# $Id$ # The inevitable utilities for TeX Live. # # Copyright 2007, 2008, 2009 Norbert Preining, Reinhard Kotucha # This file is licensed under the GNU General Public License version 2 # or any later version. package TeXLive::TLUtils; my $svnrev = '$Revision$'; my $_modulerevision; if ($svnrev =~ m/: ([0-9]+) /) { $_modulerevision = $1; } else { $_modulerevision = "unknown"; } sub module_revision { return $_modulerevision; } =pod =head1 NAME C -- utilities used in the TeX Live infrastructure =head1 SYNOPSIS use TeXLive::TLUtils; =head2 Platform Detection TeXLive::TLUtils::platform(); TeXLive::TLUtils::platform_desc($platform); TeXLive::TLUtils::win32(); TeXLive::TLUtils::unix(); =head2 System Tools TeXLive::TLUtils::getenv($string); TeXLive::TLUtils::which($string); TeXLive::TLUtils::get_system_tmpdir(); TeXLive::TLUtils::tl_tmpdir(); TeXLive::TLUtils::xchdir($dir); TeXLive::TLUtils::xsystem(@args); TeXLive::TLUtils::run_cmd($cmd); =head2 File Utilities TeXLive::TLUtils::dirname($path); TeXLive::TLUtils::basename($path); TeXLive::TLUtils::dirname_and_basename($path); TeXLive::TLUtils::dir_writable($path); TeXLive::TLUtils::mkdirhier($path); TeXLive::TLUtils::rmtree($root, $verbose, $safe); TeXLive::TLUtils::copy($file, $target_dir); TeXLive::TLUtils::touch(@files); TeXLive::TLUtils::collapse_dirs(@files); TeXLive::TLUtils::removed_dirs(@files); TeXLive::TLUtils::download_file($path, $destination [, $progs ]); TeXLive::TLUtils::setup_programs($bindir, $platform); TeXLive::TLUtils::tlcmp($file, $file); =head2 Installer Functions TeXLive::TLUtils::make_var_skeleton($path); TeXLive::TLUtils::make_local_skeleton($path); TeXLive::TLUtils::create_fmtutil($tlpdb,$dest,$localconf); TeXLive::TLUtils::create_updmap($tlpdb,$dest,$localconf); TeXLive::TLUtils::create_language_dat($tlpdb,$dest,$localconf); TeXLive::TLUtils::create_language_def($tlpdb,$dest,$localconf); TeXLive::TLUtils::time_estimate($totalsize, $donesize, $starttime) TeXLive::TLUtils::install_packages($from_tlpdb,$media,$to_tlpdb,$what,$opt_src, $opt_doc)>); TeXLive::TLUtils::install_package($what, $filelistref, $target, $platform); TeXLive::TLUtils::do_postaction($how, $tlpobj, $do_fileassocs, $do_shortcuts, $do_script); TeXLive::TLUtils::announce_execute_actions($how, @executes); TeXLive::TLUtils::add_symlinks($root, $arch, $sys_bin, $sys_man, $sys_info); TeXLive::TLUtils::remove_symlinks($root, $arch, $sys_bin, $sys_man, $sys_info); TeXLive::TLUtils::w32_add_to_path($bindir, $multiuser); TeXLive::TLUtils::w32_remove_from_path($bindir, $multiuser); =head2 Miscellaneous TeXLive::TLUtils::sort_uniq(@list); TeXLive::TLUtils::push_uniq(\@list, @items); TeXLive::TLUtils::member($item, @list); TeXLive::TLUtils::merge_into(\%to, \%from); TeXLive::TLUtils::texdir_check($texdir); TeXLive::TLUtils::conv_to_w32_path($path); TeXLive::TLUtils::give_ctan_mirror(); TeXLive::TLUtils::give_ctan_mirror_base(); TeXLive::TLUtils::tlmd5($path); =head1 DESCRIPTION =cut BEGIN { use Exporter (); use vars qw( @ISA @EXPORT_OK @EXPORT); @ISA = qw(Exporter); @EXPORT_OK = qw( &platform &platform_desc &unix &getenv &which &get_system_tmpdir &dirname &basename &dirname_and_basename &dir_writable &mkdirhier &rmtree © &touch &collapse_dirs &removed_dirs &install_package &install_packages &make_var_skeleton &make_local_skeleton &create_fmtutil &create_updmap &create_language_dat &create_language_def &parse_AddFormat_line &parse_AddHyphen_line &sort_uniq &push_uniq &texdir_check &member "ewords &conv_to_w32_path &untar &merge_into &welcome &welcome_paths &give_ctan_mirror &give_ctan_mirror_base &tlmd5 &xsystem &run_cmd &announce_execute_actions &add_symlinks &remove_symlinks &w32_add_to_path &w32_remove_from_path &tlcmp &time_estimate ); @EXPORT = qw(setup_programs download_file process_logging_options tldie tlwarn info log debug ddebug dddebug debug_hash win32 xchdir xsystem run_cmd); } use Cwd; use Digest::MD5; use Getopt::Long; use File::Temp; use TeXLive::TLConfig; $::opt_verbosity = 0; # see process_logging_options =head2 Platform Detection =over 4 =item C If C<$^O=~/MSWin(32|64)$/i> is true we know that we're on Windows and we set the global variable C<$::_platform_> to C. Otherwise we call C. The output of C is filtered as described below. CPU type is determined by a regexp, and any C name is replaced by C. For OS we need a list because what's returned is not likely to match our historical names, e.g., C returns C but we need C. This list might/should contain OSs which are not currently supported. If a particular platform is not found in this list we use the regexp C as a last resort and hope it provides something useful. The result is stored in a global variable C<$::_platform_>, and subsequent calls just return that value. =cut sub platform { unless (defined $::_platform_) { if ($^O=~/^MSWin(32|64)$/i) { $::_platform_="win32"; } else { my $config_guess = "$::installerdir/tlpkg/installer/config.guess"; my @OSs = qw(aix cygwin darwin freebsd hpux irix linux netbsd openbsd solaris); # We cannot rely on #! in config.guess but have to call /bin/sh # explicitly because sometimes the 'noexec' flag is set in # /etc/fstab for ISO9660 file systems. chomp (my $guessed_platform = `/bin/sh $config_guess`); # For example, if the disc or reader has hardware problems. die "$0: could not run $config_guess, cannot proceed, sorry" if ! $guessed_platform; $guessed_platform =~ s/^x86_64-(.*)-freebsd/amd64-$1-freebsd/; my $CPU; # CPU type as reported by config.guess. my $OS; # O/S type as reported by config.guess. ($CPU = $guessed_platform) =~ s/(.*?)-.*/$1/; $CPU =~ s/^alpha(.*)/alpha/; # alphaev56 or whatever $CPU =~ s/powerpc64/powerpc/; # we don't distinguish on ppc64 for my $os (@OSs) { $OS = $os if $guessed_platform =~ /$os/; } if ($OS eq "darwin") { $CPU = "universal"; # TL provides universal binaries } elsif ($CPU =~ /^i.86$/) { $CPU = "i386"; # 586, 686, whatever } unless (defined $OS) { ($OS = $guessed_platform) =~ s/.*-(.*)/$1/; } $::_platform_ = "$CPU-$OS"; } } return $::_platform_; } =item C Return a string which describes a particular platform identifier, e.g., given C we return C. =cut sub platform_desc { my ($platform) = @_; my %platform_name=( 'alpha-linux' => 'DEC Alpha with GNU/Linux', 'alphaev5-osf' => 'DEC Alphaev5 OSF', 'amd64-freebsd' => 'x86_64 with FreeBSD', 'hppa-hpux' => 'HP-UX', 'i386-cygwin' => 'Intel x86 with Cygwin', 'i386-darwin' => 'Intel x86 with MacOSX/Darwin', 'i386-freebsd' => 'Intel x86 with FreeBSD', 'i386-openbsd' => 'Intel x86 with OpenBSD', 'i386-netbsd' => 'Intel x86 with NetBSD', 'i386-linux' => 'Intel x86 with GNU/Linux', 'i386-solaris' => 'Intel x86 with Sun Solaris', 'mips-irix' => 'SGI IRIX', 'powerpc-aix' => 'PowerPC with AIX', 'powerpc-darwin' => 'PowerPC with MacOSX/Darwin', 'powerpc-linux' => 'PowerPC with GNU/Linux', 'sparc-linux' => 'Sparc with GNU/Linux', 'sparc-solaris' => 'Sparc with Solaris', 'universal-darwin' => 'universal binaries for MacOSX/Darwin', 'win32' => 'Windows', 'x86_64-linux' => 'x86_64 with GNU/Linux' ); # the inconsistency between amd64-freebsd and x86_64-linux is # unfortunate (it's the same hardware), but the os people say those # are the conventional names on the respective os's, so ... if (exists $platform_name{$platform}) { return "$platform_name{$platform}"; } else { my ($CPU,$OS) = split ('-', $platform); return "$CPU with " . ucfirst "$OS"; } } =item C Return C<1> if platform is Windows and C<0> otherwise. The test is currently based on the value of Perl's C<$^O> variable. =cut sub win32 { if ($^O=~/^MSWin(32|64)$/i) { return 1; } else { return 0; } # the following needs config.guess, which is quite bad ... # return (&platform eq "win32")? 1:0; } =item C Return C<1> if platform is UNIX and C<0> otherwise. =cut sub unix { return (&platform eq "win32")? 0:1; } =back =head2 System Tools =over 4 =item C Get an environment variable. It is assumed that the environment variable contains a path. On Windows all backslashes are replaced by forward slashes as required by Perl. If this behavior is not desired, use C<$ENV{"$variable"}> instead. C<0> is returned if the environment variable is not set. =cut sub getenv { my $envvar=shift; my $var=$ENV{"$envvar"}; return 0 unless (defined $var); if (&win32) { $var=~s!\\!/!g; # change \ -> / (required by Perl) } return "$var"; } =item C C does the same as the UNIX command C, but it is supposed to work on Windows too. On Windows we have to try all the extensions given in the C environment variable. We also try without appending an extension because if C<$string> comes from an environment variable, an extension might aleady be present. =cut sub which { my ($prog) = @_; my @PATH; my $PATH = getenv('PATH'); if (&win32) { my @PATHEXT = split (';', getenv('PATHEXT')); push (@PATHEXT, ''); # in case argument contains an extension @PATH = split (';', $PATH); for my $dir (@PATH) { for my $ext (@PATHEXT) { if (-f "$dir/$prog$ext") { return "$dir/$prog$ext"; } } } } else { # not windows @PATH = split (':', $PATH); for my $dir (@PATH) { if (-x "$dir/$prog") { return "$dir/$prog"; } } } return 0; } =item C Evaluate the environment variables C, C, and C in order to find the system temporary directory. =cut sub get_system_tmpdir { my $systmp=0; $systmp||=getenv 'TMPDIR'; $systmp||=getenv 'TMP'; $systmp||=getenv 'TEMP'; $systmp||='/tmp'; return "$systmp"; } =item C Create a temporary directory which is cleaned up as soon as the program is terminated. =cut sub tl_tmpdir { return (File::Temp::tempdir(CLEANUP => 1)); } =item C C or die. =cut sub xchdir { my ($dir) = @_; chdir($dir) || die "$0: chdir($dir) failed: $!"; ddebug("xchdir($dir) ok\n"); } =item C Run C and die if unsuccessful. =cut sub xsystem { my (@args) = @_; ddebug("running system(@args)\n"); my $retval = system(@args); if ($retval != 0) { $retval /= 256 if $retval > 0; my $pwd = cwd (); die "$0: system(@args) failed in $pwd, status $retval"; } } =item C runs a command and captures its output. Then returns a list with the output as first element and the return value (exit code) as second. =cut sub run_cmd { my $cmd = shift; my $output = `$cmd`; $retval = $?; if ($retval != 0) { $retval /= 256 if $retval > 0; } return ($output, $retval); } =back =head2 File Utilities =over 4 =item C Return C<$path> with its trailing C removed. =cut sub dirname { my $path=shift; if (win32) { $path=~s!