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__init__.py
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base.py
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char.py
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char.pyc
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constraint.py
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namedtype.py
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univ.py
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Code Editor : univ.py
# ASN.1 "universal" data types import operator, sys from pyasn1.type import base, tag, constraint, namedtype, namedval, tagmap from pyasn1.codec.ber import eoo from pyasn1.compat import octets from pyasn1 import error # "Simple" ASN.1 types (yet incomplete) class Integer(base.AbstractSimpleAsn1Item): tagSet = baseTagSet = tag.initTagSet( tag.Tag(tag.tagClassUniversal, tag.tagFormatSimple, 0x02) ) namedValues = namedval.NamedValues() def __init__(self, value=None, tagSet=None, subtypeSpec=None, namedValues=None): if namedValues is None: self.__namedValues = self.namedValues else: self.__namedValues = namedValues base.AbstractSimpleAsn1Item.__init__( self, value, tagSet, subtypeSpec ) def __and__(self, value): return self.clone(self._value & value) def __rand__(self, value): return self.clone(value & self._value) def __or__(self, value): return self.clone(self._value | value) def __ror__(self, value): return self.clone(value | self._value) def __xor__(self, value): return self.clone(self._value ^ value) def __rxor__(self, value): return self.clone(value ^ self._value) def __lshift__(self, value): return self.clone(self._value << value) def __rshift__(self, value): return self.clone(self._value >> value) def __add__(self, value): return self.clone(self._value + value) def __radd__(self, value): return self.clone(value + self._value) def __sub__(self, value): return self.clone(self._value - value) def __rsub__(self, value): return self.clone(value - self._value) def __mul__(self, value): return self.clone(self._value * value) def __rmul__(self, value): return self.clone(value * self._value) def __mod__(self, value): return self.clone(self._value % value) def __rmod__(self, value): return self.clone(value % self._value) def __pow__(self, value, modulo=None): return self.clone(pow(self._value, value, modulo)) def __rpow__(self, value): return self.clone(pow(value, self._value)) if sys.version_info[0] <= 2: def __div__(self, value): return self.clone(self._value // value) def __rdiv__(self, value): return self.clone(value // self._value) else: def __truediv__(self, value): return self.clone(self._value / value) def __rtruediv__(self, value): return self.clone(value / self._value) def __divmod__(self, value): return self.clone(self._value // value) def __rdivmod__(self, value): return self.clone(value // self._value) __hash__ = base.AbstractSimpleAsn1Item.__hash__ def __int__(self): return int(self._value) if sys.version_info[0] <= 2: def __long__(self): return long(self._value) def __float__(self): return float(self._value) def __abs__(self): return abs(self._value) def __index__(self): return int(self._value) def __lt__(self, value): return self._value < value def __le__(self, value): return self._value <= value def __eq__(self, value): return self._value == value def __ne__(self, value): return self._value != value def __gt__(self, value): return self._value > value def __ge__(self, value): return self._value >= value def prettyIn(self, value): if not isinstance(value, str): try: return int(value) except: raise error.PyAsn1Error( 'Can\'t coerce %s into integer: %s' % (value, sys.exc_info()[1]) ) r = self.__namedValues.getValue(value) if r is not None: return r try: return int(value) except: raise error.PyAsn1Error( 'Can\'t coerce %s into integer: %s' % (value, sys.exc_info()[1]) ) def prettyOut(self, value): r = self.