731 lines
29 KiB
Perl
731 lines
29 KiB
Perl
#------------------------------------------------------------------------------
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# File: M2TS.pm
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#
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# Description: Read M2TS (AVCHD) meta information
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#
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# Revisions: 2009/07/03 - P. Harvey Created
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#
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# References: 1) http://neuron2.net/library/mpeg2/iso13818-1.pdf
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# 2) http://www.blu-raydisc.com/Assets/Downloadablefile/BD-RE_Part3_V2.1_WhitePaper_080406-15271.pdf
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# 3) http://www.videohelp.com/forum/archive/reading-avchd-playlist-files-bdmv-playlist-mpl-t358888.html
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# 4) http://en.wikipedia.org/wiki/MPEG_transport_stream
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# 5) http://www.dunod.com/documents/9782100493463/49346_DVB.pdf
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# 6) http://trac.handbrake.fr/browser/trunk/libhb/stream.c
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# 7) http://ieeexplore.ieee.org/stamp/stamp.jsp?arnumber=04560141
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# 8) http://www.w6rz.net/xport.zip
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#
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# Notes: Variable names containing underlines are the same as in ref 1.
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#
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# Glossary: PES = Packetized Elementary Stream
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# PAT = Program Association Table
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# PMT = Program Map Table
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# PCR = Program Clock Reference
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# PID = Packet Identifier
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#
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# To Do: - parse PCR to obtain average bitrates?
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#------------------------------------------------------------------------------
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package Image::ExifTool::M2TS;
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use strict;
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use vars qw($VERSION);
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use Image::ExifTool qw(:DataAccess :Utils);
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$VERSION = '1.15';
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# program map table "stream_type" lookup (ref 6/1)
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my %streamType = (
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0x00 => 'Reserved',
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0x01 => 'MPEG-1 Video',
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0x02 => 'MPEG-2 Video',
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0x03 => 'MPEG-1 Audio',
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0x04 => 'MPEG-2 Audio',
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0x05 => 'ISO 13818-1 private sections',
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0x06 => 'ISO 13818-1 PES private data',
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0x07 => 'ISO 13522 MHEG',
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0x08 => 'ISO 13818-1 DSM-CC',
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0x09 => 'ISO 13818-1 auxiliary',
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0x0A => 'ISO 13818-6 multi-protocol encap',
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0x0B => 'ISO 13818-6 DSM-CC U-N msgs',
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0x0C => 'ISO 13818-6 stream descriptors',
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0x0D => 'ISO 13818-6 sections',
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0x0E => 'ISO 13818-1 auxiliary',
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0x0F => 'MPEG-2 AAC Audio',
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0x10 => 'MPEG-4 Video',
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0x11 => 'MPEG-4 LATM AAC Audio',
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0x12 => 'MPEG-4 generic',
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0x13 => 'ISO 14496-1 SL-packetized',
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0x14 => 'ISO 13818-6 Synchronized Download Protocol',
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# 0x15-0x7F => 'ISO 13818-1 Reserved',
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0x1b => 'H.264 Video',
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0x80 => 'DigiCipher II Video',
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0x81 => 'A52/AC-3 Audio',
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0x82 => 'HDMV DTS Audio',
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0x83 => 'LPCM Audio',
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0x84 => 'SDDS Audio',
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0x85 => 'ATSC Program ID',
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0x86 => 'DTS-HD Audio',
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0x87 => 'E-AC-3 Audio',
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0x8a => 'DTS Audio',
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0x91 => 'A52b/AC-3 Audio',
