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Direktori : /usr/share/perl/5.34.0/IO/Compress/ |
Current File : //usr/share/perl/5.34.0/IO/Compress/Zip.pm |
package IO::Compress::Zip ; use strict ; use warnings; use bytes; use IO::Compress::Base::Common 2.101 qw(:Status ); use IO::Compress::RawDeflate 2.101 (); use IO::Compress::Adapter::Deflate 2.101 ; use IO::Compress::Adapter::Identity 2.101 ; use IO::Compress::Zlib::Extra 2.101 ; use IO::Compress::Zip::Constants 2.101 ; use File::Spec(); use Config; use Compress::Raw::Zlib 2.101 (); BEGIN { eval { require IO::Compress::Adapter::Bzip2 ; IO::Compress::Adapter::Bzip2->import( 2.101 ); require IO::Compress::Bzip2 ; IO::Compress::Bzip2->import( 2.101 ); } ; eval { require IO::Compress::Adapter::Lzma ; IO::Compress::Adapter::Lzma->import( 2.101 ); require IO::Compress::Lzma ; IO::Compress::Lzma->import( 2.101 ); } ; eval { require IO::Compress::Adapter::Xz ; IO::Compress::Adapter::Xz->import( 2.101 ); require IO::Compress::Xz ; IO::Compress::Xz->import( 2.101 ); } ; eval { require IO::Compress::Adapter::Zstd ; IO::Compress::Adapter::Zstd->import( 2.101 ); require IO::Compress::Zstd ; IO::Compress::Zstd->import( 2.101 ); } ; } require Exporter ; our ($VERSION, @ISA, @EXPORT_OK, %EXPORT_TAGS, %DEFLATE_CONSTANTS, $ZipError); $VERSION = '2.102'; $ZipError = ''; @ISA = qw(IO::Compress::RawDeflate Exporter); @EXPORT_OK = qw( $ZipError zip ) ; %EXPORT_TAGS = %IO::Compress::RawDeflate::DEFLATE_CONSTANTS ; push @{ $EXPORT_TAGS{all} }, @EXPORT_OK ; $EXPORT_TAGS{zip_method} = [qw( ZIP_CM_STORE ZIP_CM_DEFLATE ZIP_CM_BZIP2 ZIP_CM_LZMA ZIP_CM_XZ ZIP_CM_ZSTD)]; push @{ $EXPORT_TAGS{all} }, @{ $EXPORT_TAGS{zip_method} }; Exporter::export_ok_tags('all'); sub new { my $class = shift ; my $obj = IO::Compress::Base::Common::createSelfTiedObject($class, \$ZipError); $obj->_create(undef, @_); } sub zip { my $obj = IO::Compress::Base::Common::createSelfTiedObject(undef, \$ZipError); return $obj->_def(@_); } sub isMethodAvailable { my $method = shift; # Store & Deflate are always available return 1 if $method == ZIP_CM_STORE || $method == ZIP_CM_DEFLATE ; return 1 if $method == ZIP_CM_BZIP2 and defined $IO::Compress::Adapter::Bzip2::VERSION; return 1 if $method == ZIP_CM_LZMA and defined $IO::Compress::Adapter::Lzma::VERSION; return 1 if $method == ZIP_CM_XZ and defined $IO::Compress::Adapter::Xz::VERSION; return 1 if $method == ZIP_CM_ZSTD and defined $IO::Compress::Adapter::ZSTD::VERSION; return 0; } sub beforePayload { my $self = shift ; if (*$self->{ZipData}{Sparse} ) { my $inc = 1024 * 100 ; my $NULLS = ("\x00" x $inc) ; my $sparse = *$self->{ZipData}{Sparse} ; *$self->{CompSize}->add( $sparse ); *$self->{UnCompSize}->add( $sparse ); *$self->{FH}->seek($sparse, IO::Handle::SEEK_CUR); *$self->{ZipData}{CRC32} = Compress::Raw::Zlib::crc32($NULLS, *$self->{ZipData}{CRC32}) for 1 .. int $sparse / $inc; *$self->{ZipData}{CRC32} = Compress::Raw::Zlib::crc32(substr($NULLS, 0, $sparse % $inc), *$self->{ZipData}{CRC32}) if $sparse % $inc; } } sub mkComp { my $self = shift ; my $got = shift ; my ($obj, $errstr, $errno) ; if (*$self->{ZipData}{Method} == ZIP_CM_STORE) { ($obj, $errstr, $errno) = IO::Compress::Adapter::Identity::mkCompObject( $got->getValue('level'), $got->getValue('strategy') ); *$self->{ZipData}{CRC32} = Compress::Raw::Zlib::crc32(undef); } elsif (*$self->{ZipData}{Method} == ZIP_CM_DEFLATE) { ($obj, $errstr, $errno) = IO::Compress::Adapter::Deflate::mkCompObject( $got->getValue('crc32'), $got->getValue('adler32'), $got->getValue('level'), $got->getValue('strategy') ); } elsif (*$self->{ZipData}{Method} == ZIP_CM_BZIP2) { ($obj, $errstr, $errno) = IO::Compress::Adapter::Bzip2::mkCompObject( $got->getValue('blocksize100k'), $got->getValue('workfactor'), $got->getValue('verbosity') ); *$self->{ZipData}{CRC32} = Compress::Raw::Zlib::crc32(undef); } elsif (*$self->{ZipData}{Method} == ZIP_CM_LZMA) { ($obj, $errstr, $errno) = IO::Compress::Adapter::Lzma::mkRawZipCompObject($got->getValue('preset'), $got->getValue('extreme'), ); *$self->{ZipData}{CRC32} = Compress::Raw::Zlib::crc32(undef); } elsif (*$self->{ZipData}{Method} == ZIP_CM_XZ) { ($obj, $errstr, $errno) = IO::Compress::Adapter::Xz::mkCompObject($got->getValue('preset'), $got->getValue('extreme'), 0 ); *$self->{ZipData}{CRC32} = Compress::Raw::Zlib::crc32(undef); } elsif (*$self->{ZipData}{Method} == ZIP_CM_ZSTD) { ($obj, $errstr, $errno) = IO::Compress::Adapter::Zstd::mkCompObject(defined $got->getValue('level') ? $got->getValue('level') : 3, ); *$self->{ZipData}{CRC32} = Compress::Raw::Zlib::crc32(undef); } return $self->saveErrorString(undef, $errstr, $errno) if ! defined $obj; if (! defined *$self->{ZipData}{SizesOffset}) { *$self->{ZipData}{SizesOffset} = 0; *$self->{ZipData}{Offset} = U64->new(); } *$self->{ZipData}{AnyZip64} = 0 if ! defined *$self->{ZipData}{AnyZip64} ; return $obj; } sub reset { my $self = shift ; *$self->{Compress}->reset(); *$self->{ZipData}{CRC32} = Compress::Raw::Zlib::crc32(''); return STATUS_OK; } sub filterUncompressed { my $self = shift ; if (*$self->{ZipData}{Method} == ZIP_CM_DEFLATE) { *$self->{ZipData}{CRC32} = *$self->{Compress}->crc32(); } else { *$self->{ZipData}{CRC32} = Compress::Raw::Zlib::crc32(${$_[0]}, *$self->{ZipData}{CRC32}); } } sub canonicalName { # This sub is derived from Archive::Zip::_asZipDirName # Return the normalized name as used in a zip file (path # separators become slashes, etc.). # Will translate internal slashes in path components (i.e. on Macs) to # underscores. Discards volume names. # When $forceDir is set, returns paths with trailing slashes # # input output # . '.' # ./a a # ./a/b a/b # ./a/b/ a/b # a/b/ a/b # /a/b/ a/b # c:\a\b\c.doc a/b/c.doc # on Windows # "i/o maps:whatever" i_o maps/whatever # on Macs my $name = shift; my $forceDir = shift ; my ( $volume, $directories, $file ) = File::Spec->splitpath( File::Spec->canonpath($name), $forceDir ); my @dirs = map { $_ =~ s{/}{_}g; $_ } File::Spec->splitdir($directories); if ( @dirs > 0 ) { pop (@dirs) if $dirs[-1] eq '' } # remove empty component push @dirs, defined($file) ? $file : '' ; my $normalised_path = join '/', @dirs; # Leading directory separators should not be stored in zip archives. # Example: # C:\a\b\c\ a/b/c # C:\a\b\c.txt a/b/c.txt # /a/b/c/ a/b/c # /a/b/c.txt a/b/c.txt $normalised_path =~ s{^/}{}; # remove leading separator return $normalised_path; } sub mkHeader { my $self = shift; my $param = shift ; *$self->{ZipData}{LocalHdrOffset} = U64::clone(*$self->{ZipData}{Offset}); my $comment = ''; $comment = $param->valueOrDefault('comment') ; my $filename = ''; $filename = $param->valueOrDefault('name') ; $filename = canonicalName($filename) if length $filename && $param->getValue('canonicalname') ; if (defined *$self->{ZipData}{FilterName} ) { local *_ = \$filename ; &{ *$self->{ZipData}{FilterName} }() ; } if ( $param->getValue('efs') && $] >= 5.008004) { if (length $filename) { utf8::downgrade($filename, 1) or Carp::croak "Wide character in zip filename"; } if (length $comment) { utf8::downgrade($comment, 1) or Carp::croak "Wide character in zip comment"; } } my $hdr = ''; my $time = _unixToDosTime($param->getValue('time')); my $extra = ''; my $ctlExtra = ''; my $empty = 0; my $osCode = $param->getValue('os_code') ; my $extFileAttr = 0 ; # This code assumes Unix. # TODO - revisit this $extFileAttr = 0100644 << 16 if $osCode == ZIP_OS_CODE_UNIX ; if (*$self->{ZipData}{Zip64}) { $empty = IO::Compress::Base::Common::MAX32; my $x = ''; $x .