for general purpose functions that most ebuilds # have to implement themselves. # # NB: If you add anything, please comment it! ECLASS=eutils INHERITED="$INHERITED $ECLASS" newdepend "!bootstrap? ( sys-devel/patch )" DESCRIPTION="Based on the ${ECLASS} eclass" # This function generate linker scripts in /usr/lib for dynamic # libs in /lib. This is to fix linking problems when you have # the .so in /lib, and the .a in /usr/lib. What happens is that # in some cases when linking dynamic, the .a in /usr/lib is used # instead of the .so in /lib due to gcc/libtool tweaking ld's # library search path. This cause many builds to fail. # See bug #4411 for more info. # # To use, simply call: # # gen_usr_ldscript libfoo.so # # Note that you should in general use the unversioned name of # the library, as ldconfig should usually update it correctly # to point to the latest version of the library present. # # (26 Oct 2002) # gen_usr_ldscript() { # Just make sure it exists dodir /usr/lib cat > ${D}/usr/lib/$1 <<"END_LDSCRIPT" /* GNU ld script Because Gentoo have critical dynamic libraries in /lib, and the static versions in /usr/lib, we need to have a "fake" dynamic lib in /usr/lib, otherwise we run into linking problems. See bug #4411 on http://bugs.gentoo.org/ for more info. */ GROUP ( /lib/libxxx ) END_LDSCRIPT dosed "s:libxxx:$1:" /usr/lib/$1 return 0 } # Simple function to draw a line consisting of '=' the same length as $* # # (11 Nov 2002) # draw_line() { local i=0 local str_length="" # Handle calls that do not have args, or wc not being installed ... if [ -z "$1" -o ! -x "$(which wc 2>/dev/null)" ] then echo "===============================================================" return 0 fi # Get the length of $* str_length="$(echo -n "$*" | wc -m)" while [ "$i" -lt "${str_length}" ] do echo -n "=" i=$((i + 1)) done echo return 0 } # Default directory where patches are located EPATCH_SOURCE="${WORKDIR}/patch" # Default extension for patches EPATCH_SUFFIX="patch.bz2" # Default options for patch # Set -g0 to keep RCS, ClearCase, Perforce and SCCS happy. Bug #24571 EPATCH_OPTS="-g0" # List of patches not to apply. Not this is only file names, # and not the full path .. EPATCH_EXCLUDE="" # Change the printed message for a single patch. EPATCH_SINGLE_MSG="" # Force applying bulk patches even if not following the style: # # ??_${ARCH}_foo.${EPATCH_SUFFIX} # EPATCH_FORCE="no" # This function is for bulk patching, or in theory for just one # or two patches. # # It should work with .bz2, .gz, .zip and plain text patches. # Currently all patches should be the same format. # # You do not have to specify '-p' option to patch, as it will # try with -p0 to -p5 until it succeed, or fail at -p5. # # Above EPATCH_* variables can be used to control various defaults, # bug they should be left as is to ensure an ebuild can rely on # them for. # # Patches are applied in current directory. # # Bulk Patches should preferibly have the form of: # # ??_${ARCH}_foo.${EPATCH_SUFFIX} # # For example: # # 01_all_misc-fix.patch.bz2 # 02_sparc_another-fix.patch.bz2 # # This ensures that there are a set order, and you can have ARCH # specific patches. # # If you however give an argument to epatch(), it will treat it as a # single patch that need to be applied if its a file. If on the other # hand its a directory, it will set EPATCH_SOURCE to this. # # (10 Nov 2002) # epatch() { local PIPE_CMD="" local STDERR_TARGET="${T}/$$.out" local PATCH_TARGET="${T}/$$.patch" local PATCH_SUFFIX="" local SINGLE_PATCH="no" local x="" if [ "$#" -gt 1 ] then eerror "Invalid arguments to epatch()" die "Invalid arguments to epatch()" fi if [ -n "$1" -a -f "$1" ] then SINGLE_PATCH="yes" local EPATCH_SOURCE="$1" local EPATCH_SUFFIX="${1##*\.