mirror of
https://github.com/SickGear/SickGear.git
synced 2024-12-11 21:53:37 +00:00
0d9fbc1ad7
This version of SickBeard uses both TVDB and TVRage to search and gather it's series data from allowing you to now have access to and download shows that you couldn't before because of being locked into only what TheTVDB had to offer. Also this edition is based off the code we used in our XEM editon so it does come with scene numbering support as well as all the other features our XEM edition has to offer. Please before using this with your existing database (sickbeard.db) please make a backup copy of it and delete any other database files such as cache.db and failed.db if present, we HIGHLY recommend starting out with no database files at all to make this a fresh start but the choice is at your own risk! Enjoy!
389 lines
15 KiB
Python
389 lines
15 KiB
Python
# -*- coding: utf-8 -*-
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# enzyme - Video metadata parser
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# Copyright 2011-2012 Antoine Bertin <diaoulael@gmail.com>
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# Copyright 2003-2006 Thomas Schueppel <stain@acm.org>
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# Copyright 2003-2006 Dirk Meyer <dischi@freevo.org>
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#
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# This file is part of enzyme.
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#
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# enzyme is free software; you can redistribute it and/or modify it under
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# the terms of the GNU General Public License as published by
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# the Free Software Foundation; either version 3 of the License, or
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# (at your option) any later version.
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#
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# enzyme is distributed in the hope that it will be useful,
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# but WITHOUT ANY WARRANTY; without even the implied warranty of
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# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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# GNU General Public License for more details.
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#
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# You should have received a copy of the GNU General Public License
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# along with enzyme. If not, see <http://www.gnu.org/licenses/>.
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from exceptions import ParseError
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import core
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import logging
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import string
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import struct
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__all__ = ['Parser']
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# get logging object
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log = logging.getLogger(__name__)
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def _guid(input):
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# Remove any '-'
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s = string.join(string.split(input, '-'), '')
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r = ''
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if len(s) != 32:
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return ''
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for i in range(0, 16):
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r += chr(int(s[2 * i:2 * i + 2], 16))
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guid = struct.unpack('>IHHBB6s', r)
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return guid
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GUIDS = {
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'ASF_Header_Object' : _guid('75B22630-668E-11CF-A6D9-00AA0062CE6C'),
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'ASF_Data_Object' : _guid('75B22636-668E-11CF-A6D9-00AA0062CE6C'),
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'ASF_Simple_Index_Object' : _guid('33000890-E5B1-11CF-89F4-00A0C90349CB'),
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'ASF_Index_Object' : _guid('D6E229D3-35DA-11D1-9034-00A0C90349BE'),
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'ASF_Media_Object_Index_Object' : _guid('FEB103F8-12AD-4C64-840F-2A1D2F7AD48C'),
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'ASF_Timecode_Index_Object' : _guid('3CB73FD0-0C4A-4803-953D-EDF7B6228F0C'),
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'ASF_File_Properties_Object' : _guid('8CABDCA1-A947-11CF-8EE4-00C00C205365'),
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'ASF_Stream_Properties_Object' : _guid('B7DC0791-A9B7-11CF-8EE6-00C00C205365'),
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'ASF_Header_Extension_Object' : _guid('5FBF03B5-A92E-11CF-8EE3-00C00C205365'),
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'ASF_Codec_List_Object' : _guid('86D15240-311D-11D0-A3A4-00A0C90348F6'),
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'ASF_Script_Command_Object' : _guid('1EFB1A30-0B62-11D0-A39B-00A0C90348F6'),
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'ASF_Marker_Object' : _guid('F487CD01-A951-11CF-8EE6-00C00C205365'),
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'ASF_Bitrate_Mutual_Exclusion_Object' : _guid('D6E229DC-35DA-11D1-9034-00A0C90349BE'),
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'ASF_Error_Correction_Object' : _guid('75B22635-668E-11CF-A6D9-00AA0062CE6C'),
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'ASF_Content_Description_Object' : _guid('75B22633-668E-11CF-A6D9-00AA0062CE6C'),
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'ASF_Extended_Content_Description_Object' : _guid('D2D0A440-E307-11D2-97F0-00A0C95EA850'),
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'ASF_Content_Branding_Object' : _guid('2211B3FA-BD23-11D2-B4B7-00A0C955FC6E'),
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'ASF_Stream_Bitrate_Properties_Object' : _guid('7BF875CE-468D-11D1-8D82-006097C9A2B2'),
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'ASF_Content_Encryption_Object' : _guid('2211B3FB-BD23-11D2-B4B7-00A0C955FC6E'),
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'ASF_Extended_Content_Encryption_Object' : _guid('298AE614-2622-4C17-B935-DAE07EE9289C'),
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'ASF_Alt_Extended_Content_Encryption_Obj' : _guid('FF889EF1-ADEE-40DA-9E71-98704BB928CE'),
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'ASF_Digital_Signature_Object' : _guid('2211B3FC-BD23-11D2-B4B7-00A0C955FC6E'),
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'ASF_Padding_Object' : _guid('1806D474-CADF-4509-A4BA-9AABCB96AAE8'),
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'ASF_Extended_Stream_Properties_Object' : _guid('14E6A5CB-C672-4332-8399-A96952065B5A'),
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'ASF_Advanced_Mutual_Exclusion_Object' : _guid('A08649CF-4775-4670-8A16-6E35357566CD'),
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'ASF_Group_Mutual_Exclusion_Object' : _guid('D1465A40-5A79-4338-B71B-E36B8FD6C249'),
