shell bypass 403
UnknownSec Shell
:
/
proc
/
self
/
root
/
proc
/
self
/
root
/
usr
/
lib
/
python3.6
/
site-packages
/
pyasn1
/
codec
/
ber
/ [
drwxr-xr-x
]
upload
mass deface
mass delete
console
info server
name :
decoder.py
# # This file is part of pyasn1 software. # # Copyright (c) 2005-2017, Ilya Etingof <etingof@gmail.com> # License: http://pyasn1.sf.net/license.html # from pyasn1.type import base, tag, univ, char, useful, tagmap from pyasn1.codec.ber import eoo from pyasn1.compat.octets import oct2int, octs2ints, ints2octs, null from pyasn1.compat.integer import from_bytes from pyasn1 import debug, error __all__ = ['decode'] noValue = base.noValue class AbstractDecoder(object): protoComponent = None def valueDecoder(self, substrate, asn1Spec, tagSet=None, length=None, state=None, decodeFun=None, substrateFun=None, **options): raise error.PyAsn1Error('Decoder not implemented for %s' % (tagSet,)) def indefLenValueDecoder(self, substrate, asn1Spec, tagSet=None, length=None, state=None, decodeFun=None, substrateFun=None, **options): raise error.PyAsn1Error('Indefinite length mode decoder not implemented for %s' % (tagSet,)) class AbstractSimpleDecoder(AbstractDecoder): @staticmethod def substrateCollector(asn1Object, substrate, length): return substrate[:length], substrate[length:] def _createComponent(self, asn1Spec, tagSet, value=noValue): if asn1Spec is None: return self.protoComponent.clone(value, tagSet=tagSet) elif value is noValue: return asn1Spec else: return asn1Spec.clone(value) class ExplicitTagDecoder(AbstractSimpleDecoder): protoComponent = univ.Any('') def valueDecoder(self, substrate, asn1Spec, tagSet=None, length=None, state=None, decodeFun=None, substrateFun=None, **options): if substrateFun: return substrateFun( self._createComponent(asn1Spec, tagSet, ''), substrate, length ) head, tail = substrate[:length], substrate[length:] value, _ = decodeFun(head, asn1Spec, tagSet, length, **options) return value, tail def indefLenValueDecoder(self, substrate, asn1Spec, tagSet=None, length=None, state=None, decodeFun=None, substrateFun=None, **options): if substrateFun: return substrateFun( self._createComponent(asn1Spec, tagSet, ''), substrate, length ) value, substrate = decodeFun(substrate, asn1Spec, tagSet, length, **options) eooMarker, substrate = decodeFun(substrate, allowEoo=True, **options) if eooMarker is eoo.endOfOctets: return value, substrate else: raise error.PyAsn1Error('Missing end-of-octets terminator') explicitTagDecoder = ExplicitTagDecoder() class IntegerDecoder(AbstractSimpleDecoder): protoComponent = univ.Integer(0) def valueDecoder(self, substrate, asn1Spec, tagSet=None, length=None, state=None, decodeFun=None, substrateFun=None, **options): if tagSet[0].tagFormat != tag.tagFormatSimple: raise error.PyAsn1Error('Simple tag format expected') head, tail = substrate[:length], substrate[length:] if not head: return self._createComponent(asn1Spec, tagSet, 0), tail value = from_bytes(head, signed=True) return self._createComponent(asn1Spec, tagSet, value), tail class BooleanDecoder(IntegerDecoder): protoComponent = univ.Boolean(0) def _createComponent(self, asn1Spec, tagSet, value=noValue): return IntegerDecoder._createComponent(self, asn1Spec, tagSet, value and 1 or 0) class BitStringDecoder(AbstractSimpleDecoder): protoComponent = univ.BitString(()) supportConstructedForm = True def valueDecoder(self, substrate, asn1Spec, tagSet=None, length=None, state=None, decodeFun=None, substrateFun=None, **options): head, tail = substrate[:length], substrate[length:] if tagSet[0].tagFormat == tag.tagFormatSimple: # XXX what tag to check? if not head: raise error.PyAsn1Error('Empty substrate') trailingBits = oct2int(head[0]) if trailingBits > 7: raise error.PyAsn1Error( 'Trailing bits overflow %s' % trailingBits ) head = head[1:] value = self.protoComponent.fromOctetString(head, trailingBits) return self._createComponent(asn1Spec, tagSet, value), tail if not self.supportConstructedForm: raise error.PyAsn1Error('Constructed encoding form prohibited at %s' % self.__class__.