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0x92 => 'DVD_SPU vls Subtitle',
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0x94 => 'SDDS Audio',
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0xa0 => 'MSCODEC Video',
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0xea => 'Private ES (VC-1)',
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# 0x80-0xFF => 'User Private',
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);
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# "table_id" values (ref 5)
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my %tableID = (
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0x00 => 'Program Association',
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0x01 => 'Conditional Access',
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0x02 => 'Program Map',
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0x03 => 'Transport Stream Description',
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0x40 => 'Actual Network Information',
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0x41 => 'Other Network Information',
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0x42 => 'Actual Service Description',
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0x46 => 'Other Service Description',
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0x4a => 'Bouquet Association',
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0x4e => 'Actual Event Information - Present/Following',
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0x4f => 'Other Event Information - Present/Following',
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0x50 => 'Actual Event Information - Schedule', #(also 0x51-0x5f)
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0x60 => 'Other Event Information - Schedule', # (also 0x61-0x6f)
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0x70 => 'Time/Date',
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0x71 => 'Running Status',
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0x72 => 'Stuffing',
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0x73 => 'Time Offset',
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0x7e => 'Discontinuity Information',
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0x7f => 'Selection Information',
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# 0x80-0xfe => 'User Defined',
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);
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# PES stream ID's for which a syntax field does not exist
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my %noSyntax = (
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0xbc => 1, # program_stream_map
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0xbe => 1, # padding_stream
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0xbf => 1, # private_stream_2
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0xf0 => 1, # ECM_stream
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0xf1 => 1, # EMM_stream
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0xf2 => 1, # DSMCC_stream
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0xf8 => 1, # ITU-T Rec. H.222.1 type E stream
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0xff => 1, # program_stream_directory
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);
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# information extracted from the MPEG-2 transport stream
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%Image::ExifTool::M2TS::Main = (
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GROUPS => { 2 => 'Video' },
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VARS => { NO_ID => 1 },
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NOTES => q{
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The MPEG-2 transport stream is used as a container for many different
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audio/video formats (including AVCHD). This table lists information
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extracted from M2TS files.
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},
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VideoStreamType => {
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PrintHex => 1,
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PrintConv => \%streamType,
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SeparateTable => 'StreamType',
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},
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AudioStreamType => {
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PrintHex => 1,
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PrintConv => \%streamType,
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SeparateTable => 'StreamType',
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},
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Duration => {
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Notes => q{
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the -fast option may be used to avoid scanning to the end of file to
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calculate the Duration
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},
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ValueConv => '$val / 27000000', # (clock is 27MHz)
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PrintConv => 'ConvertDuration($val)',
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},
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# the following tags are for documentation purposes only
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_AC3 => { SubDirectory => { TagTable => 'Image::ExifTool::M2TS::AC3' } },
