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Revision 1.66 Revision 1.78
1# Copyright 1999-2003 Gentoo Technologies, Inc. 1# Copyright 1999-2004 Gentoo Technologies, Inc.
2# Distributed under the terms of the GNU General Public License v2 2# Distributed under the terms of the GNU General Public License v2
3# $Header: /var/cvsroot/gentoo-x86/eclass/eutils.eclass,v 1.66 2003/11/15 21:48:37 vapier Exp $ 3# $Header: /var/cvsroot/gentoo-x86/eclass/eutils.eclass,v 1.78 2004/02/09 17:08:44 brad_mssw Exp $
4# 4#
5# Author: Martin Schlemmer <azarah@gentoo.org> 5# Author: Martin Schlemmer <azarah@gentoo.org>
6# 6#
7# This eclass is for general purpose functions that most ebuilds 7# This eclass is for general purpose functions that most ebuilds
8# have to implement themselves. 8# have to implement themselves.
422 jobs="$((`grep "^cpus active" /proc/cpuinfo | sed -e "s/^.*: //"` * 2))" 422 jobs="$((`grep "^cpus active" /proc/cpuinfo | sed -e "s/^.*: //"` * 2))"
423 else 423 else
424 jobs=2 424 jobs=2
425 fi 425 fi
426 426
427 elif [ "${ARCH}" = "ppc" ] 427 elif [ "${ARCH}" = "ppc" -o "${ARCH}" = "ppc64" ]
428 then 428 then
429 # ppc has "processor", but only when compiled with SMP 429 # ppc has "processor", but only when compiled with SMP
430 if [ "`grep -c "^processor" /proc/cpuinfo`" -eq 1 ] 430 if [ "`grep -c "^processor" /proc/cpuinfo`" -eq 1 ]
431 then 431 then
432 jobs="$((`grep -c ^processor /proc/cpuinfo` * 2))" 432 jobs="$((`grep -c ^processor /proc/cpuinfo` * 2))"
529 fi 529 fi
530 einfo " - Userid: ${euid}" 530 einfo " - Userid: ${euid}"
531 531
532 # handle shell 532 # handle shell
533 local eshell="$1"; shift 533 local eshell="$1"; shift
534 if [ ! -z "${eshell}" ] 534 if [ ! -z "${eshell}" ] && [ "${eshell}" != "-1" ]
535 then 535 then
536 if [ ! -e "${eshell}" ] 536 if [ ! -e "${eshell}" ]
537 then 537 then
538 eerror "A shell was specified but it does not exist !" 538 eerror "A shell was specified but it does not exist !"
539 die "${eshell} does not exist" 539 die "${eshell} does not exist"
544 einfo " - Shell: ${eshell}" 544 einfo " - Shell: ${eshell}"
545 opts="${opts} -s ${eshell}" 545 opts="${opts} -s ${eshell}"
546 546
547 # handle homedir 547 # handle homedir
548 local ehome="$1"; shift 548 local ehome="$1"; shift
549 if [ -z "${ehome}" ] 549 if [ -z "${ehome}" ] && [ "${eshell}" != "-1" ]
550 then 550 then
551 ehome="/dev/null" 551 ehome="/dev/null"
552 fi 552 fi
553 einfo " - Home: ${ehome}" 553 einfo " - Home: ${ehome}"
554 opts="${opts} -d ${ehome}" 554 opts="${opts} -d ${ehome}"
757 fi 757 fi
758 758
759 return 0 759 return 0
760} 760}
761 761
762# new convenience patch wrapper function to eventually replace epatch(), 762# for internal use only (unpack_pdv and unpack_makeself)
763# $PATCHES, $PATCHES1, src_unpack:patch, src_unpack:autopatch and 763find_unpackable_file() {
764# /usr/bin/patch 764 local src="$1"
765# Features:
766# - bulk patch handling similar to epatch()'s
767# - automatic patch level detection like epatch()'s
768# - automatic patch uncompression like epatch()'s
769# - doesn't have the --dry-run overhead of epatch() - inspects patchfiles
770# manually instead
771# - once I decide it's production-ready, it'll be called from base_src_unpack
772# to handle $PATCHES to avoid defining src_unpack just to use xpatch
773
774# accepts zero or more parameters specifying patchfiles and/or patchdirs
775
776# known issues:
777# - only supports unified style patches (does anyone _really_ use anything
778# else?)
779# - because it doesn't use --dry-run there is a risk of it failing
780# to find the files to patch, ie detect the patchlevel, properly. It doesn't use
781# any of the backup heuristics that patch employs to discover a filename.
