#------------------------------------------------------------------------------ # File: Flash.pm # # Description: Read Shockwave Flash meta information # # Revisions: 05/16/2006 - P. Harvey Created # 06/07/2007 - PH Added support for FLV (Flash Video) files # 10/23/2008 - PH Added support for XMP in FLV and SWF # # References: 1) http://www.the-labs.com/MacromediaFlash/SWF-Spec/SWFfileformat.html # 2) http://sswf.sourceforge.net/SWFalexref.html # 3) http://osflash.org/flv/ # 4) http://www.irisa.fr/texmex/people/dufouil/ffmpegdoxy/flv_8h.html # 5) http://www.adobe.com/devnet/xmp/pdfs/XMPSpecificationPart3.pdf (Oct 2008) # 6) http://www.adobe.com/devnet/swf/pdf/swf_file_format_spec_v9.pdf # 7) http://help.adobe.com/en_US/FlashMediaServer/3.5_Deving/WS5b3ccc516d4fbf351e63e3d11a0773d56e-7ff6.html # 8) http://www.adobe.com/devnet/flv/pdf/video_file_format_spec_v10.pdf # # Notes: I'll add AMF3 support if someone sends me a FLV with AMF3 data #------------------------------------------------------------------------------ package Image::ExifTool::Flash; use strict; use vars qw($VERSION); use Image::ExifTool qw(:DataAccess :Utils); use Image::ExifTool::FLAC; $VERSION = '1.12'; sub ProcessMeta($$$;$); # Meta packets that we process my %processMetaPacket = ( onMetaData => 1, onXMPData => 1 ); # information extracted from SWF header %Image::ExifTool::Flash::Main = ( GROUPS => { 2 => 'Video' }, VARS => { ALPHA_FIRST => 1 }, NOTES => q{ The information below is extracted from SWF (Shockwave Flash) files. Tags with string ID's represent information extracted from the file header. }, FlashVersion => { }, Compressed => { PrintConv => { 0 => 'False', 1 => 'True' } }, ImageWidth => { }, ImageHeight => { }, FrameRate => { }, FrameCount => { }, Duration => { Notes => 'calculated from FrameRate and FrameCount', PrintConv => 'ConvertDuration($val)', }, 69 => { Name => 'FlashAttributes', PrintConv => { BITMASK => { 0 => 'UseNetwork', 3 => 'ActionScript3', 4 => 'HasMetadata', } }, }, 77 => { Name => 'XMP', SubDirectory => { TagTable => 'Image::ExifTool::XMP::Main' }, }, ); # packets in Flash Video files %Image::ExifTool::Flash::FLV = ( NOTES => q{ Information is extracted from the following packets in FLV (Flash Video) files. }, 0x08 => { Name => 'Audio', BitMask => 0x04, SubDirectory => { TagTable => 'Image::ExifTool::Flash::Audio' }, }, 0x09 => { Name => 'Video', BitMask => 0x01, SubDirectory => { TagTable => 'Image::ExifTool::Flash::Video' }, }, 0x12 => { Name => 'Meta', SubDirectory => { TagTable => 'Image::ExifTool::Flash::Meta' }, }, ); # tags in Flash Video packet header %Image::ExifTool::Flash::Audio = ( PROCESS_PROC => \&Image::ExifTool::FLAC::ProcessBitStream, GROUPS => { 2 => 'Audio' }, NOTES => 'Information extracted from the Flash Audio header.', 'Bit0-3' => { Name => 'AudioEncoding', PrintConv => { 0 => 'PCM-BE (uncompressed)', # PCM-BE according to ref 4 1 => 'ADPCM', 2 => 'MP3', 3 => 'PCM-LE (uncompressed)', #4 4 => 'Nellymoser 16kHz Mono', #8 5 => 'Nellymoser 8kHz Mono', 6 => 'Nellymoser', 7 => 'G.711 A-law logarithmic PCM', #8 8 => 'G.711 mu-law logarithmic PCM', #8 # (9 is reserved, ref 8) 10 => 'AAC', #8 11 => 'Speex', #8 13 => 'MP3 8-Khz', #8 15 => 'Device-specific sound', #8 }, }, 'Bit4-5' => { Name => 'AudioSampleRate', ValueConv => { 0 => 5512, 1 => 11025, 2 => 22050, 3 => 44100, }, }, 'Bit6' => { Name => 'AudioBitsPerSample', ValueConv => '8 * ($val + 1)', }, 'Bit7' => { Name => 'AudioChannels', ValueConv => '$val + 1', PrintConv => { 1 => '1 (mono)', 2 => '2 (stereo)', }, }, ); # tags in Flash Video packet header %Image::ExifTool::Flash::Video = ( PROCESS_PROC => \&Image::ExifTool::FLAC::ProcessBitStream, GROUPS => { 2 => 'Video' }, NOTES => 'Information extracted from the Flash Video header.', 'Bit4-7' => { Name => 'VideoEncoding', PrintConv => { 1 => 'JPEG', #8 2 => 'Sorensen H.263', 3 => 'Screen Video', 4 => 'On2 VP6', 5 => 'On2 VP6 Alpha', #3 6 => 'Screen Video 2', #3 7 => 'H.264', #7 (called "AVC" by ref 8) }, }, ); # tags in Flash META packet (in ActionScript Message Format) %Image::ExifTool::Flash::Meta = ( PROCESS_PROC => \&ProcessMeta, GROUPS => { 2 => 'Video' }, NOTES => q{ Below are a few observed FLV Meta tags, but ExifTool will attempt to extract information from any tag found. }, 'audiocodecid' => { Name => 'AudioCodecID', Groups => { 2 => 'Audio' } }, 'audiodatarate' => { Name => 'AudioBitrate', Groups => { 2 => 'Audio' }, ValueConv => '$val * 1000', PrintConv => 'ConvertBitrate($val)', }, 'audiodelay' => { Name => 'AudioDelay', Groups => { 2 => 'Audio' } }, 'audiosamplerate'=>{ Name => 'AudioSampleRate', Groups => { 2 => 'Audio' } }, 'audiosamplesize'=>{ Name => 'AudioSampleSize', Groups => { 2 => 'Audio' } }, 'audiosize' => { Name => 'AudioSize', Groups => { 2 => 'Audio' } }, 'bytelength' => 'ByteLength', # (youtube) 'canseekontime' => 'CanSeekOnTime', # (youtube) 'canSeekToEnd' => 'CanSeekToEnd', 'creationdate' => { # (not an AMF date type in my sample) Name => 'CreateDate', Groups => { 2 => 'Time' }, ValueConv => '$val=~s/\s+$//; $val', # trim trailing whitespace }, 'createdby' => 'CreatedBy', #7 'cuePoints' => { Name => 'CuePoint', SubDirectory => { TagTable => 'Image::ExifTool::Flash::CuePoint' }, }, 'datasize' => 'DataSize', 'duration' => { Name => 'Duration', PrintConv => 'ConvertDuration($val)', }, 'filesize' => 'FileSizeBytes', 'framerate' => { Name => 'FrameRate', PrintConv => 'int($val * 1000 + 0.5) / 1000', }, 'hasAudio' => { Name => 'HasAudio', Groups => { 2 => 'Audio' } }, 'hasCuePoints' => 'HasCuePoints', 'hasKeyframes' => 'HasKeyFrames', 'hasMetadata' => 'HasMetadata', 'hasVideo' => 'HasVideo', 'height' => 'ImageHeight', 'httphostheader'=> 'HTTPHostHeader', # (youtube) 'keyframesTimes'=> 'KeyFramesTimes', 'keyframesFilepositions' => 'KeyFramePositions', 'lasttimestamp' => 'LastTimeStamp', 'lastkeyframetimestamp' => 'LastKeyFrameTime', 'metadatacreator'=>'MetadataCreator', 'metadatadate' => { Name => 'MetadataDate', Groups => { 2 => 'Time' }, PrintConv => '$self->ConvertDateTime($val)', }, 'purl' => 'URL', # (youtube) (what does P mean?) 'pmsg' => 'Message', # (youtube) (what does P mean?) 'sourcedata' => 'SourceData', # (youtube) 'starttime' => { # (youtube) Name => 'StartTime', PrintConv => 'ConvertDuration($val)', }, 'stereo' => { Name => 'Stereo', Groups => { 2 => 'Audio' } }, 'totalduration' => { # (youtube) Name => 'TotalDuration', PrintConv => 'ConvertDuration($val)', }, 'totaldatarate' => { # (youtube) Name => 'TotalDataRate', ValueConv => '$val * 1000', PrintConv => 'int($val + 0.5)', }, 'totalduration' => 'TotalDuration', 'videocodecid' => 'VideoCodecID', 'videodatarate' => { Name => 'VideoBitrate', ValueConv => '$val * 1000', PrintConv => 'ConvertBitrate($val)', }, 'videosize' => 'VideoSize', 'width' => 'ImageWidth', # tags in 'onXMPData' packets 'liveXML' => { #5 Name => 'XMP', SubDirectory => { TagTable => 'Image::ExifTool::XMP::Main' }, }, ); # tags in Flash META CuePoint structure %Image::ExifTool::Flash::CuePoint = ( PROCESS_PROC => \&ProcessMeta, GROUPS => { 2 => 'Video' }, NOTES => q{ These tag names are added to the CuePoint name to generate complete tag names like "CuePoint0Name". }, 'name' => 'Name', 'type' => 'Type', 'time' => 'Time', 