__namedValues.getName(value) return r is None and str(value) or repr(r) def getNamedValues(self): return self.__namedValues def clone(self, value=None, tagSet=None, subtypeSpec=None, namedValues=None): if value is None and tagSet is None and subtypeSpec is None \ and namedValues is None: return self if value is None: value = self._value if tagSet is None: tagSet = self._tagSet if subtypeSpec is None: subtypeSpec = self._subtypeSpec if namedValues is None: namedValues = self.__namedValues return self.__class__(value, tagSet, subtypeSpec, namedValues) def subtype(self, value=None, implicitTag=None, explicitTag=None, subtypeSpec=None, namedValues=None): if value is None: value = self._value if implicitTag is not None: tagSet = self._tagSet.tagImplicitly(implicitTag) elif explicitTag is not None: tagSet = self._tagSet.tagExplicitly(explicitTag) else: tagSet = self._tagSet if subtypeSpec is None: subtypeSpec = self._subtypeSpec else: subtypeSpec = subtypeSpec + self._subtypeSpec if namedValues is None: namedValues = self.__namedValues else: namedValues = namedValues + self.__namedValues return self.__class__(value, tagSet, subtypeSpec, namedValues) class Boolean(Integer): tagSet = baseTagSet = tag.initTagSet( tag.Tag(tag.tagClassUniversal, tag.tagFormatSimple, 0x01), ) subtypeSpec = Integer.subtypeSpec+constraint.SingleValueConstraint(0,1) namedValues = Integer.namedValues.clone(('False', 0), ('True', 1)) class BitString(base.AbstractSimpleAsn1Item): tagSet = baseTagSet = tag.initTagSet( tag.Tag(tag.tagClassUniversal, tag.tagFormatSimple, 0x03) ) namedValues = namedval.NamedValues() def __init__(self, value=None, tagSet=None, subtypeSpec=None, namedValues=None): if namedValues is None: self.__namedValues = self.namedValues else: self.__namedValues = namedValues base.AbstractSimpleAsn1Item.__init__( self, value, tagSet, subtypeSpec ) def clone(self, value=None, tagSet=None, subtypeSpec=None, namedValues=None): if value is None and tagSet is None and subtypeSpec is None \ and namedValues is None: return self if value is None: value = self._value if tagSet is None: tagSet = self._tagSet if subtypeSpec is None: subtypeSpec = self._subtypeSpec if namedValues is None: namedValues = self.__namedValues return self.__class__(value, tagSet, subtypeSpec, namedValues) def subtype(self, value=None, implicitTag=None, explicitTag=None, subtypeSpec=None, namedValues=None): if value is None: value = self._value if implicitTag is not None: tagSet = self._tagSet.tagImplicitly(implicitTag) elif explicitTag is not None: tagSet = self._tagSet.tagExplicitly(explicitTag) else: tagSet = self._tagSet if subtypeSpec is None: subtypeSpec = self._subtypeSpec else: subtypeSpec = subtypeSpec + self._subtypeSpec if namedValues is None: namedValues = self.__namedValues else: namedValues = namedValues + self.__namedValues return self.__class__(value, tagSet, subtypeSpec, namedValues) def __str__(self): return str(tuple(self)) # Immutable sequence object protocol def __len__(self): if self._len is None: self._len = len(self._value) return self._len def __getitem__(self, i): if isinstance(i, slice): return self.clone(operator.getitem(self._value, i)) else: return self._value[i] def __add__(self, value): return self.clone(self._value + value) def __radd__(self, value): return self.clone(value + self._value) def __mul__(self, value): return self.clone(self._value * value) def __rmul__(self, value): return self * value def prettyIn(self, value): r = [] if not value: return () elif isinstance(value, str): if value[0] == '\'': if value[-2:] == '\'B': for v in value[1:-2]: if v == '0': r.append(0) elif v == '1': r.append(1) else: raise error.PyAsn1Error( 'Non-binary BIT STRING initializer %s' % (v,) ) return tuple(r) elif value[-2:] == '\'H': for v in value[1:-2]: i = 4 v = int(v, 16) while i: i = i - 1 r.append((v>>i)&0x01) return tuple(r) else: raise error.PyAsn1Error( 'Bad BIT STRING value notation %s' % (value,) ) else: for i in value.split(','): j = self.