= pack "V V", 0, 0 ; # uncompressedLength $x .= pack "V V", 0, 0 ; # compressedLength # Zip64 needs to be first in extra field to workaround a Windows Explorer Bug # See http://www.info-zip.org/phpBB3/viewtopic.php?f=3&t=440 for details $extra .= IO::Compress::Zlib::Extra::mkSubField(ZIP_EXTRA_ID_ZIP64, $x); } if (! $param->getValue('minimal')) { if ($param->parsed('mtime')) { $extra .= mkExtendedTime($param->getValue('mtime'), $param->getValue('atime'), $param->getValue('ctime')); $ctlExtra .= mkExtendedTime($param->getValue('mtime')); } if ( $osCode == ZIP_OS_CODE_UNIX ) { if ( $param->getValue('want_exunixn') ) { my $ux3 = mkUnixNExtra( @{ $param->getValue('want_exunixn') }); $extra .= $ux3; $ctlExtra .= $ux3; } if ( $param->getValue('exunix2') ) { $extra .= mkUnix2Extra( @{ $param->getValue('exunix2') }); $ctlExtra .= mkUnix2Extra(); } } $extFileAttr = $param->getValue('extattr') if defined $param->getValue('extattr') ; $extra .= $param->getValue('extrafieldlocal') if defined $param->getValue('extrafieldlocal'); $ctlExtra .= $param->getValue('extrafieldcentral') if defined $param->getValue('extrafieldcentral'); } my $method = *$self->{ZipData}{Method} ; my $gpFlag = 0 ; $gpFlag |= ZIP_GP_FLAG_STREAMING_MASK if *$self->{ZipData}{Stream} ; $gpFlag |= ZIP_GP_FLAG_LZMA_EOS_PRESENT if $method == ZIP_CM_LZMA ; $gpFlag |= ZIP_GP_FLAG_LANGUAGE_ENCODING if $param->getValue('efs') && (length($filename) || length($comment)); my $version = $ZIP_CM_MIN_VERSIONS{$method}; $version = ZIP64_MIN_VERSION if ZIP64_MIN_VERSION > $version && *$self->{ZipData}{Zip64}; my $madeBy = ($param->getValue('os_code') << 8) + $version; my $extract = $version; *$self->{ZipData}{Version} = $version; *$self->{ZipData}{MadeBy} = $madeBy; my $ifa = 0; $ifa |= ZIP_IFA_TEXT_MASK if $param->getValue('textflag'); $hdr .= pack "V", ZIP_LOCAL_HDR_SIG ; # signature $hdr .= pack 'v', $extract ; # extract Version & OS $hdr .= pack 'v', $gpFlag ; # general purpose flag (set streaming mode) $hdr .= pack 'v', $method ; # compression method (deflate) $hdr .= pack 'V', $time ; # last mod date/time $hdr .= pack 'V', 0 ; # crc32 - 0 when streaming $hdr .= pack 'V', $empty ; # compressed length - 0 when streaming $hdr .= pack 'V', $empty ; # uncompressed length - 0 when streaming $hdr .= pack 'v', length $filename ; # filename length $hdr .= pack 'v', length $extra ; # extra length $hdr .= $filename ; # Remember the offset for the compressed & uncompressed lengths in the # local header. if (*$self->{ZipData}{Zip64}) { *$self->{ZipData}{SizesOffset} = *$self->{ZipData}{Offset}->get64bit() + length($hdr) + 4 ; } else { *$self->{ZipData}{SizesOffset} = *$self->{ZipData}{Offset}->get64bit() + 18; } $hdr .= $extra ; my $ctl = ''; $ctl .= pack "V", ZIP_CENTRAL_HDR_SIG ; # signature $ctl .= pack 'v', $madeBy ; # version made by $ctl .= pack 'v', $extract ; # extract Version $ctl .= pack 'v', $gpFlag ; # general purpose flag (streaming mode) $ctl .= pack 'v', $method ; # compression method (deflate) $ctl .= pack 'V', $time ; # last mod date/time $ctl .= pack 'V', 0 ; # crc32 $ctl .= pack 'V', $empty ; # compressed length $ctl .= pack 'V', $empty ; # uncompressed length $ctl .= pack 'v', length $filename ; # filename length *$self->{ZipData}{ExtraOffset} = length $ctl; *$self->{ZipData}{ExtraSize} = length $ctlExtra ; $ctl .= pack 'v', length $ctlExtra ; # extra length $ctl .= pack 'v', length $comment ; # file comment length $ctl .= pack 'v', 0 ; # disk number start $ctl .= pack 'v', $ifa ; # internal file attributes $ctl .= pack 'V', $extFileAttr ; # external file attributes # offset to local hdr if (*$self->{ZipData}{LocalHdrOffset}->is64bit() ) { $ctl .= pack 'V', IO::Compress::Base::Common::MAX32 ; } else { $ctl .= *$self->{ZipData}{LocalHdrOffset}->getPacked_V32() ; } $ctl .= $filename ; *$self->{ZipData}{Offset}->add32(length $hdr) ; *$self->{ZipData}{CentralHeader} = [ $ctl, $ctlExtra, $comment]; return $hdr; } sub mkTrailer { my $self = shift ; my $crc32 ; if (*$self->{ZipData}{Method} == ZIP_CM_DEFLATE) { $crc32 = pack "V", *$self->{Compress}->crc32(); } else { $crc32 = pack "V", *$self->{ZipData}{CRC32}; } my ($ctl, $ctlExtra, $comment) = @{ *$self->{ZipData}{CentralHeader} }; my $sizes ; if (! *$self->{ZipData}{Zip64}) { $sizes .= *$self->{CompSize}->getPacked_V32() ; # Compressed size $sizes .= *$self->{UnCompSize}->getPacked_V32() ; # Uncompressed size } else { $sizes .= *$self->{CompSize}->getPacked_V64() ; # Compressed size $sizes .= *$self->{UnCompSize}->getPacked_V64() ; # Uncompressed size } my $data = $crc32 . $sizes ; my $xtrasize = *$self->{UnCompSize}->getPacked_V64() ; # Uncompressed size $xtrasize .= *$self->{CompSize}->getPacked_V64() ; # Compressed size my $hdr = ''; if (*$self->{ZipData}{Stream}) { $hdr = pack "V", ZIP_DATA_HDR_SIG ; # signature $hdr .= $data ; } else { $self->writeAt(*$self->{ZipData}{LocalHdrOffset}->get64bit() + 14, $crc32) or return undef; $self->writeAt(*$self->{ZipData}{SizesOffset}, *$self->{ZipData}{Zip64} ? $xtrasize : $sizes) or return undef; } # Central Header Record/Zip64 extended field substr($ctl, 16, length $crc32) = $crc32 ; my $zip64Payload = ''; # uncompressed length - only set zip64 if needed if (*$self->{UnCompSize}->isAlmost64bit()) { # || *$self->{ZipData}{Zip64}) { $zip64Payload .= *$self->{UnCompSize}->getPacked_V64() ; } else { substr($ctl, 24, 4) = *$self->{UnCompSize}->getPacked_V32() ; } # compressed length - only set zip64 if needed if (*$self->{CompSize}->isAlmost64bit()) { # || *$self->{ZipData}{Zip64}) { $zip64Payload .= *$self->{CompSize}->getPacked_V64() ; } else { substr($ctl, 20, 4) = *$self->{CompSize}->getPacked_V32() ; } # Local Header offset $zip64Payload .= *$self->{ZipData}{LocalHdrOffset}->getPacked_V64() if *$self->{ZipData}{LocalHdrOffset}->is64bit() ; # disk no - always zero, so don't need to include it. #$zip64Payload .= pack "V", 0 ; my $zip64Xtra = ''; if (length $zip64Payload) { $zip64Xtra = IO::Compress::Zlib::Extra::mkSubField(ZIP_EXTRA_ID_ZIP64, $zip64Payload); substr($ctl, *$self->{ZipData}{ExtraOffset}, 2) = pack 'v', *$self->{ZipData}{ExtraSize} + length $zip64Xtra; *$self->{ZipData}{AnyZip64} = 1; } # Zip64 needs to be first in extra field to workaround a Windows Explorer Bug # See http://www.info-zip.org/phpBB3/viewtopic.php?f=3&t=440 for details $ctl .