\\!/!g; } if ($path=~m!/!) { # dirname("foo/bar/baz") -> "foo/bar" $path=~m!(.*)/.*!; return $1; } else { # dirname("ignore") -> "." return "."; } } =item C Return C<$path> with any leading directory components removed. =cut sub basename { my $path=shift; if (win32) { $path=~s!\\!/!g; } if ($path=~m!/!) { # basename("foo/bar") -> "bar" $path=~m!.*/(.*)!; return $1; } else { # basename("ignore") -> "ignore" return $path; } } =item C Return both C and C. Example: ($dirpart,$filepart) = dirname_and_basename ($path); =cut sub dirname_and_basename { my $path=shift; if (win32) { $path=~s!\\!/!g; } $path=~/(.*)\/(.*)/; return ("$1", "$2"); } =item C Tests whether its argument is writable by trying to write to it. This function is necessary because the built-in C<-w> test just looks at mode and uid/guid, which on Windows always returns true and even on Unix is not always good enough for directories mounted from a fileserver. =cut # Theoretically, the test below, which uses numbers as names, might # lead to a race condition. OTOH, it should work even on a very # broken Perl. # The Unix test gives the wrong answer when used under Windows Vista # with one of the `virtualized' directories such as Program Files: # lacking administrative permissions, it would write successfully to # the virtualized Program Files rather than fail to write to the # real Program Files. Ugh. sub dir_writable { $path=shift; return 0 unless -d $path; $path =~ s!\\!/!g if win32; $path =~ s!/$!!g; my $i = 0; while (-e $path . "/" . $i) { $i++; } my $f = $path."/".$i; return 0 unless open TEST, ">".$f; my $written = 0; $written = (print TEST "\n"); close TEST; unlink $f; return $written; } =item C The function C does the same as the UNIX command C. The optional parameter sets the permission flags. =cut sub mkdirhier { my ($tree,$mode) = @_; return if (-d "$tree"); my $subdir = ""; @dirs = split (/\//, $tree); for my $dir (@dirs) { $subdir .= "$dir/"; if (! -d $subdir) { if (defined $mode) { mkdir ($subdir, $mode) || die "$0: mkdir($subdir,$mode) failed, goodbye: $!\n"; } else { mkdir ($subdir) || die "$0: mkdir($subdir) failed, goodbye: $!\n"; } } } } =item C The C function provides a convenient way to delete a subtree from the directory structure, much like the Unix command C. C takes three arguments: =over 4 =item * the root of the subtree to delete, or a reference to a list of roots. All of the files and directories below each root, as well as the roots themselves, will be deleted. =item * a boolean value, which if TRUE will cause C to print a message each time it examines a file, giving the name of the file, and indicating whether it's using C or C to remove it, or that it's skipping it. (defaults to FALSE) =item * a boolean value, which if TRUE will cause C to skip any files to which you do not have delete access (if running under VMS) or write access (if running under another OS). This will change in the future when a criterion for 'delete permission' under OSs other than VMS is settled. (defaults to FALSE) =back It returns the number of files successfully deleted. Symlinks are simply deleted and not followed. B There are race conditions internal to the implementation of C making it unsafe to use on directory trees which may be altered or moved while C is running, and in particular on any directory trees with any path components or subdirectories potentially writable by untrusted users. Additionally, if the third parameter is not TRUE and C is interrupted, it may leave files and directories with permissions altered to allow deletion (and older versions of this module would even set files and directories to world-read/writable!) Note also that the occurrence of errors in C can be determined I by trapping diagnostic messages using C<$SIG{__WARN__}>; it is not apparent from the return value. =cut #taken from File/Path.pm # my $Is_VMS = $^O eq 'VMS'; my $Is_MacOS = $^O eq 'MacOS'; # These OSes complain if you want to remove a file that you have no # write permission to: my $force_writeable = ($^O eq 'os2' || $^O eq 'dos' || $^O eq 'MSWin32' || $^O eq 'amigaos' || $^O eq 'MacOS' || $^O eq 'epoc'); sub rmtree { my($roots, $verbose, $safe) = @_; my(@files); my($count) = 0; $verbose ||= 0; $safe ||= 0; if ( defined($roots) && length($roots) ) { $roots = [$roots] unless ref $roots; } else { warn "No root path(s) specified"; return 0; } my($root); foreach $root (@{$roots}) { if ($Is_MacOS) { $root = ":$root" if $root !~ /:/; $root =~ s#([^:])\z#$1:#; } else { $root =~ s#/\z##; } (undef, undef, my $rp) = lstat $root or next; $rp &= 07777; # don't forget setuid, setgid, sticky bits if ( -d _ ) { # notabene: 0700 is for making readable in the first place, # it's also intended to change it to writable in case we have # to recurse in which case we are better than rm -rf for # subtrees with strange permissions chmod($rp | 0700, ($Is_VMS ? VMS::Filespec::fileify($root) : $root)) or warn "Can't make directory $root read+writeable: $!" unless $safe; if (opendir my $d, $root) { no strict 'refs'; if (!defined ${"\cTAINT"} or ${"\cTAINT"}) { # Blindly untaint dir names @files = map { /^(.*)$/s ; $1 } readdir $d; } else { @files = readdir $d; } closedir $d; } else { warn "Can't read $root: $!"; @files = (); } # Deleting large numbers of files from VMS Files-11 filesystems # is faster if done in reverse ASCIIbetical order @files = reverse @files if $Is_VMS; ($root = VMS::Filespec::unixify($root)) =~ s#\.dir\z## if $Is_VMS; if ($Is_MacOS) { @files = map("$root$_", @files); } else { @files = map("$root/$_", grep $_!~/^\.{1,2}\z/s,@files); } $count += rmtree(\@files,$verbose,$safe); if ($safe && ($Is_VMS ? !&VMS::Filespec::candelete($root) : !-w $root)) { print "skipped $root\n" if $verbose; next; } chmod $rp | 0700, $root or warn "Can't make directory $root writeable: $!" if $force_writeable; print "rmdir $root\n" if $verbose; if (rmdir $root) { ++$count; } else { warn "Can't remove directory $root: $!"; chmod($rp, ($Is_VMS ? VMS::Filespec::fileify($root) : $root)) or warn("and can't restore permissions to " . sprintf("0%o",$rp) . "\n"); } } else { if ($safe && ($Is_VMS ? !&VMS::Filespec::candelete($root) : !(-l $root || -w $root))) { print "skipped $root\n" if $verbose; next; } chmod $rp | 0600, $root or warn "Can't make file $root writeable: $!" if $force_writeable; print "unlink $root\n" if $verbose; # delete all versions under VMS for (;;) { unless (unlink $root) { warn "Can't unlink file $root: $!"; if ($force_writeable) { chmod $rp, $root or warn("and can't restore permissions to " . sprintf("0%o",$rp) . "\n"); } last; } ++$count; last unless $Is_VMS && lstat $root; } } } $count; } =item C =item C Copy file C<$file> to directory C<$target_dir>, or to the C<$destfile> in the second case. No external programs are involved. Since we need C, the Perl module C is required. The time stamps are preserved and symlinks are created on Unix systems. On Windows, C<(-l $file)> will never return 'C' and so symlinks will be (uselessly) copied as regular files. C invokes C if target directories do not exist. Files have mode C<0777> if they are executable and C<0666> otherwise, with the set bits in I cleared in each case. C<$file> can begin with a file:/ prefix. If C<$file> is not readable, we return without copying anything. (This can happen when the database and files are not in perfect sync.) On the other file, if the destination is not writable, or the writing fails, that is a fatal error. =cut sub copy { my $infile = shift; my $filemode = 0; if ($infile eq "-f") { # second argument is a file $filemode = 1; $infile = shift; } my $destdir=shift; my $outfile; my @stat; my $mode; my $buffer; my $offset; my $filename; my $dirmode = 0755; my $blocksize = $TeXLive::TLConfig::BlockSize; $infile =~ s!^file://*!/!i; # remove file:/ url prefix $filename = basename "$infile"; if ($filemode) { # given a destination file $outfile = $destdir; $destdir = dirname($outfile); } else { $outfile = "$destdir/$filename"; } mkdirhier ($destdir) unless -d "$destdir"; if (-l "$infile") { symlink (readlink $infile, "$destdir/$filename"); } else { if (! open (IN, $infile)) { warn "open($infile) failed, not copying: $!"; return; } binmode IN; $mode = (-x "$infile") ? oct("0777") : oct("0666"); $mode &= ~umask; open (OUT, ">$outfile") || die "open(>$outfile) failed: $!"; binmode OUT; chmod $mode, "$outfile"; while ($read = sysread (IN, $buffer, $blocksize)) { die "read($infile) failed: $!