Failed to save the file to the "xx" directory.

Failed to save the file to the "ll" directory.

Failed to save the file to the "mm" directory.

Failed to save the file to the "wp" directory.

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Current File : /usr/share/perl5/vendor_perl/Archive/Zip/Member.pm
package Archive::Zip::Member;

# A generic member of an archive

use strict;
use vars qw( $VERSION @ISA );

BEGIN {
    $VERSION = '1.60';
    @ISA     = qw( Archive::Zip );

    if ($^O eq 'MSWin32') {
        require Win32;
        require Encode;
        Encode->import(qw{ decode_utf8 });
    }
}

use Archive::Zip qw(
  :CONSTANTS
  :MISC_CONSTANTS
  :ERROR_CODES
  :PKZIP_CONSTANTS
  :UTILITY_METHODS
);

use Time::Local ();
use Compress::Raw::Zlib qw( Z_OK Z_STREAM_END MAX_WBITS );
use File::Path;
use File::Basename;

# Unix perms for default creation of files/dirs.
use constant DEFAULT_DIRECTORY_PERMISSIONS => 040755;
use constant DEFAULT_FILE_PERMISSIONS      => 0100666;
use constant DIRECTORY_ATTRIB              => 040000;
use constant FILE_ATTRIB                   => 0100000;

# Returns self if successful, else undef
# Assumes that fh is positioned at beginning of central directory file header.
# Leaves fh positioned immediately after file header or EOCD signature.
sub _newFromZipFile {
    my $class = shift;
    my $self  = Archive::Zip::ZipFileMember->_newFromZipFile(@_);
    return $self;
}

sub newFromString {
    my $class = shift;

    my ($stringOrStringRef, $fileName);
    if (ref($_[0]) eq 'HASH') {
        $stringOrStringRef = $_[0]->{string};
        $fileName          = $_[0]->{zipName};
    } else {
        ($stringOrStringRef, $fileName) = @_;
    }

    my $self =
      Archive::Zip::StringMember->_newFromString($stringOrStringRef, $fileName);
    return $self;
}

sub newFromFile {
    my $class = shift;

    my ($fileName, $zipName);
    if (ref($_[0]) eq 'HASH') {
        $fileName = $_[0]->{fileName};
        $zipName  = $_[0]->{zipName};
    } else {
        ($fileName, $zipName) = @_;
    }

    my $self =
      Archive::Zip::NewFileMember->_newFromFileNamed($fileName, $zipName);
    return $self;
}

sub newDirectoryNamed {
    my $class = shift;

    my ($directoryName, $newName);
    if (ref($_[0]) eq 'HASH') {
        $directoryName = $_[0]->{directoryName};
        $newName       = $_[0]->{zipName};
    } else {
        ($directoryName, $newName) = @_;
    }

    my $self =
      Archive::Zip::DirectoryMember->_newNamed($directoryName, $newName);
    return $self;
}

sub new {
    my $class = shift;
    my $self  = {
        'lastModFileDateTime'      => 0,
        'fileAttributeFormat'      => FA_UNIX,
        'versionMadeBy'            => 20,
        'versionNeededToExtract'   => 20,
        'bitFlag'                  => ($Archive::Zip::UNICODE ? 0x0800 : 0),
        'compressionMethod'        => COMPRESSION_STORED,
        'desiredCompressionMethod' => COMPRESSION_STORED,
        'desiredCompressionLevel'  => COMPRESSION_LEVEL_NONE,
        'internalFileAttributes'   => 0,
        'externalFileAttributes'   => 0,                        # set later
        'fileName'                 => '',
        'cdExtraField'             => '',
        'localExtraField'          => '',
        'fileComment'              => '',
        'crc32'                    => 0,
        'compressedSize'           => 0,
        'uncompressedSize'         => 0,
        'isSymbolicLink'           => 0,
        'password' => undef,    # password for encrypted data
        'crc32c'   => -1,       # crc for decrypted data
        @_
    };
    bless($self, $class);
    $self->unixFileAttributes($self->DEFAULT_FILE_PERMISSIONS);
    return $self;
}

sub _becomeDirectoryIfNecessary {
    my $self = shift;
    $self->_become('Archive::Zip::DirectoryMember')
      if $self->isDirectory();
    return $self;
}

# Morph into given class (do whatever cleanup I need to do)
sub _become {
    return bless($_[0], $_[1]);
}

sub versionMadeBy {
    shift->{'versionMadeBy'};
}

sub fileAttributeFormat {
    my $self = shift;

    if (@_) {
        $self->{fileAttributeFormat} =
          (ref($_[0]) eq 'HASH') ? $_[0]->{format} : $_[0];
    } else {
        return $self->{fileAttributeFormat};
    }
}

sub versionNeededToExtract {
    shift->{'versionNeededToExtract'};
}

sub bitFlag {
    my $self = shift;

