package ExtUtils::Manifest; require Exporter; use Config; use File::Find; use File::Copy 'copy'; use File::Spec; use Carp; use strict; use vars qw($VERSION @ISA @EXPORT_OK $Is_MacOS $Is_VMS $Debug $Verbose $Quiet $MANIFEST $DEFAULT_MSKIP); $VERSION = 1.39; @ISA=('Exporter'); @EXPORT_OK = qw(mkmanifest manicheck filecheck fullcheck skipcheck manifind maniread manicopy maniadd ); $Is_MacOS = $^O eq 'MacOS'; $Is_VMS = $^O eq 'VMS'; require VMS::Filespec if $Is_VMS; $Debug = $ENV{PERL_MM_MANIFEST_DEBUG} || 0; $Verbose = defined $ENV{PERL_MM_MANIFEST_VERBOSE} ? $ENV{PERL_MM_MANIFEST_VERBOSE} : 1; $Quiet = 0; $MANIFEST = 'MANIFEST'; my $Filename = __FILE__; $DEFAULT_MSKIP = (File::Spec->splitpath($Filename))[1]. "$MANIFEST.SKIP"; =head1 NAME ExtUtils::Manifest - utilities to write and check a MANIFEST file =head1 SYNOPSIS use ExtUtils::Manifest qw(...funcs to import...); mkmanifest(); my @missing_files = manicheck; my @skipped = skipcheck; my @extra_files = filecheck; my($missing, $extra) = fullcheck; my $found = manifind(); my $manifest = maniread(); manicopy($read,$target); maniadd({$file => $comment, ...}); =head1 DESCRIPTION =head2 Functions ExtUtils::Manifest exports no functions by default. The following are exported on request =over 4 =item mkmanifest mkmanifest(); Writes all files in and below the current directory to your F. It works similar to find . > MANIFEST All files that match any regular expression in a file F (if it exists) are ignored. Any existing F file will be saved as F. Lines from the old F file is preserved, including any comments that are found in the existing F file in the new one. =cut sub _sort { return sort { lc $a cmp lc $b } @_; } sub mkmanifest { my $manimiss = 0; my $read = (-r 'MANIFEST' && maniread()) or $manimiss++; $read = {} if $manimiss; local *M; rename $MANIFEST, "$MANIFEST.bak" unless $manimiss; open M, ">$MANIFEST" or die "Could not open $MANIFEST: $!"; my $skip = _maniskip(); my $found = manifind(); my($key,$val,$file,%all); %all = (%$found, %$read); $all{$MANIFEST} = ($Is_VMS ? "$MANIFEST\t\t" : '') . 'This list of files' if $manimiss; # add new MANIFEST to known file list foreach $file (_sort keys %all) { if ($skip->($file)) { # Policy: only remove files if they're listed in MANIFEST.SKIP. # Don't remove files just because they don't exist. warn "Removed from $MANIFEST: $file\n" if $Verbose and exists $read->{$file}; next; } if ($Verbose){ warn "Added to $MANIFEST: $file\n" unless exists $read->{$file}; } my $text = $all{$file}; ($file,$text) = split(/\s+/,$text,2) if $Is_VMS && $text; $file = _unmacify($file); my $tabs = (5 - (length($file)+1)/8); $tabs = 1 if $tabs < 1; $tabs = 0 unless $text; print M $file, "\t" x $tabs, $text, "\n"; } close M; } # Geez, shouldn't this use File::Spec or File::Basename or something? # Why so careful about dependencies? sub clean_up_filename { my $filename = shift; $filename =~ s|^\./||; $filename =~ s/^:([^:]+)$/$1/ if $Is_MacOS; return $filename; } =item manifind my $found = manifind(); returns a hash reference. The keys of the hash are the files found below the current directory. =cut sub manifind { my $p = shift || {}; my $found = {}; my $wanted = sub { my $name = clean_up_filename($File::Find::name); warn "Debug: diskfile $name\n" if $Debug; return if -d $_; if( $Is_VMS ) { $name =~ s#(.*)\.$#\L$1#; $name = uc($name) if $name =~ /^MANIFEST(\.SKIP)?