\n" unless defined $read; $offset = 0; while ($read) { $written = syswrite (OUT, $buffer, $read, $offset); die "write($outfile) failed: $!" unless defined $written; $read -= $written; $offset += $written; } } close (OUT) || warn "close($outfile) failed: $!"; close IN || warn "close($infile) failed: $!";; @stat = lstat ("$infile"); utime ($stat[8], $stat[9], $outfile); } } =item C Update modification and access time of C<@files>. Non-existent files are created. =cut sub touch { my @files=@_; foreach my $file (@_) { if (-e $file) { utime time, time, $file; } else { open TMP, ">>$file" && close TMP or warn "Can't update timestamps of $file: $!\n"; } } } =item C Return a (more or less) minimal list of directories and files, given an original list of files C<@files>. That is, if every file within a given directory is included in C<@files>, replace all of those files with the absolute directory name in the return list. Any files which have sibling files not included are retained and made absolute. We try to walk up the tree so that the highest-level directory containing only directories or files that are in C<@files> is returned. (This logic may not be perfect, though.) This is not just a string function; we check for other directory entries existing on disk within the directories of C<@files>. Therefore, if the entries are relative pathnames, the current directory must be set by the caller so that file tests work. As mentioned above, the returned list is absolute paths to directories and files. For example, suppose the input list is dir1/subdir1/file1 dir1/subdir2/file2 dir1/file3 If there are no other entries under C, the result will be C. =cut sub collapse_dirs { my (@files) = @_; my @ret = (); my %by_dir; # construct hash of all directories mentioned, values are lists of the # files in that directory. for my $f (@files) { my $abs_f = Cwd::abs_path ($f); die ("oops, no abs_path($f) from " . `pwd`) unless $abs_f; (my $d = $abs_f) =~ s,/[^/]*$,,; my @a = exists $by_dir{$d} ? @{$by_dir{$d}} : (); push (@a, $abs_f); $by_dir{$d} = \@a; } # for each of our directories, see if we are given everything in # the directory. if so, return the directory; else return the # individual files. for my $d (sort keys %by_dir) { opendir (DIR, $d) || die "opendir($d) failed: $!"; my @dirents = readdir (DIR); closedir (DIR) || warn "closedir($d) failed: $!"; # initialize test hash with all the files we saw in this dir. # (These idioms are due to "Finding Elements in One Array and Not # Another" in the Perl Cookbook.) my %seen; my @rmfiles = @{$by_dir{$d}}; @seen{@rmfiles} = (); # see if everything is the same. my $ok_to_collapse = 1; for my $dirent (@dirents) { next if $dirent =~ /^\.(\.|svn)?$/; # ignore . .. .svn my $item = "$d/$dirent"; # prepend directory for comparison if (! exists $seen{$item}) { $ok_to_collapse = 0; last; # no need to keep looking after the first. } } push (@ret, $ok_to_collapse ? $d : @{$by_dir{$d}}); } if (@ret != @files) { @ret = &collapse_dirs (@ret); } return @ret; } =item C returns all the directories from which all content will be removed =cut # return all the directories from which all content will be removed # # idea: # - create a hashes by_dir listing all files that should be removed # by directory, i.e., key = dir, value is list of files # - for each of the dirs (keys of by_dir and ordered deepest first) # check that all actually contained files are removed # and all the contained dirs are in the removal list. If this is the # case put that directory into the removal list # - return this removal list # sub removed_dirs { my (@files) = @_; my %removed_dirs; my %by_dir; # construct hash of all directories mentioned, values are lists of the # files/dirs in that directory. for my $f (@files) { # what should we do with not existing entries???? next if (! -r "$f"); my $abs_f = Cwd::abs_path ($f); # the following is necessary because on win32, # abs_path("tl-portable") # returns # c:\tl test\... # and not forward slashes, while, if there is already a forward / # in the path, also the rest is done with forward slashes. $abs_f =~ s!\\!/!g if win32(); if (!$abs_f) { warn ("oops, no abs_path($f) from " . `pwd`); next; } (my $d = $abs_f) =~ s,/[^/]*$,,; my @a = exists $by_dir{$d} ? @{$by_dir{$d}} : (); push (@a, $abs_f); $by_dir{$d} = \@a; } # for each of our directories, see if we are removing everything in # the directory. if so, return the directory; else return the # individual files. for my $d (reverse sort keys %by_dir) { opendir (DIR, $d) || die "opendir($d) failed: $!"; my @dirents = readdir (DIR); closedir (DIR) || warn "closedir($d) failed: $!"; # initialize test hash with all the files we saw in this dir. # (These idioms are due to "Finding Elements in One Array and Not # Another" in the Perl Cookbook.) my %seen; my @rmfiles = @{$by_dir{$d}}; @seen{@rmfiles} = (); # see if everything is the same. my $cleandir = 1; for my $dirent (@dirents) { next if $dirent =~ /^\.(\.|svn)?$/; # ignore . .. .svn my $item = "$d/$dirent"; # prepend directory for comparison if ( ((-d $item) && (defined($removed_dirs{$item}))) || (exists $seen{$item}) ) { # do nothing } else { $cleandir = 0; last; } } if ($cleandir) { $removed_dirs{$d} = 1; } } return keys %removed_dirs; } =item C Returns the estimated remaining and estimated total time based on the total size, the already done size, and the start time. =cut sub time_estimate { my ($totalsize, $donesize, $starttime) = @_; if ($donesize <= 0) { return ("??:??", "??:??"); } my $curtime = time(); my $passedtime = $curtime - $starttime; my $esttotalsecs = int ( ( $passedtime * $totalsize ) / $donesize ); my $remsecs = $esttotalsecs - $passedtime; my $min = int($remsecs/60); my $hour; if ($min >= 60) { $hour = int($min/60); $min %= 60; } my $sec = $remsecs % 60; $remtime = sprintf("%02d:%02d", $min, $sec); if ($hour) { $remtime = sprintf("%02d:$remtime", $hour); } my $tmin = int($esttotalsecs/60); my $thour; if ($tmin >= 60) { $thour = int($tmin/60); $tmin %= 60; } my $tsec = $esttotalsecs % 60; $tottime = sprintf("%02d:%02d", $tmin, $tsec); if ($thour) { $tottime = sprintf("%02d:$tottime", $thour); } return($remtime, $tottime); } =item C Installs the list of packages found in C<@$what> (a ref to a list) into the TLPDB given by C<$to_tlpdb>. Information on files are taken from the TLPDB C<$from_tlpdb>. C<$opt_src> and C<$opt_doc> specify whether srcfiles and docfiles should be installed (currently implemented only for installation from DVD). Returns 1 on success and 0 on error. =cut sub install_packages { my ($fromtlpdb,$media,$totlpdb,$what,$opt_src,$opt_doc) = @_; my $container_src_split = $fromtlpdb->config_src_container; my $container_doc_split = $fromtlpdb->config_doc_container; my $root = $fromtlpdb->root; my @packs = @$what; my $totalnr = $#packs + 1; my $td = length("$totalnr"); my $n = 0; my %tlpobjs; my $totalsize = 0; my $donesize = 0; my %tlpsizes; foreach my $p (@packs) { $tlpobjs{$p} = $fromtlpdb->get_package($p); if (!defined($tlpobjs{$p})) { die "STRANGE: $p not to be found in ", $fromtlpdb->root; } if ($media ne 'DVD') { # we use the container size as the measuring unit since probably # downloading will be the limiting factor $tlpsizes{$p} = $tlpobjs{$p}->containersize; $tlpsizes{$p} += $tlpobjs{$p}->srccontainersize if $opt_src; $tlpsizes{$p} += $tlpobjs{$p}->doccontainersize if $opt_doc; } else { # we have to add the respective sizes, that is checking for # installation of src and doc file $tlpsizes{$p} = $tlpobjs{$p}->runsize; $tlpsizes{$p} += $tlpobjs{$p}->srcsize if $opt_src; $tlpsizes{$p} += $tlpobjs{$p}->docsize if $opt_doc; my %foo = %{$tlpobjs{$p}->binsize}; for my $k (keys %foo) { $tlpsizes{$p} += $foo{$k}; } # all the packages sizes are in blocks, so transfer that to bytes $tlpsizes{$p} *= $TeXLive::TLConfig::BlockSize; } $totalsize += $tlpsizes{$p}; } my $starttime = time(); foreach my $package (@packs) { my $tlpobj = $tlpobjs{$package}; my $reloc = $tlpobj->relocated; $n++; my ($estrem, $esttot) = time_estimate($totalsize, $donesize, $starttime); my $infostr = sprintf("Installing [%0${td}d/$totalnr, " . "time/total: $estrem/$esttot]: $package [%dk]", $n, int($tlpsizes{$package}/1024) + 1); info("$infostr\n"); foreach my $h (@::install_packages_hook) { &$h($n,$totalnr); } my $real_opt_doc = $opt_doc; my $container; my @installfiles; push @installfiles, $tlpobj->runfiles; push @installfiles, $tlpobj->allbinfiles; push @installfiles, $tlpobj->srcfiles if ($opt_src); push @installfiles, $tlpobj->docfiles if ($real_opt_doc); if ($media eq 'DVD') { $container = [ $root, @installfiles ]; } elsif ($media eq 'CD') { if (-r "$root/$Archive/$package.zip") { $container = "$root/$Archive/$package.zip"; } elsif (-r "$root/$Archive/$package.tar.xz") { $container = "$root/$Archive/$package.tar.xz"; } else { tlwarn("No package $package (.zip or .xz) in $root/$Archive\n"); next; } } elsif ($media eq 'NET') { $container = "$root/$Archive/$package.