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Direktori : /proc/self/root/proc/thread-self/root/usr/share/perl5/vendor_perl/Archive/Zip/ |
Current File : //proc/self/root/proc/thread-self/root/usr/share/perl5/vendor_perl/Archive/Zip/Archive.pm |
package Archive::Zip::Archive; # Represents a generic ZIP archive use strict; use File::Path; use File::Find (); use File::Spec (); use File::Copy (); use File::Basename; use Cwd; use Encode qw(encode_utf8 decode_utf8); use vars qw( $VERSION @ISA ); BEGIN { $VERSION = '1.60'; @ISA = qw( Archive::Zip ); } use Archive::Zip qw( :CONSTANTS :ERROR_CODES :PKZIP_CONSTANTS :UTILITY_METHODS ); our $UNICODE; # Note that this returns undef on read errors, else new zip object. sub new { my $class = shift; my $self = bless( { 'diskNumber' => 0, 'diskNumberWithStartOfCentralDirectory' => 0, 'numberOfCentralDirectoriesOnThisDisk' => 0, # should be # of members 'numberOfCentralDirectories' => 0, # should be # of members 'centralDirectorySize' => 0, # must re-compute on write 'centralDirectoryOffsetWRTStartingDiskNumber' => 0, # must re-compute 'writeEOCDOffset' => 0, 'writeCentralDirectoryOffset' => 0, 'zipfileComment' => '', 'eocdOffset' => 0, 'fileName' => '' }, $class ); $self->{'members'} = []; my $fileName = (ref($_[0]) eq 'HASH') ? shift->{filename} : shift; if ($fileName) { my $status = $self->read($fileName); return $status == AZ_OK ? $self : undef; } return $self; } sub storeSymbolicLink { my $self = shift; $self->{'storeSymbolicLink'} = shift; } sub members { @{shift->{'members'}}; } sub numberOfMembers { scalar(shift->members()); } sub memberNames { my $self = shift; return map { $_->fileName() } $self->members(); } # return ref to member with given name or undef sub memberNamed { my $self = shift; my $fileName = (ref($_[0]) eq 'HASH') ? shift->{zipName} : shift; foreach my $member ($self->members()) { return $member if $member->fileName() eq $fileName; } return undef; } sub membersMatching { my $self = shift; my $pattern = (ref($_[0]) eq 'HASH') ? shift->{regex} : shift; return grep { $_->fileName() =~ /$pattern/ } $self->members(); } sub diskNumber { shift->{'diskNumber'}; } sub diskNumberWithStartOfCentralDirectory { shift->{'diskNumberWithStartOfCentralDirectory'}; } sub numberOfCentralDirectoriesOnThisDisk { shift->{'numberOfCentralDirectoriesOnThisDisk'}; } sub numberOfCentralDirectories { shift->{'numberOfCentralDirectories'}; } sub centralDirectorySize { shift->{'centralDirectorySize'}; } sub centralDirectoryOffsetWRTStartingDiskNumber { shift->{'centralDirectoryOffsetWRTStartingDiskNumber'}; } sub zipfileComment { my $self = shift; my $comment = $self->{'zipfileComment'}; if (@_) { my $new_comment = (ref($_[0]) eq 'HASH') ? shift->{comment} : shift; $self->{'zipfileComment'} = pack('C0a*', $new_comment); # avoid Unicode } return $comment; } sub eocdOffset { shift->{'eocdOffset'}; } # Return the name of the file last read. sub fileName { shift->{'fileName'}; } sub removeMember { my $self = shift; my $member = (ref($_[0]) eq 'HASH') ? shift->{memberOrZipName} : shift; $member = $self->memberNamed($member) unless ref($member); return undef unless $member; my @newMembers = grep { $_ != $member } $self->members(); $self->{'members'} = \@newMembers; return $member; } sub replaceMember { my $self = shift; my ($oldMember, $newMember); if (ref($_[0]) eq 'HASH') { $oldMember = $_[0]->{memberOrZipName}; $newMember = $_[0]->{newMember}; } else { ($oldMember, $newMember) = @_; } $oldMember = $self->memberNamed($oldMember) unless ref($oldMember); return undef unless $oldMember; return undef unless $newMember; my @newMembers = map { ($_ == $oldMember) ? $newMember : $_ } $self->members(); $self->{'members'} = \@newMembers; return $oldMember; } sub extractMember { my $self = shift; my ($member, $name); if (ref($_[0]) eq 'HASH') { $member = $_[0]->{memberOrZipName}; $name = $_[0]->{name}; } else { ($member, $name) = @_; } $member = $self->memberNamed($member) unless ref($member); return _error('member not found') unless $member; my $originalSize = $member->compressedSize(); my ($volumeName, $dirName, $fileName); if (defined($name)) { ($volumeName, $dirName, $fileName) = File::Spec->splitpath($name); $dirName = File::Spec->catpath($volumeName, $dirName, ''); } else { $name = $member->fileName(); if ((my $ret = _extractionNameIsSafe($name)) != AZ_OK) { return $ret; } ($dirName = $name) =~ s{[^/]*$}{}; $dirName = Archive::Zip::_asLocalName($dirName); $name = Archive::Zip::_asLocalName($name); } if ($dirName && !-d $dirName) { mkpath($dirName); return _ioError("can't create dir $dirName") if (!-d $dirName); } my $rc = $member->extractToFileNamed($name, @_); # TODO refactor this fix into extractToFileNamed() $member->{'compressedSize'} = $originalSize; return $rc; } sub extractMemberWithoutPaths { my $self = shift; my ($member, $name); if (ref($_[0]) eq 'HASH') { $member = $_[0]->{memberOrZipName}; $name = $_[0]->{name}; } else { ($member, $name) = @_; } $member = $self->memberNamed($member) unless ref($member); return _error('member not found') unless $member; my $originalSize = $member->compressedSize(); return AZ_OK if $member->isDirectory(); unless ($name) { $name = $member->fileName(); $name =~ s{.*/}{}; # strip off directories, if any if ((my $ret = _extractionNameIsSafe($name)) != AZ_OK) { return $ret; } $name = Archive::Zip::_asLocalName($name); } my $rc = $member->extractToFileNamed($name, @_); $member->{'compressedSize'} = $originalSize; return $rc; } sub addMember { my $self = shift; my $newMember = (ref($_[0]) eq 'HASH') ? shift->{member} : shift; push(@{$self->{'members'}}, $newMember) if $newMember; if($newMember && ($newMember->{bitFlag} & 0x800) && !utf8::is_utf8($newMember->{fileName})){ $newMember->{fileName} = Encode::decode_utf8( $newMember->{fileName} ); } return $newMember; } sub addFile { my $self = shift; my ($fileName, $newName, $compressionLevel); if (ref($_[0]) eq 'HASH') { $fileName = $_[0]->{filename}; $newName = $_[0]->{zipName}; $compressionLevel = $_[0]->{compressionLevel}; } else { ($fileName, $newName, $compressionLevel) = @_; } if ($^O eq 'MSWin32' && $Archive::Zip::UNICODE) { $fileName = Win32::GetANSIPathName($fileName); } my $newMember = Archive::Zip::Member->newFromFile($fileName, $newName); $newMember->desiredCompressionLevel($compressionLevel); if ($self->{'storeSymbolicLink'} && -l $fileName) { my $newMember = Archive::Zip::Member->newFromString(readlink $fileName, $newName); # For symbolic links, External File Attribute is set to 0xA1FF0000 by Info-ZIP $newMember->{'externalFileAttributes'} = 0xA1FF0000; $self->addMember($newMember); } else { $self->addMember($newMember); } return $newMember; } sub addString { my $self = shift; my ($stringOrStringRef, $name, $compressionLevel); if (ref($_[0]) eq 'HASH') { $stringOrStringRef = $_[0]->{string}; $name = $_[0]->{zipName}; $compressionLevel = $_[0]->{compressionLevel}; } else { ($stringOrStringRef, $name, $compressionLevel) = @_; } my $newMember = Archive::Zip::Member->newFromString($stringOrStringRef, $name); $newMember->desiredCompressionLevel($compressionLevel); return $self->addMember($newMember); } sub addDirectory { my $self = shift; my ($name, $newName); if (ref($_[0]) eq 'HASH') { $name = $_[0]->{directoryName}; $newName = $_[0]->{zipName}; } else { ($name, $newName) = @_; } if ($^O eq 'MSWin32' && $Archive::Zip::UNICODE) { $name = Win32::GetANSIPathName($name); } my $newMember = Archive::Zip::Member->newDirectoryNamed($name, $newName); if ($self->{'storeSymbolicLink'} && -l $name) { my $link = readlink $name; ($newName =~ s{/$}{}) if $newName; # Strip trailing / my $newMember = Archive::Zip::Member->newFromString($link, $newName); # For symbolic links, External File Attribute is set to 0xA1FF0000 by Info-ZIP $newMember->{'externalFileAttributes'} = 0xA1FF0000; $self->addMember($newMember); } else { $self->addMember($newMember); } return $newMember; } # add either a file or a directory. sub addFileOrDirectory { my $self = shift; my ($name, $newName, $compressionLevel); if (ref($_[0]) eq 'HASH') { $name = $_[0]->{name}; $newName = $_[0]->{zipName}; $compressionLevel = $_[0]->{compressionLevel}; } else { ($name, $newName, $compressionLevel) = @_; } if ($^O eq 'MSWin32' && $Archive::Zip::UNICODE) { $name = Win32::GetANSIPathName($name); } $name =~ s{/$}{}; if ($newName) { $newName =~ s{/$}{}; } else { $newName = $name; } if (-f $name) { return $self->addFile($name, $newName, $compressionLevel); } elsif (-d $name) { return $self->addDirectory($name, $newName); } else { return _error("$name is neither a file nor a directory"); } } sub contents { my $self = shift; my ($member, $newContents); if (ref($_[0]) eq 'HASH') { $member = $_[0]->{memberOrZipName}; $newContents = $_[0]->{contents}; } else { ($member, $newContents) = @_; } return _error('No member name given') unless $member; $member = $self->memberNamed($member) unless ref($member); return undef unless $member; return $member->contents($newContents); } sub writeToFileNamed { my $self = shift; my $fileName = (ref($_[0]) eq 'HASH') ? shift->{filename} : shift; # local FS format foreach my $member ($self->members()) { if ($member->_usesFileNamed($fileName)) { return _error("$fileName is needed by member " . $member->fileName() . "; consider using overwrite() or overwriteAs() instead."); } } my ($status, $fh) = _newFileHandle($fileName, 'w'); return _ioError("Can't open $fileName for write") unless $status; my $retval = $self->writeToFileHandle($fh, 1); $fh->close(); $fh = undef; return $retval; } # It is possible to write data to the FH before calling this, # perhaps to make a self-extracting archive. sub writeToFileHandle { my $self = shift; my ($fh, $fhIsSeekable); if (ref($_[0]) eq 'HASH') { $fh = $_[0]->{fileHandle}; $fhIsSeekable = exists($_[0]->{seek}) ? $_[0]->{seek} : _isSeekable($fh); } else { $fh = shift; $fhIsSeekable = @_ ? shift : _isSeekable($fh); } return _error('No filehandle given') unless $fh; return _ioError('filehandle not open') unless $fh->opened(); _binmode($fh); # Find out where the current position is. my $offset = $fhIsSeekable ? $fh->tell() : 0; $offset = 0 if $offset < 0; foreach my $member ($self->members()) { my $retval = $member->_writeToFileHandle($fh, $fhIsSeekable, $offset); $member->endRead(); return $retval if $retval != AZ_OK; $offset += $member->_localHeaderSize() + $member->_writeOffset(); $offset += $member->hasDataDescriptor() ? DATA_DESCRIPTOR_LENGTH + SIGNATURE_LENGTH : 0; # changed this so it reflects the last successful position $self->{'writeCentralDirectoryOffset'} = $offset; } return $self->writeCentralDirectory($fh); } # Write zip back to the original file, # as safely as possible. # Returns AZ_OK if successful. sub overwrite { my $self = shift; return $self->overwriteAs($self->{'fileName'}); } # Write zip to the specified file, # as safely as possible. # Returns AZ_OK if successful. sub overwriteAs { my $self = shift; my $zipName = (ref($_[0]) eq 'HASH') ? $_[0]->{filename} : shift; return _error("no filename in overwriteAs()") unless defined($zipName); my ($fh, $tempName) = Archive::Zip::tempFile(); return _error("Can't open temp file", $!) unless $fh; (my $backupName = $zipName) =~ s{(\.[^.]*)?$}{.zbk}; my $status = $self->writeToFileHandle($fh); $fh->close(); $fh = undef; if ($status != AZ_OK) { unlink($tempName); _printError("Can't write to $tempName"); return $status; } my $err; # rename the zip if (-f $zipName && !rename($zipName, $backupName)) { $err = $!; unlink($tempName); return _error("Can't rename $zipName as $backupName", $err); } # move the temp to the original name (possibly copying) unless (File::Copy::move($tempName, $zipName) || File::Copy::copy($tempName, $zipName)) { $err = $!; rename($backupName, $zipName); unlink($tempName); return _error("Can't move $tempName to $zipName", $err); } # unlink the backup if (-f $backupName && !unlink($backupName)) { $err = $!; return _error("Can't unlink $backupName", $err); } return AZ_OK; } # Used only during writing sub _writeCentralDirectoryOffset { shift->{'writeCentralDirectoryOffset'}; } sub _writeEOCDOffset { shift->{'writeEOCDOffset'}; } # Expects to have _writeEOCDOffset() set sub _writeEndOfCentralDirectory { my ($self, $fh) = @_; $self->_print($fh, END_OF_CENTRAL_DIRECTORY_SIGNATURE_STRING) or return _ioError('writing EOCD Signature'); my $zipfileCommentLength = length($self->zipfileComment()); my $header = pack( END_OF_CENTRAL_DIRECTORY_FORMAT, 0, # {'diskNumber'}, 0, # {'diskNumberWithStartOfCentralDirectory'}, $self->numberOfMembers(), # {'numberOfCentralDirectoriesOnThisDisk'}, $self->numberOfMembers(), # {'numberOfCentralDirectories'}, $self->_writeEOCDOffset() - $self->_writeCentralDirectoryOffset(), $self->_writeCentralDirectoryOffset(), $zipfileCommentLength ); $self->_print($fh, $header) or return _ioError('writing EOCD header'); if ($zipfileCommentLength) { $self->_print($fh, $self->zipfileComment()) or return _ioError('writing zipfile comment'); } return AZ_OK; } # $offset can be specified to truncate a zip file. sub writeCentralDirectory { my $self = shift; my ($fh, $offset); if (ref($_[0]) eq 'HASH') { $fh = $_[0]->{fileHandle}; $offset = $_[0]->{offset}; } else { ($fh, $offset) = @_; } if (defined($offset)) { $self->{'writeCentralDirectoryOffset'} = $offset; $fh->seek($offset, IO::Seekable::SEEK_SET) or return _ioError('seeking to write central directory'); } else { $offset = $self->_writeCentralDirectoryOffset(); } foreach my $member ($self->members()) { my $status = $member->_writeCentralDirectoryFileHeader($fh); return $status if $status != AZ_OK; $offset += $member->_centralDirectoryHeaderSize(); $self->{'writeEOCDOffset'} = $offset; } return $self->_writeEndOfCentralDirectory($fh); } sub read { my $self = shift; my $fileName = (ref($_[0]) eq 'HASH') ? shift->{filename} : shift; return _error('No filename given') unless $fileName; my ($status, $fh) = _newFileHandle($fileName, 'r'); return _ioError("opening $fileName for read") unless $status; $status = $self->readFromFileHandle($fh, $fileName); return $status if $status != AZ_OK; $fh->close(); $self->{'fileName'} = $fileName; return AZ_OK; } sub readFromFileHandle { my $self = shift; my ($fh, $fileName); if (ref($_[0]) eq 'HASH') { $fh = $_[0]->{fileHandle}; $fileName = $_[0]->{filename}; } else { ($fh, $fileName) = @_; } $fileName = $fh unless defined($fileName); return _error('No filehandle given') unless $fh; return _ioError('filehandle not open') unless $fh->opened(); _binmode($fh); $self->{'fileName'} = "$fh"; # TODO: how to support non-seekable zips? return _error('file not seekable') unless _isSeekable($fh); $fh->seek(0, 0); # rewind the file my $status = $self->_findEndOfCentralDirectory($fh); return $status if $status != AZ_OK; my $eocdPosition = $fh->tell(); $status = $self->_readEndOfCentralDirectory($fh); return $status if $status != AZ_OK; $fh->seek($eocdPosition - $self->centralDirectorySize(), IO::Seekable::SEEK_SET) or return _ioError("Can't seek $fileName"); # Try to detect garbage at beginning of archives # This should be 0 $self->{'eocdOffset'} = $eocdPosition - $self->centralDirectorySize() # here - $self->centralDirectoryOffsetWRTStartingDiskNumber(); for (; ;) { my $newMember = Archive::Zip::Member->_newFromZipFile($fh, $fileName, $self->eocdOffset()); my $signature; ($status, $signature) = _readSignature($fh, $fileName); return $status if $status != AZ_OK; last if $signature == END_OF_CENTRAL_DIRECTORY_SIGNATURE; $status = $newMember->_readCentralDirectoryFileHeader(); return $status if $status != AZ_OK; $status = $newMember->endRead(); return $status if $status != AZ_OK; $newMember->_becomeDirectoryIfNecessary(); if(($newMember->{bitFlag} & 0x800) && !utf8::is_utf8($newMember->{fileName})){ $newMember->{fileName} = Encode::decode_utf8($newMember->{fileName}); } push(@{$self->{'members'}}, $newMember); } return AZ_OK; } # Read EOCD, starting from position before signature. # Return AZ_OK on success. sub _readEndOfCentralDirectory { my $self = shift; my $fh = shift; # Skip past signature $fh->seek(SIGNATURE_LENGTH, IO::Seekable::SEEK_CUR) or return _ioError("Can't seek past EOCD signature"); my $header = ''; my $bytesRead = $fh->read($header, END_OF_CENTRAL_DIRECTORY_LENGTH); if ($bytesRead != END_OF_CENTRAL_DIRECTORY_LENGTH) { return _ioError("reading end of central directory"); } my $zipfileCommentLength; ( $self->{'diskNumber'}, $self->{'diskNumberWithStartOfCentralDirectory'}, $self->{'numberOfCentralDirectoriesOnThisDisk'}, $self->{'numberOfCentralDirectories'}, $self->{'centralDirectorySize'}, $self->{'centralDirectoryOffsetWRTStartingDiskNumber'}, $zipfileCommentLength ) = unpack(END_OF_CENTRAL_DIRECTORY_FORMAT, $header); if ($self->{'diskNumber'} == 0xFFFF || $self->{'diskNumberWithStartOfCentralDirectory'} == 0xFFFF || $self->{'numberOfCentralDirectoriesOnThisDisk'} == 0xFFFF || $self->{'numberOfCentralDirectories'} == 0xFFFF || $self->{'centralDirectorySize'} == 0xFFFFFFFF || $self->{'centralDirectoryOffsetWRTStartingDiskNumber'} == 0xFFFFFFFF) { return _formatError("zip64 