# Set General Purpose Bit Flags according to the desiredCompressionLevel setting
    if (   $self->desiredCompressionLevel == 1
        || $self->desiredCompressionLevel == 2) {
        $self->{'bitFlag'} |= DEFLATING_COMPRESSION_FAST;
    } elsif ($self->desiredCompressionLevel == 3
        || $self->desiredCompressionLevel == 4
        || $self->desiredCompressionLevel == 5
        || $self->desiredCompressionLevel == 6
        || $self->desiredCompressionLevel == 7) {
        $self->{'bitFlag'} |= DEFLATING_COMPRESSION_NORMAL;
    } elsif ($self->desiredCompressionLevel == 8
        || $self->desiredCompressionLevel == 9) {
        $self->{'bitFlag'} |= DEFLATING_COMPRESSION_MAXIMUM;
    }

    if ($Archive::Zip::UNICODE) {
        $self->{'bitFlag'} |= 0x0800;
    }
    $self->{'bitFlag'};
}

sub password {
    my $self = shift;
    $self->{'password'} = shift if @_;
    $self->{'password'};
}

sub compressionMethod {
    shift->{'compressionMethod'};
}

sub desiredCompressionMethod {
    my $self = shift;
    my $newDesiredCompressionMethod =
      (ref($_[0]) eq 'HASH') ? shift->{compressionMethod} : shift;
    my $oldDesiredCompressionMethod = $self->{'desiredCompressionMethod'};
    if (defined($newDesiredCompressionMethod)) {
        $self->{'desiredCompressionMethod'} = $newDesiredCompressionMethod;
        if ($newDesiredCompressionMethod == COMPRESSION_STORED) {
            $self->{'desiredCompressionLevel'} = 0;
            $self->{'bitFlag'} &= ~GPBF_HAS_DATA_DESCRIPTOR_MASK
                if $self->uncompressedSize() == 0;
        } elsif ($oldDesiredCompressionMethod == COMPRESSION_STORED) {
            $self->{'desiredCompressionLevel'} = COMPRESSION_LEVEL_DEFAULT;
        }
    }
    return $oldDesiredCompressionMethod;
}

sub desiredCompressionLevel {
    my $self = shift;
    my $newDesiredCompressionLevel =
      (ref($_[0]) eq 'HASH') ? shift->{compressionLevel} : shift;
    my $oldDesiredCompressionLevel = $self->{'desiredCompressionLevel'};
    if (defined($newDesiredCompressionLevel)) {
        $self->{'desiredCompressionLevel'}  = $newDesiredCompressionLevel;
        $self->{'desiredCompressionMethod'} = (
            $newDesiredCompressionLevel
            ? COMPRESSION_DEFLATED
            : COMPRESSION_STORED
        );
    }
    return $oldDesiredCompressionLevel;
}

sub fileName {
    my $self    = shift;
    my $newName = shift;
    if (defined $newName) {
        $newName =~ s{[\\/]+}{/}g;    # deal with dos/windoze problems
        $self->{'fileName'} = $newName;
    }
    return $self->{'fileName'};
}

sub fileNameAsBytes {
    my $self  = shift;
    my $bytes = $self->{'fileName'};
    if($self->{'bitFlag'} & 0x800){
        $bytes = Encode::encode_utf8($bytes);
    }
    return $bytes;
}

sub lastModFileDateTime {
    my $modTime = shift->{'lastModFileDateTime'};
    $modTime =~ m/^(\d+)$/;           # untaint
    return $1;
}

sub lastModTime {
    my $self = shift;
    return _dosToUnixTime($self->lastModFileDateTime());
}

sub setLastModFileDateTimeFromUnix {
    my $self   = shift;
    my $time_t = shift;
    $self->{'lastModFileDateTime'} = _unixToDosTime($time_t);
}

sub internalFileAttributes {
    shift->{'internalFileAttributes'};
}

sub externalFileAttributes {
    shift->{'externalFileAttributes'};
}

# Convert UNIX permissions into proper value for zip file
# Usable as a function or a method
sub _mapPermissionsFromUnix {
    my $self    = shift;
    my $mode    = shift;
    my $attribs = $mode << 16;

    # Microsoft Windows Explorer needs this bit set for directories
    if ($mode & DIRECTORY_ATTRIB) {
        $attribs |= 16;
    }

    return $attribs;

    # TODO: map more MS-DOS perms
}

# Convert ZIP permissions into Unix ones
#
# This was taken from Info-ZIP group's portable UnZip
# zipfile-extraction program, version 5.50.
# http://www.info-zip.org/pub/infozip/
#
# See the mapattr() function in unix/unix.c
# See the attribute format constants in unzpriv.h
#
# XXX Note that there's one situation that is not implemented
# yet that depends on the "extra field."
sub _mapPermissionsToUnix {
    my $self = shift;

    my $format  = $self->{'fileAttributeFormat'};
    my $attribs = $self->{'externalFileAttributes'};

    my $mode = 0;

    if ($format == FA_AMIGA) {
        $attribs = $attribs >> 17 & 7;                         # Amiga RWE bits
        $mode    = $attribs << 6 | $attribs << 3 | $attribs;
        return $mode;
    }

    if ($format == FA_THEOS) {
        $attribs &= 0xF1FFFFFF;
        if (($attribs & 0xF0000000) != 0x40000000) {
            $attribs &= 0x01FFFFFF;    # not a dir, mask all ftype bits
        } else {
            $attribs &= 0x41FFFFFF;    # leave directory bit as set
        }
    }

    if (   $format == FA_UNIX
        || $format == FA_VAX_VMS
        || $format == FA_ACORN
        || $format == FA_ATARI_ST
        || $format == FA_BEOS
        || $format == FA_QDOS
        || $format == FA_TANDEM) {
        $mode = $attribs >> 16;
        return $mode if $mode != 0 or not $self->localExtraField;