}" elif [ -n "$1" -a -d "$1" ] then # Allow no extension if EPATCH_FORCE=yes ... used by vim for example ... if [ "${EPATCH_FORCE}" = "yes" ] && [ -z "${EPATCH_SUFFIX}" ] then local EPATCH_SOURCE="$1/*" else local EPATCH_SOURCE="$1/*.${EPATCH_SUFFIX}" fi else if [ ! -d ${EPATCH_SOURCE} ] then if [ -n "$1" -a "${EPATCH_SOURCE}" = "${WORKDIR}/patch" ] then EPATCH_SOURCE="$1" fi echo eerror "Cannot find \$EPATCH_SOURCE! Value for \$EPATCH_SOURCE is:" eerror eerror " ${EPATCH_SOURCE}" echo die "Cannot find \$EPATCH_SOURCE!" fi local EPATCH_SOURCE="${EPATCH_SOURCE}/*.${EPATCH_SUFFIX}" fi case ${EPATCH_SUFFIX##*\.} in bz2) PIPE_CMD="bzip2 -dc" PATCH_SUFFIX="bz2" ;; gz|Z|z) PIPE_CMD="gzip -dc" PATCH_SUFFIX="gz" ;; ZIP|zip) PIPE_CMD="unzip -p" PATCH_SUFFIX="zip" ;; *) PIPE_CMD="cat" PATCH_SUFFIX="patch" ;; esac if [ "${SINGLE_PATCH}" = "no" ] then einfo "Applying various patches (bugfixes/updates)..." fi for x in ${EPATCH_SOURCE} do # New ARCH dependant patch naming scheme... # # ???_arch_foo.patch # if [ -f ${x} ] && \ ([ "${SINGLE_PATCH}" = "yes" -o "${x/_all_}" != "${x}" -o "`eval echo \$\{x/_${ARCH}_\}`" != "${x}" ] || \ [ "${EPATCH_FORCE}" = "yes" ]) then local count=0 local popts="${EPATCH_OPTS}" if [ -n "${EPATCH_EXCLUDE}" ] then if [ "`eval echo \$\{EPATCH_EXCLUDE/${x##*/}\}`" != "${EPATCH_EXCLUDE}" ] then continue fi fi if [ "${SINGLE_PATCH}" = "yes" ] then if [ -n "${EPATCH_SINGLE_MSG}" ] then einfo "${EPATCH_SINGLE_MSG}" else einfo "Applying ${x##*/}..." fi else einfo " ${x##*/}..." fi echo "***** ${x##*/} *****" > ${STDERR_TARGET%/*}/${x##*/}-${STDERR_TARGET##*/} echo >> ${STDERR_TARGET%/*}/${x##*/}-${STDERR_TARGET##*/} # Allow for prefix to differ ... im lazy, so shoot me :/ while [ "${count}" -lt 5 ] do # Generate some useful debug info ... draw_line "***** ${x##*/} *****" >> ${STDERR_TARGET%/*}/${x##*/}-${STDERR_TARGET##*/} echo >> ${STDERR_TARGET%/*}/${x##*/}-${STDERR_TARGET##*/} if [ "${PATCH_SUFFIX}" != "patch" ] then echo -n "PIPE_COMMAND: " >> ${STDERR_TARGET%/*}/${x##*/}-${STDERR_TARGET##*/} echo "${PIPE_CMD} ${x} > ${PATCH_TARGET}" >> ${STDERR_TARGET%/*}/${x##*/}-${STDERR_TARGET##*/} else PATCH_TARGET="${x}" fi echo -n "PATCH COMMAND: " >> ${STDERR_TARGET%/*}/${x##*/}-${STDERR_TARGET##*/} echo "patch ${popts} -p${count} < ${PATCH_TARGET}" >> ${STDERR_TARGET%/*}/${x##*/}-${STDERR_TARGET##*/} echo >> ${STDERR_TARGET%/*}/${x##*/}-${STDERR_TARGET##*/} draw_line "***** ${x##*/} *****" >> ${STDERR_TARGET%/*}/${x##*/}-${STDERR_TARGET##*/} if [ "${PATCH_SUFFIX}" != "patch" ] then if ! (${PIPE_CMD} ${x} > ${PATCH_TARGET}) >> ${STDERR_TARGET%/*}/${x##*/}-${STDERR_TARGET##*/} 2>&1 then echo eerror "Could not extract patch!" #die "Could not extract patch!" count=5 break fi fi if (cat ${PATCH_TARGET} | patch ${popts} --dry-run -f -p${count}) >> ${STDERR_TARGET%/*}/${x##*/}-${STDERR_TARGET##*/} 2>&1 then draw_line "***** ${x##*/} *****" > ${STDERR_TARGET%/*}/${x##*/}-${STDERR_TARGET##*/}.real echo >> ${STDERR_TARGET%/*}/${x##*/}-${STDERR_TARGET##*/}.real echo "ACTUALLY APPLYING ${x##*/}..." >> ${STDERR_TARGET%/*}/${x##*/}-${STDERR_TARGET##*/}.real echo >> ${STDERR_TARGET%/*}/${x##*/}-${STDERR_TARGET##*/}.real draw_line "***** ${x##*/} *****" >> ${STDERR_TARGET%/*}/${x##*/}-${STDERR_TARGET##*/}.real cat ${PATCH_TARGET} | patch ${popts} -p${count} >> ${STDERR_TARGET%/*}/${x##*/}-${STDERR_TARGET##*/}.real 2>&1 if [ "$?" -ne 0 ] then cat ${STDERR_TARGET%/*}/${x##*/}-${STDERR_TARGET##*/}.real >> ${STDERR_TARGET%/*}/${x##*/}-${STDERR_TARGET##*/} echo eerror "A dry-run of patch command succeeded, but actually" eerror "applying the patch failed!" #die "Real world sux compared to the dreamworld!" count=5 fi rm -f ${STDERR_TARGET%/*}/${x##*/}-${STDERR_TARGET##*/}.real break fi count=$((count + 1)) done if [ "${PATCH_SUFFIX}" != "patch" ] then rm -f ${PATCH_TARGET} fi if [ "${count}" -eq 5 ] then echo eerror "Failed Patch: ${x##*/}!" eerror eerror "Include in your bugreport the contents of:" eerror eerror " ${STDERR_TARGET%/*}/${x##*/}-${STDERR_TARGET##*/}" echo die "Failed Patch: ${x##*/}!" fi rm -f ${STDERR_TARGET%/*}/${x##*/}-${STDERR_TARGET##*/} eend 0 fi done if [ "${SINGLE_PATCH}" = "no" ] then einfo "Done with patching" fi } # This function return true if we are using the NPTL pthreads # implementation. # # (06 March 2003) # have_NPTL() { cat > ${T}/test-nptl.c <<-"END" #define _XOPEN_SOURCE #include #include int main() { char buf[255]; char *str = buf; confstr(_CS_GNU_LIBPTHREAD_VERSION, str, 255); if (NULL != str) { printf("%s\n", str); if (NULL != strstr(str, "NPTL")) return 0; } return 1; } END einfon "Checking for _CS_GNU_LIBPTHREAD_VERSION support in glibc ... " if gcc -o ${T}/nptl ${T}/test-nptl.c &> /dev/null then echo "yes" einfon "Checking what PTHREADS implementation we have ... " if ${T}/nptl then return 0 else return 1 fi else echo "no" fi return 1 } # This function check how many cpu's are present, and then set # -j in MAKEOPTS accordingly. # # Thanks to nall for this. # get_number_of_jobs() { local jobs=0 if [ ! -r /proc/cpuinfo ] then return 1 fi # This bit is from H?kan Wessberg , bug #13565. if [ "`egrep "^[[:space:]]*MAKEOPTS=" /etc/make.conf | wc -l`" -gt 0 ] then ADMINOPTS="`egrep "^[[:space:]]*MAKEOPTS=" /etc/make.conf | cut -d= -f2 | sed 's/\"//g'`" ADMINPARAM="`echo ${ADMINOPTS} | gawk '{match($0, /-j *[0-9]*/, opt); print opt[0]}'`" ADMINPARAM="${ADMINPARAM/-j}" fi export MAKEOPTS="`echo ${MAKEOPTS} | sed -e 's:-j *[0-9]*::g'`" if [ "${ARCH}" = "amd64" -o "${ARCH}" = "x86" -o "${ARCH}" = "hppa" -o \ "${ARCH}" = "arm" -o "${ARCH}" = "mips" -o "${ARCH}" = "ia64" ] then # these archs will always have "[Pp]rocessor" jobs="$((`grep -c ^[Pp]rocessor /proc/cpuinfo` * 2))" elif [ "${ARCH}" = "sparc" -o "${ARCH}" = "sparc64" ] then # sparc always has "ncpus active" jobs="$((`grep "^ncpus active" /proc/cpuinfo | sed -e "s/^.*: //"` * 2))" elif [ "${ARCH}" = "alpha" ] then # alpha has "cpus active", but only when compiled with SMP if [ "`grep -c "^cpus active" /proc/cpuinfo`" -eq 1 ] then jobs="$((`grep "^cpus active" /proc/cpuinfo | sed -e "s/^.*: //"` * 2))" else jobs=2 fi elif [ "${ARCH}" = "ppc" ] then # ppc has "processor", but only when compiled with SMP if [ "`grep -c "^processor" /proc/cpuinfo`" -eq 1 ] then jobs="$((`grep -c ^processor /proc/cpuinfo` * 2))" else jobs=2 fi else jobs="$((`grep -c ^cpu /proc/cpuinfo` * 2))" die "Unknown ARCH -- ${ARCH}!" fi # Make sure the number is valid ... if [ "${jobs}" -lt 1 ] then jobs=1 fi if [ -n "${ADMINPARAM}" ] then if [ "${jobs}" -gt "${ADMINPARAM}" ] then einfo "Setting make jobs to \"-j${ADMINPARAM}\" to ensure successful merge..." export MAKEOPTS="${MAKEOPTS} -j${ADMINPARAM}" else einfo "Setting make jobs to \"-j${jobs}\" to ensure successful merge..." export MAKEOPTS="${MAKEOPTS} -j${jobs}" fi fi } # Cheap replacement for when debianutils (and thus mktemp) # do not exist on the users system # vapier@gentoo.org # # Takes just 1 parameter (the directory to create tmpfile in) mymktemp() { local topdir="$1" [ -z "${topdir}" ] && topdir=/tmp if [ "`which mktemp 2>/dev/null`" ] then mktemp -p ${topdir} else local tmp="${topdir}/tmp.