__name__) bitString = self._createComponent(asn1Spec, tagSet) if substrateFun: return substrateFun(bitString, substrate, length) while head: component, head = decodeFun(head, self.protoComponent, **options) bitString += component return bitString, tail def indefLenValueDecoder(self, substrate, asn1Spec, tagSet=None, length=None, state=None, decodeFun=None, substrateFun=None, **options): bitString = self._createComponent(asn1Spec, tagSet) if substrateFun: return substrateFun(bitString, substrate, length) while substrate: component, substrate = decodeFun(substrate, self.protoComponent, allowEoo=True, **options) if component is eoo.endOfOctets: break bitString += component else: raise error.SubstrateUnderrunError('No EOO seen before substrate ends') return bitString, substrate class OctetStringDecoder(AbstractSimpleDecoder): protoComponent = univ.OctetString('') supportConstructedForm = True def valueDecoder(self, substrate, asn1Spec, tagSet=None, length=None, state=None, decodeFun=None, substrateFun=None, **options): head, tail = substrate[:length], substrate[length:] if substrateFun: return substrateFun(self._createComponent(asn1Spec, tagSet), substrate, length) if tagSet[0].tagFormat == tag.tagFormatSimple: # XXX what tag to check? return self._createComponent(asn1Spec, tagSet, head), tail if not self.supportConstructedForm: raise error.PyAsn1Error('Constructed encoding form prohibited at %s' % self.__class__.__name__) # All inner fragments are of the same type, treat them as octet string substrateFun = self.substrateCollector header = null while head: component, head = decodeFun(head, self.protoComponent, substrateFun=substrateFun, **options) header += component return self._createComponent(asn1Spec, tagSet, header), tail def indefLenValueDecoder(self, substrate, asn1Spec, tagSet=None, length=None, state=None, decodeFun=None, substrateFun=None, **options): if substrateFun and substrateFun is not self.substrateCollector: asn1Object = self._createComponent(asn1Spec, tagSet) return substrateFun(asn1Object, substrate, length) # All inner fragments are of the same type, treat them as octet string substrateFun = self.substrateCollector header = null while substrate: component, substrate = decodeFun(substrate, self.protoComponent, substrateFun=substrateFun, allowEoo=True, **options) if component is eoo.endOfOctets: break header += component else: raise error.SubstrateUnderrunError( 'No EOO seen before substrate ends' ) return self._createComponent(asn1Spec, tagSet, header), substrate class NullDecoder(AbstractSimpleDecoder): protoComponent = univ.Null('') def valueDecoder(self, substrate, asn1Spec, tagSet=None, length=None, state=None, decodeFun=None, substrateFun=None, **options): if tagSet[0].tagFormat != tag.tagFormatSimple: raise error.PyAsn1Error('Simple tag format expected') head, tail = substrate[:length], substrate[length:] component = self._createComponent(asn1Spec, tagSet) if head: raise error.PyAsn1Error('Unexpected %d-octet substrate for Null' % length) return component, tail class ObjectIdentifierDecoder(AbstractSimpleDecoder): protoComponent = univ.ObjectIdentifier(()) def valueDecoder(self, substrate, asn1Spec, tagSet=None, length=None, state=None, decodeFun=None, substrateFun=None, **options): if tagSet[0].tagFormat != tag.tagFormatSimple: raise error.PyAsn1Error('Simple tag format expected') head, tail = substrate[:length], substrate[length:] if not head: raise error.PyAsn1Error('Empty substrate') head = octs2ints(head) oid = () index = 0 substrateLen = len(head) while index < substrateLen: subId = head[index] index += 1 if subId < 128: oid += (subId,) elif subId > 128: # Construct subid from a number of octets nextSubId = subId subId = 0 while nextSubId >= 128: subId = (subId << 7) + (nextSubId & 0x7F) if index >= substrateLen: raise error.SubstrateUnderrunError( 'Short substrate for sub-OID past %s' % (oid,) ) nextSubId = head[index] index += 1 oid += ((subId << 7) + nextSubId,) elif subId == 128: # ASN.1 spec forbids leading zeros (0x80) in OID # encoding, tolerating it opens a vulnerability. See # http://www.cosic.esat.kuleuven.be/publications/article-1432.pdf # page 7 raise error.PyAsn1Error('Invalid octet 0x80 in OID encoding') # Decode two leading arcs if 0 <= oid[0] <= 39: oid = (0,) + oid elif 40 <= oid[0] <= 79: oid = (1, oid[0] - 40) + oid[1:] elif oid[0] >= 80: oid = (2, oid[0] - 80) + oid[1:] else: raise error.PyAsn1Error('Malformed first OID