/usr/share/perl5/Audio/WMA.pm is in libaudio-wma-perl 1.3-1.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
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1222 1223 1224 1225 1226 1227 1228 1229 1230 1231 1232 1233 1234 1235 1236 1237 | package Audio::WMA;
use strict;
use vars qw($VERSION);
# WMA stores tags in UTF-16LE by default.
my $utf8 = 0;
# Minimum requirements
if ($] > 5.007) {
require Encode;
}
$VERSION = '1.3';
my %guidMapping = _knownGUIDs();
my %reversedGUIDs = reverse %guidMapping;
my %objectParsers = _knownParsers();
my $DEBUG = 0;
my $WORD = 2;
my $DWORD = 4;
my $QWORD = 8;
my $GUID = 16;
sub new {
my $class = shift;
my $file = shift;
my $size = shift;
my $self = {};
bless $self, $class;
if (ref $file) {
binmode $file;
$self->{'fileHandle'} = $file;
if ($size) {
$self->{'size'} = $size;
}
} else {
open(FILE, $file) or do {
warn "[$file] does not exist or cannot be read: $!";
return undef;
};
binmode FILE;
$self->{'filename'} = $file;
$self->{'fileHandle'} = \*FILE;
$self->{'size'} = -s $file;
}
$self->{'offset'} = 0;
$self->_parseWMAHeader();
delete $self->{'headerData'};
unless (ref $file) {
close $self->{'fileHandle'};
close FILE;
}
delete $self->{'fileHandle'};
return $self;
}
sub parseObject {
my $class = shift;
my $data = shift;
# Read the GUID for this object
my $hex = qr/[0-9A-F]/i;
my $gr = qr/($hex{8})($hex{4})($hex{4})($hex{4})($hex{12})/;
my $guid;
map { $guid .= $_ } unpack( 'H*', substr $data, 0, 16 );
$guid = uc( join '-', ( $guid =~ /$gr/ ) );
my $name = $reversedGUIDs{$guid};
# Set up a new WMA object for parsing
my $self = {
headerData => $data,
offset => 16,
};
bless $self, $class;
# Read the size
my $objectSize = _parse64BitString($self->_readAndIncrementOffset(8));
return -1 if !defined $objectSize;
my $parser = $objectParsers{$name};
if (ref $parser) {
$DEBUG && warn "Parsing $name (size: $objectSize)\n";
$parser->( $self );
} else {
$DEBUG && warn "No parser found for $name (size: $objectSize)\n";
}
return $self;
}
sub setConvertTagsToUTF8 {
my $class = shift;
my $val = shift;
$utf8 = $val if (($val == 0) || ($val == 1));
return $utf8;
}
sub setDebug {
my $self = shift;
$DEBUG = shift || 0;
}
sub info {
my ($self, $key) = @_;
return $self->{'INFO'} unless $key;
return $self->{'INFO'}{lc $key};
}
sub tags {
my ($self, $key) = @_;
return $self->{'TAGS'} unless $key;
return $self->{'TAGS'}{uc $key};
}
sub stream {
my ($self, $index) = @_;
return undef unless $self->{'STREAM'};
return $self->{'STREAM'} unless defined($index);
return $self->{'STREAM'}->[$index];
}
sub _readAndIncrementOffset {
my ($self, $size) = @_;
my $value = substr($self->{'headerData'}, $self->{'offset'}, $size);
$self->{'offset'} += $size;
return $value;
}
sub _readAndIncrementInlineOffset {
my ($self, $size) = @_;
my $value = substr($self->{'inlineData'}, $self->{'inlineOffset'}, $size);
$self->{'inlineOffset'} += $size;
return $value;
}
sub _UTF16ToUTF8 {
my $data = shift;
if ($utf8 && $] > 5.007) {
# This also turns on the utf8 flag - perldoc Encode
$data = eval { Encode::decode('UTF-16LE', $data) } || $data;
} elsif ($] > 5.007) {
# otherwise try and turn it into ISO-8859-1 if we have Encode
$data = eval { Encode::encode('latin1', $data) } || $data;
}
return _denull($data);
}
sub _denull {
my $string = shift;
$string =~ s/\0//g if defined $string;
return $string;
}
sub _parseWMAHeader {
my $self = shift;
my $fh = $self->{'fileHandle'};
read($fh, my $headerObjectData, 30) or return -1;
my $objectId = substr($headerObjectData, 0, $GUID);
my $objectSize = unpack('V', substr($headerObjectData, 16, $QWORD) );
my $headerObjects = unpack('V', substr($headerObjectData, 24, $DWORD));
my $reserved1 = vec(substr($headerObjectData, 28, 1), 0, $DWORD);
my $reserved2 = vec(substr($headerObjectData, 29, 1), 0, $DWORD);
if ($DEBUG) {
printf("ObjectId: [%s]\n", _byteStringToGUID($objectId));
print "\tobjectSize: [$objectSize]\n";
print "\theaderObjects [$headerObjects]\n";
print "\treserved1 [$reserved1]\n";
print "\treserved2 [$reserved2]\n\n";
}
# some sanity checks
return -1 if ($self->{'size'} && $objectSize > $self->{'size'});
# Must begin with ASF_Header_Object GUID
return -1 unless _byteStringToGUID($objectId) eq $guidMapping{ASF_Header_Object};
read($fh, $self->{'headerData'}, ($objectSize - 30));
for (my $headerCounter = 0; $headerCounter < $headerObjects; $headerCounter++) {
my $nextObjectGUID = $self->_readAndIncrementOffset($GUID);
my $nextObjectGUIDText = _byteStringToGUID($nextObjectGUID);
my $nextObjectSize = _parse64BitString($self->_readAndIncrementOffset($QWORD));
my $nextObjectGUIDName = $reversedGUIDs{$nextObjectGUIDText};