$DefaultContainerExtension"; } if (!install_package($container, $reloc, $tlpobj->containersize, $tlpobj->containermd5, \@installfiles, $totlpdb->root, $vars{'this_platform'})) { # we already warn in install_package that something bad happened, # so only return here return 0; } # if we are installing from CD or NET we have to fetch the respective # source and doc packages $pkg.source and $pkg.doc and install them, too if (($media eq 'NET') || ($media eq 'CD')) { # we install split containers under the following conditions: # - the container were split generated # - src/doc files should be installed # (- the package is not already a split one (like .i386-linux)) # the above test has been removed since that would mean that packages # with a dot like texlive.infra will never have the docfiles installed # that is already happening ...bummer. But since we already check # whether there are src/docfiles present at all that is fine # - there are actually src/doc files present if ($container_src_split && $opt_src && $tlpobj->srcfiles) { my $srccontainer = $container; $srccontainer =~ s/(\.tar\.xz|\.zip)$/.source$1/; if (!install_package($srccontainer, $reloc, $tlpobj->srccontainersize, $tlpobj->srccontainermd5, \@installfiles, $totlpdb->root, $vars{'this_platform'})) { return 0; } } if ($container_doc_split && $real_opt_doc && $tlpobj->docfiles) { my $doccontainer = $container; $doccontainer =~ s/(\.tar\.xz|\.zip)$/.doc$1/; if (!install_package($doccontainer, $reloc, $tlpobj->doccontainersize, $tlpobj->doccontainermd5, \@installfiles, $totlpdb->root, $vars{'this_platform'})) { return 0; } } } # we don't want to have wrong information in the tlpdb, so remove the # src/doc files if they are not installed ... if (!$opt_src) { $tlpobj->clear_srcfiles; } if (!$real_opt_doc) { $tlpobj->clear_docfiles; } # if a package is relocatable we have to cancel the reloc prefix # before we save it to the local tlpdb if ($tlpobj->relocated) { $tlpobj->cancel_reloc_prefix; } $totlpdb->add_tlpobj($tlpobj); # we have to write out the tlpobj file since it is contained in the # archives (.tar.xz) but at DVD install time we don't have them my $tlpod = $totlpdb->root . "/tlpkg/tlpobj"; mkdirhier( $tlpod ); open(TMP,">$tlpod/".$tlpobj->name.".tlpobj") || die "$0: open tlpobj " . $tlpobj->name . "failed: $!"; $tlpobj->writeout(\*TMP); close(TMP); $donesize += $tlpsizes{$package}; } my $totaltime = time() - $starttime; my $totmin = int ($totaltime/60); my $totsec = $totaltime % 60; info(sprintf("Time used for installing the packages: %02d:%02d\n", $totmin, $totsec)); $totlpdb->save; return 1; } =item C This function installs the files given in @$filelistref from C<$what> into C<$target>. C<$size> gives the size in bytes of the container, or -1 if we are installing from DVD, i.e., from a list of files to be copied. If C<$what> is a reference to a list of files then these files are assumed to be readable and are copied to C<$target>, creating dirs on the way. In this case the list C<@$filelistref> is not taken into account. If C<$what> starts with C or C then C<$what> is downloaded from the net and piped through C and C. If $what ends with C<.tar.xz> (but does not start with C or C, but possibly with C) it is assumed to be a readable file on the system and is likewise piped through C and C. In both of these cases currently the list C<$@filelistref> currently is not taken into account (should be fixed!). if C<$reloc> is true the container (NET or CD mode) is packaged in a way that the initial texmf-dist is missing. Returns 1 on success and 0 on error. =cut sub install_package { my ($what, $reloc, $whatsize, $whatmd5, $filelistref, $target, $platform) = @_; my @filelist = @$filelistref; my $tempdir = "$target/temp"; # we assume that $::progs has been set up! my $wget = $::progs{'wget'}; my $xzdec = $::progs{'xzdec'}; if (!defined($wget) || !defined($xzdec)) { tlwarn("install_package: wget/xzdec programs not set up properly.\n"); return 0; } if (ref $what) { # we are getting a ref to a list of files, so install from DVD my ($root, @files) = @$what; foreach my $file (@files) { # @what is taken, not @filelist! # is this still needed? my $dn=dirname($file); mkdirhier("$target/$dn"); copy "$root/$file", "$target/$dn"; } } elsif ($what =~ m,\.tar.xz$,) { # this is the case when we install from CD or the NET # # in all other cases we create temp files .tar.xz (or use the present # one), xzdec them, and then call tar # if we are unpacking a relocated container we adjust the target if ($reloc) { $target .= "/$TeXLive::TLConfig::RelocTree" if $reloc; mkdir($target) if (! -d $target); } my $fn = basename($what); my $pkg = $fn; $pkg =~ s/\.tar\.xz$//; mkdirhier("$tempdir"); my $xzfile = "$tempdir/$fn"; my $tarfile = "$tempdir/$fn"; $tarfile =~ s/\.xz$//; my $xzfile_quote = $xzfile; my $tarfile_quote = $tarfile; if (win32()) { $xzfile =~ s!/!\\!g; $tarfile =~ s!/!\\!g; $target =~ s!/!\\!g; } $xzfile_quote = "\"$xzfile\""; $tarfile_quote = "\"$tarfile\""; my $gotfiledone = 0; if (-r $xzfile) { # check that the downloaded file is not partial if ($whatsize >= 0) { # we have the size given, so check that first my $size = (stat $xzfile)[7]; if ($size == $whatsize) { # we want to check also the md5sum if we have it present if ($whatmd5) { if (tlmd5($xzfile) eq $whatmd5) { $gotfiledone = 1; } else { tlwarn("Downloaded $what, size equal, but md5sum differs;\n", "downloading again.\n"); } } else { # size ok, no md5sum tlwarn("Downloaded $what, size equal, but no md5sum available;\n", "continuing, with fingers crossed."); $gotfiledone = 1; } } else { tlwarn("Partial download of $what found, removing it.\n"); unlink($tarfile, $xzfile); } } else { # ok no size information, hopefully we have md5 sums if ($whatmd5) { if (tlmd5($xzfile) eq $whatmd5) { $gotfiledone = 1; } else { tlwarn("Downloaded file, but md5sum differs, removing it.\n"); } } else { tlwarn("Container found, but cannot verify size of md5sum;\n", "continuing, with fingers crossed.\n"); $gotfiledone = 1; } } debug("Reusing already downloaded container $xzfile\n") if ($gotfiledone); } if (!$gotfiledone) { if ($what =~ m,http://|ftp://,) { # we are installing from the NET # download the file and put it into temp if (!download_file($what, $xzfile) || (! -r $xzfile)) { tlwarn("Downloading $what did not succeed.\n"); return 0; } } else { # we are installing from CD # copy it to temp copy($what, $tempdir); } } debug("un-xzing $xzfile to $tarfile\n"); system("$xzdec < $xzfile_quote > $tarfile_quote"); if (! -f $tarfile) { tlwarn("Unpacking $xzfile did not succeed.\n"); return 0; } if (!TeXLive::TLUtils::untar($tarfile, $target, 1)) { tlwarn("untarring $tarfile failed, stopping install.\n"); return 0; } # we remove the created .tlpobj it is recreated anyway in # install_packages above in the right place. This way we also # get rid of the $pkg.source.tlpobj which are useless unlink ("$target/tlpkg/tlpobj/$pkg.tlpobj") if (-r "$target/tlpkg/tlpobj/$pkg.tlpobj"); if ($what =~ m,http://|ftp://,) { # we downloaded the original .tar.lzma from the net, so we keep it } else { # we are downloading it from CD, so we can unlink it to save # disk space unlink($xzfile); } } else { tlwarn("Sorry, no idea how to install $what\n"); return 0; } return 1; } =item C Evaluates the C fields in the C<$tlpobj>. The first parameter can be either C or C. The second gives the TLPOBJ whos postactions should be evaluated, and the last three arguments specify what type of postactions should (or shouldn't) be evaluated. Returns 1 on success, and 0 on failure. =cut sub do_postaction { my ($how, $tlpobj, $do_fileassocs, $do_shortcuts, $do_script) = @_; my $ret = 1; if (!defined($tlpobj)) { tlwarn("do_postaction: didn't get a tlpobj\n"); return 0; } debug("running postaction=$how for " . $tlpobj->name . "\n") if $tlpobj->postactions; for my $pa ($tlpobj->postactions) { if ($pa =~ m/^\s*shortcut\s+(.*)\s*$/) { next unless $do_shortcuts; $ret &&= _do_postaction_shortcut($how, $tlpobj, $1); } elsif ($pa =~ m/\s*filetype\s+(.*)\s*$/) { next unless $do_fileassocs; $ret &&= _do_postaction_filetype($how, $tlpobj, $1); } elsif ($pa =~ m/\s*fileassoc\s+(.*)\s*$/) { $ret &&= _do_postaction_fileassoc($how, $do_fileassocs, $tlpobj, $1); next; } elsif ($pa =~ m/\s*script\s+(.*)\s*$/) { next unless $do_script; $ret &&= _do_postaction_script($how, $tlpobj, $1); } else { tlwarn("do_postaction: don't know how to do $pa\n"); $ret = 0; } } # nothing to do return $ret; } sub _do_postaction_fileassoc { my ($how, $mode, $tlpobj, $pa) = @_; return 1 unless win32(); my ($errors, %keyval) = parse_into_keywords($pa, qw/extension filetype/); if ($errors) { tlwarn("parsing the postaction line >>$pa<< did not succeed!\n"); return 0; } # name can be an arbitrary string if (!defined($keyval{'extension'})) { tlwarn("extension of fileassoc postaction not given\n"); return 0; } my $extension = $keyval{'extension'}; # cmd can be an arbitrary string if (!defined($keyval{'filetype'})) { tlwarn("filetype of fileassoc postaction not given\n"); return 0; } my $filetype = $keyval{'filetype'}; &log("postaction $how fileassoc for " . $tlpobj->name . ": $extension, $filetype\n"); if ($how eq "install") { TeXLive::TLWinGoo::register_extension($mode, $extension, $filetype); } elsif ($how eq "remove") { TeXLive::TLWinGoo::unregister_extension($mode, $extension, $filetype); } else { tlwarn("Unknown mode $how\n"); return 0; } return 1; } sub _do_postaction_filetype { my ($how, $tlpobj, $pa) = @_; return 1 unless win32(); my ($errors, %keyval) = parse_into_keywords($pa, qw/name cmd/); if ($errors) { tlwarn("parsing the postaction line >>$pa<< did not succeed!\n"); return 0; } # name can be an arbitrary string if (!defined($keyval{'name'})) { tlwarn("name of filetype postaction not given\n"); return 0; } my $name = $keyval{'name'}; # cmd can be an arbitrary string if (!defined($keyval{'cmd'})) { tlwarn("cmd of filetype postaction not given\n"); return 0; } my $cmd = $keyval{'cmd'}; my $texdir = `kpsewhich -var-value=SELFAUTOPARENT`; chomp($texdir); my $texdir_bsl = conv_to_w32_path($texdir); $cmd =~ s!