octet: %s' % head[0]) return self._createComponent(asn1Spec, tagSet, oid), tail class RealDecoder(AbstractSimpleDecoder): protoComponent = univ.Real() def valueDecoder(self, substrate, asn1Spec, tagSet=None, length=None, state=None, decodeFun=None, substrateFun=None, **options): if tagSet[0].tagFormat != tag.tagFormatSimple: raise error.PyAsn1Error('Simple tag format expected') head, tail = substrate[:length], substrate[length:] if not head: return self._createComponent(asn1Spec, tagSet, 0.0), tail fo = oct2int(head[0]) head = head[1:] if fo & 0x80: # binary encoding if not head: raise error.PyAsn1Error("Incomplete floating-point value") n = (fo & 0x03) + 1 if n == 4: n = oct2int(head[0]) head = head[1:] eo, head = head[:n], head[n:] if not eo or not head: raise error.PyAsn1Error('Real exponent screwed') e = oct2int(eo[0]) & 0x80 and -1 or 0 while eo: # exponent e <<= 8 e |= oct2int(eo[0]) eo = eo[1:] b = fo >> 4 & 0x03 # base bits if b > 2: raise error.PyAsn1Error('Illegal Real base') if b == 1: # encbase = 8 e *= 3 elif b == 2: # encbase = 16 e *= 4 p = 0 while head: # value p <<= 8 p |= oct2int(head[0]) head = head[1:] if fo & 0x40: # sign bit p = -p sf = fo >> 2 & 0x03 # scale bits p *= 2 ** sf value = (p, 2, e) elif fo & 0x40: # infinite value value = fo & 0x01 and '-inf' or 'inf' elif fo & 0xc0 == 0: # character encoding if not head: raise error.PyAsn1Error("Incomplete floating-point value") try: if fo & 0x3 == 0x1: # NR1 value = (int(head), 10, 0) elif fo & 0x3 == 0x2: # NR2 value = float(head) elif fo & 0x3 == 0x3: # NR3 value = float(head) else: raise error.SubstrateUnderrunError( 'Unknown NR (tag %s)' % fo ) except ValueError: raise error.SubstrateUnderrunError( 'Bad character Real syntax' ) else: raise error.SubstrateUnderrunError( 'Unknown encoding (tag %s)' % fo ) return self._createComponent(asn1Spec, tagSet, value), tail class AbstractConstructedDecoder(AbstractDecoder): protoComponent = None class UniversalConstructedTypeDecoder(AbstractConstructedDecoder): protoRecordComponent = None protoSequenceComponent = None def _getComponentTagMap(self, asn1Object, idx): raise NotImplementedError() def _getComponentPositionByType(self, asn1Object, tagSet, idx): raise NotImplementedError() def _decodeComponents(self, substrate, tagSet=None, decodeFun=None, **options): components = [] componentTypes = set() while substrate: component, substrate = decodeFun(substrate, **options) if component is eoo.endOfOctets: break components.append(component) componentTypes.add(component.tagSet) # Now we have to guess is it SEQUENCE/SET or SEQUENCE OF/SET OF # The heuristics is: # * 0-1 component -> likely SEQUENCE OF/SET OF # * 1+ components of the same type -> likely SEQUENCE OF/SET OF # * otherwise -> likely SEQUENCE/SET if len(components) > 1 or len(componentTypes) > 1: protoComponent = self.protoRecordComponent else: protoComponent = self.protoSequenceComponent asn1Object = protoComponent.clone( # construct tagSet from base tag from prototype ASN.1 object # and additional tags recovered from the substrate tagSet=tag.TagSet(protoComponent.tagSet.baseTag, *tagSet.superTags) ) for idx, component in enumerate(components): asn1Object.setComponentByPosition( idx, component, verifyConstraints=False, matchTags=False, matchConstraints=False ) return asn1Object, substrate def valueDecoder(self, substrate, asn1Spec, tagSet=None, length=None, state=None, decodeFun=None, substrateFun=None, **options): if tagSet[0].tagFormat != tag.tagFormatConstructed: raise error.PyAsn1Error('Constructed tag format expected') head, tail = substrate[:length], substrate[length:] if substrateFun is not None: if asn1Spec is not None: asn1Object = asn1Spec.clone() elif self.protoComponent is not None: asn1Object = self.protoComponent.clone(tagSet=tagSet) else: asn1Object = self.protoRecordComponent, self.protoSequenceComponent return substrateFun(asn1Object, substrate, length) if asn1Spec is None: asn1Object, trailing = self._decodeComponents( head, tagSet=tagSet, decodeFun=decodeFun, **options ) if trailing: raise error.PyAsn1Error('Unused trailing %d octets encountered' % len(trailing)) return asn1Object, tail asn1Object = asn1Spec.clone() if asn1Object.typeId in (univ.Sequence.typeId, univ.Set.typeId): namedTypes = asn1Object.componentType isSetType = asn1Object.typeId == univ.Set.typeId isDeterministic = not isSetType and not namedTypes.hasOptionalOrDefault seenIndices = set() idx = 0 while head: if not namedTypes: asn1Spec = None elif isSetType: asn1Spec = namedTypes.tagMapUnique else: try: if isDeterministic: asn1Spec = namedTypes[idx].asn1Object elif namedTypes[idx].isOptional or namedTypes[idx].isDefaulted: asn1Spec = namedTypes.getTagMapNearPosition(idx) else: asn1Spec = namedTypes[idx].asn1Object except IndexError: raise error.PyAsn1Error( 'Excessive components decoded at %r' % (asn1Object,) ) component, head = decodeFun(head, asn1Spec, **options) if not isDeterministic and namedTypes: if isSetType: idx = namedTypes.getPositionByType(component.effectiveTagSet) elif namedTypes[idx].isOptional or namedTypes[idx].isDefaulted: idx = namedTypes.getPositionNearType(component.effectiveTagSet, idx) asn1Object.setComponentByPosition( idx, component, verifyConstraints=False, matchTags=False, matchConstraints=False ) seenIndices.add(idx) idx += 1 if namedTypes: if not namedTypes.requiredComponents.issubset(seenIndices): raise error.PyAsn1Error('ASN.1 object %s has uninitialized components' % asn1Object.__class__.__name__) else: asn1Object.verifySizeSpec() else: asn1Spec = asn1Object.componentType idx = 0 while head: component, head = decodeFun(head, asn1Spec, **options) asn1Object.setComponentByPosition( idx, component, verifyConstraints=False, matchTags=False, matchConstraints=False ) idx += 1 asn1Object.verifySizeSpec() return asn1Object, tail def indefLenValueDecoder(self, substrate, asn1Spec, tagSet=None, length=None, state=None, decodeFun=None, substrateFun=None, **options): if tagSet[0].tagFormat != tag.tagFormatConstructed: raise error.PyAsn1Error('Constructed tag format expected') if substrateFun is not None: if asn1Spec is not None: asn1Object = asn1Spec.clone() elif self.protoComponent is not None: asn1Object = self.protoComponent.clone(tagSet=tagSet) else: asn1Object = self.protoRecordComponent, self.protoSequenceComponent return substrateFun(asn1Object, substrate, length) if asn1Spec is None: return self._decodeComponents( substrate, tagSet=tagSet, decodeFun=decodeFun, allowEoo=True, **options ) asn1Object = asn1Spec.clone() if asn1Object.typeId in (univ.Sequence.typeId, univ.Set.typeId): namedTypes = asn1Object.componentType isSetType = asn1Object.typeId == univ.Set.typeId isDeterministic = not isSetType and not namedTypes.hasOptionalOrDefault seenIndices = set() idx = 0 while substrate: if len(namedTypes) <= idx: asn1Spec = None elif isSetType: asn1Spec = namedTypes.tagMapUnique else: try: if isDeterministic: asn1Spec = namedTypes[idx].asn1Object elif namedTypes[idx].isOptional or namedTypes[idx].isDefaulted: asn1Spec = namedTypes.getTagMapNearPosition(idx) else: asn1Spec = namedTypes[idx].asn1Object except IndexError: raise error.PyAsn1Error( 'Excessive components decoded at %r' % (asn1Object,) ) component, substrate = decodeFun(substrate, asn1Spec, allowEoo=True, **options) if component is eoo.endOfOctets: break if not isDeterministic and namedTypes: if isSetType: idx = namedTypes.getPositionByType(component.effectiveTagSet) elif namedTypes[idx].isOptional or namedTypes[idx].isDefaulted: idx = namedTypes.getPositionNearType(component.effectiveTagSet, idx) asn1Object.setComponentByPosition( idx, component, verifyConstraints=False, matchTags=False, matchConstraints=False ) seenIndices.add(idx) idx += 1 else: raise error.SubstrateUnderrunError( 'No EOO seen before substrate ends' ) if namedTypes: if not namedTypes.requiredComponents.issubset(seenIndices): raise error.PyAsn1Error('ASN.1 object %s has uninitialized components' % asn1Object.__class__.