'parameters' => { Name => 'Parameter', SubDirectory => { TagTable => 'Image::ExifTool::Flash::Parameter' }, }, ); # tags in Flash META CuePoint Parameter structure %Image::ExifTool::Flash::Parameter = ( PROCESS_PROC => \&ProcessMeta, GROUPS => { 2 => 'Video' }, NOTES => q{ There are no pre-defined parameter tags, but ExifTool will extract any existing parameters, with tag names like "CuePoint0ParameterXxx". }, ); # name lookup for known AMF data types my @amfType = qw(double boolean string object movieClip null undefined reference mixedArray objectEnd array date longString unsupported recordSet XML typedObject AMF3data); # test for AMF structure types (object, mixed array or typed object) my %isStruct = ( 0x03 => 1, 0x08 => 1, 0x10 => 1 ); #------------------------------------------------------------------------------ # Process Flash Video AMF Meta packet (ref 3) # Inputs: 0) ExifTool object ref, 1) dirInfo ref, 2) tag table ref # 3) Set to extract single type/value only # Returns: 1 on success, (or type/value if extracting single value) # Notes: Updates DataPos in dirInfo if extracting single value sub ProcessMeta($$$;$) { my ($et, $dirInfo, $tagTablePtr, $single) = @_; my $dataPt = $$dirInfo{DataPt}; my $dataPos = $$dirInfo{DataPos}; my $dirLen = $$dirInfo{DirLen} || length($$dataPt); my $pos = $$dirInfo{Pos} || 0; my ($type, $val, $rec); $et->VerboseDir('Meta') unless $single; Record: for ($rec=0; ; ++$rec) { last if $pos >= $dirLen; $type = ord(substr($$dataPt, $pos)); ++$pos; if ($type == 0x00 or $type == 0x0b) { # double or date last if $pos + 8 > $dirLen; $val = GetDouble($dataPt, $pos); $pos += 8; if ($type == 0x0b) { # date $val /= 1000; # convert to seconds my $frac = $val - int($val); # fractional seconds # get time zone last if $pos + 2 > $dirLen; my $tz = Get16s($dataPt, $pos); $pos += 2; # construct date/time string $val = Image::ExifTool::ConvertUnixTime(int($val)); if ($frac) { $frac = sprintf('%.6f', $frac); $frac =~ s/(^0|0+$)//g; $val .= $frac; } # add timezone if ($tz < 0) { $val .= '-'; $tz *= -1; } else { $val .= '+'; } $val .= sprintf('%.2d:%.2d', int($tz/60), $tz%60); } } elsif ($type == 0x01) { # boolean last if $pos + 1 > $dirLen; $val = Get8u($dataPt, $pos); $val = { 0 => 'No', 1 => 'Yes' }->{$val} if $val < 2; ++$pos; } elsif ($type == 0x02) { # string last if $pos + 2 > $dirLen; my $len = Get16u($dataPt, $pos); last if $pos + 2 + $len > $dirLen; $val = substr($$dataPt, $pos + 2, $len); $pos += 2 + $len; } elsif ($isStruct{$type}) { # object, mixed array or typed object $et->VPrint(1, " + [$amfType[$type]]\n"); my $getName; $val = ''; # dummy value if ($type == 0x08) { # mixed array # skip last array index for mixed array last if $pos + 4 > $dirLen; $pos += 4; } elsif ($type == 0x10) { # typed object $getName = 1; } for (;;) { # get tag ID (or typed object name) last Record if $pos + 2 > $dirLen; my $len = Get16u($dataPt, $pos); if ($pos + 2 + $len > $dirLen) { $et->Warn("Truncated $amfType[$type] record"); last Record; } my $tag = substr($$dataPt, $pos + 2, $len); $pos += 2 + $len; # first string of a typed object is the object name if ($getName) { $et->VPrint(1," | (object name '${tag}')\n"); undef $getName; next; # (ignore name for now) } my $subTablePtr = $tagTablePtr; my $tagInfo = $$subTablePtr{$tag}; # switch to subdirectory table if necessary if ($tagInfo and $$tagInfo{SubDirectory}) { my $subTable = $tagInfo->{SubDirectory}->{TagTable}; # descend into Flash SubDirectory if ($subTable =~ /^Image::ExifTool::Flash::/) { $tag = $$tagInfo{Name}; # use our name for the tag $subTablePtr = GetTagTable($subTable); } } # get