$/i; } $found->{$name} = ""; }; # We have to use "$File::Find::dir/$_" in preprocess, because # $File::Find::name is unavailable. # Also, it's okay to use / here, because MANIFEST files use Unix-style # paths. find({wanted => $wanted}, $Is_MacOS ? ":" : "."); return $found; } =item manicheck my @missing_files = manicheck(); checks if all the files within a C in the current directory really do exist. If C and the tree below the current directory are in sync it exits silently, returning an empty list. Otherwise it returns a list of files which are listed in the C but missing from the directory, and by default also outputs these names to STDERR. =cut sub manicheck { return _check_files(); } =item filecheck my @extra_files = filecheck(); finds files below the current directory that are not mentioned in the C file. An optional file C will be consulted. Any file matching a regular expression in such a file will not be reported as missing in the C file. The list of any extraneous files found is returned, and by default also reported to STDERR. =cut sub filecheck { return _check_manifest(); } =item fullcheck my($missing, $extra) = fullcheck(); does both a manicheck() and a filecheck(), returning then as two array refs. =cut sub fullcheck { return [_check_files()], [_check_manifest()]; } =item skipcheck my @skipped = skipcheck(); lists all the files that are skipped due to your C file. =cut sub skipcheck { my($p) = @_; my $found = manifind(); my $matches = _maniskip(); my @skipped = (); foreach my $file (_sort keys %$found){ if (&$matches($file)){ warn "Skipping $file\n"; push @skipped, $file; next; } } return @skipped; } sub _check_files { my $p = shift; my $dosnames=(defined(&Dos::UseLFN) && Dos::UseLFN()==0); my $read = maniread() || {}; my $found = manifind($p); my(@missfile) = (); foreach my $file (_sort keys %$read){ warn "Debug: manicheck checking from $MANIFEST $file\n" if $Debug; if ($dosnames){ $file = lc $file; $file =~ s=(\.(\w|-)+)=substr ($1,0,4)=ge; $file =~ s=((\w|-)+)=substr ($1,0,8)=ge; } unless ( exists $found->{$file} ) { warn "No such file: $file\n" unless $Quiet; push @missfile, $file; } } return @missfile; } sub _check_manifest { my($p) = @_; my $read = maniread() || {}; my $found = manifind($p); my $skip = _maniskip(); my @missentry = (); foreach my $file (_sort keys %$found){ next if $skip->($file); warn "Debug: manicheck checking from disk $file\n" if $Debug; unless ( exists $read->{$file} ) { my $canon = $Is_MacOS ? "\t" . _unmacify($file) : ''; warn "Not in $MANIFEST: $file$canon\n" unless $Quiet; push @missentry, $file; } } return @missentry; } =item maniread my $manifest = maniread(); my $manifest = maniread($manifest_file); reads a named C file (defaults to C in the current directory) and returns a HASH reference with files being the keys and comments being the values of the HASH. Blank lines and lines which start with C<#> in the C file are discarded. =cut sub maniread { my ($mfile) = @_; $mfile ||= $MANIFEST; my $read = {}; local *M; unless (open M, $mfile){ warn "$mfile: $!"; return $read; } local $_; while (){ chomp; next if /^\s*#/; my($file, $comment) = /^(\S+)\s*(.*)/; next unless $file; if ($Is_MacOS) { $file = _macify($file); $file =~ s/\\([0-3][0-7][0-7])/sprintf("%c", oct($1))/ge; } elsif ($Is_VMS) { require File::Basename; my($base,$dir) = File::Basename::fileparse($file); # Resolve illegal file specifications in the same way as tar $dir =~ tr/./_/; my(@pieces) = split(/\./,$base); if (@pieces > 2) { $base = shift(@pieces) . '.' . join('_',@pieces); } my $okfile = "$dir$base"; warn "Debug: Illegal name $file changed to $okfile\n" if $Debug; $file = $okfile; $file = lc($file) unless $file =~ /^MANIFEST(\.SKIP)?