__name__) else: asn1Object.verifySizeSpec() else: asn1Spec = asn1Object.componentType idx = 0 while substrate: component, substrate = decodeFun(substrate, asn1Spec, allowEoo=True, **options) if component is eoo.endOfOctets: break asn1Object.setComponentByPosition( idx, component, verifyConstraints=False, matchTags=False, matchConstraints=False ) idx += 1 else: raise error.SubstrateUnderrunError( 'No EOO seen before substrate ends' ) asn1Object.verifySizeSpec() return asn1Object, substrate class SequenceOrSequenceOfDecoder(UniversalConstructedTypeDecoder): protoRecordComponent = univ.Sequence() protoSequenceComponent = univ.SequenceOf() class SequenceDecoder(SequenceOrSequenceOfDecoder): protoComponent = univ.Sequence() class SequenceOfDecoder(SequenceOrSequenceOfDecoder): protoComponent = univ.SequenceOf() class SetOrSetOfDecoder(UniversalConstructedTypeDecoder): protoRecordComponent = univ.Set() protoSequenceComponent = univ.SetOf() class SetDecoder(SetOrSetOfDecoder): protoComponent = univ.Set() class SetOfDecoder(SetOrSetOfDecoder): protoComponent = univ.SetOf() class ChoiceDecoder(AbstractConstructedDecoder): protoComponent = univ.Choice() def valueDecoder(self, substrate, asn1Spec, tagSet=None, length=None, state=None, decodeFun=None, substrateFun=None, **options): head, tail = substrate[:length], substrate[length:] if asn1Spec is None: asn1Object = self.protoComponent.clone(tagSet=tagSet) else: asn1Object = asn1Spec.clone() if substrateFun: return substrateFun(asn1Object, substrate, length) if asn1Object.tagSet == tagSet: # explicitly tagged Choice component, head = decodeFun( head, asn1Object.componentTagMap, **options ) else: component, head = decodeFun( head, asn1Object.componentTagMap, tagSet, length, state, **options ) effectiveTagSet = component.effectiveTagSet asn1Object.setComponentByType( effectiveTagSet, component, verifyConstraints=False, matchTags=False, matchConstraints=False, innerFlag=False ) return asn1Object, tail def indefLenValueDecoder(self, substrate, asn1Spec, tagSet=None, length=None, state=None, decodeFun=None, substrateFun=None, **options): if asn1Spec is None: asn1Object = self.protoComponent.clone(tagSet=tagSet) else: asn1Object = asn1Spec.clone() if substrateFun: return substrateFun(asn1Object, substrate, length) if asn1Object.tagSet == tagSet: # explicitly tagged Choice component, substrate = decodeFun( substrate, asn1Object.componentType.tagMapUnique, **options ) # eat up EOO marker eooMarker, substrate = decodeFun( substrate, allowEoo=True, **options ) if eooMarker is not eoo.endOfOctets: raise error.PyAsn1Error('No EOO seen before substrate ends') else: component, substrate = decodeFun( substrate, asn1Object.componentType.tagMapUnique, tagSet, length, state, **options ) effectiveTagSet = component.effectiveTagSet asn1Object.setComponentByType( effectiveTagSet, component, verifyConstraints=False, matchTags=False, matchConstraints=False, innerFlag=False ) return asn1Object, substrate class AnyDecoder(AbstractSimpleDecoder): protoComponent = univ.Any() def valueDecoder(self, substrate, asn1Spec, tagSet=None, length=None, state=None, decodeFun=None, substrateFun=None, **options): if asn1Spec is None or asn1Spec is not None and tagSet != asn1Spec.tagSet: fullSubstrate = options['fullSubstrate'] # untagged Any container, recover inner header substrate length += len(fullSubstrate) - len(substrate) substrate = fullSubstrate if substrateFun: return substrateFun(self._createComponent(asn1Spec, tagSet), substrate, length) head, tail = substrate[:length], substrate[length:] return self._createComponent(asn1Spec, tagSet, value=head), tail def indefLenValueDecoder(self, substrate, asn1Spec, tagSet=None, length=None, state=None, decodeFun=None, substrateFun=None, **options): if asn1Spec is not None and tagSet == asn1Spec.tagSet: # tagged Any type -- consume header substrate header = null else: fullSubstrate = options['fullSubstrate'] # untagged Any, recover header substrate header = fullSubstrate[:-len(substrate)] # Any components do not inherit initial tag asn1Spec = self.protoComponent if substrateFun and substrateFun is not self.substrateCollector: asn1Object = self._createComponent(asn1Spec, tagSet) return substrateFun(asn1Object, header + substrate, length + len(header)) # All inner fragments are of the same type, treat them as octet string substrateFun = self.substrateCollector while substrate: component, substrate = decodeFun(substrate, asn1Spec, substrateFun=substrateFun, allowEoo=True, **options) if component is eoo.endOfOctets: break header += component else: raise error.SubstrateUnderrunError( 'No EOO seen before substrate ends' ) if substrateFun: return header, substrate else: return self._createComponent(asn1Spec, tagSet, header), substrate # character string types