^TEXDIR/!$texdir/!g; &log("postaction $how filetype for " . $tlpobj->name . ": $name, $cmd\n"); if ($how eq "install") { TeXLive::TLWinGoo::register_file_type($name, $cmd); } elsif ($how eq "remove") { TeXLive::TLWinGoo::unregister_file_type($name); } else { tlwarn("Unknown mode $how\n"); return 0; } return 1; } sub _do_postaction_script { my ($how, $tlpobj, $pa) = @_; my ($errors, %keyval) = parse_into_keywords($pa, qw/file filew32/); if ($errors) { tlwarn("parsing the postaction line >>$pa<< did not succeed!\n"); return 0; } # file can be an arbitrary string if (!defined($keyval{'file'})) { tlwarn("filename of script not given\n"); return 0; } my $file = $keyval{'file'}; if (win32() && defined($keyval{'filew32'})) { $file = $keyval{'filew32'}; } my $texdir = `kpsewhich -var-value=SELFAUTOPARENT`; chomp($texdir); my @syscmd; if ($file =~ m/\.pl$/i) { # we got a perl script, call it via perl push @syscmd, "perl", "$texdir/$file"; } elsif ($file =~ m/\.texlua$/i) { # we got a texlua script, call it via texlua push @syscmd, "texlua", "$texdir/$file"; } else { # we got anything else, call it directly and hope it is excutable push @syscmd, "$texdir/$file"; } &log("postaction $how script for " . $tlpobj->name . ": @syscmd\n"); push @syscmd, $how, $texdir; my $ret = system (@syscmd); if ($ret != 0) { $ret /= 256 if $ret > 0; my $pwd = cwd (); warn "$0: calling post action script $file did not succeed in $pwd, status $ret"; return 0; } return 1; } sub _do_postaction_shortcut { my ($how, $tlpobj, $pa) = @_; return 1 unless win32(); my ($errors, %keyval) = parse_into_keywords($pa, qw/type name icon cmd args hide/); if ($errors) { tlwarn("parsing the postaction line >>$pa<< did not succeed!\n"); return 0; } # type can be either menu or desktop if (!defined($keyval{'type'})) { tlwarn("type of shortcut postaction not given\n"); return 0; } my $type = $keyval{'type'}; if (($type ne "menu") && ($type ne "desktop")) { tlwarn("type of shortcut postaction $type is unknown (menu, desktop)\n"); return 0; } # name can be an arbitrary string if (!defined($keyval{'name'})) { tlwarn("name of shortcut postaction not given\n"); return 0; } my $name = $keyval{'name'}; # icon, cmd, args is optional my $icon = (defined($keyval{'icon'}) ? $keyval{'icon'} : ''); my $cmd = (defined($keyval{'cmd'}) ? $keyval{'cmd'} : ''); my $args = (defined($keyval{'args'}) ? $keyval{'args'} : ''); # hide can be only 0 or 1, and defaults to 0 my $hide = (defined($keyval{'hide'}) ? $keyval{'hide'} : 0); if (($hide ne "0") && ($hide ne "1")) { tlwarn("hide of shortcut postaction $hide is unknown (0, 1)\n"); return 0; } &log("postaction $how shortcut for " . $tlpobj->name . "\n"); if ($how eq "install") { my $texdir = `kpsewhich -var-value=SELFAUTOPARENT`; chomp($texdir); my $texdir_bsl = conv_to_w32_path($texdir); $icon =~ s!^TEXDIR/!$texdir/!; $cmd =~ s!^TEXDIR/!$texdir/!; # $cmd can be an URL, in which case we do NOT want to convert it to # w32 paths! if ($cmd !~ m!^\s*(http://|ftp://)!) { $cmd = conv_to_w32_path($cmd); } if ($type eq "menu") { TeXLive::TLWinGoo::add_menu_shortcut( $TeXLive::TLConfig::WindowsMainMenuName, $name, $icon, $cmd, $args, $hide); } elsif ($type eq "desktop") { TeXLive::TLWinGoo::add_desktop_shortcut( $name, $icon, $cmd, $args, $hide); } else { tlwarn("Unknown type of shortcut: $type\n"); return 0; } } elsif ($how eq "remove") { if ($type eq "menu") { TeXLive::TLWinGoo::remove_menu_shortcut( $TeXLive::TLConfig::WindowsMainMenuName, $name); } elsif ($type eq "desktop") { TeXLive::TLWinGoo::remove_desktop_shortcut($name); } else { tlwarn("Unknown type of shortcut: $type\n"); return 0; } } else { tlwarn("Unknown mode $how\n"); return 0; } return 1; } sub parse_into_keywords { my ($str, @keys) = @_; my @words = quotewords('\s+', 0, $str); my %ret; my $error = 0; while (@words) { $_ = shift @words; if (/^([^=]+)=(.*)$/) { $ret{$1} = $2; } else { tlwarn("parser found a invalid word in parsing keys: $_\n"); $error++; $ret{$_} = ""; } } for my $k (keys %ret) { if (!member($k, @keys)) { $error++; tlwarn("parser found invalid keyword: $k\n"); } } return($error, %ret); } =item C Announces that the actions given in C<$tlpobj> should be executed after all packages have been unpacked. =cut sub announce_execute_actions { my ($type, $tlp) = @_; if (defined($type) && ($type eq "regenerate-formats")) { $::regenerate_all_formats = 1; return; } if (defined($type) && ($type eq "files-changed")) { $::files_changed = 1; return; } if (!defined($type) || (($type ne "enable") && ($type ne "disable"))) { die "announce_execute_actions: enable or disable, not type $type"; } my (@maps, @formats, @dats); if ($tlp->runfiles || $tlp->srcfiles || $tlp->docfiles) { $::files_changed = 1; } foreach my $e ($tlp->executes) { if ($e =~ m/^add((Mixed)?Map)\s+([^\s]+)\s*$/) { $::execute_actions{$type}{'maps'}{$3} = "$1"; } elsif ($e =~ m/^AddFormat\s+(.*)\s*$/) { my %r = TeXLive::TLUtils::parse_AddFormat_line("$1"); if (defined($r{"error"})) { tlwarn ("$r{'error'} in parsing $e for return hash\n"); } else { $::execute_actions{$type}{'formats'}{$r{'name'}} = \%r; } } elsif ($e =~ m/^AddHyphen\s+(.*)\s*$/) { my %r = TeXLive::TLUtils::parse_AddHyphen_line("$1"); if (defined($r{"error"})) { tlwarn ("$r{'error'} in parsing $e for return hash\n"); } else { $::execute_actions{$type}{'hyphens'}{$r{'name'}} = \%r; } } else { tlwarn("Unknown execute $e in ", $tlp->name, "\n"); } } } =pod =item C =item C These two functions try to create/remove symlinks for binaries, man pages, and info files as specified by the options $sys_bin, $sys_man, $sys_info. The functions return 1 on success and 0 on error. On Windows it returns undefined. =cut sub add_link_dir_dir { my ($from, $to) = @_; mkdirhier $to; if (-w $to) { debug("linking files from $from to $to\n"); chomp (@files = `ls "$from"`); my $ret = 1; for my $f (@files) { unlink("$to/$f"); if (system("ln -s \"$from/$f\" \"$to\"")) { tlwarn("Linking $f from $from to $to failed: $!\n"); $ret = 0; } } return $ret; } else { tlwarn("destination $to not writable, no linking files in $from done.\n"); return 0; } } sub remove_link_dir_dir { my ($from, $to) = @_; if ((-d "$to") && (-w "$to")) { debug("removing links from $from to $to\n"); chomp (@files = `ls "$from"`); my $ret = 1; foreach my $f (@files) { next if (! -r "$to/$f"); if ((-l "$to/$f") && (readlink("$to/$f") =~ m;^$from/;)) { $ret = 0 unless unlink("$to/$f"); } else { $ret = 0; tlwarn ("not removing $to/$f, not a link or wrong destination!\n"); } } # trry to remove the destination directory, it might be empty and # we might have write permissions, ignore errors `rmdir "$to" 2>/dev/null`; return $ret; } else { tlwarn ("destination $to not writable, no removal of links done!\n"); return 0; } } sub add_remove_symlinks { my ($mode, $Master, $arch, $sys_bin, $sys_man, $sys_info) = @_; my $errors = 0; my $plat_bindir = "$Master/bin/$arch"; return if win32(); if ($mode eq "add") { $errors++ unless add_link_dir_dir($plat_bindir, $sys_bin); if (-d "$Master/texmf/doc/info") { $errors++ unless add_link_dir_dir("$Master/texmf/doc/info", $sys_info); } } elsif ($mode eq "remove") { $errors++ unless remove_link_dir_dir($plat_bindir, $sys_bin); if (-d "$Master/texmf/doc/info") { $errors++ unless remove_link_dir_dir("$Master/texmf/doc/info", $sys_info); } } else { die ("should not happen, unknown mode $mode in add_remove_symlinks!"); } mkdirhier $sys_man if ($mode eq "add"); if (-w $sys_man && -d "$Master/texmf/doc/man") { debug("$mode symlinks for man pages in $sys_man\n"); my $foo = `(cd "$Master/texmf/doc/man" && echo *)`; chomp (my @mans = split (' ', $foo)); foreach my $m (@mans) { my $mandir = "$Master/texmf/doc/man/$m"; next unless -d $mandir; if ($mode eq "add") { $errors++ unless add_link_dir_dir($mandir, "$sys_man/$m"); } else { $errors++ unless remove_link_dir_dir($mandir, "$sys_man/$m"); } } `rmdir "$sys_man" 2>/dev/null` if ($mode eq "remove"); } else { tlwarn("destination of man symlink $sys_man not writable, " . "cannot $mode symlinks.\n"); $errors++; } # we collected errors in $ret, so return the negation of it if ($errors) { info("$mode of symlinks failed $errors times, please see above messages.