${RANDOM}.${RANDOM}.${RANDOM}" touch ${tmp} echo ${tmp} fi } # Simplify/standardize adding users to the system # vapier@gentoo.org # # enewuser(username, uid, shell, homedir, groups, extra options) # # Default values if you do not specify any: # username: REQUIRED ! # uid: next available (see useradd(8)) # note: pass -1 to get default behavior # shell: /bin/false # homedir: /dev/null # groups: none # extra: comment of 'added by portage for ${PN}' enewuser() { # get the username local euser="$1"; shift if [ -z "${euser}" ] then eerror "No username specified !" die "Cannot call enewuser without a username" fi # setup a file for testing usernames/groups local tmpfile="`mymktemp ${T}`" chown ${euser} ${tmpfile} >& /dev/null local realuser="`ls -l ${tmpfile} | awk '{print $3}'`" # see if user already exists if [ "${euser}" == "${realuser}" ] then return 0 fi einfo "Adding user '${euser}' to your system ..." # options to pass to useradd local opts= # handle uid local euid="$1"; shift if [ ! -z "${euid}" ] && [ "${euid}" != "-1" ] then if [ "${euid}" -gt 0 ] then opts="${opts} -u ${euid}" else eerror "Userid given but is not greater than 0 !" die "${euid} is not a valid UID" fi else euid="next available" fi einfo " - Userid: ${euid}" # handle shell local eshell="$1"; shift if [ ! -z "${eshell}" ] && [ "${eshell}" != "-1" ] then if [ ! -e "${eshell}" ] then eerror "A shell was specified but it does not exist !" die "${eshell} does not exist" fi else eshell="/bin/false" fi einfo " - Shell: ${eshell}" opts="${opts} -s ${eshell}" # handle homedir local ehome="$1"; shift if [ -z "${ehome}" ] && [ "${eshell}" != "-1" ] then ehome="/dev/null" fi einfo " - Home: ${ehome}" opts="${opts} -d ${ehome}" # handle groups local egroups="$1"; shift if [ ! -z "${egroups}" ] then local realgroup= local oldifs="${IFS}" export IFS="," for g in ${egroups} do chgrp ${g} ${tmpfile} >& /dev/null realgroup="`ls -l ${tmpfile} | awk '{print $4}'`" if [ "${g}" != "${realgroup}" ] then eerror "You must add ${g} to the system first" die "${g} is not a valid GID" fi done export IFS="${oldifs}" opts="${opts} -g ${egroups}" else egroups="(none)" fi einfo " - Groups: ${egroups}" # handle extra and add the user local eextra="$@" local oldsandbox="${SANDBOX_ON}" export SANDBOX_ON="0" if [ -z "${eextra}" ] then useradd ${opts} ${euser} \ -c "added by portage for ${PN}" \ || die "enewuser failed" else einfo " - Extra: ${eextra}" useradd ${opts} ${euser} ${eextra} \ || die "enewuser failed" fi export SANDBOX_ON="${oldsandbox}" if [ ! -e "${ehome}" ] && [ ! -e "${D}/${ehome}" ] then einfo " - Creating ${ehome} in ${D}" dodir ${ehome} fowners ${euser} ${ehome} fperms 755 ${ehome} fi } # Simplify/standardize adding groups to the system # vapier@gentoo.org # # enewgroup(group, gid) # # Default values if you do not specify any: # groupname: REQUIRED ! # gid: next available (see groupadd(8)) # extra: none enewgroup() { # get the group local egroup="$1"; shift if [ -z "${egroup}" ] then eerror "No group specified !" die "Cannot call enewgroup without a group" fi # setup a file for testing groupname local tmpfile="`mymktemp ${T}`" chgrp ${egroup} ${tmpfile} >& /dev/null