        # warn("local extra field is: ", $self->localExtraField, "\n");

        # XXX This condition is not implemented
        # I'm just including the comments from the info-zip section for now.

        # Some (non-Info-ZIP) implementations of Zip for Unix and
        # VMS (and probably others ??) leave 0 in the upper 16-bit
        # part of the external_file_attributes field. Instead, they
        # store file permission attributes in some extra field.
        # As a work-around, we search for the presence of one of
        # these extra fields and fall back to the MSDOS compatible
        # part of external_file_attributes if one of the known
        # e.f. types has been detected.
        # Later, we might implement extraction of the permission
        # bits from the VMS extra field. But for now, the work-around
        # should be sufficient to provide "readable" extracted files.
        # (For ASI Unix e.f., an experimental remap from the e.f.
        # mode value IS already provided!)
    }

    # PKWARE's PKZip for Unix marks entries as FA_MSDOS, but stores the
    # Unix attributes in the upper 16 bits of the external attributes
    # field, just like Info-ZIP's Zip for Unix.  We try to use that
    # value, after a check for consistency with the MSDOS attribute
    # bits (see below).
    if ($format == FA_MSDOS) {
        $mode = $attribs >> 16;
    }

    # FA_MSDOS, FA_OS2_HPFS, FA_WINDOWS_NTFS, FA_MACINTOSH, FA_TOPS20
    $attribs = !($attribs & 1) << 1 | ($attribs & 0x10) >> 4;

    # keep previous $mode setting when its "owner"
    # part appears to be consistent with DOS attribute flags!
    return $mode if ($mode & 0700) == (0400 | $attribs << 6);
    $mode = 0444 | $attribs << 6 | $attribs << 3 | $attribs;
    return $mode;
}

sub unixFileAttributes {
    my $self     = shift;
    my $oldPerms = $self->_mapPermissionsToUnix;

    my $perms;
    if (@_) {
        $perms = (ref($_[0]) eq 'HASH') ? $_[0]->{attributes} : $_[0];

        if ($self->isDirectory) {
            $perms &= ~FILE_ATTRIB;
            $perms |= DIRECTORY_ATTRIB;
        } else {
            $perms &= ~DIRECTORY_ATTRIB;
            $perms |= FILE_ATTRIB;
        }
        $self->{externalFileAttributes} =
          $self->_mapPermissionsFromUnix($perms);
    }

    return $oldPerms;
}

sub localExtraField {
    my $self = shift;

    if (@_) {
        $self->{localExtraField} =
          (ref($_[0]) eq 'HASH') ? $_[0]->{field} : $_[0];
    } else {
        return $self->{localExtraField};
    }
}

sub cdExtraField {
    my $self = shift;

    if (@_) {
        $self->{cdExtraField} = (ref($_[0]) eq 'HASH') ? $_[0]->{field} : $_[0];
    } else {
        return $self->{cdExtraField};
    }
}

sub extraFields {
    my $self = shift;
    return $self->localExtraField() . $self->cdExtraField();
}

sub fileComment {
    my $self = shift;

    if (@_) {
        $self->{fileComment} =
          (ref($_[0]) eq 'HASH')
          ? pack('C0a*', $_[0]->{comment})
          : pack('C0a*', $_[0]);
    } else {
        return $self->{fileComment};
    }
}

sub hasDataDescriptor {
    my $self = shift;
    if (@_) {
        my $shouldHave = shift;
        if ($shouldHave) {
            $self->{'bitFlag'} |= GPBF_HAS_DATA_DESCRIPTOR_MASK;
        } else {
            $self->{'bitFlag'} &= ~GPBF_HAS_DATA_DESCRIPTOR_MASK;
        }
    }
    return $self->{'bitFlag'} & GPBF_HAS_DATA_DESCRIPTOR_MASK;
}

sub crc32 {
    shift->{'crc32'};
}

sub crc32String {
    sprintf("%08x", shift->{'crc32'});
}

sub compressedSize {
    shift->{'compressedSize'};
}

sub uncompressedSize {
    shift->{'uncompressedSize'};
}

sub isEncrypted {
    shift->{'bitFlag'} & GPBF_ENCRYPTED_MASK;
}

sub isTextFile {
    my $self = shift;
    my $bit  = $self->internalFileAttributes() & IFA_TEXT_FILE_MASK;
    if (@_) {
        my $flag = (ref($_[0]) eq 'HASH') ? shift->{flag} : shift;
        $self->{'internalFileAttributes'} &= ~IFA_TEXT_FILE_MASK;
        $self->{'internalFileAttributes'} |=
          ($flag ? IFA_TEXT_FILE : IFA_BINARY_FILE);
    }
    return $bit == IFA_TEXT_FILE;
}

sub isBinaryFile {
    my $self = shift;
    my $bit  = $self->internalFileAttributes() & IFA_TEXT_FILE_MASK;
    if (@_) {
        my $flag = shift;
        $self->{'internalFileAttributes'} &= ~IFA_TEXT_FILE_MASK;
        $self->{'internalFileAttributes'} |=
          ($flag ? IFA_BINARY_FILE : IFA_TEXT_FILE);
    }
    return $bit == IFA_BINARY_FILE;
}

sub extractToFileNamed {
    my $self = shift;