object value my $valPos = $pos + 1; $$dirInfo{Pos} = $pos; my $structName = $$dirInfo{StructName}; # add structure name to start of tag name $tag = $structName . ucfirst($tag) if defined $structName; $$dirInfo{StructName} = $tag; # set new structure name my ($t, $v) = ProcessMeta($et, $dirInfo, $subTablePtr, 1); $$dirInfo{StructName} = $structName;# restore original structure name $pos = $$dirInfo{Pos}; # update to new position in packet # all done if this value contained tags last Record unless defined $t and defined $v; next if $isStruct{$t}; # already handled tags in sub-structures next if ref($v) eq 'ARRAY' and not @$v; # ignore empty arrays last if $t == 0x09; # (end of object) if (not $$subTablePtr{$tag} and $tag =~ /^\w+$/) { AddTagToTable($subTablePtr, $tag, { Name => ucfirst($tag) }); $et->VPrint(1, " | (adding $tag)\n"); } $et->HandleTag($subTablePtr, $tag, $v, DataPt => $dataPt, DataPos => $dataPos, Start => $valPos, Size => $pos - $valPos, Format => $amfType[$t] || sprintf('0x%x',$t), ); } # } elsif ($type == 0x04) { # movie clip (not supported) } elsif ($type == 0x05 or $type == 0x06 or $type == 0x09 or $type == 0x0d) { # null, undefined, dirLen of object, or unsupported $val = ''; } elsif ($type == 0x07) { # reference last if $pos + 2 > $dirLen; $val = Get16u($dataPt, $pos); $pos += 2; } elsif ($type == 0x0a) { # array last if $pos + 4 > $dirLen; my $num = Get32u($dataPt, $pos); $$dirInfo{Pos} = $pos + 4; my ($i, @vals); # add array index to compount tag name my $structName = $$dirInfo{StructName}; for ($i=0; $i<$num; ++$i) { $$dirInfo{StructName} = $structName . $i if defined $structName; my ($t, $v) = ProcessMeta($et, $dirInfo, $tagTablePtr, 1); last Record unless defined $v; # save value unless contained in a sub-structure push @vals, $v unless $isStruct{$t}; } $$dirInfo{StructName} = $structName; $pos = $$dirInfo{Pos}; $val = \@vals; } elsif ($type == 0x0c or $type == 0x0f) { # long string or XML last if $pos + 4 > $dirLen; my $len = Get32u($dataPt, $pos); last if $pos + 4 + $len > $dirLen; $val = substr($$dataPt, $pos + 4, $len); $pos += 4 + $len; # } elsif ($type == 0x0e) { # record set (not supported) # } elsif ($type == 0x11) { # AMF3 data (can't add support for this without a test sample) } else { my $t = $amfType[$type] || sprintf('type 0x%x',$type); $et->Warn("AMF $t record not yet supported"); undef $type; # (so we don't print another warning) last; # can't continue } last if $single; # all done if extracting single value unless ($isStruct{$type}) { # only process certain Meta packets if ($type == 0x02 and not $rec) { my $verb = $processMetaPacket{$val} ? 'processing' : 'ignoring'; $et->VPrint(0, " | ($verb $val information)\n"); last unless $processMetaPacket{$val}; } else { # give verbose indication if we ignore a lone value my $t = $amfType[$type] || sprintf('type 0x%x',$type); $et->VPrint(1, " | (ignored lone $t value '${val}')\n"); } } } if (not defined $val and defined $type) { $et->Warn(sprintf("Truncated AMF record 0x%x",$type)); } return 1 unless $single; # all done $$dirInfo{Pos} = $pos; # update position return($type,$val); # return single type/value pair } #------------------------------------------------------------------------------ # Read information frame a Flash Video file # Inputs: 0) ExifTool object reference, 1) Directory information reference # Returns: 1 on success, 0 if this wasn't a valid Flash Video file sub ProcessFLV($$) { my ($et, $dirInfo) = @_; my $verbose = $et->Options('Verbose'); my $raf = $$dirInfo{RAF}; my $buff; $raf->Read($buff, 9) == 9 or return 0; $buff =~ /^FLV\x01/ or return 