# FIX: calculate the next offset up-front to allow for
# object handlers that don't read the full object.
my $nextObjectOffset = $self->{'offset'} + ($nextObjectSize - (16 + 8));
if ($DEBUG) {
print "nextObjectGUID: [" . $nextObjectGUIDText . "]\n";
print "nextObjectName: [" . (defined($nextObjectGUIDName) ? $nextObjectGUIDName : "<unknown>") . "]\n";
print "nextObjectSize: [" . $nextObjectSize . "]\n";
print "nextObjectOffset: [" . $nextObjectOffset . "]\n";
print "\n";
}
# FIX: don't error out on unknown objects (they are properly
# skipped below), report a debug message if we get an
# inconsistent object size. some sanity checks
if ((!defined $nextObjectSize) || ($nextObjectSize > $self->{'size'})) {
print "Inconsistent object size: $nextObjectSize\n" if $DEBUG;
return -1;
}
# FIX: fall-through to the bottom which sets the
# offset for the next object.
if (defined($nextObjectGUIDName)) {
# start the different header types parsing
if ($nextObjectGUIDName eq 'ASF_File_Properties_Object') {
$self->_parseASFFilePropertiesObject();
}
elsif ($nextObjectGUIDName eq 'ASF_Content_Description_Object') {
$self->_parseASFContentDescriptionObject();
}
elsif ($nextObjectGUIDName eq 'ASF_Content_Encryption_Object' ||
$nextObjectGUIDName eq 'ASF_Extended_Content_Encryption_Object') {
$self->_parseASFContentEncryptionObject();
}
elsif ($nextObjectGUIDName eq 'ASF_Extended_Content_Description_Object') {
$self->_parseASFExtendedContentDescriptionObject();
}
if ($nextObjectGUIDName eq 'ASF_Stream_Properties_Object') {
$self->_parseASFStreamPropertiesObject(0);
next;
}
elsif ($nextObjectGUIDName eq 'ASF_Stream_Bitrate_Properties_Object') {
$self->_parseASFStreamBitratePropertiesObject();
}
elsif ($nextObjectGUIDName eq 'ASF_Header_Extension_Object') {
$self->_parseASFHeaderExtensionObject();
}
}
# FIX: set the next offset based on what we calculated
# up-front, rather then relying on our object handlers.
$self->{'offset'} = $nextObjectOffset;
}
# Now work on the subtypes.
for my $stream (@{$self->{'STREAM'}}) {
# insert stream bitrate
$stream->{'bitrate'} = $self->{'BITRATES'}->{ $stream->{'streamNumber'} };
if ($reversedGUIDs{ $stream->{'stream_type_guid'} } eq 'ASF_Audio_Media') {
my $audio = $self->_parseASFAudioMediaObject($stream);
while (my ($key, $value) = each %$audio) {
$self->{'INFO'}->{$key} = $value;
}
}
}
# pull these out and normalize them.
my @arrayOk = qw(ALBUMARTIST GENRE COMPOSER AUTHOR);
for my $ext (@{$self->{'EXT'}}) {
while (my ($k,$v) = each %{$ext->{'content'}}) {
# this gets both WM/Title and isVBR
next unless $v->{'name'} =~ s#^(?:WM/|is|replay)##i || $v->{'name'} =~ /^Author/;
my $name = uc($v->{'name'});
my $value = $v->{'value'} || 0;
# Append onto an existing item, as an array ref
if (exists $self->{'TAGS'}->{$name} && grep { /^$name$/ } @arrayOk) {
if (ref($self->{'TAGS'}->{$name}) eq 'ARRAY') {
push @{$self->{'TAGS'}->{$name}}, $value;
} else {
my $oldValue = delete $self->{'TAGS'}->{$name};
@{$self->{'TAGS'}->{$name}} = ($oldValue, $value);
}
} else {
$self->{'TAGS'}->{$name} = $value;
}
}
}
delete $self->{'EXT'};
}
# We can't do anything about DRM'd files.
sub _parseASFContentEncryptionObject {
my $self = shift;
$self->{'INFO'}->{'drm'} = 1;
}
sub _parseASFFilePropertiesObject {
my $self = shift;
my %info = ();
$info{'fileid_guid'} = _byteStringToGUID($self->_readAndIncrementOffset($GUID));
$info{'filesize'} = _parse64BitString($self->_readAndIncrementOffset($QWORD));
$info{'creation_date'} = unpack('V', $self->_readAndIncrementOffset($QWORD));
$info{'creation_date_unix'} = _fileTimeToUnixTime($info{'creation_date'});
$info{'data_packets'} = unpack('V', $self->_readAndIncrementOffset($QWORD));
$info{'play_duration'} = _parse64BitString($self->_readAndIncrementOffset($QWORD));
$info{'send_duration'} = _parse64BitString($self->_readAndIncrementOffset($QWORD));
$info{'preroll'} = unpack('V', $self->_readAndIncrementOffset($QWORD));
$info{'playtime_seconds'} = ($info{'play_duration'} / 10000000)-($info{'preroll'} / 1000);
$info{'flags_raw'} = unpack('V', $self->_readAndIncrementOffset(4));
$info{'flags'}->{'broadcast'} = ($info{'flags_raw'} & 0x0001) ? 1 : 0;
$info{'flags'}->{'seekable'} = ($info{'flags_raw'} & 0x0002) ? 1 : 0;
$info{'min_packet_size'} = unpack('V', $self->_readAndIncrementOffset($DWORD));
$info{'max_packet_size'} = unpack('V', $self->_readAndIncrementOffset($DWORD));
$info{'max_bitrate'} = unpack('V', $self->_readAndIncrementOffset($DWORD));
$info{'bitrate'} = ($info{'playtime_seconds'}) ? ($info{'filesize'} * 8) / $info{'playtime_seconds'} : undef;
$self->{'INFO'} = \%info;
}
sub _parseASFContentDescriptionObject {
my $self = shift;
my %desc = ();
my @keys = qw(TITLE AUTHOR COPYRIGHT DESCRIPTION RATING);
# populate the lengths of each key
for my $key (@keys) {
$desc{"_${key}length"} = unpack('v', $self->_readAndIncrementOffset($WORD));
}
# now pull the data based on length
for my $key (@keys) {
my $lengthKey = "_${key}length";
$desc{$key} = _UTF16ToUTF8($self->_readAndIncrementOffset($desc{$lengthKey}));
delete $desc{$lengthKey};
}
$self->{'TAGS'} = \%desc;
}
sub _parseASFExtendedContentDescriptionObject {
my $self = shift;
my %ext = ();
my $content_count = unpack('v', $self->_readAndIncrementOffset($WORD));
for (my $id = 0; $id < $content_count; $id++) {
my $name_length = unpack('v', $self->_readAndIncrementOffset($WORD));
my $name = _denull( $self->_readAndIncrementOffset($name_length) );
my $data_type = unpack('v', $self->_readAndIncrementOffset($WORD));
my $data_length = unpack('v', $self->_readAndIncrementOffset($WORD));
my $value = $self->_bytesToValue($data_type, $self->_readAndIncrementOffset($data_length));
if ( $DEBUG && uc($name) ne 'WM/PICTURE' ) {
print "Ext Cont Desc: $id";
print "\tname = $name\n";
print "\tvalue = $value\n";
print "\ttype = $data_type\n";
print "\tlength = $data_length\n";
print "\n";