class UTF8StringDecoder(OctetStringDecoder): protoComponent = char.UTF8String() class NumericStringDecoder(OctetStringDecoder): protoComponent = char.NumericString() class PrintableStringDecoder(OctetStringDecoder): protoComponent = char.PrintableString() class TeletexStringDecoder(OctetStringDecoder): protoComponent = char.TeletexString() class VideotexStringDecoder(OctetStringDecoder): protoComponent = char.VideotexString() class IA5StringDecoder(OctetStringDecoder): protoComponent = char.IA5String() class GraphicStringDecoder(OctetStringDecoder): protoComponent = char.GraphicString() class VisibleStringDecoder(OctetStringDecoder): protoComponent = char.VisibleString() class GeneralStringDecoder(OctetStringDecoder): protoComponent = char.GeneralString() class UniversalStringDecoder(OctetStringDecoder): protoComponent = char.UniversalString() class BMPStringDecoder(OctetStringDecoder): protoComponent = char.BMPString() # "useful" types class ObjectDescriptorDecoder(OctetStringDecoder): protoComponent = useful.ObjectDescriptor() class GeneralizedTimeDecoder(OctetStringDecoder): protoComponent = useful.GeneralizedTime() class UTCTimeDecoder(OctetStringDecoder): protoComponent = useful.UTCTime() tagMap = { univ.Integer.tagSet: IntegerDecoder(), univ.Boolean.tagSet: BooleanDecoder(), univ.BitString.tagSet: BitStringDecoder(), univ.OctetString.tagSet: OctetStringDecoder(), univ.Null.tagSet: NullDecoder(), univ.ObjectIdentifier.tagSet: ObjectIdentifierDecoder(), univ.Enumerated.tagSet: IntegerDecoder(), univ.Real.tagSet: RealDecoder(), univ.Sequence.tagSet: SequenceOrSequenceOfDecoder(), # conflicts with SequenceOf univ.Set.tagSet: SetOrSetOfDecoder(), # conflicts with SetOf univ.Choice.tagSet: ChoiceDecoder(), # conflicts with Any # character string types char.UTF8String.tagSet: UTF8StringDecoder(), char.NumericString.tagSet: NumericStringDecoder(), char.PrintableString.tagSet: PrintableStringDecoder(), char.TeletexString.tagSet: TeletexStringDecoder(), char.VideotexString.tagSet: VideotexStringDecoder(), char.IA5String.tagSet: IA5StringDecoder(), char.GraphicString.tagSet: GraphicStringDecoder(), char.VisibleString.tagSet: VisibleStringDecoder(), char.GeneralString.tagSet: GeneralStringDecoder(), char.UniversalString.tagSet: UniversalStringDecoder(), char.BMPString.tagSet: BMPStringDecoder(), # useful types useful.ObjectDescriptor.tagSet: ObjectDescriptorDecoder(), useful.GeneralizedTime.tagSet: GeneralizedTimeDecoder(), useful.UTCTime.tagSet: UTCTimeDecoder() } # Type-to-codec map for ambiguous ASN.1 types typeMap = { univ.Set.typeId: SetDecoder(), univ.SetOf.typeId: SetOfDecoder(), univ.Sequence.typeId: SequenceDecoder(), univ.SequenceOf.typeId: SequenceOfDecoder(), univ.Choice.typeId: ChoiceDecoder(), univ.Any.typeId: AnyDecoder() } # Put in non-ambiguous types for faster codec lookup for typeDecoder in tagMap.values(): if typeDecoder.protoComponent is not None: typeId = typeDecoder.protoComponent.__class__.typeId if typeId is not None and typeId not in typeMap: typeMap[typeId] = typeDecoder (stDecodeTag, stDecodeLength, stGetValueDecoder, stGetValueDecoderByAsn1Spec, stGetValueDecoderByTag, stTryAsExplicitTag, stDecodeValue, stDumpRawValue, stErrorCondition, stStop) = [x for x in range(10)] class Decoder(object): defaultErrorState = stErrorCondition # defaultErrorState = stDumpRawValue defaultRawDecoder = AnyDecoder() supportIndefLength = True # noinspection PyDefaultArgument def __init__(self, tagMap, typeMap={}): self.__tagMap = tagMap self.__typeMap = typeMap # Tag & TagSet objects caches self.__tagCache = {} self.__tagSetCache = {} self.__eooSentinel = ints2octs((0, 0)) def __call__(self, substrate, asn1Spec=None, tagSet=None, length=None, state=stDecodeTag, decodeFun=None, substrateFun=None, **options): if debug.logger & debug.flagDecoder: logger = debug.logger else: logger = None if logger: logger('decoder called at scope %s with state %d, working with up to %d octets of substrate: %s' % (debug.scope, state, len(substrate), debug.hexdump(substrate))) allowEoo = options.pop('allowEoo', False) # Look for end-of-octets sentinel if allowEoo and self.supportIndefLength: if substrate[:2] == self.__eooSentinel: if logger: logger('end-of-octets sentinel found') return eoo.endOfOctets, substrate[2:] value = noValue tagMap = self.