mirror of
https://github.com/SickGear/SickGear.git
synced 2024-12-05 02:43:37 +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!
282 lines
10 KiB
Python
282 lines
10 KiB
Python
"""
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Abstract Syntax Notation One (ASN.1) parser.
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Technical informations:
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* PER standard
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http://www.tu.int/ITU-T/studygroups/com17/languages/X.691-0207.pdf
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* Python library
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http://pyasn1.sourceforge.net/
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* Specification of Abstract Syntax Notation One (ASN.1)
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ISO/IEC 8824:1990 Information Technology
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* Specification of Basic Encoding Rules (BER) for ASN.1
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ISO/IEC 8825:1990 Information Technology
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* OpenSSL asn1parser, use command:
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openssl asn1parse -i -inform DER -in file.der
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* ITU-U recommendations:
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http://www.itu.int/rec/T-REC-X/en
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(X.680, X.681, X.682, X.683, X.690, X.691, X.692, X.693, X.694)
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* dumpasn1
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http://www.cs.auckland.ac.nz/~pgut001/dumpasn1.c
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General information:
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* Wikipedia (english) article
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http://en.wikipedia.org/wiki/Abstract_Syntax_Notation_One
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* ASN.1 information site
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http://asn1.elibel.tm.fr/en/
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* ASN.1 consortium
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http://www.asn1.org/
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Encodings:
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* Basic Encoding Rules (BER)
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* Canonical Encoding Rules (CER) -- DER derivative that is not widely used
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* Distinguished Encoding Rules (DER) -- used for encrypted applications
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* XML Encoding Rules (XER)
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* Packed Encoding Rules (PER) -- result in the fewest number of bytes
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* Generic String Encoding Rules (GSER)
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=> Are encodings compatibles? Which encodings are supported??
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Author: Victor Stinner
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Creation date: 24 september 2006
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"""
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from lib.hachoir_parser import Parser
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from lib.hachoir_core.field import (FieldSet,
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FieldError, ParserError,
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Bit, Bits, Bytes, UInt8, GenericInteger, String,
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Field, Enum, RawBytes)
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from lib.hachoir_core.endian import BIG_ENDIAN
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from lib.hachoir_core.tools import createDict, humanDatetime
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from lib.hachoir_core.stream import InputStreamError
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from lib.hachoir_core.text_handler import textHandler
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# --- Field parser ---
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class ASNInteger(Field):
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"""
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Integer: two cases:
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- first byte in 0..127: it's the value
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- first byte in 128..255: byte & 127 is the number of bytes,
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next bytes are the value
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"""
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def __init__(self, parent, name, description=None):
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Field.__init__(self, parent, name, 8, description)
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stream = self._parent.stream
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addr = self.absolute_address
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value = stream.readBits(addr, 8, BIG_ENDIAN)
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if 128 <= value:
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nbits = (value & 127) * 8
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if not nbits:
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raise ParserError("ASN.1: invalid ASN integer size (zero)")
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if 64 < nbits:
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# Arbitrary limit to catch errors
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raise ParserError("ASN.1: ASN integer is limited to 64 bits")
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self._size = 8 + nbits
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value = stream.readBits(addr+8, nbits, BIG_ENDIAN)
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self.createValue = lambda: value
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class OID_Integer(Bits):
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def __init__(self, parent, name, description=None):
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Bits.__init__(self, parent, name, 8, description)
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stream = self._parent.stream
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addr = self.absolute_address
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size = 8
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value = 0
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byte = stream.readBits(addr, 8, BIG_ENDIAN)
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value = byte & 127
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while 128 <= byte:
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addr += 8
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size += 8
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if 64 < size:
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# Arbitrary limit to catch errors
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raise ParserError("ASN.1: Object identifier is limited 64 bits")
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byte = stream.readBits(addr, 8, BIG_ENDIAN)
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value = (value << 7) + (byte & 127)
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self._size = size
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self.createValue = lambda: value
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def readSequence(self, content_size):
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while self.current_size < self.size:
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yield Object(self, "item[]")
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def readSet(self, content_size):
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yield Object(self, "value", size=content_size*8)
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def readASCIIString(self, content_size):
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yield String(self, "value", content_size, charset="ASCII")
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def readUTF8String(self, content_size):
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yield String(self, "value", content_size, charset="UTF-8")
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def readBMPString(self, content_size):
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yield String(self, "value", content_size, charset="UTF-16")
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def readBitString(self, content_size):
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yield UInt8(self, "padding_size", description="Number of unused bits")
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if content_size > 1:
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yield Bytes(self, "value", content_size-1)
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def readOctetString(self, content_size):
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yield Bytes(self, "value", content_size)
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def formatObjectID(fieldset):
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text = [ fieldset["first"].display ]
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items = [ field for field in fieldset if field.name.startswith("item[") ]
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text.extend( str(field.value) for field in items )
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return ".".join(text)
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def readObjectID(self, content_size):
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yield textHandler(UInt8(self, "first"), formatFirstObjectID)
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while self.current_size < self.size:
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yield OID_Integer(self, "item[]")
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def readBoolean(self, content_size):
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if content_size != 1:
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raise ParserError("Overlong boolean: got %s bytes, expected 1 byte"%content_size)
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yield textHandler(UInt8(self, "value"), lambda field:str(bool(field.value)))
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def readInteger(self, content_size):
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# Always signed?