}
# Parse out the WM/Picture structure into something we can use.
#
# typedef struct _WMPicture {
# LPWSTR pwszMIMEType;
# BYTE bPictureType;
# LPWSTR pwszDescription;
# DWORD dwDataLen;
# BYTE* pbData;
# };
if (uc($name) eq 'WM/PICTURE') {
my $image_type_id = unpack('v', substr($value, 0, 1));
my $image_size = unpack('v', substr($value, 1, $DWORD));
my $image_mime = '';
my $image_desc = '';
my $image_data = '';
my $offset = 5;
my $byte_pair = '';
do {
$byte_pair = substr($value, $offset, 2);
$offset += 2;
$image_mime .= $byte_pair;
} while ($byte_pair ne "\x00\x00");
do {
$byte_pair = substr($value, $offset, 2);
$offset += 2;
$image_desc .= $byte_pair;
} while ($byte_pair ne "\x00\x00");
$image_mime = _UTF16ToUTF8($image_mime);
$image_desc = _UTF16ToUTF8($image_desc);
$image_data = substr($value, $offset, $image_size);
$value = {
'TYPE' => $image_mime,
'DATA' => $image_data,
};
if ($DEBUG) {
print "Ext Cont Desc: $id";
print "\tname = $name\n";
print "\timage_type_id = $image_type_id\n";
print "\timage_size = $image_size\n";
print "\timage_mime = $image_mime\n";
print "\timage_desc = $image_desc\n";
print "\n";
}
}
$ext{'content'}->{$id} = {
'name' => $name,
'value' => $value,
};
}
push @{$self->{'EXT'}}, \%ext;
}
sub _parseASFStreamPropertiesObject {
my $self = shift;
my $inline = shift;
my %stream = ();
my $streamNumber;
# Stream Properties Object: (mandatory, one per media stream)
# Field Name Field Type Size (bits)
# Object ID GUID 128 GUID for stream properties object - ASF_Stream_Properties_Object
# Object Size QWORD 64 size of stream properties object, including 78 bytes of
# Stream Properties Object header
# Stream Type GUID 128 ASF_Audio_Media, ASF_Video_Media or ASF_Command_Media
# Error Correction Type GUID 128 ASF_Audio_Spread for audio-only streams,
# ASF_No_Error_Correction for other stream types
# Time Offset QWORD 64 100-nanosecond units. typically zero. added to all
# timestamps of samples in the stream
# Type-Specific Data Length DWORD 32 number of bytes for Type-Specific Data field
# Error Correction Data Length DWORD 32 number of bytes for Error Correction Data field
# Flags WORD 16
# * Stream Number bits 7 (0x007F) number of this stream. 1 <= valid <= 127
# * Reserved bits 8 (0x7F80) reserved - set to zero
# * Encrypted Content Flag bits 1 (0x8000) stream contents encrypted if set
# Reserved DWORD 32 reserved - set to zero
# Type-Specific Data BYTESTREAM variable type-specific format data, depending on value of Stream Type
# Error Correction Data BYTESTREAM variable error-correction-specific format data, depending on
# value of Error Correct Type
#
# There is one ASF_Stream_Properties_Object for each stream (audio, video) but the
# stream number isn't known until halfway through decoding the structure, hence it
# it is decoded to a temporary variable and then stuck in the appropriate index later
my $method = $inline ? '_readAndIncrementInlineOffset' : '_readAndIncrementOffset';
$stream{'stream_type'} = $self->$method($GUID);
$stream{'stream_type_guid'} = _byteStringToGUID($stream{'stream_type'});
$stream{'error_correct_type'} = $self->$method($GUID);
$stream{'error_correct_guid'} = _byteStringToGUID($stream{'error_correct_type'});
$stream{'time_offset'} = unpack('v', $self->$method($QWORD));
$stream{'type_data_length'} = unpack('V', $self->$method($DWORD));
$stream{'error_data_length'} = unpack('V', $self->$method($DWORD));
$stream{'flags_raw'} = unpack('v', $self->$method($WORD));
$stream{'streamNumber'} = $stream{'flags_raw'} & 0x007F;
$stream{'flags'}{'encrypted'} = ($stream{'flags_raw'} & 0x8000);
# Skip the reserved DWORD
$self->$method($DWORD);
# XXX: If a file has bogus data for either of these length values
# it will screw up parsing the rest of the header
# i.e. mms://c9l.earthcache.net/wlc-01.media.globix.net/COMP005996BCT1_wqxr_live_hi.wmv
$stream{'type_specific_data'} = $self->$method($stream{'type_data_length'});
$stream{'error_correct_data'} = $self->$method($stream{'error_data_length'});
push @{$self->{'STREAM'}}, \%stream;
}
sub _parseASFStreamBitratePropertiesObject {
my $self = shift;
my $bitrates = {};
my $count = unpack('v', $self->_readAndIncrementOffset($WORD));
# Read each bitrate record
for ( 1..$count ) {
my $stream = unpack('v', $self->_readAndIncrementOffset($WORD)) & 0x007F;
my $bitrate = unpack('V', $self->_readAndIncrementOffset($DWORD));
$bitrates->{$stream} = $bitrate;
}
$self->{'BITRATES'} = $bitrates;
}
sub _parseASFAudioMediaObject {
my $self = shift;
my $stream = shift;
# Field Name Field Type Size (bits)
# Codec ID / Format Tag WORD 16 unique ID of audio codec - defined as wFormatTag field of WAVEFORMATEX structure
#
# Number of Channels WORD 16 number of channels of audio - defined as nChannels field of WAVEFORMATEX structure
#
# Samples Per Second DWORD 32 in Hertz - defined as nSamplesPerSec field of WAVEFORMATEX structure
#
# Average number of Bytes/sec DWORD 32 bytes/sec of audio stream - defined as nAvgBytesPerSec field of WAVEFORMATEX structure