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_H264 => { SubDirectory => { TagTable => 'Image::ExifTool::H264::Main' } },
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);
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# information extracted from AC-3 audio streams
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%Image::ExifTool::M2TS::AC3 = (
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GROUPS => { 1 => 'AC3', 2 => 'Audio' },
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VARS => { NO_ID => 1 },
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NOTES => 'Tags extracted from AC-3 audio streams.',
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AudioSampleRate => {
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PrintConv => {
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0 => '48000',
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1 => '44100',
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2 => '32000',
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},
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},
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AudioBitrate => {
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PrintConvColumns => 2,
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ValueConv => {
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0 => 32000,
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1 => 40000,
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2 => 48000,
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3 => 56000,
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4 => 64000,
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5 => 80000,
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6 => 96000,
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7 => 112000,
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8 => 128000,
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9 => 160000,
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10 => 192000,
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11 => 224000,
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12 => 256000,
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13 => 320000,
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14 => 384000,
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15 => 448000,
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16 => 512000,
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17 => 576000,
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18 => 640000,
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32 => '32000 max',
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33 => '40000 max',
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34 => '48000 max',
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35 => '56000 max',
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36 => '64000 max',
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37 => '80000 max',
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38 => '96000 max',
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39 => '112000 max',
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40 => '128000 max',
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41 => '160000 max',
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42 => '192000 max',
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43 => '224000 max',
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44 => '256000 max',
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45 => '320000 max',
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46 => '384000 max',
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47 => '448000 max',
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48 => '512000 max',
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49 => '576000 max',
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50 => '640000 max',
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},
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PrintConv => 'ConvertBitrate($val)',
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},
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SurroundMode => {
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PrintConv => {
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0 => 'Not indicated',
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1 => 'Not Dolby surround',
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2 => 'Dolby surround',
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},
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},
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AudioChannels => {
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PrintConvColumns => 2,
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PrintConv => {
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0 => '1 + 1',
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1 => 1,
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2 => 2,
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3 => 3,
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4 => '2/1',
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5 => '3/1',
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6 => '2/2',
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7 => '3/2',
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8 => 1,
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9 => '2 max',
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10 => '3 max',
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11 => '4 max',
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12 => '5 max',
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13 => '6 max',
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},
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},