local realgroup="`ls -l ${tmpfile} | awk '{print $4}'`" # see if group already exists if [ "${egroup}" == "${realgroup}" ] then return 0 fi einfo "Adding group '${egroup}' to your system ..." # options to pass to useradd local opts= # handle gid local egid="$1"; shift if [ ! -z "${egid}" ] then if [ "${egid}" -gt 0 ] then opts="${opts} -g ${egid}" else eerror "Groupid given but is not greater than 0 !" die "${egid} is not a valid GID" fi else egid="next available" fi einfo " - Groupid: ${egid}" # handle extra local eextra="$@" opts="${opts} ${eextra}" # add the group local oldsandbox="${SANDBOX_ON}" export SANDBOX_ON="0" groupadd ${opts} ${egroup} || die "enewgroup failed" export SANDBOX_ON="${oldsandbox}" } # Simple script to replace 'dos2unix' binaries # vapier@gentoo.org # # edos2unix(file, ...) edos2unix() { for f in "$@" do cp "${f}" ${T}/edos2unix sed 's/\r$//' ${T}/edos2unix > "${f}" done } # Make a desktop file ! # Great for making those icons in kde/gnome startmenu ! # Amaze your friends ! Get the women ! Join today ! # gnome2 /usr/share/applications # gnome1 /usr/share/gnome/apps/ # KDE ${KDEDIR}/share/applnk /usr/share/applnk # # make_desktop_entry(, [name], [icon], [type], [path]) # # binary: what binary does the app run with ? # name: the name that will show up in the menu # icon: give your little like a pretty little icon ... # this can be relative (to /usr/share/pixmaps) or # a full path to an icon # type: what kind of application is this ? for categories: # http://www.freedesktop.org/standards/menu/draft/menu-spec/menu-spec.html # path: if your app needs to startup in a specific dir make_desktop_entry() { [ -z "$1" ] && eerror "You must specify the executable" && return 1 local exec="${1}" local name="${2:-${PN}}" local icon="${3:-${PN}.png}" local type="${4}" local path="${5:-${GAMES_PREFIX}}" if [ -z "${type}" ] then case ${CATEGORY} in "app-emulation") type=Emulator ;; "games-"*) type=Game ;; "net-"*) type=Network; ;; *) type= ;; esac fi local desktop="${T}/${exec}.desktop" echo "[Desktop Entry] Encoding=UTF-8 Version=0.9.2 Name=${name} Type=Application Comment=${DESCRIPTION} Exec=${exec} Path=${path} Icon=${icon} Categories=Application;${type};" > ${desktop} if [ -d "/usr/share/applications" ] then insinto /usr/share/applications doins ${desktop} fi #if [ -d "/usr/share/gnome/apps" ] #then # insinto /usr/share/gnome/apps/Games # doins ${desktop} #fi #if [ ! -z "`ls /usr/kde/* 2>/dev/null`" ] #then # for ver in /usr/kde/* # do # insinto ${ver}/share/applnk/Games # doins ${desktop} # done #fi if [ -d "/usr/share/applnk" ] then insinto /usr/share/applnk/${type} doins ${desktop} fi return 0 } # new convenience patch wrapper function to eventually replace epatch(), # $PATCHES, $PATCHES1, src_unpack:patch, src_unpack:autopatch and # /usr/bin/patch # Features: # - bulk patch handling similar to epatch()'s # - automatic patch level detection like epatch()'s # - automatic patch uncompression like epatch()'s # - doesn't have the --dry-run overhead of epatch() - inspects patchfiles # manually instead # - once I decide it's production-ready, it'll be called from base_src_unpack # to handle $PATCHES to avoid defining src_unpack just to use xpatch # accepts zero or more parameters specifying patchfiles and/or patchdirs # known issues: # - only supports unified style patches (does anyone _really_ use anything # else?) # - because it doesn't use --dry-run there is a risk of it failing # to find the files to patch, ie detect the patchlevel, properly. It