\n"); return 0; } else { return 1; } } sub add_symlinks { return (add_remove_symlinks("add", @_)); } sub remove_symlinks { return (add_remove_symlinks("remove", @_)); } =pod =item C =item C These two functions try to add/remove the binary directory $bindir on Windows to the registry PATH variable. If running as admin user and $multiuser is set, the system path will be adjusted, otherwise the user path. After calling these functions TeXLive::TLWinGoo::broadcast_env() should be called to make the changes immediately visible. =cut sub w32_add_to_path { my ($bindir, $multiuser) = @_; return if (!win32()); my $path = TeXLive::TLWinGoo::get_system_env() -> {'/Path'}; $path =~ s/[\s\x00]+$//; &log("Old system path: $path\n"); $path = TeXLive::TLWinGoo::get_user_env() -> {'/Path'}; if ($path) { $path =~ s/[\s\x00]+$//; &log("Old user path: $path\n"); } else { &log("Old user path: none\n"); } my $mode = 'user'; if (TeXLive::TLWinGoo::admin() && $multiuser) { $mode = 'system'; } debug("TLUtils:w32_add_to_path: calling adjust_reg_path_for_texlive add $bindir $mode\n"); TeXLive::TLWinGoo::adjust_reg_path_for_texlive('add', $bindir, $mode); $path = TeXLive::TLWinGoo::get_system_env() -> {'/Path'}; $path =~ s/[\s\x00]+$//; &log("New system path: $path\n"); $path = TeXLive::TLWinGoo::get_user_env() -> {'/Path'}; if ($path) { $path =~ s/[\s\x00]+$//; &log("New user path: $path\n"); } else { &log("New user path: none\n"); } } sub w32_remove_from_path { my ($bindir, $multiuser) = @_; my $mode = 'user'; if (TeXLive::TLWinGoo::admin() && $multiuser) { $mode = 'system'; } debug("w32_remove_from_path: trying to remove $bindir in $mode\n"); TeXLive::TLWinGoo::adjust_reg_path_for_texlive('remove', $bindir, $mode); } =pod =item C Unpacke C<$tarfile> in C<$targetdir> (changing directories to C<$targetdir> and then back to the original directory). If C<$remove_tarfile> is true, unlink C<$tarfile> after unpacking. Assumes the global C<$::progs{"tar"}> has been set up. =cut # return 1 if success, 0 if failure. sub untar { my ($tarfile, $targetdir, $remove_tarfile) = @_; my $ret; my $tar = $::progs{'tar'}; # assume it's been set up # don't use the -C option to tar since Solaris tar et al. don't support it. # don't use system("cd ... && $tar ...") since that opens us up to # quoting issues. # so fall back on chdir in Perl. # debug("unpacking $tarfile in $targetdir\n"); my $cwd = cwd(); chdir($targetdir) || die "chdir($targetdir) failed: $!"; if (system($tar, "xf", $tarfile) != 0) { tlwarn("untar: untarring $tarfile failed (in $targetdir)\n"); $ret = 0; } else { $ret = 1; } unlink($tarfile) if $remove_tarfile; chdir($cwd) || die "chdir($cwd) failed: $!"; return $ret; } =item C Compare two files considering CR, LF, and CRLF as equivalent. Returns 1 if different, 0 if the same. =cut sub tlcmp { my ($filea, $fileb) = @_; if (!defined($fileb)) { die <) { s/\r\n?/\n/g; #warn "line is |$_|"; $ret .= $_; } close (FILE) || warn "close($fname) failed: $!"; return $ret; } =item C Populate the global C<$::progs> hash containing the paths to the programs C, C, C. The C<$bindir> argument specifies the path to the location of the C binaries, the C<$platform> gives the TeX Live platform name, used as the extension on our executables. If a program is not present in the TeX Live tree, we also check along PATH (without the platform extension.) Return 0 if failure, nonzero if success. =cut sub setup_programs { my ($bindir, $platform) = @_; my $ok = 1; $::progs{'wget'} = "wget"; $::progs{'xzdec'} = "xzdec"; $::progs{'xz'} = "xz"; $::progs{'tar'} = "tar"; if ($^O =~ /^MSWin(32|64)$/i) { $::progs{'wget'} = conv_to_w32_path("$bindir/wget/wget.exe"); $::progs{'tar'} = conv_to_w32_path("$bindir/tar.exe"); $::progs{'xzdec'} = conv_to_w32_path("$bindir/xz/xzdec.exe"); $::progs{'xz'} = conv_to_w32_path("$bindir/xz/xz.exe"); for my $prog ("xzdec", "wget") { my $opt = $prog eq "xzdec" ? "--help" : "--version"; my $ret = system("$::progs{$prog} $opt >nul 2>&1"); # on windows if ($ret != 0) { warn "TeXLive::TLUtils::setup_programs (w32) failed"; # no nl for perl warn "$::progs{$prog} $opt failed (status $ret): $!\n"; warn "Output is:\n"; system ("$::progs{$prog} $opt"); warn "\n"; $ok = 0; } } } else { if (!defined($platform) || ($platform eq "")) { # we assume that we run from the DVD, so we can call platform() and # thus also the config.guess script # but we have to setup $::installerdir because the platform script # relies on it $::installerdir = "$bindir/../.."; $platform = platform(); } my $s = 0; $s += setup_unix_one('wget', "$bindir/wget/wget.$platform", "--version"); $s += setup_unix_one('xzdec',"$bindir/xz/xzdec.$platform","--help"); $s += setup_unix_one('xz', "$bindir/xz/xz.$platform", "notest"); $ok = ($s == 3); # failure return unless all are present. } return $ok; } # setup one prog on unix using the following logic: # - if the shipped one is -x and can be executed, use it # - if the shipped one is -x but cannot be executed, copy it. set -x # . if the copy is -x and executable, use it # . if the copy is not executable, GOTO fallback # - if the shipped one is not -x, copy it, set -x # . if the copy is -x and executable, use it # . if the copy is not executable, GOTO fallback # - if nothing shipped, GOTO fallback # # fallback: # if prog is found in PATH and can be executed, use it. # # Return 0 if failure, 1 if success. # sub setup_unix_one { my ($p, $def, $arg) = @_; our $tmp; my $test_fallback = 0; if (-r $def) { my $ready = 0; if (-x $def) { # checking only for the executable bit is not enough, we have # to check for actualy "executability" since a "noexec" mount # option may interfere, which is not taken into account by # perl's -x test. $::progs{$p} = $def; if ($arg ne "notest") { my $ret = system("$def $arg > /dev/null 2>&1" ); # we are on Unix if ($ret == 0) { $ready = 1; debug("Using shipped $def for $p (tested).\n"); } else { ddebug("Shipped $def has -x but cannot be executed.\n"); } } else { # do not test, just return $ready = 1; debug("Using shipped $def for $p (not tested).\n"); } } if (!$ready) { # out of some reasons we couldn't execute the shipped program # try to copy it to a temp directory and make it executable # # create tmp dir only when necessary $tmp = TeXLive::TLUtils::tl_tmpdir() unless defined($tmp); # probably we are running from DVD and want to copy it to # some temporary location copy($def, $tmp); my $bn = basename($def); $::progs{$p} = "$tmp/$bn"; chmod(0755,$::progs{$p}); # we do not check the return value of chmod, but check whether # the -x bit is now set, the only thing that counts if (! -x $::progs{$p}) { # hmm, something is going really bad, not even the copy is # executable. Fall back to normal path element $test_fallback = 1; ddebug("Copied $p $::progs{$p} does not have -x bit, strange!\n"); } else { # check again for executability if ($arg ne "notest") { my $ret = system("$::progs{$p} $arg > /dev/null 2>&1"); if ($ret == 0) { # ok, the copy works debug("Using copied $::progs{$p} for $p (tested).\n"); } else { # even the copied prog is not executable, strange $test_fallback = 1; ddebug("Copied $p $::progs{$p} has x bit but not executable, strange!\n"); } } else { debug("Using copied $::progs{$p} for $p (not tested).\n"); } } } } else { # hope that we can find in in the global PATH $test_fallback = 1; } if ($test_fallback) { # all our playing around and copying did not succeed, try the # fallback $::progs{$p} = $p; if ($arg ne "notest") { my $ret = system("$p $arg > /dev/null 2>&1"); if ($ret == 0) { debug("Using system $p (tested).\n"); } else { tlwarn("$0: Initialization failed (in setup_unix_one):\n"); tlwarn(" could not find a usable program for $p.\n"); return 0; } } else { debug ("Using system $p (not tested).\n"); } } return 1; } =item C Try to download the file given in C<$relpath> from C<$TeXLiveURL> into C<$destination>, which can be either a filename of simply C<|>. In the latter case a file handle is returned. The optional argument C<$progs> is a reference to a hash giving full paths to the respective programs, at least C. If C<$progs> is not given the C<%::progs> hash is consulted, and if this also does not exist we try a literal C. Downloading honors two environment variables: C and C. The former overrides the above specification devolving to C, and the latter overrides the default wget arguments, which are: C<--tries=8 --timeout=60 -q -O>. C must be defined so that the file the output goes to is the first argument after the C. Thus, typically it would end in C<-O>. Use with care. =cut sub download_file { my ($relpath, $dest, $progs) = @_; my $wget; if (defined($progs) && defined($progs->{'wget'})) { $wget = $progs->{'wget'}; } elsif (defined($::progs{'wget'})) { $wget = $::progs{'wget'}; } else { tlwarn ("download_file: Programs not set up, trying literal wget\n"); $wget = "wget"; } my $url; if ($relpath =~ m;^file://*(.*)$;) { my $filetoopen = "/$1"; # $dest is a file name, we have to get the respective dirname if ($dest eq "|") { open(RETFH, "<$filetoopen") or die("Cannot open $filetoopen for reading"); # opening to a pipe always succeeds, so we return immediately return \*RETFH; } else { my $par = dirname ($dest); if (-r $filetoopen) { copy ($filetoopen, $par); return 1; } return 0; } } if ($relpath =~ /^(http|ftp):\/\//) { $url = $relpath; } else { $url = "$TeXLiveURL/$relpath"; } my $ret = _download_file($url, $dest, $wget); return($ret); } sub _download_file { my ($url, $dest, $wgetdefault) = @_; if (win32()) { $dest =~ s!/!\\!g; } my $wget = $ENV{"TL_DOWNLOAD_PROGRAM"} || $wgetdefault; my $wgetargs = $ENV{"TL_DOWNLOAD_ARGS"} || "--tries=10 --timeout=90 -q -O"; debug("downloading $url using $wget $wgetargs\n"); my $ret; if ($dest eq "|") { open(RETFH, "$wget $wgetargs - $url|") || die "open($url) via $wget $wgetargs failed: $!"; # opening to a pipe always succeeds, so we return immediately return \*RETFH; } else { my @wgetargs = split (" ", $wgetargs); $ret = system ($wget, @wgetargs, $dest, $url); # we have to reverse the meaning of ret because system has 0=success. $ret = ($ret ? 