= $zip64Xtra . $ctlExtra . $comment; *$self->{ZipData}{Offset}->add32(length($hdr)); *$self->{ZipData}{Offset}->add( *$self->{CompSize} ); push @{ *$self->{ZipData}{CentralDir} }, $ctl ; return $hdr; } sub mkFinalTrailer { my $self = shift ; my $comment = ''; $comment = *$self->{ZipData}{ZipComment} ; my $cd_offset = *$self->{ZipData}{Offset}->get32bit() ; # offset to start central dir my $entries = @{ *$self->{ZipData}{CentralDir} }; *$self->{ZipData}{AnyZip64} = 1 if *$self->{ZipData}{Offset}->is64bit || $entries >= 0xFFFF ; my $cd = join '', @{ *$self->{ZipData}{CentralDir} }; my $cd_len = length $cd ; my $z64e = ''; if ( *$self->{ZipData}{AnyZip64} ) { my $v = *$self->{ZipData}{Version} ; my $mb = *$self->{ZipData}{MadeBy} ; $z64e .= pack 'v', $mb ; # Version made by $z64e .= pack 'v', $v ; # Version to extract $z64e .= pack 'V', 0 ; # number of disk $z64e .= pack 'V', 0 ; # number of disk with central dir $z64e .= U64::pack_V64 $entries ; # entries in central dir on this disk $z64e .= U64::pack_V64 $entries ; # entries in central dir $z64e .= U64::pack_V64 $cd_len ; # size of central dir $z64e .= *$self->{ZipData}{Offset}->getPacked_V64() ; # offset to start central dir $z64e = pack("V", ZIP64_END_CENTRAL_REC_HDR_SIG) # signature . U64::pack_V64(length $z64e) . $z64e ; *$self->{ZipData}{Offset}->add32(length $cd) ; $z64e .= pack "V", ZIP64_END_CENTRAL_LOC_HDR_SIG; # signature $z64e .= pack 'V', 0 ; # number of disk with central dir $z64e .= *$self->{ZipData}{Offset}->getPacked_V64() ; # offset to end zip64 central dir $z64e .= pack 'V', 1 ; # Total number of disks $cd_offset = IO::Compress::Base::Common::MAX32 ; $cd_len = IO::Compress::Base::Common::MAX32 if IO::Compress::Base::Common::isGeMax32 $cd_len ; $entries = 0xFFFF if $entries >= 0xFFFF ; } my $ecd = ''; $ecd .= pack "V", ZIP_END_CENTRAL_HDR_SIG ; # signature $ecd .= pack 'v', 0 ; # number of disk $ecd .= pack 'v', 0 ; # number of disk with central dir $ecd .= pack 'v', $entries ; # entries in central dir on this disk $ecd .= pack 'v', $entries ; # entries in central dir $ecd .= pack 'V', $cd_len ; # size of central dir $ecd .= pack 'V', $cd_offset ; # offset to start central dir $ecd .= pack 'v', length $comment ; # zipfile comment length $ecd .= $comment; return $cd . $z64e . $ecd ; } sub ckParams { my $self = shift ; my $got = shift; $got->setValue('crc32' => 1); if (! $got->parsed('time') ) { # Modification time defaults to now. $got->setValue('time' => time) ; } if ($got->parsed('extime') ) { my $timeRef = $got->getValue('extime'); if ( defined $timeRef) { return $self->saveErrorString(undef, "exTime not a 3-element array ref") if ref $timeRef ne 'ARRAY' || @$timeRef != 3; } $got->setValue("mtime", $timeRef->[1]); $got->setValue("atime", $timeRef->[0]); $got->setValue("ctime", $timeRef->[2]); } # Unix2/3 Extended Attribute for my $name (qw(exunix2 exunixn)) { if ($got->parsed($name) ) { my $idRef = $got->getValue($name); if ( defined $idRef) { return $self->saveErrorString(undef, "$name not a 2-element array ref") if ref $idRef ne 'ARRAY' || @$idRef != 2; } $got->setValue("uid", $idRef->[0]); $got->setValue("gid", $idRef->[1]); $got->setValue("want_$name", $idRef); } } *$self->{ZipData}{AnyZip64} = 1 if $got->getValue('zip64'); *$self->{ZipData}{Zip64} = $got->getValue('zip64'); *$self->{ZipData}{Stream} = $got->getValue('stream'); my $method = $got->getValue('method'); return $self->saveErrorString(undef, "Unknown Method '$method'") if ! defined $ZIP_CM_MIN_VERSIONS{$method}; return $self->saveErrorString(undef, "Bzip2 not available") if $method == ZIP_CM_BZIP2 and ! defined $IO::Compress::Adapter::Bzip2::VERSION; return $self->saveErrorString(undef, "Lzma not available") if $method == ZIP_CM_LZMA and ! defined $IO::Compress::Adapter::Lzma::VERSION; *$self->{ZipData}{Method} = $method; *$self->{ZipData}{ZipComment} = $got->getValue('zipcomment') ; for my $name (qw( extrafieldlocal extrafieldcentral )) { my $data = $got->getValue($name) ; if (defined $data) { my $bad = IO::Compress::Zlib::Extra::parseExtraField($data, 1, 0) ; return $self->saveErrorString(undef, "Error with $name Parameter: $bad") if $bad ; $got->setValue($name, $data) ; } } return undef if defined $IO::Compress::Bzip2::VERSION and ! IO::Compress::Bzip2::ckParams($self, $got); if ($got->parsed('sparse') ) { *$self->{ZipData}{Sparse} = $got->getValue('sparse') ; *$self->{ZipData}{Method} = ZIP_CM_STORE; } if ($got->parsed('filtername')) { my $v = $got->getValue('filtername') ; *$self->{ZipData}{FilterName} = $v if ref $v eq 'CODE' ; } return 1 ; } sub outputPayload { my $self = shift ; return 1 if *$self->{ZipData}{Sparse} ; return $self->output(@_); } #sub newHeader #{ # my $self = shift ; # # return $self->mkHeader(*$self->{Got}); #} our %PARAMS = ( 'stream' => [IO::Compress::Base::Common::Parse_boolean, 1], #'store' => [IO::Compress::Base::Common::Parse_boolean, 0], 'method' => [IO::Compress::Base::Common::Parse_unsigned, ZIP_CM_DEFLATE], # # Zip header fields 'minimal' => [IO::Compress::Base::Common::Parse_boolean, 0], 'zip64' => [IO::Compress::Base::Common::Parse_boolean, 0], 'comment' => [IO::Compress::Base::Common::Parse_any, ''], 'zipcomment'=> [IO::Compress::Base::Common::Parse_any, ''], 'name' => [IO::Compress::Base::Common::Parse_any, ''], 'filtername'=> [IO::Compress::Base::Common::Parse_code, undef], 'canonicalname'=> [IO::Compress::Base::Common::Parse_boolean, 0], 'efs' => [IO::Compress::Base::Common::Parse_boolean, 0], 'time' => [IO::Compress::Base::Common::Parse_any, undef], 'extime' => [IO::Compress::Base::Common::Parse_any, undef], 'exunix2' => [IO::Compress::Base::Common::Parse_any, undef], 'exunixn' => [IO::Compress::Base::Common::Parse_any, undef], 'extattr' => [IO::Compress::Base::Common::Parse_any, $Compress::Raw::Zlib::gzip_os_code == 3 ? 0100644 << 16 : 0], 'os_code' => [IO::Compress::Base::Common::Parse_unsigned, $Compress::Raw::Zlib::gzip_os_code], 'textflag' => [IO::Compress::Base::Common::Parse_boolean, 0], 'extrafieldlocal' => [IO::Compress::Base::Common::Parse_any, undef], 'extrafieldcentral'=> [IO::Compress::Base::Common::Parse_any, undef], # Lzma 'preset' => [IO::Compress::Base::Common::Parse_unsigned, 6], 'extreme' => [IO::Compress::Base::Common::Parse_boolean, 0], # For internal use only 'sparse' => [IO::Compress::Base::Common::Parse_unsigned, 0], IO::Compress::RawDeflate::getZlibParams(), defined $IO::Compress::Bzip2::VERSION ? IO::Compress::Bzip2::getExtraParams() : () ); sub getExtraParams { return %PARAMS ; } sub getInverseClass { no warnings 'once'; return ('IO::Uncompress::Unzip', \$IO::Uncompress::Unzip::UnzipError); } sub getFileInfo { my $self = shift ; my $params = shift; my $filename = shift ; if (IO::Compress::Base::Common::isaScalar($filename)) { $params->setValue(zip64 => 1) if IO::Compress::Base::Common::isGeMax32 length (${ $filename }) ; return ; } my ($mode, $uid, $gid, $size, $atime, $mtime, $ctime) ; if ( $params->parsed('storelinks') ) { ($mode, $uid, $gid, $size, $atime, $mtime, $ctime) = (lstat($filename))[2, 4,5,7, 8,9,10] ; } else { ($mode, $uid, $gid, $size, $atime, $mtime, $ctime) = (stat($filename))[2, 4,5,7, 8,9,10] ; } $params->setValue(textflag => -T $filename ) if ! $params->parsed('textflag'); $params->setValue(zip64 => 1) if IO::Compress::Base::Common::isGeMax32 $size ; $params->setValue('name' => $filename) if ! $params->parsed('name') ; $params->setValue('time' => $mtime) if ! $params->parsed('time') ; if ( ! $params->parsed('extime')) { $params->setValue('mtime' => $mtime) ; $params->setValue('atime' => $atime) ; $params->setValue('ctime' => undef) ; # No Creation time # TODO - see if can fillout creation time on non-Unix } # NOTE - Unix specific code alert if (! $params->parsed('extattr')) { use Fcntl qw(:mode) ; my $attr = $mode << 16; $attr |= ZIP_A_RONLY if ($mode & S_IWRITE) == 0 ; $attr |= ZIP_A_DIR if ($mode & S_IFMT ) == S_IFDIR ; $params->setValue('extattr' => $attr); } $params->setValue('want_exunixn', [$uid, $gid]); $params->setValue('uid' => $uid) ; $params->setValue('gid' => $gid) ; } sub mkExtendedTime { # order expected is m, a, c my $times = ''; my $bit = 1 ; my $flags = 0; for my $time (@_) { if (defined $time) { $flags |= $bit; $times .