    # local FS name
    my $name = (ref($_[0]) eq 'HASH') ? $_[0]->{name} : $_[0];
    $self->{'isSymbolicLink'} = 0;

    # Check if the file / directory is a symbolic link or not
    if ($self->{'externalFileAttributes'} == 0xA1FF0000) {
        $self->{'isSymbolicLink'} = 1;
        $self->{'newName'}        = $name;
        my ($status, $fh) = _newFileHandle($name, 'r');
        my $retval = $self->extractToFileHandle($fh);
        $fh->close();
    } else {

        #return _writeSymbolicLink($self, $name) if $self->isSymbolicLink();

        my ($status, $fh);
        if ($^O eq 'MSWin32' && $Archive::Zip::UNICODE) {
            $name = decode_utf8(Win32::GetFullPathName($name));
            mkpath_win32($name);
            Win32::CreateFile($name);
            ($status, $fh) = _newFileHandle(Win32::GetANSIPathName($name), 'w');
        } else {
            mkpath(dirname($name));    # croaks on error
            ($status, $fh) = _newFileHandle($name, 'w');
        }
        return _ioError("Can't open file $name for write") unless $status;
        my $retval = $self->extractToFileHandle($fh);
        $fh->close();
        chmod($self->unixFileAttributes(), $name)
          or return _error("Can't chmod() ${name}: $!");
        utime($self->lastModTime(), $self->lastModTime(), $name);
        return $retval;
    }
}

sub mkpath_win32 {
    my $path = shift;
    use File::Spec;

    my ($volume, @path) = File::Spec->splitdir($path);
    $path = File::Spec->catfile($volume, shift @path);
    pop @path;
    while (@path) {
        $path = File::Spec->catfile($path, shift @path);
        Win32::CreateDirectory($path);
    }
}

sub _writeSymbolicLink {
    my $self      = shift;
    my $name      = shift;
    my $chunkSize = $Archive::Zip::ChunkSize;

    #my ( $outRef, undef ) = $self->readChunk($chunkSize);
    my $fh;
    my $retval = $self->extractToFileHandle($fh);
    my ($outRef, undef) = $self->readChunk(100);
}

sub isSymbolicLink {
    my $self = shift;
    if ($self->{'externalFileAttributes'} == 0xA1FF0000) {
        $self->{'isSymbolicLink'} = 1;
    } else {
        return 0;
    }
    1;
}

sub isDirectory {
    return 0;
}

sub externalFileName {
    return undef;
}

# The following are used when copying data
sub _writeOffset {
    shift->{'writeOffset'};
}

sub _readOffset {
    shift->{'readOffset'};
}

sub writeLocalHeaderRelativeOffset {
    shift->{'writeLocalHeaderRelativeOffset'};
}

sub wasWritten { shift->{'wasWritten'} }

sub _dataEnded {
    shift->{'dataEnded'};
}

sub _readDataRemaining {
    shift->{'readDataRemaining'};
}

sub _inflater {
    shift->{'inflater'};
}

sub _deflater {
    shift->{'deflater'};
}

# Return the total size of my local header
sub _localHeaderSize {
    my $self = shift;
    {
        use bytes;
        return SIGNATURE_LENGTH +
          LOCAL_FILE_HEADER_LENGTH +
          length($self->fileName()) +
          length($self->localExtraField());
    }
}

# Return the total size of my CD header
sub _centralDirectoryHeaderSize {
    my $self = shift;
    {
        use bytes;
        return SIGNATURE_LENGTH +
          CENTRAL_DIRECTORY_FILE_HEADER_LENGTH +
          length($self->fileName()) +
          length($self->cdExtraField()) +
          length($self->fileComment());
    }
}

# DOS date/time format
# 0-4 (5) Second divided by 2
# 5-10 (6) Minute (0-59)
# 11-15 (5) Hour (0-23 on a 24-hour clock)
# 16-20 (5) Day of the month (1-31)
# 21-24 (4) Month (1 = January, 2 = February, etc.)
# 25-31 (7) Year offset from 1980 (add 1980 to get actual year)

# Convert DOS date/time format to unix time_t format
# NOT AN OBJECT METHOD!
sub _dosToUnixTime {
    my $dt = shift;
    return time() unless defined($dt);

    my $year = (($dt >> 25) & 0x7f) + 80;
    my $mon  = (($dt >> 21) & 0x0f) - 1;
    my $mday = (($dt >> 16) & 0x1f);

    my $hour = (($dt >> 11) & 0x1f);
    my $min  = (($dt >> 5) & 0x3f);
    my $sec  = (($dt << 1) & 0x3e);

    # catch errors
    my $time_t =
      eval { Time::Local::timelocal($sec, $min, $hour, $mday, $mon, $year); };
    return time() if ($@);
    return $time_t;
}

# Note, this is not exactly UTC 1980, it's 1980 + 12 hours and 1
# minute so that nothing timezoney can muck us up.
my $safe_epoch = 31.606060;

