#!/home/centos/perldoc-browser/perls/5.35.4/bin/perl eval 'exec /home/centos/perldoc-browser/perls/5.35.4/bin/perl -S $0 ${1+"$@"}' if 0; # ^ Run only under a shell #!/usr/bin/perl # zipdetails # # Display info on the contents of a Zip file # BEGIN { pop @INC if $INC[-1] eq '.' } use strict; use warnings ; use IO::File; use Encode; use Getopt::Long; # Compression types use constant ZIP_CM_STORE => 0 ; use constant ZIP_CM_IMPLODE => 6 ; use constant ZIP_CM_DEFLATE => 8 ; use constant ZIP_CM_BZIP2 => 12 ; use constant ZIP_CM_LZMA => 14 ; use constant ZIP_CM_PPMD => 98 ; # General Purpose Flag use constant ZIP_GP_FLAG_ENCRYPTED_MASK => (1 << 0) ; use constant ZIP_GP_FLAG_STREAMING_MASK => (1 << 3) ; use constant ZIP_GP_FLAG_PATCHED_MASK => (1 << 5) ; use constant ZIP_GP_FLAG_STRONG_ENCRYPTED_MASK => (1 << 6) ; use constant ZIP_GP_FLAG_LZMA_EOS_PRESENT => (1 << 1) ; use constant ZIP_GP_FLAG_LANGUAGE_ENCODING => (1 << 11) ; # Internal File Attributes use constant ZIP_IFA_TEXT_MASK => 1; # Signatures for each of the headers use constant ZIP_LOCAL_HDR_SIG => 0x04034b50; use constant ZIP_DATA_HDR_SIG => 0x08074b50; use constant ZIP_CENTRAL_HDR_SIG => 0x02014b50; use constant ZIP_END_CENTRAL_HDR_SIG => 0x06054b50; use constant ZIP64_END_CENTRAL_REC_HDR_SIG => 0x06064b50; use constant ZIP64_END_CENTRAL_LOC_HDR_SIG => 0x07064b50; use constant ZIP_ARCHIVE_EXTRA_DATA_SIG => 0x08064b50; use constant ZIP_DIGITAL_SIGNATURE_SIG => 0x05054b50; use constant ZIP_ARCHIVE_EXTRA_DATA_RECORD_SIG => 0x08064b50; # Extra sizes use constant ZIP_EXTRA_HEADER_SIZE => 2 ; use constant ZIP_EXTRA_MAX_SIZE => 0xFFFF ; use constant ZIP_EXTRA_SUBFIELD_ID_SIZE => 2 ; use constant ZIP_EXTRA_SUBFIELD_LEN_SIZE => 2 ; use constant ZIP_EXTRA_SUBFIELD_HEADER_SIZE => ZIP_EXTRA_SUBFIELD_ID_SIZE + ZIP_EXTRA_SUBFIELD_LEN_SIZE; use constant ZIP_EXTRA_SUBFIELD_MAX_SIZE => ZIP_EXTRA_MAX_SIZE - ZIP_EXTRA_SUBFIELD_HEADER_SIZE; my %ZIP_CompressionMethods = ( 0 => 'Stored', 1 => 'Shrunk', 2 => 'Reduced compression factor 1', 3 => 'Reduced compression factor 2', 4 => 'Reduced compression factor 3', 5 => 'Reduced compression factor 4', 6 => 'Imploded', 7 => 'Reserved for Tokenizing compression algorithm', 8 => 'Deflated', 9 => 'Enhanced Deflating using Deflate64(tm)', 10 => 'PKWARE Data Compression Library Imploding', 11 => 'Reserved by PKWARE', 12 => 'BZIP2 ', 13 => 'Reserved by PKWARE', 14 => 'LZMA', 15 => 'Reserved by PKWARE', 16 => 'IBM z/OS CMPSC Compression', 17 => 'Reserved by PKWARE', 18 => 'File is compressed using IBM TERSE (new)', 19 => 'IBM LZ77 z Architecture (PFS)', 93 => 'Zstandard', 94 => 'MP3', 95 => 'XZ', 96 => 'WinZip JPEG Compression', 97 => 'WavPack compressed data', 98 => 'PPMd version I, Rev 1', 99 => 'AES Encryption', ); my %OS_Lookup = ( 0 => "MS-DOS", 1 => "Amiga", 2 => "OpenVMS", 3 => "Unix", 4 => "VM/CMS", 5 => "Atari ST", 6 => "HPFS (OS/2, NT 3.x)", 7 => "Macintosh", 8 => "Z-System", 9 => "CP/M", 10 => "Windoxs NTFS or TOPS-20", 11 => "MVS or NTFS", 12 => "VSE or SMS/QDOS", 13 => "Acorn RISC OS", 14 => "VFAT", 15 => "alternate MVS", 16 => "BeOS", 17 => "Tandem", 18 => "OS/400", 19 => "OS/X (Darwin)", 30 => "AtheOS/Syllable", ); my %Lookup = ( ZIP_LOCAL_HDR_SIG, \&LocalHeader, ZIP_DATA_HDR_SIG, \&DataHeader, ZIP_CENTRAL_HDR_SIG, \&CentralHeader, ZIP_END_CENTRAL_HDR_SIG, \&EndCentralHeader, ZIP64_END_CENTRAL_REC_HDR_SIG, \&Zip64EndCentralHeader, ZIP64_END_CENTRAL_LOC_HDR_SIG, \&Zip64EndCentralLocator, # TODO - Archive Encryption Headers & digital signature #ZIP_ARCHIVE_EXTRA_DATA_RECORD_SIG #ZIP_DIGITAL_SIGNATURE_SIG #ZIP_ARCHIVE_EXTRA_DATA_SIG ); my %Extras = ( 0x0001, ['ZIP64', \&decode_Zip64], 0x0007, ['AV Info', undef], 0x0008, ['Extended Language Encoding', undef], 0x0009, ['OS/2 extended attributes', undef], 0x000a, ['NTFS FileTimes', \&decode_NTFS_Filetimes], 0x000c, ['OpenVMS', undef], 0x000d, ['Unix', undef], 0x000e, ['Stream & Fork Descriptors', undef], 0x000f, ['Patch Descriptor', undef], 0x0014, ['PKCS#7 Store for X.509 Certificates', undef], 0x0015, ['X.509 Certificate ID and Signature for individual file', undef], 0x0016, ['X.509 Certificate ID for Central Directory', undef], 0x0017, ['Strong Encryption Header', undef], 0x0018, ['Record Management Controls', undef], 0x0019, ['PKCS#7 Encryption Recipient Certificate List', undef], 0x0020, ['Reserved for Timestamp record', undef], 0x0021, ['Policy Decryption Key Record', undef], 0x0022, ['Smartcrypt Key Provider Record', undef], 0x0023, ['Smartcrypt Policy Key Data Record', undef], # The Header ID mappings defined by Info-ZIP and third parties are: 0x0065, ['IBM S/390 attributes - uncompressed', \&decodeMVS], 0x0066, ['IBM S/390 attributes - compressed', undef], 0x07c8, ['Info-ZIP Macintosh (old, J. Lee)', undef], 0x2605, ['ZipIt Macintosh (first version)', undef], 0x2705, ['ZipIt Macintosh v 1.3.5 and newer (w/o full filename)', undef], 0x2805, ['ZipIt Macintosh v 1.3.5 and newer ', undef], 0x334d, ["Info-ZIP Macintosh (new, D. Haase's 'Mac3' field)", undef], 0x4154, ['Tandem NSK', undef], 0x4341, ['Acorn/SparkFS (David Pilling)', undef], 0x4453, ['Windows NT security descriptor', \&decode_NT_security], 0x4690, ['POSZIP 4690', undef], 0x4704, ['VM/CMS', undef], 0x470f, ['MVS', undef], 0x4854, ['Theos, old inofficial port', undef], 0x4b46, ['FWKCS MD5 (see below)', undef], 0x4c41, ['OS/2 access control list (text ACL)', undef], 0x4d49, ['Info-ZIP OpenVMS (obsolete)', undef], 0x4d63, ['Macintosh SmartZIP, by Macro Bambini', undef], 0x4f4c, ['Xceed original location extra field', undef], 0x5356, ['AOS/VS (binary ACL)', undef], 0x5455, ['Extended Timestamp', \&decode_UT], 0x554e, ['Xceed unicode extra field', \&decode_Xceed_unicode], 0x5855, ['Info-ZIP Unix (original; also OS/2, NT, etc.)', \&decode_UX], 0x5a4c, ['ZipArchive Unicode Filename', undef], 0x5a4d, ['ZipArchive Offsets Array', undef], 