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'ASF_Stream_Prioritization_Object' : _guid('D4FED15B-88D3-454F-81F0-ED5C45999E24'),
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'ASF_Bandwidth_Sharing_Object' : _guid('A69609E6-517B-11D2-B6AF-00C04FD908E9'),
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'ASF_Language_List_Object' : _guid('7C4346A9-EFE0-4BFC-B229-393EDE415C85'),
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'ASF_Metadata_Object' : _guid('C5F8CBEA-5BAF-4877-8467-AA8C44FA4CCA'),
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'ASF_Metadata_Library_Object' : _guid('44231C94-9498-49D1-A141-1D134E457054'),
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'ASF_Index_Parameters_Object' : _guid('D6E229DF-35DA-11D1-9034-00A0C90349BE'),
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'ASF_Media_Object_Index_Parameters_Obj' : _guid('6B203BAD-3F11-4E84-ACA8-D7613DE2CFA7'),
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'ASF_Timecode_Index_Parameters_Object' : _guid('F55E496D-9797-4B5D-8C8B-604DFE9BFB24'),
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'ASF_Audio_Media' : _guid('F8699E40-5B4D-11CF-A8FD-00805F5C442B'),
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'ASF_Video_Media' : _guid('BC19EFC0-5B4D-11CF-A8FD-00805F5C442B'),
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'ASF_Command_Media' : _guid('59DACFC0-59E6-11D0-A3AC-00A0C90348F6'),
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'ASF_JFIF_Media' : _guid('B61BE100-5B4E-11CF-A8FD-00805F5C442B'),
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'ASF_Degradable_JPEG_Media' : _guid('35907DE0-E415-11CF-A917-00805F5C442B'),
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'ASF_File_Transfer_Media' : _guid('91BD222C-F21C-497A-8B6D-5AA86BFC0185'),
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'ASF_Binary_Media' : _guid('3AFB65E2-47EF-40F2-AC2C-70A90D71D343'),
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'ASF_Web_Stream_Media_Subtype' : _guid('776257D4-C627-41CB-8F81-7AC7FF1C40CC'),
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'ASF_Web_Stream_Format' : _guid('DA1E6B13-8359-4050-B398-388E965BF00C'),
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'ASF_No_Error_Correction' : _guid('20FB5700-5B55-11CF-A8FD-00805F5C442B'),
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'ASF_Audio_Spread' : _guid('BFC3CD50-618F-11CF-8BB2-00AA00B4E220')}
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class Asf(core.AVContainer):
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"""
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ASF video parser. The ASF format is also used for Microsft Windows
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Media files like wmv.
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"""
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def __init__(self, file):
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core.AVContainer.__init__(self)
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self.mime = 'video/x-ms-asf'
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self.type = 'asf format'
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self._languages = []
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self._extinfo = {}
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h = file.read(30)
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if len(h) < 30:
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raise ParseError()
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(guidstr, objsize, objnum, reserved1, \
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reserved2) = struct.unpack('<16sQIBB', h)
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guid = self._parseguid(guidstr)
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if (guid != GUIDS['ASF_Header_Object']):
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raise ParseError()
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if reserved1 != 0x01 or reserved2 != 0x02:
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raise ParseError()
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log.debug(u'Header size: %d / %d objects' % (objsize, objnum))
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header = file.read(objsize - 30)
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for _ in range(0, objnum):
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h = self._getnextheader(header)
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header = header[h[1]:]
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del self._languages
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del self._extinfo
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def _findstream(self, id):
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for stream in self.video + self.audio:
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if stream.id == id:
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return stream
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def _apply_extinfo(self, streamid):
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stream = self._findstream(streamid)
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if not stream or streamid not in self._extinfo:
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return
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stream.bitrate, stream.fps, langid, metadata = self._extinfo[streamid]
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if langid is not None and langid >= 0 and langid < len(self._languages):
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stream.language = self._languages[langid]
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if metadata:
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stream._appendtable('ASFMETADATA', metadata)
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def _parseguid(self, string):
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return struct.unpack('<IHHBB6s', string[:16])
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def _parsekv(self, s):
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pos = 0
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(descriptorlen,) = struct.unpack('<H', s[pos:pos + 2])
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pos += 2
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descriptorname = s[pos:pos + descriptorlen]
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pos += descriptorlen
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descriptortype, valuelen = struct.unpack('<HH', s[pos:pos + 4])
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pos += 4
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descriptorvalue = s[pos:pos + valuelen]
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pos += valuelen
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value = None
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if descriptortype == 0x0000:
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# Unicode string
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value = descriptorvalue
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elif descriptortype == 0x0001:
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# Byte Array
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value = descriptorvalue
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elif descriptortype == 0x0002:
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# Bool (?)