__namedValues.getValue(i) if j is None: raise error.PyAsn1Error( 'Unknown bit identifier \'%s\'' % (i,) ) if j >= len(r): r.extend([0]*(j-len(r)+1)) r[j] = 1 return tuple(r) elif isinstance(value, (tuple, list)): r = tuple(value) for b in r: if b and b != 1: raise error.PyAsn1Error( 'Non-binary BitString initializer \'%s\'' % (r,) ) return r elif isinstance(value, BitString): return tuple(value) else: raise error.PyAsn1Error( 'Bad BitString initializer type \'%s\'' % (value,) ) def prettyOut(self, value): return '\"\'%s\'B\"' % ''.join([str(x) for x in value]) class OctetString(base.AbstractSimpleAsn1Item): tagSet = baseTagSet = tag.initTagSet( tag.Tag(tag.tagClassUniversal, tag.tagFormatSimple, 0x04) ) defaultBinValue = defaultHexValue = base.noValue encoding = 'us-ascii' def __init__(self, value=None, tagSet=None, subtypeSpec=None, encoding=None, binValue=None, hexValue=None): if encoding is None: self._encoding = self.encoding else: self._encoding = encoding if binValue is not None: value = self.fromBinaryString(binValue) if hexValue is not None: value = self.fromHexString(hexValue) if value is None or value is base.noValue: value = self.defaultHexValue if value is None or value is base.noValue: value = self.defaultBinValue self.__intValue = None base.AbstractSimpleAsn1Item.__init__(self, value, tagSet, subtypeSpec) def clone(self, value=None, tagSet=None, subtypeSpec=None, encoding=None, binValue=None, hexValue=None): if value is None and tagSet is None and subtypeSpec is None and \ encoding is None and binValue is None and hexValue is None: return self if value is None and binValue is None and hexValue is None: value = self._value if tagSet is None: tagSet = self._tagSet if subtypeSpec is None: subtypeSpec = self._subtypeSpec if encoding is None: encoding = self._encoding return self.__class__( value, tagSet, subtypeSpec, encoding, binValue, hexValue ) if sys.version_info[0] <= 2: def prettyIn(self, value): if isinstance(value, str): return value elif isinstance(value, (tuple, list)): try: return ''.join([ chr(x) for x in value ]) except ValueError: raise error.PyAsn1Error( 'Bad OctetString initializer \'%s\'' % (value,) ) else: return str(value) else: def prettyIn(self, value): if isinstance(value, bytes): return value elif isinstance(value, OctetString): return value.asOctets() elif isinstance(value, (tuple, list, map)): try: return bytes(value) except ValueError: raise error.PyAsn1Error( 'Bad OctetString initializer \'%s\'' % (value,) ) else: try: return str(value).encode(self._encoding) except UnicodeEncodeError: raise error.PyAsn1Error( 'Can\'t encode string \'%s\' with \'%s\' codec' % (value, self._encoding) ) def fromBinaryString(self, value): bitNo = 8; byte = 0; r = () for v in value: if bitNo: bitNo = bitNo - 1 else: bitNo = 7 r = r + (byte,) byte = 0 if v == '0': v = 0 elif v == '1': v = 1 else: raise error.PyAsn1Error( 'Non-binary OCTET STRING initializer %s' % (v,) ) byte = byte | (v << bitNo) return octets.ints2octs(r + (byte,)) def fromHexString(self, value): r = p = () for v in value: if p: r = r + (int(p+v, 16),) p = () else: p = v if p: r = r + (int(p+'0', 16),) return octets.ints2octs(r) def prettyOut(self, value): if sys.version_info[0] <= 2: numbers = tuple([ ord(x) for x in value ]) else: numbers = tuple(value) if [ x for x in numbers if x < 32 or x > 126 ]: return '0x' + ''.join([ '%.2x' % x for x in numbers ]) else: return str(value) def __repr__(self): if self._value is base.noValue: return self.