0; SetByteOrder('MM'); $et->SetFileType(); my ($flags, $offset) = unpack('x4CN', $buff); $raf->Seek($offset-9, 1) or return 1 if $offset > 9; $flags &= 0x05; # only look for audio/video my $found = 0; my $tagTablePtr = GetTagTable('Image::ExifTool::Flash::FLV'); for (;;) { $raf->Read($buff, 15) == 15 or last; my $len = unpack('x4N', $buff); my $type = $len >> 24; $len &= 0x00ffffff; my $tagInfo = $et->GetTagInfo($tagTablePtr, $type); if ($verbose > 1) { my $name = $tagInfo ? $$tagInfo{Name} : "type $type"; $et->VPrint(1, "FLV $name packet, len $len\n"); } undef $buff; if ($tagInfo and $$tagInfo{SubDirectory}) { my $mask = $$tagInfo{BitMask}; if ($mask) { # handle audio or video packet unless ($found & $mask) { $found |= $mask; $flags &= ~$mask; if ($len>=1 and $raf->Read($buff, 1) == 1) { $len -= 1; } else { $et->Warn("Bad $$tagInfo{Name} packet"); last; } } } elsif ($raf->Read($buff, $len) == $len) { $len = 0; } else { $et->Warn('Truncated Meta packet'); last; } } if (defined $buff) { $et->HandleTag($tagTablePtr, $type, undef, DataPt => \$buff, DataPos => $raf->Tell() - length($buff), ); } last unless $flags; $raf->Seek($len, 1) or last if $len; } return 1; } #------------------------------------------------------------------------------ # Found a Flash tag # Inputs: 0) ExifTool object ref, 1) tag name, 2) tag value sub FoundFlashTag($$$) { my ($et, $tag, $val) = @_; $et->HandleTag(\%Image::ExifTool::Flash::Main, $tag, $val); } #------------------------------------------------------------------------------ # Read data from possibly compressed file # Inputs: 0) RAF reference, 1) data buffer, 2) bytes to read, 2) compressed flag # Returns: number of bytes read (may be greater than requested bytes if compressed) # - concatenates data to current buffer # - updates compressed flag with reference to inflate object for future calls # (or sets to error message and returns zero on error) sub ReadCompressed($$$$) { my ($raf, $len, $inflate) = ($_[0], $_[2], $_[3]); my $buff; unless ($raf->Read($buff, $len)) { $_[3] = 'Error reading file'; return 0; } # uncompress if necessary if ($inflate) { unless (ref $inflate) { unless (eval { require Compress::Zlib }) { $_[3] = 'Install Compress::Zlib to extract compressed information'; return 0; } $inflate = Compress::Zlib::inflateInit(); unless ($inflate) { $_[3] = 'Error initializing inflate for Flash data'; return 0; } $_[3] = $inflate; # pass inflate object back to caller } my $tmp = $buff; $buff = ''; # read 64 more bytes at a time and inflate until we get enough uncompressed data for (;;) { my ($dat, $stat) = $inflate->inflate($tmp); if ($stat == Compress::Zlib::Z_STREAM_END() or $stat == Compress::Zlib::Z_OK()) { $buff .= $dat; # add inflated data to buffer last if length $buff >= $len or $stat == Compress::Zlib::Z_STREAM_END(); $raf->Read($tmp,64) or last; # must read a bit more data } else { $buff = ''; last; } } $_[3] = 'Error inflating compressed Flash data' unless length $buff; } $_[1] = defined $_[1] ? $_[1] . $buff : $buff; return length $buff; } #------------------------------------------------------------------------------ # Read information frame a Flash file # Inputs: 0) ExifTool object reference, 1) Directory information reference # Returns: 1 on success, 0 if this wasn't a valid Flash file sub ProcessSWF($$) { my ($et, $dirInfo) = @_; my $raf = $$dirInfo{RAF}; my ($buff, $hasMeta); $raf->Read($buff, 8) == 8 or return 0; $buff =~ /^(F|C)WS([^\0])/ or return 0; my ($compressed, $vers) = ($1 eq 'C' ? 