# convert a unix time to DOS date/time
# NOT AN OBJECT METHOD!
sub _unixToDosTime {
    my $time_t = shift;
    unless ($time_t) {
        _error("Tried to add member with zero or undef value for time");
        $time_t = $safe_epoch;
    }
    if ($time_t < $safe_epoch) {
        _ioError("Unsupported date before 1980 encountered, moving to 1980");
        $time_t = $safe_epoch;
    }
    my ($sec, $min, $hour, $mday, $mon, $year) = localtime($time_t);
    my $dt = 0;
    $dt += ($sec >> 1);
    $dt += ($min << 5);
    $dt += ($hour << 11);
    $dt += ($mday << 16);
    $dt += (($mon + 1) << 21);
    $dt += (($year - 80) << 25);
    return $dt;
}

sub head {
    my ($self, $mode) = (@_, 0);

    use bytes;
    return pack LOCAL_FILE_HEADER_FORMAT,
      $self->versionNeededToExtract(),
      $self->{'bitFlag'},
      $self->desiredCompressionMethod(),
      $self->lastModFileDateTime(), 
      $self->hasDataDescriptor() 
        ? (0,0,0) # crc, compr & uncompr all zero if data descriptor present
        : (
            $self->crc32(), 
            $mode
              ? $self->_writeOffset()       # compressed size
              : $self->compressedSize(),    # may need to be re-written later
            $self->uncompressedSize(),
          ),
      length($self->fileNameAsBytes()),
      length($self->localExtraField());
}

# Write my local header to a file handle.
# Stores the offset to the start of the header in my
# writeLocalHeaderRelativeOffset member.
# Returns AZ_OK on success.
sub _writeLocalFileHeader {
    my $self = shift;
    my $fh   = shift;

    my $signatureData = pack(SIGNATURE_FORMAT, LOCAL_FILE_HEADER_SIGNATURE);
    $self->_print($fh, $signatureData)
      or return _ioError("writing local header signature");

    my $header = $self->head(1);

    $self->_print($fh, $header) or return _ioError("writing local header");

    # Check for a valid filename or a filename equal to a literal `0'
    if ($self->fileName() || $self->fileName eq '0') {
        $self->_print($fh, $self->fileNameAsBytes())
          or return _ioError("writing local header filename");
    }
    if ($self->localExtraField()) {
        $self->_print($fh, $self->localExtraField())
          or return _ioError("writing local extra field");
    }

    return AZ_OK;
}

sub _writeCentralDirectoryFileHeader {
    my $self = shift;
    my $fh   = shift;

    my $sigData =
      pack(SIGNATURE_FORMAT, CENTRAL_DIRECTORY_FILE_HEADER_SIGNATURE);
    $self->_print($fh, $sigData)
      or return _ioError("writing central directory header signature");

    my ($fileNameLength, $extraFieldLength, $fileCommentLength);
    {
        use bytes;
        $fileNameLength    = length($self->fileNameAsBytes());
        $extraFieldLength  = length($self->cdExtraField());
        $fileCommentLength = length($self->fileComment());
    }

    my $header = pack(
        CENTRAL_DIRECTORY_FILE_HEADER_FORMAT,
        $self->versionMadeBy(),
        $self->fileAttributeFormat(),
        $self->versionNeededToExtract(),
        $self->bitFlag(),
        $self->desiredCompressionMethod(),
        $self->lastModFileDateTime(),
        $self->crc32(),            # these three fields should have been updated
        $self->_writeOffset(),     # by writing the data stream out
        $self->uncompressedSize(), #
        $fileNameLength,
        $extraFieldLength,
        $fileCommentLength,
        0,                         # {'diskNumberStart'},
        $self->internalFileAttributes(),
        $self->externalFileAttributes(),
        $self->writeLocalHeaderRelativeOffset());

    $self->_print($fh, $header)
      or return _ioError("writing central directory header");
    if ($fileNameLength) {
        $self->_print($fh, $self->fileNameAsBytes())
          or return _ioError("writing central directory header signature");
    }
    if ($extraFieldLength) {
        $self->_print($fh, $self->cdExtraField())
          or return _ioError("writing central directory extra field");
    }
    if ($fileCommentLength) {
        $self->_print($fh, $self->fileComment())
          or return _ioError("writing central directory file comment");
    }

    return AZ_OK;
}

# This writes a data descriptor to the given file handle.
# Assumes that crc32, writeOffset, and uncompressedSize are
# set correctly (they should be after a write).
# Further, the local file header should have the
# GPBF_HAS_DATA_DESCRIPTOR_MASK bit set.
sub _writeDataDescriptor {
    my $self   = shift;
    my $fh     = shift;
    my $header = pack(
        SIGNATURE_FORMAT . DATA_DESCRIPTOR_FORMAT,
        DATA_DESCRIPTOR_SIGNATURE,
        $self->crc32(),
        $self->_writeOffset(),    # compressed size
        $self->uncompressedSize());

    $self->_print($fh, $header)
      or return _ioError("writing data descriptor");
    return AZ_OK;
}

# Re-writes the local file header with new crc32 and compressedSize fields.
# To be called after writing the data stream.
# Assumes that filename and extraField sizes didn't change since last written.
sub _refreshLocalFileHeader {
    my $self = shift;
    my $fh   = shift;

    my $here = $fh->tell();
    $fh->seek($self->writeLocalHeaderRelativeOffset() + SIGNATURE_LENGTH,
        IO::Seekable::SEEK_SET)
      or return _ioError("seeking to rewrite local header");

    my $header = $self->head(1);