__class__.__name__ + '()' if [ x for x in self.asNumbers() if x < 32 or x > 126 ]: return self.__class__.__name__ + '(hexValue=\'' + ''.join([ '%.2x' % x for x in self.asNumbers() ])+'\')' else: return self.__class__.__name__ + '(\'' + self.prettyOut(self._value) + '\')' if sys.version_info[0] <= 2: def __str__(self): return str(self._value) def __unicode__(self): return self._value.decode(self._encoding, 'ignore') def asOctets(self): return self._value def asNumbers(self): if self.__intValue is None: self.__intValue = tuple([ ord(x) for x in self._value ]) return self.__intValue else: def __str__(self): return self._value.decode(self._encoding, 'ignore') def __bytes__(self): return self._value def asOctets(self): return self._value def asNumbers(self): if self.__intValue is None: self.__intValue = tuple(self._value) return self.__intValue # Immutable sequence object protocol def __len__(self): if self._len is None: self._len = len(self._value) return self._len def __getitem__(self, i): if isinstance(i, slice): return self.clone(operator.getitem(self._value, i)) else: return self._value[i] def __add__(self, value): return self.clone(self._value + self.prettyIn(value)) def __radd__(self, value): return self.clone(self.prettyIn(value) + self._value) def __mul__(self, value): return self.clone(self._value * value) def __rmul__(self, value): return self * value class Null(OctetString): defaultValue = ''.encode() # This is tightly constrained tagSet = baseTagSet = tag.initTagSet( tag.Tag(tag.tagClassUniversal, tag.tagFormatSimple, 0x05) ) subtypeSpec = OctetString.subtypeSpec+constraint.SingleValueConstraint(''.encode()) if sys.version_info[0] <= 2: intTypes = (int, long) else: intTypes = int class ObjectIdentifier(base.AbstractSimpleAsn1Item): tagSet = baseTagSet = tag.initTagSet( tag.Tag(tag.tagClassUniversal, tag.tagFormatSimple, 0x06) ) def __add__(self, other): return self.clone(self._value + other) def __radd__(self, other): return self.clone(other + self._value) def asTuple(self): return self._value # Sequence object protocol def __len__(self): if self._len is None: self._len = len(self._value) return self._len def __getitem__(self, i): if isinstance(i, slice): return self.clone( operator.getitem(self._value, i) ) else: return self._value[i] def __str__(self): return self.prettyPrint() def index(self, suboid): return self._value.index(suboid) def isPrefixOf(self, value): """Returns true if argument OID resides deeper in the OID tree""" l = len(self) if l <= len(value): if self._value[:l] == value[:l]: return 1 return 0 def prettyIn(self, value): """Dotted -> tuple of numerics OID converter""" if isinstance(value, tuple): pass elif isinstance(value, ObjectIdentifier): return tuple(value) elif isinstance(value, str): r = [] for element in [ x for x in value.split('.') if x != '' ]: try: r.append(int(element, 0)) except ValueError: raise error.PyAsn1Error( 'Malformed Object ID %s at %s: %s' % (str(value), self.__class__.__name__, sys.exc_info()[1]) ) value = tuple(r) else: try: value = tuple(value) except TypeError: raise error.PyAsn1Error( 'Malformed Object ID %s at %s: %s' % (str(value), self.__class__.__name__,sys.exc_info()[1]) ) for x in value: if not isinstance(x, intTypes) or x < 0: raise error.PyAsn1Error( 'Invalid sub-ID in %s at %s' % (value, self.__class__.__name__) ) return value def prettyOut(self, value): return '.'