$/; } $read->{$file} = $comment; } close M; $read; } # returns an anonymous sub that decides if an argument matches sub _maniskip { my @skip ; my $mfile = "$MANIFEST.SKIP"; local(*M,$_); open M, $mfile or open M, $DEFAULT_MSKIP or return sub {0}; while (){ chomp; next if /^#/; next if /^\s*$/; push @skip, _macify($_); } close M; my $opts = $Is_VMS ? '(?i)' : ''; # Make sure each entry is isolated in its own parentheses, in case # any of them contain alternations my $regex = join '|', map "(?:$_)", @skip; return sub { $_[0] =~ qr{$opts$regex} }; } =item manicopy manicopy($src, $dest_dir); manicopy($src, $dest_dir, $how); copies the files that are the keys in the HASH I<%$src> to the $dest_dir. The HASH reference $read is typically returned by the maniread() function. This function is useful for producing a directory tree identical to the intended distribution tree. The third parameter $how can be used to specify a different methods of "copying". Valid values are C, which actually copies the files, C which creates hard links, and C which mostly links the files but copies any symbolic link to make a tree without any symbolic link. Best is the default. =cut sub manicopy { my($read,$target,$how)=@_; croak "manicopy() called without target argument" unless defined $target; $how ||= 'cp'; require File::Path; require File::Basename; $target = VMS::Filespec::unixify($target) if $Is_VMS; File::Path::mkpath([ $target ],! $Quiet,$Is_VMS ? undef : 0755); foreach my $file (keys %$read){ if ($Is_MacOS) { if ($file =~ m!:!) { my $dir = _maccat($target, $file); $dir =~ s/[^:]+$//; File::Path::mkpath($dir,1,0755); } cp_if_diff($file, _maccat($target, $file), $how); } else { $file = VMS::Filespec::unixify($file) if $Is_VMS; if ($file =~ m!/!) { # Ilya, that hurts, I fear, or maybe not? my $dir = File::Basename::dirname($file); $dir = VMS::Filespec::unixify($dir) if $Is_VMS; File::Path::mkpath(["$target/$dir"],! $Quiet,$Is_VMS ? undef : 0755); } cp_if_diff($file, "$target/$file", $how); } } } sub cp_if_diff { my($from, $to, $how)=@_; -f $from or carp "$0: $from not found"; my($diff) = 0; local(*F,*T); open(F,"< $from\0") or die "Can't read $from: $!\n"; if (open(T,"< $to\0")) { local $_; while () { $diff++,last if $_ ne ; } $diff++ unless eof(T); close T; } else { $diff++; } close F; if ($diff) { if (-e $to) { unlink($to) or confess "unlink $to: $!"; } STRICT_SWITCH: { best($from,$to), last STRICT_SWITCH if $how eq 'best'; cp($from,$to), last STRICT_SWITCH if $how eq 'cp'; ln($from,$to), last STRICT_SWITCH if $how eq 'ln'; croak("ExtUtils::Manifest::cp_if_diff " . "called with illegal how argument [$how]. " . "Legal values are 'best', 'cp', and 'ln'."); } } } sub cp { my ($srcFile, $dstFile) = @_; my ($perm,$access,$mod) = (stat $srcFile)[2,8,9]; copy($srcFile,$dstFile); utime $access, $mod + ($Is_VMS ? 1 : 0), $dstFile; # chmod a+rX-w,go-w chmod( 0444 | ( $perm & 0111 ? 0111 : 0 ), $dstFile ) unless ($^O eq 'MacOS'); } sub ln { my ($srcFile, $dstFile) = @_; return &cp if $Is_VMS or ($^O eq 'MSWin32' and Win32::IsWin95()); link($srcFile, $dstFile); # chmod a+r,go-w+X (except "X" only applies to u=x) local($_) = $dstFile; my $mode= 0444 | (stat)[2] & 0700; if (! chmod( $mode | ( $mode & 0100 ? 0111 : 0 ), $_ )) { unlink $dstFile; return; } 1; } unless (defined $Config{d_link}) { # Really cool fix from Ilya :) local $SIG{__WARN__} = sub { warn @_ unless $_[0] =~ /^Subroutine .* redefined/; }; *ln = \&cp; } sub best { my ($srcFile, $dstFile) = @_; if (-l $srcFile) { cp($srcFile, $dstFile); } else { ln($srcFile, $dstFile) or cp($srcFile, $dstFile); } } sub _macify { my($file) = @_; return $file unless $Is_MacOS; $file =~ s|^\./||; if ($file =~ m|/|) { $file =~ s|/+|:|g; $file = ":$file"; } $file; } sub _maccat { my($f1, $f2) = @_; return "$f1/$f2" unless $Is_MacOS; $f1 .