#
# Block Alignment WORD 16 block size in bytes of audio codec - defined as nBlockAlign field of WAVEFORMATEX structure
#
# Bits per sample WORD 16 bits per sample of mono data. set to zero for variable bitrate codecs.
# defined as wBitsPerSample field of WAVEFORMATEX structure
#
# Codec Specific Data Size WORD 16 size in bytes of Codec Specific Data buffer -
# defined as cbSize field of WAVEFORMATEX structure
#
# Codec Specific Data BYTESTREAM variable array of codec-specific data bytes
$stream->{'audio'} = $self->_parseWavFormat(substr($stream->{'type_specific_data'}, 0, $GUID));
return $stream->{'audio'};
}
sub _parseWavFormat {
my $self = shift;
my $data = shift;
my $wFormatTag = unpack('v', substr($data, 0, 2));
my %wav = (
'codec' => _RIFFwFormatTagLookup($wFormatTag),
'channels' => unpack('v', substr($data, 2, $WORD)),
'sample_rate' => unpack('V', substr($data, 4, $DWORD)),
# See bitrate in _parseASFFilePropertiesObject() for the correct calculation.
#'bitrate' => unpack('v', substr($data, 8, $DWORD)) * 8,
'bits_per_sample' => unpack('v', substr($data, 14, $WORD)),
);
if ($wFormatTag == 0x0001 || $wFormatTag == 0x0163) {
$wav{'lossless'} = 1;
}
return \%wav;
}
sub _parseASFExtendedStreamPropertiesObject {
my $self = shift;
my $size = shift;
my $offset = $self->{'inlineOffset'};
my %ext = (
startTime => $self->_bytesToValue(4, $self->_readAndIncrementInlineOffset($QWORD)),
endTime => $self->_bytesToValue(4, $self->_readAndIncrementInlineOffset($QWORD)),
dataBitrate => $self->_bytesToValue(3, $self->_readAndIncrementInlineOffset($DWORD)),
bufferSize => $self->_bytesToValue(3, $self->_readAndIncrementInlineOffset($DWORD)),
bufferFullness => $self->_bytesToValue(3, $self->_readAndIncrementInlineOffset($DWORD)),
altDataBitrate => $self->_bytesToValue(3, $self->_readAndIncrementInlineOffset($DWORD)),
altBufferSize => $self->_bytesToValue(3, $self->_readAndIncrementInlineOffset($DWORD)),
altBufferFullness => $self->_bytesToValue(3, $self->_readAndIncrementInlineOffset($DWORD)),
maxObjectSize => $self->_bytesToValue(3, $self->_readAndIncrementInlineOffset($DWORD)),
flags => $self->_bytesToValue(3, $self->_readAndIncrementInlineOffset($DWORD)),
streamNumber => $self->_bytesToValue(5, $self->_readAndIncrementInlineOffset($WORD)),
streamLanguageID => $self->_bytesToValue(5, $self->_readAndIncrementInlineOffset($WORD)),
averageTimePerFrame => $self->_bytesToValue(4, $self->_readAndIncrementInlineOffset($QWORD)),
streamNameCount => $self->_bytesToValue(5, $self->_readAndIncrementInlineOffset($WORD)),
payloadExtensionCount => $self->_bytesToValue(5, $self->_readAndIncrementInlineOffset($WORD)),
);
for (my $s = 0; $s < $ext{'streamNameCount'}; $s++) {
my $language = unpack('v', $self->_readAndIncrementInlineOffset($WORD)) || last;
my $length = unpack('v', $self->_readAndIncrementInlineOffset($WORD));
$self->_readAndIncrementInlineOffset($length);
$self->{'inlineOffset'} += 4;
}
for (my $p = 0; $p < $ext{'payloadExtensionCount'}; $p++) {
$self->_readAndIncrementInlineOffset(18) || last;
my $length = unpack('V', $self->_readAndIncrementInlineOffset($DWORD));
$self->_readAndIncrementInlineOffset($length);
$self->{'inlineOffset'} += 22;
}
if (($self->{'inlineOffset'} - $offset) < $size) {
my $nextObjectGUID = _byteStringToGUID($self->_readAndIncrementInlineOffset($GUID));
my $nextObjectName = $reversedGUIDs{$nextObjectGUID} || 'ASF_Unknown_Object';
my $nextObjectSize = unpack('v', $self->_readAndIncrementInlineOffset($QWORD));
if ($DEBUG) {
print "extendedStreamPropertiesObject nextObjectGUID: [" . $nextObjectGUID . "]\n";
print "extendedStreamPropertiesObject nextObjectName: [" . $nextObjectName . "]\n";
print "extendedStreamPropertiesObject nextObjectSize: [" . $nextObjectSize . "]\n";
print "\n";
}
if (defined $nextObjectName && $nextObjectName eq 'ASF_Stream_Properties_Object') {
$self->_parseASFStreamPropertiesObject(1);
}
}
}
sub _parseASFHeaderExtensionObject {
my $self = shift;
my %ext = ();
$ext{'reserved_1'} = _byteStringToGUID($self->_readAndIncrementOffset($GUID));
$ext{'reserved_2'} = unpack('v', $self->_readAndIncrementOffset($WORD));
$ext{'extension_data_size'} = unpack('V', $self->_readAndIncrementOffset($DWORD));
$ext{'extension_data'} = $self->_readAndIncrementOffset($ext{'extension_data_size'});