0x6375, ['Info-ZIP Unicode Comment', \&decode_up ], 0x6542, ['BeOS (BeBox, PowerMac, etc.)', undef], 0x6854, ['Theos', undef], 0x7075, ['Info-ZIP Unicode Path', \&decode_up ], 0x756e, ['ASi Unix', undef], 0x7441, ['AtheOS (AtheOS/Syllable attributes)', undef], 0x7855, ['Unix Extra type 2', \&decode_Ux], 0x7875, ['Unix Extra Type 3', \&decode_ux], 0x9901, ['AES Encryption', \&decode_AES], 0xa11e, ['Data Stream Alignment', undef], 0xA220, ['Open Packaging Growth Hint', \&decode_GrowthHint ], 0xCAFE, ['Java Executable', \&decode_Java_exe], 0xfb4a, ['SMS/QDOS', undef], ); my $VERSION = "2.02" ; my $FH; my $ZIP64 = 0 ; my $NIBBLES = 8; my $LocalHeaderCount = 0; my $CentralHeaderCount = 0; my $START; my $OFFSET = U64->new( 0 ); my $TRAILING = 0 ; my $PAYLOADLIMIT = 256; # U64->new( 256 ); my $ZERO = U64->new( 0 ); my $SEEN = Seen->new(); sub prOff { my $offset = shift; my $s = offset($OFFSET); $OFFSET->add($offset); return $s; } sub offset { my $v = shift ; if (ref $v eq 'U64') { my $hi = $v->getHigh(); my $lo = $v->getLow(); if ($hi) { my $hiNib = $NIBBLES - 8 ; sprintf("%0${hiNib}X", $hi) . sprintf("%08X", $lo); } else { sprintf("%0${NIBBLES}X", $lo); } } else { sprintf("%0${NIBBLES}X", $v); } } my ($OFF, $LENGTH, $CONTENT, $TEXT, $VALUE) ; my $FMT1 ; my $FMT2 ; sub setupFormat { my $wantVerbose = shift ; my $nibbles = shift; my $width = '@' . ('>' x ($nibbles -1)); my $space = " " x length($width); my $fmt ; if ($wantVerbose) { $FMT1 = " format STDOUT = $width $width ^<<<<<<<<<<<^<<<<<<<<<<<<<<<<<<<< ^<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<< \$OFF, \$LENGTH, \$CONTENT, \$TEXT, \$VALUE $space $space ^<<<<<<<<<<<^<<<<<<<<<<<<<<<<<<<< ^<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<~~ \$CONTENT, \$TEXT, \$VALUE . "; $FMT2 = " format STDOUT = $width $width ^<<<<<<<<<<< ^<<<<<<<<<<<<<<<<<< ^<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<< \$OFF, \$LENGTH, \$CONTENT, \$TEXT, \$VALUE $space $space ^<<<<<<<<<<< ^<<<<<<<<<<<<<<<<<< ^<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<~~ \$CONTENT, \$TEXT, \$VALUE . " ; } else { $FMT1 = " format STDOUT = $width ^<<<<<<<<<<<<<<<<<<<< ^<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<< \$OFF, \$TEXT, \$VALUE $space ^<<<<<<<<<<<<<<<<<<<< ^<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<~~ \$TEXT, \$VALUE . "; $FMT2 = " format STDOUT = $width ^<<<<<<<<<<<<<<<<<< ^<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<< \$OFF, \$TEXT, \$VALUE $space ^<<<<<<<<<<<<<<<<<< ^<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<~~ \$TEXT, \$VALUE . " ; } eval "$FMT1"; $| = 1; } sub mySpr { my $format = shift ; return "" if ! defined $format; return $format unless @_ ; return sprintf $format, @_ ; } sub out0 { my $size = shift; my $text = shift; my $format = shift; $OFF = prOff($size); $LENGTH = offset($size) ; $CONTENT = '...'; $TEXT = $text; $VALUE = mySpr $format, @_; write; skip($FH, $size); } sub xDump { my $input = shift; $input =~ tr/\0-\37\177-\377/./; return $input; } sub hexDump { my $input = shift; my $out = unpack('H*', $input) ; $out =~ s#(..)# $1#g ; $out =~ s/^ //; $out = uc $out; return $out; } sub out { my $data = shift; my $text = shift; my $format = shift; my $size = length($data) ; $OFF = prOff($size); $LENGTH = offset($size) ; $CONTENT = hexDump($data); $TEXT = $text; $VALUE = mySpr $format, @_; no warnings; write; } sub out1 { my $text = shift; my $format = shift; $OFF = ''; $LENGTH = '' ; $CONTENT = ''; $TEXT = $text; $VALUE = mySpr $format, @_; write; } sub out2 { my $data = shift ; my $text = shift ; my $format = shift; my $size = length($data) ; $OFF = prOff($size); $LENGTH = offset($size); $CONTENT = hexDump($data); $TEXT = $text; $VALUE = mySpr $format, @_; no warnings; eval "$FMT2"; write ; eval "$FMT1"; } sub Value { my $letter = shift; my @value = @_; if ($letter eq 'C') { return Value_C(@value) } elsif ($letter eq 'v') { return Value_v(@value) } elsif ($letter eq 'V') { return Value_V(@value) } elsif ($letter eq 'VV') { return Value_VV(@value) } } sub outer { my $name = shift ; my $unpack = shift ; my $size = shift ; my $cb1 = shift ; my $cb2 = shift ; myRead(my $buff, $size); my (@value) = unpack $unpack, $buff; my $hex = Value($unpack, @value); if (defined $cb1) { my $v ; if (ref $cb1 eq 'CODE') { $v = $cb1->(@value) ; } else { $v = $cb1 ; } $v = "'" . $v unless $v =~ /^'/; $v .= "'" unless $v =~ /'$/; $hex .= " $v" ; } out $buff, $name, $hex ; $cb2->(@value) if defined $cb2 ; return $value[0]; } sub out_C { my $name = shift ; my $cb1 = shift ; my $cb2 = shift ; outer($name, 'C', 1, $cb1, $cb2); } sub out_v { my $name = shift ; my $cb1 = shift ; my $cb2 = shift ; outer($name, 'v', 2, $cb1, $cb2); } sub out_V { my $name = shift ; my $cb1 = shift ; my $cb2 = shift ; outer($name, 'V', 4, $cb1, $cb2); } sub out_VV { my $name = shift ; my $cb1 = shift ; my $cb2 = shift ; outer($name, 'VV', 8, $cb1, $cb2); } # sub outSomeData # { # my $size = shift; # my $message = shift; # my $size64 = U64::mkU64($size); # if ($size64->gt($ZERO)) { # my $size32 = $size64->getLow(); # if ($size64->gt($PAYLOADLIMIT) ) { # out0 $size32, $message; # } else { # myRead(my $buffer, $size32 ); # out $buffer, $message, xDump $buffer ; # } # } # } sub outSomeData { my $size = shift; my $message = shift; if ($size > 0) { if ($size > $PAYLOADLIMIT) { my $before = $FH->tell(); out0 $size, $message; # printf "outSomeData %X %X $size %X\n", $before, $FH->tell(), $size; } else { myRead(my $buffer, $size ); out $buffer, $message, xDump $buffer ; } } } sub unpackValue_C { Value_v(unpack "C", $_[0]); } sub Value_C { sprintf "%02X", $_[0]; } sub unpackValue_v { Value_v(unpack "v", $_[0]); } sub Value_v { sprintf "%04X", $_[0]; } sub unpackValue_V { Value_V(unpack "V", $_[0]); } sub Value_V { my $v = defined $_[0] ? $_[0] : 0; sprintf "%08X", $v; } sub unpackValue_VV { my ($lo, $hi) = unpack ("V V", $_[0]); Value_VV($lo, $hi); } sub Value_U64 { my $u64 = shift ; Value_VV($u64->getLow(), $u64->getHigh()); } sub Value_VV { my $lo = defined $_[0] ? $_[0] : 0; my $hi = defined $_[1] ? $_[1] : 0; if ($hi == 0) { sprintf "%016X", $lo; } else { sprintf("%08X", $hi) . sprintf "%08X", $lo; } } sub Value_VV64 { my $buffer = shift; # This needs perl 5.10 # return unpack "Q<", $buffer; my ($lo, $hi) = unpack ("V V" , $buffer); no warnings 'uninitialized'; return $hi * (0xFFFFFFFF+1) + $lo; } sub read_U64 { my $b ; myRead($b, 8); my ($lo, $hi) = unpack ("V V" , $b); no warnings 'uninitialized'; return ($b, U64->new( $hi, $lo) ); } sub read_VV { my $b ; myRead($b, 8); my ($lo, $hi) = unpack ("V V" , $b); no warnings 'uninitialized'; return ($b, $hi * (0xFFFFFFFF+1) + $lo); } sub read_V { my $b ; myRead($b, 4); return ($b, unpack ("V", $b)); } sub read_v { my $b ; myRead($b, 2); return ($b, unpack "v", $b); } sub read_C { my $b ; myRead($b, 1); return ($b, unpack "C", $b); } sub seekTo { my $offset = shift ; my $loc = shift ; $loc = SEEK_SET if ! defined $loc ; $FH->seek($offset, $loc); $OFFSET = new U64($offset); } sub scanForSignature { my %sigs = map { $_ => 1 } map { substr $_, 2, 2 } # don't want the initial "PK" map { pack "V", $_ } ( ZIP_LOCAL_HDR_SIG , ZIP_DATA_HDR_SIG , ZIP_CENTRAL_HDR_SIG , ZIP_END_CENTRAL_HDR_SIG , ZIP64_END_CENTRAL_REC_HDR_SIG , ZIP64_END_CENTRAL_LOC_HDR_SIG , # ZIP_ARCHIVE_EXTRA_DATA_SIG , # ZIP_DIGITAL_SIGNATURE_SIG , # ZIP_ARCHIVE_EXTRA_DATA_RECORD_SIG , ); my $start = $FH->tell(); my $last = ''; my $buffer ; while ($FH->read($buffer, 1024 * 1000)) { my $combine = substr($last, -4) . $buffer ; $last = $buffer; my $ix = index($combine, "PK") ; next if $ix == -1; my $rest = substr($combine, $ix+2, 2); next unless length $rest == 2 && $sigs{$rest} ; my $v = unpack("v", $rest) ; # possible match my $here = $FH->tell(); seekTo($here - length($combine) + $ix); return 1; } return 0; } my $is64In32 = 0; my $opt_verbose = 0; my $opt_scan = 0; $Getopt::Long::bundling = 1 ; GetOptions("h" => \&Usage, "v" => \$opt_verbose, "scan" => \$opt_scan, "version" => sub { print "$VERSION\n"; exit }, ) or Usage("Invalid command line option\n"); Usage("No zipfile") unless @ARGV == 1; my $filename = shift @ARGV; die "$filename does not exist\n" unless -e $filename ; die "$filename not a standard file\n" unless -f $filename ; $FH = IO::File->new( "<$filename" ) or die "Cannot open $filename: $!\n"; my $FILELEN = -s $filename ; $TRAILING = -s $filename ; $NIBBLES = U64::nibbles(-s $filename) ; #$NIBBLES = int ($NIBBLES / 4) + ( ($NIBBLES % 4) ? 1 : 0 ); #$NIBBLES = 4 * $NIBBLES; # Minimum of 4 nibbles $NIBBLES = 4 if $NIBBLES < 4 ; die "$filename too short to be a zip file\n" if $FILELEN < 22 ; setupFormat($opt_verbose, $NIBBLES); if(0) { # Sanity check that this is a Zip file my ($buffer, $signature) = read_V(); warn "$filename doesn't look like a zip file\n" if $signature != ZIP_LOCAL_HDR_SIG ; $FH->seek(0, SEEK_SET) ; } my @Messages = (); if ($opt_scan) { while(scanForSignature()) { my $here = $FH->tell(); my ($buffer, $signature) = read_V(); my $handler = $Lookup{$signature}; $handler->($signature, $buffer); seekTo($here + 4) ; } dislayMessages(); exit; } our ($CdExists, $CdOffset, @CentralDirectory) = scanCentralDirectory($FH); die "No Central Directory records found\n" if ! $CdExists ; $OFFSET->reset(); $FH->seek(0, SEEK_SET) ; outSomeData($START, "PREFIX DATA") if defined $START && $START > 0 ; my $skippedFrom = 0 ; my $skippedContent = 0 ; while (1) { last if $FH->eof(); my $here = $FH->tell(); if ($here >= $TRAILING) { print "\n" ; outSomeData($FILELEN - $TRAILING, "TRAILING DATA"); last; } my ($buffer, $signature) = read_V(); my $handler = $Lookup{$signature}; if (!defined $handler) { if (@CentralDirectory) { # Should be at offset that central directory says my $locOffset = $CentralDirectory[0][0]; my $delta = $locOffset - $here ; if ($here + 4 == $locOffset ) { for (0 .. 3) { $FH->ungetc(ord(substr($buffer, $_, 1))) } outSomeData($delta, "UNEXPECTED PADDING"); next; } } if ($here < $CdOffset) { # next # if scanForSignature() ; $skippedFrom = $FH->tell() ; $skippedContent = $CdOffset - $skippedFrom ; print "\nWARNING!\nZip local header not found.\n"; printf "Skipping 0x%x bytes to Central Directory...\n", $skippedContent; push @Messages, sprintf("Expected Zip header not found at offset 0x%X, ", $skippedFrom) . sprintf("skipped 0x%X bytes\n", $skippedContent); seekTo($CdOffset); next; } else { printf "\n\nUnexpected END at offset %08X, value %s\n", $here, Value_V($signature); last; } } $ZIP64 = 0 if $signature != ZIP_DATA_HDR_SIG ; $handler->($signature, $buffer); } dislayMessages(); exit ; sub dislayMessages { if (@Messages) { my $count = scalar @Messages ; print "\nWARNINGS\n\n"; print "* $_\n" for @Messages ; } print "Done\n"; } sub compressionMethod { my $id = shift ; Value_v($id) . " '" . ($ZIP_CompressionMethods{$id} || "Unknown Method") . "'" ; } sub LocalHeader { my $signature = shift ; my $data = shift ; my $from_offset = $FH->tell() - 4; print "\n"; ++ $LocalHeaderCount; out $data, "LOCAL HEADER #" . sprintf("%X", $LocalHeaderCount) , Value_V($signature); my $buffer; my ($loc, $CDcompressedLength) ; ($loc, $CDcompressedLength) = @{ shift @CentralDirectory } if ! $opt_scan ; out_C "Extract Zip Spec", \&decodeZipVer; out_C "Extract OS", \&decodeOS; my ($bgp, $gpFlag) = read_v(); my ($bcm, $compressedMethod) = read_v(); out $bgp, "General Purpose Flag", Value_v($gpFlag) ; GeneralPurposeBits($compressedMethod, $gpFlag); out $bcm, "Compression Method", compressionMethod($compressedMethod) ; out_V "Last Mod Time", sub { scalar getTime(_dosToUnixTime($_[0])) }; my $crc = out_V "CRC"; my $compressedLength = out_V "Compressed Length"; my $uncompressedLength = out_V "Uncompressed Length"; my $filenameLength = out_v "Filename Length"; my $extraLength = out_v "Extra Length"; my $filename ; myRead($filename, $filenameLength); outputFilename($filename); my $cl64 = U64->new( $compressedLength ); my %ExtraContext = (); if ($extraLength) { my @z64 = ($uncompressedLength, $compressedLength, 1, 1); $ExtraContext{Zip64} = \@z64 ; $ExtraContext{InCentralDir} = 0; walkExtra($extraLength, \%ExtraContext); } my $size = 0; $size = printAes(\%ExtraContext) if $compressedMethod == 99 ; $size += printLzmaProperties() if $compressedMethod == ZIP_CM_LZMA ; $CDcompressedLength = $compressedLength if $opt_scan ; # $CDcompressedLength->subtract($size) # if $size ; $CDcompressedLength -= $size; # if ($CDcompressedLength->getHigh() || $CDcompressedLength->getLow()) { if ($CDcompressedLength) { outSomeData($CDcompressedLength, "PAYLOAD") ; } if ($compressedMethod == 99) { my $auth ; myRead($auth, 10); out $auth, "AES Auth", hexDump($auth); } # $SEEN->save("LOCAL HEADER #" . sprintf("%X", $LocalHeaderCount), $filename, $from_offset, $from_offset + $CDcompressedLength) } sub outputFilename { my $filename = shift; if (length $filename > 256) { my $f = substr($filename, 0, 256) ; out $f, "Filename", "'". $f . "' ..."; } else { out $filename, "Filename", "'". $filename . "'"; } } sub CentralHeader { my $signature = shift ; my $data = shift ; my $from_offset = $FH->tell() - 4; ++ $CentralHeaderCount; print "\n"; out $data, "CENTRAL HEADER #" . sprintf("%X", $CentralHeaderCount) . "", Value_V($signature); my $buffer; out_C "Created Zip Spec", \&decodeZipVer; out_C "Created OS", \&decodeOS; out_C "Extract Zip Spec", \&decodeZipVer; out_C "Extract OS", \&decodeOS; my ($bgp, $gpFlag) = read_v(); my ($bcm, $compressedMethod) = read_v(); out $bgp, "General Purpose Flag", Value_v($gpFlag) ; GeneralPurposeBits($compressedMethod, $gpFlag); out $bcm, "Compression Method", compressionMethod($compressedMethod) ; out_V "Last Mod Time", sub { scalar getTime(_dosToUnixTime($_[0])) }; my $crc = out_V "CRC"; my $compressedLength = out_V "Compressed Length"; my $uncompressedLength = out_V "Uncompressed Length"; my $filenameLength = out_v "Filename Length"; my $extraLength = out_v "Extra Length"; my $comment_length = out_v "Comment Length"; my $disk_start = out_v "Disk Start"; my $int_file_attrib = out_v "Int File Attributes"; out1 "[Bit 0]", $int_file_attrib & 1 ? "1 Text Data" : "0 'Binary Data'"; my $ext_file_attrib = out_V "Ext File Attributes"; out1 "[Bit 0]", "Read-Only" if $ext_file_attrib & 0x01 ; out1 "[Bit 1]", "Hidden" if $ext_file_attrib & 0x02 ; out1 "[Bit 2]", "System" if $ext_file_attrib & 0x04 ; out1 "[Bit 3]", "Label" if $ext_file_attrib & 0x08 ; out1 "[Bit 4]", "Directory" if $ext_file_attrib & 0x10 ; out1 "[Bit 5]", "Archive" if $ext_file_attrib & 0x20 ; my $lcl_hdr_offset = out_V "Local Header Offset"; my $filename ; myRead($filename, $filenameLength); outputFilename($filename); my %ExtraContext = (); if ($extraLength) { my @z64 = ($uncompressedLength, $compressedLength, $lcl_hdr_offset, $disk_start); $ExtraContext{Zip64} = \@z64 ; $ExtraContext{InCentralDir} = 1; walkExtra($extraLength, \%ExtraContext); } if ($comment_length) { my $comment ; myRead($comment, $comment_length); out $comment, "Comment", "'". $comment . "'"; } $SEEN->save("CENTRAL HEADER ref Local #" . sprintf("%X", $CentralHeaderCount), $filename, $lcl_hdr_offset, $lcl_hdr_offset + $compressedLength) ; # $SEEN->save("CENTRAL HEADER #" . sprintf("%X", $CentralHeaderCount), $filename, $from_offset, $FH-tell()); } sub decodeZipVer { my $ver = shift ; my $sHi = int($ver /10) ; my $sLo = $ver % 10 ; #out1 "Zip Spec", "$sHi.$sLo"; "$sHi.$sLo"; } sub decodeOS { my $ver = shift ; $OS_Lookup{$ver} || "Unknown" ; } sub Zip64EndCentralHeader { my $signature = shift ; my $data = shift ; print "\n"; out $data, "ZIP64 END CENTRAL DIR RECORD", Value_V($signature); my $buff; myRead($buff, 8); out $buff, "Size of record", unpackValue_VV($buff); my $size = Value_VV64($buff); out_C "Created Zip Spec", \&decodeZipVer; out_C "Created OS", \&decodeOS; out_C "Extract Zip Spec", \&decodeZipVer; out_C "Extract OS", \&decodeOS; out_V "Number of this disk"; out_V "Central Dir Disk no"; out_VV "Entries in this disk"; out_VV "Total Entries"; out_VV "Size of Central Dir"; out_VV "Offset to Central dir"; # TODO - if ($size != 44) { push @Messages, "Unsupported Size field in Zip64EndCentralHeader: should be 44, got $size\n" } } sub Zip64EndCentralLocator { my $signature = shift ; my $data = shift ; print "\n"; out $data, "ZIP64 END CENTRAL DIR LOCATOR", Value_V($signature); out_V "Central Dir Disk no"; out_VV "Offset to Central dir"; out_V "Total no of Disks"; } sub EndCentralHeader { my $signature = shift ; my $data = shift ; print "\n"; out $data, "END CENTRAL HEADER", Value_V($signature); out_v "Number of this disk"; out_v "Central Dir Disk no"; out_v "Entries in this disk"; out_v "Total Entries"; out_V "Size of Central Dir"; out_V "Offset to Central Dir"; my $comment_length = out_v "Comment Length"; if ($comment_length) { my $comment ; myRead($comment, $comment_length); out $comment, "Comment", "'$comment'"; } } sub DataHeader { my $signature = shift ; my $data = shift ; print "\n"; out $data, "STREAMING DATA HEADER", Value_V($signature); out_V "CRC"; if ($ZIP64) { out_VV "Compressed Length" ; out_VV "Uncompressed Length" ; } else { out_V "Compressed Length" ; out_V "Uncompressed Length" ; } } sub GeneralPurposeBits { my $method = shift; my $gp = shift; out1 "[Bit 0]", "1 'Encryption'" if $gp & ZIP_GP_FLAG_ENCRYPTED_MASK; my %lookup = ( 0 => "Normal Compression", 1 => "Maximum Compression", 2 => "Fast Compression", 3 => "Super Fast Compression"); if ($method == ZIP_CM_DEFLATE) { my $mid = ($gp >> 1) & 0x03 ; out1 "[Bits 1-2]", "$mid '$lookup{$mid}'"; } if ($method == ZIP_CM_LZMA) { if ($gp & ZIP_GP_FLAG_LZMA_EOS_PRESENT) { out1 "[Bit 1]", "1 'LZMA EOS Marker Present'" ; } else { out1 "[Bit 1]", "0 'LZMA EOS Marker Not Present'" ; } } if ($method == ZIP_CM_IMPLODE) # Imploding { out1 "[Bit 1]", ($gp & (1 << 1) ? "1 '8k" : "0 '4k") . " Sliding Dictionary'" ; out1 "[Bit 2]", ($gp & (2 << 1) ? "1 '3" : "0 '2" ) . " Shannon-Fano Trees'" ; } out1 "[Bit 3]", "1 'Streamed'" if $gp & ZIP_GP_FLAG_STREAMING_MASK; out1 "[Bit 4]", "1 'Enhanced Deflating'" if $gp & 1 << 4; out1 "[Bit 5]", "1 'Compressed Patched'" if $gp & 1 << 5 ; out1 "[Bit 6]", "1 'Strong Encryption'" if $gp & ZIP_GP_FLAG_STRONG_ENCRYPTED_MASK; out1 "[Bit 11]", "1 'Language Encoding'" if $gp & ZIP_GP_FLAG_LANGUAGE_ENCODING; out1 "[Bit 12]", "1 'Pkware Enhanced Compression'" if $gp & 1 <<12 ; out1 "[Bit 13]", "1 'Encrypted Central Dir'" if $gp & 1 <<13 ; return (); } sub seekSet { my $fh = $_[0] ; my $size = $_[1]; use Fcntl qw(SEEK_SET); if (ref $size eq 'U64') { seek($fh, $size->get64bit(), SEEK_SET); } else { seek($fh, $size, SEEK_SET); } } sub skip { my $fh = $_[0] ; my $size = $_[1]; use Fcntl qw(SEEK_CUR); if (ref $size eq 'U64') { seek($fh, $size->get64bit(), SEEK_CUR); } else { seek($fh, $size, SEEK_CUR); } } sub myRead { my $got = \$_[0] ; my $size = $_[1]; my $wantSize = $size; $$got = ''; if ($size == 0) { return ; } if ($size > 0) { my $buff ; my $status = $FH->read($buff, $size); return $status if $status < 0; $$got .= $buff ; } my $len = length $$got; die "Truncated file (got $len, wanted $wantSize): $!\n" if length $$got != $wantSize; } sub walkExtra { my $XLEN = shift; my $context = shift; my $buff ; my $offset = 0 ; my $id; my $subLen; my $payload ; my $count = 0 ; while ($offset < $XLEN) { ++ $count; # Detect if there is not enough data for an extra ID and length. # Android zipalign and zipflinger are prime candidates for these # non-standard extra sub-fields. my $remaining = $XLEN - $offset; if ($remaining < ZIP_EXTRA_SUBFIELD_HEADER_SIZE) { # There is not enough. Consume whatever is there and return so parsing # can continue. myRead($payload, $remaining); my $data = hexDump($payload); out $payload, "Malformed Extra Data", $data; return undef; } myRead($id, ZIP_EXTRA_SUBFIELD_ID_SIZE); $offset += ZIP_EXTRA_SUBFIELD_ID_SIZE; my $lookID = unpack "v", $id ; my ($who, $decoder) = @{ defined $Extras{$lookID} ? $Extras{$lookID} : ['', undef] }; #my ($who, $decoder) = @{ $Extras{unpack "v", $id} || ['', undef] }; $who = "$id: $who" if $id =~ /\w\w/ ; $who = "'$who'"; out $id, "Extra ID #" . Value_v($count), unpackValue_v($id) . " $who" ; myRead($buff, ZIP_EXTRA_SUBFIELD_LEN_SIZE); $offset += ZIP_EXTRA_SUBFIELD_LEN_SIZE; $subLen = unpack("v", $buff); out2 $buff, "Length", Value_v($subLen) ; return undef if $offset + $subLen > $XLEN ; if (! defined $decoder) { if ($subLen) { myRead($payload, $subLen); my $data = hexDump($payload); out2 $payload, "Extra Payload", $data; } } else { $decoder->($subLen, $context) ; } $offset += $subLen ; } return undef ; } sub full32 { return $_[0] == 0xFFFFFFFF ; } sub decode_Zip64 { my $len = shift; my $context = shift; my $z64Data = $context->{Zip64}; $ZIP64 = 1; if (full32 $z64Data->[0] ) { out_VV " Uncompressed Size"; } if (full32 $z64Data->[1] ) { out_VV " Compressed Size"; } if (full32 $z64Data->[2] ) { out_VV " Offset to Local Dir"; } if ($z64Data->[3] == 0xFFFF ) { out_V " Disk Number"; } } sub Ntfs2Unix { my $v = shift; my $u64 = shift; # NTFS offset is 19DB1DED53E8000 my $hex = Value_U64($u64) ; my $NTFS_OFFSET = U64->new( 0x19DB1DE, 0xD53E8000 ); $u64->subtract($NTFS_OFFSET); my $elapse = $u64->get64bit(); my $ns = ($elapse % 10000000) * 100; $elapse = int ($elapse/10000000); return "$hex '" . localtime($elapse) . " " . sprintf("%0dns'", $ns); } sub decode_NTFS_Filetimes { my $len = shift; my $context = shift; out_V " Reserved"; out_v " Tag1"; out_v " Size1" ; my ($m, $s1) = read_U64; out $m, " Mtime", Ntfs2Unix($m, $s1); my ($c, $s2) = read_U64; out $c, " Ctime", Ntfs2Unix($m, $s2); my ($a, $s3) = read_U64; out $m, " Atime", Ntfs2Unix($m, $s3); } sub getTime { my $time = shift ; return "'" . localtime($time) . "'" ; } sub decode_UT { my $len = shift; my $context = shift; my ($data, $flags) = read_C(); my $f = Value_C $flags; $f .= " mod" if $flags & 1; $f .= " access" if $flags & 2; $f .= " change" if $flags & 4; out $data, " Flags", "'$f'"; -- $len; if ($flags & 1) { my ($data, $time) = read_V(); out2 $data, "Mod Time", Value_V($time) . " " . getTime($time) ; $len -= 4 ; } if ($flags & 2 && $len > 0 ) { my ($data, $time) = read_V(); out2 $data, "Access Time", Value_V($time) . " " . getTime($time) ; $len -= 4 ; } if ($flags & 4 && $len > 0) { my ($data, $time) = read_V(); out2 $data, "Change Time", Value_V($time) . " " . getTime($time) ; } } sub decode_AES { my $len = shift; my $context = shift; return if $len == 0 ; my %lookup = ( 1 => "AE-1", 2 => "AE-2"); out_v " Vendor Version", sub { $lookup{$_[0]} || "Unknown" } ; my $id ; myRead($id, 2); out $id, " Vendor ID", unpackValue_v($id) . " '$id'"; my %strengths = (1 => "128-bit encryption key", 2 => "192-bit encryption key", 3 => "256-bit encryption key", ); my $strength = out_C " Encryption Strength", sub {$strengths{$_[0]} || "Unknown" } ; my ($bmethod, $method) = read_v(); out $bmethod, " Compression Method", compressionMethod($method) ; $context->{AesStrength} = $strength ; } sub decode_GrowthHint { my $len = shift; my $context = shift; my $inCentralHdr = $context->{InCentralDir} ; return if $len == 0 ; out_v " Signature" ; out_v " Initial Value"; my $padding; myRead($padding, $len - 4); my $data = hexDump($padding); out2 $padding, "Padding", $data; } sub decode_UX { my $len = shift; my $context = shift; my $inCentralHdr = $context->{InCentralDir} ; return if $len == 0 ; my ($data, $time) = read_V(); out2 $data, "Access Time", Value_V($time) . " " . getTime($time) ; ($data, $time) = read_V(); out2 $data, "Mod Time", Value_V($time) . " " . getTime($time) ; if (! $inCentralHdr ) { out_v " UID" ; out_v " GID"; } } sub decode_Ux { my $len = shift; my $context = shift; return if $len == 0 ; out_v " UID" ; out_v " GID"; } sub decodeLitteEndian { my $value = shift ; if (length $value == 4) { return Value_V unpack ("V", $value) } else { # TODO - fix this die "unsupported\n"; } my $got = 0 ; my $shift = 0; #hexDump #reverse #my @a =unpack "C*", $value; #@a = reverse @a; #hexDump(@a); for (reverse unpack "C*", $value) { $got = ($got << 8) + $_ ; } return $got ; } sub decode_ux { my $len = shift; my $context = shift; return if $len == 0 ; out_C " Version" ; my $uidSize = out_C " UID Size"; myRead(my $data, $uidSize); out2 $data, "UID", decodeLitteEndian($data); my $gidSize = out_C " GID Size"; myRead($data, $gidSize); out2 $data, "GID", decodeLitteEndian($data); } sub decode_Java_exe { my $len = shift; my $context = shift; } sub decode_up { my $len = shift; my $context = shift; out_C " Version"; out_V " NameCRC32"; myRead(my $data, $len - 5); out $data, " UnicodeName", $data; } sub decode_Xceed_unicode { my $len = shift; my $context = shift; my $data ; # guess the fields used for this one myRead($data, 4); out $data, " ID", $data; out_v " Length"; out_v " Null"; myRead($data, $len - 8); out $data, " UTF16LE Name", decode("UTF16LE", $data); } sub decode_NT_security { my $len = shift; my $context = shift; my $inCentralHdr = $context->{InCentralDir} ; out_V " Uncompressed Size" ; if (! $inCentralHdr) { out_C " Version" ; out_v " Type"; out_V " NameCRC32" ; my $plen = $len - 4 - 1 - 2 - 4; myRead(my $payload, $plen); out $plen, " Extra Payload", hexDump($payload); } } sub decodeMVS { my $len = shift; my $context = shift; # data in Big-Endian myRead(my $data, $len); my $ID = unpack("N", $data); if ($ID == 0xE9F3F9F0) { out($data, " ID", "'Z390'"); substr($data, 0, 4) = ''; } out($data, " Extra Payload", hexDump($data)); } sub printAes { my $context = shift ; my %saltSize = ( 1 => 8, 2 => 12, 3 => 16, ); myRead(my $salt, $saltSize{$context->{AesStrength} }); out $salt, "AES Salt", hexDump($salt); myRead(my $pwv, 2); out $pwv, "AES Pwd Ver", hexDump($pwv); return $saltSize{$context->{AesStrength}} + 2 + 10; } sub printLzmaProperties { my $len = 0; my $b1; my $b2; my $buffer; myRead($b1, 2); my ($verHi, $verLow) = unpack ("CC", $b1); out $b1, "LZMA Version", sprintf("%02X%02X", $verHi, $verLow) . " '$verHi.$verLow'"; my $LzmaPropertiesSize = out_v "LZMA Properties Size"; $len += 4; my $LzmaInfo = out_C "LZMA Info", sub { $_[0] == 93 ? "(Default)" : ""}; my $PosStateBits = 0; my $LiteralPosStateBits = 0; my $LiteralContextBits = 0; $PosStateBits = int($LzmaInfo / (9 * 5)); $LzmaInfo -= $PosStateBits * 9 * 5; $LiteralPosStateBits = int($LzmaInfo / 9); $LiteralContextBits = $LzmaInfo - $LiteralPosStateBits * 9; out1 " PosStateBits", $PosStateBits; out1 " LiteralPosStateBits", $LiteralPosStateBits; out1 " LiteralContextBits", $LiteralContextBits; out_V "LZMA Dictionary Size"; # TODO - assumption that this is 5 $len += $LzmaPropertiesSize; skip($FH, $LzmaPropertiesSize - 5) if $LzmaPropertiesSize != 5 ; return $len; } sub scanCentralDirectory { my $fh = shift; my $here = $fh->tell(); # Use cases # 1 32-bit CD # 2 64-bit CD my @CD = (); my $offset = findCentralDirectoryOffset($fh); return () if ! defined $offset; $fh->seek($offset, SEEK_SET) ; # Now walk the Central Directory Records my $buffer ; while ($fh->read($buffer, 46) == 46 && unpack("V", $buffer) == ZIP_CENTRAL_HDR_SIG) { my $compressedLength = unpack("V", substr($buffer, 20, 4)); my $uncompressedLength = unpack("V", substr($buffer, 24, 4)); my $filename_length = unpack("v", substr($buffer, 28, 2)); my $extra_length = unpack("v", substr($buffer, 30, 2)); my $comment_length = unpack("v", substr($buffer, 32, 2)); my $locHeaderOffset = unpack("V", substr($buffer, 42, 4)); skip($fh, $filename_length ) ; if ($extra_length) { $fh->read(my $extraField, $extra_length) ; # $self->smartReadExact(\$extraField, $extra_length); # Check for Zip64 # my $zip64Extended = findID("\x01\x00", $extraField); my $zip64Extended = findID(0x0001, $extraField); if ($zip64Extended) { if ($uncompressedLength == 0xFFFFFFFF) { $uncompressedLength = Value_VV64 substr($zip64Extended, 0, 8, ""); # $uncompressedLength = unpack "Q<", substr($zip64Extended, 0, 8, ""); } if ($compressedLength == 0xFFFFFFFF) { $compressedLength = Value_VV64 substr($zip64Extended, 0, 8, ""); # $compressedLength = unpack "Q<", substr($zip64Extended, 0, 8, ""); } if ($locHeaderOffset == 0xFFFFFFFF) { $locHeaderOffset = Value_VV64 substr($zip64Extended, 0, 8, ""); # $locHeaderOffset = unpack "Q<", substr($zip64Extended, 0, 8, ""); } } } my $got = [$locHeaderOffset, $compressedLength] ; # my $v64 = U64->new( $compressedLength ); # my $loc64 = U64->new( $locHeaderOffset ); # my $got = [$loc64, $v64] ; # if (full32 $compressedLength || full32 $locHeaderOffset) { # $fh->read($buffer, $extra_length) ; # # TODO - fix this # die "xxx $offset $comment_length $filename_length $extra_length" . length($buffer) # if length($buffer) != $extra_length; # $got = get64Extra($buffer, full32($uncompressedLength), # $v64, # $loc64); # # If not Zip64 extra field, assume size is 0xFFFFFFFF # #$v64 = $got if defined $got; # } # else { # skip($fh, $extra_length) ; # } skip($fh, $comment_length ) ; push @CD, $got ; } $fh->seek($here, SEEK_SET) ; # @CD = sort { $a->[0]->cmp($b->[0]) } @CD ; @CD = sort { $a->[0] <=> $b->[0] } @CD ; # Set the first Local File Header offset. $START = $CD[0]->[0] if @CD ; return (1, $offset, @CD); } sub offsetFromZip64 { my $fh = shift ; my $here = shift; $fh->seek($here - 20, SEEK_SET) # TODO - fix this or die "xx $!" ; my $buffer; my $got = 0; ($got = $fh->read($buffer, 20)) == 20 # TODO - fix this or die "xxx $here $got $!" ; if ( unpack("V", $buffer) == ZIP64_END_CENTRAL_LOC_HDR_SIG ) { my $cd64 = Value_VV64 substr($buffer, 8, 8); $fh->seek($cd64, SEEK_SET) ; $fh->read($buffer, 4) == 4 # TODO - fix this or die "xxx" ; if ( unpack("V", $buffer) == ZIP64_END_CENTRAL_REC_HDR_SIG ) { $fh->read($buffer, 8) == 8 # TODO - fix this or die "xxx" ; my $size = Value_VV64($buffer); $fh->read($buffer, $size) == $size # TODO - fix this or die "xxx" ; my $cd64 = Value_VV64 substr($buffer, 36, 8); return $cd64 ; } die "Cannot find 'Zip64 end of central directory record': 0x06054b50\nTry running with --scan option.