= ":$f2"; $f1 =~ s/([^:]:):/$1/g; return $f1; } sub _unmacify { my($file) = @_; return $file unless $Is_MacOS; $file =~ s|^:||; $file =~ s|([/ \n])|sprintf("\\%03o", unpack("c", $1))|ge; $file =~ y|:|/|; $file; } =item maniadd maniadd({ $file => $comment, ...}); Adds an entry to an existing F unless its already there. $file will be normalized (ie. Unixified). B =cut sub maniadd { my($additions) = shift; _normalize($additions); _fix_manifest($MANIFEST); my $manifest = maniread(); open(MANIFEST, ">>$MANIFEST") or die "Could not open $MANIFEST: $!"; foreach my $file (_sort keys %$additions) { next if exists $manifest->{$file}; my $comment = $additions->{$file} || ''; printf MANIFEST "%-40s%s\n", $file, $comment; } close MANIFEST; } # Sometimes MANIFESTs are missing a trailing newline. Fix this. sub _fix_manifest { my $manifest_file = shift; open MANIFEST, $MANIFEST or die "Could not open $MANIFEST: $!"; # Yes, we should be using seek(), but I'd like to avoid loading POSIX # to get SEEK_* my @manifest = ; close MANIFEST; unless( $manifest[-1] =~ /\n\z/ ) { open MANIFEST, ">>$MANIFEST" or die "Could not open $MANIFEST: $!"; print MANIFEST "\n"; close MANIFEST; } } # UNIMPLEMENTED sub _normalize { return; } =back =head2 MANIFEST Anything between white space and an end of line within a C file is considered to be a comment. Filenames and comments are separated by one or more TAB characters in the output. =head2 MANIFEST.SKIP The file MANIFEST.SKIP may contain regular expressions of files that should be ignored by mkmanifest() and filecheck(). The regular expressions should appear one on each line. Blank lines and lines which start with C<#> are skipped. Use C<\#> if you need a regular expression to start with a sharp character. A typical example: # Version control files and dirs. \bRCS\b \bCVS\b ,v$ \B\.svn\b # Makemaker generated files and dirs. ^MANIFEST\. ^Makefile$ ^blib/ ^MakeMaker-\d # Temp, old and emacs backup files. ~$ \.old$ ^#.*#$ ^\.# If no MANIFEST.SKIP file is found, a default set of skips will be used, similar to the example above. If you want nothing skipped, simply make an empty MANIFEST.SKIP file. =head2 EXPORT_OK C<&mkmanifest>, C<&manicheck>, C<&filecheck>, C<&fullcheck>, C<&maniread>, and C<&manicopy> are exportable. =head2 GLOBAL VARIABLES C<$ExtUtils::Manifest::MANIFEST> defaults to C. Changing it results in both a different C and a different C file. This is useful if you want to maintain different distributions for different audiences (say a user version and a developer version including RCS). C<$ExtUtils::Manifest::Quiet> defaults to 0. If set to a true value, all functions act silently. C<$ExtUtils::Manifest::Debug> defaults to 0. If set to a true value, or if PERL_MM_MANIFEST_DEBUG is true, debugging output will be produced. =head1 DIAGNOSTICS All diagnostic output is sent to C. =over 4 =item C I is reported if a file is found which is not in C. =item C I is reported if a file is skipped due to an entry in C. =item C I is reported if a file mentioned in a C file does not exist. =item C I<$!> is reported if C could not be opened. =item C I is reported by mkmanifest() if $Verbose is set and a file is added to MANIFEST. $Verbose is set to 1 by default. =back =head1 ENVIRONMENT =over 4 =item B Turns on debugging =back =head1 SEE ALSO L which has handy targets for most of the functionality. =head1 AUTHOR Andreas Koenig > =cut 1;