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#!/bin/sh
# $Id$
#
# utils.sh -- utility routines for the TeX Live installation scripts.
# Do not call directly.
#
# Copyright (c) Sebastian Rahtz and Karl Berry 2003, 2004, 2005, 2006.
#
# This program is free software; you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation; either version 2 of the License, or
# (at your option) any later version.
#
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program; if not, write to the Free Software
# Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA
# 02110-1301, USA.
#
# Send bug reports or suggestions to tex-live@tug.org.
################################################################
# Basic IO:
################################################################
################################################################
# read: called with the name of a variable and (optionally) a
# different message text. Keeps the old value of the
# variable, if the empty string in entered.
################################################################
gets()
{
gets_var=$1; gets_text=${2-$gets_var}
eval old=\$$gets_var
eval $echon \""New value for $gets_text [$old]: "\"
read $gets_var
eval test -z \"\$$gets_var\" && eval $gets_var=\'$old\'
}
################################################################
# getopt: get a menu choice.
# $1: string with valid characters
# $2: message for prompting
################################################################
getopt()
{
chars=$1; msg=$2
while true; do
#$echon "$msg ([$chars]): "
$echon "$msg: " >&2
read ans
ans=`echo $ans | tr '[a-z]' '[A-Z]'`
case "$ans" in
[$chars])
echo "$ans"
return
esac
done
}
getoptallcase()
{
chars=$1; msg=$2
while true; do
#$echon "$msg ([$chars]): "
$echon "$msg: " >&2
read ans
case "$ans" in
[$chars])
echo "$ans"
return
esac
done
}
################################################################
# toggle: given the name of a variable, toogle switches between
# the values ' ' and X.
################################################################
toggle()
{
if eval test \"\$$1\" = X; then
eval $1=\' \'
else
eval $1=X
fi
}
################################################################
# This tricky function displays the value of a variable that can
# contain newline characters. Variables will be expanded, too.
# Arguments:
# 1: the name of the variable
################################################################
textvar_show()
{
OLDIFS=$IFS; IFS='';
eval echo \"`eval echo \\$${1}`\"
IFS=$OLDIFS
}
readln()
{
$echon 'Press return to continue... '
read foo
}
helpme()
{
var=$1
cls
textvar_show $var 2>&1 | $PAGER
echo
readln
}
################################################################
# Use the yesno functions to ask the user a simple yes/no
# question.
# Arguments:
# $1: test to display for the question (" (Y/N)? " will
# automatically be appended).
################################################################
yesno()
{
while true; do
$echon "$1 (Y/N)? "
read ans
case $ans in
y|Y) return 0;;
n|N) return 1;;
esac
done
}
################################################################
# A set of functions the might do an echo without linefeed in
# the end. Function find_echo sets the variable "echon" to a
# suitable function.
################################################################
echo_a() { echo -n "$@"; }
echo_b() { echo "$@\c"; }
echo_c() { echo -e "$@\c"; }
echo_d() { /bin/echo -n "$@"; }
echo_e() { /bin/echo "$@\c"; }
echo_f() { /bin/echo -e "$@\c"; }
################################################################
# Test which of the above functions does the trick. We set
# the variable "echon" to the first function that works
# correctly.
################################################################
find_echo()
{
for i in a b c d e f; do
test "`echo_$i c``echo_$i a`" = ca && echon=echo_$i && return
done
echon=echo
}
################################################################
# a replacement for xargs (for systems that dont have it)
################################################################
mxargs()
{
(
COUNT=25
COUNTP=26
TEMP=${TMP-/tmp}
TMPA=$TEMP/.tmp_xargs_a.$$
TMPB=$TEMP/.tmp_xargs_b.$$
trap "rm -f $TMPA $TMPB; trap '' 0; exit 0" 0 1 2 15
cat > $TMPA
while test -s $TMPA; do
args=`sed -n "1,${COUNT}p" <$TMPA`
"$@" $args
mv $TMPA $TMPB
sed -n "${COUNTP},\$p" <$TMPB >$TMPA
done
)
}
################################################################
# search for a binary in PATH, find all occurences
################################################################
find_in_path()
{
fip_testbin=$1
fip_result=""
case "$fip_testbin" in
/*) test -x "$fip_testbin" && test -f "$fip_testbin" &&
fip_result="$fip_result $fip_testbin";;
*)
OLDIFS=$IFS; IFS=:; eval set $PATH; IFS=$OLDIFS
for fip_this_dir
do
test -x "$fip_this_dir/$fip_testbin" &&
test -f "$fip_this_dir/$fip_testbin" &&
fip_result="$fip_result $fip_this_dir/$fip_testbin"
done
esac
echo $fip_result
}
################################################################
# search for a tar that either understands -I or -T
################################################################
test_tar()
{
testtar_tmp=${TMP-/tmp}/.testtar.$$
TARS="`find_in_path gtar` `find_in_path tar`"
test -z "$TARS" && return
(
exec 3>&1 1>/dev/null 2>&1
trap "cd /; rm -rf $testtar_tmp; trap '' 0; exit 0" 0 1 2 15
mkdir $testtar_tmp; cd $testtar_tmp
mkdir a b
tar cf test.tar a b
rmdir a b
echo a > list
for TAR in $TARS; do
$TAR -x -f test.tar -T list >/dev/null 2>&1
if test -d a && test ! -d b; then
echo "$TAR -T" >&3
break
fi
rmdir a b >/dev/null 2>&1
$TAR -x -f test.tar -I list >/dev/null 2>&1
if test -d a && test ! -d b; then
echo "$TAR -I" >&3
break
fi
done
)
}
################################################################
# if we find a good tar: use it. Else use xargs (or even mxargs)
################################################################
find_tar()
{
XARGS=`find_in_path xargs | sed 's/ .*//'`
test -x "$XARGS" || XARGS=mxargs
set x `test_tar`; shift
if test -n "$1"; then
GOODTAR=true
TARPROG=$1; TAROPT=$2
else
GOODTAR=false
TARPROG=tar; TAROPT=""
fi
}
################################################################
# utility functions:
################################################################
bad_sh()
{
/bin/sh -c 'exit 1'
retval=$?