\n" ; } die "Cannot find signature for 'Zip64 end of central directory locator': 0x07064b50 \nTry running with --scan option.\n" ; } use constant Pack_ZIP_END_CENTRAL_HDR_SIG => pack("V", ZIP_END_CENTRAL_HDR_SIG); sub findCentralDirectoryOffset { my $fh = shift ; # Most common use-case is where there is no comment, so # know exactly where the end of central directory record # should be. $fh->seek(-22, SEEK_END) ; my $here = $fh->tell(); my $is64bit = $here > 0xFFFFFFFF; my $over64bit = $here & (~ 0xFFFFFFFF); my $buffer; $fh->read($buffer, 22) == 22 # TODO - fix this or die "xxx" ; my $zip64 = 0; my $centralDirOffset ; if ( unpack("V", $buffer) == ZIP_END_CENTRAL_HDR_SIG ) { $centralDirOffset = unpack("V", substr($buffer, 16, 4)); } else { $fh->seek(0, SEEK_END) ; my $fileLen = $fh->tell(); my $want = 0 ; while(1) { $want += 1024 * 32; my $seekTo = $fileLen - $want; if ($seekTo < 0 ) { $seekTo = 0; $want = $fileLen ; } $fh->seek( $seekTo, SEEK_SET) # TODO - fix this or die "xxx $!" ; my $got; ($got = $fh->read($buffer, $want)) == $want # TODO - fix this or die "xxx $got $!" ; my $pos = rindex( $buffer, Pack_ZIP_END_CENTRAL_HDR_SIG); if ($pos >= 0 && $want - $pos > 22) { $here = $seekTo + $pos ; $centralDirOffset = unpack("V", substr($buffer, $pos + 16, 4)); my $commentLength = unpack("V", substr($buffer, $pos + 20, 2)); $commentLength = 0 if ! defined $commentLength ; my $expectedEof = $fileLen - $want + $pos + 22 + $commentLength ; # check for trailing data after end of zip if ($expectedEof < $fileLen ) { $TRAILING = $expectedEof ; } last ; } return undef if $want == $fileLen; } } if (full32 $centralDirOffset) { $centralDirOffset = offsetFromZip64($fh, $here) } elsif ($is64bit) { # use-case is where a 64-bit zip file doesn't use the 64-bit # extensions. print "EOCD not 64-bit $centralDirOffset ($here)\n" ; push @Messages, sprintf "Zip file > 4Gig. Expected 'Offset to Central Dir' to be 0xFFFFFFFF, got 0x%X\n", $centralDirOffset; $centralDirOffset += $over64bit; $is64In32 = 1; } return $centralDirOffset ; } sub findID { my $id_want = shift ; my $data = shift; my $XLEN = length $data ; my $offset = 0 ; while ($offset < $XLEN) { return undef if $offset + ZIP_EXTRA_SUBFIELD_HEADER_SIZE > $XLEN ; my $id = substr($data, $offset, ZIP_EXTRA_SUBFIELD_ID_SIZE); $id = unpack("v", $id); $offset += ZIP_EXTRA_SUBFIELD_ID_SIZE; my $subLen = unpack("v", substr($data, $offset, ZIP_EXTRA_SUBFIELD_LEN_SIZE)); $offset += ZIP_EXTRA_SUBFIELD_LEN_SIZE ; return undef if $offset + $subLen > $XLEN ; return substr($data, $offset, $subLen) if $id eq $id_want ; $offset += $subLen ; } return undef ; } sub _dosToUnixTime { my $dt = shift; 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 ); use POSIX 'mktime'; my $time_t = mktime( $sec, $min, $hour, $mday, $mon, $year, 0, 0, -1 ); return 0 if ! defined $time_t; return $time_t; } { package U64; use constant MAX32 => 0xFFFFFFFF ; use constant HI_1 => MAX32 + 1 ; use constant LOW => 0 ; use constant HIGH => 1; sub new { my $class = shift ; my $high = 0 ; my $low = 0 ; if (@_ == 2) { $high = shift ; $low = shift ; } elsif (@_ == 1) { my $value = shift ; if ($value > MAX32) { $high = $value >> 32 ; $low = $value & MAX32; } else { $low = $value ; } } bless [$low, $high], $class; } sub newUnpack_V64 { my $string = shift; my ($low, $hi) = unpack "V V", $string ; bless [ $low, $hi ], "U64"; } sub newUnpack_V32 { my $string = shift; my $low = unpack "V", $string ; bless [ $low, 0 ], "U64"; } sub reset { my $self = shift; $self->[HIGH] = $self->[LOW] = 0; } sub clone { my $self = shift; bless [ @$self ], ref $self ; } sub mkU64 { my $value = shift; return $value if ref $value eq 'U64'; bless [ $value, 0 ], "U64" ; } sub getHigh { my $self = shift; return $self->[HIGH]; } sub getLow { my $self = shift; return $self->[LOW]; } sub get32bit { my $self = shift; return $self->[LOW]; } sub get64bit { my $self = shift; # Not using << here because the result will still be # a 32-bit value on systems where int size is 32-bits return $self->[HIGH] * HI_1 + $self->[LOW]; } sub add { my $self = shift; my $value = shift; if (ref $value eq 'U64') { $self->[HIGH] += $value->[HIGH] ; $value = $value->[LOW]; } my $available = MAX32 - $self->[LOW] ; if ($value > $available) { ++ $self->[HIGH] ; $self->[LOW] = $value - $available - 1; } else { $self->[LOW] += $value ; } } sub subtract { my $self = shift; my $value = shift; if (ref $value eq 'U64') { if ($value->[HIGH]) { die "unsupport subtract option" if $self->[HIGH] == 0 || $value->[HIGH] > $self->[HIGH] ; $self->[HIGH] -= $value->[HIGH] ; } $value = $value->[LOW] ; } if ($value > $self->[LOW]) { -- $self->[HIGH] ; $self->[LOW] = MAX32 - $value + $self->[LOW] + 1; } else { $self->[LOW] -= $value; } } sub rshift { my $self = shift; my $count = shift; for (1 .. $count) { $self->[LOW] >>= 1; $self->[LOW] |= 0x80000000 if $self->[HIGH] & 1 ; $self->[HIGH] >>= 1; } } sub is64bit { my $self = shift; return $self->[HIGH] > 0 ; } sub getPacked_V64 { my $self = shift; return pack "V V", @$self ; } sub getPacked_V32 { my $self = shift; return pack "V", $self->[LOW] ; } sub pack_V64 { my $low = shift; return pack "V V", $low, 0; } sub max32 { my $self = shift; return $self->[HIGH] == 0 && $self->[LOW] == MAX32; } sub stringify { my $self = shift; return "High [$self->[HIGH]], Low [$self->[LOW]]"; } sub equal { my $self = shift; my $other = shift; return $self->[LOW] == $other->[LOW] && $self->[HIGH] == $other->[HIGH] ; } sub gt { my $self = shift; my $other = shift; return $self->cmp($other) > 0 ; } sub cmp { my $self = shift; my $other = shift ; if ($self->[LOW] == $other->[LOW]) { return $self->[HIGH] - $other->[HIGH] ; } else { return $self->[LOW] - $other->[LOW] ; } } sub nibbles { my @nibbles = ( [ 16 => HI_1 * 0x10000000 ], [ 15 => HI_1 * 0x1000000 ], [ 14 => HI_1 * 0x100000 ], [ 13 => HI_1 * 0x10000 ], [ 12 => HI_1 * 0x1000 ], [ 11 => HI_1 * 0x100 ], [ 10 => HI_1 * 0x10 ], [ 9 => HI_1 * 0x1 ], [ 8 => 0x10000000 ], [ 7 => 0x1000000 ], [ 6 => 0x100000 ], [ 5 => 0x10000 ], [ 4 => 0x1000 ], [ 3 => 0x100 ], [ 2 => 0x10 ], [ 1 => 0x1 ], ); my $value = shift ; for my $pair (@nibbles) { my ($count, $limit) = @{ $pair }; return $count if $value >= $limit ; } } } { package Seen; sub new { my $class = shift ; my %object = ( overlaps => [], detail => [], ) ; bless \%object, $class; } sub save { my $self = shift ; my $hdrId = shift; my $name = shift; my $from_offset = shift; my $to_offset = shift ; for my $entry ( @{ $self->{detail} } ) { if ( $from_offset == $entry->{from} && $to_offset == $entry->{to} ) { warn "$hdrId: '$name' matches with $entry->{str}\n" } elsif ( ($from_offset >= $entry->{from} && $from_offset <= $entry->{to} ) || ($to_offset >= $entry->{from} && $to_offset <= $entry->{to} ) ) { # die "overlap!" # push @{ $self->{overlap} }, die "$hdrId: '$name' overlaps with $entry->{str}\n" } } warn "ADD $from_offset $to_offset $hdrId: $name\n"; push @{ $self->{detail} }, { from => $from_offset, to => $to_offset, id => $hdrId, name => $name, str => "$hdrId: '$name'", } ; } sub summary { my $self = shift ; for my $outer ( sort { $a->{from} <=> $b->{from} } @{ $self->{detail} } ) { my $from_offset = $outer->{from}; my $to_offset = $outer->{to}; my $hdrId = $outer->{id}; my $name = $outer->{name}; for my $entry ( sort { $a->{from} <=> $b->{from} } @{ $self->{detail} } ) { # next if if ( ($from_offset >= $entry->{from} && $from_offset <= $entry->{to} ) || ($to_offset >= $entry->{from} && $to_offset <= $entry->{to} ) ) { # die "overlap!" die $entry->{str} . " overlaps with $hdrId: '$name'\n" } } } } } sub Usage { if (@_) { warn "$_\n" for @_ ; warn "\n"; } die < for details). =head2 Default Behaviour By default the program expects to be given a well-formed zip file. It will navigate the Zip file by first parsing the zip central directory at the end of the file. If that is found, it will then walk through the zip records starting at the beginning of the file. Any badly formed zip data structures encountered are likely to terminate the program. If the program finds any structural problems with the zip file it will print a summary at the end of the output report. The set of error cases reported is very much a work in progress, so don't rely on this feature to find all the possible errors in a zip file. If you have suggestions for use-cases where this could be enhanced please consider creating an enhancement request (see L<"SUPPORT">). =head2 Scan-Mode If you do have a potentially corrupt zip file, particulatly where the central directory at the end of the file is absent/incomplete, you can try usng the C<--scan> option to search for zip records that are still present. When Scan-mode is enabled, the program will walk the zip file from the start blindly looking for the 4-byte signatures that preceed each of the zip data structures. If it finds any of the recognised signatures it will attempt to dump the associated zip record. For very large zip files, this operation can take a long time to run. Note that the 4-byte signatures used in zip files can sometimes match with random data stored in the zip file, so care is needed interpreting the results. =head2 OPTIONS =over 5 =item -h Display help =item --scan Walk the zip file loking for possible zip records. Can be error-prone. See L<"Scan-Mode"> =item -v Enable Verbose mode. See L<"Verbose Output">. =item --version Display version number of the program and exit. =back =head2 Default Output By default zipdetails will output the details of the zip file in three columns. =over 5 =item Column 1 This contains the offset from the start of the file in hex. =item Column 2 This contains a textual description of the field. =item Column 3 If the field contains a numeric value it will be displayed in hex. Zip stores most numbers in little-endian format - the value displayed will have the little-endian encoding removed. Next, is an optional description of what the value means. =back =head2 Verbose Output If the C<-v> option is present, column 1 is expanded to include =over 5 =item * The offset from the start of the file in hex. =item * The length of the field in hex. =item * A hex dump of the bytes in field in the order they are stored in the zip file. =back =head1 LIMITATIONS The following zip file features are not supported by this program: =over 5 =item * Multi-part archives. =item * The strong encryption features defined in the "APPNOTE" document. =back =head1 TODO Error handling is a work in progress. If the program encounters a problem reading a zip file it is likely to terminate with an unhelpful error message. =head1 SUPPORT General feedback/questions/bug reports should be sent to L (preferred) or L. =head1 SEE ALSO The primary reference for Zip files is the "APPNOTE" document available at L. An alternative reference is the Info-Zip appnote. This is available from L The C program that comes with the info-zip distribution (L) can also display details of the structure of a zip file. See also L, L, L. =head1 AUTHOR Paul Marquess F. =head1 COPYRIGHT Copyright (c) 2011-2021 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.