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yield GenericInteger(self, "value", True, content_size*8)
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# --- Format ---
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def formatFirstObjectID(field):
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value = field.value
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return "%u.%u" % (value // 40, value % 40)
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def formatValue(fieldset):
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return fieldset["value"].display
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def formatUTCTime(fieldset):
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import datetime
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value = fieldset["value"].value
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year = int(value[0:2])
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if year < 50:
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year += 2000
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else:
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year += 1900
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month = int(value[2:4])
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day = int(value[4:6])
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hour = int(value[6:8])
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minute = int(value[8:10])
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if value[-1] == "Z":
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second = int(value[10:12])
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dt = datetime.datetime(year, month, day, hour, minute, second)
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else:
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# Skip timezone...
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dt = datetime.datetime(year, month, day, hour, minute)
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return humanDatetime(dt)
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# --- Object parser ---
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class Object(FieldSet):
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TYPE_INFO = {
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0: ("end[]", None, "End (reserved for BER, None)", None), # TODO: Write parser
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1: ("boolean[]", readBoolean, "Boolean", None),
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2: ("integer[]", readInteger, "Integer", None),
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3: ("bit_str[]", readBitString, "Bit string", None),
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4: ("octet_str[]", readOctetString, "Octet string", None),
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5: ("null[]", None, "NULL (empty, None)", None),
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6: ("obj_id[]", readObjectID, "Object identifier", formatObjectID),
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7: ("obj_desc[]", None, "Object descriptor", None), # TODO: Write parser
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8: ("external[]", None, "External, instance of", None), # TODO: Write parser # External?
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9: ("real[]", readASCIIString, "Real number", None), # TODO: Write parser
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10: ("enum[]", readInteger, "Enumerated", None),
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11: ("embedded[]", None, "Embedded PDV", None), # TODO: Write parser
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12: ("utf8_str[]", readUTF8String, "Printable string", None),
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13: ("rel_obj_id[]", None, "Relative object identifier", None), # TODO: Write parser
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14: ("time[]", None, "Time", None), # TODO: Write parser
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# 15: invalid??? sequence of???
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16: ("seq[]", readSequence, "Sequence", None),
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17: ("set[]", readSet, "Set", None),
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18: ("num_str[]", readASCIIString, "Numeric string", None),
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19: ("print_str[]", readASCIIString, "Printable string", formatValue),
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20: ("teletex_str[]", readASCIIString, "Teletex (T61, None) string", None),
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21: ("videotex_str[]", readASCIIString, "Videotex string", None),
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22: ("ia5_str[]", readASCIIString, "IA5 string", formatValue),
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23: ("utc_time[]", readASCIIString, "UTC time", formatUTCTime),
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24: ("general_time[]", readASCIIString, "Generalized time", None),
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25: ("graphic_str[]", readASCIIString, "Graphic string", None),
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26: ("visible_str[]", readASCIIString, "Visible (ISO64, None) string", None),
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27: ("general_str[]", readASCIIString, "General string", None),
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28: ("universal_str[]", readASCIIString, "Universal string", None),
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29: ("unrestricted_str[]", readASCIIString, "Unrestricted string", None),
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30: ("bmp_str[]", readBMPString, "BMP string", None),
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# 31: multiple octet tag number, TODO: not supported
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# Extended tag values:
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# 31: Date
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# 32: Time of day
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# 33: Date-time
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# 34: Duration
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}
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TYPE_DESC = createDict(TYPE_INFO, 2)
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CLASS_DESC = {0: "universal", 1: "application", 2: "context", 3: "private"}
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FORM_DESC = {False: "primitive", True: "constructed"}
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def __init__(self, *args, **kw):
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FieldSet.__init__(self, *args, **kw)
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key = self["type"].value & 31
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if self['class'].value == 0:
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# universal object
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if key in self.TYPE_INFO:
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self._name, self._handler, self._description, create_desc = self.TYPE_INFO[key]
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if create_desc:
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self.createDescription = lambda: "%s: %s" % (self.TYPE_INFO[key][2], create_desc(self))
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self._description = None
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elif key == 31:
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raise ParserError("ASN.1 Object: tag bigger than 30 are not supported")
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else:
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self._handler = None
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elif self['form'].value:
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# constructed: treat as sequence
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self._name = 'seq[]'
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self._handler = readSequence
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self._description = 'constructed object type %i' % key
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else:
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# primitive, context/private
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self._name = 'raw[]'
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self._handler = readASCIIString
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self._description = '%s object type %i' % (self['class'].display, key)
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field = self["size"]
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self._size = field.address + field.size + field.value*8
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def createFields(self):
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yield Enum(Bits(self, "class", 2), self.CLASS_DESC)
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yield Enum(Bit(self, "form"), self.FORM_DESC)
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if self['class'].value == 0:
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yield Enum(Bits(self, "type", 5), self.TYPE_DESC)
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else:
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yield Bits(self, "type", 5)
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yield ASNInteger(self, "size", "Size in bytes")
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size = self["size"].value
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if size:
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if self._handler:
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for field in self._handler(self, size):
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yield field
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else:
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yield RawBytes(self, "raw", size)
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class ASN1File(Parser):
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PARSER_TAGS = {
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"id": "asn1",
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"category": "container",
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"file_ext": ("der",),
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"min_size": 16,
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"description": "Abstract Syntax Notation One (ASN.1)"
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}
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endian = BIG_ENDIAN
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def validate(self):
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try:
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root = self[0]
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except (InputStreamError, FieldError):
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return "Unable to create root object"
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if root.size != self.size:
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return "Invalid root object size"
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return True
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def createFields(self):
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yield Object(self, "root")
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