if test "$retval" != 1; then
echo
echo 'Your /bin/sh is completely broken. A simple program like'
echo
echo " /bin/sh -c 'exit 1'; echo \$?"
echo
echo "gives a wrong result."
echo
echo 'Your shell is likely to break some scripts of TeX Live. Please'
echo 'update your /bin/sh first and try to install TeX Live later.'
echo 'GNU bash 1.14.5 will do, whereas bash 1.14.3 is known to have'
echo 'problems.'
echo
exit 1
fi
}
warning()
{
echo "$@"
}
cls()
{
test "$debug" = true || clear
}
check_for_binary()
{
testbin=$1
case "$testbin" in
/*) test -x "$testbin" && test -f "$testbin"; return;;
*)
OLDIFS=$IFS; IFS=:; eval set $PATH; IFS=$OLDIFS
for this_dir
do
test -x "$this_dir/$testbin" &&
test -f "$this_dir/$testbin" && return 0
done
return 1;;
esac
}
require_binaries()
{
for this_bin
do
check_for_binary $this_bin ||
fatal "program '$this_bin' not found in PATH"
done
}
unset_vars()
{
for var in $envvars; do
unset $var
done
}
unset_vars()
{
for var in $envvars; do
unset $var
done
}
mkdirhier()
{
case $1 in
/*) cd /;;
esac
OLDIFS=$IFS; IFS=/; eval set $1; IFS=$OLDIFS
for i
do
test -d $i || mkdir $i || break
cd $i || break
done
}
# fill a string with blanks:
setlength()
{
var=$1
length=$2
eval value=\"\$$var\"
l=`expr "$value" : '.*'`
test $l -lt $length || return
d=`expr $length - $l`
OLDIFS=$IFS; IFS=''
substr=`awk 'END {print substr(" ", 1, ANZ)}' ANZ=$d </dev/null`
eval $var='$substr$value'
IFS=$OLDIFS
}
# [t]ry again, [r]econfigure, [a] abort
tra()
{
msg=$1
cls
echo "Oops, I am in trouble here! The error was:"
echo ">> $msg <<"
echo
case `getopt TRQ 'What shall we do now: <t>ry again, <r>econfigure, <q>uit'` in
T) return;;
R) menu_main;;
Q) exit 1;;
esac
}
warn()
{
msg=$1
cls
echo "Oops, I am in trouble here! The problem was:" >&2
echo ">> $msg <<" >&2
echo >&2
case `getopt CQ 'What shall we do now: <c>continue, <q>uit'` in
C) return;;
Q) exit 1;;
esac
}
fatal()
{
echo; echo
echo "ERROR: $@."
echo "This was a fatal error. Installation aborted."
$debug && read foo
exit 1
}
show_error()
{
test $? = 0 && return
cls
echo 'WARNING: the last command returned an error.'
if yesno 'Do you want to see the errorlog'; then
cat $ERRLOG | $PAGER
readln
fi
cls
}
locate_binaries()
{
require_binaries touch sed awk gzip ln rm ls tar tr mkdir cat `echo $PAGER | sed 's@ .*@@'` pwd
}
# convert standard names to our binary names.
platform_guess()
{
sys=`(cd ${TMP-/tmp}; sh ${OVERRIDE_GUESS-$CDDIR}/config.guess)`
system=`echo $sys | sed 's/-[^-]*-/-/'`
case $system in
*86-cygwin*) Sys=i386_cgywin;;
*86-darwin*) Sys=i386_darwin;;
*86-freebsd*) Sys=i386_freebsd;;
*86-linux*) Sys=i386_linux;;
*86-solaris*) Sys=i386_solaris;;
*86_64*-linux*) Sys=x86_64_linux;;
alpha*-linux*) Sys=alpha_linux;;
mips-irix*) Sys=mips_irix;;
powerpc-aix*) Sys=powerpc_aix;;
powerpc-*darwin*) Sys=powerpc_darwin;;
sparc-solaris*) Sys=sparc_solaris;;
sparc*-linux*) Sys=sparc_linux;;
# *86-openbsd*) Sys=i386_openbsd;;
# alphaev*-osf*) Sys=alphaev5_osf;;
esac
this_system=$Sys
}
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