782# however, this isn't dangerous because if it works for the developer who's
783# writing the ebuild, it'll always work for the users, and if it doesn't,
784# then we'll fix it :-)
785# - no support as yet for patches applying outside $S (and not directly in $WORKDIR).
786xpatch() {
787
788 debug-print-function ${FUNCNAME} $*
789
790 local list=
791 local list2=
792 declare -i plevel
793
794 # parse patch sources
795 for x in $*
796 do
797 debug-print "${FUNCNAME}: parsing parameter ${x}"
798 if [ -f "${x}" ] 765 if [ -z "${src}" ]
799 then 766 then
800 list="${list} ${x}" 767 src="${DISTDIR}/${A}"
801 elif [ -d "${x}" ] 768 else
802 then 769 if [ -e "${DISTDIR}/${src}" ]
803 # handles patchdirs like epatch() for now: no recursion.
804 # patches are sorted by filename, so with an xy_foo naming scheme you'll get the right order.
805 # only patches with _$ARCH_ or _all_ in their filenames are applied.
806 for file in `ls -A ${x}`
807 do
808 debug-print "${FUNCNAME}: parsing in subdir: file ${file}"
809 if [ -f "${x}/${file}" -a "${file}" != "${file/_all_}" -o \
810 "${file}" != "${file/_$ARCH_}" ]
811 then 770 then
812 list2="${list2} ${x}/${file}" 771 src="${DISTDIR}/${src}"
772 elif [ -e "${PWD}/${src}" ]
773 then
774 src="${PWD}/${src}"
775 elif [ -e "${src}" ]
776 then
777 src="${src}"
813 fi 778 fi
814 done 779 fi
815 list="`echo ${list2} | sort` ${list}" 780 [ ! -e "${src}" ] && die "Could not find requested archive ${src}"
781 echo "${src}"
782}
783
784# Unpack those pesky pdv generated files ...
785# They're self-unpacking programs with the binary package stuffed in
786# the middle of the archive. Valve seems to use it a lot ... too bad
787# it seems to like to segfault a lot :(. So lets take it apart ourselves.
788#
789# Usage: unpack_pdv [file to unpack] [size of off_t]
790# - you have to specify the off_t size ... i have no idea how to extract that
791# information out of the binary executable myself. basically you pass in
792# the size of the off_t type (in bytes) on the machine that built the pdv
793# archive. one way to determine this is by running the following commands:
794# strings <pdv archive> | grep lseek
795# strace -elseek <pdv archive>
796# basically look for the first lseek command (we do the strings/grep because
797# sometimes the function call is _llseek or something) and steal the 2nd
798# parameter. here is an example:
799# root@vapier 0 pdv_unpack # strings hldsupdatetool.bin | grep lseek
800# lseek
801# root@vapier 0 pdv_unpack # strace -elseek ./hldsupdatetool.bin
802# lseek(3, -4, SEEK_END) = 2981250
803# thus we would pass in the value of '4' as the second parameter.
804unpack_pdv() {
805 local src="`find_unpackable_file $1`"
806 local sizeoff_t="$2"
807
808 [ -z "${sizeoff_t}" ] && die "No idea what off_t size was used for this pdv :("
809
810 local shrtsrc="`basename ${src}`"
811 echo ">>> Unpacking ${shrtsrc} to ${PWD}"
812 local metaskip=`tail -c ${sizeoff_t} ${src} | hexdump -e \"%i\"`
813 local tailskip=`tail -c $((${sizeoff_t}*2)) ${src} | head -c ${sizeoff_t} | hexdump -e \"%i\"`
814
815 # grab metadata for debug reasons
816 local metafile="`mymktemp ${T}`"
817 tail -c +$((${metaskip}+1)) ${src} > ${metafile}
818
819 # rip out the final file name from the metadata
820 local datafile="`tail -c +$((${metaskip}+1)) ${src} | strings | head -n 1`"
821 datafile="`basename ${datafile}`"
822
823 # now lets uncompress/untar the file if need be
824 local tmpfile="`mymktemp ${T}`"
825 tail -c +$((${tailskip}+1)) ${src} 2>/dev/null | head -c 512 > ${tmpfile}
826
827 local iscompressed="`file -b ${tmpfile}`"
828 if [ "${iscompressed:0:8}" == "compress" ] ; then
829 iscompressed=1
830 mv ${tmpfile}{,.Z}
831 gunzip ${tmpfile}
832 else
833 iscompressed=0
834 fi
835 local istar="`file -b ${tmpfile}`"
836 if [ "${istar:0:9}" == "POSIX tar" ] ; then
837 istar=1
838 else
839 istar=0
840 fi
841
842 #for some reason gzip dies with this ... dd cant provide buffer fast enough ?