= pack("V", $time); } $bit <<= 1 ; } return IO::Compress::Zlib::Extra::mkSubField(ZIP_EXTRA_ID_EXT_TIMESTAMP, pack("C", $flags) . $times); } sub mkUnix2Extra { my $ids = ''; for my $id (@_) { $ids .= pack("v", $id); } return IO::Compress::Zlib::Extra::mkSubField(ZIP_EXTRA_ID_INFO_ZIP_UNIX2, $ids); } sub mkUnixNExtra { my $uid = shift; my $gid = shift; # Assumes UID/GID are 32-bit my $ids ; $ids .= pack "C", 1; # version $ids .= pack "C", $Config{uidsize}; $ids .= pack "V", $uid; $ids .= pack "C", $Config{gidsize}; $ids .= pack "V", $gid; return IO::Compress::Zlib::Extra::mkSubField(ZIP_EXTRA_ID_INFO_ZIP_UNIXN, $ids); } # from Archive::Zip sub _unixToDosTime # Archive::Zip::Member { my $time_t = shift; # TODO - add something to cope with unix time < 1980 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; } 1; __END__ =head1 NAME IO::Compress::Zip - Write zip files/buffers =head1 SYNOPSIS use IO::Compress::Zip qw(zip $ZipError) ; my $status = zip $input => $output [,OPTS] or die "zip failed: $ZipError\n"; my $z = IO::Compress::Zip->new( $output [,OPTS] ) or die "zip failed: $ZipError\n"; $z->print($string); $z->printf($format, $string); $z->write($string); $z->syswrite($string [, $length, $offset]); $z->flush(); $z->tell(); $z->eof(); $z->seek($position, $whence); $z->binmode(); $z->fileno(); $z->opened(); $z->autoflush(); $z->input_line_number(); $z->newStream( [OPTS] ); $z->deflateParams(); $z->close() ; $ZipError ; # IO::File mode print $z $string; printf $z $format, $string; tell $z eof $z seek $z, $position, $whence binmode $z fileno $z close $z ; =head1 DESCRIPTION This module provides a Perl interface that allows writing zip compressed data to files or buffer. The primary purpose of this module is to provide streaming write access to zip files and buffers. At present the following compression methods are supported by IO::Compress::Zip =over 5 =item Store (0) =item Deflate (8) =item Bzip2 (12) To write Bzip2 content, the module C<IO::Uncompress::Bunzip2> must be installed. =item Lzma (14) To write LZMA content, the module C<IO::Uncompress::UnLzma> must be installed. =item Zstandard (93) To write Zstandard content, the module C<IO::Compress::Zstd> must be installed. =item Xz (95) To write Xz content, the module C<IO::Uncompress::UnXz> must be installed. =back For reading zip files/buffers, see the companion module L<IO::Uncompress::Unzip|IO::Uncompress::Unzip>. =head1 Functional Interface A top-level function, C<zip>, is provided to carry out "one-shot" compression between buffers and/or files. For finer control over the compression process, see the L</"OO Interface"> section. use IO::Compress::Zip qw(zip $ZipError) ; zip $input_filename_or_reference => $output_filename_or_reference [,OPTS] or die "zip failed: $ZipError\n"; The functional interface needs Perl5.005 or better. =head2 zip $input_filename_or_reference => $output_filename_or_reference [, OPTS] C<zip> expects at least two parameters, C<$input_filename_or_reference> and C<$output_filename_or_reference> and zero or more optional parameters (see L</Optional Parameters>) =head3 The C<$input_filename_or_reference> parameter The parameter, C<$input_filename_or_reference>, is used to define the source of the uncompressed data. It can take one of the following forms: =over 5 =item A filename If the C<$input_filename_or_reference> parameter is a simple scalar, it is assumed to be a filename. This file will be opened for reading and the input data will be read from it. =item A filehandle If the C<$input_filename_or_reference> parameter is a filehandle, the input data will be read from it. The string '-' can be used as an alias for standard input. =item A scalar reference If C<$input_filename_or_reference> is a scalar reference, the input data will be read from C<$$input_filename_or_reference>. =item An array reference If C<$input_filename_or_reference> is an array reference, each element in the array must be a filename. The input data will be read from each file in turn. The complete array will be walked to ensure that it only contains valid filenames before any data is compressed. =item An Input FileGlob string If C<$input_filename_or_reference> is a string that is delimited by the characters "<" and ">" C<zip> will assume that it is an I<input fileglob string>. The input is the list of files that match the fileglob. See L<File::GlobMapper|File::GlobMapper> for more details. =back If the C<$input_filename_or_reference> parameter is any other type, C<undef> will be returned. In addition, if C<$input_filename_or_reference> is a simple filename, the default values for the C<Name>, C<Time>, C<TextFlag>, C<ExtAttr>, C<exUnixN> and C<exTime> options will be sourced from that file. If you do not want to use these defaults they can be overridden by explicitly setting the C<Name>, C<Time>, C<TextFlag>, C<ExtAttr>, C<exUnixN> and C<exTime> options or by setting the C<Minimal> parameter. =head3 The C<$output_filename_or_reference> parameter The parameter C<$output_filename_or_reference> is used to control the destination of the compressed data. This parameter can take one of these forms. =over 5 =item A filename If the C<$output_filename_or_reference> parameter is a simple scalar, it is assumed to be a filename. This file will be opened for writing and the compressed data will be written to it. =item A filehandle If the C<$output_filename_or_reference> parameter is a filehandle, the compressed data will be written to it. The string '-' can be used as an alias for standard output. =item A scalar reference If C<$output_filename_or_reference> is a scalar reference, the compressed data will be stored in C<$$output_filename_or_reference>. =item An Array Reference If C<$output_filename_or_reference> is an array reference, the compressed data will be pushed onto the array. =item An Output FileGlob If C<$output_filename_or_reference> is a string that is delimited by the characters "<" and ">" C<zip> will assume that it is an I<output fileglob string>. The output is the list of files that match the fileglob. When C<$output_filename_or_reference> is an fileglob string, C<$input_filename_or_reference> must also be a fileglob string. Anything else is an error. See L<File::GlobMapper|File::GlobMapper> for more details. =back If the C<$output_filename_or_reference> parameter is any other