not supported" . Dumper($self)); } use Data::Dumper; if ($zipfileCommentLength) { my $zipfileComment = ''; $bytesRead = $fh->read($zipfileComment, $zipfileCommentLength); if ($bytesRead != $zipfileCommentLength) { return _ioError("reading zipfile comment"); } $self->{'zipfileComment'} = $zipfileComment; } return AZ_OK; } # Seek in my file to the end, then read backwards until we find the # signature of the central directory record. Leave the file positioned right # before the signature. Returns AZ_OK if success. sub _findEndOfCentralDirectory { my $self = shift; my $fh = shift; my $data = ''; $fh->seek(0, IO::Seekable::SEEK_END) or return _ioError("seeking to end"); my $fileLength = $fh->tell(); if ($fileLength < END_OF_CENTRAL_DIRECTORY_LENGTH + 4) { return _formatError("file is too short"); } my $seekOffset = 0; my $pos = -1; for (; ;) { $seekOffset += 512; $seekOffset = $fileLength if ($seekOffset > $fileLength); $fh->seek(-$seekOffset, IO::Seekable::SEEK_END) or return _ioError("seek failed"); my $bytesRead = $fh->read($data, $seekOffset); if ($bytesRead != $seekOffset) { return _ioError("read failed"); } $pos = rindex($data, END_OF_CENTRAL_DIRECTORY_SIGNATURE_STRING); last if ( $pos >= 0 or $seekOffset == $fileLength or $seekOffset >= $Archive::Zip::ChunkSize); } if ($pos >= 0) { $fh->seek($pos - $seekOffset, IO::Seekable::SEEK_CUR) or return _ioError("seeking to EOCD"); return AZ_OK; } else { return _formatError("can't find EOCD signature"); } } # Used to avoid taint problems when chdir'ing. # Not intended to increase security in any way; just intended to shut up the -T # complaints. If your Cwd module is giving you unreliable returns from cwd() # you have bigger problems than this. sub _untaintDir { my $dir = shift; $dir =~ m/\A(.+)\z/s; return $1; } sub addTree { my $self = shift; my ($root, $dest, $pred, $compressionLevel); if (ref($_[0]) eq 'HASH') { $root = $_[0]->{root}; $dest = $_[0]->{zipName}; $pred = $_[0]->{select}; $compressionLevel = $_[0]->{compressionLevel}; } else { ($root, $dest, $pred, $compressionLevel) = @_; } return _error("root arg missing in call to addTree()") unless defined($root); $dest = '' unless defined($dest); $pred = sub { -r } unless defined($pred); my @files; my $startDir = _untaintDir(cwd()); return _error('undef returned by _untaintDir on cwd ', cwd()) unless $startDir; # This avoids chdir'ing in Find, in a way compatible with older # versions of File::Find. my $wanted = sub { local $main::_ = $File::Find::name; my $dir = _untaintDir($File::Find::dir); chdir($startDir); if ($^O eq 'MSWin32' && $Archive::Zip::UNICODE) { push(@files, Win32::GetANSIPathName($File::Find::name)) if (&$pred); $dir = Win32::GetANSIPathName($dir); } else { push(@files, $File::Find::name) if (&$pred); } chdir($dir); }; if ($^O eq 'MSWin32' && $Archive::Zip::UNICODE) { $root = Win32::GetANSIPathName($root); } File::Find::find($wanted, $root); my $rootZipName = _asZipDirName($root, 1); # with trailing slash my $pattern = $rootZipName eq './' ? '^' : "^\Q$rootZipName\E"; $dest = _asZipDirName($dest, 1); # with trailing slash foreach my $fileName (@files) { my $isDir; if ($^O eq 'MSWin32' && $Archive::Zip::UNICODE) { $isDir = -d Win32::GetANSIPathName($fileName); } else { $isDir = -d $fileName; } # normalize, remove leading ./ my $archiveName = _asZipDirName($fileName, $isDir); if ($archiveName eq $rootZipName) { $archiveName = $dest } else { $archiveName =~ s{$pattern}{$dest} } next if $archiveName =~ m{^\.?