doesn't use # any of the backup heuristics that patch employs to discover a filename. # however, this isn't dangerous because if it works for the developer who's # writing the ebuild, it'll always work for the users, and if it doesn't, # then we'll fix it :-) # - no support as yet for patches applying outside $S (and not directly in $WORKDIR). xpatch() { debug-print-function ${FUNCNAME} $* local list= local list2= declare -i plevel # parse patch sources for x in $* do debug-print "${FUNCNAME}: parsing parameter ${x}" if [ -f "${x}" ] then list="${list} ${x}" elif [ -d "${x}" ] then # handles patchdirs like epatch() for now: no recursion. # patches are sorted by filename, so with an xy_foo naming scheme you'll get the right order. # only patches with _$ARCH_ or _all_ in their filenames are applied. for file in `ls -A ${x}` do debug-print "${FUNCNAME}: parsing in subdir: file ${file}" if [ -f "${x}/${file}" -a "${file}" != "${file/_all_}" -o \ "${file}" != "${file/_$ARCH_}" ] then list2="${list2} ${x}/${file}" fi done list="`echo ${list2} | sort` ${list}" else die "Couldn't find ${x}" fi done debug-print "${FUNCNAME}: final list of patches: ${list}" for x in ${list}; do debug-print "${FUNCNAME}: processing ${x}" # deal with compressed files. /usr/bin/file is in the system profile, or should be. case "`/usr/bin/file -b ${x}`" in *gzip*) patchfile="${T}/current.patch" ungzip -c "${x}" > "${patchfile}" ;; *bzip2*) patchfile="${T}/current.patch" bunzip2 -c "${x}" > "${patchfile}" ;; *text*) patchfile="${x}" ;; *) die "Could not determine filetype of patch ${x}" ;; esac debug-print "${FUNCNAME}: patchfile=${patchfile}" # determine patchlevel. supports p0 and higher with either $S or $WORKDIR as base. target="`/bin/grep -m 1 '^+++ ' ${patchfile}`" debug-print "${FUNCNAME}: raw target=${target}" # strip target down to the path/filename, remove leading +++ target="${target/+++ }"; target="${target%% *}" # duplicate slashes are discarded by patch wrt the patchlevel. therefore we need # to discard them as well to calculate the correct patchlevel. target="${target//\/\//\/}" debug-print "${FUNCNAME}: stripped target=${target}" # look for target for basedir in "${S}" "${WORKDIR}" "${PWD}"; do debug-print "${FUNCNAME}: looking in basedir=${basedir}" cd "${basedir}" # try stripping leading directories target2="${target}" plevel=0 debug-print "${FUNCNAME}: trying target2=${target2}, plevel=${plevel}" while [ ! -f "${target2}" ] do target2="${target2#*/}" # removes piece of target2 upto the first occurence of / plevel=$((plevel+1)) debug-print "${FUNCNAME}: trying target2=${target2}, plevel=${plevel}" [ "${target2}" == "${target2/\/}" ] && break done test -f "${target2}" && break # try stripping filename - needed to support patches creating new files target2="${target%/*}" plevel=0 debug-print "${FUNCNAME}: trying target2=${target2}, plevel=${plevel}" while [ ! -d "${target2}" ] do target2="${target2#*/}" # removes piece of target2 upto the first occurence of / plevel=$((plevel+1)) debug-print "${FUNCNAME}: trying target2=${target2}, plevel=${plevel}" [ "${target2}" == "${target2/\/}" ] && break done test -d "${target2}" && break done test -f "${basedir}/${target2}" || test -d "${basedir}/${target2}" \ || die "Could not determine patchlevel for ${x}" debug-print "${FUNCNAME}: determined plevel=${plevel}" # do the patching ebegin "Applying patch ${x##*/}..." /usr/bin/patch -p${plevel} < "${patchfile}" > /dev/null \ || die "Failed to apply patch ${x}" eend $? done } # for internal use only (unpack_pdv and unpack_makeself) find_unpackable_file() { local src="$1" if [ -z "${src}" ] then src="${DISTDIR}/${A}" else if [ -e "${DISTDIR}/${src}" ] then src="${DISTDIR}/${src}" elif [ -e "${PWD}/${src}" ] then src="${PWD}/${src}" elif [ -e "${src}" ] then src="${src}" fi fi [ ! -e "${src}" ] && die "Could not find requested archive ${src}" echo "${src}" } # Unpack those pesky pdv generated files ... # They're self-unpacking programs with the binary package stuffed in # the middle of the archive. Valve seems to use it a lot ... too bad # it seems to like to segfault a lot :(. So lets take it apart ourselves. # # Usage: unpack_pdv [file to unpack] [size of off_t] # - you have to specify the off_t size ... i have no idea how to extract that # information out of the binary executable myself. basically you pass in # the size of the off_t type (in bytes) on the machine that built the pdv # archive. one way to determine this is by running the following commands: # strings | grep lseek # strace -elseek # basically look for the first lseek command (we do the strings/grep because # sometimes the function call is _llseek or something) and steal the 2nd # parameter. here is an example: # root@vapier 0 pdv_unpack # strings hldsupdatetool.bin | grep lseek # lseek # root@vapier 0 pdv_unpack # strace -elseek ./hldsupdatetool.bin # lseek(3, -4, SEEK_END) = 2981250 # thus we would pass in the value of '4' as the second parameter. unpack_pdv() { local src="`find_unpackable_file $1`" local sizeoff_t="$2" [ -z "${sizeoff_t}" ] && die "No idea what off_t size was used for this pdv :(" local shrtsrc="`basename ${src}`" echo ">>> Unpacking ${shrtsrc} to ${PWD}" local metaskip=`tail -c ${sizeoff_t} ${src} | hexdump -e \"%i\"` local tailskip=`tail -c $((${sizeoff_t}*2)) ${src} | head -c ${sizeoff_t} | hexdump -e \"%i\"` # grab metadata for debug reasons local metafile="`mymktemp ${T}`" tail -c +$((${metaskip}+1)) ${src} > ${metafile} # rip out the final file name from the metadata local datafile="`tail -c +$((${metaskip}+1)) ${src} | strings | head -n 1`" datafile="`basename ${datafile}`" # now lets uncompress/untar the file if need be local tmpfile="`mymktemp ${T}`" tail -c +$((${tailskip}+1)) ${src} 2>/dev/null | head -c 512 > ${tmpfile} local iscompressed="`file -b ${tmpfile}`" if [ "${iscompressed:0:8}" == "compress" ] ; then iscompressed=1 mv ${tmpfile}{,.Z} gunzip ${tmpfile} else iscompressed=0 fi local istar="`file -b ${tmpfile}`" if [ "${istar:0:9}" == "POSIX tar" ] ; then istar=1 else istar=0 fi #for some reason gzip dies with this ... dd cant provide buffer fast enough ? #dd if=${src} ibs=${metaskip} count=1 \ # | dd ibs=${tailskip} skip=1 \ # | gzip -dc \ # > ${datafile} if [ ${iscompressed} -eq 1 ] ; then if [ ${istar} -eq 1 ] ; then tail -c +$((${tailskip}+1)) ${src} 2>/dev/null \ | head -c $((${metaskip}-${tailskip})) \ | tar -xzf - else tail -c +$((${tailskip}+1)) ${src} 2>/dev/null \ | head -c $((${metaskip}-${tailskip})) \ | gzip -dc \ > ${datafile} fi else if [ ${istar} -eq 1 ] ; then tail -c +$((${tailskip}+1)) ${src} 2>/dev/null \ | head -c $((${metaskip}-${tailskip})) \ | tar --no-same-owner -xf - else tail -c +$((${tailskip}+1)) ${src} 2>/dev/null \ | head -c $((${metaskip}-${tailskip})) \ > ${datafile} fi fi true #[ -s "${datafile}" ] || die "failure unpacking pdv ('${metaskip}' '${tailskip}' '${datafile}')" #assert "failure unpacking pdv ('${metaskip}' '${tailskip}' '${datafile}')" } # Unpack those pesky makeself