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value = struct.unpack('<I', descriptorvalue)[0] != 0
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elif descriptortype == 0x0003:
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# DWORD
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value = struct.unpack('<I', descriptorvalue)[0]
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elif descriptortype == 0x0004:
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# QWORD
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value = struct.unpack('<Q', descriptorvalue)[0]
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elif descriptortype == 0x0005:
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# WORD
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value = struct.unpack('<H', descriptorvalue)[0]
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else:
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log.debug(u'Unknown Descriptor Type %d' % descriptortype)
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return (pos, descriptorname, value)
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def _parsekv2(self, s):
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pos = 0
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strno, descriptorlen, descriptortype, valuelen = struct.unpack('<2xHHHI', s[pos:pos + 12])
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pos += 12
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descriptorname = s[pos:pos + descriptorlen]
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pos += descriptorlen
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descriptorvalue = s[pos:pos + valuelen]
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pos += valuelen
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value = None
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if descriptortype == 0x0000:
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# Unicode string
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value = descriptorvalue
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elif descriptortype == 0x0001:
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# Byte Array
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value = descriptorvalue
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elif descriptortype == 0x0002:
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# Bool
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value = struct.unpack('<H', descriptorvalue)[0] != 0
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pass
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elif descriptortype == 0x0003:
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# DWORD
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value = struct.unpack('<I', descriptorvalue)[0]
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elif descriptortype == 0x0004:
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# QWORD
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value = struct.unpack('<Q', descriptorvalue)[0]
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elif descriptortype == 0x0005:
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# WORD
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value = struct.unpack('<H', descriptorvalue)[0]
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else:
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log.debug(u'Unknown Descriptor Type %d' % descriptortype)
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return (pos, descriptorname, value, strno)
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def _getnextheader(self, s):
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r = struct.unpack('<16sQ', s[:24])
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(guidstr, objsize) = r
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guid = self._parseguid(guidstr)
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if guid == GUIDS['ASF_File_Properties_Object']:
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log.debug(u'File Properties Object')
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val = struct.unpack('<16s6Q4I', s[24:24 + 80])
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(fileid, size, date, packetcount, duration, \
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senddur, preroll, flags, minpack, maxpack, maxbr) = \
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val
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# FIXME: parse date to timestamp
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self.length = duration / 10000000.0
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elif guid == GUIDS['ASF_Stream_Properties_Object']:
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log.debug(u'Stream Properties Object [%d]' % objsize)
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streamtype = self._parseguid(s[24:40])
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errortype = self._parseguid(s[40:56])
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offset, typelen, errorlen, flags = struct.unpack('<QIIH', s[56:74])
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strno = flags & 0x7f
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encrypted = flags >> 15
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if encrypted:
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self._set('encrypted', True)
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if streamtype == GUIDS['ASF_Video_Media']:
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vi = core.VideoStream()
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vi.width, vi.height, depth, codec, = struct.unpack('<4xII2xH4s', s[89:89 + 20])
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vi.codec = codec
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vi.id = strno
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self.video.append(vi)
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elif streamtype == GUIDS['ASF_Audio_Media']:
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ai = core.AudioStream()
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twocc, ai.channels, ai.samplerate, bitrate, block, \
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ai.samplebits, = struct.unpack('<HHIIHH', s[78:78 + 16])
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ai.bitrate = 8 * bitrate
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ai.codec = twocc
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ai.id = strno
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self.audio.append(ai)
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self._apply_extinfo(strno)
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elif guid == GUIDS['ASF_Extended_Stream_Properties_Object']:
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streamid, langid, frametime = struct.unpack('<HHQ', s[72:84])
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(bitrate,) = struct.unpack('<I', s[40:40 + 4])
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if streamid not in self._extinfo:
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self._extinfo[streamid] = [None, None, None, {}]
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if frametime == 0:
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# Problaby VFR, report as 1000fps (which is what MPlayer does)
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frametime = 10000.0
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self._extinfo[streamid][:3] = [bitrate, 10000000.0 / frametime, langid]
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self._apply_extinfo(streamid)
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elif guid == GUIDS['ASF_Header_Extension_Object']:
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log.debug(u'ASF_Header_Extension_Object %d' % objsize)
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size = struct.unpack('<I', s[42:46])[0]
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data = s[46:46 + size]
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while len(data):
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log.debug(u'Sub:')