843 #dd if=${src} ibs=${metaskip} count=1 \
844 # | dd ibs=${tailskip} skip=1 \
845 # | gzip -dc \
846 # > ${datafile}
847 if [ ${iscompressed} -eq 1 ] ; then
848 if [ ${istar} -eq 1 ] ; then
849 tail -c +$((${tailskip}+1)) ${src} 2>/dev/null \
850 | head -c $((${metaskip}-${tailskip})) \
851 | tar -xzf -
816 else 852 else
817 die "Couldn't find ${x}" 853 tail -c +$((${tailskip}+1)) ${src} 2>/dev/null \
854 | head -c $((${metaskip}-${tailskip})) \
855 | gzip -dc \
856 > ${datafile}
857 fi
858 else
859 if [ ${istar} -eq 1 ] ; then
860 tail -c +$((${tailskip}+1)) ${src} 2>/dev/null \
861 | head -c $((${metaskip}-${tailskip})) \
862 | tar --no-same-owner -xf -
863 else
864 tail -c +$((${tailskip}+1)) ${src} 2>/dev/null \
865 | head -c $((${metaskip}-${tailskip})) \
866 > ${datafile}
867 fi
818 fi 868 fi
819 done 869 true
820 870 #[ -s "${datafile}" ] || die "failure unpacking pdv ('${metaskip}' '${tailskip}' '${datafile}')"
821 debug-print "${FUNCNAME}: final list of patches: ${list}" 871 #assert "failure unpacking pdv ('${metaskip}' '${tailskip}' '${datafile}')"
822
823 for x in ${list};
824 do
825 debug-print "${FUNCNAME}: processing ${x}"
826 # deal with compressed files. /usr/bin/file is in the system profile, or should be.
827 case "`/usr/bin/file -b ${x}`" in
828 *gzip*)
829 patchfile="${T}/current.patch"
830 ungzip -c "${x}" > "${patchfile}"
831 ;;
832 *bzip2*)
833 patchfile="${T}/current.patch"
834 bunzip2 -c "${x}" > "${patchfile}"
835 ;;
836 *text*)
837 patchfile="${x}"
838 ;;
839 *)
840 die "Could not determine filetype of patch ${x}"
841 ;;
842 esac
843 debug-print "${FUNCNAME}: patchfile=${patchfile}"
844
845 # determine patchlevel. supports p0 and higher with either $S or $WORKDIR as base.
846 target="`/bin/grep -m 1 '^+++ ' ${patchfile}`"
847 debug-print "${FUNCNAME}: raw target=${target}"
848 # strip target down to the path/filename, remove leading +++
849 target="${target/+++ }"; target="${target%% *}"
850 # duplicate slashes are discarded by patch wrt the patchlevel. therefore we need
851 # to discard them as well to calculate the correct patchlevel.
852 target="${target//\/\//\/}"
853 debug-print "${FUNCNAME}: stripped target=${target}"
854
855 # look for target
856 for basedir in "${S}" "${WORKDIR}" "${PWD}"; do
857 debug-print "${FUNCNAME}: looking in basedir=${basedir}"
858 cd "${basedir}"
859
860 # try stripping leading directories
861 target2="${target}"
862 plevel=0
863 debug-print "${FUNCNAME}: trying target2=${target2}, plevel=${plevel}"
864 while [ ! -f "${target2}" ]
865 do
866 target2="${target2#*/}" # removes piece of target2 upto the first occurence of /
867 plevel=$((plevel+1))
868 debug-print "${FUNCNAME}: trying target2=${target2}, plevel=${plevel}"
869 [ "${target2}" == "${target2/\/}" ] && break
870 done
871 test -f "${target2}" && break
872
873 # try stripping filename - needed to support patches creating new files
874 target2="${target%/*}"
875 plevel=0
876 debug-print "${FUNCNAME}: trying target2=${target2}, plevel=${plevel}"
877 while [ ! -d "${target2}" ]
878 do
879 target2="${target2#*/}" # removes piece of target2 upto the first occurence of /
880 plevel=$((plevel+1))
881 debug-print "${FUNCNAME}: trying target2=${target2}, plevel=${plevel}"
882 [ "${target2}" == "${target2/\/}" ] && break
883 done
884 test -d "${target2}" && break
885
886 done
887
888 test -f "${basedir}/${target2}" || test -d "${basedir}/${target2}" \
889 || die "Could not determine patchlevel for ${x}"
890 debug-print "${FUNCNAME}: determined plevel=${plevel}"
891 # do the patching
892 ebegin "Applying patch ${x##*/}..."