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);
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#------------------------------------------------------------------------------
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# Extract information from AC-3 audio stream
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# Inputs: 0) ExifTool ref, 1) data ref
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# Reference: http://www.atsc.org/standards/a_52b.pdf
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sub ParseAC3Audio($$)
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{
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my ($et, $dataPt) = @_;
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if ($$dataPt =~ /\x0b\x77..(.)/sg) {
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my $sampleRate = ord($1) >> 6;
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my $tagTablePtr = GetTagTable('Image::ExifTool::M2TS::AC3');
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$et->HandleTag($tagTablePtr, AudioSampleRate => $sampleRate);
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}
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}
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#------------------------------------------------------------------------------
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# Extract information from AC-3 stream descriptor
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# Inputs: 0) ExifTool ref, 1) data ref
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# Reference: http://www.atsc.org/standards/a_52b.pdf
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# Note: This information is duplicated in the Audio stream, but it
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# is somewhat easier to extract it from the descriptor instead
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sub ParseAC3Descriptor($$)
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{
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my ($et, $dataPt) = @_;
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return if length $$dataPt < 3;
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my @v = unpack('C3', $$dataPt);
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my $tagTablePtr = GetTagTable('Image::ExifTool::M2TS::AC3');
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# $et->HandleTag($tagTablePtr, 'AudioSampleRate', $v[0] >> 5);
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$et->HandleTag($tagTablePtr, 'AudioBitrate', $v[1] >> 2);
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$et->HandleTag($tagTablePtr, 'SurroundMode', $v[1] & 0x03);
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$et->HandleTag($tagTablePtr, 'AudioChannels', ($v[2] >> 1) & 0x0f);
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# don't (yet) decode any more (language codes, etc)
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}
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#------------------------------------------------------------------------------
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# Parse PID stream data
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# Inputs: 0) Exiftool ref, 1) PID number, 2) PID type, 3) PID name, 4) data ref
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# Returns: 0=stream parsed OK,
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# 1=stream parsed but we want to parse more of these,
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# -1=can't parse yet because we don't know the type
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sub ParsePID($$$$$)
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{
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my ($et, $pid, $type, $pidName, $dataPt) = @_;
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# can't parse until we know the type (Program Map Table may be later in the stream)
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return -1 unless defined $type;
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my $verbose = $et->Options('Verbose');
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if ($verbose > 1) {
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my $out = $et->Options('TextOut');
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printf $out "Parsing stream 0x%.4x (%s)\n", $pid, $pidName;
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$et->VerboseDump($dataPt);
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}
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my $more = 0;
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if ($type == 0x01 or $type == 0x02) {
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# MPEG-1/MPEG-2 Video
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require Image::ExifTool::MPEG;
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Image::ExifTool::MPEG::ParseMPEGAudioVideo($et, $dataPt);
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} elsif ($type == 0x03 or $type == 0x04) {
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# MPEG-1/MPEG-2 Audio
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require Image::ExifTool::MPEG;
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Image::ExifTool::MPEG::ParseMPEGAudio($et, $dataPt);
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} elsif ($type == 0x1b) {
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# H.264 Video
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require Image::ExifTool::H264;
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$more = Image::ExifTool::H264::ParseH264Video($et, $dataPt);
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# force parsing additional H264 frames with ExtractEmbedded option