/?$}; # skip current dir my $member = $isDir ? $self->addDirectory($fileName, $archiveName) : $self->addFile($fileName, $archiveName); $member->desiredCompressionLevel($compressionLevel); return _error("add $fileName failed in addTree()") if !$member; } return AZ_OK; } sub addTreeMatching { my $self = shift; my ($root, $dest, $pattern, $pred, $compressionLevel); if (ref($_[0]) eq 'HASH') { $root = $_[0]->{root}; $dest = $_[0]->{zipName}; $pattern = $_[0]->{pattern}; $pred = $_[0]->{select}; $compressionLevel = $_[0]->{compressionLevel}; } else { ($root, $dest, $pattern, $pred, $compressionLevel) = @_; } return _error("root arg missing in call to addTreeMatching()") unless defined($root); $dest = '' unless defined($dest); return _error("pattern missing in call to addTreeMatching()") unless defined($pattern); my $matcher = $pred ? sub { m{$pattern} && &$pred } : sub { m{$pattern} && -r }; return $self->addTree($root, $dest, $matcher, $compressionLevel); } # Check if one of the components of a path to the file or the file name # itself is an already existing symbolic link. If yes then return an # error. Continuing and writing to a file traversing a link posseses # a security threat, especially if the link was extracted from an # attacker-supplied archive. This would allow writing to an arbitrary # file. The same applies when using ".." to escape from a working # directory. <https://bugzilla.redhat.com/show_bug.cgi?id=1591449> sub _extractionNameIsSafe { my $name = shift; my ($volume, $directories) = File::Spec->splitpath($name, 1); my @directories = File::Spec->splitdir($directories); if (grep '..' eq $_, @directories) { return _error( "Could not extract $name safely: a parent directory is used"); } my @path; my $path; for my $directory (@directories) { push @path, $directory; $path = File::Spec->catpath($volume, File::Spec->catdir(@path), ''); if (-l $path) { return _error( "Could not extract $name safely: $path is an existing symbolic link"); } if (!-e $path) { last; } } return AZ_OK; } # $zip->extractTree( $root, $dest [, $volume] ); # # $root and $dest are Unix-style. # $volume is in local FS format. # sub extractTree { my $self = shift; my ($root, $dest, $volume); if (ref($_[0]) eq 'HASH') { $root = $_[0]->{root}; $dest = $_[0]->{zipName}; $volume = $_[0]->{volume}; } else { ($root, $dest, $volume) = @_; } $root = '' unless defined($root); if (defined $dest) { if ($dest !~ m{/$}) { $dest .= '/'; } } else { $dest = './'; } my $pattern = "^\Q$root"; my @members = $self->membersMatching($pattern); foreach my $member (@members) { my $fileName = $member->fileName(); # in Unix format $fileName =~ s{$pattern}{$dest}; # in Unix format # convert to platform format: $fileName = Archive::Zip::_asLocalName($fileName, $volume); if ((my $ret = _extractionNameIsSafe($fileName)) != AZ_OK) { return $ret; } my $status = $member->extractToFileNamed($fileName); return $status if $status != AZ_OK; } return AZ_OK; } # $zip->updateMember( $memberOrName, $fileName ); # Returns (possibly updated) member, if any; undef on errors. sub updateMember { my $self = shift; my ($oldMember, $fileName); if (ref($_[0]) eq 'HASH') { $oldMember = $_[0]->{memberOrZipName}; $fileName = $_[0]->{name}; } else { ($oldMember, $fileName) = @_; } if (!defined($fileName)) { _error("updateMember(): missing fileName argument"); return undef; } my @newStat = stat($fileName); if (!