__tagMap typeMap = self.__typeMap tagCache = self.__tagCache tagSetCache = self.__tagSetCache fullSubstrate = substrate while state is not stStop: if state is stDecodeTag: if not substrate: raise error.SubstrateUnderrunError( 'Short octet stream on tag decoding' ) # Decode tag isShortTag = True firstOctet = substrate[0] substrate = substrate[1:] try: lastTag = tagCache[firstOctet] except KeyError: integerTag = oct2int(firstOctet) tagClass = integerTag & 0xC0 tagFormat = integerTag & 0x20 tagId = integerTag & 0x1F if tagId == 0x1F: isShortTag = False lengthOctetIdx = 0 tagId = 0 try: while True: integerTag = oct2int(substrate[lengthOctetIdx]) lengthOctetIdx += 1 tagId <<= 7 tagId |= (integerTag & 0x7F) if not integerTag & 0x80: break substrate = substrate[lengthOctetIdx:] except IndexError: raise error.SubstrateUnderrunError( 'Short octet stream on long tag decoding' ) lastTag = tag.Tag( tagClass=tagClass, tagFormat=tagFormat, tagId=tagId ) if isShortTag: # cache short tags tagCache[firstOctet] = lastTag if tagSet is None: if isShortTag: try: tagSet = tagSetCache[firstOctet] except KeyError: # base tag not recovered tagSet = tag.TagSet((), lastTag) tagSetCache[firstOctet] = tagSet else: tagSet = tag.TagSet((), lastTag) else: tagSet = lastTag + tagSet state = stDecodeLength if logger: logger('tag decoded into %s, decoding length' % tagSet) if state is stDecodeLength: # Decode length if not substrate: raise error.SubstrateUnderrunError( 'Short octet stream on length decoding' ) firstOctet = oct2int(substrate[0]) if firstOctet < 128: size = 1 length = firstOctet elif firstOctet > 128: size = firstOctet & 0x7F # encoded in size bytes encodedLength = octs2ints(substrate[1:size + 1]) # missing check on maximum size, which shouldn't be a # problem, we can handle more than is possible if len(encodedLength) != size: raise error.SubstrateUnderrunError( '%s<%s at %s' % (size, len(encodedLength), tagSet) ) length = 0 for lengthOctet in encodedLength: length <<= 8 length |= lengthOctet size += 1 else: size = 1 length = -1 substrate = substrate[size:] if length == -1: if not self.supportIndefLength: raise error.PyAsn1Error('Indefinite length encoding not supported by this codec') else: if len(substrate) < length: raise error.SubstrateUnderrunError('%d-octet short' % (length - len(substrate))) state = stGetValueDecoder if logger: logger('value length decoded into %d, payload substrate is: %s' % (length, debug.hexdump(length == -1 and substrate or substrate[:length]))) if state is stGetValueDecoder: if asn1Spec is None: state = stGetValueDecoderByTag else: state = stGetValueDecoderByAsn1Spec # # There're two ways of creating subtypes in ASN.1 what influences # decoder operation. These methods are: # 1) Either base types used in or no IMPLICIT tagging has been # applied on subtyping. # 2) Subtype syntax drops base type information (by means of # IMPLICIT tagging. # The first case allows for complete tag recovery from substrate # while the second one requires original ASN.1 type spec for # decoding. # # In either case a set of tags (tagSet) is coming from substrate # in an incremental, tag-by-tag fashion (this is the case of # EXPLICIT tag which is most basic). Outermost tag comes first # from the wire. # if state is stGetValueDecoderByTag: try: concreteDecoder = tagMap[tagSet] except KeyError: concreteDecoder = None if concreteDecoder: state = stDecodeValue else: try: concreteDecoder = tagMap[tagSet[:1]] except KeyError: concreteDecoder = None if concreteDecoder: state = stDecodeValue else: state = stTryAsExplicitTag if logger: logger('codec %s chosen by a built-in type, decoding %s' % (concreteDecoder and concreteDecoder.__class__.__name__ or "<none>", state is stDecodeValue and 'value' or 'as explicit tag')) debug.scope.push(concreteDecoder is None and '?' or concreteDecoder.protoComponent.__class__.__name__) if state is stGetValueDecoderByAsn1Spec: if asn1Spec.__class__ is tagmap.TagMap: try: chosenSpec = asn1Spec[tagSet] except KeyError: chosenSpec = None if logger: logger('candidate ASN.1 spec is a map of:') for firstOctet, v in asn1Spec.presentTypes.items(): logger(' %s -> %s' % (firstOctet, v.__class__.