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if ($$et{OPTIONS}{ExtractEmbedded}) {
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$more = 1;
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} elsif (not $$et{OPTIONS}{Validate}) {
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$et->WarnOnce('The ExtractEmbedded option may find more tags in the video data',3);
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}
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} elsif ($type == 0x81 or $type == 0x87 or $type == 0x91) {
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# AC-3 audio
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ParseAC3Audio($et, $dataPt);
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}
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return $more;
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}
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#------------------------------------------------------------------------------
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# Extract information from a M2TS file
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# Inputs: 0) ExifTool object reference, 1) DirInfo reference
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# Returns: 1 on success, 0 if this wasn't a valid M2TS file
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sub ProcessM2TS($$)
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{
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my ($et, $dirInfo) = @_;
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my $raf = $$dirInfo{RAF};
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my ($buff, $pLen, $upkPrefix, $j, $fileType, $eof);
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my (%pmt, %pidType, %data, %sectLen);
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my ($startTime, $endTime, $backScan, $maxBack);
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my $verbose = $et->Options('Verbose');
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my $out = $et->Options('TextOut');
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# read first packet
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return 0 unless $raf->Read($buff, 8) == 8;
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# test for magic number (sync byte is the only thing we can safely check)
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return 0 unless $buff =~ /^(....)?\x47/s;
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unless ($1) {
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$pLen = 188; # no timecode
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$fileType = 'M2T'; # (just as a way to tell there is no timecode)
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$upkPrefix = 'N';
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} else {
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$pLen = 192; # 188-byte transport packet + leading 4-byte timecode (ref 4)
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$upkPrefix = 'x4N';
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}
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my $prePos = $pLen - 188; # byte position of packet prefix
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my $readSize = 64 * $pLen; # read 64 packets at once
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$raf->Seek(0,0); # rewind to start
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$raf->Read($buff, $readSize) >= $pLen * 4 or return 0; # require at least 4 packets
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# validate the sync byte in the next 3 packets
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for ($j=1; $j<4; ++$j) {
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return 0 unless substr($buff, $prePos + $pLen * $j, 1) eq 'G'; # (0x47)
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}
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$et->SetFileType($fileType);
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SetByteOrder('MM');
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my $tagTablePtr = GetTagTable('Image::ExifTool::M2TS::Main');
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# PID lookup strings (will add to this with entries from program map table)
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my %pidName = (
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0 => 'Program Association Table',
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1 => 'Conditional Access Table',
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2 => 'Transport Stream Description Table',
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0x1fff => 'Null Packet',
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);
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my %didPID = ( 1 => 0, 2 => 0, 0x1fff => 0 );
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my %needPID = ( 0 => 1 ); # lookup for stream PID's that we still need to parse
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my $pEnd = 0;
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my $i = 0;
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# parse packets from MPEG-2 Transport Stream
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for (;;) {
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unless (%needPID) {
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last unless defined $startTime;
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# seek backwards to find last PCR
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if (defined $backScan) {
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last if defined $endTime;