# Set these so we can use a convience method.
$self->{'inlineData'} = $ext{'extension_data'};
$self->{'inlineOffset'} = 0;
if ($DEBUG) {
print "Working on an ASF_Header_Extension_Object:\n\n";
}
while ($self->{'inlineOffset'} < $ext{'extension_data_size'}) {
my $nextObjectGUID = _byteStringToGUID($self->_readAndIncrementInlineOffset($GUID)) || last;
my $nextObjectName = $reversedGUIDs{$nextObjectGUID} || 'ASF_Unknown_Object';
my $nextObjectSize = unpack('v', $self->_readAndIncrementInlineOffset($QWORD));
# some sanity checks
next if $nextObjectSize == 0 || $nextObjectSize > $ext{'extension_data_size'};
next unless defined $nextObjectName;
if ($DEBUG) {
print "\textensionObject nextObjectGUID: [$nextObjectGUID]\n";
print "\textensionObject nextObjectName: [$nextObjectName]\n";
print "\textensionObject nextObjectSize: [$nextObjectSize]\n";
print "\n";
}
# We only handle this object type for now.
if ($nextObjectName eq 'ASF_Metadata_Library_Object' ||
$nextObjectName eq 'ASF_Metadata_Object') {
my $content_count = unpack('v', $self->_readAndIncrementInlineOffset($WORD));
if ($DEBUG) {
print "\tContent Count: [$content_count]\n";
}
# Language List Index WORD 16
# Stream Number WORD 16
# Name Length WORD 16
# Data Type WORD 16
# Data Length DWORD 32
# Name WCHAR varies
# Data See below varies
for (my $id = 0; $id < $content_count; $id++) {
my $language_list = unpack('v', $self->_readAndIncrementInlineOffset($WORD));
my $stream_number = unpack('v', $self->_readAndIncrementInlineOffset($WORD));
my $name_length = unpack('v', $self->_readAndIncrementInlineOffset($WORD));
my $data_type = unpack('v', $self->_readAndIncrementInlineOffset($WORD));
my $data_length = unpack('V', $self->_readAndIncrementInlineOffset($DWORD));
my $name = _denull($self->_readAndIncrementInlineOffset($name_length));
my $value = $self->_bytesToValue($data_type, $self->_readAndIncrementInlineOffset($data_length));
if ($name eq 'WM/Picture') {
$value = {
'TYPE' => 'image/jpg',
'DATA' => $value,
};
}
$ext{'content'}->{$id}->{'name'} = $name;
$ext{'content'}->{$id}->{'value'} = $value;
if ($DEBUG) {
print "\t$nextObjectName: $id\n";
print "\t\tname = $name\n";
print "\t\tvalue = $value\n";
print "\t\ttype = $data_type\n";
print "\t\tlength = $data_length\n";
print "\n";
}
}
} elsif ($nextObjectName eq 'ASF_Extended_Stream_Properties_Object') {
$self->_parseASFExtendedStreamPropertiesObject($nextObjectSize - $GUID - $QWORD);
} else {
# Only increment the offset if we couldn't parse the object.
$self->{'inlineOffset'} += ($nextObjectSize - $GUID - $QWORD);
}
}
delete $ext{'extension_data'};
delete $self->{'inlineData'};
delete $self->{'inlineOffset'};
push @{$self->{'EXT'}}, \%ext;
}
sub _bytesToValue {
my ($self, $data_type, $value) = @_;
# 0x0000 Unicode string. The data consists of a sequence of Unicode characters.
#
# 0x0001 BYTE array. The type of the data is implementation-specific.
#
# 0x0002 BOOL. The data is 2 bytes long and should be interpreted as a
# 16-bit unsigned integer. Only 0x0000 or 0x0001 are permitted values.
#
# 0x0003 DWORD. The data is 4 bytes long - 32-bit unsigned integer.
#
# 0x0004 QWORD. The data is 8 bytes long - 64-bit unsigned integer.
#
# 0x0005 WORD. The data is 2 bytes long - 16-bit unsigned integer.
#
# 0x0006 GUID. The data is 16 bytes long - 128-bit GUID.
if ($data_type == 0) {
$value = _UTF16ToUTF8($value);
} elsif ($data_type == 1) {
# Leave byte arrays as is.
} elsif ($data_type == 2 || $data_type == 5) {
$value = unpack('v', $value);
} elsif ($data_type == 3) {
$value = unpack('V', $value);
} elsif ($data_type == 4) {
$value = _parse64BitString($value);
} elsif ($data_type == 6) {
$value = _byteStringToGUID($value);
}
return $value;
}
sub _parse64BitString {
my ($low,$high) = unpack('VV', shift);
return $high * 2 ** 32 + $low;
}
sub _knownGUIDs {
my %guidMapping = (
'ASF_Extended_Stream_Properties_Object' => '14E6A5CB-C672-4332-8399-A96952065B5A',
'ASF_Padding_Object' => '1806D474-CADF-4509-A4BA-9AABCB96AAE8',
'ASF_Payload_Ext_Syst_Pixel_Aspect_Ratio' => '1B1EE554-F9EA-4BC8-821A-376B74E4C4B8',
'ASF_Script_Command_Object' => '1EFB1A30-0B62-11D0-A39B-00A0C90348F6',
'ASF_No_Error_Correction' => '20FB5700-5B55-11CF-A8FD-00805F5C442B',
'ASF_Content_Branding_Object' => '2211B3FA-BD23-11D2-B4B7-00A0C955FC6E',
'ASF_Content_Encryption_Object' => '2211B3FB-BD23-11D2-B4B7-00A0C955FC6E',