__name__)) if asn1Spec.skipTypes: logger('but neither of: ') for firstOctet, v in asn1Spec.skipTypes.items(): logger(' %s -> %s' % (firstOctet, v.__class__.__name__)) logger('new candidate ASN.1 spec is %s, chosen by %s' % (chosenSpec is None and '<none>' or chosenSpec.prettyPrintType(), tagSet)) elif tagSet == asn1Spec.tagSet or tagSet in asn1Spec.tagMap: chosenSpec = asn1Spec if logger: logger('candidate ASN.1 spec is %s' % asn1Spec.__class__.__name__) else: chosenSpec = None if chosenSpec is not None: try: # ambiguous type or just faster codec lookup concreteDecoder = typeMap[chosenSpec.typeId] if logger: logger('value decoder chosen for an ambiguous type by type ID %s' % (chosenSpec.typeId,)) except KeyError: # use base type for codec lookup to recover untagged types baseTagSet = tag.TagSet(chosenSpec.tagSet.baseTag, chosenSpec.tagSet.baseTag) try: # base type or tagged subtype concreteDecoder = tagMap[baseTagSet] if logger: logger('value decoder chosen by base %s' % (baseTagSet,)) except KeyError: concreteDecoder = None if concreteDecoder: asn1Spec = chosenSpec state = stDecodeValue else: state = stTryAsExplicitTag else: concreteDecoder = None state = stTryAsExplicitTag if logger: logger('codec %s chosen by ASN.1 spec, decoding %s' % (state is stDecodeValue and concreteDecoder.__class__.__name__ or "<none>", state is stDecodeValue and 'value' or 'as explicit tag')) debug.scope.push(chosenSpec is None and '?' or chosenSpec.__class__.__name__) if state is stDecodeValue: if not options.get('recursiveFlag', True) and not substrateFun: # deprecate this substrateFun = lambda a, b, c: (a, b[:c]) options.update(fullSubstrate=fullSubstrate) if length == -1: # indef length value, substrate = concreteDecoder.indefLenValueDecoder( substrate, asn1Spec, tagSet, length, stGetValueDecoder, self, substrateFun, **options ) else: value, substrate = concreteDecoder.valueDecoder( substrate, asn1Spec, tagSet, length, stGetValueDecoder, self, substrateFun, **options ) if logger: logger('codec %s yields type %s, value:\n%s\n...remaining substrate is: %s' % (concreteDecoder.__class__.__name__, value.__class__.__name__, isinstance(value, base.Asn1Item) and value.prettyPrint() or value, substrate and debug.hexdump(substrate) or '<none>')) state = stStop break if state is stTryAsExplicitTag: if tagSet and tagSet[0].tagFormat == tag.tagFormatConstructed and tagSet[0].tagClass != tag.tagClassUniversal: # Assume explicit tagging concreteDecoder = explicitTagDecoder state = stDecodeValue else: concreteDecoder = None state = self.defaultErrorState if logger: logger('codec %s chosen, decoding %s' % (concreteDecoder and concreteDecoder.__class__.__name__ or "<none>", state is stDecodeValue and 'value' or 'as failure')) if state is stDumpRawValue: concreteDecoder = self.defaultRawDecoder if logger: logger('codec %s chosen, decoding value' % concreteDecoder.__class__.__name__) state = stDecodeValue if state is stErrorCondition: raise error.PyAsn1Error( '%s not in asn1Spec: %r' % (tagSet, asn1Spec) ) if logger: debug.scope.pop() logger('decoder left scope %s, call completed' % debug.scope) return value, substrate #: Turns BER octet stream into an ASN.1 object. #: #: Takes BER octetstream and decode it into an ASN.1 object #: (e.g. :py:class:`~pyasn1.type.base.PyAsn1Item` derivative) which #: may be a scalar or an arbitrary nested structure. #: #: Parameters #: ---------- #: substrate: :py:class:`bytes` (Python 3) or :py:class:`str` (Python 2) #: BER octetstream #: #: asn1Spec: any pyasn1 type object e.g. :py:class:`~pyasn1.type.base.PyAsn1Item` derivative #: A pyasn1 type object to act as a template guiding the decoder. Depending on the ASN.1 structure #: being decoded, *asn1Spec* may or may not be required. Most common reason for #: it to require is that ASN.1 structure is encoded in *IMPLICIT* tagging mode. #: #: Returns #: ------- #: : :py:class:`tuple` #: A tuple of pyasn1 object recovered from BER substrate (:py:class:`~pyasn1.type.base.PyAsn1Item` derivative) #: and the unprocessed trailing portion of the *substrate* (may be empty) #: #: Raises #: ------ #: : :py:class:`pyasn1.error.PyAsn1Error` #: On decoding errors decode = Decoder(tagMap, typeMap) # XXX # non-recursive decoding; return position rather than substrate
© 2024 UnknownSec