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$backScan -= $pLen;
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last if $backScan < $maxBack;
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} else {
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undef $endTime;
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last if $et->Options('FastScan');
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$verbose and print "[Starting backscan for last PCR]\n";
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# calculate position of last complete packet
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my $fwdPos = $raf->Tell();
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$raf->Seek(0, 2) or last;
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my $fsize = $raf->Tell();
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my $nPack = int($fsize / $pLen);
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$backScan = ($nPack - 1) * $pLen - $fsize;
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# set limit on how far back we will go
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$maxBack = $fwdPos - $fsize;
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$maxBack = -256000 if $maxBack < -256000;
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}
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$raf->Seek($backScan, 2) or last;
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}
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my $pos = $pEnd;
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# read more if necessary
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if ($pos + $pLen > length $buff) {
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$raf->Read($buff, $readSize) >= $pLen or $eof = 1, last;
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$pos = $pEnd = 0;
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}
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$pEnd += $pLen;
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# decode the packet prefix
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$pos += $prePos;
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my $prefix = unpack("x${pos}N", $buff); # (use unpack instead of Get32u for speed)
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# validate sync byte
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unless (($prefix & 0xff000000) == 0x47000000) {
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$et->Warn('Synchronization error') unless defined $backScan;
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last;
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}
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# my $transport_error_indicator = $prefix & 0x00800000;
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my $payload_unit_start_indicator = $prefix & 0x00400000;
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# my $transport_priority = $prefix & 0x00200000;
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my $pid =($prefix & 0x001fff00) >> 8; # packet ID
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# my $transport_scrambling_control = $prefix & 0x000000c0;
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my $adaptation_field_exists = $prefix & 0x00000020;
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my $payload_data_exists = $prefix & 0x00000010;
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# my $continuity_counter = $prefix & 0x0000000f;
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if ($verbose > 1) {
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print $out "Transport packet $i:\n";
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++$i;
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$et->VerboseDump(\$buff, Len => $pLen, Addr => $i * $pLen, Start => $pos - $prePos);
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my $str = $pidName{$pid} ? " ($pidName{$pid})" : '';
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printf $out " Timecode: 0x%.4x\n", Get32u(\$buff, $pos - $prePos) if $pLen == 192;
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printf $out " Packet ID: 0x%.4x$str\n", $pid;
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printf $out " Start Flag: %s\n", $payload_unit_start_indicator ? 'Yes' : 'No';
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}
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$pos += 4;
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# handle adaptation field
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if ($adaptation_field_exists) {
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my $len = Get8u(\$buff, $pos++);
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$pos + $len > $pEnd and $et->Warn('Invalid adaptation field length'), last;
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# read PCR value for calculation of Duration
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if ($len > 6) {
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my $flags = Get8u(\$buff, $pos);
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if ($flags & 0x10) { # PCR_flag
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# combine 33-bit program_clock_reference_base and 9-bit extension
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my $pcrBase = Get32u(\$buff, $pos + 1);
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my $pcrExt = Get16u(\$buff, $pos + 5);
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# ignore separate programs (PID's) and store just the
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# first and last timestamps found in the file (is this OK?)
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$endTime = 300 * (2 * $pcrBase + ($pcrExt >> 15)) + ($pcrExt & 0x01ff);