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h = self._getnextheader(data)
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data = data[h[1]:]
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elif guid == GUIDS['ASF_Codec_List_Object']:
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log.debug(u'List Object')
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pass
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elif guid == GUIDS['ASF_Error_Correction_Object']:
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log.debug(u'Error Correction')
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pass
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elif guid == GUIDS['ASF_Content_Description_Object']:
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log.debug(u'Content Description Object')
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val = struct.unpack('<5H', s[24:24 + 10])
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pos = 34
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strings = []
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for i in val:
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ss = s[pos:pos + i].replace('\0', '').lstrip().rstrip()
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strings.append(ss)
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pos += i
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# Set empty strings to None
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strings = [x or None for x in strings]
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self.title, self.artist, self.copyright, self.caption, rating = strings
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elif guid == GUIDS['ASF_Extended_Content_Description_Object']:
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(count,) = struct.unpack('<H', s[24:26])
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pos = 26
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descriptor = {}
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for i in range(0, count):
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# Read additional content descriptors
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d = self._parsekv(s[pos:])
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pos += d[0]
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descriptor[d[1]] = d[2]
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self._appendtable('ASFDESCRIPTOR', descriptor)
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elif guid == GUIDS['ASF_Metadata_Object']:
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(count,) = struct.unpack('<H', s[24:26])
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pos = 26
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streams = {}
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for i in range(0, count):
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# Read additional content descriptors
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size, key, value, strno = self._parsekv2(s[pos:])
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if strno not in streams:
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streams[strno] = {}
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streams[strno][key] = value
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pos += size
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for strno, metadata in streams.items():
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if strno not in self._extinfo:
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self._extinfo[strno] = [None, None, None, {}]
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self._extinfo[strno][3].update(metadata)
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self._apply_extinfo(strno)
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elif guid == GUIDS['ASF_Language_List_Object']:
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count = struct.unpack('<H', s[24:26])[0]
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pos = 26
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for i in range(0, count):
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idlen = struct.unpack('<B', s[pos:pos + 1])[0]
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idstring = s[pos + 1:pos + 1 + idlen]
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idstring = unicode(idstring, 'utf-16').replace('\0', '')
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log.debug(u'Language: %d/%d: %r' % (i + 1, count, idstring))
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self._languages.append(idstring)
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pos += 1 + idlen
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elif guid == GUIDS['ASF_Stream_Bitrate_Properties_Object']:
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# This record contains stream bitrate with payload overhead. For
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# audio streams, we should have the average bitrate from
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# ASF_Stream_Properties_Object. For video streams, we get it from
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# ASF_Extended_Stream_Properties_Object. So this record is not
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# used.
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pass
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elif guid == GUIDS['ASF_Content_Encryption_Object'] or \
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guid == GUIDS['ASF_Extended_Content_Encryption_Object']:
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self._set('encrypted', True)
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else:
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# Just print the type:
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for h in GUIDS.keys():
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if GUIDS[h] == guid:
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log.debug(u'Unparsed %r [%d]' % (h, objsize))
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break
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else:
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u = "%.8X-%.4X-%.4X-%.2X%.2X-%s" % guid
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log.debug(u'unknown: len=%d [%d]' % (len(u), objsize))
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return r
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class AsfAudio(core.AudioStream):
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"""
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ASF audio parser for wma files.
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"""
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def __init__(self):
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core.AudioStream.__init__(self)
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self.mime = 'audio/x-ms-asf'
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self.type = 'asf format'
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def Parser(file):
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"""
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Wrapper around audio and av content.
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"""
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asf = Asf(file)
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if not len(asf.audio) or len(asf.video):
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# AV container
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return asf
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# No video but audio streams. Handle has audio core
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audio = AsfAudio()
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for key in audio._keys:
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if key in asf._keys:
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if not getattr(audio, key, None):
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setattr(audio, key, getattr(asf, key))
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return audio
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