'ASF_Digital_Signature_Object' => '2211B3FC-BD23-11D2-B4B7-00A0C955FC6E',
'ASF_Extended_Content_Encryption_Object' => '298AE614-2622-4C17-B935-DAE07EE9289C',
'ASF_Simple_Index_Object' => '33000890-E5B1-11CF-89F4-00A0C90349CB',
'ASF_Degradable_JPEG_Media' => '35907DE0-E415-11CF-A917-00805F5C442B',
'ASF_Payload_Extension_System_Timecode' => '399595EC-8667-4E2D-8FDB-98814CE76C1E',
'ASF_Binary_Media' => '3AFB65E2-47EF-40F2-AC2C-70A90D71D343',
'ASF_Timecode_Index_Object' => '3CB73FD0-0C4A-4803-953D-EDF7B6228F0C',
'ASF_Metadata_Library_Object' => '44231C94-9498-49D1-A141-1D134E457054',
'ASF_Reserved_3' => '4B1ACBE3-100B-11D0-A39B-00A0C90348F6',
'ASF_Reserved_4' => '4CFEDB20-75F6-11CF-9C0F-00A0C90349CB',
'ASF_Command_Media' => '59DACFC0-59E6-11D0-A3AC-00A0C90348F6',
'ASF_Header_Extension_Object' => '5FBF03B5-A92E-11CF-8EE3-00C00C205365',
'ASF_Media_Object_Index_Parameters_Obj' => '6B203BAD-3F11-4E84-ACA8-D7613DE2CFA7',
'ASF_Header_Object' => '75B22630-668E-11CF-A6D9-00AA0062CE6C',
'ASF_Content_Description_Object' => '75B22633-668E-11CF-A6D9-00AA0062CE6C',
'ASF_Error_Correction_Object' => '75B22635-668E-11CF-A6D9-00AA0062CE6C',
'ASF_Data_Object' => '75B22636-668E-11CF-A6D9-00AA0062CE6C',
'ASF_Web_Stream_Media_Subtype' => '776257D4-C627-41CB-8F81-7AC7FF1C40CC',
'ASF_Stream_Bitrate_Properties_Object' => '7BF875CE-468D-11D1-8D82-006097C9A2B2',
'ASF_Language_List_Object' => '7C4346A9-EFE0-4BFC-B229-393EDE415C85',
'ASF_Codec_List_Object' => '86D15240-311D-11D0-A3A4-00A0C90348F6',
'ASF_Reserved_2' => '86D15241-311D-11D0-A3A4-00A0C90348F6',
'ASF_File_Properties_Object' => '8CABDCA1-A947-11CF-8EE4-00C00C205365',
'ASF_File_Transfer_Media' => '91BD222C-F21C-497A-8B6D-5AA86BFC0185',
'ASF_Advanced_Mutual_Exclusion_Object' => 'A08649CF-4775-4670-8A16-6E35357566CD',
'ASF_Bandwidth_Sharing_Object' => 'A69609E6-517B-11D2-B6AF-00C04FD908E9',
'ASF_Reserved_1' => 'ABD3D211-A9BA-11cf-8EE6-00C00C205365',
'ASF_Bandwidth_Sharing_Exclusive' => 'AF6060AA-5197-11D2-B6AF-00C04FD908E9',
'ASF_Bandwidth_Sharing_Partial' => 'AF6060AB-5197-11D2-B6AF-00C04FD908E9',
'ASF_JFIF_Media' => 'B61BE100-5B4E-11CF-A8FD-00805F5C442B',
'ASF_Stream_Properties_Object' => 'B7DC0791-A9B7-11CF-8EE6-00C00C205365',
'ASF_Video_Media' => 'BC19EFC0-5B4D-11CF-A8FD-00805F5C442B',
'ASF_Audio_Spread' => 'BFC3CD50-618F-11CF-8BB2-00AA00B4E220',
'ASF_Metadata_Object' => 'C5F8CBEA-5BAF-4877-8467-AA8C44FA4CCA',
'ASF_Payload_Ext_Syst_Sample_Duration' => 'C6BD9450-867F-4907-83A3-C77921B733AD',
'ASF_Group_Mutual_Exclusion_Object' => 'D1465A40-5A79-4338-B71B-E36B8FD6C249',
'ASF_Extended_Content_Description_Object' => 'D2D0A440-E307-11D2-97F0-00A0C95EA850',
'ASF_Stream_Prioritization_Object' => 'D4FED15B-88D3-454F-81F0-ED5C45999E24',
'ASF_Payload_Ext_System_Content_Type' => 'D590DC20-07BC-436C-9CF7-F3BBFBF1A4DC',
'ASF_Index_Object' => 'D6E229D3-35DA-11D1-9034-00A0C90349BE',
'ASF_Bitrate_Mutual_Exclusion_Object' => 'D6E229DC-35DA-11D1-9034-00A0C90349BE',
'ASF_Index_Parameters_Object' => 'D6E229DF-35DA-11D1-9034-00A0C90349BE',
'ASF_Mutex_Language' => 'D6E22A00-35DA-11D1-9034-00A0C90349BE',
'ASF_Mutex_Bitrate' => 'D6E22A01-35DA-11D1-9034-00A0C90349BE',
'ASF_Mutex_Unknown' => 'D6E22A02-35DA-11D1-9034-00A0C90349BE',
'ASF_Web_Stream_Format' => 'DA1E6B13-8359-4050-B398-388E965BF00C',
'ASF_Payload_Ext_System_File_Name' => 'E165EC0E-19ED-45D7-B4A7-25CBD1E28E9B',
'ASF_Marker_Object' => 'F487CD01-A951-11CF-8EE6-00C00C205365',
'ASF_Timecode_Index_Parameters_Object' => 'F55E496D-9797-4B5D-8C8B-604DFE9BFB24',
'ASF_Audio_Media' => 'F8699E40-5B4D-11CF-A8FD-00805F5C442B',
'ASF_Media_Object_Index_Object' => 'FEB103F8-12AD-4C64-840F-2A1D2F7AD48C',
'ASF_Alt_Extended_Content_Encryption_Obj' => 'FF889EF1-ADEE-40DA-9E71-98704BB928CE',
'ASF_Index_Placeholder_Object' => 'D9AADE20-7C17-4F9C-BC28-8555DD98E2A2',
'ASF_Compatibility_Object' => '26F18B5D-4584-47EC-9F5F-0E651F0452C9',
);
return %guidMapping;
}
sub _knownParsers {
return (
'ASF_File_Properties_Object' => \&_parseASFFilePropertiesObject,
'ASF_Content_Description_Object' => \&_parseASFContentDescriptionObject,
'ASF_Stream_Bitrate_Properties_Object' => \&_parseASFStreamBitratePropertiesObject,
# We don't currently use most of these, so no point in spending time parsing them
#'ASF_Extended_Content_Description_Object' => \&_parseASFExtendedContentDescriptionObject,