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$startTime = $endTime unless defined $startTime;
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}
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}
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$pos += $len;
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}
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# all done with this packet unless it carries a payload
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# or if we are just looking for the last timestamp
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next unless $payload_data_exists and not defined $backScan;
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# decode payload data
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if ($pid == 0 or # program association table
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defined $pmt{$pid}) # program map table(s)
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{
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# must interpret pointer field if payload_unit_start_indicator is set
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my $buf2;
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if ($payload_unit_start_indicator) {
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# skip to start of section
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my $pointer_field = Get8u(\$buff, $pos);
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$pos += 1 + $pointer_field;
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$pos >= $pEnd and $et->Warn('Bad pointer field'), last;
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$buf2 = substr($buff, $pEnd-$pLen, $pLen);
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$pos -= $pEnd - $pLen;
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} else {
|
|
# not the start of a section
|
|
next unless $sectLen{$pid};
|
|
my $more = $sectLen{$pid} - length($data{$pid});
|
|
my $size = $pLen - $pos;
|
|
$size = $more if $size > $more;
|
|
$data{$pid} .= substr($buff, $pos, $size);
|
|
next unless $size == $more;
|
|
# we have the complete section now, so put into $buf2 for parsing
|
|
$buf2 = $data{$pid};
|
|
$pos = 0;
|
|
delete $data{$pid};
|
|
delete $sectLen{$pid};
|
|
}
|
|
my $slen = length($buf2); # section length
|
|
$pos + 8 > $slen and $et->Warn('Truncated payload'), last;
|
|
# validate table ID
|
|
my $table_id = Get8u(\$buf2, $pos);
|
|
my $name = ($tableID{$table_id} || sprintf('Unknown (0x%x)',$table_id)) . ' Table';
|
|
my $expectedID = $pid ? 0x02 : 0x00;
|
|
unless ($table_id == $expectedID) {
|
|
$verbose > 1 and print $out " (skipping $name)\n";
|
|
delete $needPID{$pid};
|
|
$didPID{$pid} = 1;
|
|
next;
|
|
}
|
|
# validate section syntax indicator for parsed tables (PAT, PMT)
|
|
my $section_syntax_indicator = Get8u(\$buf2, $pos + 1) & 0xc0;
|
|
$section_syntax_indicator == 0x80 or $et->Warn("Bad $name"), last;
|
|
my $section_length = Get16u(\$buf2, $pos + 1) & 0x0fff;
|
|
$section_length > 1021 and $et->Warn("Invalid $name length"), last;
|
|
if ($slen < $section_length + 3) { # (3 bytes for table_id + section_length)
|
|
# must wait until we have the full section
|
|
$data{$pid} = substr($buf2, $pos);
|
|
$sectLen{$pid} = $section_length + 3;
|
|
next;
|
|
}
|
|
my $program_number = Get16u(\$buf2, $pos + 3);
|
|
my $section_number = Get8u(\$buf2, $pos + 6);
|
|
my $last_section_number = Get8u(\$buf2, $pos + 7);
|
|
if ($verbose > 1) {
|
|
print $out " $name length: $section_length\n";
|
|
print $out " Program No: $program_number\n" if $pid;
|
|
printf $out " Stream ID: 0x%x\n", $program_number if not $pid;
|
|
print $out " Section No: $section_number\n";
|
|
print $out " Last Sect.: $last_section_number\n";
|
|
}
|
|
my $end = $pos + $section_length + 3 - 4; # (don't read 4-byte CRC)
|
|
$pos += 8;
|
|
if ($pid == 0) {
|
|
# decode PAT (Program Association Table)
|
|
while ($pos <= $end - 4) {
|
|
my $program_number = Get16u(\$buf2, $pos);
|
|
my $program_map_PID = Get16u(\$buf2, $pos + 2) & 0x1fff;
|
|
$pmt{$program_map_PID} = $program_number; # save our PMT PID's
|
|
my $str = "Program $program_number Map";
|
|
$pidName{$program_map_PID} = $str;
|
|
$needPID{$program_map_PID} = 1 unless $didPID{$program_map_PID};
|
|
$verbose and printf $out " PID(0x%.4x) --> $str\n", $program_map_PID;
|
|
$pos += 4;
|
|
}
|
|
} else {
|
|
# decode PMT (Program Map Table)
|
|
$pos + 4 > $slen and $et->Warn('Truncated PMT'), last;
|
|
my $pcr_pid = Get16u(\$buf2, $pos) & 0x1fff;
|
|
my $program_info_length = Get16u(\$buf2, $pos + 2) & 0x0fff;
|
|
my $str = "Program $program_number Clock Reference";
|
|
$pidName{$pcr_pid} = $str;
|
|
$verbose and printf $out " PID(0x%.4x) --> $str\n", $pcr_pid;
|
|
$pos += 4;
|
|
$pos + $program_info_length > $slen and $et->Warn('Truncated program info'), last;
|
|
# dump program information descriptors if verbose
|
|
if ($verbose > 1) { for ($j=0; $j<$program_info_length-2; ) {
|
|
my $descriptor_tag = Get8u(\$buf2, $pos + $j);
|
|
my $descriptor_length = Get8u(\$buf2, $pos + $j + 1);
|
|
$j += 2;
|
|
last if $j + $descriptor_length > $program_info_length;
|
|
my $desc = substr($buf2, $pos+$j, $descriptor_length);
|
|
$j += $descriptor_length;
|
|
$desc =~ s/([\x00-\x1f\x80-\xff])/sprintf("\\x%.2x",ord $1)/eg;
|
|
printf $out " Program Descriptor: Type=0x%.2x \"$desc\"\n", $descriptor_tag;
|
|
}}
|
|
$pos += $program_info_length; # skip descriptors (for now)
|
|
while ($pos <= $end - 5) {
|
|
my $stream_type = Get8u(\$buf2, $pos);
|
|
my $elementary_pid = Get16u(\$buf2, $pos + 1) & 0x1fff;
|
|
my $es_info_length = Get16u(\$buf2, $pos + 3) & 0x0fff;
|
|
my $str = $streamType{$stream_type};
|
|
$str or $str = ($stream_type < 0x7f ? 'Reserved' : 'Private');
|
|