.join([ str(x) for x in value ]) class Real(base.AbstractSimpleAsn1Item): try: _plusInf = float('inf') _minusInf = float('-inf') _inf = (_plusInf, _minusInf) except ValueError: # Infinity support is platform and Python dependent _plusInf = _minusInf = None _inf = () tagSet = baseTagSet = tag.initTagSet( tag.Tag(tag.tagClassUniversal, tag.tagFormatSimple, 0x09) ) def __normalizeBase10(self, value): m, b, e = value while m and m % 10 == 0: m = m / 10 e = e + 1 return m, b, e def prettyIn(self, value): if isinstance(value, tuple) and len(value) == 3: for d in value: if not isinstance(d, intTypes): raise error.PyAsn1Error( 'Lame Real value syntax: %s' % (value,) ) if value[1] not in (2, 10): raise error.PyAsn1Error( 'Prohibited base for Real value: %s' % (value[1],) ) if value[1] == 10: value = self.__normalizeBase10(value) return value elif isinstance(value, intTypes): return self.__normalizeBase10((value, 10, 0)) elif isinstance(value, float): if self._inf and value in self._inf: return value else: e = 0 while int(value) != value: value = value * 10 e = e - 1 return self.__normalizeBase10((int(value), 10, e)) elif isinstance(value, Real): return tuple(value) elif isinstance(value, str): # handle infinite literal try: return float(value) except ValueError: pass raise error.PyAsn1Error( 'Bad real value syntax: %s' % (value,) ) def prettyOut(self, value): if value in self._inf: return '\'%s\'' % value else: return str(value) def isPlusInfinity(self): return self._value == self._plusInf def isMinusInfinity(self): return self._value == self._minusInf def isInfinity(self): return self._value in self._inf def __str__(self): return str(float(self)) def __add__(self, value): return self.clone(float(self) + value) def __radd__(self, value): return self + value def __mul__(self, value): return self.clone(float(self) * value) def __rmul__(self, value): return self * value def __sub__(self, value): return self.clone(float(self) - value) def __rsub__(self, value): return self.clone(value - float(self)) def __mod__(self, value): return self.clone(float(self) % value) def __rmod__(self, value): return self.clone(value % float(self)) def __pow__(self, value, modulo=None): return self.clone(pow(float(self), value, modulo)) def __rpow__(self, value): return self.clone(pow(value, float(self))) if sys.version_info[0] <= 2: def __div__(self, value): return self.clone(float(self) / value) def __rdiv__(self, value): return self.clone(value / float(self)) else: def __truediv__(self, value): return self.clone(float(self) / value) def __rtruediv__(self, value): return self.clone(value / float(self)) def __divmod__(self, value): return self.clone(float(self) // value) def __rdivmod__(self, value): return self.clone(value // float(self)) def __int__(self): return int(float(self)) if sys.version_info[0] <= 2: def __long__(self): return long(float(self)) def __float__(self): if self._value in self._inf: return self._value else: return float( self._value[0] * pow(self._value[1], self._value[2]) ) def __abs__(self): return abs(float(self)) def __lt__(self, value): return float(self) < value def __le__(self, value): return float(self) <= value def __eq__(self, value): return float(self) == value def __ne__(self, value): return float(self) != value def __gt__(self, value): return float(self) > value def __ge__(self, value): return float(self) >= value if sys.version_info[0] <= 2: def __nonzero__(self): return bool(float(self)) else: def __bool__(self): return bool(float(self)) __hash__ = base.AbstractSimpleAsn1Item.__hash__ def __getitem__(self, idx): if self._value in self._inf: raise error.PyAsn1Error('Invalid infinite value operation') else: return self._value[idx] class Enumerated(Integer): tagSet = baseTagSet = tag.initTagSet( tag.Tag(tag.tagClassUniversal, tag.tagFormatSimple, 0x0A) ) # "Structured" ASN.1 types class SetOf(base.AbstractConstructedAsn1Item): componentType = None tagSet = baseTagSet = tag.initTagSet( tag.Tag(tag.tagClassUniversal, tag.tagFormatConstructed, 0x11) ) typeId = 1 def _cloneComponentValues(self, myClone, cloneValueFlag): idx = 0; l = len(self._componentValues) while idx < l: c = self._componentValues[idx] if c is not None: if isinstance(c, base.AbstractConstructedAsn1Item): myClone.setComponentByPosition( idx, c.clone(cloneValueFlag=cloneValueFlag) ) else: myClone.setComponentByPosition(idx, c.clone()) idx = idx + 1 def _verifyComponent(self, idx, value): if self._componentType is not None and \ not self._componentType.isSuperTypeOf(value): raise error.PyAsn1Error('Component type error %s' % (value,)) def getComponentByPosition(self, idx): return self._componentValues[idx] def setComponentByPosition(self, idx, value=None, verifyConstraints=True): l = len(self._componentValues) if idx >= l: self._componentValues = self._componentValues + (idx-l+1)*[None] if value is None: if self._componentValues[idx] is None: if self._componentType is None: raise error.PyAsn1Error('Component type not defined') self._componentValues[idx] = self._componentType.clone() self._componentValuesSet = self._componentValuesSet + 1 return self elif not isinstance(value, base.Asn1Item): if self._componentType is None: raise error.PyAsn1Error('Component type not defined') if isinstance(self._componentType, base.AbstractSimpleAsn1Item): value = self._componentType.clone(value=value) else: raise error.PyAsn1Error('Instance value required') if verifyConstraints: if self._componentType is not None: self._verifyComponent(idx, value) self._verifySubtypeSpec(value, idx) if self._componentValues[idx] is None: self._componentValuesSet = self._componentValuesSet + 1 self._componentValues[idx] = value return self def getComponentTagMap(self): if self._componentType is not None: return self._componentType.getTagMap() def prettyPrint(self, scope=0): scope = scope + 1 r = self.__class__.__name__ + ':\n' for idx in range(len(self._componentValues)): r = r + ' '*scope if self._componentValues[idx] is None: r = r + '<empty>' else: r = r + self._componentValues[idx].prettyPrint(scope) return r class SequenceOf(SetOf): tagSet = baseTagSet = tag.initTagSet( tag.Tag(tag.tagClassUniversal, tag.tagFormatConstructed, 0x10) ) typeId = 2 class SequenceAndSetBase(base.AbstractConstructedAsn1Item): componentType = namedtype.NamedTypes() def __init__(self, componentType=None, tagSet=None, subtypeSpec=None, sizeSpec=None): base.AbstractConstructedAsn1Item.__init__( self, componentType, tagSet, subtypeSpec, sizeSpec ) if self._componentType is None: self._componentTypeLen = 0 else: self._componentTypeLen = len(self._componentType) def __getitem__(self, idx): if isinstance(idx, str): return self.getComponentByName(idx) else: return base.AbstractConstructedAsn1Item.__getitem__(self, idx) def __setitem__(self, idx, value): if isinstance(idx, str): self.setComponentByName(idx, value) else: base.AbstractConstructedAsn1Item.__setitem__(self, idx, value) def _cloneComponentValues(self, myClone, cloneValueFlag): idx = 0; l = len(self._componentValues) while idx < l: c = self._componentValues[idx] if c is not None: if isinstance(c, base.AbstractConstructedAsn1Item): myClone.setComponentByPosition( idx, c.clone(cloneValueFlag=cloneValueFlag) ) else: myClone.setComponentByPosition(idx, c.clone()) idx = idx + 1 def _verifyComponent(self, idx, value): if idx >= self._componentTypeLen: raise error.PyAsn1Error( 'Component type error out of range' ) t = self._componentType[idx].getType() if not t.isSuperTypeOf(value): raise error.PyAsn1Error('Component type error %r vs %r' % (t, value)) def getComponentByName(self, name): return self.getComponentByPosition( self._componentType.getPositionByName(name) ) def setComponentByName(self, name, value=None, verifyConstraints=True): return self.setComponentByPosition( self._componentType.getPositionByName(name), value, verifyConstraints ) def getComponentByPosition(self, idx): try: return self._componentValues[idx] except IndexError: if idx < self._componentTypeLen: return raise def setComponentByPosition(self, idx, value=None, verifyConstraints=True): l = len(self._componentValues) if idx >= l: self._componentValues = self._componentValues + (idx-l+1)*[None] if value is None: if self._componentValues[idx] is None: self._componentValues[idx] = self._componentType.getTypeByPosition(idx).clone() self._componentValuesSet = self._componentValuesSet + 1 return self elif not isinstance(value, base.Asn1Item): t = self._componentType.getTypeByPosition(idx) if isinstance(t, base.AbstractSimpleAsn1Item): value = t.clone(value=value) else: raise error.PyAsn1Error('Instance value required') if verifyConstraints: if self._componentTypeLen: self._verifyComponent(idx, value) self._verifySubtypeSpec(value, idx) if self._componentValues[idx] is None: self._componentValuesSet = self._componentValuesSet + 1 self._componentValues[idx] = value return self def getNameByPosition(self, idx): if self._componentTypeLen: return self._componentType.getNameByPosition(idx) def getDefaultComponentByPosition(self, idx): if self._componentTypeLen and self._componentType[idx].isDefaulted: return self._componentType[idx].getType() def getComponentType(self): if self._componentTypeLen: return self._componentType def setDefaultComponents(self): if self._componentTypeLen == self._componentValuesSet: return idx = self._componentTypeLen while idx: idx = idx - 1 if self._componentType[idx].isDefaulted: if self.getComponentByPosition(idx) is None: self.setComponentByPosition(idx) elif not self._componentType[idx].isOptional: if self.getComponentByPosition(idx) is None: raise error.PyAsn1Error( 'Uninitialized component #%s at %r' % (idx, self) ) def prettyPrint(self, scope=0): scope = scope + 1 r = self.__class__.__name__ + ':\n' for idx in range(len(self._componentValues)): if self._componentValues[idx] is not None: r = r + ' '*scope componentType = self.getComponentType() if componentType is None: r = r + '<no-name>' else: r = r + componentType.getNameByPosition(idx) r = '%s=%s\n' % ( r, self._componentValues[idx].prettyPrint(scope) ) return r class Sequence(SequenceAndSetBase): tagSet = baseTagSet = tag.initTagSet( tag.Tag(tag.tagClassUniversal, tag.tagFormatConstructed, 0x10) ) typeId = 3 def getComponentTagMapNearPosition(self, idx): if self._componentType: return self._componentType.getTagMapNearPosition(idx) def getComponentPositionNearType(self, tagSet, idx): if self._componentType: return self._componentType.getPositionNearType(tagSet, idx) else: return idx class Set(SequenceAndSetBase): tagSet = baseTagSet = tag.initTagSet( tag.Tag(tag.tagClassUniversal, tag.tagFormatConstructed, 0x11) ) typeId = 4 def getComponent(self, innerFlag=0): return self def getComponentByType(self, tagSet, innerFlag=0): c = self.getComponentByPosition( self._componentType.getPositionByType(tagSet) ) if innerFlag and isinstance(c, Set): # get inner component by inner tagSet return c.getComponent(1) else: # get outer component by inner tagSet return c def setComponentByType(self, tagSet, value=None, innerFlag=0, verifyConstraints=True): idx = self._componentType.getPositionByType(tagSet) t = self._componentType.getTypeByPosition(idx) if innerFlag: # set inner component by inner tagSet if t.getTagSet(): return self.setComponentByPosition( idx, value, verifyConstraints ) else: t = self.setComponentByPosition(idx).getComponentByPosition(idx) return t.setComponentByType( tagSet, value, innerFlag, verifyConstraints ) else: # set outer component by inner tagSet return self.setComponentByPosition( idx, value, verifyConstraints ) def getComponentTagMap(self): if self._componentType: return self._componentType.getTagMap(True) def getComponentPositionByType(self, tagSet): if self._componentType: return