@newStat) { _ioError("Can't stat $fileName"); return undef; } my $isDir = -d _; my $memberName; if (ref($oldMember)) { $memberName = $oldMember->fileName(); } else { $oldMember = $self->memberNamed($memberName = $oldMember) || $self->memberNamed($memberName = _asZipDirName($oldMember, $isDir)); } unless (defined($oldMember) && $oldMember->lastModTime() == $newStat[9] && $oldMember->isDirectory() == $isDir && ($isDir || ($oldMember->uncompressedSize() == $newStat[7]))) { # create the new member my $newMember = $isDir ? Archive::Zip::Member->newDirectoryNamed($fileName, $memberName) : Archive::Zip::Member->newFromFile($fileName, $memberName); unless (defined($newMember)) { _error("creation of member $fileName failed in updateMember()"); return undef; } # replace old member or append new one if (defined($oldMember)) { $self->replaceMember($oldMember, $newMember); } else { $self->addMember($newMember); } return $newMember; } return $oldMember; } # $zip->updateTree( $root, [ $dest, [ $pred [, $mirror]]] ); # # This takes the same arguments as addTree, but first checks to see # whether the file or directory already exists in the zip file. # # If the fourth argument $mirror is true, then delete all my members # if corresponding files were not found. sub updateTree { my $self = shift; my ($root, $dest, $pred, $mirror, $compressionLevel); if (ref($_[0]) eq 'HASH') { $root = $_[0]->{root}; $dest = $_[0]->{zipName}; $pred = $_[0]->{select}; $mirror = $_[0]->{mirror}; $compressionLevel = $_[0]->{compressionLevel}; } else { ($root, $dest, $pred, $mirror, $compressionLevel) = @_; } return _error("root arg missing in call to updateTree()") unless defined($root); $dest = '' unless defined($dest); $pred = sub { -r } unless defined($pred); $dest = _asZipDirName($dest, 1); my $rootZipName = _asZipDirName($root, 1); # with trailing slash my $pattern = $rootZipName eq './' ? '^' : "^\Q$rootZipName\E"; my @files; my $startDir = _untaintDir(cwd()); return _error('undef returned by _untaintDir on cwd ', cwd()) unless $startDir; # This avoids chdir'ing in Find, in a way compatible with older # versions of File::Find. my $wanted = sub { local $main::_ = $File::Find::name; my $dir = _untaintDir($File::Find::dir); chdir($startDir); push(@files, $File::Find::name) if (&$pred); chdir($dir); }; File::Find::find($wanted, $root); # Now @files has all the files that I could potentially be adding to # the zip. Only add the ones that are necessary. # For each file (updated or not), add its member name to @done. my %done; foreach my $fileName (@files) { my @newStat = stat($fileName); my $isDir = -d _; # normalize, remove leading ./ my $memberName = _asZipDirName($fileName, $isDir); if ($memberName eq $rootZipName) { $memberName = $dest } else { $memberName =~ s{$pattern}{$dest} } next if $memberName =~ m{^\.?/?$}; # skip current dir $done{$memberName} = 1; my $changedMember = $self->updateMember($memberName, $fileName); $changedMember->desiredCompressionLevel($compressionLevel); return _error("updateTree failed to update $fileName") unless ref($changedMember); } # @done now has the archive names corresponding to all the found files. # If we're mirroring, delete all those members that aren't in @done. if ($mirror) { foreach my $member ($self->members()) { $self->removeMember($member) unless $done{$member->fileName()}; } } return AZ_OK; } 1;