893 /usr/bin/patch -p${plevel} < "${patchfile}" > /dev/null \
894 || die "Failed to apply patch ${x}"
895 eend $?
896
897 done
898
899} 872}
900 873
901# Unpack those pesky makeself generated files ... 874# Unpack those pesky makeself generated files ...
902# They're shell scripts with the binary package tagged onto 875# They're shell scripts with the binary package tagged onto
903# the end of the archive. Loki utilized the format as does 876# the end of the archive. Loki utilized the format as does
906# Usage: unpack_makeself [file to unpack] [offset] 879# Usage: unpack_makeself [file to unpack] [offset]
907# - If the file is not specified then unpack will utilize ${A}. 880# - If the file is not specified then unpack will utilize ${A}.
908# - If the offset is not specified then we will attempt to extract 881# - If the offset is not specified then we will attempt to extract
909# the proper offset from the script itself. 882# the proper offset from the script itself.
910unpack_makeself() { 883unpack_makeself() {
911 local src="$1" 884 local src="`find_unpackable_file $1`"
912 local skip="$2" 885 local skip="$2"
913
914 if [ -z "${src}" ]
915 then
916 src="${DISTDIR}/${A}"
917 else
918 if [ -e "${DISTDIR}/${src}" ]
919 then
920 src="${DISTDIR}/${src}"
921 elif [ -e "${PWD}/${src}" ]
922 then
923 src="${PWD}/${src}"
924 elif [ -e "${src}" ]
925 then
926 src="${src}"
927 fi
928 fi
929 [ ! -e "${src}" ] && die "Could not find requested makeself archive ${src}"
930 886
931 local shrtsrc="`basename ${src}`" 887 local shrtsrc="`basename ${src}`"
932 echo ">>> Unpacking ${shrtsrc} to ${PWD}" 888 echo ">>> Unpacking ${shrtsrc} to ${PWD}"
933 if [ -z "${skip}" ] 889 if [ -z "${skip}" ]
934 then 890 then
962 ;; 918 ;;
963 esac 919 esac
964 debug-print "Detected Makeself version ${ver} ... using ${skip} as offset" 920 debug-print "Detected Makeself version ${ver} ... using ${skip} as offset"
965 fi 921 fi
966 922
967 # we do this because otherwise a failure in gzip will cause 0 bytes to be sent 923 # lets grab the first few bytes of the file to figure out what kind of archive it is
968 # to tar which will make tar not extract anything and exit with 0 924 local tmpfile="`mymktemp ${T}`"
969 tail -n +${skip} ${src} 2>/dev/null \ 925 tail -n +${skip} ${src} 2>/dev/null | head -c 512 > ${tmpfile}
970 | gzip -cd 2>/dev/null \ 926 local filetype="`file -b ${tmpfile}`"
971 | tar -x --no-same-owner -f - 2>/dev/null 927 case ${filetype} in
972 local pipestatus="${PIPESTATUS[*]}" 928 *tar\ archive)
973 pipestatus="${pipestatus// }" 929 tail -n +${skip} ${src} | tar --no-same-owner -xf -
974 if [ "${pipestatus//0}" != "" ] 930 ;;
975 then 931 bzip2*)
976 # maybe it isnt gzipped ... they usually are, but not always ... 932 tail -n +${skip} ${src} | bzip2 -dc | tar --no-same-owner -xf -
977 tail -n +${skip} ${src} 2>/dev/null \ 933 ;;
978 | tar -x --no-same-owner -f - 2>/dev/null 934 gzip*)
979 pipestatus="${pipestatus// }" 935 tail -n +${skip} ${src} | tar --no-same-owner -xzf -
980 if [ "${pipestatus//0}" != "" ] 936 ;;
981 then 937 *)
982 # and every once in a while they are bzipped2 ... 938 false
983 tail -n +${skip} ${src} 2>/dev/null \ 939 ;;
984 | bunzip2 -c 2>/dev/null \ 940 esac
985 | tar -x --no-same-owner -f - 2>/dev/null \
986 || die "failure unpacking makeself ${shrtsrc} ('${ver}' +${skip})" 941 assert "failure unpacking (${filetype}) makeself ${shrtsrc} ('${ver}' +${skip})"
987 fi
988 fi
989} 942}
990 943
991# Display a license for user to accept. 944# Display a license for user to accept.