type, C<undef> will be returned. =head2 Notes When C<$input_filename_or_reference> maps to multiple files/buffers and C<$output_filename_or_reference> is a single file/buffer the input files/buffers will each be stored in C<$output_filename_or_reference> as a distinct entry. =head2 Optional Parameters The optional parameters for the one-shot function C<zip> are (for the most part) identical to those used with the OO interface defined in the L</"Constructor Options"> section. The exceptions are listed below =over 5 =item C<< AutoClose => 0|1 >> This option applies to any input or output data streams to C<zip> that are filehandles. If C<AutoClose> is specified, and the value is true, it will result in all input and/or output filehandles being closed once C<zip> has completed. This parameter defaults to 0. =item C<< BinModeIn => 0|1 >> This option is now a no-op. All files will be read in binmode. =item C<< Append => 0|1 >> The behaviour of this option is dependent on the type of output data stream. =over 5 =item * A Buffer If C<Append> is enabled, all compressed data will be append to the end of the output buffer. Otherwise the output buffer will be cleared before any compressed data is written to it. =item * A Filename If C<Append> is enabled, the file will be opened in append mode. Otherwise the contents of the file, if any, will be truncated before any compressed data is written to it. =item * A Filehandle If C<Append> is enabled, the filehandle will be positioned to the end of the file via a call to C<seek> before any compressed data is written to it. Otherwise the file pointer will not be moved. =back When C<Append> is specified, and set to true, it will I<append> all compressed data to the output data stream. So when the output is a filehandle it will carry out a seek to the eof before writing any compressed data. If the output is a filename, it will be opened for appending. If the output is a buffer, all compressed data will be appended to the existing buffer. Conversely when C<Append> is not specified, or it is present and is set to false, it will operate as follows. When the output is a filename, it will truncate the contents of the file before writing any compressed data. If the output is a filehandle its position will not be changed. If the output is a buffer, it will be wiped before any compressed data is output. Defaults to 0. =back =head2 Examples Here are a few example that show the capabilities of the module. =head3 Streaming This very simple command line example demonstrates the streaming capabilities of the module. The code reads data from STDIN, compresses it, and writes the compressed data to STDOUT. $ echo hello world | perl -MIO::Compress::Zip=zip -e 'zip \*STDIN => \*STDOUT' >output.zip The special filename "-" can be used as a standin for both C<\*STDIN> and C<\*STDOUT>, so the above can be rewritten as $ echo hello world | perl -MIO::Compress::Zip=zip -e 'zip "-" => "-"' >output.zip One problem with creating a zip archive directly from STDIN can be demonstrated by looking at the contents of the zip file, output.zip, that we have just created. $ unzip -l output.zip Archive: output.zip Length Date Time Name --------- ---------- ----- ---- 12 2019-08-16 22:21 --------- ------- 12 1 file The archive member (filename) used is the empty string. If that doesn't suit your needs, you can explicitly set the filename used in the zip archive by specifying the L<Name|"File Naming Options"> option, like so echo hello world | perl -MIO::Compress::Zip=zip -e 'zip "-" => "-", Name => "hello.txt"' >output.zip Now the contents of the zip file looks like this $ unzip -l output.zip Archive: output.zip Length Date Time Name --------- ---------- ----- ---- 12 2019-08-16 22:22 hello.txt --------- ------- 12 1 file =head3 Compressing a file from the filesystem To read the contents of the file C<file1.txt> and write the compressed data to the file C<file1.txt.zip>. use strict ; use warnings ; use IO::Compress::Zip qw(zip $ZipError) ; my $input = "file1.txt"; zip $input => "$input.zip" or die "zip failed: $ZipError\n"; =head3 Reading from a Filehandle and writing to an in-memory buffer To read from an existing Perl filehandle, C<$input>, and write the compressed data to a buffer, C<$buffer>. use strict ; use warnings ; use IO::Compress::Zip qw(zip $ZipError) ; use IO::File ; my $input = IO::File->new( "<file1.txt" ) or die "Cannot open 'file1.txt': $!\n" ; my $buffer ; zip $input => \$buffer or die "zip failed: $ZipError\n"; =head3 Compressing multiple files To create a zip file, C<output.zip>, that contains the compressed contents of the files C<alpha.txt> and C<beta.txt> use strict ; use warnings ; use IO::Compress::Zip qw(zip $ZipError) ; zip [ 'alpha.txt', 'beta.txt' ] => 'output.zip' or die "zip failed: $ZipError\n"; Alternatively, rather than having to explicitly name each of the files that you want to compress, you could use a fileglob to select all the C<txt> files in the current directory, as follows use strict ; use warnings ; use IO::Compress::Zip qw(zip $ZipError) ; my @files = <*.txt>; zip \@files => 'output.zip' or die "zip failed: $ZipError\n"; or more succinctly zip [ <*.txt> ] => 'output.zip' or die "zip failed: $ZipError\n"; =head1 OO Interface =head2 Constructor The format of the constructor for C<IO::Compress::Zip> is shown below my $z = IO::Compress::Zip->new( $output [,OPTS] ) or die "IO::Compress::Zip failed: $ZipError\n"; It returns an C<IO::Compress::Zip> object on success and undef on failure. The variable C<$ZipError> will contain an error message on failure. If you are running Perl 5.005 or better the object, C<$z>, returned from IO::Compress::Zip can be used exactly like an L<IO::File|IO::File> filehandle. This means that all normal output file operations can be carried out with C<$z>. For example, to write to a compressed file/buffer you can use either of these forms $z->print("hello world\n"); print $z "hello world\n"; The mandatory parameter C<$output> is used to control the destination of the compressed data. This parameter can take one of these forms. =over 5 =item A filename If the C<$output> parameter is a simple scalar, it is assumed to be a filename. This file will be opened for writing and the compressed data will be written to it. =item A filehandle If the C<$output> parameter is a filehandle, the compressed data will be written to it. The string '-' can be used as an alias for standard output. =item A scalar reference If C<$output> is a scalar reference, the compressed data will be stored in C<$$output>. =back If the C<$output> parameter is any other type, C<IO::Compress::Zip>::new will return undef. =head2 Constructor Options C<OPTS> is any combination of zero or more the following options: =over 5 =item C<< AutoClose => 0|1 >> This option is only valid when the C<$output> parameter is a filehandle. If specified, and the value is true, it will result in the C<$output> being closed once either the C<close> method is called or the C<IO::Compress::Zip> object is destroyed. This parameter defaults to 0. =item C<< Append => 0|1 >> Opens C<$output> in append mode. The behaviour of this option is dependent on the type of C<$output>. =over 5 =item * A Buffer If C<$output> is a buffer and C<Append> is enabled, all compressed data will be append to the end of C<$output>. Otherwise C<$output> will be cleared before any data is written to it. =item * A Filename If C<$output> is a filename and C<Append> is enabled, the file will be opened in append mode. Otherwise the contents of the file, if any, will be truncated before any compressed data is written to it. =item * A Filehandle If C<$output> is a filehandle, the file pointer will be positioned to the end of the file via a call to C<seek> before any compressed data is written to it. Otherwise the file pointer will not be moved. =back This parameter defaults to 0. =back =head3 File Naming Options A quick bit of zip file terminology -- A zip archive consists of one or more I<archive members>, where each member has an associated filename, known as the I<archive member name>. The options listed in this section control how the I<archive member name> (or filename) is stored the zip archive. =over 5 =item C<< Name => $string >> This option is used to explicitly set the I<archive member name> in the zip archive to C<$string>. Most of the time you don't need to make use of this option. By default when adding a filename to the zip archive, the I<archive member name> will match the filename. You should only need to use this option if you want the I<archive member name> to be different from the uncompressed filename or when the input is a filehandle or a buffer. The default behaviour for what I<archive member name> is used when the C<Name> option is I<not> specified depends on the form of the C<$input> parameter: =over 5 =item * If the C<$input> parameter is a filename, the value of C<$input> will be used for the I<archive member name> . =item * If the C<$input> parameter is not a filename, the I<archive member name> will be an empty string. =back Note that both the C<CanonicalName> and C<FilterName> options can modify the value used for the I<archive member name>. Also note that you should set the C<Efs> option to true if you are working with UTF8 filenames. =item C<< CanonicalName => 0|1 >> This option controls whether the I<archive member name> is I<normalized> into Unix format before being written to the zip file. It is recommended that you enable this option unless you really need to create a non-standard Zip file. This is what APPNOTE.TXT has to say on what should be stored in the zip filename header field. The name of the file, with optional relative path. The path stored should not contain a drive or device letter, or a leading slash. All slashes should be forward slashes '/' as opposed to backwards slashes '\' for compatibility with Amiga and UNIX file systems etc. This option defaults to B<false>. =item C<< FilterName => sub { ... } >> This option allow the I<archive member> name to be modified before it is written to the zip file. This option takes a parameter that must be a reference to a sub. On entry to the sub the C<$_> variable will contain the name to be filtered. If no filename is available C<$_> will contain an empty string. The value of C<$_> when the sub returns will be used as the I<archive member name>. Note that if C<CanonicalName> is enabled, a normalized filename will be passed to the sub. If you use C<FilterName> to modify the filename, it is your responsibility to keep the filename in Unix format. Although this option can be used with the OO interface, it is of most use with the one-shot interface. For example, the code below shows how C<FilterName> can be used to remove the path component from a series of filenames before they are stored in C<$zipfile>. sub compressTxtFiles { my $zipfile = shift ; my $dir = shift ; zip [ <$dir/*.txt> ] => $zipfile, FilterName => sub { s[^$dir/][] } ; } =item C<< Efs => 0|1 >> This option controls setting of the "Language Encoding Flag" (EFS) in the zip archive. When set, the filename and comment fields for the zip archive MUST be valid UTF-8. If the string used for the filename and/or comment is not valid UTF-8 when this option is true, the script will die with a "wide character" error. Note that this option only works with Perl 5.8.4 or better. This option defaults to B<false>. =back =head3 Overall Zip Archive Structure =over 5 =item C<< Minimal => 1|0 >> If specified, this option will disable the creation of all extra fields in the zip local and central headers. So the C<exTime>, C<exUnix2>, C<exUnixN>, C<ExtraFieldLocal> and C<ExtraFieldCentral> options will be ignored. This parameter defaults to 0. =item C<< Stream => 0|1 >> This option controls whether the zip file/buffer output is created in streaming mode. Note that when outputting to a file with streaming mode disabled (C<Stream> is 0), the output file must be seekable. The default is 1. =item C<< Zip64 => 0|1 >> Create a Zip64 zip file/buffer. This option is used if you want to store files larger than 4 Gig or store more than 64K files in a single zip archive. C<Zip64> will be automatically set, as needed, if working with the one-shot interface when the input is either a filename or a scalar reference. If you intend to manipulate the Zip64 zip files created with this module using an external zip/unzip, make sure that it supports Zip64. In particular, if you are using Info-Zip you need to have zip version 3.x or better to update a Zip64 archive and unzip version 6.x to read a zip64 archive. The default is 0. =back =head3 Deflate Compression Options =over 5 =item -Level Defines the compression level used by zlib. The value should either be a number between 0 and 9 (0 means no compression and 9 is maximum compression), or one of the symbolic constants defined below. Z_NO_COMPRESSION Z_BEST_SPEED Z_BEST_COMPRESSION Z_DEFAULT_COMPRESSION The default is Z_DEFAULT_COMPRESSION. Note, these constants are not imported by C<IO::Compress::Zip> by default. use IO::Compress::Zip qw(:strategy); use IO::Compress::Zip qw(:constants); use IO::Compress::Zip qw(:all); =item -Strategy Defines the strategy used to tune the compression. Use one of the symbolic constants defined below. Z_FILTERED Z_HUFFMAN_ONLY Z_RLE Z_FIXED Z_DEFAULT_STRATEGY The default is Z_DEFAULT_STRATEGY. =back =head3 Bzip2 Compression Options =over 5 =item C<< BlockSize100K => number >> Specify the number of 100K blocks bzip2 uses during compression. Valid values are from 1 to 9, where 9 is best compression. This option is only valid if the C<Method> is ZIP_CM_BZIP2. It is ignored otherwise. The default is 1. =item C<< WorkFactor => number >> Specifies how much effort bzip2 should take before resorting to a slower fallback compression algorithm. Valid values range from 0 to 250, where 0 means use the default value 30. This option is only valid if the C<Method> is ZIP_CM_BZIP2. It is ignored otherwise. The default is 0. =back =head3 Lzma and Xz Compression Options =over 5 =item C<< Preset => number >> Used to choose the LZMA compression preset. Valid values are 0-9 and C<LZMA_PRESET_DEFAULT>. 