#'ASF_Content_Encryption_Object' => \&_parseASFContentEncryptionObject,
#'ASF_Extended_Content_Encryption_Object' => \&_parseASFContentEncryptionObject,
#'ASF_Stream_Properties_Object' => \&_parseASFStreamPropertiesObject,
);
}
sub _RIFFwFormatTagLookup {
my $wFormatTag = shift;
my %formatTags = (
0x0000 => 'Microsoft Unknown Wave Format',
0x0001 => 'Pulse Code Modulation (PCM)',
0x0002 => 'Microsoft ADPCM',
0x0003 => 'IEEE Float',
0x0004 => 'Compaq Computer VSELP',
0x0005 => 'IBM CVSD',
0x0006 => 'Microsoft A-Law',
0x0007 => 'Microsoft mu-Law',
0x0008 => 'Microsoft DTS',
0x000A => 'Windows Media Audio 9 Voice',
0x000B => 'Microsoft Windows Media RT Voice Audio',
0x0010 => 'OKI ADPCM',
0x0011 => 'Intel DVI/IMA ADPCM',
0x0012 => 'Videologic MediaSpace ADPCM',
0x0013 => 'Sierra Semiconductor ADPCM',
0x0014 => 'Antex Electronics G.723 ADPCM',
0x0015 => 'DSP Solutions DigiSTD',
0x0016 => 'DSP Solutions DigiFIX',
0x0017 => 'Dialogic OKI ADPCM',
0x0018 => 'MediaVision ADPCM',
0x0019 => 'Hewlett-Packard CU',
0x0020 => 'Yamaha ADPCM',
0x0021 => 'Speech Compression Sonarc',
0x0022 => 'DSP Group TrueSpeech',
0x0023 => 'Echo Speech EchoSC1',
0x0024 => 'Audiofile AF36',
0x0025 => 'Audio Processing Technology APTX',
0x0026 => 'AudioFile AF10',
0x0027 => 'Prosody 1612',
0x0028 => 'LRC',
0x0030 => 'Dolby AC2',
0x0031 => 'Microsoft GSM 6.10',
0x0032 => 'MSNAudio',
0x0033 => 'Antex Electronics ADPCME',
0x0034 => 'Control Resources VQLPC',
0x0035 => 'DSP Solutions DigiREAL',
0x0036 => 'DSP Solutions DigiADPCM',
0x0037 => 'Control Resources CR10',
0x0038 => 'Natural MicroSystems VBXADPCM',
0x0039 => 'Crystal Semiconductor IMA ADPCM',
0x003A => 'EchoSC3',
0x003B => 'Rockwell ADPCM',
0x003C => 'Rockwell Digit LK',
0x003D => 'Xebec',
0x0040 => 'Antex Electronics G.721 ADPCM',
0x0041 => 'G.728 CELP',
0x0042 => 'MSG723',
0x0050 => 'MPEG Layer-2 or Layer-1',
0x0052 => 'RT24',
0x0053 => 'PAC',
0x0055 => 'MPEG Layer-3',
0x0059 => 'Lucent G.723',
0x0060 => 'Cirrus',
0x0061 => 'ESPCM',
0x0062 => 'Voxware',
0x0063 => 'Canopus Atrac',
0x0064 => 'G.726 ADPCM',
0x0065 => 'G.722 ADPCM',
0x0066 => 'DSAT',
0x0067 => 'DSAT Display',
0x0069 => 'Voxware Byte Aligned',
0x0070 => 'Voxware AC8',
0x0071 => 'Voxware AC10',
0x0072 => 'Voxware AC16',
0x0073 => 'Voxware AC20',
0x0074 => 'Voxware MetaVoice',
0x0075 => 'Voxware MetaSound',
0x0076 => 'Voxware RT29HW',
0x0077 => 'Voxware VR12',
0x0078 => 'Voxware VR18',
0x0079 => 'Voxware TQ40',
0x0080 => 'Softsound',
0x0081 => 'Voxware TQ60',
0x0082 => 'MSRT24',
0x0083 => 'G.729A',
0x0084 => 'MVI MV12',
0x0085 => 'DF G.726',
0x0086 => 'DF GSM610',
0x0088 => 'ISIAudio',
0x0089 => 'Onlive',
0x0091 => 'SBC24',
0x0092 => 'Dolby AC3 SPDIF',
0x0093 => 'MediaSonic G.723',
0x0094 => 'Aculab PLC Prosody 8kbps',
0x0097 => 'ZyXEL ADPCM',
0x0098 => 'Philips LPCBB',
0x0099 => 'Packed',
0x00FF => 'AAC',
0x0100 => 'Rhetorex ADPCM',
0x0101 => 'IBM mu-law',
0x0102 => 'IBM A-law',
0x0103 => 'IBM AVC Adaptive Differential Pulse Code Modulation (ADPCM)',
0x0111 => 'Vivo G.723',
0x0112 => 'Vivo Siren',
0x0123 => 'Digital G.723',
0x0125 => 'Sanyo LD ADPCM',
0x0130 => 'Sipro Lab Telecom ACELP NET',
0x0131 => 'Sipro Lab Telecom ACELP 4800',
0x0132 => 'Sipro Lab Telecom ACELP 8V3',
0x0133 => 'Sipro Lab Telecom G.729',
0x0134 => 'Sipro Lab Telecom G.729A',
0x0135 => 'Sipro Lab Telecom Kelvin',
0x0140 => 'Windows Media Video V8',
0x0150 => 'Qualcomm PureVoice',
0x0151 => 'Qualcomm HalfRate',
0x0155 => 'Ring Zero Systems TUB GSM',
0x0160 => 'Microsoft Audio 1',
0x0161 => 'Windows Media Audio V7 / V8 / V9',
0x0162 => 'Windows Media Audio Professional V9',
0x0163 => 'Windows Media Audio Lossless V9',
0x0200 => 'Creative Labs ADPCM',
0x0202 => 'Creative Labs Fastspeech8',
0x0203 => 'Creative Labs Fastspeech10',
0x0210 => 'UHER Informatic GmbH ADPCM',
0x0220 => 'Quarterdeck',
0x0230 => 'I-link Worldwide VC',
0x0240 => 'Aureal RAW Sport',
0x0250 => 'Interactive Products HSX',
0x0251 => 'Interactive Products RPELP',
0x0260 => 'Consistent Software CS2',
0x0270 => 'Sony SCX',
0x0300 => 'Fujitsu FM Towns Snd',
0x0400 => 'BTV Digital',
0x0401 => 'Intel Music Coder',
0x0450 => 'QDesign Music',
0x0680 => 'VME VMPCM',
0x0681 => 'AT&T Labs TPC',
0x08AE => 'ClearJump LiteWave',
0x1000 => 'Olivetti GSM',
0x1001 => 'Olivetti ADPCM',
0x1002 => 'Olivetti CELP',
0x1003 => 'Olivetti SBC',
0x1004 => 'Olivetti OPR',
