package IO::Compress::Zip ; use strict ; use warnings; use bytes; use IO::Compress::Base::Common 2.204 qw(:Status ); use IO::Compress::RawDeflate 2.204 (); use IO::Compress::Adapter::Deflate 2.204 ; use IO::Compress::Adapter::Identity 2.204 ; use IO::Compress::Zlib::Extra 2.204 ; use IO::Compress::Zip::Constants 2.204 ; use File::Spec(); use Config; use Compress::Raw::Zlib 2.204 (); BEGIN { eval { require IO::Compress::Adapter::Bzip2 ; IO::Compress::Adapter::Bzip2->import( 2.201 ); require IO::Compress::Bzip2 ; IO::Compress::Bzip2->import( 2.201 ); } ; eval { require IO::Compress::Adapter::Lzma ; IO::Compress::Adapter::Lzma->import( 2.201 ); require IO::Compress::Lzma ; IO::Compress::Lzma->import( 2.201 ); } ; eval { require IO::Compress::Adapter::Xz ; IO::Compress::Adapter::Xz->import( 2.201 ); require IO::Compress::Xz ; IO::Compress::Xz->import( 2.201 ); } ; eval { require IO::Compress::Adapter::Zstd ; IO::Compress::Adapter::Zstd->import( 2.201 ); require IO::Compress::Zstd ; IO::Compress::Zstd->import( 2.201 ); } ; } require Exporter ; our ($VERSION, @ISA, @EXPORT_OK, %EXPORT_TAGS, %DEFLATE_CONSTANTS, $ZipError); $VERSION = '2.204'; $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 && defined $IO::Compress::Adapter::Bzip2::VERSION && defined &{ "IO::Compress::Adapter::Bzip2::mkRawZipCompObject" }; return 1 if $method == ZIP_CM_LZMA && defined $IO::Compress::Adapter::Lzma::VERSION && defined &{ "IO::Compress::Adapter::Lzma::mkRawZipCompObject" }; return 1 if $method == ZIP_CM_XZ && defined $IO::Compress::Adapter::Xz::VERSION && defined &{ "IO::Compress::Adapter::Xz::mkRawZipCompObject" }; return 1 if $method == ZIP_CM_ZSTD && defined $IO::Compress::Adapter::ZSTD::VERSION && defined &{ "IO::Compress::Adapter::ZSTD::mkRawZipCompObject" }; 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 $z64e .= *$self->{ZipData}{extrafieldzip64} # otional extra field if defined *$self->{ZipData}{extrafieldzip64} ; $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') || $got->getValue('extrafieldzip64') ; *$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 extrafieldzip64)) { 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, $data) ; *$self->{ZipData}{$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], 'extrafieldzip64' => [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 must be installed. =item Lzma (14) To write LZMA content, the module C must be installed. =item Zstandard (93) To write Zstandard content, the module C must be installed. =item Xz (95) To write Xz content, the module C must be installed. =back For reading zip files/buffers, see the companion module L. =head1 Functional Interface A top-level function, C, is provided to carry out "one-shot" compression between buffers and/or files. For finer control over the compression process, see the L 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 => $output_filename_or_reference [, OPTS] C expects at least two parameters, C<$input_filename_or_reference> and C<$output_filename_or_reference> and zero or more optional parameters (see L) =head3 The C<$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 will assume that it is an I. The input is the list of files that match the fileglob. See L for more details. =back If the C<$input_filename_or_reference> parameter is any other type, C will be returned. In addition, if C<$input_filename_or_reference> corresponds to a filename from the filesystem, a number of zip file header fields will be populated by default using the following attributes from the input file =over 5 =item * the full filename contained in C<$input_filename_or_reference> =item * the file protection attributes =item * the UID/GID for the file =item * the file timestamps =back If you do not want to use these defaults they can be overridden by explicitly setting one, or more, of the C, C