# 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 1.75 2004/01/13 06:11:08 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 ${alic} in yes|Yes|y|Y) return 0 ;; *) echo;echo;echo eerror "You MUST accept the license to continue! Exiting!" die "Failed to accept license" ;; esac } # Aquire cd(s) for those lovely cd-based emerges. Yes, this violates # the whole 'non-interactive' policy, but damnit I want CD support ! # # with these cdrom functions we handle all the user interaction and # standardize everything. all you have to do is call cdrom_get_cds() # and when the function returns, you can assume that the cd has been # found at CDROM_ROOT. # # normally the cdrom functions will refer to the cds as 'cd #1', 'cd #2', # etc... if you want to give the cds better names, then just export # the CDROM_NAME_X variables before calling cdrom_get_cds(). # # for those multi cd ebuilds, see the cdrom_load_next_cd() below. # # Usage: cdrom_get_cds [file on cd2] [file on cd3] [...] # - this will attempt to locate a cd based upon a file that is on # the cd ... the more files you give this function, the more cds # the cdrom functions will handle cdrom_get_cds() { # first we figure out how many cds we're dealing with by # the # of files they gave us local cdcnt=0 local f= for f in "$@" ; do cdcnt=$((cdcnt + 1)) export CDROM_CHECK_${cdcnt}="$f" done export CDROM_TOTAL_CDS=${cdcnt} export CDROM_CURRENT_CD=1 # now we see if the user gave use CD_ROOT ... # if they did, let's just believe them that it's correct if [ ! -z "${CD_ROOT}" ] ; then export CDROM_ROOT="${CD_ROOT}" einfo "Found CD #${CDROM_CURRENT_CD} root at ${CDROM_ROOT}" return fi # do the same for CD_ROOT_X if [ ! -z "${CD_ROOT_1}" ] ; then local var= cdcnt=0 while [ ${cdcnt} -lt ${CDROM_TOTAL_CDS} ] ; do cdcnt=$((cdcnt + 1)) var="CD_ROOT_${cdcnt}" if [ -z "${!var}" ] ; then eerror "You must either use just the CD_ROOT" eerror "or specify ALL the CD_ROOT_X variables." eerror "In this case, you will need ${CDROM_TOTAL_CDS} CD_ROOT_X variables." die "could not locate CD_ROOT_${cdcnt}" fi export CDROM_ROOTS_${cdcnt}="${!var}" done export CDROM_ROOT=${CDROM_ROOTS_1} einfo "Found CD #${CDROM_CURRENT_CD} root at ${CDROM_ROOT}" return fi if [ ${CDROM_TOTAL_CDS} -eq 1 ] ; then einfon "This ebuild will need the " if [ -z "${CDROM_NAME}" ] ; then echo "cdrom for ${PN}." else echo "${CDROM_NAME}." fi echo einfo "If you do not have the CD, but have the data files" einfo "mounted somewhere on your filesystem, just export" einfo "the variable CD_ROOT so that it points to the" einfo "directory containing the files." echo else einfo "This package will need access to ${CDROM_TOTAL_CDS} cds." cdcnt=0 while [ ${cdcnt} -lt ${CDROM_TOTAL_CDS} ] ; do cdcnt=$((cdcnt + 1)) var="CDROM_NAME_${cdcnt}" [ ! -z "${!var}" ] && einfo " CD ${cdcnt}: ${!var}" done echo einfo "If you do not have the CDs, but have the data files" einfo "mounted somewhere on your filesystem, just export" einfo "the following variables so they point to the right place:" einfon "" cdcnt=0 while [ ${cdcnt} -lt ${CDROM_TOTAL_CDS} ] ; do cdcnt=$((cdcnt + 1)) echo -n " CD_ROOT_${cdcnt}" done echo einfo "Or, if you have all the files in the same place, or" einfo "you only have one cdrom, you can export CD_ROOT" einfo "and that place will be used as the same data source" einfo "for all the CDs." echo fi export CDROM_CURRENT_CD=0 cdrom_load_next_cd } # this is only used when you need access to more than one cd. # when you have finished using the first cd, just call this function. # when it returns, CDROM_ROOT will be pointing to the second cd. # remember, you can only go forward in the cd chain, you can't go back. cdrom_load_next_cd() { export CDROM_CURRENT_CD=$((CDROM_CURRENT_CD + 1)) local var= unset CDROM_ROOT var=CDROM_ROOTS_${CDROM_CURRENT_CD} if [ -z "${!var}" ] ; then var="CDROM_CHECK_${CDROM_CURRENT_CD}" cdrom_locate_file_on_cd ${!var} else export CDROM_ROOT="${!var}" fi einfo "Found CD #${CDROM_CURRENT_CD} root at ${CDROM_ROOT}" } # this is used internally by the cdrom_get_cds() and cdrom_load_next_cd() # functions. this should *never* be called from an ebuild. # all it does is try to locate a give file on a cd ... if the cd isn't # found, then a message asking for the user to insert the cdrom will be # displayed and we'll hang out here until: # (1) the file is found on a mounted cdrom # (2) the user hits CTRL+C cdrom_locate_file_on_cd() { while [ -z "${CDROM_ROOT}" ] ; do local dir="$(dirname ${@})" local file="$(basename ${@})" local mline="" local showedmsg=0 for mline in `mount | egrep -e '(iso|cdrom)' | awk '{print $3}'` ; do [ -d "${mline}/${dir}" ] || continue [ ! -z "$(find ${mline}/${dir} -iname ${file} -maxdepth 1)" ] \ && export CDROM_ROOT=${mline} done if [ -z "${CDROM_ROOT}" ] ; then echo if [ ${showedmsg} -eq 0 ] ; then if [ ${CDROM_TOTAL_CDS} -eq 1 ] ; then if [ -z "${CDROM_NAME}" ] ; then einfo "Please insert the cdrom for ${PN} now !" else einfo "Please insert the ${CDROM_NAME} cdrom now !" fi else if [ -z "${CDROM_NAME_1}" ] ; then einfo "Please insert cd #${CDROM_CURRENT_CD} for ${PN} now !" else local var="CDROM_NAME_${CDROM_CURRENT_CD}" einfo "Please insert+mount the ${!var} cdrom now !" fi fi showedmsg=1 fi einfo "Press return to scan for the cd again" einfo "or hit CTRL+C to abort the emerge." read fi done }