0 : 1); } # return false/undef in case the download did not succeed. return ($ret) unless $ret; debug("download of $url succeeded\n"); if ($dest eq "|") { return \*RETFH; } else { return 1; } } =back =head2 Installer Functions =over 4 =item C Generate a skeleton of empty directories in the C tree. =cut sub make_var_skeleton { my $prefix=shift; mkdirhier "$prefix/tex/generic/config"; mkdirhier "$prefix/fonts/map/dvipdfm/updmap"; mkdirhier "$prefix/fonts/map/dvips/updmap"; mkdirhier "$prefix/fonts/map/pdftex/updmap"; mkdirhier "$prefix/fonts/pk"; mkdirhier "$prefix/fonts/tfm"; mkdirhier "$prefix/web2c"; mkdirhier "$prefix/xdvi"; mkdirhier "$prefix/tex/context/config"; } =item C Generate a skeleton of empty directories in the C tree. =cut sub make_local_skeleton { my $prefix=shift; mkdirhier "$prefix/tex/latex/local"; mkdirhier "$prefix/tex/plain/local"; mkdirhier "$prefix/dvips/local"; mkdirhier "$prefix/bibtex/bib/local"; mkdirhier "$prefix/bibtex/bst/local"; mkdirhier "$prefix/fonts/tfm/local"; mkdirhier "$prefix/fonts/vf/local"; mkdirhier "$prefix/fonts/source/local"; mkdirhier "$prefix/fonts/type1/local"; mkdirhier "$prefix/metapost/local"; mkdirhier "$prefix/web2c"; } =item C =item C =item C =item C These four functions create C, C, C, and C respectively, in C<$dest> (which by default is below C<$TEXMFSYSVAR>). These functions merge the information present in the TLPDB C<$tlpdb> (formats, maps, hyphenations) with local configuration additions: C<$localconf>. Currently the merging is done by omitting disabled entries specified in the local file, and then appending the content of the local configuration files at the end of the file. We should also check for duplicates, maybe even error checking. =cut # # get_disabled_local_configs # returns the list of disabled formats/hyphenpatterns/maps # disabling is done by putting # #!NAME # or # %!NAME # into the respective foo-local.cnf/cfg file # sub get_disabled_local_configs { my $localconf = shift; my $cc = shift; my @disabled = (); if (-r "$localconf") { open FOO, "<$localconf" or die "strange, -r ok but cannot open $localconf: $!"; my @tmp = ; close(FOO) || warn("Closing $localconf did not succeed: $!"); @disabled = map { if (m/^$cc!(\S+)\s*$/) { $1 } else { }} @tmp; } return @disabled; } sub create_fmtutil { my ($tlpdb,$dest,$localconf) = @_; my @lines = $tlpdb->fmtutil_cnf_lines( get_disabled_local_configs($localconf, '#')); _create_config_files($tlpdb, "texmf/web2c/fmtutil-hdr.cnf", $dest, $localconf, 0, '#', \@lines); } sub create_updmap { my ($tlpdb,$dest,$localconf) = @_; my @lines = $tlpdb->updmap_cfg_lines( get_disabled_local_configs($localconf, '#')); _create_config_files($tlpdb, "texmf/web2c/updmap-hdr.cfg", $dest, $localconf, 0, '#', \@lines); } sub create_language_dat { my ($tlpdb,$dest,$localconf) = @_; # no checking for disabled stuff for language.dat and .def my @lines = $tlpdb->language_dat_lines( get_disabled_local_configs($localconf, '%')); _create_config_files($tlpdb, "texmf/tex/generic/config/language.us", $dest, $localconf, 0, '%', \@lines); } sub create_language_def { my ($tlpdb,$dest,$localconf) = @_; # no checking for disabled stuff for language.dat and .def my @lines = $tlpdb->language_def_lines( get_disabled_local_configs($localconf, '%')); my @postlines; push @postlines, "%%% No changes may be made beyond this point.\n"; push @postlines, "\n"; push @postlines, "\\uselanguage {USenglish} %%% This MUST be the last line of the file.\n"; _create_config_files ($tlpdb, "texmf/tex/generic/config/language.us.def", $dest, $localconf, 1, '%', \@lines, @postlines); } sub _create_config_files { my ($tlpdb, $headfile, $dest,$localconf, $keepfirstline, $cc, $tlpdblinesref, @postlines) = @_; my $root = $tlpdb->root; open(INFILE,"<$root/$headfile") or die("Cannot open $root/$headfile"); my @lines = ; push @lines, @$tlpdblinesref; close (INFILE); if (-r "$localconf") { # # this should be done more intelligently, but for now only add those # lines without any duplication check ... open FOO, "<$localconf" or die "strange, -r ok but cannot open $localconf: $!"; my @tmp = ; push @lines, @tmp; } if (@postlines) { push @lines, @postlines; } if ($#lines >= 0) { open(OUTFILE,">$dest") or die("Cannot open $dest for writing: $!"); if (!$keepfirstline) { print OUTFILE $cc; printf OUTFILE " Generated by %s on %s\n", "$0", scalar localtime; } print OUTFILE @lines; close(OUTFILE) || warn "close(>$dest) failed: $!"; } } sub parse_AddHyphen_line { my $line = shift; my %ret; my $default_lefthyphenmin = 2; my $default_righthyphenmin = 3; $ret{"lefthyphenmin"} = $default_lefthyphenmin; $ret{"righthyphenmin"} = $default_righthyphenmin; for my $p (split(' ', $line)) { my ($a, $b) = split /=/, $p; if ($a eq "name") { if (!$b) { $ret{"error"} = "AddHyphen line needs name=something"; return %ret; } $ret{"name"} = $b; next; } if ($a eq "lefthyphenmin") { $ret{"lefthyphenmin"} = ( $b ? $b : $default_lefthyphenmin ); next; } if ($a eq "righthyphenmin") { $ret{"righthyphenmin"} = ( $b ? $b : $default_righthyphenmin ); next; } if ($a eq "file") { if (!$b) { $ret{"error"} = "AddHyphen line needs file=something"; return %ret; } $ret{"file"} = $b; next; } if ($a eq "synonyms") { @{$ret{"synonyms"}} = split /,/, $b; next; } # should not be reached at all $ret{"error"} = "Unknown language directive $e"; return %ret; } return %ret; } sub parse_AddFormat_line { my $line = shift; my %ret; $ret{"options"} = ""; $ret{"patterns"} = "-"; $ret{"mode"} = 1; for my $p (quotewords('\s+', 0, "$line")) { my ($a, $b); if ($p =~ m/^(name|engine|mode|patterns|options)=(.*)$/) { $a = $1; $b = $2; } else { $ret{"error"} = "Unknown format directive $p"; return %ret; } if ($a eq "name") { if (!$b) { $ret{"error"} = "AddFormat line needs name=something"; return %ret; } $ret{"name"} = $b; next; } if ($a eq "engine") { if (!$b) { $ret{"error"} = "AddFormat line needs engine=something"; return %ret; } $ret{"engine"} = $b; next; } if ($a eq "patterns") { $ret{"patterns"} = ( $b ? $b : "-" ); next; } if ($a eq "mode") { $ret{"mode"} = ( $b eq "disabled" ? 0 : 1 ); next; } if ($a eq "options") { $ret{"options"} = ( $b ? $b : "" ); next; } # should not be reached at all $ret{"error"} = "Unknown format directive $p"; return %ret; } return %ret; } =back =head2 Miscellaneous Ideas from Fabrice Popineau's C. =over 4 =item C The C function sorts the given array and throws away multiple occurrences of elements. It returns a sorted and unified array. =cut sub sort_uniq { my (@l) = @_; my ($e, $f, @r); $f = ""; @l = sort(@l); foreach $e (@l) { if ($e ne $f) { $f = $e; push @r, $e; } } return @r; } =item C The C function pushes the last elements on the list referenced by the first argument. =cut sub push_uniq { # can't we use $l as a reference, and then use my? later ... local (*l, @le) = @_; foreach my $e (@le) { if (! &member($e, @l)) { push @l, $e; } } } =item C The C function returns true if the the first argument is contained in the list of the remaining arguments. =cut sub member { my ($e, @l) = @_; my ($f); foreach $f (@l) { if ($e eq $f) { return 1; } } return 0; } =item C Merges the keys of %from into %to. =cut sub merge_into { my ($to, $from) = @_; foreach my $k (keys %$from) { if (defined($to->{$k})) { push @{$to->{$k}}, @{$from->{$k}}; } else { $to->{$k} = [ @{$from->{$k}} ]; } } } =item C Test whether installation with TEXDIR set to $texdir would succeed due to writing permissions. =cut sub texdir_check { my ($texdir) = shift; # PATH/texlive/2008 my $texdirparent = dirname($texdir); # PATH/texlive my $texdirpparent = dirname($texdirparent); # PATH if ( (dir_writable($texdirpparent)) || ( (-d $texdirparent) && (dir_writable($texdirparent)) ) || ( (-d $texdir) && (dir_writable($texdir)) ) ) { return 1; } return 0; } # no newlines or spaces are added, multiple args are just concatenated. # sub logit { my ($out, $level, @rest) = @_; _logit($out, $level, @rest) unless $::opt_quiet; _logit('file', $level, @rest); } sub _logit { my ($out, $level, @rest) = @_; if ($::opt_verbosity >= $level) { # if $out is a ref/glob to STDOUT or STDERR, print it there if (ref($out) eq "GLOB") { print $out @rest; } else { # we should log it into the logfile, but that might be not initialized # so either print it to the filehandle $::LOGFILE, or push it onto # the to be printed log lines @::LOGLINES if (defined($::LOGFILE)) { print $::LOGFILE @rest; } else { push @::LOGLINES, join ("", @rest); } } } } =item C Write a normal informational message, the concatenation of the argument strings. The message will be written unless C<-q> was specified. If the global C<$::machinereadable> is set (the C<--machine-readable> option to C), then output is written to stderr, else to stdout. If the log file (see L) is defined, it also writes there. It is best to use this sparingly, mainly to give feedback during lengthy operations and for final results. =cut sub info { my $str = join("", @_); my $fh = ($::machinereadable ? \*STDERR : \*STDOUT); logit($fh, 0, $str); for my $i (@::info_hook) { &{$i}($str); } } =item C Write a debugging message, the concatenation of the argument strings. The message will be omitted unless C<-v> was specified. If the log file (see L) is defined, it also writes there. This first level debugging message reports on the overall flow of work, but does not include repeated messages about processing of each package. =cut sub debug { my $str = "D:" . join("", @_); return if ($::opt_verbosity < 1); logit(\*STDOUT, 1, $str); for my $i (@::debug_hook) { &{$i}($str); } } =item C Write a deep debugging message, the concatenation of the argument strings. The message will be omitted unless C<-v -v> (or higher) was specified. If the log file (see L) is defined, it also writes there. This second level debugging message reports messages about processing each package, in addition to the first level. =cut sub ddebug { my $str = "DD:" . join("", @_); return if ($::opt_verbosity < 2); logit(\*STDOUT, 2, $str); for my $i (@::ddebug_hook) { &{$i}($str); } } =item C