992# 945#
993# Usage: check_license [license] 946# Usage: check_license [license]
1009 local l="`basename ${lic}`" 962 local l="`basename ${lic}`"
1010 963
1011 # here is where we check for the licenses the user already 964 # here is where we check for the licenses the user already
1012 # accepted ... if we don't find a match, we make the user accept 965 # accepted ... if we don't find a match, we make the user accept
1013 local alic 966 local alic
1014 for alic in ${ACCEPT_LICENSE} ; do 967 for alic in "${ACCEPT_LICENSE}" ; do
1015 [ "${alic}" == "*" ] && return 0 968 [ "${alic}" == "*" ] && return 0
1016 [ "${alic}" == "${l}" ] && return 0 969 [ "${alic}" == "${l}" ] && return 0
1017 done 970 done
1018 971
1019 local licmsg="`mymktemp ${T}`" 972 local licmsg="`mymktemp ${T}`"
1039 eerror "You MUST accept the license to continue! Exiting!" 992 eerror "You MUST accept the license to continue! Exiting!"
1040 die "Failed to accept license" 993 die "Failed to accept license"
1041 ;; 994 ;;
1042 esac 995 esac
1043} 996}
997
998# Aquire cd(s) for those lovely cd-based emerges. Yes, this violates
999# the whole 'non-interactive' policy, but damnit I want CD support !
1000#
1001# with these cdrom functions we handle all the user interaction and
1002# standardize everything. all you have to do is call cdrom_get_cds()
1003# and when the function returns, you can assume that the cd has been
1004# found at CDROM_ROOT.
1005#
1006# normally the cdrom functions will refer to the cds as 'cd #1', 'cd #2',
1007# etc... if you want to give the cds better names, then just export
1008# the CDROM_NAME_X variables before calling cdrom_get_cds().
1009#
1010# for those multi cd ebuilds, see the cdrom_load_next_cd() below.
1011#
1012# Usage: cdrom_get_cds <file on cd1> [file on cd2] [file on cd3] [...]
1013# - this will attempt to locate a cd based upon a file that is on
1014# the cd ... the more files you give this function, the more cds
1015# the cdrom functions will handle
1016cdrom_get_cds() {
1017 # first we figure out how many cds we're dealing with by
1018 # the # of files they gave us
1019 local cdcnt=0
1020 local f=
1021 for f in "$@" ; do
1022 cdcnt=$((cdcnt + 1))
1023 export CDROM_CHECK_${cdcnt}="$f"
1024 done
1025 export CDROM_TOTAL_CDS=${cdcnt}
1026 export CDROM_CURRENT_CD=1
1027
1028 # now we see if the user gave use CD_ROOT ...
1029 # if they did, let's just believe them that it's correct
1030 if [ ! -z "${CD_ROOT}" ] ; then
1031 export CDROM_ROOT="${CD_ROOT}"
1032 einfo "Found CD #${CDROM_CURRENT_CD} root at ${CDROM_ROOT}"
1033 return
1034 fi
1035 # do the same for CD_ROOT_X
1036 if [ ! -z "${CD_ROOT_1}" ] ; then
1037 local var=
1038 cdcnt=0
1039 while [ ${cdcnt} -lt ${CDROM_TOTAL_CDS} ] ; do
1040 cdcnt=$((cdcnt + 1))
1041 var="CD_ROOT_${cdcnt}"
1042 if [ -z "${!var}" ] ; then
1043 eerror "You must either use just the CD_ROOT"
1044 eerror "or specify ALL the CD_ROOT_X variables."
1045 eerror "In this case, you will need ${CDROM_TOTAL_CDS} CD_ROOT_X variables."
1046 die "could not locate CD_ROOT_${cdcnt}"
1047 fi
1048 export CDROM_ROOTS_${cdcnt}="${!var}"
1049 done
1050 export CDROM_ROOT=${CDROM_ROOTS_1}
1051 einfo "Found CD #${CDROM_CURRENT_CD} root at ${CDROM_ROOT}"
1052 return
1053 fi
1054
1055 if [ ${CDROM_TOTAL_CDS} -eq 1 ] ; then
1056 einfon "This ebuild will need the "
1057 if [ -z "${CDROM_NAME}" ] ; then
1058 echo "cdrom for ${PN}."
1059 else
1060 echo "${CDROM_NAME}."