self._componentType.getPositionByType(tagSet) class Choice(Set): tagSet = baseTagSet = tag.TagSet() # untagged sizeSpec = constraint.ConstraintsIntersection( constraint.ValueSizeConstraint(1, 1) ) typeId = 5 _currentIdx = None def __eq__(self, other): if self._componentValues: return self._componentValues[self._currentIdx] == other return NotImplemented def __ne__(self, other): if self._componentValues: return self._componentValues[self._currentIdx] != other return NotImplemented def __lt__(self, other): if self._componentValues: return self._componentValues[self._currentIdx] < other return NotImplemented def __le__(self, other): if self._componentValues: return self._componentValues[self._currentIdx] <= other return NotImplemented def __gt__(self, other): if self._componentValues: return self._componentValues[self._currentIdx] > other return NotImplemented def __ge__(self, other): if self._componentValues: return self._componentValues[self._currentIdx] >= other return NotImplemented if sys.version_info[0] <= 2: def __nonzero__(self): return bool(self._componentValues) else: def __bool__(self): return bool(self._componentValues) def __len__(self): return self._currentIdx is not None and 1 or 0 def verifySizeSpec(self): if self._currentIdx is None: raise error.PyAsn1Error('Component not chosen') else: self._sizeSpec(' ') def _cloneComponentValues(self, myClone, cloneValueFlag): try: c = self.getComponent() except error.PyAsn1Error: pass else: if isinstance(c, Choice): tagSet = c.getEffectiveTagSet() else: tagSet = c.getTagSet() if isinstance(c, base.AbstractConstructedAsn1Item): myClone.setComponentByType( tagSet, c.clone(cloneValueFlag=cloneValueFlag) ) else: myClone.setComponentByType(tagSet, c.clone()) def setComponentByPosition(self, idx, value=None, verifyConstraints=True): l = len(self._componentValues) if idx >= l: self._componentValues = self._componentValues + (idx-l+1)*[None] if self._currentIdx is not None: self._componentValues[self._currentIdx] = None if value is None: if self._componentValues[idx] is None: self._componentValues[idx] = self._componentType.getTypeByPosition(idx).clone() self._componentValuesSet = 1 self._currentIdx = idx return self elif not isinstance(value, base.Asn1Item): value = self._componentType.getTypeByPosition(idx).clone( value=value ) if verifyConstraints: if self._componentTypeLen: self._verifyComponent(idx, value) self._verifySubtypeSpec(value, idx) self._componentValues[idx] = value self._currentIdx = idx self._componentValuesSet = 1 return self def getMinTagSet(self): if self._tagSet: return self._tagSet else: return self._componentType.genMinTagSet() def getEffectiveTagSet(self): if self._tagSet: return self._tagSet else: c = self.getComponent() if isinstance(c, Choice): return c.getEffectiveTagSet() else: return c.getTagSet() def getTagMap(self): if self._tagSet: return Set.getTagMap(self) else: return Set.getComponentTagMap(self) def getComponent(self, innerFlag=0): if self._currentIdx is None: raise error.PyAsn1Error('Component not chosen') else: c = self._componentValues[self._currentIdx] if innerFlag and isinstance(c, Choice): return c.getComponent(innerFlag) else: return c def getName(self, innerFlag=0): if self._currentIdx is None: raise error.PyAsn1Error('Component not chosen') else: if innerFlag: c = self._componentValues[self._currentIdx] if isinstance(c, Choice): return c.getName(innerFlag) return self._componentType.getNameByPosition(self._currentIdx) def setDefaultComponents(self): pass class Any(OctetString): tagSet = baseTagSet = tag.TagSet() # untagged typeId = 6 def getTagMap(self): return tagmap.TagMap( { self.getTagSet(): self }, { eoo.endOfOctets.getTagSet(): eoo.endOfOctets }, self ) # XXX # coercion rules?
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