$str = sprintf('%s (0x%.2x)', $str, $stream_type);
|
|
$str = "Program $program_number $str";
|
|
$verbose and printf $out " PID(0x%.4x) --> $str\n", $elementary_pid;
|
|
if ($str =~ /(Audio|Video)/) {
|
|
unless ($pidName{$elementary_pid}) {
|
|
$et->HandleTag($tagTablePtr, $1 . 'StreamType', $stream_type)
|
|
}
|
|
# we want to parse all Audio and Video streams
|
|
$needPID{$elementary_pid} = 1 unless $didPID{$elementary_pid};
|
|
}
|
|
# save PID type and name string
|
|
$pidName{$elementary_pid} = $str;
|
|
$pidType{$elementary_pid} = $stream_type;
|
|
$pos += 5;
|
|
$pos + $es_info_length > $slen and $et->Warn('Truncated ES info'), $pos = $end, last;
|
|
# parse elementary stream descriptors
|
|
for ($j=0; $j<$es_info_length-2; ) {
|
|
my $descriptor_tag = Get8u(\$buf2, $pos + $j);
|
|
my $descriptor_length = Get8u(\$buf2, $pos + $j + 1);
|
|
$j += 2;
|
|
last if $j + $descriptor_length > $es_info_length;
|
|
my $desc = substr($buf2, $pos+$j, $descriptor_length);
|
|
$j += $descriptor_length;
|
|
if ($verbose > 1) {
|
|
my $dstr = $desc;
|
|
$dstr =~ s/([\x00-\x1f\x80-\xff])/sprintf("\\x%.2x",ord $1)/eg;
|
|
printf $out " ES Descriptor: Type=0x%.2x \"$dstr\"\n", $descriptor_tag;
|
|
}
|
|
# parse type-specific descriptor information (once)
|
|
unless ($didPID{$pid}) {
|
|
if ($descriptor_tag == 0x81) { # AC-3
|
|
ParseAC3Descriptor($et, \$desc);
|
|
}
|
|
}
|
|
}
|
|
$pos += $es_info_length;
|
|
}
|
|
}
|
|
# $pos = $end + 4; # skip CRC
|
|
|
|
} elsif (not defined $didPID{$pid}) {
|
|
|
|
# save data from the start of each elementary stream
|
|
if ($payload_unit_start_indicator) {
|
|
if (defined $data{$pid}) {
|
|
# we must have a whole section, so parse now
|
|
my $more = ParsePID($et, $pid, $pidType{$pid}, $pidName{$pid}, \$data{$pid});
|
|
# start fresh even if we couldn't process this PID yet
|
|
delete $data{$pid};
|
|
unless ($more) {
|
|
delete $needPID{$pid};
|
|
$didPID{$pid} = 1;
|
|
next;
|
|
}
|
|
# set flag indicating we found this PID but we still want more
|
|
$needPID{$pid} = -1;
|
|
}
|
|
# check for a PES header
|
|
next if $pos + 6 > $pEnd;
|
|
my $start_code = Get32u(\$buff, $pos);
|
|
next unless ($start_code & 0xffffff00) == 0x00000100;
|
|
my $stream_id = $start_code & 0xff;
|
|
if ($verbose > 1) {
|
|
my $pes_packet_length = Get16u(\$buff, $pos + 4);
|
|
printf $out " Stream ID: 0x%.2x\n", $stream_id;
|
|
print $out " Packet Len: $pes_packet_length\n";
|
|
}
|
|
$pos += 6;
|
|
unless ($noSyntax{$stream_id}) {
|
|
next if $pos + 3 > $pEnd;
|
|
# validate PES syntax
|
|
my $syntax = Get8u(\$buff, $pos) & 0xc0;
|
|
$syntax == 0x80 or $et->Warn('Bad PES syntax'), next;
|
|
# skip PES header
|
|
my $pes_header_data_length = Get8u(\$buff, $pos + 2);
|
|
$pos += 3 + $pes_header_data_length;
|
|
next if $pos >= $pEnd;
|
|
}
|
|
$data{$pid} = substr($buff, $pos, $pEnd-$pos);
|
|
} else {
|
|
next unless defined $data{$pid};
|
|
# accumulate data for each elementary stream
|
|
$data{$pid} .= substr($buff, $pos, $pEnd-$pos);
|
|
}
|
|
# save only the first 256 bytes of most streams, except for
|
|
# unknown or H.264 streams where we save 1 kB
|
|
my $saveLen = (not $pidType{$pid} or $pidType{$pid} == 0x1b) ? 1024 : 256;
|
|
if (length($data{$pid}) >= $saveLen) {
|
|
my $more = ParsePID($et, $pid, $pidType{$pid}, $pidName{$pid}, \$data{$pid});
|
|
next if $more < 0; # wait for program map table (hopefully not too long)
|
|
delete $data{$pid};
|
|
$more and $needPID{$pid} = -1, next; # parse more of these
|
|
delete $needPID{$pid};
|
|
$didPID{$pid} = 1;
|
|
}
|
|
next;
|
|
}
|
|
if ($needPID{$pid}) {
|
|
# we found and parsed a section with this PID, so
|
|
# delete from the lookup of PID's we still need to parse
|
|
delete $needPID{$pid};
|
|
$didPID{$pid} = 1;
|
|
}
|
|
}
|
|
|
|
# calculate Duration if available
|
|
if (defined $startTime and defined $endTime and $startTime != $endTime) {
|
|
$endTime += 0x80000000 * 1200 if $startTime > $endTime; # handle 33-bit wrap
|
|
$et->HandleTag($tagTablePtr, 'Duration', $endTime - $startTime);
|
|
}
|
|
|
|
if ($verbose) {
|
|
my @need;
|
|
foreach (keys %needPID) {
|
|
push @need, sprintf('0x%.2x',$_) if $needPID{$_} > 0;
|
|
}
|
|
if (@need) {
|
|
@need = sort @need;
|
|
print $out "End of file. Missing PID(s): @need\n";
|
|
} else {
|
|
my $what = $eof ? 'of file' : 'scan';
|
|
print $out "End $what. All PID's parsed.\n";
|
|
}
|
|
}
|
|
|
|
# parse any remaining partial PID streams
|
|
my $pid;
|
|
foreach $pid (sort keys %data) {
|
|
ParsePID($et, $pid, $pidType{$pid}, $pidName{$pid}, \$data{$pid});
|
|
delete $data{$pid};
|
|
}
|
|
return 1;
|
|
}
|
|
|
|
1; # end
|
|
|
|
__END__
|
|
|
|
=head1 NAME
|
|
|
|
Image::ExifTool::M2TS - Read M2TS (AVCHD) meta information
|
|
|
|
=head1 SYNOPSIS
|
|
|
|
This module is used by Image::ExifTool
|
|
|
|
=head1 DESCRIPTION
|
|
|
|
This module contains routines required by Image::ExifTool to extract
|
|
information from MPEG-2 transport streams, such as those used by AVCHD
|
|
video.
|
|
|
|
=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<http://neuron2.net/library/mpeg2/iso13818-1.pdf>
|
|
|
|
=item L<http://www.blu-raydisc.com/Assets/Downloadablefile/BD-RE_Part3_V2.1_WhitePaper_080406-15271.pdf>
|
|
|
|
=item L<http://www.videohelp.com/forum/archive/reading-avchd-playlist-files-bdmv-playlist-mpl-t358888.html>
|
|
|
|
=item L<http://en.wikipedia.org/wiki/MPEG_transport_stream>
|
|
|
|
=item L<http://www.dunod.com/documents/9782100493463/49346_DVB.pdf>
|
|
|
|
=item L<http://trac.handbrake.fr/browser/trunk/libhb/stream.c>
|
|
|
|
=item L<http://ieeexplore.ieee.org/stamp/stamp.jsp?arnumber=04560141>
|
|
|
|
=item L<http://www.w6rz.net/xport.zip>
|
|
|
|
=back
|
|
|
|
=head1 SEE ALSO
|
|
|
|
L<Image::ExifTool::TagNames/M2TS Tags>,
|
|
L<Image::ExifTool(3pm)|Image::ExifTool>
|
|
|
|
=cut
|
|
|