0x1100 => 'Lernout & Hauspie Codec (0x1100)',
0x1101 => 'Lernout & Hauspie CELP Codec (0x1101)',
0x1102 => 'Lernout & Hauspie SBC Codec (0x1102)',
0x1103 => 'Lernout & Hauspie SBC Codec (0x1103)',
0x1104 => 'Lernout & Hauspie SBC Codec (0x1104)',
0x1400 => 'Norris',
0x1401 => 'AT&T ISIAudio',
0x1500 => 'Soundspace Music Compression',
0x181C => 'VoxWare RT24 Speech',
0x1FC4 => 'NCT Soft ALF2CD (www.nctsoft.com)',
0x2000 => 'Dolby AC3',
0x2001 => 'Dolby DTS',
0x2002 => 'WAVE_FORMAT_14_4',
0x2003 => 'WAVE_FORMAT_28_8',
0x2004 => 'WAVE_FORMAT_COOK',
0x2005 => 'WAVE_FORMAT_DNET',
0x674F => 'Ogg Vorbis 1',
0x6750 => 'Ogg Vorbis 2',
0x6751 => 'Ogg Vorbis 3',
0x676F => 'Ogg Vorbis 1+',
0x6770 => 'Ogg Vorbis 2+',
0x6771 => 'Ogg Vorbis 3+',
0x7A21 => 'GSM-AMR (CBR, no SID)',
0x7A22 => 'GSM-AMR (VBR, including SID)',
0xFFFE => 'WAVE_FORMAT_EXTENSIBLE',
0xFFFF => 'WAVE_FORMAT_DEVELOPMENT',
);
return $formatTags{$wFormatTag};
}
sub _guidToByteString {
my $guidString = shift;
# Microsoft defines these 16-byte (128-bit) GUIDs as:
# first 4 bytes are in little-endian order
# next 2 bytes are appended in little-endian order
# next 2 bytes are appended in little-endian order
# next 2 bytes are appended in big-endian order
# next 6 bytes are appended in big-endian order
# AaBbCcDd-EeFf-GgHh-IiJj-KkLlMmNnOoPp is stored as this 16-byte string:
# $Dd $Cc $Bb $Aa $Ff $Ee $Hh $Gg $Ii $Jj $Kk $Ll $Mm $Nn $Oo $Pp
my $hexByteCharString;
$hexByteCharString = chr(hex(substr($guidString, 6, 2)));
$hexByteCharString .= chr(hex(substr($guidString, 4, 2)));
$hexByteCharString .= chr(hex(substr($guidString, 2, 2)));
$hexByteCharString .= chr(hex(substr($guidString, 0, 2)));
$hexByteCharString .= chr(hex(substr($guidString, 11, 2)));
$hexByteCharString .= chr(hex(substr($guidString, 9, 2)));
$hexByteCharString .= chr(hex(substr($guidString, 16, 2)));
$hexByteCharString .= chr(hex(substr($guidString, 14, 2)));
$hexByteCharString .= chr(hex(substr($guidString, 19, 2)));
$hexByteCharString .= chr(hex(substr($guidString, 21, 2)));
$hexByteCharString .= chr(hex(substr($guidString, 24, 2)));
$hexByteCharString .= chr(hex(substr($guidString, 26, 2)));
$hexByteCharString .= chr(hex(substr($guidString, 28, 2)));
$hexByteCharString .= chr(hex(substr($guidString, 30, 2)));
$hexByteCharString .= chr(hex(substr($guidString, 32, 2)));
$hexByteCharString .= chr(hex(substr($guidString, 34, 2)));
return $hexByteCharString;
}
sub _byteStringToGUID {
my $buff = unpack('H*',pack('NnnNN',unpack('VvvNN',$_[0])));
$buff =~ s/(.{8})(.{4})(.{4})(.{4})/$1-$2-$3-$4-/;
return uc($buff);
}
sub _fileTimeToUnixTime {
my $filetime = shift;
my $round = shift || 1;
# filetime is a 64-bit unsigned integer representing
# the number of 100-nanosecond intervals since January 1, 1601
# UNIX timestamp is number of seconds since January 1, 1970
# 116444736000000000 = 10000000 * 60 * 60 * 24 * 365 * 369 + 89 leap days
if ($round) {
return int(($filetime - 116444736000000000) / 10000000);
}
return ($filetime - 116444736000000000) / 10000000;
}
1;
__END__
=head1 NAME
Audio::WMA - Perl extension for reading WMA/ASF Metadata
=head1 SYNOPSIS
use Audio::WMA;
my $wma = Audio::WMA->new($file);
my $info = $wma->info();
foreach (keys %$info) {
print "$_: $info->{$_}\n";
}
my $tags = $wma->tags();
foreach (keys %$tags) {
print "$_: $tags->{$_}\n";
}
=head1 DESCRIPTION
This module implements access to metadata contained in WMA files.
=head1 METHODS
=over 4
=item * new( $file )
Create a new Audio::WMA instance from the data in $file
=item * info( )
Get the audio data information in the form of a hash ref.
=item * tags( )
Get the metadata / tag information in the form of a hash ref.
=item * stream( )
Get the current ASF stream.
=item * parseObject( $asf )
Parse a standalone ASF object.
=item * setDebug( 0 | 1 )
Toggle debugging.
=item * setConvertTagsToUTF8( 0 | 1 )
Toggle Encoding metadata tags as UTF-8
Toggle debugging.
=back
=head1 SEE ALSO
Audio::FLAC::Header, L<http://getid3.sf.net/>
http://github.com/dsully/perl-audio/tree/master/Audio-WMA
=head1 AUTHOR
Dan Sully, E<lt>daniel | at | cpan.orgE<gt>
=head1 COPYRIGHT AND LICENSE
Copyright 2003-2008 by Dan Sully & Logitech.
This library is free software; you can redistribute it and/or modify
it under the same terms as Perl itself.
=cut
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