1 : 0, ord($2)); SetByteOrder('II'); $et->SetFileType(); GetTagTable('Image::ExifTool::Flash::Main'); # make sure table is initialized FoundFlashTag($et, FlashVersion => $vers); FoundFlashTag($et, Compressed => $compressed); # read the next 64 bytes of the file (and inflate if necessary) $buff = ''; unless (ReadCompressed($raf, $buff, 64, $compressed)) { $et->Warn($compressed) if $compressed; return 1; } # unpack elements of bit-packed Flash Rect structure my $nBits = unpack('C', $buff) >> 3; # bits in x1,x2,y1,y2 elements my $totBits = 5 + $nBits * 4; # total bits in Rect structure my $nBytes = int(($totBits + 7) / 8); # byte length of Rect structure if (length $buff < $nBytes + 4) { $et->Warn('Truncated Flash file'); return 1; } my $bits = unpack("B$totBits", $buff); # isolate Rect elements and convert from ASCII bit strings to integers my @vals = unpack('x5' . "a$nBits" x 4, $bits); # (do conversion the hard way because oct("0b$val") requires Perl 5.6) map { $_ = unpack('N', pack('B32', '0' x (32 - length $_) . $_)) } @vals; # calculate and store ImageWidth/Height FoundFlashTag($et, ImageWidth => ($vals[1] - $vals[0]) / 20); FoundFlashTag($et, ImageHeight => ($vals[3] - $vals[2]) / 20); # get frame rate and count @vals = unpack("x${nBytes}v2", $buff); FoundFlashTag($et, FrameRate => $vals[0] / 256); FoundFlashTag($et, FrameCount => $vals[1]); FoundFlashTag($et, Duration => $vals[1] * 256 / $vals[0]) if $vals[0]; # scan through the tags to find FlashAttributes and XMP $buff = substr($buff, $nBytes + 4); for (;;) { my $buffLen = length $buff; last if $buffLen < 2; my $code = Get16u(\$buff, 0); my $pos = 2; my $tag = $code >> 6; my $size = $code & 0x3f; $et->VPrint(1, "SWF tag $tag ($size bytes):\n"); last unless $tag == 69 or $tag == 77 or $hasMeta; # read enough to get a complete short record if ($pos + $size > $buffLen) { # (read 2 extra bytes if available to get next tag word) unless (ReadCompressed($raf, $buff, $size + 2, $compressed)) { $et->Warn($compressed) if $compressed; return 1; } $buffLen = length $buff; last if $pos + $size > $buffLen; } # read extended record if necessary if ($size == 0x3f) { last if $pos + 4 > $buffLen; $size = Get32u(\$buff, $pos); $pos += 4; last if $size > 1000000; # don't read anything huge if ($pos + $size > $buffLen) { unless (ReadCompressed($raf, $buff, $size + 2, $compressed)) { $et->Warn($compressed) if $compressed; return 1; } $buffLen = length $buff; last if $pos + $size > $buffLen; } $et->VPrint(1, " [extended size $size bytes]\n"); } if ($tag == 69) { # FlashAttributes last unless $size; my $flags = Get8u(\$buff, $pos); FoundFlashTag($et, $tag => $flags); last unless $flags & 0x10; # only continue if we have metadata (XMP) $hasMeta = 1; } elsif ($tag == 77) { # Metadata my $val = substr($buff, $pos, $size); FoundFlashTag($et, $tag => $val); last; } last if $pos + 2 > $buffLen; $buff = substr($buff, $pos); # remove everything before the next tag } return 1; } 1; # end __END__ =head1 NAME Image::ExifTool::Flash - Read Shockwave Flash meta information =head1 SYNOPSIS This module is used by Image::ExifTool =head1 DESCRIPTION This module contains definitions required by Image::ExifTool to read SWF (Shockwave Flash) and FLV (Flash Video) files. =head1 NOTES Flash Video AMF3 support has not yet been added because I haven't yet found a FLV file containing AMF3 information. If someone sends me a sample then I will add AMF3 support. =head1 AUTHOR Copyright 2003-2018, Phil Harvey (phil at owl.phy.queensu.ca) This library is free software; you can redistribute it and/or modify it under the same terms as Perl itself. =head1 REFERENCES =over 4 =item L =item L =item L =item L =item L =item L =item L =back =head1 SEE ALSO L, L =cut