0 is the fastest compression with the lowest memory usage and the lowest compression. 9 is the slowest compression with the highest memory usage but with the best compression. This option is only valid if the C<Method> is ZIP_CM_LZMA. It is ignored otherwise. Defaults to C<LZMA_PRESET_DEFAULT> (6). =item C<< Extreme => 0|1 >> Makes LZMA compression a lot slower, but a small compression gain. This option is only valid if the C<Method> is ZIP_CM_LZMA. It is ignored otherwise. Defaults to 0. =back =head3 Other Options =over 5 =item C<< Time => $number >> Sets the last modified time field in the zip header to $number. This field defaults to the time the C<IO::Compress::Zip> object was created if this option is not specified and the C<$input> parameter is not a filename. =item C<< ExtAttr => $attr >> This option controls the "external file attributes" field in the central header of the zip file. This is a 4 byte field. If you are running a Unix derivative this value defaults to 0100644 << 16 This should allow read/write access to any files that are extracted from the zip file/buffer`. For all other systems it defaults to 0. =item C<< exTime => [$atime, $mtime, $ctime] >> This option expects an array reference with exactly three elements: C<$atime>, C<mtime> and C<$ctime>. These correspond to the last access time, last modification time and creation time respectively. It uses these values to set the extended timestamp field (ID is "UT") in the local zip header using the three values, $atime, $mtime, $ctime. In addition it sets the extended timestamp field in the central zip header using C<$mtime>. If any of the three values is C<undef> that time value will not be used. So, for example, to set only the C<$mtime> you would use this exTime => [undef, $mtime, undef] If the C<Minimal> option is set to true, this option will be ignored. By default no extended time field is created. =item C<< exUnix2 => [$uid, $gid] >> This option expects an array reference with exactly two elements: C<$uid> and C<$gid>. These values correspond to the numeric User ID (UID) and Group ID (GID) of the owner of the files respectively. When the C<exUnix2> option is present it will trigger the creation of a Unix2 extra field (ID is "Ux") in the local zip header. This will be populated with C<$uid> and C<$gid>. An empty Unix2 extra field will also be created in the central zip header. Note - The UID & GID are stored as 16-bit integers in the "Ux" field. Use C<< exUnixN >> if your UID or GID are 32-bit. If the C<Minimal> option is set to true, this option will be ignored. By default no Unix2 extra field is created. =item C<< exUnixN => [$uid, $gid] >> This option expects an array reference with exactly two elements: C<$uid> and C<$gid>. These values correspond to the numeric User ID (UID) and Group ID (GID) of the owner of the files respectively. When the C<exUnixN> option is present it will trigger the creation of a UnixN extra field (ID is "ux") in both the local and central zip headers. This will be populated with C<$uid> and C<$gid>. The UID & GID are stored as 32-bit integers. If the C<Minimal> option is set to true, this option will be ignored. By default no UnixN extra field is created. =item C<< Comment => $comment >> Stores the contents of C<$comment> in the Central File Header of the zip file. Set the C<Efs> option to true if you want to store a UTF8 comment. By default, no comment field is written to the zip file. =item C<< ZipComment => $comment >> Stores the contents of C<$comment> in the End of Central Directory record of the zip file. By default, no comment field is written to the zip file. =item C<< Method => $method >> Controls which compression method is used. At present the compression methods supported are: Store (no compression at all), Deflate, Bzip2, Zstd, Xz and Lzma. The symbols ZIP_CM_STORE, ZIP_CM_DEFLATE, ZIP_CM_BZIP2, ZIP_CM_ZSTD, ZIP_CM_XZ and ZIP_CM_LZMA are used to select the compression method. These constants are not imported by C<IO::Compress::Zip> by default. use IO::Compress::Zip qw(:zip_method); use IO::Compress::Zip qw(:constants); use IO::Compress::Zip qw(:all); Note that to create Bzip2 content, the module C<IO::Compress::Bzip2> must be installed. A fatal error will be thrown if you attempt to create Bzip2 content when C<IO::Compress::Bzip2> is not available. Note that to create Lzma content, the module C<IO::Compress::Lzma> must be installed. A fatal error will be thrown if you attempt to create Lzma content when C<IO::Compress::Lzma> is not available. Note that to create Xz content, the module C<IO::Compress::Xz> must be installed. A fatal error will be thrown if you attempt to create Xz content when C<IO::Compress::Xz> is not available. Note that to create Zstd content, the module C<IO::Compress::Zstd> must be installed. A fatal error will be thrown if you attempt to create Zstd content when C<IO::Compress::Zstd> is not available. The default method is ZIP_CM_DEFLATE. =item C<< TextFlag => 0|1 >> This parameter controls the setting of a bit in the zip central header. It is used to signal that the data stored in the zip file/buffer is probably text. In one-shot mode this flag will be set to true if the Perl C<-T> operator thinks the file contains text. The default is 0. =item C<< ExtraFieldLocal => $data >> =item C<< ExtraFieldCentral => $data >> The C<ExtraFieldLocal> option is used to store additional metadata in the local header for the zip file/buffer. The C<ExtraFieldCentral> does the same for the matching central header. An extra field consists of zero or more subfields. Each subfield consists of a two byte header followed by the subfield data. The list of subfields can be supplied in any of the following formats ExtraFieldLocal => [$id1, $data1, $id2, $data2, ... ] ExtraFieldLocal => [ [$id1 => $data1], [$id2 => $data2], ... ] ExtraFieldLocal => { $id1 => $data1, $id2 => $data2, ... } Where C<$id1>, C<$id2> are two byte subfield ID's. If you use the hash syntax, you have no control over the order in which the ExtraSubFields are stored, plus you cannot have SubFields with duplicate ID. Alternatively the list of subfields can by supplied as a scalar, thus ExtraField => $rawdata In this case C<IO::Compress::Zip> will check that C<$rawdata> consists of zero or more conformant sub-fields. The Extended Time field (ID "UT"), set using the C<exTime> option, and the Unix2 extra field (ID "Ux), set using the C<exUnix2> option, are examples of extra fields. If the C<Minimal> option is set to true, this option will be ignored. The maximum size of an extra field 65535 bytes. =item C<< Strict => 0|1 >> This is a placeholder option. =back =head2 Examples TODO =head1 Methods =head2 print Usage is $z->print($data) print $z $data Compresses and outputs the contents of the C<$data> parameter. This has the same behaviour as the C<print> built-in. Returns true if successful. =head2 printf Usage is $z->printf($format, $data) printf $z $format, $data Compresses and outputs the contents of the C<$data> parameter. Returns true if successful. =head2 syswrite Usage is $z->syswrite $data $z->syswrite $data, $length $z->syswrite $data, $length, $offset Compresses and outputs the contents of the C<$data> parameter. Returns the number of uncompressed bytes written, or C<undef> if unsuccessful. =head2 write Usage is $z->write $data $z->write $data, $length $z->write $data, $length, $offset Compresses and outputs the contents of the C<$data> parameter. Returns the number of uncompressed bytes written, or C<undef> if unsuccessful. =head2 flush Usage is $z->flush; $z->flush($flush_type); Flushes any pending compressed data to the output file/buffer. This method takes an optional parameter, C<$flush_type>, that controls how the flushing will be carried out. By default the C<$flush_type> used is C<Z_FINISH>. Other valid values for C<$flush_type> are C<Z_NO_FLUSH>, C<Z_SYNC_FLUSH>, C<Z_FULL_FLUSH> and C<Z_BLOCK>. It is strongly recommended that you only set the C<flush_type> parameter if you fully understand the implications of what it does - overuse of C<flush> can seriously degrade the level of compression achieved. See the C<zlib> documentation for details. Returns true on success. =head2 tell Usage is $z->tell() tell $z Returns the uncompressed file offset. =head2 eof Usage is $z->eof(); eof($z); Returns true if the C<close> method has been called. =head2 seek $z->seek($position, $whence); seek($z, $position, $whence); Provides a sub-set of the C<seek> functionality, with the restriction that it is only legal to seek forward in the output file/buffer. It is a fatal error to attempt to seek backward. Empty parts of the file/buffer will have NULL (0x00) bytes written to them. The C<$whence> parameter takes one the usual values, namely SEEK_SET, SEEK_CUR or SEEK_END. Returns 1 on success, 0 on failure. =head2 binmode Usage is $z->binmode binmode $z ; This is a noop provided for completeness. =head2 opened $z->opened() Returns true if the object currently refers to a opened file/buffer. =head2 autoflush my $prev = $z->autoflush() my $prev = $z->autoflush(EXPR) If the C<$z> object is associated with a file or a filehandle, this method returns the current autoflush setting for the underlying filehandle. If C<EXPR> is present, and is non-zero, it will enable flushing after every write/print operation. If C<$z> is associated with a buffer, this method has no effect and always returns C<undef>. B<Note> that the special variable C<$|> B<cannot> be used to set or retrieve the autoflush setting. =head2 input_line_number $z->input_line_number() $z->input_line_number(EXPR) This method always returns C<undef> when compressing. =head2 fileno $z->fileno() fileno($z) If the C<$z> object is associated with a file or a filehandle, C<fileno> will return the underlying file descriptor. Once the C<close> method is called C<fileno> will return C<undef>. If the C<$z> object is associated with a buffer, this method will return C<undef>. =head2 close $z->close() ; close $z ; Flushes any pending compressed data and then closes the output file/buffer. For most versions of Perl this method will be automatically invoked if the IO::Compress::Zip object is destroyed (either explicitly or by the variable with the reference to the object going out of scope). The exceptions are Perl versions 5.005 through 5.00504 and 5.8.0. In these cases, the C<close> method will be called automatically, but not until global destruction of all live objects when the program is terminating. Therefore, if you want your scripts to be able to run on all versions of Perl, you should call C<close> explicitly and not rely on automatic closing. Returns true on success, otherwise 0. If the C<AutoClose> option has been enabled when the IO::Compress::Zip object was created, and the object is associated with a file, the underlying file will also be closed. =head2 newStream([OPTS]) Usage is $z->newStream( [OPTS] ) Closes the current compressed data stream and starts a new one. OPTS consists of any of the options that are available when creating the C<$z> object. See the L</"Constructor Options"> section for more details. =head2 deflateParams Usage is $z->deflateParams TODO =head1 Importing A number of symbolic constants are required by some methods in C<IO::Compress::Zip>. None are imported by default. =over 5 =item :all Imports C<zip>, C<$ZipError> and all symbolic constants that can be used by C<IO::Compress::Zip>. Same as doing this use IO::Compress::Zip qw(zip $ZipError :constants) ; =item :constants Import all symbolic constants. Same as doing this use IO::Compress::Zip qw(:flush :level :strategy :zip_method) ; =item :flush These symbolic constants are used by the C<flush> method. Z_NO_FLUSH Z_PARTIAL_FLUSH Z_SYNC_FLUSH Z_FULL_FLUSH Z_FINISH Z_BLOCK =item :level These symbolic constants are used by the C<Level> option in the constructor. Z_NO_COMPRESSION Z_BEST_SPEED Z_BEST_COMPRESSION Z_DEFAULT_COMPRESSION =item :strategy These symbolic constants are used by the C<Strategy> option in the constructor. Z_FILTERED Z_HUFFMAN_ONLY Z_RLE Z_FIXED Z_DEFAULT_STRATEGY =item :zip_method These symbolic constants are used by the C<Method> option in the constructor. ZIP_CM_STORE ZIP_CM_DEFLATE ZIP_CM_BZIP2 =back =head1 EXAMPLES =head2 Apache::GZip Revisited See L<IO::Compress::FAQ|IO::Compress::FAQ/"Apache::GZip Revisited"> =head2 Working with Net::FTP See L<IO::Compress::FAQ|IO::Compress::FAQ/"Compressed files and Net::FTP"> =head1 SUPPORT General feedback/questions/bug reports should be sent to L<https://github.com/pmqs/IO-Compress/issues> (preferred) or L<https://rt.cpan.org/Public/Dist/Display.html?Name=IO-Compress>. =head1 SEE ALSO L<Compress::Zlib>, L<IO::Compress::Gzip>, L<IO::Uncompress::Gunzip>, L<IO::Compress::Deflate>, L<IO::Uncompress::Inflate>, L<IO::Compress::RawDeflate>, L<IO::Uncompress::RawInflate>, L<IO::Compress::Bzip2>, L<IO::Uncompress::Bunzip2>, L<IO::Compress::Lzma>, L<IO::Uncompress::UnLzma>, L<IO::Compress::Xz>, L<IO::Uncompress::UnXz>, L<IO::Compress::Lzip>, L<IO::Uncompress::UnLzip>, L<IO::Compress::Lzop>, L<IO::Uncompress::UnLzop>, L<IO::Compress::Lzf>, L<IO::Uncompress::UnLzf>, L<IO::Compress::Zstd>, L<IO::Uncompress::UnZstd>, L<IO::Uncompress::AnyInflate>, L<IO::Uncompress::AnyUncompress> L<IO::Compress::FAQ|IO::Compress::FAQ> L<File::GlobMapper|File::GlobMapper>, L<Archive::Zip|Archive::Zip>, L<Archive::Tar|Archive::Tar>, L<IO::Zlib|IO::Zlib> For RFC 1950, 1951 and 1952 see L<http://www.faqs.org/rfcs/rfc1950.html>, L<http://www.faqs.org/rfcs/rfc1951.html> and L<http://www.faqs.org/rfcs/rfc1952.html> The I<zlib> compression library was written by Jean-loup Gailly C<gzip@prep.ai.mit.edu> and Mark Adler C<madler@alumni.caltech.edu>. The primary site for the I<zlib> compression library is L<http://www.zlib.org>. The primary site for gzip is L<http://www.gzip.org>. =head1 AUTHOR This module was written by Paul Marquess, C<pmqs@cpan.org>. =head1 MODIFICATION HISTORY See the Changes file. =head1 COPYRIGHT AND LICENSE Copyright (c) 2005-2021 Paul Marquess. All rights reserved. This program is free software; you can redistribute it and/or modify it under the same terms as Perl itself.