    $self->_print($fh, $header)
      or return _ioError("re-writing local header");
    $fh->seek($here, IO::Seekable::SEEK_SET)
      or return _ioError("seeking after rewrite of local header");

    return AZ_OK;
}

sub readChunk {
    my $self = shift;
    my $chunkSize = (ref($_[0]) eq 'HASH') ? $_[0]->{chunkSize} : $_[0];

    if ($self->readIsDone()) {
        $self->endRead();
        my $dummy = '';
        return (\$dummy, AZ_STREAM_END);
    }

    $chunkSize = $Archive::Zip::ChunkSize if not defined($chunkSize);
    $chunkSize = $self->_readDataRemaining()
      if $chunkSize > $self->_readDataRemaining();

    my $buffer = '';
    my $outputRef;
    my ($bytesRead, $status) = $self->_readRawChunk(\$buffer, $chunkSize);
    return (\$buffer, $status) unless $status == AZ_OK;

    $buffer && $self->isEncrypted and $buffer = $self->_decode($buffer);
    $self->{'readDataRemaining'} -= $bytesRead;
    $self->{'readOffset'} += $bytesRead;

    if ($self->compressionMethod() == COMPRESSION_STORED) {
        $self->{'crc32'} = $self->computeCRC32($buffer, $self->{'crc32'});
    }

    ($outputRef, $status) = &{$self->{'chunkHandler'}}($self, \$buffer);
    $self->{'writeOffset'} += length($$outputRef);

    $self->endRead()
      if $self->readIsDone();

    return ($outputRef, $status);
}

# Read the next raw chunk of my data. Subclasses MUST implement.
#   my ( $bytesRead, $status) = $self->_readRawChunk( \$buffer, $chunkSize );
sub _readRawChunk {
    my $self = shift;
    return $self->_subclassResponsibility();
}

# A place holder to catch rewindData errors if someone ignores
# the error code.
sub _noChunk {
    my $self = shift;
    return (\undef, _error("trying to copy chunk when init failed"));
}

# Basically a no-op so that I can have a consistent interface.
# ( $outputRef, $status) = $self->_copyChunk( \$buffer );
sub _copyChunk {
    my ($self, $dataRef) = @_;
    return ($dataRef, AZ_OK);
}

# ( $outputRef, $status) = $self->_deflateChunk( \$buffer );
sub _deflateChunk {
    my ($self, $buffer) = @_;
    my ($status) = $self->_deflater()->deflate($buffer, my $out);

    if ($self->_readDataRemaining() == 0) {
        my $extraOutput;
        ($status) = $self->_deflater()->flush($extraOutput);
        $out .= $extraOutput;
        $self->endRead();
        return (\$out, AZ_STREAM_END);
    } elsif ($status == Z_OK) {
        return (\$out, AZ_OK);
    } else {
        $self->endRead();
        my $retval = _error('deflate error', $status);
        my $dummy = '';
        return (\$dummy, $retval);
    }
}

# ( $outputRef, $status) = $self->_inflateChunk( \$buffer );
sub _inflateChunk {
    my ($self, $buffer) = @_;
    my ($status) = $self->_inflater()->inflate($buffer, my $out);
    my $retval;
    $self->endRead() unless $status == Z_OK;
    if ($status == Z_OK || $status == Z_STREAM_END) {
        $retval = ($status == Z_STREAM_END) ? AZ_STREAM_END : AZ_OK;
        return (\$out, $retval);
    } else {
        $retval = _error('inflate error', $status);
        my $dummy = '';
        return (\$dummy, $retval);
    }
}

sub rewindData {
    my $self = shift;
    my $status;

    # set to trap init errors
    $self->{'chunkHandler'} = $self->can('_noChunk');

    # Work around WinZip bug with 0-length DEFLATED files
    $self->desiredCompressionMethod(COMPRESSION_STORED)
      if $self->uncompressedSize() == 0;

    # assume that we're going to read the whole file, and compute the CRC anew.
    $self->{'crc32'} = 0
      if ($self->compressionMethod() == COMPRESSION_STORED);

    # These are the only combinations of methods we deal with right now.
    if (    $self->compressionMethod() == COMPRESSION_STORED
        and $self->desiredCompressionMethod() == COMPRESSION_DEFLATED) {
        ($self->{'deflater'}, $status) = Compress::Raw::Zlib::Deflate->new(
            '-Level'      => $self->desiredCompressionLevel(),
            '-WindowBits' => -MAX_WBITS(),                     # necessary magic
            '-Bufsize'    => $Archive::Zip::ChunkSize,
            @_
        );    # pass additional options
        return _error('deflateInit error:', $status)
          unless $status == Z_OK;
        $self->{'chunkHandler'} = $self->can('_deflateChunk');
    } elsif ($self->compressionMethod() == COMPRESSION_DEFLATED
        and $self->desiredCompressionMethod() == COMPRESSION_STORED) {
        ($self->{'inflater'}, $status) = Compress::Raw::Zlib::Inflate->new(
            '-WindowBits' => -MAX_WBITS(),               # necessary magic
            '-Bufsize'    => $Archive::Zip::ChunkSize,
            @_
        );    # pass additional options
        return _error('inflateInit error:', $status)
          unless $status == Z_OK;
        $self->{'chunkHandler'} = $self->can('_inflateChunk');
    } elsif ($self->compressionMethod() == $self->desiredCompressionMethod()) {
        $self->{'chunkHandler'} = $self->can('_copyChunk');
    } else {
        return _error(
            sprintf(
                "Unsupported compression combination: read %d, write %d",
                $self->compressionMethod(),
                $self->desiredCompressionMethod()));
    }