1061 fi
1062 echo
1063 einfo "If you do not have the CD, but have the data files"
1064 einfo "mounted somewhere on your filesystem, just export"
1065 einfo "the variable CD_ROOT so that it points to the"
1066 einfo "directory containing the files."
1067 echo
1068 else
1069 einfo "This package will need access to ${CDROM_TOTAL_CDS} cds."
1070 cdcnt=0
1071 while [ ${cdcnt} -lt ${CDROM_TOTAL_CDS} ] ; do
1072 cdcnt=$((cdcnt + 1))
1073 var="CDROM_NAME_${cdcnt}"
1074 [ ! -z "${!var}" ] && einfo " CD ${cdcnt}: ${!var}"
1075 done
1076 echo
1077 einfo "If you do not have the CDs, but have the data files"
1078 einfo "mounted somewhere on your filesystem, just export"
1079 einfo "the following variables so they point to the right place:"
1080 einfon ""
1081 cdcnt=0
1082 while [ ${cdcnt} -lt ${CDROM_TOTAL_CDS} ] ; do
1083 cdcnt=$((cdcnt + 1))
1084 echo -n " CD_ROOT_${cdcnt}"
1085 done
1086 echo
1087 einfo "Or, if you have all the files in the same place, or"
1088 einfo "you only have one cdrom, you can export CD_ROOT"
1089 einfo "and that place will be used as the same data source"
1090 einfo "for all the CDs."
1091 echo
1092 fi
1093 export CDROM_CURRENT_CD=0
1094 cdrom_load_next_cd
1095}
1096
1097# this is only used when you need access to more than one cd.
1098# when you have finished using the first cd, just call this function.
1099# when it returns, CDROM_ROOT will be pointing to the second cd.
1100# remember, you can only go forward in the cd chain, you can't go back.
1101cdrom_load_next_cd() {
1102 export CDROM_CURRENT_CD=$((CDROM_CURRENT_CD + 1))
1103 local var=
1104
1105 unset CDROM_ROOT
1106 var=CDROM_ROOTS_${CDROM_CURRENT_CD}
1107 if [ -z "${!var}" ] ; then
1108 var="CDROM_CHECK_${CDROM_CURRENT_CD}"
1109 cdrom_locate_file_on_cd ${!var}
1110 else
1111 export CDROM_ROOT="${!var}"
1112 fi
1113
1114 einfo "Found CD #${CDROM_CURRENT_CD} root at ${CDROM_ROOT}"
1115}
1116
1117# this is used internally by the cdrom_get_cds() and cdrom_load_next_cd()
1118# functions. this should *never* be called from an ebuild.
1119# all it does is try to locate a give file on a cd ... if the cd isn't
1120# found, then a message asking for the user to insert the cdrom will be
1121# displayed and we'll hang out here until:
1122# (1) the file is found on a mounted cdrom
1123# (2) the user hits CTRL+C
1124cdrom_locate_file_on_cd() {
1125 while [ -z "${CDROM_ROOT}" ] ; do
1126 local dir="$(dirname ${@})"
1127 local file="$(basename ${@})"
1128 local mline=""
1129 local showedmsg=0
1130
1131 for mline in `mount | egrep -e '(iso|cdrom)' | awk '{print $3}'` ; do
1132 [ -d "${mline}/${dir}" ] || continue
1133 [ ! -z "$(find ${mline}/${dir} -iname ${file} -maxdepth 1)" ] \
1134 && export CDROM_ROOT=${mline}
1135 done
1136
1137 if [ -z "${CDROM_ROOT}" ] ; then
1138 echo
1139 if [ ${showedmsg} -eq 0 ] ; then
1140 if [ ${CDROM_TOTAL_CDS} -eq 1 ] ; then
1141 if [ -z "${CDROM_NAME}" ] ; then
1142 einfo "Please insert the cdrom for ${PN} now !"
1143 else
1144 einfo "Please insert the ${CDROM_NAME} cdrom now !"
1145 fi
1146 else
1147 if [ -z "${CDROM_NAME_1}" ] ; then
1148 einfo "Please insert cd #${CDROM_CURRENT_CD} for ${PN} now !"
1149 else
1150 local var="CDROM_NAME_${CDROM_CURRENT_CD}"
1151 einfo "Please insert+mount the ${!var} cdrom now !"
1152 fi
1153 fi
1154 showedmsg=1
1155 fi
1156 einfo "Press return to scan for the cd again"
1157 einfo "or hit CTRL+C to abort the emerge."
1158 read
1159 fi
1160 done
1161}

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