Write the deepest debugging message, the concatenation of the argument strings. The message will be omitted unless C<-v -v -v> was specified. If the log file (see L) is defined, it also writes there. This third level debugging message reports messages about processing each line of any tlpdb files read, in addition to the first and second levels. =cut sub dddebug { my $str = "DDD:" . join("", @_); return if ($::opt_verbosity < 3); logit(\*STDOUT, 3, $str); for my $i (@::dddebug_hook) { &{$i}($str); } } =item C Write a message to the log file (and nowhere else), the concatenation of the argument strings. =cut sub log { my $savequiet = $::opt_quiet; $::opt_quiet = 0; _logit('file', -100, @_); $::opt_quiet = $savequiet; } =item C Write a warning message, the concatenation of the argument strings. This always and unconditionally writes the message to standard error; if the log file (see L) is defined, it also writes there. =cut sub tlwarn { my $savequiet = $::opt_quiet; my $str = join("", @_); $::opt_quiet = 0; logit (\*STDERR, -100, $str); $::opt_quiet = $savequiet; for my $i (@::warn_hook) { &{$i}($str); } } =item C Uses C to issue a warning, then exits with exit code 1. =cut sub tldie { tlwarn(@_); exit(1); } =item C Write LABEL followed by HASH elements, all on one line, to stderr. If HASH is a reference, it is followed. =cut sub debug_hash { my ($label) = shift; my (%hash) = (ref $_[0] && $_[0] =~ /.*HASH.*/) ? %{$_[0]} : @_; my $str = "$label: {"; my @items = (); for my $key (sort keys %hash) { my $val = $hash{$key}; $key =~ s/\n/\\n/g; $val =~ s/\n/\\n/g; push (@items, "$key:$val"); } $str .= join (",", @items); $str .= "}"; warn "$str\n"; } =item C This function handles the common logging options for TeX Live scripts. It should be called before C for any program-specific option handling. For our conventional calling sequence, see (for example) the L script. These are the options handled here: =over 4 =item B<-q> Omit normal informational messages. =item B<-v> Include debugging messages. With one C<-v>, reports overall flow; with C<-v -v> (or C<-vv>), also reports per-package processing; with C<-v -v -v> (or C<-vvv>), also reports each line read from any tlpdb files. Further repeats of C<-v>, as in C<-v -v -v -v>, are accepted but ignored. C<-vvvv> is an error. The idea behind these levels is to be able to specify C<-v> to get an overall idea of what is going on, but avoid terribly voluminous output when processing many packages, as we often are. When debugging a specific problem with a specific package, C<-vv> can help. When debugging problems with parsing tlpdb files, C<-vvv> gives that too. =item B<-logfile> I Write all messages (informational, debugging, warnings) to I, in addition to standard output or standard error. In TeX Live, only the installer sets a log file by default; none of the other standard TeX Live scripts use this feature, but you can specify it explicitly. =back See also the L, L, L, and L functions, which actually write the messages. =cut sub process_logging_options { $::opt_verbosity = 0; $::opt_quiet = 0; my $opt_logfile; my $opt_Verbosity = 0; my $opt_VERBOSITY = 0; # check all the command line options for occurrences of -q and -v; # do not report errors. my $oldconfig = Getopt::Long::Configure(qw(pass_through permute)); GetOptions("logfile=s" => \$opt_logfile, "v+" => \$::opt_verbosity, "vv" => \$opt_Verbosity, "vvv" => \$opt_VERBOSITY, "q" => \$::opt_quiet); Getopt::Long::Configure($oldconfig); # verbosity level, forcing -v -v instead of -vv is too annoying. $::opt_verbosity = 2 if $opt_Verbosity; $::opt_verbosity = 3 if $opt_VERBOSITY; # open log file if one was requested. if ($opt_logfile) { open(TLUTILS_LOGFILE, ">$opt_logfile") || die "open(>$opt_logfile) failed: $!\n"; $::LOGFILE = \*TLUTILS_LOGFILE; $::LOGFILENAME = $opt_logfile; } } =item C Return the welcome message. =cut sub welcome { my $welcome=<<"EOF"; See $::vars{'TEXDIR'}/index.html for links to documentation. The TeX Live web site (http://tug.org/texlive/) contains any updates and corrections. TeX Live is a joint project of the TeX user groups around the world; please consider supporting it by joining the group best for you. The list of groups is available on the web at http://tug.org/usergroups.html. Welcome to TeX Live! EOF return $welcome; } =item C The same welcome message as above but with hints about C, C, and C. =cut sub welcome_paths { my $welcome=<<"EOF"; See $::vars{'TEXDIR'}/index.html for links to documentation. The TeX Live web site (http://tug.org/texlive/) contains any updates and corrections. TeX Live is a joint project of the TeX user groups around the world; please consider supporting it by joining the group best for you. The list of groups is available on the web at http://tug.org/usergroups.html. Add $::vars{'TEXDIR'}/texmf/doc/man to MANPATH. Add $::vars{'TEXDIR'}/texmf/doc/info to INFOPATH. EOF if ($::vars{'from_dvd'} and !win32()) { $welcome .= <<"EOF"; Set TEXMFCNF to $::vars{'TEXMFSYSVAR'}/web2c. EOF } $welcome .= <<"EOF"; Most importantly, add $::vars{'TEXDIR'}/bin/$::vars{'this_platform'} to your PATH for current and future sessions. Welcome to TeX Live! EOF return $welcome; } =pod This function returns a "windowsified" version of its single argument I, i.e., replaces all forward slashes with backslashes, and adds an additional C<"> at the beginning and end if I contains any spaces. It also makes the path absolute. So if $path does not start with one (arbitrary) characer followed by C<:>, we add the output of C<`cd`>. The result is suitable for running in shell commands, but not file tests or other manipulations, since in such internal Perl contexts, the quotes would be considered part of the filename. =cut sub conv_to_w32_path { my $p = shift; $p =~ s!/!\\!g; # we need absolute paths, too if ($p !~ m!^.:!) { my $cwd = `cd`; die "sorry, could not find current working directory via cd?!" if ! $cwd; chomp($cwd); $p = "$cwd\\$p"; } if ($p =~ m/ /) { $p = "\"$p\""; } return($p); } =item C =item C Return the specific mirror chosen from the generic CTAN auto-redirecting default (specified in L<$TLConfig::TexLiveServerURL>) if possible, else the default url again. Neither C nor is honored (see L), since certain options have to be set to do the job and the program has to be C since we parse the output. The B<_base> variant returns the mirror without any TeX Live specific location added while the other variant gives the location of the TeX Live net distribution on the respective mirror. =cut sub give_ctan_mirror_base { my $wget = $::progs{'wget'}; if (!defined ($wget)) { tlwarn ("give_ctan_mirror: Programs not set up, trying wget\n"); $wget = "wget"; } # we need the verbose output, so no -q. # do not reduce retries here, but timeout still seems desirable. my $cmd = "$wget $TeXLiveServerURL --timeout=60 -O " . (win32() ? "nul" : "/dev/null") . " 2>&1"; my @out = `$cmd`; # analyze the output for the mirror actually selected. my $mirror = $TeXLiveURL; foreach (@out) { if (m/^Location: (\S*)\s*.*$/) { (my $mhost = $1) =~ s,/*$,,; # remove trailing slashes since we add it $mirror = "$mhost"; last; } } # if we cannot find a mirror, return the default again. return $mirror; } sub give_ctan_mirror { return (give_ctan_mirror_base() . "/$TeXLiveServerPath"); } sub tlmd5 { my ($file) = @_; if (-r $file) { open(FILE, $file) || die "open($file) failed: $!"; binmode(FILE); return Digest::MD5->new->addfile(*FILE)->hexdigest; close(FILE); } else { tlwarn("tlmd5, given file not readable: $file\n"); return ""; } } ############################################# # # Taken from Text::ParseWords # sub quotewords { my($delim, $keep, @lines) = @_; my($line, @words, @allwords); foreach $line (@lines) { @words = parse_line($delim, $keep, $line); return() unless (@words || !length($line)); push(@allwords, @words); } return(@allwords); } sub parse_line { my($delimiter, $keep, $line) = @_; my($word, @pieces); no warnings 'uninitialized'; # we will be testing undef strings $line =~ s/\s+$//; # kill trailing whitespace while (length($line)) { $line =~ s/^(["']) # a $quote ((?:\\.|(?!\1)[^\\])*) # and $quoted text \1 # followed by the same quote | # --OR-- ^((?:\\.|[^\\"'])*?) # an $unquoted text (\Z(?!\n)|(?-x:$delimiter)|(?!^)(?=["'])) # plus EOL, delimiter, or quote //xs or return; # extended layout my($quote, $quoted, $unquoted, $delim) = ($1, $2, $3, $4); return() unless( defined($quote) || length($unquoted) || length($delim)); if ($keep) { $quoted = "$quote$quoted$quote"; } else { $unquoted =~ s/\\(.)/$1/sg; if (defined $quote) { $quoted =~ s/\\(.)/$1/sg if ($quote eq '"'); $quoted =~ s/\\([\\'])/$1/g if ( $PERL_SINGLE_QUOTE && $quote eq "'"); } } $word .= substr($line, 0, 0); # leave results tainted $word .= defined $quote ? $quoted : $unquoted; if (length($delim)) { push(@pieces, $word); push(@pieces, $delim) if ($keep eq 'delimiters'); undef $word; } if (!length($line)) { push(@pieces, $word); } } return(@pieces); } 1; __END__ =back =head1 SEE ALSO The modules L, L, L, L, and the document L and the specification in the TeX Live repository trunk/Master/tlpkg/doc/. =head1 AUTHORS AND COPYRIGHT This script and its documentation were written for the TeX Live distribution (L) and both are licensed under the GNU General Public License Version 2 or later. =cut ### Local Variables: ### perl-indent-level: 2 ### tab-width: 2 ### indent-tabs-mode: nil ### End: # vim:set tabstop=2 expandtab: #