    $self->{'readDataRemaining'} =
      ($self->compressionMethod() == COMPRESSION_STORED)
      ? $self->uncompressedSize()
      : $self->compressedSize();
    $self->{'dataEnded'}  = 0;
    $self->{'readOffset'} = 0;

    return AZ_OK;
}

sub endRead {
    my $self = shift;
    delete $self->{'inflater'};
    delete $self->{'deflater'};
    $self->{'dataEnded'}         = 1;
    $self->{'readDataRemaining'} = 0;
    return AZ_OK;
}

sub readIsDone {
    my $self = shift;
    return ($self->_dataEnded() or !$self->_readDataRemaining());
}

sub contents {
    my $self        = shift;
    my $newContents = shift;

    if (defined($newContents)) {

        # change our type and call the subclass contents method.
        $self->_become('Archive::Zip::StringMember');
        return $self->contents(pack('C0a*', $newContents)); # in case of Unicode
    } else {
        my $oldCompression =
          $self->desiredCompressionMethod(COMPRESSION_STORED);
        my $status = $self->rewindData(@_);
        if ($status != AZ_OK) {
            $self->endRead();
            return $status;
        }
        my $retval = '';
        while ($status == AZ_OK) {
            my $ref;
            ($ref, $status) = $self->readChunk($self->_readDataRemaining());

            # did we get it in one chunk?
            if (length($$ref) == $self->uncompressedSize()) {
                $retval = $$ref;
            } else {
                $retval .= $$ref
            }
        }
        $self->desiredCompressionMethod($oldCompression);
        $self->endRead();
        $status = AZ_OK if $status == AZ_STREAM_END;
        $retval = undef unless $status == AZ_OK;
        return wantarray ? ($retval, $status) : $retval;
    }
}

sub extractToFileHandle {
    my $self = shift;
    my $fh = (ref($_[0]) eq 'HASH') ? shift->{fileHandle} : shift;
    _binmode($fh);
    my $oldCompression = $self->desiredCompressionMethod(COMPRESSION_STORED);
    my $status         = $self->rewindData(@_);
    $status = $self->_writeData($fh) if $status == AZ_OK;
    $self->desiredCompressionMethod($oldCompression);
    $self->endRead();
    return $status;
}

# write local header and data stream to file handle
sub _writeToFileHandle {
    my $self         = shift;
    my $fh           = shift;
    my $fhIsSeekable = shift;
    my $offset       = shift;

    return _error("no member name given for $self")
      if $self->fileName() eq '';

    $self->{'writeLocalHeaderRelativeOffset'} = $offset;
    $self->{'wasWritten'}                     = 0;

    # Determine if I need to write a data descriptor
    # I need to do this if I can't refresh the header
    # and I don't know compressed size or crc32 fields.
    my $headerFieldsUnknown = (
        ($self->uncompressedSize() > 0)
          and ($self->compressionMethod() == COMPRESSION_STORED
            or $self->desiredCompressionMethod() == COMPRESSION_DEFLATED));

    my $shouldWriteDataDescriptor =
      ($headerFieldsUnknown and not $fhIsSeekable);

    $self->hasDataDescriptor(1)
      if ($shouldWriteDataDescriptor);

    $self->{'writeOffset'} = 0;

    my $status = $self->rewindData();
    ($status = $self->_writeLocalFileHeader($fh))
      if $status == AZ_OK;
    ($status = $self->_writeData($fh))
      if $status == AZ_OK;
    if ($status == AZ_OK) {
        $self->{'wasWritten'} = 1;
        if ($self->hasDataDescriptor()) {
            $status = $self->_writeDataDescriptor($fh);
        } elsif ($headerFieldsUnknown) {
            $status = $self->_refreshLocalFileHeader($fh);
        }
    }

    return $status;
}

# Copy my (possibly compressed) data to given file handle.
# Returns C<AZ_OK> on success
sub _writeData {
    my $self    = shift;
    my $writeFh = shift;

# If symbolic link, just create one if the operating system is Linux, Unix, BSD or VMS
# TODO: Add checks for other operating systems
    if ($self->{'isSymbolicLink'} == 1 && $^O eq 'linux') {
        my $chunkSize = $Archive::Zip::ChunkSize;
        my ($outRef, $status) = $self->readChunk($chunkSize);
        symlink $$outRef, $self->{'newName'};
    } else {
        return AZ_OK if ($self->uncompressedSize() == 0);
        my $status;
        my $chunkSize = $Archive::Zip::ChunkSize;
        while ($self->_readDataRemaining() > 0) {
            my $outRef;
            ($outRef, $status) = $self->readChunk($chunkSize);
            return $status if ($status != AZ_OK and $status != AZ_STREAM_END);

            if (length($$outRef) > 0) {
                $self->_print($writeFh, $$outRef)
                  or return _ioError("write error during copy");
            }

            last if $status == AZ_STREAM_END;
        }
    }
    return AZ_OK;
}

# Return true if I depend on the named file
sub _usesFileNamed {
    return 0;
}

# ##############################################################################
#
# Decrypt section
#
# H.Merijn Brand (Tux) 2011-06-28
#
# ##############################################################################

# This code is derived from the crypt source of unzip-6.0 dated 05 Jan 2007
# Its license states:
#
# --8<---
# Copyright (c) 1990-2007 Info-ZIP.  All rights reserved.