generated files ... # They're shell scripts with the binary package tagged onto # the end of the archive. Loki utilized the format as does # many other game companies. # # Usage: unpack_makeself [file to unpack] [offset] # - If the file is not specified then unpack will utilize ${A}. # - If the offset is not specified then we will attempt to extract # the proper offset from the script itself. unpack_makeself() { local src="`find_unpackable_file $1`" local skip="$2" local shrtsrc="`basename ${src}`" echo ">>> Unpacking ${shrtsrc} to ${PWD}" if [ -z "${skip}" ] then local ver="`grep -a '#.*Makeself' ${src} | awk '{print $NF}'`" local skip=0 case ${ver} in 1.5.*) # tested 1.5.{3,4,5} ... guessing 1.5.x series is same skip=`grep -a ^skip= ${src} | cut -d= -f2` ;; 2.0|2.0.1) skip=`grep -a ^$'\t'tail ${src} | awk '{print $2}' | cut -b2-` ;; 2.1.1) skip=`grep -a ^offset= ${src} | awk '{print $2}' | cut -b2-` let skip="skip + 1" ;; 2.1.2) skip=`grep -a ^offset= ${src} | awk '{print $3}' | head -n 1` let skip="skip + 1" ;; 2.1.3) skip=`grep -a ^offset= ${src} | awk '{print $3}'` let skip="skip + 1" ;; *) eerror "I'm sorry, but I was unable to support the Makeself file." eerror "The version I detected was '${ver}'." eerror "Please file a bug about the file ${shrtsrc} at" eerror "http://bugs.gentoo.org/ so that support can be added." die "makeself version '${ver}' not supported" ;; esac debug-print "Detected Makeself version ${ver} ... using ${skip} as offset" fi # lets grab the first few bytes of the file to figure out what kind of archive it is local tmpfile="`mymktemp ${T}`" tail -n +${skip} ${src} 2>/dev/null | head -c 512 > ${tmpfile} local filetype="`file -b ${tmpfile}`" case ${filetype} in *tar\ archive) tail -n +${skip} ${src} | tar --no-same-owner -xf - ;; bzip2*) tail -n +${skip} ${src} | bzip2 -dc | tar --no-same-owner -xf - ;; gzip*) tail -n +${skip} ${src} | tar --no-same-owner -xzf - ;; *) false ;; esac assert "failure unpacking (${filetype}) makeself ${shrtsrc} ('${ver}' +${skip})" } # Display a license for user to accept. # # Usage: check_license [license] # - If the file is not specified then ${LICENSE} is used. check_license() { local lic=$1 if [ -z "${lic}" ] ; then lic="${PORTDIR}/licenses/${LICENSE}" else if [ -e "${PORTDIR}/licenses/${src}" ] ; then lic="${PORTDIR}/licenses/${src}" elif [ -e "${PWD}/${src}" ] ; then lic="${PWD}/${src}" elif [ -e "${src}" ] ; then lic="${src}" fi fi [ ! -f "${lic}" ] && die "Could not find requested license ${src}" local l="`basename ${lic}`" # here is where we check for the licenses the user already # accepted ... if we don't find a match, we make the user accept local alic for alic in "${ACCEPT_LICENSE}" ; do [ "${alic}" == "*" ] && return 0 [ "${alic}" == "${l}" ] && return 0 done local licmsg="`mymktemp ${T}`" cat << EOF > ${licmsg} ********************************************************** The following license outlines the terms of use of this package. You MUST accept this license for installation to continue. When you are done viewing, hit 'q'. If you CTRL+C out of this, the install will not run! ********************************************************** EOF cat ${lic} >> ${licmsg} ${PAGER:-less} ${licmsg} || die "Could not execute pager (${PAGER}) to accept ${lic}" einfon "Do you accept the terms of this license (${l})? [yes/no] " read alic case ${alic} in yes|Yes|y|Y) return 0 ;; *) echo;echo;echo eerror "You MUST accept the license to continue! Exiting!" die "Failed to accept license" ;; esac }