# See the accompanying file LICENSE, version 2005-Feb-10 or later
# (the contents of which are also included in (un)zip.h) for terms of use.
# If, for some reason, all these files are missing, the Info-ZIP license
# also may be found at:  ftp://ftp.info-zip.org/pub/infozip/license.html
#
# crypt.c (full version) by Info-ZIP.      Last revised:  [see crypt.h]

# The main encryption/decryption source code for Info-Zip software was
# originally written in Europe.  To the best of our knowledge, it can
# be freely distributed in both source and object forms from any country,
# including the USA under License Exception TSU of the U.S. Export
# Administration Regulations (section 740.13(e)) of 6 June 2002.

# NOTE on copyright history:
# Previous versions of this source package (up to version 2.8) were
# not copyrighted and put in the public domain.  If you cannot comply
# with the Info-Zip LICENSE, you may want to look for one of those
# public domain versions.
#
# This encryption code is a direct transcription of the algorithm from
# Roger Schlafly, described by Phil Katz in the file appnote.txt.  This
# file (appnote.txt) is distributed with the PKZIP program (even in the
# version without encryption capabilities).
# -->8---

# As of January 2000, US export regulations were amended to allow export
# of free encryption source code from the US.  As of June 2002, these
# regulations were further relaxed to allow export of encryption binaries
# associated with free encryption source code.  The Zip 2.31, UnZip 5.52
# and Wiz 5.02 archives now include full crypto source code.  As of the
# Zip 2.31 release, all official binaries include encryption support; the
# former "zcr" archives ceased to exist.
# (Note that restrictions may still exist in other countries, of course.)

# For now, we just support the decrypt stuff
# All below methods are supposed to be private

# use Data::Peek;

my @keys;
my @crct = do {
    my $xor = 0xedb88320;
    my @crc = (0) x 1024;

    # generate a crc for every 8-bit value
    foreach my $n (0 .. 255) {
        my $c = $n;
        $c = $c & 1 ? $xor ^ ($c >> 1) : $c >> 1 for 1 .. 8;
        $crc[$n] = _revbe($c);
    }

    # generate crc for each value followed by one, two, and three zeros */
    foreach my $n (0 .. 255) {
        my $c = ($crc[($crc[$n] >> 24) ^ 0] ^ ($crc[$n] << 8)) & 0xffffffff;
        $crc[$_ * 256 + $n] = $c for 1 .. 3;
    }
    map { _revbe($crc[$_]) } 0 .. 1023;
};

sub _crc32 {
    my ($c, $b) = @_;
    return ($crct[($c ^ $b) & 0xff] ^ ($c >> 8));
}    # _crc32

sub _revbe {
    my $w = shift;
    return (($w >> 24) +
          (($w >> 8) & 0xff00) +
          (($w & 0xff00) << 8) +
          (($w & 0xff) << 24));
}    # _revbe

sub _update_keys {
    use integer;
    my $c = shift;    # signed int
    $keys[0] = _crc32($keys[0], $c);
    $keys[1] = (($keys[1] + ($keys[0] & 0xff)) * 0x08088405 + 1) & 0xffffffff;
    my $keyshift = $keys[1] >> 24;
    $keys[2] = _crc32($keys[2], $keyshift);
}    # _update_keys

sub _zdecode ($) {
    my $c = shift;
    my $t = ($keys[2] & 0xffff) | 2;
    _update_keys($c ^= ((($t * ($t ^ 1)) >> 8) & 0xff));
    return $c;
}    # _zdecode

sub _decode {
    my $self = shift;
    my $buff = shift;

    $self->isEncrypted or return $buff;

    my $pass = $self->password;
    defined $pass or return "";

    @keys = (0x12345678, 0x23456789, 0x34567890);
    _update_keys($_) for unpack "C*", $pass;

    # DDumper { uk => [ @keys ] };

    my $head = substr $buff, 0, 12, "";
    my @head = map { _zdecode($_) } unpack "C*", $head;
    my $x =
      $self->{externalFileAttributes}
      ? ($self->{lastModFileDateTime} >> 8) & 0xff
      : $self->{crc32} >> 24;
    $head[-1] == $x or return "";    # Password fail

    # Worth checking ...
    $self->{crc32c} = (unpack LOCAL_FILE_HEADER_FORMAT, pack "C*", @head)[3];

    # DHexDump ($buff);
    $buff = pack "C*" => map { _zdecode($_) } unpack "C*" => $buff;

    # DHexDump ($buff);
    return $buff;
}    # _decode

1;

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